diff --git a/content/9.0_Generation_for_Antibody_Engineering.ipynb b/content/9.0_Generation_for_Antibody_Engineering.ipynb new file mode 100644 index 0000000..5a78656 --- /dev/null +++ b/content/9.0_Generation_for_Antibody_Engineering.ipynb @@ -0,0 +1,674 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "5421f438", + "metadata": {}, + "source": [ + "
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\n", + "\n", + "# Antibody Engineering\n", + "\n", + "Comprehensive antibody engineering workflow using BioLM.ai models." + ] + }, + { + "cell_type": "markdown", + "id": "08762079-1e8b-4022-b25f-137764cab9e3", + "metadata": {}, + "source": [ + "Antibodies are highly specific proteins with incredible binding prowess, important immune mediated interactions and high therapuetic potential. Benefiting from recent machine learning success in biology, and specifically protein design , computational antibody engineering has become extremely accessible. In the following guides, motivated by the binder design challenges proposed with the BenchBB dataset and the expediency of the BioLM SDK and API, several ML methods for antibody engineering are demonstrated.\n", + "\n", + "Binder design is largely partisan to two categories, de-novo binder and variant (also called diversified) binder design. \n", + "\n", + "---\n", + "\n", + "- **variant binder design** revolves around modifying existing antibodies already posessing desirable properties inorder to improve certain capabilities. These properies could be a stable / non immunogenic framework, already present binding capability, etc. These methods require an existing moelcule to base further development off of and are thus limited to a smaller design space.\n", + "- **de-novo binder design**, is the novel and disimilar creation of protien binder. It has the advantages of potentially circumventing evolutionary and historical constraints accessing a larger design space as well as side-stepping IP concerns. Fully de-novo antibody design if intended for therapuetic use may run immunogenic risks requiring further humanization. For this reason many antibody engineering efforts restric themselves to the CDRs and surronding regions\n", + "\n", + "\n", + "These first series of guides will focus on variant design methods. Four of the proposed BenchBB targets ('IL7Ra', 'PDL-1', 'EGFR' and 'MBP') have solved structures of antibodies in complex with the target deposited in the pdb." + ] + }, + { + "cell_type": "markdown", + "id": "973ae702", + "metadata": {}, + "source": [ + "## Import Required Libraries" + ] + }, + { + "cell_type": "code", + "execution_count": 57, + "id": "b8ed5dc9", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "from IPython.display import JSON\n", + "import requests\n", + "import json\n", + "import os\n", + "import numpy as np\n", + "import pandas as pd\n", + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import time\n", + "\n", + "from pathlib import Path\n", + "from sklearn.decomposition import PCA\n", + "from Bio import PDB\n", + "from Bio.PDB import *\n", + "\n", + "from biolmai import BioLM\n", + "from matplotlib.font_manager import fontManager, FontProperties\n", + "font_path = \"../font/Geist-Regular.ttf\"\n", + "fontManager.addfont(font_path)\n", + "prop = FontProperties(fname=font_path)\n", + "sns.set_theme(font=prop.get_name(), style=\"white\", context='notebook', palette='pastel')" + ] + }, + { + "cell_type": "markdown", + "id": "f773ffbc", + "metadata": {}, + "source": [ + "## Machine Learning Based Cadidate Proposal for Antibody Engineering\n", + "\n", + "A key component in variant binder design is candidate proposal. Starting with the base protein, variants are created with substitutions, insertions and deletions with the goal of maintaining the functionality of that base protein while potentially improving on important parameters. How those modifications are proposed though has a significant impact on resource cost and success rate. If these variants were proposed by random modification, the candidate space becomes tremendous, scaling exponentially with the number of mutations n, and evaluation of those candidates becomes computationally intractable. Smart heuristics and clever sampling schemes can bring the number of candidates down to manageable levels while maintaining a relatively high expectation of success. One way to do this is to use ML methods to sample the space drawing from models 'learning' the distribution of functional and evolutionarily plausable proteins. The ideal proposal method would only propose functional candiates meeting all desired specifications and properties. A realistic proposal method can be thought of as proposing 'likely' candidates at a scale that can be passed through other additional filters before selecting variants with high confidence to be experimentally tested.\n", + "\n", + "Since the ultimate goal is binding, AntiFold, an inverse folding method that conditions on existing antibody structure and antigen complexes, is selected to generate cnadidate antibody sequences. Four IMGT annotated PDBs corresponding to the targets from the BenchBB dataset are read into strings and then processed by the BioLM SDK." + ] + }, + { + "cell_type": "code", + "execution_count": 58, + "id": "5af9b5ae", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Loaded PDBs for targets: ['MBP', 'EGFR', 'PDL1', 'IL-7RALPHA']\n" + ] + } + ], + "source": [ + "# Load PDBs from BenchBB dataset\n", + "target_pdbs = {}\n", + "pdb_dir = Path('data/protein/benchbb_antibody_targets')\n", + "\n", + "for pdb_file in os.listdir(pdb_dir):\n", + " if pdb_file.endswith('.pdb'):\n", + " if '3c09' in pdb_file:\n", + " target = 'EGFR'\n", + " elif '5x8m' in pdb_file:\n", + " target = 'PDL1'\n", + " elif '5bjz' in pdb_file:\n", + " target = 'MBP'\n", + " elif '6p67' in pdb_file:\n", + " target = 'IL-7RALPHA'\n", + " else:\n", + " continue\n", + " \n", + " # Store PDB string\n", + " with open(pdb_dir / pdb_file, 'r') as f:\n", + " target_pdbs[target] = f.read()\n", + "\n", + "print(f\"Loaded PDBs for targets: {list(target_pdbs.keys())}\")" + ] + }, + { + "cell_type": "code", + "execution_count": 59, + "id": "b0f3ad57-54e9-4d1c-b2bf-bf289cefa6ab", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + "MBP:\n", + " Chain C: EVQLVESGGGLVQPGGSLRLSCAASGFNLS... (length 228)\n", + " Chain L: QMTQSPSSLSASVGDRVTITCRASQSVSSA... (length 213)\n", + " Chain A: KIEEGKLVIWINGDKGYNGLAEVGKKFEKD... (length 367)\n", + "\n", + "EGFR:\n", + " Chain H: QVQLVQSGAEVKKPGASVKVSCKASGYTFT... (length 216)\n", + " Chain L: DIQMTQSPSSLSASVGDRVTITCSASSSVT... (length 211)\n", + " Chain D: KKVCNGIGIGEFKDSLSINATNIKHFKNCT... (length 191)\n", + "\n", + "PDL1:\n", + " Chain B: EVQLVESGGGLVQPGGSLRLSCAASGFTFS... (length 214)\n", + " Chain C: IVLTQSPGTLSLSPGERATLSCRASQRVSS... (length 213)\n", + " Chain A: AFTVTVPKDLYVVEYGSNMTIECKFPVEKE... (length 116)\n", + "\n", + "IL-7RALPHA:\n", + " Chain A: EVQLQQSGPELVKPGASVKMSCKASGYTFS... (length 223)\n", + " Chain B: DIVMTQSHKFMSTLVGDRVSITCKASQDVS... (length 213)\n", + " Chain K: DYSFSCYSQLEVNGSQHSLTCAFEDPDVNT... (length 188)\n" + ] + } + ], + "source": [ + "from biotite.structure.io.pdb import PDBFile, get_structure\n", + "from biotite.structure.residues import get_residues\n", + "from biotite.structure.info import one_letter_code\n", + "from io import StringIO\n", + "\n", + "# Explicit set of valid 3-letter residue names with defined 1-letter codes\n", + "VALID_RESIDUES = {\n", + " \"ALA\", \"ARG\", \"ASN\", \"ASP\", \"CYS\", \"GLN\", \"GLU\", \"GLY\",\n", + " \"HIS\", \"ILE\", \"LEU\", \"LYS\", \"MET\", \"PHE\", \"PRO\", \"SER\",\n", + " \"THR\", \"TRP\", \"TYR\", \"VAL\"\n", + "}\n", + "\n", + "def extract_sequences_from_pdb_str(pdb_str, chain_ids, verbose=False):\n", + " \"\"\"\n", + " Extract ATOM-derived one-letter sequences from specified chains in a PDB string.\n", + " \n", + " Returns:\n", + " dict: {chain_id: sequence_string}\n", + " \"\"\"\n", + " pdbf = PDBFile.read(StringIO(pdb_str))\n", + " structure = get_structure(pdbf, model=1)\n", + "\n", + " seqs = {}\n", + " for chain in chain_ids:\n", + " chain_array = structure[structure.chain_id == chain]\n", + " if chain_array.array_length() == 0:\n", + " print(f\"⚠️ No atoms for chain '{chain}'\")\n", + " continue\n", + "\n", + " res_ids, res_names = get_residues(chain_array)\n", + " if len(res_ids) == 0:\n", + " print(f\"⚠️ No residues found in chain '{chain}'\")\n", + " continue\n", + "\n", + " seq = ''\n", + " for name in res_names:\n", + " if name in VALID_RESIDUES:\n", + " seq += one_letter_code(name)\n", + " else:\n", + " if verbose:\n", + " print(f\"⚠️ Unknown residue '{name}' → skipping\")\n", + " # or optionally: seq += 'X'\n", + " seqs[chain] = seq\n", + "\n", + " return seqs\n", + "\n", + "\n", + "\n", + "\n", + "\n", + "target_chains = {\n", + " \"EGFR\": ['H', 'L', 'D'],\n", + " \"PDL1\": ['B', 'C', 'A'],\n", + " \"MBP\": ['C', 'L', 'A'],\n", + " \"IL-7RALPHA\": ['A', 'B', 'K'],\n", + "}\n", + "\n", + "\n", + "\n", + "# Extract sequences\n", + "target_chain_seqs = {}\n", + "for target, pdb_str in target_pdbs.items():\n", + " chains = target_chains[target]\n", + " target_chain_seqs[target] = extract_sequences_from_pdb_str(pdb_str, chains)\n", + "\n", + "# Example printout\n", + "for target, chain_dict in target_chain_seqs.items():\n", + " print(f\"\\n{target}:\")\n", + " for chain_id, seq in chain_dict.items():\n", + " print(f\" Chain {chain_id}: {seq[:30]}... (length {len(seq)})\")" + ] + }, + { + "cell_type": "markdown", + "id": "e802172c-a69b-4a75-99db-89a781f44257", + "metadata": {}, + "source": [ + "Now that the pdb strings are in memory additional parameters including which chains correspond to the antibody heavy and light chains or the target are specified. The regions of the antibody to be (re)designed are selected as well as the number of returned variants. " + ] + }, + { + "cell_type": "code", + "execution_count": 60, + "id": "224fbe8c-55d0-4e85-acab-b4dc7bb1184b", + "metadata": {}, + "outputs": [], + "source": [ + "# Generate variants using AntiFold\n", + "\n", + "payloads = {}\n", + "\n", + "\n", + "payloads['EGFR'] = {\n", + " \"params\": {\n", + " \"num_seq_per_target\": 100,\n", + " \"sampling_temp\": 0.8,\n", + " \"regions\": [\n", + " \"CDR1\",\n", + " \"CDR2\",\n", + " \"CDR3\"\n", + " ],\n", + " \"light_chain\": \"L\",\n", + " \"heavy_chain\": \"H\",\n", + " \"antigen_chain\": \"D\"\n", + " },\n", + " \"items\": [\n", + " {\n", + " \"pdb\": target_pdbs['EGFR']\n", + " }\n", + " ]\n", + " }\n", + "\n", + "\n", + "\n", + "\n", + "payloads['PDL1'] = {\n", + " \"params\": {\n", + " \"num_seq_per_target\": 100,\n", + " \"sampling_temp\": 0.8,\n", + " \"regions\": [\n", + " \"CDR1\",\n", + " \"CDR2\",\n", + " \"CDR3\"\n", + " ],\n", + " \"light_chain\": \"C\",\n", + " \"heavy_chain\": \"B\",\n", + " \"antigen_chain\": \"A\"\n", + " },\n", + " \"items\": [\n", + " {\n", + " \"pdb\": target_pdbs['PDL1']\n", + " }\n", + " ]\n", + " }\n", + "\n", + "\n", + "\n", + "payloads['MBP']= {\n", + " \"params\": {\n", + " \"num_seq_per_target\": 100,\n", + " \"sampling_temp\": 0.8,\n", + " \"regions\": [\n", + " \"CDR1\",\n", + " \"CDR2\",\n", + " \"CDR3\"\n", + " ],\n", + " \"light_chain\": \"L\",\n", + " \"heavy_chain\": \"C\",\n", + " \"antigen_chain\": \"A\"\n", + " },\n", + " \"items\": [\n", + " {\n", + " \"pdb\": target_pdbs['MBP']\n", + " }\n", + " ]\n", + " }\n", + "\n", + "\n", + "payloads['IL-7RALPHA'] = {\n", + " \"params\": {\n", + " \"num_seq_per_target\": 100,\n", + " \"sampling_temp\": 0.8,\n", + " \"regions\": [\n", + " \"CDR1\",\n", + " \"CDR2\",\n", + " \"CDR3\"\n", + " ],\n", + " \"light_chain\": \"B\",\n", + " \"heavy_chain\": \"A\",\n", + " \"antigen_chain\": \"K\"\n", + " },\n", + " \"items\": [\n", + " {\n", + " \"pdb\": target_pdbs['IL-7RALPHA']\n", + " }\n", + " ]\n", + " }\n" + ] + }, + { + "cell_type": "markdown", + "id": "ab01b73a-824f-4504-b902-c9b7531a1ed1", + "metadata": {}, + "source": [ + "Submitting the pdbs and params to the BioLM SDK generates 100 variants for each target along with model specific metrics like score and global_score." + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "f100be5f-0f43-4fd2-9691-5d4052fde8a3", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Antifold generation took 43.8358 seconds.\n", + "Generated 100 variants for MBP\n", + "Antifold generation took 19.3139 seconds.\n", + "Generated 100 variants for EGFR\n", + "Antifold generation took 21.2159 seconds.\n", + "Generated 100 variants for PDL1\n", + "Antifold generation took 22.7458 seconds.\n", + "Generated 100 variants for IL-7RALPHA\n" + ] + } + ], + "source": [ + "samples_dfs = []\n", + "for target, pdb_str in target_pdbs.items():\n", + " \n", + " start = time.time()\n", + " result = BioLM(entity=\"antifold\", action=\"generate\", items=payloads[target][\"items\"], params=payloads[target][\"params\"])\n", + " end = time.time()\n", + " print(f\"Antifold generation took {end - start:.4f} seconds.\")\n", + " samples_df = pd.DataFrame(result['sequences'])\n", + " samples_df[\"target\"] = target\n", + " samples_dfs.append(samples_df)\n", + " \n", + " print(f\"Generated {len(samples_df)} variants for {target}\")\n", + "samples_dfs = pd.concat(samples_dfs)" + ] + }, + { + "cell_type": "markdown", + "id": "7ad3bb93-fabf-43e4-9cd6-2400b0eea85a", + "metadata": {}, + "source": [ + "Now that the variants are generated, the exact differences can be inspected to make sure the parameters of the generation method were correctly followed. Multiple sequence alignments and CDR extraction are great tools to examing differences among variants especially considering the conserved framworks. Visualizing 10 of the variants against the parent heavy sequence." + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "id": "1a437bf9-ef82-4b0c-ad5a-d4a122eaf6eb", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "import biotite.sequence as seq\n", + "import biotite.sequence.align as align\n", + "import biotite.sequence.graphics as graphics\n", + "\n", + "\n", + "sequences = dict(zip(\n", + " [\"P\"] + samples_dfs[samples_dfs[\"target\"] == \"EGFR\"].index.tolist()[:9],\n", + " [target_chain_seqs[\"EGFR\"][\"H\"]] + samples_dfs[samples_dfs[\"target\"] == \"EGFR\"][\"heavy\"].tolist()[:9]\n", + "))\n", + "\n", + "# Convert to ProteinSequence objects\n", + "protein_seqs = [seq.ProteinSequence(s) for s in sequences.values()]\n", + "\n", + "# Now run align_multiple\n", + "alignment, order, guide_tree, distance_matrix = align.align_multiple(\n", + " protein_seqs,\n", + " matrix=align.SubstitutionMatrix.std_protein_matrix(),\n", + " gap_penalty=-5,\n", + ")\n", + "\n", + "# Order alignment according to guide tree\n", + "alignment = alignment[:, order.tolist()]\n" + ] + }, + { + "cell_type": "code", + "execution_count": 19, + "id": "6a3f7cd0-78cd-4081-ac64-048f2f0e03f8", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "labels = np.array(list(sequences.keys()))[order]\n", + "fig, ax = plt.subplots(figsize=(15.0, 8.0), constrained_layout=False)\n", + "graphics.plot_alignment_type_based(\n", + " ax, alignment, color_scheme=\"blossom\",\n", + " symbols_per_line=50, symbol_size=10,\n", + " labels=labels, label_size=10,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "id": "096238be-2193-4c1c-91c2-fe69f6a55d2d", + "metadata": {}, + "source": [ + "Visualizing the differences in the variants compared to the parent sequence, all of the variability is contained within the CDR regions as expected. Utitlizing ANARCI renumbering to extract the unique CDRS (Alternatively the BioLM SADIE-Antibody API can also do this). EX \n", + "\n", + "```python\n", + "sadie_heavy = pd.DataFrame(BioLM(entity=\"sadie-antibody\", action=\"predict\", type=\"sequence\", items=samples_dfs[\"heavy\"].tolist(), params = {\"allowed_chain\": [\"H\"]}))\n", + "sadie_light = pd.DataFrame(BioLM(entity=\"sadie-antibody\", action=\"predict\", type=\"sequence\", items=samples_dfs[\"heavy\"].tolist(), params = {\"allowed_chain\": [\"K\", \"L\"]}))\n", + "\n", + "```" + ] + }, + { + "cell_type": "code", + "execution_count": 42, + "id": "79f8060c-b1db-4fa9-8310-66ea8bb8e308", + "metadata": {}, + "outputs": [], + "source": [ + "import pandas as pd\n", + "from abnumber import Chain\n", + "\n", + "def extract_cdrs_abnumber(df, heavy_col='heavy', light_col='light', scheme='chothia'):\n", + " def extract_cdrs(seq):\n", + " if pd.isna(seq) or not seq:\n", + " return {'cdr1': None, 'cdr2': None, 'cdr3': None}\n", + " try:\n", + " chain = Chain(seq, scheme=scheme)\n", + " return {\n", + " 'cdr1': chain.cdr1_seq,\n", + " 'cdr2': chain.cdr2_seq,\n", + " 'cdr3': chain.cdr3_seq\n", + " }\n", + " except Exception as e:\n", + " print(f\"Failed to extract CDRs: {e}\")\n", + " return {'cdr1': None, 'cdr2': None, 'cdr3': None}\n", + "\n", + " cdr_data = []\n", + " for _, row in df.iterrows():\n", + " heavy_cdrs = extract_cdrs(row.get(heavy_col))\n", + " light_cdrs = extract_cdrs(row.get(light_col))\n", + "\n", + " cdr_data.append({\n", + " 'heavy_cdr1': heavy_cdrs['cdr1'],\n", + " 'heavy_cdr2': heavy_cdrs['cdr2'],\n", + " 'heavy_cdr3': heavy_cdrs['cdr3'],\n", + " 'light_cdr1': light_cdrs['cdr1'],\n", + " 'light_cdr2': light_cdrs['cdr2'],\n", + " 'light_cdr3': light_cdrs['cdr3'],\n", + " })\n", + "\n", + " cdr_df = pd.DataFrame(cdr_data)\n", + " return pd.concat([df.reset_index(drop=True), cdr_df], axis=1)\n", + "\n" + ] + }, + { + "cell_type": "code", + "execution_count": 43, + "id": "9c33cb24-98fd-4f00-83c1-bac2ee92abac", + "metadata": {}, + "outputs": [], + "source": [ + "df_cdrs = extract_cdrs_abnumber(samples_dfs)" + ] + }, + { + "cell_type": "markdown", + "id": "56043f32-a45e-410f-ad89-70b2e621eb21", + "metadata": {}, + "source": [ + "Visualizing the CDRs, we see the most diversity in CDR H3 the longest CDR and a region often highly responsible for much of an antibodies binding strength, there is mroe significant overlap among variants in the other CDR regions." + ] + }, + { + "cell_type": "code", + "execution_count": 48, + "id": "d95dd1a5-d7c1-4dc4-9d2e-0020b4f98737", + "metadata": {}, + "outputs": [], + "source": [ + "df_melt = df_cdrs.melt(\n", + " value_vars=[\n", + " 'heavy_cdr1', 'heavy_cdr2', 'heavy_cdr3',\n", + " 'light_cdr1', 'light_cdr2', 'light_cdr3'\n", + " ],\n", + " var_name='Chain_CDR',\n", + " value_name='CDR_Seq'\n", + ")\n", + "\n", + "# Extract 'Chain' and 'CDR' from the column names\n", + "df_melt['Chain'] = df_melt['Chain_CDR'].apply(lambda x: 'heavy' if 'heavy' in x else 'light')\n", + "df_melt['CDR'] = df_melt['Chain_CDR'].apply(lambda x: 'CDR1' if 'cdr1' in x else ('CDR2' if 'cdr2' in x else 'CDR3'))\n", + "\n", + "# Count unique sequences\n", + "cdr_counts = (\n", + " df_melt.groupby(['Chain', 'CDR'])['CDR_Seq']\n", + " .nunique()\n", + " .reset_index()\n", + " .rename(columns={'CDR_Seq': 'Unique_Count'})\n", + ")" + ] + }, + { + "cell_type": "code", + "execution_count": 49, + "id": "c305f901-4870-4bd4-b362-781b3acf5e42", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure(figsize=(8, 6))\n", + "sns.barplot(data=cdr_counts, x='CDR', y='Unique_Count', hue='Chain')\n", + "plt.title('Number of Unique CDR Sequences by Region and Chain')\n", + "plt.ylabel('Unique Sequence Count')\n", + "plt.xlabel('CDR Region')\n", + "plt.tight_layout()\n", + "plt.show()" + ] + }, + { + "cell_type": "markdown", + "id": "a4af6dfa-e551-4919-8f4e-d7d99a6d0e32", + "metadata": {}, + "source": [ + "Now that the sequences of the varainats have been examined, the data and scores returned by the AntiFold response can be visualized. The varaiants for each target seem to follow some clear patterns. The score and global score have a similar thread across targets and the number of mutations does not exceed much past 30, or approximately 10% of the sequences modified (consistent with the 3 CDRs for heavy and 3 CDRs for light chains being targeted)." + ] + }, + { + "cell_type": "code", + "execution_count": 50, + "id": "bf92d188-c0e8-4299-baf5-2eed0efddc07", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "features = ['global_score', 'score', 'mutations',\n", + " 'seq_recovery']\n", + "targets = ['target']\n", + "g = sns.pairplot(samples_dfs[features + targets], hue='target')" + ] + }, + { + "cell_type": "markdown", + "id": "7a79897f-7d91-491e-ab0e-6d9edbb4888f", + "metadata": {}, + "source": [ + "Finally these candidates are saved for further scoring and evaluation through additional machine learning based antibody methods." + ] + }, + { + "cell_type": "code", + "execution_count": 53, + "id": "070c59e4-a428-484e-a4f9-6c1caf2e5a96", + "metadata": {}, + "outputs": [], + "source": [ + "df_cdrs[[\"heavy\", \"light\", \"global_score\", \"score\", \"mutations\", \"seq_recovery\", \"target\",'heavy_cdr1', 'heavy_cdr2', 'heavy_cdr3',\n", + " 'light_cdr1', 'light_cdr2', 'light_cdr3']].to_csv(\"data/protein/benchbb_antibody_targets/variant_candidates.csv\", index=False)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "76d432e6-a895-4818-8f45-8bbf52d14276", + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python [conda env:biolm] *", + "language": "python", + "name": "conda-env-biolm-py" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.5" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/content/9.1_Intrinsic_Scoring_for_Antibody_Engineering.ipynb b/content/9.1_Intrinsic_Scoring_for_Antibody_Engineering.ipynb new file mode 100644 index 0000000..c4bef6b --- /dev/null +++ b/content/9.1_Intrinsic_Scoring_for_Antibody_Engineering.ipynb @@ -0,0 +1,336 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "5421f438", + "metadata": {}, + "source": [ + "
\n", + " \n", + "

\n", + "
\n", + "
\n", + "
\n", + "

\n", + "
\n", + "\n", + "# Antibody Engineering\n", + "\n", + "Comprehensive antibody engineering workflow using BioLM.ai models." + ] + }, + { + "cell_type": "markdown", + "id": "08762079-1e8b-4022-b25f-137764cab9e3", + "metadata": {}, + "source": [ + "Antibodies are highly specific proteins with incredible binding prowess, important immune mediated interactions and high therapuetic potential. Benefiting from recent machine learning success in biology, and specifically protein design , computational antibody engineering has become extremely accesible. In the following guides, motivated by the binder design challenges proposed with the BenchBB dataset and the expediency of the BioLM SDK and API, several ml methods for antibody engineering are demonstrated.\n", + "\n", + "---\n", + "## Previously\n", + "\n", + "Using a structure and antigen conditioned candidate proposal method, 100 variants were generated for four of the proposed BenchBB targets ('IL7Ra', 'PDL-1', 'EGFR' and 'MBP') containing solved structures of antibodies in complex with the target deposited in the pdb.\n", + "\n", + "---\n", + "\n", + "While a pre-requisite goal of binder design is molecules that bind, there are additional factors to consider especially with respect to more specific binder goals such as therapuetic potential and manufacturability. The prediction of these properties in-silico for generated variants then becomes another important task, Several of these additional factors can be laeled as intrinsic or extrinsic. The distinction in intrinsic and extrinsic properties can change modeling approaches.\n", + "\n", + "- **Intrinsic properties** are the properties that pertain only to the antibody sequences (and thus structure) themselves or standard interactions (think hydrophobicity as most proteins have to interact with H20 and this shaped the evolutionary trajectory) that are conditioned on. This can include thermostability (which can affect shelf life and transport considerations for therapuetics), solubility and expression (which can affect yeild and manufacturing capability), self aggregation (antibodies ability to bind to itself), viscosity and immunogenicity / humanness (some might argue this belongs in the extrinsic property category).\n", + "- **Extrinsic properties** are the properties that pertain to the antibodies interactions with other molecules and environments. Binding falls into this category as does other PPI base properties including specificity and cross reactivity / promiscuity. \n", + "\n", + "Protein language models that have been trained on large corpus of protein sequences can be reasonably expected to capture some intrinsic properties as a base level of thermostability and solubility, etc must have been selected for during evolution in order for these proteins to be functional. These models can score sequences using likelihoods which can be thought of as a ranking proxy for how \"natural\" the scored sequence is with respect to the models' training data (in the case of PLMs this is natural proteins). A few limitations of this scoring appproach is that without further interpretive tools / analysis, individual intrinsic properties are difficult to decouple from the rankings. Furthermore de-novo and very disimilar proteins might be scored poorly the further out of distribution they are, and again without further analysis it can be difficult to determine why (is it a nonfunctional protein or bypassed evolutionary trajectory).\n", + "\n", + "Below several PLM scoring methods are demonstrated\n" + ] + }, + { + "cell_type": "markdown", + "id": "973ae702", + "metadata": {}, + "source": [ + "## Import Required Libraries" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "b8ed5dc9", + "metadata": {}, + "outputs": [], + "source": [ + "from IPython.display import JSON\n", + "import requests\n", + "import json\n", + "import numpy as np\n", + "import pandas as pd\n", + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import time\n", + "\n", + "from pathlib import Path\n", + "from sklearn.decomposition import PCA\n", + "from Bio import PDB\n", + "from Bio.PDB import *\n", + "\n", + "from biolmai import BioLM\n", + "from matplotlib.font_manager import fontManager, FontProperties\n", + "font_path = \"../font/Geist-Regular.ttf\"\n", + "fontManager.addfont(font_path)\n", + "prop = FontProperties(fname=font_path)\n", + "sns.set_theme(font=prop.get_name(), style=\"white\", context='notebook', palette='pastel')" + ] + }, + { + "cell_type": "markdown", + "id": "9729f2f2", + "metadata": {}, + "source": [ + "# Sequence Based Scoring of Candidates\n", + "\n", + "Variants are scored using ESM-C (a high performing general protein language model by Evolutionary Scale) and IgBERT, an antibody specific paired language model that consideres both antibody chains together. ESM-C scores should reflect \"general\" protein \"naturalness\" and IgBERT paired antibody \"naturalness\" potentially capturing or biasing towards different intrinsic properties.\n", + "\n", + "First generated variants are loaded and then scored using the BioLM SDK." + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "e5a4a77d-bd91-4b8a-9349-7cbafc88b04b", + "metadata": {}, + "outputs": [], + "source": [ + "samples_df = pd.read_csv(\"data/protein/benchbb_antibody_targets/variant_candidates.csv\")" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "62e62946", + "metadata": {}, + "outputs": [], + "source": [ + "def batch_and_score_esmc(\n", + " df,\n", + " column='sequence'\n", + "):\n", + " \"\"\"\n", + " Sends sequences in batches to a model API, collects logits, and computes log-probabilities.\n", + "\n", + " Assumes:\n", + " - Response includes:\n", + " - logits: list[list[float]] of shape (L+1, 20)\n", + " - vocab_tokens: list[str] of canonical amino acids (length 20)\n", + " \n", + " Returns:\n", + " List of dicts: {'sequence': str, 'log_prob_sum': float}\n", + " \"\"\"\n", + " results=[]\n", + " sequences = df[column].tolist()\n", + "\n", + " start = time.time()\n", + " result = BioLM(entity=\"esmc-300m\", action=\"encode\",type=\"sequence\", items=sequences, params={\"include\": ['logits']})\n", + " end = time.time()\n", + " print(f\"ESMC scoring took {end - start:.4f} seconds.\")\n", + "\n", + " for seq, item in zip(sequences, result):\n", + " logits = np.array(item[\"logits\"]) # shape (L+1, 20)\n", + " vocab_tokens = item[\"vocab_tokens\"]\n", + "\n", + " log_prob_sum = 0.0\n", + " for pos, aa in enumerate(seq):\n", + " try:\n", + " aa_idx = vocab_tokens.index(aa)\n", + " except ValueError:\n", + " log_prob_sum += float('-inf')\n", + " continue\n", + "\n", + " logits_slice = logits[pos]\n", + " # numerically stable log_softmax\n", + " max_logit = np.max(logits_slice)\n", + " exps = np.exp(logits_slice - max_logit)\n", + " log_probs = logits_slice - max_logit - np.log(np.sum(exps))\n", + "\n", + " log_prob_sum += log_probs[aa_idx]\n", + "\n", + " results.append({\n", + " \"sequence\": seq,\n", + " \"log_prob_sum\": float(log_prob_sum)\n", + " })\n", + "\n", + " return results\n" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "bc2c355f-d51d-4e26-9ba5-b96b7cf6adab", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "ESMC scoring took 529.7984 seconds.\n", + "ESMC scoring took 680.2055 seconds.\n" + ] + } + ], + "source": [ + "esmc_heavy = pd.DataFrame(batch_and_score_esmc(samples_df, \"heavy\")).rename(columns={\"log_prob_sum\": \"esmc_lp_heavy\"})\n", + "esmc_light = pd.DataFrame(batch_and_score_esmc(samples_df, \"light\")).rename(columns={\"log_prob_sum\": \"esmc_lp_light\"})\n", + "samples_df = samples_df.merge(esmc_heavy, how=\"left\", left_on=\"heavy\", right_on=\"sequence\")\n", + "samples_df = samples_df.merge(esmc_light, how=\"left\", left_on=\"light\", right_on=\"sequence\")" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "id": "d708ac53-2c44-460f-baae-c1a77d4a5fcf", + "metadata": {}, + "outputs": [], + "source": [ + "def batch_and_score_igbert(\n", + " df,\n", + " heavy_col='heavy',\n", + " light_col='light'\n", + "):\n", + " \"\"\"\n", + " Sends heavy/light chain pairs in batches to an API, and collects log-probs from response.\n", + "\n", + " Assumes:\n", + " - Response includes:\n", + " - results: list of dicts\n", + " - each has 'log_prob' key with a float\n", + " Returns:\n", + " List of dicts: {'heavy': str, 'light': str, 'log_prob': float}\n", + " \"\"\"\n", + " results = []\n", + " heavy_list = df[heavy_col].tolist()\n", + " light_list = df[light_col].tolist()\n", + "\n", + " data = [{\"heavy\": h, \"light\": l} for h, l in zip(heavy_list, light_list)]\n", + "\n", + " start = time.time()\n", + " result = BioLM(entity=\"igbert-paired\", action=\"predict\", items=data)\n", + " end = time.time()\n", + " \n", + " print(f\"IgBERT scoring took {end - start:.4f} seconds.\")\n", + "\n", + " for (h, l), item in zip(zip(heavy_list, light_list), result):\n", + " log_prob = item.get(\"log_prob\", float('-inf'))\n", + " results.append({\n", + " \"heavy\": h,\n", + " \"light\": l,\n", + " \"log_prob\": log_prob\n", + " })\n", + "\n", + " return results\n" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "id": "084f0aa1-3189-467b-8223-d22aa187afa2", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "IgBERT scoring took 847.0409 seconds.\n" + ] + } + ], + "source": [ + "igbert_paired = pd.DataFrame(batch_and_score_igbert(samples_df)).rename(columns={\"log_prob\": \"igbert_lp\"})\n", + "samples_df = samples_df.merge(igbert_paired, how=\"left\", on=[\"heavy\",\"light\"])" + ] + }, + { + "cell_type": "markdown", + "id": "3a348ac0-b91a-4ce6-a7d3-5f95ee5f8046", + "metadata": {}, + "source": [ + "With the lp scores computed, the separate scores for the heavy and light chain by ESMC are added and then all the scores are normalized by the token length of the sequences for comparison across targets as the length of the tokens affects the total number of terms in the sum." + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "id": "724f8b26-50ab-44c2-b6bc-a99280c3c2a4", + "metadata": {}, + "outputs": [], + "source": [ + "normalized_samples_df = samples_df\n", + "normalized_samples_df[\"esmc_lp_combined\"] = normalized_samples_df[\"esmc_lp_light\"] + normalized_samples_df[\"esmc_lp_heavy\"]\n", + "normalized_samples_df[\"heavy_len\"] = normalized_samples_df[\"heavy\"].str.len()\n", + "normalized_samples_df[\"light_len\"] = normalized_samples_df[\"light\"].str.len()\n", + "normalized_samples_df[\"esmc_lp_combined_normalized\"] = normalized_samples_df[\"esmc_lp_combined\"] / (normalized_samples_df[\"heavy_len\"] + normalized_samples_df[\"light_len\"])\n", + "normalized_samples_df[\"esmc_lp_heavy_normalized\"] = normalized_samples_df[\"esmc_lp_heavy\"] / normalized_samples_df[\"heavy_len\"]\n", + "normalized_samples_df[\"esmc_lp_light_normalized\"] = normalized_samples_df[\"esmc_lp_light\"] / normalized_samples_df[\"light_len\"]\n", + "normalized_samples_df[\"igbert_lp_normalized\"] = normalized_samples_df[\"igbert_lp\"] / (normalized_samples_df[\"heavy_len\"] + normalized_samples_df[\"light_len\"])" + ] + }, + { + "cell_type": "markdown", + "id": "858fd7c0-f1c8-46f0-869c-17cb33e9e4bc", + "metadata": {}, + "source": [ + "Finaly visualizing theses normalized scores against the AntiFold scores. The AntiFold score and IgBert lp look to follow a more consistent trend across targets as might be expected of two AntiBody specific models while the ESM-C combined lps have much less overlap between targets and don't show an obvious ranking corresponding to either of the antibody specific scores." + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "id": "5c241adb-33c1-490d-bceb-06e19fc2b388", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "score_features = ['score', \"esmc_lp_combined_normalized\", \"esmc_lp_light_normalized\",\"esmc_lp_heavy_normalized\", \"igbert_lp_normalized\"]\n", + "g = sns.pairplot(normalized_samples_df[score_features + ['target']], hue='target', palette='Paired')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "cde06f47-7831-4f27-9f29-f6b19382293a", + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python [conda env:biolm] *", + "language": "python", + "name": "conda-env-biolm-py" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.5" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/content/9.2_Structural_Scoring_for_Antibody_Engineering.ipynb b/content/9.2_Structural_Scoring_for_Antibody_Engineering.ipynb new file mode 100644 index 0000000..a25877b --- /dev/null +++ b/content/9.2_Structural_Scoring_for_Antibody_Engineering.ipynb @@ -0,0 +1,921 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "5421f438", + "metadata": {}, + "source": [ + "
\n", + " \n", + "

\n", + "
\n", + "
\n", + "
\n", + "

\n", + "
\n", + "\n", + "# Antibody Engineering\n", + "\n", + "Comprehensive antibody engineering workflow using BioLM.ai models." + ] + }, + { + "cell_type": "markdown", + "id": "08762079-1e8b-4022-b25f-137764cab9e3", + "metadata": {}, + "source": [ + "Antibodies are highly specific proteins with incredible binding prowess, important immune mediated interactions and high therapuetic potential. Benefiting from recent machine learning success in biology, and specifically protein design , computational antibody engineering has become extremely accesible. In the following guides, motivated by the binder design challenges proposed with the BenchBB dataset and the expediency of the BioLM SDK and API, several ML methods for antibody engineering are demonstrated.\n", + "\n", + "---\n", + "## Previously\n", + "\n", + "Using a structure and antigen conditioned candidate proposal method, 100 variants were generated for four of the proposed BenchBB targets ('IL7Ra', 'PDL-1', 'EGFR' and MBP) containing solved structures of antibodies in complex with the target deposited in the pdb. Then the varaints were scored using sequence based PLM's for a proxy on desiredd intrinsic poperties\n", + "\n", + "---\n", + "\n", + "One way to model binding is stucture prediction of variant and target compelex. From a predicted complex (assuming it is accurate) popular MD, energy based or rosetta caluculations can be used. Additionally many structure prediction methods offer confidence scores that can be used to rank the quality of poses and have even been demonstrated to correlate with binding success. Furthermore, large changes in rmsd and self consistency from a base structure in the case of varaint design (if the structure is available) can illuminate changes in epitope or neutrilization effects as well as being another way to rank variants.\n" + ] + }, + { + "cell_type": "markdown", + "id": "973ae702", + "metadata": {}, + "source": [ + "## Import Required Libraries" + ] + }, + { + "cell_type": "code", + "execution_count": 36, + "id": "b8ed5dc9", + "metadata": {}, + "outputs": [], + "source": [ + "from IPython.display import JSON\n", + "import requests\n", + "import json\n", + "import numpy as np\n", + "import pandas as pd\n", + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import time\n", + "import py3Dmol\n", + "from pathlib import Path\n", + "from sklearn.decomposition import PCA\n", + "from Bio import PDB\n", + "from Bio.PDB import *\n", + "import os\n", + "from biolmai import BioLM\n", + "from matplotlib.font_manager import fontManager, FontProperties\n", + "font_path = \"../font/Geist-Regular.ttf\"\n", + "fontManager.addfont(font_path)\n", + "prop = FontProperties(fname=font_path)\n", + "sns.set_theme(font=prop.get_name(), style=\"white\", context='notebook', palette='pastel')" + ] + }, + { + "cell_type": "markdown", + "id": "9729f2f2", + "metadata": {}, + "source": [ + "# Structure Based Scoring of Candidates\n", + "\n", + "First generated variants are loaded along with the parent pdbs, then the structures of the variants with their specific target are co-folded with the results being compared against the solved structures." + ] + }, + { + "cell_type": "code", + "execution_count": 38, + "id": "e5a4a77d-bd91-4b8a-9349-7cbafc88b04b", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Loaded PDBs for targets: ['MBP', 'EGFR', 'PDL1', 'IL-7RALPHA']\n" + ] + } + ], + "source": [ + "samples_df = pd.read_csv(\"data/protein/benchbb_antibody_targets/variant_candidates.csv\")\n", + "samples_df[\"Source\"] = \"Variant\"\n", + "# Load PDBs from BenchBB dataset\n", + "target_pdbs = {}\n", + "pdb_dir = Path('data/protein/benchbb_antibody_targets')\n", + "\n", + "for pdb_file in os.listdir(pdb_dir):\n", + " if pdb_file.endswith('.pdb'):\n", + " if '3c09' in pdb_file:\n", + " target = 'EGFR'\n", + " elif '5x8m' in pdb_file:\n", + " target = 'PDL1'\n", + " elif '5bjz' in pdb_file:\n", + " target = 'MBP'\n", + " elif '6p67' in pdb_file:\n", + " target = 'IL-7RALPHA'\n", + " else:\n", + " continue\n", + " \n", + " # Store PDB string\n", + " with open(pdb_dir / pdb_file, 'r') as f:\n", + " target_pdbs[target] = f.read()\n", + "\n", + "print(f\"Loaded PDBs for targets: {list(target_pdbs.keys())}\")" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "c9585ff7-5159-4f23-8e7e-cbfe93e680bd", + "metadata": {}, + "outputs": [], + "source": [ + "from biotite.structure.io.pdb import PDBFile, get_structure\n", + "from biotite.structure.residues import get_residues\n", + "from biotite.structure.info import one_letter_code\n", + "from io import StringIO\n", + "\n", + "# Explicit set of valid 3-letter residue names with defined 1-letter codes\n", + "VALID_RESIDUES = {\n", + " \"ALA\", \"ARG\", \"ASN\", \"ASP\", \"CYS\", \"GLN\", \"GLU\", \"GLY\",\n", + " \"HIS\", \"ILE\", \"LEU\", \"LYS\", \"MET\", \"PHE\", \"PRO\", \"SER\",\n", + " \"THR\", \"TRP\", \"TYR\", \"VAL\"\n", + "}\n", + "\n", + "def extract_sequences_from_pdb_str(pdb_str, chain_ids, verbose=False):\n", + " \"\"\"\n", + " Extract ATOM-derived one-letter sequences from specified chains in a PDB string.\n", + " \n", + " Returns:\n", + " dict: {chain_id: sequence_string}\n", + " \"\"\"\n", + " pdbf = PDBFile.read(StringIO(pdb_str))\n", + " structure = get_structure(pdbf, model=1)\n", + "\n", + " seqs = {}\n", + " for chain in chain_ids:\n", + " chain_array = structure[structure.chain_id == chain]\n", + " if chain_array.array_length() == 0:\n", + " print(f\"⚠️ No atoms for chain '{chain}'\")\n", + " continue\n", + "\n", + " res_ids, res_names = get_residues(chain_array)\n", + " if len(res_ids) == 0:\n", + " print(f\"⚠️ No residues found in chain '{chain}'\")\n", + " continue\n", + "\n", + " seq = ''\n", + " for name in res_names:\n", + " if name in VALID_RESIDUES:\n", + " seq += one_letter_code(name)\n", + " else:\n", + " if verbose:\n", + " print(f\"⚠️ Unknown residue '{name}' → skipping\")\n", + " # or optionally: seq += 'X'\n", + " seqs[chain] = seq\n", + "\n", + " return seqs\n" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "id": "5e8df0d2-4602-4a2c-8ac9-5fc2733c7037", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + "MBP:\n", + " Chain C: EVQLVESGGGLVQPGGSLRLSCAASGFNLS... (length 228)\n", + " Chain L: QMTQSPSSLSASVGDRVTITCRASQSVSSA... (length 213)\n", + " Chain A: KIEEGKLVIWINGDKGYNGLAEVGKKFEKD... (length 367)\n", + "\n", + "EGFR:\n", + " Chain H: QVQLVQSGAEVKKPGASVKVSCKASGYTFT... (length 216)\n", + " Chain L: DIQMTQSPSSLSASVGDRVTITCSASSSVT... (length 211)\n", + " Chain D: KKVCNGIGIGEFKDSLSINATNIKHFKNCT... (length 191)\n", + "\n", + "PDL1:\n", + " Chain B: EVQLVESGGGLVQPGGSLRLSCAASGFTFS... (length 214)\n", + " Chain C: IVLTQSPGTLSLSPGERATLSCRASQRVSS... (length 213)\n", + " Chain A: AFTVTVPKDLYVVEYGSNMTIECKFPVEKE... (length 116)\n", + "\n", + "IL-7RALPHA:\n", + " Chain A: EVQLQQSGPELVKPGASVKMSCKASGYTFS... (length 223)\n", + " Chain B: DIVMTQSHKFMSTLVGDRVSITCKASQDVS... (length 213)\n", + " Chain K: DYSFSCYSQLEVNGSQHSLTCAFEDPDVNT... (length 188)\n" + ] + } + ], + "source": [ + "# Extract sequences per target\n", + "\n", + "target_chains = {\n", + " \"EGFR\": ['H', 'L', 'D'],\n", + " \"PDL1\": ['B', 'C', 'A'],\n", + " \"MBP\": ['C', 'L', 'A'],\n", + " \"IL-7RALPHA\": ['A', 'B', 'K'],\n", + "}\n", + "\n", + "\n", + "\n", + "# Extract sequences\n", + "target_chain_seqs = {}\n", + "for target, pdb_str in target_pdbs.items():\n", + " chains = target_chains[target]\n", + " target_chain_seqs[target] = extract_sequences_from_pdb_str(pdb_str, chains)\n", + "\n", + "# Example printout\n", + "for target, chain_dict in target_chain_seqs.items():\n", + " print(f\"\\n{target}:\")\n", + " for chain_id, seq in chain_dict.items():\n", + " print(f\" Chain {chain_id}: {seq[:30]}... (length {len(seq)})\")" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "id": "c359f17c-12f1-44ca-90b8-9c43770d5dcd", + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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targetheavylighttarget_seqSource
0MBPEVQLVESGGGLVQPGGSLRLSCAASGFNLSSSSIHWVRQAPGKGLE...QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLI...KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEK...Parent
1EGFRQVQLVQSGAEVKKPGASVKVSCKASGYTFTSHWMHWVRQAPGQGLE...DIQMTQSPSSLSASVGDRVTITCSASSSVTYMYWYQQKPGKAPKLL...KKVCNGIGIGEFKDSLSINATNIKHFKNCTSISGDLHILPVAFRGD...Parent
2PDL1EVQLVESGGGLVQPGGSLRLSCAASGFTFSRYWMSWVRQAPGKGLE...IVLTQSPGTLSLSPGERATLSCRASQRVSSSYLAWYQQKPGQAPRL...AFTVTVPKDLYVVEYGSNMTIECKFPVEKELDLAALIVYWEMEDKN...Parent
3IL-7RALPHAEVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLE...DIVMTQSHKFMSTLVGDRVSITCKASQDVSTTVAWYQQKPGQSPKL...DYSFSCYSQLEVNGSQHSLTCAFEDPDVNTTFEICGALVEVKCLNF...Parent
\n", + "
" + ], + "text/plain": [ + " target heavy \\\n", + "0 MBP EVQLVESGGGLVQPGGSLRLSCAASGFNLSSSSIHWVRQAPGKGLE... \n", + "1 EGFR QVQLVQSGAEVKKPGASVKVSCKASGYTFTSHWMHWVRQAPGQGLE... \n", + "2 PDL1 EVQLVESGGGLVQPGGSLRLSCAASGFTFSRYWMSWVRQAPGKGLE... \n", + "3 IL-7RALPHA EVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLE... \n", + "\n", + " light \\\n", + "0 QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLI... \n", + "1 DIQMTQSPSSLSASVGDRVTITCSASSSVTYMYWYQQKPGKAPKLL... \n", + "2 IVLTQSPGTLSLSPGERATLSCRASQRVSSSYLAWYQQKPGQAPRL... \n", + "3 DIVMTQSHKFMSTLVGDRVSITCKASQDVSTTVAWYQQKPGQSPKL... \n", + "\n", + " target_seq Source \n", + "0 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEK... Parent \n", + "1 KKVCNGIGIGEFKDSLSINATNIKHFKNCTSISGDLHILPVAFRGD... Parent \n", + "2 AFTVTVPKDLYVVEYGSNMTIECKFPVEKELDLAALIVYWEMEDKN... Parent \n", + "3 DYSFSCYSQLEVNGSQHSLTCAFEDPDVNTTFEICGALVEVKCLNF... Parent " + ] + }, + "execution_count": 9, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "\n", + "target_chain_seqs_standard = []\n", + "target_chain_mapping = target_chains = {\n", + " \"EGFR\": {'H': 'heavy', 'L': 'light', 'D': 'target_seq'},\n", + " \"PDL1\": {'B' : 'heavy', 'C': 'light', 'A': 'target_seq'},\n", + " \"MBP\": {'C': 'heavy', 'L':'light', 'A': 'target_seq'},\n", + " \"IL-7RALPHA\": {'A': 'heavy', 'B': 'light', 'K': 'target_seq'},\n", + "}\n", + "\n", + "for target, chain_dict in target_chain_seqs.items():\n", + " _parent_dict = {\"target\": target}\n", + " for chain_id, seq in chain_dict.items():\n", + " _parent_dict[target_chain_mapping[target][chain_id]] = seq\n", + " target_chain_seqs_standard.append(_parent_dict) \n", + "\n", + "parent_df = pd.DataFrame(target_chain_seqs_standard)\n", + "parent_df[\"Source\"] = \"Parent\"\n", + "parent_df" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "id": "cbf6992a-03b3-4607-ad6a-03c47523e778", + "metadata": {}, + "outputs": [], + "source": [ + "samples_df = pd.concat([parent_df, samples_df])" + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "id": "54d592ed-2da7-4b85-aecd-053e0c3002dd", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + "MBP (target chain only):\n", + "ATOM 1 N LYS A 1 -25.266 -22.849 47.898 1.00 0.00 N \n", + "ATOM 2 CA LYS A 1 -26.323 -23.641 48.512 1.00 0.00 C \n", + "ATOM 3 C LYS A 1 -25.808 -24.439 49.701 1.00 0.00 C \n", + "ATOM 4 O LYS A 1 -24.696 -24.965 49.678 1\n", + "\n", + "EGFR (target chain only):\n", + "ATOM 1 N LYS D 310 -25.331 12.248 -47.196 1.00 0.00 N \n", + "ATOM 2 CA LYS D 310 -24.379 11.706 -46.154 1.00 0.00 C \n", + "ATOM 3 C LYS D 310 -22.975 12.348 -46.176 1.00 0.00 C \n", + "ATOM 4 O LYS D 310 -22.349 12.421 -47.233 1\n", + "\n", + "PDL1 (target chain only):\n", + "ATOM 1 N ALA A 18 30.627 85.052 81.072 1.00 0.00 N \n", + "ATOM 2 CA ALA A 18 31.818 85.729 80.588 1.00 0.00 C \n", + "ATOM 3 C ALA A 18 31.667 87.235 80.747 1.00 0.00 C \n", + "ATOM 4 O ALA A 18 32.592 87.891 81.225 1\n", + "\n", + "IL-7RALPHA (target chain only):\n", + "ATOM 1 N ASP K 17 1.795 -75.358 -20.525 1.00 0.00 N \n", + "ATOM 2 CA ASP K 17 2.364 -74.658 -19.381 1.00 0.00 C \n", + "ATOM 3 C ASP K 17 1.601 -73.368 -19.098 1.00 0.00 C \n", + "ATOM 4 O ASP K 17 1.447 -72.523 -19.979 1\n" + ] + } + ], + "source": [ + "from biotite.structure.io.pdb import PDBFile, get_structure\n", + "from io import StringIO\n", + "\n", + "def extract_target_chain_pdbs(target_pdbs: dict, target_chains: dict) -> dict:\n", + " \"\"\"\n", + " Extract only the target chain (labeled 'target_seq') from each PDB string \n", + " and return a dictionary with PDB strings containing only that chain.\n", + "\n", + " Args:\n", + " target_pdbs (dict): {target_name: full_pdb_string}\n", + " target_chains (dict): {target_name: {chain_id: role}}\n", + "\n", + " Returns:\n", + " dict: {target_name: pdb_string_of_target_chain_only}\n", + " \"\"\"\n", + " extracted_pdbs = {}\n", + "\n", + " for target, pdb_str in target_pdbs.items():\n", + " chain_map = target_chains[target]\n", + " target_chain_ids = [cid for cid, role in chain_map.items() if role == \"target_seq\"]\n", + " if not target_chain_ids:\n", + " print(f\"⚠️ No 'target_seq' chain found for target '{target}'\")\n", + " continue\n", + " target_chain_id = target_chain_ids[0]\n", + "\n", + " # Read PDB structure\n", + " pdbf = PDBFile.read(StringIO(pdb_str))\n", + " structure = get_structure(pdbf, model=1)\n", + "\n", + " # Filter structure for target chain\n", + " target_atoms = structure[structure.chain_id == target_chain_id]\n", + " if target_atoms.array_length() == 0:\n", + " print(f\"⚠️ Chain '{target_chain_id}' not found in target '{target}'\")\n", + " continue\n", + "\n", + " # Write filtered structure back to PDB format\n", + " out_buf = StringIO()\n", + " new_pdbf = PDBFile()\n", + " new_pdbf.set_structure(target_atoms)\n", + " new_pdbf.write(out_buf)\n", + " extracted_pdbs[target] = out_buf.getvalue()\n", + "\n", + " return extracted_pdbs\n", + "\n", + "\n", + "\n", + "\n", + "target_pdbs_target_only = extract_target_chain_pdbs(target_pdbs, target_chains)\n", + "\n", + "# Print the first few lines of each extracted chain\n", + "for target, pdb_str in target_pdbs_target_only.items():\n", + " print(f\"\\n{target} (target chain only):\\n{pdb_str[:300]}\")" + ] + }, + { + "cell_type": "markdown", + "id": "defbee62", + "metadata": {}, + "source": [ + "# 3. Structural Validation of Candidates\n", + "\n", + "Fold variants and calculate RMSD from parent structures. Below are the target seqs as defined via PDB fasta entries. Note that not all these residues are extracted from the pdb structures since comparing structure predictions is simplified with an equal number of atoms between prediction and truth." + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "id": "6fbd653c", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "target_seqs = {}\n", + "target_seqs[\"PDL1\"] = \"AFTVTVPKDLYVVEYGSNMTIECKFPVEKELDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYHHHHHH\"\n", + "target_seqs[\"EGFR\"] = \"LEEKKVCNGIGIGEFKDSLSINATNIKHFKNCTSISGDLHILPVAFRGDSFTHTPPLDPQELDILKTVKEITGFLLIQAWPENRTDLHAFENLEIIRGRTKQHGQFSLAVVSLNITSLGLRSLKEISDGDVIISGNKNLCYANTINWKKLFGTSGQKTKIISNRGENSCKATGQVCHALCSPEGCWGPEPRDCVSCRNVSRGRECVDKHHHHHH\"\n", + "target_seqs[\"IL-7RALPHA\"] = \"GSHMESGYAQNGDLEDAELDDYSFSCYSQLEVNGSQHSLTCAFEDPDVNTTNLEFEICGALVEVKCLNFRKLQEIYFIETKKFLLIGKSNICVKVGEKSLTCKKIDLTTIVKPEAPFDLSVVYREGANDFVVTFNTSHLQKKYVKVLMHDVAYRQEKDENKWTHVNLSSTKLTLLQRKLQPAAMYEIKVRSIPDHYFKGFWSEWSPSYYFRTPEINNSSGEMD\"\n", + "target_seqs[\"MBP\"] = \"MKHHHHHHHHHHSSDYKDDDDKGENLYFQGSKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAW\"\n", + "\n", + "\n" + ] + }, + { + "cell_type": "markdown", + "id": "74924fef-cfb5-4543-9f3a-da365c699b87", + "metadata": {}, + "source": [ + "For some structure prediction methods MSAs (Multiple Sequence Alignments) are reported to increase structure accuracy. The BioLM SDK provides GPU backed access MSAs from up to 3 databases (Note: that this is time consuming and can consume compute rapidly, as such only 1 variant will have msas generated). Furthermore the alignment files can grow quite large and may need to be written to disk." + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "id": "9b1077c4-070c-430b-ac06-c9fd675c2983", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "MSA generation took 578.8894 seconds.\n" + ] + } + ], + "source": [ + "\n", + "def extract_msa(d):\n", + "\n", + " return {key: value[1] for key, value in d.items()}\n", + "\n", + "\n", + "for i, row in samples_df.iterrows():\n", + " if i>0:\n", + " break\n", + " h = row[\"heavy\"]\n", + " l = row[\"light\"]\n", + " target = row[\"target\"]\n", + " target_seq = target_seqs[target]\n", + "\n", + "\n", + "\n", + " \n", + " \n", + " start = time.time()\n", + " msa_result = BioLM(entity=\"alphafold2\", action=\"encode\",type=\"sequence\", items=[h,l,target_seq], params={\"databases\": [\"mgnify\", \"small_bfd\", \"uniref90\"],\"algorithm\": \"mmseqs2\"})\n", + " end = time.time()\n", + " print(f\"MSA generation took {end - start:.4f} seconds.\")\n", + "\n", + " \n" + ] + }, + { + "cell_type": "markdown", + "id": "4a89fb87-6d3f-43e5-89ab-9e243356e690", + "metadata": {}, + "source": [ + "First by predicting the structure of just the heavy and light chains of the variants and parents the rmsd difference between the parents and variants predicted structures can be extracted." + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "id": "8c33c001-404e-4e31-a45b-3817988cf545", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "ab3 structure prediction took 285.5659 seconds.\n" + ] + } + ], + "source": [ + "def batch_and_predict_ab3(\n", + " df,\n", + " heavy_col='heavy',\n", + " light_col='light'\n", + "):\n", + " \"\"\"\n", + " Sends heavy/light chain pairs in batches to an API, and collects pdbs from response.\n", + "\n", + " Assumes:\n", + " - Response includes:\n", + " - results: list of dicts\n", + " - each has 'pdbs' key with a pdb str\n", + " Returns:\n", + " List of dicts: {'heavy': str, 'light': str, 'pdb': str}\n", + " \"\"\"\n", + " results = []\n", + " heavy_list = df[heavy_col].tolist()\n", + " light_list = df[light_col].tolist()\n", + "\n", + " data = [{\"H\": h, \"L\": l} for h, l in zip(heavy_list, light_list)]\n", + "\n", + " start = time.time()\n", + " result = BioLM(entity=\"abodybuilder3-language\", action=\"predict\", items=data)\n", + " end = time.time()\n", + " \n", + " print(f\"ab3 structure prediction took {end - start:.4f} seconds.\")\n", + "\n", + " for (h, l), item in zip(zip(heavy_list, light_list), result):\n", + " results.append({\n", + " \"heavy\": h,\n", + " \"light\": l,\n", + " \"ab3_pdb\": item[\"pdb\"]\n", + " })\n", + "\n", + " return results\n", + "\n", + "\n", + "\n", + "ab3_results = batch_and_predict_ab3(samples_df)" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "id": "2df30276-21ca-4df5-a8d5-a5fa745e49a9", + "metadata": {}, + "outputs": [], + "source": [ + "structure_results = samples_df.merge(pd.DataFrame(ab3_results), how = \"left\", on = [\"heavy\", \"light\"])" + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "id": "8fb3d5ba-ad8a-4b57-ad56-be3d71b64506", + "metadata": {}, + "outputs": [], + "source": [ + "import pandas as pd\n", + "import biotite.structure.io.pdb as pdbio\n", + "import biotite.structure as struc\n", + "import io\n", + "import numpy as np\n", + "\n", + "def extract_ca_coords(atom_array):\n", + " # Use only Cα atoms (1 per residue)\n", + " return atom_array[atom_array.atom_name == \"CA\"].coord\n", + "\n", + "def compute_ab3_rmsd(df: pd.DataFrame) -> pd.DataFrame:\n", + " rmsd_list = []\n", + "\n", + " for target, group in df.groupby(\"target\"):\n", + " parent_rows = group[group[\"Source\"] == \"Parent\"]\n", + " variant_rows = group[group[\"Source\"] == \"Variant\"]\n", + "\n", + " if len(parent_rows) != 1:\n", + " raise ValueError(f\"Target '{target}' must have exactly one Parent structure.\")\n", + "\n", + " # Load parent\n", + " parent_pdb_str = parent_rows.iloc[0][\"ab3_pdb\"]\n", + " parent_file = pdbio.PDBFile.read(io.StringIO(parent_pdb_str))\n", + " parent_struct = parent_file.get_structure(model=1)\n", + " parent_coords = extract_ca_coords(parent_struct)\n", + "\n", + " if len(parent_coords) == 0:\n", + " print(f\"⚠️ Skipping target '{target}' — no Cα atoms found in parent.\")\n", + " continue\n", + "\n", + " for idx, row in variant_rows.iterrows():\n", + " variant_pdb_str = row[\"ab3_pdb\"]\n", + " variant_file = pdbio.PDBFile.read(io.StringIO(variant_pdb_str))\n", + " variant_struct = variant_file.get_structure(model=1)\n", + " variant_coords = extract_ca_coords(variant_struct)\n", + "\n", + " if len(variant_coords) == 0:\n", + " print(f\"[WARN] Skipping variant {idx} for target '{target}' — no Cα atoms.\")\n", + " rmsd = np.nan\n", + " elif len(parent_coords) != len(variant_coords):\n", + " print(f\"[WARN] Length mismatch for target '{target}', variant {idx}:\")\n", + " print(f\" Parent CA atoms: {len(parent_coords)}\")\n", + " print(f\" Variant CA atoms: {len(variant_coords)}\")\n", + " rmsd = np.nan\n", + " else:\n", + " transform = struc.superimpose(parent_coords, variant_coords)[1]\n", + " aligned_coords = transform.apply(variant_coords)\n", + " rmsd = struc.rmsd(parent_coords, aligned_coords)\n", + "\n", + " rmsd_list.append((idx, rmsd))\n", + "\n", + " df[\"ab3_rmsd\"] = np.nan\n", + " for idx, rmsd in rmsd_list:\n", + " df.at[idx, \"ab3_rmsd\"] = rmsd\n", + "\n", + " return df\n" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "id": "ee039341-2a53-4c74-9ef1-2499263ac492", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "structure_results = compute_ab3_rmsd(structure_results)" + ] + }, + { + "cell_type": "code", + "execution_count": 41, + "id": "6cc53270-be14-47e2-ab90-c4f305430393", + "metadata": {}, + "outputs": [], + "source": [ + "import seaborn as sns\n", + "import matplotlib.pyplot as plt\n", + "import pandas as pd\n", + "\n", + "def plot_swarm_with_stats(df, x_col, y_col, hue_col=None, figsize=(6, 6)):\n", + " \"\"\"\n", + " Plots a swarmplot and prints mean and std of y_col grouped by x_col (and optionally hue_col).\n", + "\n", + " Parameters:\n", + " df (pd.DataFrame): Input data.\n", + " x_col (str): Column for x-axis grouping.\n", + " y_col (str): Column for y-axis values.\n", + " hue_col (str): Optional column for hue grouping.\n", + " figsize (tuple): Figure size.\n", + " \"\"\"\n", + " # Plot\n", + " plt.figure(figsize=figsize)\n", + " sns.swarmplot(data=df, x=x_col, y=y_col, hue=hue_col, dodge=True)\n", + " plt.title(f\"Swarmplot of {y_col} grouped by {x_col}\" + (f\" and {hue_col}\" if hue_col else \"\"))\n", + " plt.tight_layout()\n", + " plt.show()\n", + "\n", + " # Print stats\n", + " group_cols = list({x_col, hue_col} if hue_col else {x_col})\n", + " stats = df.groupby(group_cols)[y_col].agg(mean='mean', std='std').reset_index()\n", + "\n", + " # Round for cleaner printing\n", + " stats['mean'] = stats['mean'].round(3)\n", + " stats['std'] = stats['std'].round(3)\n", + "\n", + " print(\"\\nGroup Statistics (mean ± std):\")\n", + " print(stats.to_string(index=False))\n" + ] + }, + { + "cell_type": "code", + "execution_count": 42, + "id": "1428f80f-b8ce-4c3d-a0b2-30e0e1e25801", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + "Group Statistics (mean ± std):\n", + " target mean std\n", + " EGFR 1.485 0.143\n", + "IL-7RALPHA 1.059 0.085\n", + " MBP 1.552 0.135\n", + " PDL1 1.215 0.104\n" + ] + } + ], + "source": [ + "plot_swarm_with_stats(structure_results, x_col=\"target\", y_col=\"ab3_rmsd\", hue_col=\"target\")" + ] + }, + { + "cell_type": "markdown", + "id": "79ff85a7-0ace-4e0b-848d-6726b650fa75", + "metadata": {}, + "source": [ + "We can see that the mean RMSD difference between each variant is above 1 A with standard deviations for the targets ranging from 0.085 to 0.14. This self consistency score can be seen to some extent as a proxy for how well the inversefolding model worked. Do the new variants adopt a similar fold and conformation to the parent. One thing to consider is the flexible nature of the CDR regions however, and often the unbound and bound shape of these regions can be different. Therefore cofolding against the target should provide a better proxy for \"binding\" than free antibody prediction. " + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "id": "9b49cbe8-b22a-4587-abba-52ad0c569c4c", + "metadata": {}, + "outputs": [], + "source": [ + "immunefold_inputs = []\n", + "for i, row in samples_df[samples_df[\"target\"] == \"EGFR\"].iterrows():\n", + "\n", + " h = row[\"heavy\"]\n", + " l = row[\"light\"]\n", + " target = row[\"target\"]\n", + " target_pdb = target_pdbs_target_only[target]\n", + "\n", + " \n", + " \n", + " immunefold_inputs.append({\"H\": h, \"L\": l, \"pdb\": target_pdb})\n", + "def batch_list(lst, n):\n", + " \"\"\"\n", + " Split a list into chunks of size n.\n", + "\n", + " Args:\n", + " lst (list): The list to split.\n", + " n (int): The batch size.\n", + "\n", + " Returns:\n", + " list of lists: A list where each sublist has at most n elements.\n", + " \"\"\"\n", + " return [lst[i:i + n] for i in range(0, len(lst), n)]\n", + "\n", + "immunefold_inputs = batch_list(immunefold_inputs, 1)\n", + "\n", + "immunefold_outputs = BioLM(entity=\"immunefold-antibody\", action=\"predict\", items=immunefold_inputs[:10])" + ] + }, + { + "cell_type": "markdown", + "id": "a18366b2-17a9-45ed-bed6-b176190e76b7", + "metadata": { + "scrolled": true + }, + "source": [ + "Visualizing the outputs of immunefold we see the antibody in compelx with Extracellular Domain III of EGFR. Similar RMSD calculations like those demonstrated with AbodyBuilder can be used and since the output is in complex the predicted structure can be compared to the *solved* structures used as the original input. Interface calculations, MD and perturbation methods can also be used on the complex similar to pipelines used after docking methods. A caviat is that any downstream analysis depends on the accuracy and confidence of the predicted structure. If binding site and binding orientation are incorrect, antibody and antigen structure analysis can be very misleading. Thus confidence metrics such as PLDDT and PTM can be useful in slecting appropriate structures for further analysis and in fact, in some cases been used as thresholds for binder selection. Because of this physics based analysis of predicted complexes remains a robust approach as relaxation, potentials and other techniques can help ensure the validity and quality of the complex." + ] + }, + { + "cell_type": "code", + "execution_count": 37, + "id": "9b30ae9a-0ee3-4498-8406-78f8cb2f2d11", + "metadata": {}, + "outputs": [ + { + "data": { + "application/3dmoljs_load.v0": "
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You appear to be running in JupyterLab (or JavaScript failed to load for some other reason). You need to install the 3dmol extension:
\n jupyter labextension install jupyterlab_3dmol

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You appear to be running in JupyterLab (or JavaScript failed to load for some other reason). You need to install the 3dmol extension:
\n", + " jupyter labextension install jupyterlab_3dmol

\n", + "
\n", + "" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/plain": [ + "" + ] + }, + "execution_count": 37, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "view = py3Dmol.view(js='https://3Dmol.org/build/3Dmol-min.js', width=800, height=400)\n", + "view.addModel(immunefold_outputs[0][\"pdb\"], 'pdb')\n", + "view.setStyle({'model': -1}, {\"cartoon\": {'color': 'spectrum'}})\n", + "view.zoomTo()" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python [conda env:biolm] *", + "language": "python", + "name": "conda-env-biolm-py" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.5" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/content/9.3_Downstream_for_Antibody_Engineering.ipynb b/content/9.3_Downstream_for_Antibody_Engineering.ipynb new file mode 100644 index 0000000..0b0ce33 --- /dev/null +++ b/content/9.3_Downstream_for_Antibody_Engineering.ipynb @@ -0,0 +1,494 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "5421f438", + "metadata": {}, + "source": [ + "
\n", + " \n", + "

\n", + "
\n", + "
\n", + "
\n", + "

\n", + "
\n", + "\n", + "# Antibody Engineering\n", + "\n", + "Comprehensive antibody engineering workflow using BioLM.ai models." + ] + }, + { + "cell_type": "markdown", + "id": "08762079-1e8b-4022-b25f-137764cab9e3", + "metadata": {}, + "source": [ + "Antibodies are highly specific proteins with incredible binding prowess, important immune mediated interactions and high therapuetic potential. Benefiting from recent machine learning success in biology, and specifically protein design , computational antibody engineering has become extremely accesible. In the following guides, motivated by the binder design challenges proposed with the BenchBB dataset and the expediency of the BioLM SDK and API, several ml methods for antibody engineering are demonstrated.\n", + "\n", + "---\n", + "## Previously\n", + "\n", + "Using a structure and antigen conditioned candidate proposal method, 100 variants were generated for four of the proposed BenchBB targets ('IL7Ra', 'PDL-1', 'EGFR' and MBP) containing solved structures of antibodies in complex with the target deposited in the pdb. Then the varaints were scored using sequence based PLM's for a proxy on desired intrinsic poperties. Finally, structure prediction methods were used to examine the self consistency of variants and quality of potential binders. \n", + "\n", + "---\n", + "\n", + "For specific property prediction including binding prediction, specific models can be developed. The data to train these models can be mined from publicly available databases or aquired through earlier rounds of binder design and experimental validation. Importantly, as opposed to the previously examined methods, labels for the data are required.\n", + "\n", + "Extracting relevant numeric features for training this predictors is important and embeddings from PLMs are a popular choice. Below Embeddings are extracted for the varaints.\n" + ] + }, + { + "cell_type": "markdown", + "id": "973ae702", + "metadata": {}, + "source": [ + "## Import Required Libraries" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "b8ed5dc9", + "metadata": {}, + "outputs": [], + "source": [ + "from IPython.display import JSON\n", + "import requests\n", + "import json\n", + "import numpy as np\n", + "import pandas as pd\n", + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import time\n", + "\n", + "from pathlib import Path\n", + "from sklearn.decomposition import PCA\n", + "from Bio import PDB\n", + "from Bio.PDB import *\n", + "\n", + "from biolmai import BioLM\n", + "from matplotlib.font_manager import fontManager, FontProperties\n", + "font_path = \"../font/Geist-Regular.ttf\"\n", + "fontManager.addfont(font_path)\n", + "prop = FontProperties(fname=font_path)\n", + "sns.set_theme(font=prop.get_name(), style=\"white\", context='notebook', palette='pastel')" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "e5a4a77d-bd91-4b8a-9349-7cbafc88b04b", + "metadata": {}, + "outputs": [], + "source": [ + "samples_df = pd.read_csv(\"data/protein/benchbb_antibody_targets/variant_candidates.csv\")" + ] + }, + { + "cell_type": "markdown", + "id": "eca74511", + "metadata": {}, + "source": [ + "Downstream Analysis and Exploration of Candidates\n", + "\n", + "Generate IgT5 embeddings and visualize the results with PCA" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "82e5864d", + "metadata": {}, + "outputs": [], + "source": [ + "# Get IgT5 embeddings\n", + "def batch_and_embed_igt5(\n", + " df,\n", + " heavy_col='heavy',\n", + " light_col='light',\n", + "):\n", + " \"\"\"\n", + " Sends heavy/light chain pairs in batches to an API, and collects embeddings from response.\n", + "\n", + " Assumes:\n", + " - Response includes:\n", + " - results: list of dicts\n", + " - each has 'embeddings' key with a list of floats\n", + " Returns:\n", + " List of dicts: {'heavy': str, 'light': str, 'embedding': list[float]}\n", + " \"\"\"\n", + " results = []\n", + " heavy_list = df[heavy_col].tolist()\n", + " light_list = df[light_col].tolist()\n", + "\n", + " data = [{\"heavy\": h, \"light\": l} for h, l in zip(heavy_list, light_list)]\n", + "\n", + " start = time.time()\n", + " result = BioLM(entity=\"igt5-paired\", action=\"encode\", items=data)\n", + " end = time.time()\n", + " \n", + " print(f\"IgT5 Encoding took {end - start:.4f} seconds.\")\n", + "\n", + " for (h, l), item in zip(zip(heavy_list, light_list), result):\n", + " results.append({\n", + " \"heavy\": h,\n", + " \"light\": l,\n", + " \"embedding\": item[\"embeddings\"]\n", + " })\n", + "\n", + " return results\n" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "a0881162-0d55-4262-846b-7ec84e140b4e", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "IgT5 Encoding took 64.0947 seconds.\n" + ] + } + ], + "source": [ + "igt5_embeddings = batch_and_embed_igt5(samples_df)" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "768760c9", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "# Combine embeddings and perform PCA\n", + "all_embeddings = []\n", + "for item in igt5_embeddings:\n", + " all_embeddings.append(item[\"embedding\"])\n", + "\n", + "# Convert to numpy array\n", + "X = np.array(all_embeddings)\n", + "\n", + "# Perform PCA\n", + "pca = PCA(n_components=2)\n", + "X_pca = pca.fit_transform(X)\n", + "\n", + "# Create DataFrame for plotting\n", + "plot_df = pd.DataFrame({\n", + " 'PC1': X_pca[:, 0],\n", + " 'PC2': X_pca[:, 1],\n", + " 'Target': samples_df[\"target\"],\n", + " 'Mutations': samples_df[\"mutations\"]\n", + "})\n", + "\n", + "# Plot\n", + "plt.figure(figsize=(10, 8))\n", + "s = sns.scatterplot(data=plot_df, x=\"PC1\", y=\"PC2\", hue=\"Mutations\", style=\"Target\")\n", + "\n", + "plt.title('PCA of IgT5 Embeddings by Target')\n", + "plt.show()" + ] + }, + { + "cell_type": "markdown", + "id": "95f7bc26-35b5-42ec-b337-0d00dc32721b", + "metadata": {}, + "source": [ + "We can see that there is clear separation as projected with PCA among the variants with respect to the targets. There is also some spread along the first two principal components for variants within each cluster although less so for the MBP target cluster. To aid in interpretation of what properties the latent space of the model is actually extracting, physio-chemical and QSAR descriptors can be correlated with the embeddings principal components. These features can also be used to train property predictive models." + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "82436530-876e-46b2-a695-5271a64326af", + "metadata": {}, + "outputs": [], + "source": [ + "def batch_and_encode_peptides(\n", + " df,\n", + " sequence_col='sequence',\n", + "):\n", + " \"\"\"\n", + " Sends sequences in batches to an API, and collects embeddings from response.\n", + "\n", + " Assumes:\n", + " - Response includes:\n", + " - results: list of dicts\n", + " - each has 'features' key with a list of floats\n", + " Returns:\n", + " List of dicts: {'sequence': str, 'features': dict[str:float]}\n", + " \"\"\"\n", + " results = []\n", + " sequences = df[sequence_col].tolist()\n", + "\n", + " data = [{\"sequence\": seq} for seq in sequences]\n", + "\n", + " start = time.time()\n", + " result = BioLM(entity=\"peptides\", action=\"encode\", items=data)\n", + " end = time.time()\n", + " \n", + " print(f\"Peptides Encoding took {end - start:.4f} seconds.\")\n", + "\n", + " for seq, item in zip(sequences, result):\n", + " results.append({\n", + " \"sequence\": seq, **item[\"features\"]\n", + " })\n", + "\n", + " return results" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "id": "4f0c14eb-11cc-45f1-a787-3fd8d565298d", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Peptides Encoding took 29.6991 seconds.\n", + "Peptides Encoding took 25.0100 seconds.\n" + ] + } + ], + "source": [ + "peptides_results_heavy = batch_and_encode_peptides(samples_df, sequence_col=\"heavy\")\n", + "peptides_results_light = batch_and_encode_peptides(samples_df, sequence_col=\"light\")" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "id": "811999c9-5b1b-42bd-98da-12e47b57a4dd", + "metadata": {}, + "outputs": [], + "source": [ + "peptides_results_heavy = pd.DataFrame(peptides_results_heavy).add_prefix(\"heavy_\")\n", + "peptides_results_light = pd.DataFrame(peptides_results_light).add_prefix(\"light_\")" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "id": "c25a87cc-799c-4ba0-8634-f0645701b656", + "metadata": {}, + "outputs": [], + "source": [ + "pca = PCA(n_components=10)\n", + "pca_components = pca.fit_transform(X)" + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "id": "68571a37-40a6-452f-a345-1a97d7cb3ca9", + "metadata": {}, + "outputs": [], + "source": [ + "drop_list = ['heavy', 'light', 'global_score', 'score', 'mutations', 'seq_recovery', 'heavy_cdr1', 'heavy_cdr2', 'heavy_cdr3', 'light_cdr1',\n", + " 'light_cdr2', 'light_cdr3', 'light_sequence','heavy_sequence']\n", + "correlation_df = pd.concat([samples_df, peptides_results_heavy, peptides_results_light, pd.DataFrame(pca_components, columns = [f\"PC{i}\" for i in range(10)])], axis=1)\n", + "correlation_df.drop(drop_list, inplace=True, axis=1)" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "id": "edf109a3-4037-4d7c-abfb-253267acc2bf", + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "/home/c/anaconda3/envs/biolm/lib/python3.11/site-packages/numpy/lib/function_base.py:2897: RuntimeWarning: invalid value encountered in divide\n", + " c /= stddev[:, None]\n", + "/home/c/anaconda3/envs/biolm/lib/python3.11/site-packages/numpy/lib/function_base.py:2898: RuntimeWarning: invalid value encountered in divide\n", + " c /= stddev[None, :]\n" + ] + } + ], + "source": [ + "features = correlation_df.drop([\"target\"], axis=1).iloc[:, :-10]\n", + "targets = correlation_df.drop([\"target\"], axis=1).iloc[:, -10:]\n", + "\n", + "# Compute correlation between each feature and each target\n", + "correlations = pd.DataFrame({\n", + " target: features.corrwith(targets[target])\n", + " for target in targets.columns\n", + "})\n", + "\n", + "# Get top N correlated features per target\n", + "top_n = 5 # adjust as needed\n", + "results = []\n", + "\n", + "for target in correlations.columns:\n", + " # Drop NaNs and sort by absolute correlation\n", + " series = correlations[target].dropna()\n", + " top_features = series.reindex(series.abs().sort_values(ascending=False).index).head(top_n)\n", + " \n", + " for feature, corr in top_features.items():\n", + " results.append({\n", + " 'IgT5 Principal Component': target,\n", + " 'Feature': feature,\n", + " 'Correlation': corr\n", + " })\n", + "\n", + "# Convert results to a long-form DataFrame\n", + "top_correlations_long = pd.DataFrame(results)\n", + "\n", + "# Optional: Sort final output by target and strength of correlation\n", + "top_correlations_long = top_correlations_long.sort_values(\n", + " by=[\"IgT5 Principal Component\", \"Correlation\"], key=lambda col: col.abs() if col.name == \"Correlation\" else col\n", + ")\n" + ] + }, + { + "cell_type": "code", + "execution_count": 16, + "id": "2aae3b4a-41ec-43e8-b88c-1e9214208ff8", + "metadata": {}, + "outputs": [ + { + "data": { + 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "heatmap_data = top_correlations_long.pivot(index=\"Feature\", columns=\"IgT5 Principal Component\", values=\"Correlation\")\n", + "\n", + "plt.figure(figsize=(12, 6))\n", + "sns.heatmap(heatmap_data, annot=True, center=0, cmap=\"vlag\", linewidths=0.5)\n", + "plt.title(\"Top 5 Feature Correlations with IgT5 Embedding Principal Components\")\n", + "plt.tight_layout()\n", + "plt.show()" + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "id": "e7e57400-6992-4416-9aa9-08c6eaa46920", + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "/home/c/anaconda3/envs/biolm/lib/python3.11/site-packages/seaborn/axisgrid.py:1513: UserWarning: Dataset has 0 variance; skipping density estimate. Pass `warn_singular=False` to disable this warning.\n", + " func(x=vector, **plot_kwargs)\n" + ] + }, + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import numpy as np\n", + "\n", + "top_feats = top_correlations_long[\n", + " top_correlations_long['IgT5 Principal Component'] == component\n", + "]['Feature'].tolist()\n", + "\n", + "data = correlation_df[top_feats + [component] + ['target']]\n", + "\n", + "vars_to_plot = top_feats + [component]\n", + "\n", + "g_hue = sns.PairGrid(data, vars=vars_to_plot, hue='target', palette='pastel')\n", + "\n", + "g_hue.map_lower(sns.scatterplot, alpha=0.5)\n", + "g_hue.map_diag(sns.kdeplot, fill=True, common_norm=False, alpha=0.5)\n", + "\n", + "g_no_hue = sns.PairGrid(data, vars=vars_to_plot)\n", + "\n", + "def regplot_with_scatter(x, y, **kwargs):\n", + " plt.scatter(x, y, color='#7b9acc', alpha=0.3, s=10)\n", + " sns.regplot(x=x, y=y, scatter=False, line_kws={'color': '#b399c8'}, ci=None)\n", + "\n", + "g_no_hue.map_upper(regplot_with_scatter)\n", + "\n", + "plt.close(g_no_hue.fig)\n", + "\n", + "for i in range(len(vars_to_plot)):\n", + " for j in range(i+1, len(vars_to_plot)):\n", + " ax_src = g_no_hue.axes[i, j]\n", + " ax_dst = g_hue.axes[i, j]\n", + "\n", + " ax_dst.clear()\n", + "\n", + " x_data = data[vars_to_plot[j]]\n", + " y_data = data[vars_to_plot[i]]\n", + "\n", + " ax_dst.scatter(x_data, y_data, color='grey', alpha=0.3, s=10)\n", + " sns.regplot(x=x_data, y=y_data, scatter=False, line_kws={'color': 'red'}, ci=None, ax=ax_dst)\n", + "\n", + "g_hue.add_legend(title='Target')\n", + "plt.suptitle(f\"Pairplot of {component}: global regression (upper), hue scatter (lower), hue KDE (diag)\", y=1.03)\n", + "plt.tight_layout()\n", + "plt.show()\n", + "\n" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "0b89e732-f283-4d14-a504-aff1c30d0960", + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python [conda env:biolm] *", + "language": "python", + "name": "conda-env-biolm-py" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.5" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/content/data/protein/benchbb_antibody_targets/3c09_imgt.pdb b/content/data/protein/benchbb_antibody_targets/3c09_imgt.pdb new file mode 100644 index 0000000..8bf6f7c --- /dev/null +++ b/content/data/protein/benchbb_antibody_targets/3c09_imgt.pdb @@ -0,0 +1,8537 @@ +REMARK 5 IMGT RENUMBERED STRUCTURE 3C09 GENERATED BY SABDAB +REMARK 5 ANTIBODY CHAINS ARE RENUMBERED IN THE VARIABLE REGIONS ONLY +REMARK 5 NON ANTIBODY CHAINS ARE LEFT WITH RESIDUE IDS AS IN PDB +REMARK 5 PAIRED_HL HCHAIN=H LCHAIN=L AGCHAIN=D AGTYPE=PROTEIN +REMARK 5 PAIRED_HL HCHAIN=C LCHAIN=B AGCHAIN=A AGTYPE=PROTEIN +ATOM 1 N LYS A 310 -30.061 -36.982 -37.229 1.00 51.20 N +ATOM 2 CA LYS A 310 -30.923 -37.543 -36.163 1.00 51.33 C +ATOM 3 C LYS A 310 -30.286 -38.756 -35.463 1.00 51.23 C +ATOM 4 O LYS A 310 -30.774 -39.178 -34.406 1.00 51.84 O +ATOM 5 CB LYS A 310 -32.328 -37.877 -36.700 1.00 51.24 C +ATOM 6 CG LYS A 310 -32.399 -39.103 -37.626 1.00 51.59 C +ATOM 7 CD LYS A 310 -33.840 -39.452 -38.051 1.00 52.03 C +ATOM 8 CE LYS A 310 -34.347 -38.603 -39.233 1.00 52.71 C +ATOM 9 NZ LYS A 310 -34.724 -37.203 -38.829 1.00 52.67 N +ATOM 10 N LYS A 311 -29.219 -39.322 -36.032 1.00 50.57 N +ATOM 11 CA LYS A 311 -28.474 -40.397 -35.342 1.00 50.00 C +ATOM 12 C LYS A 311 -26.971 -40.308 -35.579 1.00 49.62 C +ATOM 13 O LYS A 311 -26.496 -40.461 -36.709 1.00 49.78 O +ATOM 14 CB LYS A 311 -28.995 -41.796 -35.713 1.00 49.88 C +ATOM 15 N VAL A 312 -26.229 -40.074 -34.501 1.00 48.95 N +ATOM 16 CA VAL A 312 -24.783 -39.880 -34.581 1.00 48.24 C +ATOM 17 C VAL A 312 -24.046 -41.080 -33.989 1.00 47.94 C +ATOM 18 O VAL A 312 -24.109 -41.315 -32.787 1.00 48.10 O +ATOM 19 CB VAL A 312 -24.373 -38.564 -33.877 1.00 48.13 C +ATOM 20 CG1 VAL A 312 -22.860 -38.449 -33.732 1.00 47.93 C +ATOM 21 CG2 VAL A 312 -24.930 -37.372 -34.636 1.00 47.64 C +ATOM 22 N CYS A 313 -23.348 -41.836 -34.831 1.00 47.56 N +ATOM 23 CA CYS A 313 -22.694 -43.071 -34.378 1.00 47.21 C +ATOM 24 C CYS A 313 -21.187 -42.994 -34.457 1.00 46.86 C +ATOM 25 O CYS A 313 -20.632 -42.461 -35.416 1.00 46.77 O +ATOM 26 CB CYS A 313 -23.151 -44.277 -35.198 1.00 47.26 C +ATOM 27 SG CYS A 313 -24.744 -44.061 -35.957 1.00 46.93 S +ATOM 28 N ASN A 314 -20.541 -43.560 -33.445 1.00 46.52 N +ATOM 29 CA ASN A 314 -19.099 -43.717 -33.427 1.00 46.44 C +ATOM 30 C ASN A 314 -18.591 -44.404 -34.689 1.00 46.33 C +ATOM 31 O ASN A 314 -19.187 -45.371 -35.153 1.00 46.37 O +ATOM 32 CB ASN A 314 -18.692 -44.486 -32.173 1.00 46.39 C +ATOM 33 CG ASN A 314 -18.975 -43.706 -30.896 1.00 46.46 C +ATOM 34 OD1 ASN A 314 -19.443 -42.562 -30.932 1.00 46.57 O +ATOM 35 ND2 ASN A 314 -18.681 -44.319 -29.762 1.00 46.38 N +ATOM 36 N GLY A 315 -17.509 -43.883 -35.257 1.00 46.28 N +ATOM 37 CA GLY A 315 -16.990 -44.392 -36.528 1.00 46.42 C +ATOM 38 C GLY A 315 -15.859 -45.380 -36.357 1.00 46.50 C +ATOM 39 O GLY A 315 -15.545 -45.786 -35.237 1.00 46.36 O +ATOM 40 N ILE A 316 -15.239 -45.774 -37.463 1.00 46.81 N +ATOM 41 CA ILE A 316 -14.084 -46.663 -37.361 1.00 47.51 C +ATOM 42 C ILE A 316 -12.941 -45.967 -36.617 1.00 48.21 C +ATOM 43 O ILE A 316 -12.600 -44.815 -36.912 1.00 48.29 O +ATOM 44 CB ILE A 316 -13.651 -47.256 -38.734 1.00 47.25 C +ATOM 45 CG1 ILE A 316 -14.289 -48.623 -38.936 1.00 46.74 C +ATOM 46 CG2 ILE A 316 -12.147 -47.468 -38.809 1.00 47.09 C +ATOM 47 CD1 ILE A 316 -15.777 -48.603 -38.959 1.00 46.81 C +ATOM 48 N GLY A 317 -12.383 -46.668 -35.634 1.00 48.89 N +ATOM 49 CA GLY A 317 -11.301 -46.127 -34.833 1.00 49.97 C +ATOM 50 C GLY A 317 -11.788 -45.478 -33.550 1.00 50.82 C +ATOM 51 O GLY A 317 -10.971 -45.078 -32.717 1.00 51.26 O +ATOM 52 N ILE A 318 -13.109 -45.378 -33.383 1.00 51.27 N +ATOM 53 CA ILE A 318 -13.705 -44.803 -32.170 1.00 51.60 C +ATOM 54 C ILE A 318 -14.395 -45.874 -31.329 1.00 52.21 C +ATOM 55 O ILE A 318 -15.085 -46.730 -31.869 1.00 52.56 O +ATOM 56 CB ILE A 318 -14.702 -43.688 -32.508 1.00 51.24 C +ATOM 57 CG1 ILE A 318 -13.960 -42.502 -33.112 1.00 51.15 C +ATOM 58 CG2 ILE A 318 -15.455 -43.254 -31.276 1.00 51.08 C +ATOM 59 CD1 ILE A 318 -14.742 -41.207 -33.104 1.00 51.74 C +ATOM 60 N GLY A 319 -14.191 -45.823 -30.013 1.00 52.81 N +ATOM 61 CA GLY A 319 -14.870 -46.707 -29.062 1.00 53.54 C +ATOM 62 C GLY A 319 -14.858 -48.183 -29.423 1.00 54.18 C +ATOM 63 O GLY A 319 -13.795 -48.803 -29.533 1.00 54.21 O +ATOM 64 N GLU A 320 -16.058 -48.734 -29.614 1.00 54.65 N +ATOM 65 CA GLU A 320 -16.284 -50.130 -30.009 1.00 55.17 C +ATOM 66 C GLU A 320 -15.565 -50.525 -31.296 1.00 55.24 C +ATOM 67 O GLU A 320 -15.565 -51.704 -31.681 1.00 55.66 O +ATOM 68 CB GLU A 320 -17.774 -50.370 -30.217 1.00 55.27 C +ATOM 69 CG GLU A 320 -18.666 -49.499 -29.354 1.00 57.20 C +ATOM 70 CD GLU A 320 -18.921 -48.139 -29.979 1.00 59.18 C +ATOM 71 OE1 GLU A 320 -19.987 -47.993 -30.639 1.00 60.33 O +ATOM 72 OE2 GLU A 320 -18.053 -47.235 -29.823 1.00 59.01 O +ATOM 73 N PHE A 321 -14.969 -49.537 -31.961 1.00 54.98 N +ATOM 74 CA PHE A 321 -14.273 -49.752 -33.215 1.00 54.46 C +ATOM 75 C PHE A 321 -12.842 -49.277 -33.135 1.00 54.23 C +ATOM 76 O PHE A 321 -12.165 -49.213 -34.157 1.00 54.38 O +ATOM 77 CB PHE A 321 -14.997 -49.030 -34.352 1.00 54.35 C +ATOM 78 CG PHE A 321 -16.461 -49.335 -34.426 1.00 54.35 C +ATOM 79 CD1 PHE A 321 -17.390 -48.309 -34.486 1.00 54.56 C +ATOM 80 CD2 PHE A 321 -16.916 -50.653 -34.426 1.00 55.07 C +ATOM 81 CE1 PHE A 321 -18.760 -48.583 -34.562 1.00 55.14 C +ATOM 82 CE2 PHE A 321 -18.278 -50.941 -34.488 1.00 55.43 C +ATOM 83 CZ PHE A 321 -19.206 -49.902 -34.559 1.00 55.17 C +ATOM 84 N LYS A 322 -12.381 -48.952 -31.927 1.00 54.01 N +ATOM 85 CA LYS A 322 -11.040 -48.364 -31.735 1.00 53.73 C +ATOM 86 C LYS A 322 -9.923 -49.190 -32.379 1.00 53.34 C +ATOM 87 O LYS A 322 -8.924 -48.631 -32.839 1.00 53.26 O +ATOM 88 CB LYS A 322 -10.730 -48.091 -30.253 1.00 53.74 C +ATOM 89 N ASP A 323 -10.105 -50.507 -32.431 1.00 52.77 N +ATOM 90 CA ASP A 323 -9.128 -51.370 -33.090 1.00 52.40 C +ATOM 91 C ASP A 323 -9.740 -52.159 -34.254 1.00 51.89 C +ATOM 92 O ASP A 323 -9.213 -53.209 -34.649 1.00 52.24 O +ATOM 93 CB ASP A 323 -8.435 -52.299 -32.078 1.00 52.67 C +ATOM 94 CG ASP A 323 -7.974 -51.564 -30.823 1.00 52.75 C +ATOM 95 OD1 ASP A 323 -7.207 -50.583 -30.943 1.00 51.92 O +ATOM 96 OD2 ASP A 323 -8.383 -51.980 -29.714 1.00 53.11 O +ATOM 97 N SER A 324 -10.854 -51.654 -34.790 1.00 50.82 N +ATOM 98 CA SER A 324 -11.401 -52.144 -36.057 1.00 49.58 C +ATOM 99 C SER A 324 -10.676 -51.435 -37.180 1.00 48.61 C +ATOM 100 O SER A 324 -10.800 -50.222 -37.328 1.00 48.27 O +ATOM 101 CB SER A 324 -12.897 -51.837 -36.175 1.00 49.72 C +ATOM 102 OG SER A 324 -13.636 -52.333 -35.079 1.00 50.07 O +ATOM 103 N LEU A 325 -9.924 -52.191 -37.971 1.00 47.76 N +ATOM 104 CA LEU A 325 -9.166 -51.609 -39.079 1.00 47.20 C +ATOM 105 C LEU A 325 -10.076 -51.143 -40.216 1.00 46.65 C +ATOM 106 O LEU A 325 -9.688 -50.272 -40.997 1.00 46.94 O +ATOM 107 CB LEU A 325 -8.112 -52.583 -39.630 1.00 47.23 C +ATOM 108 CG LEU A 325 -7.206 -53.372 -38.682 1.00 47.71 C +ATOM 109 CD1 LEU A 325 -7.853 -54.712 -38.283 1.00 47.71 C +ATOM 110 CD2 LEU A 325 -5.821 -53.588 -39.297 1.00 47.48 C +ATOM 111 N SER A 326 -11.276 -51.724 -40.309 1.00 45.67 N +ATOM 112 CA SER A 326 -12.181 -51.469 -41.433 1.00 44.62 C +ATOM 113 C SER A 326 -13.640 -51.786 -41.139 1.00 43.90 C +ATOM 114 O SER A 326 -13.935 -52.552 -40.233 1.00 43.87 O +ATOM 115 CB SER A 326 -11.741 -52.290 -42.636 1.00 44.58 C +ATOM 116 OG SER A 326 -12.659 -52.119 -43.690 1.00 44.65 O +ATOM 117 N ILE A 327 -14.546 -51.196 -41.914 1.00 43.15 N +ATOM 118 CA ILE A 327 -15.944 -51.617 -41.919 1.00 42.83 C +ATOM 119 C ILE A 327 -15.994 -53.072 -42.371 1.00 43.05 C +ATOM 120 O ILE A 327 -15.329 -53.439 -43.337 1.00 43.23 O +ATOM 121 CB ILE A 327 -16.795 -50.760 -42.889 1.00 42.68 C +ATOM 122 CG1 ILE A 327 -17.234 -49.461 -42.220 1.00 42.55 C +ATOM 123 CG2 ILE A 327 -18.027 -51.519 -43.377 1.00 42.30 C +ATOM 124 CD1 ILE A 327 -18.138 -48.596 -43.075 1.00 42.67 C +ATOM 125 N ASN A 328 -16.766 -53.906 -41.681 1.00 43.12 N +ATOM 126 CA ASN A 328 -16.940 -55.293 -42.118 1.00 43.14 C +ATOM 127 C ASN A 328 -18.270 -55.937 -41.721 1.00 43.66 C +ATOM 128 O ASN A 328 -19.157 -55.296 -41.139 1.00 43.52 O +ATOM 129 CB ASN A 328 -15.797 -56.147 -41.595 1.00 42.77 C +ATOM 130 CG ASN A 328 -15.556 -55.930 -40.129 1.00 42.07 C +ATOM 131 OD1 ASN A 328 -16.456 -56.088 -39.306 1.00 40.88 O +ATOM 132 ND2 ASN A 328 -14.336 -55.548 -39.790 1.00 41.62 N +ATOM 133 N ALA A 329 -18.374 -57.222 -42.050 1.00 44.24 N +ATOM 134 CA ALA A 329 -19.498 -58.069 -41.686 1.00 44.49 C +ATOM 135 C ALA A 329 -19.882 -57.874 -40.233 1.00 44.69 C +ATOM 136 O ALA A 329 -21.012 -57.500 -39.954 1.00 44.97 O +ATOM 137 CB ALA A 329 -19.160 -59.528 -41.960 1.00 44.64 C +ATOM 138 N THR A 330 -18.942 -58.101 -39.317 1.00 44.90 N +ATOM 139 CA THR A 330 -19.212 -57.940 -37.897 1.00 45.50 C +ATOM 140 C THR A 330 -19.921 -56.617 -37.593 1.00 46.03 C +ATOM 141 O THR A 330 -21.010 -56.614 -37.019 1.00 46.39 O +ATOM 142 CB THR A 330 -17.931 -58.027 -37.064 1.00 45.48 C +ATOM 143 OG1 THR A 330 -17.210 -59.204 -37.431 1.00 46.01 O +ATOM 144 CG2 THR A 330 -18.256 -58.087 -35.580 1.00 45.46 C +ATOM 145 N ASN A 331 -19.326 -55.501 -38.009 1.00 46.48 N +ATOM 146 CA ASN A 331 -19.807 -54.178 -37.579 1.00 46.51 C +ATOM 147 C ASN A 331 -20.769 -53.425 -38.498 1.00 46.62 C +ATOM 148 O ASN A 331 -21.525 -52.606 -38.001 1.00 46.34 O +ATOM 149 CB ASN A 331 -18.630 -53.271 -37.175 1.00 46.40 C +ATOM 150 CG ASN A 331 -17.730 -52.938 -38.332 1.00 45.79 C +ATOM 151 OD1 ASN A 331 -18.165 -52.348 -39.316 1.00 45.59 O +ATOM 152 ND2 ASN A 331 -16.466 -53.320 -38.229 1.00 45.33 N +ATOM 153 N ILE A 332 -20.745 -53.683 -39.810 1.00 47.12 N +ATOM 154 CA ILE A 332 -21.633 -52.960 -40.755 1.00 48.01 C +ATOM 155 C ILE A 332 -23.082 -52.834 -40.256 1.00 48.78 C +ATOM 156 O ILE A 332 -23.750 -51.827 -40.521 1.00 48.69 O +ATOM 157 CB ILE A 332 -21.631 -53.552 -42.194 1.00 47.79 C +ATOM 158 CG1 ILE A 332 -22.445 -52.688 -43.158 1.00 47.22 C +ATOM 159 CG2 ILE A 332 -22.238 -54.945 -42.218 1.00 48.30 C +ATOM 160 CD1 ILE A 332 -22.018 -51.251 -43.240 1.00 47.18 C +ATOM 161 N LYS A 333 -23.543 -53.866 -39.541 1.00 49.68 N +ATOM 162 CA LYS A 333 -24.838 -53.868 -38.860 1.00 50.26 C +ATOM 163 C LYS A 333 -24.999 -52.643 -37.940 1.00 50.73 C +ATOM 164 O LYS A 333 -26.032 -51.971 -37.960 1.00 50.61 O +ATOM 165 CB LYS A 333 -25.006 -55.176 -38.077 1.00 49.99 C +ATOM 166 N HIS A 334 -23.949 -52.344 -37.176 1.00 51.60 N +ATOM 167 CA HIS A 334 -23.934 -51.251 -36.198 1.00 52.66 C +ATOM 168 C HIS A 334 -24.060 -49.859 -36.792 1.00 52.77 C +ATOM 169 O HIS A 334 -23.748 -48.877 -36.109 1.00 53.06 O +ATOM 170 CB HIS A 334 -22.646 -51.297 -35.363 1.00 53.17 C +ATOM 171 CG HIS A 334 -22.866 -51.635 -33.919 1.00 55.24 C +ATOM 172 ND1 HIS A 334 -23.383 -50.727 -33.012 1.00 56.72 N +ATOM 173 CD2 HIS A 334 -22.632 -52.775 -33.223 1.00 56.01 C +ATOM 174 CE1 HIS A 334 -23.460 -51.295 -31.820 1.00 56.96 C +ATOM 175 NE2 HIS A 334 -23.014 -52.538 -31.922 1.00 57.21 N +ATOM 176 N PHE A 335 -24.504 -49.764 -38.047 1.00 52.85 N +ATOM 177 CA PHE A 335 -24.636 -48.467 -38.722 1.00 52.63 C +ATOM 178 C PHE A 335 -26.041 -48.146 -39.226 1.00 52.89 C +ATOM 179 O PHE A 335 -26.228 -47.111 -39.866 1.00 53.17 O +ATOM 180 CB PHE A 335 -23.626 -48.321 -39.874 1.00 52.19 C +ATOM 181 CG PHE A 335 -22.218 -48.043 -39.419 1.00 52.02 C +ATOM 182 CD1 PHE A 335 -21.262 -49.053 -39.409 1.00 51.61 C +ATOM 183 CD2 PHE A 335 -21.842 -46.774 -38.999 1.00 51.97 C +ATOM 184 CE1 PHE A 335 -19.952 -48.803 -38.982 1.00 50.68 C +ATOM 185 CE2 PHE A 335 -20.535 -46.522 -38.573 1.00 51.49 C +ATOM 186 CZ PHE A 335 -19.595 -47.545 -38.562 1.00 50.86 C +ATOM 187 N LYS A 336 -27.027 -49.005 -38.951 1.00 52.96 N +ATOM 188 CA LYS A 336 -28.385 -48.758 -39.466 1.00 53.00 C +ATOM 189 C LYS A 336 -28.928 -47.393 -39.008 1.00 52.99 C +ATOM 190 O LYS A 336 -28.814 -47.025 -37.838 1.00 52.97 O +ATOM 191 CB LYS A 336 -29.349 -49.902 -39.122 1.00 52.81 C +ATOM 192 N ASN A 337 -29.472 -46.644 -39.964 1.00 53.12 N +ATOM 193 CA ASN A 337 -30.098 -45.326 -39.742 1.00 53.20 C +ATOM 194 C ASN A 337 -29.154 -44.203 -39.319 1.00 52.98 C +ATOM 195 O ASN A 337 -29.618 -43.132 -38.905 1.00 53.36 O +ATOM 196 CB ASN A 337 -31.277 -45.401 -38.761 1.00 53.30 C +ATOM 197 CG ASN A 337 -32.358 -46.365 -39.205 1.00 54.08 C +ATOM 198 OD1 ASN A 337 -32.453 -46.735 -40.380 1.00 54.44 O +ATOM 199 ND2 ASN A 337 -33.193 -46.771 -38.257 1.00 54.48 N +ATOM 200 N CYS A 338 -27.846 -44.434 -39.434 1.00 52.24 N +ATOM 201 CA CYS A 338 -26.859 -43.402 -39.130 1.00 51.65 C +ATOM 202 C CYS A 338 -26.985 -42.196 -40.053 1.00 50.88 C +ATOM 203 O CYS A 338 -26.864 -42.322 -41.264 1.00 50.95 O +ATOM 204 CB CYS A 338 -25.458 -43.978 -39.228 1.00 51.85 C +ATOM 205 SG CYS A 338 -25.120 -45.187 -37.939 1.00 53.22 S +ATOM 206 N THR A 339 -27.242 -41.038 -39.463 1.00 49.88 N +ATOM 207 CA THR A 339 -27.338 -39.784 -40.184 1.00 49.33 C +ATOM 208 C THR A 339 -25.944 -39.203 -40.328 1.00 48.90 C +ATOM 209 O THR A 339 -25.523 -38.786 -41.407 1.00 48.86 O +ATOM 210 CB THR A 339 -28.164 -38.784 -39.363 1.00 49.53 C +ATOM 211 OG1 THR A 339 -29.458 -39.341 -39.096 1.00 50.36 O +ATOM 212 CG2 THR A 339 -28.289 -37.418 -40.071 1.00 49.20 C +ATOM 213 N SER A 340 -25.236 -39.179 -39.208 1.00 48.37 N +ATOM 214 CA SER A 340 -23.922 -38.590 -39.123 1.00 47.71 C +ATOM 215 C SER A 340 -22.979 -39.567 -38.447 1.00 47.18 C +ATOM 216 O SER A 340 -23.375 -40.300 -37.542 1.00 46.94 O +ATOM 217 CB SER A 340 -23.990 -37.286 -38.337 1.00 47.80 C +ATOM 218 OG SER A 340 -22.703 -36.890 -37.896 1.00 48.11 O +ATOM 219 N ILE A 341 -21.730 -39.564 -38.901 1.00 46.77 N +ATOM 220 CA ILE A 341 -20.705 -40.479 -38.399 1.00 46.33 C +ATOM 221 C ILE A 341 -19.582 -39.741 -37.669 1.00 45.96 C +ATOM 222 O ILE A 341 -18.761 -39.059 -38.289 1.00 46.21 O +ATOM 223 CB ILE A 341 -20.142 -41.373 -39.536 1.00 46.33 C +ATOM 224 CG1 ILE A 341 -21.277 -42.219 -40.126 1.00 46.52 C +ATOM 225 CG2 ILE A 341 -18.995 -42.249 -39.025 1.00 45.55 C +ATOM 226 CD1 ILE A 341 -20.854 -43.139 -41.221 1.00 47.29 C +ATOM 227 N SER A 342 -19.563 -39.874 -36.347 1.00 45.29 N +ATOM 228 CA SER A 342 -18.510 -39.282 -35.536 1.00 44.80 C +ATOM 229 C SER A 342 -17.251 -40.162 -35.587 1.00 44.42 C +ATOM 230 O SER A 342 -17.135 -41.155 -34.864 1.00 44.29 O +ATOM 231 CB SER A 342 -19.003 -39.075 -34.107 1.00 44.64 C +ATOM 232 OG SER A 342 -17.976 -38.555 -33.292 1.00 45.18 O +ATOM 233 N GLY A 343 -16.319 -39.801 -36.467 1.00 43.96 N +ATOM 234 CA GLY A 343 -15.143 -40.636 -36.723 1.00 43.53 C +ATOM 235 C GLY A 343 -14.850 -40.810 -38.200 1.00 43.14 C +ATOM 236 O GLY A 343 -15.247 -39.979 -39.017 1.00 43.35 O +ATOM 237 N ASP A 344 -14.160 -41.891 -38.547 1.00 42.66 N +ATOM 238 CA ASP A 344 -13.789 -42.148 -39.937 1.00 42.17 C +ATOM 239 C ASP A 344 -14.524 -43.352 -40.492 1.00 41.60 C +ATOM 240 O ASP A 344 -15.023 -44.195 -39.747 1.00 41.51 O +ATOM 241 CB ASP A 344 -12.277 -42.431 -40.070 1.00 42.61 C +ATOM 242 CG ASP A 344 -11.403 -41.515 -39.212 1.00 42.65 C +ATOM 243 OD1 ASP A 344 -11.655 -40.283 -39.162 1.00 41.95 O +ATOM 244 OD2 ASP A 344 -10.436 -42.051 -38.615 1.00 41.70 O +ATOM 245 N LEU A 345 -14.558 -43.439 -41.811 1.00 41.18 N +ATOM 246 CA LEU A 345 -14.985 -44.657 -42.476 1.00 41.05 C +ATOM 247 C LEU A 345 -13.829 -45.237 -43.275 1.00 41.05 C +ATOM 248 O LEU A 345 -13.386 -44.658 -44.261 1.00 41.33 O +ATOM 249 CB LEU A 345 -16.189 -44.403 -43.393 1.00 40.85 C +ATOM 250 CG LEU A 345 -17.492 -43.905 -42.773 1.00 40.42 C +ATOM 251 CD1 LEU A 345 -18.609 -43.937 -43.786 1.00 40.21 C +ATOM 252 CD2 LEU A 345 -17.856 -44.757 -41.593 1.00 40.80 C +ATOM 253 N HIS A 346 -13.321 -46.371 -42.831 1.00 41.03 N +ATOM 254 CA HIS A 346 -12.368 -47.111 -43.619 1.00 41.32 C +ATOM 255 C HIS A 346 -13.144 -48.236 -44.281 1.00 41.01 C +ATOM 256 O HIS A 346 -13.730 -49.076 -43.590 1.00 41.05 O +ATOM 257 CB HIS A 346 -11.300 -47.758 -42.731 1.00 41.82 C +ATOM 258 CG HIS A 346 -10.390 -46.797 -42.027 1.00 43.65 C +ATOM 259 ND1 HIS A 346 -9.020 -46.952 -42.017 1.00 44.96 N +ATOM 260 CD2 HIS A 346 -10.650 -45.702 -41.272 1.00 45.74 C +ATOM 261 CE1 HIS A 346 -8.473 -45.986 -41.302 1.00 46.14 C +ATOM 262 NE2 HIS A 346 -9.441 -45.215 -40.836 1.00 46.93 N +ATOM 263 N ILE A 347 -13.160 -48.264 -45.607 1.00 40.62 N +ATOM 264 CA ILE A 347 -13.527 -49.491 -46.309 1.00 40.26 C +ATOM 265 C ILE A 347 -12.272 -50.032 -47.008 1.00 40.52 C +ATOM 266 O ILE A 347 -11.823 -49.485 -48.011 1.00 40.88 O +ATOM 267 CB ILE A 347 -14.726 -49.285 -47.252 1.00 39.98 C +ATOM 268 CG1 ILE A 347 -15.981 -49.008 -46.423 1.00 39.47 C +ATOM 269 CG2 ILE A 347 -14.950 -50.514 -48.113 1.00 39.38 C +ATOM 270 CD1 ILE A 347 -16.995 -48.099 -47.083 1.00 39.49 C +ATOM 271 N LEU A 348 -11.686 -51.081 -46.441 1.00 40.50 N +ATOM 272 CA LEU A 348 -10.407 -51.598 -46.915 1.00 40.78 C +ATOM 273 C LEU A 348 -10.542 -53.050 -47.429 1.00 40.93 C +ATOM 274 O LEU A 348 -11.387 -53.795 -46.942 1.00 40.70 O +ATOM 275 CB LEU A 348 -9.353 -51.478 -45.800 1.00 40.60 C +ATOM 276 N PRO A 349 -9.719 -53.448 -48.430 1.00 41.31 N +ATOM 277 CA PRO A 349 -9.677 -54.801 -49.020 1.00 41.31 C +ATOM 278 C PRO A 349 -9.943 -56.020 -48.123 1.00 41.62 C +ATOM 279 O PRO A 349 -10.327 -57.062 -48.633 1.00 41.72 O +ATOM 280 CB PRO A 349 -8.263 -54.864 -49.594 1.00 41.26 C +ATOM 281 CG PRO A 349 -8.057 -53.482 -50.105 1.00 41.26 C +ATOM 282 CD PRO A 349 -8.752 -52.560 -49.112 1.00 41.39 C +ATOM 283 N VAL A 350 -9.734 -55.920 -46.819 1.00 42.11 N +ATOM 284 CA VAL A 350 -9.995 -57.072 -45.957 1.00 42.46 C +ATOM 285 C VAL A 350 -11.447 -57.113 -45.512 1.00 42.88 C +ATOM 286 O VAL A 350 -11.888 -58.071 -44.888 1.00 42.92 O +ATOM 287 CB VAL A 350 -9.014 -57.179 -44.754 1.00 42.43 C +ATOM 288 CG1 VAL A 350 -7.583 -57.467 -45.257 1.00 42.45 C +ATOM 289 CG2 VAL A 350 -9.079 -55.936 -43.859 1.00 42.08 C +ATOM 290 N ALA A 351 -12.185 -56.062 -45.841 1.00 43.62 N +ATOM 291 CA ALA A 351 -13.625 -56.041 -45.630 1.00 44.45 C +ATOM 292 C ALA A 351 -14.241 -57.119 -46.495 1.00 44.95 C +ATOM 293 O ALA A 351 -15.075 -57.904 -46.044 1.00 45.20 O +ATOM 294 CB ALA A 351 -14.207 -54.684 -46.004 1.00 44.35 C +ATOM 295 N PHE A 352 -13.800 -57.156 -47.743 1.00 45.44 N +ATOM 296 CA PHE A 352 -14.353 -58.065 -48.712 1.00 45.99 C +ATOM 297 C PHE A 352 -13.725 -59.453 -48.641 1.00 46.50 C +ATOM 298 O PHE A 352 -14.391 -60.443 -48.925 1.00 46.91 O +ATOM 299 CB PHE A 352 -14.243 -57.456 -50.105 1.00 45.76 C +ATOM 300 CG PHE A 352 -14.981 -56.159 -50.242 1.00 45.50 C +ATOM 301 CD1 PHE A 352 -14.313 -54.956 -50.147 1.00 44.96 C +ATOM 302 CD2 PHE A 352 -16.354 -56.143 -50.445 1.00 45.59 C +ATOM 303 CE1 PHE A 352 -15.001 -53.756 -50.271 1.00 44.97 C +ATOM 304 CE2 PHE A 352 -17.044 -54.940 -50.563 1.00 45.16 C +ATOM 305 CZ PHE A 352 -16.368 -53.751 -50.474 1.00 44.60 C +ATOM 306 N ARG A 353 -12.463 -59.532 -48.239 1.00 46.96 N +ATOM 307 CA ARG A 353 -11.793 -60.821 -48.164 1.00 47.64 C +ATOM 308 C ARG A 353 -12.127 -61.580 -46.876 1.00 48.27 C +ATOM 309 O ARG A 353 -12.004 -62.806 -46.830 1.00 48.59 O +ATOM 310 CB ARG A 353 -10.277 -60.662 -48.331 1.00 47.45 C +ATOM 311 N GLY A 354 -12.560 -60.855 -45.843 1.00 48.93 N +ATOM 312 CA GLY A 354 -12.709 -61.416 -44.492 1.00 49.70 C +ATOM 313 C GLY A 354 -11.377 -61.544 -43.762 1.00 50.31 C +ATOM 314 O GLY A 354 -10.316 -61.502 -44.379 1.00 50.06 O +ATOM 315 N ASP A 355 -11.426 -61.707 -42.443 1.00 51.25 N +ATOM 316 CA ASP A 355 -10.200 -61.821 -41.648 1.00 52.21 C +ATOM 317 C ASP A 355 -10.228 -62.976 -40.640 1.00 52.44 C +ATOM 318 O ASP A 355 -11.022 -62.989 -39.696 1.00 51.99 O +ATOM 319 CB ASP A 355 -9.862 -60.482 -40.957 1.00 52.55 C +ATOM 320 CG ASP A 355 -8.522 -60.515 -40.191 1.00 53.70 C +ATOM 321 OD1 ASP A 355 -7.639 -61.349 -40.515 1.00 54.73 O +ATOM 322 OD2 ASP A 355 -8.352 -59.696 -39.257 1.00 54.21 O +ATOM 323 N SER A 356 -9.327 -63.930 -40.861 1.00 53.17 N +ATOM 324 CA SER A 356 -9.144 -65.081 -39.981 1.00 54.02 C +ATOM 325 C SER A 356 -8.652 -64.655 -38.616 1.00 54.47 C +ATOM 326 O SER A 356 -9.318 -64.901 -37.611 1.00 54.72 O +ATOM 327 CB SER A 356 -8.132 -66.062 -40.583 1.00 54.17 C +ATOM 328 OG SER A 356 -6.831 -65.499 -40.648 1.00 54.39 O +ATOM 329 N PHE A 357 -7.485 -64.005 -38.604 1.00 54.91 N +ATOM 330 CA PHE A 357 -6.767 -63.632 -37.373 1.00 55.14 C +ATOM 331 C PHE A 357 -7.618 -62.846 -36.356 1.00 54.97 C +ATOM 332 O PHE A 357 -7.231 -62.703 -35.195 1.00 55.22 O +ATOM 333 CB PHE A 357 -5.458 -62.885 -37.708 1.00 55.15 C +ATOM 334 N THR A 358 -8.765 -62.336 -36.796 1.00 54.45 N +ATOM 335 CA THR A 358 -9.695 -61.680 -35.893 1.00 54.05 C +ATOM 336 C THR A 358 -11.086 -62.278 -36.051 1.00 53.55 C +ATOM 337 O THR A 358 -12.064 -61.725 -35.543 1.00 53.77 O +ATOM 338 CB THR A 358 -9.730 -60.121 -36.083 1.00 54.31 C +ATOM 339 OG1 THR A 358 -10.341 -59.775 -37.338 1.00 54.41 O +ATOM 340 CG2 THR A 358 -8.320 -59.512 -35.995 1.00 54.24 C +ATOM 341 N HIS A 359 -11.162 -63.409 -36.753 1.00 52.75 N +ATOM 342 CA HIS A 359 -12.422 -64.140 -36.976 1.00 52.01 C +ATOM 343 C HIS A 359 -13.545 -63.252 -37.554 1.00 51.35 C +ATOM 344 O HIS A 359 -14.583 -63.030 -36.923 1.00 51.14 O +ATOM 345 CB HIS A 359 -12.864 -64.882 -35.702 1.00 51.92 C +ATOM 346 N THR A 360 -13.317 -62.756 -38.767 1.00 50.52 N +ATOM 347 CA THR A 360 -14.254 -61.867 -39.437 1.00 49.83 C +ATOM 348 C THR A 360 -14.695 -62.408 -40.798 1.00 49.18 C +ATOM 349 O THR A 360 -13.864 -62.647 -41.676 1.00 49.11 O +ATOM 350 CB THR A 360 -13.639 -60.476 -39.594 1.00 49.93 C +ATOM 351 OG1 THR A 360 -13.471 -59.906 -38.294 1.00 50.77 O +ATOM 352 CG2 THR A 360 -14.526 -59.558 -40.437 1.00 50.09 C +ATOM 353 N PRO A 361 -16.017 -62.582 -40.982 1.00 48.53 N +ATOM 354 CA PRO A 361 -16.517 -63.097 -42.238 1.00 47.98 C +ATOM 355 C PRO A 361 -16.236 -62.114 -43.348 1.00 47.50 C +ATOM 356 O PRO A 361 -16.111 -60.914 -43.083 1.00 47.60 O +ATOM 357 CB PRO A 361 -18.032 -63.168 -42.016 1.00 48.03 C +ATOM 358 CG PRO A 361 -18.229 -63.115 -40.558 1.00 48.26 C +ATOM 359 CD PRO A 361 -17.112 -62.284 -40.042 1.00 48.58 C +ATOM 360 N PRO A 362 -16.107 -62.619 -44.585 1.00 47.05 N +ATOM 361 CA PRO A 362 -16.193 -61.774 -45.765 1.00 46.71 C +ATOM 362 C PRO A 362 -17.484 -60.974 -45.742 1.00 46.32 C +ATOM 363 O PRO A 362 -18.513 -61.460 -45.287 1.00 46.15 O +ATOM 364 CB PRO A 362 -16.219 -62.781 -46.908 1.00 46.78 C +ATOM 365 CG PRO A 362 -15.457 -63.938 -46.382 1.00 47.04 C +ATOM 366 CD PRO A 362 -15.830 -64.021 -44.937 1.00 47.03 C +ATOM 367 N LEU A 363 -17.414 -59.739 -46.204 1.00 46.12 N +ATOM 368 CA LEU A 363 -18.568 -58.873 -46.200 1.00 46.09 C +ATOM 369 C LEU A 363 -19.419 -59.123 -47.443 1.00 46.21 C +ATOM 370 O LEU A 363 -18.902 -59.260 -48.560 1.00 46.33 O +ATOM 371 CB LEU A 363 -18.116 -57.414 -46.133 1.00 46.02 C +ATOM 372 CG LEU A 363 -19.130 -56.278 -46.266 1.00 45.91 C +ATOM 373 CD1 LEU A 363 -19.904 -56.051 -44.975 1.00 45.37 C +ATOM 374 CD2 LEU A 363 -18.414 -55.010 -46.694 1.00 46.03 C +ATOM 375 N ASP A 364 -20.725 -59.199 -47.232 1.00 46.05 N +ATOM 376 CA ASP A 364 -21.678 -59.251 -48.320 1.00 46.11 C +ATOM 377 C ASP A 364 -21.899 -57.811 -48.825 1.00 45.75 C +ATOM 378 O ASP A 364 -22.436 -56.960 -48.099 1.00 45.55 O +ATOM 379 CB ASP A 364 -22.959 -59.946 -47.814 1.00 46.56 C +ATOM 380 CG ASP A 364 -24.200 -59.683 -48.682 1.00 47.57 C +ATOM 381 OD1 ASP A 364 -24.097 -59.438 -49.914 1.00 48.39 O +ATOM 382 OD2 ASP A 364 -25.306 -59.747 -48.094 1.00 48.58 O +ATOM 383 N PRO A 365 -21.477 -57.529 -50.074 1.00 45.43 N +ATOM 384 CA PRO A 365 -21.537 -56.168 -50.598 1.00 45.48 C +ATOM 385 C PRO A 365 -22.919 -55.537 -50.446 1.00 45.73 C +ATOM 386 O PRO A 365 -23.022 -54.321 -50.279 1.00 45.78 O +ATOM 387 CB PRO A 365 -21.199 -56.344 -52.080 1.00 45.24 C +ATOM 388 CG PRO A 365 -20.409 -57.557 -52.143 1.00 45.29 C +ATOM 389 CD PRO A 365 -20.947 -58.468 -51.073 1.00 45.40 C +ATOM 390 N GLN A 366 -23.969 -56.353 -50.494 1.00 46.05 N +ATOM 391 CA GLN A 366 -25.331 -55.841 -50.378 1.00 46.36 C +ATOM 392 C GLN A 366 -25.447 -54.946 -49.143 1.00 46.49 C +ATOM 393 O GLN A 366 -26.072 -53.883 -49.204 1.00 46.50 O +ATOM 394 CB GLN A 366 -26.356 -56.983 -50.340 1.00 46.29 C +ATOM 395 N GLU A 367 -24.792 -55.361 -48.054 1.00 46.53 N +ATOM 396 CA GLU A 367 -24.875 -54.679 -46.753 1.00 46.80 C +ATOM 397 C GLU A 367 -24.394 -53.225 -46.766 1.00 46.49 C +ATOM 398 O GLU A 367 -24.888 -52.404 -45.989 1.00 46.14 O +ATOM 399 CB GLU A 367 -24.118 -55.466 -45.680 1.00 46.85 C +ATOM 400 CG GLU A 367 -24.872 -56.686 -45.132 1.00 47.72 C +ATOM 401 CD GLU A 367 -24.031 -57.533 -44.160 1.00 47.79 C +ATOM 402 OE1 GLU A 367 -22.852 -57.852 -44.463 1.00 48.32 O +ATOM 403 OE2 GLU A 367 -24.568 -57.894 -43.089 1.00 49.28 O +ATOM 404 N LEU A 368 -23.439 -52.917 -47.652 1.00 46.36 N +ATOM 405 CA LEU A 368 -22.891 -51.562 -47.806 1.00 45.81 C +ATOM 406 C LEU A 368 -23.980 -50.547 -48.073 1.00 45.86 C +ATOM 407 O LEU A 368 -23.770 -49.351 -47.887 1.00 46.32 O +ATOM 408 CB LEU A 368 -21.870 -51.494 -48.940 1.00 45.59 C +ATOM 409 CG LEU A 368 -20.512 -52.145 -48.706 1.00 45.21 C +ATOM 410 CD1 LEU A 368 -19.663 -52.067 -49.958 1.00 45.10 C +ATOM 411 CD2 LEU A 368 -19.808 -51.491 -47.550 1.00 45.20 C +ATOM 412 N ASP A 369 -25.142 -51.022 -48.509 1.00 45.52 N +ATOM 413 CA ASP A 369 -26.293 -50.151 -48.709 1.00 45.13 C +ATOM 414 C ASP A 369 -26.740 -49.459 -47.422 1.00 44.16 C +ATOM 415 O ASP A 369 -27.442 -48.457 -47.479 1.00 44.06 O +ATOM 416 CB ASP A 369 -27.453 -50.927 -49.347 1.00 45.72 C +ATOM 417 CG ASP A 369 -27.267 -51.130 -50.851 1.00 47.32 C +ATOM 418 OD1 ASP A 369 -26.534 -50.320 -51.479 1.00 48.13 O +ATOM 419 OD2 ASP A 369 -27.857 -52.098 -51.403 1.00 49.21 O +ATOM 420 N ILE A 370 -26.321 -49.986 -46.273 1.00 43.15 N +ATOM 421 CA ILE A 370 -26.674 -49.404 -44.976 1.00 42.31 C +ATOM 422 C ILE A 370 -26.087 -48.005 -44.805 1.00 42.03 C +ATOM 423 O ILE A 370 -26.683 -47.136 -44.163 1.00 41.83 O +ATOM 424 CB ILE A 370 -26.209 -50.276 -43.793 1.00 42.14 C +ATOM 425 CG1 ILE A 370 -26.772 -51.692 -43.903 1.00 41.32 C +ATOM 426 CG2 ILE A 370 -26.635 -49.641 -42.477 1.00 41.96 C +ATOM 427 CD1 ILE A 370 -26.139 -52.689 -42.956 1.00 40.81 C +ATOM 428 N LEU A 371 -24.919 -47.789 -45.394 1.00 41.79 N +ATOM 429 CA LEU A 371 -24.227 -46.509 -45.291 1.00 41.63 C +ATOM 430 C LEU A 371 -24.978 -45.386 -46.028 1.00 41.65 C +ATOM 431 O LEU A 371 -24.507 -44.245 -46.084 1.00 42.03 O +ATOM 432 CB LEU A 371 -22.780 -46.653 -45.794 1.00 41.34 C +ATOM 433 CG LEU A 371 -21.946 -47.764 -45.125 1.00 41.03 C +ATOM 434 CD1 LEU A 371 -20.603 -47.946 -45.794 1.00 40.67 C +ATOM 435 CD2 LEU A 371 -21.751 -47.513 -43.641 1.00 40.55 C +ATOM 436 N LYS A 372 -26.152 -45.707 -46.570 1.00 41.14 N +ATOM 437 CA LYS A 372 -26.856 -44.788 -47.439 1.00 40.58 C +ATOM 438 C LYS A 372 -27.371 -43.615 -46.643 1.00 40.49 C +ATOM 439 O LYS A 372 -27.323 -42.486 -47.124 1.00 40.77 O +ATOM 440 CB LYS A 372 -27.988 -45.480 -48.206 1.00 40.49 C +ATOM 441 N THR A 373 -27.824 -43.863 -45.416 1.00 40.34 N +ATOM 442 CA THR A 373 -28.483 -42.802 -44.625 1.00 40.41 C +ATOM 443 C THR A 373 -27.543 -41.681 -44.187 1.00 40.46 C +ATOM 444 O THR A 373 -27.990 -40.631 -43.694 1.00 40.37 O +ATOM 445 CB THR A 373 -29.200 -43.358 -43.390 1.00 40.31 C +ATOM 446 OG1 THR A 373 -28.377 -44.354 -42.768 1.00 39.77 O +ATOM 447 CG2 THR A 373 -30.542 -43.959 -43.793 1.00 40.81 C +ATOM 448 N VAL A 374 -26.246 -41.924 -44.387 1.00 40.47 N +ATOM 449 CA VAL A 374 -25.170 -41.041 -43.950 1.00 40.19 C +ATOM 450 C VAL A 374 -25.077 -39.759 -44.768 1.00 40.40 C +ATOM 451 O VAL A 374 -24.846 -39.789 -45.978 1.00 40.62 O +ATOM 452 CB VAL A 374 -23.843 -41.764 -44.010 1.00 39.84 C +ATOM 453 CG1 VAL A 374 -22.762 -40.883 -43.451 1.00 40.10 C +ATOM 454 CG2 VAL A 374 -23.940 -43.064 -43.239 1.00 39.87 C +ATOM 455 N LYS A 375 -25.260 -38.632 -44.093 1.00 40.48 N +ATOM 456 CA LYS A 375 -25.213 -37.333 -44.743 1.00 40.47 C +ATOM 457 C LYS A 375 -23.934 -36.559 -44.346 1.00 40.44 C +ATOM 458 O LYS A 375 -23.594 -35.542 -44.968 1.00 40.46 O +ATOM 459 CB LYS A 375 -26.500 -36.543 -44.442 1.00 40.16 C +ATOM 460 N GLU A 376 -23.217 -37.066 -43.338 1.00 40.25 N +ATOM 461 CA GLU A 376 -22.050 -36.367 -42.783 1.00 40.17 C +ATOM 462 C GLU A 376 -21.042 -37.279 -42.083 1.00 39.80 C +ATOM 463 O GLU A 376 -21.399 -38.029 -41.182 1.00 39.70 O +ATOM 464 CB GLU A 376 -22.506 -35.255 -41.830 1.00 40.06 C +ATOM 465 CG GLU A 376 -21.555 -34.962 -40.669 1.00 40.65 C +ATOM 466 CD GLU A 376 -22.118 -33.962 -39.662 1.00 40.88 C +ATOM 467 OE1 GLU A 376 -21.528 -33.832 -38.568 1.00 41.31 O +ATOM 468 OE2 GLU A 376 -23.139 -33.299 -39.961 1.00 42.17 O +ATOM 469 N ILE A 377 -19.782 -37.200 -42.506 1.00 39.68 N +ATOM 470 CA ILE A 377 -18.681 -37.872 -41.810 1.00 39.53 C +ATOM 471 C ILE A 377 -17.797 -36.839 -41.091 1.00 39.71 C +ATOM 472 O ILE A 377 -17.485 -35.780 -41.649 1.00 39.68 O +ATOM 473 CB ILE A 377 -17.819 -38.714 -42.764 1.00 39.33 C +ATOM 474 CG1 ILE A 377 -18.667 -39.754 -43.492 1.00 39.05 C +ATOM 475 CG2 ILE A 377 -16.687 -39.394 -42.004 1.00 39.29 C +ATOM 476 CD1 ILE A 377 -17.921 -40.476 -44.609 1.00 39.32 C +ATOM 477 N THR A 378 -17.401 -37.158 -39.860 1.00 39.68 N +ATOM 478 CA THR A 378 -16.662 -36.230 -39.009 1.00 39.80 C +ATOM 479 C THR A 378 -15.175 -36.188 -39.369 1.00 39.62 C +ATOM 480 O THR A 378 -14.635 -35.131 -39.696 1.00 39.53 O +ATOM 481 CB THR A 378 -16.886 -36.564 -37.510 1.00 39.98 C +ATOM 482 OG1 THR A 378 -18.210 -36.175 -37.146 1.00 39.57 O +ATOM 483 CG2 THR A 378 -15.887 -35.843 -36.590 1.00 40.72 C +ATOM 484 N GLY A 379 -14.517 -37.339 -39.302 1.00 39.54 N +ATOM 485 CA GLY A 379 -13.113 -37.432 -39.672 1.00 39.14 C +ATOM 486 C GLY A 379 -12.964 -37.450 -41.178 1.00 38.81 C +ATOM 487 O GLY A 379 -13.343 -36.503 -41.857 1.00 38.62 O +ATOM 488 N PHE A 380 -12.424 -38.545 -41.695 1.00 38.64 N +ATOM 489 CA PHE A 380 -12.134 -38.650 -43.109 1.00 38.57 C +ATOM 490 C PHE A 380 -12.730 -39.922 -43.652 1.00 38.35 C +ATOM 491 O PHE A 380 -13.168 -40.781 -42.890 1.00 38.39 O +ATOM 492 CB PHE A 380 -10.629 -38.653 -43.345 1.00 38.86 C +ATOM 493 CG PHE A 380 -9.929 -39.874 -42.810 1.00 39.69 C +ATOM 494 CD1 PHE A 380 -9.774 -41.011 -43.603 1.00 40.82 C +ATOM 495 CD2 PHE A 380 -9.416 -39.887 -41.520 1.00 40.18 C +ATOM 496 CE1 PHE A 380 -9.120 -42.148 -43.114 1.00 41.00 C +ATOM 497 CE2 PHE A 380 -8.758 -41.008 -41.028 1.00 41.00 C +ATOM 498 CZ PHE A 380 -8.613 -42.143 -41.821 1.00 40.60 C +ATOM 499 N LEU A 381 -12.713 -40.040 -44.974 1.00 38.12 N +ATOM 500 CA LEU A 381 -13.294 -41.173 -45.676 1.00 37.80 C +ATOM 501 C LEU A 381 -12.254 -41.869 -46.554 1.00 37.93 C +ATOM 502 O LEU A 381 -11.698 -41.275 -47.478 1.00 37.84 O +ATOM 503 CB LEU A 381 -14.503 -40.711 -46.504 1.00 37.48 C +ATOM 504 CG LEU A 381 -15.023 -41.615 -47.617 1.00 36.04 C +ATOM 505 CD1 LEU A 381 -15.408 -42.967 -47.075 1.00 34.87 C +ATOM 506 CD2 LEU A 381 -16.195 -40.952 -48.269 1.00 35.44 C +ATOM 507 N LEU A 382 -12.007 -43.134 -46.263 1.00 38.01 N +ATOM 508 CA LEU A 382 -11.016 -43.878 -46.991 1.00 38.66 C +ATOM 509 C LEU A 382 -11.611 -45.161 -47.560 1.00 38.81 C +ATOM 510 O LEU A 382 -12.042 -46.043 -46.814 1.00 38.79 O +ATOM 511 CB LEU A 382 -9.812 -44.182 -46.084 1.00 38.98 C +ATOM 512 CG LEU A 382 -8.730 -45.128 -46.643 1.00 40.04 C +ATOM 513 CD1 LEU A 382 -7.516 -44.376 -47.195 1.00 39.57 C +ATOM 514 CD2 LEU A 382 -8.305 -46.135 -45.580 1.00 41.28 C +ATOM 515 N ILE A 383 -11.612 -45.253 -48.887 1.00 39.16 N +ATOM 516 CA ILE A 383 -12.077 -46.437 -49.607 1.00 39.65 C +ATOM 517 C ILE A 383 -10.938 -47.025 -50.452 1.00 40.51 C +ATOM 518 O ILE A 383 -10.550 -46.460 -51.469 1.00 40.48 O +ATOM 519 CB ILE A 383 -13.312 -46.111 -50.510 1.00 39.30 C +ATOM 520 CG1 ILE A 383 -14.484 -45.603 -49.679 1.00 37.96 C +ATOM 521 CG2 ILE A 383 -13.765 -47.333 -51.265 1.00 39.48 C +ATOM 522 CD1 ILE A 383 -15.468 -44.812 -50.462 1.00 36.50 C +ATOM 523 N GLN A 384 -10.404 -48.161 -50.029 1.00 41.78 N +ATOM 524 CA GLN A 384 -9.356 -48.826 -50.792 1.00 43.72 C +ATOM 525 C GLN A 384 -9.839 -50.102 -51.514 1.00 44.48 C +ATOM 526 O GLN A 384 -9.114 -50.679 -52.329 1.00 45.16 O +ATOM 527 CB GLN A 384 -8.138 -49.096 -49.900 1.00 43.46 C +ATOM 528 CG GLN A 384 -7.501 -47.813 -49.343 1.00 44.74 C +ATOM 529 CD GLN A 384 -6.446 -48.073 -48.258 1.00 45.18 C +ATOM 530 OE1 GLN A 384 -6.771 -48.485 -47.134 1.00 46.75 O +ATOM 531 NE2 GLN A 384 -5.175 -47.814 -48.589 1.00 46.60 N +ATOM 532 N ALA A 385 -11.059 -50.543 -51.212 1.00 45.22 N +ATOM 533 CA ALA A 385 -11.693 -51.652 -51.929 1.00 45.71 C +ATOM 534 C ALA A 385 -13.186 -51.386 -52.092 1.00 46.41 C +ATOM 535 O ALA A 385 -13.750 -50.540 -51.394 1.00 46.59 O +ATOM 536 CB ALA A 385 -11.470 -52.936 -51.219 1.00 45.37 C +ATOM 537 N TRP A 386 -13.820 -52.110 -53.013 1.00 47.09 N +ATOM 538 CA TRP A 386 -15.222 -51.883 -53.376 1.00 47.70 C +ATOM 539 C TRP A 386 -15.632 -53.056 -54.264 1.00 48.71 C +ATOM 540 O TRP A 386 -14.752 -53.655 -54.910 1.00 48.85 O +ATOM 541 CB TRP A 386 -15.347 -50.561 -54.130 1.00 47.03 C +ATOM 542 CG TRP A 386 -16.680 -49.881 -54.115 1.00 46.37 C +ATOM 543 CD1 TRP A 386 -17.451 -49.586 -55.199 1.00 46.52 C +ATOM 544 CD2 TRP A 386 -17.376 -49.359 -52.980 1.00 46.12 C +ATOM 545 NE1 TRP A 386 -18.590 -48.921 -54.816 1.00 46.20 N +ATOM 546 CE2 TRP A 386 -18.570 -48.770 -53.457 1.00 46.13 C +ATOM 547 CE3 TRP A 386 -17.113 -49.333 -51.606 1.00 46.36 C +ATOM 548 CZ2 TRP A 386 -19.496 -48.166 -52.612 1.00 46.33 C +ATOM 549 CZ3 TRP A 386 -18.039 -48.735 -50.763 1.00 46.33 C +ATOM 550 CH2 TRP A 386 -19.216 -48.160 -51.272 1.00 46.54 C +ATOM 551 N PRO A 387 -16.950 -53.409 -54.283 1.00 49.48 N +ATOM 552 CA PRO A 387 -17.445 -54.508 -55.112 1.00 49.97 C +ATOM 553 C PRO A 387 -17.128 -54.262 -56.578 1.00 50.67 C +ATOM 554 O PRO A 387 -17.666 -53.324 -57.189 1.00 50.57 O +ATOM 555 CB PRO A 387 -18.958 -54.471 -54.879 1.00 49.95 C +ATOM 556 CG PRO A 387 -19.113 -53.835 -53.567 1.00 49.74 C +ATOM 557 CD PRO A 387 -18.050 -52.795 -53.517 1.00 49.50 C +ATOM 558 N GLU A 388 -16.251 -55.108 -57.120 1.00 51.47 N +ATOM 559 CA GLU A 388 -15.695 -54.933 -58.461 1.00 52.32 C +ATOM 560 C GLU A 388 -16.765 -54.669 -59.518 1.00 52.75 C +ATOM 561 O GLU A 388 -16.493 -54.071 -60.568 1.00 52.97 O +ATOM 562 CB GLU A 388 -14.876 -56.156 -58.850 1.00 52.44 C +ATOM 563 CG GLU A 388 -13.678 -56.411 -57.964 1.00 53.40 C +ATOM 564 CD GLU A 388 -12.454 -56.801 -58.769 1.00 54.38 C +ATOM 565 OE1 GLU A 388 -11.602 -55.915 -59.001 1.00 55.25 O +ATOM 566 OE2 GLU A 388 -12.350 -57.977 -59.186 1.00 54.05 O +ATOM 567 N ASN A 389 -17.983 -55.108 -59.224 1.00 53.09 N +ATOM 568 CA ASN A 389 -19.065 -55.013 -60.175 1.00 53.52 C +ATOM 569 C ASN A 389 -20.040 -53.861 -59.930 1.00 53.26 C +ATOM 570 O ASN A 389 -21.039 -53.756 -60.640 1.00 53.48 O +ATOM 571 CB ASN A 389 -19.801 -56.351 -60.250 1.00 53.99 C +ATOM 572 CG ASN A 389 -20.704 -56.595 -59.048 1.00 55.71 C +ATOM 573 OD1 ASN A 389 -20.313 -56.386 -57.890 1.00 56.92 O +ATOM 574 ND2 ASN A 389 -21.927 -57.051 -59.323 1.00 57.15 N +ATOM 575 N ARG A 390 -19.766 -53.022 -58.925 1.00 52.97 N +ATOM 576 CA ARG A 390 -20.522 -51.765 -58.719 1.00 52.64 C +ATOM 577 C ARG A 390 -19.753 -50.602 -59.369 1.00 52.42 C +ATOM 578 O ARG A 390 -18.551 -50.423 -59.115 1.00 52.70 O +ATOM 579 CB ARG A 390 -20.803 -51.502 -57.231 1.00 52.30 C +ATOM 580 N THR A 391 -20.434 -49.833 -60.221 1.00 51.82 N +ATOM 581 CA THR A 391 -19.757 -48.876 -61.116 1.00 51.19 C +ATOM 582 C THR A 391 -19.466 -47.538 -60.456 1.00 50.78 C +ATOM 583 O THR A 391 -18.801 -46.677 -61.032 1.00 50.87 O +ATOM 584 CB THR A 391 -20.578 -48.585 -62.391 1.00 51.20 C +ATOM 585 OG1 THR A 391 -21.659 -47.700 -62.076 1.00 50.59 O +ATOM 586 CG2 THR A 391 -21.125 -49.869 -63.004 1.00 51.74 C +ATOM 587 N ASP A 392 -19.996 -47.350 -59.257 1.00 50.15 N +ATOM 588 CA ASP A 392 -19.782 -46.114 -58.549 1.00 49.38 C +ATOM 589 C ASP A 392 -19.898 -46.311 -57.050 1.00 49.27 C +ATOM 590 O ASP A 392 -20.168 -47.420 -56.568 1.00 48.84 O +ATOM 591 CB ASP A 392 -20.734 -45.020 -59.063 1.00 49.19 C +ATOM 592 CG ASP A 392 -22.201 -45.299 -58.754 1.00 48.68 C +ATOM 593 OD1 ASP A 392 -22.533 -46.296 -58.076 1.00 47.78 O +ATOM 594 OD2 ASP A 392 -23.037 -44.489 -59.195 1.00 48.36 O +ATOM 595 N LEU A 393 -19.672 -45.219 -56.326 1.00 49.42 N +ATOM 596 CA LEU A 393 -19.811 -45.187 -54.880 1.00 49.51 C +ATOM 597 C LEU A 393 -21.271 -44.938 -54.563 1.00 49.85 C +ATOM 598 O LEU A 393 -21.654 -43.845 -54.127 1.00 49.73 O +ATOM 599 CB LEU A 393 -18.906 -44.111 -54.273 1.00 49.26 C +ATOM 600 CG LEU A 393 -17.413 -44.276 -54.590 1.00 48.29 C +ATOM 601 CD1 LEU A 393 -16.603 -43.069 -54.109 1.00 46.57 C +ATOM 602 CD2 LEU A 393 -16.873 -45.603 -54.033 1.00 46.45 C +ATOM 603 N HIS A 394 -22.071 -45.980 -54.812 1.00 50.26 N +ATOM 604 CA HIS A 394 -23.528 -45.944 -54.675 1.00 50.52 C +ATOM 605 C HIS A 394 -23.956 -45.560 -53.266 1.00 49.89 C +ATOM 606 O HIS A 394 -24.869 -44.743 -53.086 1.00 49.64 O +ATOM 607 CB HIS A 394 -24.165 -47.291 -55.091 1.00 51.10 C +ATOM 608 CG HIS A 394 -23.659 -48.493 -54.333 1.00 53.22 C +ATOM 609 ND1 HIS A 394 -22.664 -49.322 -54.817 1.00 55.36 N +ATOM 610 CD2 HIS A 394 -24.044 -49.030 -53.146 1.00 54.89 C +ATOM 611 CE1 HIS A 394 -22.447 -50.304 -53.957 1.00 55.53 C +ATOM 612 NE2 HIS A 394 -23.267 -50.148 -52.932 1.00 55.61 N +ATOM 613 N ALA A 395 -23.248 -46.129 -52.288 1.00 49.09 N +ATOM 614 CA ALA A 395 -23.658 -46.104 -50.896 1.00 48.45 C +ATOM 615 C ALA A 395 -23.551 -44.712 -50.285 1.00 48.10 C +ATOM 616 O ALA A 395 -24.221 -44.398 -49.293 1.00 48.07 O +ATOM 617 CB ALA A 395 -22.857 -47.112 -50.107 1.00 48.22 C +ATOM 618 N PHE A 396 -22.732 -43.865 -50.896 1.00 47.53 N +ATOM 619 CA PHE A 396 -22.546 -42.522 -50.381 1.00 47.02 C +ATOM 620 C PHE A 396 -23.212 -41.479 -51.267 1.00 47.62 C +ATOM 621 O PHE A 396 -22.781 -40.322 -51.309 1.00 47.96 O +ATOM 622 CB PHE A 396 -21.055 -42.230 -50.201 1.00 46.09 C +ATOM 623 CG PHE A 396 -20.342 -43.238 -49.352 1.00 43.94 C +ATOM 624 CD1 PHE A 396 -19.530 -44.194 -49.931 1.00 41.74 C +ATOM 625 CD2 PHE A 396 -20.493 -43.231 -47.974 1.00 41.77 C +ATOM 626 CE1 PHE A 396 -18.885 -45.122 -49.154 1.00 41.19 C +ATOM 627 CE2 PHE A 396 -19.853 -44.156 -47.193 1.00 40.91 C +ATOM 628 CZ PHE A 396 -19.045 -45.107 -47.780 1.00 41.78 C +ATOM 629 N GLU A 397 -24.268 -41.882 -51.971 1.00 48.05 N +ATOM 630 CA GLU A 397 -25.002 -40.951 -52.826 1.00 48.62 C +ATOM 631 C GLU A 397 -25.686 -39.840 -52.006 1.00 48.47 C +ATOM 632 O GLU A 397 -25.984 -38.766 -52.535 1.00 48.55 O +ATOM 633 CB GLU A 397 -26.008 -41.693 -53.721 1.00 48.93 C +ATOM 634 CG GLU A 397 -27.446 -41.737 -53.197 1.00 50.96 C +ATOM 635 CD GLU A 397 -28.128 -43.075 -53.478 1.00 53.79 C +ATOM 636 OE1 GLU A 397 -28.200 -43.478 -54.666 1.00 55.07 O +ATOM 637 OE2 GLU A 397 -28.591 -43.726 -52.503 1.00 54.79 O +ATOM 638 N ASN A 398 -25.914 -40.095 -50.717 1.00 48.11 N +ATOM 639 CA ASN A 398 -26.551 -39.104 -49.846 1.00 47.80 C +ATOM 640 C ASN A 398 -25.579 -38.308 -48.964 1.00 47.41 C +ATOM 641 O ASN A 398 -25.984 -37.347 -48.282 1.00 47.46 O +ATOM 642 CB ASN A 398 -27.644 -39.764 -49.012 1.00 47.94 C +ATOM 643 CG ASN A 398 -28.698 -40.396 -49.868 1.00 48.22 C +ATOM 644 OD1 ASN A 398 -29.210 -39.772 -50.798 1.00 49.61 O +ATOM 645 ND2 ASN A 398 -29.017 -41.647 -49.584 1.00 48.26 N +ATOM 646 N LEU A 399 -24.306 -38.709 -48.989 1.00 46.46 N +ATOM 647 CA LEU A 399 -23.252 -37.960 -48.328 1.00 45.47 C +ATOM 648 C LEU A 399 -23.265 -36.527 -48.816 1.00 45.16 C +ATOM 649 O LEU A 399 -23.321 -36.275 -50.015 1.00 44.60 O +ATOM 650 CB LEU A 399 -21.886 -38.589 -48.587 1.00 45.31 C +ATOM 651 CG LEU A 399 -20.712 -38.116 -47.730 1.00 44.53 C +ATOM 652 CD1 LEU A 399 -21.103 -37.955 -46.258 1.00 44.31 C +ATOM 653 CD2 LEU A 399 -19.575 -39.099 -47.870 1.00 43.43 C +ATOM 654 N GLU A 400 -23.225 -35.609 -47.857 1.00 45.03 N +ATOM 655 CA GLU A 400 -23.291 -34.181 -48.110 1.00 45.09 C +ATOM 656 C GLU A 400 -22.020 -33.473 -47.667 1.00 44.41 C +ATOM 657 O GLU A 400 -21.573 -32.509 -48.319 1.00 44.25 O +ATOM 658 CB GLU A 400 -24.493 -33.572 -47.385 1.00 45.03 C +ATOM 659 CG GLU A 400 -25.739 -33.428 -48.258 1.00 46.29 C +ATOM 660 CD GLU A 400 -27.011 -33.181 -47.450 1.00 46.46 C +ATOM 661 OE1 GLU A 400 -26.992 -32.339 -46.519 1.00 48.13 O +ATOM 662 OE2 GLU A 400 -28.036 -33.832 -47.752 1.00 47.78 O +ATOM 663 N ILE A 401 -21.451 -33.936 -46.550 1.00 43.78 N +ATOM 664 CA ILE A 401 -20.269 -33.276 -45.960 1.00 43.05 C +ATOM 665 C ILE A 401 -19.271 -34.165 -45.202 1.00 42.40 C +ATOM 666 O ILE A 401 -19.628 -34.826 -44.225 1.00 42.25 O +ATOM 667 CB ILE A 401 -20.639 -31.957 -45.162 1.00 43.06 C +ATOM 668 CG1 ILE A 401 -19.943 -31.894 -43.810 1.00 42.48 C +ATOM 669 CG2 ILE A 401 -22.166 -31.769 -44.995 1.00 43.13 C +ATOM 670 CD1 ILE A 401 -20.218 -30.603 -43.098 1.00 43.05 C +ATOM 671 N ILE A 402 -18.029 -34.186 -45.705 1.00 41.79 N +ATOM 672 CA ILE A 402 -16.865 -34.802 -45.034 1.00 40.82 C +ATOM 673 C ILE A 402 -16.103 -33.660 -44.368 1.00 40.90 C +ATOM 674 O ILE A 402 -15.856 -32.635 -44.991 1.00 40.74 O +ATOM 675 CB ILE A 402 -15.927 -35.558 -46.024 1.00 40.60 C +ATOM 676 CG1 ILE A 402 -16.697 -36.623 -46.814 1.00 39.99 C +ATOM 677 CG2 ILE A 402 -14.770 -36.196 -45.281 1.00 39.84 C +ATOM 678 CD1 ILE A 402 -16.077 -37.032 -48.141 1.00 39.74 C +ATOM 679 N ARG A 403 -15.747 -33.824 -43.103 1.00 40.96 N +ATOM 680 CA ARG A 403 -15.227 -32.701 -42.339 1.00 41.36 C +ATOM 681 C ARG A 403 -13.719 -32.667 -42.154 1.00 41.81 C +ATOM 682 O ARG A 403 -13.142 -31.598 -42.024 1.00 42.05 O +ATOM 683 CB ARG A 403 -15.918 -32.582 -40.986 1.00 41.34 C +ATOM 684 CG ARG A 403 -17.289 -31.996 -41.068 1.00 40.91 C +ATOM 685 CD ARG A 403 -17.604 -31.174 -39.839 1.00 40.59 C +ATOM 686 NE ARG A 403 -18.606 -30.156 -40.147 1.00 40.14 N +ATOM 687 CZ ARG A 403 -19.911 -30.275 -39.921 1.00 39.06 C +ATOM 688 NH1 ARG A 403 -20.411 -31.370 -39.353 1.00 37.41 N +ATOM 689 NH2 ARG A 403 -20.716 -29.279 -40.269 1.00 38.87 N +ATOM 690 N GLY A 404 -13.078 -33.819 -42.116 1.00 42.32 N +ATOM 691 CA GLY A 404 -11.632 -33.833 -42.030 1.00 43.63 C +ATOM 692 C GLY A 404 -11.043 -33.458 -40.677 1.00 44.61 C +ATOM 693 O GLY A 404 -9.821 -33.312 -40.553 1.00 44.98 O +ATOM 694 N ARG A 405 -11.887 -33.313 -39.655 1.00 45.20 N +ATOM 695 CA ARG A 405 -11.400 -33.070 -38.293 1.00 45.70 C +ATOM 696 C ARG A 405 -10.331 -34.095 -37.932 1.00 45.67 C +ATOM 697 O ARG A 405 -9.557 -33.884 -37.027 1.00 45.84 O +ATOM 698 CB ARG A 405 -12.543 -33.095 -37.269 1.00 45.96 C +ATOM 699 CG ARG A 405 -13.570 -31.984 -37.427 1.00 47.39 C +ATOM 700 CD ARG A 405 -14.321 -31.768 -36.126 1.00 50.97 C +ATOM 701 NE ARG A 405 -15.461 -30.861 -36.283 1.00 53.83 N +ATOM 702 CZ ARG A 405 -16.717 -31.245 -36.534 1.00 55.21 C +ATOM 703 NH1 ARG A 405 -17.031 -32.534 -36.674 1.00 55.62 N +ATOM 704 NH2 ARG A 405 -17.676 -30.332 -36.650 1.00 55.92 N +ATOM 705 N THR A 406 -10.327 -35.223 -38.630 1.00 46.13 N +ATOM 706 CA THR A 406 -9.183 -36.130 -38.666 1.00 46.99 C +ATOM 707 C THR A 406 -8.956 -36.523 -40.140 1.00 47.60 C +ATOM 708 O THR A 406 -9.815 -36.293 -40.991 1.00 47.87 O +ATOM 709 CB THR A 406 -9.356 -37.402 -37.764 1.00 46.87 C +ATOM 710 OG1 THR A 406 -9.967 -38.466 -38.509 1.00 46.81 O +ATOM 711 CG2 THR A 406 -10.183 -37.108 -36.518 1.00 46.97 C +ATOM 712 N LYS A 407 -7.801 -37.101 -40.451 1.00 48.07 N +ATOM 713 CA LYS A 407 -7.455 -37.390 -41.841 1.00 48.46 C +ATOM 714 C LYS A 407 -6.402 -38.505 -41.980 1.00 48.76 C +ATOM 715 O LYS A 407 -5.538 -38.685 -41.107 1.00 48.88 O +ATOM 716 CB LYS A 407 -7.051 -36.104 -42.591 1.00 48.41 C +ATOM 717 CG LYS A 407 -6.689 -34.906 -41.689 1.00 48.59 C +ATOM 718 CD LYS A 407 -6.183 -33.711 -42.497 1.00 48.68 C +ATOM 719 CE LYS A 407 -5.798 -32.526 -41.606 1.00 48.78 C +ATOM 720 NZ LYS A 407 -6.967 -31.714 -41.155 1.00 47.84 N +ATOM 721 N GLN A 408 -6.508 -39.258 -43.076 1.00 48.94 N +ATOM 722 CA GLN A 408 -5.623 -40.385 -43.365 1.00 49.07 C +ATOM 723 C GLN A 408 -4.174 -39.934 -43.469 1.00 48.98 C +ATOM 724 O GLN A 408 -3.868 -38.960 -44.188 1.00 48.98 O +ATOM 725 CB GLN A 408 -6.022 -41.060 -44.673 1.00 49.24 C +ATOM 726 CG GLN A 408 -5.391 -42.429 -44.849 1.00 50.05 C +ATOM 727 CD GLN A 408 -4.561 -42.525 -46.108 1.00 51.07 C +ATOM 728 OE1 GLN A 408 -4.696 -41.714 -47.034 1.00 51.74 O +ATOM 729 NE2 GLN A 408 -3.681 -43.514 -46.147 1.00 51.51 N +ATOM 730 N HIS A 409 -3.291 -40.658 -42.765 1.00 48.61 N +ATOM 731 CA HIS A 409 -1.883 -40.261 -42.603 1.00 47.97 C +ATOM 732 C HIS A 409 -1.846 -38.771 -42.211 1.00 47.35 C +ATOM 733 O HIS A 409 -0.920 -38.034 -42.574 1.00 47.49 O +ATOM 734 CB HIS A 409 -1.063 -40.546 -43.882 1.00 47.72 C +ATOM 735 N GLY A 410 -2.878 -38.351 -41.471 1.00 46.30 N +ATOM 736 CA GLY A 410 -3.114 -36.951 -41.143 1.00 45.08 C +ATOM 737 C GLY A 410 -2.990 -36.012 -42.332 1.00 44.23 C +ATOM 738 O GLY A 410 -2.305 -34.991 -42.220 1.00 44.42 O +ATOM 739 N GLN A 411 -3.639 -36.352 -43.461 1.00 42.95 N +ATOM 740 CA GLN A 411 -3.543 -35.542 -44.698 1.00 41.41 C +ATOM 741 C GLN A 411 -4.748 -35.557 -45.677 1.00 40.66 C +ATOM 742 O GLN A 411 -5.173 -34.515 -46.185 1.00 40.50 O +ATOM 743 CB GLN A 411 -2.261 -35.878 -45.461 1.00 41.07 C +ATOM 744 CG GLN A 411 -1.665 -34.659 -46.134 1.00 40.26 C +ATOM 745 CD GLN A 411 -0.969 -34.968 -47.450 1.00 39.67 C +ATOM 746 OE1 GLN A 411 -1.022 -34.166 -48.388 1.00 38.63 O +ATOM 747 NE2 GLN A 411 -0.310 -36.128 -47.528 1.00 39.21 N +ATOM 748 N PHE A 412 -5.277 -36.734 -45.967 1.00 39.59 N +ATOM 749 CA PHE A 412 -6.351 -36.839 -46.940 1.00 38.61 C +ATOM 750 C PHE A 412 -7.657 -37.220 -46.264 1.00 37.99 C +ATOM 751 O PHE A 412 -7.712 -38.203 -45.532 1.00 38.28 O +ATOM 752 CB PHE A 412 -6.008 -37.897 -47.985 1.00 38.60 C +ATOM 753 CG PHE A 412 -4.816 -37.561 -48.833 1.00 38.00 C +ATOM 754 CD1 PHE A 412 -3.597 -38.186 -48.612 1.00 37.36 C +ATOM 755 CD2 PHE A 412 -4.922 -36.649 -49.875 1.00 37.01 C +ATOM 756 CE1 PHE A 412 -2.495 -37.891 -49.406 1.00 37.33 C +ATOM 757 CE2 PHE A 412 -3.827 -36.350 -50.670 1.00 37.13 C +ATOM 758 CZ PHE A 412 -2.610 -36.971 -50.439 1.00 37.35 C +ATOM 759 N SER A 413 -8.715 -36.464 -46.517 1.00 36.88 N +ATOM 760 CA SER A 413 -9.987 -36.744 -45.872 1.00 36.04 C +ATOM 761 C SER A 413 -11.004 -37.419 -46.796 1.00 35.87 C +ATOM 762 O SER A 413 -12.000 -37.981 -46.326 1.00 36.17 O +ATOM 763 CB SER A 413 -10.550 -35.469 -45.292 1.00 35.90 C +ATOM 764 OG SER A 413 -10.182 -34.395 -46.118 1.00 35.43 O +ATOM 765 N LEU A 414 -10.757 -37.347 -48.106 1.00 35.10 N +ATOM 766 CA LEU A 414 -11.423 -38.197 -49.092 1.00 33.78 C +ATOM 767 C LEU A 414 -10.336 -38.978 -49.846 1.00 33.89 C +ATOM 768 O LEU A 414 -9.498 -38.393 -50.535 1.00 33.73 O +ATOM 769 CB LEU A 414 -12.296 -37.361 -50.039 1.00 33.41 C +ATOM 770 CG LEU A 414 -13.018 -38.060 -51.202 1.00 32.64 C +ATOM 771 CD1 LEU A 414 -13.885 -39.164 -50.695 1.00 32.83 C +ATOM 772 CD2 LEU A 414 -13.852 -37.116 -52.046 1.00 32.76 C +ATOM 773 N ALA A 415 -10.331 -40.299 -49.684 1.00 33.97 N +ATOM 774 CA ALA A 415 -9.348 -41.161 -50.354 1.00 34.15 C +ATOM 775 C ALA A 415 -10.004 -42.337 -51.062 1.00 34.43 C +ATOM 776 O ALA A 415 -10.450 -43.285 -50.414 1.00 34.52 O +ATOM 777 CB ALA A 415 -8.310 -41.664 -49.366 1.00 34.04 C +ATOM 778 N VAL A 416 -10.047 -42.264 -52.392 1.00 34.75 N +ATOM 779 CA VAL A 416 -10.611 -43.306 -53.250 1.00 35.05 C +ATOM 780 C VAL A 416 -9.460 -43.961 -54.014 1.00 35.55 C +ATOM 781 O VAL A 416 -8.979 -43.432 -55.014 1.00 35.65 O +ATOM 782 CB VAL A 416 -11.655 -42.695 -54.232 1.00 35.03 C +ATOM 783 CG1 VAL A 416 -12.325 -43.774 -55.089 1.00 34.20 C +ATOM 784 CG2 VAL A 416 -12.690 -41.866 -53.463 1.00 34.38 C +ATOM 785 N VAL A 417 -9.005 -45.108 -53.537 1.00 36.20 N +ATOM 786 CA VAL A 417 -7.787 -45.693 -54.076 1.00 37.41 C +ATOM 787 C VAL A 417 -8.012 -47.053 -54.719 1.00 37.84 C +ATOM 788 O VAL A 417 -8.402 -48.008 -54.039 1.00 38.02 O +ATOM 789 CB VAL A 417 -6.697 -45.857 -52.976 1.00 37.59 C +ATOM 790 CG1 VAL A 417 -5.404 -46.425 -53.578 1.00 38.75 C +ATOM 791 CG2 VAL A 417 -6.416 -44.540 -52.278 1.00 37.65 C +ATOM 792 N SER A 418 -7.744 -47.136 -56.021 1.00 38.45 N +ATOM 793 CA SER A 418 -7.669 -48.421 -56.740 1.00 39.12 C +ATOM 794 C SER A 418 -8.997 -49.163 -56.878 1.00 39.41 C +ATOM 795 O SER A 418 -9.079 -50.352 -56.584 1.00 39.38 O +ATOM 796 CB SER A 418 -6.617 -49.336 -56.103 1.00 38.95 C +ATOM 797 OG SER A 418 -5.383 -48.659 -56.027 1.00 39.60 O +ATOM 798 N LEU A 419 -10.024 -48.464 -57.339 1.00 39.93 N +ATOM 799 CA LEU A 419 -11.347 -49.050 -57.450 1.00 40.43 C +ATOM 800 C LEU A 419 -11.707 -49.344 -58.894 1.00 41.35 C +ATOM 801 O LEU A 419 -11.053 -48.866 -59.832 1.00 41.56 O +ATOM 802 CB LEU A 419 -12.391 -48.115 -56.850 1.00 40.05 C +ATOM 803 CG LEU A 419 -12.301 -47.742 -55.372 1.00 39.74 C +ATOM 804 CD1 LEU A 419 -13.573 -47.018 -54.973 1.00 39.73 C +ATOM 805 CD2 LEU A 419 -12.050 -48.940 -54.451 1.00 38.12 C +ATOM 806 N ASN A 420 -12.774 -50.115 -59.064 1.00 42.31 N +ATOM 807 CA ASN A 420 -13.239 -50.513 -60.381 1.00 43.22 C +ATOM 808 C ASN A 420 -14.234 -49.542 -61.001 1.00 43.41 C +ATOM 809 O ASN A 420 -14.614 -49.681 -62.167 1.00 43.48 O +ATOM 810 CB ASN A 420 -13.870 -51.889 -60.286 1.00 43.63 C +ATOM 811 CG ASN A 420 -13.451 -52.791 -61.415 1.00 45.24 C +ATOM 812 OD1 ASN A 420 -13.079 -52.323 -62.501 1.00 45.95 O +ATOM 813 ND2 ASN A 420 -13.491 -54.104 -61.165 1.00 47.35 N +ATOM 814 N ILE A 421 -14.639 -48.556 -60.205 1.00 43.78 N +ATOM 815 CA ILE A 421 -15.705 -47.606 -60.550 1.00 43.90 C +ATOM 816 C ILE A 421 -15.487 -46.859 -61.873 1.00 43.97 C +ATOM 817 O ILE A 421 -14.368 -46.794 -62.390 1.00 43.98 O +ATOM 818 CB ILE A 421 -15.973 -46.616 -59.378 1.00 43.71 C +ATOM 819 CG1 ILE A 421 -14.771 -45.704 -59.141 1.00 43.83 C +ATOM 820 CG2 ILE A 421 -16.266 -47.388 -58.101 1.00 43.68 C +ATOM 821 CD1 ILE A 421 -15.048 -44.535 -58.210 1.00 44.04 C +ATOM 822 N THR A 422 -16.577 -46.331 -62.424 1.00 44.23 N +ATOM 823 CA THR A 422 -16.538 -45.538 -63.650 1.00 44.43 C +ATOM 824 C THR A 422 -16.828 -44.106 -63.285 1.00 44.31 C +ATOM 825 O THR A 422 -16.307 -43.187 -63.910 1.00 44.65 O +ATOM 826 CB THR A 422 -17.593 -45.963 -64.686 1.00 44.42 C +ATOM 827 OG1 THR A 422 -18.094 -47.270 -64.380 1.00 45.53 O +ATOM 828 CG2 THR A 422 -16.979 -45.969 -66.069 1.00 44.70 C +ATOM 829 N SER A 423 -17.677 -43.929 -62.277 1.00 44.09 N +ATOM 830 CA SER A 423 -17.929 -42.617 -61.703 1.00 43.79 C +ATOM 831 C SER A 423 -17.807 -42.654 -60.172 1.00 43.55 C +ATOM 832 O SER A 423 -17.834 -43.725 -59.560 1.00 43.54 O +ATOM 833 CB SER A 423 -19.300 -42.092 -62.136 1.00 43.65 C +ATOM 834 OG SER A 423 -20.335 -42.674 -61.369 1.00 43.91 O +ATOM 835 N LEU A 424 -17.651 -41.478 -59.574 1.00 43.08 N +ATOM 836 CA LEU A 424 -17.662 -41.333 -58.137 1.00 42.84 C +ATOM 837 C LEU A 424 -19.105 -41.484 -57.618 1.00 42.84 C +ATOM 838 O LEU A 424 -19.377 -42.253 -56.682 1.00 42.79 O +ATOM 839 CB LEU A 424 -17.049 -39.979 -57.743 1.00 42.75 C +ATOM 840 N GLY A 425 -20.029 -40.758 -58.239 1.00 42.74 N +ATOM 841 CA GLY A 425 -21.441 -40.844 -57.880 1.00 42.57 C +ATOM 842 C GLY A 425 -21.833 -40.185 -56.569 1.00 42.50 C +ATOM 843 O GLY A 425 -22.848 -40.531 -55.990 1.00 42.67 O +ATOM 844 N LEU A 426 -21.060 -39.211 -56.108 1.00 42.43 N +ATOM 845 CA LEU A 426 -21.319 -38.608 -54.804 1.00 42.55 C +ATOM 846 C LEU A 426 -22.198 -37.364 -54.863 1.00 42.98 C +ATOM 847 O LEU A 426 -21.957 -36.408 -54.113 1.00 43.40 O +ATOM 848 CB LEU A 426 -19.996 -38.255 -54.136 1.00 42.18 C +ATOM 849 CG LEU A 426 -19.061 -39.438 -53.983 1.00 41.67 C +ATOM 850 CD1 LEU A 426 -17.631 -38.969 -53.853 1.00 41.21 C +ATOM 851 CD2 LEU A 426 -19.487 -40.243 -52.781 1.00 41.79 C +ATOM 852 N ARG A 427 -23.224 -37.379 -55.718 1.00 42.88 N +ATOM 853 CA ARG A 427 -23.932 -36.140 -56.116 1.00 42.86 C +ATOM 854 C ARG A 427 -24.463 -35.229 -54.991 1.00 42.91 C +ATOM 855 O ARG A 427 -24.757 -34.054 -55.229 1.00 42.85 O +ATOM 856 CB ARG A 427 -25.036 -36.445 -57.136 1.00 42.91 C +ATOM 857 CG ARG A 427 -26.095 -37.414 -56.644 1.00 42.95 C +ATOM 858 CD ARG A 427 -26.658 -38.230 -57.767 1.00 42.64 C +ATOM 859 NE ARG A 427 -25.692 -39.161 -58.369 1.00 43.11 N +ATOM 860 CZ ARG A 427 -25.607 -40.468 -58.096 1.00 43.32 C +ATOM 861 NH1 ARG A 427 -26.412 -41.034 -57.192 1.00 43.00 N +ATOM 862 NH2 ARG A 427 -24.712 -41.222 -58.732 1.00 42.70 N +ATOM 863 N SER A 428 -24.579 -35.761 -53.777 1.00 43.09 N +ATOM 864 CA SER A 428 -25.009 -34.951 -52.634 1.00 43.43 C +ATOM 865 C SER A 428 -23.848 -34.263 -51.879 1.00 43.19 C +ATOM 866 O SER A 428 -24.085 -33.419 -50.999 1.00 42.99 O +ATOM 867 CB SER A 428 -25.861 -35.787 -51.673 1.00 43.73 C +ATOM 868 OG SER A 428 -27.171 -35.970 -52.180 1.00 44.52 O +ATOM 869 N LEU A 429 -22.610 -34.629 -52.231 1.00 42.71 N +ATOM 870 CA LEU A 429 -21.413 -34.062 -51.605 1.00 42.10 C +ATOM 871 C LEU A 429 -21.208 -32.640 -52.045 1.00 41.70 C +ATOM 872 O LEU A 429 -21.101 -32.355 -53.234 1.00 41.67 O +ATOM 873 CB LEU A 429 -20.157 -34.891 -51.913 1.00 42.32 C +ATOM 874 CG LEU A 429 -18.902 -34.574 -51.089 1.00 41.70 C +ATOM 875 CD1 LEU A 429 -19.209 -34.558 -49.607 1.00 41.58 C +ATOM 876 CD2 LEU A 429 -17.820 -35.580 -51.381 1.00 41.81 C +ATOM 877 N LYS A 430 -21.153 -31.751 -51.068 1.00 41.34 N +ATOM 878 CA LYS A 430 -21.122 -30.331 -51.347 1.00 41.08 C +ATOM 879 C LYS A 430 -20.142 -29.622 -50.425 1.00 40.81 C +ATOM 880 O LYS A 430 -19.973 -28.404 -50.528 1.00 41.04 O +ATOM 881 CB LYS A 430 -22.532 -29.732 -51.224 1.00 41.10 C +ATOM 882 N GLU A 431 -19.495 -30.384 -49.537 1.00 40.18 N +ATOM 883 CA GLU A 431 -18.462 -29.835 -48.648 1.00 39.27 C +ATOM 884 C GLU A 431 -17.448 -30.841 -48.105 1.00 38.87 C +ATOM 885 O GLU A 431 -17.785 -31.759 -47.356 1.00 38.56 O +ATOM 886 CB GLU A 431 -19.104 -29.082 -47.483 1.00 39.28 C +ATOM 887 CG GLU A 431 -18.133 -28.674 -46.398 1.00 38.75 C +ATOM 888 CD GLU A 431 -18.730 -27.700 -45.398 1.00 38.51 C +ATOM 889 OE1 GLU A 431 -19.931 -27.345 -45.512 1.00 36.89 O +ATOM 890 OE2 GLU A 431 -17.977 -27.281 -44.494 1.00 38.80 O +ATOM 891 N ILE A 432 -16.195 -30.650 -48.486 1.00 38.51 N +ATOM 892 CA ILE A 432 -15.102 -31.267 -47.767 1.00 38.33 C +ATOM 893 C ILE A 432 -14.439 -30.145 -46.987 1.00 38.58 C +ATOM 894 O ILE A 432 -13.569 -29.457 -47.511 1.00 39.15 O +ATOM 895 CB ILE A 432 -14.109 -31.917 -48.707 1.00 38.01 C +ATOM 896 CG1 ILE A 432 -14.840 -32.899 -49.619 1.00 37.76 C +ATOM 897 CG2 ILE A 432 -13.023 -32.618 -47.901 1.00 37.69 C +ATOM 898 CD1 ILE A 432 -14.147 -33.134 -50.952 1.00 38.51 C +ATOM 899 N SER A 433 -14.866 -29.935 -45.746 1.00 38.61 N +ATOM 900 CA SER A 433 -14.441 -28.743 -45.004 1.00 38.58 C +ATOM 901 C SER A 433 -12.976 -28.744 -44.566 1.00 38.58 C +ATOM 902 O SER A 433 -12.464 -27.730 -44.092 1.00 38.34 O +ATOM 903 CB SER A 433 -15.393 -28.407 -43.840 1.00 38.46 C +ATOM 904 OG SER A 433 -15.818 -29.555 -43.136 1.00 37.98 O +ATOM 905 N ASP A 434 -12.299 -29.870 -44.758 1.00 38.98 N +ATOM 906 CA ASP A 434 -10.876 -29.943 -44.449 1.00 39.72 C +ATOM 907 C ASP A 434 -10.171 -31.153 -45.031 1.00 39.94 C +ATOM 908 O ASP A 434 -10.805 -32.138 -45.379 1.00 40.11 O +ATOM 909 CB ASP A 434 -10.649 -29.921 -42.943 1.00 39.82 C +ATOM 910 CG ASP A 434 -9.425 -29.151 -42.573 1.00 40.00 C +ATOM 911 OD1 ASP A 434 -9.587 -28.054 -42.005 1.00 40.18 O +ATOM 912 OD2 ASP A 434 -8.311 -29.623 -42.880 1.00 40.67 O +ATOM 913 N GLY A 435 -8.846 -31.067 -45.117 1.00 40.22 N +ATOM 914 CA GLY A 435 -8.027 -32.177 -45.584 1.00 40.42 C +ATOM 915 C GLY A 435 -8.003 -32.269 -47.092 1.00 40.56 C +ATOM 916 O GLY A 435 -8.735 -31.554 -47.778 1.00 40.63 O +ATOM 917 N ASP A 436 -7.166 -33.162 -47.609 1.00 40.74 N +ATOM 918 CA ASP A 436 -6.932 -33.249 -49.052 1.00 40.95 C +ATOM 919 C ASP A 436 -7.725 -34.376 -49.718 1.00 40.71 C +ATOM 920 O ASP A 436 -8.167 -35.309 -49.051 1.00 40.70 O +ATOM 921 CB ASP A 436 -5.427 -33.409 -49.337 1.00 41.18 C +ATOM 922 CG ASP A 436 -4.643 -32.109 -49.177 1.00 41.14 C +ATOM 923 OD1 ASP A 436 -5.254 -31.014 -49.177 1.00 41.36 O +ATOM 924 OD2 ASP A 436 -3.401 -32.191 -49.065 1.00 40.59 O +ATOM 925 N VAL A 437 -7.893 -34.277 -51.033 1.00 40.56 N +ATOM 926 CA VAL A 437 -8.549 -35.320 -51.826 1.00 40.57 C +ATOM 927 C VAL A 437 -7.511 -36.120 -52.617 1.00 40.93 C +ATOM 928 O VAL A 437 -6.697 -35.556 -53.343 1.00 41.14 O +ATOM 929 CB VAL A 437 -9.577 -34.721 -52.831 1.00 40.38 C +ATOM 930 CG1 VAL A 437 -10.172 -35.806 -53.695 1.00 39.54 C +ATOM 931 CG2 VAL A 437 -10.665 -33.928 -52.113 1.00 39.79 C +ATOM 932 N ILE A 438 -7.536 -37.435 -52.482 1.00 41.31 N +ATOM 933 CA ILE A 438 -6.720 -38.277 -53.340 1.00 41.71 C +ATOM 934 C ILE A 438 -7.646 -39.229 -54.083 1.00 42.39 C +ATOM 935 O ILE A 438 -8.534 -39.836 -53.482 1.00 42.64 O +ATOM 936 CB ILE A 438 -5.624 -39.029 -52.543 1.00 41.55 C +ATOM 937 CG1 ILE A 438 -4.695 -39.806 -53.473 1.00 40.88 C +ATOM 938 CG2 ILE A 438 -6.232 -39.936 -51.489 1.00 41.28 C +ATOM 939 CD1 ILE A 438 -3.461 -40.333 -52.784 1.00 39.88 C +ATOM 940 N ILE A 439 -7.477 -39.317 -55.397 1.00 43.05 N +ATOM 941 CA ILE A 439 -8.240 -40.268 -56.194 1.00 43.69 C +ATOM 942 C ILE A 439 -7.290 -41.065 -57.116 1.00 44.88 C +ATOM 943 O ILE A 439 -7.316 -40.959 -58.350 1.00 45.02 O +ATOM 944 CB ILE A 439 -9.429 -39.610 -56.934 1.00 43.33 C +ATOM 945 CG1 ILE A 439 -10.217 -38.702 -55.991 1.00 42.73 C +ATOM 946 CG2 ILE A 439 -10.360 -40.677 -57.437 1.00 43.22 C +ATOM 947 CD1 ILE A 439 -11.538 -38.209 -56.544 1.00 43.13 C +ATOM 948 N SER A 440 -6.441 -41.862 -56.479 1.00 45.99 N +ATOM 949 CA SER A 440 -5.428 -42.632 -57.175 1.00 47.15 C +ATOM 950 C SER A 440 -5.987 -43.898 -57.810 1.00 47.74 C +ATOM 951 O SER A 440 -6.822 -44.597 -57.219 1.00 47.93 O +ATOM 952 CB SER A 440 -4.299 -43.004 -56.200 1.00 47.36 C +ATOM 953 OG SER A 440 -3.650 -44.224 -56.554 1.00 48.18 O +ATOM 954 N GLY A 441 -5.508 -44.167 -59.022 1.00 48.26 N +ATOM 955 CA GLY A 441 -5.481 -45.514 -59.584 1.00 48.75 C +ATOM 956 C GLY A 441 -6.803 -46.207 -59.781 1.00 49.08 C +ATOM 957 O GLY A 441 -6.963 -47.365 -59.410 1.00 48.92 O +ATOM 958 N ASN A 442 -7.746 -45.505 -60.390 1.00 49.66 N +ATOM 959 CA ASN A 442 -9.038 -46.104 -60.682 1.00 50.44 C +ATOM 960 C ASN A 442 -9.213 -46.332 -62.176 1.00 50.55 C +ATOM 961 O ASN A 442 -9.920 -45.573 -62.857 1.00 50.57 O +ATOM 962 CB ASN A 442 -10.156 -45.269 -60.066 1.00 50.59 C +ATOM 963 CG ASN A 442 -9.873 -44.933 -58.614 1.00 51.43 C +ATOM 964 OD1 ASN A 442 -10.069 -45.760 -57.714 1.00 51.66 O +ATOM 965 ND2 ASN A 442 -9.367 -43.727 -58.381 1.00 52.28 N +ATOM 966 N LYS A 443 -8.553 -47.403 -62.647 1.00 50.56 N +ATOM 967 CA LYS A 443 -8.400 -47.773 -64.068 1.00 50.53 C +ATOM 968 C LYS A 443 -9.454 -47.231 -65.048 1.00 50.71 C +ATOM 969 O LYS A 443 -9.093 -46.734 -66.114 1.00 50.76 O +ATOM 970 CB LYS A 443 -8.270 -49.291 -64.211 1.00 50.30 C +ATOM 971 N ASN A 444 -10.736 -47.329 -64.672 1.00 50.93 N +ATOM 972 CA ASN A 444 -11.877 -46.953 -65.518 1.00 50.93 C +ATOM 973 C ASN A 444 -12.630 -45.706 -65.057 1.00 51.07 C +ATOM 974 O ASN A 444 -13.684 -45.390 -65.614 1.00 51.54 O +ATOM 975 CB ASN A 444 -12.909 -48.086 -65.568 1.00 50.92 C +ATOM 976 CG ASN A 444 -12.289 -49.452 -65.725 1.00 51.22 C +ATOM 977 OD1 ASN A 444 -11.581 -49.717 -66.690 1.00 52.36 O +ATOM 978 ND2 ASN A 444 -12.579 -50.342 -64.786 1.00 51.38 N +ATOM 979 N LEU A 445 -12.133 -45.010 -64.042 1.00 50.80 N +ATOM 980 CA LEU A 445 -12.896 -43.905 -63.478 1.00 50.69 C +ATOM 981 C LEU A 445 -12.783 -42.618 -64.290 1.00 51.06 C +ATOM 982 O LEU A 445 -11.690 -42.089 -64.490 1.00 50.95 O +ATOM 983 CB LEU A 445 -12.495 -43.679 -62.026 1.00 50.51 C +ATOM 984 CG LEU A 445 -12.863 -42.368 -61.339 1.00 49.88 C +ATOM 985 CD1 LEU A 445 -14.366 -42.160 -61.196 1.00 49.14 C +ATOM 986 CD2 LEU A 445 -12.204 -42.369 -60.001 1.00 49.36 C +ATOM 987 N CYS A 446 -13.925 -42.123 -64.753 1.00 51.72 N +ATOM 988 CA CYS A 446 -13.985 -40.877 -65.521 1.00 52.59 C +ATOM 989 C CYS A 446 -14.662 -39.765 -64.733 1.00 53.17 C +ATOM 990 O CYS A 446 -14.864 -39.901 -63.521 1.00 53.31 O +ATOM 991 CB CYS A 446 -14.692 -41.100 -66.859 1.00 52.40 C +ATOM 992 SG CYS A 446 -13.654 -41.893 -68.106 1.00 53.08 S +ATOM 993 N TYR A 447 -15.013 -38.675 -65.421 1.00 54.03 N +ATOM 994 CA TYR A 447 -15.664 -37.494 -64.814 1.00 55.10 C +ATOM 995 C TYR A 447 -14.957 -37.028 -63.524 1.00 55.49 C +ATOM 996 O TYR A 447 -15.560 -36.358 -62.673 1.00 55.31 O +ATOM 997 CB TYR A 447 -17.171 -37.732 -64.545 1.00 55.57 C +ATOM 998 CG TYR A 447 -17.835 -38.791 -65.399 1.00 56.13 C +ATOM 999 CD1 TYR A 447 -18.766 -38.456 -66.378 1.00 56.93 C +ATOM 1000 CD2 TYR A 447 -17.542 -40.140 -65.209 1.00 57.15 C +ATOM 1001 CE1 TYR A 447 -19.370 -39.460 -67.169 1.00 57.75 C +ATOM 1002 CE2 TYR A 447 -18.121 -41.136 -65.983 1.00 57.67 C +ATOM 1003 CZ TYR A 447 -19.034 -40.802 -66.956 1.00 57.32 C +ATOM 1004 OH TYR A 447 -19.591 -41.830 -67.688 1.00 57.05 O +ATOM 1005 N ALA A 448 -13.678 -37.397 -63.402 1.00 56.10 N +ATOM 1006 CA ALA A 448 -12.865 -37.164 -62.199 1.00 56.43 C +ATOM 1007 C ALA A 448 -12.687 -35.671 -61.942 1.00 56.74 C +ATOM 1008 O ALA A 448 -13.124 -35.164 -60.910 1.00 56.80 O +ATOM 1009 CB ALA A 448 -11.513 -37.853 -62.336 1.00 56.46 C +ATOM 1010 N ASN A 449 -12.040 -34.986 -62.890 1.00 56.94 N +ATOM 1011 CA ASN A 449 -12.041 -33.524 -62.982 1.00 56.83 C +ATOM 1012 C ASN A 449 -13.399 -33.058 -63.505 1.00 56.52 C +ATOM 1013 O ASN A 449 -14.370 -33.819 -63.476 1.00 56.60 O +ATOM 1014 CB ASN A 449 -10.902 -33.040 -63.888 1.00 56.91 C +ATOM 1015 CG ASN A 449 -10.621 -33.999 -65.046 1.00 58.39 C +ATOM 1016 OD1 ASN A 449 -11.426 -34.889 -65.352 1.00 60.15 O +ATOM 1017 ND2 ASN A 449 -9.475 -33.821 -65.698 1.00 59.34 N +ATOM 1018 N THR A 450 -13.462 -31.828 -64.010 1.00 56.19 N +ATOM 1019 CA THR A 450 -14.734 -31.166 -64.351 1.00 56.02 C +ATOM 1020 C THR A 450 -15.517 -30.800 -63.094 1.00 55.62 C +ATOM 1021 O THR A 450 -16.558 -30.145 -63.171 1.00 55.80 O +ATOM 1022 CB THR A 450 -15.658 -31.969 -65.345 1.00 56.27 C +ATOM 1023 OG1 THR A 450 -16.435 -32.958 -64.637 1.00 56.18 O +ATOM 1024 CG2 THR A 450 -14.843 -32.617 -66.488 1.00 56.81 C +ATOM 1025 N ILE A 451 -15.025 -31.239 -61.939 1.00 55.08 N +ATOM 1026 CA ILE A 451 -15.537 -30.726 -60.673 1.00 54.58 C +ATOM 1027 C ILE A 451 -14.611 -29.606 -60.234 1.00 53.89 C +ATOM 1028 O ILE A 451 -13.402 -29.819 -60.037 1.00 53.83 O +ATOM 1029 CB ILE A 451 -15.597 -31.780 -59.512 1.00 54.78 C +ATOM 1030 CG1 ILE A 451 -15.460 -33.218 -60.028 1.00 54.97 C +ATOM 1031 CG2 ILE A 451 -16.848 -31.549 -58.650 1.00 54.53 C +ATOM 1032 CD1 ILE A 451 -15.682 -34.285 -58.978 1.00 54.67 C +ATOM 1033 N ASN A 452 -15.171 -28.409 -60.091 1.00 52.78 N +ATOM 1034 CA ASN A 452 -14.450 -27.371 -59.391 1.00 51.57 C +ATOM 1035 C ASN A 452 -14.436 -27.751 -57.925 1.00 50.69 C +ATOM 1036 O ASN A 452 -15.312 -27.345 -57.151 1.00 50.85 O +ATOM 1037 CB ASN A 452 -15.085 -26.006 -59.583 1.00 51.67 C +ATOM 1038 CG ASN A 452 -14.254 -24.903 -58.979 1.00 51.79 C +ATOM 1039 OD1 ASN A 452 -13.019 -24.948 -59.002 1.00 51.59 O +ATOM 1040 ND2 ASN A 452 -14.923 -23.901 -58.432 1.00 53.04 N +ATOM 1041 N TRP A 453 -13.448 -28.568 -57.573 1.00 49.30 N +ATOM 1042 CA TRP A 453 -13.244 -29.050 -56.220 1.00 47.89 C +ATOM 1043 C TRP A 453 -13.123 -27.918 -55.207 1.00 46.82 C +ATOM 1044 O TRP A 453 -13.494 -28.081 -54.049 1.00 46.49 O +ATOM 1045 CB TRP A 453 -11.986 -29.885 -56.184 1.00 48.25 C +ATOM 1046 CG TRP A 453 -12.088 -31.208 -56.862 1.00 48.47 C +ATOM 1047 CD1 TRP A 453 -11.571 -31.551 -58.077 1.00 48.76 C +ATOM 1048 CD2 TRP A 453 -12.706 -32.387 -56.339 1.00 49.21 C +ATOM 1049 NE1 TRP A 453 -11.832 -32.872 -58.346 1.00 48.94 N +ATOM 1050 CE2 TRP A 453 -12.527 -33.409 -57.294 1.00 49.00 C +ATOM 1051 CE3 TRP A 453 -13.396 -32.681 -55.149 1.00 49.70 C +ATOM 1052 CZ2 TRP A 453 -13.012 -34.705 -57.101 1.00 48.82 C +ATOM 1053 CZ3 TRP A 453 -13.883 -33.968 -54.960 1.00 49.00 C +ATOM 1054 CH2 TRP A 453 -13.690 -34.963 -55.935 1.00 48.73 C +ATOM 1055 N LYS A 454 -12.605 -26.775 -55.658 1.00 45.75 N +ATOM 1056 CA LYS A 454 -12.543 -25.552 -54.858 1.00 44.90 C +ATOM 1057 C LYS A 454 -13.907 -25.096 -54.375 1.00 44.59 C +ATOM 1058 O LYS A 454 -14.003 -24.084 -53.679 1.00 44.66 O +ATOM 1059 CB LYS A 454 -11.937 -24.407 -55.660 1.00 44.57 C +ATOM 1060 CG LYS A 454 -10.585 -24.694 -56.228 1.00 44.25 C +ATOM 1061 CD LYS A 454 -9.495 -24.586 -55.189 1.00 43.43 C +ATOM 1062 CE LYS A 454 -8.191 -25.037 -55.796 1.00 42.65 C +ATOM 1063 NZ LYS A 454 -8.001 -24.310 -57.079 1.00 41.70 N +ATOM 1064 N LYS A 455 -14.956 -25.816 -54.768 1.00 44.00 N +ATOM 1065 CA LYS A 455 -16.299 -25.517 -54.304 1.00 43.54 C +ATOM 1066 C LYS A 455 -16.553 -26.244 -52.983 1.00 43.23 C +ATOM 1067 O LYS A 455 -17.241 -25.730 -52.102 1.00 43.14 O +ATOM 1068 CB LYS A 455 -17.346 -25.868 -55.365 1.00 43.24 C +ATOM 1069 N LEU A 456 -15.967 -27.425 -52.838 1.00 43.00 N +ATOM 1070 CA LEU A 456 -16.144 -28.231 -51.626 1.00 43.04 C +ATOM 1071 C LEU A 456 -15.164 -27.830 -50.504 1.00 42.75 C +ATOM 1072 O LEU A 456 -15.395 -28.142 -49.326 1.00 43.03 O +ATOM 1073 CB LEU A 456 -16.026 -29.731 -51.953 1.00 43.33 C +ATOM 1074 CG LEU A 456 -17.042 -30.342 -52.946 1.00 44.28 C +ATOM 1075 CD1 LEU A 456 -16.551 -30.300 -54.387 1.00 45.13 C +ATOM 1076 CD2 LEU A 456 -17.397 -31.781 -52.590 1.00 44.85 C +ATOM 1077 N PHE A 457 -14.095 -27.117 -50.880 1.00 41.89 N +ATOM 1078 CA PHE A 457 -13.032 -26.697 -49.966 1.00 40.75 C +ATOM 1079 C PHE A 457 -13.355 -25.482 -49.103 1.00 40.51 C +ATOM 1080 O PHE A 457 -14.099 -24.583 -49.507 1.00 40.49 O +ATOM 1081 CB PHE A 457 -11.768 -26.380 -50.754 1.00 40.55 C +ATOM 1082 CG PHE A 457 -11.126 -27.572 -51.374 1.00 39.92 C +ATOM 1083 CD1 PHE A 457 -10.303 -27.421 -52.484 1.00 39.29 C +ATOM 1084 CD2 PHE A 457 -11.344 -28.847 -50.863 1.00 39.21 C +ATOM 1085 CE1 PHE A 457 -9.698 -28.522 -53.077 1.00 39.06 C +ATOM 1086 CE2 PHE A 457 -10.745 -29.954 -51.446 1.00 39.28 C +ATOM 1087 CZ PHE A 457 -9.920 -29.794 -52.560 1.00 39.33 C +ATOM 1088 N GLY A 458 -12.745 -25.450 -47.921 1.00 40.12 N +ATOM 1089 CA GLY A 458 -12.889 -24.340 -46.985 1.00 39.39 C +ATOM 1090 C GLY A 458 -11.621 -23.542 -46.754 1.00 38.79 C +ATOM 1091 O GLY A 458 -11.648 -22.506 -46.085 1.00 38.62 O +ATOM 1092 N THR A 459 -10.511 -24.008 -47.322 1.00 38.38 N +ATOM 1093 CA THR A 459 -9.219 -23.354 -47.118 1.00 38.07 C +ATOM 1094 C THR A 459 -8.349 -23.287 -48.388 1.00 37.94 C +ATOM 1095 O THR A 459 -8.568 -24.061 -49.328 1.00 38.36 O +ATOM 1096 CB THR A 459 -8.469 -24.032 -45.968 1.00 37.81 C +ATOM 1097 OG1 THR A 459 -7.619 -23.076 -45.338 1.00 38.48 O +ATOM 1098 CG2 THR A 459 -7.661 -25.222 -46.446 1.00 37.67 C +ATOM 1099 N SER A 460 -7.392 -22.355 -48.428 1.00 37.38 N +ATOM 1100 CA SER A 460 -6.374 -22.340 -49.496 1.00 37.10 C +ATOM 1101 C SER A 460 -5.538 -23.614 -49.522 1.00 36.80 C +ATOM 1102 O SER A 460 -5.124 -24.074 -50.583 1.00 36.97 O +ATOM 1103 CB SER A 460 -5.419 -21.162 -49.344 1.00 37.04 C +ATOM 1104 OG SER A 460 -6.100 -19.955 -49.575 1.00 37.32 O +ATOM 1105 N GLY A 461 -5.301 -24.181 -48.348 1.00 36.27 N +ATOM 1106 CA GLY A 461 -4.361 -25.265 -48.208 1.00 35.91 C +ATOM 1107 C GLY A 461 -4.803 -26.557 -48.838 1.00 35.69 C +ATOM 1108 O GLY A 461 -3.982 -27.471 -49.019 1.00 36.05 O +ATOM 1109 N GLN A 462 -6.087 -26.643 -49.182 1.00 35.29 N +ATOM 1110 CA GLN A 462 -6.662 -27.906 -49.656 1.00 34.99 C +ATOM 1111 C GLN A 462 -6.195 -28.340 -51.032 1.00 35.06 C +ATOM 1112 O GLN A 462 -6.435 -27.670 -52.040 1.00 35.07 O +ATOM 1113 CB GLN A 462 -8.174 -27.899 -49.555 1.00 34.72 C +ATOM 1114 CG GLN A 462 -8.628 -28.412 -48.211 1.00 34.39 C +ATOM 1115 CD GLN A 462 -10.028 -27.988 -47.857 1.00 33.20 C +ATOM 1116 OE1 GLN A 462 -10.865 -28.820 -47.520 1.00 33.04 O +ATOM 1117 NE2 GLN A 462 -10.291 -26.688 -47.919 1.00 31.75 N +ATOM 1118 N LYS A 463 -5.504 -29.473 -51.046 1.00 35.24 N +ATOM 1119 CA LYS A 463 -4.861 -29.972 -52.246 1.00 35.35 C +ATOM 1120 C LYS A 463 -5.658 -31.117 -52.835 1.00 35.62 C +ATOM 1121 O LYS A 463 -6.257 -31.930 -52.124 1.00 35.16 O +ATOM 1122 CB LYS A 463 -3.431 -30.437 -51.947 1.00 35.35 C +ATOM 1123 CG LYS A 463 -2.486 -29.364 -51.449 1.00 34.84 C +ATOM 1124 CD LYS A 463 -1.044 -29.781 -51.717 1.00 35.65 C +ATOM 1125 CE LYS A 463 -0.059 -28.654 -51.404 1.00 35.44 C +ATOM 1126 NZ LYS A 463 1.274 -28.810 -52.047 1.00 34.22 N +ATOM 1127 N THR A 464 -5.649 -31.166 -54.157 1.00 36.32 N +ATOM 1128 CA THR A 464 -6.327 -32.209 -54.900 1.00 36.95 C +ATOM 1129 C THR A 464 -5.240 -33.087 -55.504 1.00 37.77 C +ATOM 1130 O THR A 464 -4.193 -32.586 -55.927 1.00 38.27 O +ATOM 1131 CB THR A 464 -7.264 -31.584 -55.964 1.00 36.76 C +ATOM 1132 OG1 THR A 464 -8.574 -32.152 -55.844 1.00 36.55 O +ATOM 1133 CG2 THR A 464 -6.711 -31.702 -57.396 1.00 35.61 C +ATOM 1134 N LYS A 465 -5.454 -34.393 -55.508 1.00 38.48 N +ATOM 1135 CA LYS A 465 -4.429 -35.287 -56.003 1.00 39.34 C +ATOM 1136 C LYS A 465 -5.041 -36.396 -56.835 1.00 40.43 C +ATOM 1137 O LYS A 465 -5.095 -37.551 -56.412 1.00 40.66 O +ATOM 1138 CB LYS A 465 -3.601 -35.844 -54.850 1.00 38.91 C +ATOM 1139 CG LYS A 465 -2.163 -36.074 -55.219 1.00 38.53 C +ATOM 1140 CD LYS A 465 -1.885 -37.507 -55.601 1.00 38.12 C +ATOM 1141 CE LYS A 465 -1.141 -38.242 -54.489 1.00 39.22 C +ATOM 1142 NZ LYS A 465 0.318 -37.890 -54.403 1.00 39.34 N +ATOM 1143 N ILE A 466 -5.504 -36.024 -58.024 1.00 41.75 N +ATOM 1144 CA ILE A 466 -6.095 -36.966 -58.967 1.00 43.24 C +ATOM 1145 C ILE A 466 -5.029 -37.495 -59.948 1.00 44.46 C +ATOM 1146 O ILE A 466 -4.380 -36.724 -60.654 1.00 44.53 O +ATOM 1147 CB ILE A 466 -7.321 -36.327 -59.695 1.00 43.08 C +ATOM 1148 CG1 ILE A 466 -8.543 -36.319 -58.772 1.00 42.95 C +ATOM 1149 CG2 ILE A 466 -7.658 -37.047 -61.004 1.00 43.20 C +ATOM 1150 CD1 ILE A 466 -8.812 -34.997 -58.071 1.00 41.93 C +ATOM 1151 N ILE A 467 -4.844 -38.813 -59.961 1.00 46.09 N +ATOM 1152 CA ILE A 467 -3.886 -39.469 -60.846 1.00 47.93 C +ATOM 1153 C ILE A 467 -4.295 -40.909 -61.178 1.00 49.36 C +ATOM 1154 O ILE A 467 -5.060 -41.541 -60.436 1.00 49.77 O +ATOM 1155 CB ILE A 467 -2.456 -39.522 -60.228 1.00 47.86 C +ATOM 1156 CG1 ILE A 467 -2.470 -40.170 -58.840 1.00 47.71 C +ATOM 1157 CG2 ILE A 467 -1.812 -38.139 -60.183 1.00 48.28 C +ATOM 1158 CD1 ILE A 467 -1.080 -40.449 -58.278 1.00 47.94 C +ATOM 1159 N SER A 468 -3.768 -41.414 -62.294 1.00 50.89 N +ATOM 1160 CA SER A 468 -3.782 -42.845 -62.627 1.00 52.40 C +ATOM 1161 C SER A 468 -5.149 -43.467 -62.939 1.00 53.49 C +ATOM 1162 O SER A 468 -5.303 -44.680 -62.843 1.00 53.77 O +ATOM 1163 CB SER A 468 -3.048 -43.673 -61.551 1.00 52.29 C +ATOM 1164 OG SER A 468 -1.653 -43.398 -61.541 1.00 52.66 O +ATOM 1165 N ASN A 469 -6.130 -42.659 -63.332 1.00 55.01 N +ATOM 1166 CA ASN A 469 -7.447 -43.193 -63.725 1.00 56.40 C +ATOM 1167 C ASN A 469 -7.652 -43.064 -65.243 1.00 57.39 C +ATOM 1168 O ASN A 469 -6.786 -42.507 -65.924 1.00 57.55 O +ATOM 1169 CB ASN A 469 -8.584 -42.493 -62.957 1.00 56.40 C +ATOM 1170 CG ASN A 469 -8.184 -42.064 -61.543 1.00 56.28 C +ATOM 1171 OD1 ASN A 469 -7.806 -42.889 -60.697 1.00 55.76 O +ATOM 1172 ND2 ASN A 469 -8.282 -40.758 -61.282 1.00 55.38 N +ATOM 1173 N ARG A 470 -8.784 -43.562 -65.765 1.00 58.71 N +ATOM 1174 CA ARG A 470 -9.100 -43.509 -67.221 1.00 59.99 C +ATOM 1175 C ARG A 470 -8.977 -42.101 -67.821 1.00 60.85 C +ATOM 1176 O ARG A 470 -9.945 -41.328 -67.813 1.00 60.80 O +ATOM 1177 CB ARG A 470 -10.496 -44.082 -67.523 1.00 59.78 C +ATOM 1178 N GLY A 471 -7.788 -41.802 -68.354 1.00 61.75 N +ATOM 1179 CA GLY A 471 -7.413 -40.461 -68.812 1.00 63.02 C +ATOM 1180 C GLY A 471 -8.474 -39.685 -69.570 1.00 63.97 C +ATOM 1181 O GLY A 471 -9.238 -40.264 -70.348 1.00 63.81 O +ATOM 1182 N GLU A 472 -8.501 -38.369 -69.346 1.00 65.09 N +ATOM 1183 CA GLU A 472 -9.462 -37.458 -69.981 1.00 66.27 C +ATOM 1184 C GLU A 472 -9.798 -37.855 -71.423 1.00 67.21 C +ATOM 1185 O GLU A 472 -10.961 -37.786 -71.844 1.00 67.53 O +ATOM 1186 CB GLU A 472 -8.951 -36.015 -69.931 1.00 66.13 C +ATOM 1187 N ASN A 473 -8.773 -38.278 -72.165 1.00 68.23 N +ATOM 1188 CA ASN A 473 -8.933 -38.804 -73.529 1.00 69.04 C +ATOM 1189 C ASN A 473 -10.082 -39.817 -73.688 1.00 69.51 C +ATOM 1190 O ASN A 473 -11.102 -39.506 -74.317 1.00 69.30 O +ATOM 1191 CB ASN A 473 -7.606 -39.396 -74.039 1.00 68.97 C +ATOM 1192 CG ASN A 473 -6.905 -40.262 -72.996 1.00 69.06 C +ATOM 1193 OD1 ASN A 473 -6.403 -39.754 -71.990 1.00 69.39 O +ATOM 1194 ND2 ASN A 473 -6.870 -41.572 -73.233 1.00 68.52 N +ATOM 1195 N SER A 474 -9.916 -41.000 -73.086 1.00 70.19 N +ATOM 1196 CA SER A 474 -10.837 -42.129 -73.261 1.00 70.97 C +ATOM 1197 C SER A 474 -12.285 -41.808 -72.883 1.00 71.64 C +ATOM 1198 O SER A 474 -13.209 -42.473 -73.353 1.00 71.62 O +ATOM 1199 CB SER A 474 -10.339 -43.364 -72.502 1.00 70.65 C +ATOM 1200 N CYS A 475 -12.472 -40.784 -72.048 1.00 72.57 N +ATOM 1201 CA CYS A 475 -13.806 -40.325 -71.643 1.00 73.55 C +ATOM 1202 C CYS A 475 -14.440 -39.531 -72.773 1.00 74.08 C +ATOM 1203 O CYS A 475 -15.594 -39.772 -73.148 1.00 74.19 O +ATOM 1204 CB CYS A 475 -13.726 -39.438 -70.403 1.00 73.46 C +ATOM 1205 SG CYS A 475 -12.261 -39.715 -69.417 1.00 74.39 S +ATOM 1206 N LYS A 476 -13.674 -38.577 -73.303 1.00 74.63 N +ATOM 1207 CA LYS A 476 -14.096 -37.795 -74.452 1.00 75.13 C +ATOM 1208 C LYS A 476 -14.572 -38.740 -75.565 1.00 75.44 C +ATOM 1209 O LYS A 476 -15.721 -38.648 -76.013 1.00 75.58 O +ATOM 1210 CB LYS A 476 -12.952 -36.894 -74.931 1.00 75.15 C +ATOM 1211 N ALA A 477 -13.699 -39.671 -75.962 1.00 75.62 N +ATOM 1212 CA ALA A 477 -13.977 -40.622 -77.039 1.00 75.76 C +ATOM 1213 C ALA A 477 -15.229 -41.460 -76.781 1.00 75.88 C +ATOM 1214 O ALA A 477 -16.175 -41.419 -77.579 1.00 76.06 O +ATOM 1215 CB ALA A 477 -12.769 -41.522 -77.291 1.00 75.75 C +ATOM 1216 N THR A 478 -15.238 -42.198 -75.668 1.00 75.76 N +ATOM 1217 CA THR A 478 -16.355 -43.082 -75.314 1.00 75.70 C +ATOM 1218 C THR A 478 -17.633 -42.297 -75.010 1.00 75.91 C +ATOM 1219 O THR A 478 -18.715 -42.885 -74.858 1.00 76.04 O +ATOM 1220 CB THR A 478 -15.998 -43.976 -74.115 1.00 75.57 C +ATOM 1221 OG1 THR A 478 -14.759 -44.636 -74.383 1.00 75.68 O +ATOM 1222 CG2 THR A 478 -17.071 -45.029 -73.871 1.00 75.40 C +ATOM 1223 N GLY A 479 -17.505 -40.971 -74.937 1.00 75.90 N +ATOM 1224 CA GLY A 479 -18.630 -40.100 -74.623 1.00 75.84 C +ATOM 1225 C GLY A 479 -18.989 -40.235 -73.161 1.00 75.88 C +ATOM 1226 O GLY A 479 -20.093 -39.889 -72.749 1.00 75.94 O +ATOM 1227 N GLN A 480 -18.044 -40.759 -72.385 1.00 75.97 N +ATOM 1228 CA GLN A 480 -18.155 -40.845 -70.940 1.00 75.99 C +ATOM 1229 C GLN A 480 -17.851 -39.490 -70.320 1.00 76.24 C +ATOM 1230 O GLN A 480 -17.019 -39.381 -69.421 1.00 76.30 O +ATOM 1231 CB GLN A 480 -17.159 -41.860 -70.411 1.00 75.80 C +ATOM 1232 CG GLN A 480 -17.614 -43.282 -70.477 1.00 75.31 C +ATOM 1233 CD GLN A 480 -17.022 -44.081 -69.348 1.00 75.05 C +ATOM 1234 OE1 GLN A 480 -16.433 -45.139 -69.561 1.00 75.00 O +ATOM 1235 NE2 GLN A 480 -17.149 -43.561 -68.127 1.00 75.03 N +ATOM 1236 N VAL A 481 -18.516 -38.458 -70.820 1.00 76.58 N +ATOM 1237 CA VAL A 481 -18.280 -37.109 -70.355 1.00 76.96 C +ATOM 1238 C VAL A 481 -19.567 -36.585 -69.746 1.00 77.35 C +ATOM 1239 O VAL A 481 -20.536 -37.328 -69.597 1.00 77.26 O +ATOM 1240 CB VAL A 481 -17.788 -36.169 -71.487 1.00 76.94 C +ATOM 1241 CG1 VAL A 481 -16.775 -35.167 -70.932 1.00 77.04 C +ATOM 1242 CG2 VAL A 481 -17.161 -36.956 -72.633 1.00 76.69 C +ATOM 1243 N CYS A 482 -19.562 -35.307 -69.383 1.00 78.11 N +ATOM 1244 CA CYS A 482 -20.704 -34.663 -68.760 1.00 78.85 C +ATOM 1245 C CYS A 482 -21.929 -34.769 -69.645 1.00 79.30 C +ATOM 1246 O CYS A 482 -21.833 -34.577 -70.854 1.00 79.67 O +ATOM 1247 CB CYS A 482 -20.384 -33.199 -68.457 1.00 78.77 C +ATOM 1248 SG CYS A 482 -19.171 -32.999 -67.122 1.00 79.34 S +ATOM 1249 N HIS A 483 -23.070 -35.102 -69.044 1.00 79.72 N +ATOM 1250 CA HIS A 483 -24.348 -35.103 -69.753 1.00 80.19 C +ATOM 1251 C HIS A 483 -24.633 -33.719 -70.344 1.00 80.23 C +ATOM 1252 O HIS A 483 -24.072 -32.714 -69.896 1.00 80.24 O +ATOM 1253 CB HIS A 483 -25.477 -35.530 -68.810 1.00 80.49 C +ATOM 1254 CG HIS A 483 -26.792 -35.756 -69.496 1.00 81.36 C +ATOM 1255 ND1 HIS A 483 -27.072 -36.899 -70.219 1.00 81.87 N +ATOM 1256 CD2 HIS A 483 -27.905 -34.988 -69.561 1.00 81.59 C +ATOM 1257 CE1 HIS A 483 -28.299 -36.823 -70.701 1.00 81.73 C +ATOM 1258 NE2 HIS A 483 -28.826 -35.673 -70.317 1.00 82.17 N +ATOM 1259 N ALA A 484 -25.483 -33.674 -71.366 1.00 80.38 N +ATOM 1260 CA ALA A 484 -25.811 -32.419 -72.035 1.00 80.46 C +ATOM 1261 C ALA A 484 -26.601 -31.476 -71.123 1.00 80.46 C +ATOM 1262 O ALA A 484 -26.309 -30.274 -71.079 1.00 80.61 O +ATOM 1263 CB ALA A 484 -26.564 -32.680 -73.337 1.00 80.53 C +ATOM 1264 N LEU A 485 -27.570 -32.027 -70.384 1.00 80.22 N +ATOM 1265 CA LEU A 485 -28.428 -31.248 -69.476 1.00 80.13 C +ATOM 1266 C LEU A 485 -27.649 -30.457 -68.400 1.00 80.17 C +ATOM 1267 O LEU A 485 -28.221 -29.607 -67.700 1.00 80.17 O +ATOM 1268 CB LEU A 485 -29.482 -32.156 -68.831 1.00 79.98 C +ATOM 1269 N CYS A 486 -26.344 -30.739 -68.301 1.00 80.15 N +ATOM 1270 CA CYS A 486 -25.417 -30.109 -67.347 1.00 79.82 C +ATOM 1271 C CYS A 486 -25.324 -28.600 -67.436 1.00 79.60 C +ATOM 1272 O CYS A 486 -25.715 -27.982 -68.437 1.00 79.72 O +ATOM 1273 CB CYS A 486 -23.995 -30.659 -67.532 1.00 79.85 C +ATOM 1274 SG CYS A 486 -23.505 -31.971 -66.389 1.00 80.04 S +ATOM 1275 N SER A 487 -24.813 -28.023 -66.354 1.00 79.11 N +ATOM 1276 CA SER A 487 -24.174 -26.725 -66.403 1.00 78.51 C +ATOM 1277 C SER A 487 -22.669 -27.015 -66.503 1.00 78.13 C +ATOM 1278 O SER A 487 -22.258 -28.181 -66.418 1.00 77.90 O +ATOM 1279 CB SER A 487 -24.532 -25.882 -65.164 1.00 78.48 C +ATOM 1280 OG SER A 487 -24.463 -26.626 -63.960 1.00 78.21 O +ATOM 1281 N PRO A 488 -21.849 -25.975 -66.741 1.00 77.86 N +ATOM 1282 CA PRO A 488 -20.379 -26.081 -66.606 1.00 77.53 C +ATOM 1283 C PRO A 488 -19.867 -26.504 -65.205 1.00 77.02 C +ATOM 1284 O PRO A 488 -18.659 -26.711 -65.028 1.00 76.95 O +ATOM 1285 CB PRO A 488 -19.890 -24.659 -66.941 1.00 77.68 C +ATOM 1286 CG PRO A 488 -21.119 -23.769 -66.807 1.00 77.89 C +ATOM 1287 CD PRO A 488 -22.262 -24.640 -67.219 1.00 77.88 C +ATOM 1288 N GLU A 489 -20.775 -26.631 -64.235 1.00 76.32 N +ATOM 1289 CA GLU A 489 -20.429 -27.021 -62.865 1.00 75.56 C +ATOM 1290 C GLU A 489 -19.825 -28.432 -62.788 1.00 74.97 C +ATOM 1291 O GLU A 489 -18.951 -28.694 -61.957 1.00 75.14 O +ATOM 1292 CB GLU A 489 -21.642 -26.875 -61.936 1.00 75.53 C +ATOM 1293 N GLY A 490 -20.287 -29.336 -63.649 1.00 74.12 N +ATOM 1294 CA GLY A 490 -19.605 -30.614 -63.833 1.00 73.24 C +ATOM 1295 C GLY A 490 -20.363 -31.865 -63.447 1.00 72.67 C +ATOM 1296 O GLY A 490 -21.554 -31.818 -63.143 1.00 72.54 O +ATOM 1297 N CYS A 491 -19.647 -32.987 -63.444 1.00 72.15 N +ATOM 1298 CA CYS A 491 -20.253 -34.304 -63.264 1.00 71.66 C +ATOM 1299 C CYS A 491 -19.750 -35.134 -62.082 1.00 70.95 C +ATOM 1300 O CYS A 491 -18.596 -35.025 -61.656 1.00 70.76 O +ATOM 1301 CB CYS A 491 -20.073 -35.130 -64.535 1.00 71.90 C +ATOM 1302 SG CYS A 491 -21.306 -34.796 -65.766 1.00 73.07 S +ATOM 1303 N TRP A 492 -20.647 -35.971 -61.575 1.00 70.06 N +ATOM 1304 CA TRP A 492 -20.292 -37.034 -60.662 1.00 69.36 C +ATOM 1305 C TRP A 492 -20.523 -38.365 -61.379 1.00 69.38 C +ATOM 1306 O TRP A 492 -20.562 -39.429 -60.750 1.00 69.26 O +ATOM 1307 CB TRP A 492 -21.138 -36.949 -59.394 1.00 68.93 C +ATOM 1308 CG TRP A 492 -20.790 -35.804 -58.474 1.00 68.38 C +ATOM 1309 CD1 TRP A 492 -21.540 -34.687 -58.233 1.00 68.08 C +ATOM 1310 CD2 TRP A 492 -19.617 -35.679 -57.665 1.00 67.82 C +ATOM 1311 NE1 TRP A 492 -20.905 -33.875 -57.328 1.00 67.76 N +ATOM 1312 CE2 TRP A 492 -19.723 -34.460 -56.962 1.00 67.72 C +ATOM 1313 CE3 TRP A 492 -18.481 -36.478 -57.469 1.00 67.95 C +ATOM 1314 CZ2 TRP A 492 -18.738 -34.018 -56.078 1.00 68.18 C +ATOM 1315 CZ3 TRP A 492 -17.501 -36.040 -56.591 1.00 68.05 C +ATOM 1316 CH2 TRP A 492 -17.634 -34.818 -55.906 1.00 68.26 C +ATOM 1317 N GLY A 493 -20.664 -38.283 -62.706 1.00 69.49 N +ATOM 1318 CA GLY A 493 -21.026 -39.423 -63.566 1.00 69.32 C +ATOM 1319 C GLY A 493 -21.909 -39.048 -64.759 1.00 69.10 C +ATOM 1320 O GLY A 493 -22.341 -37.899 -64.875 1.00 68.92 O +ATOM 1321 N PRO A 494 -22.215 -40.029 -65.633 1.00 69.00 N +ATOM 1322 CA PRO A 494 -22.802 -39.730 -66.947 1.00 68.88 C +ATOM 1323 C PRO A 494 -24.264 -39.300 -66.904 1.00 68.77 C +ATOM 1324 O PRO A 494 -24.710 -38.566 -67.788 1.00 68.57 O +ATOM 1325 CB PRO A 494 -22.653 -41.048 -67.709 1.00 68.85 C +ATOM 1326 CG PRO A 494 -22.621 -42.101 -66.652 1.00 68.95 C +ATOM 1327 CD PRO A 494 -22.044 -41.479 -65.414 1.00 69.03 C +ATOM 1328 N GLU A 495 -24.983 -39.754 -65.878 1.00 68.79 N +ATOM 1329 CA GLU A 495 -26.418 -39.507 -65.722 1.00 68.94 C +ATOM 1330 C GLU A 495 -26.785 -38.014 -65.615 1.00 69.01 C +ATOM 1331 O GLU A 495 -25.971 -37.200 -65.173 1.00 68.99 O +ATOM 1332 CB GLU A 495 -26.955 -40.282 -64.511 1.00 68.89 C +ATOM 1333 N PRO A 496 -28.016 -37.652 -66.026 1.00 69.16 N +ATOM 1334 CA PRO A 496 -28.443 -36.248 -65.994 1.00 69.07 C +ATOM 1335 C PRO A 496 -28.441 -35.628 -64.593 1.00 68.91 C +ATOM 1336 O PRO A 496 -28.294 -34.409 -64.464 1.00 68.87 O +ATOM 1337 CB PRO A 496 -29.877 -36.304 -66.544 1.00 69.17 C +ATOM 1338 CG PRO A 496 -30.319 -37.730 -66.340 1.00 69.29 C +ATOM 1339 CD PRO A 496 -29.079 -38.535 -66.551 1.00 69.26 C +ATOM 1340 N ARG A 497 -28.606 -36.451 -63.558 1.00 68.67 N +ATOM 1341 CA ARG A 497 -28.639 -35.938 -62.183 1.00 68.45 C +ATOM 1342 C ARG A 497 -27.290 -36.037 -61.437 1.00 68.61 C +ATOM 1343 O ARG A 497 -27.247 -36.130 -60.205 1.00 68.76 O +ATOM 1344 CB ARG A 497 -29.820 -36.528 -61.380 1.00 68.18 C +ATOM 1345 CG ARG A 497 -29.962 -38.046 -61.415 1.00 67.08 C +ATOM 1346 CD ARG A 497 -29.131 -38.706 -60.328 1.00 64.29 C +ATOM 1347 NE ARG A 497 -28.813 -40.094 -60.650 1.00 62.42 N +ATOM 1348 CZ ARG A 497 -29.041 -41.130 -59.849 1.00 61.10 C +ATOM 1349 NH1 ARG A 497 -29.579 -40.959 -58.648 1.00 60.04 N +ATOM 1350 NH2 ARG A 497 -28.710 -42.346 -60.251 1.00 61.09 N +ATOM 1351 N ASP A 498 -26.196 -35.997 -62.197 1.00 68.55 N +ATOM 1352 CA ASP A 498 -24.852 -35.915 -61.630 1.00 68.45 C +ATOM 1353 C ASP A 498 -24.272 -34.509 -61.778 1.00 68.64 C +ATOM 1354 O ASP A 498 -23.114 -34.269 -61.430 1.00 68.62 O +ATOM 1355 CB ASP A 498 -23.933 -36.947 -62.287 1.00 68.26 C +ATOM 1356 CG ASP A 498 -24.339 -38.377 -61.973 1.00 68.02 C +ATOM 1357 OD1 ASP A 498 -24.875 -38.616 -60.872 1.00 67.29 O +ATOM 1358 OD2 ASP A 498 -24.118 -39.269 -62.823 1.00 67.76 O +ATOM 1359 N CYS A 499 -25.087 -33.588 -62.292 1.00 68.94 N +ATOM 1360 CA CYS A 499 -24.679 -32.193 -62.507 1.00 69.28 C +ATOM 1361 C CYS A 499 -24.503 -31.451 -61.190 1.00 69.46 C +ATOM 1362 O CYS A 499 -25.384 -31.494 -60.319 1.00 69.81 O +ATOM 1363 CB CYS A 499 -25.701 -31.449 -63.370 1.00 69.25 C +ATOM 1364 SG CYS A 499 -26.042 -32.228 -64.947 1.00 69.45 S +ATOM 1365 N VAL A 500 -23.372 -30.764 -61.047 1.00 69.41 N +ATOM 1366 CA VAL A 500 -23.093 -30.021 -59.820 1.00 69.23 C +ATOM 1367 C VAL A 500 -23.875 -28.711 -59.820 1.00 69.23 C +ATOM 1368 O VAL A 500 -25.048 -28.687 -59.443 1.00 69.19 O +ATOM 1369 CB VAL A 500 -21.583 -29.766 -59.610 1.00 69.14 C +ATOM 1370 CG1 VAL A 500 -21.322 -29.255 -58.196 1.00 68.76 C +ATOM 1371 CG2 VAL A 500 -20.784 -31.044 -59.860 1.00 69.26 C +HETATM 1372 C1 NAG A3281 -13.608 -56.579 -37.810 1.00 34.81 C +HETATM 1373 C2 NAG A3281 -12.238 -56.193 -37.325 1.00 36.79 C +HETATM 1374 C3 NAG A3281 -12.162 -56.580 -35.859 1.00 35.91 C +HETATM 1375 C4 NAG A3281 -13.372 -56.008 -35.107 1.00 33.98 C +HETATM 1376 C5 NAG A3281 -14.679 -55.907 -35.888 1.00 33.96 C +HETATM 1377 C6 NAG A3281 -15.597 -54.832 -35.312 1.00 35.46 C +HETATM 1378 C7 NAG A3281 -10.961 -56.196 -39.352 1.00 41.80 C +HETATM 1379 C8 NAG A3281 -9.853 -56.794 -40.170 1.00 42.42 C +HETATM 1380 N2 NAG A3281 -11.225 -56.776 -38.177 1.00 39.99 N +HETATM 1381 O3 NAG A3281 -10.967 -56.068 -35.296 1.00 37.00 O +HETATM 1382 O4 NAG A3281 -13.636 -56.810 -33.989 1.00 31.29 O +HETATM 1383 O5 NAG A3281 -14.428 -55.605 -37.237 1.00 34.05 O +HETATM 1384 O6 NAG A3281 -15.354 -54.621 -33.933 1.00 36.58 O +HETATM 1385 O7 NAG A3281 -11.583 -55.214 -39.774 1.00 42.23 O +HETATM 1386 C1 NAG A3282 -12.359 -55.390 -32.430 1.00 53.97 C +HETATM 1387 C2 NAG A3282 -13.101 -56.306 -31.484 1.00 53.99 C +HETATM 1388 C3 NAG A3282 -12.453 -56.069 -30.140 1.00 54.11 C +HETATM 1389 C4 NAG A3282 -11.016 -56.588 -30.274 1.00 53.91 C +HETATM 1390 C5 NAG A3282 -10.321 -56.032 -31.523 1.00 53.90 C +HETATM 1391 C6 NAG A3282 -9.094 -56.827 -31.905 1.00 55.15 C +HETATM 1392 C7 NAG A3282 -15.346 -57.117 -31.797 1.00 54.05 C +HETATM 1393 C8 NAG A3282 -16.819 -56.824 -31.782 1.00 54.14 C +HETATM 1394 N2 NAG A3282 -14.533 -56.097 -31.531 1.00 54.05 N +HETATM 1395 O3 NAG A3282 -13.206 -56.681 -29.115 1.00 54.45 O +HETATM 1396 O4 NAG A3282 -10.277 -56.143 -29.170 1.00 54.65 O +HETATM 1397 O5 NAG A3282 -11.138 -56.035 -32.671 1.00 52.82 O +HETATM 1398 O6 NAG A3282 -8.747 -56.399 -33.206 1.00 57.15 O +HETATM 1399 O7 NAG A3282 -14.934 -58.253 -32.051 1.00 54.15 O +HETATM 1400 C1 BMA A3283 -9.074 -57.905 -27.355 1.00108.53 C +HETATM 1401 C2 BMA A3283 -8.000 -56.835 -27.189 1.00108.65 C +HETATM 1402 C3 BMA A3283 -7.957 -56.413 -25.723 1.00108.81 C +HETATM 1403 C4 BMA A3283 -9.338 -55.966 -25.221 1.00108.75 C +HETATM 1404 C5 BMA A3283 -10.434 -56.976 -25.601 1.00108.57 C +HETATM 1405 C6 BMA A3283 -11.851 -56.457 -25.326 1.00108.45 C +HETATM 1406 O2 BMA A3283 -8.258 -55.701 -28.035 1.00108.15 O +HETATM 1407 O3 BMA A3283 -6.960 -55.397 -25.550 1.00108.97 O +HETATM 1408 O4 BMA A3283 -9.275 -55.822 -23.794 1.00109.04 O +HETATM 1409 O5 BMA A3283 -10.336 -57.337 -26.986 1.00108.33 O +HETATM 1410 O6 BMA A3283 -12.767 -57.558 -25.181 1.00108.24 O +HETATM 1411 C1 MAN A3284 -5.173 -56.499 -28.223 1.00 95.02 C +HETATM 1412 C2 MAN A3284 -4.017 -56.647 -27.224 1.00 95.10 C +HETATM 1413 C3 MAN A3284 -3.684 -55.318 -26.548 1.00 95.06 C +HETATM 1414 C4 MAN A3284 -3.547 -54.222 -27.603 1.00 94.99 C +HETATM 1415 C5 MAN A3284 -4.874 -54.087 -28.354 1.00 94.36 C +HETATM 1416 C6 MAN A3284 -4.826 -52.968 -29.389 1.00 93.16 C +HETATM 1417 O2 MAN A3284 -2.879 -57.167 -27.888 1.00 95.45 O +HETATM 1418 O3 MAN A3284 -2.504 -55.428 -25.778 1.00 94.95 O +HETATM 1419 O4 MAN A3284 -3.190 -53.001 -26.994 1.00 95.80 O +HETATM 1420 O5 MAN A3284 -5.183 -55.308 -29.009 1.00 94.91 O +HETATM 1421 O6 MAN A3284 -4.734 -51.729 -28.725 1.00 91.70 O +HETATM 1422 C1 NAG A3371 -34.803 -49.073 -38.605 1.00 85.19 C +HETATM 1423 C2 NAG A3371 -34.581 -49.067 -37.096 1.00 84.93 C +HETATM 1424 C3 NAG A3371 -35.845 -49.607 -36.440 1.00 85.34 C +HETATM 1425 C4 NAG A3371 -37.135 -49.043 -37.066 1.00 85.68 C +HETATM 1426 C5 NAG A3371 -37.000 -48.125 -38.311 1.00 85.72 C +HETATM 1427 C6 NAG A3371 -37.502 -46.718 -37.982 1.00 85.91 C +HETATM 1428 C7 NAG A3371 -32.320 -49.148 -36.149 1.00 83.08 C +HETATM 1429 C8 NAG A3371 -31.184 -50.008 -35.673 1.00 82.40 C +HETATM 1430 N2 NAG A3371 -33.372 -49.776 -36.693 1.00 83.97 N +HETATM 1431 O3 NAG A3371 -35.814 -49.321 -35.059 1.00 85.08 O +HETATM 1432 O4 NAG A3371 -37.967 -50.143 -37.395 1.00 85.83 O +HETATM 1433 O5 NAG A3371 -35.698 -48.010 -38.883 1.00 85.21 O +HETATM 1434 O6 NAG A3371 -38.309 -46.242 -39.040 1.00 86.38 O +HETATM 1435 O7 NAG A3371 -32.240 -47.925 -36.022 1.00 82.35 O +HETATM 1436 C1 NAG A3891 -23.830 -58.002 -57.543 1.00100.48 C +HETATM 1437 C2 NAG A3891 -24.999 -57.994 -58.525 1.00100.65 C +HETATM 1438 C3 NAG A3891 -26.060 -58.984 -58.027 1.00100.37 C +HETATM 1439 C4 NAG A3891 -25.468 -60.351 -57.636 1.00100.38 C +HETATM 1440 C5 NAG A3891 -24.053 -60.294 -57.021 1.00100.32 C +HETATM 1441 C6 NAG A3891 -23.336 -61.637 -57.162 1.00 99.87 C +HETATM 1442 C7 NAG A3891 -25.174 -55.815 -59.692 1.00100.68 C +HETATM 1443 C8 NAG A3891 -26.302 -55.258 -60.522 1.00100.38 C +HETATM 1444 N2 NAG A3891 -25.522 -56.640 -58.693 1.00100.89 N +HETATM 1445 O3 NAG A3891 -27.039 -59.172 -59.025 1.00 99.83 O +HETATM 1446 O4 NAG A3891 -26.345 -60.986 -56.725 1.00100.08 O +HETATM 1447 O5 NAG A3891 -23.240 -59.284 -57.599 1.00100.28 O +HETATM 1448 O6 NAG A3891 -21.966 -61.480 -56.862 1.00 99.32 O +HETATM 1449 O7 NAG A3891 -24.008 -55.492 -59.945 1.00100.25 O +HETATM 1450 C1 NAG A4201 -14.499 -54.550 -64.091 1.00 78.09 C +HETATM 1451 C2 NAG A4201 -15.580 -55.458 -63.527 1.00 77.98 C +HETATM 1452 C3 NAG A4201 -16.743 -55.532 -64.517 1.00 78.34 C +HETATM 1453 C4 NAG A4201 -16.826 -54.328 -65.476 1.00 78.56 C +HETATM 1454 C5 NAG A4201 -15.997 -53.065 -65.134 1.00 78.47 C +HETATM 1455 C6 NAG A4201 -16.899 -51.912 -64.705 1.00 78.82 C +HETATM 1456 C7 NAG A4201 -15.387 -57.475 -62.166 1.00 76.90 C +HETATM 1457 C8 NAG A4201 -14.402 -58.499 -61.692 1.00 76.71 C +HETATM 1458 N2 NAG A4201 -15.037 -56.774 -63.243 1.00 77.44 N +HETATM 1459 O3 NAG A4201 -17.968 -55.694 -63.827 1.00 78.12 O +HETATM 1460 O4 NAG A4201 -16.469 -54.784 -66.767 1.00 78.47 O +HETATM 1461 O5 NAG A4201 -15.038 -53.246 -64.112 1.00 77.73 O +HETATM 1462 O6 NAG A4201 -17.173 -51.090 -65.815 1.00 78.54 O +HETATM 1463 O7 NAG A4201 -16.453 -57.322 -61.571 1.00 76.86 O +HETATM 1464 C1 NAG A4202 -18.920 -53.982 -68.031 1.00102.86 C +HETATM 1465 C2 NAG A4202 -18.481 -54.133 -69.482 1.00103.12 C +HETATM 1466 C3 NAG A4202 -19.714 -54.210 -70.388 1.00103.35 C +HETATM 1467 C4 NAG A4202 -20.827 -55.126 -69.848 1.00103.26 C +HETATM 1468 C5 NAG A4202 -20.974 -55.072 -68.316 1.00102.97 C +HETATM 1469 C6 NAG A4202 -21.855 -56.210 -67.802 1.00102.50 C +HETATM 1470 C7 NAG A4202 -16.275 -53.050 -69.770 1.00103.34 C +HETATM 1471 C8 NAG A4202 -15.575 -51.736 -69.988 1.00103.03 C +HETATM 1472 N2 NAG A4202 -17.614 -53.029 -69.870 1.00103.21 N +HETATM 1473 O3 NAG A4202 -19.315 -54.685 -71.655 1.00103.61 O +HETATM 1474 O4 NAG A4202 -22.058 -54.779 -70.459 1.00103.30 O +HETATM 1475 O5 NAG A4202 -19.701 -55.105 -67.684 1.00102.88 O +HETATM 1476 O6 NAG A4202 -21.575 -56.479 -66.445 1.00102.05 O +HETATM 1477 O7 NAG A4202 -15.611 -54.063 -69.519 1.00103.27 O +ATOM 1478 N LYS D 310 -25.331 12.248 -47.196 1.00 47.00 N +ATOM 1479 CA LYS D 310 -24.379 11.706 -46.154 1.00 47.31 C +ATOM 1480 C LYS D 310 -22.975 12.348 -46.176 1.00 47.23 C +ATOM 1481 O LYS D 310 -22.349 12.421 -47.233 1.00 47.39 O +ATOM 1482 CB LYS D 310 -24.262 10.177 -46.261 1.00 46.98 C +ATOM 1483 N LYS D 311 -22.495 12.800 -45.010 1.00 47.19 N +ATOM 1484 CA LYS D 311 -21.151 13.409 -44.866 1.00 47.02 C +ATOM 1485 C LYS D 311 -20.576 13.327 -43.438 1.00 46.83 C +ATOM 1486 O LYS D 311 -21.274 13.615 -42.461 1.00 46.78 O +ATOM 1487 CB LYS D 311 -21.159 14.871 -45.341 1.00 46.97 C +ATOM 1488 N VAL D 312 -19.301 12.950 -43.329 1.00 46.56 N +ATOM 1489 CA VAL D 312 -18.607 12.877 -42.035 1.00 46.54 C +ATOM 1490 C VAL D 312 -17.696 14.097 -41.794 1.00 46.70 C +ATOM 1491 O VAL D 312 -16.791 14.350 -42.586 1.00 46.87 O +ATOM 1492 CB VAL D 312 -17.789 11.569 -41.915 1.00 45.90 C +ATOM 1493 N CYS D 313 -17.923 14.847 -40.709 1.00 47.05 N +ATOM 1494 CA CYS D 313 -17.117 16.058 -40.414 1.00 47.53 C +ATOM 1495 C CYS D 313 -16.287 15.956 -39.154 1.00 47.41 C +ATOM 1496 O CYS D 313 -16.776 15.490 -38.133 1.00 47.42 O +ATOM 1497 CB CYS D 313 -18.002 17.296 -40.258 1.00 47.62 C +ATOM 1498 SG CYS D 313 -19.313 17.443 -41.466 1.00 49.94 S +ATOM 1499 N ASN D 314 -15.042 16.423 -39.222 1.00 47.65 N +ATOM 1500 CA ASN D 314 -14.238 16.653 -38.023 1.00 48.15 C +ATOM 1501 C ASN D 314 -15.094 17.312 -36.941 1.00 48.51 C +ATOM 1502 O ASN D 314 -15.931 18.174 -37.240 1.00 48.62 O +ATOM 1503 CB ASN D 314 -13.035 17.562 -38.330 1.00 48.09 C +ATOM 1504 CG ASN D 314 -12.016 16.918 -39.268 1.00 48.29 C +ATOM 1505 OD1 ASN D 314 -11.988 15.697 -39.463 1.00 49.13 O +ATOM 1506 ND2 ASN D 314 -11.159 17.747 -39.841 1.00 48.04 N +ATOM 1507 N GLY D 315 -14.899 16.894 -35.694 1.00 48.88 N +ATOM 1508 CA GLY D 315 -15.639 17.460 -34.560 1.00 49.30 C +ATOM 1509 C GLY D 315 -14.803 18.501 -33.856 1.00 49.61 C +ATOM 1510 O GLY D 315 -13.861 19.028 -34.431 1.00 49.53 O +ATOM 1511 N ILE D 316 -15.140 18.809 -32.614 1.00 50.19 N +ATOM 1512 CA ILE D 316 -14.306 19.718 -31.838 1.00 51.20 C +ATOM 1513 C ILE D 316 -13.080 18.954 -31.330 1.00 52.00 C +ATOM 1514 O ILE D 316 -13.211 17.845 -30.799 1.00 52.29 O +ATOM 1515 CB ILE D 316 -15.098 20.392 -30.688 1.00 51.07 C +ATOM 1516 CG1 ILE D 316 -15.894 21.578 -31.220 1.00 50.79 C +ATOM 1517 CG2 ILE D 316 -14.170 20.915 -29.601 1.00 51.03 C +ATOM 1518 CD1 ILE D 316 -17.010 21.205 -32.148 1.00 50.91 C +ATOM 1519 N GLY D 317 -11.899 19.541 -31.519 1.00 52.70 N +ATOM 1520 CA GLY D 317 -10.635 18.893 -31.163 1.00 53.84 C +ATOM 1521 C GLY D 317 -9.905 18.307 -32.366 1.00 54.60 C +ATOM 1522 O GLY D 317 -8.740 18.623 -32.611 1.00 54.90 O +ATOM 1523 N ILE D 318 -10.597 17.445 -33.108 1.00 55.06 N +ATOM 1524 CA ILE D 318 -10.064 16.807 -34.306 1.00 55.62 C +ATOM 1525 C ILE D 318 -9.870 17.820 -35.437 1.00 55.94 C +ATOM 1526 O ILE D 318 -10.728 18.665 -35.671 1.00 56.24 O +ATOM 1527 CB ILE D 318 -11.014 15.680 -34.766 1.00 55.60 C +ATOM 1528 CG1 ILE D 318 -10.840 14.449 -33.867 1.00 55.90 C +ATOM 1529 CG2 ILE D 318 -10.809 15.335 -36.249 1.00 56.17 C +ATOM 1530 CD1 ILE D 318 -11.592 13.178 -34.338 1.00 55.95 C +ATOM 1531 N GLY D 319 -8.743 17.730 -36.136 1.00 56.35 N +ATOM 1532 CA GLY D 319 -8.472 18.595 -37.291 1.00 56.62 C +ATOM 1533 C GLY D 319 -8.271 20.042 -36.893 1.00 56.74 C +ATOM 1534 O GLY D 319 -7.894 20.331 -35.752 1.00 56.91 O +ATOM 1535 N GLU D 320 -8.529 20.949 -37.833 1.00 56.78 N +ATOM 1536 CA GLU D 320 -8.471 22.400 -37.580 1.00 56.86 C +ATOM 1537 C GLU D 320 -9.299 22.858 -36.378 1.00 56.64 C +ATOM 1538 O GLU D 320 -9.012 23.899 -35.792 1.00 56.60 O +ATOM 1539 CB GLU D 320 -8.853 23.214 -38.830 1.00 56.96 C +ATOM 1540 CG GLU D 320 -9.689 22.476 -39.913 1.00 57.70 C +ATOM 1541 CD GLU D 320 -11.024 21.924 -39.414 1.00 57.43 C +ATOM 1542 OE1 GLU D 320 -11.052 20.781 -38.911 1.00 57.81 O +ATOM 1543 OE2 GLU D 320 -12.046 22.623 -39.553 1.00 57.32 O +ATOM 1544 N PHE D 321 -10.310 22.073 -36.008 1.00 56.59 N +ATOM 1545 CA PHE D 321 -11.111 22.356 -34.815 1.00 56.61 C +ATOM 1546 C PHE D 321 -10.425 21.938 -33.512 1.00 56.64 C +ATOM 1547 O PHE D 321 -11.071 21.901 -32.460 1.00 56.61 O +ATOM 1548 CB PHE D 321 -12.508 21.722 -34.896 1.00 56.57 C +ATOM 1549 CG PHE D 321 -13.384 22.281 -35.989 1.00 56.78 C +ATOM 1550 CD1 PHE D 321 -14.336 21.469 -36.608 1.00 57.38 C +ATOM 1551 CD2 PHE D 321 -13.267 23.607 -36.402 1.00 56.67 C +ATOM 1552 CE1 PHE D 321 -15.162 21.964 -37.620 1.00 57.05 C +ATOM 1553 CE2 PHE D 321 -14.079 24.109 -37.410 1.00 56.54 C +ATOM 1554 CZ PHE D 321 -15.031 23.284 -38.017 1.00 56.93 C +ATOM 1555 N LYS D 322 -9.130 21.612 -33.582 1.00 56.76 N +ATOM 1556 CA LYS D 322 -8.287 21.501 -32.379 1.00 56.64 C +ATOM 1557 C LYS D 322 -8.051 22.899 -31.807 1.00 56.56 C +ATOM 1558 O LYS D 322 -8.275 23.917 -32.489 1.00 56.44 O +ATOM 1559 CB LYS D 322 -6.945 20.820 -32.684 1.00 56.43 C +ATOM 1560 N ASP D 323 -7.608 22.943 -30.553 1.00 56.30 N +ATOM 1561 CA ASP D 323 -7.277 24.208 -29.878 1.00 55.92 C +ATOM 1562 C ASP D 323 -8.517 25.042 -29.566 1.00 55.20 C +ATOM 1563 O ASP D 323 -8.397 26.165 -29.064 1.00 55.34 O +ATOM 1564 CB ASP D 323 -6.283 25.057 -30.706 1.00 56.15 C +ATOM 1565 CG ASP D 323 -4.910 24.399 -30.871 1.00 56.48 C +ATOM 1566 OD1 ASP D 323 -4.672 23.304 -30.301 1.00 56.53 O +ATOM 1567 OD2 ASP D 323 -4.067 25.000 -31.579 1.00 56.32 O +ATOM 1568 N SER D 324 -9.696 24.493 -29.860 1.00 54.12 N +ATOM 1569 CA SER D 324 -10.957 25.212 -29.684 1.00 53.06 C +ATOM 1570 C SER D 324 -11.903 24.510 -28.718 1.00 52.18 C +ATOM 1571 O SER D 324 -12.451 23.455 -29.018 1.00 51.84 O +ATOM 1572 CB SER D 324 -11.625 25.463 -31.036 1.00 53.18 C +ATOM 1573 OG SER D 324 -11.187 24.526 -32.003 1.00 53.65 O +ATOM 1574 N LEU D 325 -12.094 25.133 -27.561 1.00 51.38 N +ATOM 1575 CA LEU D 325 -12.837 24.540 -26.455 1.00 50.68 C +ATOM 1576 C LEU D 325 -14.288 24.132 -26.764 1.00 50.28 C +ATOM 1577 O LEU D 325 -14.752 23.130 -26.229 1.00 50.58 O +ATOM 1578 CB LEU D 325 -12.777 25.446 -25.215 1.00 50.51 C +ATOM 1579 N SER D 326 -15.009 24.869 -27.608 1.00 49.44 N +ATOM 1580 CA SER D 326 -16.430 24.549 -27.799 1.00 48.81 C +ATOM 1581 C SER D 326 -16.971 24.760 -29.204 1.00 48.19 C +ATOM 1582 O SER D 326 -16.299 25.338 -30.046 1.00 48.17 O +ATOM 1583 CB SER D 326 -17.293 25.323 -26.793 1.00 48.98 C +ATOM 1584 OG SER D 326 -18.664 24.961 -26.903 1.00 49.31 O +ATOM 1585 N ILE D 327 -18.185 24.266 -29.451 1.00 47.47 N +ATOM 1586 CA ILE D 327 -18.950 24.688 -30.608 1.00 46.99 C +ATOM 1587 C ILE D 327 -19.303 26.136 -30.349 1.00 47.18 C +ATOM 1588 O ILE D 327 -19.693 26.486 -29.231 1.00 47.21 O +ATOM 1589 CB ILE D 327 -20.244 23.904 -30.771 1.00 46.72 C +ATOM 1590 CG1 ILE D 327 -19.961 22.527 -31.353 1.00 46.48 C +ATOM 1591 CG2 ILE D 327 -21.172 24.634 -31.723 1.00 46.56 C +ATOM 1592 CD1 ILE D 327 -21.129 21.571 -31.281 1.00 45.92 C +ATOM 1593 N ASN D 328 -19.148 26.979 -31.369 1.00 47.23 N +ATOM 1594 CA ASN D 328 -19.401 28.412 -31.226 1.00 47.31 C +ATOM 1595 C ASN D 328 -19.598 29.137 -32.545 1.00 47.69 C +ATOM 1596 O ASN D 328 -19.317 28.598 -33.611 1.00 47.60 O +ATOM 1597 CB ASN D 328 -18.249 29.077 -30.469 1.00 47.07 C +ATOM 1598 CG ASN D 328 -16.934 28.940 -31.188 1.00 45.78 C +ATOM 1599 OD1 ASN D 328 -16.754 29.449 -32.288 1.00 44.80 O +ATOM 1600 ND2 ASN D 328 -16.005 28.247 -30.568 1.00 44.92 N +ATOM 1601 N ALA D 329 -20.040 30.388 -32.446 1.00 48.33 N +ATOM 1602 CA ALA D 329 -20.195 31.271 -33.600 1.00 48.89 C +ATOM 1603 C ALA D 329 -19.189 30.993 -34.719 1.00 49.16 C +ATOM 1604 O ALA D 329 -19.590 30.676 -35.841 1.00 49.37 O +ATOM 1605 CB ALA D 329 -20.133 32.733 -33.167 1.00 48.77 C +ATOM 1606 N THR D 330 -17.897 31.083 -34.409 1.00 49.49 N +ATOM 1607 CA THR D 330 -16.864 31.009 -35.442 1.00 50.05 C +ATOM 1608 C THR D 330 -16.911 29.697 -36.232 1.00 50.52 C +ATOM 1609 O THR D 330 -16.859 29.722 -37.464 1.00 50.81 O +ATOM 1610 CB THR D 330 -15.441 31.284 -34.888 1.00 50.03 C +ATOM 1611 OG1 THR D 330 -15.500 32.321 -33.904 1.00 50.24 O +ATOM 1612 CG2 THR D 330 -14.512 31.741 -35.999 1.00 49.92 C +ATOM 1613 N ASN D 331 -17.048 28.566 -35.538 1.00 50.91 N +ATOM 1614 CA ASN D 331 -17.036 27.252 -36.200 1.00 51.13 C +ATOM 1615 C ASN D 331 -18.390 26.654 -36.552 1.00 51.32 C +ATOM 1616 O ASN D 331 -18.496 25.946 -37.542 1.00 51.40 O +ATOM 1617 CB ASN D 331 -16.230 26.239 -35.396 1.00 51.13 C +ATOM 1618 CG ASN D 331 -16.765 26.044 -34.001 1.00 51.50 C +ATOM 1619 OD1 ASN D 331 -17.931 25.700 -33.817 1.00 51.73 O +ATOM 1620 ND2 ASN D 331 -15.906 26.247 -33.003 1.00 51.68 N +ATOM 1621 N ILE D 332 -19.412 26.935 -35.745 1.00 51.77 N +ATOM 1622 CA ILE D 332 -20.746 26.319 -35.886 1.00 52.23 C +ATOM 1623 C ILE D 332 -21.186 26.067 -37.336 1.00 52.93 C +ATOM 1624 O ILE D 332 -21.662 24.974 -37.669 1.00 52.65 O +ATOM 1625 CB ILE D 332 -21.848 27.107 -35.099 1.00 52.05 C +ATOM 1626 CG1 ILE D 332 -23.238 26.498 -35.312 1.00 51.87 C +ATOM 1627 CG2 ILE D 332 -21.877 28.576 -35.496 1.00 51.81 C +ATOM 1628 CD1 ILE D 332 -23.453 25.178 -34.641 1.00 51.54 C +ATOM 1629 N LYS D 333 -21.005 27.075 -38.188 1.00 53.96 N +ATOM 1630 CA LYS D 333 -21.443 27.009 -39.580 1.00 54.92 C +ATOM 1631 C LYS D 333 -20.767 25.867 -40.332 1.00 55.65 C +ATOM 1632 O LYS D 333 -21.382 25.251 -41.206 1.00 55.81 O +ATOM 1633 CB LYS D 333 -21.193 28.341 -40.290 1.00 55.01 C +ATOM 1634 N HIS D 334 -19.515 25.576 -39.976 1.00 56.45 N +ATOM 1635 CA HIS D 334 -18.768 24.468 -40.578 1.00 57.31 C +ATOM 1636 C HIS D 334 -19.380 23.092 -40.269 1.00 57.48 C +ATOM 1637 O HIS D 334 -18.773 22.056 -40.576 1.00 57.82 O +ATOM 1638 CB HIS D 334 -17.294 24.509 -40.163 1.00 57.53 C +ATOM 1639 CG HIS D 334 -16.557 25.727 -40.640 1.00 59.60 C +ATOM 1640 ND1 HIS D 334 -15.628 25.685 -41.661 1.00 60.85 N +ATOM 1641 CD2 HIS D 334 -16.605 27.019 -40.230 1.00 60.85 C +ATOM 1642 CE1 HIS D 334 -15.143 26.898 -41.863 1.00 61.25 C +ATOM 1643 NE2 HIS D 334 -15.717 27.726 -41.007 1.00 61.35 N +ATOM 1644 N PHE D 335 -20.578 23.085 -39.674 1.00 57.49 N +ATOM 1645 CA PHE D 335 -21.329 21.845 -39.443 1.00 57.38 C +ATOM 1646 C PHE D 335 -22.589 21.736 -40.302 1.00 57.41 C +ATOM 1647 O PHE D 335 -23.472 20.922 -40.000 1.00 57.31 O +ATOM 1648 CB PHE D 335 -21.691 21.673 -37.959 1.00 57.22 C +ATOM 1649 CG PHE D 335 -20.530 21.288 -37.085 1.00 57.14 C +ATOM 1650 CD1 PHE D 335 -19.949 22.217 -36.226 1.00 57.64 C +ATOM 1651 CD2 PHE D 335 -20.019 20.000 -37.110 1.00 57.28 C +ATOM 1652 CE1 PHE D 335 -18.871 21.873 -35.406 1.00 56.93 C +ATOM 1653 CE2 PHE D 335 -18.943 19.648 -36.299 1.00 57.37 C +ATOM 1654 CZ PHE D 335 -18.373 20.591 -35.448 1.00 57.32 C +ATOM 1655 N LYS D 336 -22.669 22.533 -41.371 1.00 57.48 N +ATOM 1656 CA LYS D 336 -23.892 22.602 -42.192 1.00 57.65 C +ATOM 1657 C LYS D 336 -24.101 21.324 -42.998 1.00 57.67 C +ATOM 1658 O LYS D 336 -23.206 20.885 -43.725 1.00 57.71 O +ATOM 1659 CB LYS D 336 -23.890 23.831 -43.110 1.00 57.45 C +ATOM 1660 N ASN D 337 -25.280 20.728 -42.846 1.00 57.61 N +ATOM 1661 CA ASN D 337 -25.621 19.479 -43.528 1.00 57.76 C +ATOM 1662 C ASN D 337 -24.687 18.308 -43.186 1.00 57.49 C +ATOM 1663 O ASN D 337 -24.273 17.562 -44.078 1.00 57.54 O +ATOM 1664 CB ASN D 337 -25.679 19.684 -45.055 1.00 57.98 C +ATOM 1665 CG ASN D 337 -26.897 20.484 -45.499 1.00 58.68 C +ATOM 1666 OD1 ASN D 337 -28.020 19.973 -45.551 1.00 59.08 O +ATOM 1667 ND2 ASN D 337 -26.675 21.744 -45.832 1.00 59.55 N +ATOM 1668 N CYS D 338 -24.366 18.139 -41.901 1.00 57.08 N +ATOM 1669 CA CYS D 338 -23.484 17.043 -41.470 1.00 56.61 C +ATOM 1670 C CYS D 338 -24.241 15.823 -40.988 1.00 55.98 C +ATOM 1671 O CYS D 338 -25.323 15.940 -40.414 1.00 55.86 O +ATOM 1672 CB CYS D 338 -22.547 17.501 -40.371 1.00 56.65 C +ATOM 1673 SG CYS D 338 -21.431 18.758 -40.932 1.00 58.40 S +ATOM 1674 N THR D 339 -23.641 14.657 -41.207 1.00 55.21 N +ATOM 1675 CA THR D 339 -24.250 13.385 -40.853 1.00 54.21 C +ATOM 1676 C THR D 339 -23.518 12.703 -39.691 1.00 53.76 C +ATOM 1677 O THR D 339 -24.071 12.591 -38.596 1.00 53.85 O +ATOM 1678 CB THR D 339 -24.358 12.500 -42.089 1.00 54.10 C +ATOM 1679 OG1 THR D 339 -25.460 12.970 -42.869 1.00 53.49 O +ATOM 1680 CG2 THR D 339 -24.570 11.031 -41.721 1.00 54.24 C +ATOM 1681 N SER D 340 -22.285 12.257 -39.918 1.00 52.94 N +ATOM 1682 CA SER D 340 -21.483 11.685 -38.839 1.00 52.12 C +ATOM 1683 C SER D 340 -20.443 12.694 -38.378 1.00 51.54 C +ATOM 1684 O SER D 340 -19.987 13.527 -39.156 1.00 51.37 O +ATOM 1685 CB SER D 340 -20.827 10.364 -39.263 1.00 51.98 C +ATOM 1686 N ILE D 341 -20.089 12.630 -37.101 1.00 51.07 N +ATOM 1687 CA ILE D 341 -19.082 13.521 -36.553 1.00 50.62 C +ATOM 1688 C ILE D 341 -17.903 12.744 -35.993 1.00 50.76 C +ATOM 1689 O ILE D 341 -17.949 12.234 -34.869 1.00 50.86 O +ATOM 1690 CB ILE D 341 -19.673 14.486 -35.515 1.00 50.35 C +ATOM 1691 CG1 ILE D 341 -20.565 15.496 -36.236 1.00 50.60 C +ATOM 1692 CG2 ILE D 341 -18.569 15.204 -34.755 1.00 49.83 C +ATOM 1693 CD1 ILE D 341 -21.245 16.500 -35.348 1.00 51.19 C +ATOM 1694 N SER D 342 -16.859 12.638 -36.811 1.00 50.73 N +ATOM 1695 CA SER D 342 -15.573 12.139 -36.363 1.00 50.78 C +ATOM 1696 C SER D 342 -15.011 13.100 -35.310 1.00 50.76 C +ATOM 1697 O SER D 342 -14.439 14.143 -35.643 1.00 50.79 O +ATOM 1698 CB SER D 342 -14.614 12.006 -37.545 1.00 50.74 C +ATOM 1699 OG SER D 342 -13.299 11.699 -37.098 1.00 51.51 O +ATOM 1700 N GLY D 343 -15.206 12.753 -34.041 1.00 50.71 N +ATOM 1701 CA GLY D 343 -14.762 13.586 -32.926 1.00 50.59 C +ATOM 1702 C GLY D 343 -15.811 13.741 -31.846 1.00 50.58 C +ATOM 1703 O GLY D 343 -16.772 12.977 -31.783 1.00 50.53 O +ATOM 1704 N ASP D 344 -15.620 14.746 -31.000 1.00 50.68 N +ATOM 1705 CA ASP D 344 -16.526 15.017 -29.888 1.00 50.70 C +ATOM 1706 C ASP D 344 -17.304 16.318 -30.107 1.00 50.69 C +ATOM 1707 O ASP D 344 -16.844 17.216 -30.824 1.00 50.81 O +ATOM 1708 CB ASP D 344 -15.735 15.093 -28.573 1.00 50.78 C +ATOM 1709 CG ASP D 344 -14.694 13.982 -28.442 1.00 50.87 C +ATOM 1710 OD1 ASP D 344 -14.969 12.849 -28.888 1.00 50.24 O +ATOM 1711 OD2 ASP D 344 -13.598 14.243 -27.893 1.00 50.94 O +ATOM 1712 N LEU D 345 -18.483 16.412 -29.492 1.00 50.57 N +ATOM 1713 CA LEU D 345 -19.259 17.654 -29.489 1.00 50.28 C +ATOM 1714 C LEU D 345 -19.252 18.299 -28.115 1.00 50.27 C +ATOM 1715 O LEU D 345 -19.656 17.682 -27.136 1.00 50.36 O +ATOM 1716 CB LEU D 345 -20.695 17.415 -29.950 1.00 50.14 C +ATOM 1717 CG LEU D 345 -20.920 17.086 -31.420 1.00 49.71 C +ATOM 1718 CD1 LEU D 345 -22.337 17.463 -31.781 1.00 49.01 C +ATOM 1719 CD2 LEU D 345 -19.937 17.835 -32.303 1.00 49.61 C +ATOM 1720 N HIS D 346 -18.792 19.544 -28.060 1.00 50.24 N +ATOM 1721 CA HIS D 346 -18.641 20.279 -26.817 1.00 50.52 C +ATOM 1722 C HIS D 346 -19.425 21.568 -26.867 1.00 50.44 C +ATOM 1723 O HIS D 346 -19.142 22.445 -27.692 1.00 50.66 O +ATOM 1724 CB HIS D 346 -17.183 20.669 -26.614 1.00 50.85 C +ATOM 1725 CG HIS D 346 -16.276 19.527 -26.292 1.00 52.17 C +ATOM 1726 ND1 HIS D 346 -15.477 19.514 -25.169 1.00 53.07 N +ATOM 1727 CD2 HIS D 346 -16.014 18.378 -26.959 1.00 53.44 C +ATOM 1728 CE1 HIS D 346 -14.770 18.398 -25.152 1.00 54.63 C +ATOM 1729 NE2 HIS D 346 -15.076 17.692 -26.228 1.00 54.97 N +ATOM 1730 N ILE D 347 -20.394 21.711 -25.975 1.00 50.26 N +ATOM 1731 CA ILE D 347 -21.121 22.968 -25.889 1.00 49.85 C +ATOM 1732 C ILE D 347 -20.924 23.517 -24.495 1.00 49.80 C +ATOM 1733 O ILE D 347 -21.574 23.083 -23.556 1.00 49.85 O +ATOM 1734 CB ILE D 347 -22.615 22.801 -26.255 1.00 49.74 C +ATOM 1735 CG1 ILE D 347 -22.767 22.396 -27.729 1.00 49.09 C +ATOM 1736 CG2 ILE D 347 -23.376 24.088 -26.014 1.00 49.86 C +ATOM 1737 CD1 ILE D 347 -22.807 20.897 -27.989 1.00 47.62 C +ATOM 1738 N LEU D 348 -20.000 24.459 -24.372 1.00 50.02 N +ATOM 1739 CA LEU D 348 -19.612 25.014 -23.076 1.00 50.58 C +ATOM 1740 C LEU D 348 -20.233 26.399 -22.781 1.00 50.84 C +ATOM 1741 O LEU D 348 -20.685 27.085 -23.702 1.00 51.18 O +ATOM 1742 CB LEU D 348 -18.083 25.092 -23.001 1.00 50.67 C +ATOM 1743 CG LEU D 348 -17.275 23.797 -23.191 1.00 50.85 C +ATOM 1744 CD1 LEU D 348 -15.767 24.101 -23.262 1.00 50.76 C +ATOM 1745 CD2 LEU D 348 -17.569 22.775 -22.089 1.00 50.10 C +ATOM 1746 N PRO D 349 -20.288 26.811 -21.491 1.00 50.84 N +ATOM 1747 CA PRO D 349 -20.629 28.207 -21.170 1.00 50.51 C +ATOM 1748 C PRO D 349 -20.086 29.220 -22.184 1.00 50.03 C +ATOM 1749 O PRO D 349 -20.807 30.107 -22.615 1.00 49.92 O +ATOM 1750 CB PRO D 349 -19.958 28.429 -19.801 1.00 50.64 C +ATOM 1751 CG PRO D 349 -19.492 27.030 -19.322 1.00 50.90 C +ATOM 1752 CD PRO D 349 -20.088 26.021 -20.262 1.00 50.91 C +ATOM 1753 N VAL D 350 -18.832 29.047 -22.584 1.00 49.63 N +ATOM 1754 CA VAL D 350 -18.127 30.022 -23.408 1.00 49.18 C +ATOM 1755 C VAL D 350 -18.746 30.192 -24.796 1.00 48.90 C +ATOM 1756 O VAL D 350 -18.522 31.198 -25.465 1.00 48.78 O +ATOM 1757 CB VAL D 350 -16.616 29.682 -23.496 1.00 49.17 C +ATOM 1758 CG1 VAL D 350 -15.827 30.815 -24.131 1.00 48.82 C +ATOM 1759 CG2 VAL D 350 -16.063 29.385 -22.094 1.00 49.50 C +ATOM 1760 N ALA D 351 -19.544 29.219 -25.216 1.00 48.83 N +ATOM 1761 CA ALA D 351 -20.182 29.279 -26.533 1.00 48.90 C +ATOM 1762 C ALA D 351 -21.246 30.371 -26.579 1.00 48.98 C +ATOM 1763 O ALA D 351 -21.510 30.954 -27.636 1.00 49.08 O +ATOM 1764 CB ALA D 351 -20.783 27.941 -26.902 1.00 48.68 C +ATOM 1765 N PHE D 352 -21.841 30.648 -25.423 1.00 48.94 N +ATOM 1766 CA PHE D 352 -22.881 31.658 -25.313 1.00 48.75 C +ATOM 1767 C PHE D 352 -22.364 32.976 -24.760 1.00 48.65 C +ATOM 1768 O PHE D 352 -22.858 34.033 -25.132 1.00 48.77 O +ATOM 1769 CB PHE D 352 -24.032 31.120 -24.484 1.00 48.78 C +ATOM 1770 CG PHE D 352 -24.559 29.819 -24.992 1.00 48.95 C +ATOM 1771 CD1 PHE D 352 -24.335 28.649 -24.293 1.00 49.63 C +ATOM 1772 CD2 PHE D 352 -25.246 29.758 -26.192 1.00 49.52 C +ATOM 1773 CE1 PHE D 352 -24.809 27.440 -24.767 1.00 49.66 C +ATOM 1774 CE2 PHE D 352 -25.723 28.553 -26.675 1.00 49.68 C +ATOM 1775 CZ PHE D 352 -25.501 27.392 -25.958 1.00 49.66 C +ATOM 1776 N ARG D 353 -21.362 32.915 -23.888 1.00 48.45 N +ATOM 1777 CA ARG D 353 -20.698 34.120 -23.427 1.00 48.24 C +ATOM 1778 C ARG D 353 -19.826 34.739 -24.525 1.00 48.39 C +ATOM 1779 O ARG D 353 -19.668 35.956 -24.558 1.00 48.59 O +ATOM 1780 CB ARG D 353 -19.886 33.855 -22.156 1.00 47.97 C +ATOM 1781 N GLY D 354 -19.287 33.917 -25.429 1.00 48.53 N +ATOM 1782 CA GLY D 354 -18.302 34.378 -26.420 1.00 48.96 C +ATOM 1783 C GLY D 354 -16.978 34.693 -25.744 1.00 49.52 C +ATOM 1784 O GLY D 354 -16.942 34.926 -24.541 1.00 49.50 O +ATOM 1785 N ASP D 355 -15.879 34.698 -26.492 1.00 50.29 N +ATOM 1786 CA ASP D 355 -14.563 34.954 -25.874 1.00 51.14 C +ATOM 1787 C ASP D 355 -13.733 36.032 -26.567 1.00 51.69 C +ATOM 1788 O ASP D 355 -13.512 35.982 -27.783 1.00 51.66 O +ATOM 1789 CB ASP D 355 -13.741 33.663 -25.734 1.00 51.05 C +ATOM 1790 N SER D 356 -13.279 37.003 -25.775 1.00 52.40 N +ATOM 1791 CA SER D 356 -12.419 38.068 -26.274 1.00 53.12 C +ATOM 1792 C SER D 356 -11.049 37.507 -26.621 1.00 53.82 C +ATOM 1793 O SER D 356 -10.492 37.824 -27.673 1.00 54.11 O +ATOM 1794 CB SER D 356 -12.268 39.181 -25.234 1.00 53.08 C +ATOM 1795 OG SER D 356 -10.994 39.149 -24.603 1.00 53.02 O +ATOM 1796 N PHE D 357 -10.519 36.668 -25.727 1.00 54.55 N +ATOM 1797 CA PHE D 357 -9.165 36.122 -25.853 1.00 54.85 C +ATOM 1798 C PHE D 357 -8.967 35.371 -27.165 1.00 54.93 C +ATOM 1799 O PHE D 357 -7.927 35.536 -27.818 1.00 55.03 O +ATOM 1800 CB PHE D 357 -8.834 35.206 -24.667 1.00 55.13 C +ATOM 1801 N THR D 358 -9.969 34.570 -27.545 1.00 54.77 N +ATOM 1802 CA THR D 358 -9.893 33.748 -28.756 1.00 54.65 C +ATOM 1803 C THR D 358 -10.543 34.396 -29.969 1.00 54.52 C +ATOM 1804 O THR D 358 -10.738 33.739 -30.984 1.00 54.70 O +ATOM 1805 CB THR D 358 -10.497 32.335 -28.559 1.00 54.61 C +ATOM 1806 OG1 THR D 358 -11.926 32.415 -28.520 1.00 54.57 O +ATOM 1807 CG2 THR D 358 -9.980 31.689 -27.285 1.00 55.08 C +ATOM 1808 N HIS D 359 -10.873 35.679 -29.863 1.00 54.45 N +ATOM 1809 CA HIS D 359 -11.452 36.442 -30.977 1.00 54.64 C +ATOM 1810 C HIS D 359 -12.789 35.861 -31.426 1.00 54.07 C +ATOM 1811 O HIS D 359 -12.992 35.617 -32.613 1.00 53.97 O +ATOM 1812 CB HIS D 359 -10.475 36.521 -32.173 1.00 54.97 C +ATOM 1813 CG HIS D 359 -9.054 36.803 -31.786 1.00 56.94 C +ATOM 1814 ND1 HIS D 359 -8.707 37.746 -30.835 1.00 58.82 N +ATOM 1815 CD2 HIS D 359 -7.888 36.277 -32.234 1.00 58.80 C +ATOM 1816 CE1 HIS D 359 -7.392 37.778 -30.705 1.00 59.16 C +ATOM 1817 NE2 HIS D 359 -6.870 36.897 -31.544 1.00 59.77 N +ATOM 1818 N THR D 360 -13.701 35.651 -30.478 1.00 53.62 N +ATOM 1819 CA THR D 360 -14.902 34.851 -30.750 1.00 53.22 C +ATOM 1820 C THR D 360 -16.243 35.457 -30.279 1.00 52.91 C +ATOM 1821 O THR D 360 -16.495 35.557 -29.068 1.00 52.84 O +ATOM 1822 CB THR D 360 -14.744 33.409 -30.196 1.00 53.26 C +ATOM 1823 OG1 THR D 360 -13.473 32.872 -30.598 1.00 53.19 O +ATOM 1824 CG2 THR D 360 -15.872 32.500 -30.698 1.00 53.05 C +ATOM 1825 N PRO D 361 -17.104 35.855 -31.249 1.00 52.53 N +ATOM 1826 CA PRO D 361 -18.501 36.286 -31.040 1.00 52.23 C +ATOM 1827 C PRO D 361 -19.379 35.230 -30.368 1.00 52.02 C +ATOM 1828 O PRO D 361 -19.173 34.042 -30.594 1.00 52.16 O +ATOM 1829 CB PRO D 361 -19.013 36.534 -32.463 1.00 52.11 C +ATOM 1830 CG PRO D 361 -18.028 35.883 -33.371 1.00 52.28 C +ATOM 1831 CD PRO D 361 -16.720 35.944 -32.670 1.00 52.35 C +ATOM 1832 N PRO D 362 -20.346 35.656 -29.536 1.00 51.91 N +ATOM 1833 CA PRO D 362 -21.296 34.724 -28.910 1.00 52.16 C +ATOM 1834 C PRO D 362 -22.241 34.047 -29.919 1.00 52.58 C +ATOM 1835 O PRO D 362 -22.517 34.612 -30.972 1.00 52.78 O +ATOM 1836 CB PRO D 362 -22.073 35.612 -27.939 1.00 51.98 C +ATOM 1837 CG PRO D 362 -21.879 36.990 -28.421 1.00 51.72 C +ATOM 1838 CD PRO D 362 -20.572 37.048 -29.111 1.00 51.76 C +ATOM 1839 N LEU D 363 -22.708 32.836 -29.612 1.00 53.03 N +ATOM 1840 CA LEU D 363 -23.526 32.064 -30.564 1.00 53.40 C +ATOM 1841 C LEU D 363 -24.997 32.466 -30.516 1.00 53.64 C +ATOM 1842 O LEU D 363 -25.578 32.589 -29.432 1.00 53.51 O +ATOM 1843 CB LEU D 363 -23.378 30.548 -30.337 1.00 53.18 C +ATOM 1844 N ASP D 364 -25.581 32.688 -31.694 1.00 53.99 N +ATOM 1845 CA ASP D 364 -27.025 32.855 -31.827 1.00 54.43 C +ATOM 1846 C ASP D 364 -27.615 31.468 -31.647 1.00 54.26 C +ATOM 1847 O ASP D 364 -27.534 30.635 -32.547 1.00 54.06 O +ATOM 1848 CB ASP D 364 -27.400 33.468 -33.200 1.00 55.00 C +ATOM 1849 CG ASP D 364 -28.940 33.510 -33.470 1.00 56.16 C +ATOM 1850 OD1 ASP D 364 -29.346 33.399 -34.659 1.00 56.61 O +ATOM 1851 OD2 ASP D 364 -29.742 33.662 -32.516 1.00 57.11 O +ATOM 1852 N PRO D 365 -28.199 31.207 -30.471 1.00 54.34 N +ATOM 1853 CA PRO D 365 -28.702 29.876 -30.158 1.00 54.73 C +ATOM 1854 C PRO D 365 -29.717 29.368 -31.175 1.00 55.21 C +ATOM 1855 O PRO D 365 -30.232 28.255 -31.028 1.00 55.62 O +ATOM 1856 CB PRO D 365 -29.348 30.051 -28.785 1.00 54.50 C +ATOM 1857 CG PRO D 365 -29.531 31.510 -28.620 1.00 54.72 C +ATOM 1858 CD PRO D 365 -28.430 32.151 -29.370 1.00 54.37 C +ATOM 1859 N GLN D 366 -29.999 30.174 -32.195 1.00 55.63 N +ATOM 1860 CA GLN D 366 -30.792 29.713 -33.328 1.00 56.03 C +ATOM 1861 C GLN D 366 -29.935 28.830 -34.234 1.00 56.31 C +ATOM 1862 O GLN D 366 -30.466 27.962 -34.934 1.00 56.42 O +ATOM 1863 CB GLN D 366 -31.375 30.891 -34.115 1.00 55.97 C +ATOM 1864 N GLU D 367 -28.613 29.046 -34.195 1.00 56.44 N +ATOM 1865 CA GLU D 367 -27.653 28.361 -35.084 1.00 56.74 C +ATOM 1866 C GLU D 367 -27.337 26.925 -34.642 1.00 56.42 C +ATOM 1867 O GLU D 367 -26.660 26.167 -35.354 1.00 56.33 O +ATOM 1868 CB GLU D 367 -26.359 29.170 -35.218 1.00 56.57 C +ATOM 1869 CG GLU D 367 -26.495 30.504 -35.934 1.00 57.25 C +ATOM 1870 CD GLU D 367 -25.141 31.139 -36.217 1.00 57.95 C +ATOM 1871 OE1 GLU D 367 -24.601 31.845 -35.324 1.00 59.59 O +ATOM 1872 OE2 GLU D 367 -24.612 30.926 -37.335 1.00 59.35 O +ATOM 1873 N LEU D 368 -27.829 26.564 -33.458 1.00 56.16 N +ATOM 1874 CA LEU D 368 -27.783 25.185 -32.985 1.00 55.56 C +ATOM 1875 C LEU D 368 -28.698 24.282 -33.805 1.00 55.52 C +ATOM 1876 O LEU D 368 -28.484 23.072 -33.857 1.00 55.45 O +ATOM 1877 CB LEU D 368 -28.140 25.112 -31.506 1.00 55.20 C +ATOM 1878 CG LEU D 368 -27.010 25.536 -30.577 1.00 54.02 C +ATOM 1879 CD1 LEU D 368 -27.527 25.663 -29.169 1.00 53.30 C +ATOM 1880 CD2 LEU D 368 -25.877 24.538 -30.638 1.00 53.13 C +ATOM 1881 N ASP D 369 -29.699 24.878 -34.455 1.00 55.39 N +ATOM 1882 CA ASP D 369 -30.564 24.153 -35.389 1.00 55.48 C +ATOM 1883 C ASP D 369 -29.802 23.517 -36.553 1.00 55.01 C +ATOM 1884 O ASP D 369 -30.366 22.694 -37.289 1.00 54.90 O +ATOM 1885 CB ASP D 369 -31.680 25.056 -35.926 1.00 55.80 C +ATOM 1886 CG ASP D 369 -32.841 25.200 -34.952 1.00 57.32 C +ATOM 1887 OD1 ASP D 369 -33.201 24.194 -34.282 1.00 58.44 O +ATOM 1888 OD2 ASP D 369 -33.403 26.321 -34.867 1.00 58.87 O +ATOM 1889 N ILE D 370 -28.531 23.902 -36.707 1.00 54.48 N +ATOM 1890 CA ILE D 370 -27.648 23.323 -37.734 1.00 53.98 C +ATOM 1891 C ILE D 370 -27.279 21.861 -37.401 1.00 53.68 C +ATOM 1892 O ILE D 370 -27.113 21.029 -38.306 1.00 53.53 O +ATOM 1893 CB ILE D 370 -26.380 24.215 -38.001 1.00 53.95 C +ATOM 1894 CG1 ILE D 370 -26.783 25.527 -38.686 1.00 53.82 C +ATOM 1895 CG2 ILE D 370 -25.373 23.498 -38.882 1.00 53.48 C +ATOM 1896 CD1 ILE D 370 -25.683 26.576 -38.758 1.00 53.83 C +ATOM 1897 N LEU D 371 -27.188 21.556 -36.104 1.00 53.24 N +ATOM 1898 CA LEU D 371 -26.867 20.206 -35.628 1.00 52.81 C +ATOM 1899 C LEU D 371 -27.950 19.165 -35.969 1.00 52.58 C +ATOM 1900 O LEU D 371 -27.727 17.965 -35.800 1.00 52.60 O +ATOM 1901 CB LEU D 371 -26.581 20.227 -34.119 1.00 52.50 C +ATOM 1902 N LYS D 372 -29.096 19.632 -36.478 1.00 52.31 N +ATOM 1903 CA LYS D 372 -30.299 18.804 -36.688 1.00 51.97 C +ATOM 1904 C LYS D 372 -30.109 17.561 -37.578 1.00 51.84 C +ATOM 1905 O LYS D 372 -30.842 16.576 -37.429 1.00 51.70 O +ATOM 1906 CB LYS D 372 -31.470 19.660 -37.188 1.00 51.73 C +ATOM 1907 N THR D 373 -29.116 17.607 -38.472 1.00 51.62 N +ATOM 1908 CA THR D 373 -28.843 16.509 -39.421 1.00 51.40 C +ATOM 1909 C THR D 373 -27.820 15.452 -38.956 1.00 51.12 C +ATOM 1910 O THR D 373 -27.525 14.504 -39.699 1.00 51.02 O +ATOM 1911 CB THR D 373 -28.388 17.044 -40.810 1.00 51.50 C +ATOM 1912 OG1 THR D 373 -27.318 17.990 -40.651 1.00 51.20 O +ATOM 1913 CG2 THR D 373 -29.551 17.690 -41.553 1.00 51.93 C +ATOM 1914 N VAL D 374 -27.292 15.613 -37.740 1.00 50.75 N +ATOM 1915 CA VAL D 374 -26.234 14.734 -37.200 1.00 50.21 C +ATOM 1916 C VAL D 374 -26.753 13.429 -36.585 1.00 49.93 C +ATOM 1917 O VAL D 374 -27.299 13.436 -35.481 1.00 49.94 O +ATOM 1918 CB VAL D 374 -25.384 15.464 -36.143 1.00 50.10 C +ATOM 1919 CG1 VAL D 374 -24.399 14.500 -35.485 1.00 49.99 C +ATOM 1920 CG2 VAL D 374 -24.664 16.643 -36.767 1.00 50.11 C +ATOM 1921 N LYS D 375 -26.558 12.314 -37.288 1.00 49.48 N +ATOM 1922 CA LYS D 375 -27.046 11.017 -36.818 1.00 49.22 C +ATOM 1923 C LYS D 375 -26.046 10.266 -35.912 1.00 49.16 C +ATOM 1924 O LYS D 375 -26.441 9.632 -34.925 1.00 49.18 O +ATOM 1925 CB LYS D 375 -27.489 10.154 -38.002 1.00 48.98 C +ATOM 1926 N GLU D 376 -24.757 10.365 -36.240 1.00 48.90 N +ATOM 1927 CA GLU D 376 -23.696 9.657 -35.527 1.00 48.61 C +ATOM 1928 C GLU D 376 -22.687 10.633 -34.926 1.00 48.18 C +ATOM 1929 O GLU D 376 -22.338 11.625 -35.560 1.00 47.96 O +ATOM 1930 CB GLU D 376 -22.989 8.685 -36.487 1.00 48.70 C +ATOM 1931 CG GLU D 376 -21.729 7.975 -35.926 1.00 49.21 C +ATOM 1932 CD GLU D 376 -21.083 6.976 -36.905 1.00 49.15 C +ATOM 1933 OE1 GLU D 376 -21.645 6.731 -37.999 1.00 50.85 O +ATOM 1934 OE2 GLU D 376 -20.010 6.425 -36.570 1.00 48.54 O +ATOM 1935 N ILE D 377 -22.242 10.345 -33.700 1.00 47.92 N +ATOM 1936 CA ILE D 377 -21.090 11.022 -33.076 1.00 47.62 C +ATOM 1937 C ILE D 377 -20.063 9.963 -32.681 1.00 47.60 C +ATOM 1938 O ILE D 377 -20.324 9.159 -31.794 1.00 47.62 O +ATOM 1939 CB ILE D 377 -21.500 11.845 -31.822 1.00 47.49 C +ATOM 1940 CG1 ILE D 377 -22.438 12.988 -32.210 1.00 47.06 C +ATOM 1941 CG2 ILE D 377 -20.269 12.381 -31.082 1.00 46.97 C +ATOM 1942 CD1 ILE D 377 -22.919 13.786 -31.042 1.00 47.33 C +ATOM 1943 N THR D 378 -18.904 9.954 -33.334 1.00 47.72 N +ATOM 1944 CA THR D 378 -17.930 8.870 -33.115 1.00 47.97 C +ATOM 1945 C THR D 378 -17.260 8.944 -31.740 1.00 47.91 C +ATOM 1946 O THR D 378 -17.032 7.919 -31.099 1.00 48.06 O +ATOM 1947 CB THR D 378 -16.847 8.734 -34.252 1.00 48.19 C +ATOM 1948 OG1 THR D 378 -15.869 9.781 -34.143 1.00 48.43 O +ATOM 1949 CG2 THR D 378 -17.483 8.726 -35.654 1.00 47.72 C +ATOM 1950 N GLY D 379 -16.952 10.156 -31.292 1.00 47.80 N +ATOM 1951 CA GLY D 379 -16.441 10.361 -29.941 1.00 47.62 C +ATOM 1952 C GLY D 379 -17.576 10.513 -28.940 1.00 47.52 C +ATOM 1953 O GLY D 379 -18.479 9.674 -28.891 1.00 47.29 O +ATOM 1954 N PHE D 380 -17.539 11.590 -28.153 1.00 47.44 N +ATOM 1955 CA PHE D 380 -18.518 11.785 -27.088 1.00 47.35 C +ATOM 1956 C PHE D 380 -19.308 13.085 -27.194 1.00 47.22 C +ATOM 1957 O PHE D 380 -18.936 13.979 -27.943 1.00 47.31 O +ATOM 1958 CB PHE D 380 -17.878 11.595 -25.695 1.00 47.39 C +ATOM 1959 CG PHE D 380 -16.906 12.665 -25.297 1.00 47.64 C +ATOM 1960 CD1 PHE D 380 -17.343 13.826 -24.661 1.00 48.57 C +ATOM 1961 CD2 PHE D 380 -15.543 12.496 -25.505 1.00 48.45 C +ATOM 1962 CE1 PHE D 380 -16.432 14.825 -24.264 1.00 48.95 C +ATOM 1963 CE2 PHE D 380 -14.618 13.480 -25.106 1.00 48.68 C +ATOM 1964 CZ PHE D 380 -15.062 14.646 -24.486 1.00 48.32 C +ATOM 1965 N LEU D 381 -20.413 13.164 -26.458 1.00 47.13 N +ATOM 1966 CA LEU D 381 -21.213 14.384 -26.374 1.00 47.17 C +ATOM 1967 C LEU D 381 -21.110 15.031 -24.988 1.00 47.15 C +ATOM 1968 O LEU D 381 -21.239 14.366 -23.962 1.00 47.26 O +ATOM 1969 CB LEU D 381 -22.676 14.103 -26.744 1.00 47.11 C +ATOM 1970 CG LEU D 381 -23.727 15.225 -26.716 1.00 47.10 C +ATOM 1971 CD1 LEU D 381 -23.276 16.499 -27.432 1.00 46.66 C +ATOM 1972 CD2 LEU D 381 -25.030 14.715 -27.322 1.00 47.23 C +ATOM 1973 N LEU D 382 -20.879 16.336 -24.975 1.00 47.13 N +ATOM 1974 CA LEU D 382 -20.705 17.080 -23.740 1.00 47.11 C +ATOM 1975 C LEU D 382 -21.436 18.417 -23.824 1.00 47.29 C +ATOM 1976 O LEU D 382 -20.988 19.365 -24.497 1.00 47.04 O +ATOM 1977 CB LEU D 382 -19.214 17.302 -23.444 1.00 47.07 C +ATOM 1978 CG LEU D 382 -18.913 18.397 -22.415 1.00 46.54 C +ATOM 1979 CD1 LEU D 382 -18.832 17.821 -21.002 1.00 46.07 C +ATOM 1980 CD2 LEU D 382 -17.648 19.128 -22.796 1.00 45.91 C +ATOM 1981 N ILE D 383 -22.563 18.479 -23.127 1.00 47.51 N +ATOM 1982 CA ILE D 383 -23.355 19.689 -23.069 1.00 47.78 C +ATOM 1983 C ILE D 383 -23.374 20.224 -21.644 1.00 48.54 C +ATOM 1984 O ILE D 383 -24.086 19.709 -20.783 1.00 48.63 O +ATOM 1985 CB ILE D 383 -24.774 19.456 -23.598 1.00 47.54 C +ATOM 1986 CG1 ILE D 383 -24.766 18.381 -24.695 1.00 46.93 C +ATOM 1987 CG2 ILE D 383 -25.330 20.766 -24.107 1.00 47.89 C +ATOM 1988 CD1 ILE D 383 -26.096 18.145 -25.380 1.00 47.25 C +ATOM 1989 N GLN D 384 -22.562 21.248 -21.401 1.00 49.49 N +ATOM 1990 CA GLN D 384 -22.449 21.864 -20.082 1.00 50.70 C +ATOM 1991 C GLN D 384 -23.233 23.163 -19.994 1.00 51.50 C +ATOM 1992 O GLN D 384 -23.769 23.497 -18.932 1.00 52.00 O +ATOM 1993 CB GLN D 384 -20.999 22.140 -19.737 1.00 50.61 C +ATOM 1994 CG GLN D 384 -20.175 20.909 -19.465 1.00 51.73 C +ATOM 1995 CD GLN D 384 -18.749 21.269 -19.118 1.00 53.88 C +ATOM 1996 OE1 GLN D 384 -18.480 22.366 -18.614 1.00 55.71 O +ATOM 1997 NE2 GLN D 384 -17.823 20.361 -19.392 1.00 53.91 N +ATOM 1998 N ALA D 385 -23.266 23.905 -21.100 1.00 52.20 N +ATOM 1999 CA ALA D 385 -24.140 25.064 -21.249 1.00 52.73 C +ATOM 2000 C ALA D 385 -25.199 24.772 -22.309 1.00 53.31 C +ATOM 2001 O ALA D 385 -25.038 23.854 -23.113 1.00 53.44 O +ATOM 2002 CB ALA D 385 -23.338 26.270 -21.625 1.00 52.39 C +ATOM 2003 N TRP D 386 -26.283 25.542 -22.299 1.00 54.21 N +ATOM 2004 CA TRP D 386 -27.385 25.387 -23.266 1.00 55.18 C +ATOM 2005 C TRP D 386 -28.427 26.454 -22.967 1.00 56.05 C +ATOM 2006 O TRP D 386 -28.690 26.738 -21.780 1.00 56.32 O +ATOM 2007 CB TRP D 386 -28.018 24.005 -23.162 1.00 54.90 C +ATOM 2008 CG TRP D 386 -29.056 23.673 -24.186 1.00 54.71 C +ATOM 2009 CD1 TRP D 386 -30.407 23.820 -24.057 1.00 55.08 C +ATOM 2010 CD2 TRP D 386 -28.842 23.073 -25.472 1.00 55.03 C +ATOM 2011 NE1 TRP D 386 -31.052 23.361 -25.187 1.00 54.96 N +ATOM 2012 CE2 TRP D 386 -30.115 22.898 -26.071 1.00 54.98 C +ATOM 2013 CE3 TRP D 386 -27.699 22.671 -26.180 1.00 54.86 C +ATOM 2014 CZ2 TRP D 386 -30.277 22.347 -27.344 1.00 54.90 C +ATOM 2015 CZ3 TRP D 386 -27.861 22.121 -27.446 1.00 54.87 C +ATOM 2016 CH2 TRP D 386 -29.144 21.967 -28.016 1.00 54.93 C +ATOM 2017 N PRO D 387 -29.016 27.050 -24.034 1.00 56.51 N +ATOM 2018 CA PRO D 387 -29.882 28.231 -23.979 1.00 56.88 C +ATOM 2019 C PRO D 387 -30.916 28.206 -22.855 1.00 57.42 C +ATOM 2020 O PRO D 387 -31.823 27.375 -22.868 1.00 57.29 O +ATOM 2021 CB PRO D 387 -30.553 28.205 -25.343 1.00 56.95 C +ATOM 2022 CG PRO D 387 -29.508 27.643 -26.224 1.00 56.39 C +ATOM 2023 CD PRO D 387 -28.855 26.581 -25.424 1.00 56.23 C +ATOM 2024 N GLU D 388 -30.763 29.128 -21.904 1.00 58.36 N +ATOM 2025 CA GLU D 388 -31.561 29.166 -20.669 1.00 59.53 C +ATOM 2026 C GLU D 388 -33.069 28.991 -20.909 1.00 60.54 C +ATOM 2027 O GLU D 388 -33.759 28.357 -20.106 1.00 60.78 O +ATOM 2028 CB GLU D 388 -31.272 30.446 -19.867 1.00 59.11 C +ATOM 2029 N ASN D 389 -33.564 29.524 -22.025 1.00 61.62 N +ATOM 2030 CA ASN D 389 -34.977 29.421 -22.374 1.00 62.60 C +ATOM 2031 C ASN D 389 -35.330 28.227 -23.275 1.00 63.00 C +ATOM 2032 O ASN D 389 -36.494 27.823 -23.327 1.00 63.43 O +ATOM 2033 CB ASN D 389 -35.457 30.709 -23.037 1.00 62.92 C +ATOM 2034 CG ASN D 389 -35.343 30.654 -24.550 1.00 64.23 C +ATOM 2035 OD1 ASN D 389 -34.240 30.708 -25.112 1.00 65.43 O +ATOM 2036 ND2 ASN D 389 -36.488 30.522 -25.222 1.00 65.40 N +ATOM 2037 N ARG D 390 -34.360 27.693 -24.016 1.00 63.24 N +ATOM 2038 CA ARG D 390 -34.600 26.467 -24.770 1.00 63.61 C +ATOM 2039 C ARG D 390 -34.711 25.316 -23.754 1.00 64.00 C +ATOM 2040 O ARG D 390 -33.775 25.078 -22.982 1.00 64.08 O +ATOM 2041 CB ARG D 390 -33.493 26.231 -25.800 1.00 63.36 C +ATOM 2042 N THR D 391 -35.858 24.631 -23.735 1.00 64.38 N +ATOM 2043 CA THR D 391 -36.203 23.689 -22.643 1.00 64.90 C +ATOM 2044 C THR D 391 -35.823 22.225 -22.893 1.00 65.25 C +ATOM 2045 O THR D 391 -36.077 21.346 -22.056 1.00 65.22 O +ATOM 2046 CB THR D 391 -37.710 23.717 -22.339 1.00 64.92 C +ATOM 2047 OG1 THR D 391 -38.442 23.257 -23.489 1.00 64.77 O +ATOM 2048 CG2 THR D 391 -38.151 25.128 -21.941 1.00 64.92 C +ATOM 2049 N ASP D 392 -35.197 21.987 -24.041 1.00 65.66 N +ATOM 2050 CA ASP D 392 -35.017 20.656 -24.593 1.00 65.83 C +ATOM 2051 C ASP D 392 -33.660 20.535 -25.304 1.00 66.00 C +ATOM 2052 O ASP D 392 -32.948 21.533 -25.525 1.00 66.06 O +ATOM 2053 CB ASP D 392 -36.138 20.409 -25.599 1.00 65.83 C +ATOM 2054 CG ASP D 392 -36.584 18.979 -25.635 1.00 66.56 C +ATOM 2055 OD1 ASP D 392 -36.522 18.388 -26.730 1.00 68.21 O +ATOM 2056 OD2 ASP D 392 -37.003 18.446 -24.584 1.00 66.91 O +ATOM 2057 N LEU D 393 -33.293 19.308 -25.655 1.00 65.93 N +ATOM 2058 CA LEU D 393 -32.159 19.099 -26.536 1.00 65.68 C +ATOM 2059 C LEU D 393 -32.739 18.837 -27.915 1.00 65.74 C +ATOM 2060 O LEU D 393 -32.739 17.710 -28.415 1.00 65.74 O +ATOM 2061 CB LEU D 393 -31.274 17.957 -26.037 1.00 65.60 C +ATOM 2062 CG LEU D 393 -30.637 18.150 -24.657 1.00 64.99 C +ATOM 2063 CD1 LEU D 393 -30.049 16.841 -24.185 1.00 64.73 C +ATOM 2064 CD2 LEU D 393 -29.577 19.247 -24.664 1.00 64.06 C +ATOM 2065 N HIS D 394 -33.269 19.907 -28.500 1.00 65.81 N +ATOM 2066 CA HIS D 394 -33.959 19.851 -29.785 1.00 65.77 C +ATOM 2067 C HIS D 394 -32.995 19.508 -30.916 1.00 64.98 C +ATOM 2068 O HIS D 394 -33.217 18.554 -31.664 1.00 64.68 O +ATOM 2069 CB HIS D 394 -34.743 21.162 -30.063 1.00 66.32 C +ATOM 2070 CG HIS D 394 -33.916 22.421 -29.979 1.00 67.74 C +ATOM 2071 ND1 HIS D 394 -33.870 23.350 -31.003 1.00 69.03 N +ATOM 2072 CD2 HIS D 394 -33.133 22.917 -28.988 1.00 68.48 C +ATOM 2073 CE1 HIS D 394 -33.085 24.355 -30.650 1.00 69.33 C +ATOM 2074 NE2 HIS D 394 -32.625 24.116 -29.432 1.00 69.34 N +ATOM 2075 N ALA D 395 -31.911 20.274 -30.998 1.00 64.15 N +ATOM 2076 CA ALA D 395 -30.943 20.161 -32.078 1.00 63.66 C +ATOM 2077 C ALA D 395 -30.493 18.724 -32.329 1.00 63.20 C +ATOM 2078 O ALA D 395 -30.182 18.347 -33.461 1.00 63.33 O +ATOM 2079 CB ALA D 395 -29.747 21.038 -31.777 1.00 63.79 C +ATOM 2080 N PHE D 396 -30.467 17.931 -31.262 1.00 62.44 N +ATOM 2081 CA PHE D 396 -29.990 16.556 -31.319 1.00 61.46 C +ATOM 2082 C PHE D 396 -31.128 15.550 -31.410 1.00 60.99 C +ATOM 2083 O PHE D 396 -30.988 14.405 -30.969 1.00 61.01 O +ATOM 2084 CB PHE D 396 -29.148 16.267 -30.090 1.00 61.16 C +ATOM 2085 CG PHE D 396 -27.967 17.170 -29.949 1.00 60.87 C +ATOM 2086 CD1 PHE D 396 -27.946 18.156 -28.971 1.00 60.55 C +ATOM 2087 CD2 PHE D 396 -26.870 17.036 -30.791 1.00 60.15 C +ATOM 2088 CE1 PHE D 396 -26.847 18.987 -28.829 1.00 60.38 C +ATOM 2089 CE2 PHE D 396 -25.772 17.862 -30.656 1.00 59.96 C +ATOM 2090 CZ PHE D 396 -25.758 18.841 -29.675 1.00 60.28 C +ATOM 2091 N GLU D 397 -32.248 15.985 -31.985 1.00 60.24 N +ATOM 2092 CA GLU D 397 -33.432 15.148 -32.104 1.00 59.47 C +ATOM 2093 C GLU D 397 -33.121 13.950 -32.983 1.00 58.82 C +ATOM 2094 O GLU D 397 -33.502 12.821 -32.678 1.00 58.87 O +ATOM 2095 CB GLU D 397 -34.605 15.946 -32.681 1.00 59.68 C +ATOM 2096 N ASN D 398 -32.398 14.195 -34.062 1.00 57.96 N +ATOM 2097 CA ASN D 398 -32.131 13.144 -35.024 1.00 57.34 C +ATOM 2098 C ASN D 398 -30.902 12.300 -34.699 1.00 56.52 C +ATOM 2099 O ASN D 398 -30.579 11.385 -35.452 1.00 56.41 O +ATOM 2100 CB ASN D 398 -32.041 13.730 -36.438 1.00 57.72 C +ATOM 2101 CG ASN D 398 -33.411 14.085 -37.016 1.00 58.03 C +ATOM 2102 OD1 ASN D 398 -33.825 13.524 -38.034 1.00 58.39 O +ATOM 2103 ND2 ASN D 398 -34.120 15.007 -36.363 1.00 57.92 N +ATOM 2104 N LEU D 399 -30.235 12.613 -33.582 1.00 55.52 N +ATOM 2105 CA LEU D 399 -29.041 11.883 -33.118 1.00 54.58 C +ATOM 2106 C LEU D 399 -29.391 10.469 -32.728 1.00 54.02 C +ATOM 2107 O LEU D 399 -30.134 10.249 -31.773 1.00 54.04 O +ATOM 2108 CB LEU D 399 -28.388 12.582 -31.920 1.00 54.62 C +ATOM 2109 CG LEU D 399 -27.158 11.934 -31.267 1.00 54.85 C +ATOM 2110 CD1 LEU D 399 -26.053 11.640 -32.289 1.00 54.73 C +ATOM 2111 CD2 LEU D 399 -26.623 12.808 -30.142 1.00 54.18 C +ATOM 2112 N GLU D 400 -28.830 9.517 -33.461 1.00 53.23 N +ATOM 2113 CA GLU D 400 -29.169 8.114 -33.289 1.00 52.60 C +ATOM 2114 C GLU D 400 -28.125 7.317 -32.514 1.00 52.08 C +ATOM 2115 O GLU D 400 -28.458 6.341 -31.849 1.00 52.03 O +ATOM 2116 CB GLU D 400 -29.353 7.457 -34.644 1.00 52.68 C +ATOM 2117 CG GLU D 400 -30.574 7.873 -35.398 1.00 52.84 C +ATOM 2118 CD GLU D 400 -30.558 7.318 -36.802 1.00 53.79 C +ATOM 2119 OE1 GLU D 400 -29.909 6.274 -37.030 1.00 54.05 O +ATOM 2120 OE2 GLU D 400 -31.193 7.920 -37.687 1.00 54.92 O +ATOM 2121 N ILE D 401 -26.860 7.705 -32.626 1.00 51.43 N +ATOM 2122 CA ILE D 401 -25.800 6.924 -32.006 1.00 50.78 C +ATOM 2123 C ILE D 401 -24.529 7.695 -31.641 1.00 50.59 C +ATOM 2124 O ILE D 401 -24.055 8.548 -32.399 1.00 50.43 O +ATOM 2125 CB ILE D 401 -25.478 5.635 -32.829 1.00 50.81 C +ATOM 2126 CG1 ILE D 401 -23.993 5.280 -32.738 1.00 50.41 C +ATOM 2127 CG2 ILE D 401 -25.955 5.751 -34.295 1.00 50.11 C +ATOM 2128 CD1 ILE D 401 -23.704 3.885 -33.170 1.00 51.07 C +ATOM 2129 N ILE D 402 -24.012 7.391 -30.453 1.00 50.30 N +ATOM 2130 CA ILE D 402 -22.716 7.883 -29.990 1.00 50.00 C +ATOM 2131 C ILE D 402 -21.794 6.672 -29.856 1.00 50.14 C +ATOM 2132 O ILE D 402 -22.203 5.648 -29.331 1.00 50.46 O +ATOM 2133 CB ILE D 402 -22.827 8.589 -28.621 1.00 49.84 C +ATOM 2134 CG1 ILE D 402 -23.935 9.648 -28.635 1.00 49.49 C +ATOM 2135 CG2 ILE D 402 -21.499 9.203 -28.239 1.00 49.57 C +ATOM 2136 CD1 ILE D 402 -24.338 10.147 -27.258 1.00 49.59 C +ATOM 2137 N ARG D 403 -20.562 6.767 -30.335 1.00 50.13 N +ATOM 2138 CA ARG D 403 -19.671 5.622 -30.267 1.00 50.28 C +ATOM 2139 C ARG D 403 -18.913 5.643 -28.966 1.00 50.54 C +ATOM 2140 O ARG D 403 -18.722 4.606 -28.345 1.00 51.17 O +ATOM 2141 CB ARG D 403 -18.676 5.597 -31.427 1.00 50.34 C +ATOM 2142 CG ARG D 403 -19.288 5.585 -32.816 1.00 50.90 C +ATOM 2143 CD ARG D 403 -19.918 4.245 -33.185 1.00 51.02 C +ATOM 2144 NE ARG D 403 -20.664 4.340 -34.439 1.00 50.81 N +ATOM 2145 CZ ARG D 403 -21.158 3.300 -35.102 1.00 51.36 C +ATOM 2146 NH1 ARG D 403 -20.996 2.073 -34.633 1.00 51.72 N +ATOM 2147 NH2 ARG D 403 -21.827 3.487 -36.230 1.00 52.33 N +ATOM 2148 N GLY D 404 -18.470 6.821 -28.548 1.00 50.60 N +ATOM 2149 CA GLY D 404 -17.688 6.930 -27.328 1.00 50.61 C +ATOM 2150 C GLY D 404 -16.279 6.440 -27.550 1.00 50.72 C +ATOM 2151 O GLY D 404 -15.584 6.109 -26.599 1.00 50.52 O +ATOM 2152 N ARG D 405 -15.862 6.406 -28.816 1.00 51.08 N +ATOM 2153 CA ARG D 405 -14.490 6.044 -29.191 1.00 51.55 C +ATOM 2154 C ARG D 405 -13.458 6.888 -28.427 1.00 51.85 C +ATOM 2155 O ARG D 405 -12.351 6.438 -28.153 1.00 52.05 O +ATOM 2156 CB ARG D 405 -14.285 6.134 -30.712 1.00 51.35 C +ATOM 2157 N THR D 406 -13.825 8.114 -28.087 1.00 52.22 N +ATOM 2158 CA THR D 406 -13.104 8.850 -27.060 1.00 52.81 C +ATOM 2159 C THR D 406 -14.144 9.228 -26.006 1.00 53.19 C +ATOM 2160 O THR D 406 -15.349 9.199 -26.296 1.00 53.29 O +ATOM 2161 CB THR D 406 -12.374 10.077 -27.630 1.00 52.79 C +ATOM 2162 OG1 THR D 406 -13.315 10.960 -28.248 1.00 53.02 O +ATOM 2163 CG2 THR D 406 -11.352 9.646 -28.672 1.00 53.06 C +ATOM 2164 N LYS D 407 -13.703 9.547 -24.785 1.00 53.44 N +ATOM 2165 CA LYS D 407 -14.635 9.744 -23.655 1.00 53.44 C +ATOM 2166 C LYS D 407 -14.198 10.876 -22.729 1.00 53.62 C +ATOM 2167 O LYS D 407 -13.013 11.013 -22.449 1.00 54.05 O +ATOM 2168 CB LYS D 407 -14.772 8.448 -22.840 1.00 53.32 C +ATOM 2169 CG LYS D 407 -15.402 7.258 -23.575 1.00 52.57 C +ATOM 2170 CD LYS D 407 -14.906 5.940 -23.008 1.00 51.03 C +ATOM 2171 CE LYS D 407 -15.108 4.799 -23.980 1.00 49.72 C +ATOM 2172 NZ LYS D 407 -14.454 3.541 -23.531 1.00 48.20 N +ATOM 2173 N GLN D 408 -15.146 11.682 -22.252 1.00 53.69 N +ATOM 2174 CA GLN D 408 -14.835 12.699 -21.239 1.00 53.73 C +ATOM 2175 C GLN D 408 -14.245 12.016 -20.000 1.00 53.79 C +ATOM 2176 O GLN D 408 -14.864 11.107 -19.414 1.00 53.70 O +ATOM 2177 CB GLN D 408 -16.072 13.534 -20.869 1.00 53.77 C +ATOM 2178 N HIS D 409 -13.037 12.451 -19.632 1.00 53.79 N +ATOM 2179 CA HIS D 409 -12.233 11.843 -18.548 1.00 53.75 C +ATOM 2180 C HIS D 409 -12.018 10.338 -18.776 1.00 53.20 C +ATOM 2181 O HIS D 409 -11.817 9.565 -17.824 1.00 53.43 O +ATOM 2182 CB HIS D 409 -12.836 12.130 -17.150 1.00 53.90 C +ATOM 2183 CG HIS D 409 -13.145 13.579 -16.903 1.00 54.91 C +ATOM 2184 ND1 HIS D 409 -14.380 14.015 -16.469 1.00 55.93 N +ATOM 2185 CD2 HIS D 409 -12.384 14.693 -17.044 1.00 55.40 C +ATOM 2186 CE1 HIS D 409 -14.366 15.331 -16.345 1.00 55.77 C +ATOM 2187 NE2 HIS D 409 -13.167 15.767 -16.689 1.00 55.71 N +ATOM 2188 N GLY D 410 -12.064 9.939 -20.049 1.00 52.34 N +ATOM 2189 CA GLY D 410 -12.037 8.528 -20.441 1.00 51.38 C +ATOM 2190 C GLY D 410 -13.251 7.692 -20.033 1.00 50.64 C +ATOM 2191 O GLY D 410 -13.269 6.474 -20.273 1.00 50.76 O +ATOM 2192 N GLN D 411 -14.266 8.329 -19.434 1.00 49.47 N +ATOM 2193 CA GLN D 411 -15.429 7.612 -18.908 1.00 48.13 C +ATOM 2194 C GLN D 411 -16.715 7.911 -19.668 1.00 47.42 C +ATOM 2195 O GLN D 411 -17.386 6.996 -20.145 1.00 47.14 O +ATOM 2196 CB GLN D 411 -15.617 7.911 -17.417 1.00 48.14 C +ATOM 2197 N PHE D 412 -17.038 9.196 -19.796 1.00 46.54 N +ATOM 2198 CA PHE D 412 -18.371 9.618 -20.225 1.00 45.74 C +ATOM 2199 C PHE D 412 -18.526 9.962 -21.705 1.00 45.53 C +ATOM 2200 O PHE D 412 -17.864 10.873 -22.228 1.00 45.48 O +ATOM 2201 CB PHE D 412 -18.843 10.791 -19.369 1.00 45.49 C +ATOM 2202 CG PHE D 412 -19.068 10.436 -17.927 1.00 45.21 C +ATOM 2203 CD1 PHE D 412 -18.208 10.911 -16.940 1.00 44.76 C +ATOM 2204 CD2 PHE D 412 -20.137 9.621 -17.552 1.00 44.45 C +ATOM 2205 CE1 PHE D 412 -18.416 10.586 -15.603 1.00 44.32 C +ATOM 2206 CE2 PHE D 412 -20.347 9.291 -16.222 1.00 43.60 C +ATOM 2207 CZ PHE D 412 -19.489 9.775 -15.247 1.00 44.29 C +ATOM 2208 N SER D 413 -19.423 9.236 -22.369 1.00 45.15 N +ATOM 2209 CA SER D 413 -19.732 9.483 -23.783 1.00 44.75 C +ATOM 2210 C SER D 413 -20.949 10.391 -23.955 1.00 44.28 C +ATOM 2211 O SER D 413 -21.142 11.002 -25.000 1.00 43.99 O +ATOM 2212 CB SER D 413 -19.908 8.167 -24.554 1.00 44.89 C +ATOM 2213 OG SER D 413 -20.730 7.246 -23.854 1.00 45.27 O +ATOM 2214 N LEU D 414 -21.772 10.456 -22.919 1.00 44.06 N +ATOM 2215 CA LEU D 414 -22.862 11.409 -22.862 1.00 43.96 C +ATOM 2216 C LEU D 414 -22.747 12.177 -21.562 1.00 43.98 C +ATOM 2217 O LEU D 414 -22.649 11.586 -20.487 1.00 44.13 O +ATOM 2218 CB LEU D 414 -24.225 10.715 -22.972 1.00 43.86 C +ATOM 2219 CG LEU D 414 -25.468 11.586 -23.181 1.00 43.52 C +ATOM 2220 CD1 LEU D 414 -25.167 12.848 -23.994 1.00 43.39 C +ATOM 2221 CD2 LEU D 414 -26.578 10.784 -23.848 1.00 43.17 C +ATOM 2222 N ALA D 415 -22.734 13.497 -21.672 1.00 43.97 N +ATOM 2223 CA ALA D 415 -22.610 14.358 -20.518 1.00 44.08 C +ATOM 2224 C ALA D 415 -23.594 15.496 -20.658 1.00 44.28 C +ATOM 2225 O ALA D 415 -23.384 16.396 -21.464 1.00 44.77 O +ATOM 2226 CB ALA D 415 -21.189 14.890 -20.404 1.00 43.85 C +ATOM 2227 N VAL D 416 -24.670 15.451 -19.883 1.00 44.34 N +ATOM 2228 CA VAL D 416 -25.633 16.545 -19.851 1.00 44.56 C +ATOM 2229 C VAL D 416 -25.633 17.168 -18.445 1.00 45.16 C +ATOM 2230 O VAL D 416 -26.394 16.747 -17.568 1.00 45.43 O +ATOM 2231 CB VAL D 416 -27.054 16.060 -20.307 1.00 44.36 C +ATOM 2232 CG1 VAL D 416 -28.084 17.197 -20.287 1.00 43.44 C +ATOM 2233 CG2 VAL D 416 -26.979 15.434 -21.693 1.00 43.46 C +ATOM 2234 N VAL D 417 -24.773 18.153 -18.213 1.00 45.61 N +ATOM 2235 CA VAL D 417 -24.683 18.711 -16.860 1.00 46.67 C +ATOM 2236 C VAL D 417 -25.288 20.102 -16.716 1.00 47.46 C +ATOM 2237 O VAL D 417 -25.327 20.867 -17.683 1.00 47.83 O +ATOM 2238 CB VAL D 417 -23.241 18.681 -16.273 1.00 46.52 C +ATOM 2239 CG1 VAL D 417 -22.516 17.433 -16.729 1.00 46.64 C +ATOM 2240 CG2 VAL D 417 -22.448 19.947 -16.625 1.00 46.17 C +ATOM 2241 N SER D 418 -25.761 20.402 -15.499 1.00 48.08 N +ATOM 2242 CA SER D 418 -26.235 21.738 -15.078 1.00 48.32 C +ATOM 2243 C SER D 418 -26.955 22.550 -16.170 1.00 48.72 C +ATOM 2244 O SER D 418 -26.565 23.663 -16.520 1.00 48.56 O +ATOM 2245 CB SER D 418 -25.097 22.532 -14.416 1.00 48.05 C +ATOM 2246 OG SER D 418 -23.902 22.432 -15.167 1.00 47.30 O +ATOM 2247 N LEU D 419 -28.011 21.965 -16.707 1.00 49.33 N +ATOM 2248 CA LEU D 419 -28.783 22.621 -17.735 1.00 50.28 C +ATOM 2249 C LEU D 419 -30.172 23.012 -17.230 1.00 51.03 C +ATOM 2250 O LEU D 419 -30.622 22.571 -16.156 1.00 51.12 O +ATOM 2251 CB LEU D 419 -28.923 21.716 -18.970 1.00 50.24 C +ATOM 2252 CG LEU D 419 -27.717 21.331 -19.834 1.00 50.21 C +ATOM 2253 CD1 LEU D 419 -28.209 20.764 -21.162 1.00 49.92 C +ATOM 2254 CD2 LEU D 419 -26.759 22.492 -20.073 1.00 49.29 C +ATOM 2255 N ASN D 420 -30.854 23.831 -18.026 1.00 51.64 N +ATOM 2256 CA ASN D 420 -32.229 24.167 -17.746 1.00 52.07 C +ATOM 2257 C ASN D 420 -33.252 23.256 -18.428 1.00 52.56 C +ATOM 2258 O ASN D 420 -34.453 23.404 -18.202 1.00 52.93 O +ATOM 2259 CB ASN D 420 -32.500 25.630 -18.074 1.00 51.98 C +ATOM 2260 CG ASN D 420 -33.602 26.213 -17.219 1.00 51.86 C +ATOM 2261 OD1 ASN D 420 -33.677 25.954 -16.014 1.00 51.34 O +ATOM 2262 ND2 ASN D 420 -34.473 26.999 -17.838 1.00 51.92 N +ATOM 2263 N ILE D 421 -32.791 22.305 -19.243 1.00 53.01 N +ATOM 2264 CA ILE D 421 -33.693 21.300 -19.834 1.00 53.38 C +ATOM 2265 C ILE D 421 -34.794 20.849 -18.842 1.00 53.62 C +ATOM 2266 O ILE D 421 -34.568 20.785 -17.624 1.00 53.60 O +ATOM 2267 CB ILE D 421 -32.912 20.065 -20.369 1.00 53.00 C +ATOM 2268 N THR D 422 -35.992 20.586 -19.360 1.00 54.01 N +ATOM 2269 CA THR D 422 -37.052 19.928 -18.568 1.00 54.31 C +ATOM 2270 C THR D 422 -37.344 18.523 -19.108 1.00 54.15 C +ATOM 2271 O THR D 422 -37.619 17.597 -18.337 1.00 54.17 O +ATOM 2272 CB THR D 422 -38.355 20.769 -18.468 1.00 54.41 C +ATOM 2273 OG1 THR D 422 -38.513 21.564 -19.651 1.00 55.06 O +ATOM 2274 CG2 THR D 422 -38.312 21.684 -17.245 1.00 54.26 C +ATOM 2275 N SER D 423 -37.293 18.387 -20.434 1.00 53.94 N +ATOM 2276 CA SER D 423 -37.170 17.088 -21.093 1.00 53.89 C +ATOM 2277 C SER D 423 -35.759 16.973 -21.696 1.00 53.82 C +ATOM 2278 O SER D 423 -35.105 17.996 -21.955 1.00 54.15 O +ATOM 2279 CB SER D 423 -38.229 16.933 -22.184 1.00 53.87 C +ATOM 2280 N LEU D 424 -35.282 15.741 -21.896 1.00 53.26 N +ATOM 2281 CA LEU D 424 -34.016 15.517 -22.602 1.00 52.77 C +ATOM 2282 C LEU D 424 -34.244 15.599 -24.120 1.00 52.46 C +ATOM 2283 O LEU D 424 -33.553 16.340 -24.825 1.00 52.00 O +ATOM 2284 CB LEU D 424 -33.377 14.178 -22.193 1.00 52.68 C +ATOM 2285 N GLY D 425 -35.228 14.839 -24.601 1.00 52.30 N +ATOM 2286 CA GLY D 425 -35.671 14.881 -25.993 1.00 52.18 C +ATOM 2287 C GLY D 425 -34.712 14.329 -27.034 1.00 52.24 C +ATOM 2288 O GLY D 425 -34.631 14.864 -28.141 1.00 52.68 O +ATOM 2289 N LEU D 426 -33.989 13.260 -26.700 1.00 51.94 N +ATOM 2290 CA LEU D 426 -33.077 12.619 -27.654 1.00 51.51 C +ATOM 2291 C LEU D 426 -33.807 11.478 -28.328 1.00 51.45 C +ATOM 2292 O LEU D 426 -33.455 10.310 -28.180 1.00 51.33 O +ATOM 2293 CB LEU D 426 -31.810 12.130 -26.950 1.00 51.37 C +ATOM 2294 CG LEU D 426 -30.981 13.207 -26.251 1.00 51.16 C +ATOM 2295 CD1 LEU D 426 -29.961 12.577 -25.344 1.00 51.25 C +ATOM 2296 CD2 LEU D 426 -30.302 14.132 -27.257 1.00 51.31 C +ATOM 2297 N ARG D 427 -34.833 11.840 -29.085 1.00 51.62 N +ATOM 2298 CA ARG D 427 -35.857 10.890 -29.518 1.00 51.75 C +ATOM 2299 C ARG D 427 -35.357 9.760 -30.434 1.00 51.57 C +ATOM 2300 O ARG D 427 -35.986 8.702 -30.515 1.00 51.58 O +ATOM 2301 CB ARG D 427 -37.039 11.638 -30.157 1.00 51.89 C +ATOM 2302 N SER D 428 -34.228 9.985 -31.104 1.00 51.34 N +ATOM 2303 CA SER D 428 -33.729 9.045 -32.109 1.00 51.06 C +ATOM 2304 C SER D 428 -32.524 8.236 -31.630 1.00 50.77 C +ATOM 2305 O SER D 428 -32.064 7.339 -32.344 1.00 50.91 O +ATOM 2306 CB SER D 428 -33.397 9.780 -33.422 1.00 51.09 C +ATOM 2307 N LEU D 429 -32.030 8.557 -30.429 1.00 50.24 N +ATOM 2308 CA LEU D 429 -30.842 7.920 -29.843 1.00 49.71 C +ATOM 2309 C LEU D 429 -31.098 6.481 -29.436 1.00 49.72 C +ATOM 2310 O LEU D 429 -31.796 6.218 -28.457 1.00 49.83 O +ATOM 2311 CB LEU D 429 -30.356 8.708 -28.635 1.00 49.55 C +ATOM 2312 CG LEU D 429 -29.041 8.285 -27.998 1.00 49.21 C +ATOM 2313 CD1 LEU D 429 -27.895 8.376 -28.993 1.00 49.63 C +ATOM 2314 CD2 LEU D 429 -28.771 9.183 -26.816 1.00 49.32 C +ATOM 2315 N LYS D 430 -30.514 5.559 -30.198 1.00 49.66 N +ATOM 2316 CA LYS D 430 -30.742 4.125 -30.045 1.00 49.30 C +ATOM 2317 C LYS D 430 -29.487 3.364 -29.586 1.00 49.26 C +ATOM 2318 O LYS D 430 -29.587 2.209 -29.175 1.00 49.55 O +ATOM 2319 CB LYS D 430 -31.278 3.545 -31.358 1.00 49.02 C +ATOM 2320 N GLU D 431 -28.319 4.010 -29.627 1.00 48.92 N +ATOM 2321 CA GLU D 431 -27.069 3.340 -29.266 1.00 48.74 C +ATOM 2322 C GLU D 431 -25.924 4.224 -28.721 1.00 48.66 C +ATOM 2323 O GLU D 431 -25.428 5.129 -29.400 1.00 48.45 O +ATOM 2324 CB GLU D 431 -26.581 2.506 -30.449 1.00 48.64 C +ATOM 2325 CG GLU D 431 -25.257 1.803 -30.233 1.00 48.69 C +ATOM 2326 CD GLU D 431 -24.799 1.058 -31.469 1.00 49.12 C +ATOM 2327 OE1 GLU D 431 -25.661 0.537 -32.210 1.00 49.73 O +ATOM 2328 OE2 GLU D 431 -23.576 0.994 -31.709 1.00 49.70 O +ATOM 2329 N ILE D 432 -25.526 3.939 -27.480 1.00 48.66 N +ATOM 2330 CA ILE D 432 -24.240 4.379 -26.937 1.00 48.58 C +ATOM 2331 C ILE D 432 -23.306 3.157 -26.907 1.00 48.51 C +ATOM 2332 O ILE D 432 -23.473 2.253 -26.088 1.00 48.56 O +ATOM 2333 CB ILE D 432 -24.364 5.045 -25.536 1.00 48.60 C +ATOM 2334 CG1 ILE D 432 -25.128 6.369 -25.625 1.00 48.55 C +ATOM 2335 CG2 ILE D 432 -22.990 5.354 -24.957 1.00 48.46 C +ATOM 2336 CD1 ILE D 432 -26.592 6.288 -25.242 1.00 48.46 C +ATOM 2337 N SER D 433 -22.333 3.151 -27.815 1.00 48.40 N +ATOM 2338 CA SER D 433 -21.520 1.977 -28.126 1.00 48.34 C +ATOM 2339 C SER D 433 -20.465 1.679 -27.082 1.00 48.36 C +ATOM 2340 O SER D 433 -20.021 0.533 -26.940 1.00 48.52 O +ATOM 2341 CB SER D 433 -20.835 2.160 -29.479 1.00 48.24 C +ATOM 2342 OG SER D 433 -21.743 1.943 -30.537 1.00 48.11 O +ATOM 2343 N ASP D 434 -20.055 2.723 -26.378 1.00 48.30 N +ATOM 2344 CA ASP D 434 -19.017 2.632 -25.374 1.00 48.50 C +ATOM 2345 C ASP D 434 -19.006 3.948 -24.621 1.00 48.62 C +ATOM 2346 O ASP D 434 -19.294 5.006 -25.192 1.00 48.60 O +ATOM 2347 CB ASP D 434 -17.648 2.373 -26.009 1.00 48.48 C +ATOM 2348 CG ASP D 434 -16.660 1.753 -25.037 1.00 48.93 C +ATOM 2349 OD1 ASP D 434 -17.093 1.019 -24.124 1.00 49.48 O +ATOM 2350 OD2 ASP D 434 -15.442 1.984 -25.189 1.00 49.30 O +ATOM 2351 N GLY D 435 -18.683 3.875 -23.337 1.00 48.71 N +ATOM 2352 CA GLY D 435 -18.682 5.053 -22.485 1.00 48.77 C +ATOM 2353 C GLY D 435 -19.932 5.074 -21.634 1.00 48.81 C +ATOM 2354 O GLY D 435 -20.896 4.358 -21.919 1.00 48.76 O +ATOM 2355 N ASP D 436 -19.905 5.893 -20.585 1.00 48.80 N +ATOM 2356 CA ASP D 436 -20.986 5.955 -19.612 1.00 48.63 C +ATOM 2357 C ASP D 436 -21.757 7.249 -19.801 1.00 48.47 C +ATOM 2358 O ASP D 436 -21.295 8.153 -20.503 1.00 48.45 O +ATOM 2359 CB ASP D 436 -20.430 5.919 -18.185 1.00 48.91 C +ATOM 2360 CG ASP D 436 -19.698 4.624 -17.849 1.00 49.17 C +ATOM 2361 OD1 ASP D 436 -19.912 3.584 -18.517 1.00 49.69 O +ATOM 2362 OD2 ASP D 436 -18.908 4.659 -16.883 1.00 48.98 O +ATOM 2363 N VAL D 437 -22.917 7.328 -19.148 1.00 48.22 N +ATOM 2364 CA VAL D 437 -23.821 8.473 -19.233 1.00 47.89 C +ATOM 2365 C VAL D 437 -23.828 9.257 -17.919 1.00 48.16 C +ATOM 2366 O VAL D 437 -24.107 8.700 -16.856 1.00 48.21 O +ATOM 2367 CB VAL D 437 -25.261 8.014 -19.555 1.00 47.55 C +ATOM 2368 CG1 VAL D 437 -26.217 9.167 -19.450 1.00 47.42 C +ATOM 2369 CG2 VAL D 437 -25.334 7.386 -20.927 1.00 46.89 C +ATOM 2370 N ILE D 438 -23.515 10.547 -18.003 1.00 48.46 N +ATOM 2371 CA ILE D 438 -23.611 11.453 -16.860 1.00 48.70 C +ATOM 2372 C ILE D 438 -24.739 12.453 -17.086 1.00 49.23 C +ATOM 2373 O ILE D 438 -24.738 13.193 -18.063 1.00 49.39 O +ATOM 2374 CB ILE D 438 -22.244 12.174 -16.543 1.00 48.53 C +ATOM 2375 CG1 ILE D 438 -22.360 13.113 -15.342 1.00 48.12 C +ATOM 2376 CG2 ILE D 438 -21.685 12.918 -17.737 1.00 47.81 C +ATOM 2377 CD1 ILE D 438 -21.911 12.492 -14.051 1.00 48.19 C +ATOM 2378 N ILE D 439 -25.713 12.457 -16.191 1.00 50.00 N +ATOM 2379 CA ILE D 439 -26.804 13.429 -16.258 1.00 50.86 C +ATOM 2380 C ILE D 439 -26.964 14.100 -14.884 1.00 51.85 C +ATOM 2381 O ILE D 439 -27.692 13.610 -14.015 1.00 52.07 O +ATOM 2382 CB ILE D 439 -28.120 12.778 -16.780 1.00 50.54 C +ATOM 2383 CG1 ILE D 439 -27.962 12.378 -18.245 1.00 49.75 C +ATOM 2384 CG2 ILE D 439 -29.295 13.718 -16.642 1.00 50.45 C +ATOM 2385 CD1 ILE D 439 -29.137 11.622 -18.803 1.00 48.88 C +ATOM 2386 N SER D 440 -26.267 15.219 -14.699 1.00 53.00 N +ATOM 2387 CA SER D 440 -26.160 15.871 -13.393 1.00 54.10 C +ATOM 2388 C SER D 440 -26.674 17.306 -13.360 1.00 54.95 C +ATOM 2389 O SER D 440 -26.599 18.024 -14.358 1.00 55.17 O +ATOM 2390 CB SER D 440 -24.702 15.850 -12.919 1.00 54.02 C +ATOM 2391 OG SER D 440 -24.396 17.004 -12.148 1.00 54.01 O +ATOM 2392 N GLY D 441 -27.187 17.709 -12.196 1.00 55.82 N +ATOM 2393 CA GLY D 441 -27.438 19.119 -11.875 1.00 56.82 C +ATOM 2394 C GLY D 441 -28.347 19.871 -12.821 1.00 57.52 C +ATOM 2395 O GLY D 441 -28.287 21.094 -12.912 1.00 57.39 O +ATOM 2396 N ASN D 442 -29.189 19.133 -13.532 1.00 58.53 N +ATOM 2397 CA ASN D 442 -30.138 19.738 -14.456 1.00 59.67 C +ATOM 2398 C ASN D 442 -31.434 20.058 -13.711 1.00 60.39 C +ATOM 2399 O ASN D 442 -32.449 19.354 -13.854 1.00 60.51 O +ATOM 2400 CB ASN D 442 -30.355 18.825 -15.668 1.00 59.61 C +ATOM 2401 CG ASN D 442 -29.042 18.430 -16.345 1.00 59.82 C +ATOM 2402 OD1 ASN D 442 -28.238 19.287 -16.731 1.00 59.22 O +ATOM 2403 ND2 ASN D 442 -28.818 17.126 -16.481 1.00 59.49 N +ATOM 2404 N LYS D 443 -31.363 21.136 -12.919 1.00 61.11 N +ATOM 2405 CA LYS D 443 -32.343 21.497 -11.877 1.00 61.72 C +ATOM 2406 C LYS D 443 -33.813 21.179 -12.149 1.00 62.33 C +ATOM 2407 O LYS D 443 -34.552 20.878 -11.220 1.00 62.30 O +ATOM 2408 CB LYS D 443 -32.200 22.974 -11.503 1.00 61.43 C +ATOM 2409 N ASN D 444 -34.224 21.231 -13.413 1.00 63.46 N +ATOM 2410 CA ASN D 444 -35.624 21.010 -13.793 1.00 64.55 C +ATOM 2411 C ASN D 444 -35.888 19.783 -14.684 1.00 65.05 C +ATOM 2412 O ASN D 444 -37.030 19.564 -15.115 1.00 65.23 O +ATOM 2413 CB ASN D 444 -36.193 22.270 -14.454 1.00 64.71 C +ATOM 2414 CG ASN D 444 -36.345 23.426 -13.478 1.00 65.70 C +ATOM 2415 OD1 ASN D 444 -37.306 23.470 -12.705 1.00 67.44 O +ATOM 2416 ND2 ASN D 444 -35.405 24.377 -13.515 1.00 65.48 N +ATOM 2417 N LEU D 445 -34.848 18.989 -14.953 1.00 65.48 N +ATOM 2418 CA LEU D 445 -34.979 17.812 -15.820 1.00 65.87 C +ATOM 2419 C LEU D 445 -35.797 16.706 -15.158 1.00 66.20 C +ATOM 2420 O LEU D 445 -35.612 16.403 -13.976 1.00 66.21 O +ATOM 2421 CB LEU D 445 -33.609 17.276 -16.252 1.00 65.63 C +ATOM 2422 N CYS D 446 -36.711 16.130 -15.934 1.00 66.67 N +ATOM 2423 CA CYS D 446 -37.513 14.978 -15.520 1.00 67.34 C +ATOM 2424 C CYS D 446 -37.373 13.893 -16.581 1.00 67.26 C +ATOM 2425 O CYS D 446 -36.579 14.043 -17.506 1.00 67.56 O +ATOM 2426 CB CYS D 446 -38.989 15.380 -15.373 1.00 67.52 C +ATOM 2427 SG CYS D 446 -39.377 16.418 -13.914 1.00 69.33 S +ATOM 2428 N TYR D 447 -38.132 12.805 -16.447 1.00 67.19 N +ATOM 2429 CA TYR D 447 -38.300 11.805 -17.518 1.00 67.16 C +ATOM 2430 C TYR D 447 -37.135 10.838 -17.751 1.00 66.93 C +ATOM 2431 O TYR D 447 -37.338 9.752 -18.307 1.00 66.86 O +ATOM 2432 CB TYR D 447 -38.648 12.479 -18.849 1.00 67.57 C +ATOM 2433 CG TYR D 447 -39.894 13.324 -18.812 1.00 68.36 C +ATOM 2434 CD1 TYR D 447 -39.816 14.709 -18.647 1.00 68.53 C +ATOM 2435 CD2 TYR D 447 -41.158 12.740 -18.958 1.00 69.08 C +ATOM 2436 CE1 TYR D 447 -40.965 15.491 -18.614 1.00 68.94 C +ATOM 2437 CE2 TYR D 447 -42.316 13.515 -18.927 1.00 68.98 C +ATOM 2438 CZ TYR D 447 -42.211 14.887 -18.759 1.00 68.68 C +ATOM 2439 OH TYR D 447 -43.351 15.648 -18.730 1.00 68.59 O +ATOM 2440 N ALA D 448 -35.930 11.247 -17.347 1.00 66.64 N +ATOM 2441 CA ALA D 448 -34.694 10.465 -17.526 1.00 66.13 C +ATOM 2442 C ALA D 448 -34.784 9.049 -16.949 1.00 65.97 C +ATOM 2443 O ALA D 448 -34.349 8.083 -17.588 1.00 65.94 O +ATOM 2444 CB ALA D 448 -33.516 11.205 -16.920 1.00 65.95 C +ATOM 2445 N ASN D 449 -35.358 8.945 -15.749 1.00 65.65 N +ATOM 2446 CA ASN D 449 -35.567 7.676 -15.064 1.00 65.23 C +ATOM 2447 C ASN D 449 -36.394 6.689 -15.865 1.00 64.77 C +ATOM 2448 O ASN D 449 -36.030 5.521 -15.958 1.00 64.94 O +ATOM 2449 CB ASN D 449 -36.246 7.896 -13.712 1.00 65.51 C +ATOM 2450 CG ASN D 449 -35.547 8.942 -12.862 1.00 66.28 C +ATOM 2451 OD1 ASN D 449 -36.178 9.880 -12.370 1.00 67.39 O +ATOM 2452 ND2 ASN D 449 -34.240 8.788 -12.686 1.00 67.28 N +ATOM 2453 N THR D 450 -37.493 7.160 -16.453 1.00 64.12 N +ATOM 2454 CA THR D 450 -38.502 6.264 -17.053 1.00 63.66 C +ATOM 2455 C THR D 450 -37.983 5.294 -18.141 1.00 63.18 C +ATOM 2456 O THR D 450 -38.585 4.234 -18.372 1.00 63.08 O +ATOM 2457 CB THR D 450 -39.767 7.036 -17.553 1.00 63.67 C +ATOM 2458 OG1 THR D 450 -39.470 7.773 -18.742 1.00 63.48 O +ATOM 2459 CG2 THR D 450 -40.282 7.997 -16.486 1.00 64.03 C +ATOM 2460 N ILE D 451 -36.868 5.656 -18.782 1.00 62.52 N +ATOM 2461 CA ILE D 451 -36.270 4.848 -19.857 1.00 61.83 C +ATOM 2462 C ILE D 451 -35.396 3.693 -19.332 1.00 61.34 C +ATOM 2463 O ILE D 451 -34.962 3.694 -18.170 1.00 61.21 O +ATOM 2464 CB ILE D 451 -35.468 5.722 -20.863 1.00 61.58 C +ATOM 2465 N ASN D 452 -35.165 2.706 -20.199 1.00 60.55 N +ATOM 2466 CA ASN D 452 -34.291 1.575 -19.897 1.00 59.75 C +ATOM 2467 C ASN D 452 -32.927 1.747 -20.578 1.00 59.11 C +ATOM 2468 O ASN D 452 -32.701 1.240 -21.685 1.00 59.26 O +ATOM 2469 CB ASN D 452 -34.960 0.254 -20.317 1.00 59.84 C +ATOM 2470 CG ASN D 452 -34.071 -0.968 -20.081 1.00 59.97 C +ATOM 2471 OD1 ASN D 452 -33.281 -1.007 -19.133 1.00 60.96 O +ATOM 2472 ND2 ASN D 452 -34.202 -1.969 -20.946 1.00 59.33 N +ATOM 2473 N TRP D 453 -32.021 2.461 -19.911 1.00 58.04 N +ATOM 2474 CA TRP D 453 -30.707 2.774 -20.476 1.00 57.08 C +ATOM 2475 C TRP D 453 -29.999 1.555 -21.058 1.00 56.33 C +ATOM 2476 O TRP D 453 -29.317 1.657 -22.077 1.00 56.26 O +ATOM 2477 CB TRP D 453 -29.820 3.467 -19.444 1.00 57.25 C +ATOM 2478 CG TRP D 453 -30.279 4.844 -19.138 1.00 57.75 C +ATOM 2479 CD1 TRP D 453 -31.118 5.223 -18.127 1.00 58.29 C +ATOM 2480 CD2 TRP D 453 -29.953 6.040 -19.863 1.00 58.40 C +ATOM 2481 NE1 TRP D 453 -31.328 6.582 -18.175 1.00 58.81 N +ATOM 2482 CE2 TRP D 453 -30.625 7.107 -19.230 1.00 58.64 C +ATOM 2483 CE3 TRP D 453 -29.155 6.314 -20.984 1.00 58.29 C +ATOM 2484 CZ2 TRP D 453 -30.517 8.432 -19.678 1.00 57.85 C +ATOM 2485 CZ3 TRP D 453 -29.054 7.629 -21.429 1.00 57.96 C +ATOM 2486 CH2 TRP D 453 -29.732 8.670 -20.775 1.00 57.51 C +ATOM 2487 N LYS D 454 -30.178 0.403 -20.416 1.00 55.19 N +ATOM 2488 CA LYS D 454 -29.559 -0.828 -20.873 1.00 54.03 C +ATOM 2489 C LYS D 454 -29.813 -1.062 -22.354 1.00 53.75 C +ATOM 2490 O LYS D 454 -28.880 -1.391 -23.087 1.00 53.70 O +ATOM 2491 CB LYS D 454 -30.065 -2.003 -20.057 1.00 53.80 C +ATOM 2492 CG LYS D 454 -29.781 -1.874 -18.575 1.00 52.87 C +ATOM 2493 CD LYS D 454 -28.413 -2.432 -18.205 1.00 50.52 C +ATOM 2494 CE LYS D 454 -28.365 -2.759 -16.734 1.00 48.17 C +ATOM 2495 NZ LYS D 454 -27.880 -1.618 -15.955 1.00 47.49 N +ATOM 2496 N LYS D 455 -31.061 -0.859 -22.795 1.00 53.24 N +ATOM 2497 CA LYS D 455 -31.441 -1.046 -24.206 1.00 52.88 C +ATOM 2498 C LYS D 455 -30.582 -0.201 -25.164 1.00 52.71 C +ATOM 2499 O LYS D 455 -30.591 -0.413 -26.385 1.00 52.82 O +ATOM 2500 CB LYS D 455 -32.934 -0.773 -24.419 1.00 52.48 C +ATOM 2501 N LEU D 456 -29.832 0.738 -24.588 1.00 52.15 N +ATOM 2502 CA LEU D 456 -29.001 1.675 -25.333 1.00 51.68 C +ATOM 2503 C LEU D 456 -27.522 1.324 -25.227 1.00 51.37 C +ATOM 2504 O LEU D 456 -26.665 2.090 -25.692 1.00 51.38 O +ATOM 2505 CB LEU D 456 -29.203 3.089 -24.771 1.00 51.68 C +ATOM 2506 CG LEU D 456 -30.220 4.053 -25.376 1.00 51.66 C +ATOM 2507 CD1 LEU D 456 -30.750 5.005 -24.322 1.00 50.94 C +ATOM 2508 CD2 LEU D 456 -29.561 4.830 -26.497 1.00 52.27 C +ATOM 2509 N PHE D 457 -27.219 0.180 -24.610 1.00 50.79 N +ATOM 2510 CA PHE D 457 -25.845 -0.104 -24.180 1.00 50.06 C +ATOM 2511 C PHE D 457 -25.143 -1.263 -24.892 1.00 49.85 C +ATOM 2512 O PHE D 457 -25.786 -2.207 -25.370 1.00 49.64 O +ATOM 2513 CB PHE D 457 -25.780 -0.304 -22.663 1.00 49.85 C +ATOM 2514 CG PHE D 457 -25.757 0.979 -21.864 1.00 49.40 C +ATOM 2515 CD1 PHE D 457 -26.396 1.048 -20.627 1.00 48.57 C +ATOM 2516 CD2 PHE D 457 -25.095 2.111 -22.335 1.00 48.99 C +ATOM 2517 CE1 PHE D 457 -26.374 2.217 -19.873 1.00 47.85 C +ATOM 2518 CE2 PHE D 457 -25.070 3.288 -21.582 1.00 48.56 C +ATOM 2519 CZ PHE D 457 -25.708 3.336 -20.351 1.00 48.32 C +ATOM 2520 N GLY D 458 -23.811 -1.162 -24.929 1.00 49.57 N +ATOM 2521 CA GLY D 458 -22.924 -2.105 -25.613 1.00 48.93 C +ATOM 2522 C GLY D 458 -22.222 -3.118 -24.723 1.00 48.42 C +ATOM 2523 O GLY D 458 -21.921 -4.213 -25.176 1.00 48.41 O +ATOM 2524 N THR D 459 -21.958 -2.766 -23.465 1.00 48.09 N +ATOM 2525 CA THR D 459 -21.403 -3.727 -22.488 1.00 47.76 C +ATOM 2526 C THR D 459 -22.103 -3.766 -21.135 1.00 47.76 C +ATOM 2527 O THR D 459 -23.028 -2.986 -20.862 1.00 48.15 O +ATOM 2528 CB THR D 459 -19.926 -3.465 -22.184 1.00 47.50 C +ATOM 2529 OG1 THR D 459 -19.576 -2.149 -22.626 1.00 46.99 O +ATOM 2530 CG2 THR D 459 -19.065 -4.493 -22.885 1.00 47.56 C +ATOM 2531 N SER D 460 -21.649 -4.686 -20.289 1.00 47.30 N +ATOM 2532 CA SER D 460 -21.943 -4.623 -18.870 1.00 47.00 C +ATOM 2533 C SER D 460 -21.333 -3.347 -18.304 1.00 46.73 C +ATOM 2534 O SER D 460 -21.992 -2.618 -17.564 1.00 46.90 O +ATOM 2535 CB SER D 460 -21.353 -5.825 -18.137 1.00 47.05 C +ATOM 2536 OG SER D 460 -21.725 -7.032 -18.767 1.00 47.37 O +ATOM 2537 N GLY D 461 -20.083 -3.076 -18.684 1.00 46.46 N +ATOM 2538 CA GLY D 461 -19.268 -2.007 -18.086 1.00 46.05 C +ATOM 2539 C GLY D 461 -19.825 -0.594 -18.147 1.00 45.75 C +ATOM 2540 O GLY D 461 -19.274 0.329 -17.530 1.00 45.55 O +ATOM 2541 N GLN D 462 -20.921 -0.432 -18.889 1.00 45.51 N +ATOM 2542 CA GLN D 462 -21.565 0.863 -19.057 1.00 45.26 C +ATOM 2543 C GLN D 462 -22.498 1.214 -17.913 1.00 45.39 C +ATOM 2544 O GLN D 462 -23.255 0.377 -17.412 1.00 45.46 O +ATOM 2545 CB GLN D 462 -22.265 0.945 -20.402 1.00 45.02 C +ATOM 2546 CG GLN D 462 -21.274 1.229 -21.508 1.00 44.76 C +ATOM 2547 CD GLN D 462 -21.889 1.225 -22.877 1.00 44.15 C +ATOM 2548 OE1 GLN D 462 -22.666 0.336 -23.225 1.00 43.41 O +ATOM 2549 NE2 GLN D 462 -21.536 2.220 -23.676 1.00 44.08 N +ATOM 2550 N LYS D 463 -22.409 2.466 -17.489 1.00 45.53 N +ATOM 2551 CA LYS D 463 -23.069 2.913 -16.280 1.00 45.72 C +ATOM 2552 C LYS D 463 -23.891 4.143 -16.592 1.00 46.06 C +ATOM 2553 O LYS D 463 -23.820 4.686 -17.696 1.00 46.31 O +ATOM 2554 CB LYS D 463 -22.039 3.217 -15.177 1.00 45.48 C +ATOM 2555 CG LYS D 463 -20.991 2.117 -14.990 1.00 45.50 C +ATOM 2556 CD LYS D 463 -20.700 1.790 -13.532 1.00 44.44 C +ATOM 2557 CE LYS D 463 -19.327 2.267 -13.109 1.00 43.51 C +ATOM 2558 NZ LYS D 463 -18.898 1.526 -11.914 1.00 42.60 N +ATOM 2559 N THR D 464 -24.689 4.555 -15.617 1.00 46.34 N +ATOM 2560 CA THR D 464 -25.424 5.794 -15.669 1.00 46.39 C +ATOM 2561 C THR D 464 -25.218 6.479 -14.327 1.00 47.02 C +ATOM 2562 O THR D 464 -25.627 5.948 -13.290 1.00 47.15 O +ATOM 2563 CB THR D 464 -26.917 5.533 -15.863 1.00 46.18 C +ATOM 2564 OG1 THR D 464 -27.381 4.647 -14.838 1.00 46.05 O +ATOM 2565 CG2 THR D 464 -27.182 4.902 -17.205 1.00 45.87 C +ATOM 2566 N LYS D 465 -24.536 7.621 -14.332 1.00 47.68 N +ATOM 2567 CA LYS D 465 -24.526 8.496 -13.162 1.00 48.37 C +ATOM 2568 C LYS D 465 -25.539 9.590 -13.460 1.00 48.99 C +ATOM 2569 O LYS D 465 -25.170 10.713 -13.795 1.00 48.95 O +ATOM 2570 CB LYS D 465 -23.130 9.068 -12.858 1.00 47.80 C +ATOM 2571 N ILE D 466 -26.819 9.224 -13.377 1.00 50.09 N +ATOM 2572 CA ILE D 466 -27.937 10.159 -13.567 1.00 51.40 C +ATOM 2573 C ILE D 466 -28.409 10.762 -12.227 1.00 52.35 C +ATOM 2574 O ILE D 466 -29.513 10.479 -11.768 1.00 52.48 O +ATOM 2575 CB ILE D 466 -29.123 9.487 -14.314 1.00 50.90 C +ATOM 2576 N ILE D 467 -27.564 11.598 -11.620 1.00 53.61 N +ATOM 2577 CA ILE D 467 -27.799 12.136 -10.276 1.00 55.06 C +ATOM 2578 C ILE D 467 -28.140 13.636 -10.225 1.00 56.32 C +ATOM 2579 O ILE D 467 -27.699 14.421 -11.071 1.00 56.62 O +ATOM 2580 CB ILE D 467 -26.566 11.906 -9.367 1.00 54.71 C +ATOM 2581 N SER D 468 -28.936 14.014 -9.223 1.00 57.69 N +ATOM 2582 CA SER D 468 -29.062 15.404 -8.767 1.00 58.97 C +ATOM 2583 C SER D 468 -29.863 16.325 -9.694 1.00 60.37 C +ATOM 2584 O SER D 468 -29.474 17.471 -9.941 1.00 60.48 O +ATOM 2585 CB SER D 468 -27.677 15.985 -8.449 1.00 58.60 C +ATOM 2586 OG SER D 468 -27.771 17.303 -7.962 1.00 57.71 O +ATOM 2587 N ASN D 469 -30.998 15.825 -10.177 1.00 62.20 N +ATOM 2588 CA ASN D 469 -31.897 16.611 -11.035 1.00 64.01 C +ATOM 2589 C ASN D 469 -33.176 17.006 -10.295 1.00 65.23 C +ATOM 2590 O ASN D 469 -33.185 17.055 -9.060 1.00 65.37 O +ATOM 2591 CB ASN D 469 -32.221 15.844 -12.328 1.00 63.95 C +ATOM 2592 CG ASN D 469 -30.965 15.365 -13.068 1.00 64.17 C +ATOM 2593 OD1 ASN D 469 -29.976 16.102 -13.223 1.00 63.86 O +ATOM 2594 ND2 ASN D 469 -31.007 14.121 -13.531 1.00 63.65 N +ATOM 2595 N ARG D 470 -34.245 17.298 -11.042 1.00 66.89 N +ATOM 2596 CA ARG D 470 -35.563 17.570 -10.440 1.00 68.41 C +ATOM 2597 C ARG D 470 -36.168 16.272 -9.907 1.00 69.46 C +ATOM 2598 O ARG D 470 -36.912 15.594 -10.626 1.00 69.65 O +ATOM 2599 CB ARG D 470 -36.519 18.225 -11.448 1.00 68.21 C +ATOM 2600 N GLY D 471 -35.839 15.940 -8.653 1.00 70.60 N +ATOM 2601 CA GLY D 471 -36.238 14.676 -8.011 1.00 72.03 C +ATOM 2602 C GLY D 471 -37.534 14.072 -8.523 1.00 73.10 C +ATOM 2603 O GLY D 471 -38.579 14.726 -8.490 1.00 73.19 O +ATOM 2604 N GLU D 472 -37.457 12.825 -8.991 1.00 74.20 N +ATOM 2605 CA GLU D 472 -38.605 12.086 -9.553 1.00 75.57 C +ATOM 2606 C GLU D 472 -39.977 12.353 -8.897 1.00 76.63 C +ATOM 2607 O GLU D 472 -41.019 12.218 -9.557 1.00 76.86 O +ATOM 2608 CB GLU D 472 -38.318 10.580 -9.570 1.00 75.37 C +ATOM 2609 N ASN D 473 -39.969 12.713 -7.608 1.00 77.86 N +ATOM 2610 CA ASN D 473 -41.188 13.055 -6.853 1.00 78.89 C +ATOM 2611 C ASN D 473 -41.940 14.252 -7.442 1.00 79.67 C +ATOM 2612 O ASN D 473 -43.078 14.111 -7.915 1.00 79.63 O +ATOM 2613 CB ASN D 473 -40.869 13.297 -5.366 1.00 78.70 C +ATOM 2614 CG ASN D 473 -40.782 12.004 -4.560 1.00 78.63 C +ATOM 2615 OD1 ASN D 473 -41.389 10.989 -4.912 1.00 78.15 O +ATOM 2616 ND2 ASN D 473 -40.031 12.045 -3.464 1.00 78.40 N +ATOM 2617 N SER D 474 -41.285 15.415 -7.425 1.00 80.65 N +ATOM 2618 CA SER D 474 -41.848 16.644 -7.981 1.00 81.63 C +ATOM 2619 C SER D 474 -42.359 16.449 -9.415 1.00 82.41 C +ATOM 2620 O SER D 474 -43.275 17.148 -9.845 1.00 82.55 O +ATOM 2621 CB SER D 474 -40.827 17.787 -7.913 1.00 81.39 C +ATOM 2622 N CYS D 475 -41.773 15.492 -10.141 1.00 83.46 N +ATOM 2623 CA CYS D 475 -42.198 15.171 -11.511 1.00 84.41 C +ATOM 2624 C CYS D 475 -43.622 14.657 -11.497 1.00 84.89 C +ATOM 2625 O CYS D 475 -44.516 15.296 -12.047 1.00 84.98 O +ATOM 2626 CB CYS D 475 -41.293 14.117 -12.170 1.00 84.42 C +ATOM 2627 SG CYS D 475 -39.525 14.463 -12.134 1.00 84.55 S +ATOM 2628 N LYS D 476 -43.820 13.507 -10.854 1.00 85.58 N +ATOM 2629 CA LYS D 476 -45.140 12.902 -10.726 1.00 86.27 C +ATOM 2630 C LYS D 476 -46.113 13.873 -10.046 1.00 86.68 C +ATOM 2631 O LYS D 476 -47.297 13.933 -10.406 1.00 86.68 O +ATOM 2632 CB LYS D 476 -45.052 11.577 -9.959 1.00 86.20 C +ATOM 2633 N ALA D 477 -45.594 14.644 -9.086 1.00 87.14 N +ATOM 2634 CA ALA D 477 -46.381 15.657 -8.377 1.00 87.58 C +ATOM 2635 C ALA D 477 -46.885 16.751 -9.326 1.00 87.79 C +ATOM 2636 O ALA D 477 -48.090 16.991 -9.402 1.00 87.92 O +ATOM 2637 CB ALA D 477 -45.582 16.257 -7.207 1.00 87.53 C +ATOM 2638 N THR D 478 -45.966 17.391 -10.053 1.00 88.02 N +ATOM 2639 CA THR D 478 -46.324 18.396 -11.058 1.00 88.18 C +ATOM 2640 C THR D 478 -46.735 17.739 -12.383 1.00 88.45 C +ATOM 2641 O THR D 478 -46.804 18.404 -13.419 1.00 88.43 O +ATOM 2642 CB THR D 478 -45.183 19.418 -11.290 1.00 88.00 C +ATOM 2643 N GLY D 479 -47.014 16.435 -12.334 1.00 88.80 N +ATOM 2644 CA GLY D 479 -47.480 15.679 -13.494 1.00 89.43 C +ATOM 2645 C GLY D 479 -46.537 15.747 -14.680 1.00 89.99 C +ATOM 2646 O GLY D 479 -46.910 16.225 -15.755 1.00 90.05 O +ATOM 2647 N GLN D 480 -45.308 15.278 -14.473 1.00 90.48 N +ATOM 2648 CA GLN D 480 -44.294 15.236 -15.521 1.00 90.91 C +ATOM 2649 C GLN D 480 -43.817 13.801 -15.729 1.00 91.27 C +ATOM 2650 O GLN D 480 -42.629 13.498 -15.576 1.00 91.46 O +ATOM 2651 CB GLN D 480 -43.111 16.145 -15.171 1.00 90.86 C +ATOM 2652 CG GLN D 480 -43.379 17.633 -15.333 1.00 90.80 C +ATOM 2653 CD GLN D 480 -42.102 18.431 -15.545 1.00 90.84 C +ATOM 2654 OE1 GLN D 480 -41.270 18.080 -16.384 1.00 90.90 O +ATOM 2655 NE2 GLN D 480 -41.943 19.514 -14.789 1.00 90.60 N +ATOM 2656 N VAL D 481 -44.752 12.920 -16.070 1.00 91.59 N +ATOM 2657 CA VAL D 481 -44.443 11.512 -16.272 1.00 91.96 C +ATOM 2658 C VAL D 481 -44.819 11.076 -17.678 1.00 92.20 C +ATOM 2659 O VAL D 481 -45.334 11.869 -18.464 1.00 92.22 O +ATOM 2660 CB VAL D 481 -45.163 10.630 -15.240 1.00 92.01 C +ATOM 2661 N CYS D 482 -44.553 9.812 -17.990 1.00 92.60 N +ATOM 2662 CA CYS D 482 -44.854 9.259 -19.301 1.00 93.23 C +ATOM 2663 C CYS D 482 -46.282 9.534 -19.729 1.00 93.42 C +ATOM 2664 O CYS D 482 -47.220 9.078 -19.067 1.00 93.71 O +ATOM 2665 CB CYS D 482 -44.620 7.752 -19.301 1.00 93.30 C +ATOM 2666 SG CYS D 482 -42.900 7.297 -19.146 1.00 94.44 S +ATOM 2667 N HIS D 483 -46.448 10.273 -20.828 1.00 93.51 N +ATOM 2668 CA HIS D 483 -47.769 10.455 -21.435 1.00 93.75 C +ATOM 2669 C HIS D 483 -48.438 9.091 -21.607 1.00 93.87 C +ATOM 2670 O HIS D 483 -47.762 8.087 -21.855 1.00 93.89 O +ATOM 2671 CB HIS D 483 -47.672 11.166 -22.785 1.00 93.83 C +ATOM 2672 N ALA D 484 -49.760 9.058 -21.456 1.00 93.89 N +ATOM 2673 CA ALA D 484 -50.503 7.798 -21.399 1.00 93.74 C +ATOM 2674 C ALA D 484 -50.205 6.863 -22.577 1.00 93.60 C +ATOM 2675 O ALA D 484 -50.048 5.653 -22.383 1.00 93.49 O +ATOM 2676 CB ALA D 484 -52.005 8.064 -21.277 1.00 93.81 C +ATOM 2677 N LEU D 485 -50.093 7.436 -23.779 1.00 93.41 N +ATOM 2678 CA LEU D 485 -49.938 6.665 -25.027 1.00 93.22 C +ATOM 2679 C LEU D 485 -48.737 5.709 -25.041 1.00 92.99 C +ATOM 2680 O LEU D 485 -48.646 4.826 -25.900 1.00 92.88 O +ATOM 2681 CB LEU D 485 -49.853 7.619 -26.225 1.00 93.23 C +ATOM 2682 N CYS D 486 -47.843 5.886 -24.067 1.00 92.76 N +ATOM 2683 CA CYS D 486 -46.530 5.243 -24.042 1.00 92.41 C +ATOM 2684 C CYS D 486 -46.543 3.805 -23.555 1.00 91.98 C +ATOM 2685 O CYS D 486 -47.056 3.503 -22.482 1.00 91.89 O +ATOM 2686 CB CYS D 486 -45.561 6.058 -23.181 1.00 92.58 C +ATOM 2687 SG CYS D 486 -45.336 7.777 -23.725 1.00 93.21 S +ATOM 2688 N SER D 487 -45.961 2.933 -24.371 1.00 91.56 N +ATOM 2689 CA SER D 487 -45.699 1.549 -24.016 1.00 91.11 C +ATOM 2690 C SER D 487 -44.614 1.549 -22.950 1.00 90.84 C +ATOM 2691 O SER D 487 -43.437 1.655 -23.289 1.00 90.87 O +ATOM 2692 CB SER D 487 -45.212 0.796 -25.257 1.00 91.17 C +ATOM 2693 OG SER D 487 -44.258 1.568 -25.980 1.00 90.97 O +ATOM 2694 N PRO D 488 -45.002 1.429 -21.661 1.00 90.57 N +ATOM 2695 CA PRO D 488 -44.090 1.692 -20.531 1.00 90.38 C +ATOM 2696 C PRO D 488 -42.684 1.072 -20.666 1.00 90.07 C +ATOM 2697 O PRO D 488 -42.364 0.066 -20.026 1.00 89.98 O +ATOM 2698 CB PRO D 488 -44.850 1.146 -19.305 1.00 90.45 C +ATOM 2699 CG PRO D 488 -46.070 0.459 -19.840 1.00 90.44 C +ATOM 2700 CD PRO D 488 -46.338 1.016 -21.195 1.00 90.51 C +ATOM 2701 N GLU D 489 -41.872 1.697 -21.517 1.00 89.73 N +ATOM 2702 CA GLU D 489 -40.461 1.362 -21.697 1.00 89.39 C +ATOM 2703 C GLU D 489 -39.601 2.605 -21.426 1.00 89.07 C +ATOM 2704 O GLU D 489 -38.426 2.490 -21.065 1.00 89.10 O +ATOM 2705 CB GLU D 489 -40.200 0.822 -23.109 1.00 89.31 C +ATOM 2706 N GLY D 490 -40.194 3.787 -21.604 1.00 88.59 N +ATOM 2707 CA GLY D 490 -39.527 5.037 -21.260 1.00 88.00 C +ATOM 2708 C GLY D 490 -40.050 6.310 -21.900 1.00 87.71 C +ATOM 2709 O GLY D 490 -40.881 6.272 -22.812 1.00 87.70 O +ATOM 2710 N CYS D 491 -39.544 7.439 -21.398 1.00 87.28 N +ATOM 2711 CA CYS D 491 -39.833 8.771 -21.925 1.00 86.76 C +ATOM 2712 C CYS D 491 -38.582 9.596 -22.144 1.00 86.33 C +ATOM 2713 O CYS D 491 -37.639 9.541 -21.351 1.00 86.27 O +ATOM 2714 CB CYS D 491 -40.742 9.543 -20.978 1.00 86.73 C +ATOM 2715 SG CYS D 491 -42.422 9.535 -21.516 1.00 87.51 S +ATOM 2716 N TRP D 492 -38.592 10.372 -23.221 1.00 85.79 N +ATOM 2717 CA TRP D 492 -37.568 11.383 -23.449 1.00 85.33 C +ATOM 2718 C TRP D 492 -38.123 12.765 -23.097 1.00 85.43 C +ATOM 2719 O TRP D 492 -37.371 13.727 -22.902 1.00 85.32 O +ATOM 2720 CB TRP D 492 -37.091 11.337 -24.901 1.00 84.84 C +ATOM 2721 CG TRP D 492 -36.324 10.090 -25.245 1.00 84.16 C +ATOM 2722 CD1 TRP D 492 -36.734 9.076 -26.058 1.00 83.66 C +ATOM 2723 CD2 TRP D 492 -35.019 9.730 -24.780 1.00 83.43 C +ATOM 2724 NE1 TRP D 492 -35.764 8.105 -26.130 1.00 83.37 N +ATOM 2725 CE2 TRP D 492 -34.700 8.483 -25.356 1.00 83.29 C +ATOM 2726 CE3 TRP D 492 -34.086 10.341 -23.932 1.00 83.09 C +ATOM 2727 CZ2 TRP D 492 -33.489 7.837 -25.116 1.00 83.73 C +ATOM 2728 CZ3 TRP D 492 -32.886 9.700 -23.693 1.00 83.39 C +ATOM 2729 CH2 TRP D 492 -32.597 8.459 -24.282 1.00 83.70 C +ATOM 2730 N GLY D 493 -39.452 12.838 -23.013 1.00 85.61 N +ATOM 2731 CA GLY D 493 -40.181 14.062 -22.692 1.00 85.61 C +ATOM 2732 C GLY D 493 -41.632 13.738 -22.389 1.00 85.65 C +ATOM 2733 O GLY D 493 -41.958 12.580 -22.130 1.00 85.50 O +ATOM 2734 N PRO D 494 -42.512 14.759 -22.408 1.00 85.73 N +ATOM 2735 CA PRO D 494 -43.942 14.570 -22.153 1.00 85.77 C +ATOM 2736 C PRO D 494 -44.709 13.978 -23.341 1.00 85.92 C +ATOM 2737 O PRO D 494 -45.166 12.841 -23.258 1.00 85.94 O +ATOM 2738 CB PRO D 494 -44.441 15.989 -21.838 1.00 85.65 C +ATOM 2739 CG PRO D 494 -43.207 16.862 -21.789 1.00 85.59 C +ATOM 2740 CD PRO D 494 -42.197 16.178 -22.636 1.00 85.74 C +ATOM 2741 N GLU D 495 -44.833 14.738 -24.430 1.00 86.13 N +ATOM 2742 CA GLU D 495 -45.680 14.367 -25.576 1.00 86.28 C +ATOM 2743 C GLU D 495 -45.368 12.978 -26.162 1.00 86.47 C +ATOM 2744 O GLU D 495 -44.221 12.527 -26.106 1.00 86.47 O +ATOM 2745 CB GLU D 495 -45.609 15.443 -26.671 1.00 86.09 C +ATOM 2746 N PRO D 496 -46.403 12.290 -26.696 1.00 86.69 N +ATOM 2747 CA PRO D 496 -46.339 11.018 -27.427 1.00 86.73 C +ATOM 2748 C PRO D 496 -45.080 10.765 -28.265 1.00 86.76 C +ATOM 2749 O PRO D 496 -44.622 9.626 -28.335 1.00 86.78 O +ATOM 2750 CB PRO D 496 -47.565 11.094 -28.342 1.00 86.71 C +ATOM 2751 CG PRO D 496 -48.563 11.880 -27.553 1.00 86.72 C +ATOM 2752 CD PRO D 496 -47.803 12.737 -26.552 1.00 86.76 C +ATOM 2753 N ARG D 497 -44.533 11.800 -28.899 1.00 86.90 N +ATOM 2754 CA ARG D 497 -43.306 11.657 -29.695 1.00 87.02 C +ATOM 2755 C ARG D 497 -42.061 11.549 -28.801 1.00 87.12 C +ATOM 2756 O ARG D 497 -40.996 12.114 -29.112 1.00 87.25 O +ATOM 2757 CB ARG D 497 -43.170 12.811 -30.699 1.00 86.95 C +ATOM 2758 N ASP D 498 -42.207 10.816 -27.693 1.00 87.12 N +ATOM 2759 CA ASP D 498 -41.140 10.679 -26.703 1.00 87.01 C +ATOM 2760 C ASP D 498 -41.147 9.332 -25.958 1.00 86.96 C +ATOM 2761 O ASP D 498 -40.508 9.209 -24.909 1.00 87.01 O +ATOM 2762 CB ASP D 498 -41.175 11.857 -25.714 1.00 86.85 C +ATOM 2763 N CYS D 499 -41.850 8.331 -26.501 1.00 86.86 N +ATOM 2764 CA CYS D 499 -41.857 6.973 -25.927 1.00 86.88 C +ATOM 2765 C CYS D 499 -40.606 6.214 -26.332 1.00 86.93 C +ATOM 2766 O CYS D 499 -40.392 5.973 -27.522 1.00 86.89 O +ATOM 2767 CB CYS D 499 -43.057 6.150 -26.406 1.00 86.94 C +ATOM 2768 SG CYS D 499 -44.668 6.911 -26.296 1.00 86.90 S +ATOM 2769 N VAL D 500 -39.797 5.817 -25.349 1.00 87.05 N +ATOM 2770 CA VAL D 500 -38.571 5.055 -25.619 1.00 87.07 C +ATOM 2771 C VAL D 500 -38.878 3.587 -25.901 1.00 87.07 C +ATOM 2772 O VAL D 500 -39.397 3.247 -26.967 1.00 87.13 O +ATOM 2773 CB VAL D 500 -37.561 5.151 -24.463 1.00 87.02 C +HETATM 2774 C1 NAG D3281 -14.050 29.206 -31.622 1.00 36.64 C +HETATM 2775 C2 NAG D3281 -12.807 28.960 -30.803 1.00 36.58 C +HETATM 2776 C3 NAG D3281 -11.620 29.396 -31.666 1.00 37.32 C +HETATM 2777 C4 NAG D3281 -11.679 28.722 -33.033 1.00 38.10 C +HETATM 2778 C5 NAG D3281 -13.086 28.522 -33.630 1.00 38.49 C +HETATM 2779 C6 NAG D3281 -13.055 27.349 -34.594 1.00 39.07 C +HETATM 2780 C7 NAG D3281 -13.709 29.139 -28.561 1.00 34.76 C +HETATM 2781 C8 NAG D3281 -13.956 30.009 -27.364 1.00 34.49 C +HETATM 2782 N2 NAG D3281 -12.972 29.660 -29.544 1.00 35.68 N +HETATM 2783 O3 NAG D3281 -10.380 29.005 -31.128 1.00 37.53 O +HETATM 2784 O4 NAG D3281 -10.886 29.487 -33.910 1.00 37.95 O +HETATM 2785 O5 NAG D3281 -14.070 28.251 -32.652 1.00 37.89 O +HETATM 2786 O6 NAG D3281 -12.279 27.744 -35.701 1.00 41.09 O +HETATM 2787 O7 NAG D3281 -14.181 28.005 -28.603 1.00 33.71 O +HETATM 2788 C1 NAG D3282 -8.580 28.766 -33.821 1.00 70.04 C +HETATM 2789 C2 NAG D3282 -7.648 29.519 -34.746 1.00 70.78 C +HETATM 2790 C3 NAG D3282 -6.250 28.926 -34.597 1.00 70.09 C +HETATM 2791 C4 NAG D3282 -5.866 28.681 -33.133 1.00 69.40 C +HETATM 2792 C5 NAG D3282 -7.032 28.466 -32.141 1.00 69.04 C +HETATM 2793 C6 NAG D3282 -6.643 28.858 -30.719 1.00 68.33 C +HETATM 2794 C7 NAG D3282 -9.241 30.234 -36.437 1.00 73.28 C +HETATM 2795 C8 NAG D3282 -10.293 29.591 -37.296 1.00 73.27 C +HETATM 2796 N2 NAG D3282 -8.183 29.483 -36.097 1.00 72.06 N +HETATM 2797 O3 NAG D3282 -5.299 29.822 -35.116 1.00 70.14 O +HETATM 2798 O4 NAG D3282 -4.976 27.580 -33.106 1.00 69.13 O +HETATM 2799 O5 NAG D3282 -8.216 29.144 -32.519 1.00 69.29 O +HETATM 2800 O6 NAG D3282 -7.781 29.238 -29.981 1.00 67.81 O +HETATM 2801 O7 NAG D3282 -9.389 31.409 -36.080 1.00 74.16 O +HETATM 2802 C1 BMA D3283 -3.098 29.351 -31.449 1.00112.13 C +HETATM 2803 C2 BMA D3283 -2.286 28.287 -30.726 1.00112.18 C +HETATM 2804 C3 BMA D3283 -0.807 28.577 -30.977 1.00112.36 C +HETATM 2805 C4 BMA D3283 -0.474 28.947 -32.435 1.00112.42 C +HETATM 2806 C5 BMA D3283 -1.624 29.469 -33.323 1.00112.39 C +HETATM 2807 C6 BMA D3283 -1.482 28.988 -34.772 1.00112.39 C +HETATM 2808 O2 BMA D3283 -2.642 26.982 -31.208 1.00111.57 O +HETATM 2809 O3 BMA D3283 -0.017 27.459 -30.538 1.00112.41 O +HETATM 2810 O4 BMA D3283 0.550 29.961 -32.403 1.00112.72 O +HETATM 2811 O5 BMA D3283 -2.932 29.113 -32.846 1.00112.22 O +HETATM 2812 O6 BMA D3283 -2.551 29.496 -35.584 1.00111.85 O +HETATM 2813 C1 NAG D3371 -25.243 20.978 -48.275 1.00106.44 C +HETATM 2814 C2 NAG D3371 -24.690 22.407 -48.409 1.00106.25 C +HETATM 2815 C3 NAG D3371 -25.791 23.455 -48.585 1.00106.43 C +HETATM 2816 C4 NAG D3371 -26.856 23.003 -49.590 1.00106.75 C +HETATM 2817 C5 NAG D3371 -27.405 21.621 -49.216 1.00106.63 C +HETATM 2818 C6 NAG D3371 -28.416 21.120 -50.247 1.00106.25 C +HETATM 2819 C7 NAG D3371 -22.572 22.589 -47.184 1.00104.71 C +HETATM 2820 C8 NAG D3371 -21.775 23.781 -46.742 1.00104.57 C +HETATM 2821 N2 NAG D3371 -23.897 22.742 -47.236 1.00105.32 N +HETATM 2822 O3 NAG D3371 -25.207 24.672 -48.995 1.00106.19 O +HETATM 2823 O4 NAG D3371 -27.901 23.954 -49.633 1.00107.23 O +HETATM 2824 O5 NAG D3371 -26.353 20.670 -49.115 1.00106.90 O +HETATM 2825 O6 NAG D3371 -29.316 20.214 -49.625 1.00106.08 O +HETATM 2826 O7 NAG D3371 -21.998 21.539 -47.471 1.00104.13 O +HETATM 2827 C1 NAG D3891 -35.807 33.183 -26.357 1.00 97.20 C +HETATM 2828 C2 NAG D3891 -36.669 33.310 -27.609 1.00 97.49 C +HETATM 2829 C3 NAG D3891 -36.000 34.271 -28.593 1.00 98.05 C +HETATM 2830 C4 NAG D3891 -35.588 35.583 -27.902 1.00 98.12 C +HETATM 2831 C5 NAG D3891 -34.814 35.318 -26.599 1.00 97.84 C +HETATM 2832 C6 NAG D3891 -34.544 36.604 -25.819 1.00 97.86 C +HETATM 2833 C7 NAG D3891 -37.988 31.287 -28.120 1.00 96.79 C +HETATM 2834 C8 NAG D3891 -38.437 30.586 -29.375 1.00 96.74 C +HETATM 2835 N2 NAG D3891 -36.859 32.000 -28.214 1.00 97.03 N +HETATM 2836 O3 NAG D3891 -36.878 34.520 -29.672 1.00 98.60 O +HETATM 2837 O4 NAG D3891 -34.824 36.389 -28.782 1.00 97.84 O +HETATM 2838 O5 NAG D3891 -35.541 34.434 -25.764 1.00 97.38 O +HETATM 2839 O6 NAG D3891 -33.782 36.312 -24.667 1.00 97.50 O +HETATM 2840 O7 NAG D3891 -38.651 31.176 -27.085 1.00 96.22 O +ATOM 2841 N GLN H 1 -35.964 -14.993 -4.087 1.00 45.93 N +ATOM 2842 CA GLN H 1 -36.380 -14.319 -5.349 1.00 46.23 C +ATOM 2843 C GLN H 1 -35.498 -14.710 -6.549 1.00 46.24 C +ATOM 2844 O GLN H 1 -35.840 -15.653 -7.279 1.00 46.54 O +ATOM 2845 CB GLN H 1 -36.440 -12.794 -5.176 1.00 46.27 C +ATOM 2846 N VAL H 2 -34.377 -14.005 -6.749 1.00 45.75 N +ATOM 2847 CA VAL H 2 -33.542 -14.199 -7.950 1.00 45.07 C +ATOM 2848 C VAL H 2 -32.983 -15.620 -8.023 1.00 45.18 C +ATOM 2849 O VAL H 2 -32.312 -16.084 -7.103 1.00 45.30 O +ATOM 2850 CB VAL H 2 -32.381 -13.183 -8.048 1.00 44.89 C +ATOM 2851 CG1 VAL H 2 -31.992 -12.971 -9.499 1.00 44.02 C +ATOM 2852 CG2 VAL H 2 -32.752 -11.859 -7.403 1.00 44.43 C +ATOM 2853 N GLN H 3 -33.292 -16.310 -9.113 1.00 45.19 N +ATOM 2854 CA GLN H 3 -32.862 -17.692 -9.318 1.00 45.48 C +ATOM 2855 C GLN H 3 -32.503 -17.903 -10.778 1.00 44.98 C +ATOM 2856 O GLN H 3 -33.119 -17.314 -11.665 1.00 44.98 O +ATOM 2857 CB GLN H 3 -33.980 -18.675 -8.962 1.00 45.50 C +ATOM 2858 CG GLN H 3 -34.396 -18.735 -7.492 1.00 46.56 C +ATOM 2859 CD GLN H 3 -35.714 -19.509 -7.279 1.00 46.66 C +ATOM 2860 OE1 GLN H 3 -36.108 -20.354 -8.099 1.00 47.09 O +ATOM 2861 NE2 GLN H 3 -36.393 -19.222 -6.167 1.00 47.70 N +ATOM 2862 N LEU H 4 -31.514 -18.749 -11.034 1.00 44.66 N +ATOM 2863 CA LEU H 4 -31.242 -19.174 -12.401 1.00 44.42 C +ATOM 2864 C LEU H 4 -31.221 -20.695 -12.452 1.00 44.44 C +ATOM 2865 O LEU H 4 -30.323 -21.339 -11.887 1.00 44.69 O +ATOM 2866 CB LEU H 4 -29.949 -18.555 -12.934 1.00 44.25 C +ATOM 2867 CG LEU H 4 -29.916 -17.022 -12.854 1.00 44.22 C +ATOM 2868 CD1 LEU H 4 -28.514 -16.481 -12.978 1.00 44.16 C +ATOM 2869 CD2 LEU H 4 -30.800 -16.393 -13.893 1.00 44.03 C +ATOM 2870 N VAL H 5 -32.243 -21.263 -13.094 1.00 43.99 N +ATOM 2871 CA VAL H 5 -32.390 -22.710 -13.177 1.00 43.40 C +ATOM 2872 C VAL H 5 -32.022 -23.181 -14.568 1.00 43.38 C +ATOM 2873 O VAL H 5 -32.779 -22.990 -15.535 1.00 43.47 O +ATOM 2874 CB VAL H 5 -33.789 -23.175 -12.818 1.00 43.21 C +ATOM 2875 CG1 VAL H 5 -33.850 -24.684 -12.858 1.00 42.94 C +ATOM 2876 CG2 VAL H 5 -34.164 -22.668 -11.437 1.00 43.50 C +ATOM 2877 N GLN H 6 -30.844 -23.795 -14.637 1.00 42.95 N +ATOM 2878 CA GLN H 6 -30.217 -24.198 -15.876 1.00 42.82 C +ATOM 2879 C GLN H 6 -30.599 -25.617 -16.219 1.00 42.59 C +ATOM 2880 O GLN H 6 -30.822 -26.419 -15.320 1.00 42.42 O +ATOM 2881 CB GLN H 6 -28.712 -24.167 -15.712 1.00 43.05 C +ATOM 2882 CG GLN H 6 -28.100 -22.821 -15.442 1.00 43.89 C +ATOM 2883 CD GLN H 6 -26.615 -22.842 -15.732 1.00 45.38 C +ATOM 2884 OE1 GLN H 6 -25.809 -22.267 -14.997 1.00 46.41 O +ATOM 2885 NE2 GLN H 6 -26.239 -23.535 -16.805 1.00 45.78 N +ATOM 2886 N SER H 7 -30.620 -25.929 -17.518 1.00 42.53 N +ATOM 2887 CA SER H 7 -31.004 -27.256 -18.028 1.00 42.31 C +ATOM 2888 C SER H 7 -30.191 -28.400 -17.428 1.00 42.14 C +ATOM 2889 O SER H 7 -29.104 -28.195 -16.897 1.00 41.97 O +ATOM 2890 CB SER H 7 -30.874 -27.309 -19.552 1.00 42.26 C +ATOM 2891 OG SER H 7 -29.711 -28.033 -19.928 1.00 42.40 O +ATOM 2892 N GLY H 8 -30.727 -29.609 -17.541 1.00 42.28 N +ATOM 2893 CA GLY H 8 -30.041 -30.805 -17.073 1.00 42.52 C +ATOM 2894 C GLY H 8 -28.806 -31.145 -17.894 1.00 42.57 C +ATOM 2895 O GLY H 8 -28.637 -30.667 -19.023 1.00 42.35 O +ATOM 2896 N ALA H 9 -27.946 -31.980 -17.318 1.00 42.65 N +ATOM 2897 CA ALA H 9 -26.708 -32.382 -17.967 1.00 42.83 C +ATOM 2898 C ALA H 9 -27.012 -33.240 -19.168 1.00 42.91 C +ATOM 2899 O ALA H 9 -28.105 -33.791 -19.269 1.00 43.24 O +ATOM 2900 CB ALA H 9 -25.834 -33.150 -16.997 1.00 43.01 C +ATOM 2901 N GLU H 11 -26.054 -33.347 -20.085 1.00 42.96 N +ATOM 2902 CA GLU H 11 -26.162 -34.312 -21.187 1.00 42.87 C +ATOM 2903 C GLU H 11 -24.813 -34.696 -21.773 1.00 42.59 C +ATOM 2904 O GLU H 11 -23.811 -34.001 -21.578 1.00 42.47 O +ATOM 2905 CB GLU H 11 -27.134 -33.847 -22.280 1.00 42.91 C +ATOM 2906 CG GLU H 11 -27.007 -32.383 -22.649 1.00 43.47 C +ATOM 2907 CD GLU H 11 -28.237 -31.863 -23.357 1.00 44.17 C +ATOM 2908 OE1 GLU H 11 -28.781 -32.584 -24.223 1.00 44.59 O +ATOM 2909 OE2 GLU H 11 -28.655 -30.727 -23.049 1.00 44.57 O +ATOM 2910 N VAL H 12 -24.810 -35.823 -22.478 1.00 42.33 N +ATOM 2911 CA VAL H 12 -23.605 -36.378 -23.078 1.00 42.03 C +ATOM 2912 C VAL H 12 -23.694 -36.252 -24.585 1.00 42.00 C +ATOM 2913 O VAL H 12 -24.758 -36.430 -25.171 1.00 42.03 O +ATOM 2914 CB VAL H 12 -23.418 -37.842 -22.665 1.00 41.86 C +ATOM 2915 CG1 VAL H 12 -24.686 -38.624 -22.934 1.00 42.12 C +ATOM 2916 CG2 VAL H 12 -22.211 -38.466 -23.353 1.00 41.54 C +ATOM 2917 N LYS H 13 -22.576 -35.914 -25.210 1.00 42.07 N +ATOM 2918 CA LYS H 13 -22.558 -35.707 -26.641 1.00 42.30 C +ATOM 2919 C LYS H 13 -21.324 -36.319 -27.279 1.00 42.36 C +ATOM 2920 O LYS H 13 -20.231 -36.299 -26.705 1.00 42.37 O +ATOM 2921 CB LYS H 13 -22.651 -34.222 -26.964 1.00 42.40 C +ATOM 2922 CG LYS H 13 -24.023 -33.594 -26.697 1.00 43.58 C +ATOM 2923 CD LYS H 13 -25.116 -34.154 -27.601 1.00 45.57 C +ATOM 2924 CE LYS H 13 -26.401 -33.347 -27.476 1.00 47.09 C +ATOM 2925 NZ LYS H 13 -27.515 -33.929 -28.289 1.00 48.87 N +ATOM 2926 N LYS H 14 -21.517 -36.886 -28.467 1.00 42.43 N +ATOM 2927 CA LYS H 14 -20.426 -37.473 -29.232 1.00 42.18 C +ATOM 2928 C LYS H 14 -19.797 -36.349 -30.061 1.00 42.07 C +ATOM 2929 O LYS H 14 -20.513 -35.447 -30.501 1.00 41.92 O +ATOM 2930 CB LYS H 14 -20.947 -38.620 -30.107 1.00 42.10 C +ATOM 2931 N PRO H 15 -18.462 -36.387 -30.267 1.00 42.03 N +ATOM 2932 CA PRO H 15 -17.804 -35.259 -30.910 1.00 42.25 C +ATOM 2933 C PRO H 15 -18.403 -34.949 -32.275 1.00 42.83 C +ATOM 2934 O PRO H 15 -18.673 -35.862 -33.066 1.00 42.78 O +ATOM 2935 CB PRO H 15 -16.359 -35.729 -31.056 1.00 42.03 C +ATOM 2936 CG PRO H 15 -16.193 -36.754 -30.020 1.00 41.78 C +ATOM 2937 CD PRO H 15 -17.500 -37.452 -29.939 1.00 41.99 C +ATOM 2938 N GLY H 16 -18.622 -33.663 -32.532 1.00 43.46 N +ATOM 2939 CA GLY H 16 -19.192 -33.211 -33.789 1.00 43.97 C +ATOM 2940 C GLY H 16 -20.565 -32.622 -33.578 1.00 44.44 C +ATOM 2941 O GLY H 16 -20.961 -31.712 -34.301 1.00 44.55 O +ATOM 2942 N ALA H 17 -21.279 -33.135 -32.576 1.00 45.05 N +ATOM 2943 CA ALA H 17 -22.667 -32.738 -32.304 1.00 45.81 C +ATOM 2944 C ALA H 17 -22.797 -31.307 -31.770 1.00 46.36 C +ATOM 2945 O ALA H 17 -21.800 -30.600 -31.593 1.00 46.73 O +ATOM 2946 CB ALA H 17 -23.325 -33.724 -31.354 1.00 45.57 C +ATOM 2947 N SER H 18 -24.035 -30.878 -31.553 1.00 46.87 N +ATOM 2948 CA SER H 18 -24.312 -29.584 -30.944 1.00 47.44 C +ATOM 2949 C SER H 18 -24.887 -29.818 -29.547 1.00 47.78 C +ATOM 2950 O SER H 18 -24.917 -30.961 -29.066 1.00 48.06 O +ATOM 2951 CB SER H 18 -25.294 -28.778 -31.811 1.00 47.59 C +ATOM 2952 OG SER H 18 -26.612 -29.328 -31.786 1.00 48.17 O +ATOM 2953 N VAL H 19 -25.337 -28.739 -28.905 1.00 47.83 N +ATOM 2954 CA VAL H 19 -26.070 -28.802 -27.638 1.00 47.85 C +ATOM 2955 C VAL H 19 -26.609 -27.401 -27.330 1.00 47.77 C +ATOM 2956 O VAL H 19 -25.858 -26.428 -27.403 1.00 48.17 O +ATOM 2957 CB VAL H 19 -25.167 -29.332 -26.469 1.00 47.96 C +ATOM 2958 CG1 VAL H 19 -23.867 -28.526 -26.337 1.00 47.50 C +ATOM 2959 CG2 VAL H 19 -25.931 -29.372 -25.148 1.00 48.69 C +ATOM 2960 N LYS H 20 -27.899 -27.280 -27.028 1.00 47.34 N +ATOM 2961 CA LYS H 20 -28.440 -25.983 -26.606 1.00 46.93 C +ATOM 2962 C LYS H 20 -28.795 -26.064 -25.132 1.00 46.74 C +ATOM 2963 O LYS H 20 -29.730 -26.764 -24.733 1.00 46.73 O +ATOM 2964 CB LYS H 20 -29.635 -25.523 -27.457 1.00 46.80 C +ATOM 2965 N VAL H 21 -28.012 -25.347 -24.333 1.00 46.45 N +ATOM 2966 CA VAL H 21 -28.124 -25.350 -22.883 1.00 45.93 C +ATOM 2967 C VAL H 21 -29.023 -24.193 -22.444 1.00 45.64 C +ATOM 2968 O VAL H 21 -28.753 -23.033 -22.761 1.00 45.48 O +ATOM 2969 CB VAL H 21 -26.710 -25.271 -22.258 1.00 45.88 C +ATOM 2970 CG1 VAL H 21 -26.763 -25.143 -20.737 1.00 45.97 C +ATOM 2971 CG2 VAL H 21 -25.914 -26.493 -22.665 1.00 45.36 C +ATOM 2972 N SER H 22 -30.101 -24.512 -21.736 1.00 45.45 N +ATOM 2973 CA SER H 22 -31.077 -23.486 -21.370 1.00 45.67 C +ATOM 2974 C SER H 22 -30.828 -22.959 -19.968 1.00 45.61 C +ATOM 2975 O SER H 22 -30.129 -23.602 -19.174 1.00 45.40 O +ATOM 2976 CB SER H 22 -32.518 -23.997 -21.501 1.00 45.69 C +ATOM 2977 OG SER H 22 -32.895 -24.766 -20.372 1.00 45.89 O +ATOM 2978 N CYS H 23 -31.412 -21.791 -19.684 1.00 45.61 N +ATOM 2979 CA CYS H 23 -31.261 -21.114 -18.398 1.00 45.41 C +ATOM 2980 C CYS H 23 -32.453 -20.229 -18.042 1.00 45.27 C +ATOM 2981 O CYS H 23 -32.518 -19.062 -18.445 1.00 44.69 O +ATOM 2982 CB CYS H 23 -29.987 -20.282 -18.385 1.00 45.47 C +ATOM 2983 SG CYS H 23 -29.820 -19.254 -16.907 1.00 46.37 S +ATOM 2984 N LYS H 24 -33.376 -20.792 -17.263 1.00 45.53 N +ATOM 2985 CA LYS H 24 -34.618 -20.110 -16.912 1.00 45.80 C +ATOM 2986 C LYS H 24 -34.377 -19.158 -15.757 1.00 45.90 C +ATOM 2987 O LYS H 24 -34.108 -19.581 -14.632 1.00 45.99 O +ATOM 2988 CB LYS H 24 -35.728 -21.115 -16.577 1.00 45.79 C +ATOM 2989 N ALA H 25 -34.464 -17.869 -16.056 1.00 45.99 N +ATOM 2990 CA ALA H 25 -34.198 -16.834 -15.082 1.00 46.44 C +ATOM 2991 C ALA H 25 -35.460 -16.489 -14.335 1.00 46.85 C +ATOM 2992 O ALA H 25 -36.368 -15.905 -14.904 1.00 47.11 O +ATOM 2993 CB ALA H 25 -33.653 -15.606 -15.770 1.00 46.46 C +ATOM 2994 N SER H 26 -35.525 -16.857 -13.065 1.00 47.40 N +ATOM 2995 CA SER H 26 -36.653 -16.485 -12.227 1.00 48.09 C +ATOM 2996 C SER H 26 -36.224 -15.349 -11.314 1.00 48.73 C +ATOM 2997 O SER H 26 -35.042 -15.215 -11.026 1.00 49.26 O +ATOM 2998 CB SER H 26 -37.081 -17.685 -11.385 1.00 47.98 C +ATOM 2999 N GLY H 27 -37.162 -14.520 -10.868 1.00 49.35 N +ATOM 3000 CA GLY H 27 -36.914 -13.652 -9.697 1.00 50.05 C +ATOM 3001 C GLY H 27 -36.535 -12.189 -9.892 1.00 50.58 C +ATOM 3002 O GLY H 27 -36.370 -11.445 -8.910 1.00 50.56 O +ATOM 3003 N TYR H 28 -36.388 -11.771 -11.147 1.00 50.96 N +ATOM 3004 CA TYR H 28 -36.115 -10.371 -11.458 1.00 51.42 C +ATOM 3005 C TYR H 28 -36.659 -9.963 -12.825 1.00 51.99 C +ATOM 3006 O TYR H 28 -37.083 -10.805 -13.633 1.00 51.99 O +ATOM 3007 CB TYR H 28 -34.619 -10.066 -11.373 1.00 51.15 C +ATOM 3008 CG TYR H 28 -33.787 -10.690 -12.474 1.00 50.84 C +ATOM 3009 CD1 TYR H 28 -33.593 -12.066 -12.531 1.00 50.47 C +ATOM 3010 CD2 TYR H 28 -33.176 -9.901 -13.445 1.00 50.32 C +ATOM 3011 CE1 TYR H 28 -32.829 -12.643 -13.526 1.00 50.29 C +ATOM 3012 CE2 TYR H 28 -32.400 -10.469 -14.443 1.00 50.27 C +ATOM 3013 CZ TYR H 28 -32.235 -11.842 -14.474 1.00 50.48 C +ATOM 3014 OH TYR H 28 -31.476 -12.434 -15.446 1.00 51.02 O +ATOM 3015 N THR H 29 -36.637 -8.660 -13.072 1.00 52.50 N +ATOM 3016 CA THR H 29 -37.143 -8.112 -14.315 1.00 53.21 C +ATOM 3017 C THR H 29 -36.163 -8.396 -15.499 1.00 53.60 C +ATOM 3018 O THR H 29 -35.219 -7.640 -15.764 1.00 53.61 O +ATOM 3019 CB THR H 29 -37.559 -6.629 -14.116 1.00 53.22 C +ATOM 3020 OG1 THR H 29 -37.990 -6.077 -15.363 1.00 53.84 O +ATOM 3021 CG2 THR H 29 -36.420 -5.779 -13.497 1.00 53.09 C +ATOM 3022 N PHE H 30 -36.418 -9.509 -16.189 1.00 53.88 N +ATOM 3023 CA PHE H 30 -35.504 -10.118 -17.178 1.00 54.08 C +ATOM 3024 C PHE H 30 -34.754 -9.178 -18.153 1.00 54.09 C +ATOM 3025 O PHE H 30 -33.510 -9.168 -18.172 1.00 54.27 O +ATOM 3026 CB PHE H 30 -36.264 -11.207 -17.958 1.00 54.27 C +ATOM 3027 CG PHE H 30 -35.411 -11.998 -18.920 1.00 54.61 C +ATOM 3028 CD1 PHE H 30 -34.196 -12.551 -18.518 1.00 55.30 C +ATOM 3029 CD2 PHE H 30 -35.845 -12.214 -20.225 1.00 54.30 C +ATOM 3030 CE1 PHE H 30 -33.420 -13.285 -19.415 1.00 55.93 C +ATOM 3031 CE2 PHE H 30 -35.082 -12.955 -21.126 1.00 54.22 C +ATOM 3032 CZ PHE H 30 -33.875 -13.492 -20.728 1.00 55.03 C +ATOM 3033 N THR H 35 -35.509 -8.414 -18.956 1.00 53.78 N +ATOM 3034 CA THR H 35 -34.969 -7.535 -20.017 1.00 52.91 C +ATOM 3035 C THR H 35 -34.081 -6.424 -19.463 1.00 52.45 C +ATOM 3036 O THR H 35 -33.768 -5.457 -20.156 1.00 52.23 O +ATOM 3037 CB THR H 35 -36.110 -6.883 -20.823 1.00 52.77 C +ATOM 3038 N SER H 36 -33.669 -6.583 -18.209 1.00 51.98 N +ATOM 3039 CA SER H 36 -32.970 -5.539 -17.487 1.00 51.27 C +ATOM 3040 C SER H 36 -31.489 -5.829 -17.299 1.00 50.62 C +ATOM 3041 O SER H 36 -30.701 -4.902 -17.146 1.00 50.78 O +ATOM 3042 CB SER H 36 -33.635 -5.300 -16.133 1.00 51.22 C +ATOM 3043 OG SER H 36 -33.589 -3.929 -15.792 1.00 51.46 O +ATOM 3044 N HIS H 37 -31.099 -7.098 -17.313 1.00 49.74 N +ATOM 3045 CA HIS H 37 -29.704 -7.428 -17.019 1.00 48.96 C +ATOM 3046 C HIS H 37 -29.021 -8.304 -18.065 1.00 48.64 C +ATOM 3047 O HIS H 37 -29.606 -9.270 -18.553 1.00 48.92 O +ATOM 3048 CB HIS H 37 -29.583 -8.053 -15.626 1.00 48.83 C +ATOM 3049 CG HIS H 37 -30.012 -7.141 -14.520 1.00 47.90 C +ATOM 3050 ND1 HIS H 37 -31.046 -7.446 -13.665 1.00 47.60 N +ATOM 3051 CD2 HIS H 37 -29.559 -5.924 -14.141 1.00 46.88 C +ATOM 3052 CE1 HIS H 37 -31.212 -6.457 -12.806 1.00 47.04 C +ATOM 3053 NE2 HIS H 37 -30.323 -5.520 -13.075 1.00 46.76 N +ATOM 3054 N TRP H 38 -27.776 -7.956 -18.392 1.00 47.88 N +ATOM 3055 CA TRP H 38 -26.954 -8.725 -19.328 1.00 47.13 C +ATOM 3056 C TRP H 38 -26.765 -10.148 -18.824 1.00 46.80 C +ATOM 3057 O TRP H 38 -26.421 -10.349 -17.655 1.00 46.88 O +ATOM 3058 CB TRP H 38 -25.569 -8.093 -19.453 1.00 47.04 C +ATOM 3059 CG TRP H 38 -25.467 -6.837 -20.267 1.00 46.51 C +ATOM 3060 CD1 TRP H 38 -25.724 -5.561 -19.856 1.00 45.97 C +ATOM 3061 CD2 TRP H 38 -25.024 -6.741 -21.617 1.00 46.02 C +ATOM 3062 NE1 TRP H 38 -25.485 -4.680 -20.874 1.00 45.48 N +ATOM 3063 CE2 TRP H 38 -25.053 -5.380 -21.969 1.00 45.95 C +ATOM 3064 CE3 TRP H 38 -24.604 -7.679 -22.568 1.00 46.46 C +ATOM 3065 CZ2 TRP H 38 -24.684 -4.930 -23.235 1.00 46.75 C +ATOM 3066 CZ3 TRP H 38 -24.239 -7.236 -23.828 1.00 46.31 C +ATOM 3067 CH2 TRP H 38 -24.280 -5.873 -24.149 1.00 46.76 C +ATOM 3068 N MET H 39 -26.968 -11.129 -19.702 1.00 46.23 N +ATOM 3069 CA MET H 39 -26.756 -12.539 -19.344 1.00 45.77 C +ATOM 3070 C MET H 39 -25.406 -13.107 -19.841 1.00 45.30 C +ATOM 3071 O MET H 39 -25.098 -13.047 -21.037 1.00 45.51 O +ATOM 3072 CB MET H 39 -27.921 -13.398 -19.838 1.00 45.65 C +ATOM 3073 CG MET H 39 -27.960 -14.784 -19.220 1.00 46.28 C +ATOM 3074 SD MET H 39 -28.248 -14.768 -17.432 1.00 46.94 S +ATOM 3075 CE MET H 39 -30.038 -14.773 -17.405 1.00 47.97 C +ATOM 3076 N HIS H 40 -24.617 -13.665 -18.920 1.00 44.35 N +ATOM 3077 CA HIS H 40 -23.264 -14.157 -19.227 1.00 43.56 C +ATOM 3078 C HIS H 40 -23.192 -15.686 -19.300 1.00 42.90 C +ATOM 3079 O HIS H 40 -24.074 -16.359 -18.789 1.00 43.06 O +ATOM 3080 CB HIS H 40 -22.271 -13.679 -18.162 1.00 43.62 C +ATOM 3081 CG HIS H 40 -22.166 -12.191 -18.041 1.00 43.18 C +ATOM 3082 ND1 HIS H 40 -21.049 -11.491 -18.444 1.00 42.83 N +ATOM 3083 CD2 HIS H 40 -23.030 -11.275 -17.548 1.00 42.80 C +ATOM 3084 CE1 HIS H 40 -21.231 -10.206 -18.206 1.00 42.88 C +ATOM 3085 NE2 HIS H 40 -22.423 -10.048 -17.659 1.00 43.03 N +ATOM 3086 N TRP H 41 -22.141 -16.227 -19.920 1.00 41.79 N +ATOM 3087 CA TRP H 41 -21.887 -17.665 -19.892 1.00 40.80 C +ATOM 3088 C TRP H 41 -20.438 -17.909 -19.564 1.00 40.70 C +ATOM 3089 O TRP H 41 -19.570 -17.404 -20.256 1.00 41.19 O +ATOM 3090 CB TRP H 41 -22.239 -18.313 -21.225 1.00 40.39 C +ATOM 3091 CG TRP H 41 -23.712 -18.262 -21.508 1.00 40.07 C +ATOM 3092 CD1 TRP H 41 -24.398 -17.246 -22.110 1.00 39.31 C +ATOM 3093 CD2 TRP H 41 -24.685 -19.254 -21.171 1.00 39.06 C +ATOM 3094 NE1 TRP H 41 -25.730 -17.550 -22.178 1.00 39.13 N +ATOM 3095 CE2 TRP H 41 -25.935 -18.774 -21.602 1.00 39.27 C +ATOM 3096 CE3 TRP H 41 -24.618 -20.503 -20.549 1.00 38.71 C +ATOM 3097 CZ2 TRP H 41 -27.111 -19.497 -21.429 1.00 39.77 C +ATOM 3098 CZ3 TRP H 41 -25.778 -21.221 -20.381 1.00 38.98 C +ATOM 3099 CH2 TRP H 41 -27.012 -20.717 -20.817 1.00 39.66 C +ATOM 3100 N VAL H 42 -20.181 -18.660 -18.495 1.00 40.38 N +ATOM 3101 CA VAL H 42 -18.820 -18.997 -18.056 1.00 39.76 C +ATOM 3102 C VAL H 42 -18.609 -20.497 -18.111 1.00 39.77 C +ATOM 3103 O VAL H 42 -19.463 -21.273 -17.682 1.00 39.98 O +ATOM 3104 CB VAL H 42 -18.544 -18.533 -16.610 1.00 39.63 C +ATOM 3105 CG1 VAL H 42 -17.181 -19.026 -16.133 1.00 39.18 C +ATOM 3106 CG2 VAL H 42 -18.626 -17.021 -16.510 1.00 39.50 C +ATOM 3107 N ARG H 43 -17.458 -20.906 -18.617 1.00 39.65 N +ATOM 3108 CA ARG H 43 -17.148 -22.318 -18.741 1.00 39.60 C +ATOM 3109 C ARG H 43 -16.140 -22.768 -17.686 1.00 39.49 C +ATOM 3110 O ARG H 43 -15.160 -22.065 -17.410 1.00 39.58 O +ATOM 3111 CB ARG H 43 -16.598 -22.581 -20.131 1.00 39.68 C +ATOM 3112 CG ARG H 43 -16.167 -23.984 -20.350 1.00 40.28 C +ATOM 3113 CD ARG H 43 -15.864 -24.189 -21.781 1.00 42.01 C +ATOM 3114 NE ARG H 43 -14.486 -23.867 -22.094 1.00 44.03 N +ATOM 3115 CZ ARG H 43 -13.866 -24.307 -23.179 1.00 45.42 C +ATOM 3116 NH1 ARG H 43 -14.513 -25.083 -24.047 1.00 45.41 N +ATOM 3117 NH2 ARG H 43 -12.598 -23.978 -23.388 1.00 46.57 N +ATOM 3118 N GLN H 44 -16.382 -23.938 -17.099 1.00 39.22 N +ATOM 3119 CA GLN H 44 -15.430 -24.507 -16.154 1.00 39.03 C +ATOM 3120 C GLN H 44 -15.096 -25.963 -16.441 1.00 39.24 C +ATOM 3121 O GLN H 44 -15.878 -26.880 -16.124 1.00 38.93 O +ATOM 3122 CB GLN H 44 -15.897 -24.336 -14.712 1.00 38.98 C +ATOM 3123 CG GLN H 44 -14.813 -24.654 -13.678 1.00 38.48 C +ATOM 3124 CD GLN H 44 -15.072 -24.008 -12.334 1.00 37.39 C +ATOM 3125 OE1 GLN H 44 -14.142 -23.686 -11.601 1.00 35.05 O +ATOM 3126 NE2 GLN H 44 -16.348 -23.813 -12.005 1.00 38.02 N +ATOM 3127 N ALA H 45 -13.917 -26.142 -17.048 1.00 39.48 N +ATOM 3128 CA ALA H 45 -13.300 -27.450 -17.296 1.00 39.29 C +ATOM 3129 C ALA H 45 -13.048 -28.121 -15.958 1.00 39.22 C +ATOM 3130 O ALA H 45 -12.643 -27.449 -15.009 1.00 39.44 O +ATOM 3131 CB ALA H 45 -11.997 -27.274 -18.060 1.00 39.24 C +ATOM 3132 N PRO H 46 -13.295 -29.436 -15.864 1.00 39.01 N +ATOM 3133 CA PRO H 46 -13.259 -30.068 -14.555 1.00 39.20 C +ATOM 3134 C PRO H 46 -11.872 -30.057 -13.873 1.00 39.53 C +ATOM 3135 O PRO H 46 -10.841 -30.314 -14.512 1.00 39.05 O +ATOM 3136 CB PRO H 46 -13.766 -31.488 -14.837 1.00 39.05 C +ATOM 3137 CG PRO H 46 -13.493 -31.706 -16.252 1.00 38.93 C +ATOM 3138 CD PRO H 46 -13.625 -30.393 -16.928 1.00 38.98 C +ATOM 3139 N GLY H 47 -11.884 -29.743 -12.574 1.00 39.96 N +ATOM 3140 CA GLY H 47 -10.675 -29.602 -11.776 1.00 40.56 C +ATOM 3141 C GLY H 47 -9.921 -28.346 -12.169 1.00 41.05 C +ATOM 3142 O GLY H 47 -8.729 -28.196 -11.858 1.00 41.64 O +ATOM 3143 N GLN H 48 -10.617 -27.432 -12.841 1.00 40.94 N +ATOM 3144 CA GLN H 48 -9.966 -26.307 -13.491 1.00 40.76 C +ATOM 3145 C GLN H 48 -10.685 -24.980 -13.310 1.00 40.51 C +ATOM 3146 O GLN H 48 -11.830 -24.940 -12.865 1.00 40.64 O +ATOM 3147 CB GLN H 48 -9.830 -26.593 -14.974 1.00 40.74 C +ATOM 3148 CG GLN H 48 -9.118 -27.867 -15.294 1.00 41.78 C +ATOM 3149 CD GLN H 48 -8.238 -27.697 -16.496 1.00 44.34 C +ATOM 3150 OE1 GLN H 48 -7.084 -27.264 -16.368 1.00 46.41 O +ATOM 3151 NE2 GLN H 48 -8.773 -28.006 -17.686 1.00 43.89 N +ATOM 3152 N GLY H 49 -10.001 -23.905 -13.692 1.00 40.21 N +ATOM 3153 CA GLY H 49 -10.498 -22.542 -13.554 1.00 40.05 C +ATOM 3154 C GLY H 49 -11.594 -22.107 -14.516 1.00 40.00 C +ATOM 3155 O GLY H 49 -12.061 -22.877 -15.365 1.00 39.97 O +ATOM 3156 N LEU H 50 -11.987 -20.846 -14.379 1.00 39.77 N +ATOM 3157 CA LEU H 50 -13.141 -20.309 -15.073 1.00 39.52 C +ATOM 3158 C LEU H 50 -12.712 -19.584 -16.331 1.00 39.66 C +ATOM 3159 O LEU H 50 -11.737 -18.836 -16.313 1.00 39.61 O +ATOM 3160 CB LEU H 50 -13.876 -19.345 -14.149 1.00 39.40 C +ATOM 3161 CG LEU H 50 -14.436 -19.958 -12.871 1.00 38.71 C +ATOM 3162 CD1 LEU H 50 -14.285 -18.998 -11.742 1.00 37.81 C +ATOM 3163 CD2 LEU H 50 -15.896 -20.311 -13.070 1.00 39.37 C +ATOM 3164 N GLU H 51 -13.433 -19.819 -17.424 1.00 39.79 N +ATOM 3165 CA GLU H 51 -13.189 -19.110 -18.675 1.00 40.08 C +ATOM 3166 C GLU H 51 -14.506 -18.495 -19.157 1.00 40.11 C +ATOM 3167 O GLU H 51 -15.542 -19.158 -19.191 1.00 40.05 O +ATOM 3168 CB GLU H 51 -12.607 -20.037 -19.758 1.00 40.14 C +ATOM 3169 CG GLU H 51 -11.659 -21.136 -19.297 1.00 41.02 C +ATOM 3170 CD GLU H 51 -11.862 -22.446 -20.082 1.00 43.28 C +ATOM 3171 OE1 GLU H 51 -11.604 -22.448 -21.309 1.00 43.05 O +ATOM 3172 OE2 GLU H 51 -12.281 -23.474 -19.476 1.00 43.74 O +ATOM 3173 N TRP H 52 -14.450 -17.223 -19.530 1.00 40.34 N +ATOM 3174 CA TRP H 52 -15.625 -16.458 -19.920 1.00 40.67 C +ATOM 3175 C TRP H 52 -15.889 -16.652 -21.395 1.00 40.79 C +ATOM 3176 O TRP H 52 -14.973 -16.533 -22.200 1.00 41.13 O +ATOM 3177 CB TRP H 52 -15.375 -14.982 -19.620 1.00 40.93 C +ATOM 3178 CG TRP H 52 -16.509 -14.054 -19.922 1.00 41.63 C +ATOM 3179 CD1 TRP H 52 -17.689 -13.946 -19.240 1.00 41.84 C +ATOM 3180 CD2 TRP H 52 -16.559 -13.069 -20.966 1.00 42.44 C +ATOM 3181 NE1 TRP H 52 -18.476 -12.963 -19.802 1.00 42.07 N +ATOM 3182 CE2 TRP H 52 -17.805 -12.411 -20.862 1.00 42.22 C +ATOM 3183 CE3 TRP H 52 -15.676 -12.684 -21.982 1.00 42.27 C +ATOM 3184 CZ2 TRP H 52 -18.185 -11.392 -21.737 1.00 41.66 C +ATOM 3185 CZ3 TRP H 52 -16.059 -11.671 -22.847 1.00 41.51 C +ATOM 3186 CH2 TRP H 52 -17.298 -11.040 -22.718 1.00 41.41 C +ATOM 3187 N ILE H 53 -17.140 -16.940 -21.743 1.00 40.87 N +ATOM 3188 CA ILE H 53 -17.549 -17.211 -23.128 1.00 40.86 C +ATOM 3189 C ILE H 53 -18.192 -16.001 -23.796 1.00 41.28 C +ATOM 3190 O ILE H 53 -18.152 -15.868 -25.023 1.00 41.48 O +ATOM 3191 CB ILE H 53 -18.553 -18.378 -23.200 1.00 40.67 C +ATOM 3192 CG1 ILE H 53 -17.889 -19.693 -22.800 1.00 40.53 C +ATOM 3193 CG2 ILE H 53 -19.160 -18.506 -24.587 1.00 40.85 C +ATOM 3194 CD1 ILE H 53 -18.864 -20.852 -22.697 1.00 39.70 C +ATOM 3195 N GLY H 54 -18.805 -15.131 -22.999 1.00 41.76 N +ATOM 3196 CA GLY H 54 -19.506 -13.974 -23.547 1.00 42.21 C +ATOM 3197 C GLY H 54 -20.732 -13.524 -22.779 1.00 42.62 C +ATOM 3198 O GLY H 54 -21.152 -14.171 -21.818 1.00 42.35 O +ATOM 3199 N GLU H 55 -21.298 -12.403 -23.223 1.00 43.21 N +ATOM 3200 CA GLU H 55 -22.474 -11.790 -22.607 1.00 43.92 C +ATOM 3201 C GLU H 55 -23.555 -11.500 -23.647 1.00 44.33 C +ATOM 3202 O GLU H 55 -23.265 -11.377 -24.838 1.00 44.46 O +ATOM 3203 CB GLU H 55 -22.081 -10.497 -21.894 1.00 43.68 C +ATOM 3204 CG GLU H 55 -21.372 -9.490 -22.784 1.00 43.89 C +ATOM 3205 CD GLU H 55 -20.932 -8.235 -22.048 1.00 44.52 C +ATOM 3206 OE1 GLU H 55 -20.053 -7.512 -22.579 1.00 46.06 O +ATOM 3207 OE2 GLU H 55 -21.457 -7.965 -20.946 1.00 44.80 O +ATOM 3208 N PHE H 56 -24.797 -11.380 -23.187 1.00 44.95 N +ATOM 3209 CA PHE H 56 -25.937 -11.068 -24.056 1.00 45.58 C +ATOM 3210 C PHE H 56 -26.818 -10.034 -23.358 1.00 46.01 C +ATOM 3211 O PHE H 56 -27.165 -10.213 -22.181 1.00 46.22 O +ATOM 3212 CB PHE H 56 -26.739 -12.338 -24.339 1.00 45.46 C +ATOM 3213 CG PHE H 56 -27.770 -12.197 -25.433 1.00 46.02 C +ATOM 3214 CD1 PHE H 56 -27.631 -12.904 -26.634 1.00 46.73 C +ATOM 3215 CD2 PHE H 56 -28.901 -11.399 -25.261 1.00 45.85 C +ATOM 3216 CE1 PHE H 56 -28.595 -12.800 -27.659 1.00 45.83 C +ATOM 3217 CE2 PHE H 56 -29.863 -11.290 -26.273 1.00 46.23 C +ATOM 3218 CZ PHE H 56 -29.707 -11.999 -27.476 1.00 45.82 C +ATOM 3219 N ASN H 57 -27.147 -8.946 -24.065 1.00 46.31 N +ATOM 3220 CA ASN H 57 -28.081 -7.928 -23.560 1.00 46.36 C +ATOM 3221 C ASN H 57 -29.498 -8.323 -23.961 1.00 46.78 C +ATOM 3222 O ASN H 57 -29.916 -8.044 -25.091 1.00 46.93 O +ATOM 3223 CB ASN H 57 -27.735 -6.534 -24.096 1.00 45.79 C +ATOM 3224 CG ASN H 57 -28.452 -5.411 -23.345 1.00 45.23 C +ATOM 3225 OD1 ASN H 57 -29.239 -5.644 -22.432 1.00 44.38 O +ATOM 3226 ND2 ASN H 57 -28.171 -4.180 -23.736 1.00 44.80 N +ATOM 3227 N PRO H 58 -30.248 -8.972 -23.037 1.00 47.11 N +ATOM 3228 CA PRO H 58 -31.506 -9.608 -23.454 1.00 47.41 C +ATOM 3229 C PRO H 58 -32.554 -8.586 -23.862 1.00 47.59 C +ATOM 3230 O PRO H 58 -33.621 -8.970 -24.324 1.00 47.31 O +ATOM 3231 CB PRO H 58 -31.951 -10.387 -22.208 1.00 47.35 C +ATOM 3232 CG PRO H 58 -31.304 -9.698 -21.075 1.00 47.32 C +ATOM 3233 CD PRO H 58 -30.009 -9.121 -21.589 1.00 46.88 C +ATOM 3234 N SER H 59 -32.222 -7.303 -23.707 1.00 48.00 N +ATOM 3235 CA SER H 59 -33.139 -6.212 -24.013 1.00 48.82 C +ATOM 3236 C SER H 59 -33.019 -5.706 -25.458 1.00 49.52 C +ATOM 3237 O SER H 59 -34.044 -5.410 -26.109 1.00 49.79 O +ATOM 3238 CB SER H 59 -32.963 -5.055 -23.027 1.00 48.58 C +ATOM 3239 OG SER H 59 -31.968 -4.154 -23.459 1.00 48.40 O +ATOM 3240 N ASN H 62 -31.783 -5.596 -25.952 1.00 49.86 N +ATOM 3241 CA ASN H 62 -31.569 -5.154 -27.325 1.00 50.24 C +ATOM 3242 C ASN H 62 -30.962 -6.210 -28.260 1.00 50.68 C +ATOM 3243 O ASN H 62 -31.111 -6.117 -29.477 1.00 50.96 O +ATOM 3244 CB ASN H 62 -30.829 -3.813 -27.375 1.00 50.07 C +ATOM 3245 CG ASN H 62 -29.373 -3.925 -27.007 1.00 50.58 C +ATOM 3246 OD1 ASN H 62 -28.746 -4.969 -27.202 1.00 51.28 O +ATOM 3247 ND2 ASN H 62 -28.809 -2.831 -26.492 1.00 50.79 N +ATOM 3248 N GLY H 63 -30.298 -7.215 -27.697 1.00 51.16 N +ATOM 3249 CA GLY H 63 -29.827 -8.354 -28.488 1.00 51.68 C +ATOM 3250 C GLY H 63 -28.366 -8.282 -28.873 1.00 52.12 C +ATOM 3251 O GLY H 63 -27.863 -9.123 -29.630 1.00 51.93 O +ATOM 3252 N ARG H 64 -27.689 -7.272 -28.340 1.00 52.80 N +ATOM 3253 CA ARG H 64 -26.260 -7.071 -28.561 1.00 53.72 C +ATOM 3254 C ARG H 64 -25.455 -8.195 -27.885 1.00 53.70 C +ATOM 3255 O ARG H 64 -25.914 -8.800 -26.915 1.00 53.83 O +ATOM 3256 CB ARG H 64 -25.860 -5.690 -28.031 1.00 53.91 C +ATOM 3257 CG ARG H 64 -25.191 -4.782 -29.058 1.00 55.75 C +ATOM 3258 CD ARG H 64 -25.504 -3.304 -28.775 1.00 58.41 C +ATOM 3259 NE ARG H 64 -26.608 -2.784 -29.588 1.00 59.81 N +ATOM 3260 CZ ARG H 64 -27.199 -1.601 -29.405 1.00 60.85 C +ATOM 3261 NH1 ARG H 64 -26.812 -0.789 -28.422 1.00 60.98 N +ATOM 3262 NH2 ARG H 64 -28.195 -1.228 -30.204 1.00 61.33 N +ATOM 3263 N THR H 65 -24.268 -8.490 -28.399 1.00 53.89 N +ATOM 3264 CA THR H 65 -23.502 -9.627 -27.882 1.00 54.20 C +ATOM 3265 C THR H 65 -22.002 -9.421 -27.899 1.00 54.21 C +ATOM 3266 O THR H 65 -21.454 -8.895 -28.874 1.00 54.44 O +ATOM 3267 CB THR H 65 -23.768 -10.886 -28.700 1.00 54.28 C +ATOM 3268 OG1 THR H 65 -23.947 -10.517 -30.075 1.00 54.53 O +ATOM 3269 CG2 THR H 65 -24.998 -11.614 -28.180 1.00 54.28 C +ATOM 3270 N ASN H 66 -21.344 -9.864 -26.826 1.00 54.06 N +ATOM 3271 CA ASN H 66 -19.881 -9.804 -26.720 1.00 53.93 C +ATOM 3272 C ASN H 66 -19.240 -11.139 -26.339 1.00 53.88 C +ATOM 3273 O ASN H 66 -19.376 -11.588 -25.202 1.00 53.95 O +ATOM 3274 CB ASN H 66 -19.445 -8.692 -25.760 1.00 53.67 C +ATOM 3275 CG ASN H 66 -19.713 -7.315 -26.317 1.00 53.59 C +ATOM 3276 OD1 ASN H 66 -18.789 -6.586 -26.667 1.00 53.77 O +ATOM 3277 ND2 ASN H 66 -20.986 -6.959 -26.427 1.00 53.77 N +ATOM 3278 N TYR H 67 -18.552 -11.761 -27.298 1.00 53.79 N +ATOM 3279 CA TYR H 67 -17.882 -13.041 -27.074 1.00 53.81 C +ATOM 3280 C TYR H 67 -16.404 -12.830 -26.794 1.00 53.93 C +ATOM 3281 O TYR H 67 -15.823 -11.805 -27.152 1.00 53.78 O +ATOM 3282 CB TYR H 67 -18.031 -13.982 -28.273 1.00 53.71 C +ATOM 3283 CG TYR H 67 -19.454 -14.237 -28.736 1.00 54.02 C +ATOM 3284 CD1 TYR H 67 -20.235 -13.206 -29.269 1.00 54.33 C +ATOM 3285 CD2 TYR H 67 -20.011 -15.515 -28.680 1.00 53.84 C +ATOM 3286 CE1 TYR H 67 -21.529 -13.438 -29.705 1.00 54.10 C +ATOM 3287 CE2 TYR H 67 -21.309 -15.756 -29.120 1.00 53.29 C +ATOM 3288 CZ TYR H 67 -22.058 -14.710 -29.628 1.00 53.69 C +ATOM 3289 OH TYR H 67 -23.338 -14.919 -30.066 1.00 53.76 O +ATOM 3290 N ASN H 68 -15.813 -13.815 -26.130 1.00 54.28 N +ATOM 3291 CA ASN H 68 -14.388 -13.861 -25.917 1.00 54.71 C +ATOM 3292 C ASN H 68 -13.791 -14.476 -27.149 1.00 54.64 C +ATOM 3293 O ASN H 68 -14.388 -15.374 -27.731 1.00 54.88 O +ATOM 3294 CB ASN H 68 -14.063 -14.733 -24.709 1.00 55.04 C +ATOM 3295 CG ASN H 68 -12.723 -14.384 -24.082 1.00 56.50 C +ATOM 3296 OD1 ASN H 68 -11.709 -14.245 -24.783 1.00 58.95 O +ATOM 3297 ND2 ASN H 68 -12.711 -14.234 -22.754 1.00 56.48 N +ATOM 3298 N GLU H 69 -12.620 -13.991 -27.545 1.00 54.65 N +ATOM 3299 CA GLU H 69 -11.936 -14.469 -28.749 1.00 54.62 C +ATOM 3300 C GLU H 69 -12.256 -15.928 -29.101 1.00 54.24 C +ATOM 3301 O GLU H 69 -12.991 -16.191 -30.059 1.00 54.06 O +ATOM 3302 CB GLU H 69 -10.416 -14.266 -28.621 1.00 54.97 C +ATOM 3303 CG GLU H 69 -9.933 -12.836 -28.886 1.00 55.82 C +ATOM 3304 CD GLU H 69 -10.082 -12.411 -30.345 1.00 57.05 C +ATOM 3305 OE1 GLU H 69 -10.282 -13.288 -31.207 1.00 57.66 O +ATOM 3306 OE2 GLU H 69 -9.996 -11.198 -30.636 1.00 58.03 O +ATOM 3307 N LYS H 70 -11.728 -16.858 -28.299 1.00 53.79 N +ATOM 3308 CA LYS H 70 -11.835 -18.306 -28.545 1.00 53.18 C +ATOM 3309 C LYS H 70 -13.223 -18.807 -28.973 1.00 52.77 C +ATOM 3310 O LYS H 70 -13.320 -19.696 -29.812 1.00 52.82 O +ATOM 3311 CB LYS H 70 -11.334 -19.101 -27.326 1.00 52.83 C +ATOM 3312 N PHE H 71 -14.286 -18.222 -28.426 1.00 52.48 N +ATOM 3313 CA PHE H 71 -15.624 -18.816 -28.536 1.00 52.38 C +ATOM 3314 C PHE H 71 -16.521 -18.327 -29.674 1.00 52.54 C +ATOM 3315 O PHE H 71 -17.555 -18.946 -29.943 1.00 52.52 O +ATOM 3316 CB PHE H 71 -16.360 -18.748 -27.194 1.00 51.99 C +ATOM 3317 CG PHE H 71 -15.642 -19.452 -26.092 1.00 51.58 C +ATOM 3318 CD1 PHE H 71 -15.814 -20.817 -25.897 1.00 50.84 C +ATOM 3319 CD2 PHE H 71 -14.764 -18.754 -25.254 1.00 51.69 C +ATOM 3320 CE1 PHE H 71 -15.122 -21.486 -24.868 1.00 51.38 C +ATOM 3321 CE2 PHE H 71 -14.067 -19.410 -24.218 1.00 51.26 C +ATOM 3322 CZ PHE H 71 -14.247 -20.776 -24.024 1.00 51.12 C +ATOM 3323 N LYS H 72 -16.130 -17.245 -30.347 1.00 52.79 N +ATOM 3324 CA LYS H 72 -16.916 -16.720 -31.475 1.00 53.02 C +ATOM 3325 C LYS H 72 -17.415 -17.858 -32.376 1.00 53.11 C +ATOM 3326 O LYS H 72 -18.620 -17.958 -32.645 1.00 53.15 O +ATOM 3327 CB LYS H 72 -16.130 -15.673 -32.280 1.00 52.88 C +ATOM 3328 N SER H 74 -16.496 -18.732 -32.799 1.00 53.14 N +ATOM 3329 CA SER H 74 -16.847 -19.865 -33.666 1.00 53.32 C +ATOM 3330 C SER H 74 -17.751 -20.913 -32.973 1.00 53.34 C +ATOM 3331 O SER H 74 -18.866 -21.182 -33.456 1.00 53.56 O +ATOM 3332 CB SER H 74 -15.592 -20.516 -34.264 1.00 53.25 C +ATOM 3333 OG SER H 74 -15.028 -21.470 -33.376 1.00 53.46 O +ATOM 3334 N LYS H 75 -17.280 -21.480 -31.853 1.00 52.88 N +ATOM 3335 CA LYS H 75 -18.016 -22.522 -31.122 1.00 52.50 C +ATOM 3336 C LYS H 75 -19.421 -22.056 -30.695 1.00 52.48 C +ATOM 3337 O LYS H 75 -20.438 -22.431 -31.307 1.00 52.61 O +ATOM 3338 CB LYS H 75 -17.213 -23.002 -29.907 1.00 52.06 C +ATOM 3339 N ALA H 76 -19.461 -21.203 -29.671 1.00 52.10 N +ATOM 3340 CA ALA H 76 -20.709 -20.802 -29.011 1.00 51.45 C +ATOM 3341 C ALA H 76 -21.532 -19.787 -29.790 1.00 50.95 C +ATOM 3342 O ALA H 76 -20.978 -18.984 -30.542 1.00 51.00 O +ATOM 3343 CB ALA H 76 -20.401 -20.258 -27.621 1.00 51.49 C +ATOM 3344 N THR H 77 -22.850 -19.836 -29.597 1.00 50.35 N +ATOM 3345 CA THR H 77 -23.772 -18.774 -30.042 1.00 49.95 C +ATOM 3346 C THR H 77 -24.843 -18.508 -28.976 1.00 49.71 C +ATOM 3347 O THR H 77 -25.480 -19.437 -28.488 1.00 49.62 O +ATOM 3348 CB THR H 77 -24.417 -19.078 -31.421 1.00 49.80 C +ATOM 3349 OG1 THR H 77 -24.145 -20.436 -31.786 1.00 50.01 O +ATOM 3350 CG2 THR H 77 -23.849 -18.158 -32.500 1.00 49.43 C +ATOM 3351 N MET H 78 -25.016 -17.238 -28.612 1.00 49.56 N +ATOM 3352 CA MET H 78 -25.885 -16.833 -27.507 1.00 49.59 C +ATOM 3353 C MET H 78 -27.219 -16.304 -28.011 1.00 50.01 C +ATOM 3354 O MET H 78 -27.247 -15.439 -28.881 1.00 50.35 O +ATOM 3355 CB MET H 78 -25.202 -15.755 -26.660 1.00 49.55 C +ATOM 3356 CG MET H 78 -23.936 -16.217 -25.935 1.00 49.44 C +ATOM 3357 SD MET H 78 -23.167 -14.942 -24.900 1.00 49.18 S +ATOM 3358 CE MET H 78 -22.283 -13.980 -26.122 1.00 49.48 C +ATOM 3359 N THR H 79 -28.320 -16.825 -27.463 1.00 50.43 N +ATOM 3360 CA THR H 79 -29.694 -16.413 -27.828 1.00 50.43 C +ATOM 3361 C THR H 79 -30.607 -16.375 -26.601 1.00 50.81 C +ATOM 3362 O THR H 79 -30.267 -16.886 -25.532 1.00 50.86 O +ATOM 3363 CB THR H 79 -30.343 -17.334 -28.899 1.00 50.27 C +ATOM 3364 OG1 THR H 79 -30.507 -18.665 -28.382 1.00 50.22 O +ATOM 3365 CG2 THR H 79 -29.509 -17.387 -30.154 1.00 50.11 C +ATOM 3366 N VAL H 80 -31.779 -15.781 -26.777 1.00 51.30 N +ATOM 3367 CA VAL H 80 -32.685 -15.474 -25.678 1.00 51.80 C +ATOM 3368 C VAL H 80 -34.139 -15.585 -26.147 1.00 51.94 C +ATOM 3369 O VAL H 80 -34.437 -15.417 -27.329 1.00 52.17 O +ATOM 3370 CB VAL H 80 -32.383 -14.044 -25.133 1.00 51.93 C +ATOM 3371 CG1 VAL H 80 -33.619 -13.380 -24.518 1.00 52.67 C +ATOM 3372 CG2 VAL H 80 -31.242 -14.081 -24.135 1.00 51.86 C +ATOM 3373 N ASP H 81 -35.041 -15.881 -25.222 1.00 52.09 N +ATOM 3374 CA ASP H 81 -36.459 -15.898 -25.525 1.00 52.32 C +ATOM 3375 C ASP H 81 -37.180 -15.169 -24.388 1.00 52.06 C +ATOM 3376 O ASP H 81 -37.662 -15.777 -23.418 1.00 51.79 O +ATOM 3377 CB ASP H 81 -36.930 -17.345 -25.759 1.00 52.71 C +ATOM 3378 CG ASP H 81 -38.448 -17.518 -25.659 1.00 54.85 C +ATOM 3379 OD1 ASP H 81 -39.215 -16.564 -25.942 1.00 57.28 O +ATOM 3380 OD2 ASP H 81 -38.881 -18.637 -25.294 1.00 56.79 O +ATOM 3381 N THR H 82 -37.215 -13.844 -24.527 1.00 51.96 N +ATOM 3382 CA THR H 82 -37.804 -12.920 -23.548 1.00 52.04 C +ATOM 3383 C THR H 82 -39.236 -13.241 -23.126 1.00 52.28 C +ATOM 3384 O THR H 82 -39.616 -12.998 -21.976 1.00 52.09 O +ATOM 3385 CB THR H 82 -37.780 -11.492 -24.081 1.00 51.86 C +ATOM 3386 OG1 THR H 82 -37.804 -11.525 -25.511 1.00 51.92 O +ATOM 3387 CG2 THR H 82 -36.518 -10.798 -23.642 1.00 52.31 C +ATOM 3388 N SER H 83 -40.015 -13.778 -24.072 1.00 52.78 N +ATOM 3389 CA SER H 83 -41.376 -14.290 -23.838 1.00 52.93 C +ATOM 3390 C SER H 83 -41.457 -15.244 -22.642 1.00 53.09 C +ATOM 3391 O SER H 83 -42.463 -15.267 -21.922 1.00 52.93 O +ATOM 3392 CB SER H 83 -41.896 -14.999 -25.090 1.00 52.66 C +ATOM 3393 N THR H 84 -40.391 -16.015 -22.429 1.00 53.26 N +ATOM 3394 CA THR H 84 -40.365 -16.994 -21.345 1.00 53.44 C +ATOM 3395 C THR H 84 -39.115 -16.925 -20.454 1.00 53.42 C +ATOM 3396 O THR H 84 -38.690 -17.939 -19.883 1.00 53.47 O +ATOM 3397 CB THR H 84 -40.545 -18.415 -21.885 1.00 53.48 C +ATOM 3398 OG1 THR H 84 -39.507 -18.691 -22.833 1.00 53.16 O +ATOM 3399 CG2 THR H 84 -41.920 -18.559 -22.550 1.00 53.77 C +ATOM 3400 N ASN H 85 -38.558 -15.718 -20.326 1.00 53.28 N +ATOM 3401 CA ASN H 85 -37.429 -15.436 -19.427 1.00 53.07 C +ATOM 3402 C ASN H 85 -36.421 -16.566 -19.388 1.00 52.66 C +ATOM 3403 O ASN H 85 -36.245 -17.223 -18.364 1.00 52.96 O +ATOM 3404 CB ASN H 85 -37.928 -15.106 -18.019 1.00 53.18 C +ATOM 3405 CG ASN H 85 -38.673 -13.778 -17.959 1.00 54.32 C +ATOM 3406 OD1 ASN H 85 -39.547 -13.489 -18.790 1.00 55.55 O +ATOM 3407 ND2 ASN H 85 -38.333 -12.961 -16.968 1.00 54.84 N +ATOM 3408 N THR H 86 -35.785 -16.803 -20.528 1.00 52.03 N +ATOM 3409 CA THR H 86 -34.853 -17.905 -20.670 1.00 51.61 C +ATOM 3410 C THR H 86 -33.782 -17.574 -21.712 1.00 51.48 C +ATOM 3411 O THR H 86 -34.096 -17.091 -22.809 1.00 51.55 O +ATOM 3412 CB THR H 86 -35.574 -19.239 -20.994 1.00 51.48 C +ATOM 3413 OG1 THR H 86 -34.639 -20.179 -21.531 1.00 51.47 O +ATOM 3414 CG2 THR H 86 -36.662 -19.027 -22.012 1.00 52.01 C +ATOM 3415 N ALA H 87 -32.521 -17.816 -21.337 1.00 51.02 N +ATOM 3416 CA ALA H 87 -31.364 -17.573 -22.198 1.00 50.29 C +ATOM 3417 C ALA H 87 -30.689 -18.882 -22.562 1.00 49.96 C +ATOM 3418 O ALA H 87 -30.604 -19.802 -21.750 1.00 49.77 O +ATOM 3419 CB ALA H 87 -30.382 -16.645 -21.523 1.00 50.25 C +ATOM 3420 N TYR H 88 -30.207 -18.950 -23.796 1.00 49.81 N +ATOM 3421 CA TYR H 88 -29.646 -20.171 -24.351 1.00 49.49 C +ATOM 3422 C TYR H 88 -28.200 -19.935 -24.743 1.00 49.17 C +ATOM 3423 O TYR H 88 -27.769 -18.788 -24.873 1.00 49.08 O +ATOM 3424 CB TYR H 88 -30.464 -20.620 -25.565 1.00 49.58 C +ATOM 3425 CG TYR H 88 -31.935 -20.885 -25.273 1.00 49.82 C +ATOM 3426 CD1 TYR H 88 -32.864 -19.836 -25.234 1.00 49.89 C +ATOM 3427 CD2 TYR H 88 -32.402 -22.185 -25.047 1.00 49.75 C +ATOM 3428 CE1 TYR H 88 -34.219 -20.071 -24.970 1.00 49.98 C +ATOM 3429 CE2 TYR H 88 -33.761 -22.434 -24.785 1.00 50.18 C +ATOM 3430 CZ TYR H 88 -34.666 -21.370 -24.751 1.00 50.26 C +ATOM 3431 OH TYR H 88 -36.011 -21.601 -24.501 1.00 49.84 O +ATOM 3432 N MET H 89 -27.456 -21.026 -24.905 1.00 48.96 N +ATOM 3433 CA MET H 89 -26.055 -20.986 -25.301 1.00 48.98 C +ATOM 3434 C MET H 89 -25.760 -22.268 -26.055 1.00 49.08 C +ATOM 3435 O MET H 89 -25.712 -23.346 -25.463 1.00 48.83 O +ATOM 3436 CB MET H 89 -25.161 -20.863 -24.065 1.00 49.11 C +ATOM 3437 CG MET H 89 -23.729 -20.404 -24.305 1.00 48.92 C +ATOM 3438 SD MET H 89 -22.591 -21.753 -24.700 1.00 50.72 S +ATOM 3439 CE MET H 89 -22.738 -22.825 -23.266 1.00 49.67 C +ATOM 3440 N GLU H 90 -25.588 -22.149 -27.368 1.00 49.44 N +ATOM 3441 CA GLU H 90 -25.437 -23.317 -28.225 1.00 49.94 C +ATOM 3442 C GLU H 90 -24.000 -23.498 -28.704 1.00 50.09 C +ATOM 3443 O GLU H 90 -23.374 -22.555 -29.207 1.00 50.27 O +ATOM 3444 CB GLU H 90 -26.409 -23.266 -29.411 1.00 49.81 C +ATOM 3445 CG GLU H 90 -26.410 -24.550 -30.248 1.00 50.37 C +ATOM 3446 CD GLU H 90 -27.429 -24.556 -31.388 1.00 50.50 C +ATOM 3447 OE1 GLU H 90 -27.832 -23.468 -31.862 1.00 51.05 O +ATOM 3448 OE2 GLU H 90 -27.818 -25.668 -31.819 1.00 50.66 O +ATOM 3449 N LEU H 91 -23.499 -24.724 -28.555 1.00 50.22 N +ATOM 3450 CA LEU H 91 -22.121 -25.053 -28.885 1.00 50.36 C +ATOM 3451 C LEU H 91 -22.003 -25.872 -30.165 1.00 50.61 C +ATOM 3452 O LEU H 91 -22.642 -26.920 -30.298 1.00 50.64 O +ATOM 3453 CB LEU H 91 -21.451 -25.777 -27.714 1.00 50.31 C +ATOM 3454 CG LEU H 91 -21.035 -24.913 -26.513 1.00 50.38 C +ATOM 3455 CD1 LEU H 91 -20.657 -25.773 -25.317 1.00 49.89 C +ATOM 3456 CD2 LEU H 91 -19.882 -23.996 -26.877 1.00 50.60 C +ATOM 3457 N SER H 92 -21.173 -25.365 -31.086 1.00 50.91 N +ATOM 3458 CA SER H 92 -20.888 -25.963 -32.403 1.00 51.09 C +ATOM 3459 C SER H 92 -19.830 -27.060 -32.330 1.00 51.31 C +ATOM 3460 O SER H 92 -19.307 -27.350 -31.247 1.00 51.42 O +ATOM 3461 CB SER H 92 -20.382 -24.878 -33.360 1.00 50.89 C +ATOM 3462 N SER H 93 -19.523 -27.657 -33.489 1.00 51.47 N +ATOM 3463 CA SER H 93 -18.381 -28.578 -33.666 1.00 51.49 C +ATOM 3464 C SER H 93 -17.791 -29.073 -32.337 1.00 51.57 C +ATOM 3465 O SER H 93 -16.679 -28.683 -31.956 1.00 51.61 O +ATOM 3466 CB SER H 93 -17.294 -27.909 -34.519 1.00 51.22 C +ATOM 3467 N LEU H 94 -18.552 -29.927 -31.645 1.00 51.63 N +ATOM 3468 CA LEU H 94 -18.250 -30.344 -30.272 1.00 51.55 C +ATOM 3469 C LEU H 94 -16.988 -31.190 -30.194 1.00 51.95 C +ATOM 3470 O LEU H 94 -16.806 -32.136 -30.960 1.00 52.26 O +ATOM 3471 CB LEU H 94 -19.438 -31.091 -29.669 1.00 51.18 C +ATOM 3472 CG LEU H 94 -19.961 -30.612 -28.314 1.00 50.49 C +ATOM 3473 CD1 LEU H 94 -20.179 -29.122 -28.300 1.00 50.69 C +ATOM 3474 CD2 LEU H 94 -21.252 -31.297 -27.977 1.00 49.36 C +ATOM 3475 N ARG H 95 -16.111 -30.830 -29.271 1.00 52.13 N +ATOM 3476 CA ARG H 95 -14.813 -31.465 -29.176 1.00 52.68 C +ATOM 3477 C ARG H 95 -14.603 -32.022 -27.772 1.00 52.66 C +ATOM 3478 O ARG H 95 -15.181 -31.512 -26.807 1.00 52.93 O +ATOM 3479 CB ARG H 95 -13.728 -30.447 -29.521 1.00 52.59 C +ATOM 3480 CG ARG H 95 -12.303 -30.989 -29.469 1.00 53.63 C +ATOM 3481 CD ARG H 95 -11.293 -29.942 -29.911 1.00 53.65 C +ATOM 3482 NE ARG H 95 -11.140 -28.882 -28.917 1.00 55.38 N +ATOM 3483 CZ ARG H 95 -10.728 -27.649 -29.195 1.00 55.65 C +ATOM 3484 NH1 ARG H 95 -10.432 -27.311 -30.444 1.00 56.10 N +ATOM 3485 NH2 ARG H 95 -10.620 -26.749 -28.225 1.00 55.78 N +ATOM 3486 N SER H 96 -13.786 -33.072 -27.665 1.00 52.43 N +ATOM 3487 CA SER H 96 -13.347 -33.613 -26.376 1.00 52.15 C +ATOM 3488 C SER H 96 -12.909 -32.545 -25.355 1.00 51.97 C +ATOM 3489 O SER H 96 -12.793 -32.832 -24.162 1.00 52.02 O +ATOM 3490 CB SER H 96 -12.213 -34.623 -26.601 1.00 52.37 C +ATOM 3491 OG SER H 96 -11.192 -34.510 -25.609 1.00 52.42 O +ATOM 3492 N GLU H 97 -12.663 -31.323 -25.826 1.00 51.63 N +ATOM 3493 CA GLU H 97 -12.176 -30.243 -24.967 1.00 51.22 C +ATOM 3494 C GLU H 97 -13.307 -29.335 -24.440 1.00 50.78 C +ATOM 3495 O GLU H 97 -13.069 -28.399 -23.665 1.00 50.72 O +ATOM 3496 CB GLU H 97 -11.091 -29.439 -25.699 1.00 51.22 C +ATOM 3497 N ASP H 98 -14.536 -29.631 -24.849 1.00 50.19 N +ATOM 3498 CA ASP H 98 -15.701 -28.832 -24.457 1.00 49.75 C +ATOM 3499 C ASP H 98 -16.390 -29.388 -23.208 1.00 49.25 C +ATOM 3500 O ASP H 98 -17.396 -28.834 -22.729 1.00 48.93 O +ATOM 3501 CB ASP H 98 -16.700 -28.756 -25.613 1.00 49.94 C +ATOM 3502 CG ASP H 98 -16.051 -28.332 -26.917 1.00 50.32 C +ATOM 3503 OD1 ASP H 98 -14.828 -28.067 -26.920 1.00 50.28 O +ATOM 3504 OD2 ASP H 98 -16.767 -28.268 -27.941 1.00 51.50 O +ATOM 3505 N THR H 99 -15.844 -30.489 -22.692 1.00 48.50 N +ATOM 3506 CA THR H 99 -16.368 -31.098 -21.487 1.00 47.67 C +ATOM 3507 C THR H 99 -16.106 -30.153 -20.345 1.00 47.03 C +ATOM 3508 O THR H 99 -14.954 -29.929 -19.959 1.00 47.04 O +ATOM 3509 CB THR H 99 -15.710 -32.435 -21.179 1.00 47.76 C +ATOM 3510 OG1 THR H 99 -15.827 -33.294 -22.317 1.00 48.05 O +ATOM 3511 CG2 THR H 99 -16.384 -33.090 -19.971 1.00 47.93 C +ATOM 3512 N ALA H 100 -17.186 -29.579 -19.830 1.00 46.08 N +ATOM 3513 CA ALA H 100 -17.097 -28.678 -18.702 1.00 45.18 C +ATOM 3514 C ALA H 100 -18.478 -28.274 -18.203 1.00 44.63 C +ATOM 3515 O ALA H 100 -19.502 -28.552 -18.848 1.00 44.24 O +ATOM 3516 CB ALA H 100 -16.299 -27.456 -19.082 1.00 45.15 C +ATOM 3517 N VAL H 101 -18.477 -27.623 -17.039 1.00 43.87 N +ATOM 3518 CA VAL H 101 -19.674 -27.065 -16.441 1.00 42.99 C +ATOM 3519 C VAL H 101 -19.914 -25.722 -17.096 1.00 42.57 C +ATOM 3520 O VAL H 101 -19.045 -24.845 -17.094 1.00 42.15 O +ATOM 3521 CB VAL H 101 -19.524 -26.877 -14.921 1.00 42.80 C +ATOM 3522 CG1 VAL H 101 -20.854 -26.584 -14.300 1.00 42.60 C +ATOM 3523 CG2 VAL H 101 -18.941 -28.122 -14.289 1.00 43.37 C +ATOM 3524 N TYR H 102 -21.095 -25.579 -17.681 1.00 42.36 N +ATOM 3525 CA TYR H 102 -21.493 -24.312 -18.260 1.00 42.19 C +ATOM 3526 C TYR H 102 -22.447 -23.557 -17.341 1.00 41.94 C +ATOM 3527 O TYR H 102 -23.542 -24.021 -17.040 1.00 41.90 O +ATOM 3528 CB TYR H 102 -22.055 -24.519 -19.656 1.00 42.24 C +ATOM 3529 CG TYR H 102 -20.970 -24.896 -20.618 1.00 42.69 C +ATOM 3530 CD1 TYR H 102 -20.654 -26.229 -20.856 1.00 43.42 C +ATOM 3531 CD2 TYR H 102 -20.218 -23.917 -21.260 1.00 43.38 C +ATOM 3532 CE1 TYR H 102 -19.627 -26.580 -21.744 1.00 43.70 C +ATOM 3533 CE2 TYR H 102 -19.198 -24.254 -22.148 1.00 43.17 C +ATOM 3534 CZ TYR H 102 -18.906 -25.582 -22.383 1.00 43.05 C +ATOM 3535 OH TYR H 102 -17.896 -25.908 -23.256 1.00 43.05 O +ATOM 3536 N TYR H 103 -21.979 -22.408 -16.864 1.00 41.58 N +ATOM 3537 CA TYR H 103 -22.721 -21.592 -15.930 1.00 41.30 C +ATOM 3538 C TYR H 103 -23.294 -20.455 -16.726 1.00 41.08 C +ATOM 3539 O TYR H 103 -22.662 -19.975 -17.652 1.00 40.92 O +ATOM 3540 CB TYR H 103 -21.794 -21.002 -14.851 1.00 41.38 C +ATOM 3541 CG TYR H 103 -21.240 -21.964 -13.798 1.00 41.22 C +ATOM 3542 CD1 TYR H 103 -19.897 -22.340 -13.820 1.00 41.21 C +ATOM 3543 CD2 TYR H 103 -22.044 -22.463 -12.764 1.00 40.54 C +ATOM 3544 CE1 TYR H 103 -19.369 -23.204 -12.865 1.00 40.83 C +ATOM 3545 CE2 TYR H 103 -21.524 -23.327 -11.804 1.00 40.28 C +ATOM 3546 CZ TYR H 103 -20.181 -23.687 -11.865 1.00 41.03 C +ATOM 3547 OH TYR H 103 -19.632 -24.529 -10.932 1.00 41.79 O +ATOM 3548 N CYS H 104 -24.494 -20.026 -16.380 1.00 41.14 N +ATOM 3549 CA CYS H 104 -24.965 -18.739 -16.841 1.00 41.60 C +ATOM 3550 C CYS H 104 -25.029 -17.853 -15.614 1.00 41.72 C +ATOM 3551 O CYS H 104 -25.116 -18.359 -14.496 1.00 41.72 O +ATOM 3552 CB CYS H 104 -26.328 -18.851 -17.502 1.00 41.66 C +ATOM 3553 SG CYS H 104 -27.592 -19.367 -16.363 1.00 42.99 S +ATOM 3554 N ALA H 105 -24.973 -16.540 -15.818 1.00 41.99 N +ATOM 3555 CA ALA H 105 -24.865 -15.591 -14.713 1.00 42.31 C +ATOM 3556 C ALA H 105 -25.293 -14.203 -15.151 1.00 42.68 C +ATOM 3557 O ALA H 105 -24.797 -13.691 -16.154 1.00 42.89 O +ATOM 3558 CB ALA H 105 -23.441 -15.561 -14.174 1.00 42.04 C +ATOM 3559 N SER H 106 -26.215 -13.600 -14.405 1.00 43.10 N +ATOM 3560 CA SER H 106 -26.739 -12.289 -14.761 1.00 43.78 C +ATOM 3561 C SER H 106 -25.883 -11.217 -14.111 1.00 44.09 C +ATOM 3562 O SER H 106 -26.002 -10.968 -12.915 1.00 44.52 O +ATOM 3563 CB SER H 106 -28.205 -12.161 -14.345 1.00 43.85 C +ATOM 3564 OG SER H 106 -28.344 -12.260 -12.937 1.00 44.45 O +ATOM 3565 N ARG H 107 -25.005 -10.600 -14.898 1.00 44.45 N +ATOM 3566 CA ARG H 107 -23.975 -9.710 -14.354 1.00 44.74 C +ATOM 3567 C ARG H 107 -23.983 -8.394 -15.101 1.00 45.30 C +ATOM 3568 O ARG H 107 -24.091 -8.364 -16.323 1.00 45.22 O +ATOM 3569 CB ARG H 107 -22.602 -10.375 -14.387 1.00 44.49 C +ATOM 3570 CG ARG H 107 -22.648 -11.841 -14.005 1.00 43.43 C +ATOM 3571 CD ARG H 107 -21.285 -12.427 -13.875 1.00 42.24 C +ATOM 3572 NE ARG H 107 -20.543 -12.379 -15.125 1.00 41.89 N +ATOM 3573 CZ ARG H 107 -19.225 -12.510 -15.197 1.00 42.22 C +ATOM 3574 NH1 ARG H 107 -18.521 -12.688 -14.086 1.00 42.94 N +ATOM 3575 NH2 ARG H 107 -18.608 -12.459 -16.370 1.00 41.43 N +ATOM 3576 N ASP H 108 -23.860 -7.307 -14.349 1.00 46.12 N +ATOM 3577 CA ASP H 108 -24.504 -6.064 -14.734 1.00 46.92 C +ATOM 3578 C ASP H 108 -24.191 -5.002 -13.725 1.00 47.41 C +ATOM 3579 O ASP H 108 -23.710 -5.297 -12.628 1.00 47.46 O +ATOM 3580 CB ASP H 108 -26.016 -6.273 -14.649 1.00 47.11 C +ATOM 3581 CG ASP H 108 -26.756 -5.722 -15.833 1.00 47.50 C +ATOM 3582 OD1 ASP H 108 -26.331 -5.962 -16.983 1.00 48.36 O +ATOM 3583 OD2 ASP H 108 -27.798 -5.082 -15.609 1.00 47.28 O +ATOM 3584 N TYR H 109 -24.520 -3.767 -14.081 1.00 48.07 N +ATOM 3585 CA TYR H 109 -24.451 -2.651 -13.150 1.00 48.60 C +ATOM 3586 C TYR H 109 -25.842 -2.098 -12.928 1.00 49.06 C +ATOM 3587 O TYR H 109 -26.544 -1.824 -13.896 1.00 49.25 O +ATOM 3588 CB TYR H 109 -23.559 -1.557 -13.717 1.00 48.41 C +ATOM 3589 CG TYR H 109 -22.104 -1.740 -13.412 1.00 47.80 C +ATOM 3590 CD1 TYR H 109 -21.589 -1.376 -12.175 1.00 47.96 C +ATOM 3591 CD2 TYR H 109 -21.240 -2.266 -14.360 1.00 47.26 C +ATOM 3592 CE1 TYR H 109 -20.238 -1.528 -11.886 1.00 48.40 C +ATOM 3593 CE2 TYR H 109 -19.891 -2.431 -14.084 1.00 47.96 C +ATOM 3594 CZ TYR H 109 -19.392 -2.058 -12.844 1.00 48.27 C +ATOM 3595 OH TYR H 109 -18.052 -2.213 -12.559 1.00 47.92 O +ATOM 3596 N ASP H 110 -26.237 -1.940 -11.665 1.00 49.66 N +ATOM 3597 CA ASP H 110 -27.521 -1.316 -11.310 1.00 50.36 C +ATOM 3598 C ASP H 110 -27.570 0.157 -11.688 1.00 50.58 C +ATOM 3599 O ASP H 110 -26.539 0.832 -11.727 1.00 50.66 O +ATOM 3600 CB ASP H 110 -27.813 -1.460 -9.813 1.00 50.44 C +ATOM 3601 CG ASP H 110 -28.311 -2.858 -9.442 1.00 52.09 C +ATOM 3602 OD1 ASP H 110 -28.638 -3.660 -10.355 1.00 52.71 O +ATOM 3603 OD2 ASP H 110 -28.380 -3.157 -8.224 1.00 54.08 O +ATOM 3604 N TYR H 111 -28.779 0.639 -11.980 1.00 50.92 N +ATOM 3605 CA TYR H 111 -29.040 2.062 -12.202 1.00 50.98 C +ATOM 3606 C TYR H 111 -28.491 2.847 -11.000 1.00 50.46 C +ATOM 3607 O TYR H 111 -27.957 3.955 -11.157 1.00 50.25 O +ATOM 3608 CB TYR H 111 -30.549 2.265 -12.367 1.00 51.76 C +ATOM 3609 CG TYR H 111 -30.991 3.642 -12.826 1.00 53.25 C +ATOM 3610 CD1 TYR H 111 -31.730 3.800 -14.010 1.00 54.47 C +ATOM 3611 CD2 TYR H 111 -30.698 4.788 -12.066 1.00 54.29 C +ATOM 3612 CE1 TYR H 111 -32.150 5.071 -14.432 1.00 54.71 C +ATOM 3613 CE2 TYR H 111 -31.110 6.058 -12.472 1.00 54.35 C +ATOM 3614 CZ TYR H 111 -31.834 6.194 -13.652 1.00 54.40 C +ATOM 3615 OH TYR H 111 -32.234 7.455 -14.039 1.00 54.23 O +ATOM 3616 N ALA H 112A -28.617 2.229 -9.814 1.00 49.79 N +ATOM 3617 CA ALA H 112A -28.014 2.676 -8.542 1.00 48.78 C +ATOM 3618 C ALA H 112A -26.476 2.804 -8.578 1.00 47.97 C +ATOM 3619 O ALA H 112A -25.879 3.400 -7.680 1.00 48.00 O +ATOM 3620 CB ALA H 112A -28.443 1.737 -7.393 1.00 48.53 C +ATOM 3621 N GLY H 112 -25.843 2.243 -9.606 1.00 46.80 N +ATOM 3622 CA GLY H 112 -24.393 2.262 -9.721 1.00 45.52 C +ATOM 3623 C GLY H 112 -23.750 1.003 -9.167 1.00 44.75 C +ATOM 3624 O GLY H 112 -22.668 0.617 -9.607 1.00 44.74 O +ATOM 3625 N ARG H 113 -24.418 0.369 -8.197 1.00 43.92 N +ATOM 3626 CA ARG H 113 -23.946 -0.868 -7.555 1.00 42.93 C +ATOM 3627 C ARG H 113 -23.902 -2.027 -8.564 1.00 42.24 C +ATOM 3628 O ARG H 113 -24.530 -1.952 -9.619 1.00 42.45 O +ATOM 3629 CB ARG H 113 -24.838 -1.218 -6.350 1.00 42.70 C +ATOM 3630 N TYR H 114 -23.150 -3.085 -8.258 1.00 41.24 N +ATOM 3631 CA TYR H 114 -23.041 -4.241 -9.170 1.00 40.00 C +ATOM 3632 C TYR H 114 -24.141 -5.299 -8.949 1.00 38.97 C +ATOM 3633 O TYR H 114 -24.677 -5.427 -7.853 1.00 38.79 O +ATOM 3634 CB TYR H 114 -21.639 -4.859 -9.092 1.00 39.87 C +ATOM 3635 CG TYR H 114 -21.202 -5.573 -10.354 1.00 39.85 C +ATOM 3636 CD1 TYR H 114 -20.984 -4.870 -11.540 1.00 39.71 C +ATOM 3637 CD2 TYR H 114 -20.988 -6.950 -10.362 1.00 39.96 C +ATOM 3638 CE1 TYR H 114 -20.577 -5.523 -12.704 1.00 39.33 C +ATOM 3639 CE2 TYR H 114 -20.582 -7.608 -11.521 1.00 39.60 C +ATOM 3640 CZ TYR H 114 -20.382 -6.886 -12.683 1.00 39.32 C +ATOM 3641 OH TYR H 114 -19.979 -7.531 -13.820 1.00 39.72 O +ATOM 3642 N PHE H 115 -24.474 -6.038 -10.007 1.00 37.86 N +ATOM 3643 CA PHE H 115 -25.540 -7.059 -9.978 1.00 36.80 C +ATOM 3644 C PHE H 115 -25.001 -8.427 -10.449 1.00 36.33 C +ATOM 3645 O PHE H 115 -24.307 -8.513 -11.472 1.00 36.33 O +ATOM 3646 CB PHE H 115 -26.725 -6.601 -10.847 1.00 36.45 C +ATOM 3647 CG PHE H 115 -27.901 -7.509 -10.783 1.00 35.23 C +ATOM 3648 CD1 PHE H 115 -28.824 -7.392 -9.756 1.00 34.17 C +ATOM 3649 CD2 PHE H 115 -28.083 -8.495 -11.740 1.00 34.69 C +ATOM 3650 CE1 PHE H 115 -29.925 -8.250 -9.681 1.00 33.80 C +ATOM 3651 CE2 PHE H 115 -29.178 -9.361 -11.672 1.00 34.80 C +ATOM 3652 CZ PHE H 115 -30.103 -9.232 -10.642 1.00 34.53 C +ATOM 3653 N ASP H 116 -25.315 -9.498 -9.725 1.00 35.48 N +ATOM 3654 CA ASP H 116 -24.517 -10.715 -9.881 1.00 35.07 C +ATOM 3655 C ASP H 116 -25.240 -11.958 -9.371 1.00 34.54 C +ATOM 3656 O ASP H 116 -25.389 -12.137 -8.154 1.00 34.91 O +ATOM 3657 CB ASP H 116 -23.219 -10.516 -9.080 1.00 35.60 C +ATOM 3658 CG ASP H 116 -22.052 -11.307 -9.613 1.00 35.77 C +ATOM 3659 OD1 ASP H 116 -22.128 -12.557 -9.638 1.00 36.63 O +ATOM 3660 OD2 ASP H 116 -21.035 -10.663 -9.954 1.00 34.71 O +ATOM 3661 N TYR H 117 -25.685 -12.819 -10.286 1.00 33.40 N +ATOM 3662 CA TYR H 117 -26.365 -14.065 -9.904 1.00 32.35 C +ATOM 3663 C TYR H 117 -26.060 -15.167 -10.888 1.00 32.15 C +ATOM 3664 O TYR H 117 -25.928 -14.912 -12.075 1.00 32.16 O +ATOM 3665 CB TYR H 117 -27.874 -13.874 -9.811 1.00 31.87 C +ATOM 3666 CG TYR H 117 -28.316 -13.046 -8.638 1.00 30.80 C +ATOM 3667 CD1 TYR H 117 -28.584 -13.627 -7.412 1.00 30.18 C +ATOM 3668 CD2 TYR H 117 -28.473 -11.686 -8.757 1.00 30.63 C +ATOM 3669 CE1 TYR H 117 -28.998 -12.868 -6.337 1.00 29.75 C +ATOM 3670 CE2 TYR H 117 -28.875 -10.922 -7.690 1.00 30.81 C +ATOM 3671 CZ TYR H 117 -29.142 -11.514 -6.487 1.00 30.44 C +ATOM 3672 OH TYR H 117 -29.551 -10.723 -5.438 1.00 31.31 O +ATOM 3673 N TRP H 118 -25.988 -16.396 -10.388 1.00 32.01 N +ATOM 3674 CA TRP H 118 -25.407 -17.515 -11.125 1.00 31.85 C +ATOM 3675 C TRP H 118 -26.291 -18.739 -11.160 1.00 32.01 C +ATOM 3676 O TRP H 118 -27.049 -18.982 -10.245 1.00 31.97 O +ATOM 3677 CB TRP H 118 -24.085 -17.913 -10.477 1.00 31.67 C +ATOM 3678 CG TRP H 118 -22.994 -16.954 -10.716 1.00 30.88 C +ATOM 3679 CD1 TRP H 118 -22.887 -15.706 -10.205 1.00 30.56 C +ATOM 3680 CD2 TRP H 118 -21.833 -17.164 -11.526 1.00 31.33 C +ATOM 3681 NE1 TRP H 118 -21.735 -15.112 -10.644 1.00 31.56 N +ATOM 3682 CE2 TRP H 118 -21.065 -15.987 -11.460 1.00 31.97 C +ATOM 3683 CE3 TRP H 118 -21.368 -18.232 -12.307 1.00 31.20 C +ATOM 3684 CZ2 TRP H 118 -19.849 -15.841 -12.150 1.00 31.60 C +ATOM 3685 CZ3 TRP H 118 -20.164 -18.088 -12.988 1.00 31.13 C +ATOM 3686 CH2 TRP H 118 -19.419 -16.901 -12.902 1.00 30.88 C +ATOM 3687 N GLY H 119 -26.160 -19.528 -12.214 1.00 32.66 N +ATOM 3688 CA GLY H 119 -26.885 -20.790 -12.320 1.00 33.96 C +ATOM 3689 C GLY H 119 -26.206 -21.889 -11.533 1.00 34.65 C +ATOM 3690 O GLY H 119 -25.189 -21.649 -10.891 1.00 34.71 O +ATOM 3691 N GLN H 120 -26.771 -23.093 -11.566 1.00 35.50 N +ATOM 3692 CA GLN H 120 -26.163 -24.214 -10.855 1.00 36.81 C +ATOM 3693 C GLN H 120 -25.169 -24.860 -11.796 1.00 37.07 C +ATOM 3694 O GLN H 120 -24.456 -25.804 -11.420 1.00 37.03 O +ATOM 3695 CB GLN H 120 -27.189 -25.258 -10.393 1.00 37.08 C +ATOM 3696 CG GLN H 120 -28.654 -24.918 -10.636 1.00 40.04 C +ATOM 3697 CD GLN H 120 -29.037 -25.028 -12.109 1.00 43.19 C +ATOM 3698 OE1 GLN H 120 -30.062 -24.489 -12.542 1.00 43.93 O +ATOM 3699 NE2 GLN H 120 -28.204 -25.722 -12.885 1.00 44.06 N +ATOM 3700 N GLY H 121 -25.129 -24.333 -13.023 1.00 37.42 N +ATOM 3701 CA GLY H 121 -24.260 -24.851 -14.075 1.00 37.57 C +ATOM 3702 C GLY H 121 -24.853 -26.091 -14.705 1.00 37.68 C +ATOM 3703 O GLY H 121 -25.594 -26.831 -14.058 1.00 37.73 O +ATOM 3704 N THR H 122 -24.529 -26.315 -15.971 1.00 37.89 N +ATOM 3705 CA THR H 122 -25.013 -27.484 -16.699 1.00 38.06 C +ATOM 3706 C THR H 122 -23.779 -28.228 -17.164 1.00 38.26 C +ATOM 3707 O THR H 122 -22.947 -27.666 -17.875 1.00 38.00 O +ATOM 3708 CB THR H 122 -25.916 -27.084 -17.911 1.00 38.00 C +ATOM 3709 OG1 THR H 122 -27.022 -26.294 -17.459 1.00 37.27 O +ATOM 3710 CG2 THR H 122 -26.450 -28.301 -18.645 1.00 37.58 C +ATOM 3711 N LEU H 123 -23.644 -29.477 -16.734 1.00 38.80 N +ATOM 3712 CA LEU H 123 -22.501 -30.267 -17.152 1.00 39.54 C +ATOM 3713 C LEU H 123 -22.701 -30.788 -18.555 1.00 40.09 C +ATOM 3714 O LEU H 123 -23.750 -31.356 -18.871 1.00 40.40 O +ATOM 3715 CB LEU H 123 -22.239 -31.444 -16.213 1.00 39.56 C +ATOM 3716 CG LEU H 123 -21.019 -32.306 -16.594 1.00 38.99 C +ATOM 3717 CD1 LEU H 123 -19.727 -31.497 -16.716 1.00 38.26 C +ATOM 3718 CD2 LEU H 123 -20.835 -33.377 -15.579 1.00 38.93 C +ATOM 3719 N VAL H 124 -21.687 -30.602 -19.394 1.00 40.50 N +ATOM 3720 CA VAL H 124 -21.686 -31.234 -20.704 1.00 40.84 C +ATOM 3721 C VAL H 124 -20.467 -32.133 -20.866 1.00 41.33 C +ATOM 3722 O VAL H 124 -19.329 -31.672 -20.786 1.00 41.49 O +ATOM 3723 CB VAL H 124 -21.779 -30.215 -21.837 1.00 40.62 C +ATOM 3724 CG1 VAL H 124 -21.657 -30.912 -23.174 1.00 40.49 C +ATOM 3725 CG2 VAL H 124 -23.095 -29.467 -21.750 1.00 40.51 C +ATOM 3726 N THR H 125 -20.726 -33.424 -21.069 1.00 41.93 N +ATOM 3727 CA THR H 125 -19.679 -34.399 -21.319 1.00 42.25 C +ATOM 3728 C THR H 125 -19.627 -34.693 -22.804 1.00 42.65 C +ATOM 3729 O THR H 125 -20.638 -35.073 -23.403 1.00 42.87 O +ATOM 3730 CB THR H 125 -19.944 -35.720 -20.600 1.00 42.07 C +ATOM 3731 OG1 THR H 125 -20.485 -35.460 -19.302 1.00 42.40 O +ATOM 3732 CG2 THR H 125 -18.654 -36.512 -20.472 1.00 42.06 C +ATOM 3733 N VAL H 126 -18.451 -34.493 -23.392 1.00 42.92 N +ATOM 3734 CA VAL H 126 -18.182 -34.918 -24.757 1.00 43.19 C +ATOM 3735 C VAL H 126 -17.441 -36.243 -24.684 1.00 43.43 C +ATOM 3736 O VAL H 126 -16.285 -36.295 -24.234 1.00 43.46 O +ATOM 3737 CB VAL H 126 -17.333 -33.885 -25.539 1.00 43.18 C +ATOM 3738 CG1 VAL H 126 -17.016 -34.392 -26.941 1.00 43.27 C +ATOM 3739 CG2 VAL H 126 -18.040 -32.541 -25.607 1.00 43.29 C +ATOM 3740 N SER H 127 -18.112 -37.316 -25.093 1.00 43.71 N +ATOM 3741 CA SER H 127 -17.453 -38.620 -25.164 1.00 44.27 C +ATOM 3742 C SER H 127 -18.097 -39.558 -26.176 1.00 44.61 C +ATOM 3743 O SER H 127 -19.230 -39.332 -26.632 1.00 44.70 O +ATOM 3744 CB SER H 127 -17.349 -39.287 -23.782 1.00 44.11 C +ATOM 3745 OG SER H 127 -18.329 -40.284 -23.614 1.00 43.77 O +ATOM 3746 N SER H 128 -17.355 -40.609 -26.520 1.00 44.83 N +ATOM 3747 CA SER H 128 -17.793 -41.568 -27.522 1.00 45.16 C +ATOM 3748 C SER H 128 -18.413 -42.788 -26.839 1.00 45.29 C +ATOM 3749 O SER H 128 -17.985 -43.928 -27.064 1.00 45.61 O +ATOM 3750 CB SER H 128 -16.611 -41.947 -28.422 1.00 44.95 C +ATOM 3751 N ALA H 129 -19.409 -42.540 -25.988 1.00 45.25 N +ATOM 3752 CA ALA H 129 -19.952 -43.578 -25.112 1.00 45.54 C +ATOM 3753 C ALA H 129 -21.342 -43.228 -24.663 1.00 45.91 C +ATOM 3754 O ALA H 129 -21.685 -42.050 -24.516 1.00 45.81 O +ATOM 3755 CB ALA H 129 -19.050 -43.823 -23.888 1.00 45.43 C +ATOM 3756 N SER H 130 -22.113 -44.282 -24.401 1.00 46.50 N +ATOM 3757 CA SER H 130 -23.571 -44.228 -24.238 1.00 46.77 C +ATOM 3758 C SER H 130 -24.028 -44.170 -22.779 1.00 46.94 C +ATOM 3759 O SER H 130 -23.399 -44.780 -21.904 1.00 46.92 O +ATOM 3760 CB SER H 130 -24.158 -45.461 -24.901 1.00 46.75 C +ATOM 3761 OG SER H 130 -23.258 -46.547 -24.732 1.00 46.66 O +ATOM 3762 N THR H 131 -25.130 -43.448 -22.541 1.00 47.04 N +ATOM 3763 CA THR H 131 -25.679 -43.222 -21.196 1.00 47.07 C +ATOM 3764 C THR H 131 -26.251 -44.489 -20.576 1.00 47.37 C +ATOM 3765 O THR H 131 -27.073 -45.160 -21.192 1.00 47.62 O +ATOM 3766 CB THR H 131 -26.789 -42.171 -21.214 1.00 46.87 C +ATOM 3767 OG1 THR H 131 -26.301 -40.982 -21.836 1.00 46.82 O +ATOM 3768 CG2 THR H 131 -27.253 -41.843 -19.803 1.00 46.48 C +ATOM 3769 N LYS H 132 -25.796 -44.794 -19.358 1.00 47.56 N +ATOM 3770 CA LYS H 132 -26.273 -45.910 -18.549 1.00 47.60 C +ATOM 3771 C LYS H 132 -26.584 -45.377 -17.159 1.00 47.98 C +ATOM 3772 O LYS H 132 -25.713 -44.792 -16.512 1.00 48.17 O +ATOM 3773 CB LYS H 132 -25.200 -46.999 -18.450 1.00 47.11 C +ATOM 3774 N GLY H 133 -27.825 -45.567 -16.709 1.00 48.35 N +ATOM 3775 CA GLY H 133 -28.214 -45.282 -15.317 1.00 48.80 C +ATOM 3776 C GLY H 133 -27.524 -46.151 -14.258 1.00 49.28 C +ATOM 3777 O GLY H 133 -26.932 -47.196 -14.569 1.00 49.10 O +ATOM 3778 N PRO H 134 -27.586 -45.723 -12.986 1.00 49.62 N +ATOM 3779 CA PRO H 134 -26.873 -46.455 -11.949 1.00 49.93 C +ATOM 3780 C PRO H 134 -27.741 -47.494 -11.249 1.00 50.52 C +ATOM 3781 O PRO H 134 -28.969 -47.470 -11.384 1.00 50.66 O +ATOM 3782 CB PRO H 134 -26.490 -45.350 -10.965 1.00 49.63 C +ATOM 3783 CG PRO H 134 -27.527 -44.277 -11.155 1.00 49.41 C +ATOM 3784 CD PRO H 134 -28.284 -44.548 -12.436 1.00 49.55 C +ATOM 3785 N SER H 135 -27.092 -48.403 -10.522 1.00 51.16 N +ATOM 3786 CA SER H 135 -27.761 -49.302 -9.577 1.00 51.74 C +ATOM 3787 C SER H 135 -27.424 -48.833 -8.153 1.00 52.20 C +ATOM 3788 O SER H 135 -26.265 -48.522 -7.867 1.00 52.41 O +ATOM 3789 CB SER H 135 -27.315 -50.750 -9.806 1.00 51.50 C +ATOM 3790 N VAL H 136 -28.423 -48.766 -7.270 1.00 52.72 N +ATOM 3791 CA VAL H 136 -28.209 -48.238 -5.907 1.00 53.30 C +ATOM 3792 C VAL H 136 -28.215 -49.324 -4.814 1.00 53.66 C +ATOM 3793 O VAL H 136 -29.229 -49.985 -4.594 1.00 53.97 O +ATOM 3794 CB VAL H 136 -29.238 -47.124 -5.538 1.00 53.27 C +ATOM 3795 CG1 VAL H 136 -28.855 -46.458 -4.220 1.00 53.30 C +ATOM 3796 CG2 VAL H 136 -29.343 -46.080 -6.641 1.00 53.13 C +ATOM 3797 N PHE H 137 -27.093 -49.498 -4.124 1.00 53.91 N +ATOM 3798 CA PHE H 137 -27.014 -50.510 -3.079 1.00 54.53 C +ATOM 3799 C PHE H 137 -26.754 -49.891 -1.702 1.00 54.91 C +ATOM 3800 O PHE H 137 -25.776 -49.156 -1.526 1.00 54.86 O +ATOM 3801 CB PHE H 137 -25.957 -51.573 -3.409 1.00 54.59 C +ATOM 3802 CG PHE H 137 -26.058 -52.122 -4.811 1.00 55.74 C +ATOM 3803 CD1 PHE H 137 -25.119 -51.767 -5.787 1.00 56.54 C +ATOM 3804 CD2 PHE H 137 -27.092 -52.990 -5.170 1.00 56.57 C +ATOM 3805 CE1 PHE H 137 -25.207 -52.268 -7.102 1.00 55.79 C +ATOM 3806 CE2 PHE H 137 -27.185 -53.497 -6.483 1.00 56.25 C +ATOM 3807 CZ PHE H 137 -26.237 -53.136 -7.442 1.00 55.54 C +ATOM 3808 N PRO H 138 -27.642 -50.176 -0.722 1.00 55.18 N +ATOM 3809 CA PRO H 138 -27.460 -49.776 0.669 1.00 55.16 C +ATOM 3810 C PRO H 138 -26.088 -50.123 1.245 1.00 55.24 C +ATOM 3811 O PRO H 138 -25.393 -51.008 0.738 1.00 55.18 O +ATOM 3812 CB PRO H 138 -28.540 -50.583 1.412 1.00 55.18 C +ATOM 3813 CG PRO H 138 -29.060 -51.578 0.429 1.00 55.20 C +ATOM 3814 CD PRO H 138 -28.916 -50.897 -0.888 1.00 55.36 C +ATOM 3815 N LEU H 139 -25.716 -49.390 2.292 1.00 55.22 N +ATOM 3816 CA LEU H 139 -24.548 -49.669 3.102 1.00 55.02 C +ATOM 3817 C LEU H 139 -25.053 -49.643 4.534 1.00 55.23 C +ATOM 3818 O LEU H 139 -25.126 -48.590 5.156 1.00 55.50 O +ATOM 3819 CB LEU H 139 -23.464 -48.613 2.867 1.00 54.81 C +ATOM 3820 CG LEU H 139 -22.886 -48.515 1.453 1.00 54.61 C +ATOM 3821 CD1 LEU H 139 -21.983 -47.310 1.309 1.00 54.15 C +ATOM 3822 CD2 LEU H 139 -22.151 -49.790 1.066 1.00 54.96 C +ATOM 3823 N ALA H 140 -25.430 -50.811 5.038 1.00 55.51 N +ATOM 3824 CA ALA H 140 -26.184 -50.929 6.287 1.00 55.73 C +ATOM 3825 C ALA H 140 -25.387 -50.560 7.543 1.00 55.87 C +ATOM 3826 O ALA H 140 -24.176 -50.810 7.603 1.00 55.59 O +ATOM 3827 CB ALA H 140 -26.764 -52.337 6.412 1.00 55.93 C +ATOM 3828 N PRO H 141 -26.077 -49.966 8.548 1.00 56.14 N +ATOM 3829 CA PRO H 141 -25.516 -49.555 9.840 1.00 56.35 C +ATOM 3830 C PRO H 141 -24.567 -50.594 10.434 1.00 56.72 C +ATOM 3831 O PRO H 141 -24.857 -51.793 10.419 1.00 56.67 O +ATOM 3832 CB PRO H 141 -26.760 -49.396 10.718 1.00 56.31 C +ATOM 3833 CG PRO H 141 -27.823 -48.972 9.780 1.00 56.02 C +ATOM 3834 CD PRO H 141 -27.516 -49.639 8.460 1.00 56.12 C +ATOM 3835 N SER H 142 -23.445 -50.124 10.965 1.00 57.29 N +ATOM 3836 CA SER H 142 -22.331 -51.008 11.328 1.00 57.78 C +ATOM 3837 C SER H 142 -22.482 -51.696 12.691 1.00 57.74 C +ATOM 3838 O SER H 142 -23.561 -52.176 13.043 1.00 57.74 O +ATOM 3839 CB SER H 142 -21.004 -50.238 11.242 1.00 57.96 C +ATOM 3840 OG SER H 142 -20.758 -49.780 9.915 1.00 57.96 O +ATOM 3841 N GLY H 143 -21.976 -45.119 20.796 1.00 68.17 N +ATOM 3842 CA GLY H 143 -21.762 -43.748 20.321 1.00 68.01 C +ATOM 3843 C GLY H 143 -22.485 -43.434 19.018 1.00 67.96 C +ATOM 3844 O GLY H 143 -23.717 -43.285 18.993 1.00 67.93 O +ATOM 3845 N THR H 144 -21.717 -43.338 17.931 1.00 67.75 N +ATOM 3846 CA THR H 144 -22.259 -42.938 16.625 1.00 67.36 C +ATOM 3847 C THR H 144 -22.256 -44.115 15.652 1.00 66.96 C +ATOM 3848 O THR H 144 -21.329 -44.939 15.670 1.00 67.02 O +ATOM 3849 CB THR H 144 -21.447 -41.768 15.986 1.00 67.39 C +ATOM 3850 OG1 THR H 144 -20.340 -41.412 16.832 1.00 67.59 O +ATOM 3851 CG2 THR H 144 -22.343 -40.547 15.750 1.00 67.03 C +ATOM 3852 N ALA H 145 -23.288 -44.186 14.808 1.00 66.21 N +ATOM 3853 CA ALA H 145 -23.357 -45.195 13.742 1.00 65.40 C +ATOM 3854 C ALA H 145 -23.333 -44.524 12.382 1.00 64.61 C +ATOM 3855 O ALA H 145 -23.954 -43.477 12.203 1.00 64.60 O +ATOM 3856 CB ALA H 145 -24.616 -46.053 13.885 1.00 65.66 C +ATOM 3857 N ALA H 146 -22.615 -45.122 11.431 1.00 63.56 N +ATOM 3858 CA ALA H 146 -22.606 -44.627 10.050 1.00 62.44 C +ATOM 3859 C ALA H 146 -23.322 -45.570 9.093 1.00 61.63 C +ATOM 3860 O ALA H 146 -23.145 -46.788 9.158 1.00 61.78 O +ATOM 3861 CB ALA H 146 -21.186 -44.363 9.567 1.00 62.35 C +ATOM 3862 N LEU H 147 -24.139 -44.991 8.219 1.00 60.43 N +ATOM 3863 CA LEU H 147 -24.773 -45.712 7.118 1.00 59.28 C +ATOM 3864 C LEU H 147 -24.544 -44.946 5.809 1.00 58.54 C +ATOM 3865 O LEU H 147 -23.786 -43.978 5.783 1.00 58.53 O +ATOM 3866 CB LEU H 147 -26.260 -45.921 7.401 1.00 59.18 C +ATOM 3867 CG LEU H 147 -27.061 -44.715 7.891 1.00 59.51 C +ATOM 3868 CD1 LEU H 147 -27.670 -43.953 6.736 1.00 60.00 C +ATOM 3869 CD2 LEU H 147 -28.152 -45.158 8.843 1.00 60.08 C +ATOM 3870 N GLY H 148 -25.183 -45.377 4.727 1.00 57.63 N +ATOM 3871 CA GLY H 148 -24.992 -44.721 3.446 1.00 56.52 C +ATOM 3872 C GLY H 148 -25.602 -45.417 2.248 1.00 55.84 C +ATOM 3873 O GLY H 148 -26.391 -46.348 2.387 1.00 55.73 O +ATOM 3874 N CYS H 149 -25.223 -44.940 1.066 1.00 55.18 N +ATOM 3875 CA CYS H 149 -25.650 -45.489 -0.214 1.00 54.36 C +ATOM 3876 C CYS H 149 -24.478 -45.631 -1.170 1.00 54.19 C +ATOM 3877 O CYS H 149 -23.589 -44.776 -1.197 1.00 54.57 O +ATOM 3878 CB CYS H 149 -26.662 -44.562 -0.857 1.00 54.24 C +ATOM 3879 SG CYS H 149 -28.292 -44.851 -0.283 1.00 53.22 S +ATOM 3880 N LEU H 150 -24.485 -46.705 -1.958 1.00 53.58 N +ATOM 3881 CA LEU H 150 -23.506 -46.890 -3.029 1.00 52.71 C +ATOM 3882 C LEU H 150 -24.188 -46.776 -4.393 1.00 52.19 C +ATOM 3883 O LEU H 150 -24.992 -47.635 -4.762 1.00 52.14 O +ATOM 3884 CB LEU H 150 -22.799 -48.241 -2.893 1.00 52.53 C +ATOM 3885 CG LEU H 150 -21.937 -48.654 -4.084 1.00 52.10 C +ATOM 3886 CD1 LEU H 150 -20.513 -48.159 -3.906 1.00 52.21 C +ATOM 3887 CD2 LEU H 150 -21.971 -50.161 -4.237 1.00 52.49 C +ATOM 3888 N VAL H 151 -23.861 -45.714 -5.127 1.00 51.48 N +ATOM 3889 CA VAL H 151 -24.429 -45.475 -6.455 1.00 50.95 C +ATOM 3890 C VAL H 151 -23.472 -45.949 -7.567 1.00 50.59 C +ATOM 3891 O VAL H 151 -22.739 -45.152 -8.154 1.00 50.46 O +ATOM 3892 CB VAL H 151 -24.826 -43.981 -6.624 1.00 50.95 C +ATOM 3893 CG1 VAL H 151 -25.501 -43.740 -7.953 1.00 51.01 C +ATOM 3894 CG2 VAL H 151 -25.757 -43.547 -5.504 1.00 51.01 C +ATOM 3895 N LYS H 152 -23.496 -47.250 -7.855 1.00 50.28 N +ATOM 3896 CA LYS H 152 -22.537 -47.867 -8.782 1.00 50.12 C +ATOM 3897 C LYS H 152 -23.007 -47.956 -10.249 1.00 49.91 C +ATOM 3898 O LYS H 152 -24.194 -48.140 -10.519 1.00 49.79 O +ATOM 3899 CB LYS H 152 -22.122 -49.258 -8.279 1.00 50.06 C +ATOM 3900 CG LYS H 152 -20.779 -49.716 -8.838 1.00 50.25 C +ATOM 3901 CD LYS H 152 -20.541 -51.212 -8.698 1.00 50.36 C +ATOM 3902 CE LYS H 152 -19.402 -51.577 -9.665 1.00 51.69 C +ATOM 3903 NZ LYS H 152 -19.187 -53.069 -9.845 1.00 52.75 N +ATOM 3904 N ASP H 153 -22.049 -47.814 -11.173 1.00 49.78 N +ATOM 3905 CA ASP H 153 -22.208 -48.056 -12.630 1.00 49.54 C +ATOM 3906 C ASP H 153 -23.181 -47.143 -13.391 1.00 49.73 C +ATOM 3907 O ASP H 153 -24.364 -47.476 -13.571 1.00 49.71 O +ATOM 3908 CB ASP H 153 -22.491 -49.531 -12.932 1.00 49.34 C +ATOM 3909 CG ASP H 153 -21.347 -50.435 -12.535 1.00 49.02 C +ATOM 3910 OD1 ASP H 153 -20.187 -49.974 -12.538 1.00 48.80 O +ATOM 3911 OD2 ASP H 153 -21.605 -51.612 -12.219 1.00 48.58 O +ATOM 3912 N TYR H 154 -22.649 -46.011 -13.856 1.00 49.70 N +ATOM 3913 CA TYR H 154 -23.397 -45.036 -14.646 1.00 49.65 C +ATOM 3914 C TYR H 154 -22.431 -44.212 -15.489 1.00 49.65 C +ATOM 3915 O TYR H 154 -21.220 -44.231 -15.251 1.00 49.58 O +ATOM 3916 CB TYR H 154 -24.219 -44.108 -13.736 1.00 49.81 C +ATOM 3917 CG TYR H 154 -23.375 -43.241 -12.823 1.00 50.09 C +ATOM 3918 CD1 TYR H 154 -22.774 -43.772 -11.681 1.00 50.78 C +ATOM 3919 CD2 TYR H 154 -23.175 -41.894 -13.100 1.00 49.95 C +ATOM 3920 CE1 TYR H 154 -21.997 -42.988 -10.841 1.00 51.00 C +ATOM 3921 CE2 TYR H 154 -22.398 -41.101 -12.271 1.00 50.47 C +ATOM 3922 CZ TYR H 154 -21.810 -41.653 -11.142 1.00 50.83 C +ATOM 3923 OH TYR H 154 -21.030 -40.874 -10.317 1.00 50.79 O +ATOM 3924 N PHE H 155 -22.984 -43.492 -16.465 1.00 49.52 N +ATOM 3925 CA PHE H 155 -22.252 -42.536 -17.289 1.00 49.34 C +ATOM 3926 C PHE H 155 -23.306 -41.651 -17.910 1.00 49.37 C +ATOM 3927 O PHE H 155 -24.348 -42.148 -18.314 1.00 49.30 O +ATOM 3928 CB PHE H 155 -21.503 -43.265 -18.400 1.00 49.52 C +ATOM 3929 CG PHE H 155 -20.442 -42.436 -19.086 1.00 49.50 C +ATOM 3930 CD1 PHE H 155 -19.099 -42.632 -18.793 1.00 49.18 C +ATOM 3931 CD2 PHE H 155 -20.783 -41.498 -20.053 1.00 49.26 C +ATOM 3932 CE1 PHE H 155 -18.123 -41.898 -19.427 1.00 48.99 C +ATOM 3933 CE2 PHE H 155 -19.815 -40.752 -20.683 1.00 48.92 C +ATOM 3934 CZ PHE H 155 -18.479 -40.956 -20.371 1.00 49.34 C +ATOM 3935 N PRO H 156 -23.055 -40.333 -17.994 1.00 49.62 N +ATOM 3936 CA PRO H 156 -21.868 -39.599 -17.545 1.00 49.70 C +ATOM 3937 C PRO H 156 -22.102 -38.993 -16.175 1.00 49.65 C +ATOM 3938 O PRO H 156 -23.186 -39.155 -15.605 1.00 50.10 O +ATOM 3939 CB PRO H 156 -21.787 -38.464 -18.561 1.00 49.77 C +ATOM 3940 CG PRO H 156 -23.262 -38.156 -18.873 1.00 49.73 C +ATOM 3941 CD PRO H 156 -24.051 -39.425 -18.602 1.00 49.60 C +ATOM 3942 N GLU H 157 -21.116 -38.270 -15.659 1.00 49.09 N +ATOM 3943 CA GLU H 157 -21.362 -37.427 -14.509 1.00 48.71 C +ATOM 3944 C GLU H 157 -22.474 -36.468 -14.927 1.00 48.60 C +ATOM 3945 O GLU H 157 -22.627 -36.224 -16.122 1.00 48.69 O +ATOM 3946 CB GLU H 157 -20.095 -36.664 -14.190 1.00 48.62 C +ATOM 3947 CG GLU H 157 -18.951 -37.547 -13.840 1.00 48.73 C +ATOM 3948 CD GLU H 157 -18.756 -37.636 -12.360 1.00 50.39 C +ATOM 3949 OE1 GLU H 157 -19.748 -37.873 -11.626 1.00 51.55 O +ATOM 3950 OE2 GLU H 157 -17.599 -37.454 -11.926 1.00 52.02 O +ATOM 3951 N PRO H 158 -23.241 -35.902 -13.972 1.00 48.54 N +ATOM 3952 CA PRO H 158 -23.191 -36.033 -12.538 1.00 48.66 C +ATOM 3953 C PRO H 158 -24.375 -36.798 -11.985 1.00 48.88 C +ATOM 3954 O PRO H 158 -25.369 -37.034 -12.683 1.00 48.89 O +ATOM 3955 CB PRO H 158 -23.342 -34.583 -12.096 1.00 48.65 C +ATOM 3956 CG PRO H 158 -24.340 -34.019 -13.104 1.00 48.27 C +ATOM 3957 CD PRO H 158 -24.266 -34.908 -14.340 1.00 48.36 C +ATOM 3958 N VAL H 159 -24.276 -37.135 -10.708 1.00 49.09 N +ATOM 3959 CA VAL H 159 -25.376 -37.751 -10.002 1.00 49.09 C +ATOM 3960 C VAL H 159 -25.689 -36.915 -8.760 1.00 49.14 C +ATOM 3961 O VAL H 159 -24.809 -36.243 -8.219 1.00 49.16 O +ATOM 3962 CB VAL H 159 -25.061 -39.247 -9.683 1.00 49.20 C +ATOM 3963 CG1 VAL H 159 -24.302 -39.412 -8.351 1.00 48.97 C +ATOM 3964 CG2 VAL H 159 -26.334 -40.080 -9.719 1.00 49.10 C +ATOM 3965 N THR H 160 -26.951 -36.935 -8.342 1.00 49.20 N +ATOM 3966 CA THR H 160 -27.403 -36.224 -7.150 1.00 49.15 C +ATOM 3967 C THR H 160 -27.646 -37.240 -6.042 1.00 49.13 C +ATOM 3968 O THR H 160 -28.223 -38.294 -6.286 1.00 49.18 O +ATOM 3969 CB THR H 160 -28.724 -35.488 -7.430 1.00 49.22 C +ATOM 3970 OG1 THR H 160 -28.572 -34.654 -8.582 1.00 48.67 O +ATOM 3971 CG2 THR H 160 -29.160 -34.636 -6.228 1.00 49.78 C +ATOM 3972 N VAL H 161 -27.195 -36.933 -4.831 1.00 49.11 N +ATOM 3973 CA VAL H 161 -27.561 -37.735 -3.670 1.00 49.10 C +ATOM 3974 C VAL H 161 -27.937 -36.862 -2.481 1.00 49.47 C +ATOM 3975 O VAL H 161 -27.118 -36.090 -1.970 1.00 49.37 O +ATOM 3976 CB VAL H 161 -26.467 -38.715 -3.256 1.00 48.95 C +ATOM 3977 CG1 VAL H 161 -27.021 -39.680 -2.238 1.00 48.92 C +ATOM 3978 CG2 VAL H 161 -25.947 -39.478 -4.455 1.00 48.91 C +ATOM 3979 N SER H 162 -29.194 -36.988 -2.063 1.00 49.98 N +ATOM 3980 CA SER H 162 -29.730 -36.264 -0.913 1.00 50.28 C +ATOM 3981 C SER H 162 -30.364 -37.264 0.035 1.00 50.60 C +ATOM 3982 O SER H 162 -30.794 -38.341 -0.382 1.00 50.67 O +ATOM 3983 CB SER H 162 -30.770 -35.230 -1.353 1.00 50.21 C +ATOM 3984 OG SER H 162 -31.951 -35.852 -1.831 1.00 49.92 O +ATOM 3985 N TRP H 163 -30.430 -36.901 1.310 1.00 51.10 N +ATOM 3986 CA TRP H 163 -30.953 -37.812 2.313 1.00 51.52 C +ATOM 3987 C TRP H 163 -32.302 -37.413 2.893 1.00 52.23 C +ATOM 3988 O TRP H 163 -32.626 -36.229 3.028 1.00 52.31 O +ATOM 3989 CB TRP H 163 -29.934 -38.015 3.414 1.00 51.09 C +ATOM 3990 CG TRP H 163 -28.841 -38.907 3.003 1.00 50.32 C +ATOM 3991 CD1 TRP H 163 -27.713 -38.561 2.317 1.00 49.75 C +ATOM 3992 CD2 TRP H 163 -28.754 -40.310 3.246 1.00 49.83 C +ATOM 3993 NE1 TRP H 163 -26.919 -39.665 2.128 1.00 49.81 N +ATOM 3994 CE2 TRP H 163 -27.537 -40.755 2.687 1.00 50.27 C +ATOM 3995 CE3 TRP H 163 -29.585 -41.237 3.886 1.00 49.50 C +ATOM 3996 CZ2 TRP H 163 -27.130 -42.094 2.750 1.00 50.52 C +ATOM 3997 CZ3 TRP H 163 -29.185 -42.562 3.946 1.00 49.94 C +ATOM 3998 CH2 TRP H 163 -27.966 -42.979 3.382 1.00 50.13 C +ATOM 3999 N ASN H 164 -33.064 -38.435 3.266 1.00 53.15 N +ATOM 4000 CA ASN H 164 -34.501 -38.321 3.508 1.00 54.05 C +ATOM 4001 C ASN H 164 -35.172 -37.575 2.351 1.00 54.41 C +ATOM 4002 O ASN H 164 -35.662 -38.230 1.425 1.00 54.89 O +ATOM 4003 CB ASN H 164 -34.794 -37.796 4.911 1.00 54.11 C +ATOM 4004 CG ASN H 164 -34.137 -38.664 5.993 1.00 54.63 C +ATOM 4005 OD1 ASN H 164 -33.756 -38.169 7.053 1.00 56.20 O +ATOM 4006 ND2 ASN H 164 -33.981 -39.961 5.712 1.00 53.29 N +ATOM 4007 N SER H 165 -35.167 -36.247 2.349 1.00 54.45 N +ATOM 4008 CA SER H 165 -35.371 -35.545 1.076 1.00 54.94 C +ATOM 4009 C SER H 165 -34.905 -34.105 1.156 1.00 55.17 C +ATOM 4010 O SER H 165 -35.713 -33.172 1.151 1.00 55.66 O +ATOM 4011 CB SER H 165 -36.809 -35.674 0.540 1.00 54.69 C +ATOM 4012 OG SER H 165 -37.750 -35.405 1.553 1.00 55.73 O +ATOM 4013 N GLY H 166 -33.586 -33.932 1.219 1.00 55.17 N +ATOM 4014 CA GLY H 166 -33.001 -32.639 1.560 1.00 55.14 C +ATOM 4015 C GLY H 166 -33.513 -32.175 2.919 1.00 55.04 C +ATOM 4016 O GLY H 166 -33.677 -30.977 3.161 1.00 55.33 O +ATOM 4017 N ALA H 167 -33.785 -33.135 3.797 1.00 54.56 N +ATOM 4018 CA ALA H 167 -34.309 -32.842 5.109 1.00 54.09 C +ATOM 4019 C ALA H 167 -33.231 -33.119 6.153 1.00 53.79 C +ATOM 4020 O ALA H 167 -33.181 -32.454 7.191 1.00 54.02 O +ATOM 4021 CB ALA H 167 -35.546 -33.669 5.368 1.00 54.27 C +ATOM 4022 N LEU H 168 -32.381 -34.107 5.870 1.00 53.16 N +ATOM 4023 CA LEU H 168 -31.202 -34.398 6.688 1.00 52.43 C +ATOM 4024 C LEU H 168 -29.975 -33.966 5.905 1.00 52.15 C +ATOM 4025 O LEU H 168 -29.803 -34.373 4.747 1.00 52.33 O +ATOM 4026 CB LEU H 168 -31.113 -35.895 7.033 1.00 52.37 C +ATOM 4027 CG LEU H 168 -29.766 -36.467 7.515 1.00 52.05 C +ATOM 4028 CD1 LEU H 168 -29.331 -35.893 8.876 1.00 51.70 C +ATOM 4029 CD2 LEU H 168 -29.804 -37.993 7.553 1.00 51.92 C +ATOM 4030 N THR H 169 -29.134 -33.134 6.518 1.00 51.34 N +ATOM 4031 CA THR H 169 -27.925 -32.649 5.841 1.00 50.53 C +ATOM 4032 C THR H 169 -26.702 -32.593 6.760 1.00 49.97 C +ATOM 4033 O THR H 169 -25.575 -32.519 6.278 1.00 50.09 O +ATOM 4034 CB THR H 169 -28.122 -31.261 5.153 1.00 50.43 C +ATOM 4035 OG1 THR H 169 -27.896 -30.210 6.099 1.00 50.64 O +ATOM 4036 CG2 THR H 169 -29.525 -31.115 4.557 1.00 50.40 C +ATOM 4037 N SER H 170 -26.923 -32.617 8.073 1.00 49.09 N +ATOM 4038 CA SER H 170 -25.823 -32.545 9.027 1.00 48.12 C +ATOM 4039 C SER H 170 -25.055 -33.851 9.034 1.00 47.52 C +ATOM 4040 O SER H 170 -25.584 -34.884 9.426 1.00 47.57 O +ATOM 4041 CB SER H 170 -26.332 -32.221 10.435 1.00 48.16 C +ATOM 4042 N GLY H 171 -23.813 -33.806 8.572 1.00 46.90 N +ATOM 4043 CA GLY H 171 -22.933 -34.968 8.646 1.00 46.29 C +ATOM 4044 C GLY H 171 -23.051 -35.970 7.514 1.00 45.83 C +ATOM 4045 O GLY H 171 -22.686 -37.135 7.661 1.00 45.84 O +ATOM 4046 N VAL H 172 -23.571 -35.532 6.379 1.00 45.44 N +ATOM 4047 CA VAL H 172 -23.490 -36.359 5.189 1.00 44.93 C +ATOM 4048 C VAL H 172 -22.195 -36.046 4.445 1.00 44.95 C +ATOM 4049 O VAL H 172 -21.718 -34.909 4.443 1.00 44.99 O +ATOM 4050 CB VAL H 172 -24.795 -36.334 4.289 1.00 44.70 C +ATOM 4051 CG1 VAL H 172 -25.888 -35.471 4.889 1.00 44.35 C +ATOM 4052 CG2 VAL H 172 -24.511 -35.984 2.823 1.00 44.09 C +ATOM 4053 N HIS H 173 -21.606 -37.077 3.863 1.00 44.80 N +ATOM 4054 CA HIS H 173 -20.488 -36.907 2.974 1.00 44.71 C +ATOM 4055 C HIS H 173 -20.804 -37.655 1.687 1.00 44.55 C +ATOM 4056 O HIS H 173 -20.681 -38.882 1.632 1.00 44.88 O +ATOM 4057 CB HIS H 173 -19.208 -37.448 3.617 1.00 44.77 C +ATOM 4058 CG HIS H 173 -18.697 -36.615 4.754 1.00 45.59 C +ATOM 4059 ND1 HIS H 173 -18.539 -37.114 6.031 1.00 45.83 N +ATOM 4060 CD2 HIS H 173 -18.296 -35.321 4.805 1.00 46.03 C +ATOM 4061 CE1 HIS H 173 -18.072 -36.164 6.820 1.00 45.80 C +ATOM 4062 NE2 HIS H 173 -17.909 -35.068 6.100 1.00 46.13 N +ATOM 4063 N THR H 174 -21.245 -36.923 0.667 1.00 44.07 N +ATOM 4064 CA THR H 174 -21.346 -37.474 -0.685 1.00 43.57 C +ATOM 4065 C THR H 174 -19.996 -37.316 -1.377 1.00 43.42 C +ATOM 4066 O THR H 174 -19.516 -36.201 -1.570 1.00 43.30 O +ATOM 4067 CB THR H 174 -22.452 -36.791 -1.503 1.00 43.55 C +ATOM 4068 OG1 THR H 174 -23.694 -36.881 -0.792 1.00 43.30 O +ATOM 4069 CG2 THR H 174 -22.594 -37.455 -2.866 1.00 43.01 C +ATOM 4070 N PHE H 175 -19.392 -38.441 -1.740 1.00 43.48 N +ATOM 4071 CA PHE H 175 -18.010 -38.479 -2.222 1.00 43.65 C +ATOM 4072 C PHE H 175 -17.810 -38.172 -3.715 1.00 43.86 C +ATOM 4073 O PHE H 175 -18.743 -38.274 -4.514 1.00 43.66 O +ATOM 4074 CB PHE H 175 -17.403 -39.847 -1.920 1.00 43.65 C +ATOM 4075 CG PHE H 175 -16.971 -40.021 -0.504 1.00 43.32 C +ATOM 4076 CD1 PHE H 175 -15.664 -39.735 -0.129 1.00 43.40 C +ATOM 4077 CD2 PHE H 175 -17.856 -40.497 0.453 1.00 43.17 C +ATOM 4078 CE1 PHE H 175 -15.239 -39.905 1.188 1.00 43.60 C +ATOM 4079 CE2 PHE H 175 -17.443 -40.672 1.777 1.00 44.06 C +ATOM 4080 CZ PHE H 175 -16.126 -40.377 2.146 1.00 43.70 C +ATOM 4081 N PRO H 176 -16.574 -37.798 -4.094 1.00 44.24 N +ATOM 4082 CA PRO H 176 -16.237 -37.672 -5.504 1.00 44.64 C +ATOM 4083 C PRO H 176 -16.391 -39.009 -6.222 1.00 45.10 C +ATOM 4084 O PRO H 176 -15.887 -40.032 -5.740 1.00 45.30 O +ATOM 4085 CB PRO H 176 -14.757 -37.268 -5.472 1.00 44.64 C +ATOM 4086 CG PRO H 176 -14.554 -36.658 -4.142 1.00 44.32 C +ATOM 4087 CD PRO H 176 -15.428 -37.452 -3.231 1.00 44.23 C +ATOM 4088 N ALA H 177 -17.084 -38.993 -7.361 1.00 45.40 N +ATOM 4089 CA ALA H 177 -17.273 -40.189 -8.180 1.00 45.50 C +ATOM 4090 C ALA H 177 -15.926 -40.734 -8.628 1.00 45.71 C +ATOM 4091 O ALA H 177 -14.950 -40.001 -8.670 1.00 45.99 O +ATOM 4092 CB ALA H 177 -18.128 -39.856 -9.375 1.00 45.38 C +ATOM 4093 N VAL H 178 -15.857 -42.021 -8.936 1.00 46.19 N +ATOM 4094 CA VAL H 178 -14.643 -42.575 -9.539 1.00 46.84 C +ATOM 4095 C VAL H 178 -14.923 -43.364 -10.813 1.00 47.26 C +ATOM 4096 O VAL H 178 -15.727 -44.301 -10.818 1.00 47.13 O +ATOM 4097 CB VAL H 178 -13.782 -43.427 -8.555 1.00 46.88 C +ATOM 4098 CG1 VAL H 178 -13.066 -42.531 -7.541 1.00 46.75 C +ATOM 4099 CG2 VAL H 178 -14.621 -44.509 -7.865 1.00 47.03 C +ATOM 4100 N LEU H 179 -14.251 -42.961 -11.888 1.00 47.96 N +ATOM 4101 CA LEU H 179 -14.243 -43.699 -13.148 1.00 48.54 C +ATOM 4102 C LEU H 179 -13.637 -45.091 -12.953 1.00 49.10 C +ATOM 4103 O LEU H 179 -12.462 -45.231 -12.586 1.00 49.24 O +ATOM 4104 CB LEU H 179 -13.442 -42.925 -14.187 1.00 48.32 C +ATOM 4105 CG LEU H 179 -13.353 -43.480 -15.600 1.00 48.43 C +ATOM 4106 CD1 LEU H 179 -14.586 -43.137 -16.412 1.00 48.71 C +ATOM 4107 CD2 LEU H 179 -12.115 -42.904 -16.249 1.00 49.64 C +ATOM 4108 N GLN H 180 -14.448 -46.119 -13.181 1.00 49.66 N +ATOM 4109 CA GLN H 180 -13.980 -47.490 -13.023 1.00 50.10 C +ATOM 4110 C GLN H 180 -13.214 -47.942 -14.248 1.00 50.34 C +ATOM 4111 O GLN H 180 -13.403 -47.405 -15.348 1.00 50.34 O +ATOM 4112 CB GLN H 180 -15.151 -48.440 -12.794 1.00 50.08 C +ATOM 4113 CG GLN H 180 -15.626 -48.490 -11.374 1.00 50.12 C +ATOM 4114 CD GLN H 180 -16.998 -49.084 -11.274 1.00 49.88 C +ATOM 4115 OE1 GLN H 180 -17.987 -48.449 -11.626 1.00 49.39 O +ATOM 4116 NE2 GLN H 180 -17.071 -50.315 -10.800 1.00 50.62 N +ATOM 4117 N SER H 181 -12.360 -48.942 -14.039 1.00 50.55 N +ATOM 4118 CA SER H 181 -11.693 -49.659 -15.122 1.00 50.58 C +ATOM 4119 C SER H 181 -12.664 -50.009 -16.261 1.00 50.37 C +ATOM 4120 O SER H 181 -12.269 -50.058 -17.427 1.00 50.31 O +ATOM 4121 CB SER H 181 -11.012 -50.923 -14.572 1.00 50.82 C +ATOM 4122 OG SER H 181 -11.929 -51.763 -13.879 1.00 51.01 O +ATOM 4123 N SER H 182 -13.932 -50.224 -15.908 1.00 50.20 N +ATOM 4124 CA SER H 182 -14.980 -50.550 -16.873 1.00 50.14 C +ATOM 4125 C SER H 182 -15.253 -49.399 -17.842 1.00 49.86 C +ATOM 4126 O SER H 182 -15.533 -49.615 -19.013 1.00 49.96 O +ATOM 4127 CB SER H 182 -16.274 -50.945 -16.145 1.00 50.30 C +ATOM 4128 OG SER H 182 -17.199 -49.864 -16.068 1.00 50.80 O +ATOM 4129 N GLY H 183 -15.162 -48.175 -17.347 1.00 49.61 N +ATOM 4130 CA GLY H 183 -15.512 -47.014 -18.143 1.00 49.30 C +ATOM 4131 C GLY H 183 -16.768 -46.402 -17.580 1.00 49.10 C +ATOM 4132 O GLY H 183 -17.403 -45.560 -18.212 1.00 49.13 O +ATOM 4133 N LEU H 184 -17.119 -46.836 -16.375 1.00 48.95 N +ATOM 4134 CA LEU H 184 -18.304 -46.343 -15.692 1.00 48.75 C +ATOM 4135 C LEU H 184 -17.950 -45.781 -14.315 1.00 48.61 C +ATOM 4136 O LEU H 184 -17.082 -46.315 -13.617 1.00 48.44 O +ATOM 4137 CB LEU H 184 -19.365 -47.449 -15.582 1.00 48.71 C +ATOM 4138 CG LEU H 184 -19.980 -47.998 -16.876 1.00 48.51 C +ATOM 4139 CD1 LEU H 184 -20.983 -49.110 -16.568 1.00 48.71 C +ATOM 4140 CD2 LEU H 184 -20.634 -46.893 -17.721 1.00 47.67 C +ATOM 4141 N TYR H 185 -18.623 -44.694 -13.944 1.00 48.38 N +ATOM 4142 CA TYR H 185 -18.412 -44.054 -12.653 1.00 48.12 C +ATOM 4143 C TYR H 185 -19.174 -44.755 -11.534 1.00 48.12 C +ATOM 4144 O TYR H 185 -20.162 -45.458 -11.770 1.00 47.95 O +ATOM 4145 CB TYR H 185 -18.820 -42.580 -12.697 1.00 48.08 C +ATOM 4146 CG TYR H 185 -17.977 -41.700 -13.591 1.00 47.77 C +ATOM 4147 CD1 TYR H 185 -16.757 -41.182 -13.151 1.00 47.01 C +ATOM 4148 CD2 TYR H 185 -18.420 -41.358 -14.867 1.00 48.23 C +ATOM 4149 CE1 TYR H 185 -15.993 -40.366 -13.968 1.00 47.20 C +ATOM 4150 CE2 TYR H 185 -17.664 -40.539 -15.694 1.00 48.08 C +ATOM 4151 CZ TYR H 185 -16.454 -40.050 -15.241 1.00 47.70 C +ATOM 4152 OH TYR H 185 -15.719 -39.243 -16.072 1.00 47.63 O +ATOM 4153 N SER H 186 -18.695 -44.540 -10.314 1.00 48.25 N +ATOM 4154 CA SER H 186 -19.271 -45.111 -9.101 1.00 48.52 C +ATOM 4155 C SER H 186 -18.935 -44.196 -7.918 1.00 48.60 C +ATOM 4156 O SER H 186 -17.839 -43.633 -7.839 1.00 48.91 O +ATOM 4157 CB SER H 186 -18.746 -46.531 -8.857 1.00 48.44 C +ATOM 4158 OG SER H 186 -19.389 -47.126 -7.747 1.00 48.33 O +ATOM 4159 N LEU H 187 -19.877 -44.068 -6.992 1.00 48.43 N +ATOM 4160 CA LEU H 187 -19.799 -43.048 -5.965 1.00 48.40 C +ATOM 4161 C LEU H 187 -20.488 -43.536 -4.700 1.00 48.51 C +ATOM 4162 O LEU H 187 -21.328 -44.429 -4.748 1.00 48.50 O +ATOM 4163 CB LEU H 187 -20.428 -41.752 -6.513 1.00 48.38 C +ATOM 4164 CG LEU H 187 -21.074 -40.633 -5.687 1.00 48.13 C +ATOM 4165 CD1 LEU H 187 -21.069 -39.317 -6.473 1.00 46.93 C +ATOM 4166 CD2 LEU H 187 -22.489 -41.016 -5.252 1.00 47.44 C +ATOM 4167 N SER H 188 -20.123 -42.955 -3.565 1.00 48.77 N +ATOM 4168 CA SER H 188 -20.753 -43.316 -2.312 1.00 49.17 C +ATOM 4169 C SER H 188 -21.107 -42.087 -1.506 1.00 49.35 C +ATOM 4170 O SER H 188 -20.343 -41.124 -1.451 1.00 49.28 O +ATOM 4171 CB SER H 188 -19.858 -44.250 -1.495 1.00 49.29 C +ATOM 4172 OG SER H 188 -18.640 -43.618 -1.120 1.00 49.87 O +ATOM 4173 N SER H 189 -22.284 -42.132 -0.892 1.00 49.74 N +ATOM 4174 CA SER H 189 -22.748 -41.076 -0.013 1.00 50.15 C +ATOM 4175 C SER H 189 -23.041 -41.694 1.341 1.00 50.67 C +ATOM 4176 O SER H 189 -23.771 -42.676 1.441 1.00 50.77 O +ATOM 4177 CB SER H 189 -23.997 -40.408 -0.581 1.00 49.95 C +ATOM 4178 OG SER H 189 -24.282 -39.201 0.100 1.00 49.68 O +ATOM 4179 N VAL H 190 -22.451 -41.119 2.381 1.00 51.26 N +ATOM 4180 CA VAL H 190 -22.580 -41.650 3.730 1.00 51.80 C +ATOM 4181 C VAL H 190 -23.089 -40.566 4.684 1.00 52.43 C +ATOM 4182 O VAL H 190 -22.791 -39.385 4.491 1.00 52.64 O +ATOM 4183 CB VAL H 190 -21.236 -42.257 4.243 1.00 51.69 C +ATOM 4184 CG1 VAL H 190 -20.823 -43.441 3.382 1.00 51.36 C +ATOM 4185 CG2 VAL H 190 -20.126 -41.210 4.277 1.00 51.14 C +ATOM 4186 N VAL H 191 -23.869 -40.971 5.692 1.00 52.96 N +ATOM 4187 CA VAL H 191 -24.317 -40.077 6.769 1.00 53.24 C +ATOM 4188 C VAL H 191 -23.907 -40.668 8.096 1.00 53.23 C +ATOM 4189 O VAL H 191 -23.960 -41.879 8.279 1.00 53.37 O +ATOM 4190 CB VAL H 191 -25.856 -39.909 6.816 1.00 53.31 C +ATOM 4191 CG1 VAL H 191 -26.245 -38.948 7.918 1.00 53.90 C +ATOM 4192 CG2 VAL H 191 -26.380 -39.372 5.522 1.00 53.92 C +ATOM 4193 N THR H 192 -23.506 -39.802 9.017 1.00 53.38 N +ATOM 4194 CA THR H 192 -23.268 -40.189 10.392 1.00 53.48 C +ATOM 4195 C THR H 192 -24.478 -39.784 11.231 1.00 54.08 C +ATOM 4196 O THR H 192 -24.950 -38.649 11.147 1.00 53.87 O +ATOM 4197 CB THR H 192 -21.942 -39.595 10.900 1.00 53.21 C +ATOM 4198 OG1 THR H 192 -20.903 -40.551 10.680 1.00 52.46 O +ATOM 4199 CG2 THR H 192 -21.994 -39.270 12.384 1.00 53.35 C +ATOM 4200 N VAL H 193 -24.992 -40.738 12.006 1.00 55.08 N +ATOM 4201 CA VAL H 193 -26.164 -40.525 12.864 1.00 56.14 C +ATOM 4202 C VAL H 193 -26.033 -41.141 14.266 1.00 56.95 C +ATOM 4203 O VAL H 193 -25.248 -42.087 14.472 1.00 56.91 O +ATOM 4204 CB VAL H 193 -27.483 -41.084 12.232 1.00 56.15 C +ATOM 4205 CG1 VAL H 193 -27.754 -40.461 10.876 1.00 56.17 C +ATOM 4206 CG2 VAL H 193 -27.479 -42.633 12.166 1.00 56.32 C +ATOM 4207 N PRO H 194 -26.808 -40.601 15.235 1.00 57.72 N +ATOM 4208 CA PRO H 194 -27.062 -41.282 16.496 1.00 58.35 C +ATOM 4209 C PRO H 194 -27.585 -42.705 16.275 1.00 59.11 C +ATOM 4210 O PRO H 194 -28.633 -42.894 15.647 1.00 58.94 O +ATOM 4211 CB PRO H 194 -28.157 -40.419 17.145 1.00 58.31 C +ATOM 4212 CG PRO H 194 -28.669 -39.513 16.061 1.00 57.74 C +ATOM 4213 CD PRO H 194 -27.476 -39.287 15.202 1.00 57.74 C +ATOM 4214 N SER H 195 -26.845 -43.689 16.786 1.00 60.12 N +ATOM 4215 CA SER H 195 -27.282 -45.094 16.775 1.00 60.91 C +ATOM 4216 C SER H 195 -28.645 -45.299 17.456 1.00 61.39 C +ATOM 4217 O SER H 195 -29.338 -46.283 17.184 1.00 61.54 O +ATOM 4218 CB SER H 195 -26.206 -46.032 17.361 1.00 60.89 C +ATOM 4219 OG SER H 195 -25.106 -45.318 17.905 1.00 60.89 O +ATOM 4220 N SER H 196 -29.019 -44.360 18.326 1.00 61.97 N +ATOM 4221 CA SER H 196 -30.361 -44.302 18.901 1.00 62.48 C +ATOM 4222 C SER H 196 -31.445 -44.295 17.816 1.00 62.97 C +ATOM 4223 O SER H 196 -32.416 -45.058 17.896 1.00 62.97 O +ATOM 4224 CB SER H 196 -30.508 -43.067 19.792 1.00 62.33 C +ATOM 4225 N SER H 197 -31.263 -43.453 16.794 1.00 63.66 N +ATOM 4226 CA SER H 197 -32.292 -43.258 15.745 1.00 64.18 C +ATOM 4227 C SER H 197 -32.571 -44.500 14.882 1.00 64.46 C +ATOM 4228 O SER H 197 -33.717 -44.727 14.485 1.00 64.23 O +ATOM 4229 CB SER H 197 -32.012 -42.011 14.879 1.00 64.07 C +ATOM 4230 OG SER H 197 -30.629 -41.829 14.620 1.00 63.90 O +ATOM 4231 N LEU H 198 -31.528 -45.301 14.628 1.00 64.88 N +ATOM 4232 CA LEU H 198 -31.640 -46.552 13.862 1.00 65.14 C +ATOM 4233 C LEU H 198 -32.975 -47.266 14.104 1.00 65.36 C +ATOM 4234 O LEU H 198 -33.646 -47.680 13.154 1.00 65.63 O +ATOM 4235 CB LEU H 198 -30.463 -47.494 14.162 1.00 65.00 C +ATOM 4236 CG LEU H 198 -29.032 -47.004 13.892 1.00 65.35 C +ATOM 4237 CD1 LEU H 198 -27.990 -48.091 14.191 1.00 64.94 C +ATOM 4238 CD2 LEU H 198 -28.872 -46.488 12.464 1.00 65.87 C +ATOM 4239 N GLY H 199 -33.366 -47.382 15.371 1.00 65.34 N +ATOM 4240 CA GLY H 199 -34.653 -47.964 15.724 1.00 65.27 C +ATOM 4241 C GLY H 199 -35.830 -47.150 15.213 1.00 65.23 C +ATOM 4242 O GLY H 199 -36.565 -47.597 14.330 1.00 65.20 O +ATOM 4243 N THR H 200 -35.996 -45.947 15.756 1.00 65.15 N +ATOM 4244 CA THR H 200 -37.185 -45.131 15.482 1.00 65.05 C +ATOM 4245 C THR H 200 -37.208 -44.446 14.094 1.00 64.91 C +ATOM 4246 O THR H 200 -38.272 -44.051 13.608 1.00 64.94 O +ATOM 4247 CB THR H 200 -37.407 -44.079 16.601 1.00 65.05 C +ATOM 4248 N GLN H 201 -36.044 -44.331 13.457 1.00 64.62 N +ATOM 4249 CA GLN H 201 -35.893 -43.529 12.237 1.00 64.10 C +ATOM 4250 C GLN H 201 -35.647 -44.318 10.950 1.00 63.86 C +ATOM 4251 O GLN H 201 -34.840 -45.262 10.913 1.00 63.85 O +ATOM 4252 CB GLN H 201 -34.769 -42.512 12.428 1.00 64.08 C +ATOM 4253 CG GLN H 201 -35.247 -41.101 12.664 1.00 63.92 C +ATOM 4254 CD GLN H 201 -35.266 -40.291 11.391 1.00 63.73 C +ATOM 4255 OE1 GLN H 201 -36.055 -39.353 11.243 1.00 63.91 O +ATOM 4256 NE2 GLN H 201 -34.392 -40.648 10.457 1.00 63.45 N +ATOM 4257 N THR H 202 -36.350 -43.900 9.898 1.00 63.29 N +ATOM 4258 CA THR H 202 -36.119 -44.382 8.537 1.00 62.62 C +ATOM 4259 C THR H 202 -35.073 -43.482 7.873 1.00 62.01 C +ATOM 4260 O THR H 202 -35.137 -42.260 8.006 1.00 61.95 O +ATOM 4261 CB THR H 202 -37.420 -44.332 7.697 1.00 62.59 C +ATOM 4262 OG1 THR H 202 -38.558 -44.465 8.557 1.00 62.67 O +ATOM 4263 CG2 THR H 202 -37.443 -45.457 6.672 1.00 62.94 C +ATOM 4264 N TYR H 203 -34.109 -44.083 7.177 1.00 61.30 N +ATOM 4265 CA TYR H 203 -33.131 -43.318 6.395 1.00 60.67 C +ATOM 4266 C TYR H 203 -33.195 -43.640 4.912 1.00 59.88 C +ATOM 4267 O TYR H 203 -32.952 -44.768 4.503 1.00 59.85 O +ATOM 4268 CB TYR H 203 -31.710 -43.537 6.912 1.00 60.98 C +ATOM 4269 CG TYR H 203 -31.445 -42.874 8.237 1.00 61.71 C +ATOM 4270 CD1 TYR H 203 -31.421 -41.481 8.353 1.00 62.58 C +ATOM 4271 CD2 TYR H 203 -31.216 -43.633 9.379 1.00 62.37 C +ATOM 4272 CE1 TYR H 203 -31.174 -40.865 9.579 1.00 62.74 C +ATOM 4273 CE2 TYR H 203 -30.964 -43.032 10.608 1.00 62.74 C +ATOM 4274 CZ TYR H 203 -30.948 -41.650 10.704 1.00 62.52 C +ATOM 4275 OH TYR H 203 -30.704 -41.059 11.926 1.00 62.31 O +ATOM 4276 N ILE H 204 -33.508 -42.639 4.106 1.00 59.02 N +ATOM 4277 CA ILE H 204 -33.614 -42.838 2.668 1.00 58.38 C +ATOM 4278 C ILE H 204 -32.615 -41.971 1.900 1.00 57.82 C +ATOM 4279 O ILE H 204 -32.435 -40.799 2.218 1.00 58.13 O +ATOM 4280 CB ILE H 204 -35.066 -42.568 2.186 1.00 58.46 C +ATOM 4281 CG1 ILE H 204 -35.965 -43.764 2.540 1.00 58.39 C +ATOM 4282 CG2 ILE H 204 -35.101 -42.271 0.685 1.00 58.43 C +ATOM 4283 CD1 ILE H 204 -37.456 -43.518 2.373 1.00 58.24 C +ATOM 4284 N CYS H 205 -31.958 -42.539 0.897 1.00 56.89 N +ATOM 4285 CA CYS H 205 -31.175 -41.711 -0.016 1.00 56.07 C +ATOM 4286 C CYS H 205 -31.961 -41.433 -1.284 1.00 55.72 C +ATOM 4287 O CYS H 205 -32.673 -42.299 -1.783 1.00 55.64 O +ATOM 4288 CB CYS H 205 -29.842 -42.358 -0.361 1.00 55.97 C +ATOM 4289 SG CYS H 205 -29.996 -43.842 -1.350 1.00 54.99 S +ATOM 4290 N ASN H 206 -31.829 -40.217 -1.795 1.00 55.30 N +ATOM 4291 CA ASN H 206 -32.493 -39.835 -3.028 1.00 54.86 C +ATOM 4292 C ASN H 206 -31.456 -39.616 -4.104 1.00 54.63 C +ATOM 4293 O ASN H 206 -30.711 -38.633 -4.086 1.00 54.51 O +ATOM 4294 CB ASN H 206 -33.344 -38.588 -2.834 1.00 54.80 C +ATOM 4295 CG ASN H 206 -33.955 -38.515 -1.459 1.00 54.74 C +ATOM 4296 OD1 ASN H 206 -33.796 -37.519 -0.763 1.00 55.64 O +ATOM 4297 ND2 ASN H 206 -34.639 -39.576 -1.047 1.00 53.99 N +ATOM 4298 N VAL H 207 -31.411 -40.564 -5.028 1.00 54.34 N +ATOM 4299 CA VAL H 207 -30.450 -40.562 -6.100 1.00 54.21 C +ATOM 4300 C VAL H 207 -31.128 -40.163 -7.409 1.00 54.41 C +ATOM 4301 O VAL H 207 -32.025 -40.862 -7.882 1.00 54.46 O +ATOM 4302 CB VAL H 207 -29.836 -41.955 -6.253 1.00 54.05 C +ATOM 4303 CG1 VAL H 207 -28.693 -41.921 -7.238 1.00 54.56 C +ATOM 4304 CG2 VAL H 207 -29.355 -42.462 -4.920 1.00 53.89 C +ATOM 4305 N ASN H 208 -30.729 -39.029 -7.978 1.00 54.58 N +ATOM 4306 CA ASN H 208 -31.111 -38.734 -9.343 1.00 54.90 C +ATOM 4307 C ASN H 208 -29.908 -38.664 -10.252 1.00 55.09 C +ATOM 4308 O ASN H 208 -28.971 -37.917 -9.977 1.00 55.23 O +ATOM 4309 CB ASN H 208 -31.943 -37.462 -9.480 1.00 54.89 C +ATOM 4310 CG ASN H 208 -32.485 -37.274 -10.914 1.00 56.05 C +ATOM 4311 OD1 ASN H 208 -32.761 -38.244 -11.632 1.00 56.10 O +ATOM 4312 ND2 ASN H 208 -32.624 -36.021 -11.333 1.00 57.88 N +ATOM 4313 N HIS H 209 -29.950 -39.466 -11.318 1.00 55.30 N +ATOM 4314 CA HIS H 209 -29.039 -39.363 -12.454 1.00 55.42 C +ATOM 4315 C HIS H 209 -29.882 -38.885 -13.622 1.00 55.72 C +ATOM 4316 O HIS H 209 -30.490 -39.692 -14.329 1.00 55.87 O +ATOM 4317 CB HIS H 209 -28.423 -40.726 -12.768 1.00 55.15 C +ATOM 4318 CG HIS H 209 -27.479 -40.722 -13.935 1.00 55.05 C +ATOM 4319 ND1 HIS H 209 -27.633 -41.562 -15.017 1.00 55.04 N +ATOM 4320 CD2 HIS H 209 -26.360 -40.000 -14.180 1.00 54.87 C +ATOM 4321 CE1 HIS H 209 -26.652 -41.355 -15.878 1.00 54.47 C +ATOM 4322 NE2 HIS H 209 -25.867 -40.411 -15.396 1.00 53.97 N +ATOM 4323 N LYS H 210 -29.924 -37.566 -13.810 1.00 55.94 N +ATOM 4324 CA LYS H 210 -30.826 -36.943 -14.787 1.00 56.13 C +ATOM 4325 C LYS H 210 -30.623 -37.425 -16.235 1.00 56.19 C +ATOM 4326 O LYS H 210 -31.613 -37.672 -16.937 1.00 56.05 O +ATOM 4327 CB LYS H 210 -30.769 -35.411 -14.697 1.00 56.12 C +ATOM 4328 N PRO H 211 -29.350 -37.565 -16.681 1.00 56.30 N +ATOM 4329 CA PRO H 211 -29.046 -37.952 -18.066 1.00 56.55 C +ATOM 4330 C PRO H 211 -29.651 -39.284 -18.498 1.00 56.93 C +ATOM 4331 O PRO H 211 -29.831 -39.518 -19.691 1.00 56.78 O +ATOM 4332 CB PRO H 211 -27.521 -38.052 -18.072 1.00 56.49 C +ATOM 4333 CG PRO H 211 -27.084 -37.174 -16.981 1.00 56.37 C +ATOM 4334 CD PRO H 211 -28.111 -37.342 -15.914 1.00 56.24 C +ATOM 4335 N SER H 212 -29.952 -40.143 -17.530 1.00 57.53 N +ATOM 4336 CA SER H 212 -30.599 -41.429 -17.787 1.00 58.18 C +ATOM 4337 C SER H 212 -32.067 -41.437 -17.335 1.00 58.57 C +ATOM 4338 O SER H 212 -32.760 -42.457 -17.436 1.00 58.51 O +ATOM 4339 CB SER H 212 -29.816 -42.542 -17.088 1.00 58.14 C +ATOM 4340 OG SER H 212 -30.678 -43.470 -16.458 1.00 58.32 O +ATOM 4341 N ASN H 213 -32.524 -40.285 -16.845 1.00 59.03 N +ATOM 4342 CA ASN H 213 -33.822 -40.144 -16.174 1.00 59.46 C +ATOM 4343 C ASN H 213 -34.125 -41.206 -15.109 1.00 59.18 C +ATOM 4344 O ASN H 213 -35.289 -41.502 -14.826 1.00 59.45 O +ATOM 4345 CB ASN H 213 -34.963 -40.001 -17.188 1.00 59.76 C +ATOM 4346 CG ASN H 213 -34.825 -38.751 -18.042 1.00 61.32 C +ATOM 4347 OD1 ASN H 213 -34.818 -38.833 -19.271 1.00 63.02 O +ATOM 4348 ND2 ASN H 213 -34.702 -37.584 -17.395 1.00 62.58 N +ATOM 4349 N THR H 214 -33.064 -41.763 -14.526 1.00 58.72 N +ATOM 4350 CA THR H 214 -33.164 -42.649 -13.372 1.00 58.45 C +ATOM 4351 C THR H 214 -33.250 -41.808 -12.093 1.00 58.36 C +ATOM 4352 O THR H 214 -32.333 -41.033 -11.798 1.00 58.40 O +ATOM 4353 CB THR H 214 -31.930 -43.562 -13.285 1.00 58.42 C +ATOM 4354 OG1 THR H 214 -31.750 -44.244 -14.531 1.00 58.58 O +ATOM 4355 CG2 THR H 214 -32.079 -44.579 -12.168 1.00 58.25 C +ATOM 4356 N LYS H 215 -34.355 -41.955 -11.355 1.00 58.02 N +ATOM 4357 CA LYS H 215 -34.544 -41.305 -10.051 1.00 57.62 C +ATOM 4358 C LYS H 215 -34.957 -42.379 -9.054 1.00 57.57 C +ATOM 4359 O LYS H 215 -36.023 -42.979 -9.198 1.00 57.78 O +ATOM 4360 CB LYS H 215 -35.606 -40.201 -10.120 1.00 57.32 C +ATOM 4361 N VAL H 216 -34.113 -42.627 -8.053 1.00 57.37 N +ATOM 4362 CA VAL H 216 -34.317 -43.743 -7.114 1.00 57.17 C +ATOM 4363 C VAL H 216 -34.297 -43.300 -5.643 1.00 57.37 C +ATOM 4364 O VAL H 216 -33.635 -42.324 -5.295 1.00 57.51 O +ATOM 4365 CB VAL H 216 -33.284 -44.886 -7.374 1.00 56.94 C +ATOM 4366 CG1 VAL H 216 -33.232 -45.877 -6.225 1.00 56.70 C +ATOM 4367 CG2 VAL H 216 -33.602 -45.609 -8.672 1.00 56.56 C +ATOM 4368 N ASP H 217 -35.052 -44.006 -4.800 1.00 57.61 N +ATOM 4369 CA ASP H 217 -35.008 -43.825 -3.353 1.00 57.94 C +ATOM 4370 C ASP H 217 -34.841 -45.181 -2.734 1.00 58.23 C +ATOM 4371 O ASP H 217 -35.747 -46.004 -2.819 1.00 58.40 O +ATOM 4372 CB ASP H 217 -36.301 -43.218 -2.823 1.00 57.80 C +ATOM 4373 CG ASP H 217 -36.587 -41.869 -3.410 1.00 58.65 C +ATOM 4374 OD1 ASP H 217 -35.783 -40.932 -3.189 1.00 59.53 O +ATOM 4375 OD2 ASP H 217 -37.619 -41.747 -4.104 1.00 59.67 O +ATOM 4376 N LYS H 218 -33.685 -45.419 -2.124 1.00 58.66 N +ATOM 4377 CA LYS H 218 -33.433 -46.679 -1.442 1.00 59.17 C +ATOM 4378 C LYS H 218 -33.435 -46.449 0.065 1.00 59.60 C +ATOM 4379 O LYS H 218 -32.737 -45.565 0.558 1.00 59.76 O +ATOM 4380 CB LYS H 218 -32.112 -47.306 -1.914 1.00 58.91 C +ATOM 4381 N LYS H 219 -34.246 -47.222 0.787 1.00 60.25 N +ATOM 4382 CA LYS H 219 -34.228 -47.203 2.251 1.00 60.83 C +ATOM 4383 C LYS H 219 -32.988 -47.940 2.730 1.00 61.31 C +ATOM 4384 O LYS H 219 -32.683 -49.025 2.251 1.00 61.36 O +ATOM 4385 CB LYS H 219 -35.492 -47.842 2.842 1.00 60.61 C +ATOM 4386 N VAL H 220 -32.259 -47.335 3.655 1.00 62.17 N +ATOM 4387 CA VAL H 220 -31.081 -47.977 4.220 1.00 63.27 C +ATOM 4388 C VAL H 220 -31.365 -48.487 5.644 1.00 64.38 C +ATOM 4389 O VAL H 220 -31.562 -47.702 6.578 1.00 64.57 O +ATOM 4390 CB VAL H 220 -29.852 -47.051 4.162 1.00 62.98 C +ATOM 4391 CG1 VAL H 220 -28.603 -47.788 4.609 1.00 62.65 C +ATOM 4392 CG2 VAL H 220 -29.672 -46.541 2.750 1.00 62.90 C +ATOM 4393 N GLU H 221 -31.394 -49.811 5.792 1.00 65.55 N +ATOM 4394 CA GLU H 221 -31.758 -50.450 7.059 1.00 66.63 C +ATOM 4395 C GLU H 221 -30.596 -51.270 7.620 1.00 67.32 C +ATOM 4396 O GLU H 221 -29.707 -51.670 6.860 1.00 67.38 O +ATOM 4397 CB GLU H 221 -32.990 -51.346 6.868 1.00 66.64 C +ATOM 4398 CG GLU H 221 -34.203 -50.619 6.288 1.00 66.80 C +ATOM 4399 CD GLU H 221 -35.430 -51.503 6.188 1.00 66.86 C +ATOM 4400 OE1 GLU H 221 -35.307 -52.669 5.756 1.00 66.90 O +ATOM 4401 OE2 GLU H 221 -36.528 -51.022 6.537 1.00 67.79 O +ATOM 4402 N PRO H 222 -30.584 -51.501 8.954 1.00 68.01 N +ATOM 4403 CA PRO H 222 -29.613 -52.440 9.542 1.00 68.36 C +ATOM 4404 C PRO H 222 -30.101 -53.882 9.410 1.00 68.70 C +ATOM 4405 O PRO H 222 -31.164 -54.222 9.936 1.00 68.92 O +ATOM 4406 CB PRO H 222 -29.546 -52.015 11.015 1.00 68.36 C +ATOM 4407 CG PRO H 222 -30.839 -51.287 11.285 1.00 68.26 C +ATOM 4408 CD PRO H 222 -31.461 -50.882 9.973 1.00 67.98 C +ATOM 4409 N LYS H 223 -29.343 -54.714 8.700 1.00 68.98 N +ATOM 4410 CA LYS H 223 -29.778 -56.085 8.421 1.00 69.38 C +ATOM 4411 C LYS H 223 -28.787 -57.118 8.952 1.00 69.60 C +ATOM 4412 O LYS H 223 -27.672 -57.252 8.435 1.00 69.87 O +ATOM 4413 CB LYS H 223 -30.036 -56.290 6.918 1.00 69.31 C +ATOM 4414 N ASP L 1 -7.239 -9.639 -24.877 1.00 49.49 N +ATOM 4415 CA ASP L 1 -6.013 -8.806 -25.087 1.00 49.41 C +ATOM 4416 C ASP L 1 -5.273 -8.497 -23.777 1.00 49.12 C +ATOM 4417 O ASP L 1 -4.111 -8.088 -23.800 1.00 49.15 O +ATOM 4418 CB ASP L 1 -6.370 -7.503 -25.819 1.00 49.66 C +ATOM 4419 N ILE L 2 -5.954 -8.674 -22.644 1.00 48.63 N +ATOM 4420 CA ILE L 2 -5.322 -8.514 -21.330 1.00 48.17 C +ATOM 4421 C ILE L 2 -5.215 -9.871 -20.628 1.00 47.72 C +ATOM 4422 O ILE L 2 -6.164 -10.674 -20.645 1.00 47.58 O +ATOM 4423 CB ILE L 2 -6.057 -7.483 -20.439 1.00 48.31 C +ATOM 4424 N GLN L 3 -4.054 -10.113 -20.019 1.00 46.97 N +ATOM 4425 CA GLN L 3 -3.676 -11.447 -19.551 1.00 46.27 C +ATOM 4426 C GLN L 3 -3.264 -11.464 -18.072 1.00 45.62 C +ATOM 4427 O GLN L 3 -2.280 -10.831 -17.666 1.00 45.63 O +ATOM 4428 CB GLN L 3 -2.577 -12.042 -20.450 1.00 46.32 C +ATOM 4429 N MET L 4 -4.021 -12.229 -17.289 1.00 44.69 N +ATOM 4430 CA MET L 4 -3.952 -12.202 -15.831 1.00 43.61 C +ATOM 4431 C MET L 4 -3.016 -13.245 -15.233 1.00 42.69 C +ATOM 4432 O MET L 4 -3.037 -14.410 -15.625 1.00 42.67 O +ATOM 4433 CB MET L 4 -5.358 -12.388 -15.255 1.00 43.87 C +ATOM 4434 CG MET L 4 -6.291 -11.243 -15.560 1.00 43.71 C +ATOM 4435 SD MET L 4 -5.843 -9.824 -14.557 1.00 45.09 S +ATOM 4436 CE MET L 4 -6.074 -8.494 -15.735 1.00 45.02 C +ATOM 4437 N THR L 5 -2.204 -12.824 -14.273 1.00 41.44 N +ATOM 4438 CA THR L 5 -1.370 -13.753 -13.536 1.00 40.51 C +ATOM 4439 C THR L 5 -1.781 -13.689 -12.077 1.00 39.83 C +ATOM 4440 O THR L 5 -1.491 -12.707 -11.389 1.00 39.91 O +ATOM 4441 CB THR L 5 0.134 -13.449 -13.736 1.00 40.53 C +ATOM 4442 OG1 THR L 5 0.484 -13.715 -15.096 1.00 40.37 O +ATOM 4443 CG2 THR L 5 1.009 -14.317 -12.840 1.00 40.70 C +ATOM 4444 N GLN L 6 -2.489 -14.722 -11.626 1.00 38.86 N +ATOM 4445 CA GLN L 6 -2.965 -14.797 -10.252 1.00 38.02 C +ATOM 4446 C GLN L 6 -1.974 -15.628 -9.503 1.00 37.76 C +ATOM 4447 O GLN L 6 -1.337 -16.498 -10.091 1.00 38.31 O +ATOM 4448 CB GLN L 6 -4.322 -15.473 -10.190 1.00 37.95 C +ATOM 4449 CG GLN L 6 -4.943 -15.474 -8.805 1.00 37.93 C +ATOM 4450 CD GLN L 6 -6.412 -15.859 -8.818 1.00 37.80 C +ATOM 4451 OE1 GLN L 6 -6.990 -16.180 -7.785 1.00 36.87 O +ATOM 4452 NE2 GLN L 6 -7.022 -15.821 -9.991 1.00 38.42 N +ATOM 4453 N SER L 7 -1.831 -15.371 -8.210 1.00 37.07 N +ATOM 4454 CA SER L 7 -0.822 -16.050 -7.419 1.00 36.18 C +ATOM 4455 C SER L 7 -1.136 -15.872 -5.946 1.00 35.95 C +ATOM 4456 O SER L 7 -1.487 -14.768 -5.528 1.00 36.02 O +ATOM 4457 CB SER L 7 0.549 -15.466 -7.731 1.00 36.04 C +ATOM 4458 OG SER L 7 1.544 -16.432 -7.500 1.00 35.95 O +ATOM 4459 N PRO L 8 -0.971 -16.937 -5.138 1.00 35.58 N +ATOM 4460 CA PRO L 8 -0.411 -18.236 -5.485 1.00 35.42 C +ATOM 4461 C PRO L 8 -1.436 -19.253 -6.005 1.00 35.34 C +ATOM 4462 O PRO L 8 -2.604 -18.922 -6.166 1.00 35.07 O +ATOM 4463 CB PRO L 8 0.172 -18.695 -4.160 1.00 35.05 C +ATOM 4464 CG PRO L 8 -0.781 -18.153 -3.164 1.00 35.03 C +ATOM 4465 CD PRO L 8 -1.322 -16.877 -3.708 1.00 35.50 C +ATOM 4466 N SER L 9 -0.973 -20.471 -6.280 1.00 35.32 N +ATOM 4467 CA SER L 9 -1.841 -21.564 -6.660 1.00 35.60 C +ATOM 4468 C SER L 9 -2.558 -22.110 -5.438 1.00 36.08 C +ATOM 4469 O SER L 9 -3.776 -22.274 -5.456 1.00 36.56 O +ATOM 4470 CB SER L 9 -1.039 -22.669 -7.323 1.00 35.47 C +ATOM 4471 OG SER L 9 -0.289 -22.141 -8.399 1.00 36.24 O +ATOM 4472 N SER L 10 -1.806 -22.399 -4.380 1.00 36.30 N +ATOM 4473 CA SER L 10 -2.394 -22.832 -3.123 1.00 36.66 C +ATOM 4474 C SER L 10 -1.812 -22.052 -1.964 1.00 37.06 C +ATOM 4475 O SER L 10 -0.831 -21.317 -2.103 1.00 37.21 O +ATOM 4476 CB SER L 10 -2.140 -24.310 -2.877 1.00 36.73 C +ATOM 4477 OG SER L 10 -2.330 -25.060 -4.054 1.00 38.10 O +ATOM 4478 N LEU L 11 -2.396 -22.272 -0.797 1.00 37.32 N +ATOM 4479 CA LEU L 11 -2.154 -21.447 0.352 1.00 37.53 C +ATOM 4480 C LEU L 11 -2.774 -22.173 1.524 1.00 37.48 C +ATOM 4481 O LEU L 11 -3.985 -22.430 1.523 1.00 37.98 O +ATOM 4482 CB LEU L 11 -2.885 -20.130 0.132 1.00 37.56 C +ATOM 4483 CG LEU L 11 -2.840 -18.982 1.120 1.00 38.27 C +ATOM 4484 CD1 LEU L 11 -1.429 -18.552 1.282 1.00 40.64 C +ATOM 4485 CD2 LEU L 11 -3.635 -17.825 0.563 1.00 38.35 C +ATOM 4486 N SER L 12 -1.966 -22.522 2.519 1.00 37.08 N +ATOM 4487 CA SER L 12 -2.529 -23.049 3.757 1.00 36.58 C +ATOM 4488 C SER L 12 -2.252 -22.113 4.921 1.00 35.88 C +ATOM 4489 O SER L 12 -1.120 -21.659 5.109 1.00 35.75 O +ATOM 4490 CB SER L 12 -2.002 -24.449 4.046 1.00 36.87 C +ATOM 4491 OG SER L 12 -2.910 -25.159 4.874 1.00 38.21 O +ATOM 4492 N ALA L 13 -3.295 -21.796 5.681 1.00 35.09 N +ATOM 4493 CA ALA L 13 -3.136 -20.950 6.862 1.00 34.53 C +ATOM 4494 C ALA L 13 -4.190 -21.210 7.935 1.00 34.16 C +ATOM 4495 O ALA L 13 -5.185 -21.902 7.712 1.00 34.18 O +ATOM 4496 CB ALA L 13 -3.093 -19.484 6.486 1.00 34.42 C +ATOM 4497 N SER L 14 -3.953 -20.660 9.113 1.00 33.52 N +ATOM 4498 CA SER L 14 -4.719 -21.054 10.268 1.00 33.03 C +ATOM 4499 C SER L 14 -5.923 -20.152 10.377 1.00 32.78 C +ATOM 4500 O SER L 14 -5.985 -19.111 9.724 1.00 32.76 O +ATOM 4501 CB SER L 14 -3.848 -20.978 11.528 1.00 33.09 C +ATOM 4502 OG SER L 14 -2.591 -21.612 11.326 1.00 32.92 O +ATOM 4503 N VAL L 15 -6.890 -20.560 11.193 1.00 32.42 N +ATOM 4504 CA VAL L 15 -8.060 -19.739 11.457 1.00 31.88 C +ATOM 4505 C VAL L 15 -7.606 -18.445 12.096 1.00 31.49 C +ATOM 4506 O VAL L 15 -6.736 -18.459 12.959 1.00 31.64 O +ATOM 4507 CB VAL L 15 -9.020 -20.448 12.398 1.00 31.93 C +ATOM 4508 CG1 VAL L 15 -10.166 -19.526 12.781 1.00 32.16 C +ATOM 4509 CG2 VAL L 15 -9.528 -21.744 11.760 1.00 32.15 C +ATOM 4510 N GLY L 16 -8.173 -17.330 11.654 1.00 31.15 N +ATOM 4511 CA GLY L 16 -7.832 -16.023 12.210 1.00 30.55 C +ATOM 4512 C GLY L 16 -6.689 -15.349 11.481 1.00 30.13 C +ATOM 4513 O GLY L 16 -6.445 -14.161 11.675 1.00 29.88 O +ATOM 4514 N ASP L 17 -6.007 -16.111 10.627 1.00 29.94 N +ATOM 4515 CA ASP L 17 -4.816 -15.643 9.926 1.00 29.69 C +ATOM 4516 C ASP L 17 -5.176 -14.776 8.752 1.00 29.21 C +ATOM 4517 O ASP L 17 -6.311 -14.802 8.296 1.00 29.18 O +ATOM 4518 CB ASP L 17 -3.977 -16.821 9.432 1.00 29.99 C +ATOM 4519 CG ASP L 17 -3.066 -17.393 10.511 1.00 30.85 C +ATOM 4520 OD1 ASP L 17 -3.293 -17.076 11.709 1.00 31.11 O +ATOM 4521 OD2 ASP L 17 -2.131 -18.163 10.153 1.00 31.47 O +ATOM 4522 N ARG L 18 -4.191 -14.025 8.265 1.00 28.88 N +ATOM 4523 CA ARG L 18 -4.373 -13.107 7.149 1.00 28.58 C +ATOM 4524 C ARG L 18 -4.011 -13.735 5.809 1.00 28.59 C +ATOM 4525 O ARG L 18 -2.881 -14.163 5.576 1.00 28.31 O +ATOM 4526 CB ARG L 18 -3.564 -11.840 7.366 1.00 28.59 C +ATOM 4527 CG ARG L 18 -3.722 -10.809 6.269 1.00 28.08 C +ATOM 4528 CD ARG L 18 -2.711 -9.685 6.423 1.00 27.28 C +ATOM 4529 NE ARG L 18 -3.265 -8.438 5.931 1.00 28.28 N +ATOM 4530 CZ ARG L 18 -3.827 -7.516 6.706 1.00 30.52 C +ATOM 4531 NH1 ARG L 18 -3.886 -7.690 8.027 1.00 30.70 N +ATOM 4532 NH2 ARG L 18 -4.323 -6.406 6.158 1.00 32.20 N +ATOM 4533 N VAL L 19 -4.999 -13.764 4.927 1.00 28.83 N +ATOM 4534 CA VAL L 19 -4.857 -14.395 3.628 1.00 28.71 C +ATOM 4535 C VAL L 19 -4.868 -13.323 2.558 1.00 29.01 C +ATOM 4536 O VAL L 19 -5.850 -12.589 2.411 1.00 28.68 O +ATOM 4537 CB VAL L 19 -5.960 -15.433 3.392 1.00 28.47 C +ATOM 4538 CG1 VAL L 19 -6.158 -15.693 1.899 1.00 27.68 C +ATOM 4539 CG2 VAL L 19 -5.631 -16.724 4.161 1.00 28.13 C +ATOM 4540 N THR L 20 -3.744 -13.212 1.848 1.00 29.46 N +ATOM 4541 CA THR L 20 -3.614 -12.229 0.773 1.00 29.71 C +ATOM 4542 C THR L 20 -3.248 -12.912 -0.561 1.00 29.88 C +ATOM 4543 O THR L 20 -2.272 -13.677 -0.643 1.00 29.50 O +ATOM 4544 CB THR L 20 -2.626 -11.070 1.120 1.00 29.47 C +ATOM 4545 OG1 THR L 20 -1.358 -11.366 0.569 1.00 30.04 O +ATOM 4546 CG2 THR L 20 -2.438 -10.904 2.602 1.00 29.16 C +ATOM 4547 N ILE L 21 -4.070 -12.644 -1.578 1.00 30.14 N +ATOM 4548 CA ILE L 21 -3.920 -13.216 -2.907 1.00 30.88 C +ATOM 4549 C ILE L 21 -3.794 -12.110 -3.949 1.00 31.53 C +ATOM 4550 O ILE L 21 -4.788 -11.449 -4.281 1.00 31.84 O +ATOM 4551 CB ILE L 21 -5.143 -14.065 -3.318 1.00 30.76 C +ATOM 4552 CG1 ILE L 21 -5.402 -15.198 -2.333 1.00 30.71 C +ATOM 4553 CG2 ILE L 21 -4.939 -14.640 -4.717 1.00 31.07 C +ATOM 4554 CD1 ILE L 21 -6.754 -15.846 -2.527 1.00 31.28 C +ATOM 4555 N THR L 22 -2.585 -11.927 -4.480 1.00 32.07 N +ATOM 4556 CA THR L 22 -2.345 -10.947 -5.532 1.00 32.50 C +ATOM 4557 C THR L 22 -2.870 -11.477 -6.847 1.00 33.10 C +ATOM 4558 O THR L 22 -2.971 -12.688 -7.046 1.00 33.46 O +ATOM 4559 CB THR L 22 -0.865 -10.688 -5.736 1.00 32.23 C +ATOM 4560 OG1 THR L 22 -0.333 -11.682 -6.617 1.00 32.21 O +ATOM 4561 CG2 THR L 22 -0.137 -10.747 -4.423 1.00 32.59 C +ATOM 4562 N CYS L 23 -3.191 -10.566 -7.751 1.00 33.97 N +ATOM 4563 CA CYS L 23 -3.546 -10.940 -9.098 1.00 34.31 C +ATOM 4564 C CYS L 23 -3.144 -9.837 -10.068 1.00 34.75 C +ATOM 4565 O CYS L 23 -3.758 -8.772 -10.121 1.00 34.55 O +ATOM 4566 CB CYS L 23 -5.025 -11.251 -9.191 1.00 34.27 C +ATOM 4567 SG CYS L 23 -5.609 -11.252 -10.878 1.00 35.58 S +ATOM 4568 N SER L 24 -2.095 -10.122 -10.833 1.00 35.56 N +ATOM 4569 CA SER L 24 -1.423 -9.141 -11.676 1.00 36.19 C +ATOM 4570 C SER L 24 -2.012 -9.082 -13.094 1.00 36.41 C +ATOM 4571 O SER L 24 -2.696 -10.003 -13.521 1.00 36.76 O +ATOM 4572 CB SER L 24 0.073 -9.456 -11.703 1.00 36.02 C +ATOM 4573 OG SER L 24 0.641 -9.078 -12.939 1.00 36.82 O +ATOM 4574 N ALA L 25 -1.731 -8.003 -13.817 1.00 36.64 N +ATOM 4575 CA ALA L 25 -2.317 -7.784 -15.128 1.00 37.28 C +ATOM 4576 C ALA L 25 -1.288 -7.339 -16.183 1.00 38.04 C +ATOM 4577 O ALA L 25 -0.418 -6.514 -15.891 1.00 38.35 O +ATOM 4578 CB ALA L 25 -3.403 -6.767 -15.011 1.00 37.18 C +ATOM 4579 N SER L 26 -1.410 -7.872 -17.406 1.00 38.66 N +ATOM 4580 CA SER L 26 -0.506 -7.562 -18.527 1.00 39.09 C +ATOM 4581 C SER L 26 -0.555 -6.076 -18.939 1.00 39.79 C +ATOM 4582 O SER L 26 0.347 -5.323 -18.585 1.00 40.31 O +ATOM 4583 CB SER L 26 -0.776 -8.484 -19.714 1.00 38.83 C +ATOM 4584 OG SER L 26 -2.064 -8.243 -20.250 1.00 39.07 O +ATOM 4585 N SER L 27 -1.585 -5.646 -19.676 1.00 40.38 N +ATOM 4586 CA SER L 27 -1.825 -4.205 -19.886 1.00 40.54 C +ATOM 4587 C SER L 27 -2.612 -3.641 -18.683 1.00 41.07 C +ATOM 4588 O SER L 27 -2.756 -4.319 -17.653 1.00 40.97 O +ATOM 4589 CB SER L 27 -2.551 -3.943 -21.219 1.00 40.35 C +ATOM 4590 OG SER L 27 -3.940 -3.675 -21.042 1.00 39.62 O +ATOM 4591 N SER L 28 -3.123 -2.414 -18.807 1.00 41.61 N +ATOM 4592 CA SER L 28 -3.966 -1.822 -17.754 1.00 41.85 C +ATOM 4593 C SER L 28 -5.457 -2.166 -17.861 1.00 41.82 C +ATOM 4594 O SER L 28 -5.981 -2.430 -18.951 1.00 41.88 O +ATOM 4595 CB SER L 28 -3.784 -0.307 -17.668 1.00 41.99 C +ATOM 4596 OG SER L 28 -4.220 0.151 -16.398 1.00 42.38 O +ATOM 4597 N VAL L 29 -6.119 -2.118 -16.706 1.00 41.67 N +ATOM 4598 CA VAL L 29 -7.437 -2.719 -16.485 1.00 41.38 C +ATOM 4599 C VAL L 29 -8.402 -1.727 -15.844 1.00 40.84 C +ATOM 4600 O VAL L 29 -8.082 -1.113 -14.814 1.00 40.94 O +ATOM 4601 CB VAL L 29 -7.302 -3.970 -15.565 1.00 41.62 C +ATOM 4602 CG1 VAL L 29 -5.968 -3.930 -14.821 1.00 42.07 C +ATOM 4603 CG2 VAL L 29 -8.471 -4.088 -14.567 1.00 41.65 C +ATOM 4604 N THR L 37 -9.587 -1.589 -16.436 1.00 39.90 N +ATOM 4605 CA THR L 37 -10.581 -0.660 -15.906 1.00 39.12 C +ATOM 4606 C THR L 37 -11.228 -1.177 -14.604 1.00 38.44 C +ATOM 4607 O THR L 37 -11.155 -0.520 -13.562 1.00 38.54 O +ATOM 4608 CB THR L 37 -11.641 -0.258 -16.973 1.00 39.23 C +ATOM 4609 OG1 THR L 37 -12.701 -1.224 -17.022 1.00 39.83 O +ATOM 4610 CG2 THR L 37 -11.015 -0.141 -18.355 1.00 39.40 C +ATOM 4611 N TYR L 38 -11.834 -2.362 -14.656 1.00 37.58 N +ATOM 4612 CA TYR L 38 -12.577 -2.899 -13.508 1.00 36.42 C +ATOM 4613 C TYR L 38 -12.092 -4.283 -13.087 1.00 35.55 C +ATOM 4614 O TYR L 38 -11.775 -5.140 -13.923 1.00 34.96 O +ATOM 4615 CB TYR L 38 -14.087 -2.969 -13.789 1.00 36.58 C +ATOM 4616 CG TYR L 38 -14.798 -1.670 -14.112 1.00 35.96 C +ATOM 4617 CD1 TYR L 38 -14.540 -0.487 -13.417 1.00 35.93 C +ATOM 4618 CD2 TYR L 38 -15.772 -1.650 -15.084 1.00 36.34 C +ATOM 4619 CE1 TYR L 38 -15.225 0.695 -13.728 1.00 36.32 C +ATOM 4620 CE2 TYR L 38 -16.463 -0.490 -15.403 1.00 37.60 C +ATOM 4621 CZ TYR L 38 -16.196 0.682 -14.730 1.00 37.08 C +ATOM 4622 OH TYR L 38 -16.922 1.805 -15.094 1.00 36.10 O +ATOM 4623 N MET L 39 -12.085 -4.486 -11.773 1.00 34.57 N +ATOM 4624 CA MET L 39 -11.506 -5.663 -11.146 1.00 33.55 C +ATOM 4625 C MET L 39 -12.533 -6.263 -10.207 1.00 32.60 C +ATOM 4626 O MET L 39 -13.156 -5.551 -9.417 1.00 32.25 O +ATOM 4627 CB MET L 39 -10.228 -5.263 -10.391 1.00 33.71 C +ATOM 4628 CG MET L 39 -9.484 -6.383 -9.677 1.00 34.48 C +ATOM 4629 SD MET L 39 -9.144 -7.862 -10.657 1.00 36.75 S +ATOM 4630 CE MET L 39 -8.077 -7.223 -11.953 1.00 36.10 C +ATOM 4631 N TYR L 40 -12.710 -7.574 -10.308 1.00 31.60 N +ATOM 4632 CA TYR L 40 -13.703 -8.285 -9.516 1.00 30.96 C +ATOM 4633 C TYR L 40 -13.008 -9.364 -8.723 1.00 30.40 C +ATOM 4634 O TYR L 40 -11.901 -9.736 -9.064 1.00 30.61 O +ATOM 4635 CB TYR L 40 -14.775 -8.879 -10.434 1.00 31.08 C +ATOM 4636 CG TYR L 40 -15.435 -7.819 -11.266 1.00 31.22 C +ATOM 4637 CD1 TYR L 40 -16.428 -7.015 -10.722 1.00 32.16 C +ATOM 4638 CD2 TYR L 40 -15.036 -7.575 -12.575 1.00 31.02 C +ATOM 4639 CE1 TYR L 40 -17.027 -6.005 -11.466 1.00 32.39 C +ATOM 4640 CE2 TYR L 40 -15.623 -6.567 -13.331 1.00 31.24 C +ATOM 4641 CZ TYR L 40 -16.625 -5.784 -12.770 1.00 31.80 C +ATOM 4642 OH TYR L 40 -17.242 -4.783 -13.495 1.00 31.92 O +ATOM 4643 N TRP L 41 -13.640 -9.846 -7.655 1.00 29.67 N +ATOM 4644 CA TRP L 41 -13.117 -10.984 -6.905 1.00 29.01 C +ATOM 4645 C TRP L 41 -14.220 -11.946 -6.539 1.00 28.83 C +ATOM 4646 O TRP L 41 -15.152 -11.588 -5.815 1.00 28.50 O +ATOM 4647 CB TRP L 41 -12.396 -10.535 -5.642 1.00 29.03 C +ATOM 4648 CG TRP L 41 -11.140 -9.839 -5.917 1.00 28.15 C +ATOM 4649 CD1 TRP L 41 -10.969 -8.505 -6.061 1.00 27.69 C +ATOM 4650 CD2 TRP L 41 -9.864 -10.436 -6.097 1.00 27.55 C +ATOM 4651 NE1 TRP L 41 -9.656 -8.222 -6.312 1.00 28.08 N +ATOM 4652 CE2 TRP L 41 -8.952 -9.395 -6.345 1.00 28.24 C +ATOM 4653 CE3 TRP L 41 -9.399 -11.752 -6.087 1.00 28.07 C +ATOM 4654 CZ2 TRP L 41 -7.589 -9.627 -6.581 1.00 28.82 C +ATOM 4655 CZ3 TRP L 41 -8.036 -11.988 -6.322 1.00 28.37 C +ATOM 4656 CH2 TRP L 41 -7.153 -10.928 -6.564 1.00 28.55 C +ATOM 4657 N TYR L 42 -14.083 -13.172 -7.042 1.00 28.75 N +ATOM 4658 CA TYR L 42 -15.072 -14.232 -6.896 1.00 28.61 C +ATOM 4659 C TYR L 42 -14.588 -15.330 -5.961 1.00 28.86 C +ATOM 4660 O TYR L 42 -13.380 -15.571 -5.828 1.00 29.16 O +ATOM 4661 CB TYR L 42 -15.384 -14.835 -8.256 1.00 28.22 C +ATOM 4662 CG TYR L 42 -16.416 -14.074 -9.049 1.00 28.54 C +ATOM 4663 CD1 TYR L 42 -17.779 -14.305 -8.843 1.00 29.38 C +ATOM 4664 CD2 TYR L 42 -16.043 -13.138 -10.022 1.00 27.98 C +ATOM 4665 CE1 TYR L 42 -18.759 -13.612 -9.584 1.00 29.53 C +ATOM 4666 CE2 TYR L 42 -17.009 -12.442 -10.771 1.00 28.15 C +ATOM 4667 CZ TYR L 42 -18.370 -12.687 -10.547 1.00 28.75 C +ATOM 4668 OH TYR L 42 -19.348 -12.033 -11.270 1.00 27.19 O +ATOM 4669 N GLN L 43 -15.541 -15.999 -5.319 1.00 28.91 N +ATOM 4670 CA GLN L 43 -15.250 -17.097 -4.409 1.00 28.84 C +ATOM 4671 C GLN L 43 -16.036 -18.323 -4.842 1.00 28.97 C +ATOM 4672 O GLN L 43 -17.251 -18.239 -5.011 1.00 29.37 O +ATOM 4673 CB GLN L 43 -15.664 -16.714 -3.000 1.00 28.76 C +ATOM 4674 CG GLN L 43 -15.661 -17.878 -2.052 1.00 28.87 C +ATOM 4675 CD GLN L 43 -16.264 -17.545 -0.725 1.00 29.37 C +ATOM 4676 OE1 GLN L 43 -17.474 -17.320 -0.617 1.00 29.70 O +ATOM 4677 NE2 GLN L 43 -15.427 -17.529 0.313 1.00 29.04 N +ATOM 4678 N GLN L 44 -15.358 -19.456 -5.018 1.00 28.91 N +ATOM 4679 CA GLN L 44 -16.036 -20.674 -5.441 1.00 28.77 C +ATOM 4680 C GLN L 44 -15.816 -21.757 -4.443 1.00 29.02 C +ATOM 4681 O GLN L 44 -14.734 -22.325 -4.405 1.00 28.79 O +ATOM 4682 CB GLN L 44 -15.517 -21.150 -6.789 1.00 28.61 C +ATOM 4683 CG GLN L 44 -16.604 -21.781 -7.616 1.00 28.79 C +ATOM 4684 CD GLN L 44 -16.110 -22.662 -8.742 1.00 28.66 C +ATOM 4685 OE1 GLN L 44 -14.924 -22.687 -9.079 1.00 28.43 O +ATOM 4686 NE2 GLN L 44 -17.038 -23.396 -9.339 1.00 29.19 N +ATOM 4687 N LYS L 45 -16.838 -22.036 -3.631 1.00 29.80 N +ATOM 4688 CA LYS L 45 -16.782 -23.129 -2.646 1.00 30.71 C +ATOM 4689 C LYS L 45 -17.012 -24.464 -3.341 1.00 31.36 C +ATOM 4690 O LYS L 45 -17.783 -24.526 -4.312 1.00 31.79 O +ATOM 4691 CB LYS L 45 -17.807 -22.939 -1.529 1.00 30.56 C +ATOM 4692 CG LYS L 45 -17.681 -21.619 -0.784 1.00 31.79 C +ATOM 4693 CD LYS L 45 -17.831 -21.770 0.726 1.00 33.15 C +ATOM 4694 CE LYS L 45 -18.304 -20.445 1.332 1.00 34.40 C +ATOM 4695 NZ LYS L 45 -18.740 -20.590 2.760 1.00 35.87 N +ATOM 4696 N PRO L 46 -16.371 -25.548 -2.849 1.00 31.82 N +ATOM 4697 CA PRO L 46 -16.457 -26.806 -3.608 1.00 32.20 C +ATOM 4698 C PRO L 46 -17.910 -27.147 -4.011 1.00 32.47 C +ATOM 4699 O PRO L 46 -18.820 -27.058 -3.177 1.00 32.32 O +ATOM 4700 CB PRO L 46 -15.900 -27.847 -2.624 1.00 32.04 C +ATOM 4701 CG PRO L 46 -15.871 -27.150 -1.273 1.00 31.52 C +ATOM 4702 CD PRO L 46 -15.609 -25.725 -1.601 1.00 31.59 C +ATOM 4703 N GLY L 47 -18.122 -27.476 -5.286 1.00 32.72 N +ATOM 4704 CA GLY L 47 -19.432 -27.949 -5.757 1.00 33.07 C +ATOM 4705 C GLY L 47 -20.507 -26.881 -5.926 1.00 33.25 C +ATOM 4706 O GLY L 47 -21.492 -27.094 -6.651 1.00 33.51 O +ATOM 4707 N LYS L 48 -20.338 -25.744 -5.247 1.00 32.84 N +ATOM 4708 CA LYS L 48 -21.189 -24.582 -5.480 1.00 32.29 C +ATOM 4709 C LYS L 48 -20.653 -23.756 -6.673 1.00 32.13 C +ATOM 4710 O LYS L 48 -19.573 -24.042 -7.207 1.00 32.18 O +ATOM 4711 CB LYS L 48 -21.304 -23.746 -4.205 1.00 32.02 C +ATOM 4712 N ALA L 49 -21.424 -22.758 -7.106 1.00 31.76 N +ATOM 4713 CA ALA L 49 -20.997 -21.825 -8.157 1.00 31.11 C +ATOM 4714 C ALA L 49 -20.146 -20.674 -7.577 1.00 30.86 C +ATOM 4715 O ALA L 49 -20.097 -20.494 -6.356 1.00 30.95 O +ATOM 4716 CB ALA L 49 -22.216 -21.279 -8.906 1.00 30.71 C +ATOM 4717 N PRO L 50 -19.430 -19.924 -8.441 1.00 30.49 N +ATOM 4718 CA PRO L 50 -18.781 -18.673 -8.065 1.00 30.37 C +ATOM 4719 C PRO L 50 -19.647 -17.706 -7.238 1.00 30.30 C +ATOM 4720 O PRO L 50 -20.862 -17.656 -7.417 1.00 30.57 O +ATOM 4721 CB PRO L 50 -18.475 -18.049 -9.429 1.00 30.44 C +ATOM 4722 CG PRO L 50 -18.180 -19.198 -10.281 1.00 29.91 C +ATOM 4723 CD PRO L 50 -19.129 -20.271 -9.844 1.00 30.45 C +ATOM 4724 N LYS L 51 -19.023 -16.940 -6.347 1.00 30.19 N +ATOM 4725 CA LYS L 51 -19.731 -15.882 -5.625 1.00 30.32 C +ATOM 4726 C LYS L 51 -18.900 -14.594 -5.621 1.00 30.37 C +ATOM 4727 O LYS L 51 -17.769 -14.585 -5.129 1.00 30.57 O +ATOM 4728 CB LYS L 51 -20.063 -16.304 -4.185 1.00 30.24 C +ATOM 4729 CG LYS L 51 -21.402 -15.756 -3.677 1.00 30.63 C +ATOM 4730 CD LYS L 51 -21.273 -15.044 -2.320 1.00 31.53 C +ATOM 4731 CE LYS L 51 -21.217 -16.010 -1.126 1.00 31.69 C +ATOM 4732 NZ LYS L 51 -20.948 -15.321 0.185 1.00 30.48 N +ATOM 4733 N LEU L 52 -19.466 -13.519 -6.177 1.00 30.13 N +ATOM 4734 CA LEU L 52 -18.824 -12.215 -6.175 1.00 29.63 C +ATOM 4735 C LEU L 52 -18.723 -11.691 -4.774 1.00 29.55 C +ATOM 4736 O LEU L 52 -19.748 -11.439 -4.142 1.00 29.64 O +ATOM 4737 CB LEU L 52 -19.630 -11.204 -6.973 1.00 29.74 C +ATOM 4738 CG LEU L 52 -18.993 -9.814 -6.994 1.00 29.88 C +ATOM 4739 CD1 LEU L 52 -17.777 -9.820 -7.913 1.00 31.20 C +ATOM 4740 CD2 LEU L 52 -19.967 -8.771 -7.455 1.00 31.02 C +ATOM 4741 N LEU L 53 -17.486 -11.518 -4.305 1.00 29.36 N +ATOM 4742 CA LEU L 53 -17.204 -10.862 -3.025 1.00 29.01 C +ATOM 4743 C LEU L 53 -16.864 -9.373 -3.135 1.00 29.08 C +ATOM 4744 O LEU L 53 -17.282 -8.576 -2.299 1.00 29.11 O +ATOM 4745 CB LEU L 53 -16.093 -11.590 -2.283 1.00 28.72 C +ATOM 4746 CG LEU L 53 -16.595 -12.619 -1.288 1.00 28.24 C +ATOM 4747 CD1 LEU L 53 -17.721 -13.426 -1.885 1.00 29.23 C +ATOM 4748 CD2 LEU L 53 -15.469 -13.514 -0.896 1.00 28.01 C +ATOM 4749 N ILE L 54 -16.108 -8.990 -4.152 1.00 28.97 N +ATOM 4750 CA ILE L 54 -15.667 -7.620 -4.238 1.00 29.20 C +ATOM 4751 C ILE L 54 -15.708 -7.202 -5.666 1.00 29.83 C +ATOM 4752 O ILE L 54 -15.271 -7.954 -6.526 1.00 30.06 O +ATOM 4753 CB ILE L 54 -14.230 -7.482 -3.697 1.00 29.19 C +ATOM 4754 CG1 ILE L 54 -14.257 -7.441 -2.175 1.00 28.26 C +ATOM 4755 CG2 ILE L 54 -13.548 -6.219 -4.228 1.00 28.64 C +ATOM 4756 CD1 ILE L 54 -13.086 -8.015 -1.601 1.00 27.67 C +ATOM 4757 N TYR L 55 -16.227 -6.008 -5.930 1.00 30.68 N +ATOM 4758 CA TYR L 55 -16.230 -5.483 -7.301 1.00 31.69 C +ATOM 4759 C TYR L 55 -15.580 -4.100 -7.391 1.00 32.23 C +ATOM 4760 O TYR L 55 -15.502 -3.364 -6.401 1.00 32.70 O +ATOM 4761 CB TYR L 55 -17.650 -5.472 -7.901 1.00 31.59 C +ATOM 4762 CG TYR L 55 -18.565 -4.481 -7.244 1.00 31.59 C +ATOM 4763 CD1 TYR L 55 -19.413 -4.877 -6.224 1.00 32.16 C +ATOM 4764 CD2 TYR L 55 -18.567 -3.139 -7.622 1.00 31.28 C +ATOM 4765 CE1 TYR L 55 -20.256 -3.970 -5.600 1.00 32.70 C +ATOM 4766 CE2 TYR L 55 -19.402 -2.223 -7.005 1.00 31.63 C +ATOM 4767 CZ TYR L 55 -20.249 -2.648 -5.994 1.00 32.17 C +ATOM 4768 OH TYR L 55 -21.091 -1.765 -5.361 1.00 32.28 O +ATOM 4769 N ASP L 56 -15.111 -3.766 -8.585 1.00 32.58 N +ATOM 4770 CA ASP L 56 -14.489 -2.479 -8.866 1.00 33.12 C +ATOM 4771 C ASP L 56 -13.090 -2.280 -8.350 1.00 33.24 C +ATOM 4772 O ASP L 56 -12.318 -1.553 -8.967 1.00 34.26 O +ATOM 4773 CB ASP L 56 -15.383 -1.334 -8.470 1.00 33.20 C +ATOM 4774 CG ASP L 56 -16.395 -1.040 -9.529 1.00 34.54 C +ATOM 4775 OD1 ASP L 56 -16.632 -1.922 -10.389 1.00 34.00 O +ATOM 4776 OD2 ASP L 56 -16.947 0.078 -9.510 1.00 37.63 O +ATOM 4777 N THR L 57 -12.777 -2.922 -7.236 1.00 32.92 N +ATOM 4778 CA THR L 57 -11.418 -3.147 -6.749 1.00 32.84 C +ATOM 4779 C THR L 57 -11.600 -3.450 -5.289 1.00 32.83 C +ATOM 4780 O THR L 57 -11.044 -4.412 -4.786 1.00 32.97 O +ATOM 4781 CB THR L 57 -10.416 -1.943 -6.909 1.00 32.86 C +ATOM 4782 OG1 THR L 57 -9.979 -1.830 -8.268 1.00 33.01 O +ATOM 4783 CG2 THR L 57 -9.169 -2.162 -6.070 1.00 32.76 C +ATOM 4784 N SER L 65 -12.418 -2.641 -4.627 1.00 32.80 N +ATOM 4785 CA SER L 65 -12.531 -2.681 -3.181 1.00 32.85 C +ATOM 4786 C SER L 65 -13.957 -2.734 -2.668 1.00 32.84 C +ATOM 4787 O SER L 65 -14.169 -2.996 -1.479 1.00 33.12 O +ATOM 4788 CB SER L 65 -11.851 -1.460 -2.586 1.00 32.94 C +ATOM 4789 OG SER L 65 -12.479 -0.280 -3.049 1.00 33.60 O +ATOM 4790 N ASN L 66 -14.925 -2.472 -3.545 1.00 32.54 N +ATOM 4791 CA ASN L 66 -16.323 -2.489 -3.155 1.00 32.29 C +ATOM 4792 C ASN L 66 -16.809 -3.866 -2.761 1.00 32.58 C +ATOM 4793 O ASN L 66 -17.059 -4.715 -3.635 1.00 32.42 O +ATOM 4794 CB ASN L 66 -17.185 -1.965 -4.278 1.00 32.12 C +ATOM 4795 CG ASN L 66 -17.108 -0.487 -4.405 1.00 31.66 C +ATOM 4796 OD1 ASN L 66 -16.165 0.142 -3.919 1.00 30.26 O +ATOM 4797 ND2 ASN L 66 -18.108 0.097 -5.058 1.00 31.49 N +ATOM 4798 N LEU L 67 -16.926 -4.074 -1.443 1.00 32.68 N +ATOM 4799 CA LEU L 67 -17.471 -5.308 -0.881 1.00 32.86 C +ATOM 4800 C LEU L 67 -18.890 -5.516 -1.357 1.00 32.86 C +ATOM 4801 O LEU L 67 -19.763 -4.719 -1.089 1.00 32.74 O +ATOM 4802 CB LEU L 67 -17.422 -5.299 0.654 1.00 32.79 C +ATOM 4803 CG LEU L 67 -16.167 -5.902 1.316 1.00 33.43 C +ATOM 4804 CD1 LEU L 67 -16.024 -5.531 2.788 1.00 32.49 C +ATOM 4805 CD2 LEU L 67 -16.115 -7.427 1.166 1.00 34.14 C +ATOM 4806 N ALA L 68 -19.116 -6.585 -2.095 1.00 33.51 N +ATOM 4807 CA ALA L 68 -20.472 -6.941 -2.477 1.00 34.23 C +ATOM 4808 C ALA L 68 -21.342 -6.993 -1.228 1.00 34.67 C +ATOM 4809 O ALA L 68 -20.835 -7.141 -0.100 1.00 35.25 O +ATOM 4810 CB ALA L 68 -20.498 -8.285 -3.193 1.00 34.24 C +ATOM 4811 N SER L 69 -22.650 -6.874 -1.444 1.00 34.72 N +ATOM 4812 CA SER L 69 -23.635 -6.832 -0.375 1.00 34.40 C +ATOM 4813 C SER L 69 -23.587 -8.099 0.464 1.00 34.03 C +ATOM 4814 O SER L 69 -23.507 -9.202 -0.083 1.00 34.31 O +ATOM 4815 CB SER L 69 -25.027 -6.672 -0.980 1.00 34.39 C +ATOM 4816 OG SER L 69 -25.911 -6.114 -0.030 1.00 35.07 O +ATOM 4817 N GLY L 70 -23.617 -7.939 1.784 1.00 33.40 N +ATOM 4818 CA GLY L 70 -23.764 -9.083 2.685 1.00 32.86 C +ATOM 4819 C GLY L 70 -22.450 -9.672 3.161 1.00 32.59 C +ATOM 4820 O GLY L 70 -22.330 -10.115 4.321 1.00 32.86 O +ATOM 4821 N VAL L 71 -21.466 -9.677 2.262 1.00 31.79 N +ATOM 4822 CA VAL L 71 -20.113 -10.100 2.580 1.00 30.83 C +ATOM 4823 C VAL L 71 -19.624 -9.449 3.880 1.00 30.03 C +ATOM 4824 O VAL L 71 -19.717 -8.242 4.053 1.00 29.64 O +ATOM 4825 CB VAL L 71 -19.139 -9.773 1.431 1.00 30.97 C +ATOM 4826 CG1 VAL L 71 -17.797 -10.515 1.641 1.00 31.31 C +ATOM 4827 CG2 VAL L 71 -19.756 -10.154 0.083 1.00 30.71 C +ATOM 4828 N PRO L 72 -19.133 -10.265 4.810 1.00 29.43 N +ATOM 4829 CA PRO L 72 -18.532 -9.817 6.054 1.00 29.45 C +ATOM 4830 C PRO L 72 -17.307 -8.905 5.886 1.00 29.40 C +ATOM 4831 O PRO L 72 -16.753 -8.795 4.793 1.00 29.30 O +ATOM 4832 CB PRO L 72 -18.123 -11.133 6.725 1.00 29.57 C +ATOM 4833 CG PRO L 72 -18.088 -12.129 5.622 1.00 29.29 C +ATOM 4834 CD PRO L 72 -19.172 -11.728 4.725 1.00 29.28 C +ATOM 4835 N SER L 74 -16.892 -8.287 6.993 1.00 29.36 N +ATOM 4836 CA SER L 74 -15.827 -7.276 7.029 1.00 29.39 C +ATOM 4837 C SER L 74 -14.469 -7.790 6.615 1.00 29.10 C +ATOM 4838 O SER L 74 -13.690 -7.057 6.000 1.00 29.47 O +ATOM 4839 CB SER L 74 -15.676 -6.732 8.442 1.00 29.32 C +ATOM 4840 OG SER L 74 -16.858 -6.973 9.183 1.00 31.38 O +ATOM 4841 N ARG L 75 -14.185 -9.042 6.966 1.00 28.60 N +ATOM 4842 CA ARG L 75 -12.836 -9.587 6.878 1.00 27.94 C +ATOM 4843 C ARG L 75 -12.325 -9.619 5.463 1.00 27.63 C +ATOM 4844 O ARG L 75 -11.114 -9.714 5.250 1.00 27.94 O +ATOM 4845 CB ARG L 75 -12.770 -10.990 7.472 1.00 27.95 C +ATOM 4846 CG ARG L 75 -13.685 -11.998 6.790 1.00 28.02 C +ATOM 4847 CD ARG L 75 -13.286 -13.408 7.181 1.00 27.19 C +ATOM 4848 NE ARG L 75 -14.284 -14.423 6.859 1.00 24.91 N +ATOM 4849 CZ ARG L 75 -15.477 -14.510 7.432 1.00 23.63 C +ATOM 4850 NH1 ARG L 75 -15.869 -13.615 8.328 1.00 23.34 N +ATOM 4851 NH2 ARG L 75 -16.286 -15.492 7.095 1.00 24.54 N +ATOM 4852 N PHE L 76 -13.248 -9.552 4.503 1.00 27.04 N +ATOM 4853 CA PHE L 76 -12.893 -9.521 3.083 1.00 26.67 C +ATOM 4854 C PHE L 76 -12.620 -8.094 2.588 1.00 26.81 C +ATOM 4855 O PHE L 76 -13.265 -7.135 3.011 1.00 27.10 O +ATOM 4856 CB PHE L 76 -13.954 -10.242 2.242 1.00 26.10 C +ATOM 4857 CG PHE L 76 -13.975 -11.740 2.449 1.00 25.70 C +ATOM 4858 CD1 PHE L 76 -14.747 -12.314 3.462 1.00 25.34 C +ATOM 4859 CD2 PHE L 76 -13.210 -12.584 1.641 1.00 24.44 C +ATOM 4860 CE1 PHE L 76 -14.748 -13.707 3.665 1.00 24.23 C +ATOM 4861 CE2 PHE L 76 -13.220 -13.976 1.829 1.00 23.12 C +ATOM 4862 CZ PHE L 76 -13.986 -14.533 2.839 1.00 23.78 C +ATOM 4863 N SER L 77 -11.621 -7.955 1.733 1.00 27.00 N +ATOM 4864 CA SER L 77 -11.295 -6.673 1.138 1.00 27.82 C +ATOM 4865 C SER L 77 -10.503 -6.930 -0.132 1.00 28.76 C +ATOM 4866 O SER L 77 -10.082 -8.060 -0.385 1.00 29.07 O +ATOM 4867 CB SER L 77 -10.526 -5.756 2.113 1.00 27.84 C +ATOM 4868 OG SER L 77 -9.299 -6.306 2.566 1.00 26.88 O +ATOM 4869 N GLY L 78 -10.336 -5.893 -0.942 1.00 29.62 N +ATOM 4870 CA GLY L 78 -9.521 -5.965 -2.139 1.00 30.88 C +ATOM 4871 C GLY L 78 -8.982 -4.584 -2.426 1.00 32.21 C +ATOM 4872 O GLY L 78 -9.715 -3.601 -2.359 1.00 32.09 O +ATOM 4873 N SER L 79 -7.699 -4.494 -2.737 1.00 33.57 N +ATOM 4874 CA SER L 79 -7.091 -3.199 -2.946 1.00 35.05 C +ATOM 4875 C SER L 79 -6.301 -3.177 -4.240 1.00 36.30 C +ATOM 4876 O SER L 79 -6.549 -3.979 -5.139 1.00 36.50 O +ATOM 4877 CB SER L 79 -6.197 -2.847 -1.755 1.00 34.88 C +ATOM 4878 OG SER L 79 -4.913 -3.439 -1.880 1.00 35.48 O +ATOM 4879 N GLY L 80 -5.362 -2.237 -4.321 1.00 38.02 N +ATOM 4880 CA GLY L 80 -4.395 -2.146 -5.413 1.00 39.73 C +ATOM 4881 C GLY L 80 -4.881 -1.261 -6.538 1.00 41.00 C +ATOM 4882 O GLY L 80 -6.088 -1.191 -6.799 1.00 41.38 O +ATOM 4883 N SER L 83 -3.942 -0.583 -7.201 1.00 42.10 N +ATOM 4884 CA SER L 83 -4.240 0.206 -8.422 1.00 42.84 C +ATOM 4885 C SER L 83 -3.169 0.010 -9.510 1.00 43.08 C +ATOM 4886 O SER L 83 -2.039 -0.432 -9.231 1.00 43.30 O +ATOM 4887 CB SER L 83 -4.417 1.702 -8.102 1.00 42.67 C +ATOM 4888 N GLY L 84 -3.537 0.350 -10.742 1.00 43.15 N +ATOM 4889 CA GLY L 84 -2.645 0.201 -11.891 1.00 42.79 C +ATOM 4890 C GLY L 84 -2.888 -1.140 -12.549 1.00 42.46 C +ATOM 4891 O GLY L 84 -3.975 -1.384 -13.118 1.00 42.48 O +ATOM 4892 N THR L 85 -1.870 -2.005 -12.472 1.00 41.83 N +ATOM 4893 CA THR L 85 -1.973 -3.403 -12.933 1.00 41.07 C +ATOM 4894 C THR L 85 -1.742 -4.378 -11.766 1.00 40.22 C +ATOM 4895 O THR L 85 -1.414 -5.543 -11.966 1.00 40.30 O +ATOM 4896 CB THR L 85 -1.015 -3.718 -14.138 1.00 41.04 C +ATOM 4897 OG1 THR L 85 0.335 -3.408 -13.785 1.00 41.88 O +ATOM 4898 CG2 THR L 85 -1.383 -2.917 -15.371 1.00 40.74 C +ATOM 4899 N ASP L 86 -1.934 -3.885 -10.547 1.00 39.34 N +ATOM 4900 CA ASP L 86 -1.664 -4.652 -9.335 1.00 38.57 C +ATOM 4901 C ASP L 86 -2.864 -4.670 -8.396 1.00 37.99 C +ATOM 4902 O ASP L 86 -3.246 -3.624 -7.852 1.00 38.12 O +ATOM 4903 CB ASP L 86 -0.457 -4.062 -8.590 1.00 38.62 C +ATOM 4904 CG ASP L 86 0.857 -4.481 -9.188 1.00 37.98 C +ATOM 4905 OD1 ASP L 86 0.946 -4.593 -10.429 1.00 37.45 O +ATOM 4906 OD2 ASP L 86 1.804 -4.693 -8.408 1.00 37.96 O +ATOM 4907 N TYR L 87 -3.439 -5.852 -8.186 1.00 36.80 N +ATOM 4908 CA TYR L 87 -4.615 -5.972 -7.342 1.00 35.81 C +ATOM 4909 C TYR L 87 -4.376 -7.026 -6.298 1.00 35.08 C +ATOM 4910 O TYR L 87 -3.844 -8.082 -6.609 1.00 35.15 O +ATOM 4911 CB TYR L 87 -5.851 -6.279 -8.200 1.00 36.15 C +ATOM 4912 CG TYR L 87 -6.027 -5.252 -9.287 1.00 36.00 C +ATOM 4913 CD1 TYR L 87 -5.367 -5.389 -10.503 1.00 36.27 C +ATOM 4914 CD2 TYR L 87 -6.787 -4.109 -9.076 1.00 36.07 C +ATOM 4915 CE1 TYR L 87 -5.480 -4.432 -11.498 1.00 36.95 C +ATOM 4916 CE2 TYR L 87 -6.911 -3.139 -10.066 1.00 37.29 C +ATOM 4917 CZ TYR L 87 -6.254 -3.305 -11.282 1.00 37.32 C +ATOM 4918 OH TYR L 87 -6.365 -2.352 -12.283 1.00 37.03 O +ATOM 4919 N THR L 88 -4.733 -6.720 -5.054 1.00 34.20 N +ATOM 4920 CA THR L 88 -4.569 -7.662 -3.949 1.00 33.67 C +ATOM 4921 C THR L 88 -5.937 -7.964 -3.409 1.00 32.82 C +ATOM 4922 O THR L 88 -6.794 -7.093 -3.426 1.00 33.28 O +ATOM 4923 CB THR L 88 -3.699 -7.087 -2.786 1.00 33.86 C +ATOM 4924 OG1 THR L 88 -2.460 -6.578 -3.299 1.00 35.05 O +ATOM 4925 CG2 THR L 88 -3.375 -8.162 -1.747 1.00 34.01 C +ATOM 4926 N PHE L 89 -6.133 -9.194 -2.938 1.00 31.70 N +ATOM 4927 CA PHE L 89 -7.359 -9.604 -2.257 1.00 30.79 C +ATOM 4928 C PHE L 89 -6.993 -10.152 -0.886 1.00 30.14 C +ATOM 4929 O PHE L 89 -6.057 -10.930 -0.772 1.00 30.02 O +ATOM 4930 CB PHE L 89 -8.083 -10.652 -3.105 1.00 30.77 C +ATOM 4931 CG PHE L 89 -9.269 -11.300 -2.434 1.00 30.62 C +ATOM 4932 CD1 PHE L 89 -10.517 -10.696 -2.459 1.00 30.23 C +ATOM 4933 CD2 PHE L 89 -9.141 -12.546 -1.820 1.00 30.44 C +ATOM 4934 CE1 PHE L 89 -11.612 -11.304 -1.857 1.00 29.83 C +ATOM 4935 CE2 PHE L 89 -10.226 -13.156 -1.216 1.00 30.21 C +ATOM 4936 CZ PHE L 89 -11.467 -12.529 -1.237 1.00 30.26 C +ATOM 4937 N THR L 90 -7.732 -9.764 0.146 1.00 29.62 N +ATOM 4938 CA THR L 90 -7.322 -10.054 1.519 1.00 29.69 C +ATOM 4939 C THR L 90 -8.462 -10.557 2.371 1.00 29.43 C +ATOM 4940 O THR L 90 -9.534 -9.970 2.366 1.00 30.09 O +ATOM 4941 CB THR L 90 -6.825 -8.782 2.204 1.00 29.85 C +ATOM 4942 OG1 THR L 90 -6.301 -7.887 1.212 1.00 31.67 O +ATOM 4943 CG2 THR L 90 -5.776 -9.092 3.283 1.00 29.02 C +ATOM 4944 N ILE L 91 -8.236 -11.632 3.112 1.00 28.88 N +ATOM 4945 CA ILE L 91 -9.169 -12.050 4.144 1.00 28.06 C +ATOM 4946 C ILE L 91 -8.388 -11.848 5.427 1.00 28.31 C +ATOM 4947 O ILE L 91 -7.484 -12.626 5.753 1.00 28.05 O +ATOM 4948 CB ILE L 91 -9.604 -13.520 4.001 1.00 27.91 C +ATOM 4949 CG1 ILE L 91 -9.771 -13.907 2.533 1.00 26.78 C +ATOM 4950 CG2 ILE L 91 -10.883 -13.762 4.770 1.00 27.47 C +ATOM 4951 CD1 ILE L 91 -10.049 -15.362 2.313 1.00 25.04 C +ATOM 4952 N SER L 92 -8.717 -10.776 6.135 1.00 28.45 N +ATOM 4953 CA SER L 92 -7.911 -10.331 7.263 1.00 28.66 C +ATOM 4954 C SER L 92 -7.875 -11.368 8.360 1.00 28.78 C +ATOM 4955 O SER L 92 -6.843 -11.561 8.992 1.00 29.41 O +ATOM 4956 CB SER L 92 -8.427 -9.005 7.809 1.00 28.50 C +ATOM 4957 OG SER L 92 -9.771 -9.130 8.244 1.00 29.74 O +ATOM 4958 N SER L 93 -8.987 -12.062 8.560 1.00 28.80 N +ATOM 4959 CA SER L 93 -9.097 -13.011 9.652 1.00 28.91 C +ATOM 4960 C SER L 93 -9.816 -14.304 9.226 1.00 28.74 C +ATOM 4961 O SER L 93 -11.034 -14.449 9.436 1.00 28.69 O +ATOM 4962 CB SER L 93 -9.806 -12.329 10.817 1.00 28.96 C +ATOM 4963 OG SER L 93 -9.496 -12.958 12.045 1.00 30.73 O +ATOM 4964 N LEU L 94 -9.043 -15.235 8.642 1.00 28.56 N +ATOM 4965 CA LEU L 94 -9.570 -16.434 7.962 1.00 28.17 C +ATOM 4966 C LEU L 94 -10.451 -17.292 8.846 1.00 28.53 C +ATOM 4967 O LEU L 94 -9.997 -17.801 9.871 1.00 28.75 O +ATOM 4968 CB LEU L 94 -8.445 -17.300 7.402 1.00 27.63 C +ATOM 4969 CG LEU L 94 -8.895 -18.562 6.653 1.00 26.73 C +ATOM 4970 CD1 LEU L 94 -9.011 -18.344 5.151 1.00 25.65 C +ATOM 4971 CD2 LEU L 94 -7.943 -19.704 6.917 1.00 26.40 C +ATOM 4972 N GLN L 95 -11.705 -17.453 8.427 1.00 28.68 N +ATOM 4973 CA GLN L 95 -12.661 -18.319 9.103 1.00 28.86 C +ATOM 4974 C GLN L 95 -12.797 -19.654 8.361 1.00 29.04 C +ATOM 4975 O GLN L 95 -12.562 -19.712 7.152 1.00 29.08 O +ATOM 4976 CB GLN L 95 -14.014 -17.625 9.205 1.00 28.95 C +ATOM 4977 CG GLN L 95 -13.989 -16.347 10.017 1.00 29.94 C +ATOM 4978 CD GLN L 95 -13.590 -16.576 11.462 1.00 31.79 C +ATOM 4979 OE1 GLN L 95 -13.839 -17.642 12.028 1.00 32.74 O +ATOM 4980 NE2 GLN L 95 -12.966 -15.569 12.071 1.00 32.47 N +ATOM 4981 N PRO L 96 -13.142 -20.740 9.087 1.00 29.10 N +ATOM 4982 CA PRO L 96 -13.306 -22.073 8.508 1.00 29.00 C +ATOM 4983 C PRO L 96 -14.163 -22.098 7.250 1.00 29.03 C +ATOM 4984 O PRO L 96 -13.845 -22.813 6.304 1.00 29.31 O +ATOM 4985 CB PRO L 96 -13.998 -22.854 9.623 1.00 29.04 C +ATOM 4986 CG PRO L 96 -13.530 -22.215 10.857 1.00 29.20 C +ATOM 4987 CD PRO L 96 -13.363 -20.757 10.546 1.00 29.32 C +ATOM 4988 N GLU L 97 -15.235 -21.317 7.241 1.00 28.81 N +ATOM 4989 CA GLU L 97 -16.161 -21.292 6.117 1.00 28.72 C +ATOM 4990 C GLU L 97 -15.580 -20.611 4.877 1.00 28.69 C +ATOM 4991 O GLU L 97 -16.291 -20.370 3.903 1.00 28.91 O +ATOM 4992 CB GLU L 97 -17.485 -20.627 6.531 1.00 28.94 C +ATOM 4993 CG GLU L 97 -17.349 -19.266 7.224 1.00 29.02 C +ATOM 4994 CD GLU L 97 -17.260 -19.370 8.734 1.00 29.14 C +ATOM 4995 OE1 GLU L 97 -18.047 -18.668 9.401 1.00 30.68 O +ATOM 4996 OE2 GLU L 97 -16.418 -20.135 9.256 1.00 27.52 O +ATOM 4997 N ASP L 98 -14.289 -20.297 4.919 1.00 28.67 N +ATOM 4998 CA ASP L 98 -13.649 -19.516 3.860 1.00 28.44 C +ATOM 4999 C ASP L 98 -12.899 -20.412 2.898 1.00 28.48 C +ATOM 5000 O ASP L 98 -12.300 -19.943 1.928 1.00 28.28 O +ATOM 5001 CB ASP L 98 -12.724 -18.456 4.452 1.00 28.26 C +ATOM 5002 CG ASP L 98 -13.479 -17.377 5.210 1.00 28.04 C +ATOM 5003 OD1 ASP L 98 -14.655 -17.087 4.854 1.00 27.80 O +ATOM 5004 OD2 ASP L 98 -12.880 -16.816 6.155 1.00 26.87 O +ATOM 5005 N ILE L 99 -12.943 -21.707 3.179 1.00 28.69 N +ATOM 5006 CA ILE L 99 -12.483 -22.714 2.246 1.00 29.25 C +ATOM 5007 C ILE L 99 -13.169 -22.523 0.887 1.00 29.47 C +ATOM 5008 O ILE L 99 -14.410 -22.506 0.785 1.00 29.92 O +ATOM 5009 CB ILE L 99 -12.716 -24.127 2.842 1.00 29.52 C +ATOM 5010 CG1 ILE L 99 -11.648 -24.392 3.914 1.00 30.65 C +ATOM 5011 CG2 ILE L 99 -12.767 -25.242 1.750 1.00 28.65 C +ATOM 5012 CD1 ILE L 99 -12.175 -25.157 5.155 1.00 33.54 C +ATOM 5013 N ALA L 100 -12.346 -22.332 -0.137 1.00 29.23 N +ATOM 5014 CA ALA L 100 -12.797 -22.256 -1.526 1.00 29.24 C +ATOM 5015 C ALA L 100 -11.602 -21.974 -2.435 1.00 29.54 C +ATOM 5016 O ALA L 100 -10.454 -21.909 -1.986 1.00 29.92 O +ATOM 5017 CB ALA L 100 -13.833 -21.187 -1.686 1.00 28.58 C +ATOM 5018 N THR L 101 -11.858 -21.820 -3.718 1.00 29.61 N +ATOM 5019 CA THR L 101 -10.835 -21.291 -4.577 1.00 30.18 C +ATOM 5020 C THR L 101 -11.325 -19.937 -5.023 1.00 30.20 C +ATOM 5021 O THR L 101 -12.489 -19.781 -5.395 1.00 30.52 O +ATOM 5022 CB THR L 101 -10.554 -22.212 -5.754 1.00 30.50 C +ATOM 5023 OG1 THR L 101 -9.905 -23.387 -5.260 1.00 31.59 O +ATOM 5024 CG2 THR L 101 -9.640 -21.535 -6.762 1.00 30.87 C +ATOM 5025 N TYR L 102 -10.441 -18.951 -4.951 1.00 30.02 N +ATOM 5026 CA TYR L 102 -10.817 -17.585 -5.216 1.00 29.83 C +ATOM 5027 C TYR L 102 -10.279 -17.185 -6.566 1.00 30.46 C +ATOM 5028 O TYR L 102 -9.153 -17.546 -6.912 1.00 30.95 O +ATOM 5029 CB TYR L 102 -10.260 -16.692 -4.124 1.00 29.17 C +ATOM 5030 CG TYR L 102 -10.940 -16.893 -2.793 1.00 28.24 C +ATOM 5031 CD1 TYR L 102 -10.408 -17.768 -1.838 1.00 26.88 C +ATOM 5032 CD2 TYR L 102 -12.119 -16.214 -2.488 1.00 27.14 C +ATOM 5033 CE1 TYR L 102 -11.034 -17.960 -0.613 1.00 26.91 C +ATOM 5034 CE2 TYR L 102 -12.751 -16.394 -1.270 1.00 27.49 C +ATOM 5035 CZ TYR L 102 -12.211 -17.269 -0.333 1.00 27.91 C +ATOM 5036 OH TYR L 102 -12.851 -17.442 0.877 1.00 27.95 O +ATOM 5037 N TYR L 103 -11.095 -16.467 -7.337 1.00 30.84 N +ATOM 5038 CA TYR L 103 -10.708 -15.999 -8.674 1.00 31.14 C +ATOM 5039 C TYR L 103 -10.937 -14.503 -8.841 1.00 31.67 C +ATOM 5040 O TYR L 103 -11.986 -13.974 -8.459 1.00 31.79 O +ATOM 5041 CB TYR L 103 -11.534 -16.683 -9.765 1.00 30.73 C +ATOM 5042 CG TYR L 103 -11.411 -18.173 -9.891 1.00 29.59 C +ATOM 5043 CD1 TYR L 103 -12.088 -19.021 -9.027 1.00 29.06 C +ATOM 5044 CD2 TYR L 103 -10.674 -18.732 -10.924 1.00 29.04 C +ATOM 5045 CE1 TYR L 103 -12.004 -20.396 -9.164 1.00 29.68 C +ATOM 5046 CE2 TYR L 103 -10.582 -20.098 -11.072 1.00 29.50 C +ATOM 5047 CZ TYR L 103 -11.248 -20.924 -10.187 1.00 29.82 C +ATOM 5048 OH TYR L 103 -11.147 -22.279 -10.320 1.00 29.61 O +ATOM 5049 N CYS L 104 -9.968 -13.832 -9.445 1.00 32.25 N +ATOM 5050 CA CYS L 104 -10.147 -12.450 -9.854 1.00 32.94 C +ATOM 5051 C CYS L 104 -10.587 -12.465 -11.288 1.00 33.40 C +ATOM 5052 O CYS L 104 -10.231 -13.372 -12.033 1.00 33.48 O +ATOM 5053 CB CYS L 104 -8.831 -11.689 -9.761 1.00 32.85 C +ATOM 5054 SG CYS L 104 -7.507 -12.501 -10.663 1.00 33.61 S +ATOM 5055 N GLN L 105 -11.374 -11.475 -11.678 1.00 34.23 N +ATOM 5056 CA GLN L 105 -11.574 -11.220 -13.089 1.00 35.29 C +ATOM 5057 C GLN L 105 -11.400 -9.722 -13.386 1.00 36.10 C +ATOM 5058 O GLN L 105 -11.637 -8.869 -12.522 1.00 36.30 O +ATOM 5059 CB GLN L 105 -12.911 -11.786 -13.587 1.00 34.87 C +ATOM 5060 CG GLN L 105 -14.029 -10.777 -13.659 1.00 35.31 C +ATOM 5061 CD GLN L 105 -15.270 -11.294 -14.347 1.00 35.50 C +ATOM 5062 OE1 GLN L 105 -15.238 -12.291 -15.060 1.00 35.36 O +ATOM 5063 NE2 GLN L 105 -16.382 -10.609 -14.133 1.00 36.86 N +ATOM 5064 N GLN L 106 -10.942 -9.415 -14.594 1.00 36.97 N +ATOM 5065 CA GLN L 106 -10.872 -8.047 -15.056 1.00 38.14 C +ATOM 5066 C GLN L 106 -11.843 -7.819 -16.212 1.00 38.86 C +ATOM 5067 O GLN L 106 -12.093 -8.731 -17.017 1.00 39.16 O +ATOM 5068 CB GLN L 106 -9.440 -7.711 -15.465 1.00 38.40 C +ATOM 5069 CG GLN L 106 -9.283 -6.814 -16.699 1.00 39.29 C +ATOM 5070 CD GLN L 106 -9.252 -7.611 -17.984 1.00 41.16 C +ATOM 5071 OE1 GLN L 106 -9.688 -7.134 -19.036 1.00 42.60 O +ATOM 5072 NE2 GLN L 106 -8.744 -8.843 -17.905 1.00 40.85 N +ATOM 5073 N TRP L 107 -12.407 -6.612 -16.275 1.00 39.45 N +ATOM 5074 CA TRP L 107 -13.158 -6.179 -17.453 1.00 39.92 C +ATOM 5075 C TRP L 107 -12.468 -4.967 -18.027 1.00 40.30 C +ATOM 5076 O TRP L 107 -12.304 -3.955 -17.346 1.00 40.77 O +ATOM 5077 CB TRP L 107 -14.615 -5.833 -17.145 1.00 39.96 C +ATOM 5078 CG TRP L 107 -15.347 -5.377 -18.362 1.00 40.01 C +ATOM 5079 CD1 TRP L 107 -15.924 -6.165 -19.305 1.00 41.02 C +ATOM 5080 CD2 TRP L 107 -15.556 -4.029 -18.788 1.00 40.58 C +ATOM 5081 NE1 TRP L 107 -16.497 -5.395 -20.292 1.00 40.93 N +ATOM 5082 CE2 TRP L 107 -16.280 -4.078 -19.997 1.00 40.80 C +ATOM 5083 CE3 TRP L 107 -15.202 -2.780 -18.266 1.00 41.38 C +ATOM 5084 CZ2 TRP L 107 -16.659 -2.928 -20.690 1.00 40.90 C +ATOM 5085 CZ3 TRP L 107 -15.583 -1.634 -18.952 1.00 40.76 C +ATOM 5086 CH2 TRP L 107 -16.304 -1.717 -20.152 1.00 40.76 C +ATOM 5087 N SER L 108 -12.057 -5.090 -19.283 1.00 40.43 N +ATOM 5088 CA SER L 108 -11.418 -4.018 -20.012 1.00 40.10 C +ATOM 5089 C SER L 108 -11.847 -4.141 -21.462 1.00 40.32 C +ATOM 5090 O SER L 108 -11.911 -5.249 -22.003 1.00 40.22 O +ATOM 5091 CB SER L 108 -9.895 -4.098 -19.870 1.00 39.88 C +ATOM 5092 OG SER L 108 -9.489 -3.737 -18.560 1.00 38.88 O +ATOM 5093 N SER L 109 -12.159 -2.986 -22.061 1.00 40.65 N +ATOM 5094 CA SER L 109 -12.547 -2.828 -23.474 1.00 40.51 C +ATOM 5095 C SER L 109 -13.455 -3.939 -23.992 1.00 40.59 C +ATOM 5096 O SER L 109 -13.167 -4.560 -25.012 1.00 40.40 O +ATOM 5097 CB SER L 109 -11.313 -2.634 -24.365 1.00 40.34 C +ATOM 5098 N HIS L 114 -14.533 -4.194 -23.251 1.00 40.89 N +ATOM 5099 CA HIS L 114 -15.635 -5.064 -23.692 1.00 41.57 C +ATOM 5100 C HIS L 114 -15.484 -6.588 -23.454 1.00 41.25 C +ATOM 5101 O HIS L 114 -16.422 -7.361 -23.674 1.00 41.46 O +ATOM 5102 CB HIS L 114 -16.027 -4.757 -25.154 1.00 41.99 C +ATOM 5103 CG HIS L 114 -16.500 -3.350 -25.366 1.00 44.09 C +ATOM 5104 ND1 HIS L 114 -17.833 -2.999 -25.334 1.00 45.44 N +ATOM 5105 CD2 HIS L 114 -15.813 -2.203 -25.599 1.00 45.80 C +ATOM 5106 CE1 HIS L 114 -17.947 -1.696 -25.538 1.00 46.41 C +ATOM 5107 NE2 HIS L 114 -16.737 -1.190 -25.704 1.00 45.89 N +ATOM 5108 N ILE L 115 -14.323 -7.021 -22.987 1.00 40.76 N +ATOM 5109 CA ILE L 115 -14.112 -8.448 -22.761 1.00 40.16 C +ATOM 5110 C ILE L 115 -13.698 -8.750 -21.312 1.00 39.63 C +ATOM 5111 O ILE L 115 -12.966 -7.978 -20.693 1.00 39.69 O +ATOM 5112 CB ILE L 115 -13.102 -9.053 -23.783 1.00 40.41 C +ATOM 5113 CG1 ILE L 115 -11.690 -8.467 -23.584 1.00 40.89 C +ATOM 5114 CG2 ILE L 115 -13.608 -8.841 -25.224 1.00 39.78 C +ATOM 5115 CD1 ILE L 115 -10.554 -9.499 -23.658 1.00 41.63 C +ATOM 5116 N PHE L 116 -14.187 -9.863 -20.772 1.00 38.83 N +ATOM 5117 CA PHE L 116 -13.826 -10.287 -19.420 1.00 37.94 C +ATOM 5118 C PHE L 116 -12.624 -11.233 -19.494 1.00 37.45 C +ATOM 5119 O PHE L 116 -12.390 -11.837 -20.549 1.00 37.50 O +ATOM 5120 CB PHE L 116 -15.026 -10.955 -18.728 1.00 37.73 C +ATOM 5121 CG PHE L 116 -16.121 -9.984 -18.291 1.00 37.02 C +ATOM 5122 CD1 PHE L 116 -17.205 -9.707 -19.120 1.00 36.75 C +ATOM 5123 CD2 PHE L 116 -16.075 -9.370 -17.047 1.00 35.67 C +ATOM 5124 CE1 PHE L 116 -18.221 -8.829 -18.721 1.00 35.88 C +ATOM 5125 CE2 PHE L 116 -17.079 -8.497 -16.642 1.00 35.04 C +ATOM 5126 CZ PHE L 116 -18.152 -8.226 -17.478 1.00 35.94 C +ATOM 5127 N THR L 117 -11.854 -11.330 -18.403 1.00 36.73 N +ATOM 5128 CA THR L 117 -10.716 -12.280 -18.294 1.00 36.14 C +ATOM 5129 C THR L 117 -10.487 -12.763 -16.852 1.00 35.68 C +ATOM 5130 O THR L 117 -10.240 -11.948 -15.959 1.00 35.88 O +ATOM 5131 CB THR L 117 -9.375 -11.670 -18.781 1.00 36.08 C +ATOM 5132 OG1 THR L 117 -9.546 -11.015 -20.042 1.00 36.58 O +ATOM 5133 CG2 THR L 117 -8.320 -12.745 -18.922 1.00 35.99 C +ATOM 5134 N PHE L 118 -10.535 -14.082 -16.641 1.00 34.79 N +ATOM 5135 CA PHE L 118 -10.325 -14.692 -15.321 1.00 33.80 C +ATOM 5136 C PHE L 118 -8.878 -15.047 -15.007 1.00 33.47 C +ATOM 5137 O PHE L 118 -8.109 -15.421 -15.892 1.00 33.48 O +ATOM 5138 CB PHE L 118 -11.128 -15.980 -15.199 1.00 33.67 C +ATOM 5139 CG PHE L 118 -12.595 -15.772 -15.073 1.00 33.39 C +ATOM 5140 CD1 PHE L 118 -13.419 -15.861 -16.190 1.00 33.82 C +ATOM 5141 CD2 PHE L 118 -13.165 -15.510 -13.841 1.00 32.63 C +ATOM 5142 CE1 PHE L 118 -14.801 -15.677 -16.083 1.00 32.89 C +ATOM 5143 CE2 PHE L 118 -14.529 -15.323 -13.727 1.00 33.19 C +ATOM 5144 CZ PHE L 118 -15.352 -15.407 -14.856 1.00 32.91 C +ATOM 5145 N GLY L 119 -8.527 -14.958 -13.726 1.00 33.28 N +ATOM 5146 CA GLY L 119 -7.252 -15.465 -13.216 1.00 32.76 C +ATOM 5147 C GLY L 119 -7.305 -16.976 -13.041 1.00 32.53 C +ATOM 5148 O GLY L 119 -8.340 -17.618 -13.280 1.00 32.71 O +ATOM 5149 N GLN L 120 -6.190 -17.547 -12.605 1.00 32.11 N +ATOM 5150 CA GLN L 120 -6.014 -18.998 -12.608 1.00 31.58 C +ATOM 5151 C GLN L 120 -6.641 -19.678 -11.409 1.00 31.23 C +ATOM 5152 O GLN L 120 -6.863 -20.880 -11.428 1.00 31.14 O +ATOM 5153 CB GLN L 120 -4.525 -19.342 -12.663 1.00 31.83 C +ATOM 5154 CG GLN L 120 -3.858 -19.052 -14.014 1.00 31.55 C +ATOM 5155 CD GLN L 120 -3.644 -17.569 -14.300 1.00 31.41 C +ATOM 5156 OE1 GLN L 120 -3.650 -16.719 -13.401 1.00 31.37 O +ATOM 5157 NE2 GLN L 120 -3.444 -17.257 -15.566 1.00 32.35 N +ATOM 5158 N GLY L 121 -6.917 -18.908 -10.366 1.00 30.96 N +ATOM 5159 CA GLY L 121 -7.427 -19.458 -9.130 1.00 30.67 C +ATOM 5160 C GLY L 121 -6.337 -19.572 -8.084 1.00 30.77 C +ATOM 5161 O GLY L 121 -5.142 -19.613 -8.398 1.00 30.64 O +ATOM 5162 N THR L 122 -6.773 -19.608 -6.833 1.00 30.83 N +ATOM 5163 CA THR L 122 -5.919 -19.787 -5.679 1.00 30.84 C +ATOM 5164 C THR L 122 -6.717 -20.641 -4.714 1.00 30.80 C +ATOM 5165 O THR L 122 -7.671 -20.155 -4.135 1.00 31.36 O +ATOM 5166 CB THR L 122 -5.637 -18.435 -5.003 1.00 30.89 C +ATOM 5167 OG1 THR L 122 -4.895 -17.597 -5.896 1.00 31.55 O +ATOM 5168 CG2 THR L 122 -4.843 -18.614 -3.723 1.00 31.06 C +ATOM 5169 N LYS L 123 -6.370 -21.914 -4.562 1.00 30.67 N +ATOM 5170 CA LYS L 123 -7.034 -22.741 -3.566 1.00 30.47 C +ATOM 5171 C LYS L 123 -6.548 -22.302 -2.178 1.00 30.79 C +ATOM 5172 O LYS L 123 -5.349 -22.366 -1.869 1.00 30.89 O +ATOM 5173 CB LYS L 123 -6.781 -24.233 -3.814 1.00 29.84 C +ATOM 5174 N VAL L 124 -7.478 -21.807 -1.367 1.00 31.02 N +ATOM 5175 CA VAL L 124 -7.204 -21.508 0.036 1.00 31.25 C +ATOM 5176 C VAL L 124 -7.676 -22.683 0.881 1.00 31.83 C +ATOM 5177 O VAL L 124 -8.814 -23.152 0.740 1.00 31.82 O +ATOM 5178 CB VAL L 124 -7.859 -20.179 0.474 1.00 31.11 C +ATOM 5179 CG1 VAL L 124 -7.927 -20.047 1.992 1.00 29.98 C +ATOM 5180 CG2 VAL L 124 -7.087 -19.017 -0.107 1.00 31.24 C +ATOM 5181 N GLU L 125 -6.778 -23.178 1.727 1.00 32.50 N +ATOM 5182 CA GLU L 125 -7.052 -24.345 2.560 1.00 33.56 C +ATOM 5183 C GLU L 125 -6.694 -24.069 3.996 1.00 33.36 C +ATOM 5184 O GLU L 125 -5.670 -23.434 4.270 1.00 33.13 O +ATOM 5185 CB GLU L 125 -6.274 -25.573 2.065 1.00 33.74 C +ATOM 5186 CG GLU L 125 -7.106 -26.584 1.250 1.00 34.41 C +ATOM 5187 CD GLU L 125 -6.229 -27.600 0.513 1.00 34.72 C +ATOM 5188 OE1 GLU L 125 -5.260 -27.168 -0.162 1.00 36.02 O +ATOM 5189 OE2 GLU L 125 -6.511 -28.826 0.601 1.00 35.56 O +ATOM 5190 N ILE L 126 -7.535 -24.566 4.900 1.00 33.55 N +ATOM 5191 CA ILE L 126 -7.360 -24.330 6.326 1.00 34.04 C +ATOM 5192 C ILE L 126 -6.454 -25.354 6.979 1.00 34.64 C +ATOM 5193 O ILE L 126 -6.649 -26.555 6.797 1.00 34.92 O +ATOM 5194 CB ILE L 126 -8.691 -24.310 7.053 1.00 33.75 C +ATOM 5195 CG1 ILE L 126 -9.504 -23.127 6.548 1.00 34.92 C +ATOM 5196 CG2 ILE L 126 -8.474 -24.208 8.544 1.00 33.01 C +ATOM 5197 CD1 ILE L 126 -10.671 -22.750 7.425 1.00 36.60 C +ATOM 5198 N LYS L 127 -5.460 -24.863 7.724 1.00 35.11 N +ATOM 5199 CA LYS L 127 -4.609 -25.694 8.561 1.00 35.50 C +ATOM 5200 C LYS L 127 -5.210 -25.769 9.963 1.00 35.57 C +ATOM 5201 O LYS L 127 -5.548 -24.745 10.552 1.00 35.94 O +ATOM 5202 CB LYS L 127 -3.199 -25.112 8.602 1.00 35.66 C +ATOM 5203 CG LYS L 127 -2.235 -25.836 9.545 1.00 37.20 C +ATOM 5204 CD LYS L 127 -0.794 -25.435 9.254 1.00 39.95 C +ATOM 5205 CE LYS L 127 0.205 -26.243 10.076 1.00 41.53 C +ATOM 5206 NZ LYS L 127 0.657 -25.513 11.305 1.00 42.22 N +ATOM 5207 N ARG L 128 -5.351 -26.979 10.491 1.00 35.77 N +ATOM 5208 CA ARG L 128 -5.929 -27.185 11.819 1.00 36.15 C +ATOM 5209 C ARG L 128 -5.110 -28.180 12.653 1.00 36.91 C +ATOM 5210 O ARG L 128 -4.026 -28.604 12.239 1.00 36.90 O +ATOM 5211 CB ARG L 128 -7.368 -27.674 11.692 1.00 35.77 C +ATOM 5212 CG ARG L 128 -7.449 -29.136 11.361 1.00 34.95 C +ATOM 5213 CD ARG L 128 -8.856 -29.625 11.230 1.00 34.04 C +ATOM 5214 NE ARG L 128 -9.616 -29.517 12.469 1.00 33.31 N +ATOM 5215 CZ ARG L 128 -9.560 -30.372 13.484 1.00 32.30 C +ATOM 5216 NH1 ARG L 128 -8.761 -31.420 13.455 1.00 32.05 N +ATOM 5217 NH2 ARG L 128 -10.310 -30.163 14.546 1.00 33.39 N +ATOM 5218 N THR L 129 -5.631 -28.541 13.829 1.00 37.92 N +ATOM 5219 CA THR L 129 -4.994 -29.543 14.693 1.00 38.86 C +ATOM 5220 C THR L 129 -5.231 -30.930 14.132 1.00 39.94 C +ATOM 5221 O THR L 129 -6.237 -31.165 13.477 1.00 40.28 O +ATOM 5222 CB THR L 129 -5.580 -29.547 16.092 1.00 38.34 C +ATOM 5223 OG1 THR L 129 -6.998 -29.663 15.989 1.00 38.19 O +ATOM 5224 CG2 THR L 129 -5.222 -28.284 16.827 1.00 38.25 C +ATOM 5225 N VAL L 130 -4.312 -31.846 14.411 1.00 41.23 N +ATOM 5226 CA VAL L 130 -4.421 -33.226 13.948 1.00 42.47 C +ATOM 5227 C VAL L 130 -5.716 -33.901 14.447 1.00 43.26 C +ATOM 5228 O VAL L 130 -6.078 -33.811 15.631 1.00 43.21 O +ATOM 5229 CB VAL L 130 -3.186 -34.061 14.373 1.00 42.58 C +ATOM 5230 CG1 VAL L 130 -2.929 -35.167 13.372 1.00 42.62 C +ATOM 5231 CG2 VAL L 130 -1.943 -33.175 14.504 1.00 42.81 C +ATOM 5232 N ALA L 131 -6.414 -34.558 13.522 1.00 44.31 N +ATOM 5233 CA ALA L 131 -7.647 -35.290 13.837 1.00 45.19 C +ATOM 5234 C ALA L 131 -7.576 -36.737 13.362 1.00 45.80 C +ATOM 5235 O ALA L 131 -6.982 -37.037 12.313 1.00 45.85 O +ATOM 5236 CB ALA L 131 -8.858 -34.603 13.236 1.00 45.08 C +ATOM 5237 N ALA L 132 -8.193 -37.616 14.149 1.00 46.38 N +ATOM 5238 CA ALA L 132 -8.169 -39.048 13.913 1.00 46.72 C +ATOM 5239 C ALA L 132 -9.467 -39.478 13.221 1.00 47.10 C +ATOM 5240 O ALA L 132 -10.549 -39.026 13.607 1.00 46.70 O +ATOM 5241 CB ALA L 132 -7.967 -39.790 15.234 1.00 46.68 C +ATOM 5242 N PRO L 133 -9.352 -40.320 12.166 1.00 47.71 N +ATOM 5243 CA PRO L 133 -10.482 -40.841 11.378 1.00 48.29 C +ATOM 5244 C PRO L 133 -11.398 -41.844 12.097 1.00 49.10 C +ATOM 5245 O PRO L 133 -10.921 -42.850 12.625 1.00 49.20 O +ATOM 5246 CB PRO L 133 -9.790 -41.535 10.198 1.00 48.15 C +ATOM 5247 CG PRO L 133 -8.436 -41.865 10.675 1.00 47.49 C +ATOM 5248 CD PRO L 133 -8.055 -40.787 11.633 1.00 47.58 C +ATOM 5249 N SER L 134 -12.705 -41.576 12.102 1.00 49.99 N +ATOM 5250 CA SER L 134 -13.695 -42.577 12.518 1.00 50.78 C +ATOM 5251 C SER L 134 -13.760 -43.666 11.439 1.00 51.31 C +ATOM 5252 O SER L 134 -14.228 -43.398 10.331 1.00 51.17 O +ATOM 5253 CB SER L 134 -15.096 -41.957 12.680 1.00 50.72 C +ATOM 5254 OG SER L 134 -15.133 -40.875 13.591 1.00 50.93 O +ATOM 5255 N VAL L 135 -13.294 -44.880 11.744 1.00 52.05 N +ATOM 5256 CA VAL L 135 -13.344 -45.965 10.751 1.00 52.69 C +ATOM 5257 C VAL L 135 -14.682 -46.712 10.757 1.00 53.13 C +ATOM 5258 O VAL L 135 -15.263 -46.972 11.810 1.00 53.30 O +ATOM 5259 CB VAL L 135 -12.160 -46.950 10.863 1.00 52.74 C +ATOM 5260 CG1 VAL L 135 -12.111 -47.870 9.633 1.00 52.63 C +ATOM 5261 CG2 VAL L 135 -10.838 -46.190 10.996 1.00 52.94 C +ATOM 5262 N PHE L 136 -15.168 -47.022 9.559 1.00 53.63 N +ATOM 5263 CA PHE L 136 -16.383 -47.799 9.367 1.00 54.26 C +ATOM 5264 C PHE L 136 -16.158 -48.780 8.225 1.00 54.79 C +ATOM 5265 O PHE L 136 -15.314 -48.542 7.348 1.00 55.14 O +ATOM 5266 CB PHE L 136 -17.553 -46.886 9.052 1.00 54.25 C +ATOM 5267 CG PHE L 136 -17.899 -45.953 10.165 1.00 54.79 C +ATOM 5268 CD1 PHE L 136 -17.285 -44.709 10.263 1.00 55.02 C +ATOM 5269 CD2 PHE L 136 -18.848 -46.311 11.118 1.00 55.60 C +ATOM 5270 CE1 PHE L 136 -17.608 -43.836 11.296 1.00 55.53 C +ATOM 5271 CE2 PHE L 136 -19.187 -45.441 12.158 1.00 55.72 C +ATOM 5272 CZ PHE L 136 -18.564 -44.201 12.247 1.00 55.53 C +ATOM 5273 N ILE L 137 -16.900 -49.887 8.240 1.00 55.08 N +ATOM 5274 CA ILE L 137 -16.662 -50.986 7.301 1.00 55.13 C +ATOM 5275 C ILE L 137 -17.986 -51.546 6.786 1.00 55.51 C +ATOM 5276 O ILE L 137 -18.819 -52.023 7.567 1.00 55.80 O +ATOM 5277 CB ILE L 137 -15.766 -52.085 7.944 1.00 54.88 C +ATOM 5278 CG1 ILE L 137 -15.719 -53.354 7.089 1.00 54.74 C +ATOM 5279 CG2 ILE L 137 -16.216 -52.385 9.362 1.00 54.66 C +ATOM 5280 CD1 ILE L 137 -14.785 -53.267 5.904 1.00 55.17 C +ATOM 5281 N PHE L 138 -18.183 -51.468 5.473 1.00 55.64 N +ATOM 5282 CA PHE L 138 -19.442 -51.894 4.873 1.00 56.04 C +ATOM 5283 C PHE L 138 -19.291 -53.131 3.996 1.00 56.74 C +ATOM 5284 O PHE L 138 -18.452 -53.140 3.081 1.00 57.12 O +ATOM 5285 CB PHE L 138 -20.064 -50.765 4.062 1.00 55.72 C +ATOM 5286 CG PHE L 138 -20.500 -49.604 4.888 1.00 55.21 C +ATOM 5287 CD1 PHE L 138 -19.676 -48.500 5.037 1.00 54.57 C +ATOM 5288 CD2 PHE L 138 -21.728 -49.621 5.532 1.00 54.65 C +ATOM 5289 CE1 PHE L 138 -20.071 -47.433 5.801 1.00 54.27 C +ATOM 5290 CE2 PHE L 138 -22.135 -48.553 6.297 1.00 54.28 C +ATOM 5291 CZ PHE L 138 -21.309 -47.456 6.434 1.00 54.63 C +ATOM 5292 N PRO L 139 -20.099 -54.182 4.279 1.00 57.04 N +ATOM 5293 CA PRO L 139 -20.174 -55.386 3.453 1.00 56.91 C +ATOM 5294 C PRO L 139 -20.981 -55.104 2.194 1.00 56.80 C +ATOM 5295 O PRO L 139 -21.674 -54.080 2.130 1.00 56.82 O +ATOM 5296 CB PRO L 139 -20.944 -56.362 4.337 1.00 56.90 C +ATOM 5297 CG PRO L 139 -21.814 -55.502 5.168 1.00 57.27 C +ATOM 5298 CD PRO L 139 -21.005 -54.265 5.443 1.00 57.13 C +ATOM 5299 N PRO L 140 -20.888 -55.994 1.192 1.00 56.65 N +ATOM 5300 CA PRO L 140 -21.749 -55.916 0.009 1.00 56.78 C +ATOM 5301 C PRO L 140 -23.225 -56.127 0.365 1.00 56.82 C +ATOM 5302 O PRO L 140 -23.533 -56.747 1.382 1.00 56.88 O +ATOM 5303 CB PRO L 140 -21.249 -57.070 -0.862 1.00 56.78 C +ATOM 5304 CG PRO L 140 -19.886 -57.374 -0.354 1.00 56.49 C +ATOM 5305 CD PRO L 140 -19.940 -57.112 1.102 1.00 56.40 C +ATOM 5306 N SER L 141 -24.126 -55.603 -0.454 1.00 56.84 N +ATOM 5307 CA SER L 141 -25.542 -55.817 -0.216 1.00 57.15 C +ATOM 5308 C SER L 141 -25.972 -57.090 -0.905 1.00 57.48 C +ATOM 5309 O SER L 141 -25.397 -57.480 -1.921 1.00 57.50 O +ATOM 5310 CB SER L 141 -26.382 -54.629 -0.692 1.00 57.13 C +ATOM 5311 OG SER L 141 -26.171 -54.348 -2.061 1.00 57.22 O +ATOM 5312 N ASP L 142 -26.977 -57.746 -0.336 1.00 58.08 N +ATOM 5313 CA ASP L 142 -27.510 -58.980 -0.907 1.00 58.49 C +ATOM 5314 C ASP L 142 -28.073 -58.706 -2.306 1.00 58.58 C +ATOM 5315 O ASP L 142 -27.873 -59.512 -3.225 1.00 58.63 O +ATOM 5316 CB ASP L 142 -28.562 -59.612 0.021 1.00 58.58 C +ATOM 5317 N GLU L 143 -28.743 -57.561 -2.465 1.00 58.54 N +ATOM 5318 CA GLU L 143 -29.180 -57.097 -3.784 1.00 58.73 C +ATOM 5319 C GLU L 143 -28.025 -57.100 -4.801 1.00 58.85 C +ATOM 5320 O GLU L 143 -28.177 -57.610 -5.920 1.00 58.94 O +ATOM 5321 CB GLU L 143 -29.808 -55.708 -3.692 1.00 58.68 C +ATOM 5322 N GLN L 144 -26.874 -56.555 -4.398 1.00 58.83 N +ATOM 5323 CA GLN L 144 -25.690 -56.492 -5.262 1.00 58.90 C +ATOM 5324 C GLN L 144 -25.102 -57.867 -5.546 1.00 58.89 C +ATOM 5325 O GLN L 144 -24.607 -58.123 -6.649 1.00 58.90 O +ATOM 5326 CB GLN L 144 -24.605 -55.602 -4.651 1.00 58.92 C +ATOM 5327 CG GLN L 144 -23.573 -55.106 -5.668 1.00 59.02 C +ATOM 5328 CD GLN L 144 -22.329 -54.488 -5.041 1.00 59.10 C +ATOM 5329 OE1 GLN L 144 -21.270 -54.475 -5.663 1.00 58.61 O +ATOM 5330 NE2 GLN L 144 -22.451 -53.974 -3.813 1.00 59.47 N +ATOM 5331 N LEU L 145 -25.145 -58.743 -4.545 1.00 58.82 N +ATOM 5332 CA LEU L 145 -24.582 -60.082 -4.681 1.00 58.66 C +ATOM 5333 C LEU L 145 -25.385 -60.953 -5.645 1.00 58.65 C +ATOM 5334 O LEU L 145 -24.797 -61.658 -6.474 1.00 58.67 O +ATOM 5335 CB LEU L 145 -24.396 -60.746 -3.313 1.00 58.59 C +ATOM 5336 CG LEU L 145 -23.031 -60.418 -2.699 1.00 58.14 C +ATOM 5337 CD1 LEU L 145 -23.045 -60.538 -1.181 1.00 58.18 C +ATOM 5338 CD2 LEU L 145 -21.945 -61.286 -3.308 1.00 57.03 C +ATOM 5339 N LYS L 146 -26.715 -60.880 -5.550 1.00 58.54 N +ATOM 5340 CA LYS L 146 -27.607 -61.501 -6.532 1.00 58.53 C +ATOM 5341 C LYS L 146 -27.107 -61.210 -7.952 1.00 58.61 C +ATOM 5342 O LYS L 146 -26.973 -62.119 -8.774 1.00 58.62 O +ATOM 5343 CB LYS L 146 -29.041 -60.985 -6.359 1.00 58.34 C +ATOM 5344 N SER L 147 -26.803 -59.933 -8.198 1.00 58.67 N +ATOM 5345 CA SER L 147 -26.332 -59.409 -9.486 1.00 58.45 C +ATOM 5346 C SER L 147 -25.065 -60.072 -10.067 1.00 58.24 C +ATOM 5347 O SER L 147 -25.043 -60.422 -11.247 1.00 58.23 O +ATOM 5348 CB SER L 147 -26.164 -57.885 -9.373 1.00 58.46 C +ATOM 5349 OG SER L 147 -24.954 -57.438 -9.959 1.00 58.80 O +ATOM 5350 N GLY L 148 -24.017 -60.223 -9.257 1.00 58.01 N +ATOM 5351 CA GLY L 148 -22.783 -60.866 -9.722 1.00 57.67 C +ATOM 5352 C GLY L 148 -21.487 -60.216 -9.269 1.00 57.51 C +ATOM 5353 O GLY L 148 -20.393 -60.681 -9.615 1.00 57.59 O +ATOM 5354 N THR L 149 -21.600 -59.155 -8.473 1.00 57.22 N +ATOM 5355 CA THR L 149 -20.431 -58.398 -8.020 1.00 56.78 C +ATOM 5356 C THR L 149 -20.506 -58.021 -6.528 1.00 56.33 C +ATOM 5357 O THR L 149 -21.592 -57.779 -5.989 1.00 56.20 O +ATOM 5358 CB THR L 149 -20.214 -57.159 -8.932 1.00 56.91 C +ATOM 5359 OG1 THR L 149 -19.429 -57.541 -10.068 1.00 56.85 O +ATOM 5360 CG2 THR L 149 -19.505 -56.037 -8.205 1.00 57.33 C +ATOM 5361 N ALA L 150 -19.346 -57.996 -5.871 1.00 55.80 N +ATOM 5362 CA ALA L 150 -19.245 -57.610 -4.460 1.00 55.45 C +ATOM 5363 C ALA L 150 -18.491 -56.290 -4.285 1.00 55.22 C +ATOM 5364 O ALA L 150 -17.441 -56.091 -4.906 1.00 55.47 O +ATOM 5365 CB ALA L 150 -18.566 -58.710 -3.657 1.00 55.30 C +ATOM 5366 N SER L 151 -19.024 -55.401 -3.440 1.00 54.65 N +ATOM 5367 CA SER L 151 -18.361 -54.130 -3.112 1.00 54.03 C +ATOM 5368 C SER L 151 -18.156 -53.905 -1.605 1.00 53.64 C +ATOM 5369 O SER L 151 -19.113 -53.655 -0.857 1.00 53.49 O +ATOM 5370 CB SER L 151 -19.129 -52.955 -3.715 1.00 54.03 C +ATOM 5371 OG SER L 151 -19.287 -53.113 -5.111 1.00 54.01 O +ATOM 5372 N VAL L 152 -16.903 -53.983 -1.168 1.00 53.13 N +ATOM 5373 CA VAL L 152 -16.570 -53.763 0.238 1.00 52.92 C +ATOM 5374 C VAL L 152 -16.042 -52.337 0.495 1.00 52.74 C +ATOM 5375 O VAL L 152 -14.937 -51.980 0.075 1.00 52.62 O +ATOM 5376 CB VAL L 152 -15.586 -54.829 0.751 1.00 52.94 C +ATOM 5377 N VAL L 153 -16.855 -51.536 1.186 1.00 52.46 N +ATOM 5378 CA VAL L 153 -16.628 -50.095 1.359 1.00 52.01 C +ATOM 5379 C VAL L 153 -16.125 -49.788 2.767 1.00 52.23 C +ATOM 5380 O VAL L 153 -16.746 -50.178 3.763 1.00 52.58 O +ATOM 5381 CB VAL L 153 -17.932 -49.294 1.115 1.00 51.73 C +ATOM 5382 CG1 VAL L 153 -17.721 -47.820 1.378 1.00 51.29 C +ATOM 5383 CG2 VAL L 153 -18.450 -49.518 -0.294 1.00 51.39 C +ATOM 5384 N CYS L 154 -14.999 -49.088 2.845 1.00 52.16 N +ATOM 5385 CA CYS L 154 -14.419 -48.688 4.117 1.00 51.57 C +ATOM 5386 C CYS L 154 -14.357 -47.179 4.126 1.00 51.08 C +ATOM 5387 O CYS L 154 -13.801 -46.576 3.207 1.00 51.04 O +ATOM 5388 CB CYS L 154 -13.020 -49.280 4.270 1.00 51.78 C +ATOM 5389 SG CYS L 154 -12.034 -48.630 5.645 1.00 52.78 S +ATOM 5390 N LEU L 155 -14.930 -46.585 5.169 1.00 50.63 N +ATOM 5391 CA LEU L 155 -15.069 -45.129 5.297 1.00 50.10 C +ATOM 5392 C LEU L 155 -14.242 -44.534 6.441 1.00 49.78 C +ATOM 5393 O LEU L 155 -14.568 -44.749 7.604 1.00 50.04 O +ATOM 5394 CB LEU L 155 -16.549 -44.771 5.493 1.00 49.89 C +ATOM 5395 CG LEU L 155 -16.925 -43.511 6.277 1.00 49.79 C +ATOM 5396 CD1 LEU L 155 -16.505 -42.243 5.541 1.00 50.03 C +ATOM 5397 CD2 LEU L 155 -18.418 -43.504 6.570 1.00 50.00 C +ATOM 5398 N LEU L 156 -13.192 -43.780 6.116 1.00 49.19 N +ATOM 5399 CA LEU L 156 -12.481 -43.004 7.136 1.00 48.68 C +ATOM 5400 C LEU L 156 -13.187 -41.658 7.271 1.00 48.58 C +ATOM 5401 O LEU L 156 -13.414 -40.974 6.271 1.00 48.68 O +ATOM 5402 CB LEU L 156 -11.001 -42.800 6.794 1.00 48.40 C +ATOM 5403 CG LEU L 156 -10.201 -43.827 5.987 1.00 48.26 C +ATOM 5404 CD1 LEU L 156 -8.738 -43.448 6.014 1.00 47.41 C +ATOM 5405 CD2 LEU L 156 -10.392 -45.253 6.480 1.00 48.72 C +ATOM 5406 N ASN L 157 -13.536 -41.281 8.500 1.00 48.32 N +ATOM 5407 CA ASN L 157 -14.401 -40.123 8.715 1.00 47.88 C +ATOM 5408 C ASN L 157 -13.818 -38.997 9.561 1.00 47.64 C +ATOM 5409 O ASN L 157 -13.355 -39.214 10.683 1.00 47.50 O +ATOM 5410 CB ASN L 157 -15.743 -40.561 9.280 1.00 47.86 C +ATOM 5411 CG ASN L 157 -16.853 -39.623 8.909 1.00 48.28 C +ATOM 5412 OD1 ASN L 157 -17.048 -39.308 7.734 1.00 48.92 O +ATOM 5413 ND2 ASN L 157 -17.604 -39.173 9.907 1.00 49.02 N +ATOM 5414 N ASN L 158 -13.856 -37.798 8.976 1.00 47.43 N +ATOM 5415 CA ASN L 158 -13.422 -36.531 9.582 1.00 46.97 C +ATOM 5416 C ASN L 158 -12.061 -36.531 10.255 1.00 46.93 C +ATOM 5417 O ASN L 158 -11.953 -36.740 11.461 1.00 47.01 O +ATOM 5418 CB ASN L 158 -14.506 -35.978 10.504 1.00 46.89 C +ATOM 5419 CG ASN L 158 -15.794 -35.699 9.774 1.00 46.09 C +ATOM 5420 OD1 ASN L 158 -15.857 -35.761 8.547 1.00 45.82 O +ATOM 5421 ND2 ASN L 158 -16.829 -35.390 10.523 1.00 46.09 N +ATOM 5422 N PHE L 159 -11.030 -36.283 9.452 1.00 47.02 N +ATOM 5423 CA PHE L 159 -9.632 -36.351 9.891 1.00 47.04 C +ATOM 5424 C PHE L 159 -8.799 -35.286 9.200 1.00 47.39 C +ATOM 5425 O PHE L 159 -9.079 -34.932 8.056 1.00 47.74 O +ATOM 5426 CB PHE L 159 -9.040 -37.728 9.577 1.00 46.63 C +ATOM 5427 CG PHE L 159 -9.079 -38.092 8.120 1.00 46.01 C +ATOM 5428 CD1 PHE L 159 -10.263 -38.525 7.522 1.00 45.97 C +ATOM 5429 CD2 PHE L 159 -7.933 -38.020 7.346 1.00 45.53 C +ATOM 5430 CE1 PHE L 159 -10.302 -38.872 6.172 1.00 45.52 C +ATOM 5431 CE2 PHE L 159 -7.962 -38.364 5.990 1.00 45.69 C +ATOM 5432 CZ PHE L 159 -9.148 -38.793 5.404 1.00 45.63 C +ATOM 5433 N TYR L 160 -7.781 -34.784 9.896 1.00 47.69 N +ATOM 5434 CA TYR L 160 -6.793 -33.875 9.312 1.00 47.84 C +ATOM 5435 C TYR L 160 -5.436 -34.264 9.875 1.00 48.05 C +ATOM 5436 O TYR L 160 -5.343 -34.594 11.053 1.00 47.57 O +ATOM 5437 CB TYR L 160 -7.136 -32.420 9.657 1.00 47.83 C +ATOM 5438 CG TYR L 160 -6.204 -31.377 9.067 1.00 47.89 C +ATOM 5439 CD1 TYR L 160 -6.523 -30.715 7.884 1.00 48.20 C +ATOM 5440 CD2 TYR L 160 -5.011 -31.036 9.704 1.00 48.23 C +ATOM 5441 CE1 TYR L 160 -5.666 -29.746 7.335 1.00 48.34 C +ATOM 5442 CE2 TYR L 160 -4.143 -30.077 9.166 1.00 48.41 C +ATOM 5443 CZ TYR L 160 -4.475 -29.429 7.984 1.00 48.33 C +ATOM 5444 OH TYR L 160 -3.612 -28.474 7.457 1.00 47.97 O +ATOM 5445 N PRO L 161 -4.375 -34.241 9.047 1.00 48.72 N +ATOM 5446 CA PRO L 161 -4.215 -33.887 7.624 1.00 49.65 C +ATOM 5447 C PRO L 161 -4.802 -34.896 6.630 1.00 50.60 C +ATOM 5448 O PRO L 161 -5.191 -35.986 7.037 1.00 50.87 O +ATOM 5449 CB PRO L 161 -2.688 -33.830 7.448 1.00 49.54 C +ATOM 5450 CG PRO L 161 -2.112 -33.875 8.831 1.00 48.86 C +ATOM 5451 CD PRO L 161 -3.084 -34.611 9.649 1.00 48.70 C +ATOM 5452 N ARG L 162 -4.834 -34.536 5.340 1.00 51.65 N +ATOM 5453 CA ARG L 162 -5.412 -35.391 4.271 1.00 52.51 C +ATOM 5454 C ARG L 162 -4.596 -36.648 3.943 1.00 53.12 C +ATOM 5455 O ARG L 162 -5.099 -37.555 3.274 1.00 53.28 O +ATOM 5456 CB ARG L 162 -5.672 -34.594 2.977 1.00 52.23 C +ATOM 5457 N GLU L 163 -3.345 -36.694 4.389 1.00 53.87 N +ATOM 5458 CA GLU L 163 -2.521 -37.874 4.191 1.00 54.83 C +ATOM 5459 C GLU L 163 -3.073 -39.025 5.031 1.00 55.58 C +ATOM 5460 O GLU L 163 -3.374 -38.835 6.211 1.00 55.60 O +ATOM 5461 CB GLU L 163 -1.072 -37.574 4.573 1.00 54.79 C +ATOM 5462 N ALA L 164 -3.241 -40.195 4.406 1.00 56.70 N +ATOM 5463 CA ALA L 164 -3.668 -41.447 5.087 1.00 57.77 C +ATOM 5464 C ALA L 164 -3.752 -42.648 4.131 1.00 58.51 C +ATOM 5465 O ALA L 164 -4.011 -42.484 2.936 1.00 58.61 O +ATOM 5466 CB ALA L 164 -5.003 -41.266 5.844 1.00 57.59 C +ATOM 5467 N LYS L 165 -3.544 -43.849 4.670 1.00 59.46 N +ATOM 5468 CA LYS L 165 -3.534 -45.069 3.864 1.00 60.47 C +ATOM 5469 C LYS L 165 -4.624 -46.061 4.277 1.00 61.21 C +ATOM 5470 O LYS L 165 -4.781 -46.365 5.469 1.00 61.34 O +ATOM 5471 CB LYS L 165 -2.153 -45.738 3.920 1.00 60.23 C +ATOM 5472 N VAL L 166 -5.375 -46.548 3.283 1.00 62.11 N +ATOM 5473 CA VAL L 166 -6.324 -47.658 3.463 1.00 62.89 C +ATOM 5474 C VAL L 166 -5.748 -48.929 2.855 1.00 63.43 C +ATOM 5475 O VAL L 166 -5.601 -49.041 1.639 1.00 63.37 O +ATOM 5476 CB VAL L 166 -7.709 -47.373 2.830 1.00 62.67 C +ATOM 5477 N GLN L 167 -5.401 -49.878 3.714 1.00 64.45 N +ATOM 5478 CA GLN L 167 -4.855 -51.149 3.253 1.00 65.50 C +ATOM 5479 C GLN L 167 -5.866 -52.280 3.413 1.00 65.95 C +ATOM 5480 O GLN L 167 -6.165 -52.694 4.542 1.00 65.92 O +ATOM 5481 CB GLN L 167 -3.568 -51.490 4.005 1.00 65.66 C +ATOM 5482 CG GLN L 167 -2.933 -52.810 3.586 1.00 66.28 C +ATOM 5483 CD GLN L 167 -2.200 -52.703 2.270 1.00 67.33 C +ATOM 5484 OE1 GLN L 167 -1.230 -51.946 2.149 1.00 67.89 O +ATOM 5485 NE2 GLN L 167 -2.653 -53.464 1.271 1.00 67.20 N +ATOM 5486 N TRP L 168 -6.374 -52.776 2.279 1.00 66.32 N +ATOM 5487 CA TRP L 168 -7.313 -53.902 2.273 1.00 66.54 C +ATOM 5488 C TRP L 168 -6.610 -55.244 2.508 1.00 67.07 C +ATOM 5489 O TRP L 168 -5.628 -55.590 1.832 1.00 67.10 O +ATOM 5490 CB TRP L 168 -8.115 -53.952 0.970 1.00 66.11 C +ATOM 5491 CG TRP L 168 -9.237 -52.941 0.876 1.00 65.52 C +ATOM 5492 CD1 TRP L 168 -9.255 -51.811 0.115 1.00 64.97 C +ATOM 5493 CD2 TRP L 168 -10.503 -52.987 1.549 1.00 64.68 C +ATOM 5494 NE1 TRP L 168 -10.445 -51.150 0.272 1.00 64.54 N +ATOM 5495 CE2 TRP L 168 -11.229 -51.847 1.151 1.00 64.32 C +ATOM 5496 CE3 TRP L 168 -11.094 -53.880 2.449 1.00 64.86 C +ATOM 5497 CZ2 TRP L 168 -12.512 -51.571 1.624 1.00 64.65 C +ATOM 5498 CZ3 TRP L 168 -12.376 -53.602 2.922 1.00 65.03 C +ATOM 5499 CH2 TRP L 168 -13.067 -52.456 2.507 1.00 64.95 C +ATOM 5500 N LYS L 169 -7.123 -55.984 3.488 1.00 67.69 N +ATOM 5501 CA LYS L 169 -6.627 -57.322 3.809 1.00 68.07 C +ATOM 5502 C LYS L 169 -7.780 -58.340 3.889 1.00 68.22 C +ATOM 5503 O LYS L 169 -8.587 -58.334 4.830 1.00 67.93 O +ATOM 5504 CB LYS L 169 -5.779 -57.307 5.090 1.00 67.99 C +ATOM 5505 N VAL L 170 -7.868 -59.171 2.852 1.00 68.59 N +ATOM 5506 CA VAL L 170 -8.774 -60.313 2.837 1.00 68.93 C +ATOM 5507 C VAL L 170 -7.986 -61.538 3.311 1.00 69.16 C +ATOM 5508 O VAL L 170 -6.863 -61.800 2.837 1.00 69.04 O +ATOM 5509 CB VAL L 170 -9.391 -60.560 1.436 1.00 68.66 C +ATOM 5510 N ASP L 171 -8.579 -62.264 4.262 1.00 69.29 N +ATOM 5511 CA ASP L 171 -7.930 -63.394 4.919 1.00 69.32 C +ATOM 5512 C ASP L 171 -6.427 -63.155 5.068 1.00 69.63 C +ATOM 5513 O ASP L 171 -5.604 -63.834 4.441 1.00 69.85 O +ATOM 5514 CB ASP L 171 -8.246 -64.705 4.190 1.00 69.02 C +ATOM 5515 CG ASP L 171 -9.589 -65.284 4.598 1.00 68.65 C +ATOM 5516 OD1 ASP L 171 -10.337 -65.738 3.710 1.00 67.87 O +ATOM 5517 OD2 ASP L 171 -9.911 -65.274 5.809 1.00 68.25 O +ATOM 5518 N ASN L 172 -6.103 -62.134 5.865 1.00 69.75 N +ATOM 5519 CA ASN L 172 -4.730 -61.787 6.253 1.00 69.78 C +ATOM 5520 C ASN L 172 -3.732 -61.461 5.122 1.00 69.58 C +ATOM 5521 O ASN L 172 -2.562 -61.182 5.389 1.00 69.45 O +ATOM 5522 CB ASN L 172 -4.159 -62.869 7.178 1.00 69.97 C +ATOM 5523 CG ASN L 172 -3.157 -62.319 8.171 1.00 70.50 C +ATOM 5524 OD1 ASN L 172 -2.021 -62.795 8.260 1.00 70.88 O +ATOM 5525 ND2 ASN L 172 -3.574 -61.308 8.928 1.00 71.36 N +ATOM 5526 N ALA L 173 -4.190 -61.482 3.873 1.00 69.45 N +ATOM 5527 CA ALA L 173 -3.331 -61.146 2.736 1.00 69.45 C +ATOM 5528 C ALA L 173 -3.700 -59.785 2.124 1.00 69.48 C +ATOM 5529 O ALA L 173 -4.883 -59.425 2.055 1.00 69.73 O +ATOM 5530 CB ALA L 173 -3.410 -62.238 1.690 1.00 69.45 C +ATOM 5531 N LEU L 174 -2.691 -59.038 1.673 1.00 69.07 N +ATOM 5532 CA LEU L 174 -2.907 -57.717 1.053 1.00 68.55 C +ATOM 5533 C LEU L 174 -3.609 -57.767 -0.327 1.00 68.01 C +ATOM 5534 O LEU L 174 -3.849 -58.847 -0.878 1.00 67.72 O +ATOM 5535 CB LEU L 174 -1.579 -56.950 0.962 1.00 68.79 C +ATOM 5536 N GLN L 175 -3.939 -56.588 -0.867 1.00 67.34 N +ATOM 5537 CA GLN L 175 -4.691 -56.456 -2.125 1.00 66.50 C +ATOM 5538 C GLN L 175 -4.168 -55.293 -2.957 1.00 65.82 C +ATOM 5539 O GLN L 175 -3.858 -54.238 -2.414 1.00 65.94 O +ATOM 5540 CB GLN L 175 -6.168 -56.201 -1.837 1.00 66.59 C +ATOM 5541 CG GLN L 175 -6.791 -57.107 -0.782 1.00 67.03 C +ATOM 5542 CD GLN L 175 -7.190 -58.478 -1.314 1.00 67.74 C +ATOM 5543 OE1 GLN L 175 -7.651 -59.332 -0.552 1.00 67.66 O +ATOM 5544 NE2 GLN L 175 -7.027 -58.692 -2.624 1.00 67.50 N +ATOM 5545 N SER L 176 -4.087 -55.483 -4.272 1.00 64.95 N +ATOM 5546 CA SER L 176 -3.603 -54.443 -5.186 1.00 64.15 C +ATOM 5547 C SER L 176 -4.402 -54.411 -6.493 1.00 63.69 C +ATOM 5548 O SER L 176 -4.850 -55.452 -6.985 1.00 63.69 O +ATOM 5549 CB SER L 176 -2.112 -54.631 -5.481 1.00 63.96 C +ATOM 5550 N GLY L 177 -4.588 -53.210 -7.040 1.00 62.98 N +ATOM 5551 CA GLY L 177 -5.258 -53.024 -8.335 1.00 61.99 C +ATOM 5552 C GLY L 177 -6.695 -53.521 -8.434 1.00 61.16 C +ATOM 5553 O GLY L 177 -7.196 -53.798 -9.529 1.00 61.27 O +ATOM 5554 N ASN L 178 -7.357 -53.626 -7.289 1.00 60.17 N +ATOM 5555 CA ASN L 178 -8.734 -54.093 -7.214 1.00 59.18 C +ATOM 5556 C ASN L 178 -9.564 -53.151 -6.358 1.00 58.41 C +ATOM 5557 O ASN L 178 -10.724 -53.434 -6.044 1.00 58.42 O +ATOM 5558 CB ASN L 178 -8.771 -55.505 -6.618 1.00 59.35 C +ATOM 5559 CG ASN L 178 -8.032 -55.610 -5.271 1.00 59.71 C +ATOM 5560 OD1 ASN L 178 -7.196 -54.762 -4.916 1.00 59.55 O +ATOM 5561 ND2 ASN L 178 -8.336 -56.670 -4.524 1.00 59.41 N +ATOM 5562 N SER L 179 -8.946 -52.029 -5.985 1.00 57.41 N +ATOM 5563 CA SER L 179 -9.493 -51.101 -4.992 1.00 56.04 C +ATOM 5564 C SER L 179 -9.259 -49.638 -5.375 1.00 55.18 C +ATOM 5565 O SER L 179 -8.127 -49.229 -5.651 1.00 54.93 O +ATOM 5566 CB SER L 179 -8.889 -51.381 -3.606 1.00 55.97 C +ATOM 5567 OG SER L 179 -7.562 -50.899 -3.515 1.00 54.92 O +ATOM 5568 N GLN L 180 -10.340 -48.864 -5.379 1.00 54.00 N +ATOM 5569 CA GLN L 180 -10.278 -47.438 -5.672 1.00 53.05 C +ATOM 5570 C GLN L 180 -10.750 -46.593 -4.480 1.00 52.19 C +ATOM 5571 O GLN L 180 -11.508 -47.082 -3.621 1.00 52.17 O +ATOM 5572 CB GLN L 180 -11.141 -47.117 -6.889 1.00 53.09 C +ATOM 5573 CG GLN L 180 -10.515 -47.409 -8.237 1.00 52.79 C +ATOM 5574 CD GLN L 180 -11.454 -47.023 -9.373 1.00 53.51 C +ATOM 5575 OE1 GLN L 180 -12.672 -47.228 -9.291 1.00 54.31 O +ATOM 5576 NE2 GLN L 180 -10.895 -46.458 -10.436 1.00 54.19 N +ATOM 5577 N GLU L 181 -10.311 -45.328 -4.445 1.00 50.78 N +ATOM 5578 CA GLU L 181 -10.752 -44.370 -3.417 1.00 49.17 C +ATOM 5579 C GLU L 181 -10.895 -42.922 -3.888 1.00 47.83 C +ATOM 5580 O GLU L 181 -10.305 -42.509 -4.885 1.00 47.67 O +ATOM 5581 CB GLU L 181 -9.822 -44.417 -2.212 1.00 49.23 C +ATOM 5582 CG GLU L 181 -8.405 -44.029 -2.519 1.00 49.72 C +ATOM 5583 CD GLU L 181 -7.524 -44.102 -1.300 1.00 50.99 C +ATOM 5584 OE1 GLU L 181 -7.786 -44.960 -0.427 1.00 51.25 O +ATOM 5585 OE2 GLU L 181 -6.563 -43.303 -1.218 1.00 51.51 O +ATOM 5586 N SER L 182 -11.697 -42.159 -3.155 1.00 46.30 N +ATOM 5587 CA SER L 182 -11.775 -40.721 -3.354 1.00 45.02 C +ATOM 5588 C SER L 182 -11.849 -40.022 -2.003 1.00 44.37 C +ATOM 5589 O SER L 182 -12.337 -40.598 -1.023 1.00 44.14 O +ATOM 5590 CB SER L 182 -12.952 -40.334 -4.259 1.00 44.96 C +ATOM 5591 OG SER L 182 -14.198 -40.532 -3.624 1.00 44.02 O +ATOM 5592 N VAL L 183 -11.336 -38.792 -1.962 1.00 43.48 N +ATOM 5593 CA VAL L 183 -11.313 -37.972 -0.751 1.00 42.73 C +ATOM 5594 C VAL L 183 -12.149 -36.717 -0.983 1.00 42.64 C +ATOM 5595 O VAL L 183 -12.004 -36.064 -2.015 1.00 42.85 O +ATOM 5596 CB VAL L 183 -9.867 -37.548 -0.388 1.00 42.44 C +ATOM 5597 CG1 VAL L 183 -9.838 -36.765 0.900 1.00 41.85 C +ATOM 5598 CG2 VAL L 183 -8.980 -38.749 -0.264 1.00 41.94 C +ATOM 5599 N THR L 184 -13.015 -36.376 -0.032 1.00 42.40 N +ATOM 5600 CA THR L 184 -13.796 -35.140 -0.129 1.00 42.41 C +ATOM 5601 C THR L 184 -12.930 -33.895 0.059 1.00 42.42 C +ATOM 5602 O THR L 184 -11.743 -33.981 0.394 1.00 42.28 O +ATOM 5603 CB THR L 184 -14.941 -35.080 0.899 1.00 42.38 C +ATOM 5604 OG1 THR L 184 -14.426 -35.345 2.207 1.00 42.55 O +ATOM 5605 CG2 THR L 184 -16.021 -36.077 0.564 1.00 42.42 C +ATOM 5606 N GLU L 185 -13.539 -32.734 -0.167 1.00 42.46 N +ATOM 5607 CA GLU L 185 -12.884 -31.449 0.075 1.00 42.49 C +ATOM 5608 C GLU L 185 -12.881 -31.156 1.578 1.00 42.02 C +ATOM 5609 O GLU L 185 -13.485 -31.895 2.369 1.00 41.98 O +ATOM 5610 CB GLU L 185 -13.616 -30.340 -0.691 1.00 42.72 C +ATOM 5611 CG GLU L 185 -13.858 -30.655 -2.176 1.00 43.65 C +ATOM 5612 CD GLU L 185 -12.764 -30.115 -3.088 1.00 45.13 C +ATOM 5613 OE1 GLU L 185 -11.844 -29.444 -2.574 1.00 46.63 O +ATOM 5614 OE2 GLU L 185 -12.823 -30.351 -4.318 1.00 45.69 O +ATOM 5615 N GLN L 186 -12.199 -30.088 1.979 1.00 41.52 N +ATOM 5616 CA GLN L 186 -12.204 -29.686 3.380 1.00 41.03 C +ATOM 5617 C GLN L 186 -13.601 -29.298 3.809 1.00 41.01 C +ATOM 5618 O GLN L 186 -14.278 -28.527 3.120 1.00 40.76 O +ATOM 5619 CB GLN L 186 -11.242 -28.533 3.627 1.00 40.77 C +ATOM 5620 CG GLN L 186 -10.182 -28.860 4.625 1.00 40.28 C +ATOM 5621 CD GLN L 186 -9.226 -27.723 4.866 1.00 40.76 C +ATOM 5622 OE1 GLN L 186 -9.164 -26.760 4.095 1.00 41.65 O +ATOM 5623 NE2 GLN L 186 -8.459 -27.828 5.944 1.00 40.29 N +ATOM 5624 N ASP L 187 -14.038 -29.846 4.939 1.00 40.97 N +ATOM 5625 CA ASP L 187 -15.344 -29.498 5.460 1.00 41.30 C +ATOM 5626 C ASP L 187 -15.366 -28.021 5.794 1.00 41.44 C +ATOM 5627 O ASP L 187 -14.432 -27.500 6.402 1.00 41.91 O +ATOM 5628 CB ASP L 187 -15.693 -30.319 6.695 1.00 41.34 C +ATOM 5629 CG ASP L 187 -17.154 -30.161 7.114 1.00 41.93 C +ATOM 5630 OD1 ASP L 187 -18.058 -30.120 6.235 1.00 42.67 O +ATOM 5631 OD2 ASP L 187 -17.399 -30.093 8.334 1.00 42.12 O +ATOM 5632 N SER L 188 -16.427 -27.343 5.379 1.00 41.45 N +ATOM 5633 CA SER L 188 -16.552 -25.913 5.627 1.00 41.38 C +ATOM 5634 C SER L 188 -16.794 -25.568 7.098 1.00 41.17 C +ATOM 5635 O SER L 188 -16.504 -24.455 7.522 1.00 41.04 O +ATOM 5636 CB SER L 188 -17.636 -25.304 4.737 1.00 41.43 C +ATOM 5637 OG SER L 188 -18.865 -25.975 4.906 1.00 41.87 O +ATOM 5638 N LYS L 189 -17.306 -26.521 7.873 1.00 41.14 N +ATOM 5639 CA LYS L 189 -17.577 -26.270 9.287 1.00 41.29 C +ATOM 5640 C LYS L 189 -16.424 -26.671 10.230 1.00 41.49 C +ATOM 5641 O LYS L 189 -16.057 -25.882 11.104 1.00 42.01 O +ATOM 5642 CB LYS L 189 -18.914 -26.880 9.724 1.00 40.97 C +ATOM 5643 N ASP L 190 -15.835 -27.857 10.052 1.00 41.33 N +ATOM 5644 CA ASP L 190 -14.828 -28.352 11.008 1.00 41.36 C +ATOM 5645 C ASP L 190 -13.441 -28.583 10.420 1.00 41.32 C +ATOM 5646 O ASP L 190 -12.585 -29.197 11.053 1.00 41.03 O +ATOM 5647 CB ASP L 190 -15.327 -29.622 11.721 1.00 41.72 C +ATOM 5648 CG ASP L 190 -15.372 -30.863 10.804 1.00 42.47 C +ATOM 5649 OD1 ASP L 190 -14.860 -30.806 9.659 1.00 43.32 O +ATOM 5650 OD2 ASP L 190 -15.916 -31.910 11.247 1.00 41.95 O +ATOM 5651 N SER L 191 -13.254 -28.103 9.195 1.00 41.70 N +ATOM 5652 CA SER L 191 -11.984 -28.161 8.452 1.00 41.73 C +ATOM 5653 C SER L 191 -11.365 -29.552 8.260 1.00 41.74 C +ATOM 5654 O SER L 191 -10.151 -29.659 8.092 1.00 41.86 O +ATOM 5655 CB SER L 191 -10.964 -27.200 9.070 1.00 41.84 C +ATOM 5656 N THR L 192 -12.186 -30.602 8.257 1.00 41.75 N +ATOM 5657 CA THR L 192 -11.677 -31.979 8.156 1.00 41.90 C +ATOM 5658 C THR L 192 -12.059 -32.649 6.850 1.00 42.20 C +ATOM 5659 O THR L 192 -13.014 -32.230 6.180 1.00 42.62 O +ATOM 5660 CB THR L 192 -12.222 -32.872 9.271 1.00 41.77 C +ATOM 5661 OG1 THR L 192 -13.639 -33.001 9.121 1.00 41.69 O +ATOM 5662 CG2 THR L 192 -11.917 -32.289 10.636 1.00 42.28 C +ATOM 5663 N TYR L 193 -11.331 -33.712 6.510 1.00 42.26 N +ATOM 5664 CA TYR L 193 -11.618 -34.497 5.307 1.00 42.41 C +ATOM 5665 C TYR L 193 -12.423 -35.774 5.596 1.00 43.00 C +ATOM 5666 O TYR L 193 -12.897 -35.970 6.717 1.00 43.16 O +ATOM 5667 CB TYR L 193 -10.318 -34.806 4.566 1.00 41.84 C +ATOM 5668 CG TYR L 193 -9.585 -33.565 4.107 1.00 41.29 C +ATOM 5669 CD1 TYR L 193 -8.440 -33.126 4.755 1.00 41.18 C +ATOM 5670 CD2 TYR L 193 -10.048 -32.821 3.030 1.00 41.20 C +ATOM 5671 CE1 TYR L 193 -7.770 -31.977 4.337 1.00 40.66 C +ATOM 5672 CE2 TYR L 193 -9.387 -31.680 2.612 1.00 40.73 C +ATOM 5673 CZ TYR L 193 -8.254 -31.264 3.268 1.00 40.31 C +ATOM 5674 OH TYR L 193 -7.614 -30.130 2.845 1.00 40.36 O +ATOM 5675 N SER L 194 -12.608 -36.608 4.567 1.00 43.62 N +ATOM 5676 CA SER L 194 -13.260 -37.936 4.670 1.00 44.12 C +ATOM 5677 C SER L 194 -12.885 -38.780 3.432 1.00 44.75 C +ATOM 5678 O SER L 194 -12.794 -38.242 2.321 1.00 44.90 O +ATOM 5679 CB SER L 194 -14.794 -37.832 4.814 1.00 43.89 C +ATOM 5680 OG SER L 194 -15.190 -37.172 6.008 1.00 42.81 O +ATOM 5681 N LEU L 195 -12.672 -40.086 3.627 1.00 45.33 N +ATOM 5682 CA LEU L 195 -12.177 -40.982 2.568 1.00 45.71 C +ATOM 5683 C LEU L 195 -12.995 -42.268 2.445 1.00 46.28 C +ATOM 5684 O LEU L 195 -13.272 -42.924 3.451 1.00 46.27 O +ATOM 5685 CB LEU L 195 -10.719 -41.343 2.838 1.00 45.46 C +ATOM 5686 CG LEU L 195 -9.858 -41.921 1.713 1.00 45.68 C +ATOM 5687 CD1 LEU L 195 -8.385 -41.684 2.037 1.00 46.51 C +ATOM 5688 CD2 LEU L 195 -10.114 -43.404 1.452 1.00 45.22 C +ATOM 5689 N SER L 196 -13.345 -42.627 1.204 1.00 46.93 N +ATOM 5690 CA SER L 196 -14.099 -43.849 0.891 1.00 47.40 C +ATOM 5691 C SER L 196 -13.336 -44.796 -0.046 1.00 48.00 C +ATOM 5692 O SER L 196 -13.426 -44.683 -1.269 1.00 48.02 O +ATOM 5693 CB SER L 196 -15.460 -43.480 0.292 1.00 47.36 C +ATOM 5694 OG SER L 196 -16.041 -44.552 -0.437 1.00 47.47 O +ATOM 5695 N SER L 197 -12.589 -45.733 0.533 1.00 48.99 N +ATOM 5696 CA SER L 197 -11.859 -46.729 -0.250 1.00 49.99 C +ATOM 5697 C SER L 197 -12.779 -47.894 -0.455 1.00 50.75 C +ATOM 5698 O SER L 197 -13.351 -48.392 0.512 1.00 50.89 O +ATOM 5699 CB SER L 197 -10.603 -47.203 0.484 1.00 50.00 C +ATOM 5700 OG SER L 197 -9.745 -47.931 -0.383 1.00 49.92 O +ATOM 5701 N THR L 198 -12.949 -48.318 -1.705 1.00 51.86 N +ATOM 5702 CA THR L 198 -13.844 -49.446 -1.988 1.00 53.06 C +ATOM 5703 C THR L 198 -13.109 -50.609 -2.665 1.00 54.08 C +ATOM 5704 O THR L 198 -12.402 -50.412 -3.662 1.00 54.09 O +ATOM 5705 CB THR L 198 -15.106 -49.050 -2.813 1.00 52.78 C +ATOM 5706 OG1 THR L 198 -14.892 -49.348 -4.195 1.00 52.77 O +ATOM 5707 CG2 THR L 198 -15.477 -47.566 -2.638 1.00 52.64 C +ATOM 5708 N LEU L 199 -13.288 -51.809 -2.105 1.00 55.35 N +ATOM 5709 CA LEU L 199 -12.689 -53.044 -2.620 1.00 56.60 C +ATOM 5710 C LEU L 199 -13.687 -53.852 -3.437 1.00 57.60 C +ATOM 5711 O LEU L 199 -14.786 -54.163 -2.960 1.00 57.76 O +ATOM 5712 CB LEU L 199 -12.179 -53.908 -1.471 1.00 56.56 C +ATOM 5713 CG LEU L 199 -11.518 -55.242 -1.837 1.00 56.63 C +ATOM 5714 CD1 LEU L 199 -10.144 -55.027 -2.464 1.00 56.25 C +ATOM 5715 CD2 LEU L 199 -11.417 -56.138 -0.611 1.00 56.53 C +ATOM 5716 N THR L 200 -13.292 -54.205 -4.658 1.00 58.77 N +ATOM 5717 CA THR L 200 -14.191 -54.893 -5.573 1.00 60.03 C +ATOM 5718 C THR L 200 -13.660 -56.255 -5.980 1.00 60.99 C +ATOM 5719 O THR L 200 -12.548 -56.377 -6.501 1.00 61.16 O +ATOM 5720 CB THR L 200 -14.466 -54.079 -6.845 1.00 59.96 C +ATOM 5721 OG1 THR L 200 -14.440 -52.680 -6.541 1.00 60.50 O +ATOM 5722 CG2 THR L 200 -15.830 -54.449 -7.417 1.00 60.04 C +ATOM 5723 N LEU L 201 -14.483 -57.269 -5.731 1.00 62.14 N +ATOM 5724 CA LEU L 201 -14.225 -58.638 -6.150 1.00 63.04 C +ATOM 5725 C LEU L 201 -15.454 -59.150 -6.918 1.00 63.93 C +ATOM 5726 O LEU L 201 -16.540 -58.547 -6.829 1.00 64.18 O +ATOM 5727 CB LEU L 201 -13.963 -59.514 -4.922 1.00 62.92 C +ATOM 5728 CG LEU L 201 -13.089 -58.979 -3.783 1.00 62.43 C +ATOM 5729 CD1 LEU L 201 -13.338 -59.774 -2.503 1.00 62.33 C +ATOM 5730 CD2 LEU L 201 -11.612 -58.990 -4.152 1.00 61.85 C +ATOM 5731 N SER L 202 -15.281 -60.237 -7.679 1.00 64.74 N +ATOM 5732 CA SER L 202 -16.397 -60.905 -8.367 1.00 65.38 C +ATOM 5733 C SER L 202 -17.164 -61.742 -7.356 1.00 65.93 C +ATOM 5734 O SER L 202 -16.542 -62.360 -6.484 1.00 65.89 O +ATOM 5735 CB SER L 202 -15.873 -61.808 -9.482 1.00 65.38 C +ATOM 5736 OG SER L 202 -15.012 -62.817 -8.970 1.00 65.20 O +ATOM 5737 N LYS L 203 -18.498 -61.771 -7.468 1.00 66.60 N +ATOM 5738 CA LYS L 203 -19.342 -62.538 -6.527 1.00 67.27 C +ATOM 5739 C LYS L 203 -18.762 -63.920 -6.264 1.00 67.80 C +ATOM 5740 O LYS L 203 -18.838 -64.435 -5.152 1.00 67.68 O +ATOM 5741 CB LYS L 203 -20.782 -62.674 -7.031 1.00 67.23 C +ATOM 5742 N ALA L 204 -18.182 -64.505 -7.309 1.00 68.65 N +ATOM 5743 CA ALA L 204 -17.423 -65.736 -7.198 1.00 69.52 C +ATOM 5744 C ALA L 204 -16.251 -65.585 -6.203 1.00 70.21 C +ATOM 5745 O ALA L 204 -16.288 -66.172 -5.110 1.00 70.27 O +ATOM 5746 CB ALA L 204 -16.937 -66.174 -8.579 1.00 69.49 C +ATOM 5747 N ASP L 205 -15.245 -64.779 -6.566 1.00 70.93 N +ATOM 5748 CA ASP L 205 -14.069 -64.524 -5.716 1.00 71.68 C +ATOM 5749 C ASP L 205 -14.427 -64.167 -4.278 1.00 71.93 C +ATOM 5750 O ASP L 205 -13.628 -64.362 -3.364 1.00 71.87 O +ATOM 5751 CB ASP L 205 -13.208 -63.404 -6.307 1.00 71.98 C +ATOM 5752 CG ASP L 205 -11.977 -63.925 -7.053 1.00 73.40 C +ATOM 5753 OD1 ASP L 205 -11.835 -65.161 -7.221 1.00 74.85 O +ATOM 5754 OD2 ASP L 205 -11.143 -63.088 -7.473 1.00 74.28 O +ATOM 5755 N TYR L 206 -15.637 -63.647 -4.094 1.00 72.38 N +ATOM 5756 CA TYR L 206 -16.114 -63.218 -2.787 1.00 72.72 C +ATOM 5757 C TYR L 206 -16.550 -64.380 -1.896 1.00 73.11 C +ATOM 5758 O TYR L 206 -16.364 -64.320 -0.681 1.00 73.22 O +ATOM 5759 CB TYR L 206 -17.232 -62.169 -2.937 1.00 72.57 C +ATOM 5760 CG TYR L 206 -17.773 -61.632 -1.623 1.00 72.33 C +ATOM 5761 CD1 TYR L 206 -16.960 -60.909 -0.753 1.00 71.96 C +ATOM 5762 CD2 TYR L 206 -19.098 -61.845 -1.256 1.00 72.15 C +ATOM 5763 CE1 TYR L 206 -17.451 -60.427 0.449 1.00 71.35 C +ATOM 5764 CE2 TYR L 206 -19.596 -61.361 -0.057 1.00 71.85 C +ATOM 5765 CZ TYR L 206 -18.764 -60.658 0.789 1.00 71.63 C +ATOM 5766 OH TYR L 206 -19.248 -60.183 1.978 1.00 72.10 O +ATOM 5767 N GLU L 207 -17.116 -65.434 -2.484 1.00 73.65 N +ATOM 5768 CA GLU L 207 -17.512 -66.606 -1.693 1.00 74.40 C +ATOM 5769 C GLU L 207 -16.288 -67.307 -1.103 1.00 75.04 C +ATOM 5770 O GLU L 207 -16.293 -67.711 0.064 1.00 74.99 O +ATOM 5771 CB GLU L 207 -18.336 -67.617 -2.507 1.00 74.37 C +ATOM 5772 CG GLU L 207 -19.420 -67.050 -3.429 1.00 74.21 C +ATOM 5773 CD GLU L 207 -20.526 -66.284 -2.715 1.00 73.82 C +ATOM 5774 OE1 GLU L 207 -21.379 -65.716 -3.430 1.00 73.81 O +ATOM 5775 OE2 GLU L 207 -20.554 -66.236 -1.463 1.00 73.76 O +ATOM 5776 N LYS L 208 -15.240 -67.414 -1.919 1.00 75.93 N +ATOM 5777 CA LYS L 208 -14.006 -68.139 -1.585 1.00 76.84 C +ATOM 5778 C LYS L 208 -13.344 -67.793 -0.236 1.00 77.53 C +ATOM 5779 O LYS L 208 -12.607 -68.615 0.318 1.00 77.75 O +ATOM 5780 CB LYS L 208 -12.985 -67.989 -2.726 1.00 76.59 C +ATOM 5781 N HIS L 209 -13.604 -66.594 0.289 1.00 78.34 N +ATOM 5782 CA HIS L 209 -12.917 -66.119 1.499 1.00 79.08 C +ATOM 5783 C HIS L 209 -13.870 -65.667 2.614 1.00 79.53 C +ATOM 5784 O HIS L 209 -15.077 -65.507 2.391 1.00 79.52 O +ATOM 5785 CB HIS L 209 -11.956 -64.975 1.157 1.00 79.12 C +ATOM 5786 CG HIS L 209 -11.220 -65.163 -0.134 1.00 79.84 C +ATOM 5787 ND1 HIS L 209 -9.930 -65.652 -0.193 1.00 80.20 N +ATOM 5788 CD2 HIS L 209 -11.591 -64.914 -1.417 1.00 80.54 C +ATOM 5789 CE1 HIS L 209 -9.540 -65.700 -1.458 1.00 80.65 C +ATOM 5790 NE2 HIS L 209 -10.530 -65.261 -2.221 1.00 80.67 N +ATOM 5791 N LYS L 210 -13.309 -65.480 3.813 1.00 80.01 N +ATOM 5792 CA LYS L 210 -14.012 -64.890 4.957 1.00 80.48 C +ATOM 5793 C LYS L 210 -13.130 -63.801 5.558 1.00 80.86 C +ATOM 5794 O LYS L 210 -11.982 -63.657 5.146 1.00 81.07 O +ATOM 5795 CB LYS L 210 -14.338 -65.953 6.009 1.00 80.38 C +ATOM 5796 N VAL L 211 -13.662 -63.043 6.520 1.00 81.25 N +ATOM 5797 CA VAL L 211 -12.905 -61.979 7.221 1.00 81.52 C +ATOM 5798 C VAL L 211 -12.217 -60.967 6.277 1.00 81.75 C +ATOM 5799 O VAL L 211 -11.082 -61.171 5.807 1.00 81.77 O +ATOM 5800 CB VAL L 211 -11.938 -62.556 8.325 1.00 81.53 C +ATOM 5801 CG1 VAL L 211 -10.885 -61.532 8.774 1.00 81.25 C +ATOM 5802 CG2 VAL L 211 -12.746 -63.037 9.523 1.00 81.63 C +ATOM 5803 N TYR L 212 -12.938 -59.878 6.012 1.00 81.88 N +ATOM 5804 CA TYR L 212 -12.454 -58.777 5.180 1.00 81.89 C +ATOM 5805 C TYR L 212 -12.170 -57.544 6.043 1.00 81.64 C +ATOM 5806 O TYR L 212 -13.023 -57.136 6.840 1.00 81.63 O +ATOM 5807 CB TYR L 212 -13.489 -58.434 4.106 1.00 82.17 C +ATOM 5808 CG TYR L 212 -13.770 -59.549 3.124 1.00 82.69 C +ATOM 5809 CD1 TYR L 212 -12.860 -59.837 2.096 1.00 83.53 C +ATOM 5810 CD2 TYR L 212 -14.948 -60.305 3.209 1.00 82.83 C +ATOM 5811 CE1 TYR L 212 -13.105 -60.854 1.180 1.00 83.62 C +ATOM 5812 CE2 TYR L 212 -15.203 -61.332 2.300 1.00 83.16 C +ATOM 5813 CZ TYR L 212 -14.278 -61.597 1.283 1.00 83.27 C +ATOM 5814 OH TYR L 212 -14.509 -62.604 0.365 1.00 83.30 O +ATOM 5815 N ALA L 213 -10.980 -56.956 5.871 1.00 81.22 N +ATOM 5816 CA ALA L 213 -10.512 -55.853 6.727 1.00 80.73 C +ATOM 5817 C ALA L 213 -9.738 -54.750 5.990 1.00 80.35 C +ATOM 5818 O ALA L 213 -9.407 -54.885 4.808 1.00 80.25 O +ATOM 5819 CB ALA L 213 -9.657 -56.412 7.869 1.00 80.76 C +ATOM 5820 N CYS L 214 -9.453 -53.661 6.707 1.00 79.80 N +ATOM 5821 CA CYS L 214 -8.478 -52.662 6.260 1.00 79.28 C +ATOM 5822 C CYS L 214 -7.718 -52.023 7.418 1.00 78.94 C +ATOM 5823 O CYS L 214 -8.310 -51.638 8.424 1.00 78.68 O +ATOM 5824 CB CYS L 214 -9.123 -51.588 5.379 1.00 79.41 C +ATOM 5825 SG CYS L 214 -10.795 -51.121 5.848 1.00 79.40 S +ATOM 5826 N GLU L 215 -6.398 -51.934 7.266 1.00 78.77 N +ATOM 5827 CA GLU L 215 -5.542 -51.229 8.231 1.00 78.56 C +ATOM 5828 C GLU L 215 -5.426 -49.743 7.849 1.00 78.16 C +ATOM 5829 O GLU L 215 -5.181 -49.396 6.679 1.00 78.26 O +ATOM 5830 CB GLU L 215 -4.151 -51.893 8.376 1.00 78.49 C +ATOM 5831 CG GLU L 215 -3.371 -52.087 7.062 1.00 78.59 C +ATOM 5832 CD GLU L 215 -1.861 -52.306 7.242 1.00 78.84 C +ATOM 5833 OE1 GLU L 215 -1.407 -52.515 8.392 1.00 79.77 O +ATOM 5834 OE2 GLU L 215 -1.124 -52.272 6.222 1.00 78.00 O +ATOM 5835 N VAL L 216 -5.619 -48.876 8.840 1.00 77.32 N +ATOM 5836 CA VAL L 216 -5.639 -47.436 8.608 1.00 76.38 C +ATOM 5837 C VAL L 216 -4.445 -46.763 9.294 1.00 75.70 C +ATOM 5838 O VAL L 216 -4.443 -46.578 10.510 1.00 75.64 O +ATOM 5839 CB VAL L 216 -6.981 -46.795 9.096 1.00 76.38 C +ATOM 5840 CG1 VAL L 216 -7.091 -45.362 8.634 1.00 76.38 C +ATOM 5841 CG2 VAL L 216 -8.180 -47.582 8.603 1.00 76.13 C +ATOM 5842 N THR L 217 -3.427 -46.412 8.516 1.00 74.85 N +ATOM 5843 CA THR L 217 -2.347 -45.568 9.031 1.00 74.24 C +ATOM 5844 C THR L 217 -2.697 -44.072 8.892 1.00 73.85 C +ATOM 5845 O THR L 217 -2.922 -43.574 7.784 1.00 73.96 O +ATOM 5846 CB THR L 217 -0.968 -45.870 8.361 1.00 74.18 C +ATOM 5847 OG1 THR L 217 -1.156 -46.233 6.989 1.00 73.90 O +ATOM 5848 CG2 THR L 217 -0.243 -46.994 9.075 1.00 74.02 C +ATOM 5849 N HIS L 218 -2.762 -43.365 10.018 1.00 73.07 N +ATOM 5850 CA HIS L 218 -2.952 -41.916 10.007 1.00 72.30 C +ATOM 5851 C HIS L 218 -2.043 -41.234 11.022 1.00 72.07 C +ATOM 5852 O HIS L 218 -1.556 -41.881 11.957 1.00 72.22 O +ATOM 5853 CB HIS L 218 -4.409 -41.553 10.290 1.00 72.19 C +ATOM 5854 CG HIS L 218 -4.708 -40.093 10.121 1.00 71.56 C +ATOM 5855 ND1 HIS L 218 -4.596 -39.444 8.909 1.00 70.43 N +ATOM 5856 CD2 HIS L 218 -5.110 -39.157 11.011 1.00 70.71 C +ATOM 5857 CE1 HIS L 218 -4.917 -38.173 9.060 1.00 69.50 C +ATOM 5858 NE2 HIS L 218 -5.236 -37.973 10.325 1.00 69.89 N +ATOM 5859 N GLN L 219 -1.813 -39.933 10.838 1.00 71.44 N +ATOM 5860 CA GLN L 219 -1.034 -39.158 11.796 1.00 70.91 C +ATOM 5861 C GLN L 219 -1.666 -39.268 13.184 1.00 70.59 C +ATOM 5862 O GLN L 219 -1.068 -39.838 14.098 1.00 70.58 O +ATOM 5863 CB GLN L 219 -0.895 -37.696 11.355 1.00 70.74 C +ATOM 5864 N GLY L 220 -2.892 -38.772 13.321 1.00 70.32 N +ATOM 5865 CA GLY L 220 -3.595 -38.761 14.604 1.00 70.14 C +ATOM 5866 C GLY L 220 -3.883 -40.132 15.191 1.00 70.07 C +ATOM 5867 O GLY L 220 -4.489 -40.233 16.260 1.00 70.04 O +ATOM 5868 N LEU L 221 -3.456 -41.183 14.489 1.00 69.98 N +ATOM 5869 CA LEU L 221 -3.627 -42.565 14.948 1.00 69.74 C +ATOM 5870 C LEU L 221 -2.318 -43.098 15.545 1.00 69.56 C +ATOM 5871 O LEU L 221 -1.266 -43.041 14.899 1.00 69.42 O +ATOM 5872 CB LEU L 221 -4.131 -43.461 13.805 1.00 69.55 C +ATOM 5873 N SER L 222 -2.393 -43.595 16.783 1.00 69.46 N +ATOM 5874 CA SER L 222 -1.227 -44.107 17.518 1.00 69.41 C +ATOM 5875 C SER L 222 -0.787 -45.474 17.004 1.00 69.59 C +ATOM 5876 O SER L 222 0.404 -45.707 16.758 1.00 69.76 O +ATOM 5877 CB SER L 222 -1.520 -44.183 19.021 1.00 69.28 C +ATOM 5878 OG SER L 222 -2.353 -45.287 19.329 1.00 68.86 O +ATOM 5879 N SER L 223 -1.763 -46.372 16.862 1.00 69.64 N +ATOM 5880 CA SER L 223 -1.554 -47.702 16.288 1.00 69.51 C +ATOM 5881 C SER L 223 -2.641 -48.015 15.240 1.00 69.28 C +ATOM 5882 O SER L 223 -3.843 -47.963 15.551 1.00 69.04 O +ATOM 5883 CB SER L 223 -1.514 -48.768 17.392 1.00 69.65 C +ATOM 5884 N PRO L 224 -2.214 -48.332 13.994 1.00 69.07 N +ATOM 5885 CA PRO L 224 -3.097 -48.503 12.839 1.00 68.87 C +ATOM 5886 C PRO L 224 -4.401 -49.191 13.198 1.00 68.66 C +ATOM 5887 O PRO L 224 -4.403 -50.385 13.485 1.00 68.81 O +ATOM 5888 CB PRO L 224 -2.270 -49.384 11.898 1.00 68.75 C +ATOM 5889 CG PRO L 224 -0.870 -49.006 12.180 1.00 68.89 C +ATOM 5890 CD PRO L 224 -0.799 -48.554 13.626 1.00 69.13 C +ATOM 5891 N VAL L 225 -5.494 -48.434 13.203 1.00 68.45 N +ATOM 5892 CA VAL L 225 -6.813 -48.992 13.503 1.00 68.41 C +ATOM 5893 C VAL L 225 -7.267 -49.955 12.392 1.00 68.52 C +ATOM 5894 O VAL L 225 -7.191 -49.616 11.199 1.00 68.63 O +ATOM 5895 CB VAL L 225 -7.865 -47.874 13.742 1.00 68.33 C +ATOM 5896 CG1 VAL L 225 -9.286 -48.426 13.700 1.00 67.99 C +ATOM 5897 CG2 VAL L 225 -7.608 -47.180 15.069 1.00 68.34 C +ATOM 5898 N THR L 226 -7.708 -51.156 12.789 1.00 68.40 N +ATOM 5899 CA THR L 226 -8.234 -52.156 11.839 1.00 68.11 C +ATOM 5900 C THR L 226 -9.720 -52.462 12.080 1.00 68.15 C +ATOM 5901 O THR L 226 -10.118 -52.876 13.168 1.00 67.96 O +ATOM 5902 CB THR L 226 -7.386 -53.459 11.807 1.00 67.82 C +ATOM 5903 OG1 THR L 226 -5.993 -53.133 11.830 1.00 67.26 O +ATOM 5904 CG2 THR L 226 -7.671 -54.244 10.547 1.00 67.42 C +ATOM 5905 N LYS L 227 -10.534 -52.222 11.058 1.00 68.41 N +ATOM 5906 CA LYS L 227 -11.955 -52.542 11.107 1.00 68.80 C +ATOM 5907 C LYS L 227 -12.273 -53.590 10.041 1.00 69.13 C +ATOM 5908 O LYS L 227 -11.706 -53.564 8.937 1.00 69.16 O +ATOM 5909 CB LYS L 227 -12.825 -51.289 10.946 1.00 68.53 C +ATOM 5910 N SER L 228 -13.177 -54.509 10.395 1.00 69.48 N +ATOM 5911 CA SER L 228 -13.448 -55.721 9.618 1.00 69.59 C +ATOM 5912 C SER L 228 -14.798 -56.333 9.975 1.00 69.68 C +ATOM 5913 O SER L 228 -15.498 -55.843 10.863 1.00 69.71 O +ATOM 5914 CB SER L 228 -12.376 -56.763 9.910 1.00 69.53 C +ATOM 5915 OG SER L 228 -12.551 -57.285 11.216 1.00 69.86 O +ATOM 5916 N PHE L 229 -15.137 -57.420 9.287 1.00 69.84 N +ATOM 5917 CA PHE L 229 -16.334 -58.218 9.577 1.00 69.96 C +ATOM 5918 C PHE L 229 -16.053 -59.690 9.224 1.00 70.06 C +ATOM 5919 O PHE L 229 -14.920 -60.020 8.847 1.00 70.19 O +ATOM 5920 CB PHE L 229 -17.561 -57.650 8.838 1.00 69.81 C +ATOM 5921 CG PHE L 229 -17.475 -57.727 7.332 1.00 69.94 C +ATOM 5922 CD1 PHE L 229 -16.252 -57.639 6.664 1.00 70.01 C +ATOM 5923 CD2 PHE L 229 -18.631 -57.858 6.575 1.00 70.18 C +ATOM 5924 CE1 PHE L 229 -16.188 -57.709 5.273 1.00 70.08 C +ATOM 5925 CE2 PHE L 229 -18.569 -57.931 5.181 1.00 70.25 C +ATOM 5926 CZ PHE L 229 -17.348 -57.851 4.530 1.00 69.99 C +ATOM 5927 N ASN L 230 -17.051 -60.569 9.361 1.00 69.96 N +ATOM 5928 CA ASN L 230 -16.885 -61.981 8.973 1.00 69.80 C +ATOM 5929 C ASN L 230 -18.109 -62.622 8.294 1.00 69.70 C +ATOM 5930 O ASN L 230 -19.110 -62.945 8.939 1.00 69.75 O +ATOM 5931 CB ASN L 230 -16.378 -62.830 10.155 1.00 69.71 C +ATOM 5932 N ARG L 231 -18.014 -62.756 6.975 1.00 69.68 N +ATOM 5933 CA ARG L 231 -18.904 -63.575 6.141 1.00 69.82 C +ATOM 5934 C ARG L 231 -18.062 -63.902 4.914 1.00 69.83 C +ATOM 5935 O ARG L 231 -16.836 -64.038 5.021 1.00 69.77 O +ATOM 5936 CB ARG L 231 -20.174 -62.827 5.692 1.00 69.73 C +ATOM 5937 CG ARG L 231 -21.219 -62.547 6.753 1.00 69.90 C +ATOM 5938 CD ARG L 231 -22.058 -63.760 7.140 1.00 69.94 C +ATOM 5939 NE ARG L 231 -23.330 -63.332 7.741 1.00 70.61 N +ATOM 5940 CZ ARG L 231 -23.501 -62.971 9.017 1.00 70.33 C +ATOM 5941 NH1 ARG L 231 -22.486 -62.988 9.878 1.00 70.28 N +ATOM 5942 NH2 ARG L 231 -24.700 -62.589 9.439 1.00 69.67 N +ATOM 5943 N GLY L 232 -18.714 -64.003 3.754 1.00 69.74 N +ATOM 5944 CA GLY L 232 -18.029 -64.265 2.491 1.00 69.63 C +ATOM 5945 C GLY L 232 -18.090 -65.723 2.080 1.00 69.57 C +ATOM 5946 O GLY L 232 -18.813 -66.081 1.152 1.00 69.48 O +ATOM 5947 N GLN C 1 -0.839 -12.492 -68.419 1.00 55.89 N +ATOM 5948 CA GLN C 1 -2.142 -11.861 -68.770 1.00 55.86 C +ATOM 5949 C GLN C 1 -3.194 -11.996 -67.667 1.00 55.29 C +ATOM 5950 O GLN C 1 -4.295 -11.443 -67.781 1.00 55.46 O +ATOM 5951 CB GLN C 1 -2.681 -12.421 -70.082 1.00 56.22 C +ATOM 5952 CG GLN C 1 -2.411 -11.538 -71.274 1.00 58.04 C +ATOM 5953 CD GLN C 1 -3.610 -11.474 -72.220 1.00 61.28 C +ATOM 5954 OE1 GLN C 1 -4.198 -12.506 -72.588 1.00 62.40 O +ATOM 5955 NE2 GLN C 1 -3.980 -10.256 -72.619 1.00 61.99 N +ATOM 5956 N VAL C 2 -2.870 -12.743 -66.614 1.00 54.39 N +ATOM 5957 CA VAL C 2 -3.652 -12.673 -65.383 1.00 53.44 C +ATOM 5958 C VAL C 2 -3.268 -11.351 -64.724 1.00 53.07 C +ATOM 5959 O VAL C 2 -2.083 -11.060 -64.538 1.00 52.94 O +ATOM 5960 CB VAL C 2 -3.495 -13.951 -64.454 1.00 53.43 C +ATOM 5961 CG1 VAL C 2 -2.287 -14.815 -64.846 1.00 52.66 C +ATOM 5962 CG2 VAL C 2 -3.493 -13.599 -62.956 1.00 52.94 C +ATOM 5963 N GLN C 3 -4.272 -10.527 -64.440 1.00 52.56 N +ATOM 5964 CA GLN C 3 -4.044 -9.181 -63.901 1.00 52.02 C +ATOM 5965 C GLN C 3 -5.062 -8.863 -62.812 1.00 51.40 C +ATOM 5966 O GLN C 3 -6.248 -9.134 -62.978 1.00 51.46 O +ATOM 5967 CB GLN C 3 -4.108 -8.133 -65.026 1.00 52.03 C +ATOM 5968 N LEU C 4 -4.599 -8.302 -61.700 1.00 50.61 N +ATOM 5969 CA LEU C 4 -5.500 -7.904 -60.623 1.00 50.09 C +ATOM 5970 C LEU C 4 -5.436 -6.393 -60.443 1.00 49.84 C +ATOM 5971 O LEU C 4 -4.408 -5.866 -60.027 1.00 50.14 O +ATOM 5972 CB LEU C 4 -5.136 -8.611 -59.312 1.00 50.12 C +ATOM 5973 CG LEU C 4 -5.168 -10.143 -59.240 1.00 49.76 C +ATOM 5974 CD1 LEU C 4 -4.397 -10.649 -58.032 1.00 49.48 C +ATOM 5975 CD2 LEU C 4 -6.581 -10.643 -59.186 1.00 50.26 C +ATOM 5976 N VAL C 5 -6.528 -5.699 -60.759 1.00 49.25 N +ATOM 5977 CA VAL C 5 -6.519 -4.238 -60.788 1.00 48.93 C +ATOM 5978 C VAL C 5 -7.318 -3.652 -59.626 1.00 48.82 C +ATOM 5979 O VAL C 5 -8.511 -3.894 -59.497 1.00 49.05 O +ATOM 5980 CB VAL C 5 -7.011 -3.693 -62.149 1.00 48.90 C +ATOM 5981 CG1 VAL C 5 -7.192 -2.181 -62.108 1.00 48.77 C +ATOM 5982 CG2 VAL C 5 -6.042 -4.077 -63.251 1.00 48.93 C +ATOM 5983 N GLN C 6 -6.652 -2.863 -58.794 1.00 48.62 N +ATOM 5984 CA GLN C 6 -7.235 -2.424 -57.538 1.00 48.57 C +ATOM 5985 C GLN C 6 -7.737 -0.993 -57.582 1.00 48.45 C +ATOM 5986 O GLN C 6 -7.192 -0.152 -58.303 1.00 48.50 O +ATOM 5987 CB GLN C 6 -6.222 -2.567 -56.396 1.00 48.86 C +ATOM 5988 CG GLN C 6 -5.621 -3.960 -56.248 1.00 49.22 C +ATOM 5989 CD GLN C 6 -5.317 -4.333 -54.813 1.00 48.84 C +ATOM 5990 OE1 GLN C 6 -5.870 -3.768 -53.869 1.00 48.26 O +ATOM 5991 NE2 GLN C 6 -4.440 -5.305 -54.646 1.00 49.43 N +ATOM 5992 N SER C 7 -8.777 -0.736 -56.790 1.00 48.14 N +ATOM 5993 CA SER C 7 -9.291 0.601 -56.534 1.00 47.80 C +ATOM 5994 C SER C 7 -8.160 1.601 -56.234 1.00 47.74 C +ATOM 5995 O SER C 7 -7.129 1.239 -55.664 1.00 47.74 O +ATOM 5996 CB SER C 7 -10.336 0.531 -55.401 1.00 47.71 C +ATOM 5997 OG SER C 7 -10.003 1.358 -54.277 1.00 47.59 O +ATOM 5998 N GLY C 8 -8.354 2.851 -56.645 1.00 47.67 N +ATOM 5999 CA GLY C 8 -7.384 3.913 -56.394 1.00 47.58 C +ATOM 6000 C GLY C 8 -7.313 4.307 -54.934 1.00 47.58 C +ATOM 6001 O GLY C 8 -8.235 4.034 -54.171 1.00 47.69 O +ATOM 6002 N ALA C 9 -6.215 4.956 -54.552 1.00 47.77 N +ATOM 6003 CA ALA C 9 -5.969 5.370 -53.165 1.00 47.79 C +ATOM 6004 C ALA C 9 -7.047 6.320 -52.656 1.00 47.94 C +ATOM 6005 O ALA C 9 -7.803 6.887 -53.445 1.00 47.93 O +ATOM 6006 CB ALA C 9 -4.593 5.997 -53.031 1.00 47.72 C +ATOM 6007 N GLU C 11 -7.112 6.492 -51.336 1.00 48.21 N +ATOM 6008 CA GLU C 11 -8.238 7.175 -50.705 1.00 48.48 C +ATOM 6009 C GLU C 11 -7.945 7.731 -49.328 1.00 48.52 C +ATOM 6010 O GLU C 11 -7.101 7.210 -48.609 1.00 48.53 O +ATOM 6011 CB GLU C 11 -9.406 6.214 -50.573 1.00 48.54 C +ATOM 6012 CG GLU C 11 -10.461 6.374 -51.617 1.00 48.76 C +ATOM 6013 CD GLU C 11 -11.762 5.841 -51.111 1.00 50.22 C +ATOM 6014 OE1 GLU C 11 -12.597 6.655 -50.664 1.00 51.39 O +ATOM 6015 OE2 GLU C 11 -11.933 4.606 -51.110 1.00 50.58 O +ATOM 6016 N VAL C 12 -8.681 8.778 -48.962 1.00 48.74 N +ATOM 6017 CA VAL C 12 -8.557 9.399 -47.647 1.00 48.93 C +ATOM 6018 C VAL C 12 -9.845 9.230 -46.851 1.00 48.76 C +ATOM 6019 O VAL C 12 -10.939 9.277 -47.406 1.00 48.97 O +ATOM 6020 CB VAL C 12 -8.184 10.902 -47.750 1.00 49.15 C +ATOM 6021 CG1 VAL C 12 -9.446 11.798 -47.862 1.00 49.39 C +ATOM 6022 CG2 VAL C 12 -7.302 11.323 -46.562 1.00 49.38 C +ATOM 6023 N LYS C 13 -9.708 9.027 -45.550 1.00 48.60 N +ATOM 6024 CA LYS C 13 -10.858 8.818 -44.690 1.00 48.58 C +ATOM 6025 C LYS C 13 -10.618 9.432 -43.321 1.00 48.59 C +ATOM 6026 O LYS C 13 -9.496 9.420 -42.813 1.00 48.65 O +ATOM 6027 CB LYS C 13 -11.164 7.321 -44.543 1.00 48.58 C +ATOM 6028 CG LYS C 13 -11.761 6.639 -45.786 1.00 48.27 C +ATOM 6029 CD LYS C 13 -13.037 7.304 -46.292 1.00 47.41 C +ATOM 6030 CE LYS C 13 -13.402 6.752 -47.658 1.00 47.70 C +ATOM 6031 NZ LYS C 13 -14.698 7.267 -48.196 1.00 47.98 N +ATOM 6032 N LYS C 14 -11.677 9.981 -42.734 1.00 48.48 N +ATOM 6033 CA LYS C 14 -11.599 10.491 -41.378 1.00 48.33 C +ATOM 6034 C LYS C 14 -11.883 9.330 -40.427 1.00 48.26 C +ATOM 6035 O LYS C 14 -12.722 8.486 -40.745 1.00 47.93 O +ATOM 6036 CB LYS C 14 -12.598 11.630 -41.180 1.00 48.42 C +ATOM 6037 N PRO C 15 -11.173 9.271 -39.271 1.00 48.33 N +ATOM 6038 CA PRO C 15 -11.379 8.207 -38.295 1.00 48.42 C +ATOM 6039 C PRO C 15 -12.859 8.004 -38.071 1.00 48.82 C +ATOM 6040 O PRO C 15 -13.592 8.984 -38.017 1.00 48.94 O +ATOM 6041 CB PRO C 15 -10.740 8.776 -37.031 1.00 48.20 C +ATOM 6042 CG PRO C 15 -9.657 9.619 -37.518 1.00 48.04 C +ATOM 6043 CD PRO C 15 -10.128 10.211 -38.820 1.00 48.39 C +ATOM 6044 N GLY C 16 -13.304 6.755 -37.973 1.00 49.32 N +ATOM 6045 CA GLY C 16 -14.729 6.471 -37.784 1.00 50.03 C +ATOM 6046 C GLY C 16 -15.531 6.227 -39.061 1.00 50.47 C +ATOM 6047 O GLY C 16 -16.630 5.675 -39.011 1.00 50.82 O +ATOM 6048 N ALA C 17 -15.007 6.641 -40.209 1.00 50.68 N +ATOM 6049 CA ALA C 17 -15.615 6.248 -41.479 1.00 50.89 C +ATOM 6050 C ALA C 17 -15.307 4.776 -41.829 1.00 51.00 C +ATOM 6051 O ALA C 17 -14.487 4.116 -41.169 1.00 50.91 O +ATOM 6052 CB ALA C 17 -15.170 7.174 -42.595 1.00 50.92 C +ATOM 6053 N SER C 18 -15.998 4.266 -42.846 1.00 50.92 N +ATOM 6054 CA SER C 18 -15.719 2.947 -43.399 1.00 50.82 C +ATOM 6055 C SER C 18 -15.129 3.154 -44.790 1.00 50.62 C +ATOM 6056 O SER C 18 -14.860 4.293 -45.174 1.00 50.94 O +ATOM 6057 CB SER C 18 -16.993 2.099 -43.451 1.00 50.79 C +ATOM 6058 OG SER C 18 -17.917 2.652 -44.367 1.00 51.35 O +ATOM 6059 N VAL C 19 -14.922 2.069 -45.537 1.00 50.25 N +ATOM 6060 CA VAL C 19 -14.307 2.141 -46.868 1.00 49.90 C +ATOM 6061 C VAL C 19 -14.323 0.768 -47.543 1.00 49.77 C +ATOM 6062 O VAL C 19 -14.195 -0.247 -46.853 1.00 50.20 O +ATOM 6063 CB VAL C 19 -12.857 2.664 -46.777 1.00 49.88 C +ATOM 6064 CG1 VAL C 19 -11.983 1.700 -45.968 1.00 49.53 C +ATOM 6065 CG2 VAL C 19 -12.287 2.946 -48.173 1.00 49.87 C +ATOM 6066 N LYS C 20 -14.484 0.735 -48.871 1.00 49.16 N +ATOM 6067 CA LYS C 20 -14.490 -0.536 -49.623 1.00 48.58 C +ATOM 6068 C LYS C 20 -13.604 -0.540 -50.889 1.00 48.19 C +ATOM 6069 O LYS C 20 -14.022 -0.148 -51.984 1.00 47.97 O +ATOM 6070 CB LYS C 20 -15.922 -1.019 -49.922 1.00 48.40 C +ATOM 6071 N VAL C 21 -12.370 -0.989 -50.702 1.00 47.70 N +ATOM 6072 CA VAL C 21 -11.430 -1.228 -51.784 1.00 47.45 C +ATOM 6073 C VAL C 21 -11.909 -2.376 -52.671 1.00 47.33 C +ATOM 6074 O VAL C 21 -12.261 -3.445 -52.178 1.00 47.49 O +ATOM 6075 CB VAL C 21 -10.054 -1.595 -51.203 1.00 47.46 C +ATOM 6076 CG1 VAL C 21 -9.092 -2.093 -52.288 1.00 47.19 C +ATOM 6077 CG2 VAL C 21 -9.479 -0.414 -50.441 1.00 47.56 C +ATOM 6078 N SER C 22 -11.923 -2.144 -53.979 1.00 47.13 N +ATOM 6079 CA SER C 22 -12.245 -3.186 -54.948 1.00 46.91 C +ATOM 6080 C SER C 22 -10.974 -3.658 -55.628 1.00 46.63 C +ATOM 6081 O SER C 22 -9.954 -2.956 -55.620 1.00 46.75 O +ATOM 6082 CB SER C 22 -13.186 -2.641 -56.022 1.00 47.05 C +ATOM 6083 OG SER C 22 -12.557 -1.599 -56.762 1.00 47.56 O +ATOM 6084 N CYS C 23 -11.042 -4.849 -56.220 1.00 46.05 N +ATOM 6085 CA CYS C 23 -10.036 -5.282 -57.182 1.00 45.15 C +ATOM 6086 C CYS C 23 -10.648 -6.262 -58.194 1.00 44.93 C +ATOM 6087 O CYS C 23 -11.349 -7.197 -57.813 1.00 44.59 O +ATOM 6088 CB CYS C 23 -8.803 -5.844 -56.479 1.00 44.87 C +ATOM 6089 SG CYS C 23 -8.631 -7.617 -56.541 1.00 43.77 S +ATOM 6090 N LYS C 24 -10.403 -6.011 -59.479 1.00 44.78 N +ATOM 6091 CA LYS C 24 -10.976 -6.798 -60.568 1.00 44.88 C +ATOM 6092 C LYS C 24 -9.905 -7.641 -61.244 1.00 44.96 C +ATOM 6093 O LYS C 24 -8.804 -7.159 -61.498 1.00 45.07 O +ATOM 6094 CB LYS C 24 -11.640 -5.879 -61.603 1.00 44.76 C +ATOM 6095 N ALA C 25 -10.239 -8.890 -61.549 1.00 45.02 N +ATOM 6096 CA ALA C 25 -9.293 -9.800 -62.175 1.00 45.33 C +ATOM 6097 C ALA C 25 -9.574 -10.095 -63.654 1.00 45.84 C +ATOM 6098 O ALA C 25 -10.718 -10.344 -64.047 1.00 46.16 O +ATOM 6099 CB ALA C 25 -9.241 -11.077 -61.403 1.00 45.17 C +ATOM 6100 N SER C 26 -8.516 -10.072 -64.462 1.00 46.19 N +ATOM 6101 CA SER C 26 -8.541 -10.621 -65.818 1.00 46.44 C +ATOM 6102 C SER C 26 -7.678 -11.901 -65.911 1.00 46.65 C +ATOM 6103 O SER C 26 -7.047 -12.313 -64.926 1.00 46.67 O +ATOM 6104 CB SER C 26 -8.030 -9.569 -66.805 1.00 46.46 C +ATOM 6105 N GLY C 27 -7.670 -12.536 -67.085 1.00 46.64 N +ATOM 6106 CA GLY C 27 -6.673 -13.564 -67.422 1.00 46.53 C +ATOM 6107 C GLY C 27 -6.708 -14.919 -66.732 1.00 46.59 C +ATOM 6108 O GLY C 27 -5.879 -15.786 -67.032 1.00 46.48 O +ATOM 6109 N TYR C 28 -7.644 -15.112 -65.802 1.00 46.68 N +ATOM 6110 CA TYR C 28 -7.897 -16.442 -65.215 1.00 46.79 C +ATOM 6111 C TYR C 28 -9.363 -16.618 -64.825 1.00 46.89 C +ATOM 6112 O TYR C 28 -10.017 -15.670 -64.380 1.00 46.78 O +ATOM 6113 CB TYR C 28 -6.972 -16.729 -64.012 1.00 46.67 C +ATOM 6114 CG TYR C 28 -7.336 -15.998 -62.726 1.00 46.41 C +ATOM 6115 CD1 TYR C 28 -7.007 -14.656 -62.536 1.00 45.61 C +ATOM 6116 CD2 TYR C 28 -8.006 -16.656 -61.698 1.00 46.16 C +ATOM 6117 CE1 TYR C 28 -7.347 -13.995 -61.367 1.00 45.11 C +ATOM 6118 CE2 TYR C 28 -8.345 -15.996 -60.524 1.00 45.77 C +ATOM 6119 CZ TYR C 28 -8.018 -14.669 -60.365 1.00 45.46 C +ATOM 6120 OH TYR C 28 -8.364 -14.023 -59.193 1.00 46.02 O +ATOM 6121 N THR C 29 -9.874 -17.832 -64.999 1.00 47.17 N +ATOM 6122 CA THR C 29 -11.228 -18.166 -64.540 1.00 47.51 C +ATOM 6123 C THR C 29 -11.404 -17.857 -63.031 1.00 47.72 C +ATOM 6124 O THR C 29 -10.778 -18.485 -62.171 1.00 47.89 O +ATOM 6125 CB THR C 29 -11.637 -19.631 -64.920 1.00 47.49 C +ATOM 6126 OG1 THR C 29 -12.554 -20.144 -63.949 1.00 47.30 O +ATOM 6127 CG2 THR C 29 -10.416 -20.577 -65.022 1.00 47.59 C +ATOM 6128 N PHE C 30 -12.253 -16.876 -62.738 1.00 47.89 N +ATOM 6129 CA PHE C 30 -12.340 -16.231 -61.405 1.00 48.04 C +ATOM 6130 C PHE C 30 -12.813 -17.114 -60.246 1.00 47.66 C +ATOM 6131 O PHE C 30 -12.441 -16.874 -59.091 1.00 47.88 O +ATOM 6132 CB PHE C 30 -13.246 -14.991 -61.494 1.00 48.58 C +ATOM 6133 CG PHE C 30 -13.212 -14.103 -60.276 1.00 48.84 C +ATOM 6134 CD1 PHE C 30 -12.088 -13.334 -59.983 1.00 49.44 C +ATOM 6135 CD2 PHE C 30 -14.326 -14.005 -59.444 1.00 49.74 C +ATOM 6136 CE1 PHE C 30 -12.062 -12.489 -58.855 1.00 49.99 C +ATOM 6137 CE2 PHE C 30 -14.316 -13.163 -58.312 1.00 50.47 C +ATOM 6138 CZ PHE C 30 -13.180 -12.401 -58.019 1.00 49.85 C +ATOM 6139 N THR C 35 -13.638 -18.114 -60.545 1.00 46.99 N +ATOM 6140 CA THR C 35 -14.079 -19.067 -59.533 1.00 46.25 C +ATOM 6141 C THR C 35 -12.958 -20.063 -59.169 1.00 45.83 C +ATOM 6142 O THR C 35 -13.146 -20.938 -58.330 1.00 45.68 O +ATOM 6143 CB THR C 35 -15.341 -19.823 -59.996 1.00 45.95 C +ATOM 6144 N SER C 36 -11.787 -19.912 -59.783 1.00 45.27 N +ATOM 6145 CA SER C 36 -10.733 -20.928 -59.668 1.00 44.90 C +ATOM 6146 C SER C 36 -9.746 -20.718 -58.515 1.00 44.32 C +ATOM 6147 O SER C 36 -9.010 -21.643 -58.126 1.00 44.10 O +ATOM 6148 CB SER C 36 -9.975 -21.079 -60.996 1.00 44.92 C +ATOM 6149 OG SER C 36 -10.655 -21.961 -61.873 1.00 45.18 O +ATOM 6150 N HIS C 37 -9.723 -19.505 -57.974 1.00 43.48 N +ATOM 6151 CA HIS C 37 -8.732 -19.172 -56.962 1.00 42.72 C +ATOM 6152 C HIS C 37 -9.253 -18.228 -55.886 1.00 42.37 C +ATOM 6153 O HIS C 37 -9.927 -17.222 -56.177 1.00 42.48 O +ATOM 6154 CB HIS C 37 -7.456 -18.624 -57.613 1.00 42.59 C +ATOM 6155 CG HIS C 37 -6.861 -19.552 -58.621 1.00 41.95 C +ATOM 6156 ND1 HIS C 37 -7.179 -19.494 -59.958 1.00 41.79 N +ATOM 6157 CD2 HIS C 37 -6.006 -20.590 -58.483 1.00 41.48 C +ATOM 6158 CE1 HIS C 37 -6.529 -20.444 -60.605 1.00 41.48 C +ATOM 6159 NE2 HIS C 37 -5.811 -21.123 -59.732 1.00 41.22 N +ATOM 6160 N TRP C 38 -8.934 -18.585 -54.645 1.00 41.38 N +ATOM 6161 CA TRP C 38 -9.228 -17.787 -53.478 1.00 40.53 C +ATOM 6162 C TRP C 38 -8.631 -16.398 -53.595 1.00 40.40 C +ATOM 6163 O TRP C 38 -7.496 -16.246 -54.036 1.00 40.53 O +ATOM 6164 CB TRP C 38 -8.568 -18.440 -52.288 1.00 40.28 C +ATOM 6165 CG TRP C 38 -9.131 -19.724 -51.904 1.00 39.51 C +ATOM 6166 CD1 TRP C 38 -8.917 -20.920 -52.496 1.00 39.33 C +ATOM 6167 CD2 TRP C 38 -9.989 -19.962 -50.800 1.00 39.27 C +ATOM 6168 NE1 TRP C 38 -9.598 -21.904 -51.833 1.00 39.51 N +ATOM 6169 CE2 TRP C 38 -10.273 -21.338 -50.786 1.00 39.19 C +ATOM 6170 CE3 TRP C 38 -10.554 -19.141 -49.816 1.00 39.83 C +ATOM 6171 CZ2 TRP C 38 -11.106 -21.917 -49.833 1.00 39.77 C +ATOM 6172 CZ3 TRP C 38 -11.372 -19.717 -48.859 1.00 39.83 C +ATOM 6173 CH2 TRP C 38 -11.640 -21.093 -48.875 1.00 39.83 C +ATOM 6174 N MET C 39 -9.377 -15.384 -53.182 1.00 40.22 N +ATOM 6175 CA MET C 39 -8.787 -14.063 -53.020 1.00 40.33 C +ATOM 6176 C MET C 39 -8.294 -13.875 -51.591 1.00 40.19 C +ATOM 6177 O MET C 39 -8.923 -14.339 -50.629 1.00 40.33 O +ATOM 6178 CB MET C 39 -9.768 -12.956 -53.386 1.00 40.42 C +ATOM 6179 CG MET C 39 -9.892 -12.722 -54.867 1.00 42.16 C +ATOM 6180 SD MET C 39 -8.306 -12.384 -55.670 1.00 45.80 S +ATOM 6181 CE MET C 39 -8.096 -10.665 -55.229 1.00 44.92 C +ATOM 6182 N HIS C 40 -7.159 -13.202 -51.460 1.00 39.63 N +ATOM 6183 CA HIS C 40 -6.612 -12.885 -50.159 1.00 39.08 C +ATOM 6184 C HIS C 40 -6.458 -11.378 -50.076 1.00 39.04 C +ATOM 6185 O HIS C 40 -6.286 -10.709 -51.093 1.00 39.18 O +ATOM 6186 CB HIS C 40 -5.248 -13.534 -49.984 1.00 38.86 C +ATOM 6187 CG HIS C 40 -5.235 -15.005 -50.242 1.00 38.65 C +ATOM 6188 ND1 HIS C 40 -5.033 -15.932 -49.242 1.00 38.24 N +ATOM 6189 CD2 HIS C 40 -5.375 -15.712 -51.389 1.00 38.15 C +ATOM 6190 CE1 HIS C 40 -5.055 -17.146 -49.762 1.00 37.64 C +ATOM 6191 NE2 HIS C 40 -5.263 -17.041 -51.062 1.00 37.27 N +ATOM 6192 N TRP C 41 -6.521 -10.841 -48.865 1.00 38.75 N +ATOM 6193 CA TRP C 41 -6.221 -9.438 -48.663 1.00 38.26 C +ATOM 6194 C TRP C 41 -5.123 -9.319 -47.626 1.00 38.36 C +ATOM 6195 O TRP C 41 -5.137 -10.013 -46.603 1.00 37.93 O +ATOM 6196 CB TRP C 41 -7.470 -8.658 -48.278 1.00 38.08 C +ATOM 6197 CG TRP C 41 -8.495 -8.675 -49.352 1.00 37.57 C +ATOM 6198 CD1 TRP C 41 -9.367 -9.687 -49.640 1.00 37.60 C +ATOM 6199 CD2 TRP C 41 -8.750 -7.645 -50.301 1.00 37.24 C +ATOM 6200 NE1 TRP C 41 -10.157 -9.347 -50.706 1.00 37.20 N +ATOM 6201 CE2 TRP C 41 -9.798 -8.096 -51.135 1.00 37.74 C +ATOM 6202 CE3 TRP C 41 -8.204 -6.380 -50.528 1.00 37.29 C +ATOM 6203 CZ2 TRP C 41 -10.308 -7.322 -52.184 1.00 38.08 C +ATOM 6204 CZ3 TRP C 41 -8.709 -5.612 -51.568 1.00 37.55 C +ATOM 6205 CH2 TRP C 41 -9.752 -6.087 -52.383 1.00 37.95 C +ATOM 6206 N VAL C 42 -4.156 -8.456 -47.938 1.00 38.78 N +ATOM 6207 CA VAL C 42 -2.916 -8.302 -47.173 1.00 38.85 C +ATOM 6208 C VAL C 42 -2.576 -6.822 -47.008 1.00 39.11 C +ATOM 6209 O VAL C 42 -2.730 -6.030 -47.944 1.00 38.79 O +ATOM 6210 CB VAL C 42 -1.738 -9.010 -47.869 1.00 38.60 C +ATOM 6211 CG1 VAL C 42 -0.504 -8.934 -47.007 1.00 39.16 C +ATOM 6212 CG2 VAL C 42 -2.069 -10.458 -48.150 1.00 38.01 C +ATOM 6213 N ARG C 43 -2.108 -6.448 -45.822 1.00 39.67 N +ATOM 6214 CA ARG C 43 -1.788 -5.038 -45.579 1.00 40.38 C +ATOM 6215 C ARG C 43 -0.364 -4.760 -45.084 1.00 40.50 C +ATOM 6216 O ARG C 43 0.257 -5.593 -44.416 1.00 40.28 O +ATOM 6217 CB ARG C 43 -2.812 -4.394 -44.646 1.00 40.41 C +ATOM 6218 CG ARG C 43 -2.767 -4.933 -43.252 1.00 41.28 C +ATOM 6219 CD ARG C 43 -3.267 -3.919 -42.282 1.00 42.66 C +ATOM 6220 NE ARG C 43 -2.654 -4.126 -40.980 1.00 43.97 N +ATOM 6221 CZ ARG C 43 -3.074 -3.548 -39.864 1.00 45.02 C +ATOM 6222 NH1 ARG C 43 -4.124 -2.728 -39.895 1.00 45.40 N +ATOM 6223 NH2 ARG C 43 -2.443 -3.794 -38.720 1.00 45.75 N +ATOM 6224 N GLN C 44 0.115 -3.562 -45.415 1.00 40.86 N +ATOM 6225 CA GLN C 44 1.477 -3.137 -45.155 1.00 41.28 C +ATOM 6226 C GLN C 44 1.521 -1.683 -44.692 1.00 42.12 C +ATOM 6227 O GLN C 44 1.527 -0.755 -45.508 1.00 42.13 O +ATOM 6228 CB GLN C 44 2.289 -3.297 -46.427 1.00 41.05 C +ATOM 6229 CG GLN C 44 3.762 -3.052 -46.281 1.00 40.04 C +ATOM 6230 CD GLN C 44 4.536 -3.751 -47.361 1.00 39.16 C +ATOM 6231 OE1 GLN C 44 5.361 -4.611 -47.078 1.00 39.22 O +ATOM 6232 NE2 GLN C 44 4.248 -3.414 -48.616 1.00 38.63 N +ATOM 6233 N ALA C 45 1.541 -1.488 -43.378 1.00 43.10 N +ATOM 6234 CA ALA C 45 1.692 -0.160 -42.823 1.00 44.06 C +ATOM 6235 C ALA C 45 3.058 0.353 -43.255 1.00 45.07 C +ATOM 6236 O ALA C 45 4.051 -0.384 -43.121 1.00 45.21 O +ATOM 6237 CB ALA C 45 1.601 -0.205 -41.326 1.00 44.02 C +ATOM 6238 N PRO C 46 3.113 1.605 -43.789 1.00 45.76 N +ATOM 6239 CA PRO C 46 4.327 2.284 -44.238 1.00 45.96 C +ATOM 6240 C PRO C 46 5.633 1.713 -43.681 1.00 46.28 C +ATOM 6241 O PRO C 46 5.885 1.764 -42.469 1.00 46.10 O +ATOM 6242 CB PRO C 46 4.101 3.721 -43.757 1.00 45.74 C +ATOM 6243 CG PRO C 46 2.587 3.897 -43.846 1.00 45.92 C +ATOM 6244 CD PRO C 46 1.957 2.499 -43.977 1.00 45.80 C +ATOM 6245 N GLY C 47 6.420 1.135 -44.589 1.00 46.70 N +ATOM 6246 CA GLY C 47 7.796 0.755 -44.323 1.00 47.16 C +ATOM 6247 C GLY C 47 7.935 -0.202 -43.172 1.00 47.46 C +ATOM 6248 O GLY C 47 8.932 -0.174 -42.444 1.00 47.75 O +ATOM 6249 N GLN C 48 6.910 -1.023 -42.989 1.00 47.61 N +ATOM 6250 CA GLN C 48 6.989 -2.177 -42.094 1.00 48.12 C +ATOM 6251 C GLN C 48 6.348 -3.387 -42.777 1.00 47.59 C +ATOM 6252 O GLN C 48 5.908 -3.297 -43.929 1.00 48.08 O +ATOM 6253 CB GLN C 48 6.404 -1.882 -40.705 1.00 47.94 C +ATOM 6254 CG GLN C 48 5.589 -0.604 -40.649 1.00 48.89 C +ATOM 6255 CD GLN C 48 4.943 -0.365 -39.303 1.00 49.38 C +ATOM 6256 OE1 GLN C 48 4.339 0.693 -39.081 1.00 50.64 O +ATOM 6257 NE2 GLN C 48 5.048 -1.347 -38.395 1.00 50.66 N +ATOM 6258 N GLY C 49 6.310 -4.515 -42.081 1.00 46.80 N +ATOM 6259 CA GLY C 49 6.081 -5.792 -42.739 1.00 45.64 C +ATOM 6260 C GLY C 49 4.725 -6.076 -43.354 1.00 44.79 C +ATOM 6261 O GLY C 49 3.817 -5.239 -43.343 1.00 44.30 O +ATOM 6262 N LEU C 50 4.623 -7.291 -43.888 1.00 44.16 N +ATOM 6263 CA LEU C 50 3.406 -7.838 -44.457 1.00 43.34 C +ATOM 6264 C LEU C 50 2.500 -8.366 -43.364 1.00 43.03 C +ATOM 6265 O LEU C 50 2.963 -8.676 -42.270 1.00 42.64 O +ATOM 6266 CB LEU C 50 3.743 -8.962 -45.441 1.00 43.17 C +ATOM 6267 CG LEU C 50 3.929 -8.630 -46.922 1.00 42.39 C +ATOM 6268 CD1 LEU C 50 2.844 -7.680 -47.423 1.00 42.19 C +ATOM 6269 CD2 LEU C 50 5.278 -8.074 -47.218 1.00 40.57 C +ATOM 6270 N GLU C 51 1.211 -8.473 -43.680 1.00 42.91 N +ATOM 6271 CA GLU C 51 0.192 -8.840 -42.698 1.00 42.79 C +ATOM 6272 C GLU C 51 -1.113 -9.305 -43.359 1.00 42.28 C +ATOM 6273 O GLU C 51 -1.762 -8.543 -44.104 1.00 41.81 O +ATOM 6274 CB GLU C 51 -0.082 -7.650 -41.797 1.00 43.08 C +ATOM 6275 CG GLU C 51 -0.385 -8.002 -40.382 1.00 44.43 C +ATOM 6276 CD GLU C 51 -0.860 -6.798 -39.612 1.00 47.33 C +ATOM 6277 OE1 GLU C 51 -0.451 -5.654 -39.941 1.00 48.84 O +ATOM 6278 OE2 GLU C 51 -1.653 -6.996 -38.671 1.00 49.11 O +ATOM 6279 N TRP C 52 -1.485 -10.552 -43.056 1.00 41.61 N +ATOM 6280 CA TRP C 52 -2.572 -11.255 -43.733 1.00 41.16 C +ATOM 6281 C TRP C 52 -3.905 -10.992 -43.067 1.00 40.82 C +ATOM 6282 O TRP C 52 -4.061 -11.251 -41.883 1.00 41.01 O +ATOM 6283 CB TRP C 52 -2.289 -12.754 -43.729 1.00 41.19 C +ATOM 6284 CG TRP C 52 -3.381 -13.619 -44.310 1.00 41.33 C +ATOM 6285 CD1 TRP C 52 -3.762 -13.681 -45.607 1.00 40.98 C +ATOM 6286 CD2 TRP C 52 -4.197 -14.575 -43.607 1.00 41.95 C +ATOM 6287 NE1 TRP C 52 -4.764 -14.602 -45.764 1.00 41.30 N +ATOM 6288 CE2 TRP C 52 -5.055 -15.161 -44.550 1.00 41.22 C +ATOM 6289 CE3 TRP C 52 -4.287 -14.986 -42.265 1.00 42.78 C +ATOM 6290 CZ2 TRP C 52 -5.991 -16.138 -44.207 1.00 41.40 C +ATOM 6291 CZ3 TRP C 52 -5.223 -15.966 -41.923 1.00 41.48 C +ATOM 6292 CH2 TRP C 52 -6.055 -16.528 -42.891 1.00 41.34 C +ATOM 6293 N ILE C 53 -4.867 -10.494 -43.832 1.00 40.35 N +ATOM 6294 CA ILE C 53 -6.179 -10.197 -43.293 1.00 39.96 C +ATOM 6295 C ILE C 53 -7.077 -11.434 -43.359 1.00 40.44 C +ATOM 6296 O ILE C 53 -7.610 -11.868 -42.337 1.00 40.97 O +ATOM 6297 CB ILE C 53 -6.820 -9.017 -44.011 1.00 39.55 C +ATOM 6298 CG1 ILE C 53 -5.941 -7.780 -43.858 1.00 38.77 C +ATOM 6299 CG2 ILE C 53 -8.207 -8.754 -43.457 1.00 39.95 C +ATOM 6300 CD1 ILE C 53 -6.187 -6.697 -44.879 1.00 36.70 C +ATOM 6301 N GLY C 54 -7.239 -12.008 -44.550 1.00 40.60 N +ATOM 6302 CA GLY C 54 -8.001 -13.246 -44.713 1.00 40.22 C +ATOM 6303 C GLY C 54 -8.069 -13.774 -46.132 1.00 40.17 C +ATOM 6304 O GLY C 54 -7.289 -13.399 -47.001 1.00 40.12 O +ATOM 6305 N GLU C 55 -9.018 -14.657 -46.373 1.00 40.28 N +ATOM 6306 CA GLU C 55 -9.238 -15.162 -47.719 1.00 40.27 C +ATOM 6307 C GLU C 55 -10.720 -15.370 -47.991 1.00 40.24 C +ATOM 6308 O GLU C 55 -11.503 -15.537 -47.062 1.00 39.82 O +ATOM 6309 CB GLU C 55 -8.433 -16.444 -47.957 1.00 40.26 C +ATOM 6310 CG GLU C 55 -8.315 -17.347 -46.744 1.00 39.47 C +ATOM 6311 CD GLU C 55 -7.570 -18.623 -47.042 1.00 39.37 C +ATOM 6312 OE1 GLU C 55 -8.036 -19.710 -46.633 1.00 39.64 O +ATOM 6313 OE2 GLU C 55 -6.513 -18.544 -47.696 1.00 39.50 O +ATOM 6314 N PHE C 56 -11.093 -15.344 -49.269 1.00 40.56 N +ATOM 6315 CA PHE C 56 -12.494 -15.480 -49.690 1.00 40.82 C +ATOM 6316 C PHE C 56 -12.618 -16.372 -50.921 1.00 40.57 C +ATOM 6317 O PHE C 56 -12.082 -16.043 -51.976 1.00 40.75 O +ATOM 6318 CB PHE C 56 -13.120 -14.103 -49.986 1.00 40.84 C +ATOM 6319 CG PHE C 56 -14.622 -14.148 -50.201 1.00 42.03 C +ATOM 6320 CD1 PHE C 56 -15.499 -13.675 -49.214 1.00 41.98 C +ATOM 6321 CD2 PHE C 56 -15.165 -14.671 -51.387 1.00 41.69 C +ATOM 6322 CE1 PHE C 56 -16.886 -13.724 -49.402 1.00 40.92 C +ATOM 6323 CE2 PHE C 56 -16.537 -14.719 -51.576 1.00 40.72 C +ATOM 6324 CZ PHE C 56 -17.400 -14.243 -50.579 1.00 40.87 C +ATOM 6325 N ASN C 57 -13.344 -17.480 -50.786 1.00 40.36 N +ATOM 6326 CA ASN C 57 -13.516 -18.442 -51.880 1.00 40.12 C +ATOM 6327 C ASN C 57 -14.590 -18.003 -52.876 1.00 40.47 C +ATOM 6328 O ASN C 57 -15.779 -18.191 -52.635 1.00 40.58 O +ATOM 6329 CB ASN C 57 -13.850 -19.828 -51.323 1.00 39.63 C +ATOM 6330 CG ASN C 57 -13.665 -20.928 -52.337 1.00 38.21 C +ATOM 6331 OD1 ASN C 57 -13.459 -20.678 -53.516 1.00 36.83 O +ATOM 6332 ND2 ASN C 57 -13.741 -22.161 -51.877 1.00 37.30 N +ATOM 6333 N PRO C 58 -14.178 -17.442 -54.022 1.00 40.81 N +ATOM 6334 CA PRO C 58 -15.220 -16.930 -54.912 1.00 40.93 C +ATOM 6335 C PRO C 58 -16.174 -18.019 -55.403 1.00 40.91 C +ATOM 6336 O PRO C 58 -17.260 -17.690 -55.859 1.00 40.80 O +ATOM 6337 CB PRO C 58 -14.430 -16.316 -56.084 1.00 41.03 C +ATOM 6338 CG PRO C 58 -13.028 -16.115 -55.553 1.00 41.04 C +ATOM 6339 CD PRO C 58 -12.828 -17.256 -54.587 1.00 40.87 C +ATOM 6340 N SER C 59 -15.777 -19.290 -55.300 1.00 41.03 N +ATOM 6341 CA SER C 59 -16.652 -20.403 -55.663 1.00 41.49 C +ATOM 6342 C SER C 59 -17.872 -20.412 -54.766 1.00 42.07 C +ATOM 6343 O SER C 59 -18.997 -20.174 -55.228 1.00 42.72 O +ATOM 6344 CB SER C 59 -15.960 -21.749 -55.518 1.00 41.15 C +ATOM 6345 OG SER C 59 -14.673 -21.715 -56.069 1.00 41.91 O +ATOM 6346 N ASN C 62 -17.654 -20.674 -53.479 1.00 42.13 N +ATOM 6347 CA ASN C 62 -18.765 -20.846 -52.560 1.00 42.08 C +ATOM 6348 C ASN C 62 -19.039 -19.699 -51.590 1.00 41.91 C +ATOM 6349 O ASN C 62 -20.185 -19.449 -51.269 1.00 42.59 O +ATOM 6350 CB ASN C 62 -18.653 -22.176 -51.833 1.00 42.10 C +ATOM 6351 CG ASN C 62 -17.334 -22.344 -51.136 1.00 43.06 C +ATOM 6352 OD1 ASN C 62 -17.000 -21.587 -50.220 1.00 45.38 O +ATOM 6353 ND2 ASN C 62 -16.574 -23.354 -51.546 1.00 42.61 N +ATOM 6354 N GLY C 63 -18.012 -18.991 -51.138 1.00 41.60 N +ATOM 6355 CA GLY C 63 -18.207 -17.861 -50.218 1.00 40.89 C +ATOM 6356 C GLY C 63 -17.687 -18.121 -48.814 1.00 40.59 C +ATOM 6357 O GLY C 63 -17.772 -17.248 -47.941 1.00 40.33 O +ATOM 6358 N ARG C 64 -17.164 -19.331 -48.595 1.00 40.30 N +ATOM 6359 CA ARG C 64 -16.471 -19.686 -47.352 1.00 40.06 C +ATOM 6360 C ARG C 64 -15.271 -18.750 -47.160 1.00 39.84 C +ATOM 6361 O ARG C 64 -14.627 -18.363 -48.136 1.00 39.88 O +ATOM 6362 CB ARG C 64 -16.032 -21.158 -47.381 1.00 39.78 C +ATOM 6363 N THR C 65 -14.983 -18.368 -45.919 1.00 39.52 N +ATOM 6364 CA THR C 65 -13.927 -17.390 -45.670 1.00 39.60 C +ATOM 6365 C THR C 65 -13.015 -17.758 -44.514 1.00 39.83 C +ATOM 6366 O THR C 65 -13.356 -18.619 -43.710 1.00 39.98 O +ATOM 6367 CB THR C 65 -14.497 -15.992 -45.402 1.00 39.60 C +ATOM 6368 OG1 THR C 65 -15.643 -16.094 -44.553 1.00 39.98 O +ATOM 6369 CG2 THR C 65 -14.896 -15.319 -46.695 1.00 39.50 C +ATOM 6370 N ASN C 66 -11.850 -17.107 -44.455 1.00 40.18 N +ATOM 6371 CA ASN C 66 -10.873 -17.275 -43.371 1.00 40.62 C +ATOM 6372 C ASN C 66 -10.151 -15.964 -43.019 1.00 40.86 C +ATOM 6373 O ASN C 66 -9.216 -15.552 -43.712 1.00 40.96 O +ATOM 6374 CB ASN C 66 -9.805 -18.321 -43.719 1.00 40.62 C +ATOM 6375 CG ASN C 66 -10.364 -19.717 -43.930 1.00 41.40 C +ATOM 6376 OD1 ASN C 66 -11.460 -20.058 -43.478 1.00 42.29 O +ATOM 6377 ND2 ASN C 66 -9.583 -20.548 -44.611 1.00 42.58 N +ATOM 6378 N TYR C 67 -10.594 -15.318 -41.944 1.00 41.16 N +ATOM 6379 CA TYR C 67 -9.908 -14.167 -41.371 1.00 41.26 C +ATOM 6380 C TYR C 67 -8.915 -14.671 -40.338 1.00 41.85 C +ATOM 6381 O TYR C 67 -8.979 -15.830 -39.916 1.00 41.99 O +ATOM 6382 CB TYR C 67 -10.919 -13.249 -40.696 1.00 40.80 C +ATOM 6383 CG TYR C 67 -11.939 -12.681 -41.648 1.00 40.55 C +ATOM 6384 CD1 TYR C 67 -12.860 -13.500 -42.294 1.00 39.89 C +ATOM 6385 CD2 TYR C 67 -11.987 -11.319 -41.902 1.00 41.16 C +ATOM 6386 CE1 TYR C 67 -13.803 -12.972 -43.171 1.00 39.93 C +ATOM 6387 CE2 TYR C 67 -12.928 -10.780 -42.784 1.00 41.10 C +ATOM 6388 CZ TYR C 67 -13.830 -11.610 -43.411 1.00 40.37 C +ATOM 6389 OH TYR C 67 -14.747 -11.071 -44.282 1.00 40.44 O +ATOM 6390 N ASN C 68 -7.974 -13.822 -39.946 1.00 42.50 N +ATOM 6391 CA ASN C 68 -7.243 -14.080 -38.722 1.00 43.30 C +ATOM 6392 C ASN C 68 -7.814 -13.121 -37.685 1.00 43.68 C +ATOM 6393 O ASN C 68 -8.058 -11.948 -37.977 1.00 43.68 O +ATOM 6394 CB ASN C 68 -5.742 -13.898 -38.903 1.00 43.55 C +ATOM 6395 CG ASN C 68 -5.329 -12.458 -38.821 1.00 44.07 C +ATOM 6396 OD1 ASN C 68 -5.538 -11.692 -39.757 1.00 43.89 O +ATOM 6397 ND2 ASN C 68 -4.773 -12.067 -37.679 1.00 44.85 N +ATOM 6398 N GLU C 69 -8.040 -13.638 -36.482 1.00 44.21 N +ATOM 6399 CA GLU C 69 -8.883 -12.989 -35.482 1.00 44.47 C +ATOM 6400 C GLU C 69 -8.753 -11.473 -35.473 1.00 44.69 C +ATOM 6401 O GLU C 69 -9.755 -10.772 -35.372 1.00 44.87 O +ATOM 6402 CB GLU C 69 -8.602 -13.572 -34.091 1.00 44.62 C +ATOM 6403 N LYS C 70 -7.524 -10.979 -35.614 1.00 44.97 N +ATOM 6404 CA LYS C 70 -7.238 -9.539 -35.514 1.00 45.27 C +ATOM 6405 C LYS C 70 -7.961 -8.624 -36.528 1.00 45.45 C +ATOM 6406 O LYS C 70 -7.794 -7.415 -36.476 1.00 45.70 O +ATOM 6407 CB LYS C 70 -5.721 -9.284 -35.551 1.00 44.90 C +ATOM 6408 N PHE C 71 -8.757 -9.181 -37.435 1.00 45.72 N +ATOM 6409 CA PHE C 71 -9.410 -8.371 -38.459 1.00 46.36 C +ATOM 6410 C PHE C 71 -10.871 -8.736 -38.651 1.00 47.30 C +ATOM 6411 O PHE C 71 -11.580 -8.092 -39.437 1.00 47.18 O +ATOM 6412 CB PHE C 71 -8.702 -8.528 -39.801 1.00 45.93 C +ATOM 6413 CG PHE C 71 -7.346 -7.892 -39.862 1.00 45.82 C +ATOM 6414 CD1 PHE C 71 -7.206 -6.539 -40.150 1.00 45.47 C +ATOM 6415 CD2 PHE C 71 -6.197 -8.652 -39.666 1.00 45.61 C +ATOM 6416 CE1 PHE C 71 -5.934 -5.952 -40.220 1.00 45.08 C +ATOM 6417 CE2 PHE C 71 -4.930 -8.072 -39.734 1.00 44.66 C +ATOM 6418 CZ PHE C 71 -4.799 -6.723 -40.013 1.00 44.53 C +ATOM 6419 N LYS C 72 -11.309 -9.777 -37.942 1.00 48.54 N +ATOM 6420 CA LYS C 72 -12.642 -10.359 -38.122 1.00 49.75 C +ATOM 6421 C LYS C 72 -13.779 -9.323 -37.994 1.00 50.66 C +ATOM 6422 O LYS C 72 -14.751 -9.349 -38.773 1.00 50.94 O +ATOM 6423 CB LYS C 72 -12.848 -11.544 -37.170 1.00 49.53 C +ATOM 6424 N SER C 74 -13.645 -8.405 -37.033 1.00 51.43 N +ATOM 6425 CA SER C 74 -14.633 -7.342 -36.846 1.00 52.07 C +ATOM 6426 C SER C 74 -14.417 -6.196 -37.840 1.00 52.56 C +ATOM 6427 O SER C 74 -15.366 -5.795 -38.525 1.00 52.94 O +ATOM 6428 CB SER C 74 -14.598 -6.816 -35.420 1.00 51.92 C +ATOM 6429 OG SER C 74 -13.350 -6.199 -35.176 1.00 52.92 O +ATOM 6430 N LYS C 75 -13.180 -5.687 -37.934 1.00 52.88 N +ATOM 6431 CA LYS C 75 -12.844 -4.566 -38.851 1.00 52.98 C +ATOM 6432 C LYS C 75 -13.204 -4.799 -40.334 1.00 52.84 C +ATOM 6433 O LYS C 75 -13.961 -4.022 -40.929 1.00 52.87 O +ATOM 6434 CB LYS C 75 -11.361 -4.170 -38.733 1.00 52.98 C +ATOM 6435 N ALA C 76 -12.674 -5.877 -40.909 1.00 52.51 N +ATOM 6436 CA ALA C 76 -12.744 -6.105 -42.350 1.00 52.12 C +ATOM 6437 C ALA C 76 -13.886 -7.021 -42.764 1.00 51.75 C +ATOM 6438 O ALA C 76 -14.340 -7.846 -41.966 1.00 51.76 O +ATOM 6439 CB ALA C 76 -11.424 -6.674 -42.831 1.00 52.41 C +ATOM 6440 N THR C 77 -14.340 -6.872 -44.009 1.00 51.23 N +ATOM 6441 CA THR C 77 -15.314 -7.800 -44.601 1.00 50.99 C +ATOM 6442 C THR C 77 -15.054 -8.077 -46.089 1.00 51.25 C +ATOM 6443 O THR C 77 -15.059 -7.168 -46.925 1.00 51.13 O +ATOM 6444 CB THR C 77 -16.776 -7.349 -44.385 1.00 50.59 C +ATOM 6445 OG1 THR C 77 -17.034 -7.248 -42.990 1.00 49.89 O +ATOM 6446 CG2 THR C 77 -17.736 -8.361 -44.953 1.00 50.45 C +ATOM 6447 N MET C 78 -14.836 -9.346 -46.406 1.00 51.53 N +ATOM 6448 CA MET C 78 -14.569 -9.756 -47.773 1.00 51.88 C +ATOM 6449 C MET C 78 -15.878 -10.145 -48.449 1.00 52.27 C +ATOM 6450 O MET C 78 -16.671 -10.901 -47.885 1.00 52.48 O +ATOM 6451 CB MET C 78 -13.566 -10.915 -47.789 1.00 51.84 C +ATOM 6452 CG MET C 78 -12.260 -10.612 -47.055 1.00 51.48 C +ATOM 6453 SD MET C 78 -11.075 -11.974 -47.049 1.00 51.83 S +ATOM 6454 CE MET C 78 -11.609 -12.904 -45.635 1.00 52.11 C +ATOM 6455 N THR C 79 -16.113 -9.588 -49.638 1.00 52.72 N +ATOM 6456 CA THR C 79 -17.289 -9.895 -50.473 1.00 52.93 C +ATOM 6457 C THR C 79 -16.922 -9.776 -51.946 1.00 53.27 C +ATOM 6458 O THR C 79 -16.136 -8.901 -52.330 1.00 53.49 O +ATOM 6459 CB THR C 79 -18.476 -8.925 -50.238 1.00 52.89 C +ATOM 6460 OG1 THR C 79 -18.079 -7.582 -50.556 1.00 52.51 O +ATOM 6461 CG2 THR C 79 -19.009 -9.005 -48.801 1.00 52.86 C +ATOM 6462 N VAL C 80 -17.503 -10.644 -52.769 1.00 53.49 N +ATOM 6463 CA VAL C 80 -17.247 -10.622 -54.205 1.00 53.71 C +ATOM 6464 C VAL C 80 -18.480 -10.250 -55.017 1.00 54.26 C +ATOM 6465 O VAL C 80 -19.567 -10.043 -54.477 1.00 54.42 O +ATOM 6466 CB VAL C 80 -16.683 -11.955 -54.719 1.00 53.49 C +ATOM 6467 CG1 VAL C 80 -15.345 -12.233 -54.078 1.00 53.69 C +ATOM 6468 CG2 VAL C 80 -17.669 -13.094 -54.482 1.00 53.05 C +ATOM 6469 N ASP C 81 -18.286 -10.175 -56.327 1.00 54.88 N +ATOM 6470 CA ASP C 81 -19.335 -9.853 -57.271 1.00 55.28 C +ATOM 6471 C ASP C 81 -19.003 -10.642 -58.523 1.00 55.20 C +ATOM 6472 O ASP C 81 -18.618 -10.082 -59.551 1.00 55.14 O +ATOM 6473 CB ASP C 81 -19.341 -8.342 -57.529 1.00 55.65 C +ATOM 6474 CG ASP C 81 -20.388 -7.911 -58.544 1.00 56.78 C +ATOM 6475 OD1 ASP C 81 -21.521 -8.448 -58.540 1.00 57.39 O +ATOM 6476 OD2 ASP C 81 -20.065 -7.010 -59.346 1.00 58.34 O +ATOM 6477 N THR C 82 -19.139 -11.960 -58.392 1.00 55.32 N +ATOM 6478 CA THR C 82 -18.794 -12.958 -59.423 1.00 55.57 C +ATOM 6479 C THR C 82 -19.216 -12.612 -60.857 1.00 55.52 C +ATOM 6480 O THR C 82 -18.606 -13.091 -61.831 1.00 55.35 O +ATOM 6481 CB THR C 82 -19.402 -14.327 -59.067 1.00 55.69 C +ATOM 6482 OG1 THR C 82 -20.677 -14.130 -58.430 1.00 56.39 O +ATOM 6483 CG2 THR C 82 -18.476 -15.090 -58.129 1.00 55.64 C +ATOM 6484 N SER C 83 -20.275 -11.805 -60.968 1.00 55.34 N +ATOM 6485 CA SER C 83 -20.694 -11.211 -62.234 1.00 55.05 C +ATOM 6486 C SER C 83 -19.553 -10.399 -62.874 1.00 54.89 C +ATOM 6487 O SER C 83 -19.062 -10.746 -63.958 1.00 55.04 O +ATOM 6488 CB SER C 83 -21.932 -10.342 -62.017 1.00 55.06 C +ATOM 6489 OG SER C 83 -21.807 -9.580 -60.828 1.00 54.62 O +ATOM 6490 N THR C 84 -19.108 -9.350 -62.186 1.00 54.39 N +ATOM 6491 CA THR C 84 -18.030 -8.508 -62.700 1.00 54.05 C +ATOM 6492 C THR C 84 -16.622 -9.054 -62.456 1.00 53.88 C +ATOM 6493 O THR C 84 -15.642 -8.408 -62.833 1.00 54.11 O +ATOM 6494 CB THR C 84 -18.097 -7.088 -62.127 1.00 53.99 C +ATOM 6495 OG1 THR C 84 -18.170 -7.148 -60.698 1.00 53.16 O +ATOM 6496 CG2 THR C 84 -19.306 -6.366 -62.675 1.00 54.82 C +ATOM 6497 N ASN C 85 -16.517 -10.233 -61.845 1.00 53.49 N +ATOM 6498 CA ASN C 85 -15.220 -10.796 -61.440 1.00 53.21 C +ATOM 6499 C ASN C 85 -14.424 -9.795 -60.591 1.00 52.83 C +ATOM 6500 O ASN C 85 -13.254 -9.500 -60.861 1.00 52.90 O +ATOM 6501 CB ASN C 85 -14.405 -11.285 -62.652 1.00 53.21 C +ATOM 6502 CG ASN C 85 -15.173 -12.269 -63.514 1.00 53.93 C +ATOM 6503 OD1 ASN C 85 -16.300 -11.995 -63.950 1.00 55.72 O +ATOM 6504 ND2 ASN C 85 -14.567 -13.421 -63.775 1.00 53.93 N +ATOM 6505 N THR C 86 -15.083 -9.269 -59.564 1.00 52.27 N +ATOM 6506 CA THR C 86 -14.475 -8.265 -58.712 1.00 51.70 C +ATOM 6507 C THR C 86 -14.644 -8.591 -57.235 1.00 51.60 C +ATOM 6508 O THR C 86 -15.766 -8.800 -56.754 1.00 51.59 O +ATOM 6509 CB THR C 86 -15.014 -6.868 -59.033 1.00 51.52 C +ATOM 6510 OG1 THR C 86 -14.573 -6.503 -60.343 1.00 51.11 O +ATOM 6511 CG2 THR C 86 -14.514 -5.834 -58.024 1.00 51.30 C +ATOM 6512 N ALA C 87 -13.506 -8.651 -56.540 1.00 51.15 N +ATOM 6513 CA ALA C 87 -13.468 -8.857 -55.103 1.00 50.53 C +ATOM 6514 C ALA C 87 -13.251 -7.532 -54.397 1.00 50.13 C +ATOM 6515 O ALA C 87 -12.388 -6.730 -54.762 1.00 49.66 O +ATOM 6516 CB ALA C 87 -12.394 -9.862 -54.720 1.00 50.40 C +ATOM 6517 N TYR C 88 -14.078 -7.311 -53.390 1.00 49.97 N +ATOM 6518 CA TYR C 88 -13.997 -6.127 -52.576 1.00 49.93 C +ATOM 6519 C TYR C 88 -13.517 -6.531 -51.193 1.00 49.95 C +ATOM 6520 O TYR C 88 -13.442 -7.723 -50.870 1.00 50.10 O +ATOM 6521 CB TYR C 88 -15.367 -5.456 -52.480 1.00 49.72 C +ATOM 6522 CG TYR C 88 -16.061 -5.254 -53.804 1.00 49.45 C +ATOM 6523 CD1 TYR C 88 -16.712 -6.311 -54.432 1.00 49.50 C +ATOM 6524 CD2 TYR C 88 -16.087 -4.002 -54.423 1.00 49.19 C +ATOM 6525 CE1 TYR C 88 -17.367 -6.135 -55.646 1.00 49.45 C +ATOM 6526 CE2 TYR C 88 -16.743 -3.816 -55.646 1.00 48.92 C +ATOM 6527 CZ TYR C 88 -17.383 -4.892 -56.243 1.00 49.09 C +ATOM 6528 OH TYR C 88 -18.038 -4.754 -57.441 1.00 49.24 O +ATOM 6529 N MET C 89 -13.182 -5.526 -50.393 1.00 49.84 N +ATOM 6530 CA MET C 89 -12.793 -5.710 -49.017 1.00 50.01 C +ATOM 6531 C MET C 89 -13.132 -4.402 -48.354 1.00 50.35 C +ATOM 6532 O MET C 89 -12.592 -3.367 -48.719 1.00 50.38 O +ATOM 6533 CB MET C 89 -11.298 -5.967 -48.930 1.00 49.95 C +ATOM 6534 CG MET C 89 -10.800 -6.504 -47.602 1.00 50.13 C +ATOM 6535 SD MET C 89 -10.424 -5.220 -46.402 1.00 50.96 S +ATOM 6536 CE MET C 89 -9.129 -4.289 -47.241 1.00 50.36 C +ATOM 6537 N GLU C 90 -14.048 -4.447 -47.397 1.00 50.90 N +ATOM 6538 CA GLU C 90 -14.523 -3.240 -46.744 1.00 51.47 C +ATOM 6539 C GLU C 90 -14.055 -3.168 -45.302 1.00 51.67 C +ATOM 6540 O GLU C 90 -14.352 -4.044 -44.489 1.00 51.91 O +ATOM 6541 CB GLU C 90 -16.038 -3.157 -46.831 1.00 51.26 C +ATOM 6542 CG GLU C 90 -16.660 -2.031 -46.032 1.00 51.96 C +ATOM 6543 CD GLU C 90 -18.147 -1.856 -46.335 1.00 52.38 C +ATOM 6544 OE1 GLU C 90 -18.765 -2.799 -46.885 1.00 53.60 O +ATOM 6545 OE2 GLU C 90 -18.698 -0.774 -46.027 1.00 52.90 O +ATOM 6546 N LEU C 91 -13.304 -2.122 -44.997 1.00 52.03 N +ATOM 6547 CA LEU C 91 -12.821 -1.904 -43.650 1.00 52.56 C +ATOM 6548 C LEU C 91 -13.748 -0.956 -42.919 1.00 52.86 C +ATOM 6549 O LEU C 91 -13.914 0.186 -43.339 1.00 53.26 O +ATOM 6550 CB LEU C 91 -11.412 -1.321 -43.685 1.00 52.67 C +ATOM 6551 CG LEU C 91 -10.244 -2.290 -43.522 1.00 52.52 C +ATOM 6552 CD1 LEU C 91 -9.016 -1.674 -44.132 1.00 51.67 C +ATOM 6553 CD2 LEU C 91 -10.026 -2.624 -42.044 1.00 53.00 C +ATOM 6554 N SER C 92 -14.349 -1.427 -41.829 1.00 53.10 N +ATOM 6555 CA SER C 92 -15.305 -0.621 -41.065 1.00 53.20 C +ATOM 6556 C SER C 92 -14.606 0.238 -39.999 1.00 53.24 C +ATOM 6557 O SER C 92 -13.458 -0.036 -39.626 1.00 52.97 O +ATOM 6558 CB SER C 92 -16.404 -1.503 -40.450 1.00 53.06 C +ATOM 6559 N SER C 93 -15.316 1.277 -39.543 1.00 53.44 N +ATOM 6560 CA SER C 93 -14.851 2.237 -38.527 1.00 53.44 C +ATOM 6561 C SER C 93 -13.328 2.345 -38.430 1.00 53.24 C +ATOM 6562 O SER C 93 -12.699 1.660 -37.609 1.00 52.91 O +ATOM 6563 CB SER C 93 -15.463 1.918 -37.156 1.00 53.60 C +ATOM 6564 OG SER C 93 -14.944 0.712 -36.632 1.00 53.92 O +ATOM 6565 N LEU C 94 -12.755 3.211 -39.270 1.00 53.07 N +ATOM 6566 CA LEU C 94 -11.302 3.310 -39.420 1.00 52.85 C +ATOM 6567 C LEU C 94 -10.617 3.895 -38.194 1.00 52.95 C +ATOM 6568 O LEU C 94 -11.149 4.791 -37.548 1.00 53.19 O +ATOM 6569 CB LEU C 94 -10.924 4.114 -40.670 1.00 52.66 C +ATOM 6570 CG LEU C 94 -10.832 3.504 -42.087 1.00 52.03 C +ATOM 6571 CD1 LEU C 94 -10.383 2.044 -42.103 1.00 51.40 C +ATOM 6572 CD2 LEU C 94 -12.115 3.689 -42.886 1.00 51.13 C +ATOM 6573 N ARG C 95 -9.449 3.350 -37.868 1.00 53.10 N +ATOM 6574 CA ARG C 95 -8.563 3.909 -36.848 1.00 53.39 C +ATOM 6575 C ARG C 95 -7.334 4.467 -37.568 1.00 53.67 C +ATOM 6576 O ARG C 95 -6.927 3.940 -38.605 1.00 53.65 O +ATOM 6577 CB ARG C 95 -8.141 2.837 -35.832 1.00 53.16 C +ATOM 6578 N SER C 96 -6.735 5.525 -37.029 1.00 53.86 N +ATOM 6579 CA SER C 96 -5.540 6.091 -37.656 1.00 54.00 C +ATOM 6580 C SER C 96 -4.387 5.079 -37.690 1.00 53.85 C +ATOM 6581 O SER C 96 -3.373 5.313 -38.348 1.00 54.20 O +ATOM 6582 CB SER C 96 -5.116 7.398 -36.978 1.00 54.07 C +ATOM 6583 OG SER C 96 -4.302 7.138 -35.849 1.00 55.29 O +ATOM 6584 N GLU C 97 -4.548 3.962 -36.977 1.00 53.64 N +ATOM 6585 CA GLU C 97 -3.626 2.817 -37.084 1.00 53.03 C +ATOM 6586 C GLU C 97 -3.976 1.912 -38.291 1.00 52.45 C +ATOM 6587 O GLU C 97 -3.164 1.094 -38.706 1.00 52.65 O +ATOM 6588 CB GLU C 97 -3.554 2.020 -35.765 1.00 52.68 C +ATOM 6589 N ASP C 98 -5.164 2.082 -38.871 1.00 51.58 N +ATOM 6590 CA ASP C 98 -5.548 1.316 -40.067 1.00 50.93 C +ATOM 6591 C ASP C 98 -4.907 1.796 -41.364 1.00 50.11 C +ATOM 6592 O ASP C 98 -5.213 1.258 -42.424 1.00 50.00 O +ATOM 6593 CB ASP C 98 -7.065 1.339 -40.272 1.00 51.14 C +ATOM 6594 CG ASP C 98 -7.805 0.481 -39.280 1.00 51.96 C +ATOM 6595 OD1 ASP C 98 -7.264 -0.561 -38.854 1.00 53.24 O +ATOM 6596 OD2 ASP C 98 -8.945 0.846 -38.938 1.00 52.72 O +ATOM 6597 N THR C 99 -4.057 2.819 -41.303 1.00 49.14 N +ATOM 6598 CA THR C 99 -3.492 3.383 -42.528 1.00 48.17 C +ATOM 6599 C THR C 99 -2.420 2.447 -43.055 1.00 47.67 C +ATOM 6600 O THR C 99 -1.394 2.231 -42.402 1.00 48.02 O +ATOM 6601 CB THR C 99 -2.900 4.790 -42.325 1.00 48.14 C +ATOM 6602 OG1 THR C 99 -3.934 5.709 -41.962 1.00 47.95 O +ATOM 6603 CG2 THR C 99 -2.248 5.282 -43.608 1.00 48.21 C +ATOM 6604 N ALA C 100 -2.669 1.880 -44.228 1.00 46.63 N +ATOM 6605 CA ALA C 100 -1.745 0.929 -44.829 1.00 45.66 C +ATOM 6606 C ALA C 100 -2.064 0.749 -46.302 1.00 45.10 C +ATOM 6607 O ALA C 100 -3.075 1.267 -46.804 1.00 45.10 O +ATOM 6608 CB ALA C 100 -1.806 -0.412 -44.102 1.00 45.55 C +ATOM 6609 N VAL C 101 -1.188 0.024 -46.993 1.00 44.10 N +ATOM 6610 CA VAL C 101 -1.427 -0.337 -48.373 1.00 43.17 C +ATOM 6611 C VAL C 101 -2.219 -1.632 -48.355 1.00 42.80 C +ATOM 6612 O VAL C 101 -1.844 -2.585 -47.666 1.00 42.62 O +ATOM 6613 CB VAL C 101 -0.123 -0.475 -49.164 1.00 42.96 C +ATOM 6614 CG1 VAL C 101 -0.410 -0.958 -50.580 1.00 43.08 C +ATOM 6615 CG2 VAL C 101 0.585 0.859 -49.213 1.00 42.41 C +ATOM 6616 N TYR C 102 -3.329 -1.652 -49.087 1.00 42.18 N +ATOM 6617 CA TYR C 102 -4.197 -2.809 -49.069 1.00 41.88 C +ATOM 6618 C TYR C 102 -4.107 -3.632 -50.345 1.00 41.55 C +ATOM 6619 O TYR C 102 -4.654 -3.284 -51.382 1.00 41.44 O +ATOM 6620 CB TYR C 102 -5.619 -2.413 -48.675 1.00 42.13 C +ATOM 6621 CG TYR C 102 -5.702 -2.116 -47.192 1.00 42.93 C +ATOM 6622 CD1 TYR C 102 -5.562 -0.809 -46.700 1.00 43.15 C +ATOM 6623 CD2 TYR C 102 -5.863 -3.149 -46.268 1.00 43.11 C +ATOM 6624 CE1 TYR C 102 -5.612 -0.548 -45.326 1.00 42.13 C +ATOM 6625 CE2 TYR C 102 -5.909 -2.895 -44.904 1.00 42.31 C +ATOM 6626 CZ TYR C 102 -5.781 -1.601 -44.440 1.00 41.97 C +ATOM 6627 OH TYR C 102 -5.835 -1.380 -43.081 1.00 42.69 O +ATOM 6628 N TYR C 103 -3.365 -4.727 -50.239 1.00 41.33 N +ATOM 6629 CA TYR C 103 -3.100 -5.621 -51.352 1.00 40.84 C +ATOM 6630 C TYR C 103 -4.182 -6.699 -51.426 1.00 40.89 C +ATOM 6631 O TYR C 103 -4.778 -7.076 -50.413 1.00 40.93 O +ATOM 6632 CB TYR C 103 -1.727 -6.295 -51.181 1.00 40.42 C +ATOM 6633 CG TYR C 103 -0.519 -5.451 -51.532 1.00 39.82 C +ATOM 6634 CD1 TYR C 103 0.292 -4.905 -50.536 1.00 39.32 C +ATOM 6635 CD2 TYR C 103 -0.165 -5.223 -52.864 1.00 40.06 C +ATOM 6636 CE1 TYR C 103 1.420 -4.134 -50.856 1.00 39.24 C +ATOM 6637 CE2 TYR C 103 0.953 -4.452 -53.198 1.00 39.52 C +ATOM 6638 CZ TYR C 103 1.742 -3.914 -52.190 1.00 39.64 C +ATOM 6639 OH TYR C 103 2.844 -3.156 -52.522 1.00 39.75 O +ATOM 6640 N CYS C 104 -4.428 -7.183 -52.637 1.00 40.83 N +ATOM 6641 CA CYS C 104 -5.261 -8.348 -52.866 1.00 40.72 C +ATOM 6642 C CYS C 104 -4.421 -9.357 -53.648 1.00 40.35 C +ATOM 6643 O CYS C 104 -3.462 -8.985 -54.333 1.00 40.22 O +ATOM 6644 CB CYS C 104 -6.504 -7.963 -53.657 1.00 40.75 C +ATOM 6645 SG CYS C 104 -6.168 -7.671 -55.414 1.00 42.77 S +ATOM 6646 N ALA C 105 -4.782 -10.630 -53.546 1.00 40.04 N +ATOM 6647 CA ALA C 105 -4.003 -11.695 -54.156 1.00 39.70 C +ATOM 6648 C ALA C 105 -4.840 -12.946 -54.421 1.00 39.59 C +ATOM 6649 O ALA C 105 -5.612 -13.395 -53.564 1.00 39.80 O +ATOM 6650 CB ALA C 105 -2.812 -12.038 -53.273 1.00 39.51 C +ATOM 6651 N SER C 106 -4.701 -13.488 -55.625 1.00 39.06 N +ATOM 6652 CA SER C 106 -5.138 -14.838 -55.895 1.00 38.54 C +ATOM 6653 C SER C 106 -3.976 -15.761 -55.476 1.00 38.35 C +ATOM 6654 O SER C 106 -2.880 -15.687 -56.026 1.00 38.35 O +ATOM 6655 CB SER C 106 -5.503 -15.002 -57.370 1.00 38.17 C +ATOM 6656 N ARG C 107 -4.207 -16.589 -54.463 1.00 37.88 N +ATOM 6657 CA ARG C 107 -3.205 -17.535 -54.004 1.00 37.53 C +ATOM 6658 C ARG C 107 -3.908 -18.839 -53.650 1.00 37.69 C +ATOM 6659 O ARG C 107 -4.917 -18.834 -52.946 1.00 37.65 O +ATOM 6660 CB ARG C 107 -2.459 -16.983 -52.799 1.00 37.55 C +ATOM 6661 CG ARG C 107 -2.152 -15.506 -52.871 1.00 36.80 C +ATOM 6662 CD ARG C 107 -1.205 -15.110 -51.765 1.00 36.21 C +ATOM 6663 NE ARG C 107 -1.882 -15.047 -50.478 1.00 35.08 N +ATOM 6664 CZ ARG C 107 -1.271 -15.061 -49.300 1.00 34.66 C +ATOM 6665 NH1 ARG C 107 0.059 -15.148 -49.224 1.00 33.96 N +ATOM 6666 NH2 ARG C 107 -2.008 -15.003 -48.195 1.00 33.62 N +ATOM 6667 N ASP C 108 -3.359 -19.957 -54.113 1.00 37.73 N +ATOM 6668 CA ASP C 108 -4.151 -21.160 -54.321 1.00 37.97 C +ATOM 6669 C ASP C 108 -3.231 -22.299 -54.689 1.00 37.89 C +ATOM 6670 O ASP C 108 -2.056 -22.089 -54.992 1.00 37.90 O +ATOM 6671 CB ASP C 108 -5.044 -20.914 -55.537 1.00 38.24 C +ATOM 6672 CG ASP C 108 -6.450 -21.445 -55.372 1.00 39.41 C +ATOM 6673 OD1 ASP C 108 -6.775 -22.429 -56.058 1.00 40.62 O +ATOM 6674 OD2 ASP C 108 -7.248 -20.857 -54.605 1.00 40.99 O +ATOM 6675 N TYR C 109 -3.771 -23.509 -54.695 1.00 37.79 N +ATOM 6676 CA TYR C 109 -3.072 -24.621 -55.302 1.00 37.76 C +ATOM 6677 C TYR C 109 -3.830 -25.051 -56.543 1.00 38.15 C +ATOM 6678 O TYR C 109 -5.043 -25.255 -56.500 1.00 38.01 O +ATOM 6679 CB TYR C 109 -2.946 -25.781 -54.330 1.00 37.61 C +ATOM 6680 CG TYR C 109 -1.840 -25.625 -53.327 1.00 37.23 C +ATOM 6681 CD1 TYR C 109 -0.527 -25.909 -53.674 1.00 38.20 C +ATOM 6682 CD2 TYR C 109 -2.100 -25.207 -52.029 1.00 36.81 C +ATOM 6683 CE1 TYR C 109 0.516 -25.768 -52.754 1.00 37.96 C +ATOM 6684 CE2 TYR C 109 -1.067 -25.058 -51.099 1.00 37.49 C +ATOM 6685 CZ TYR C 109 0.241 -25.346 -51.474 1.00 37.50 C +ATOM 6686 OH TYR C 109 1.275 -25.220 -50.582 1.00 37.31 O +ATOM 6687 N ASP C 110 -3.106 -25.160 -57.653 1.00 38.73 N +ATOM 6688 CA ASP C 110 -3.651 -25.673 -58.903 1.00 39.16 C +ATOM 6689 C ASP C 110 -4.132 -27.104 -58.727 1.00 39.49 C +ATOM 6690 O ASP C 110 -3.589 -27.859 -57.907 1.00 39.43 O +ATOM 6691 CB ASP C 110 -2.592 -25.617 -60.014 1.00 39.11 C +ATOM 6692 CG ASP C 110 -2.667 -24.332 -60.833 1.00 39.89 C +ATOM 6693 OD1 ASP C 110 -3.667 -23.600 -60.703 1.00 41.52 O +ATOM 6694 OD2 ASP C 110 -1.743 -24.047 -61.623 1.00 40.29 O +ATOM 6695 N TYR C 111 -5.162 -27.464 -59.491 1.00 39.98 N +ATOM 6696 CA TYR C 111 -5.570 -28.867 -59.664 1.00 40.29 C +ATOM 6697 C TYR C 111 -4.322 -29.734 -59.946 1.00 39.82 C +ATOM 6698 O TYR C 111 -4.286 -30.922 -59.591 1.00 39.58 O +ATOM 6699 CB TYR C 111 -6.619 -28.961 -60.796 1.00 41.26 C +ATOM 6700 CG TYR C 111 -7.181 -30.346 -61.090 1.00 42.07 C +ATOM 6701 CD1 TYR C 111 -8.387 -30.772 -60.529 1.00 42.48 C +ATOM 6702 CD2 TYR C 111 -6.518 -31.212 -61.962 1.00 43.42 C +ATOM 6703 CE1 TYR C 111 -8.902 -32.047 -60.806 1.00 43.67 C +ATOM 6704 CE2 TYR C 111 -7.015 -32.480 -62.253 1.00 44.33 C +ATOM 6705 CZ TYR C 111 -8.205 -32.902 -61.674 1.00 44.16 C +ATOM 6706 OH TYR C 111 -8.679 -34.172 -61.980 1.00 43.61 O +ATOM 6707 N ALA C 112A -3.317 -29.103 -60.577 1.00 39.15 N +ATOM 6708 CA ALA C 112A -1.962 -29.649 -60.777 1.00 38.28 C +ATOM 6709 C ALA C 112A -1.223 -29.928 -59.455 1.00 37.55 C +ATOM 6710 O ALA C 112A -0.542 -30.948 -59.311 1.00 37.24 O +ATOM 6711 CB ALA C 112A -1.131 -28.696 -61.663 1.00 38.03 C +ATOM 6712 N GLY C 112 -1.357 -29.013 -58.501 1.00 36.76 N +ATOM 6713 CA GLY C 112 -0.639 -29.113 -57.235 1.00 36.15 C +ATOM 6714 C GLY C 112 0.474 -28.091 -57.037 1.00 35.58 C +ATOM 6715 O GLY C 112 1.001 -27.957 -55.935 1.00 35.36 O +ATOM 6716 N ARG C 113 0.841 -27.397 -58.114 1.00 35.18 N +ATOM 6717 CA ARG C 113 1.775 -26.280 -58.067 1.00 34.76 C +ATOM 6718 C ARG C 113 1.017 -25.059 -57.544 1.00 34.78 C +ATOM 6719 O ARG C 113 -0.160 -24.875 -57.887 1.00 34.60 O +ATOM 6720 CB ARG C 113 2.350 -26.010 -59.463 1.00 34.40 C +ATOM 6721 N TYR C 114 1.677 -24.241 -56.713 1.00 34.76 N +ATOM 6722 CA TYR C 114 1.044 -23.047 -56.108 1.00 34.51 C +ATOM 6723 C TYR C 114 0.749 -21.954 -57.134 1.00 34.30 C +ATOM 6724 O TYR C 114 1.507 -21.755 -58.073 1.00 34.34 O +ATOM 6725 CB TYR C 114 1.902 -22.474 -54.982 1.00 34.36 C +ATOM 6726 CG TYR C 114 1.132 -21.685 -53.926 1.00 34.50 C +ATOM 6727 CD1 TYR C 114 0.434 -22.345 -52.908 1.00 34.38 C +ATOM 6728 CD2 TYR C 114 1.129 -20.281 -53.920 1.00 34.49 C +ATOM 6729 CE1 TYR C 114 -0.265 -21.637 -51.920 1.00 33.96 C +ATOM 6730 CE2 TYR C 114 0.433 -19.559 -52.932 1.00 34.29 C +ATOM 6731 CZ TYR C 114 -0.264 -20.253 -51.937 1.00 34.33 C +ATOM 6732 OH TYR C 114 -0.954 -19.576 -50.952 1.00 34.46 O +ATOM 6733 N PHE C 115 -0.362 -21.256 -56.937 1.00 34.02 N +ATOM 6734 CA PHE C 115 -0.831 -20.236 -57.857 1.00 33.96 C +ATOM 6735 C PHE C 115 -0.909 -18.902 -57.089 1.00 34.34 C +ATOM 6736 O PHE C 115 -1.730 -18.762 -56.171 1.00 34.57 O +ATOM 6737 CB PHE C 115 -2.211 -20.665 -58.388 1.00 33.60 C +ATOM 6738 CG PHE C 115 -2.864 -19.669 -59.301 1.00 33.42 C +ATOM 6739 CD1 PHE C 115 -2.896 -19.884 -60.669 1.00 34.15 C +ATOM 6740 CD2 PHE C 115 -3.467 -18.526 -58.799 1.00 33.33 C +ATOM 6741 CE1 PHE C 115 -3.506 -18.966 -61.528 1.00 33.39 C +ATOM 6742 CE2 PHE C 115 -4.067 -17.610 -59.643 1.00 33.70 C +ATOM 6743 CZ PHE C 115 -4.089 -17.836 -61.016 1.00 33.35 C +ATOM 6744 N ASP C 116 -0.057 -17.928 -57.413 1.00 34.41 N +ATOM 6745 CA ASP C 116 -0.194 -16.635 -56.733 1.00 34.81 C +ATOM 6746 C ASP C 116 0.234 -15.395 -57.512 1.00 34.89 C +ATOM 6747 O ASP C 116 1.309 -15.337 -58.101 1.00 35.04 O +ATOM 6748 CB ASP C 116 0.302 -16.664 -55.252 1.00 35.11 C +ATOM 6749 CG ASP C 116 1.631 -15.954 -55.030 1.00 35.28 C +ATOM 6750 OD1 ASP C 116 1.651 -14.781 -54.596 1.00 33.12 O +ATOM 6751 OD2 ASP C 116 2.661 -16.592 -55.275 1.00 37.70 O +ATOM 6752 N TYR C 117 -0.666 -14.418 -57.506 1.00 35.06 N +ATOM 6753 CA TYR C 117 -0.509 -13.161 -58.209 1.00 35.41 C +ATOM 6754 C TYR C 117 -1.013 -12.011 -57.325 1.00 35.36 C +ATOM 6755 O TYR C 117 -1.778 -12.227 -56.389 1.00 35.37 O +ATOM 6756 CB TYR C 117 -1.316 -13.215 -59.497 1.00 35.97 C +ATOM 6757 CG TYR C 117 -0.761 -14.158 -60.532 1.00 36.50 C +ATOM 6758 CD1 TYR C 117 -0.037 -13.674 -61.613 1.00 36.57 C +ATOM 6759 CD2 TYR C 117 -0.978 -15.531 -60.444 1.00 37.73 C +ATOM 6760 CE1 TYR C 117 0.462 -14.523 -62.576 1.00 36.71 C +ATOM 6761 CE2 TYR C 117 -0.466 -16.400 -61.402 1.00 37.71 C +ATOM 6762 CZ TYR C 117 0.250 -15.884 -62.467 1.00 37.02 C +ATOM 6763 OH TYR C 117 0.754 -16.730 -63.429 1.00 37.10 O +ATOM 6764 N TRP C 118 -0.596 -10.789 -57.616 1.00 35.19 N +ATOM 6765 CA TRP C 118 -0.891 -9.689 -56.718 1.00 35.37 C +ATOM 6766 C TRP C 118 -1.336 -8.440 -57.467 1.00 36.24 C +ATOM 6767 O TRP C 118 -0.882 -8.188 -58.577 1.00 36.35 O +ATOM 6768 CB TRP C 118 0.349 -9.354 -55.877 1.00 34.86 C +ATOM 6769 CG TRP C 118 0.712 -10.357 -54.815 1.00 33.66 C +ATOM 6770 CD1 TRP C 118 1.188 -11.611 -55.010 1.00 33.43 C +ATOM 6771 CD2 TRP C 118 0.656 -10.167 -53.401 1.00 32.57 C +ATOM 6772 NE1 TRP C 118 1.412 -12.228 -53.811 1.00 33.15 N +ATOM 6773 CE2 TRP C 118 1.096 -11.361 -52.803 1.00 32.66 C +ATOM 6774 CE3 TRP C 118 0.263 -9.109 -52.580 1.00 32.69 C +ATOM 6775 CZ2 TRP C 118 1.166 -11.527 -51.423 1.00 33.12 C +ATOM 6776 CZ3 TRP C 118 0.332 -9.274 -51.206 1.00 33.44 C +ATOM 6777 CH2 TRP C 118 0.783 -10.473 -50.642 1.00 33.43 C +ATOM 6778 N GLY C 119 -2.224 -7.661 -56.846 1.00 37.33 N +ATOM 6779 CA GLY C 119 -2.582 -6.326 -57.332 1.00 38.64 C +ATOM 6780 C GLY C 119 -1.494 -5.298 -57.031 1.00 39.73 C +ATOM 6781 O GLY C 119 -0.432 -5.631 -56.494 1.00 39.90 O +ATOM 6782 N GLN C 120 -1.752 -4.043 -57.383 1.00 40.56 N +ATOM 6783 CA GLN C 120 -0.817 -2.964 -57.104 1.00 41.59 C +ATOM 6784 C GLN C 120 -0.898 -2.564 -55.638 1.00 42.10 C +ATOM 6785 O GLN C 120 -0.037 -1.834 -55.155 1.00 42.63 O +ATOM 6786 CB GLN C 120 -1.128 -1.724 -57.943 1.00 41.64 C +ATOM 6787 CG GLN C 120 -2.006 -1.951 -59.183 1.00 43.87 C +ATOM 6788 CD GLN C 120 -3.510 -2.000 -58.878 1.00 45.70 C +ATOM 6789 OE1 GLN C 120 -4.179 -2.983 -59.198 1.00 46.31 O +ATOM 6790 NE2 GLN C 120 -4.039 -0.940 -58.265 1.00 46.09 N +ATOM 6791 N GLY C 121 -1.943 -3.011 -54.941 1.00 42.44 N +ATOM 6792 CA GLY C 121 -2.259 -2.493 -53.610 1.00 42.80 C +ATOM 6793 C GLY C 121 -2.934 -1.129 -53.660 1.00 43.17 C +ATOM 6794 O GLY C 121 -2.752 -0.361 -54.609 1.00 43.20 O +ATOM 6795 N THR C 122 -3.715 -0.830 -52.624 1.00 43.52 N +ATOM 6796 CA THR C 122 -4.533 0.380 -52.568 1.00 43.59 C +ATOM 6797 C THR C 122 -4.176 1.121 -51.285 1.00 44.10 C +ATOM 6798 O THR C 122 -4.256 0.542 -50.197 1.00 44.09 O +ATOM 6799 CB THR C 122 -6.060 0.034 -52.587 1.00 43.29 C +ATOM 6800 OG1 THR C 122 -6.396 -0.670 -53.788 1.00 41.98 O +ATOM 6801 CG2 THR C 122 -6.909 1.281 -52.505 1.00 43.28 C +ATOM 6802 N LEU C 123 -3.772 2.386 -51.409 1.00 44.80 N +ATOM 6803 CA LEU C 123 -3.379 3.164 -50.231 1.00 45.60 C +ATOM 6804 C LEU C 123 -4.536 3.895 -49.556 1.00 46.41 C +ATOM 6805 O LEU C 123 -4.994 4.933 -50.040 1.00 46.74 O +ATOM 6806 CB LEU C 123 -2.239 4.148 -50.535 1.00 45.50 C +ATOM 6807 CG LEU C 123 -1.650 4.880 -49.307 1.00 45.23 C +ATOM 6808 CD1 LEU C 123 -1.423 3.943 -48.111 1.00 44.20 C +ATOM 6809 CD2 LEU C 123 -0.362 5.608 -49.648 1.00 45.16 C +ATOM 6810 N VAL C 124 -4.973 3.361 -48.419 1.00 47.14 N +ATOM 6811 CA VAL C 124 -6.004 4.000 -47.608 1.00 47.92 C +ATOM 6812 C VAL C 124 -5.359 4.778 -46.464 1.00 48.47 C +ATOM 6813 O VAL C 124 -4.733 4.181 -45.584 1.00 48.71 O +ATOM 6814 CB VAL C 124 -7.047 2.964 -47.091 1.00 47.94 C +ATOM 6815 CG1 VAL C 124 -7.811 3.491 -45.894 1.00 47.75 C +ATOM 6816 CG2 VAL C 124 -8.021 2.585 -48.207 1.00 48.10 C +ATOM 6817 N THR C 125 -5.505 6.108 -46.504 1.00 49.27 N +ATOM 6818 CA THR C 125 -4.965 7.028 -45.483 1.00 49.97 C +ATOM 6819 C THR C 125 -6.067 7.513 -44.544 1.00 50.58 C +ATOM 6820 O THR C 125 -7.082 8.037 -45.002 1.00 50.82 O +ATOM 6821 CB THR C 125 -4.303 8.282 -46.115 1.00 49.78 C +ATOM 6822 OG1 THR C 125 -3.552 7.912 -47.276 1.00 49.88 O +ATOM 6823 CG2 THR C 125 -3.383 8.973 -45.118 1.00 49.61 C +ATOM 6824 N VAL C 126 -5.866 7.346 -43.239 1.00 51.30 N +ATOM 6825 CA VAL C 126 -6.838 7.815 -42.248 1.00 52.07 C +ATOM 6826 C VAL C 126 -6.345 9.135 -41.669 1.00 52.83 C +ATOM 6827 O VAL C 126 -5.335 9.155 -40.965 1.00 53.18 O +ATOM 6828 CB VAL C 126 -7.068 6.778 -41.109 1.00 51.82 C +ATOM 6829 CG1 VAL C 126 -8.046 7.305 -40.093 1.00 51.86 C +ATOM 6830 CG2 VAL C 126 -7.586 5.474 -41.664 1.00 51.82 C +ATOM 6831 N SER C 127 -7.031 10.234 -41.977 1.00 53.67 N +ATOM 6832 CA SER C 127 -6.600 11.546 -41.484 1.00 54.69 C +ATOM 6833 C SER C 127 -7.744 12.545 -41.422 1.00 55.26 C +ATOM 6834 O SER C 127 -8.649 12.513 -42.248 1.00 55.44 O +ATOM 6835 CB SER C 127 -5.445 12.112 -42.334 1.00 54.78 C +ATOM 6836 OG SER C 127 -4.405 12.657 -41.520 1.00 54.61 O +ATOM 6837 N SER C 128 -7.688 13.426 -40.425 1.00 56.14 N +ATOM 6838 CA SER C 128 -8.673 14.488 -40.248 1.00 56.91 C +ATOM 6839 C SER C 128 -8.565 15.491 -41.386 1.00 57.42 C +ATOM 6840 O SER C 128 -9.584 15.886 -41.970 1.00 57.41 O +ATOM 6841 CB SER C 128 -8.457 15.194 -38.908 1.00 56.87 C +ATOM 6842 N ALA C 129 -7.317 15.872 -41.690 1.00 58.08 N +ATOM 6843 CA ALA C 129 -6.962 16.827 -42.749 1.00 58.66 C +ATOM 6844 C ALA C 129 -7.540 16.439 -44.097 1.00 59.07 C +ATOM 6845 O ALA C 129 -7.668 15.252 -44.406 1.00 58.97 O +ATOM 6846 CB ALA C 129 -5.451 16.961 -42.850 1.00 58.64 C +ATOM 6847 N SER C 130 -7.881 17.447 -44.894 1.00 59.86 N +ATOM 6848 CA SER C 130 -8.589 17.224 -46.158 1.00 60.89 C +ATOM 6849 C SER C 130 -7.681 17.311 -47.398 1.00 61.74 C +ATOM 6850 O SER C 130 -6.575 17.879 -47.341 1.00 61.87 O +ATOM 6851 CB SER C 130 -9.767 18.194 -46.283 1.00 60.65 C +ATOM 6852 OG SER C 130 -9.321 19.526 -46.110 1.00 60.33 O +ATOM 6853 N THR C 131 -8.170 16.741 -48.504 1.00 62.49 N +ATOM 6854 CA THR C 131 -7.504 16.742 -49.818 1.00 63.30 C +ATOM 6855 C THR C 131 -6.740 18.027 -50.201 1.00 63.77 C +ATOM 6856 O THR C 131 -6.988 19.100 -49.656 1.00 63.78 O +ATOM 6857 CB THR C 131 -8.534 16.341 -50.940 1.00 63.37 C +ATOM 6858 OG1 THR C 131 -8.320 14.977 -51.328 1.00 63.54 O +ATOM 6859 CG2 THR C 131 -8.442 17.239 -52.185 1.00 63.09 C +ATOM 6860 N LYS C 132 -5.794 17.891 -51.127 1.00 64.52 N +ATOM 6861 CA LYS C 132 -5.170 19.031 -51.802 1.00 65.40 C +ATOM 6862 C LYS C 132 -4.452 18.576 -53.075 1.00 66.20 C +ATOM 6863 O LYS C 132 -3.791 17.526 -53.096 1.00 66.37 O +ATOM 6864 CB LYS C 132 -4.196 19.777 -50.884 1.00 65.30 C +ATOM 6865 N GLY C 133 -4.606 19.368 -54.136 1.00 66.97 N +ATOM 6866 CA GLY C 133 -3.893 19.152 -55.394 1.00 67.51 C +ATOM 6867 C GLY C 133 -2.448 19.616 -55.281 1.00 68.03 C +ATOM 6868 O GLY C 133 -2.118 20.438 -54.419 1.00 68.02 O +ATOM 6869 N PRO C 134 -1.569 19.078 -56.145 1.00 68.37 N +ATOM 6870 CA PRO C 134 -0.142 19.416 -56.155 1.00 68.57 C +ATOM 6871 C PRO C 134 0.270 20.560 -57.115 1.00 68.80 C +ATOM 6872 O PRO C 134 -0.576 21.134 -57.818 1.00 68.76 O +ATOM 6873 CB PRO C 134 0.512 18.093 -56.590 1.00 68.52 C +ATOM 6874 CG PRO C 134 -0.625 17.249 -57.216 1.00 68.31 C +ATOM 6875 CD PRO C 134 -1.887 18.055 -57.157 1.00 68.41 C +ATOM 6876 N SER C 135 1.569 20.877 -57.127 1.00 68.95 N +ATOM 6877 CA SER C 135 2.151 21.824 -58.087 1.00 68.86 C +ATOM 6878 C SER C 135 3.476 21.306 -58.679 1.00 68.79 C +ATOM 6879 O SER C 135 3.552 20.885 -59.846 1.00 68.53 O +ATOM 6880 CB SER C 135 2.358 23.192 -57.426 1.00 68.85 C +ATOM 6881 OG SER C 135 1.121 23.792 -57.082 1.00 68.60 O +ATOM 6882 N GLY C 136 14.151 17.230 -63.099 1.00 75.47 N +ATOM 6883 CA GLY C 136 12.968 17.821 -63.701 1.00 75.50 C +ATOM 6884 C GLY C 136 12.266 18.824 -62.804 1.00 75.51 C +ATOM 6885 O GLY C 136 12.846 19.854 -62.434 1.00 75.65 O +ATOM 6886 N CYS C 137 11.025 18.500 -62.438 1.00 75.38 N +ATOM 6887 CA CYS C 137 10.099 19.437 -61.784 1.00 75.13 C +ATOM 6888 C CYS C 137 9.664 19.014 -60.380 1.00 74.93 C +ATOM 6889 O CYS C 137 9.489 17.826 -60.116 1.00 74.78 O +ATOM 6890 CB CYS C 137 8.866 19.606 -62.665 1.00 75.06 C +ATOM 6891 SG CYS C 137 8.563 18.155 -63.705 1.00 75.34 S +ATOM 6892 N LEU C 138 9.492 20.002 -59.495 1.00 74.82 N +ATOM 6893 CA LEU C 138 8.985 19.790 -58.130 1.00 74.70 C +ATOM 6894 C LEU C 138 7.453 19.744 -58.108 1.00 74.67 C +ATOM 6895 O LEU C 138 6.795 20.478 -58.852 1.00 74.76 O +ATOM 6896 CB LEU C 138 9.494 20.878 -57.169 1.00 74.27 C +ATOM 6897 N VAL C 139 6.901 18.862 -57.270 1.00 74.62 N +ATOM 6898 CA VAL C 139 5.458 18.794 -57.010 1.00 74.62 C +ATOM 6899 C VAL C 139 5.197 19.035 -55.517 1.00 74.62 C +ATOM 6900 O VAL C 139 5.448 18.151 -54.693 1.00 74.79 O +ATOM 6901 CB VAL C 139 4.852 17.435 -57.456 1.00 74.37 C +ATOM 6902 N LYS C 140 4.712 20.230 -55.166 1.00 74.48 N +ATOM 6903 CA LYS C 140 4.567 20.605 -53.747 1.00 74.28 C +ATOM 6904 C LYS C 140 3.119 20.787 -53.278 1.00 74.09 C +ATOM 6905 O LYS C 140 2.200 20.966 -54.092 1.00 73.92 O +ATOM 6906 CB LYS C 140 5.407 21.849 -53.406 1.00 74.16 C +ATOM 6907 N ASP C 141 2.953 20.709 -51.952 1.00 73.84 N +ATOM 6908 CA ASP C 141 1.692 20.942 -51.231 1.00 73.52 C +ATOM 6909 C ASP C 141 0.492 20.152 -51.755 1.00 73.08 C +ATOM 6910 O ASP C 141 -0.309 20.657 -52.550 1.00 72.80 O +ATOM 6911 CB ASP C 141 1.390 22.441 -51.148 1.00 73.78 C +ATOM 6912 CG ASP C 141 2.563 23.246 -50.594 1.00 75.02 C +ATOM 6913 OD1 ASP C 141 3.457 22.657 -49.935 1.00 75.74 O +ATOM 6914 OD2 ASP C 141 2.590 24.480 -50.821 1.00 76.65 O +ATOM 6915 N TYR C 142 0.393 18.905 -51.293 1.00 72.58 N +ATOM 6916 CA TYR C 142 -0.706 18.006 -51.650 1.00 72.07 C +ATOM 6917 C TYR C 142 -0.999 16.990 -50.547 1.00 71.52 C +ATOM 6918 O TYR C 142 -0.110 16.601 -49.794 1.00 71.48 O +ATOM 6919 CB TYR C 142 -0.423 17.293 -52.979 1.00 72.38 C +ATOM 6920 CG TYR C 142 0.696 16.259 -52.948 1.00 72.85 C +ATOM 6921 CD1 TYR C 142 0.407 14.896 -52.991 1.00 73.11 C +ATOM 6922 CD2 TYR C 142 2.041 16.643 -52.904 1.00 73.10 C +ATOM 6923 CE1 TYR C 142 1.422 13.940 -52.971 1.00 73.35 C +ATOM 6924 CE2 TYR C 142 3.066 15.690 -52.887 1.00 73.32 C +ATOM 6925 CZ TYR C 142 2.746 14.339 -52.920 1.00 73.22 C +ATOM 6926 OH TYR C 142 3.742 13.383 -52.896 1.00 73.32 O +ATOM 6927 N PHE C 143 -2.258 16.575 -50.464 1.00 70.92 N +ATOM 6928 CA PHE C 143 -2.711 15.579 -49.504 1.00 70.41 C +ATOM 6929 C PHE C 143 -3.908 14.862 -50.123 1.00 70.31 C +ATOM 6930 O PHE C 143 -4.744 15.503 -50.758 1.00 70.02 O +ATOM 6931 CB PHE C 143 -3.115 16.251 -48.189 1.00 70.31 C +ATOM 6932 CG PHE C 143 -3.101 15.332 -46.996 1.00 70.00 C +ATOM 6933 CD1 PHE C 143 -2.000 15.295 -46.147 1.00 69.91 C +ATOM 6934 CD2 PHE C 143 -4.191 14.516 -46.709 1.00 69.96 C +ATOM 6935 CE1 PHE C 143 -1.978 14.451 -45.032 1.00 69.80 C +ATOM 6936 CE2 PHE C 143 -4.178 13.664 -45.600 1.00 70.03 C +ATOM 6937 CZ PHE C 143 -3.068 13.634 -44.760 1.00 69.91 C +ATOM 6938 N PRO C 144 -3.990 13.529 -49.966 1.00 70.44 N +ATOM 6939 CA PRO C 144 -3.061 12.608 -49.304 1.00 70.53 C +ATOM 6940 C PRO C 144 -1.976 12.082 -50.242 1.00 70.63 C +ATOM 6941 O PRO C 144 -1.408 12.848 -51.021 1.00 70.83 O +ATOM 6942 CB PRO C 144 -3.975 11.468 -48.859 1.00 70.54 C +ATOM 6943 CG PRO C 144 -5.072 11.441 -49.887 1.00 70.54 C +ATOM 6944 CD PRO C 144 -5.166 12.817 -50.503 1.00 70.54 C +ATOM 6945 N GLU C 145 -1.690 10.788 -50.155 1.00 70.67 N +ATOM 6946 CA GLU C 145 -0.732 10.145 -51.038 1.00 70.79 C +ATOM 6947 C GLU C 145 -1.466 9.100 -51.871 1.00 71.02 C +ATOM 6948 O GLU C 145 -2.540 8.644 -51.472 1.00 70.98 O +ATOM 6949 CB GLU C 145 0.347 9.467 -50.207 1.00 70.78 C +ATOM 6950 CG GLU C 145 1.351 10.405 -49.592 1.00 70.88 C +ATOM 6951 CD GLU C 145 2.685 10.357 -50.295 1.00 71.61 C +ATOM 6952 OE1 GLU C 145 2.731 10.610 -51.528 1.00 71.96 O +ATOM 6953 OE2 GLU C 145 3.687 10.061 -49.603 1.00 70.99 O +ATOM 6954 N PRO C 146 -0.882 8.690 -53.014 1.00 71.27 N +ATOM 6955 CA PRO C 146 0.377 9.156 -53.561 1.00 71.51 C +ATOM 6956 C PRO C 146 0.220 10.061 -54.776 1.00 71.78 C +ATOM 6957 O PRO C 146 -0.840 10.087 -55.409 1.00 71.69 O +ATOM 6958 CB PRO C 146 1.028 7.845 -54.012 1.00 71.67 C +ATOM 6959 CG PRO C 146 -0.173 6.915 -54.358 1.00 71.17 C +ATOM 6960 CD PRO C 146 -1.426 7.600 -53.844 1.00 71.23 C +ATOM 6961 N VAL C 147 1.283 10.796 -55.087 1.00 72.17 N +ATOM 6962 CA VAL C 147 1.429 11.416 -56.394 1.00 72.47 C +ATOM 6963 C VAL C 147 2.252 10.447 -57.233 1.00 72.78 C +ATOM 6964 O VAL C 147 3.211 9.846 -56.736 1.00 72.60 O +ATOM 6965 CB VAL C 147 2.124 12.794 -56.313 1.00 72.21 C +ATOM 6966 N THR C 148 1.853 10.269 -58.490 1.00 73.39 N +ATOM 6967 CA THR C 148 2.590 9.416 -59.424 1.00 73.97 C +ATOM 6968 C THR C 148 3.167 10.204 -60.605 1.00 74.33 C +ATOM 6969 O THR C 148 2.431 10.878 -61.324 1.00 74.33 O +ATOM 6970 CB THR C 148 1.737 8.223 -59.921 1.00 73.93 C +ATOM 6971 OG1 THR C 148 2.567 7.344 -60.686 1.00 74.44 O +ATOM 6972 CG2 THR C 148 0.548 8.677 -60.778 1.00 73.81 C +ATOM 6973 N VAL C 149 4.485 10.110 -60.794 1.00 74.93 N +ATOM 6974 CA VAL C 149 5.189 10.870 -61.844 1.00 75.34 C +ATOM 6975 C VAL C 149 5.730 9.979 -62.980 1.00 75.77 C +ATOM 6976 O VAL C 149 6.359 8.949 -62.732 1.00 75.69 O +ATOM 6977 CB VAL C 149 6.345 11.722 -61.252 1.00 75.22 C +ATOM 6978 CG1 VAL C 149 6.920 12.655 -62.305 1.00 75.12 C +ATOM 6979 CG2 VAL C 149 5.865 12.521 -60.053 1.00 74.84 C +ATOM 6980 N SER C 150 5.468 10.384 -64.220 1.00 76.33 N +ATOM 6981 CA SER C 150 6.046 9.733 -65.391 1.00 77.04 C +ATOM 6982 C SER C 150 7.038 10.684 -66.076 1.00 77.66 C +ATOM 6983 O SER C 150 7.317 11.771 -65.557 1.00 77.68 O +ATOM 6984 CB SER C 150 4.944 9.301 -66.359 1.00 76.91 C +ATOM 6985 N TRP C 151 7.585 10.260 -67.219 1.00 78.47 N +ATOM 6986 CA TRP C 151 8.428 11.123 -68.066 1.00 79.15 C +ATOM 6987 C TRP C 151 8.190 10.892 -69.563 1.00 79.64 C +ATOM 6988 O TRP C 151 7.933 9.758 -70.000 1.00 79.59 O +ATOM 6989 CB TRP C 151 9.911 10.977 -67.730 1.00 79.20 C +ATOM 6990 CG TRP C 151 10.352 11.776 -66.535 1.00 79.57 C +ATOM 6991 CD1 TRP C 151 10.783 11.286 -65.336 1.00 79.85 C +ATOM 6992 CD2 TRP C 151 10.412 13.209 -66.424 1.00 79.72 C +ATOM 6993 NE1 TRP C 151 11.113 12.318 -64.486 1.00 79.76 N +ATOM 6994 CE2 TRP C 151 10.894 13.508 -65.126 1.00 79.36 C +ATOM 6995 CE3 TRP C 151 10.110 14.267 -67.295 1.00 79.76 C +ATOM 6996 CZ2 TRP C 151 11.075 14.817 -64.675 1.00 79.17 C +ATOM 6997 CZ3 TRP C 151 10.291 15.576 -66.843 1.00 79.66 C +ATOM 6998 CH2 TRP C 151 10.766 15.836 -65.542 1.00 79.53 C +ATOM 6999 N ASN C 152 8.297 11.978 -70.331 1.00 80.20 N +ATOM 7000 CA ASN C 152 7.852 12.040 -71.733 1.00 80.67 C +ATOM 7001 C ASN C 152 6.432 11.467 -71.930 1.00 81.00 C +ATOM 7002 O ASN C 152 5.527 11.744 -71.130 1.00 81.04 O +ATOM 7003 CB ASN C 152 8.882 11.411 -72.683 1.00 80.61 C +ATOM 7004 N SER C 153 6.244 10.667 -72.978 1.00 81.37 N +ATOM 7005 CA SER C 153 4.929 10.094 -73.291 1.00 81.69 C +ATOM 7006 C SER C 153 4.667 8.810 -72.484 1.00 81.68 C +ATOM 7007 O SER C 153 3.772 8.006 -72.819 1.00 81.90 O +ATOM 7008 CB SER C 153 4.799 9.834 -74.810 1.00 81.70 C +ATOM 7009 N GLY C 154 5.438 8.629 -71.412 1.00 81.44 N +ATOM 7010 CA GLY C 154 5.440 7.361 -70.694 1.00 81.19 C +ATOM 7011 C GLY C 154 6.320 6.342 -71.408 1.00 81.04 C +ATOM 7012 O GLY C 154 6.297 5.155 -71.069 1.00 81.25 O +ATOM 7013 N ALA C 155 7.090 6.810 -72.398 1.00 80.58 N +ATOM 7014 CA ALA C 155 8.054 5.978 -73.128 1.00 79.82 C +ATOM 7015 C ALA C 155 9.474 6.085 -72.542 1.00 79.33 C +ATOM 7016 O ALA C 155 10.181 5.079 -72.444 1.00 79.16 O +ATOM 7017 CB ALA C 155 8.039 6.325 -74.614 1.00 79.79 C +ATOM 7018 N LEU C 156 9.878 7.299 -72.158 1.00 78.76 N +ATOM 7019 CA LEU C 156 11.144 7.522 -71.447 1.00 78.44 C +ATOM 7020 C LEU C 156 11.072 6.903 -70.054 1.00 78.32 C +ATOM 7021 O LEU C 156 10.028 6.976 -69.395 1.00 78.46 O +ATOM 7022 CB LEU C 156 11.473 9.022 -71.348 1.00 78.34 C +ATOM 7023 CG LEU C 156 12.528 9.549 -70.353 1.00 78.38 C +ATOM 7024 CD1 LEU C 156 13.917 8.904 -70.517 1.00 77.66 C +ATOM 7025 CD2 LEU C 156 12.627 11.063 -70.445 1.00 78.10 C +ATOM 7026 N THR C 157 12.179 6.297 -69.617 1.00 77.85 N +ATOM 7027 CA THR C 157 12.246 5.628 -68.313 1.00 77.16 C +ATOM 7028 C THR C 157 13.639 5.698 -67.698 1.00 76.65 C +ATOM 7029 O THR C 157 13.773 5.936 -66.494 1.00 76.60 O +ATOM 7030 CB THR C 157 11.810 4.143 -68.402 1.00 77.08 C +ATOM 7031 N SER C 158 14.667 5.490 -68.524 1.00 75.91 N +ATOM 7032 CA SER C 158 16.057 5.467 -68.053 1.00 75.07 C +ATOM 7033 C SER C 158 16.434 6.737 -67.290 1.00 74.36 C +ATOM 7034 O SER C 158 16.031 7.842 -67.659 1.00 74.38 O +ATOM 7035 CB SER C 158 17.025 5.244 -69.221 1.00 75.00 C +ATOM 7036 N GLY C 159 17.181 6.559 -66.206 1.00 73.53 N +ATOM 7037 CA GLY C 159 17.789 7.672 -65.484 1.00 72.58 C +ATOM 7038 C GLY C 159 16.892 8.441 -64.535 1.00 71.91 C +ATOM 7039 O GLY C 159 17.312 9.468 -63.993 1.00 72.00 O +ATOM 7040 N VAL C 160 15.669 7.949 -64.322 1.00 71.09 N +ATOM 7041 CA VAL C 160 14.707 8.613 -63.427 1.00 70.13 C +ATOM 7042 C VAL C 160 15.019 8.388 -61.949 1.00 69.55 C +ATOM 7043 O VAL C 160 15.587 7.366 -61.564 1.00 69.33 O +ATOM 7044 CB VAL C 160 13.225 8.195 -63.702 1.00 70.19 C +ATOM 7045 CG1 VAL C 160 12.744 8.707 -65.063 1.00 69.67 C +ATOM 7046 CG2 VAL C 160 13.033 6.668 -63.558 1.00 70.22 C +ATOM 7047 N HIS C 161 14.637 9.365 -61.136 1.00 69.00 N +ATOM 7048 CA HIS C 161 14.745 9.297 -59.682 1.00 68.54 C +ATOM 7049 C HIS C 161 13.557 10.058 -59.071 1.00 68.23 C +ATOM 7050 O HIS C 161 13.675 11.246 -58.750 1.00 68.26 O +ATOM 7051 CB HIS C 161 16.060 9.927 -59.196 1.00 68.50 C +ATOM 7052 CG HIS C 161 17.233 8.996 -59.188 1.00 68.41 C +ATOM 7053 ND1 HIS C 161 17.750 8.430 -60.342 1.00 68.76 N +ATOM 7054 CD2 HIS C 161 18.024 8.576 -58.165 1.00 68.49 C +ATOM 7055 CE1 HIS C 161 18.791 7.678 -60.027 1.00 68.51 C +ATOM 7056 NE2 HIS C 161 18.981 7.752 -58.711 1.00 68.38 N +ATOM 7057 N THR C 162 12.417 9.381 -58.927 1.00 67.75 N +ATOM 7058 CA THR C 162 11.244 9.955 -58.252 1.00 67.14 C +ATOM 7059 C THR C 162 11.342 9.759 -56.720 1.00 66.92 C +ATOM 7060 O THR C 162 10.925 8.729 -56.183 1.00 66.98 O +ATOM 7061 CB THR C 162 9.919 9.364 -58.802 1.00 67.13 C +ATOM 7062 OG1 THR C 162 10.053 9.063 -60.198 1.00 66.35 O +ATOM 7063 CG2 THR C 162 8.771 10.341 -58.600 1.00 66.77 C +ATOM 7064 N PHE C 163 11.897 10.759 -56.038 1.00 66.42 N +ATOM 7065 CA PHE C 163 12.189 10.708 -54.607 1.00 66.05 C +ATOM 7066 C PHE C 163 10.975 10.403 -53.724 1.00 66.09 C +ATOM 7067 O PHE C 163 9.838 10.647 -54.129 1.00 65.99 O +ATOM 7068 CB PHE C 163 12.812 12.030 -54.175 1.00 65.92 C +ATOM 7069 CG PHE C 163 14.213 12.237 -54.680 1.00 66.27 C +ATOM 7070 CD1 PHE C 163 15.310 11.885 -53.893 1.00 66.40 C +ATOM 7071 CD2 PHE C 163 14.445 12.794 -55.938 1.00 66.29 C +ATOM 7072 CE1 PHE C 163 16.614 12.077 -54.351 1.00 65.60 C +ATOM 7073 CE2 PHE C 163 15.749 12.989 -56.405 1.00 65.96 C +ATOM 7074 CZ PHE C 163 16.834 12.631 -55.603 1.00 65.88 C +ATOM 7075 N PRO C 164 11.212 9.847 -52.516 1.00 66.20 N +ATOM 7076 CA PRO C 164 10.140 9.679 -51.543 1.00 66.35 C +ATOM 7077 C PRO C 164 9.599 11.026 -51.091 1.00 66.70 C +ATOM 7078 O PRO C 164 10.364 11.982 -50.931 1.00 66.90 O +ATOM 7079 CB PRO C 164 10.841 8.990 -50.366 1.00 66.22 C +ATOM 7080 CG PRO C 164 12.044 8.375 -50.934 1.00 65.90 C +ATOM 7081 CD PRO C 164 12.486 9.321 -51.995 1.00 66.20 C +ATOM 7082 N ALA C 165 8.288 11.095 -50.882 1.00 67.07 N +ATOM 7083 CA ALA C 165 7.647 12.329 -50.435 1.00 67.46 C +ATOM 7084 C ALA C 165 8.223 12.809 -49.108 1.00 67.70 C +ATOM 7085 O ALA C 165 8.797 12.028 -48.347 1.00 67.52 O +ATOM 7086 CB ALA C 165 6.131 12.147 -50.335 1.00 67.36 C +ATOM 7087 N VAL C 166 8.089 14.106 -48.852 1.00 68.29 N +ATOM 7088 CA VAL C 166 8.483 14.674 -47.569 1.00 68.91 C +ATOM 7089 C VAL C 166 7.296 15.406 -46.944 1.00 69.35 C +ATOM 7090 O VAL C 166 6.627 16.200 -47.612 1.00 69.31 O +ATOM 7091 CB VAL C 166 9.695 15.639 -47.682 1.00 68.86 C +ATOM 7092 CG1 VAL C 166 10.500 15.614 -46.391 1.00 68.60 C +ATOM 7093 CG2 VAL C 166 10.597 15.286 -48.871 1.00 69.08 C +ATOM 7094 N LEU C 167 7.044 15.127 -45.665 1.00 69.97 N +ATOM 7095 CA LEU C 167 5.970 15.776 -44.913 1.00 70.61 C +ATOM 7096 C LEU C 167 6.393 17.129 -44.331 1.00 71.05 C +ATOM 7097 O LEU C 167 7.135 17.192 -43.343 1.00 71.09 O +ATOM 7098 CB LEU C 167 5.452 14.854 -43.803 1.00 70.58 C +ATOM 7099 CG LEU C 167 4.205 15.325 -43.042 1.00 70.91 C +ATOM 7100 CD1 LEU C 167 3.184 14.198 -42.914 1.00 71.30 C +ATOM 7101 CD2 LEU C 167 4.545 15.932 -41.672 1.00 70.96 C +ATOM 7102 N GLN C 168 5.902 18.206 -44.943 1.00 71.59 N +ATOM 7103 CA GLN C 168 6.169 19.564 -44.468 1.00 72.05 C +ATOM 7104 C GLN C 168 5.381 19.847 -43.174 1.00 72.51 C +ATOM 7105 O GLN C 168 4.472 19.082 -42.813 1.00 72.74 O +ATOM 7106 CB GLN C 168 5.820 20.582 -45.556 1.00 72.06 C +ATOM 7107 CG GLN C 168 6.304 20.199 -46.957 1.00 71.93 C +ATOM 7108 CD GLN C 168 5.590 20.961 -48.067 1.00 71.90 C +ATOM 7109 OE1 GLN C 168 6.223 21.460 -48.995 1.00 71.88 O +ATOM 7110 NE2 GLN C 168 4.269 21.053 -47.974 1.00 71.62 N +ATOM 7111 N SER C 169 5.730 20.938 -42.485 1.00 72.74 N +ATOM 7112 CA SER C 169 5.117 21.300 -41.194 1.00 72.77 C +ATOM 7113 C SER C 169 3.625 21.645 -41.309 1.00 72.82 C +ATOM 7114 O SER C 169 2.910 21.730 -40.306 1.00 72.64 O +ATOM 7115 CB SER C 169 5.887 22.455 -40.544 1.00 72.72 C +ATOM 7116 N SER C 170 3.163 21.822 -42.541 1.00 73.08 N +ATOM 7117 CA SER C 170 1.769 22.149 -42.815 1.00 73.65 C +ATOM 7118 C SER C 170 0.859 20.921 -42.920 1.00 73.91 C +ATOM 7119 O SER C 170 -0.321 21.046 -43.252 1.00 74.05 O +ATOM 7120 CB SER C 170 1.676 22.968 -44.105 1.00 73.70 C +ATOM 7121 OG SER C 170 2.192 22.239 -45.206 1.00 73.90 O +ATOM 7122 N GLY C 171 1.403 19.738 -42.644 1.00 74.25 N +ATOM 7123 CA GLY C 171 0.676 18.490 -42.871 1.00 74.52 C +ATOM 7124 C GLY C 171 0.647 18.095 -44.343 1.00 74.78 C +ATOM 7125 O GLY C 171 0.273 16.964 -44.677 1.00 74.80 O +ATOM 7126 N LEU C 172 1.049 19.027 -45.214 1.00 74.89 N +ATOM 7127 CA LEU C 172 1.100 18.806 -46.665 1.00 74.91 C +ATOM 7128 C LEU C 172 2.448 18.221 -47.135 1.00 74.94 C +ATOM 7129 O LEU C 172 3.481 18.381 -46.473 1.00 74.63 O +ATOM 7130 CB LEU C 172 0.746 20.093 -47.428 1.00 74.69 C +ATOM 7131 N TYR C 173 2.407 17.550 -48.286 1.00 75.18 N +ATOM 7132 CA TYR C 173 3.535 16.797 -48.829 1.00 75.55 C +ATOM 7133 C TYR C 173 4.235 17.514 -49.980 1.00 75.95 C +ATOM 7134 O TYR C 173 3.615 18.325 -50.670 1.00 76.06 O +ATOM 7135 CB TYR C 173 3.045 15.451 -49.352 1.00 75.42 C +ATOM 7136 CG TYR C 173 2.793 14.391 -48.311 1.00 75.38 C +ATOM 7137 CD1 TYR C 173 1.529 13.823 -48.168 1.00 75.13 C +ATOM 7138 CD2 TYR C 173 3.825 13.927 -47.491 1.00 75.52 C +ATOM 7139 CE1 TYR C 173 1.289 12.832 -47.225 1.00 75.01 C +ATOM 7140 CE2 TYR C 173 3.595 12.938 -46.543 1.00 75.40 C +ATOM 7141 CZ TYR C 173 2.325 12.395 -46.419 1.00 75.18 C +ATOM 7142 OH TYR C 173 2.091 11.416 -45.489 1.00 75.14 O +ATOM 7143 N SER C 174 5.518 17.191 -50.189 1.00 76.36 N +ATOM 7144 CA SER C 174 6.319 17.728 -51.304 1.00 76.69 C +ATOM 7145 C SER C 174 7.427 16.760 -51.693 1.00 76.94 C +ATOM 7146 O SER C 174 8.196 16.313 -50.839 1.00 76.96 O +ATOM 7147 CB SER C 174 6.924 19.094 -50.962 1.00 76.63 C +ATOM 7148 N LEU C 175 7.509 16.471 -52.993 1.00 77.32 N +ATOM 7149 CA LEU C 175 8.360 15.408 -53.539 1.00 77.57 C +ATOM 7150 C LEU C 175 9.031 15.808 -54.855 1.00 77.68 C +ATOM 7151 O LEU C 175 8.350 16.114 -55.834 1.00 77.74 O +ATOM 7152 CB LEU C 175 7.524 14.139 -53.766 1.00 77.47 C +ATOM 7153 N SER C 176 10.362 15.784 -54.880 1.00 77.88 N +ATOM 7154 CA SER C 176 11.134 16.078 -56.101 1.00 77.96 C +ATOM 7155 C SER C 176 11.168 14.905 -57.096 1.00 77.99 C +ATOM 7156 O SER C 176 10.843 13.778 -56.736 1.00 78.06 O +ATOM 7157 CB SER C 176 12.556 16.545 -55.744 1.00 77.94 C +ATOM 7158 OG SER C 176 12.943 16.135 -54.438 1.00 77.84 O +ATOM 7159 N SER C 177 11.558 15.175 -58.342 1.00 78.17 N +ATOM 7160 CA SER C 177 11.581 14.155 -59.411 1.00 78.42 C +ATOM 7161 C SER C 177 12.588 14.461 -60.555 1.00 78.71 C +ATOM 7162 O SER C 177 12.210 15.002 -61.603 1.00 78.89 O +ATOM 7163 CB SER C 177 10.160 13.942 -59.964 1.00 78.32 C +ATOM 7164 OG SER C 177 10.157 13.185 -61.164 1.00 78.06 O +ATOM 7165 N VAL C 178 13.855 14.085 -60.355 1.00 78.82 N +ATOM 7166 CA VAL C 178 14.952 14.448 -61.266 1.00 78.87 C +ATOM 7167 C VAL C 178 15.280 13.394 -62.341 1.00 79.02 C +ATOM 7168 O VAL C 178 15.324 12.198 -62.049 1.00 79.13 O +ATOM 7169 CB VAL C 178 16.240 14.765 -60.470 1.00 78.75 C +ATOM 7170 N VAL C 179 15.498 13.849 -63.581 1.00 79.20 N +ATOM 7171 CA VAL C 179 16.019 12.998 -64.674 1.00 79.22 C +ATOM 7172 C VAL C 179 17.450 13.431 -65.008 1.00 79.24 C +ATOM 7173 O VAL C 179 17.928 14.438 -64.471 1.00 79.17 O +ATOM 7174 CB VAL C 179 15.127 13.044 -65.940 1.00 79.15 C +ATOM 7175 N THR C 180 18.140 12.692 -65.881 1.00 79.36 N +ATOM 7176 CA THR C 180 19.580 12.934 -66.041 1.00 79.56 C +ATOM 7177 C THR C 180 20.135 13.516 -67.352 1.00 79.75 C +ATOM 7178 O THR C 180 20.000 12.915 -68.438 1.00 79.80 O +ATOM 7179 CB THR C 180 20.445 11.762 -65.487 1.00 79.57 C +ATOM 7180 OG1 THR C 180 21.108 12.213 -64.290 1.00 79.42 O +ATOM 7181 CG2 THR C 180 21.516 11.299 -66.492 1.00 79.48 C +ATOM 7182 N VAL C 181 20.613 14.777 -67.205 1.00 79.90 N +ATOM 7183 CA VAL C 181 21.894 15.277 -67.787 1.00 80.04 C +ATOM 7184 C VAL C 181 22.058 16.726 -67.300 1.00 80.04 C +ATOM 7185 O VAL C 181 21.281 17.167 -66.402 1.00 80.00 O +ATOM 7186 CB VAL C 181 22.051 15.169 -69.356 1.00 80.16 C +ATOM 7187 CG1 VAL C 181 22.822 16.375 -69.927 1.00 80.07 C +ATOM 7188 CG2 VAL C 181 22.803 13.889 -69.739 1.00 80.15 C +ATOM 7189 N TYR C 182 11.057 16.510 -73.167 1.00 82.07 N +ATOM 7190 CA TYR C 182 11.041 16.255 -71.730 1.00 82.14 C +ATOM 7191 C TYR C 182 9.801 16.868 -71.051 1.00 82.17 C +ATOM 7192 O TYR C 182 9.787 18.052 -70.682 1.00 82.23 O +ATOM 7193 CB TYR C 182 12.344 16.744 -71.079 1.00 82.04 C +ATOM 7194 N ILE C 183 8.761 16.046 -70.907 1.00 82.09 N +ATOM 7195 CA ILE C 183 7.506 16.434 -70.251 1.00 81.90 C +ATOM 7196 C ILE C 183 7.091 15.356 -69.232 1.00 81.67 C +ATOM 7197 O ILE C 183 7.259 14.163 -69.491 1.00 81.67 O +ATOM 7198 CB ILE C 183 6.377 16.644 -71.291 1.00 81.86 C +ATOM 7199 N CYS C 184 6.555 15.765 -68.081 1.00 81.32 N +ATOM 7200 CA CYS C 184 6.294 14.810 -66.996 1.00 80.94 C +ATOM 7201 C CYS C 184 4.829 14.665 -66.611 1.00 80.83 C +ATOM 7202 O CYS C 184 4.240 15.585 -66.041 1.00 80.69 O +ATOM 7203 CB CYS C 184 7.116 15.155 -65.749 1.00 80.87 C +ATOM 7204 SG CYS C 184 6.659 16.704 -64.974 1.00 80.28 S +ATOM 7205 N ASN C 185 4.261 13.495 -66.900 1.00 80.77 N +ATOM 7206 CA ASN C 185 2.890 13.161 -66.489 1.00 80.69 C +ATOM 7207 C ASN C 185 2.736 12.944 -64.964 1.00 80.49 C +ATOM 7208 O ASN C 185 2.757 11.804 -64.483 1.00 80.30 O +ATOM 7209 CB ASN C 185 2.372 11.956 -67.289 1.00 80.68 C +ATOM 7210 N VAL C 186 2.583 14.052 -64.227 1.00 80.30 N +ATOM 7211 CA VAL C 186 2.479 14.055 -62.754 1.00 80.19 C +ATOM 7212 C VAL C 186 1.025 14.021 -62.247 1.00 80.10 C +ATOM 7213 O VAL C 186 0.351 15.052 -62.221 1.00 80.19 O +ATOM 7214 CB VAL C 186 3.200 15.281 -62.142 1.00 79.95 C +ATOM 7215 N ASN C 187 0.565 12.840 -61.823 1.00 79.96 N +ATOM 7216 CA ASN C 187 -0.849 12.608 -61.486 1.00 79.76 C +ATOM 7217 C ASN C 187 -1.151 12.305 -60.006 1.00 79.78 C +ATOM 7218 O ASN C 187 -0.419 11.574 -59.340 1.00 79.78 O +ATOM 7219 CB ASN C 187 -1.425 11.512 -62.389 1.00 79.62 C +ATOM 7220 CG ASN C 187 -2.916 11.324 -62.208 1.00 79.58 C +ATOM 7221 OD1 ASN C 187 -3.389 10.197 -62.094 1.00 80.20 O +ATOM 7222 ND2 ASN C 187 -3.667 12.423 -62.182 1.00 79.33 N +ATOM 7223 N HIS C 188 -2.251 12.877 -59.520 1.00 79.82 N +ATOM 7224 CA HIS C 188 -2.677 12.763 -58.128 1.00 79.80 C +ATOM 7225 C HIS C 188 -4.128 12.274 -58.074 1.00 79.90 C +ATOM 7226 O HIS C 188 -5.063 13.071 -57.947 1.00 79.85 O +ATOM 7227 CB HIS C 188 -2.529 14.123 -57.441 1.00 79.71 C +ATOM 7228 CG HIS C 188 -2.862 14.112 -55.982 1.00 79.62 C +ATOM 7229 ND1 HIS C 188 -4.067 14.566 -55.492 1.00 79.42 N +ATOM 7230 CD2 HIS C 188 -2.143 13.716 -54.905 1.00 79.38 C +ATOM 7231 CE1 HIS C 188 -4.077 14.449 -54.176 1.00 79.26 C +ATOM 7232 NE2 HIS C 188 -2.922 13.934 -53.795 1.00 79.19 N +ATOM 7233 N LYS C 189 -4.301 10.958 -58.167 1.00 80.01 N +ATOM 7234 CA LYS C 189 -5.625 10.334 -58.286 1.00 80.13 C +ATOM 7235 C LYS C 189 -6.669 10.737 -57.215 1.00 80.26 C +ATOM 7236 O LYS C 189 -7.841 10.922 -57.557 1.00 80.18 O +ATOM 7237 CB LYS C 189 -5.495 8.807 -58.385 1.00 80.09 C +ATOM 7238 N PRO C 190 -6.259 10.862 -55.927 1.00 80.46 N +ATOM 7239 CA PRO C 190 -7.222 11.262 -54.881 1.00 80.62 C +ATOM 7240 C PRO C 190 -7.800 12.693 -54.948 1.00 80.84 C +ATOM 7241 O PRO C 190 -8.743 12.994 -54.209 1.00 80.86 O +ATOM 7242 CB PRO C 190 -6.430 11.068 -53.578 1.00 80.58 C +ATOM 7243 CG PRO C 190 -5.014 11.161 -53.968 1.00 80.32 C +ATOM 7244 CD PRO C 190 -4.924 10.593 -55.351 1.00 80.50 C +ATOM 7245 N SER C 191 -7.251 13.564 -55.797 1.00 81.02 N +ATOM 7246 CA SER C 191 -7.814 14.910 -55.976 1.00 81.09 C +ATOM 7247 C SER C 191 -8.149 15.207 -57.436 1.00 81.36 C +ATOM 7248 O SER C 191 -8.216 16.373 -57.836 1.00 81.32 O +ATOM 7249 CB SER C 191 -6.880 15.987 -55.413 1.00 80.99 C +ATOM 7250 OG SER C 191 -5.787 16.226 -56.281 1.00 80.44 O +ATOM 7251 N ASN C 192 -8.382 14.142 -58.208 1.00 81.75 N +ATOM 7252 CA ASN C 192 -8.583 14.211 -59.664 1.00 82.05 C +ATOM 7253 C ASN C 192 -7.805 15.337 -60.349 1.00 82.33 C +ATOM 7254 O ASN C 192 -8.389 16.267 -60.916 1.00 82.59 O +ATOM 7255 CB ASN C 192 -10.076 14.235 -60.017 1.00 81.86 C +ATOM 7256 CG ASN C 192 -10.627 12.851 -60.313 1.00 81.97 C +ATOM 7257 OD1 ASN C 192 -11.716 12.712 -60.866 1.00 82.12 O +ATOM 7258 ND2 ASN C 192 -9.870 11.817 -59.955 1.00 81.96 N +ATOM 7259 N THR C 193 -6.480 15.243 -60.280 1.00 82.51 N +ATOM 7260 CA THR C 193 -5.605 16.319 -60.722 1.00 82.69 C +ATOM 7261 C THR C 193 -4.468 15.784 -61.582 1.00 82.69 C +ATOM 7262 O THR C 193 -3.386 15.483 -61.072 1.00 82.69 O +ATOM 7263 CB THR C 193 -5.013 17.108 -59.515 1.00 82.80 C +ATOM 7264 OG1 THR C 193 -6.043 17.389 -58.559 1.00 83.02 O +ATOM 7265 CG2 THR C 193 -4.383 18.421 -59.973 1.00 82.93 C +ATOM 7266 N LYS C 194 -4.729 15.653 -62.882 1.00 82.73 N +ATOM 7267 CA LYS C 194 -3.674 15.421 -63.867 1.00 82.71 C +ATOM 7268 C LYS C 194 -3.160 16.787 -64.334 1.00 82.77 C +ATOM 7269 O LYS C 194 -3.962 17.679 -64.637 1.00 82.86 O +ATOM 7270 CB LYS C 194 -4.199 14.590 -65.043 1.00 82.51 C +ATOM 7271 N VAL C 195 -1.837 16.964 -64.364 1.00 82.74 N +ATOM 7272 CA VAL C 195 -1.236 18.261 -64.732 1.00 82.79 C +ATOM 7273 C VAL C 195 0.263 18.191 -65.059 1.00 82.83 C +ATOM 7274 O VAL C 195 1.100 18.381 -64.166 1.00 82.81 O +ATOM 7275 CB VAL C 195 -1.456 19.329 -63.627 1.00 82.64 C +ATOM 7276 N ASP C 196 0.590 17.942 -66.336 1.00 82.87 N +ATOM 7277 CA ASP C 196 1.999 17.846 -66.799 1.00 82.73 C +ATOM 7278 C ASP C 196 2.586 19.084 -67.499 1.00 82.66 C +ATOM 7279 O ASP C 196 2.013 19.599 -68.458 1.00 82.66 O +ATOM 7280 CB ASP C 196 2.267 16.576 -67.644 1.00 82.64 C +ATOM 7281 CG ASP C 196 1.146 16.229 -68.609 1.00 82.03 C +ATOM 7282 OD1 ASP C 196 0.965 15.018 -68.862 1.00 81.31 O +ATOM 7283 OD2 ASP C 196 0.462 17.138 -69.123 1.00 81.63 O +ATOM 7284 N LYS C 197 3.742 19.533 -67.010 1.00 82.65 N +ATOM 7285 CA LYS C 197 4.466 20.668 -67.592 1.00 82.75 C +ATOM 7286 C LYS C 197 5.608 20.193 -68.516 1.00 82.75 C +ATOM 7287 O LYS C 197 5.834 18.983 -68.669 1.00 82.72 O +ATOM 7288 CB LYS C 197 4.997 21.599 -66.487 1.00 82.61 C +ATOM 7289 N LYS C 198 6.309 21.147 -69.136 1.00 82.57 N +ATOM 7290 CA LYS C 198 7.427 20.843 -70.029 1.00 82.25 C +ATOM 7291 C LYS C 198 8.697 21.556 -69.581 1.00 82.09 C +ATOM 7292 O LYS C 198 9.684 20.914 -69.224 1.00 81.92 O +ATOM 7293 CB LYS C 198 7.080 21.230 -71.467 1.00 82.15 C +ATOM 7294 N ASP B 1 -1.857 -18.561 -33.882 1.00 46.87 N +ATOM 7295 CA ASP B 1 -1.062 -19.425 -32.946 1.00 46.88 C +ATOM 7296 C ASP B 1 0.452 -19.387 -33.198 1.00 46.72 C +ATOM 7297 O ASP B 1 1.236 -19.292 -32.247 1.00 46.93 O +ATOM 7298 CB ASP B 1 -1.558 -20.884 -32.973 1.00 46.83 C +ATOM 7299 N ILE B 2 0.864 -19.469 -34.465 1.00 46.30 N +ATOM 7300 CA ILE B 2 2.297 -19.602 -34.782 1.00 45.87 C +ATOM 7301 C ILE B 2 3.052 -18.253 -34.897 1.00 45.45 C +ATOM 7302 O ILE B 2 2.625 -17.332 -35.588 1.00 45.07 O +ATOM 7303 CB ILE B 2 2.574 -20.557 -35.999 1.00 45.85 C +ATOM 7304 CG1 ILE B 2 1.747 -21.845 -35.906 1.00 45.96 C +ATOM 7305 CG2 ILE B 2 4.047 -20.951 -36.062 1.00 45.59 C +ATOM 7306 CD1 ILE B 2 0.389 -21.784 -36.578 1.00 47.10 C +ATOM 7307 N GLN B 3 4.165 -18.164 -34.173 1.00 45.25 N +ATOM 7308 CA GLN B 3 5.034 -16.995 -34.169 1.00 45.17 C +ATOM 7309 C GLN B 3 6.234 -17.287 -35.030 1.00 44.64 C +ATOM 7310 O GLN B 3 6.833 -18.363 -34.936 1.00 44.73 O +ATOM 7311 CB GLN B 3 5.524 -16.660 -32.751 1.00 45.57 C +ATOM 7312 CG GLN B 3 4.527 -15.898 -31.899 1.00 46.82 C +ATOM 7313 CD GLN B 3 3.350 -16.766 -31.523 1.00 49.04 C +ATOM 7314 OE1 GLN B 3 3.507 -17.737 -30.770 1.00 49.48 O +ATOM 7315 NE2 GLN B 3 2.163 -16.448 -32.071 1.00 49.16 N +ATOM 7316 N MET B 4 6.595 -16.305 -35.844 1.00 43.86 N +ATOM 7317 CA MET B 4 7.678 -16.448 -36.784 1.00 43.16 C +ATOM 7318 C MET B 4 8.830 -15.555 -36.392 1.00 43.03 C +ATOM 7319 O MET B 4 8.658 -14.354 -36.186 1.00 42.87 O +ATOM 7320 CB MET B 4 7.199 -16.043 -38.169 1.00 43.25 C +ATOM 7321 CG MET B 4 6.047 -16.842 -38.684 1.00 42.25 C +ATOM 7322 SD MET B 4 6.707 -18.310 -39.431 1.00 41.22 S +ATOM 7323 CE MET B 4 6.809 -19.442 -38.058 1.00 40.01 C +ATOM 7324 N THR B 5 10.014 -16.135 -36.296 1.00 42.80 N +ATOM 7325 CA THR B 5 11.198 -15.322 -36.065 1.00 42.52 C +ATOM 7326 C THR B 5 12.109 -15.411 -37.288 1.00 42.32 C +ATOM 7327 O THR B 5 12.693 -16.468 -37.568 1.00 42.53 O +ATOM 7328 CB THR B 5 11.924 -15.708 -34.748 1.00 42.44 C +ATOM 7329 OG1 THR B 5 11.003 -15.611 -33.656 1.00 41.41 O +ATOM 7330 CG2 THR B 5 13.098 -14.773 -34.486 1.00 42.67 C +ATOM 7331 N GLN B 6 12.198 -14.302 -38.023 1.00 41.70 N +ATOM 7332 CA GLN B 6 13.009 -14.235 -39.233 1.00 41.13 C +ATOM 7333 C GLN B 6 14.188 -13.319 -38.962 1.00 40.75 C +ATOM 7334 O GLN B 6 14.016 -12.229 -38.417 1.00 40.54 O +ATOM 7335 CB GLN B 6 12.172 -13.713 -40.399 1.00 41.19 C +ATOM 7336 CG GLN B 6 12.739 -13.973 -41.780 1.00 40.85 C +ATOM 7337 CD GLN B 6 12.203 -12.985 -42.817 1.00 41.05 C +ATOM 7338 OE1 GLN B 6 11.000 -12.912 -43.069 1.00 40.96 O +ATOM 7339 NE2 GLN B 6 13.102 -12.223 -43.420 1.00 40.70 N +ATOM 7340 N SER B 7 15.380 -13.786 -39.332 1.00 40.46 N +ATOM 7341 CA SER B 7 16.638 -13.067 -39.092 1.00 40.16 C +ATOM 7342 C SER B 7 17.570 -13.167 -40.300 1.00 39.77 C +ATOM 7343 O SER B 7 17.584 -14.186 -40.988 1.00 39.89 O +ATOM 7344 CB SER B 7 17.352 -13.626 -37.857 1.00 40.34 C +ATOM 7345 OG SER B 7 18.029 -14.844 -38.158 1.00 40.51 O +ATOM 7346 N PRO B 8 18.364 -12.123 -40.553 1.00 39.33 N +ATOM 7347 CA PRO B 8 18.424 -10.914 -39.765 1.00 39.32 C +ATOM 7348 C PRO B 8 17.389 -9.895 -40.207 1.00 39.33 C +ATOM 7349 O PRO B 8 16.708 -10.101 -41.204 1.00 39.04 O +ATOM 7350 CB PRO B 8 19.838 -10.390 -40.030 1.00 39.46 C +ATOM 7351 CG PRO B 8 20.341 -11.119 -41.256 1.00 39.37 C +ATOM 7352 CD PRO B 8 19.281 -12.079 -41.702 1.00 39.36 C +ATOM 7353 N SER B 9 17.276 -8.815 -39.442 1.00 39.65 N +ATOM 7354 CA SER B 9 16.381 -7.718 -39.762 1.00 39.99 C +ATOM 7355 C SER B 9 16.857 -7.021 -41.028 1.00 40.31 C +ATOM 7356 O SER B 9 16.055 -6.764 -41.925 1.00 40.84 O +ATOM 7357 CB SER B 9 16.277 -6.739 -38.594 1.00 39.72 C +ATOM 7358 OG SER B 9 17.494 -6.680 -37.877 1.00 40.52 O +ATOM 7359 N SER B 10 18.156 -6.727 -41.106 1.00 40.55 N +ATOM 7360 CA SER B 10 18.761 -6.184 -42.331 1.00 40.56 C +ATOM 7361 C SER B 10 20.045 -6.930 -42.637 1.00 40.51 C +ATOM 7362 O SER B 10 20.548 -7.688 -41.803 1.00 40.28 O +ATOM 7363 CB SER B 10 19.034 -4.676 -42.222 1.00 40.73 C +ATOM 7364 OG SER B 10 20.264 -4.412 -41.560 1.00 40.78 O +ATOM 7365 N LEU B 11 20.579 -6.703 -43.830 1.00 40.55 N +ATOM 7366 CA LEU B 11 21.683 -7.500 -44.323 1.00 40.83 C +ATOM 7367 C LEU B 11 22.277 -6.906 -45.585 1.00 40.85 C +ATOM 7368 O LEU B 11 21.549 -6.474 -46.483 1.00 40.80 O +ATOM 7369 CB LEU B 11 21.183 -8.910 -44.590 1.00 40.87 C +ATOM 7370 CG LEU B 11 21.926 -9.913 -45.459 1.00 41.69 C +ATOM 7371 CD1 LEU B 11 23.375 -10.141 -44.993 1.00 42.95 C +ATOM 7372 CD2 LEU B 11 21.116 -11.210 -45.421 1.00 41.47 C +ATOM 7373 N SER B 12 23.610 -6.892 -45.642 1.00 41.01 N +ATOM 7374 CA SER B 12 24.344 -6.358 -46.792 1.00 40.97 C +ATOM 7375 C SER B 12 25.378 -7.342 -47.338 1.00 40.62 C +ATOM 7376 O SER B 12 26.132 -7.945 -46.585 1.00 40.70 O +ATOM 7377 CB SER B 12 25.017 -5.036 -46.437 1.00 41.08 C +ATOM 7378 OG SER B 12 25.817 -4.588 -47.513 1.00 41.80 O +ATOM 7379 N ALA B 13 25.403 -7.488 -48.657 1.00 40.37 N +ATOM 7380 CA ALA B 13 26.292 -8.434 -49.316 1.00 40.26 C +ATOM 7381 C ALA B 13 26.823 -7.894 -50.642 1.00 40.19 C +ATOM 7382 O ALA B 13 26.183 -7.062 -51.295 1.00 40.18 O +ATOM 7383 CB ALA B 13 25.585 -9.757 -49.528 1.00 40.30 C +ATOM 7384 N SER B 14 28.002 -8.370 -51.029 1.00 39.95 N +ATOM 7385 CA SER B 14 28.619 -7.955 -52.277 1.00 39.72 C +ATOM 7386 C SER B 14 27.992 -8.807 -53.362 1.00 39.43 C +ATOM 7387 O SER B 14 27.412 -9.846 -53.071 1.00 39.10 O +ATOM 7388 CB SER B 14 30.137 -8.194 -52.265 1.00 39.88 C +ATOM 7389 OG SER B 14 30.664 -8.375 -50.959 1.00 39.96 O +ATOM 7390 N VAL B 15 28.122 -8.368 -54.609 1.00 39.16 N +ATOM 7391 CA VAL B 15 27.618 -9.124 -55.743 1.00 39.07 C +ATOM 7392 C VAL B 15 28.216 -10.530 -55.736 1.00 39.16 C +ATOM 7393 O VAL B 15 29.297 -10.740 -55.176 1.00 39.18 O +ATOM 7394 CB VAL B 15 27.928 -8.413 -57.052 1.00 39.10 C +ATOM 7395 CG1 VAL B 15 26.794 -8.624 -58.046 1.00 38.61 C +ATOM 7396 CG2 VAL B 15 28.142 -6.915 -56.793 1.00 39.46 C +ATOM 7397 N GLY B 16 27.494 -11.486 -56.324 1.00 39.28 N +ATOM 7398 CA GLY B 16 27.859 -12.910 -56.278 1.00 39.43 C +ATOM 7399 C GLY B 16 28.209 -13.442 -54.891 1.00 39.54 C +ATOM 7400 O GLY B 16 29.142 -14.227 -54.742 1.00 39.67 O +ATOM 7401 N ASP B 17 27.481 -12.994 -53.873 1.00 39.48 N +ATOM 7402 CA ASP B 17 27.678 -13.474 -52.506 1.00 39.49 C +ATOM 7403 C ASP B 17 26.608 -14.476 -52.192 1.00 38.96 C +ATOM 7404 O ASP B 17 25.607 -14.542 -52.894 1.00 39.08 O +ATOM 7405 CB ASP B 17 27.552 -12.338 -51.489 1.00 40.00 C +ATOM 7406 CG ASP B 17 28.885 -11.694 -51.145 1.00 41.13 C +ATOM 7407 OD1 ASP B 17 29.900 -12.008 -51.815 1.00 43.56 O +ATOM 7408 OD2 ASP B 17 28.908 -10.866 -50.203 1.00 40.67 O +ATOM 7409 N ARG B 18 26.820 -15.243 -51.128 1.00 38.45 N +ATOM 7410 CA ARG B 18 25.793 -16.123 -50.594 1.00 37.70 C +ATOM 7411 C ARG B 18 25.059 -15.342 -49.527 1.00 36.96 C +ATOM 7412 O ARG B 18 25.640 -14.529 -48.831 1.00 37.07 O +ATOM 7413 CB ARG B 18 26.409 -17.379 -49.996 1.00 37.90 C +ATOM 7414 CG ARG B 18 25.508 -18.583 -50.031 1.00 39.24 C +ATOM 7415 CD ARG B 18 26.295 -19.857 -49.725 1.00 42.34 C +ATOM 7416 NE ARG B 18 25.578 -21.075 -50.142 1.00 44.60 N +ATOM 7417 CZ ARG B 18 24.909 -21.894 -49.324 1.00 44.56 C +ATOM 7418 NH1 ARG B 18 24.840 -21.660 -48.014 1.00 44.80 N +ATOM 7419 NH2 ARG B 18 24.311 -22.964 -49.824 1.00 44.61 N +ATOM 7420 N VAL B 19 23.764 -15.565 -49.424 1.00 36.26 N +ATOM 7421 CA VAL B 19 22.953 -14.862 -48.460 1.00 35.49 C +ATOM 7422 C VAL B 19 22.106 -15.930 -47.818 1.00 35.18 C +ATOM 7423 O VAL B 19 21.583 -16.797 -48.513 1.00 35.22 O +ATOM 7424 CB VAL B 19 22.045 -13.835 -49.143 1.00 35.24 C +ATOM 7425 CG1 VAL B 19 21.183 -13.153 -48.140 1.00 35.48 C +ATOM 7426 CG2 VAL B 19 22.863 -12.795 -49.862 1.00 36.00 C +ATOM 7427 N THR B 20 21.983 -15.880 -46.498 1.00 34.78 N +ATOM 7428 CA THR B 20 21.139 -16.818 -45.795 1.00 34.59 C +ATOM 7429 C THR B 20 20.172 -16.168 -44.813 1.00 34.65 C +ATOM 7430 O THR B 20 20.564 -15.575 -43.812 1.00 34.44 O +ATOM 7431 CB THR B 20 21.968 -17.928 -45.152 1.00 34.56 C +ATOM 7432 OG1 THR B 20 22.295 -18.886 -46.161 1.00 35.11 O +ATOM 7433 CG2 THR B 20 21.190 -18.636 -44.046 1.00 34.82 C +ATOM 7434 N ILE B 21 18.894 -16.272 -45.136 1.00 34.88 N +ATOM 7435 CA ILE B 21 17.855 -15.853 -44.233 1.00 35.10 C +ATOM 7436 C ILE B 21 17.287 -17.106 -43.597 1.00 35.54 C +ATOM 7437 O ILE B 21 16.955 -18.064 -44.293 1.00 35.70 O +ATOM 7438 CB ILE B 21 16.755 -15.100 -44.970 1.00 34.94 C +ATOM 7439 CG1 ILE B 21 17.372 -13.997 -45.832 1.00 34.73 C +ATOM 7440 CG2 ILE B 21 15.756 -14.536 -43.978 1.00 34.84 C +ATOM 7441 CD1 ILE B 21 16.369 -13.230 -46.653 1.00 35.18 C +ATOM 7442 N THR B 22 17.217 -17.107 -42.270 1.00 36.01 N +ATOM 7443 CA THR B 22 16.578 -18.190 -41.527 1.00 36.06 C +ATOM 7444 C THR B 22 15.240 -17.729 -41.035 1.00 36.18 C +ATOM 7445 O THR B 22 14.944 -16.532 -41.026 1.00 35.97 O +ATOM 7446 CB THR B 22 17.395 -18.642 -40.302 1.00 36.09 C +ATOM 7447 OG1 THR B 22 18.244 -17.570 -39.857 1.00 35.86 O +ATOM 7448 CG2 THR B 22 18.225 -19.890 -40.631 1.00 35.92 C +ATOM 7449 N CYS B 23 14.438 -18.689 -40.605 1.00 36.72 N +ATOM 7450 CA CYS B 23 13.091 -18.386 -40.183 1.00 37.54 C +ATOM 7451 C CYS B 23 12.517 -19.440 -39.260 1.00 37.97 C +ATOM 7452 O CYS B 23 12.160 -20.537 -39.718 1.00 38.24 O +ATOM 7453 CB CYS B 23 12.197 -18.266 -41.397 1.00 37.65 C +ATOM 7454 SG CYS B 23 10.919 -17.140 -41.085 1.00 37.75 S +ATOM 7455 N SER B 24 12.406 -19.088 -37.975 1.00 38.18 N +ATOM 7456 CA SER B 24 12.021 -20.034 -36.919 1.00 38.16 C +ATOM 7457 C SER B 24 10.536 -19.991 -36.580 1.00 37.90 C +ATOM 7458 O SER B 24 9.927 -18.915 -36.550 1.00 37.73 O +ATOM 7459 CB SER B 24 12.856 -19.798 -35.655 1.00 38.22 C +ATOM 7460 OG SER B 24 12.328 -20.519 -34.553 1.00 38.49 O +ATOM 7461 N ALA B 25 9.982 -21.173 -36.307 1.00 37.70 N +ATOM 7462 CA ALA B 25 8.566 -21.337 -35.967 1.00 37.98 C +ATOM 7463 C ALA B 25 8.312 -21.756 -34.506 1.00 38.08 C +ATOM 7464 O ALA B 25 9.020 -22.615 -33.966 1.00 38.40 O +ATOM 7465 CB ALA B 25 7.926 -22.335 -36.915 1.00 38.01 C +ATOM 7466 N SER B 26 7.296 -21.169 -33.871 1.00 37.81 N +ATOM 7467 CA SER B 26 6.966 -21.522 -32.487 1.00 37.57 C +ATOM 7468 C SER B 26 6.415 -22.935 -32.410 1.00 37.50 C +ATOM 7469 O SER B 26 7.087 -23.829 -31.911 1.00 37.67 O +ATOM 7470 CB SER B 26 6.005 -20.511 -31.874 1.00 37.69 C +ATOM 7471 OG SER B 26 5.040 -20.084 -32.813 1.00 37.86 O +ATOM 7472 N SER B 27 5.196 -23.134 -32.907 1.00 37.55 N +ATOM 7473 CA SER B 27 4.684 -24.471 -33.247 1.00 37.30 C +ATOM 7474 C SER B 27 5.239 -24.826 -34.633 1.00 37.09 C +ATOM 7475 O SER B 27 5.580 -23.918 -35.405 1.00 37.17 O +ATOM 7476 CB SER B 27 3.142 -24.462 -33.257 1.00 37.33 C +ATOM 7477 OG SER B 27 2.587 -25.439 -34.138 1.00 37.12 O +ATOM 7478 N SER B 28 5.334 -26.119 -34.955 1.00 36.50 N +ATOM 7479 CA SER B 28 5.765 -26.521 -36.302 1.00 36.06 C +ATOM 7480 C SER B 28 4.678 -26.267 -37.364 1.00 35.56 C +ATOM 7481 O SER B 28 3.478 -26.382 -37.096 1.00 35.07 O +ATOM 7482 CB SER B 28 6.278 -27.959 -36.336 1.00 36.18 C +ATOM 7483 OG SER B 28 5.224 -28.879 -36.506 1.00 36.82 O +ATOM 7484 N VAL B 29 5.128 -25.926 -38.567 1.00 35.14 N +ATOM 7485 CA VAL B 29 4.281 -25.277 -39.554 1.00 34.84 C +ATOM 7486 C VAL B 29 3.904 -26.222 -40.679 1.00 34.57 C +ATOM 7487 O VAL B 29 4.731 -27.032 -41.111 1.00 34.75 O +ATOM 7488 CB VAL B 29 4.995 -24.041 -40.154 1.00 34.89 C +ATOM 7489 N THR B 37 2.666 -26.109 -41.161 1.00 33.95 N +ATOM 7490 CA THR B 37 2.189 -26.980 -42.237 1.00 33.80 C +ATOM 7491 C THR B 37 2.783 -26.698 -43.638 1.00 33.42 C +ATOM 7492 O THR B 37 3.153 -27.636 -44.339 1.00 33.54 O +ATOM 7493 CB THR B 37 0.641 -27.051 -42.302 1.00 33.93 C +ATOM 7494 OG1 THR B 37 0.243 -28.069 -43.219 1.00 33.78 O +ATOM 7495 CG2 THR B 37 0.079 -25.783 -42.820 1.00 34.61 C +ATOM 7496 N TYR B 38 2.852 -25.427 -44.042 1.00 32.85 N +ATOM 7497 CA TYR B 38 3.461 -25.029 -45.320 1.00 32.25 C +ATOM 7498 C TYR B 38 4.227 -23.724 -45.172 1.00 31.80 C +ATOM 7499 O TYR B 38 3.784 -22.814 -44.468 1.00 31.70 O +ATOM 7500 CB TYR B 38 2.416 -24.810 -46.416 1.00 32.43 C +ATOM 7501 CG TYR B 38 1.708 -26.037 -46.925 1.00 32.64 C +ATOM 7502 CD1 TYR B 38 2.399 -27.202 -47.234 1.00 32.53 C +ATOM 7503 CD2 TYR B 38 0.333 -26.011 -47.141 1.00 33.82 C +ATOM 7504 CE1 TYR B 38 1.726 -28.327 -47.711 1.00 33.16 C +ATOM 7505 CE2 TYR B 38 -0.352 -27.123 -47.614 1.00 33.78 C +ATOM 7506 CZ TYR B 38 0.348 -28.278 -47.903 1.00 33.37 C +ATOM 7507 OH TYR B 38 -0.348 -29.371 -48.379 1.00 32.96 O +ATOM 7508 N MET B 39 5.348 -23.631 -45.886 1.00 31.13 N +ATOM 7509 CA MET B 39 6.240 -22.478 -45.846 1.00 30.12 C +ATOM 7510 C MET B 39 6.296 -21.847 -47.236 1.00 29.55 C +ATOM 7511 O MET B 39 6.356 -22.557 -48.230 1.00 29.10 O +ATOM 7512 CB MET B 39 7.631 -22.943 -45.378 1.00 30.25 C +ATOM 7513 CG MET B 39 8.658 -21.855 -45.112 1.00 30.33 C +ATOM 7514 SD MET B 39 7.986 -20.443 -44.219 1.00 31.21 S +ATOM 7515 CE MET B 39 8.023 -21.027 -42.526 1.00 29.87 C +ATOM 7516 N TYR B 40 6.259 -20.516 -47.296 1.00 29.19 N +ATOM 7517 CA TYR B 40 6.354 -19.767 -48.557 1.00 29.15 C +ATOM 7518 C TYR B 40 7.454 -18.725 -48.403 1.00 29.40 C +ATOM 7519 O TYR B 40 7.731 -18.304 -47.280 1.00 29.66 O +ATOM 7520 CB TYR B 40 4.988 -19.124 -48.921 1.00 28.99 C +ATOM 7521 CG TYR B 40 3.866 -20.151 -48.900 1.00 28.58 C +ATOM 7522 CD1 TYR B 40 3.623 -20.975 -49.985 1.00 27.83 C +ATOM 7523 CD2 TYR B 40 3.112 -20.350 -47.760 1.00 28.30 C +ATOM 7524 CE1 TYR B 40 2.655 -21.946 -49.930 1.00 27.61 C +ATOM 7525 CE2 TYR B 40 2.143 -21.316 -47.701 1.00 27.22 C +ATOM 7526 CZ TYR B 40 1.915 -22.105 -48.781 1.00 27.89 C +ATOM 7527 OH TYR B 40 0.926 -23.057 -48.694 1.00 29.36 O +ATOM 7528 N TRP B 41 8.120 -18.348 -49.496 1.00 29.66 N +ATOM 7529 CA TRP B 41 9.075 -17.223 -49.450 1.00 30.09 C +ATOM 7530 C TRP B 41 8.753 -16.186 -50.495 1.00 30.21 C +ATOM 7531 O TRP B 41 8.810 -16.460 -51.693 1.00 30.01 O +ATOM 7532 CB TRP B 41 10.532 -17.661 -49.614 1.00 30.41 C +ATOM 7533 CG TRP B 41 11.057 -18.394 -48.470 1.00 30.45 C +ATOM 7534 CD1 TRP B 41 11.044 -19.735 -48.308 1.00 31.40 C +ATOM 7535 CD2 TRP B 41 11.660 -17.848 -47.295 1.00 31.00 C +ATOM 7536 NE1 TRP B 41 11.606 -20.076 -47.104 1.00 32.52 N +ATOM 7537 CE2 TRP B 41 11.999 -18.933 -46.460 1.00 32.05 C +ATOM 7538 CE3 TRP B 41 11.950 -16.551 -46.862 1.00 31.72 C +ATOM 7539 CZ2 TRP B 41 12.632 -18.763 -45.211 1.00 31.18 C +ATOM 7540 CZ3 TRP B 41 12.577 -16.380 -45.612 1.00 31.48 C +ATOM 7541 CH2 TRP B 41 12.910 -17.483 -44.810 1.00 30.81 C +ATOM 7542 N TYR B 42 8.425 -14.992 -50.012 1.00 30.66 N +ATOM 7543 CA TYR B 42 8.023 -13.863 -50.842 1.00 31.04 C +ATOM 7544 C TYR B 42 9.136 -12.831 -50.934 1.00 31.38 C +ATOM 7545 O TYR B 42 9.927 -12.670 -50.002 1.00 31.73 O +ATOM 7546 CB TYR B 42 6.775 -13.208 -50.249 1.00 31.05 C +ATOM 7547 CG TYR B 42 5.490 -13.890 -50.629 1.00 30.81 C +ATOM 7548 CD1 TYR B 42 4.938 -13.694 -51.887 1.00 30.66 C +ATOM 7549 CD2 TYR B 42 4.823 -14.722 -49.734 1.00 30.46 C +ATOM 7550 CE1 TYR B 42 3.757 -14.317 -52.264 1.00 31.82 C +ATOM 7551 CE2 TYR B 42 3.620 -15.354 -50.097 1.00 31.50 C +ATOM 7552 CZ TYR B 42 3.088 -15.145 -51.374 1.00 31.86 C +ATOM 7553 OH TYR B 42 1.899 -15.750 -51.781 1.00 31.36 O +ATOM 7554 N GLN B 43 9.193 -12.115 -52.049 1.00 31.52 N +ATOM 7555 CA GLN B 43 10.233 -11.118 -52.225 1.00 31.79 C +ATOM 7556 C GLN B 43 9.604 -9.833 -52.720 1.00 31.75 C +ATOM 7557 O GLN B 43 8.970 -9.829 -53.771 1.00 31.80 O +ATOM 7558 CB GLN B 43 11.271 -11.638 -53.215 1.00 32.01 C +ATOM 7559 CG GLN B 43 12.434 -10.705 -53.476 1.00 32.48 C +ATOM 7560 CD GLN B 43 12.851 -10.711 -54.930 1.00 33.21 C +ATOM 7561 OE1 GLN B 43 12.006 -10.676 -55.835 1.00 34.34 O +ATOM 7562 NE2 GLN B 43 14.152 -10.740 -55.169 1.00 33.38 N +ATOM 7563 N GLN B 44 9.774 -8.749 -51.969 1.00 31.83 N +ATOM 7564 CA GLN B 44 9.101 -7.501 -52.305 1.00 32.25 C +ATOM 7565 C GLN B 44 10.073 -6.382 -52.551 1.00 32.78 C +ATOM 7566 O GLN B 44 10.763 -5.956 -51.631 1.00 32.83 O +ATOM 7567 CB GLN B 44 8.145 -7.092 -51.199 1.00 32.17 C +ATOM 7568 CG GLN B 44 7.403 -5.808 -51.493 1.00 32.23 C +ATOM 7569 CD GLN B 44 6.394 -5.447 -50.417 1.00 32.41 C +ATOM 7570 OE1 GLN B 44 6.718 -5.405 -49.231 1.00 32.78 O +ATOM 7571 NE2 GLN B 44 5.167 -5.161 -50.832 1.00 32.35 N +ATOM 7572 N LYS B 45 10.112 -5.910 -53.796 1.00 33.58 N +ATOM 7573 CA LYS B 45 11.020 -4.833 -54.227 1.00 34.33 C +ATOM 7574 C LYS B 45 10.413 -3.466 -53.915 1.00 34.58 C +ATOM 7575 O LYS B 45 9.196 -3.362 -53.786 1.00 35.00 O +ATOM 7576 CB LYS B 45 11.331 -4.950 -55.719 1.00 34.25 C +ATOM 7577 CG LYS B 45 11.523 -6.380 -56.179 1.00 35.70 C +ATOM 7578 CD LYS B 45 12.395 -6.499 -57.426 1.00 38.28 C +ATOM 7579 CE LYS B 45 13.869 -6.692 -57.063 1.00 39.72 C +ATOM 7580 NZ LYS B 45 14.428 -7.834 -57.860 1.00 40.88 N +ATOM 7581 N PRO B 46 11.253 -2.416 -53.778 1.00 34.74 N +ATOM 7582 CA PRO B 46 10.757 -1.095 -53.376 1.00 34.74 C +ATOM 7583 C PRO B 46 9.530 -0.649 -54.182 1.00 34.71 C +ATOM 7584 O PRO B 46 9.585 -0.571 -55.418 1.00 34.70 O +ATOM 7585 CB PRO B 46 11.947 -0.184 -53.654 1.00 34.89 C +ATOM 7586 CG PRO B 46 13.135 -1.081 -53.491 1.00 34.76 C +ATOM 7587 CD PRO B 46 12.715 -2.413 -53.984 1.00 34.75 C +ATOM 7588 N GLY B 47 8.425 -0.406 -53.477 1.00 34.49 N +ATOM 7589 CA GLY B 47 7.177 0.023 -54.104 1.00 34.12 C +ATOM 7590 C GLY B 47 6.616 -0.871 -55.202 1.00 33.72 C +ATOM 7591 O GLY B 47 5.724 -0.459 -55.947 1.00 33.94 O +ATOM 7592 N LYS B 48 7.166 -2.076 -55.333 1.00 33.14 N +ATOM 7593 CA LYS B 48 6.532 -3.131 -56.113 1.00 32.52 C +ATOM 7594 C LYS B 48 5.789 -4.040 -55.111 1.00 32.16 C +ATOM 7595 O LYS B 48 6.084 -4.032 -53.921 1.00 31.89 O +ATOM 7596 CB LYS B 48 7.557 -3.894 -56.973 1.00 31.88 C +ATOM 7597 N ALA B 49 4.789 -4.776 -55.582 1.00 32.00 N +ATOM 7598 CA ALA B 49 4.092 -5.750 -54.745 1.00 31.60 C +ATOM 7599 C ALA B 49 5.005 -6.942 -54.405 1.00 31.49 C +ATOM 7600 O ALA B 49 6.058 -7.133 -55.038 1.00 31.24 O +ATOM 7601 CB ALA B 49 2.808 -6.230 -55.449 1.00 31.49 C +ATOM 7602 N PRO B 50 4.629 -7.734 -53.378 1.00 31.43 N +ATOM 7603 CA PRO B 50 5.300 -9.018 -53.176 1.00 31.23 C +ATOM 7604 C PRO B 50 5.209 -9.955 -54.376 1.00 30.97 C +ATOM 7605 O PRO B 50 4.258 -9.892 -55.158 1.00 31.02 O +ATOM 7606 CB PRO B 50 4.555 -9.610 -51.972 1.00 31.23 C +ATOM 7607 CG PRO B 50 4.079 -8.414 -51.220 1.00 30.83 C +ATOM 7608 CD PRO B 50 3.643 -7.477 -52.310 1.00 31.40 C +ATOM 7609 N LYS B 51 6.213 -10.811 -54.503 1.00 30.77 N +ATOM 7610 CA LYS B 51 6.249 -11.846 -55.521 1.00 30.80 C +ATOM 7611 C LYS B 51 6.741 -13.134 -54.867 1.00 30.56 C +ATOM 7612 O LYS B 51 7.767 -13.117 -54.172 1.00 31.13 O +ATOM 7613 CB LYS B 51 7.192 -11.429 -56.646 1.00 30.93 C +ATOM 7614 CG LYS B 51 7.745 -12.577 -57.467 1.00 31.98 C +ATOM 7615 CD LYS B 51 8.492 -12.039 -58.653 1.00 34.59 C +ATOM 7616 CE LYS B 51 9.329 -13.124 -59.291 1.00 35.59 C +ATOM 7617 NZ LYS B 51 10.353 -12.539 -60.211 1.00 35.82 N +ATOM 7618 N LEU B 52 6.023 -14.238 -55.067 1.00 29.68 N +ATOM 7619 CA LEU B 52 6.443 -15.499 -54.480 1.00 28.99 C +ATOM 7620 C LEU B 52 7.651 -16.093 -55.195 1.00 28.94 C +ATOM 7621 O LEU B 52 7.649 -16.231 -56.411 1.00 29.03 O +ATOM 7622 CB LEU B 52 5.308 -16.499 -54.499 1.00 28.80 C +ATOM 7623 CG LEU B 52 5.627 -17.844 -53.857 1.00 28.36 C +ATOM 7624 CD1 LEU B 52 4.998 -17.931 -52.472 1.00 27.45 C +ATOM 7625 CD2 LEU B 52 5.141 -18.952 -54.745 1.00 27.40 C +ATOM 7626 N LEU B 53 8.679 -16.447 -54.430 1.00 28.88 N +ATOM 7627 CA LEU B 53 9.860 -17.093 -54.990 1.00 28.73 C +ATOM 7628 C LEU B 53 9.827 -18.589 -54.766 1.00 29.04 C +ATOM 7629 O LEU B 53 9.833 -19.361 -55.717 1.00 29.49 O +ATOM 7630 CB LEU B 53 11.146 -16.502 -54.423 1.00 28.16 C +ATOM 7631 CG LEU B 53 11.424 -15.068 -54.847 1.00 27.69 C +ATOM 7632 CD1 LEU B 53 12.815 -14.723 -54.471 1.00 28.34 C +ATOM 7633 CD2 LEU B 53 11.261 -14.897 -56.329 1.00 28.01 C +ATOM 7634 N ILE B 54 9.798 -18.997 -53.509 1.00 29.16 N +ATOM 7635 CA ILE B 54 9.762 -20.402 -53.175 1.00 29.32 C +ATOM 7636 C ILE B 54 8.389 -20.640 -52.581 1.00 29.94 C +ATOM 7637 O ILE B 54 7.847 -19.757 -51.908 1.00 30.37 O +ATOM 7638 CB ILE B 54 10.848 -20.751 -52.114 1.00 29.09 C +ATOM 7639 CG1 ILE B 54 12.257 -20.385 -52.593 1.00 27.97 C +ATOM 7640 CG2 ILE B 54 10.765 -22.213 -51.711 1.00 29.40 C +ATOM 7641 CD1 ILE B 54 12.778 -21.217 -53.744 1.00 26.37 C +ATOM 7642 N TYR B 55 7.816 -21.809 -52.842 1.00 30.27 N +ATOM 7643 CA TYR B 55 6.647 -22.254 -52.103 1.00 30.86 C +ATOM 7644 C TYR B 55 6.864 -23.696 -51.657 1.00 31.55 C +ATOM 7645 O TYR B 55 7.665 -24.447 -52.239 1.00 31.45 O +ATOM 7646 CB TYR B 55 5.342 -22.113 -52.909 1.00 30.64 C +ATOM 7647 CG TYR B 55 5.177 -23.187 -53.955 1.00 31.07 C +ATOM 7648 CD1 TYR B 55 5.707 -23.017 -55.233 1.00 31.11 C +ATOM 7649 CD2 TYR B 55 4.521 -24.387 -53.664 1.00 30.68 C +ATOM 7650 CE1 TYR B 55 5.594 -24.005 -56.192 1.00 31.31 C +ATOM 7651 CE2 TYR B 55 4.399 -25.382 -54.623 1.00 30.68 C +ATOM 7652 CZ TYR B 55 4.941 -25.184 -55.889 1.00 31.00 C +ATOM 7653 OH TYR B 55 4.848 -26.152 -56.864 1.00 30.93 O +ATOM 7654 N ASP B 56 6.127 -24.062 -50.611 1.00 32.34 N +ATOM 7655 CA ASP B 56 6.185 -25.380 -50.000 1.00 32.52 C +ATOM 7656 C ASP B 56 7.502 -25.767 -49.366 1.00 32.71 C +ATOM 7657 O ASP B 56 7.732 -26.957 -49.134 1.00 33.61 O +ATOM 7658 CB ASP B 56 5.743 -26.443 -50.980 1.00 32.42 C +ATOM 7659 CG ASP B 56 4.308 -26.754 -50.831 1.00 32.88 C +ATOM 7660 OD1 ASP B 56 3.640 -26.019 -50.074 1.00 33.42 O +ATOM 7661 OD2 ASP B 56 3.850 -27.728 -51.453 1.00 34.48 O +ATOM 7662 N THR B 57 8.342 -24.767 -49.062 1.00 32.52 N +ATOM 7663 CA THR B 57 9.593 -24.973 -48.322 1.00 32.05 C +ATOM 7664 C THR B 57 10.739 -24.961 -49.293 1.00 31.91 C +ATOM 7665 O THR B 57 11.770 -24.349 -49.015 1.00 31.88 O +ATOM 7666 CB THR B 57 9.609 -26.286 -47.470 1.00 32.00 C +ATOM 7667 OG1 THR B 57 8.663 -26.173 -46.398 1.00 32.47 O +ATOM 7668 CG2 THR B 57 10.970 -26.579 -46.889 1.00 31.00 C +ATOM 7669 N SER B 65 10.557 -25.606 -50.441 1.00 31.56 N +ATOM 7670 CA SER B 65 11.685 -25.794 -51.346 1.00 31.50 C +ATOM 7671 C SER B 65 11.383 -25.549 -52.812 1.00 31.09 C +ATOM 7672 O SER B 65 12.282 -25.252 -53.585 1.00 30.93 O +ATOM 7673 CB SER B 65 12.303 -27.188 -51.156 1.00 31.84 C +ATOM 7674 OG SER B 65 11.807 -28.120 -52.104 1.00 32.53 O +ATOM 7675 N ASN B 66 10.112 -25.677 -53.182 1.00 31.11 N +ATOM 7676 CA ASN B 66 9.682 -25.602 -54.581 1.00 30.62 C +ATOM 7677 C ASN B 66 9.708 -24.208 -55.190 1.00 30.54 C +ATOM 7678 O ASN B 66 8.934 -23.342 -54.782 1.00 30.54 O +ATOM 7679 CB ASN B 66 8.294 -26.220 -54.715 1.00 30.35 C +ATOM 7680 CG ASN B 66 8.293 -27.684 -54.356 1.00 30.04 C +ATOM 7681 OD1 ASN B 66 8.987 -28.493 -54.974 1.00 28.26 O +ATOM 7682 ND2 ASN B 66 7.534 -28.032 -53.334 1.00 31.68 N +ATOM 7683 N LEU B 67 10.601 -24.004 -56.161 1.00 30.39 N +ATOM 7684 CA LEU B 67 10.700 -22.731 -56.881 1.00 30.62 C +ATOM 7685 C LEU B 67 9.493 -22.423 -57.764 1.00 30.87 C +ATOM 7686 O LEU B 67 9.215 -23.148 -58.707 1.00 31.11 O +ATOM 7687 CB LEU B 67 11.944 -22.715 -57.759 1.00 30.31 C +ATOM 7688 CG LEU B 67 13.234 -22.223 -57.131 1.00 30.21 C +ATOM 7689 CD1 LEU B 67 14.093 -23.378 -56.648 1.00 30.38 C +ATOM 7690 CD2 LEU B 67 13.967 -21.423 -58.160 1.00 30.12 C +ATOM 7691 N ALA B 68 8.783 -21.341 -57.477 1.00 31.41 N +ATOM 7692 CA ALA B 68 7.705 -20.908 -58.359 1.00 32.19 C +ATOM 7693 C ALA B 68 8.307 -20.748 -59.737 1.00 32.76 C +ATOM 7694 O ALA B 68 9.504 -20.426 -59.864 1.00 33.14 O +ATOM 7695 CB ALA B 68 7.113 -19.590 -57.897 1.00 32.39 C +ATOM 7696 N SER B 69 7.490 -20.979 -60.766 1.00 32.85 N +ATOM 7697 CA SER B 69 8.006 -21.020 -62.123 1.00 32.44 C +ATOM 7698 C SER B 69 8.592 -19.703 -62.533 1.00 31.74 C +ATOM 7699 O SER B 69 8.011 -18.656 -62.292 1.00 31.53 O +ATOM 7700 CB SER B 69 6.943 -21.425 -63.120 1.00 32.83 C +ATOM 7701 OG SER B 69 7.574 -21.872 -64.315 1.00 34.80 O +ATOM 7702 N GLY B 70 9.772 -19.785 -63.132 1.00 31.44 N +ATOM 7703 CA GLY B 70 10.441 -18.638 -63.700 1.00 30.83 C +ATOM 7704 C GLY B 70 11.464 -18.053 -62.764 1.00 30.39 C +ATOM 7705 O GLY B 70 12.172 -17.112 -63.131 1.00 31.01 O +ATOM 7706 N VAL B 71 11.542 -18.596 -61.552 1.00 29.47 N +ATOM 7707 CA VAL B 71 12.509 -18.098 -60.574 1.00 28.50 C +ATOM 7708 C VAL B 71 13.894 -18.690 -60.829 1.00 27.75 C +ATOM 7709 O VAL B 71 14.039 -19.905 -60.945 1.00 28.00 O +ATOM 7710 CB VAL B 71 12.051 -18.360 -59.124 1.00 28.68 C +ATOM 7711 CG1 VAL B 71 13.081 -17.808 -58.120 1.00 28.08 C +ATOM 7712 CG2 VAL B 71 10.648 -17.775 -58.892 1.00 27.63 C +ATOM 7713 N PRO B 72 14.901 -17.827 -60.962 1.00 26.95 N +ATOM 7714 CA PRO B 72 16.322 -18.149 -61.169 1.00 26.77 C +ATOM 7715 C PRO B 72 16.927 -19.105 -60.157 1.00 26.44 C +ATOM 7716 O PRO B 72 16.650 -19.018 -58.972 1.00 26.31 O +ATOM 7717 CB PRO B 72 17.004 -16.797 -61.049 1.00 26.98 C +ATOM 7718 CG PRO B 72 15.939 -15.829 -61.479 1.00 27.64 C +ATOM 7719 CD PRO B 72 14.655 -16.382 -60.976 1.00 26.74 C +ATOM 7720 N SER B 74 17.786 -19.986 -60.646 1.00 26.56 N +ATOM 7721 CA SER B 74 18.377 -21.066 -59.851 1.00 26.75 C +ATOM 7722 C SER B 74 19.094 -20.640 -58.570 1.00 26.78 C +ATOM 7723 O SER B 74 19.306 -21.460 -57.689 1.00 26.91 O +ATOM 7724 CB SER B 74 19.363 -21.868 -60.705 1.00 26.75 C +ATOM 7725 OG SER B 74 20.691 -21.406 -60.497 1.00 26.62 O +ATOM 7726 N ARG B 75 19.490 -19.381 -58.465 1.00 26.97 N +ATOM 7727 CA ARG B 75 20.262 -18.965 -57.304 1.00 27.24 C +ATOM 7728 C ARG B 75 19.429 -18.967 -56.047 1.00 27.38 C +ATOM 7729 O ARG B 75 19.953 -19.105 -54.947 1.00 27.43 O +ATOM 7730 CB ARG B 75 20.906 -17.599 -57.511 1.00 27.39 C +ATOM 7731 CG ARG B 75 19.978 -16.475 -57.901 1.00 27.69 C +ATOM 7732 CD ARG B 75 20.771 -15.184 -57.918 1.00 29.09 C +ATOM 7733 NE ARG B 75 19.976 -14.048 -58.344 1.00 31.40 N +ATOM 7734 CZ ARG B 75 19.566 -13.848 -59.593 1.00 33.13 C +ATOM 7735 NH1 ARG B 75 19.877 -14.717 -60.548 1.00 34.13 N +ATOM 7736 NH2 ARG B 75 18.838 -12.780 -59.884 1.00 33.72 N +ATOM 7737 N PHE B 76 18.123 -18.824 -56.234 1.00 27.69 N +ATOM 7738 CA PHE B 76 17.168 -18.813 -55.142 1.00 27.95 C +ATOM 7739 C PHE B 76 16.828 -20.230 -54.758 1.00 28.37 C +ATOM 7740 O PHE B 76 16.334 -20.984 -55.581 1.00 28.69 O +ATOM 7741 CB PHE B 76 15.886 -18.093 -55.572 1.00 27.68 C +ATOM 7742 CG PHE B 76 16.088 -16.648 -55.903 1.00 26.56 C +ATOM 7743 CD1 PHE B 76 16.298 -16.249 -57.216 1.00 26.40 C +ATOM 7744 CD2 PHE B 76 16.079 -15.690 -54.900 1.00 25.74 C +ATOM 7745 CE1 PHE B 76 16.497 -14.911 -57.534 1.00 26.90 C +ATOM 7746 CE2 PHE B 76 16.271 -14.349 -55.193 1.00 26.40 C +ATOM 7747 CZ PHE B 76 16.484 -13.952 -56.516 1.00 27.33 C +ATOM 7748 N SER B 77 17.104 -20.601 -53.517 1.00 29.00 N +ATOM 7749 CA SER B 77 16.627 -21.879 -53.008 1.00 29.95 C +ATOM 7750 C SER B 77 15.928 -21.717 -51.673 1.00 30.34 C +ATOM 7751 O SER B 77 15.983 -20.664 -51.044 1.00 30.16 O +ATOM 7752 CB SER B 77 17.754 -22.901 -52.912 1.00 29.95 C +ATOM 7753 OG SER B 77 18.656 -22.571 -51.869 1.00 31.52 O +ATOM 7754 N GLY B 78 15.258 -22.771 -51.252 1.00 31.21 N +ATOM 7755 CA GLY B 78 14.451 -22.720 -50.052 1.00 32.72 C +ATOM 7756 C GLY B 78 14.505 -24.069 -49.389 1.00 33.86 C +ATOM 7757 O GLY B 78 14.450 -25.109 -50.050 1.00 34.01 O +ATOM 7758 N SER B 79 14.612 -24.054 -48.072 1.00 34.93 N +ATOM 7759 CA SER B 79 14.908 -25.259 -47.340 1.00 35.99 C +ATOM 7760 C SER B 79 14.181 -25.218 -46.011 1.00 36.91 C +ATOM 7761 O SER B 79 13.647 -24.177 -45.614 1.00 37.10 O +ATOM 7762 CB SER B 79 16.416 -25.357 -47.145 1.00 35.76 C +ATOM 7763 OG SER B 79 16.732 -26.296 -46.147 1.00 36.70 O +ATOM 7764 N GLY B 80 14.133 -26.358 -45.337 1.00 37.90 N +ATOM 7765 CA GLY B 80 13.539 -26.418 -44.026 1.00 39.49 C +ATOM 7766 C GLY B 80 13.376 -27.834 -43.542 1.00 40.86 C +ATOM 7767 O GLY B 80 13.618 -28.785 -44.294 1.00 40.97 O +ATOM 7768 N SER B 83 12.999 -27.949 -42.263 1.00 42.23 N +ATOM 7769 CA SER B 83 12.593 -29.210 -41.595 1.00 43.04 C +ATOM 7770 C SER B 83 11.760 -28.897 -40.329 1.00 43.19 C +ATOM 7771 O SER B 83 12.290 -28.675 -39.213 1.00 42.92 O +ATOM 7772 CB SER B 83 13.798 -30.137 -41.284 1.00 43.35 C +ATOM 7773 OG SER B 83 14.770 -29.527 -40.421 1.00 44.10 O +ATOM 7774 N GLY B 84 10.448 -28.825 -40.537 1.00 43.16 N +ATOM 7775 CA GLY B 84 9.505 -28.822 -39.427 1.00 43.10 C +ATOM 7776 C GLY B 84 9.316 -27.491 -38.744 1.00 42.92 C +ATOM 7777 O GLY B 84 8.236 -26.889 -38.863 1.00 43.17 O +ATOM 7778 N THR B 85 10.340 -27.029 -38.018 1.00 42.55 N +ATOM 7779 CA THR B 85 10.209 -25.744 -37.304 1.00 41.99 C +ATOM 7780 C THR B 85 11.196 -24.651 -37.726 1.00 41.74 C +ATOM 7781 O THR B 85 10.981 -23.465 -37.450 1.00 41.55 O +ATOM 7782 CB THR B 85 10.148 -25.918 -35.761 1.00 41.96 C +ATOM 7783 OG1 THR B 85 9.135 -25.050 -35.238 1.00 41.40 O +ATOM 7784 CG2 THR B 85 11.510 -25.656 -35.077 1.00 41.39 C +ATOM 7785 N ASP B 86 12.261 -25.053 -38.408 1.00 41.40 N +ATOM 7786 CA ASP B 86 13.233 -24.089 -38.891 1.00 41.32 C +ATOM 7787 C ASP B 86 13.364 -24.178 -40.393 1.00 40.80 C +ATOM 7788 O ASP B 86 13.718 -25.236 -40.948 1.00 40.76 O +ATOM 7789 CB ASP B 86 14.600 -24.282 -38.223 1.00 41.61 C +ATOM 7790 CG ASP B 86 14.493 -24.414 -36.728 1.00 42.64 C +ATOM 7791 OD1 ASP B 86 13.999 -23.453 -36.078 1.00 43.89 O +ATOM 7792 OD2 ASP B 86 14.887 -25.489 -36.213 1.00 43.03 O +ATOM 7793 N TYR B 87 13.076 -23.052 -41.037 1.00 39.92 N +ATOM 7794 CA TYR B 87 13.214 -22.935 -42.471 1.00 39.08 C +ATOM 7795 C TYR B 87 14.268 -21.895 -42.754 1.00 38.34 C +ATOM 7796 O TYR B 87 14.468 -20.961 -41.972 1.00 37.92 O +ATOM 7797 CB TYR B 87 11.859 -22.626 -43.133 1.00 39.32 C +ATOM 7798 CG TYR B 87 10.807 -23.615 -42.697 1.00 39.43 C +ATOM 7799 CD1 TYR B 87 10.029 -23.376 -41.570 1.00 40.01 C +ATOM 7800 CD2 TYR B 87 10.644 -24.821 -43.357 1.00 39.76 C +ATOM 7801 CE1 TYR B 87 9.083 -24.290 -41.132 1.00 40.06 C +ATOM 7802 CE2 TYR B 87 9.706 -25.755 -42.922 1.00 40.55 C +ATOM 7803 CZ TYR B 87 8.928 -25.475 -41.810 1.00 40.50 C +ATOM 7804 OH TYR B 87 7.988 -26.379 -41.375 1.00 41.23 O +ATOM 7805 N THR B 88 14.955 -22.092 -43.874 1.00 37.65 N +ATOM 7806 CA THR B 88 16.040 -21.224 -44.298 1.00 36.73 C +ATOM 7807 C THR B 88 16.077 -20.966 -45.820 1.00 36.27 C +ATOM 7808 O THR B 88 16.390 -21.865 -46.608 1.00 36.42 O +ATOM 7809 CB THR B 88 17.382 -21.772 -43.819 1.00 36.54 C +ATOM 7810 OG1 THR B 88 18.424 -21.106 -44.526 1.00 36.61 O +ATOM 7811 CG2 THR B 88 17.478 -23.285 -44.057 1.00 36.30 C +ATOM 7812 N PHE B 89 15.744 -19.732 -46.207 1.00 35.52 N +ATOM 7813 CA PHE B 89 15.852 -19.226 -47.590 1.00 34.70 C +ATOM 7814 C PHE B 89 17.299 -18.795 -47.892 1.00 34.24 C +ATOM 7815 O PHE B 89 18.039 -18.368 -47.002 1.00 33.83 O +ATOM 7816 CB PHE B 89 14.863 -18.064 -47.772 1.00 34.50 C +ATOM 7817 CG PHE B 89 14.911 -17.378 -49.113 1.00 34.46 C +ATOM 7818 CD1 PHE B 89 14.147 -17.832 -50.174 1.00 35.12 C +ATOM 7819 CD2 PHE B 89 15.664 -16.224 -49.294 1.00 34.36 C +ATOM 7820 CE1 PHE B 89 14.179 -17.167 -51.422 1.00 34.29 C +ATOM 7821 CE2 PHE B 89 15.690 -15.561 -50.529 1.00 33.60 C +ATOM 7822 CZ PHE B 89 14.952 -16.036 -51.589 1.00 33.20 C +ATOM 7823 N THR B 90 17.689 -18.931 -49.156 1.00 33.88 N +ATOM 7824 CA THR B 90 19.077 -18.771 -49.583 1.00 33.56 C +ATOM 7825 C THR B 90 19.111 -18.223 -51.009 1.00 33.60 C +ATOM 7826 O THR B 90 18.498 -18.802 -51.916 1.00 33.91 O +ATOM 7827 CB THR B 90 19.828 -20.136 -49.589 1.00 33.35 C +ATOM 7828 OG1 THR B 90 19.230 -21.032 -48.648 1.00 32.56 O +ATOM 7829 CG2 THR B 90 21.299 -19.964 -49.260 1.00 33.35 C +ATOM 7830 N ILE B 91 19.797 -17.098 -51.209 1.00 33.21 N +ATOM 7831 CA ILE B 91 20.133 -16.650 -52.560 1.00 32.51 C +ATOM 7832 C ILE B 91 21.614 -16.922 -52.633 1.00 32.31 C +ATOM 7833 O ILE B 91 22.376 -16.370 -51.854 1.00 31.99 O +ATOM 7834 CB ILE B 91 19.861 -15.140 -52.810 1.00 32.40 C +ATOM 7835 CG1 ILE B 91 18.656 -14.650 -52.029 1.00 31.29 C +ATOM 7836 CG2 ILE B 91 19.646 -14.863 -54.292 1.00 32.05 C +ATOM 7837 CD1 ILE B 91 18.502 -13.173 -52.072 1.00 30.41 C +ATOM 7838 N SER B 92 22.007 -17.804 -53.545 1.00 32.33 N +ATOM 7839 CA SER B 92 23.366 -18.345 -53.559 1.00 32.58 C +ATOM 7840 C SER B 92 24.374 -17.441 -54.230 1.00 32.09 C +ATOM 7841 O SER B 92 25.538 -17.470 -53.866 1.00 32.18 O +ATOM 7842 CB SER B 92 23.404 -19.704 -54.246 1.00 32.86 C +ATOM 7843 OG SER B 92 22.966 -19.587 -55.591 1.00 34.72 O +ATOM 7844 N SER B 93 23.931 -16.651 -55.206 1.00 31.52 N +ATOM 7845 CA SER B 93 24.834 -15.800 -55.974 1.00 30.92 C +ATOM 7846 C SER B 93 24.229 -14.417 -56.209 1.00 30.16 C +ATOM 7847 O SER B 93 23.874 -14.071 -57.341 1.00 29.78 O +ATOM 7848 CB SER B 93 25.157 -16.482 -57.302 1.00 31.18 C +ATOM 7849 OG SER B 93 26.438 -16.094 -57.778 1.00 32.61 O +ATOM 7850 N LEU B 94 24.132 -13.632 -55.134 1.00 29.39 N +ATOM 7851 CA LEU B 94 23.398 -12.362 -55.135 1.00 29.00 C +ATOM 7852 C LEU B 94 23.773 -11.431 -56.275 1.00 28.89 C +ATOM 7853 O LEU B 94 24.898 -10.979 -56.366 1.00 28.89 O +ATOM 7854 CB LEU B 94 23.541 -11.637 -53.793 1.00 28.76 C +ATOM 7855 CG LEU B 94 22.811 -10.299 -53.591 1.00 28.82 C +ATOM 7856 CD1 LEU B 94 21.301 -10.418 -53.687 1.00 27.29 C +ATOM 7857 CD2 LEU B 94 23.171 -9.707 -52.251 1.00 28.86 C +ATOM 7858 N GLN B 95 22.803 -11.166 -57.141 1.00 29.12 N +ATOM 7859 CA GLN B 95 22.960 -10.248 -58.266 1.00 29.25 C +ATOM 7860 C GLN B 95 22.378 -8.879 -57.897 1.00 29.16 C +ATOM 7861 O GLN B 95 21.433 -8.806 -57.104 1.00 29.22 O +ATOM 7862 CB GLN B 95 22.248 -10.810 -59.504 1.00 29.46 C +ATOM 7863 CG GLN B 95 22.786 -12.163 -59.991 1.00 30.24 C +ATOM 7864 CD GLN B 95 24.264 -12.124 -60.377 1.00 30.06 C +ATOM 7865 OE1 GLN B 95 25.074 -12.913 -59.879 1.00 28.56 O +ATOM 7866 NE2 GLN B 95 24.616 -11.199 -61.267 1.00 30.48 N +ATOM 7867 N PRO B 96 22.902 -7.792 -58.502 1.00 28.95 N +ATOM 7868 CA PRO B 96 22.540 -6.434 -58.110 1.00 28.73 C +ATOM 7869 C PRO B 96 21.045 -6.231 -57.920 1.00 28.78 C +ATOM 7870 O PRO B 96 20.632 -5.393 -57.127 1.00 29.33 O +ATOM 7871 CB PRO B 96 23.019 -5.580 -59.296 1.00 28.54 C +ATOM 7872 CG PRO B 96 23.391 -6.542 -60.379 1.00 28.88 C +ATOM 7873 CD PRO B 96 23.821 -7.776 -59.650 1.00 29.21 C +ATOM 7874 N GLU B 97 20.240 -6.999 -58.635 1.00 28.73 N +ATOM 7875 CA GLU B 97 18.817 -6.750 -58.695 1.00 28.54 C +ATOM 7876 C GLU B 97 17.984 -7.727 -57.851 1.00 28.46 C +ATOM 7877 O GLU B 97 16.819 -7.980 -58.152 1.00 28.68 O +ATOM 7878 CB GLU B 97 18.375 -6.737 -60.165 1.00 28.48 C +ATOM 7879 CG GLU B 97 18.207 -8.105 -60.814 1.00 28.91 C +ATOM 7880 CD GLU B 97 19.491 -8.689 -61.318 1.00 29.00 C +ATOM 7881 OE1 GLU B 97 19.455 -9.504 -62.261 1.00 30.12 O +ATOM 7882 OE2 GLU B 97 20.546 -8.326 -60.785 1.00 29.60 O +ATOM 7883 N ASP B 98 18.575 -8.278 -56.798 1.00 28.22 N +ATOM 7884 CA ASP B 98 17.841 -9.163 -55.902 1.00 28.29 C +ATOM 7885 C ASP B 98 17.514 -8.312 -54.697 1.00 28.29 C +ATOM 7886 O ASP B 98 17.028 -8.775 -53.666 1.00 27.70 O +ATOM 7887 CB ASP B 98 18.706 -10.359 -55.514 1.00 28.62 C +ATOM 7888 CG ASP B 98 19.175 -11.176 -56.721 1.00 29.29 C +ATOM 7889 OD1 ASP B 98 18.410 -11.283 -57.718 1.00 29.98 O +ATOM 7890 OD2 ASP B 98 20.302 -11.726 -56.656 1.00 28.29 O +ATOM 7891 N ILE B 99 17.765 -7.028 -54.901 1.00 28.86 N +ATOM 7892 CA ILE B 99 17.807 -5.977 -53.894 1.00 29.28 C +ATOM 7893 C ILE B 99 16.760 -5.954 -52.771 1.00 29.70 C +ATOM 7894 O ILE B 99 16.984 -5.302 -51.755 1.00 30.49 O +ATOM 7895 CB ILE B 99 17.776 -4.602 -54.615 1.00 29.22 C +ATOM 7896 CG1 ILE B 99 18.459 -3.537 -53.770 1.00 28.55 C +ATOM 7897 CG2 ILE B 99 16.344 -4.238 -55.087 1.00 29.38 C +ATOM 7898 CD1 ILE B 99 19.935 -3.730 -53.749 1.00 29.32 C +ATOM 7899 N ALA B 100 15.641 -6.654 -52.938 1.00 29.73 N +ATOM 7900 CA ALA B 100 14.423 -6.408 -52.127 1.00 29.56 C +ATOM 7901 C ALA B 100 14.456 -6.705 -50.598 1.00 29.05 C +ATOM 7902 O ALA B 100 15.496 -7.063 -50.043 1.00 28.52 O +ATOM 7903 CB ALA B 100 13.248 -7.123 -52.782 1.00 29.68 C +ATOM 7904 N THR B 101 13.307 -6.506 -49.941 1.00 28.72 N +ATOM 7905 CA THR B 101 13.017 -7.105 -48.628 1.00 28.65 C +ATOM 7906 C THR B 101 12.252 -8.420 -48.798 1.00 28.70 C +ATOM 7907 O THR B 101 11.314 -8.510 -49.604 1.00 28.72 O +ATOM 7908 CB THR B 101 12.179 -6.193 -47.712 1.00 28.56 C +ATOM 7909 OG1 THR B 101 12.826 -4.932 -47.557 1.00 28.55 O +ATOM 7910 CG2 THR B 101 12.017 -6.824 -46.345 1.00 28.27 C +ATOM 7911 N TYR B 102 12.649 -9.419 -48.013 1.00 28.71 N +ATOM 7912 CA TYR B 102 12.174 -10.787 -48.159 1.00 29.16 C +ATOM 7913 C TYR B 102 11.431 -11.243 -46.903 1.00 29.65 C +ATOM 7914 O TYR B 102 11.949 -11.121 -45.784 1.00 29.80 O +ATOM 7915 CB TYR B 102 13.361 -11.726 -48.405 1.00 29.09 C +ATOM 7916 CG TYR B 102 14.138 -11.489 -49.688 1.00 29.23 C +ATOM 7917 CD1 TYR B 102 14.941 -10.352 -49.848 1.00 28.80 C +ATOM 7918 CD2 TYR B 102 14.090 -12.418 -50.738 1.00 28.80 C +ATOM 7919 CE1 TYR B 102 15.646 -10.133 -51.030 1.00 28.52 C +ATOM 7920 CE2 TYR B 102 14.804 -12.213 -51.914 1.00 28.28 C +ATOM 7921 CZ TYR B 102 15.576 -11.069 -52.049 1.00 28.42 C +ATOM 7922 OH TYR B 102 16.282 -10.852 -53.200 1.00 28.41 O +ATOM 7923 N TYR B 103 10.221 -11.773 -47.086 1.00 29.97 N +ATOM 7924 CA TYR B 103 9.419 -12.241 -45.960 1.00 30.13 C +ATOM 7925 C TYR B 103 9.081 -13.706 -46.129 1.00 30.89 C +ATOM 7926 O TYR B 103 8.573 -14.113 -47.175 1.00 31.34 O +ATOM 7927 CB TYR B 103 8.100 -11.477 -45.860 1.00 29.44 C +ATOM 7928 CG TYR B 103 8.170 -9.974 -45.878 1.00 28.37 C +ATOM 7929 CD1 TYR B 103 8.493 -9.292 -47.039 1.00 28.41 C +ATOM 7930 CD2 TYR B 103 7.856 -9.231 -44.743 1.00 27.54 C +ATOM 7931 CE1 TYR B 103 8.542 -7.895 -47.067 1.00 28.76 C +ATOM 7932 CE2 TYR B 103 7.892 -7.839 -44.757 1.00 27.69 C +ATOM 7933 CZ TYR B 103 8.234 -7.175 -45.926 1.00 28.54 C +ATOM 7934 OH TYR B 103 8.273 -5.797 -45.978 1.00 28.43 O +ATOM 7935 N CYS B 104 9.333 -14.503 -45.104 1.00 31.63 N +ATOM 7936 CA CYS B 104 8.769 -15.848 -45.071 1.00 32.50 C +ATOM 7937 C CYS B 104 7.292 -15.748 -44.759 1.00 32.59 C +ATOM 7938 O CYS B 104 6.837 -14.770 -44.180 1.00 32.65 O +ATOM 7939 CB CYS B 104 9.437 -16.685 -43.999 1.00 32.63 C +ATOM 7940 SG CYS B 104 9.428 -15.867 -42.398 1.00 34.61 S +ATOM 7941 N GLN B 105 6.544 -16.761 -45.165 1.00 33.25 N +ATOM 7942 CA GLN B 105 5.136 -16.861 -44.814 1.00 33.78 C +ATOM 7943 C GLN B 105 4.830 -18.313 -44.515 1.00 34.24 C +ATOM 7944 O GLN B 105 5.209 -19.198 -45.290 1.00 34.50 O +ATOM 7945 CB GLN B 105 4.227 -16.366 -45.933 1.00 33.45 C +ATOM 7946 CG GLN B 105 2.840 -16.056 -45.424 1.00 33.50 C +ATOM 7947 CD GLN B 105 1.771 -16.203 -46.474 1.00 33.95 C +ATOM 7948 OE1 GLN B 105 0.952 -15.308 -46.668 1.00 33.54 O +ATOM 7949 NE2 GLN B 105 1.768 -17.335 -47.160 1.00 34.89 N +ATOM 7950 N GLN B 106 4.164 -18.549 -43.386 1.00 34.50 N +ATOM 7951 CA GLN B 106 3.765 -19.888 -43.000 1.00 34.85 C +ATOM 7952 C GLN B 106 2.252 -20.006 -43.017 1.00 35.15 C +ATOM 7953 O GLN B 106 1.544 -19.173 -42.448 1.00 35.40 O +ATOM 7954 CB GLN B 106 4.342 -20.251 -41.626 1.00 34.76 C +ATOM 7955 CG GLN B 106 3.630 -19.618 -40.432 1.00 35.23 C +ATOM 7956 CD GLN B 106 2.486 -20.476 -39.933 1.00 35.63 C +ATOM 7957 OE1 GLN B 106 2.575 -21.698 -39.939 1.00 36.31 O +ATOM 7958 NE2 GLN B 106 1.402 -19.842 -39.510 1.00 35.67 N +ATOM 7959 N TRP B 107 1.755 -21.019 -43.708 1.00 35.63 N +ATOM 7960 CA TRP B 107 0.360 -21.405 -43.554 1.00 36.30 C +ATOM 7961 C TRP B 107 0.372 -22.495 -42.515 1.00 36.76 C +ATOM 7962 O TRP B 107 1.355 -23.230 -42.403 1.00 37.19 O +ATOM 7963 CB TRP B 107 -0.246 -21.953 -44.857 1.00 36.07 C +ATOM 7964 CG TRP B 107 -1.721 -22.258 -44.744 1.00 35.64 C +ATOM 7965 CD1 TRP B 107 -2.728 -21.354 -44.641 1.00 35.95 C +ATOM 7966 CD2 TRP B 107 -2.344 -23.551 -44.713 1.00 35.12 C +ATOM 7967 NE1 TRP B 107 -3.945 -21.995 -44.554 1.00 35.81 N +ATOM 7968 CE2 TRP B 107 -3.734 -23.345 -44.595 1.00 34.90 C +ATOM 7969 CE3 TRP B 107 -1.865 -24.859 -44.781 1.00 35.23 C +ATOM 7970 CZ2 TRP B 107 -4.642 -24.392 -44.527 1.00 34.96 C +ATOM 7971 CZ3 TRP B 107 -2.773 -25.901 -44.721 1.00 35.49 C +ATOM 7972 CH2 TRP B 107 -4.146 -25.659 -44.592 1.00 35.37 C +ATOM 7973 N SER B 108 -0.707 -22.588 -41.752 1.00 37.10 N +ATOM 7974 CA SER B 108 -0.922 -23.686 -40.830 1.00 37.35 C +ATOM 7975 C SER B 108 -2.318 -23.550 -40.311 1.00 38.05 C +ATOM 7976 O SER B 108 -2.770 -22.438 -40.039 1.00 38.14 O +ATOM 7977 CB SER B 108 0.081 -23.677 -39.669 1.00 37.11 C +ATOM 7978 OG SER B 108 1.095 -24.656 -39.854 1.00 35.99 O +ATOM 7979 N SER B 109 -3.014 -24.680 -40.210 1.00 38.91 N +ATOM 7980 CA SER B 109 -4.285 -24.741 -39.492 1.00 39.67 C +ATOM 7981 C SER B 109 -5.254 -23.615 -39.906 1.00 39.86 C +ATOM 7982 O SER B 109 -5.837 -22.945 -39.051 1.00 39.89 O +ATOM 7983 CB SER B 109 -3.993 -24.680 -37.990 1.00 39.58 C +ATOM 7984 OG SER B 109 -4.928 -25.443 -37.268 1.00 40.94 O +ATOM 7985 N HIS B 114 -5.386 -23.400 -41.217 1.00 40.23 N +ATOM 7986 CA HIS B 114 -6.214 -22.324 -41.795 1.00 40.91 C +ATOM 7987 C HIS B 114 -5.743 -20.863 -41.604 1.00 40.25 C +ATOM 7988 O HIS B 114 -6.402 -19.945 -42.092 1.00 40.49 O +ATOM 7989 CB HIS B 114 -7.684 -22.447 -41.353 1.00 41.68 C +ATOM 7990 CG HIS B 114 -8.353 -23.715 -41.795 1.00 44.80 C +ATOM 7991 ND1 HIS B 114 -9.295 -23.748 -42.805 1.00 46.83 N +ATOM 7992 CD2 HIS B 114 -8.232 -24.991 -41.351 1.00 47.04 C +ATOM 7993 CE1 HIS B 114 -9.719 -24.990 -42.969 1.00 47.42 C +ATOM 7994 NE2 HIS B 114 -9.092 -25.763 -42.099 1.00 47.91 N +ATOM 7995 N ILE B 115 -4.637 -20.624 -40.907 1.00 39.41 N +ATOM 7996 CA ILE B 115 -4.123 -19.248 -40.816 1.00 38.81 C +ATOM 7997 C ILE B 115 -2.706 -19.044 -41.365 1.00 38.68 C +ATOM 7998 O ILE B 115 -1.827 -19.900 -41.208 1.00 38.88 O +ATOM 7999 CB ILE B 115 -4.229 -18.626 -39.390 1.00 38.64 C +ATOM 8000 CG1 ILE B 115 -3.676 -19.565 -38.288 1.00 39.00 C +ATOM 8001 CG2 ILE B 115 -5.639 -18.162 -39.129 1.00 38.10 C +ATOM 8002 CD1 ILE B 115 -2.159 -19.324 -37.849 1.00 36.86 C +ATOM 8003 N PHE B 116 -2.503 -17.901 -42.017 1.00 38.20 N +ATOM 8004 CA PHE B 116 -1.190 -17.502 -42.492 1.00 37.60 C +ATOM 8005 C PHE B 116 -0.570 -16.593 -41.464 1.00 37.28 C +ATOM 8006 O PHE B 116 -1.271 -15.820 -40.803 1.00 37.21 O +ATOM 8007 CB PHE B 116 -1.291 -16.737 -43.806 1.00 37.59 C +ATOM 8008 CG PHE B 116 -1.692 -17.585 -44.989 1.00 38.08 C +ATOM 8009 CD1 PHE B 116 -2.979 -17.474 -45.539 1.00 38.30 C +ATOM 8010 CD2 PHE B 116 -0.784 -18.466 -45.575 1.00 36.91 C +ATOM 8011 CE1 PHE B 116 -3.358 -18.238 -46.646 1.00 37.72 C +ATOM 8012 CE2 PHE B 116 -1.146 -19.223 -46.680 1.00 36.98 C +ATOM 8013 CZ PHE B 116 -2.438 -19.115 -47.218 1.00 37.86 C +ATOM 8014 N THR B 117 0.747 -16.688 -41.330 1.00 36.95 N +ATOM 8015 CA THR B 117 1.500 -15.761 -40.503 1.00 36.88 C +ATOM 8016 C THR B 117 2.768 -15.370 -41.260 1.00 36.82 C +ATOM 8017 O THR B 117 3.489 -16.254 -41.751 1.00 36.80 O +ATOM 8018 CB THR B 117 1.835 -16.385 -39.138 1.00 36.89 C +ATOM 8019 OG1 THR B 117 0.621 -16.776 -38.487 1.00 37.60 O +ATOM 8020 CG2 THR B 117 2.546 -15.394 -38.250 1.00 37.20 C +ATOM 8021 N PHE B 118 3.017 -14.056 -41.365 1.00 36.52 N +ATOM 8022 CA PHE B 118 4.203 -13.510 -42.047 1.00 36.22 C +ATOM 8023 C PHE B 118 5.409 -13.334 -41.134 1.00 36.32 C +ATOM 8024 O PHE B 118 5.260 -13.146 -39.930 1.00 36.46 O +ATOM 8025 CB PHE B 118 3.885 -12.154 -42.652 1.00 36.03 C +ATOM 8026 CG PHE B 118 3.175 -12.227 -43.958 1.00 36.23 C +ATOM 8027 CD1 PHE B 118 1.817 -11.942 -44.039 1.00 35.78 C +ATOM 8028 CD2 PHE B 118 3.862 -12.562 -45.120 1.00 36.62 C +ATOM 8029 CE1 PHE B 118 1.145 -12.004 -45.254 1.00 35.32 C +ATOM 8030 CE2 PHE B 118 3.200 -12.619 -46.342 1.00 36.56 C +ATOM 8031 CZ PHE B 118 1.832 -12.343 -46.405 1.00 35.76 C +ATOM 8032 N GLY B 119 6.605 -13.385 -41.716 1.00 36.54 N +ATOM 8033 CA GLY B 119 7.839 -13.055 -41.001 1.00 36.58 C +ATOM 8034 C GLY B 119 8.041 -11.550 -40.992 1.00 36.81 C +ATOM 8035 O GLY B 119 7.275 -10.803 -41.619 1.00 36.78 O +ATOM 8036 N GLN B 120 9.073 -11.100 -40.286 1.00 36.93 N +ATOM 8037 CA GLN B 120 9.316 -9.668 -40.105 1.00 37.14 C +ATOM 8038 C GLN B 120 9.983 -9.048 -41.326 1.00 37.02 C +ATOM 8039 O GLN B 120 9.938 -7.835 -41.514 1.00 36.95 O +ATOM 8040 CB GLN B 120 10.164 -9.403 -38.859 1.00 37.28 C +ATOM 8041 CG GLN B 120 9.527 -9.827 -37.544 1.00 38.84 C +ATOM 8042 CD GLN B 120 9.598 -11.333 -37.300 1.00 42.13 C +ATOM 8043 OE1 GLN B 120 10.578 -12.003 -37.662 1.00 43.90 O +ATOM 8044 NE2 GLN B 120 8.556 -11.874 -36.677 1.00 42.96 N +ATOM 8045 N GLY B 121 10.602 -9.884 -42.152 1.00 37.05 N +ATOM 8046 CA GLY B 121 11.302 -9.400 -43.324 1.00 37.24 C +ATOM 8047 C GLY B 121 12.785 -9.176 -43.084 1.00 37.68 C +ATOM 8048 O GLY B 121 13.241 -8.986 -41.944 1.00 37.45 O +ATOM 8049 N THR B 122 13.534 -9.204 -44.183 1.00 38.03 N +ATOM 8050 CA THR B 122 14.956 -8.919 -44.190 1.00 38.21 C +ATOM 8051 C THR B 122 15.223 -7.964 -45.331 1.00 38.54 C +ATOM 8052 O THR B 122 15.140 -8.363 -46.475 1.00 38.80 O +ATOM 8053 CB THR B 122 15.763 -10.192 -44.471 1.00 38.15 C +ATOM 8054 OG1 THR B 122 15.278 -11.269 -43.658 1.00 37.65 O +ATOM 8055 CG2 THR B 122 17.252 -9.959 -44.207 1.00 38.40 C +ATOM 8056 N LYS B 123 15.517 -6.705 -45.038 1.00 39.25 N +ATOM 8057 CA LYS B 123 15.988 -5.795 -46.077 1.00 40.22 C +ATOM 8058 C LYS B 123 17.369 -6.277 -46.532 1.00 41.07 C +ATOM 8059 O LYS B 123 18.266 -6.477 -45.703 1.00 41.35 O +ATOM 8060 CB LYS B 123 16.052 -4.349 -45.567 1.00 39.95 C +ATOM 8061 N VAL B 124 17.524 -6.505 -47.835 1.00 41.94 N +ATOM 8062 CA VAL B 124 18.787 -6.986 -48.390 1.00 42.94 C +ATOM 8063 C VAL B 124 19.340 -5.937 -49.330 1.00 44.11 C +ATOM 8064 O VAL B 124 18.646 -5.480 -50.222 1.00 44.55 O +ATOM 8065 CB VAL B 124 18.624 -8.344 -49.108 1.00 42.64 C +ATOM 8066 CG1 VAL B 124 19.759 -8.606 -50.091 1.00 42.20 C +ATOM 8067 CG2 VAL B 124 18.558 -9.458 -48.092 1.00 42.60 C +ATOM 8068 N GLU B 125 20.587 -5.540 -49.115 1.00 45.41 N +ATOM 8069 CA GLU B 125 21.185 -4.477 -49.903 1.00 46.66 C +ATOM 8070 C GLU B 125 22.579 -4.861 -50.322 1.00 47.61 C +ATOM 8071 O GLU B 125 23.162 -5.783 -49.757 1.00 47.77 O +ATOM 8072 CB GLU B 125 21.217 -3.181 -49.104 1.00 46.65 C +ATOM 8073 CG GLU B 125 19.886 -2.466 -49.096 1.00 47.20 C +ATOM 8074 CD GLU B 125 19.927 -1.164 -48.333 1.00 47.87 C +ATOM 8075 OE1 GLU B 125 20.381 -1.182 -47.163 1.00 47.74 O +ATOM 8076 OE2 GLU B 125 19.487 -0.133 -48.905 1.00 48.04 O +ATOM 8077 N ILE B 126 23.115 -4.140 -51.301 1.00 48.79 N +ATOM 8078 CA ILE B 126 24.395 -4.491 -51.908 1.00 49.88 C +ATOM 8079 C ILE B 126 25.532 -3.596 -51.446 1.00 50.78 C +ATOM 8080 O ILE B 126 25.395 -2.376 -51.451 1.00 50.92 O +ATOM 8081 CB ILE B 126 24.276 -4.465 -53.436 1.00 49.65 C +ATOM 8082 CG1 ILE B 126 23.748 -5.804 -53.907 1.00 49.86 C +ATOM 8083 CG2 ILE B 126 25.610 -4.223 -54.104 1.00 49.85 C +ATOM 8084 CD1 ILE B 126 22.618 -5.646 -54.823 1.00 50.98 C +ATOM 8085 N LYS B 127 26.638 -4.208 -51.024 1.00 52.02 N +ATOM 8086 CA LYS B 127 27.890 -3.480 -50.860 1.00 53.39 C +ATOM 8087 C LYS B 127 28.613 -3.443 -52.219 1.00 54.60 C +ATOM 8088 O LYS B 127 28.750 -4.473 -52.895 1.00 54.87 O +ATOM 8089 CB LYS B 127 28.760 -4.102 -49.762 1.00 53.05 C +ATOM 8090 N ARG B 128 29.037 -2.247 -52.625 1.00 55.91 N +ATOM 8091 CA ARG B 128 29.750 -2.038 -53.885 1.00 57.32 C +ATOM 8092 C ARG B 128 30.889 -1.043 -53.679 1.00 58.45 C +ATOM 8093 O ARG B 128 31.100 -0.569 -52.564 1.00 58.50 O +ATOM 8094 CB ARG B 128 28.794 -1.524 -54.962 1.00 57.28 C +ATOM 8095 CG ARG B 128 28.033 -0.265 -54.570 1.00 57.40 C +ATOM 8096 CD ARG B 128 27.342 0.365 -55.754 1.00 57.88 C +ATOM 8097 NE ARG B 128 28.100 1.471 -56.339 1.00 59.17 N +ATOM 8098 CZ ARG B 128 28.696 1.446 -57.531 1.00 60.08 C +ATOM 8099 NH1 ARG B 128 28.643 0.365 -58.295 1.00 61.36 N +ATOM 8100 NH2 ARG B 128 29.350 2.511 -57.969 1.00 60.42 N +ATOM 8101 N THR B 129 31.623 -0.730 -54.748 1.00 60.01 N +ATOM 8102 CA THR B 129 32.686 0.281 -54.680 1.00 61.51 C +ATOM 8103 C THR B 129 32.103 1.623 -54.285 1.00 62.56 C +ATOM 8104 O THR B 129 30.965 1.939 -54.631 1.00 62.70 O +ATOM 8105 CB THR B 129 33.391 0.501 -56.027 1.00 61.47 C +ATOM 8106 OG1 THR B 129 32.416 0.830 -57.030 1.00 61.72 O +ATOM 8107 CG2 THR B 129 34.196 -0.724 -56.440 1.00 61.59 C +ATOM 8108 N VAL B 130 32.898 2.410 -53.569 1.00 63.92 N +ATOM 8109 CA VAL B 130 32.511 3.763 -53.182 1.00 65.11 C +ATOM 8110 C VAL B 130 32.278 4.597 -54.443 1.00 65.89 C +ATOM 8111 O VAL B 130 33.088 4.561 -55.367 1.00 66.07 O +ATOM 8112 CB VAL B 130 33.604 4.424 -52.303 1.00 65.06 C +ATOM 8113 CG1 VAL B 130 33.035 5.620 -51.547 1.00 65.18 C +ATOM 8114 CG2 VAL B 130 34.213 3.402 -51.327 1.00 64.95 C +ATOM 8115 N ALA B 131 31.161 5.313 -54.500 1.00 66.96 N +ATOM 8116 CA ALA B 131 30.902 6.205 -55.632 1.00 68.17 C +ATOM 8117 C ALA B 131 30.590 7.614 -55.154 1.00 69.11 C +ATOM 8118 O ALA B 131 29.792 7.806 -54.232 1.00 69.30 O +ATOM 8119 CB ALA B 131 29.779 5.676 -56.504 1.00 68.07 C +ATOM 8120 N ALA B 132 31.241 8.592 -55.779 1.00 70.23 N +ATOM 8121 CA ALA B 132 31.028 9.998 -55.460 1.00 71.13 C +ATOM 8122 C ALA B 132 29.715 10.465 -56.084 1.00 71.94 C +ATOM 8123 O ALA B 132 29.334 9.989 -57.161 1.00 72.09 O +ATOM 8124 CB ALA B 132 32.190 10.829 -55.971 1.00 71.13 C +ATOM 8125 N PRO B 133 29.005 11.389 -55.412 1.00 72.70 N +ATOM 8126 CA PRO B 133 27.760 11.882 -56.014 1.00 73.33 C +ATOM 8127 C PRO B 133 28.012 12.894 -57.152 1.00 73.99 C +ATOM 8128 O PRO B 133 29.154 13.318 -57.360 1.00 73.89 O +ATOM 8129 CB PRO B 133 27.034 12.533 -54.830 1.00 73.33 C +ATOM 8130 CG PRO B 133 28.123 12.929 -53.875 1.00 72.96 C +ATOM 8131 CD PRO B 133 29.289 12.006 -54.100 1.00 72.61 C +ATOM 8132 N SER B 134 26.965 13.256 -57.893 1.00 74.78 N +ATOM 8133 CA SER B 134 27.089 14.307 -58.907 1.00 75.61 C +ATOM 8134 C SER B 134 26.097 15.461 -58.680 1.00 76.28 C +ATOM 8135 O SER B 134 25.039 15.519 -59.308 1.00 76.36 O +ATOM 8136 CB SER B 134 27.026 13.738 -60.338 1.00 75.50 C +ATOM 8137 OG SER B 134 25.765 13.172 -60.635 1.00 75.09 O +ATOM 8138 N VAL B 135 26.488 16.379 -57.788 1.00 77.14 N +ATOM 8139 CA VAL B 135 25.667 17.508 -57.300 1.00 77.84 C +ATOM 8140 C VAL B 135 25.090 18.429 -58.379 1.00 78.42 C +ATOM 8141 O VAL B 135 25.826 18.984 -59.185 1.00 78.50 O +ATOM 8142 CB VAL B 135 26.466 18.396 -56.284 1.00 77.78 C +ATOM 8143 CG1 VAL B 135 25.650 19.621 -55.861 1.00 77.58 C +ATOM 8144 CG2 VAL B 135 26.912 17.586 -55.053 1.00 77.79 C +ATOM 8145 N PHE B 136 23.767 18.577 -58.380 1.00 79.37 N +ATOM 8146 CA PHE B 136 23.090 19.629 -59.142 1.00 80.39 C +ATOM 8147 C PHE B 136 22.441 20.631 -58.166 1.00 81.35 C +ATOM 8148 O PHE B 136 22.067 20.260 -57.043 1.00 81.55 O +ATOM 8149 CB PHE B 136 22.011 19.055 -60.077 1.00 80.11 C +ATOM 8150 CG PHE B 136 22.536 18.190 -61.205 1.00 79.79 C +ATOM 8151 CD1 PHE B 136 23.897 17.946 -61.374 1.00 79.61 C +ATOM 8152 CD2 PHE B 136 21.646 17.645 -62.129 1.00 79.59 C +ATOM 8153 CE1 PHE B 136 24.354 17.149 -62.425 1.00 79.91 C +ATOM 8154 CE2 PHE B 136 22.093 16.852 -63.188 1.00 79.63 C +ATOM 8155 CZ PHE B 136 23.448 16.606 -63.336 1.00 79.73 C +ATOM 8156 N ILE B 137 22.322 21.895 -58.582 1.00 82.42 N +ATOM 8157 CA ILE B 137 21.609 22.906 -57.794 1.00 83.40 C +ATOM 8158 C ILE B 137 20.395 23.381 -58.586 1.00 84.28 C +ATOM 8159 O ILE B 137 20.429 23.399 -59.822 1.00 84.40 O +ATOM 8160 CB ILE B 137 22.511 24.104 -57.426 1.00 83.06 C +ATOM 8161 N PHE B 138 19.319 23.733 -57.880 1.00 85.34 N +ATOM 8162 CA PHE B 138 18.105 24.265 -58.521 1.00 86.32 C +ATOM 8163 C PHE B 138 17.346 25.256 -57.610 1.00 87.06 C +ATOM 8164 O PHE B 138 16.689 24.836 -56.650 1.00 87.22 O +ATOM 8165 CB PHE B 138 17.190 23.125 -58.999 1.00 86.15 C +ATOM 8166 N PRO B 139 17.449 26.579 -57.902 1.00 87.75 N +ATOM 8167 CA PRO B 139 16.754 27.605 -57.112 1.00 88.13 C +ATOM 8168 C PRO B 139 15.331 27.896 -57.650 1.00 88.51 C +ATOM 8169 O PRO B 139 14.997 27.446 -58.761 1.00 88.47 O +ATOM 8170 CB PRO B 139 17.673 28.826 -57.260 1.00 88.09 C +ATOM 8171 CG PRO B 139 18.317 28.663 -58.612 1.00 87.80 C +ATOM 8172 CD PRO B 139 18.239 27.189 -58.994 1.00 87.82 C +ATOM 8173 N PRO B 140 14.496 28.627 -56.867 1.00 88.78 N +ATOM 8174 CA PRO B 140 13.107 28.928 -57.255 1.00 89.10 C +ATOM 8175 C PRO B 140 12.971 29.308 -58.727 1.00 89.50 C +ATOM 8176 O PRO B 140 13.769 30.095 -59.236 1.00 89.67 O +ATOM 8177 CB PRO B 140 12.751 30.115 -56.363 1.00 89.00 C +ATOM 8178 CG PRO B 140 13.548 29.894 -55.132 1.00 88.77 C +ATOM 8179 CD PRO B 140 14.821 29.200 -55.545 1.00 88.70 C +ATOM 8180 N SER B 141 11.973 28.745 -59.404 1.00 89.95 N +ATOM 8181 CA SER B 141 11.844 28.931 -60.848 1.00 90.39 C +ATOM 8182 C SER B 141 10.402 29.214 -61.311 1.00 90.71 C +ATOM 8183 O SER B 141 9.457 28.561 -60.853 1.00 90.71 O +ATOM 8184 CB SER B 141 12.429 27.719 -61.586 1.00 90.38 C +ATOM 8185 N ASP B 142 10.263 30.189 -62.220 1.00 90.98 N +ATOM 8186 CA ASP B 142 8.986 30.572 -62.856 1.00 91.05 C +ATOM 8187 C ASP B 142 7.861 30.864 -61.847 1.00 91.12 C +ATOM 8188 O ASP B 142 8.038 31.688 -60.943 1.00 90.95 O +ATOM 8189 CB ASP B 142 8.560 29.526 -63.904 1.00 90.96 C +ATOM 8190 N GLU B 143 6.722 30.188 -62.028 1.00 91.27 N +ATOM 8191 CA GLU B 143 5.551 30.244 -61.133 1.00 91.40 C +ATOM 8192 C GLU B 143 5.710 31.072 -59.842 1.00 91.55 C +ATOM 8193 O GLU B 143 5.610 32.304 -59.882 1.00 91.81 O +ATOM 8194 CB GLU B 143 5.059 28.821 -60.818 1.00 91.35 C +ATOM 8195 N GLN B 144 5.949 30.407 -58.708 1.00 91.50 N +ATOM 8196 CA GLN B 144 6.014 31.091 -57.407 1.00 91.37 C +ATOM 8197 C GLN B 144 7.450 31.371 -56.981 1.00 91.26 C +ATOM 8198 O GLN B 144 7.841 31.061 -55.847 1.00 91.15 O +ATOM 8199 CB GLN B 144 5.286 30.276 -56.332 1.00 91.37 C +ATOM 8200 N LEU B 145 8.219 31.966 -57.896 1.00 91.18 N +ATOM 8201 CA LEU B 145 9.652 32.197 -57.700 1.00 91.11 C +ATOM 8202 C LEU B 145 9.915 33.380 -56.779 1.00 91.05 C +ATOM 8203 O LEU B 145 11.008 33.506 -56.229 1.00 91.08 O +ATOM 8204 CB LEU B 145 10.359 32.416 -59.040 1.00 91.03 C +ATOM 8205 N THR B 146 6.691 30.975 -51.934 1.00 86.17 N +ATOM 8206 CA THR B 146 7.533 30.569 -50.811 1.00 86.19 C +ATOM 8207 C THR B 146 8.933 30.179 -51.299 1.00 86.21 C +ATOM 8208 O THR B 146 9.126 29.877 -52.484 1.00 86.33 O +ATOM 8209 CB THR B 146 6.895 29.405 -50.014 1.00 85.95 C +ATOM 8210 N ALA B 147 9.904 30.198 -50.386 1.00 86.02 N +ATOM 8211 CA ALA B 147 11.284 29.832 -50.701 1.00 85.85 C +ATOM 8212 C ALA B 147 11.452 28.316 -50.945 1.00 85.82 C +ATOM 8213 O ALA B 147 11.440 27.517 -49.997 1.00 85.98 O +ATOM 8214 CB ALA B 147 12.219 30.317 -49.588 1.00 85.80 C +ATOM 8215 N SER B 148 11.605 27.926 -52.215 1.00 85.52 N +ATOM 8216 CA SER B 148 11.781 26.508 -52.593 1.00 85.11 C +ATOM 8217 C SER B 148 13.135 26.215 -53.276 1.00 84.90 C +ATOM 8218 O SER B 148 13.245 26.279 -54.508 1.00 84.88 O +ATOM 8219 CB SER B 148 10.602 26.026 -53.464 1.00 85.11 C +ATOM 8220 OG SER B 148 10.392 26.863 -54.593 1.00 84.50 O +ATOM 8221 N VAL B 149 14.152 25.881 -52.473 1.00 84.50 N +ATOM 8222 CA VAL B 149 15.530 25.707 -52.979 1.00 84.06 C +ATOM 8223 C VAL B 149 16.040 24.253 -52.992 1.00 83.71 C +ATOM 8224 O VAL B 149 16.406 23.692 -51.951 1.00 83.53 O +ATOM 8225 CB VAL B 149 16.534 26.612 -52.223 1.00 84.08 C +ATOM 8226 N VAL B 150 16.080 23.671 -54.192 1.00 83.31 N +ATOM 8227 CA VAL B 150 16.479 22.271 -54.403 1.00 82.88 C +ATOM 8228 C VAL B 150 17.999 22.071 -54.494 1.00 82.49 C +ATOM 8229 O VAL B 150 18.722 22.925 -55.015 1.00 82.49 O +ATOM 8230 CB VAL B 150 15.813 21.678 -55.673 1.00 82.76 C +ATOM 8231 N CYS B 151 18.459 20.928 -53.986 1.00 82.00 N +ATOM 8232 CA CYS B 151 19.876 20.544 -53.989 1.00 81.57 C +ATOM 8233 C CYS B 151 19.972 19.017 -54.121 1.00 81.13 C +ATOM 8234 O CYS B 151 19.578 18.283 -53.204 1.00 81.22 O +ATOM 8235 CB CYS B 151 20.556 21.027 -52.695 1.00 81.68 C +ATOM 8236 SG CYS B 151 22.375 20.873 -52.610 1.00 81.79 S +ATOM 8237 N LEU B 152 20.479 18.545 -55.262 1.00 80.37 N +ATOM 8238 CA LEU B 152 20.511 17.104 -55.575 1.00 79.60 C +ATOM 8239 C LEU B 152 21.886 16.454 -55.387 1.00 78.97 C +ATOM 8240 O LEU B 152 22.920 17.095 -55.538 1.00 78.97 O +ATOM 8241 CB LEU B 152 19.987 16.831 -56.998 1.00 79.47 C +ATOM 8242 N LEU B 153 21.873 15.174 -55.032 1.00 78.21 N +ATOM 8243 CA LEU B 153 23.065 14.341 -55.032 1.00 77.30 C +ATOM 8244 C LEU B 153 22.683 13.072 -55.771 1.00 77.02 C +ATOM 8245 O LEU B 153 21.775 12.350 -55.352 1.00 77.00 O +ATOM 8246 CB LEU B 153 23.496 14.003 -53.612 1.00 77.00 C +ATOM 8247 CG LEU B 153 24.083 15.098 -52.738 1.00 76.37 C +ATOM 8248 CD1 LEU B 153 23.012 16.006 -52.173 1.00 75.66 C +ATOM 8249 CD2 LEU B 153 24.831 14.422 -51.618 1.00 76.44 C +ATOM 8250 N ASN B 154 23.367 12.812 -56.879 1.00 76.50 N +ATOM 8251 CA ASN B 154 22.984 11.728 -57.772 1.00 76.01 C +ATOM 8252 C ASN B 154 23.935 10.540 -57.677 1.00 75.80 C +ATOM 8253 O ASN B 154 25.152 10.712 -57.512 1.00 75.80 O +ATOM 8254 CB ASN B 154 22.906 12.250 -59.209 1.00 75.96 C +ATOM 8255 CG ASN B 154 22.013 11.411 -60.095 1.00 75.48 C +ATOM 8256 OD1 ASN B 154 21.596 10.312 -59.726 1.00 75.63 O +ATOM 8257 ND2 ASN B 154 21.717 11.927 -61.283 1.00 74.44 N +ATOM 8258 N ASN B 155 23.348 9.343 -57.770 1.00 75.48 N +ATOM 8259 CA ASN B 155 24.068 8.061 -57.725 1.00 75.37 C +ATOM 8260 C ASN B 155 25.375 7.982 -56.919 1.00 75.18 C +ATOM 8261 O ASN B 155 26.468 8.210 -57.450 1.00 75.59 O +ATOM 8262 CB ASN B 155 24.271 7.538 -59.148 1.00 75.45 C +ATOM 8263 CG ASN B 155 22.958 7.243 -59.843 1.00 75.94 C +ATOM 8264 OD1 ASN B 155 21.883 7.444 -59.274 1.00 76.86 O +ATOM 8265 ND2 ASN B 155 23.036 6.761 -61.079 1.00 76.01 N +ATOM 8266 N PHE B 156 25.240 7.662 -55.637 1.00 74.58 N +ATOM 8267 CA PHE B 156 26.383 7.524 -54.745 1.00 74.01 C +ATOM 8268 C PHE B 156 26.065 6.500 -53.663 1.00 73.99 C +ATOM 8269 O PHE B 156 25.155 6.699 -52.858 1.00 74.14 O +ATOM 8270 CB PHE B 156 26.739 8.870 -54.112 1.00 73.71 C +ATOM 8271 CG PHE B 156 25.702 9.380 -53.152 1.00 73.33 C +ATOM 8272 CD1 PHE B 156 25.762 9.052 -51.808 1.00 72.97 C +ATOM 8273 CD2 PHE B 156 24.667 10.189 -53.594 1.00 72.73 C +ATOM 8274 CE1 PHE B 156 24.810 9.521 -50.922 1.00 72.55 C +ATOM 8275 CE2 PHE B 156 23.712 10.660 -52.713 1.00 72.44 C +ATOM 8276 CZ PHE B 156 23.783 10.326 -51.376 1.00 72.52 C +ATOM 8277 N TYR B 157 26.812 5.401 -53.656 1.00 73.87 N +ATOM 8278 CA TYR B 157 26.583 4.324 -52.701 1.00 73.65 C +ATOM 8279 C TYR B 157 26.628 4.820 -51.259 1.00 73.43 C +ATOM 8280 O TYR B 157 25.974 5.801 -50.905 1.00 73.48 O +ATOM 8281 CB TYR B 157 27.607 3.205 -52.902 1.00 73.77 C +ATOM 8282 CG TYR B 157 27.473 2.068 -51.914 1.00 73.86 C +ATOM 8283 CD1 TYR B 157 26.230 1.691 -51.424 1.00 73.77 C +ATOM 8284 CD2 TYR B 157 28.590 1.372 -51.471 1.00 74.11 C +ATOM 8285 CE1 TYR B 157 26.102 0.653 -50.521 1.00 73.93 C +ATOM 8286 CE2 TYR B 157 28.472 0.333 -50.568 1.00 74.17 C +ATOM 8287 CZ TYR B 157 27.227 -0.023 -50.096 1.00 74.02 C +ATOM 8288 OH TYR B 157 27.105 -1.057 -49.197 1.00 73.82 O +ATOM 8289 N PRO B 158 27.404 4.130 -50.431 1.00 73.28 N +ATOM 8290 CA PRO B 158 27.525 4.475 -49.012 1.00 73.31 C +ATOM 8291 C PRO B 158 26.542 5.564 -48.592 1.00 73.47 C +ATOM 8292 O PRO B 158 26.866 6.749 -48.666 1.00 73.66 O +ATOM 8293 CB PRO B 158 28.959 4.993 -48.909 1.00 73.21 C +ATOM 8294 CG PRO B 158 29.697 4.223 -49.949 1.00 73.04 C +ATOM 8295 CD PRO B 158 28.721 3.943 -51.067 1.00 73.16 C +ATOM 8296 N ARG B 159 25.355 5.159 -48.152 1.00 73.56 N +ATOM 8297 CA ARG B 159 24.349 6.104 -47.682 1.00 73.64 C +ATOM 8298 C ARG B 159 24.781 6.715 -46.354 1.00 73.66 C +ATOM 8299 O ARG B 159 24.502 6.167 -45.288 1.00 73.91 O +ATOM 8300 CB ARG B 159 22.993 5.415 -47.530 1.00 73.45 C +ATOM 8301 N GLU B 160 25.466 7.851 -46.427 1.00 73.35 N +ATOM 8302 CA GLU B 160 25.994 8.511 -45.231 1.00 73.19 C +ATOM 8303 C GLU B 160 26.217 9.981 -45.534 1.00 73.07 C +ATOM 8304 O GLU B 160 26.745 10.319 -46.589 1.00 72.90 O +ATOM 8305 CB GLU B 160 27.306 7.868 -44.763 1.00 73.06 C +ATOM 8306 N GLY B 161 17.931 23.760 -38.315 1.00 78.39 N +ATOM 8307 CA GLY B 161 17.046 24.846 -38.745 1.00 78.67 C +ATOM 8308 C GLY B 161 15.979 24.479 -39.777 1.00 78.66 C +ATOM 8309 O GLY B 161 15.015 23.757 -39.476 1.00 78.64 O +ATOM 8310 N ASN B 162 16.135 25.006 -40.991 1.00 78.49 N +ATOM 8311 CA ASN B 162 15.233 24.682 -42.087 1.00 78.42 C +ATOM 8312 C ASN B 162 15.961 23.868 -43.160 1.00 78.40 C +ATOM 8313 O ASN B 162 16.360 24.406 -44.204 1.00 78.67 O +ATOM 8314 CB ASN B 162 14.606 25.949 -42.678 1.00 78.26 C +ATOM 8315 N SER B 163 16.134 22.573 -42.886 1.00 77.96 N +ATOM 8316 CA SER B 163 16.769 21.646 -43.826 1.00 77.45 C +ATOM 8317 C SER B 163 15.984 20.320 -43.934 1.00 77.02 C +ATOM 8318 O SER B 163 16.091 19.462 -43.046 1.00 77.14 O +ATOM 8319 CB SER B 163 18.225 21.394 -43.403 1.00 77.45 C +ATOM 8320 N GLN B 164 15.205 20.157 -45.014 1.00 76.18 N +ATOM 8321 CA GLN B 164 14.354 18.951 -45.217 1.00 75.25 C +ATOM 8322 C GLN B 164 14.773 18.051 -46.407 1.00 74.46 C +ATOM 8323 O GLN B 164 14.697 18.476 -47.566 1.00 74.42 O +ATOM 8324 CB GLN B 164 12.873 19.346 -45.338 1.00 75.18 C +ATOM 8325 N GLU B 165 15.187 16.810 -46.109 1.00 73.36 N +ATOM 8326 CA GLU B 165 15.797 15.887 -47.109 1.00 72.17 C +ATOM 8327 C GLU B 165 15.066 14.538 -47.310 1.00 71.16 C +ATOM 8328 O GLU B 165 14.144 14.214 -46.559 1.00 71.18 O +ATOM 8329 CB GLU B 165 17.277 15.637 -46.772 1.00 72.16 C +ATOM 8330 CG GLU B 165 17.540 15.266 -45.307 1.00 72.16 C +ATOM 8331 CD GLU B 165 18.899 14.614 -45.079 1.00 72.28 C +ATOM 8332 OE1 GLU B 165 19.826 14.836 -45.891 1.00 72.17 O +ATOM 8333 OE2 GLU B 165 19.041 13.877 -44.074 1.00 72.33 O +ATOM 8334 N SER B 166 15.477 13.772 -48.328 1.00 69.76 N +ATOM 8335 CA SER B 166 14.979 12.398 -48.556 1.00 68.35 C +ATOM 8336 C SER B 166 15.863 11.613 -49.532 1.00 67.73 C +ATOM 8337 O SER B 166 16.216 12.121 -50.600 1.00 67.66 O +ATOM 8338 CB SER B 166 13.520 12.386 -49.045 1.00 68.17 C +ATOM 8339 OG SER B 166 13.433 12.424 -50.457 1.00 66.78 O +ATOM 8340 N VAL B 167 16.193 10.372 -49.165 1.00 66.78 N +ATOM 8341 CA VAL B 167 17.044 9.485 -49.982 1.00 65.70 C +ATOM 8342 C VAL B 167 16.233 8.392 -50.700 1.00 65.10 C +ATOM 8343 O VAL B 167 15.269 7.871 -50.144 1.00 65.06 O +ATOM 8344 CB VAL B 167 18.142 8.797 -49.129 1.00 65.54 C +ATOM 8345 CG1 VAL B 167 19.353 8.510 -49.979 1.00 65.37 C +ATOM 8346 CG2 VAL B 167 18.539 9.656 -47.938 1.00 65.29 C +ATOM 8347 N THR B 168 16.629 8.047 -51.926 1.00 64.46 N +ATOM 8348 CA THR B 168 15.976 6.965 -52.684 1.00 63.96 C +ATOM 8349 C THR B 168 16.467 5.613 -52.209 1.00 63.38 C +ATOM 8350 O THR B 168 17.505 5.527 -51.559 1.00 63.44 O +ATOM 8351 CB THR B 168 16.289 7.012 -54.200 1.00 64.08 C +ATOM 8352 OG1 THR B 168 16.967 8.228 -54.544 1.00 64.19 O +ATOM 8353 CG2 THR B 168 15.001 6.857 -55.023 1.00 64.28 C +ATOM 8354 N GLU B 169 15.745 4.551 -52.554 1.00 62.71 N +ATOM 8355 CA GLU B 169 16.234 3.212 -52.265 1.00 62.37 C +ATOM 8356 C GLU B 169 17.436 2.899 -53.151 1.00 61.92 C +ATOM 8357 O GLU B 169 17.688 3.598 -54.136 1.00 62.17 O +ATOM 8358 CB GLU B 169 15.149 2.163 -52.462 1.00 62.45 C +ATOM 8359 CG GLU B 169 15.242 1.017 -51.456 1.00 63.05 C +ATOM 8360 CD GLU B 169 14.458 1.287 -50.177 1.00 64.13 C +ATOM 8361 OE1 GLU B 169 14.712 0.598 -49.162 1.00 64.65 O +ATOM 8362 OE2 GLU B 169 13.580 2.181 -50.188 1.00 64.70 O +ATOM 8363 N GLN B 170 18.182 1.859 -52.789 1.00 61.21 N +ATOM 8364 CA GLN B 170 19.354 1.454 -53.540 1.00 60.50 C +ATOM 8365 C GLN B 170 18.933 1.041 -54.927 1.00 60.41 C +ATOM 8366 O GLN B 170 17.907 0.379 -55.093 1.00 60.48 O +ATOM 8367 CB GLN B 170 20.051 0.293 -52.849 1.00 60.34 C +ATOM 8368 CG GLN B 170 21.530 0.269 -53.104 1.00 59.66 C +ATOM 8369 CD GLN B 170 22.221 -0.899 -52.459 1.00 58.76 C +ATOM 8370 OE1 GLN B 170 21.597 -1.713 -51.791 1.00 58.64 O +ATOM 8371 NE2 GLN B 170 23.524 -0.992 -52.659 1.00 58.93 N +ATOM 8372 N ASP B 171 19.716 1.439 -55.922 1.00 60.29 N +ATOM 8373 CA ASP B 171 19.362 1.162 -57.309 1.00 60.35 C +ATOM 8374 C ASP B 171 19.433 -0.332 -57.698 1.00 60.44 C +ATOM 8375 O ASP B 171 20.180 -1.123 -57.101 1.00 60.43 O +ATOM 8376 CB ASP B 171 20.176 2.031 -58.266 1.00 60.17 C +ATOM 8377 CG ASP B 171 19.621 2.012 -59.674 1.00 60.38 C +ATOM 8378 OD1 ASP B 171 18.532 2.585 -59.902 1.00 60.38 O +ATOM 8379 OD2 ASP B 171 20.267 1.411 -60.556 1.00 60.95 O +ATOM 8380 N SER B 172 18.624 -0.699 -58.692 1.00 60.55 N +ATOM 8381 CA SER B 172 18.517 -2.074 -59.188 1.00 60.51 C +ATOM 8382 C SER B 172 19.667 -2.467 -60.110 1.00 60.41 C +ATOM 8383 O SER B 172 19.905 -3.657 -60.338 1.00 60.51 O +ATOM 8384 CB SER B 172 17.191 -2.256 -59.932 1.00 60.45 C +ATOM 8385 OG SER B 172 16.105 -2.228 -59.029 1.00 60.91 O +ATOM 8386 N LYS B 173 20.364 -1.463 -60.646 1.00 60.21 N +ATOM 8387 CA LYS B 173 21.411 -1.677 -61.643 1.00 59.86 C +ATOM 8388 C LYS B 173 22.773 -1.120 -61.201 1.00 59.68 C +ATOM 8389 O LYS B 173 23.761 -1.857 -61.183 1.00 59.78 O +ATOM 8390 CB LYS B 173 20.987 -1.109 -63.003 1.00 59.74 C +ATOM 8391 N ASP B 174 22.829 0.162 -60.836 1.00 59.40 N +ATOM 8392 CA ASP B 174 24.099 0.787 -60.418 1.00 59.16 C +ATOM 8393 C ASP B 174 24.333 0.739 -58.898 1.00 58.85 C +ATOM 8394 O ASP B 174 25.335 1.240 -58.392 1.00 58.66 O +ATOM 8395 CB ASP B 174 24.240 2.217 -60.987 1.00 59.22 C +ATOM 8396 CG ASP B 174 23.330 3.233 -60.302 1.00 59.08 C +ATOM 8397 OD1 ASP B 174 23.185 3.199 -59.061 1.00 58.43 O +ATOM 8398 OD2 ASP B 174 22.776 4.092 -61.017 1.00 58.90 O +ATOM 8399 N SER B 175 23.377 0.132 -58.201 1.00 58.66 N +ATOM 8400 CA SER B 175 23.395 -0.095 -56.751 1.00 58.33 C +ATOM 8401 C SER B 175 23.715 1.095 -55.859 1.00 58.31 C +ATOM 8402 O SER B 175 24.338 0.932 -54.813 1.00 58.28 O +ATOM 8403 CB SER B 175 24.263 -1.309 -56.401 1.00 58.19 C +ATOM 8404 OG SER B 175 23.497 -2.503 -56.467 1.00 57.87 O +ATOM 8405 N THR B 176 23.249 2.280 -56.257 1.00 58.49 N +ATOM 8406 CA THR B 176 23.506 3.519 -55.513 1.00 58.78 C +ATOM 8407 C THR B 176 22.254 4.293 -55.119 1.00 59.12 C +ATOM 8408 O THR B 176 21.151 4.031 -55.618 1.00 59.27 O +ATOM 8409 CB THR B 176 24.388 4.498 -56.310 1.00 58.80 C +ATOM 8410 OG1 THR B 176 23.795 4.753 -57.589 1.00 58.20 O +ATOM 8411 CG2 THR B 176 25.792 3.953 -56.490 1.00 59.13 C +ATOM 8412 N TYR B 177 22.461 5.275 -54.243 1.00 59.45 N +ATOM 8413 CA TYR B 177 21.399 6.140 -53.734 1.00 59.90 C +ATOM 8414 C TYR B 177 21.430 7.545 -54.342 1.00 60.62 C +ATOM 8415 O TYR B 177 22.322 7.879 -55.125 1.00 60.82 O +ATOM 8416 CB TYR B 177 21.506 6.251 -52.215 1.00 59.27 C +ATOM 8417 CG TYR B 177 21.654 4.927 -51.523 1.00 58.77 C +ATOM 8418 CD1 TYR B 177 22.889 4.511 -51.032 1.00 58.64 C +ATOM 8419 CD2 TYR B 177 20.562 4.085 -51.362 1.00 57.80 C +ATOM 8420 CE1 TYR B 177 23.026 3.287 -50.396 1.00 58.14 C +ATOM 8421 CE2 TYR B 177 20.692 2.868 -50.729 1.00 57.44 C +ATOM 8422 CZ TYR B 177 21.920 2.473 -50.257 1.00 57.76 C +ATOM 8423 OH TYR B 177 22.031 1.264 -49.631 1.00 58.26 O +ATOM 8424 N SER B 178 20.438 8.356 -53.972 1.00 61.39 N +ATOM 8425 CA SER B 178 20.400 9.779 -54.302 1.00 61.99 C +ATOM 8426 C SER B 178 19.620 10.523 -53.212 1.00 62.63 C +ATOM 8427 O SER B 178 18.457 10.208 -52.956 1.00 62.83 O +ATOM 8428 CB SER B 178 19.752 10.005 -55.674 1.00 61.93 C +ATOM 8429 OG SER B 178 20.396 9.258 -56.692 1.00 61.44 O +ATOM 8430 N LEU B 179 20.257 11.483 -52.547 1.00 63.33 N +ATOM 8431 CA LEU B 179 19.549 12.311 -51.565 1.00 64.07 C +ATOM 8432 C LEU B 179 18.942 13.543 -52.253 1.00 64.71 C +ATOM 8433 O LEU B 179 19.126 13.740 -53.464 1.00 64.69 O +ATOM 8434 CB LEU B 179 20.454 12.694 -50.384 1.00 63.80 C +ATOM 8435 N SER B 180 18.204 14.349 -51.485 1.00 65.51 N +ATOM 8436 CA SER B 180 17.446 15.492 -52.011 1.00 66.10 C +ATOM 8437 C SER B 180 16.991 16.403 -50.880 1.00 66.91 C +ATOM 8438 O SER B 180 15.887 16.244 -50.345 1.00 66.90 O +ATOM 8439 CB SER B 180 16.230 15.023 -52.816 1.00 65.83 C +ATOM 8440 OG SER B 180 15.239 16.028 -52.894 1.00 65.03 O +ATOM 8441 N SER B 181 17.854 17.355 -50.528 1.00 67.91 N +ATOM 8442 CA SER B 181 17.566 18.339 -49.481 1.00 68.61 C +ATOM 8443 C SER B 181 16.850 19.541 -50.080 1.00 69.17 C +ATOM 8444 O SER B 181 16.978 19.816 -51.276 1.00 69.20 O +ATOM 8445 CB SER B 181 18.859 18.786 -48.786 1.00 68.47 C +ATOM 8446 OG SER B 181 18.621 19.165 -47.440 1.00 68.41 O +ATOM 8447 N THR B 182 16.084 20.240 -49.248 1.00 69.99 N +ATOM 8448 CA THR B 182 15.417 21.476 -49.663 1.00 70.74 C +ATOM 8449 C THR B 182 15.534 22.567 -48.589 1.00 71.12 C +ATOM 8450 O THR B 182 15.323 22.316 -47.388 1.00 71.27 O +ATOM 8451 CB THR B 182 13.930 21.240 -50.038 1.00 70.66 C +ATOM 8452 OG1 THR B 182 13.795 19.974 -50.691 1.00 71.15 O +ATOM 8453 CG2 THR B 182 13.432 22.325 -50.982 1.00 70.78 C +ATOM 8454 N LEU B 183 15.904 23.768 -49.037 1.00 71.41 N +ATOM 8455 CA LEU B 183 15.855 24.957 -48.197 1.00 71.53 C +ATOM 8456 C LEU B 183 14.511 25.644 -48.411 1.00 71.65 C +ATOM 8457 O LEU B 183 14.171 26.063 -49.527 1.00 71.47 O +ATOM 8458 CB LEU B 183 17.024 25.906 -48.493 1.00 71.42 C +ATOM 8459 N THR B 184 13.733 25.695 -47.336 1.00 71.95 N +ATOM 8460 CA THR B 184 12.481 26.444 -47.297 1.00 72.15 C +ATOM 8461 C THR B 184 12.514 27.338 -46.062 1.00 72.22 C +ATOM 8462 O THR B 184 13.473 27.272 -45.273 1.00 72.08 O +ATOM 8463 CB THR B 184 11.239 25.516 -47.261 1.00 71.92 C +ATOM 8464 N VAL B 185 27.871 19.417 -48.870 1.00 98.34 N +ATOM 8465 CA VAL B 185 28.055 17.996 -49.150 1.00 98.38 C +ATOM 8466 C VAL B 185 29.400 17.484 -48.616 1.00 98.47 C +ATOM 8467 O VAL B 185 30.457 17.962 -49.024 1.00 98.47 O +ATOM 8468 CB VAL B 185 27.935 17.699 -50.668 1.00 98.18 C +ATOM 8469 N THR B 186 29.347 16.527 -47.690 1.00 98.65 N +ATOM 8470 CA THR B 186 30.546 15.838 -47.191 1.00 98.89 C +ATOM 8471 C THR B 186 30.413 14.309 -47.349 1.00 99.11 C +ATOM 8472 O THR B 186 29.633 13.666 -46.642 1.00 99.24 O +ATOM 8473 CB THR B 186 30.859 16.205 -45.721 1.00 98.73 C +ATOM 8474 N HIS B 187 31.190 13.743 -48.275 1.00 99.27 N +ATOM 8475 CA HIS B 187 31.061 12.339 -48.691 1.00 99.24 C +ATOM 8476 C HIS B 187 32.355 11.535 -48.473 1.00 99.12 C +ATOM 8477 O HIS B 187 33.445 12.108 -48.396 1.00 99.29 O +ATOM 8478 CB HIS B 187 30.644 12.298 -50.172 1.00 99.30 C +ATOM 8479 CG HIS B 187 30.087 10.981 -50.620 1.00 99.73 C +ATOM 8480 ND1 HIS B 187 28.953 10.424 -50.068 1.00100.10 N +ATOM 8481 CD2 HIS B 187 30.494 10.123 -51.585 1.00100.01 C +ATOM 8482 CE1 HIS B 187 28.695 9.274 -50.662 1.00 99.99 C +ATOM 8483 NE2 HIS B 187 29.614 9.068 -51.587 1.00100.19 N +ATOM 8484 N GLN B 188 32.230 10.212 -48.369 1.00 98.89 N +ATOM 8485 CA GLN B 188 33.395 9.325 -48.310 1.00 98.58 C +ATOM 8486 C GLN B 188 34.104 9.259 -49.665 1.00 98.38 C +ATOM 8487 O GLN B 188 35.335 9.226 -49.728 1.00 98.33 O +ATOM 8488 CB GLN B 188 32.992 7.921 -47.848 1.00 98.55 C +ATOM 8489 N GLY B 189 33.315 9.258 -50.740 1.00 98.14 N +ATOM 8490 CA GLY B 189 33.827 9.180 -52.111 1.00 97.95 C +ATOM 8491 C GLY B 189 34.484 10.443 -52.639 1.00 97.86 C +ATOM 8492 O GLY B 189 35.116 10.422 -53.697 1.00 97.82 O +ATOM 8493 N LEU B 190 34.324 11.545 -51.911 1.00 97.83 N +ATOM 8494 CA LEU B 190 34.982 12.806 -52.248 1.00 97.80 C +ATOM 8495 C LEU B 190 36.135 13.059 -51.277 1.00 97.89 C +ATOM 8496 O LEU B 190 35.952 12.983 -50.054 1.00 97.88 O +ATOM 8497 CB LEU B 190 33.986 13.972 -52.213 1.00 97.71 C +ATOM 8498 CG LEU B 190 32.780 13.945 -53.164 1.00 97.73 C +ATOM 8499 CD1 LEU B 190 31.699 14.913 -52.692 1.00 97.62 C +ATOM 8500 CD2 LEU B 190 33.169 14.226 -54.621 1.00 97.15 C +ATOM 8501 N SER B 191 37.318 13.340 -51.829 1.00 97.87 N +ATOM 8502 CA SER B 191 38.522 13.615 -51.038 1.00 97.76 C +ATOM 8503 C SER B 191 38.466 15.003 -50.386 1.00 97.79 C +ATOM 8504 O SER B 191 38.969 15.195 -49.271 1.00 97.92 O +ATOM 8505 CB SER B 191 39.779 13.470 -51.900 1.00 97.67 C +ATOM 8506 N SER B 192 37.855 15.960 -51.088 1.00 97.70 N +ATOM 8507 CA SER B 192 37.597 17.305 -50.553 1.00 97.51 C +ATOM 8508 C SER B 192 36.148 17.768 -50.836 1.00 97.32 C +ATOM 8509 O SER B 192 35.719 17.801 -52.002 1.00 97.22 O +ATOM 8510 CB SER B 192 38.614 18.313 -51.101 1.00 97.47 C +ATOM 8511 N PRO B 193 35.394 18.115 -49.765 1.00 97.03 N +ATOM 8512 CA PRO B 193 33.982 18.523 -49.807 1.00 96.80 C +ATOM 8513 C PRO B 193 33.612 19.407 -50.998 1.00 96.65 C +ATOM 8514 O PRO B 193 34.399 20.262 -51.396 1.00 96.78 O +ATOM 8515 CB PRO B 193 33.818 19.301 -48.503 1.00 96.67 C +ATOM 8516 CG PRO B 193 34.734 18.609 -47.563 1.00 96.74 C +ATOM 8517 CD PRO B 193 35.907 18.116 -48.379 1.00 96.93 C +ATOM 8518 N VAL B 194 32.417 19.197 -51.551 1.00 96.50 N +ATOM 8519 CA VAL B 194 31.950 19.944 -52.724 1.00 96.32 C +ATOM 8520 C VAL B 194 30.691 20.780 -52.466 1.00 96.21 C +ATOM 8521 O VAL B 194 29.836 20.412 -51.653 1.00 96.16 O +ATOM 8522 CB VAL B 194 31.686 19.008 -53.921 1.00 96.26 C +ATOM 8523 N THR B 195 30.600 21.911 -53.166 1.00 96.10 N +ATOM 8524 CA THR B 195 29.414 22.769 -53.153 1.00 95.94 C +ATOM 8525 C THR B 195 29.272 23.441 -54.519 1.00 95.81 C +ATOM 8526 O THR B 195 30.084 24.290 -54.882 1.00 95.81 O +ATOM 8527 CB THR B 195 29.488 23.835 -52.041 1.00 95.83 C +ATOM 8528 N LYS B 196 28.250 23.041 -55.275 1.00 95.71 N +ATOM 8529 CA LYS B 196 28.054 23.518 -56.648 1.00 95.62 C +ATOM 8530 C LYS B 196 26.629 24.004 -56.924 1.00 95.62 C +ATOM 8531 O LYS B 196 25.735 23.886 -56.084 1.00 95.59 O +ATOM 8532 CB LYS B 196 28.440 22.432 -57.657 1.00 95.54 C diff --git a/content/data/protein/benchbb_antibody_targets/5bjz_imgt.pdb b/content/data/protein/benchbb_antibody_targets/5bjz_imgt.pdb new file mode 100644 index 0000000..635db98 --- /dev/null +++ b/content/data/protein/benchbb_antibody_targets/5bjz_imgt.pdb @@ -0,0 +1,13611 @@ +REMARK 5 IMGT RENUMBERED STRUCTURE 5BJZ GENERATED BY SABDAB +REMARK 5 ANTIBODY CHAINS ARE RENUMBERED IN THE VARIABLE REGIONS ONLY +REMARK 5 NON ANTIBODY CHAINS ARE LEFT WITH RESIDUE IDS AS IN PDB +REMARK 5 PAIRED_HL HCHAIN=C LCHAIN=L AGCHAIN=A AGTYPE=PROTEIN +REMARK 5 PAIRED_HL HCHAIN=D LCHAIN=H AGCHAIN=B AGTYPE=PROTEIN +ATOM 1 N LYS B 1 -10.673 -19.049 197.513 1.00 60.39 N +ATOM 2 CA LYS B 1 -9.960 -20.015 196.691 1.00 59.38 C +ATOM 3 C LYS B 1 -10.892 -20.592 195.619 1.00 53.77 C +ATOM 4 O LYS B 1 -12.078 -20.830 195.858 1.00 53.47 O +ATOM 5 CB LYS B 1 -9.377 -21.140 197.552 1.00 64.02 C +ATOM 6 CG LYS B 1 -8.323 -21.987 196.848 1.00 66.19 C +ATOM 7 CD LYS B 1 -7.024 -21.195 196.701 1.00 67.53 C +ATOM 8 CE LYS B 1 -6.198 -21.660 195.512 1.00 67.74 C +ATOM 9 NZ LYS B 1 -6.909 -21.407 194.229 1.00 66.80 N +ATOM 10 N ILE B 2 -10.331 -20.818 194.444 1.00 45.33 N +ATOM 11 CA ILE B 2 -11.040 -21.358 193.289 1.00 36.03 C +ATOM 12 C ILE B 2 -10.949 -22.880 193.333 1.00 37.53 C +ATOM 13 O ILE B 2 -9.901 -23.438 193.672 1.00 40.84 O +ATOM 14 CB ILE B 2 -10.438 -20.771 191.998 1.00 29.03 C +ATOM 15 CG1 ILE B 2 -10.568 -19.241 192.015 1.00 27.16 C +ATOM 16 CG2 ILE B 2 -11.065 -21.394 190.746 1.00 27.25 C +ATOM 17 CD1 ILE B 2 -9.766 -18.521 190.948 1.00 23.61 C +ATOM 18 N GLU B 3 -12.057 -23.552 193.010 1.00 35.91 N +ATOM 19 CA GLU B 3 -12.148 -25.005 193.122 1.00 36.52 C +ATOM 20 C GLU B 3 -11.275 -25.700 192.082 1.00 35.30 C +ATOM 21 O GLU B 3 -11.335 -25.381 190.893 1.00 31.83 O +ATOM 22 CB GLU B 3 -13.602 -25.444 192.960 1.00 39.78 C +ATOM 23 CG GLU B 3 -13.853 -26.913 193.225 1.00 47.80 C +ATOM 24 CD GLU B 3 -15.321 -27.282 193.069 1.00 54.95 C +ATOM 25 OE1 GLU B 3 -15.620 -28.356 192.493 1.00 54.57 O +ATOM 26 OE2 GLU B 3 -16.177 -26.499 193.541 1.00 57.47 O +ATOM 27 N GLU B 4 -10.478 -26.669 192.526 1.00 36.37 N +ATOM 28 CA GLU B 4 -9.584 -27.398 191.636 1.00 38.74 C +ATOM 29 C GLU B 4 -10.311 -28.558 190.964 1.00 38.02 C +ATOM 30 O GLU B 4 -11.188 -29.187 191.558 1.00 42.18 O +ATOM 31 CB GLU B 4 -8.353 -27.899 192.402 1.00 41.97 C +ATOM 32 CG GLU B 4 -7.288 -28.530 191.513 1.00 49.60 C +ATOM 33 CD GLU B 4 -5.982 -28.788 192.244 1.00 57.74 C +ATOM 34 OE1 GLU B 4 -4.980 -29.108 191.567 1.00 59.59 O +ATOM 35 OE2 GLU B 4 -5.950 -28.655 193.488 1.00 60.46 O +ATOM 36 N GLY B 5 -9.957 -28.821 189.708 1.00 36.49 N +ATOM 37 CA GLY B 5 -10.536 -29.933 188.980 1.00 33.76 C +ATOM 38 C GLY B 5 -11.743 -29.607 188.130 1.00 32.07 C +ATOM 39 O GLY B 5 -12.472 -30.526 187.740 1.00 30.93 O +ATOM 40 N LYS B 6 -11.985 -28.334 187.834 1.00 31.47 N +ATOM 41 CA LYS B 6 -13.088 -27.944 186.964 1.00 32.13 C +ATOM 42 C LYS B 6 -12.818 -26.537 186.464 1.00 28.78 C +ATOM 43 O LYS B 6 -11.918 -25.855 186.951 1.00 31.38 O +ATOM 44 CB LYS B 6 -14.436 -28.022 187.688 1.00 34.36 C +ATOM 45 CG LYS B 6 -14.624 -26.988 188.772 1.00 37.95 C +ATOM 46 CD LYS B 6 -16.089 -26.948 189.206 1.00 44.55 C +ATOM 47 CE LYS B 6 -16.449 -25.612 189.826 1.00 49.03 C +ATOM 48 NZ LYS B 6 -17.830 -25.607 190.392 1.00 51.53 N +ATOM 49 N LEU B 7 -13.595 -26.105 185.471 1.00 26.71 N +ATOM 50 CA LEU B 7 -13.433 -24.770 184.905 1.00 26.79 C +ATOM 51 C LEU B 7 -14.701 -23.952 185.099 1.00 27.86 C +ATOM 52 O LEU B 7 -15.803 -24.422 184.800 1.00 29.06 O +ATOM 53 CB LEU B 7 -13.078 -24.818 183.416 1.00 28.16 C +ATOM 54 CG LEU B 7 -11.679 -25.325 183.055 1.00 29.11 C +ATOM 55 CD1 LEU B 7 -11.546 -25.364 181.545 1.00 28.99 C +ATOM 56 CD2 LEU B 7 -10.567 -24.477 183.682 1.00 26.23 C +ATOM 57 N VAL B 8 -14.529 -22.726 185.584 1.00 26.71 N +ATOM 58 CA VAL B 8 -15.569 -21.710 185.616 1.00 23.76 C +ATOM 59 C VAL B 8 -15.165 -20.615 184.640 1.00 22.78 C +ATOM 60 O VAL B 8 -14.032 -20.114 184.695 1.00 22.32 O +ATOM 61 CB VAL B 8 -15.761 -21.134 187.033 1.00 26.98 C +ATOM 62 CG1 VAL B 8 -16.798 -19.993 187.010 1.00 24.70 C +ATOM 63 CG2 VAL B 8 -16.199 -22.231 187.991 1.00 27.12 C +ATOM 64 N ILE B 9 -16.077 -20.265 183.733 1.00 21.46 N +ATOM 65 CA ILE B 9 -15.843 -19.269 182.696 1.00 20.13 C +ATOM 66 C ILE B 9 -16.881 -18.162 182.825 1.00 21.71 C +ATOM 67 O ILE B 9 -18.078 -18.448 182.928 1.00 20.20 O +ATOM 68 CB ILE B 9 -15.936 -19.891 181.288 1.00 24.05 C +ATOM 69 CG1 ILE B 9 -14.885 -20.990 181.083 1.00 25.09 C +ATOM 70 CG2 ILE B 9 -15.801 -18.807 180.250 1.00 18.35 C +ATOM 71 CD1 ILE B 9 -14.965 -21.645 179.694 1.00 24.51 C +ATOM 72 N TRP B 10 -16.434 -16.905 182.766 1.00 18.10 N +ATOM 73 CA TRP B 10 -17.307 -15.738 182.670 1.00 18.12 C +ATOM 74 C TRP B 10 -17.211 -15.136 181.270 1.00 21.64 C +ATOM 75 O TRP B 10 -16.105 -14.907 180.755 1.00 19.89 O +ATOM 76 CB TRP B 10 -16.935 -14.651 183.689 1.00 20.10 C +ATOM 77 CG TRP B 10 -17.294 -14.977 185.103 1.00 20.88 C +ATOM 78 CD1 TRP B 10 -17.853 -16.131 185.561 1.00 20.03 C +ATOM 79 CD2 TRP B 10 -17.112 -14.132 186.247 1.00 22.25 C +ATOM 80 NE1 TRP B 10 -18.025 -16.060 186.925 1.00 23.03 N +ATOM 81 CE2 TRP B 10 -17.586 -14.839 187.367 1.00 22.63 C +ATOM 82 CE3 TRP B 10 -16.579 -12.849 186.432 1.00 22.92 C +ATOM 83 CZ2 TRP B 10 -17.544 -14.307 188.660 1.00 26.30 C +ATOM 84 CZ3 TRP B 10 -16.547 -12.320 187.715 1.00 23.86 C +ATOM 85 CH2 TRP B 10 -17.017 -13.055 188.812 1.00 24.30 C +ATOM 86 N ILE B 11 -18.367 -14.835 180.684 1.00 21.01 N +ATOM 87 CA ILE B 11 -18.458 -14.163 179.395 1.00 19.80 C +ATOM 88 C ILE B 11 -19.705 -13.284 179.409 1.00 21.91 C +ATOM 89 O ILE B 11 -20.691 -13.601 180.070 1.00 25.55 O +ATOM 90 CB ILE B 11 -18.489 -15.207 178.253 1.00 19.85 C +ATOM 91 CG1 ILE B 11 -18.506 -14.534 176.885 1.00 19.78 C +ATOM 92 CG2 ILE B 11 -19.672 -16.160 178.427 1.00 19.16 C +ATOM 93 CD1 ILE B 11 -18.256 -15.496 175.767 1.00 20.30 C +ATOM 94 N ASN B 12 -19.672 -12.188 178.654 1.00 22.77 N +ATOM 95 CA ASN B 12 -20.774 -11.235 178.697 1.00 24.58 C +ATOM 96 C ASN B 12 -22.073 -11.841 178.157 1.00 22.41 C +ATOM 97 O ASN B 12 -22.075 -12.667 177.239 1.00 24.20 O +ATOM 98 CB ASN B 12 -20.420 -9.983 177.903 1.00 27.11 C +ATOM 99 CG ASN B 12 -21.255 -8.785 178.308 1.00 31.50 C +ATOM 100 OD1 ASN B 12 -21.545 -8.579 179.487 1.00 34.65 O +ATOM 101 ND2 ASN B 12 -21.636 -7.986 177.337 1.00 31.90 N +ATOM 102 N GLY B 13 -23.194 -11.364 178.703 1.00 22.31 N +ATOM 103 CA GLY B 13 -24.501 -11.922 178.392 1.00 23.20 C +ATOM 104 C GLY B 13 -24.954 -11.720 176.952 1.00 29.22 C +ATOM 105 O GLY B 13 -25.905 -12.382 176.517 1.00 29.27 O +ATOM 106 N ASP B 14 -24.312 -10.822 176.206 1.00 25.56 N +ATOM 107 CA ASP B 14 -24.690 -10.636 174.808 1.00 29.17 C +ATOM 108 C ASP B 14 -23.929 -11.560 173.866 1.00 29.02 C +ATOM 109 O ASP B 14 -24.204 -11.562 172.659 1.00 26.66 O +ATOM 110 CB ASP B 14 -24.508 -9.164 174.383 1.00 32.51 C +ATOM 111 CG ASP B 14 -23.071 -8.649 174.552 1.00 33.14 C +ATOM 112 OD1 ASP B 14 -22.169 -9.429 174.911 1.00 31.79 O +ATOM 113 OD2 ASP B 14 -22.852 -7.434 174.333 1.00 31.03 O +ATOM 114 N LYS B 15 -23.027 -12.387 174.385 1.00 27.38 N +ATOM 115 CA LYS B 15 -22.262 -13.303 173.554 1.00 28.74 C +ATOM 116 C LYS B 15 -22.902 -14.687 173.546 1.00 29.69 C +ATOM 117 O LYS B 15 -23.869 -14.958 174.262 1.00 26.74 O +ATOM 118 CB LYS B 15 -20.815 -13.375 174.037 1.00 24.38 C +ATOM 119 CG LYS B 15 -20.142 -12.024 174.092 1.00 27.56 C +ATOM 120 CD LYS B 15 -20.098 -11.392 172.716 1.00 31.21 C +ATOM 121 CE LYS B 15 -19.123 -10.228 172.675 1.00 33.69 C +ATOM 122 NZ LYS B 15 -19.527 -9.074 173.500 1.00 34.30 N +ATOM 123 N GLY B 16 -22.338 -15.573 172.718 1.00 26.78 N +ATOM 124 CA GLY B 16 -22.872 -16.915 172.577 1.00 24.82 C +ATOM 125 C GLY B 16 -22.459 -17.847 173.696 1.00 25.87 C +ATOM 126 O GLY B 16 -21.702 -18.795 173.476 1.00 23.80 O +ATOM 127 N TYR B 17 -22.959 -17.596 174.910 1.00 25.29 N +ATOM 128 CA TYR B 17 -22.515 -18.403 176.042 1.00 24.79 C +ATOM 129 C TYR B 17 -23.105 -19.808 176.012 1.00 25.52 C +ATOM 130 O TYR B 17 -22.493 -20.739 176.543 1.00 27.48 O +ATOM 131 CB TYR B 17 -22.847 -17.712 177.363 1.00 19.13 C +ATOM 132 CG TYR B 17 -24.294 -17.298 177.524 1.00 20.67 C +ATOM 133 CD1 TYR B 17 -25.273 -18.218 177.896 1.00 21.77 C +ATOM 134 CD2 TYR B 17 -24.678 -15.977 177.333 1.00 20.05 C +ATOM 135 CE1 TYR B 17 -26.615 -17.823 178.058 1.00 22.53 C +ATOM 136 CE2 TYR B 17 -26.001 -15.577 177.504 1.00 21.24 C +ATOM 137 CZ TYR B 17 -26.954 -16.503 177.863 1.00 24.48 C +ATOM 138 OH TYR B 17 -28.259 -16.081 178.013 1.00 31.79 O +ATOM 139 N ASN B 18 -24.281 -19.994 175.406 1.00 26.19 N +ATOM 140 CA ASN B 18 -24.803 -21.355 175.285 1.00 28.78 C +ATOM 141 C ASN B 18 -23.967 -22.174 174.313 1.00 28.49 C +ATOM 142 O ASN B 18 -23.717 -23.364 174.549 1.00 30.58 O +ATOM 143 CB ASN B 18 -26.267 -21.337 174.847 1.00 31.70 C +ATOM 144 CG ASN B 18 -27.203 -20.931 175.965 1.00 33.01 C +ATOM 145 OD1 ASN B 18 -27.023 -21.328 177.117 1.00 31.11 O +ATOM 146 ND2 ASN B 18 -28.197 -20.121 175.637 1.00 33.25 N +ATOM 147 N GLY B 19 -23.525 -21.554 173.216 1.00 24.48 N +ATOM 148 CA GLY B 19 -22.622 -22.246 172.308 1.00 27.15 C +ATOM 149 C GLY B 19 -21.274 -22.535 172.942 1.00 23.98 C +ATOM 150 O GLY B 19 -20.717 -23.620 172.772 1.00 24.70 O +ATOM 151 N LEU B 20 -20.738 -21.570 173.686 1.00 23.48 N +ATOM 152 CA LEU B 20 -19.508 -21.806 174.426 1.00 25.40 C +ATOM 153 C LEU B 20 -19.675 -22.953 175.416 1.00 23.42 C +ATOM 154 O LEU B 20 -18.758 -23.756 175.602 1.00 26.28 O +ATOM 155 CB LEU B 20 -19.091 -20.525 175.150 1.00 25.42 C +ATOM 156 CG LEU B 20 -17.809 -20.596 175.981 1.00 26.32 C +ATOM 157 CD1 LEU B 20 -16.598 -20.995 175.118 1.00 22.32 C +ATOM 158 CD2 LEU B 20 -17.583 -19.277 176.703 1.00 24.64 C +ATOM 159 N ALA B 21 -20.849 -23.066 176.039 1.00 24.78 N +ATOM 160 CA ALA B 21 -21.100 -24.187 176.950 1.00 27.83 C +ATOM 161 C ALA B 21 -21.112 -25.522 176.210 1.00 26.90 C +ATOM 162 O ALA B 21 -20.759 -26.561 176.788 1.00 25.47 O +ATOM 163 CB ALA B 21 -22.427 -23.984 177.692 1.00 29.76 C +ATOM 164 N GLU B 22 -21.489 -25.517 174.928 1.00 25.33 N +ATOM 165 CA GLU B 22 -21.416 -26.748 174.152 1.00 26.33 C +ATOM 166 C GLU B 22 -19.971 -27.186 173.944 1.00 25.71 C +ATOM 167 O GLU B 22 -19.678 -28.385 174.010 1.00 25.81 O +ATOM 168 CB GLU B 22 -22.105 -26.553 172.799 1.00 33.95 C +ATOM 169 CG GLU B 22 -23.605 -26.346 172.858 1.00 43.06 C +ATOM 170 CD GLU B 22 -24.345 -27.593 173.315 1.00 55.87 C +ATOM 171 OE1 GLU B 22 -23.836 -28.712 173.069 1.00 59.14 O +ATOM 172 OE2 GLU B 22 -25.443 -27.458 173.902 1.00 61.46 O +ATOM 173 N VAL B 23 -19.047 -26.230 173.768 1.00 21.78 N +ATOM 174 CA VAL B 23 -17.633 -26.585 173.705 1.00 20.73 C +ATOM 175 C VAL B 23 -17.179 -27.164 175.045 1.00 24.06 C +ATOM 176 O VAL B 23 -16.380 -28.112 175.087 1.00 23.68 O +ATOM 177 CB VAL B 23 -16.785 -25.361 173.281 1.00 20.35 C +ATOM 178 CG1 VAL B 23 -15.290 -25.739 173.155 1.00 20.55 C +ATOM 179 CG2 VAL B 23 -17.310 -24.761 171.960 1.00 20.92 C +ATOM 180 N GLY B 24 -17.738 -26.674 176.152 1.00 23.74 N +ATOM 181 CA GLY B 24 -17.385 -27.229 177.447 1.00 24.99 C +ATOM 182 C GLY B 24 -17.950 -28.620 177.667 1.00 27.40 C +ATOM 183 O GLY B 24 -17.359 -29.422 178.394 1.00 27.80 O +ATOM 184 N LYS B 25 -19.079 -28.942 177.023 1.00 29.75 N +ATOM 185 CA LYS B 25 -19.600 -30.307 177.113 1.00 29.44 C +ATOM 186 C LYS B 25 -18.753 -31.283 176.306 1.00 30.55 C +ATOM 187 O LYS B 25 -18.604 -32.446 176.700 1.00 33.13 O +ATOM 188 CB LYS B 25 -21.061 -30.358 176.668 1.00 36.58 C +ATOM 189 CG LYS B 25 -22.009 -29.696 177.659 1.00 44.29 C +ATOM 190 CD LYS B 25 -23.453 -29.804 177.214 1.00 55.41 C +ATOM 191 CE LYS B 25 -24.392 -29.121 178.208 1.00 61.15 C +ATOM 192 NZ LYS B 25 -25.776 -28.995 177.664 1.00 64.49 N +ATOM 193 N LYS B 26 -18.201 -30.835 175.177 1.00 28.54 N +ATOM 194 CA LYS B 26 -17.226 -31.640 174.451 1.00 27.94 C +ATOM 195 C LYS B 26 -15.962 -31.847 175.277 1.00 24.54 C +ATOM 196 O LYS B 26 -15.433 -32.958 175.342 1.00 27.36 O +ATOM 197 CB LYS B 26 -16.899 -30.966 173.114 1.00 33.31 C +ATOM 198 CG LYS B 26 -15.794 -31.618 172.301 1.00 35.32 C +ATOM 199 CD LYS B 26 -16.180 -32.996 171.824 1.00 41.51 C +ATOM 200 CE LYS B 26 -15.113 -33.571 170.901 1.00 47.14 C +ATOM 201 NZ LYS B 26 -14.827 -32.671 169.744 1.00 47.42 N +ATOM 202 N PHE B 27 -15.479 -30.790 175.937 1.00 25.50 N +ATOM 203 CA PHE B 27 -14.337 -30.929 176.838 1.00 29.28 C +ATOM 204 C PHE B 27 -14.639 -31.928 177.948 1.00 28.34 C +ATOM 205 O PHE B 27 -13.791 -32.761 178.294 1.00 27.99 O +ATOM 206 CB PHE B 27 -13.969 -29.558 177.426 1.00 26.27 C +ATOM 207 CG PHE B 27 -12.643 -29.520 178.140 1.00 29.86 C +ATOM 208 CD1 PHE B 27 -11.458 -29.565 177.426 1.00 31.37 C +ATOM 209 CD2 PHE B 27 -12.575 -29.360 179.518 1.00 30.47 C +ATOM 210 CE1 PHE B 27 -10.228 -29.507 178.079 1.00 30.58 C +ATOM 211 CE2 PHE B 27 -11.345 -29.298 180.169 1.00 28.55 C +ATOM 212 CZ PHE B 27 -10.178 -29.373 179.452 1.00 27.90 C +ATOM 213 N GLU B 28 -15.860 -31.890 178.488 1.00 28.04 N +ATOM 214 CA GLU B 28 -16.229 -32.832 179.546 1.00 30.95 C +ATOM 215 C GLU B 28 -16.349 -34.253 179.002 1.00 26.92 C +ATOM 216 O GLU B 28 -16.015 -35.215 179.698 1.00 28.79 O +ATOM 217 CB GLU B 28 -17.539 -32.394 180.219 1.00 33.88 C +ATOM 218 CG GLU B 28 -17.955 -33.259 181.415 1.00 36.32 C +ATOM 219 CD GLU B 28 -19.352 -32.931 181.951 1.00 42.81 C +ATOM 220 OE1 GLU B 28 -19.964 -31.923 181.525 1.00 42.86 O +ATOM 221 OE2 GLU B 28 -19.856 -33.721 182.777 1.00 45.65 O +ATOM 222 N LYS B 29 -16.782 -34.415 177.754 1.00 28.07 N +ATOM 223 CA LYS B 29 -16.880 -35.764 177.204 1.00 27.90 C +ATOM 224 C LYS B 29 -15.502 -36.402 177.057 1.00 29.27 C +ATOM 225 O LYS B 29 -15.321 -37.577 177.392 1.00 29.70 O +ATOM 226 CB LYS B 29 -17.607 -35.715 175.858 1.00 32.21 C +ATOM 227 CG LYS B 29 -17.857 -37.060 175.214 1.00 35.50 C +ATOM 228 CD LYS B 29 -18.448 -36.855 173.823 1.00 38.57 C +ATOM 229 CE LYS B 29 -18.792 -38.178 173.145 1.00 41.59 C +ATOM 230 NZ LYS B 29 -19.317 -37.966 171.750 1.00 42.49 N +ATOM 231 N ASP B 30 -14.496 -35.622 176.641 1.00 27.87 N +ATOM 232 CA ASP B 30 -13.172 -36.182 176.371 1.00 30.13 C +ATOM 233 C ASP B 30 -12.344 -36.364 177.635 1.00 32.97 C +ATOM 234 O ASP B 30 -11.552 -37.309 177.721 1.00 35.91 O +ATOM 235 CB ASP B 30 -12.411 -35.296 175.383 1.00 30.80 C +ATOM 236 CG ASP B 30 -13.024 -35.310 173.982 1.00 36.03 C +ATOM 237 OD1 ASP B 30 -13.962 -36.105 173.733 1.00 37.05 O +ATOM 238 OD2 ASP B 30 -12.564 -34.515 173.132 1.00 36.67 O +ATOM 239 N THR B 31 -12.465 -35.448 178.600 1.00 31.36 N +ATOM 240 CA THR B 31 -11.589 -35.436 179.761 1.00 28.50 C +ATOM 241 C THR B 31 -12.290 -35.705 181.085 1.00 30.29 C +ATOM 242 O THR B 31 -11.605 -35.954 182.086 1.00 26.89 O +ATOM 243 CB THR B 31 -10.872 -34.080 179.875 1.00 28.39 C +ATOM 244 OG1 THR B 31 -11.817 -33.081 180.281 1.00 30.22 O +ATOM 245 CG2 THR B 31 -10.286 -33.672 178.525 1.00 31.31 C +ATOM 246 N GLY B 32 -13.618 -35.619 181.133 1.00 30.30 N +ATOM 247 CA GLY B 32 -14.352 -35.715 182.381 1.00 28.62 C +ATOM 248 C GLY B 32 -14.440 -34.436 183.187 1.00 28.09 C +ATOM 249 O GLY B 32 -15.096 -34.434 184.237 1.00 32.58 O +ATOM 250 N ILE B 33 -13.891 -33.330 182.691 1.00 27.08 N +ATOM 251 CA ILE B 33 -13.815 -32.075 183.440 1.00 29.69 C +ATOM 252 C ILE B 33 -15.036 -31.230 183.104 1.00 31.25 C +ATOM 253 O ILE B 33 -15.293 -30.929 181.933 1.00 32.35 O +ATOM 254 CB ILE B 33 -12.515 -31.321 183.113 1.00 28.96 C +ATOM 255 CG1 ILE B 33 -11.330 -32.061 183.722 1.00 37.22 C +ATOM 256 CG2 ILE B 33 -12.572 -29.883 183.594 1.00 28.04 C +ATOM 257 CD1 ILE B 33 -10.109 -32.023 182.875 1.00 44.80 C +ATOM 258 N LYS B 34 -15.801 -30.863 184.129 1.00 30.63 N +ATOM 259 CA LYS B 34 -17.005 -30.069 183.925 1.00 31.50 C +ATOM 260 C LYS B 34 -16.646 -28.610 183.696 1.00 28.95 C +ATOM 261 O LYS B 34 -15.819 -28.041 184.411 1.00 29.31 O +ATOM 262 CB LYS B 34 -17.935 -30.184 185.131 1.00 35.30 C +ATOM 263 CG LYS B 34 -18.359 -31.602 185.443 1.00 41.14 C +ATOM 264 CD LYS B 34 -19.335 -31.634 186.606 1.00 45.65 C +ATOM 265 CE LYS B 34 -19.873 -33.040 186.838 1.00 49.50 C +ATOM 266 NZ LYS B 34 -21.056 -33.341 185.977 1.00 52.82 N +ATOM 267 N VAL B 35 -17.289 -28.001 182.706 1.00 26.18 N +ATOM 268 CA VAL B 35 -17.094 -26.593 182.387 1.00 28.30 C +ATOM 269 C VAL B 35 -18.408 -25.870 182.664 1.00 27.80 C +ATOM 270 O VAL B 35 -19.442 -26.223 182.093 1.00 28.92 O +ATOM 271 CB VAL B 35 -16.645 -26.401 180.930 1.00 29.34 C +ATOM 272 CG1 VAL B 35 -16.514 -24.929 180.611 1.00 24.90 C +ATOM 273 CG2 VAL B 35 -15.322 -27.134 180.684 1.00 29.23 C +ATOM 274 N THR B 36 -18.362 -24.859 183.533 1.00 28.78 N +ATOM 275 CA THR B 36 -19.522 -24.057 183.905 1.00 29.61 C +ATOM 276 C THR B 36 -19.364 -22.647 183.343 1.00 27.15 C +ATOM 277 O THR B 36 -18.452 -21.914 183.739 1.00 27.67 O +ATOM 278 CB THR B 36 -19.660 -23.992 185.427 1.00 31.08 C +ATOM 279 OG1 THR B 36 -19.854 -25.311 185.934 1.00 34.28 O +ATOM 280 CG2 THR B 36 -20.832 -23.120 185.814 1.00 32.95 C +ATOM 281 N VAL B 37 -20.271 -22.253 182.455 1.00 30.88 N +ATOM 282 CA VAL B 37 -20.252 -20.935 181.822 1.00 26.14 C +ATOM 283 C VAL B 37 -21.282 -20.042 182.504 1.00 26.31 C +ATOM 284 O VAL B 37 -22.454 -20.421 182.640 1.00 24.52 O +ATOM 285 CB VAL B 37 -20.537 -21.041 180.313 1.00 24.64 C +ATOM 286 CG1 VAL B 37 -20.443 -19.675 179.661 1.00 21.30 C +ATOM 287 CG2 VAL B 37 -19.576 -22.016 179.677 1.00 24.44 C +ATOM 288 N GLU B 38 -20.844 -18.862 182.946 1.00 23.11 N +ATOM 289 CA GLU B 38 -21.708 -17.877 183.585 1.00 25.03 C +ATOM 290 C GLU B 38 -21.575 -16.536 182.878 1.00 24.36 C +ATOM 291 O GLU B 38 -20.537 -16.223 182.277 1.00 21.75 O +ATOM 292 CB GLU B 38 -21.375 -17.718 185.079 1.00 27.81 C +ATOM 293 CG GLU B 38 -21.394 -19.047 185.821 1.00 33.93 C +ATOM 294 CD GLU B 38 -20.920 -18.959 187.265 1.00 37.80 C +ATOM 295 OE1 GLU B 38 -20.090 -18.083 187.581 1.00 37.62 O +ATOM 296 OE2 GLU B 38 -21.375 -19.783 188.082 1.00 40.26 O +ATOM 297 N HIS B 39 -22.635 -15.722 182.982 1.00 22.47 N +ATOM 298 CA HIS B 39 -22.660 -14.385 182.384 1.00 24.54 C +ATOM 299 C HIS B 39 -23.191 -13.384 183.408 1.00 28.08 C +ATOM 300 O HIS B 39 -24.270 -12.809 183.238 1.00 29.37 O +ATOM 301 CB HIS B 39 -23.495 -14.369 181.092 1.00 22.71 C +ATOM 302 CG HIS B 39 -24.838 -15.033 181.216 1.00 23.66 C +ATOM 303 ND1 HIS B 39 -26.005 -14.328 181.429 1.00 26.30 N +ATOM 304 CD2 HIS B 39 -25.201 -16.335 181.125 1.00 24.20 C +ATOM 305 CE1 HIS B 39 -27.026 -15.167 181.475 1.00 25.38 C +ATOM 306 NE2 HIS B 39 -26.565 -16.392 181.295 1.00 26.52 N +ATOM 307 N PRO B 40 -22.438 -13.125 184.473 1.00 30.73 N +ATOM 308 CA PRO B 40 -22.924 -12.184 185.484 1.00 29.21 C +ATOM 309 C PRO B 40 -22.965 -10.758 184.956 1.00 31.54 C +ATOM 310 O PRO B 40 -22.277 -10.388 183.998 1.00 29.44 O +ATOM 311 CB PRO B 40 -21.927 -12.334 186.639 1.00 27.39 C +ATOM 312 CG PRO B 40 -20.693 -12.897 186.022 1.00 27.65 C +ATOM 313 CD PRO B 40 -21.136 -13.717 184.836 1.00 29.38 C +ATOM 314 N ASP B 41 -23.826 -9.964 185.590 1.00 33.12 N +ATOM 315 CA ASP B 41 -23.969 -8.562 185.231 1.00 38.24 C +ATOM 316 C ASP B 41 -22.722 -7.787 185.627 1.00 33.43 C +ATOM 317 O ASP B 41 -22.116 -8.053 186.666 1.00 36.12 O +ATOM 318 CB ASP B 41 -25.190 -7.942 185.919 1.00 43.31 C +ATOM 319 CG ASP B 41 -26.499 -8.592 185.497 1.00 50.88 C +ATOM 320 OD1 ASP B 41 -26.724 -8.777 184.279 1.00 50.30 O +ATOM 321 OD2 ASP B 41 -27.323 -8.884 186.394 1.00 55.57 O +ATOM 322 N LYS B 42 -22.357 -6.816 184.793 1.00 28.32 N +ATOM 323 CA BLYS B 42 -21.205 -5.960 185.057 0.65 34.36 C +ATOM 324 C LYS B 42 -19.961 -6.785 185.381 1.00 31.70 C +ATOM 325 O LYS B 42 -19.210 -6.462 186.304 1.00 25.44 O +ATOM 326 CB BLYS B 42 -21.513 -4.982 186.191 0.65 35.10 C +ATOM 327 CG BLYS B 42 -22.843 -4.276 186.018 0.65 37.64 C +ATOM 328 CD BLYS B 42 -23.387 -3.767 187.329 0.65 38.34 C +ATOM 329 CE BLYS B 42 -24.897 -3.550 187.234 0.65 42.72 C +ATOM 330 NZ BLYS B 42 -25.259 -2.625 186.124 0.65 44.46 N +ATOM 331 N LEU B 43 -19.748 -7.868 184.625 1.00 17.93 N +ATOM 332 CA LEU B 43 -18.641 -8.765 184.938 1.00 29.39 C +ATOM 333 C LEU B 43 -17.277 -8.112 184.732 1.00 26.73 C +ATOM 334 O LEU B 43 -16.304 -8.563 185.343 1.00 24.27 O +ATOM 335 CB LEU B 43 -18.725 -10.055 184.121 1.00 32.11 C +ATOM 336 CG LEU B 43 -18.366 -10.061 182.636 1.00 31.31 C +ATOM 337 CD1 LEU B 43 -16.897 -10.326 182.410 1.00 32.08 C +ATOM 338 CD2 LEU B 43 -19.180 -11.138 181.946 1.00 32.27 C +ATOM 339 N GLU B 44 -17.179 -7.083 183.881 1.00 25.01 N +ATOM 340 CA GLU B 44 -15.897 -6.400 183.706 1.00 27.30 C +ATOM 341 C GLU B 44 -15.554 -5.532 184.907 1.00 27.54 C +ATOM 342 O GLU B 44 -14.385 -5.171 185.085 1.00 28.08 O +ATOM 343 CB GLU B 44 -15.897 -5.550 182.426 1.00 24.84 C +ATOM 344 CG GLU B 44 -16.480 -4.132 182.542 1.00 24.88 C +ATOM 345 CD GLU B 44 -18.010 -4.084 182.429 1.00 28.98 C +ATOM 346 OE1 GLU B 44 -18.659 -5.136 182.574 1.00 28.92 O +ATOM 347 OE2 GLU B 44 -18.558 -2.993 182.177 1.00 27.52 O +ATOM 348 N GLU B 45 -16.547 -5.201 185.733 1.00 25.12 N +ATOM 349 CA GLU B 45 -16.308 -4.545 187.009 1.00 26.38 C +ATOM 350 C GLU B 45 -16.223 -5.528 188.163 1.00 29.43 C +ATOM 351 O GLU B 45 -15.511 -5.264 189.141 1.00 30.09 O +ATOM 352 CB GLU B 45 -17.416 -3.531 187.296 1.00 26.68 C +ATOM 353 CG GLU B 45 -17.461 -2.379 186.319 1.00 32.84 C +ATOM 354 CD GLU B 45 -18.580 -1.400 186.635 1.00 43.87 C +ATOM 355 OE1 GLU B 45 -19.389 -1.688 187.544 1.00 48.01 O +ATOM 356 OE2 GLU B 45 -18.628 -0.325 186.001 1.00 48.59 O +ATOM 357 N LYS B 46 -16.938 -6.652 188.075 1.00 27.23 N +ATOM 358 CA LYS B 46 -16.903 -7.634 189.147 1.00 27.90 C +ATOM 359 C LYS B 46 -15.583 -8.403 189.145 1.00 27.09 C +ATOM 360 O LYS B 46 -15.012 -8.681 190.214 1.00 23.73 O +ATOM 361 CB LYS B 46 -18.097 -8.583 189.002 1.00 33.19 C +ATOM 362 CG LYS B 46 -18.456 -9.365 190.251 1.00 41.65 C +ATOM 363 CD LYS B 46 -19.721 -10.196 190.038 1.00 47.95 C +ATOM 364 CE LYS B 46 -20.934 -9.302 189.780 1.00 53.15 C +ATOM 365 NZ LYS B 46 -22.235 -10.045 189.863 1.00 55.79 N +ATOM 366 N PHE B 47 -15.065 -8.734 187.961 1.00 19.01 N +ATOM 367 CA PHE B 47 -13.846 -9.544 187.907 1.00 23.40 C +ATOM 368 C PHE B 47 -12.674 -8.920 188.646 1.00 21.84 C +ATOM 369 O PHE B 47 -12.016 -9.639 189.416 1.00 25.26 O +ATOM 370 CB PHE B 47 -13.426 -9.854 186.465 1.00 22.92 C +ATOM 371 CG PHE B 47 -12.109 -10.597 186.386 1.00 18.86 C +ATOM 372 CD1 PHE B 47 -12.064 -11.967 186.585 1.00 19.78 C +ATOM 373 CD2 PHE B 47 -10.920 -9.919 186.161 1.00 16.96 C +ATOM 374 CE1 PHE B 47 -10.855 -12.662 186.534 1.00 24.68 C +ATOM 375 CE2 PHE B 47 -9.700 -10.606 186.106 1.00 16.89 C +ATOM 376 CZ PHE B 47 -9.669 -11.973 186.291 1.00 16.93 C +ATOM 377 N PRO B 48 -12.312 -7.652 188.434 1.00 24.58 N +ATOM 378 CA PRO B 48 -11.181 -7.104 189.199 1.00 26.95 C +ATOM 379 C PRO B 48 -11.412 -7.093 190.704 1.00 29.14 C +ATOM 380 O PRO B 48 -10.433 -7.156 191.455 1.00 27.29 O +ATOM 381 CB PRO B 48 -11.022 -5.685 188.635 1.00 23.89 C +ATOM 382 CG PRO B 48 -12.353 -5.366 188.019 1.00 24.45 C +ATOM 383 CD PRO B 48 -12.836 -6.664 187.472 1.00 23.34 C +ATOM 384 N GLN B 49 -12.670 -7.061 191.165 1.00 31.87 N +ATOM 385 CA GLN B 49 -12.953 -7.055 192.597 1.00 32.52 C +ATOM 386 C GLN B 49 -12.772 -8.433 193.225 1.00 29.89 C +ATOM 387 O GLN B 49 -12.156 -8.555 194.291 1.00 29.27 O +ATOM 388 CB GLN B 49 -14.372 -6.538 192.857 1.00 38.70 C +ATOM 389 CG GLN B 49 -14.585 -5.102 192.414 1.00 44.63 C +ATOM 390 CD GLN B 49 -15.997 -4.587 192.676 1.00 49.83 C +ATOM 391 OE1 GLN B 49 -16.954 -5.358 192.769 1.00 51.33 O +ATOM 392 NE2 GLN B 49 -16.126 -3.269 192.791 1.00 51.78 N +ATOM 393 N VAL B 50 -13.319 -9.482 192.600 1.00 22.90 N +ATOM 394 CA VAL B 50 -13.198 -10.803 193.209 1.00 25.37 C +ATOM 395 C VAL B 50 -11.824 -11.414 192.932 1.00 24.78 C +ATOM 396 O VAL B 50 -11.279 -12.133 193.783 1.00 24.24 O +ATOM 397 CB VAL B 50 -14.336 -11.737 192.744 1.00 27.38 C +ATOM 398 CG1 VAL B 50 -15.683 -11.194 193.213 1.00 31.62 C +ATOM 399 CG2 VAL B 50 -14.332 -11.922 191.238 1.00 29.90 C +ATOM 400 N ALA B 51 -11.247 -11.147 191.755 1.00 23.85 N +ATOM 401 CA ALA B 51 -9.932 -11.698 191.429 1.00 25.35 C +ATOM 402 C ALA B 51 -8.843 -11.116 192.314 1.00 21.80 C +ATOM 403 O ALA B 51 -7.870 -11.807 192.624 1.00 23.96 O +ATOM 404 CB ALA B 51 -9.581 -11.434 189.967 1.00 21.66 C +ATOM 405 N ALA B 52 -8.983 -9.856 192.722 1.00 21.54 N +ATOM 406 CA ALA B 52 -7.966 -9.258 193.585 1.00 26.23 C +ATOM 407 C ALA B 52 -7.810 -10.037 194.887 1.00 29.20 C +ATOM 408 O ALA B 52 -6.692 -10.171 195.394 1.00 31.47 O +ATOM 409 CB ALA B 52 -8.312 -7.798 193.882 1.00 26.59 C +ATOM 410 N THR B 53 -8.901 -10.592 195.415 1.00 25.06 N +ATOM 411 CA THR B 53 -8.856 -11.352 196.658 1.00 25.98 C +ATOM 412 C THR B 53 -8.607 -12.841 196.438 1.00 27.80 C +ATOM 413 O THR B 53 -8.725 -13.618 197.386 1.00 27.14 O +ATOM 414 CB THR B 53 -10.159 -11.165 197.457 1.00 28.29 C +ATOM 415 OG1 THR B 53 -11.253 -11.702 196.722 1.00 27.51 O +ATOM 416 CG2 THR B 53 -10.420 -9.690 197.722 1.00 25.44 C +ATOM 417 N GLY B 54 -8.285 -13.263 195.213 1.00 24.99 N +ATOM 418 CA GLY B 54 -7.980 -14.657 194.965 1.00 21.76 C +ATOM 419 C GLY B 54 -9.169 -15.518 194.607 1.00 23.89 C +ATOM 420 O GLY B 54 -9.059 -16.750 194.662 1.00 23.54 O +ATOM 421 N ASP B 55 -10.309 -14.913 194.279 1.00 25.48 N +ATOM 422 CA ASP B 55 -11.525 -15.602 193.875 1.00 28.89 C +ATOM 423 C ASP B 55 -11.783 -15.367 192.380 1.00 27.79 C +ATOM 424 O ASP B 55 -10.904 -14.925 191.635 1.00 23.13 O +ATOM 425 CB ASP B 55 -12.703 -15.140 194.730 1.00 36.03 C +ATOM 426 CG ASP B 55 -12.415 -15.243 196.223 1.00 50.59 C +ATOM 427 OD1 ASP B 55 -12.197 -14.193 196.867 1.00 55.56 O +ATOM 428 OD2 ASP B 55 -12.374 -16.380 196.744 1.00 55.31 O +ATOM 429 N GLY B 56 -12.998 -15.675 191.946 1.00 25.60 N +ATOM 430 CA GLY B 56 -13.403 -15.403 190.585 1.00 22.84 C +ATOM 431 C GLY B 56 -13.365 -16.619 189.693 1.00 19.11 C +ATOM 432 O GLY B 56 -13.173 -17.753 190.136 1.00 22.30 O +ATOM 433 N PRO B 57 -13.554 -16.401 188.403 1.00 21.84 N +ATOM 434 CA PRO B 57 -13.560 -17.517 187.455 1.00 21.07 C +ATOM 435 C PRO B 57 -12.144 -17.951 187.094 1.00 19.69 C +ATOM 436 O PRO B 57 -11.170 -17.234 187.308 1.00 20.35 O +ATOM 437 CB PRO B 57 -14.279 -16.924 186.234 1.00 17.62 C +ATOM 438 CG PRO B 57 -13.864 -15.491 186.251 1.00 17.49 C +ATOM 439 CD PRO B 57 -13.761 -15.104 187.744 1.00 17.33 C +ATOM 440 N ASP B 58 -12.046 -19.148 186.521 1.00 19.30 N +ATOM 441 CA ASP B 58 -10.765 -19.589 185.977 1.00 17.77 C +ATOM 442 C ASP B 58 -10.400 -18.794 184.733 1.00 20.95 C +ATOM 443 O ASP B 58 -9.234 -18.420 184.549 1.00 20.31 O +ATOM 444 CB ASP B 58 -10.810 -21.086 185.646 1.00 17.67 C +ATOM 445 CG ASP B 58 -10.962 -21.954 186.885 1.00 29.93 C +ATOM 446 OD1 ASP B 58 -9.955 -22.147 187.598 1.00 25.64 O +ATOM 447 OD2 ASP B 58 -12.087 -22.449 187.135 1.00 31.38 O +ATOM 448 N ILE B 59 -11.388 -18.513 183.884 1.00 21.47 N +ATOM 449 CA ILE B 59 -11.198 -17.833 182.604 1.00 22.36 C +ATOM 450 C ILE B 59 -12.198 -16.692 182.510 1.00 17.74 C +ATOM 451 O ILE B 59 -13.380 -16.868 182.837 1.00 19.13 O +ATOM 452 CB ILE B 59 -11.386 -18.810 181.414 1.00 20.57 C +ATOM 453 CG1 ILE B 59 -10.383 -19.970 181.491 1.00 17.95 C +ATOM 454 CG2 ILE B 59 -11.265 -18.072 180.069 1.00 17.99 C +ATOM 455 CD1 ILE B 59 -10.709 -21.157 180.538 1.00 22.77 C +ATOM 456 N ILE B 60 -11.741 -15.528 182.046 1.00 19.44 N +ATOM 457 CA ILE B 60 -12.623 -14.380 181.831 1.00 17.69 C +ATOM 458 C ILE B 60 -12.513 -13.939 180.377 1.00 19.63 C +ATOM 459 O ILE B 60 -11.400 -13.791 179.851 1.00 19.68 O +ATOM 460 CB ILE B 60 -12.304 -13.198 182.770 1.00 21.03 C +ATOM 461 CG1 ILE B 60 -13.236 -12.038 182.399 1.00 23.98 C +ATOM 462 CG2 ILE B 60 -10.819 -12.775 182.675 1.00 18.57 C +ATOM 463 CD1 ILE B 60 -12.996 -10.787 183.111 1.00 31.67 C +ATOM 464 N PHE B 61 -13.666 -13.737 179.737 1.00 20.20 N +ATOM 465 CA PHE B 61 -13.759 -13.237 178.367 1.00 20.22 C +ATOM 466 C PHE B 61 -14.202 -11.781 178.389 1.00 23.22 C +ATOM 467 O PHE B 61 -15.215 -11.455 179.015 1.00 24.18 O +ATOM 468 CB PHE B 61 -14.771 -14.029 177.545 1.00 18.72 C +ATOM 469 CG PHE B 61 -14.295 -15.362 177.055 1.00 21.60 C +ATOM 470 CD1 PHE B 61 -14.122 -16.419 177.928 1.00 22.45 C +ATOM 471 CD2 PHE B 61 -14.125 -15.586 175.698 1.00 20.02 C +ATOM 472 CE1 PHE B 61 -13.728 -17.659 177.469 1.00 22.26 C +ATOM 473 CE2 PHE B 61 -13.724 -16.823 175.230 1.00 20.79 C +ATOM 474 CZ PHE B 61 -13.529 -17.863 176.111 1.00 23.55 C +ATOM 475 N TRP B 62 -13.477 -10.926 177.672 1.00 22.22 N +ATOM 476 CA TRP B 62 -13.886 -9.545 177.451 1.00 20.85 C +ATOM 477 C TRP B 62 -13.103 -9.011 176.259 1.00 21.67 C +ATOM 478 O TRP B 62 -12.124 -9.616 175.822 1.00 20.53 O +ATOM 479 CB TRP B 62 -13.645 -8.672 178.698 1.00 21.37 C +ATOM 480 CG TRP B 62 -14.389 -7.397 178.641 1.00 17.80 C +ATOM 481 CD1 TRP B 62 -13.919 -6.177 178.227 1.00 18.80 C +ATOM 482 CD2 TRP B 62 -15.774 -7.203 178.970 1.00 21.29 C +ATOM 483 NE1 TRP B 62 -14.924 -5.235 178.297 1.00 20.18 N +ATOM 484 CE2 TRP B 62 -16.070 -5.843 178.746 1.00 19.09 C +ATOM 485 CE3 TRP B 62 -16.786 -8.049 179.434 1.00 21.82 C +ATOM 486 CZ2 TRP B 62 -17.337 -5.307 178.977 1.00 22.25 C +ATOM 487 CZ3 TRP B 62 -18.046 -7.516 179.672 1.00 23.57 C +ATOM 488 CH2 TRP B 62 -18.311 -6.157 179.441 1.00 22.99 C +ATOM 489 N ALA B 63 -13.551 -7.885 175.713 1.00 17.99 N +ATOM 490 CA ALA B 63 -12.735 -7.200 174.718 1.00 24.21 C +ATOM 491 C ALA B 63 -11.391 -6.813 175.329 1.00 21.69 C +ATOM 492 O ALA B 63 -11.264 -6.629 176.545 1.00 18.47 O +ATOM 493 CB ALA B 63 -13.462 -5.963 174.176 1.00 25.13 C +ATOM 494 N HIS B 64 -10.376 -6.696 174.473 1.00 17.91 N +ATOM 495 CA HIS B 64 -8.994 -6.598 174.941 1.00 20.31 C +ATOM 496 C HIS B 64 -8.714 -5.319 175.722 1.00 23.70 C +ATOM 497 O HIS B 64 -7.715 -5.272 176.447 1.00 25.29 O +ATOM 498 CB HIS B 64 -8.013 -6.667 173.760 1.00 17.91 C +ATOM 499 CG HIS B 64 -8.011 -5.425 172.918 1.00 20.33 C +ATOM 500 ND1 HIS B 64 -8.914 -5.217 171.898 1.00 19.52 N +ATOM 501 CD2 HIS B 64 -7.233 -4.315 172.962 1.00 18.27 C +ATOM 502 CE1 HIS B 64 -8.697 -4.031 171.355 1.00 18.11 C +ATOM 503 NE2 HIS B 64 -7.680 -3.465 171.978 1.00 18.02 N +ATOM 504 N ASP B 65 -9.577 -4.293 175.621 1.00 24.54 N +ATOM 505 CA ASP B 65 -9.230 -2.991 176.182 1.00 17.65 C +ATOM 506 C ASP B 65 -9.161 -2.995 177.711 1.00 22.88 C +ATOM 507 O ASP B 65 -8.513 -2.113 178.278 1.00 19.58 O +ATOM 508 CB ASP B 65 -10.219 -1.903 175.726 1.00 18.25 C +ATOM 509 CG ASP B 65 -11.650 -2.163 176.170 1.00 20.34 C +ATOM 510 OD1 ASP B 65 -12.222 -3.213 175.793 1.00 18.73 O +ATOM 511 OD2 ASP B 65 -12.205 -1.315 176.915 1.00 21.53 O +ATOM 512 N ARG B 66 -9.827 -3.937 178.387 1.00 19.99 N +ATOM 513 CA ARG B 66 -9.808 -3.957 179.847 1.00 20.29 C +ATOM 514 C ARG B 66 -8.657 -4.763 180.437 1.00 20.88 C +ATOM 515 O ARG B 66 -8.411 -4.656 181.643 1.00 25.30 O +ATOM 516 CB ARG B 66 -11.129 -4.520 180.405 1.00 20.72 C +ATOM 517 CG ARG B 66 -12.343 -3.717 180.031 1.00 28.46 C +ATOM 518 CD ARG B 66 -12.997 -3.098 181.216 1.00 33.34 C +ATOM 519 NE ARG B 66 -13.878 -2.009 180.801 1.00 34.99 N +ATOM 520 CZ ARG B 66 -14.327 -1.073 181.630 1.00 35.40 C +ATOM 521 NH1 ARG B 66 -13.978 -1.107 182.916 1.00 35.42 N +ATOM 522 NH2 ARG B 66 -15.115 -0.109 181.178 1.00 32.40 N +ATOM 523 N PHE B 67 -7.940 -5.550 179.633 1.00 21.20 N +ATOM 524 CA PHE B 67 -6.973 -6.495 180.186 1.00 23.93 C +ATOM 525 C PHE B 67 -5.682 -5.834 180.657 1.00 22.66 C +ATOM 526 O PHE B 67 -4.995 -6.394 181.527 1.00 20.58 O +ATOM 527 CB PHE B 67 -6.666 -7.596 179.164 1.00 23.12 C +ATOM 528 CG PHE B 67 -7.725 -8.664 179.108 1.00 26.73 C +ATOM 529 CD1 PHE B 67 -8.920 -8.438 178.439 1.00 29.67 C +ATOM 530 CD2 PHE B 67 -7.552 -9.872 179.761 1.00 28.13 C +ATOM 531 CE1 PHE B 67 -9.918 -9.407 178.404 1.00 27.61 C +ATOM 532 CE2 PHE B 67 -8.552 -10.857 179.724 1.00 28.02 C +ATOM 533 CZ PHE B 67 -9.733 -10.614 179.050 1.00 26.00 C +ATOM 534 N GLY B 68 -5.345 -4.659 180.141 1.00 17.11 N +ATOM 535 CA GLY B 68 -4.161 -3.976 180.641 1.00 24.90 C +ATOM 536 C GLY B 68 -4.298 -3.584 182.099 1.00 21.92 C +ATOM 537 O GLY B 68 -3.360 -3.748 182.883 1.00 21.88 O +ATOM 538 N GLY B 69 -5.479 -3.081 182.489 1.00 23.24 N +ATOM 539 CA GLY B 69 -5.721 -2.798 183.897 1.00 20.70 C +ATOM 540 C GLY B 69 -5.677 -4.045 184.759 1.00 21.22 C +ATOM 541 O GLY B 69 -5.137 -4.023 185.871 1.00 24.31 O +ATOM 542 N TYR B 70 -6.260 -5.149 184.270 1.00 19.10 N +ATOM 543 CA TYR B 70 -6.168 -6.409 185.002 1.00 21.30 C +ATOM 544 C TYR B 70 -4.722 -6.870 185.134 1.00 23.29 C +ATOM 545 O TYR B 70 -4.322 -7.390 186.187 1.00 24.43 O +ATOM 546 CB TYR B 70 -6.972 -7.513 184.311 1.00 20.24 C +ATOM 547 CG TYR B 70 -8.438 -7.265 184.100 1.00 21.38 C +ATOM 548 CD1 TYR B 70 -9.130 -6.303 184.832 1.00 21.05 C +ATOM 549 CD2 TYR B 70 -9.144 -8.009 183.150 1.00 19.61 C +ATOM 550 CE1 TYR B 70 -10.488 -6.086 184.620 1.00 20.50 C +ATOM 551 CE2 TYR B 70 -10.491 -7.800 182.938 1.00 17.77 C +ATOM 552 CZ TYR B 70 -11.156 -6.842 183.659 1.00 21.20 C +ATOM 553 OH TYR B 70 -12.498 -6.654 183.446 1.00 20.38 O +ATOM 554 N ALA B 71 -3.935 -6.736 184.063 1.00 16.64 N +ATOM 555 CA ALA B 71 -2.540 -7.183 184.121 1.00 25.58 C +ATOM 556 C ALA B 71 -1.717 -6.318 185.071 1.00 23.81 C +ATOM 557 O ALA B 71 -0.887 -6.837 185.823 1.00 23.13 O +ATOM 558 CB ALA B 71 -1.915 -7.186 182.730 1.00 23.45 C +ATOM 559 N GLN B 72 -1.934 -4.999 185.059 1.00 21.76 N +ATOM 560 CA GLN B 72 -1.171 -4.130 185.957 1.00 19.53 C +ATOM 561 C GLN B 72 -1.391 -4.497 187.422 1.00 21.66 C +ATOM 562 O GLN B 72 -0.457 -4.412 188.218 1.00 23.62 O +ATOM 563 CB GLN B 72 -1.559 -2.673 185.727 1.00 20.85 C +ATOM 564 CG GLN B 72 -0.748 -1.673 186.553 1.00 21.35 C +ATOM 565 CD GLN B 72 -1.224 -0.257 186.356 1.00 23.68 C +ATOM 566 OE1 GLN B 72 -2.377 0.076 186.659 1.00 29.26 O +ATOM 567 NE2 GLN B 72 -0.353 0.587 185.832 1.00 21.93 N +ATOM 568 N SER B 73 -2.614 -4.917 187.788 1.00 23.48 N +ATOM 569 CA SER B 73 -2.960 -5.351 189.142 1.00 24.38 C +ATOM 570 C SER B 73 -2.541 -6.784 189.448 1.00 26.53 C +ATOM 571 O SER B 73 -2.880 -7.286 190.526 1.00 28.87 O +ATOM 572 CB SER B 73 -4.476 -5.245 189.372 1.00 22.74 C +ATOM 573 OG SER B 73 -4.944 -3.933 189.132 1.00 26.47 O +ATOM 574 N GLY B 74 -1.878 -7.470 188.519 1.00 27.00 N +ATOM 575 CA GLY B 74 -1.431 -8.827 188.761 1.00 25.53 C +ATOM 576 C GLY B 74 -2.521 -9.885 188.749 1.00 24.05 C +ATOM 577 O GLY B 74 -2.332 -10.954 189.336 1.00 21.44 O +ATOM 578 N LEU B 75 -3.652 -9.627 188.087 1.00 18.25 N +ATOM 579 CA LEU B 75 -4.808 -10.516 188.184 1.00 16.32 C +ATOM 580 C LEU B 75 -4.825 -11.619 187.135 1.00 22.22 C +ATOM 581 O LEU B 75 -5.705 -12.490 187.201 1.00 20.84 O +ATOM 582 CB LEU B 75 -6.117 -9.715 188.086 1.00 20.12 C +ATOM 583 CG LEU B 75 -6.279 -8.517 189.011 1.00 23.86 C +ATOM 584 CD1 LEU B 75 -7.648 -7.864 188.801 1.00 25.36 C +ATOM 585 CD2 LEU B 75 -6.079 -8.933 190.479 1.00 20.43 C +ATOM 586 N LEU B 76 -3.875 -11.612 186.191 1.00 22.98 N +ATOM 587 CA LEU B 76 -3.854 -12.516 185.047 1.00 21.55 C +ATOM 588 C LEU B 76 -2.565 -13.326 185.015 1.00 26.80 C +ATOM 589 O LEU B 76 -1.483 -12.811 185.318 1.00 29.65 O +ATOM 590 CB LEU B 76 -3.989 -11.728 183.726 1.00 16.86 C +ATOM 591 CG LEU B 76 -5.236 -10.861 183.591 1.00 23.82 C +ATOM 592 CD1 LEU B 76 -5.183 -10.048 182.322 1.00 24.77 C +ATOM 593 CD2 LEU B 76 -6.484 -11.744 183.617 1.00 24.46 C +ATOM 594 N ALA B 77 -2.687 -14.580 184.603 1.00 25.81 N +ATOM 595 CA ALA B 77 -1.528 -15.421 184.328 1.00 26.16 C +ATOM 596 C ALA B 77 -0.959 -15.101 182.951 1.00 30.04 C +ATOM 597 O ALA B 77 -1.710 -14.926 181.988 1.00 29.12 O +ATOM 598 CB ALA B 77 -1.934 -16.890 184.378 1.00 24.82 C +ATOM 599 N GLU B 78 0.374 -15.045 182.847 1.00 29.34 N +ATOM 600 CA GLU B 78 0.989 -14.956 181.528 1.00 30.82 C +ATOM 601 C GLU B 78 0.694 -16.244 180.773 1.00 24.18 C +ATOM 602 O GLU B 78 0.871 -17.335 181.308 1.00 26.98 O +ATOM 603 CB GLU B 78 2.502 -14.713 181.627 1.00 36.62 C +ATOM 604 CG GLU B 78 3.187 -14.497 180.265 1.00 38.50 C +ATOM 605 CD GLU B 78 4.683 -14.161 180.377 1.00 42.39 C +ATOM 606 OE1 GLU B 78 5.220 -14.140 181.510 1.00 42.51 O +ATOM 607 OE2 GLU B 78 5.326 -13.920 179.327 1.00 41.16 O +ATOM 608 N ILE B 79 0.189 -16.129 179.556 1.00 22.51 N +ATOM 609 CA ILE B 79 -0.136 -17.338 178.813 1.00 17.73 C +ATOM 610 C ILE B 79 1.126 -17.873 178.142 1.00 23.29 C +ATOM 611 O ILE B 79 2.117 -17.161 177.974 1.00 22.23 O +ATOM 612 CB ILE B 79 -1.262 -17.087 177.802 1.00 23.57 C +ATOM 613 CG1 ILE B 79 -0.844 -16.013 176.796 1.00 21.35 C +ATOM 614 CG2 ILE B 79 -2.556 -16.707 178.552 1.00 22.69 C +ATOM 615 CD1 ILE B 79 -1.637 -16.042 175.496 1.00 22.97 C +ATOM 616 N THR B 80 1.105 -19.165 177.793 1.00 21.70 N +ATOM 617 CA THR B 80 2.297 -19.844 177.278 1.00 21.63 C +ATOM 618 C THR B 80 2.023 -20.626 175.991 1.00 21.26 C +ATOM 619 O THR B 80 2.354 -21.807 175.903 1.00 27.08 O +ATOM 620 CB THR B 80 2.858 -20.804 178.332 1.00 24.92 C +ATOM 621 OG1 THR B 80 1.848 -21.769 178.671 1.00 26.42 O +ATOM 622 CG2 THR B 80 3.319 -20.069 179.597 1.00 22.29 C +ATOM 623 N PRO B 81 1.461 -19.996 174.952 1.00 19.25 N +ATOM 624 CA PRO B 81 1.360 -20.700 173.662 1.00 18.71 C +ATOM 625 C PRO B 81 2.729 -20.802 172.995 1.00 26.43 C +ATOM 626 O PRO B 81 3.508 -19.846 172.996 1.00 21.90 O +ATOM 627 CB PRO B 81 0.412 -19.812 172.847 1.00 18.72 C +ATOM 628 CG PRO B 81 0.675 -18.440 173.367 1.00 20.30 C +ATOM 629 CD PRO B 81 0.945 -18.613 174.860 1.00 20.25 C +ATOM 630 N ASP B 82 3.024 -21.962 172.413 1.00 26.81 N +ATOM 631 CA ASP B 82 4.313 -22.069 171.737 1.00 26.56 C +ATOM 632 C ASP B 82 4.237 -21.382 170.375 1.00 24.99 C +ATOM 633 O ASP B 82 3.202 -20.844 169.981 1.00 26.51 O +ATOM 634 CB ASP B 82 4.773 -23.523 171.625 1.00 26.99 C +ATOM 635 CG ASP B 82 3.862 -24.395 170.760 1.00 30.92 C +ATOM 636 OD1 ASP B 82 2.938 -23.891 170.089 1.00 33.19 O +ATOM 637 OD2 ASP B 82 4.091 -25.620 170.766 1.00 32.73 O +ATOM 638 N LYS B 83 5.372 -21.346 169.678 1.00 27.43 N +ATOM 639 CA LYS B 83 5.448 -20.634 168.409 1.00 29.99 C +ATOM 640 C LYS B 83 4.496 -21.229 167.380 1.00 28.95 C +ATOM 641 O LYS B 83 3.853 -20.496 166.624 1.00 29.96 O +ATOM 642 CB LYS B 83 6.886 -20.663 167.891 1.00 35.41 C +ATOM 643 CG LYS B 83 7.083 -19.974 166.555 1.00 42.63 C +ATOM 644 CD LYS B 83 8.535 -20.086 166.091 1.00 49.90 C +ATOM 645 CE LYS B 83 8.748 -19.381 164.758 1.00 53.58 C +ATOM 646 NZ LYS B 83 10.172 -19.449 164.306 1.00 56.05 N +ATOM 647 N ALA B 84 4.374 -22.557 167.347 1.00 27.40 N +ATOM 648 CA ALA B 84 3.450 -23.181 166.401 1.00 24.63 C +ATOM 649 C ALA B 84 2.010 -22.757 166.674 1.00 25.80 C +ATOM 650 O ALA B 84 1.227 -22.563 165.735 1.00 27.18 O +ATOM 651 CB ALA B 84 3.580 -24.702 166.450 1.00 26.09 C +ATOM 652 N PHE B 85 1.622 -22.609 167.946 1.00 22.29 N +ATOM 653 CA PHE B 85 0.244 -22.159 168.186 1.00 19.54 C +ATOM 654 C PHE B 85 0.066 -20.694 167.823 1.00 24.48 C +ATOM 655 O PHE B 85 -0.985 -20.316 167.304 1.00 25.69 O +ATOM 656 CB PHE B 85 -0.205 -22.384 169.632 1.00 21.42 C +ATOM 657 CG PHE B 85 -1.657 -21.987 169.869 1.00 22.52 C +ATOM 658 CD1 PHE B 85 -1.985 -20.709 170.284 1.00 19.07 C +ATOM 659 CD2 PHE B 85 -2.690 -22.876 169.602 1.00 22.57 C +ATOM 660 CE1 PHE B 85 -3.312 -20.327 170.457 1.00 20.64 C +ATOM 661 CE2 PHE B 85 -4.023 -22.503 169.788 1.00 23.66 C +ATOM 662 CZ PHE B 85 -4.329 -21.231 170.221 1.00 19.08 C +ATOM 663 N GLN B 86 1.057 -19.842 168.132 1.00 25.64 N +ATOM 664 CA GLN B 86 0.934 -18.426 167.791 1.00 24.69 C +ATOM 665 C GLN B 86 0.800 -18.219 166.289 1.00 23.57 C +ATOM 666 O GLN B 86 0.095 -17.303 165.845 1.00 19.44 O +ATOM 667 CB GLN B 86 2.135 -17.652 168.333 1.00 23.35 C +ATOM 668 CG GLN B 86 2.180 -17.622 169.851 1.00 26.04 C +ATOM 669 CD GLN B 86 3.453 -16.977 170.377 1.00 29.13 C +ATOM 670 OE1 GLN B 86 3.899 -15.962 169.860 1.00 27.59 O +ATOM 671 NE2 GLN B 86 4.040 -17.572 171.411 1.00 29.45 N +ATOM 672 N ASP B 87 1.449 -19.068 165.497 1.00 24.41 N +ATOM 673 CA ASP B 87 1.342 -19.013 164.042 1.00 25.21 C +ATOM 674 C ASP B 87 -0.042 -19.412 163.537 1.00 24.34 C +ATOM 675 O ASP B 87 -0.305 -19.288 162.331 1.00 25.83 O +ATOM 676 CB ASP B 87 2.416 -19.912 163.407 1.00 25.54 C +ATOM 677 CG ASP B 87 3.825 -19.366 163.594 1.00 36.68 C +ATOM 678 OD1 ASP B 87 3.965 -18.126 163.708 1.00 44.29 O +ATOM 679 OD2 ASP B 87 4.796 -20.165 163.627 1.00 39.69 O +ATOM 680 N LYS B 88 -0.935 -19.854 164.414 1.00 24.60 N +ATOM 681 CA LYS B 88 -2.294 -20.208 164.021 1.00 26.40 C +ATOM 682 C LYS B 88 -3.273 -19.039 164.051 1.00 22.07 C +ATOM 683 O LYS B 88 -4.386 -19.196 163.550 1.00 23.62 O +ATOM 684 CB LYS B 88 -2.820 -21.328 164.922 1.00 26.90 C +ATOM 685 CG LYS B 88 -2.095 -22.649 164.696 1.00 34.50 C +ATOM 686 CD LYS B 88 -2.495 -23.700 165.707 1.00 41.20 C +ATOM 687 CE LYS B 88 -3.703 -24.472 165.270 1.00 46.19 C +ATOM 688 NZ LYS B 88 -3.839 -25.715 166.080 1.00 50.32 N +ATOM 689 N LEU B 89 -2.906 -17.901 164.651 1.00 19.49 N +ATOM 690 CA LEU B 89 -3.755 -16.716 164.738 1.00 23.43 C +ATOM 691 C LEU B 89 -3.088 -15.531 164.041 1.00 19.39 C +ATOM 692 O LEU B 89 -1.865 -15.491 163.883 1.00 19.46 O +ATOM 693 CB LEU B 89 -4.061 -16.334 166.209 1.00 24.84 C +ATOM 694 CG LEU B 89 -4.500 -17.403 167.221 1.00 26.04 C +ATOM 695 CD1 LEU B 89 -4.904 -16.782 168.577 1.00 22.26 C +ATOM 696 CD2 LEU B 89 -5.594 -18.265 166.678 1.00 27.20 C +ATOM 697 N TYR B 90 -3.893 -14.544 163.659 1.00 19.34 N +ATOM 698 CA TYR B 90 -3.361 -13.391 162.938 1.00 23.67 C +ATOM 699 C TYR B 90 -2.428 -12.573 163.832 1.00 27.22 C +ATOM 700 O TYR B 90 -2.745 -12.331 165.001 1.00 19.11 O +ATOM 701 CB TYR B 90 -4.483 -12.489 162.430 1.00 19.34 C +ATOM 702 CG TYR B 90 -5.510 -13.180 161.564 1.00 23.55 C +ATOM 703 CD1 TYR B 90 -5.164 -13.724 160.326 1.00 19.61 C +ATOM 704 CD2 TYR B 90 -6.830 -13.278 161.976 1.00 23.88 C +ATOM 705 CE1 TYR B 90 -6.104 -14.358 159.535 1.00 19.69 C +ATOM 706 CE2 TYR B 90 -7.785 -13.902 161.184 1.00 22.87 C +ATOM 707 CZ TYR B 90 -7.413 -14.448 159.971 1.00 24.71 C +ATOM 708 OH TYR B 90 -8.363 -15.075 159.188 1.00 25.62 O +ATOM 709 N PRO B 91 -1.290 -12.096 163.293 1.00 23.55 N +ATOM 710 CA PRO B 91 -0.341 -11.339 164.127 1.00 22.62 C +ATOM 711 C PRO B 91 -0.947 -10.120 164.798 1.00 24.40 C +ATOM 712 O PRO B 91 -0.670 -9.871 165.983 1.00 23.13 O +ATOM 713 CB PRO B 91 0.769 -10.949 163.130 1.00 23.73 C +ATOM 714 CG PRO B 91 0.713 -12.022 162.059 1.00 22.16 C +ATOM 715 CD PRO B 91 -0.760 -12.374 161.941 1.00 19.58 C +ATOM 716 N PHE B 92 -1.782 -9.358 164.097 1.00 22.88 N +ATOM 717 CA PHE B 92 -2.349 -8.169 164.723 1.00 25.32 C +ATOM 718 C PHE B 92 -3.269 -8.510 165.890 1.00 23.00 C +ATOM 719 O PHE B 92 -3.416 -7.686 166.805 1.00 24.64 O +ATOM 720 CB PHE B 92 -3.085 -7.295 163.690 1.00 23.49 C +ATOM 721 CG PHE B 92 -4.512 -7.696 163.418 1.00 21.07 C +ATOM 722 CD1 PHE B 92 -5.566 -6.997 163.985 1.00 18.93 C +ATOM 723 CD2 PHE B 92 -4.802 -8.727 162.541 1.00 22.08 C +ATOM 724 CE1 PHE B 92 -6.876 -7.348 163.718 1.00 25.73 C +ATOM 725 CE2 PHE B 92 -6.111 -9.080 162.273 1.00 21.41 C +ATOM 726 CZ PHE B 92 -7.149 -8.387 162.847 1.00 20.99 C +ATOM 727 N THR B 93 -3.852 -9.708 165.928 1.00 21.00 N +ATOM 728 CA THR B 93 -4.656 -10.029 167.103 1.00 20.22 C +ATOM 729 C THR B 93 -3.765 -10.336 168.309 1.00 23.71 C +ATOM 730 O THR B 93 -4.167 -10.056 169.441 1.00 18.46 O +ATOM 731 CB THR B 93 -5.645 -11.183 166.835 1.00 20.78 C +ATOM 732 OG1 THR B 93 -4.957 -12.443 166.702 1.00 18.86 O +ATOM 733 CG2 THR B 93 -6.472 -10.915 165.568 1.00 21.26 C +ATOM 734 N TRP B 94 -2.547 -10.867 168.093 1.00 21.23 N +ATOM 735 CA TRP B 94 -1.616 -11.047 169.205 1.00 21.59 C +ATOM 736 C TRP B 94 -1.129 -9.704 169.742 1.00 23.30 C +ATOM 737 O TRP B 94 -0.902 -9.556 170.951 1.00 18.32 O +ATOM 738 CB TRP B 94 -0.405 -11.905 168.783 1.00 18.71 C +ATOM 739 CG TRP B 94 -0.703 -13.365 168.642 1.00 21.47 C +ATOM 740 CD1 TRP B 94 -0.623 -14.113 167.496 1.00 22.47 C +ATOM 741 CD2 TRP B 94 -1.123 -14.268 169.680 1.00 20.83 C +ATOM 742 NE1 TRP B 94 -0.963 -15.419 167.757 1.00 21.98 N +ATOM 743 CE2 TRP B 94 -1.286 -15.539 169.087 1.00 22.75 C +ATOM 744 CE3 TRP B 94 -1.394 -14.119 171.047 1.00 18.51 C +ATOM 745 CZ2 TRP B 94 -1.690 -16.661 169.820 1.00 21.08 C +ATOM 746 CZ3 TRP B 94 -1.809 -15.226 171.767 1.00 18.48 C +ATOM 747 CH2 TRP B 94 -1.952 -16.482 171.156 1.00 18.64 C +ATOM 748 N ASP B 95 -0.941 -8.722 168.855 1.00 21.75 N +ATOM 749 CA ASP B 95 -0.538 -7.388 169.287 1.00 24.65 C +ATOM 750 C ASP B 95 -1.577 -6.775 170.222 1.00 25.40 C +ATOM 751 O ASP B 95 -1.218 -6.019 171.142 1.00 22.13 O +ATOM 752 CB ASP B 95 -0.326 -6.475 168.071 1.00 24.21 C +ATOM 753 CG ASP B 95 0.953 -6.781 167.289 1.00 27.76 C +ATOM 754 OD1 ASP B 95 1.799 -7.593 167.735 1.00 25.69 O +ATOM 755 OD2 ASP B 95 1.109 -6.192 166.191 1.00 26.91 O +ATOM 756 N ALA B 96 -2.863 -7.109 170.034 1.00 20.99 N +ATOM 757 CA ALA B 96 -3.892 -6.489 170.869 1.00 20.59 C +ATOM 758 C ALA B 96 -3.814 -6.957 172.320 1.00 23.54 C +ATOM 759 O ALA B 96 -4.215 -6.217 173.224 1.00 27.53 O +ATOM 760 CB ALA B 96 -5.290 -6.790 170.332 1.00 18.24 C +ATOM 761 N VAL B 97 -3.288 -8.157 172.563 1.00 19.63 N +ATOM 762 CA VAL B 97 -3.246 -8.740 173.896 1.00 19.30 C +ATOM 763 C VAL B 97 -1.830 -8.735 174.481 1.00 23.15 C +ATOM 764 O VAL B 97 -1.545 -9.519 175.379 1.00 23.84 O +ATOM 765 CB VAL B 97 -3.834 -10.163 173.906 1.00 22.65 C +ATOM 766 CG1 VAL B 97 -5.321 -10.139 173.582 1.00 17.99 C +ATOM 767 CG2 VAL B 97 -3.087 -11.067 172.938 1.00 22.34 C +ATOM 768 N ARG B 98 -0.930 -7.880 173.977 1.00 22.92 N +ATOM 769 CA ARG B 98 0.385 -7.696 174.580 1.00 23.40 C +ATOM 770 C ARG B 98 0.323 -6.533 175.558 1.00 20.56 C +ATOM 771 O ARG B 98 -0.223 -5.478 175.236 1.00 22.51 O +ATOM 772 CB ARG B 98 1.464 -7.416 173.530 1.00 26.77 C +ATOM 773 CG ARG B 98 1.825 -8.586 172.667 1.00 28.21 C +ATOM 774 CD ARG B 98 3.218 -8.433 172.029 1.00 34.37 C +ATOM 775 NE ARG B 98 3.558 -9.662 171.313 1.00 35.27 N +ATOM 776 CZ ARG B 98 4.185 -10.699 171.859 1.00 34.50 C +ATOM 777 NH1 ARG B 98 4.576 -10.656 173.134 1.00 36.91 N +ATOM 778 NH2 ARG B 98 4.414 -11.783 171.130 1.00 28.00 N +ATOM 779 N TYR B 99 0.873 -6.733 176.756 1.00 22.44 N +ATOM 780 CA TYR B 99 0.966 -5.668 177.750 1.00 21.32 C +ATOM 781 C TYR B 99 2.335 -5.751 178.401 1.00 21.82 C +ATOM 782 O TYR B 99 2.720 -6.814 178.900 1.00 19.67 O +ATOM 783 CB TYR B 99 -0.148 -5.762 178.810 1.00 23.15 C +ATOM 784 CG TYR B 99 -0.076 -4.618 179.797 1.00 22.06 C +ATOM 785 CD1 TYR B 99 -0.432 -3.334 179.412 1.00 24.41 C +ATOM 786 CD2 TYR B 99 0.373 -4.811 181.095 1.00 25.11 C +ATOM 787 CE1 TYR B 99 -0.345 -2.268 180.288 1.00 29.28 C +ATOM 788 CE2 TYR B 99 0.456 -3.737 181.996 1.00 25.44 C +ATOM 789 CZ TYR B 99 0.099 -2.477 181.578 1.00 29.11 C +ATOM 790 OH TYR B 99 0.182 -1.400 182.437 1.00 32.42 O +ATOM 791 N ASN B 100 3.084 -4.650 178.357 1.00 26.05 N +ATOM 792 CA ASN B 100 4.442 -4.621 178.891 1.00 32.53 C +ATOM 793 C ASN B 100 5.286 -5.738 178.280 1.00 30.87 C +ATOM 794 O ASN B 100 6.063 -6.405 178.962 1.00 28.34 O +ATOM 795 CB ASN B 100 4.419 -4.705 180.424 1.00 34.82 C +ATOM 796 CG ASN B 100 5.734 -4.266 181.063 1.00 37.99 C +ATOM 797 OD1 ASN B 100 6.463 -3.434 180.520 1.00 39.62 O +ATOM 798 ND2 ASN B 100 6.035 -4.830 182.230 1.00 41.11 N +ATOM 799 N GLY B 101 5.089 -5.980 176.981 1.00 35.76 N +ATOM 800 CA GLY B 101 5.858 -6.963 176.247 1.00 38.21 C +ATOM 801 C GLY B 101 5.347 -8.392 176.292 1.00 42.12 C +ATOM 802 O GLY B 101 5.819 -9.220 175.502 1.00 46.72 O +ATOM 803 N LYS B 102 4.431 -8.720 177.200 1.00 31.54 N +ATOM 804 CA LYS B 102 4.007 -10.092 177.448 1.00 28.45 C +ATOM 805 C LYS B 102 2.597 -10.343 176.928 1.00 24.98 C +ATOM 806 O LYS B 102 1.745 -9.452 176.961 1.00 19.45 O +ATOM 807 CB LYS B 102 4.049 -10.414 178.947 1.00 29.21 C +ATOM 808 CG LYS B 102 5.380 -10.097 179.603 1.00 33.31 C +ATOM 809 CD LYS B 102 5.338 -10.331 181.119 1.00 40.36 C +ATOM 810 CE LYS B 102 6.749 -10.244 181.718 1.00 46.90 C +ATOM 811 NZ LYS B 102 6.786 -9.880 183.179 1.00 49.12 N +ATOM 812 N LEU B 103 2.344 -11.587 176.513 1.00 24.49 N +ATOM 813 CA LEU B 103 0.996 -12.023 176.157 1.00 24.92 C +ATOM 814 C LEU B 103 0.190 -12.297 177.429 1.00 26.83 C +ATOM 815 O LEU B 103 0.594 -13.109 178.268 1.00 23.68 O +ATOM 816 CB LEU B 103 1.062 -13.267 175.277 1.00 19.80 C +ATOM 817 CG LEU B 103 1.802 -13.143 173.935 1.00 24.85 C +ATOM 818 CD1 LEU B 103 1.942 -14.496 173.255 1.00 21.42 C +ATOM 819 CD2 LEU B 103 1.104 -12.153 173.016 1.00 26.41 C +ATOM 820 N ILE B 104 -0.953 -11.627 177.571 1.00 24.69 N +ATOM 821 CA AILE B 104 -1.777 -11.721 178.770 0.64 24.69 C +ATOM 822 C ILE B 104 -3.133 -12.350 178.507 1.00 22.54 C +ATOM 823 O ILE B 104 -3.939 -12.454 179.437 1.00 21.51 O +ATOM 824 CB AILE B 104 -1.970 -10.341 179.427 0.64 27.44 C +ATOM 825 CG1AILE B 104 -2.653 -9.398 178.431 0.64 29.07 C +ATOM 826 CG2AILE B 104 -0.644 -9.783 179.908 0.64 29.31 C +ATOM 827 CD1AILE B 104 -2.929 -8.035 178.972 0.64 31.15 C +ATOM 828 N ALA B 105 -3.426 -12.757 177.267 1.00 18.51 N +ATOM 829 CA ALA B 105 -4.722 -13.367 176.977 1.00 17.76 C +ATOM 830 C ALA B 105 -4.669 -13.981 175.583 1.00 17.95 C +ATOM 831 O ALA B 105 -3.783 -13.663 174.789 1.00 18.01 O +ATOM 832 CB ALA B 105 -5.873 -12.348 177.078 1.00 17.72 C +ATOM 833 N TYR B 106 -5.623 -14.882 175.310 1.00 18.04 N +ATOM 834 CA TYR B 106 -5.784 -15.476 173.982 1.00 18.23 C +ATOM 835 C TYR B 106 -6.769 -14.655 173.161 1.00 18.28 C +ATOM 836 O TYR B 106 -7.924 -14.503 173.578 1.00 21.42 O +ATOM 837 CB TYR B 106 -6.307 -16.905 174.082 1.00 18.32 C +ATOM 838 CG TYR B 106 -5.310 -17.898 174.609 1.00 20.93 C +ATOM 839 CD1 TYR B 106 -5.227 -18.164 175.960 1.00 18.18 C +ATOM 840 CD2 TYR B 106 -4.437 -18.565 173.748 1.00 21.30 C +ATOM 841 CE1 TYR B 106 -4.309 -19.065 176.453 1.00 20.26 C +ATOM 842 CE2 TYR B 106 -3.502 -19.477 174.233 1.00 21.07 C +ATOM 843 CZ TYR B 106 -3.446 -19.720 175.593 1.00 24.48 C +ATOM 844 OH TYR B 106 -2.527 -20.610 176.118 1.00 24.04 O +ATOM 845 N PRO B 107 -6.395 -14.170 171.983 1.00 20.53 N +ATOM 846 CA PRO B 107 -7.382 -13.508 171.129 1.00 19.72 C +ATOM 847 C PRO B 107 -8.355 -14.528 170.550 1.00 20.97 C +ATOM 848 O PRO B 107 -7.968 -15.636 170.176 1.00 18.66 O +ATOM 849 CB PRO B 107 -6.531 -12.859 170.024 1.00 19.69 C +ATOM 850 CG PRO B 107 -5.120 -13.216 170.304 1.00 23.27 C +ATOM 851 CD PRO B 107 -5.100 -14.328 171.306 1.00 21.74 C +ATOM 852 N ILE B 108 -9.632 -14.141 170.495 1.00 20.30 N +ATOM 853 CA ILE B 108 -10.706 -14.988 169.989 1.00 18.67 C +ATOM 854 C ILE B 108 -11.272 -14.441 168.676 1.00 19.69 C +ATOM 855 O ILE B 108 -11.371 -15.162 167.687 1.00 19.85 O +ATOM 856 CB ILE B 108 -11.828 -15.142 171.042 1.00 18.62 C +ATOM 857 CG1 ILE B 108 -11.275 -15.546 172.425 1.00 19.83 C +ATOM 858 CG2 ILE B 108 -12.878 -16.138 170.563 1.00 20.24 C +ATOM 859 CD1 ILE B 108 -10.521 -16.854 172.451 1.00 20.95 C +ATOM 860 N ALA B 109 -11.684 -13.173 168.664 1.00 21.82 N +ATOM 861 CA ALA B 109 -12.400 -12.644 167.507 1.00 25.66 C +ATOM 862 C ALA B 109 -12.291 -11.124 167.446 1.00 23.89 C +ATOM 863 O ALA B 109 -12.185 -10.449 168.468 1.00 25.02 O +ATOM 864 CB ALA B 109 -13.884 -13.047 167.553 1.00 21.24 C +ATOM 865 N VAL B 110 -12.395 -10.591 166.234 1.00 22.38 N +ATOM 866 CA VAL B 110 -12.344 -9.154 166.006 1.00 25.79 C +ATOM 867 C VAL B 110 -13.771 -8.652 165.819 1.00 26.82 C +ATOM 868 O VAL B 110 -14.562 -9.251 165.076 1.00 26.45 O +ATOM 869 CB VAL B 110 -11.446 -8.816 164.799 1.00 26.60 C +ATOM 870 CG1 VAL B 110 -11.414 -7.326 164.555 1.00 24.84 C +ATOM 871 CG2 VAL B 110 -10.037 -9.326 165.064 1.00 24.53 C +ATOM 872 N GLU B 111 -14.114 -7.591 166.543 1.00 24.43 N +ATOM 873 CA GLU B 111 -15.450 -7.006 166.566 1.00 25.20 C +ATOM 874 C GLU B 111 -15.392 -5.553 166.124 1.00 26.06 C +ATOM 875 O GLU B 111 -14.537 -4.795 166.582 1.00 30.63 O +ATOM 876 CB GLU B 111 -16.061 -7.025 167.983 1.00 29.29 C +ATOM 877 CG GLU B 111 -16.102 -8.353 168.713 1.00 36.35 C +ATOM 878 CD GLU B 111 -16.522 -8.171 170.184 1.00 38.48 C +ATOM 879 OE1 GLU B 111 -16.516 -7.011 170.662 1.00 39.35 O +ATOM 880 OE2 GLU B 111 -16.869 -9.176 170.845 1.00 32.95 O +ATOM 881 N ALA B 112 -16.348 -5.144 165.298 1.00 29.86 N +ATOM 882 CA ALA B 112 -16.537 -3.730 165.012 1.00 26.12 C +ATOM 883 C ALA B 112 -18.025 -3.489 164.796 1.00 22.53 C +ATOM 884 O ALA B 112 -18.766 -4.399 164.414 1.00 24.86 O +ATOM 885 CB ALA B 112 -15.726 -3.268 163.798 1.00 26.62 C +ATOM 886 N LEU B 113 -18.468 -2.277 165.099 1.00 20.16 N +ATOM 887 CA LEU B 113 -19.863 -1.903 164.877 1.00 23.10 C +ATOM 888 C LEU B 113 -20.103 -1.674 163.393 1.00 24.73 C +ATOM 889 O LEU B 113 -19.229 -1.168 162.683 1.00 24.01 O +ATOM 890 CB LEU B 113 -20.212 -0.625 165.639 1.00 21.92 C +ATOM 891 CG LEU B 113 -20.205 -0.723 167.171 1.00 20.58 C +ATOM 892 CD1 LEU B 113 -20.376 0.650 167.789 1.00 20.63 C +ATOM 893 CD2 LEU B 113 -21.309 -1.654 167.640 1.00 24.61 C +ATOM 894 N SER B 114 -21.292 -2.042 162.930 1.00 21.60 N +ATOM 895 CA SER B 114 -21.722 -1.740 161.578 1.00 19.18 C +ATOM 896 C SER B 114 -23.089 -1.090 161.655 1.00 27.48 C +ATOM 897 O SER B 114 -23.748 -1.095 162.699 1.00 23.20 O +ATOM 898 CB SER B 114 -21.773 -2.995 160.700 1.00 19.23 C +ATOM 899 OG SER B 114 -20.469 -3.547 160.522 1.00 21.21 O +ATOM 900 N LEU B 115 -23.491 -0.498 160.536 1.00 27.21 N +ATOM 901 CA LEU B 115 -24.842 0.006 160.359 1.00 24.50 C +ATOM 902 C LEU B 115 -25.704 -1.152 159.875 1.00 27.46 C +ATOM 903 O LEU B 115 -25.361 -1.818 158.889 1.00 27.18 O +ATOM 904 CB LEU B 115 -24.861 1.152 159.349 1.00 26.19 C +ATOM 905 CG LEU B 115 -26.208 1.836 159.095 1.00 24.78 C +ATOM 906 CD1 LEU B 115 -26.599 2.639 160.306 1.00 22.95 C +ATOM 907 CD2 LEU B 115 -26.138 2.732 157.841 1.00 21.56 C +ATOM 908 N ILE B 116 -26.797 -1.411 160.580 1.00 24.63 N +ATOM 909 CA ILE B 116 -27.718 -2.485 160.234 1.00 26.56 C +ATOM 910 C ILE B 116 -29.034 -1.843 159.807 1.00 28.24 C +ATOM 911 O ILE B 116 -29.567 -0.986 160.516 1.00 26.27 O +ATOM 912 CB ILE B 116 -27.893 -3.460 161.414 1.00 25.48 C +ATOM 913 CG1 ILE B 116 -26.529 -4.029 161.808 1.00 22.86 C +ATOM 914 CG2 ILE B 116 -28.839 -4.606 161.054 1.00 24.29 C +ATOM 915 CD1 ILE B 116 -26.569 -4.890 163.046 1.00 24.30 C +ATOM 916 N TYR B 117 -29.525 -2.204 158.621 1.00 32.48 N +ATOM 917 CA TYR B 117 -30.674 -1.520 158.048 1.00 29.77 C +ATOM 918 C TYR B 117 -31.698 -2.526 157.530 1.00 26.37 C +ATOM 919 O TYR B 117 -31.358 -3.648 157.149 1.00 25.31 O +ATOM 920 CB TYR B 117 -30.247 -0.545 156.917 1.00 30.95 C +ATOM 921 CG TYR B 117 -29.764 -1.215 155.655 1.00 31.67 C +ATOM 922 CD1 TYR B 117 -28.479 -1.748 155.567 1.00 31.54 C +ATOM 923 CD2 TYR B 117 -30.586 -1.290 154.536 1.00 32.05 C +ATOM 924 CE1 TYR B 117 -28.043 -2.360 154.405 1.00 32.84 C +ATOM 925 CE2 TYR B 117 -30.158 -1.892 153.375 1.00 31.93 C +ATOM 926 CZ TYR B 117 -28.893 -2.419 153.307 1.00 34.89 C +ATOM 927 OH TYR B 117 -28.488 -3.022 152.149 1.00 33.88 O +ATOM 928 N ASN B 118 -32.966 -2.106 157.568 1.00 25.20 N +ATOM 929 CA ASN B 118 -34.099 -2.892 157.101 1.00 26.93 C +ATOM 930 C ASN B 118 -34.264 -2.647 155.605 1.00 28.02 C +ATOM 931 O ASN B 118 -34.689 -1.563 155.193 1.00 29.29 O +ATOM 932 CB ASN B 118 -35.359 -2.482 157.873 1.00 27.98 C +ATOM 933 CG ASN B 118 -36.574 -3.317 157.518 1.00 29.09 C +ATOM 934 OD1 ASN B 118 -36.779 -3.695 156.361 1.00 29.92 O +ATOM 935 ND2 ASN B 118 -37.413 -3.576 158.512 1.00 26.77 N +ATOM 936 N LYS B 119 -33.972 -3.668 154.798 1.00 27.78 N +ATOM 937 CA LYS B 119 -34.001 -3.495 153.348 1.00 31.32 C +ATOM 938 C LYS B 119 -35.405 -3.191 152.831 1.00 35.90 C +ATOM 939 O LYS B 119 -35.550 -2.510 151.809 1.00 37.16 O +ATOM 940 CB LYS B 119 -33.447 -4.741 152.659 1.00 28.52 C +ATOM 941 CG LYS B 119 -31.946 -4.929 152.781 1.00 29.48 C +ATOM 942 CD LYS B 119 -31.525 -6.209 152.100 1.00 32.52 C +ATOM 943 CE LYS B 119 -30.022 -6.374 152.102 1.00 34.76 C +ATOM 944 NZ LYS B 119 -29.634 -7.638 151.423 1.00 37.40 N +ATOM 945 N ASP B 120 -36.445 -3.713 153.490 1.00 37.20 N +ATOM 946 CA ASP B 120 -37.804 -3.432 153.039 1.00 36.11 C +ATOM 947 C ASP B 120 -38.170 -1.971 153.266 1.00 39.13 C +ATOM 948 O ASP B 120 -38.765 -1.330 152.393 1.00 42.60 O +ATOM 949 CB ASP B 120 -38.808 -4.344 153.746 1.00 35.16 C +ATOM 950 CG ASP B 120 -38.625 -5.807 153.393 1.00 38.29 C +ATOM 951 OD1 ASP B 120 -37.932 -6.105 152.400 1.00 39.49 O +ATOM 952 OD2 ASP B 120 -39.208 -6.668 154.091 1.00 40.86 O +ATOM 953 N LEU B 121 -37.834 -1.429 154.434 1.00 37.87 N +ATOM 954 CA LEU B 121 -38.123 -0.028 154.713 1.00 37.68 C +ATOM 955 C LEU B 121 -37.136 0.916 154.031 1.00 38.24 C +ATOM 956 O LEU B 121 -37.467 2.082 153.786 1.00 37.15 O +ATOM 957 CB LEU B 121 -38.108 0.222 156.223 1.00 37.71 C +ATOM 958 CG LEU B 121 -39.165 -0.461 157.095 1.00 40.09 C +ATOM 959 CD1 LEU B 121 -38.912 -0.135 158.570 1.00 40.48 C +ATOM 960 CD2 LEU B 121 -40.582 -0.040 156.690 1.00 39.71 C +ATOM 961 N LEU B 122 -35.925 0.450 153.729 1.00 38.65 N +ATOM 962 CA LEU B 122 -34.836 1.338 153.318 1.00 36.85 C +ATOM 963 C LEU B 122 -33.860 0.575 152.441 1.00 36.84 C +ATOM 964 O LEU B 122 -32.801 0.127 152.897 1.00 39.30 O +ATOM 965 CB LEU B 122 -34.125 1.918 154.545 1.00 34.88 C +ATOM 966 CG LEU B 122 -33.213 3.128 154.369 1.00 36.43 C +ATOM 967 CD1 LEU B 122 -34.020 4.339 153.918 1.00 34.87 C +ATOM 968 CD2 LEU B 122 -32.477 3.414 155.669 1.00 38.46 C +ATOM 969 N PRO B 123 -34.163 0.442 151.147 1.00 36.25 N +ATOM 970 CA PRO B 123 -33.253 -0.308 150.261 1.00 33.42 C +ATOM 971 C PRO B 123 -31.935 0.403 149.992 1.00 34.54 C +ATOM 972 O PRO B 123 -30.939 -0.272 149.689 1.00 33.87 O +ATOM 973 CB PRO B 123 -34.076 -0.481 148.973 1.00 34.15 C +ATOM 974 CG PRO B 123 -35.061 0.660 148.997 1.00 34.79 C +ATOM 975 CD PRO B 123 -35.361 0.933 150.447 1.00 35.51 C +ATOM 976 N ASN B 124 -31.885 1.734 150.108 1.00 35.72 N +ATOM 977 CA ASN B 124 -30.660 2.519 149.926 1.00 33.35 C +ATOM 978 C ASN B 124 -30.363 3.261 151.219 1.00 35.44 C +ATOM 979 O ASN B 124 -30.764 4.424 151.385 1.00 32.71 O +ATOM 980 CB ASN B 124 -30.804 3.512 148.778 1.00 37.43 C +ATOM 981 CG ASN B 124 -31.150 2.838 147.482 1.00 40.87 C +ATOM 982 OD1 ASN B 124 -30.356 2.067 146.948 1.00 42.71 O +ATOM 983 ND2 ASN B 124 -32.355 3.106 146.976 1.00 43.58 N +ATOM 984 N PRO B 125 -29.650 2.635 152.156 1.00 36.64 N +ATOM 985 CA PRO B 125 -29.365 3.311 153.421 1.00 38.36 C +ATOM 986 C PRO B 125 -28.479 4.512 153.204 1.00 38.66 C +ATOM 987 O PRO B 125 -27.704 4.574 152.227 1.00 35.18 O +ATOM 988 CB PRO B 125 -28.657 2.219 154.250 1.00 37.29 C +ATOM 989 CG PRO B 125 -28.133 1.245 153.233 1.00 37.49 C +ATOM 990 CD PRO B 125 -29.126 1.261 152.109 1.00 36.12 C +ATOM 991 N PRO B 126 -28.549 5.517 154.077 1.00 39.01 N +ATOM 992 CA PRO B 126 -27.800 6.754 153.854 1.00 37.72 C +ATOM 993 C PRO B 126 -26.302 6.583 154.064 1.00 36.90 C +ATOM 994 O PRO B 126 -25.845 5.789 154.892 1.00 34.23 O +ATOM 995 CB PRO B 126 -28.389 7.712 154.894 1.00 39.18 C +ATOM 996 CG PRO B 126 -28.874 6.822 155.985 1.00 40.95 C +ATOM 997 CD PRO B 126 -29.392 5.589 155.286 1.00 41.35 C +ATOM 998 N LYS B 127 -25.539 7.382 153.316 1.00 33.42 N +ATOM 999 CA LYS B 127 -24.087 7.365 153.393 1.00 33.99 C +ATOM 1000 C LYS B 127 -23.533 8.363 154.397 1.00 31.34 C +ATOM 1001 O LYS B 127 -22.366 8.234 154.788 1.00 31.15 O +ATOM 1002 CB LYS B 127 -23.472 7.672 152.024 1.00 37.53 C +ATOM 1003 CG LYS B 127 -23.872 6.748 150.910 1.00 42.38 C +ATOM 1004 CD LYS B 127 -23.275 5.375 151.106 1.00 49.17 C +ATOM 1005 CE LYS B 127 -23.826 4.401 150.076 1.00 53.65 C +ATOM 1006 NZ LYS B 127 -22.876 3.284 149.808 1.00 55.59 N +ATOM 1007 N THR B 128 -24.330 9.353 154.817 1.00 30.27 N +ATOM 1008 CA THR B 128 -23.886 10.393 155.737 1.00 30.29 C +ATOM 1009 C THR B 128 -24.819 10.458 156.938 1.00 32.88 C +ATOM 1010 O THR B 128 -26.017 10.183 156.827 1.00 33.58 O +ATOM 1011 CB THR B 128 -23.862 11.791 155.087 1.00 29.50 C +ATOM 1012 OG1 THR B 128 -25.208 12.242 154.882 1.00 28.91 O +ATOM 1013 CG2 THR B 128 -23.139 11.761 153.759 1.00 28.48 C +ATOM 1014 N TRP B 129 -24.253 10.831 158.096 1.00 33.07 N +ATOM 1015 CA TRP B 129 -25.086 11.156 159.250 1.00 29.42 C +ATOM 1016 C TRP B 129 -25.992 12.348 158.967 1.00 32.99 C +ATOM 1017 O TRP B 129 -27.126 12.402 159.460 1.00 30.68 O +ATOM 1018 CB TRP B 129 -24.213 11.469 160.464 1.00 28.66 C +ATOM 1019 CG TRP B 129 -23.664 10.262 161.192 1.00 25.45 C +ATOM 1020 CD1 TRP B 129 -22.463 9.636 160.979 1.00 25.44 C +ATOM 1021 CD2 TRP B 129 -24.304 9.551 162.263 1.00 28.27 C +ATOM 1022 NE1 TRP B 129 -22.311 8.586 161.870 1.00 25.20 N +ATOM 1023 CE2 TRP B 129 -23.431 8.508 162.658 1.00 29.68 C +ATOM 1024 CE3 TRP B 129 -25.529 9.698 162.930 1.00 30.56 C +ATOM 1025 CZ2 TRP B 129 -23.752 7.615 163.686 1.00 30.05 C +ATOM 1026 CZ3 TRP B 129 -25.839 8.813 163.952 1.00 31.98 C +ATOM 1027 CH2 TRP B 129 -24.956 7.782 164.313 1.00 30.44 C +ATOM 1028 N GLU B 130 -25.529 13.282 158.134 1.00 36.49 N +ATOM 1029 CA GLU B 130 -26.216 14.556 157.956 1.00 36.96 C +ATOM 1030 C GLU B 130 -27.600 14.387 157.332 1.00 38.43 C +ATOM 1031 O GLU B 130 -28.473 15.238 157.532 1.00 38.21 O +ATOM 1032 CB GLU B 130 -25.360 15.490 157.090 1.00 37.43 C +ATOM 1033 CG GLU B 130 -24.128 16.108 157.773 1.00 35.30 C +ATOM 1034 CD GLU B 130 -22.904 15.190 157.765 1.00 34.80 C +ATOM 1035 OE1 GLU B 130 -23.041 14.011 157.386 1.00 32.49 O +ATOM 1036 OE2 GLU B 130 -21.794 15.666 158.102 1.00 34.30 O +ATOM 1037 N GLU B 131 -27.828 13.319 156.572 1.00 38.60 N +ATOM 1038 CA GLU B 131 -29.109 13.174 155.892 1.00 39.39 C +ATOM 1039 C GLU B 131 -30.122 12.360 156.692 1.00 37.54 C +ATOM 1040 O GLU B 131 -31.241 12.144 156.218 1.00 35.13 O +ATOM 1041 CB GLU B 131 -28.896 12.562 154.500 1.00 39.68 C +ATOM 1042 CG GLU B 131 -28.529 11.109 154.497 1.00 43.96 C +ATOM 1043 CD GLU B 131 -27.855 10.661 153.199 1.00 46.31 C +ATOM 1044 OE1 GLU B 131 -26.635 10.900 153.051 1.00 45.96 O +ATOM 1045 OE2 GLU B 131 -28.540 10.068 152.334 1.00 45.90 O +ATOM 1046 N ILE B 132 -29.780 11.947 157.907 1.00 37.39 N +ATOM 1047 CA ILE B 132 -30.662 11.137 158.744 1.00 32.99 C +ATOM 1048 C ILE B 132 -31.852 11.945 159.265 1.00 30.47 C +ATOM 1049 O ILE B 132 -32.963 11.397 159.335 1.00 30.62 O +ATOM 1050 CB ILE B 132 -29.869 10.484 159.890 1.00 32.97 C +ATOM 1051 CG1 ILE B 132 -28.979 9.371 159.332 1.00 35.82 C +ATOM 1052 CG2 ILE B 132 -30.796 9.937 160.961 1.00 30.11 C +ATOM 1053 CD1 ILE B 132 -28.188 8.646 160.400 1.00 40.25 C +ATOM 1054 N PRO B 133 -31.694 13.217 159.663 1.00 28.43 N +ATOM 1055 CA PRO B 133 -32.888 13.980 160.086 1.00 30.41 C +ATOM 1056 C PRO B 133 -33.998 14.032 159.043 1.00 34.39 C +ATOM 1057 O PRO B 133 -35.179 13.828 159.381 1.00 34.78 O +ATOM 1058 CB PRO B 133 -32.313 15.371 160.392 1.00 30.49 C +ATOM 1059 CG PRO B 133 -30.914 15.093 160.839 1.00 30.42 C +ATOM 1060 CD PRO B 133 -30.447 13.950 159.977 1.00 28.47 C +ATOM 1061 N ALA B 134 -33.665 14.297 157.777 1.00 33.20 N +ATOM 1062 CA ALA B 134 -34.703 14.344 156.750 1.00 32.98 C +ATOM 1063 C ALA B 134 -35.320 12.969 156.528 1.00 37.34 C +ATOM 1064 O ALA B 134 -36.533 12.857 156.284 1.00 34.75 O +ATOM 1065 CB ALA B 134 -34.140 14.905 155.445 1.00 29.30 C +ATOM 1066 N LEU B 135 -34.499 11.915 156.587 1.00 35.61 N +ATOM 1067 CA LEU B 135 -35.028 10.563 156.455 1.00 36.16 C +ATOM 1068 C LEU B 135 -36.011 10.249 157.577 1.00 36.31 C +ATOM 1069 O LEU B 135 -37.070 9.657 157.336 1.00 36.18 O +ATOM 1070 CB LEU B 135 -33.875 9.556 156.448 1.00 39.45 C +ATOM 1071 CG LEU B 135 -34.222 8.076 156.274 1.00 38.99 C +ATOM 1072 CD1 LEU B 135 -35.021 7.861 155.001 1.00 37.51 C +ATOM 1073 CD2 LEU B 135 -32.952 7.222 156.278 1.00 40.71 C +ATOM 1074 N ASP B 136 -35.693 10.673 158.807 1.00 36.82 N +ATOM 1075 CA ASP B 136 -36.578 10.401 159.934 1.00 37.82 C +ATOM 1076 C ASP B 136 -37.906 11.133 159.777 1.00 40.80 C +ATOM 1077 O ASP B 136 -38.974 10.544 159.989 1.00 40.07 O +ATOM 1078 CB ASP B 136 -35.903 10.799 161.245 1.00 38.04 C +ATOM 1079 CG ASP B 136 -36.744 10.443 162.466 1.00 40.55 C +ATOM 1080 OD1 ASP B 136 -36.937 9.235 162.721 1.00 40.31 O +ATOM 1081 OD2 ASP B 136 -37.224 11.366 163.160 1.00 40.41 O +ATOM 1082 N LYS B 137 -37.853 12.417 159.403 1.00 42.42 N +ATOM 1083 CA BLYS B 137 -39.073 13.171 159.131 0.57 42.58 C +ATOM 1084 C LYS B 137 -39.950 12.455 158.110 1.00 43.62 C +ATOM 1085 O LYS B 137 -41.181 12.446 158.232 1.00 46.85 O +ATOM 1086 CB BLYS B 137 -38.715 14.574 158.645 0.57 41.63 C +ATOM 1087 CG BLYS B 137 -39.896 15.409 158.185 0.57 41.64 C +ATOM 1088 CD BLYS B 137 -39.427 16.756 157.669 0.57 41.73 C +ATOM 1089 CE BLYS B 137 -40.581 17.588 157.151 0.57 42.13 C +ATOM 1090 NZ BLYS B 137 -40.100 18.903 156.655 0.57 42.78 N +ATOM 1091 N GLU B 138 -39.332 11.842 157.098 1.00 41.89 N +ATOM 1092 CA GLU B 138 -40.103 11.113 156.097 1.00 42.91 C +ATOM 1093 C GLU B 138 -40.718 9.848 156.691 1.00 44.02 C +ATOM 1094 O GLU B 138 -41.902 9.560 156.474 1.00 45.49 O +ATOM 1095 CB GLU B 138 -39.220 10.781 154.896 1.00 45.19 C +ATOM 1096 CG GLU B 138 -39.942 10.010 153.786 1.00 51.44 C +ATOM 1097 CD GLU B 138 -39.016 9.555 152.660 1.00 56.16 C +ATOM 1098 OE1 GLU B 138 -37.777 9.603 152.835 1.00 56.66 O +ATOM 1099 OE2 GLU B 138 -39.533 9.139 151.597 1.00 57.49 O +ATOM 1100 N LEU B 139 -39.926 9.075 157.444 1.00 40.77 N +ATOM 1101 CA LEU B 139 -40.425 7.813 157.991 1.00 38.63 C +ATOM 1102 C LEU B 139 -41.424 8.031 159.123 1.00 36.36 C +ATOM 1103 O LEU B 139 -42.315 7.203 159.324 1.00 35.56 O +ATOM 1104 CB LEU B 139 -39.258 6.952 158.469 1.00 39.48 C +ATOM 1105 CG LEU B 139 -38.385 6.350 157.367 1.00 41.45 C +ATOM 1106 CD1 LEU B 139 -37.072 5.815 157.922 1.00 41.13 C +ATOM 1107 CD2 LEU B 139 -39.140 5.254 156.640 1.00 40.89 C +ATOM 1108 N LYS B 140 -41.301 9.131 159.866 1.00 38.44 N +ATOM 1109 CA LYS B 140 -42.266 9.402 160.925 1.00 44.58 C +ATOM 1110 C LYS B 140 -43.664 9.632 160.363 1.00 47.95 C +ATOM 1111 O LYS B 140 -44.658 9.337 161.038 1.00 46.21 O +ATOM 1112 CB LYS B 140 -41.810 10.607 161.745 1.00 45.45 C +ATOM 1113 CG LYS B 140 -40.683 10.293 162.705 1.00 44.70 C +ATOM 1114 CD LYS B 140 -41.118 10.514 164.137 1.00 43.82 C +ATOM 1115 CE LYS B 140 -40.162 9.831 165.093 1.00 41.46 C +ATOM 1116 NZ LYS B 140 -38.788 10.359 164.951 1.00 40.79 N +ATOM 1117 N ALA B 141 -43.756 10.128 159.125 1.00 51.68 N +ATOM 1118 CA ALA B 141 -45.050 10.265 158.466 1.00 54.75 C +ATOM 1119 C ALA B 141 -45.721 8.912 158.267 1.00 55.94 C +ATOM 1120 O ALA B 141 -46.953 8.837 158.184 1.00 57.43 O +ATOM 1121 CB ALA B 141 -44.883 10.976 157.122 1.00 56.37 C +ATOM 1122 N LYS B 142 -44.934 7.840 158.184 1.00 52.21 N +ATOM 1123 CA LYS B 142 -45.442 6.489 158.001 1.00 48.77 C +ATOM 1124 C LYS B 142 -45.450 5.695 159.302 1.00 44.10 C +ATOM 1125 O LYS B 142 -45.573 4.467 159.269 1.00 44.10 O +ATOM 1126 CB LYS B 142 -44.607 5.753 156.950 1.00 55.61 C +ATOM 1127 CG LYS B 142 -44.584 6.406 155.571 1.00 60.54 C +ATOM 1128 CD LYS B 142 -43.640 5.656 154.638 1.00 65.75 C +ATOM 1129 CE LYS B 142 -43.738 6.148 153.196 1.00 70.18 C +ATOM 1130 NZ LYS B 142 -43.333 7.578 153.049 1.00 72.52 N +ATOM 1131 N GLY B 143 -45.306 6.365 160.443 1.00 39.55 N +ATOM 1132 CA GLY B 143 -45.329 5.686 161.722 1.00 37.54 C +ATOM 1133 C GLY B 143 -44.070 4.936 162.081 1.00 38.96 C +ATOM 1134 O GLY B 143 -44.098 4.104 162.993 1.00 43.03 O +ATOM 1135 N LYS B 144 -42.964 5.205 161.396 1.00 36.55 N +ATOM 1136 CA LYS B 144 -41.676 4.561 161.608 1.00 32.68 C +ATOM 1137 C LYS B 144 -40.662 5.596 162.092 1.00 34.84 C +ATOM 1138 O LYS B 144 -40.989 6.763 162.316 1.00 36.63 O +ATOM 1139 CB LYS B 144 -41.179 3.900 160.318 1.00 33.42 C +ATOM 1140 CG LYS B 144 -42.149 2.937 159.664 1.00 36.83 C +ATOM 1141 CD LYS B 144 -42.404 1.731 160.540 1.00 37.78 C +ATOM 1142 CE LYS B 144 -43.241 0.692 159.810 1.00 38.86 C +ATOM 1143 NZ LYS B 144 -43.571 -0.433 160.732 1.00 40.82 N +ATOM 1144 N SER B 145 -39.413 5.161 162.250 1.00 31.38 N +ATOM 1145 CA SER B 145 -38.326 6.083 162.548 1.00 32.46 C +ATOM 1146 C SER B 145 -37.093 5.649 161.772 1.00 26.83 C +ATOM 1147 O SER B 145 -37.004 4.523 161.275 1.00 25.55 O +ATOM 1148 CB SER B 145 -38.010 6.169 164.062 1.00 36.52 C +ATOM 1149 OG SER B 145 -37.455 4.968 164.567 1.00 37.98 O +ATOM 1150 N ALA B 146 -36.134 6.564 161.668 1.00 25.52 N +ATOM 1151 CA ALA B 146 -34.954 6.275 160.863 1.00 24.62 C +ATOM 1152 C ALA B 146 -33.955 5.394 161.615 1.00 24.13 C +ATOM 1153 O ALA B 146 -33.528 4.358 161.097 1.00 24.89 O +ATOM 1154 CB ALA B 146 -34.293 7.579 160.423 1.00 25.88 C +ATOM 1155 N LEU B 147 -33.610 5.760 162.853 1.00 22.09 N +ATOM 1156 CA LEU B 147 -32.462 5.159 163.525 1.00 28.86 C +ATOM 1157 C LEU B 147 -32.684 5.062 165.029 1.00 29.71 C +ATOM 1158 O LEU B 147 -33.081 6.038 165.673 1.00 30.28 O +ATOM 1159 CB LEU B 147 -31.193 5.980 163.251 1.00 32.56 C +ATOM 1160 CG LEU B 147 -29.887 5.611 163.964 1.00 35.10 C +ATOM 1161 CD1 LEU B 147 -29.366 4.237 163.535 1.00 34.52 C +ATOM 1162 CD2 LEU B 147 -28.822 6.685 163.744 1.00 33.27 C +ATOM 1163 N MET B 148 -32.378 3.894 165.590 1.00 27.04 N +ATOM 1164 CA MET B 148 -32.373 3.707 167.035 1.00 25.20 C +ATOM 1165 C MET B 148 -31.179 2.843 167.386 1.00 27.31 C +ATOM 1166 O MET B 148 -30.974 1.800 166.763 1.00 27.37 O +ATOM 1167 CB MET B 148 -33.663 3.044 167.529 1.00 24.48 C +ATOM 1168 CG MET B 148 -34.895 3.905 167.328 1.00 31.95 C +ATOM 1169 SD MET B 148 -36.387 3.180 168.024 1.00 40.71 S +ATOM 1170 CE MET B 148 -35.933 3.119 169.758 1.00 33.46 C +ATOM 1171 N PHE B 149 -30.372 3.291 168.346 1.00 25.30 N +ATOM 1172 CA PHE B 149 -29.290 2.466 168.857 1.00 23.67 C +ATOM 1173 C PHE B 149 -29.066 2.838 170.314 1.00 26.17 C +ATOM 1174 O PHE B 149 -29.690 3.762 170.840 1.00 28.01 O +ATOM 1175 CB PHE B 149 -28.003 2.585 168.015 1.00 24.93 C +ATOM 1176 CG PHE B 149 -27.373 3.956 168.020 1.00 28.77 C +ATOM 1177 CD1 PHE B 149 -27.779 4.931 167.120 1.00 26.24 C +ATOM 1178 CD2 PHE B 149 -26.362 4.262 168.915 1.00 27.57 C +ATOM 1179 CE1 PHE B 149 -27.190 6.195 167.120 1.00 25.73 C +ATOM 1180 CE2 PHE B 149 -25.768 5.521 168.926 1.00 28.95 C +ATOM 1181 CZ PHE B 149 -26.187 6.493 168.030 1.00 29.29 C +ATOM 1182 N ASN B 150 -28.193 2.076 170.969 1.00 25.96 N +ATOM 1183 CA ASN B 150 -27.990 2.184 172.412 1.00 22.61 C +ATOM 1184 C ASN B 150 -27.267 3.483 172.760 1.00 24.98 C +ATOM 1185 O ASN B 150 -26.074 3.634 172.480 1.00 29.43 O +ATOM 1186 CB ASN B 150 -27.202 0.976 172.912 1.00 21.15 C +ATOM 1187 CG ASN B 150 -27.009 0.994 174.428 1.00 21.73 C +ATOM 1188 OD1 ASN B 150 -27.614 1.811 175.128 1.00 24.81 O +ATOM 1189 ND2 ASN B 150 -26.198 0.072 174.939 1.00 21.72 N +ATOM 1190 N LEU B 151 -27.970 4.404 173.412 1.00 28.33 N +ATOM 1191 CA LEU B 151 -27.381 5.656 173.874 1.00 31.38 C +ATOM 1192 C LEU B 151 -26.893 5.595 175.319 1.00 34.49 C +ATOM 1193 O LEU B 151 -26.452 6.619 175.855 1.00 34.08 O +ATOM 1194 CB LEU B 151 -28.387 6.804 173.723 1.00 31.19 C +ATOM 1195 CG LEU B 151 -28.834 7.082 172.283 1.00 33.72 C +ATOM 1196 CD1 LEU B 151 -29.786 8.280 172.223 1.00 31.43 C +ATOM 1197 CD2 LEU B 151 -27.624 7.311 171.376 1.00 35.52 C +ATOM 1198 N GLN B 152 -26.973 4.438 175.970 1.00 31.76 N +ATOM 1199 CA GLN B 152 -26.494 4.335 177.344 1.00 31.27 C +ATOM 1200 C GLN B 152 -25.022 3.930 177.438 1.00 28.44 C +ATOM 1201 O GLN B 152 -24.410 4.121 178.498 1.00 26.69 O +ATOM 1202 CB GLN B 152 -27.351 3.335 178.131 1.00 29.78 C +ATOM 1203 CG GLN B 152 -28.847 3.642 178.122 1.00 29.36 C +ATOM 1204 CD GLN B 152 -29.136 5.109 178.383 1.00 32.80 C +ATOM 1205 OE1 GLN B 152 -28.804 5.640 179.446 1.00 31.73 O +ATOM 1206 NE2 GLN B 152 -29.739 5.777 177.406 1.00 32.53 N +ATOM 1207 N GLU B 153 -24.436 3.397 176.365 1.00 23.99 N +ATOM 1208 CA GLU B 153 -23.039 2.950 176.369 1.00 23.40 C +ATOM 1209 C GLU B 153 -22.213 3.712 175.339 1.00 22.69 C +ATOM 1210 O GLU B 153 -22.504 3.630 174.130 1.00 18.76 O +ATOM 1211 CB GLU B 153 -22.940 1.442 176.108 1.00 25.75 C +ATOM 1212 CG GLU B 153 -23.296 0.555 177.303 1.00 29.07 C +ATOM 1213 CD GLU B 153 -22.304 0.688 178.476 1.00 35.13 C +ATOM 1214 OE1 GLU B 153 -21.138 1.097 178.254 1.00 35.33 O +ATOM 1215 OE2 GLU B 153 -22.696 0.370 179.619 1.00 35.38 O +ATOM 1216 N PRO B 154 -21.137 4.393 175.748 1.00 22.67 N +ATOM 1217 CA PRO B 154 -20.387 5.244 174.804 1.00 24.06 C +ATOM 1218 C PRO B 154 -19.717 4.486 173.670 1.00 25.36 C +ATOM 1219 O PRO B 154 -19.317 5.116 172.685 1.00 24.82 O +ATOM 1220 CB PRO B 154 -19.335 5.919 175.694 1.00 21.86 C +ATOM 1221 CG PRO B 154 -19.158 4.975 176.859 1.00 24.03 C +ATOM 1222 CD PRO B 154 -20.521 4.357 177.087 1.00 23.64 C +ATOM 1223 N TYR B 155 -19.585 3.163 173.770 1.00 26.39 N +ATOM 1224 CA TYR B 155 -19.052 2.378 172.660 1.00 26.45 C +ATOM 1225 C TYR B 155 -19.819 2.644 171.366 1.00 25.16 C +ATOM 1226 O TYR B 155 -19.224 2.729 170.279 1.00 21.15 O +ATOM 1227 CB TYR B 155 -19.123 0.903 173.042 1.00 26.89 C +ATOM 1228 CG TYR B 155 -18.628 -0.083 172.025 1.00 25.84 C +ATOM 1229 CD1 TYR B 155 -17.269 -0.228 171.771 1.00 24.86 C +ATOM 1230 CD2 TYR B 155 -19.518 -0.921 171.366 1.00 26.09 C +ATOM 1231 CE1 TYR B 155 -16.818 -1.153 170.869 1.00 24.75 C +ATOM 1232 CE2 TYR B 155 -19.076 -1.854 170.469 1.00 26.74 C +ATOM 1233 CZ TYR B 155 -17.729 -1.957 170.209 1.00 26.94 C +ATOM 1234 OH TYR B 155 -17.279 -2.890 169.300 1.00 32.14 O +ATOM 1235 N PHE B 156 -21.140 2.827 171.479 1.00 22.85 N +ATOM 1236 CA PHE B 156 -22.008 2.979 170.319 1.00 23.55 C +ATOM 1237 C PHE B 156 -21.995 4.400 169.772 1.00 25.65 C +ATOM 1238 O PHE B 156 -22.276 4.607 168.580 1.00 23.48 O +ATOM 1239 CB PHE B 156 -23.442 2.581 170.677 1.00 24.11 C +ATOM 1240 CG PHE B 156 -23.607 1.121 170.980 1.00 23.54 C +ATOM 1241 CD1 PHE B 156 -24.065 0.249 170.004 1.00 21.53 C +ATOM 1242 CD2 PHE B 156 -23.302 0.620 172.236 1.00 20.95 C +ATOM 1243 CE1 PHE B 156 -24.215 -1.100 170.279 1.00 22.59 C +ATOM 1244 CE2 PHE B 156 -23.441 -0.718 172.519 1.00 20.72 C +ATOM 1245 CZ PHE B 156 -23.898 -1.585 171.548 1.00 20.94 C +ATOM 1246 N THR B 157 -21.718 5.390 170.614 1.00 23.93 N +ATOM 1247 CA THR B 157 -21.631 6.754 170.115 1.00 27.95 C +ATOM 1248 C THR B 157 -20.208 7.161 169.753 1.00 27.31 C +ATOM 1249 O THR B 157 -20.036 8.130 169.007 1.00 26.37 O +ATOM 1250 CB THR B 157 -22.222 7.742 171.129 1.00 30.63 C +ATOM 1251 OG1 THR B 157 -21.568 7.592 172.393 1.00 36.23 O +ATOM 1252 CG2 THR B 157 -23.717 7.483 171.308 1.00 32.02 C +ATOM 1253 N TRP B 158 -19.201 6.397 170.178 1.00 25.01 N +ATOM 1254 CA TRP B 158 -17.815 6.754 169.866 1.00 22.01 C +ATOM 1255 C TRP B 158 -17.506 6.879 168.371 1.00 23.36 C +ATOM 1256 O TRP B 158 -16.759 7.802 168.004 1.00 24.60 O +ATOM 1257 CB TRP B 158 -16.855 5.745 170.521 1.00 23.30 C +ATOM 1258 CG TRP B 158 -15.431 6.163 170.314 1.00 24.51 C +ATOM 1259 CD1 TRP B 158 -14.519 5.611 169.461 1.00 26.99 C +ATOM 1260 CD2 TRP B 158 -14.784 7.278 170.930 1.00 25.93 C +ATOM 1261 NE1 TRP B 158 -13.327 6.301 169.532 1.00 27.70 N +ATOM 1262 CE2 TRP B 158 -13.468 7.330 170.427 1.00 28.64 C +ATOM 1263 CE3 TRP B 158 -15.188 8.233 171.870 1.00 28.93 C +ATOM 1264 CZ2 TRP B 158 -12.555 8.302 170.832 1.00 28.11 C +ATOM 1265 CZ3 TRP B 158 -14.280 9.198 172.272 1.00 29.83 C +ATOM 1266 CH2 TRP B 158 -12.979 9.229 171.746 1.00 28.99 C +ATOM 1267 N PRO B 159 -18.003 6.021 167.476 1.00 22.40 N +ATOM 1268 CA PRO B 159 -17.659 6.192 166.052 1.00 22.64 C +ATOM 1269 C PRO B 159 -17.961 7.586 165.510 1.00 21.33 C +ATOM 1270 O PRO B 159 -17.178 8.131 164.717 1.00 24.77 O +ATOM 1271 CB PRO B 159 -18.524 5.128 165.362 1.00 23.61 C +ATOM 1272 CG PRO B 159 -18.750 4.093 166.397 1.00 23.90 C +ATOM 1273 CD PRO B 159 -18.864 4.840 167.688 1.00 26.14 C +ATOM 1274 N LEU B 160 -19.058 8.196 165.954 1.00 21.82 N +ATOM 1275 CA LEU B 160 -19.420 9.541 165.519 1.00 24.15 C +ATOM 1276 C LEU B 160 -18.560 10.605 166.195 1.00 26.73 C +ATOM 1277 O LEU B 160 -18.128 11.565 165.547 1.00 28.22 O +ATOM 1278 CB LEU B 160 -20.903 9.778 165.802 1.00 27.04 C +ATOM 1279 CG LEU B 160 -21.451 11.179 165.580 1.00 28.75 C +ATOM 1280 CD1 LEU B 160 -21.233 11.601 164.133 1.00 25.75 C +ATOM 1281 CD2 LEU B 160 -22.939 11.220 165.947 1.00 26.06 C +ATOM 1282 N ILE B 161 -18.300 10.445 167.494 1.00 25.75 N +ATOM 1283 CA ILE B 161 -17.465 11.397 168.221 1.00 24.43 C +ATOM 1284 C ILE B 161 -16.055 11.424 167.640 1.00 27.07 C +ATOM 1285 O ILE B 161 -15.433 12.488 167.522 1.00 29.55 O +ATOM 1286 CB ILE B 161 -17.453 11.043 169.719 1.00 26.39 C +ATOM 1287 CG1 ILE B 161 -18.831 11.285 170.346 1.00 30.14 C +ATOM 1288 CG2 ILE B 161 -16.340 11.800 170.450 1.00 30.24 C +ATOM 1289 CD1 ILE B 161 -18.919 10.882 171.837 1.00 27.60 C +ATOM 1290 N ALA B 162 -15.528 10.257 167.267 1.00 22.85 N +ATOM 1291 CA ALA B 162 -14.164 10.186 166.769 1.00 20.92 C +ATOM 1292 C ALA B 162 -14.045 10.569 165.297 1.00 26.28 C +ATOM 1293 O ALA B 162 -12.928 10.825 164.836 1.00 31.39 O +ATOM 1294 CB ALA B 162 -13.601 8.780 166.980 1.00 22.06 C +ATOM 1295 N ALA B 163 -15.162 10.654 164.566 1.00 24.78 N +ATOM 1296 CA ALA B 163 -15.096 10.865 163.117 1.00 27.43 C +ATOM 1297 C ALA B 163 -14.340 12.145 162.769 1.00 31.64 C +ATOM 1298 O ALA B 163 -13.401 12.123 161.967 1.00 34.70 O +ATOM 1299 CB ALA B 163 -16.506 10.897 162.524 1.00 25.60 C +ATOM 1300 N ASP B 164 -14.742 13.273 163.352 1.00 31.48 N +ATOM 1301 CA ASP B 164 -14.170 14.565 162.997 1.00 33.24 C +ATOM 1302 C ASP B 164 -12.929 14.929 163.813 1.00 34.30 C +ATOM 1303 O ASP B 164 -12.478 16.076 163.743 1.00 31.35 O +ATOM 1304 CB ASP B 164 -15.236 15.669 163.123 1.00 39.40 C +ATOM 1305 CG ASP B 164 -14.796 16.992 162.493 1.00 43.90 C +ATOM 1306 OD1 ASP B 164 -14.281 16.959 161.349 1.00 41.83 O +ATOM 1307 OD2 ASP B 164 -14.972 18.057 163.132 1.00 45.07 O +ATOM 1308 N GLY B 165 -12.371 14.004 164.597 1.00 32.26 N +ATOM 1309 CA GLY B 165 -11.169 14.356 165.333 1.00 32.18 C +ATOM 1310 C GLY B 165 -11.016 13.928 166.783 1.00 31.99 C +ATOM 1311 O GLY B 165 -9.919 14.034 167.328 1.00 29.39 O +ATOM 1312 N GLY B 166 -12.085 13.457 167.426 1.00 29.79 N +ATOM 1313 CA GLY B 166 -11.984 13.038 168.812 1.00 26.52 C +ATOM 1314 C GLY B 166 -11.122 11.796 168.976 1.00 26.99 C +ATOM 1315 O GLY B 166 -11.040 10.944 168.090 1.00 25.05 O +ATOM 1316 N TYR B 167 -10.420 11.709 170.111 1.00 21.51 N +ATOM 1317 CA TYR B 167 -9.582 10.546 170.362 1.00 20.36 C +ATOM 1318 C TYR B 167 -9.535 10.290 171.860 1.00 25.41 C +ATOM 1319 O TYR B 167 -9.950 11.120 172.669 1.00 29.41 O +ATOM 1320 CB TYR B 167 -8.150 10.710 169.815 1.00 23.87 C +ATOM 1321 CG TYR B 167 -7.386 11.905 170.346 1.00 25.26 C +ATOM 1322 CD1 TYR B 167 -6.654 11.811 171.530 1.00 25.10 C +ATOM 1323 CD2 TYR B 167 -7.380 13.114 169.668 1.00 28.86 C +ATOM 1324 CE1 TYR B 167 -5.940 12.893 172.027 1.00 28.93 C +ATOM 1325 CE2 TYR B 167 -6.660 14.209 170.155 1.00 27.83 C +ATOM 1326 CZ TYR B 167 -5.954 14.092 171.333 1.00 29.21 C +ATOM 1327 OH TYR B 167 -5.245 15.173 171.821 1.00 28.26 O +ATOM 1328 N ALA B 168 -9.004 9.122 172.219 1.00 21.27 N +ATOM 1329 CA ALA B 168 -8.859 8.734 173.613 1.00 23.24 C +ATOM 1330 C ALA B 168 -7.586 9.323 174.207 1.00 27.49 C +ATOM 1331 O ALA B 168 -7.636 10.361 174.868 1.00 30.12 O +ATOM 1332 CB ALA B 168 -8.869 7.206 173.737 1.00 22.51 C +ATOM 1333 N PHE B 169 -6.440 8.694 173.948 1.00 27.41 N +ATOM 1334 CA PHE B 169 -5.150 9.152 174.445 1.00 27.04 C +ATOM 1335 C PHE B 169 -4.196 9.410 173.288 1.00 25.01 C +ATOM 1336 O PHE B 169 -4.179 8.669 172.304 1.00 23.08 O +ATOM 1337 CB PHE B 169 -4.532 8.127 175.428 1.00 26.64 C +ATOM 1338 CG PHE B 169 -5.384 7.878 176.636 1.00 24.41 C +ATOM 1339 CD1 PHE B 169 -5.308 8.718 177.736 1.00 22.98 C +ATOM 1340 CD2 PHE B 169 -6.277 6.813 176.666 1.00 24.11 C +ATOM 1341 CE1 PHE B 169 -6.103 8.503 178.842 1.00 27.38 C +ATOM 1342 CE2 PHE B 169 -7.071 6.588 177.772 1.00 24.43 C +ATOM 1343 CZ PHE B 169 -6.988 7.431 178.863 1.00 28.73 C +ATOM 1344 N LYS B 170 -3.404 10.468 173.418 1.00 25.09 N +ATOM 1345 CA LYS B 170 -2.433 10.828 172.397 1.00 28.65 C +ATOM 1346 C LYS B 170 -1.259 9.860 172.426 1.00 24.96 C +ATOM 1347 O LYS B 170 -0.682 9.600 173.480 1.00 22.45 O +ATOM 1348 CB LYS B 170 -1.935 12.253 172.635 1.00 29.43 C +ATOM 1349 CG LYS B 170 -1.050 12.823 171.556 1.00 35.93 C +ATOM 1350 CD LYS B 170 -1.823 13.003 170.253 1.00 42.12 C +ATOM 1351 CE LYS B 170 -1.065 13.894 169.295 1.00 48.74 C +ATOM 1352 NZ LYS B 170 0.315 13.403 169.045 1.00 54.44 N +ATOM 1353 N TYR B 171 -0.905 9.324 171.270 1.00 23.25 N +ATOM 1354 CA TYR B 171 0.245 8.434 171.134 1.00 27.15 C +ATOM 1355 C TYR B 171 1.323 9.163 170.346 1.00 30.79 C +ATOM 1356 O TYR B 171 1.071 9.627 169.231 1.00 26.91 O +ATOM 1357 CB TYR B 171 -0.149 7.130 170.440 1.00 23.22 C +ATOM 1358 CG TYR B 171 0.960 6.098 170.304 1.00 25.79 C +ATOM 1359 CD1 TYR B 171 1.081 5.047 171.211 1.00 27.83 C +ATOM 1360 CD2 TYR B 171 1.850 6.146 169.234 1.00 25.33 C +ATOM 1361 CE1 TYR B 171 2.071 4.089 171.067 1.00 28.95 C +ATOM 1362 CE2 TYR B 171 2.844 5.194 169.084 1.00 25.55 C +ATOM 1363 CZ TYR B 171 2.941 4.165 169.997 1.00 28.44 C +ATOM 1364 OH TYR B 171 3.927 3.216 169.853 1.00 32.55 O +ATOM 1365 N GLU B 172 2.521 9.258 170.912 1.00 38.26 N +ATOM 1366 CA GLU B 172 3.583 10.013 170.255 1.00 42.90 C +ATOM 1367 C GLU B 172 4.937 9.404 170.592 1.00 41.34 C +ATOM 1368 O GLU B 172 5.221 9.132 171.761 1.00 36.13 O +ATOM 1369 CB GLU B 172 3.534 11.483 170.689 1.00 47.87 C +ATOM 1370 CG GLU B 172 4.577 12.388 170.054 1.00 55.83 C +ATOM 1371 CD GLU B 172 4.292 12.668 168.587 1.00 63.23 C +ATOM 1372 OE1 GLU B 172 4.571 11.786 167.747 1.00 65.75 O +ATOM 1373 OE2 GLU B 172 3.791 13.773 168.274 1.00 66.20 O +ATOM 1374 N ASN B 173 5.759 9.186 169.567 1.00 49.12 N +ATOM 1375 CA ASN B 173 7.122 8.676 169.733 1.00 52.74 C +ATOM 1376 C ASN B 173 7.147 7.416 170.603 1.00 48.44 C +ATOM 1377 O ASN B 173 7.808 7.349 171.639 1.00 44.70 O +ATOM 1378 CB ASN B 173 8.041 9.757 170.309 1.00 62.83 C +ATOM 1379 CG ASN B 173 8.376 10.842 169.294 1.00 71.96 C +ATOM 1380 OD1 ASN B 173 7.546 11.213 168.459 1.00 74.87 O +ATOM 1381 ND2 ASN B 173 9.605 11.348 169.356 1.00 74.41 N +ATOM 1382 N GLY B 174 6.376 6.419 170.170 1.00 45.39 N +ATOM 1383 CA GLY B 174 6.394 5.102 170.780 1.00 38.94 C +ATOM 1384 C GLY B 174 5.758 4.961 172.147 1.00 36.16 C +ATOM 1385 O GLY B 174 6.016 3.966 172.824 1.00 34.57 O +ATOM 1386 N LYS B 175 4.895 5.893 172.559 1.00 34.70 N +ATOM 1387 CA LYS B 175 4.219 5.768 173.846 1.00 32.37 C +ATOM 1388 C LYS B 175 3.018 6.700 173.894 1.00 27.82 C +ATOM 1389 O LYS B 175 2.886 7.621 173.082 1.00 28.50 O +ATOM 1390 CB LYS B 175 5.171 6.050 175.012 1.00 35.52 C +ATOM 1391 CG LYS B 175 5.725 7.450 175.062 1.00 41.72 C +ATOM 1392 CD LYS B 175 6.695 7.575 176.230 1.00 49.55 C +ATOM 1393 CE LYS B 175 7.391 8.927 176.252 1.00 55.58 C +ATOM 1394 NZ LYS B 175 6.413 10.043 176.339 1.00 59.40 N +ATOM 1395 N TYR B 176 2.135 6.429 174.850 1.00 29.60 N +ATOM 1396 CA TYR B 176 0.978 7.271 175.116 1.00 29.31 C +ATOM 1397 C TYR B 176 1.319 8.384 176.101 1.00 34.00 C +ATOM 1398 O TYR B 176 2.092 8.197 177.040 1.00 31.51 O +ATOM 1399 CB TYR B 176 -0.173 6.455 175.704 1.00 24.67 C +ATOM 1400 CG TYR B 176 -0.911 5.579 174.722 1.00 23.98 C +ATOM 1401 CD1 TYR B 176 -1.778 6.132 173.780 1.00 21.71 C +ATOM 1402 CD2 TYR B 176 -0.749 4.203 174.738 1.00 21.01 C +ATOM 1403 CE1 TYR B 176 -2.451 5.334 172.875 1.00 22.04 C +ATOM 1404 CE2 TYR B 176 -1.420 3.395 173.831 1.00 20.29 C +ATOM 1405 CZ TYR B 176 -2.273 3.967 172.916 1.00 19.50 C +ATOM 1406 OH TYR B 176 -2.959 3.159 172.032 1.00 21.07 O +ATOM 1407 N ASP B 177 0.673 9.528 175.913 1.00 35.20 N +ATOM 1408 CA ASP B 177 0.651 10.596 176.902 1.00 31.32 C +ATOM 1409 C ASP B 177 -0.733 10.537 177.531 1.00 27.56 C +ATOM 1410 O ASP B 177 -1.687 11.095 176.987 1.00 25.03 O +ATOM 1411 CB ASP B 177 0.932 11.956 176.265 1.00 31.51 C +ATOM 1412 CG ASP B 177 0.990 13.091 177.290 1.00 36.02 C +ATOM 1413 OD1 ASP B 177 0.775 12.835 178.493 1.00 34.73 O +ATOM 1414 OD2 ASP B 177 1.274 14.239 176.889 1.00 37.11 O +ATOM 1415 N ILE B 178 -0.837 9.881 178.692 1.00 24.69 N +ATOM 1416 CA ILE B 178 -2.143 9.686 179.309 1.00 25.57 C +ATOM 1417 C ILE B 178 -2.763 10.973 179.824 1.00 26.80 C +ATOM 1418 O ILE B 178 -3.949 10.977 180.168 1.00 30.01 O +ATOM 1419 CB ILE B 178 -2.076 8.655 180.450 1.00 31.44 C +ATOM 1420 CG1 ILE B 178 -1.260 9.199 181.626 1.00 33.28 C +ATOM 1421 CG2 ILE B 178 -1.494 7.351 179.935 1.00 32.07 C +ATOM 1422 CD1 ILE B 178 -1.275 8.283 182.826 1.00 33.87 C +ATOM 1423 N LYS B 179 -2.004 12.069 179.877 1.00 26.72 N +ATOM 1424 CA LYS B 179 -2.554 13.371 180.235 1.00 26.86 C +ATOM 1425 C LYS B 179 -3.112 14.132 179.046 1.00 32.37 C +ATOM 1426 O LYS B 179 -3.729 15.183 179.239 1.00 34.68 O +ATOM 1427 CB LYS B 179 -1.490 14.232 180.921 1.00 31.30 C +ATOM 1428 CG LYS B 179 -0.950 13.611 182.190 1.00 35.37 C +ATOM 1429 CD LYS B 179 0.004 14.548 182.911 1.00 37.89 C +ATOM 1430 CE LYS B 179 0.427 13.964 184.249 1.00 39.87 C +ATOM 1431 NZ LYS B 179 1.179 14.966 185.059 1.00 42.60 N +ATOM 1432 N ASP B 180 -2.932 13.626 177.833 1.00 29.12 N +ATOM 1433 CA ASP B 180 -3.413 14.276 176.618 1.00 30.20 C +ATOM 1434 C ASP B 180 -4.615 13.474 176.125 1.00 29.62 C +ATOM 1435 O ASP B 180 -4.464 12.481 175.416 1.00 26.53 O +ATOM 1436 CB ASP B 180 -2.309 14.344 175.583 1.00 27.20 C +ATOM 1437 CG ASP B 180 -2.689 15.179 174.379 1.00 29.32 C +ATOM 1438 OD1 ASP B 180 -3.903 15.385 174.145 1.00 29.03 O +ATOM 1439 OD2 ASP B 180 -1.767 15.617 173.668 1.00 26.77 O +ATOM 1440 N VAL B 181 -5.807 13.907 176.517 1.00 28.13 N +ATOM 1441 CA VAL B 181 -7.056 13.218 176.215 1.00 30.67 C +ATOM 1442 C VAL B 181 -7.822 14.037 175.186 1.00 35.31 C +ATOM 1443 O VAL B 181 -7.883 15.268 175.287 1.00 38.41 O +ATOM 1444 CB VAL B 181 -7.890 13.010 177.498 1.00 32.81 C +ATOM 1445 CG1 VAL B 181 -9.181 12.269 177.199 1.00 34.84 C +ATOM 1446 CG2 VAL B 181 -7.061 12.268 178.561 1.00 32.83 C +ATOM 1447 N GLY B 182 -8.388 13.362 174.182 1.00 34.56 N +ATOM 1448 CA GLY B 182 -9.042 14.086 173.106 1.00 28.07 C +ATOM 1449 C GLY B 182 -10.558 14.009 173.113 1.00 29.77 C +ATOM 1450 O GLY B 182 -11.186 14.015 172.050 1.00 31.55 O +ATOM 1451 N VAL B 183 -11.168 13.989 174.301 1.00 29.22 N +ATOM 1452 CA VAL B 183 -12.624 13.868 174.385 1.00 32.72 C +ATOM 1453 C VAL B 183 -13.341 15.204 174.262 1.00 36.12 C +ATOM 1454 O VAL B 183 -14.571 15.218 174.100 1.00 37.01 O +ATOM 1455 CB VAL B 183 -13.084 13.190 175.691 1.00 32.72 C +ATOM 1456 CG1 VAL B 183 -12.644 11.732 175.715 1.00 34.39 C +ATOM 1457 CG2 VAL B 183 -12.579 13.950 176.923 1.00 31.38 C +ATOM 1458 N ASP B 184 -12.623 16.328 174.350 1.00 36.00 N +ATOM 1459 CA ASP B 184 -13.268 17.634 174.331 1.00 43.01 C +ATOM 1460 C ASP B 184 -12.659 18.581 173.301 1.00 44.34 C +ATOM 1461 O ASP B 184 -12.756 19.800 173.465 1.00 48.68 O +ATOM 1462 CB ASP B 184 -13.227 18.270 175.723 1.00 51.81 C +ATOM 1463 CG ASP B 184 -11.819 18.592 176.175 1.00 59.79 C +ATOM 1464 OD1 ASP B 184 -10.871 17.930 175.701 1.00 63.32 O +ATOM 1465 OD2 ASP B 184 -11.661 19.517 177.000 1.00 63.76 O +ATOM 1466 N ASN B 185 -12.023 18.061 172.253 1.00 41.88 N +ATOM 1467 CA ASN B 185 -11.499 18.930 171.211 1.00 39.11 C +ATOM 1468 C ASN B 185 -12.617 19.277 170.226 1.00 38.83 C +ATOM 1469 O ASN B 185 -13.778 18.895 170.405 1.00 41.22 O +ATOM 1470 CB ASN B 185 -10.285 18.289 170.528 1.00 39.70 C +ATOM 1471 CG ASN B 185 -10.597 16.953 169.848 1.00 38.63 C +ATOM 1472 OD1 ASN B 185 -11.747 16.629 169.552 1.00 37.71 O +ATOM 1473 ND2 ASN B 185 -9.552 16.177 169.590 1.00 36.88 N +ATOM 1474 N ALA B 186 -12.266 20.015 169.170 1.00 35.55 N +ATOM 1475 CA ALA B 186 -13.274 20.464 168.218 1.00 38.16 C +ATOM 1476 C ALA B 186 -13.981 19.285 167.559 1.00 38.05 C +ATOM 1477 O ALA B 186 -15.207 19.299 167.399 1.00 34.19 O +ATOM 1478 CB ALA B 186 -12.635 21.361 167.156 1.00 37.66 C +ATOM 1479 N GLY B 187 -13.231 18.240 167.202 1.00 37.78 N +ATOM 1480 CA GLY B 187 -13.840 17.105 166.527 1.00 33.84 C +ATOM 1481 C GLY B 187 -14.832 16.365 167.404 1.00 32.13 C +ATOM 1482 O GLY B 187 -15.920 16.004 166.949 1.00 33.78 O +ATOM 1483 N ALA B 188 -14.479 16.141 168.679 1.00 31.94 N +ATOM 1484 CA ALA B 188 -15.397 15.457 169.580 1.00 30.52 C +ATOM 1485 C ALA B 188 -16.647 16.291 169.819 1.00 33.20 C +ATOM 1486 O ALA B 188 -17.765 15.764 169.788 1.00 32.64 O +ATOM 1487 CB ALA B 188 -14.717 15.140 170.914 1.00 26.01 C +ATOM 1488 N LYS B 189 -16.475 17.593 170.063 1.00 34.53 N +ATOM 1489 CA ALYS B 189 -17.628 18.456 170.297 0.60 35.42 C +ATOM 1490 C LYS B 189 -18.587 18.432 169.116 1.00 34.51 C +ATOM 1491 O LYS B 189 -19.811 18.371 169.307 1.00 34.67 O +ATOM 1492 CB ALYS B 189 -17.167 19.883 170.590 0.60 36.36 C +ATOM 1493 CG ALYS B 189 -16.512 20.048 171.948 0.60 35.44 C +ATOM 1494 CD ALYS B 189 -16.068 21.480 172.167 0.60 35.87 C +ATOM 1495 CE ALYS B 189 -15.525 21.686 173.569 0.60 35.96 C +ATOM 1496 NZ ALYS B 189 -15.244 23.125 173.804 0.60 37.81 N +ATOM 1497 N ALA B 190 -18.054 18.465 167.890 1.00 30.44 N +ATOM 1498 CA ALA B 190 -18.924 18.472 166.717 1.00 31.79 C +ATOM 1499 C ALA B 190 -19.764 17.206 166.646 1.00 30.99 C +ATOM 1500 O ALA B 190 -20.972 17.268 166.394 1.00 30.57 O +ATOM 1501 CB ALA B 190 -18.100 18.636 165.442 1.00 31.44 C +ATOM 1502 N GLY B 191 -19.148 16.050 166.908 1.00 30.82 N +ATOM 1503 CA GLY B 191 -19.886 14.795 166.852 1.00 28.43 C +ATOM 1504 C GLY B 191 -20.953 14.684 167.927 1.00 30.84 C +ATOM 1505 O GLY B 191 -22.081 14.273 167.652 1.00 32.01 O +ATOM 1506 N LEU B 192 -20.604 15.024 169.176 1.00 34.26 N +ATOM 1507 CA LEU B 192 -21.591 14.948 170.249 1.00 33.00 C +ATOM 1508 C LEU B 192 -22.702 15.977 170.066 1.00 37.57 C +ATOM 1509 O LEU B 192 -23.869 15.692 170.368 1.00 38.53 O +ATOM 1510 CB LEU B 192 -20.920 15.126 171.613 1.00 31.04 C +ATOM 1511 CG LEU B 192 -21.876 14.879 172.778 1.00 30.74 C +ATOM 1512 CD1 LEU B 192 -22.573 13.537 172.598 1.00 31.10 C +ATOM 1513 CD2 LEU B 192 -21.177 14.956 174.137 1.00 29.12 C +ATOM 1514 N THR B 193 -22.372 17.156 169.537 1.00 37.32 N +ATOM 1515 CA THR B 193 -23.405 18.144 169.245 1.00 34.92 C +ATOM 1516 C THR B 193 -24.412 17.604 168.242 1.00 33.25 C +ATOM 1517 O THR B 193 -25.625 17.796 168.404 1.00 33.92 O +ATOM 1518 CB THR B 193 -22.774 19.428 168.710 1.00 35.54 C +ATOM 1519 OG1 THR B 193 -22.035 20.064 169.753 1.00 34.59 O +ATOM 1520 CG2 THR B 193 -23.832 20.387 168.178 1.00 35.59 C +ATOM 1521 N PHE B 194 -23.935 16.904 167.211 1.00 31.28 N +ATOM 1522 CA PHE B 194 -24.855 16.353 166.220 1.00 31.67 C +ATOM 1523 C PHE B 194 -25.780 15.319 166.845 1.00 31.27 C +ATOM 1524 O PHE B 194 -26.964 15.239 166.494 1.00 34.12 O +ATOM 1525 CB PHE B 194 -24.081 15.731 165.058 1.00 32.81 C +ATOM 1526 CG PHE B 194 -24.957 15.345 163.898 1.00 32.81 C +ATOM 1527 CD1 PHE B 194 -25.271 16.271 162.918 1.00 29.32 C +ATOM 1528 CD2 PHE B 194 -25.484 14.067 163.801 1.00 31.99 C +ATOM 1529 CE1 PHE B 194 -26.084 15.926 161.849 1.00 28.68 C +ATOM 1530 CE2 PHE B 194 -26.308 13.715 162.737 1.00 29.49 C +ATOM 1531 CZ PHE B 194 -26.598 14.647 161.757 1.00 29.54 C +ATOM 1532 N LEU B 195 -25.261 14.528 167.784 1.00 26.89 N +ATOM 1533 CA LEU B 195 -26.097 13.554 168.471 1.00 29.97 C +ATOM 1534 C LEU B 195 -27.167 14.241 169.309 1.00 29.90 C +ATOM 1535 O LEU B 195 -28.333 13.823 169.299 1.00 30.74 O +ATOM 1536 CB LEU B 195 -25.230 12.662 169.361 1.00 31.90 C +ATOM 1537 CG LEU B 195 -25.949 11.512 170.055 1.00 34.75 C +ATOM 1538 CD1 LEU B 195 -26.128 10.351 169.106 1.00 37.21 C +ATOM 1539 CD2 LEU B 195 -25.183 11.088 171.310 1.00 34.88 C +ATOM 1540 N VAL B 196 -26.786 15.300 170.034 1.00 31.88 N +ATOM 1541 CA VAL B 196 -27.724 16.011 170.896 1.00 34.10 C +ATOM 1542 C VAL B 196 -28.801 16.699 170.066 1.00 35.99 C +ATOM 1543 O VAL B 196 -29.965 16.769 170.478 1.00 32.62 O +ATOM 1544 CB VAL B 196 -26.972 17.012 171.796 1.00 36.36 C +ATOM 1545 CG1 VAL B 196 -27.942 17.940 172.508 1.00 33.95 C +ATOM 1546 CG2 VAL B 196 -26.120 16.271 172.817 1.00 35.59 C +ATOM 1547 N ASP B 197 -28.433 17.225 168.893 1.00 38.99 N +ATOM 1548 CA ASP B 197 -29.430 17.853 168.028 1.00 41.43 C +ATOM 1549 C ASP B 197 -30.428 16.828 167.511 1.00 42.13 C +ATOM 1550 O ASP B 197 -31.625 17.120 167.412 1.00 44.15 O +ATOM 1551 CB ASP B 197 -28.758 18.584 166.867 1.00 44.31 C +ATOM 1552 CG ASP B 197 -28.075 19.868 167.304 1.00 50.19 C +ATOM 1553 OD1 ASP B 197 -28.125 20.192 168.510 1.00 53.25 O +ATOM 1554 OD2 ASP B 197 -27.480 20.552 166.444 1.00 53.26 O +ATOM 1555 N LEU B 198 -29.957 15.626 167.172 1.00 37.20 N +ATOM 1556 CA LEU B 198 -30.883 14.558 166.815 1.00 37.85 C +ATOM 1557 C LEU B 198 -31.894 14.311 167.925 1.00 37.73 C +ATOM 1558 O LEU B 198 -33.058 14.006 167.648 1.00 37.32 O +ATOM 1559 CB LEU B 198 -30.120 13.267 166.518 1.00 38.49 C +ATOM 1560 CG LEU B 198 -29.312 13.165 165.228 1.00 39.34 C +ATOM 1561 CD1 LEU B 198 -28.599 11.813 165.170 1.00 39.08 C +ATOM 1562 CD2 LEU B 198 -30.195 13.373 164.003 1.00 38.63 C +ATOM 1563 N ILE B 199 -31.477 14.466 169.181 1.00 37.74 N +ATOM 1564 CA ILE B 199 -32.383 14.237 170.298 1.00 38.14 C +ATOM 1565 C ILE B 199 -33.255 15.460 170.555 1.00 41.72 C +ATOM 1566 O ILE B 199 -34.461 15.331 170.779 1.00 44.00 O +ATOM 1567 CB ILE B 199 -31.576 13.836 171.543 1.00 36.65 C +ATOM 1568 CG1 ILE B 199 -30.884 12.491 171.295 1.00 34.59 C +ATOM 1569 CG2 ILE B 199 -32.470 13.798 172.775 1.00 36.40 C +ATOM 1570 CD1 ILE B 199 -29.941 12.060 172.384 1.00 32.80 C +ATOM 1571 N LYS B 200 -32.671 16.659 170.506 1.00 43.60 N +ATOM 1572 CA LYS B 200 -33.456 17.877 170.692 1.00 45.01 C +ATOM 1573 C LYS B 200 -34.595 17.973 169.681 1.00 45.95 C +ATOM 1574 O LYS B 200 -35.708 18.388 170.031 1.00 45.81 O +ATOM 1575 CB LYS B 200 -32.552 19.112 170.613 1.00 46.26 C +ATOM 1576 CG LYS B 200 -31.676 19.313 171.839 1.00 49.64 C +ATOM 1577 CD LYS B 200 -30.992 20.686 171.833 1.00 52.42 C +ATOM 1578 CE LYS B 200 -30.046 20.848 173.033 1.00 53.01 C +ATOM 1579 NZ LYS B 200 -29.380 22.186 173.087 1.00 51.65 N +ATOM 1580 N ASN B 201 -34.338 17.601 168.424 1.00 44.26 N +ATOM 1581 CA ASN B 201 -35.353 17.622 167.375 1.00 42.77 C +ATOM 1582 C ASN B 201 -36.148 16.323 167.294 1.00 39.83 C +ATOM 1583 O ASN B 201 -36.790 16.066 166.267 1.00 38.38 O +ATOM 1584 CB ASN B 201 -34.720 17.926 166.017 1.00 42.23 C +ATOM 1585 CG ASN B 201 -34.015 19.261 165.992 1.00 44.75 C +ATOM 1586 OD1 ASN B 201 -32.891 19.373 165.497 1.00 48.03 O +ATOM 1587 ND2 ASN B 201 -34.665 20.285 166.540 1.00 40.04 N +ATOM 1588 N LYS B 202 -36.088 15.494 168.340 1.00 37.77 N +ATOM 1589 CA LYS B 202 -36.948 14.317 168.505 1.00 41.13 C +ATOM 1590 C LYS B 202 -36.767 13.284 167.395 1.00 39.42 C +ATOM 1591 O LYS B 202 -37.680 12.508 167.101 1.00 38.27 O +ATOM 1592 CB LYS B 202 -38.419 14.724 168.639 1.00 47.90 C +ATOM 1593 CG LYS B 202 -38.666 15.631 169.838 1.00 55.18 C +ATOM 1594 CD LYS B 202 -40.127 16.027 169.967 1.00 61.94 C +ATOM 1595 CE LYS B 202 -40.352 16.905 171.190 1.00 66.24 C +ATOM 1596 NZ LYS B 202 -41.803 17.183 171.414 1.00 69.45 N +ATOM 1597 N HIS B 203 -35.581 13.249 166.780 1.00 35.60 N +ATOM 1598 CA HIS B 203 -35.239 12.158 165.878 1.00 35.73 C +ATOM 1599 C HIS B 203 -34.733 10.933 166.630 1.00 34.37 C +ATOM 1600 O HIS B 203 -34.699 9.839 166.058 1.00 34.39 O +ATOM 1601 CB HIS B 203 -34.190 12.617 164.857 1.00 38.31 C +ATOM 1602 CG HIS B 203 -34.628 13.780 164.023 1.00 41.13 C +ATOM 1603 ND1 HIS B 203 -35.731 13.734 163.198 1.00 42.60 N +ATOM 1604 CD2 HIS B 203 -34.113 15.026 163.890 1.00 42.04 C +ATOM 1605 CE1 HIS B 203 -35.876 14.900 162.592 1.00 41.57 C +ATOM 1606 NE2 HIS B 203 -34.906 15.701 162.995 1.00 41.87 N +ATOM 1607 N MET B 204 -34.309 11.103 167.883 1.00 31.66 N +ATOM 1608 CA MET B 204 -33.973 10.001 168.775 1.00 32.41 C +ATOM 1609 C MET B 204 -34.415 10.377 170.180 1.00 34.05 C +ATOM 1610 O MET B 204 -34.733 11.536 170.463 1.00 32.45 O +ATOM 1611 CB MET B 204 -32.471 9.673 168.752 1.00 32.33 C +ATOM 1612 CG MET B 204 -31.973 9.063 167.446 1.00 35.80 C +ATOM 1613 SD MET B 204 -30.289 8.414 167.590 1.00 36.84 S +ATOM 1614 CE MET B 204 -29.475 9.865 168.252 1.00 35.93 C +ATOM 1615 N ASN B 205 -34.427 9.380 171.065 1.00 36.37 N +ATOM 1616 CA ASN B 205 -34.842 9.538 172.456 1.00 35.56 C +ATOM 1617 C ASN B 205 -33.646 9.245 173.356 1.00 33.53 C +ATOM 1618 O ASN B 205 -32.981 8.218 173.191 1.00 31.92 O +ATOM 1619 CB ASN B 205 -36.024 8.596 172.757 1.00 39.88 C +ATOM 1620 CG ASN B 205 -36.591 8.758 174.164 1.00 45.68 C +ATOM 1621 OD1 ASN B 205 -35.865 8.700 175.161 1.00 48.82 O +ATOM 1622 ND2 ASN B 205 -37.913 8.923 174.248 1.00 46.80 N +ATOM 1623 N ALA B 206 -33.375 10.143 174.311 1.00 33.89 N +ATOM 1624 CA ALA B 206 -32.202 9.987 175.170 1.00 35.04 C +ATOM 1625 C ALA B 206 -32.261 8.735 176.037 1.00 35.15 C +ATOM 1626 O ALA B 206 -31.212 8.266 176.496 1.00 36.09 O +ATOM 1627 CB ALA B 206 -32.027 11.218 176.066 1.00 32.55 C +ATOM 1628 N ASP B 207 -33.453 8.189 176.277 1.00 36.27 N +ATOM 1629 CA ASP B 207 -33.602 7.032 177.149 1.00 36.90 C +ATOM 1630 C ASP B 207 -33.356 5.707 176.444 1.00 33.10 C +ATOM 1631 O ASP B 207 -33.350 4.672 177.118 1.00 32.26 O +ATOM 1632 CB ASP B 207 -35.005 7.001 177.770 1.00 39.23 C +ATOM 1633 CG ASP B 207 -35.251 8.162 178.704 1.00 47.71 C +ATOM 1634 OD1 ASP B 207 -34.284 8.618 179.351 1.00 46.71 O +ATOM 1635 OD2 ASP B 207 -36.416 8.611 178.804 1.00 56.17 O +ATOM 1636 N THR B 208 -33.175 5.709 175.121 1.00 29.66 N +ATOM 1637 CA THR B 208 -33.029 4.460 174.380 1.00 30.54 C +ATOM 1638 C THR B 208 -31.791 3.690 174.831 1.00 29.48 C +ATOM 1639 O THR B 208 -30.683 4.231 174.856 1.00 30.17 O +ATOM 1640 CB THR B 208 -32.936 4.733 172.877 1.00 29.91 C +ATOM 1641 OG1 THR B 208 -34.062 5.513 172.457 1.00 31.42 O +ATOM 1642 CG2 THR B 208 -32.920 3.414 172.102 1.00 29.68 C +ATOM 1643 N ASP B 209 -31.981 2.417 175.159 1.00 31.24 N +ATOM 1644 CA ASP B 209 -30.909 1.528 175.585 1.00 29.28 C +ATOM 1645 C ASP B 209 -30.794 0.365 174.593 1.00 29.08 C +ATOM 1646 O ASP B 209 -31.422 0.369 173.529 1.00 25.18 O +ATOM 1647 CB ASP B 209 -31.157 1.066 177.028 1.00 31.35 C +ATOM 1648 CG ASP B 209 -32.453 0.271 177.191 1.00 35.27 C +ATOM 1649 OD1 ASP B 209 -33.086 -0.099 176.180 1.00 33.65 O +ATOM 1650 OD2 ASP B 209 -32.850 0.020 178.354 1.00 36.47 O +ATOM 1651 N TYR B 210 -30.002 -0.651 174.957 1.00 27.18 N +ATOM 1652 CA TYR B 210 -29.768 -1.770 174.043 1.00 27.87 C +ATOM 1653 C TYR B 210 -31.061 -2.523 173.753 1.00 29.09 C +ATOM 1654 O TYR B 210 -31.390 -2.809 172.594 1.00 28.88 O +ATOM 1655 CB TYR B 210 -28.720 -2.725 174.636 1.00 24.86 C +ATOM 1656 CG TYR B 210 -28.252 -3.803 173.671 1.00 25.97 C +ATOM 1657 CD1 TYR B 210 -27.071 -3.658 172.953 1.00 28.24 C +ATOM 1658 CD2 TYR B 210 -28.997 -4.967 173.478 1.00 26.03 C +ATOM 1659 CE1 TYR B 210 -26.647 -4.638 172.067 1.00 29.27 C +ATOM 1660 CE2 TYR B 210 -28.582 -5.949 172.602 1.00 24.99 C +ATOM 1661 CZ TYR B 210 -27.402 -5.778 171.902 1.00 27.80 C +ATOM 1662 OH TYR B 210 -26.985 -6.747 171.027 1.00 29.63 O +ATOM 1663 N SER B 211 -31.803 -2.863 174.803 1.00 22.28 N +ATOM 1664 CA SER B 211 -33.013 -3.671 174.641 1.00 29.72 C +ATOM 1665 C SER B 211 -34.064 -2.947 173.807 1.00 29.61 C +ATOM 1666 O SER B 211 -34.684 -3.547 172.918 1.00 28.16 O +ATOM 1667 CB SER B 211 -33.571 -4.024 176.022 1.00 35.96 C +ATOM 1668 OG SER B 211 -34.606 -4.978 175.942 1.00 44.15 O +ATOM 1669 N ILE B 212 -34.251 -1.648 174.053 1.00 26.92 N +ATOM 1670 CA ILE B 212 -35.280 -0.895 173.345 1.00 28.52 C +ATOM 1671 C ILE B 212 -34.955 -0.788 171.860 1.00 32.29 C +ATOM 1672 O ILE B 212 -35.833 -0.977 171.003 1.00 32.01 O +ATOM 1673 CB ILE B 212 -35.468 0.488 173.991 1.00 33.92 C +ATOM 1674 CG1 ILE B 212 -36.161 0.348 175.348 1.00 33.38 C +ATOM 1675 CG2 ILE B 212 -36.246 1.435 173.081 1.00 33.58 C +ATOM 1676 CD1 ILE B 212 -36.268 1.651 176.087 1.00 34.55 C +ATOM 1677 N ALA B 213 -33.696 -0.465 171.525 1.00 30.49 N +ATOM 1678 CA ALA B 213 -33.336 -0.344 170.114 1.00 26.90 C +ATOM 1679 C ALA B 213 -33.412 -1.691 169.412 1.00 28.46 C +ATOM 1680 O ALA B 213 -33.842 -1.768 168.256 1.00 28.50 O +ATOM 1681 CB ALA B 213 -31.937 0.255 169.967 1.00 27.32 C +ATOM 1682 N GLU B 214 -32.993 -2.761 170.092 1.00 28.08 N +ATOM 1683 CA GLU B 214 -33.065 -4.090 169.500 1.00 30.31 C +ATOM 1684 C GLU B 214 -34.506 -4.482 169.206 1.00 32.05 C +ATOM 1685 O GLU B 214 -34.815 -4.992 168.118 1.00 35.37 O +ATOM 1686 CB GLU B 214 -32.416 -5.124 170.428 1.00 29.50 C +ATOM 1687 CG GLU B 214 -32.507 -6.541 169.893 1.00 34.38 C +ATOM 1688 CD GLU B 214 -31.843 -7.560 170.797 1.00 41.80 C +ATOM 1689 OE1 GLU B 214 -32.003 -7.461 172.028 1.00 45.64 O +ATOM 1690 OE2 GLU B 214 -31.123 -8.438 170.275 1.00 44.22 O +ATOM 1691 N ALA B 215 -35.404 -4.267 170.174 1.00 29.42 N +ATOM 1692 CA ALA B 215 -36.806 -4.610 169.951 1.00 31.13 C +ATOM 1693 C ALA B 215 -37.392 -3.812 168.791 1.00 30.36 C +ATOM 1694 O ALA B 215 -38.093 -4.369 167.936 1.00 31.09 O +ATOM 1695 CB ALA B 215 -37.616 -4.388 171.229 1.00 31.83 C +ATOM 1696 N ALA B 216 -37.078 -2.512 168.720 1.00 29.52 N +ATOM 1697 CA ALA B 216 -37.661 -1.668 167.680 1.00 31.94 C +ATOM 1698 C ALA B 216 -37.193 -2.085 166.291 1.00 33.27 C +ATOM 1699 O ALA B 216 -37.984 -2.077 165.343 1.00 33.96 O +ATOM 1700 CB ALA B 216 -37.340 -0.201 167.949 1.00 30.84 C +ATOM 1701 N PHE B 217 -35.904 -2.422 166.136 1.00 31.96 N +ATOM 1702 CA PHE B 217 -35.432 -2.842 164.823 1.00 28.22 C +ATOM 1703 C PHE B 217 -35.969 -4.218 164.452 1.00 28.61 C +ATOM 1704 O PHE B 217 -36.346 -4.452 163.296 1.00 27.35 O +ATOM 1705 CB PHE B 217 -33.896 -2.834 164.743 1.00 24.81 C +ATOM 1706 CG PHE B 217 -33.384 -3.162 163.369 1.00 25.17 C +ATOM 1707 CD1 PHE B 217 -33.271 -2.169 162.404 1.00 24.71 C +ATOM 1708 CD2 PHE B 217 -33.057 -4.467 163.025 1.00 24.31 C +ATOM 1709 CE1 PHE B 217 -32.833 -2.469 161.121 1.00 28.10 C +ATOM 1710 CE2 PHE B 217 -32.617 -4.775 161.744 1.00 25.97 C +ATOM 1711 CZ PHE B 217 -32.506 -3.776 160.792 1.00 28.27 C +ATOM 1712 N ASN B 218 -35.985 -5.147 165.404 1.00 23.86 N +ATOM 1713 CA ASN B 218 -36.405 -6.510 165.105 1.00 31.28 C +ATOM 1714 C ASN B 218 -37.910 -6.647 164.909 1.00 30.83 C +ATOM 1715 O ASN B 218 -38.365 -7.718 164.498 1.00 32.84 O +ATOM 1716 CB ASN B 218 -35.912 -7.442 166.213 1.00 32.28 C +ATOM 1717 CG ASN B 218 -34.404 -7.565 166.214 1.00 32.65 C +ATOM 1718 OD1 ASN B 218 -33.726 -6.871 165.460 1.00 31.05 O +ATOM 1719 ND2 ASN B 218 -33.871 -8.442 167.058 1.00 31.22 N +ATOM 1720 N LYS B 219 -38.691 -5.615 165.208 1.00 31.16 N +ATOM 1721 CA LYS B 219 -40.107 -5.610 164.869 1.00 34.90 C +ATOM 1722 C LYS B 219 -40.424 -4.727 163.668 1.00 35.85 C +ATOM 1723 O LYS B 219 -41.600 -4.538 163.350 1.00 34.01 O +ATOM 1724 CB LYS B 219 -40.960 -5.190 166.067 1.00 39.94 C +ATOM 1725 CG LYS B 219 -40.962 -6.234 167.157 1.00 49.52 C +ATOM 1726 CD LYS B 219 -41.927 -5.890 168.270 1.00 59.34 C +ATOM 1727 CE LYS B 219 -41.941 -7.005 169.311 1.00 63.98 C +ATOM 1728 NZ LYS B 219 -43.180 -6.963 170.135 1.00 66.77 N +ATOM 1729 N GLY B 220 -39.408 -4.186 162.998 1.00 33.30 N +ATOM 1730 CA GLY B 220 -39.652 -3.357 161.833 1.00 32.62 C +ATOM 1731 C GLY B 220 -40.180 -1.966 162.116 1.00 32.48 C +ATOM 1732 O GLY B 220 -40.783 -1.355 161.231 1.00 33.94 O +ATOM 1733 N GLU B 221 -39.964 -1.440 163.320 1.00 27.61 N +ATOM 1734 CA GLU B 221 -40.421 -0.100 163.669 1.00 31.27 C +ATOM 1735 C GLU B 221 -39.397 0.985 163.373 1.00 33.49 C +ATOM 1736 O GLU B 221 -39.779 2.151 163.210 1.00 33.79 O +ATOM 1737 CB GLU B 221 -40.818 -0.028 165.149 1.00 38.35 C +ATOM 1738 CG GLU B 221 -42.111 -0.761 165.480 1.00 44.75 C +ATOM 1739 CD GLU B 221 -42.398 -0.785 166.974 1.00 52.66 C +ATOM 1740 OE1 GLU B 221 -41.501 -0.399 167.759 1.00 52.09 O +ATOM 1741 OE2 GLU B 221 -43.523 -1.182 167.361 1.00 57.36 O +ATOM 1742 N THR B 222 -38.114 0.643 163.315 1.00 31.72 N +ATOM 1743 CA THR B 222 -37.078 1.591 162.943 1.00 32.09 C +ATOM 1744 C THR B 222 -36.278 1.002 161.785 1.00 32.23 C +ATOM 1745 O THR B 222 -36.156 -0.219 161.651 1.00 33.13 O +ATOM 1746 CB THR B 222 -36.174 1.931 164.151 1.00 34.12 C +ATOM 1747 OG1 THR B 222 -35.255 2.967 163.795 1.00 36.18 O +ATOM 1748 CG2 THR B 222 -35.397 0.709 164.591 1.00 36.22 C +ATOM 1749 N ALA B 223 -35.807 1.877 160.894 1.00 31.99 N +ATOM 1750 CA ALA B 223 -35.163 1.410 159.672 1.00 32.33 C +ATOM 1751 C ALA B 223 -33.689 1.081 159.853 1.00 32.31 C +ATOM 1752 O ALA B 223 -33.105 0.408 158.993 1.00 20.04 O +ATOM 1753 CB ALA B 223 -35.320 2.449 158.553 1.00 31.45 C +ATOM 1754 N MET B 224 -33.053 1.562 160.919 1.00 28.78 N +ATOM 1755 CA MET B 224 -31.634 1.314 161.100 1.00 29.23 C +ATOM 1756 C MET B 224 -31.324 1.129 162.579 1.00 28.81 C +ATOM 1757 O MET B 224 -32.038 1.624 163.451 1.00 30.76 O +ATOM 1758 CB MET B 224 -30.790 2.465 160.528 1.00 30.41 C +ATOM 1759 CG MET B 224 -30.913 2.660 159.005 1.00 29.89 C +ATOM 1760 SD MET B 224 -29.913 4.066 158.481 1.00 31.08 S +ATOM 1761 CE MET B 224 -30.798 5.445 159.206 1.00 31.27 C +ATOM 1762 N THR B 225 -30.257 0.389 162.845 1.00 23.67 N +ATOM 1763 CA THR B 225 -29.657 0.354 164.169 1.00 23.79 C +ATOM 1764 C THR B 225 -28.149 0.238 163.955 1.00 28.65 C +ATOM 1765 O THR B 225 -27.666 0.150 162.821 1.00 28.69 O +ATOM 1766 CB THR B 225 -30.241 -0.780 165.041 1.00 25.42 C +ATOM 1767 OG1 THR B 225 -29.734 -0.686 166.391 1.00 26.12 O +ATOM 1768 CG2 THR B 225 -29.916 -2.151 164.464 1.00 21.65 C +ATOM 1769 N ILE B 226 -27.406 0.344 165.050 1.00 25.96 N +ATOM 1770 CA ILE B 226 -25.964 0.224 165.038 1.00 24.52 C +ATOM 1771 C ILE B 226 -25.612 -0.848 166.049 1.00 26.96 C +ATOM 1772 O ILE B 226 -25.980 -0.731 167.222 1.00 25.69 O +ATOM 1773 CB ILE B 226 -25.280 1.564 165.366 1.00 25.06 C +ATOM 1774 CG1 ILE B 226 -25.498 2.561 164.207 1.00 25.14 C +ATOM 1775 CG2 ILE B 226 -23.812 1.352 165.700 1.00 24.18 C +ATOM 1776 CD1 ILE B 226 -25.132 4.000 164.533 1.00 28.06 C +ATOM 1777 N ASN B 227 -24.966 -1.918 165.595 1.00 24.22 N +ATOM 1778 CA ASN B 227 -24.683 -3.013 166.515 1.00 19.19 C +ATOM 1779 C ASN B 227 -23.555 -3.855 165.949 1.00 26.56 C +ATOM 1780 O ASN B 227 -23.100 -3.647 164.819 1.00 24.02 O +ATOM 1781 CB ASN B 227 -25.936 -3.866 166.775 1.00 19.29 C +ATOM 1782 CG ASN B 227 -26.054 -4.285 168.241 1.00 25.05 C +ATOM 1783 OD1 ASN B 227 -25.052 -4.553 168.889 1.00 24.07 O +ATOM 1784 ND2 ASN B 227 -27.279 -4.335 168.759 1.00 27.16 N +ATOM 1785 N GLY B 228 -23.104 -4.812 166.751 1.00 25.72 N +ATOM 1786 CA GLY B 228 -22.033 -5.681 166.330 1.00 22.39 C +ATOM 1787 C GLY B 228 -22.556 -7.042 165.921 1.00 19.87 C +ATOM 1788 O GLY B 228 -23.763 -7.301 165.941 1.00 23.23 O +ATOM 1789 N PRO B 229 -21.639 -7.950 165.591 1.00 21.50 N +ATOM 1790 CA PRO B 229 -22.041 -9.271 165.070 1.00 19.18 C +ATOM 1791 C PRO B 229 -22.870 -10.115 166.024 1.00 22.67 C +ATOM 1792 O PRO B 229 -23.637 -10.964 165.563 1.00 20.45 O +ATOM 1793 CB PRO B 229 -20.693 -9.947 164.792 1.00 19.14 C +ATOM 1794 CG PRO B 229 -19.722 -8.818 164.630 1.00 23.33 C +ATOM 1795 CD PRO B 229 -20.177 -7.752 165.557 1.00 24.83 C +ATOM 1796 N TRP B 230 -22.696 -9.956 167.339 1.00 23.08 N +ATOM 1797 CA TRP B 230 -23.443 -10.762 168.295 1.00 23.59 C +ATOM 1798 C TRP B 230 -24.947 -10.571 168.137 1.00 26.71 C +ATOM 1799 O TRP B 230 -25.728 -11.476 168.458 1.00 29.25 O +ATOM 1800 CB TRP B 230 -23.001 -10.400 169.727 1.00 21.37 C +ATOM 1801 CG TRP B 230 -23.069 -8.928 169.939 1.00 19.04 C +ATOM 1802 CD1 TRP B 230 -24.172 -8.207 170.289 1.00 21.67 C +ATOM 1803 CD2 TRP B 230 -21.995 -7.975 169.800 1.00 22.30 C +ATOM 1804 NE1 TRP B 230 -23.853 -6.874 170.389 1.00 23.46 N +ATOM 1805 CE2 TRP B 230 -22.527 -6.704 170.092 1.00 21.78 C +ATOM 1806 CE3 TRP B 230 -20.638 -8.078 169.468 1.00 22.71 C +ATOM 1807 CZ2 TRP B 230 -21.759 -5.542 170.054 1.00 21.57 C +ATOM 1808 CZ3 TRP B 230 -19.873 -6.915 169.422 1.00 20.75 C +ATOM 1809 CH2 TRP B 230 -20.436 -5.668 169.718 1.00 21.76 C +ATOM 1810 N ALA B 231 -25.374 -9.426 167.616 1.00 21.19 N +ATOM 1811 CA ALA B 231 -26.802 -9.155 167.533 1.00 21.87 C +ATOM 1812 C ALA B 231 -27.465 -9.774 166.302 1.00 22.95 C +ATOM 1813 O ALA B 231 -28.702 -9.819 166.256 1.00 22.56 O +ATOM 1814 CB ALA B 231 -27.052 -7.642 167.541 1.00 20.37 C +ATOM 1815 N TRP B 232 -26.695 -10.279 165.332 1.00 21.81 N +ATOM 1816 CA TRP B 232 -27.313 -10.730 164.079 1.00 24.07 C +ATOM 1817 C TRP B 232 -28.252 -11.918 164.289 1.00 30.14 C +ATOM 1818 O TRP B 232 -29.227 -12.066 163.548 1.00 35.99 O +ATOM 1819 CB TRP B 232 -26.253 -11.112 163.038 1.00 21.28 C +ATOM 1820 CG TRP B 232 -25.298 -10.009 162.640 1.00 19.50 C +ATOM 1821 CD1 TRP B 232 -25.513 -8.659 162.703 1.00 20.55 C +ATOM 1822 CD2 TRP B 232 -23.960 -10.181 162.149 1.00 19.44 C +ATOM 1823 NE1 TRP B 232 -24.394 -7.980 162.263 1.00 22.25 N +ATOM 1824 CE2 TRP B 232 -23.426 -8.892 161.927 1.00 19.37 C +ATOM 1825 CE3 TRP B 232 -23.159 -11.298 161.890 1.00 25.01 C +ATOM 1826 CZ2 TRP B 232 -22.129 -8.692 161.446 1.00 19.32 C +ATOM 1827 CZ3 TRP B 232 -21.856 -11.090 161.418 1.00 24.88 C +ATOM 1828 CH2 TRP B 232 -21.367 -9.800 161.206 1.00 20.90 C +ATOM 1829 N SER B 233 -27.972 -12.790 165.263 1.00 29.73 N +ATOM 1830 CA SER B 233 -28.746 -14.026 165.369 1.00 31.56 C +ATOM 1831 C SER B 233 -30.187 -13.751 165.802 1.00 29.63 C +ATOM 1832 O SER B 233 -31.119 -14.391 165.298 1.00 32.26 O +ATOM 1833 CB SER B 233 -28.058 -15.004 166.326 1.00 37.72 C +ATOM 1834 OG SER B 233 -27.963 -14.458 167.626 1.00 46.27 O +ATOM 1835 N ASN B 234 -30.391 -12.789 166.711 1.00 24.34 N +ATOM 1836 CA ASN B 234 -31.745 -12.380 167.075 1.00 23.72 C +ATOM 1837 C ASN B 234 -32.471 -11.705 165.913 1.00 27.63 C +ATOM 1838 O ASN B 234 -33.698 -11.806 165.815 1.00 28.18 O +ATOM 1839 CB ASN B 234 -31.722 -11.427 168.273 1.00 29.00 C +ATOM 1840 CG ASN B 234 -31.434 -12.135 169.586 1.00 27.41 C +ATOM 1841 OD1 ASN B 234 -31.446 -13.362 169.660 1.00 26.43 O +ATOM 1842 ND2 ASN B 234 -31.202 -11.358 170.635 1.00 27.70 N +ATOM 1843 N ILE B 235 -31.747 -11.015 165.028 1.00 27.34 N +ATOM 1844 CA ILE B 235 -32.396 -10.462 163.840 1.00 30.25 C +ATOM 1845 C ILE B 235 -32.799 -11.578 162.885 1.00 32.63 C +ATOM 1846 O ILE B 235 -33.858 -11.508 162.248 1.00 35.73 O +ATOM 1847 CB ILE B 235 -31.507 -9.417 163.139 1.00 27.65 C +ATOM 1848 CG1 ILE B 235 -30.942 -8.414 164.137 1.00 28.83 C +ATOM 1849 CG2 ILE B 235 -32.306 -8.666 162.071 1.00 27.75 C +ATOM 1850 CD1 ILE B 235 -30.159 -7.295 163.471 1.00 27.72 C +ATOM 1851 N ASP B 236 -31.974 -12.627 162.775 1.00 31.22 N +ATOM 1852 CA ASP B 236 -32.349 -13.784 161.964 1.00 30.20 C +ATOM 1853 C ASP B 236 -33.653 -14.405 162.446 1.00 31.75 C +ATOM 1854 O ASP B 236 -34.479 -14.820 161.632 1.00 31.03 O +ATOM 1855 CB ASP B 236 -31.245 -14.839 161.990 1.00 29.76 C +ATOM 1856 CG ASP B 236 -30.011 -14.410 161.241 1.00 35.29 C +ATOM 1857 OD1 ASP B 236 -30.049 -13.354 160.579 1.00 36.26 O +ATOM 1858 OD2 ASP B 236 -28.989 -15.123 161.341 1.00 37.23 O +ATOM 1859 N THR B 237 -33.844 -14.493 163.769 1.00 32.35 N +ATOM 1860 CA THR B 237 -35.064 -15.079 164.319 1.00 37.33 C +ATOM 1861 C THR B 237 -36.301 -14.232 164.017 1.00 37.97 C +ATOM 1862 O THR B 237 -37.388 -14.782 163.805 1.00 36.93 O +ATOM 1863 CB THR B 237 -34.913 -15.274 165.834 1.00 40.60 C +ATOM 1864 OG1 THR B 237 -33.752 -16.073 166.104 1.00 39.01 O +ATOM 1865 CG2 THR B 237 -36.148 -15.957 166.424 1.00 43.15 C +ATOM 1866 N SER B 238 -36.160 -12.905 163.982 1.00 36.24 N +ATOM 1867 CA SER B 238 -37.283 -12.009 163.727 1.00 36.12 C +ATOM 1868 C SER B 238 -37.712 -11.977 162.265 1.00 40.29 C +ATOM 1869 O SER B 238 -38.755 -11.388 161.960 1.00 42.04 O +ATOM 1870 CB SER B 238 -36.924 -10.584 164.131 1.00 36.18 C +ATOM 1871 OG SER B 238 -35.954 -10.078 163.225 1.00 40.12 O +ATOM 1872 N LYS B 239 -36.914 -12.537 161.356 1.00 38.97 N +ATOM 1873 CA LYS B 239 -37.189 -12.595 159.919 1.00 40.11 C +ATOM 1874 C LYS B 239 -37.226 -11.222 159.248 1.00 36.92 C +ATOM 1875 O LYS B 239 -37.707 -11.112 158.108 1.00 35.58 O +ATOM 1876 CB LYS B 239 -38.499 -13.338 159.623 1.00 40.59 C +ATOM 1877 CG LYS B 239 -38.550 -14.739 160.192 1.00 43.76 C +ATOM 1878 CD LYS B 239 -37.388 -15.576 159.683 1.00 49.14 C +ATOM 1879 CE LYS B 239 -37.471 -17.021 160.175 1.00 51.21 C +ATOM 1880 NZ LYS B 239 -36.320 -17.842 159.696 1.00 51.22 N +ATOM 1881 N VAL B 240 -36.742 -10.166 159.910 1.00 34.15 N +ATOM 1882 CA VAL B 240 -36.559 -8.894 159.221 1.00 34.00 C +ATOM 1883 C VAL B 240 -35.541 -9.080 158.097 1.00 34.13 C +ATOM 1884 O VAL B 240 -34.561 -9.826 158.229 1.00 34.80 O +ATOM 1885 CB VAL B 240 -36.134 -7.797 160.213 1.00 32.68 C +ATOM 1886 CG1 VAL B 240 -35.645 -6.555 159.480 1.00 29.05 C +ATOM 1887 CG2 VAL B 240 -37.302 -7.435 161.131 1.00 34.20 C +ATOM 1888 N ASN B 241 -35.812 -8.463 156.952 1.00 33.12 N +ATOM 1889 CA ASN B 241 -34.930 -8.548 155.787 1.00 34.71 C +ATOM 1890 C ASN B 241 -33.850 -7.478 155.928 1.00 33.47 C +ATOM 1891 O ASN B 241 -33.991 -6.356 155.443 1.00 33.02 O +ATOM 1892 CB ASN B 241 -35.737 -8.379 154.504 1.00 38.18 C +ATOM 1893 CG ASN B 241 -34.890 -8.482 153.266 1.00 41.18 C +ATOM 1894 OD1 ASN B 241 -33.839 -9.115 153.274 1.00 42.14 O +ATOM 1895 ND2 ASN B 241 -35.353 -7.871 152.178 1.00 43.96 N +ATOM 1896 N TYR B 242 -32.754 -7.822 156.604 1.00 31.50 N +ATOM 1897 CA TYR B 242 -31.770 -6.830 157.011 1.00 30.37 C +ATOM 1898 C TYR B 242 -30.488 -6.928 156.191 1.00 29.95 C +ATOM 1899 O TYR B 242 -30.192 -7.943 155.549 1.00 25.90 O +ATOM 1900 CB TYR B 242 -31.441 -6.955 158.511 1.00 23.87 C +ATOM 1901 CG TYR B 242 -30.620 -8.167 158.889 1.00 25.41 C +ATOM 1902 CD1 TYR B 242 -31.219 -9.413 159.072 1.00 24.54 C +ATOM 1903 CD2 TYR B 242 -29.243 -8.064 159.075 1.00 29.37 C +ATOM 1904 CE1 TYR B 242 -30.470 -10.524 159.438 1.00 27.01 C +ATOM 1905 CE2 TYR B 242 -28.478 -9.167 159.435 1.00 27.74 C +ATOM 1906 CZ TYR B 242 -29.089 -10.395 159.612 1.00 30.19 C +ATOM 1907 OH TYR B 242 -28.310 -11.491 159.974 1.00 30.01 O +ATOM 1908 N GLY B 243 -29.738 -5.825 156.210 1.00 29.63 N +ATOM 1909 CA GLY B 243 -28.415 -5.795 155.631 1.00 26.75 C +ATOM 1910 C GLY B 243 -27.433 -5.176 156.608 1.00 24.89 C +ATOM 1911 O GLY B 243 -27.811 -4.472 157.540 1.00 28.61 O +ATOM 1912 N VAL B 244 -26.152 -5.440 156.358 1.00 26.81 N +ATOM 1913 CA VAL B 244 -25.043 -4.956 157.170 1.00 27.52 C +ATOM 1914 C VAL B 244 -24.109 -4.184 156.244 1.00 27.79 C +ATOM 1915 O VAL B 244 -23.675 -4.714 155.213 1.00 30.80 O +ATOM 1916 CB VAL B 244 -24.325 -6.121 157.870 1.00 26.43 C +ATOM 1917 CG1 VAL B 244 -23.144 -5.637 158.714 1.00 28.62 C +ATOM 1918 CG2 VAL B 244 -25.321 -6.900 158.737 1.00 19.52 C +ATOM 1919 N THR B 245 -23.842 -2.922 156.574 1.00 25.42 N +ATOM 1920 CA THR B 245 -23.077 -2.065 155.679 1.00 28.29 C +ATOM 1921 C THR B 245 -22.246 -1.083 156.496 1.00 28.57 C +ATOM 1922 O THR B 245 -22.206 -1.139 157.730 1.00 25.73 O +ATOM 1923 CB THR B 245 -24.008 -1.344 154.687 1.00 30.98 C +ATOM 1924 OG1 THR B 245 -23.221 -0.590 153.762 1.00 32.30 O +ATOM 1925 CG2 THR B 245 -24.952 -0.404 155.423 1.00 29.81 C +ATOM 1926 N VAL B 246 -21.609 -0.160 155.795 1.00 29.10 N +ATOM 1927 CA VAL B 246 -20.645 0.754 156.389 1.00 30.28 C +ATOM 1928 C VAL B 246 -21.375 1.843 157.164 1.00 30.10 C +ATOM 1929 O VAL B 246 -22.430 2.336 156.743 1.00 22.73 O +ATOM 1930 CB VAL B 246 -19.743 1.342 155.291 1.00 37.41 C +ATOM 1931 CG1 VAL B 246 -18.645 2.214 155.889 1.00 37.23 C +ATOM 1932 CG2 VAL B 246 -19.139 0.212 154.464 1.00 38.53 C +ATOM 1933 N LEU B 247 -20.815 2.217 158.314 1.00 28.10 N +ATOM 1934 CA LEU B 247 -21.375 3.311 159.085 1.00 23.45 C +ATOM 1935 C LEU B 247 -21.363 4.592 158.253 1.00 25.14 C +ATOM 1936 O LEU B 247 -20.515 4.758 157.369 1.00 28.51 O +ATOM 1937 CB LEU B 247 -20.574 3.517 160.363 1.00 22.37 C +ATOM 1938 CG LEU B 247 -20.625 2.362 161.353 1.00 19.98 C +ATOM 1939 CD1 LEU B 247 -19.444 2.486 162.313 1.00 19.74 C +ATOM 1940 CD2 LEU B 247 -21.978 2.349 162.096 1.00 20.84 C +ATOM 1941 N PRO B 248 -22.279 5.518 158.515 1.00 25.55 N +ATOM 1942 CA PRO B 248 -22.311 6.751 157.726 1.00 30.24 C +ATOM 1943 C PRO B 248 -21.120 7.640 158.049 1.00 30.40 C +ATOM 1944 O PRO B 248 -20.523 7.571 159.127 1.00 26.77 O +ATOM 1945 CB PRO B 248 -23.628 7.423 158.145 1.00 30.82 C +ATOM 1946 CG PRO B 248 -24.385 6.398 158.923 1.00 32.38 C +ATOM 1947 CD PRO B 248 -23.365 5.467 159.506 1.00 28.42 C +ATOM 1948 N THR B 249 -20.786 8.495 157.091 1.00 29.07 N +ATOM 1949 CA THR B 249 -19.737 9.480 157.297 1.00 28.29 C +ATOM 1950 C THR B 249 -20.277 10.686 158.070 1.00 29.47 C +ATOM 1951 O THR B 249 -21.484 10.917 158.147 1.00 31.87 O +ATOM 1952 CB THR B 249 -19.175 9.938 155.951 1.00 31.26 C +ATOM 1953 OG1 THR B 249 -20.232 10.529 155.186 1.00 33.30 O +ATOM 1954 CG2 THR B 249 -18.589 8.762 155.172 1.00 27.32 C +ATOM 1955 N PHE B 250 -19.362 11.464 158.646 1.00 31.02 N +ATOM 1956 CA PHE B 250 -19.713 12.691 159.351 1.00 30.23 C +ATOM 1957 C PHE B 250 -18.753 13.785 158.916 1.00 32.80 C +ATOM 1958 O PHE B 250 -17.538 13.645 159.084 1.00 29.06 O +ATOM 1959 CB PHE B 250 -19.666 12.515 160.871 1.00 29.31 C +ATOM 1960 CG PHE B 250 -19.954 13.782 161.632 1.00 30.91 C +ATOM 1961 CD1 PHE B 250 -21.196 14.400 161.540 1.00 31.22 C +ATOM 1962 CD2 PHE B 250 -18.977 14.363 162.430 1.00 31.70 C +ATOM 1963 CE1 PHE B 250 -21.460 15.567 162.236 1.00 31.05 C +ATOM 1964 CE2 PHE B 250 -19.231 15.534 163.131 1.00 34.31 C +ATOM 1965 CZ PHE B 250 -20.475 16.138 163.031 1.00 34.11 C +ATOM 1966 N LYS B 251 -19.307 14.876 158.372 1.00 33.24 N +ATOM 1967 CA LYS B 251 -18.518 15.954 157.773 1.00 34.08 C +ATOM 1968 C LYS B 251 -17.554 15.405 156.722 1.00 32.19 C +ATOM 1969 O LYS B 251 -16.422 15.869 156.578 1.00 32.52 O +ATOM 1970 CB LYS B 251 -17.778 16.760 158.846 1.00 33.86 C +ATOM 1971 CG LYS B 251 -18.728 17.422 159.837 1.00 34.57 C +ATOM 1972 CD LYS B 251 -18.005 18.171 160.944 1.00 39.74 C +ATOM 1973 CE LYS B 251 -17.297 19.404 160.415 1.00 44.42 C +ATOM 1974 NZ LYS B 251 -16.597 20.173 161.493 1.00 46.60 N +ATOM 1975 N GLY B 252 -18.018 14.416 155.961 1.00 32.37 N +ATOM 1976 CA GLY B 252 -17.217 13.842 154.902 1.00 30.63 C +ATOM 1977 C GLY B 252 -16.194 12.818 155.342 1.00 31.24 C +ATOM 1978 O GLY B 252 -15.502 12.247 154.489 1.00 31.65 O +ATOM 1979 N GLN B 253 -16.071 12.564 156.635 1.00 30.82 N +ATOM 1980 CA GLN B 253 -15.080 11.625 157.117 1.00 30.30 C +ATOM 1981 C GLN B 253 -15.756 10.347 157.610 1.00 28.62 C +ATOM 1982 O GLN B 253 -16.896 10.392 158.084 1.00 23.32 O +ATOM 1983 CB GLN B 253 -14.265 12.255 158.252 1.00 34.74 C +ATOM 1984 CG GLN B 253 -13.458 13.475 157.805 1.00 42.17 C +ATOM 1985 CD GLN B 253 -13.145 14.415 158.951 1.00 50.82 C +ATOM 1986 OE1 GLN B 253 -12.010 14.481 159.425 1.00 53.77 O +ATOM 1987 NE2 GLN B 253 -14.154 15.157 159.398 1.00 54.21 N +ATOM 1988 N PRO B 254 -15.098 9.192 157.488 1.00 24.93 N +ATOM 1989 CA PRO B 254 -15.731 7.947 157.916 1.00 24.42 C +ATOM 1990 C PRO B 254 -15.917 7.941 159.424 1.00 26.11 C +ATOM 1991 O PRO B 254 -15.145 8.546 160.167 1.00 22.72 O +ATOM 1992 CB PRO B 254 -14.728 6.865 157.490 1.00 27.01 C +ATOM 1993 CG PRO B 254 -13.715 7.554 156.629 1.00 30.65 C +ATOM 1994 CD PRO B 254 -13.707 8.981 157.044 1.00 26.47 C +ATOM 1995 N SER B 255 -16.975 7.275 159.872 1.00 24.53 N +ATOM 1996 CA SER B 255 -17.088 6.972 161.292 1.00 26.63 C +ATOM 1997 C SER B 255 -15.915 6.091 161.702 1.00 26.43 C +ATOM 1998 O SER B 255 -15.459 5.251 160.925 1.00 27.07 O +ATOM 1999 CB SER B 255 -18.427 6.285 161.589 1.00 23.70 C +ATOM 2000 OG SER B 255 -19.492 7.217 161.435 1.00 24.08 O +ATOM 2001 N LYS B 256 -15.402 6.307 162.921 1.00 27.10 N +ATOM 2002 CA LYS B 256 -14.180 5.662 163.407 1.00 27.08 C +ATOM 2003 C LYS B 256 -14.492 4.802 164.629 1.00 25.09 C +ATOM 2004 O LYS B 256 -14.160 5.170 165.766 1.00 26.64 O +ATOM 2005 CB LYS B 256 -13.107 6.692 163.751 1.00 34.13 C +ATOM 2006 CG LYS B 256 -12.407 7.297 162.557 1.00 41.91 C +ATOM 2007 CD LYS B 256 -11.313 8.255 163.005 1.00 45.08 C +ATOM 2008 CE LYS B 256 -10.249 7.538 163.812 1.00 47.88 C +ATOM 2009 NZ LYS B 256 -9.189 8.472 164.311 1.00 50.11 N +ATOM 2010 N PRO B 257 -15.087 3.630 164.433 1.00 25.05 N +ATOM 2011 CA PRO B 257 -15.411 2.782 165.580 1.00 27.55 C +ATOM 2012 C PRO B 257 -14.149 2.236 166.212 1.00 30.45 C +ATOM 2013 O PRO B 257 -13.146 1.989 165.533 1.00 30.06 O +ATOM 2014 CB PRO B 257 -16.262 1.666 164.967 1.00 28.14 C +ATOM 2015 CG PRO B 257 -15.756 1.576 163.551 1.00 26.56 C +ATOM 2016 CD PRO B 257 -15.476 2.999 163.153 1.00 24.29 C +ATOM 2017 N PHE B 258 -14.183 2.115 167.533 1.00 26.90 N +ATOM 2018 CA PHE B 258 -13.148 1.352 168.206 1.00 31.76 C +ATOM 2019 C PHE B 258 -13.277 -0.117 167.824 1.00 34.40 C +ATOM 2020 O PHE B 258 -14.375 -0.678 167.817 1.00 38.12 O +ATOM 2021 CB PHE B 258 -13.263 1.502 169.717 1.00 31.27 C +ATOM 2022 CG PHE B 258 -12.460 2.634 170.298 1.00 30.53 C +ATOM 2023 CD1 PHE B 258 -11.143 2.852 169.923 1.00 27.73 C +ATOM 2024 CD2 PHE B 258 -13.010 3.425 171.293 1.00 33.41 C +ATOM 2025 CE1 PHE B 258 -10.403 3.880 170.504 1.00 32.42 C +ATOM 2026 CE2 PHE B 258 -12.292 4.449 171.869 1.00 35.35 C +ATOM 2027 CZ PHE B 258 -10.991 4.681 171.484 1.00 35.43 C +ATOM 2028 N VAL B 259 -12.150 -0.755 167.520 1.00 29.77 N +ATOM 2029 CA VAL B 259 -12.138 -2.176 167.194 1.00 24.52 C +ATOM 2030 C VAL B 259 -11.764 -2.936 168.461 1.00 23.12 C +ATOM 2031 O VAL B 259 -10.806 -2.577 169.153 1.00 24.37 O +ATOM 2032 CB VAL B 259 -11.175 -2.477 166.038 1.00 25.73 C +ATOM 2033 CG1 VAL B 259 -11.110 -3.962 165.775 1.00 25.66 C +ATOM 2034 CG2 VAL B 259 -11.623 -1.717 164.768 1.00 26.37 C +ATOM 2035 N GLY B 260 -12.564 -3.936 168.806 1.00 20.05 N +ATOM 2036 CA GLY B 260 -12.327 -4.764 169.984 1.00 19.85 C +ATOM 2037 C GLY B 260 -11.913 -6.157 169.546 1.00 24.43 C +ATOM 2038 O GLY B 260 -12.341 -6.646 168.485 1.00 24.43 O +ATOM 2039 N VAL B 261 -11.037 -6.762 170.330 1.00 22.66 N +ATOM 2040 CA VAL B 261 -10.630 -8.147 170.138 1.00 24.65 C +ATOM 2041 C VAL B 261 -11.132 -8.893 171.356 1.00 28.12 C +ATOM 2042 O VAL B 261 -10.622 -8.697 172.470 1.00 18.16 O +ATOM 2043 CB VAL B 261 -9.111 -8.300 169.963 1.00 22.94 C +ATOM 2044 CG1 VAL B 261 -8.726 -9.784 169.789 1.00 19.72 C +ATOM 2045 CG2 VAL B 261 -8.630 -7.499 168.779 1.00 19.26 C +ATOM 2046 N LEU B 262 -12.183 -9.687 171.164 1.00 25.18 N +ATOM 2047 CA LEU B 262 -12.654 -10.561 172.226 1.00 21.99 C +ATOM 2048 C LEU B 262 -11.519 -11.485 172.616 1.00 21.23 C +ATOM 2049 O LEU B 262 -10.920 -12.126 171.753 1.00 21.44 O +ATOM 2050 CB LEU B 262 -13.868 -11.378 171.762 1.00 21.03 C +ATOM 2051 CG LEU B 262 -14.463 -12.328 172.794 1.00 23.34 C +ATOM 2052 CD1 LEU B 262 -15.084 -11.524 173.917 1.00 22.31 C +ATOM 2053 CD2 LEU B 262 -15.478 -13.273 172.171 1.00 25.96 C +ATOM 2054 N SER B 263 -11.209 -11.536 173.915 1.00 19.71 N +ATOM 2055 CA SER B 263 -10.029 -12.241 174.378 1.00 19.12 C +ATOM 2056 C SER B 263 -10.359 -12.990 175.655 1.00 21.62 C +ATOM 2057 O SER B 263 -11.338 -12.687 176.344 1.00 18.00 O +ATOM 2058 CB SER B 263 -8.848 -11.285 174.603 1.00 20.10 C +ATOM 2059 OG SER B 263 -8.708 -10.420 173.499 1.00 24.02 O +ATOM 2060 N ALA B 264 -9.559 -14.016 175.925 1.00 18.03 N +ATOM 2061 CA ALA B 264 -9.760 -14.902 177.061 1.00 17.98 C +ATOM 2062 C ALA B 264 -8.518 -14.876 177.931 1.00 21.16 C +ATOM 2063 O ALA B 264 -7.435 -15.291 177.487 1.00 23.96 O +ATOM 2064 CB ALA B 264 -10.061 -16.331 176.600 1.00 18.13 C +ATOM 2065 N GLY B 265 -8.673 -14.407 179.166 1.00 22.08 N +ATOM 2066 CA GLY B 265 -7.579 -14.353 180.125 1.00 17.55 C +ATOM 2067 C GLY B 265 -7.727 -15.431 181.184 1.00 21.33 C +ATOM 2068 O GLY B 265 -8.838 -15.866 181.494 1.00 23.48 O +ATOM 2069 N ILE B 266 -6.599 -15.863 181.741 1.00 17.43 N +ATOM 2070 CA ILE B 266 -6.572 -16.908 182.764 1.00 18.38 C +ATOM 2071 C ILE B 266 -6.302 -16.240 184.107 1.00 19.49 C +ATOM 2072 O ILE B 266 -5.337 -15.481 184.246 1.00 17.06 O +ATOM 2073 CB ILE B 266 -5.532 -17.991 182.448 1.00 18.85 C +ATOM 2074 CG1 ILE B 266 -5.912 -18.717 181.146 1.00 19.68 C +ATOM 2075 CG2 ILE B 266 -5.422 -18.997 183.609 1.00 17.38 C +ATOM 2076 CD1 ILE B 266 -4.916 -19.818 180.737 1.00 19.17 C +ATOM 2077 N ASN B 267 -7.190 -16.482 185.065 1.00 23.84 N +ATOM 2078 CA ASN B 267 -7.084 -15.909 186.402 1.00 26.01 C +ATOM 2079 C ASN B 267 -5.773 -16.329 187.041 1.00 20.82 C +ATOM 2080 O ASN B 267 -5.463 -17.518 187.110 1.00 22.00 O +ATOM 2081 CB ASN B 267 -8.271 -16.390 187.247 1.00 16.97 C +ATOM 2082 CG ASN B 267 -8.497 -15.570 188.513 1.00 20.17 C +ATOM 2083 OD1 ASN B 267 -7.562 -15.009 189.088 1.00 22.17 O +ATOM 2084 ND2 ASN B 267 -9.765 -15.497 188.951 1.00 19.31 N +ATOM 2085 N ALA B 268 -4.996 -15.352 187.506 1.00 22.67 N +ATOM 2086 CA ALA B 268 -3.745 -15.674 188.182 1.00 25.04 C +ATOM 2087 C ALA B 268 -3.975 -16.539 189.419 1.00 23.96 C +ATOM 2088 O ALA B 268 -3.080 -17.294 189.816 1.00 20.21 O +ATOM 2089 CB ALA B 268 -3.009 -14.388 188.573 1.00 26.95 C +ATOM 2090 N ALA B 269 -5.160 -16.481 190.013 1.00 24.55 N +ATOM 2091 CA ALA B 269 -5.452 -17.297 191.184 1.00 25.89 C +ATOM 2092 C ALA B 269 -5.931 -18.698 190.829 1.00 25.81 C +ATOM 2093 O ALA B 269 -6.062 -19.534 191.728 1.00 26.10 O +ATOM 2094 CB ALA B 269 -6.504 -16.605 192.055 1.00 28.58 C +ATOM 2095 N SER B 270 -6.106 -19.013 189.541 1.00 22.56 N +ATOM 2096 CA SER B 270 -6.682 -20.306 189.172 1.00 19.95 C +ATOM 2097 C SER B 270 -5.702 -21.441 189.448 1.00 24.08 C +ATOM 2098 O SER B 270 -4.523 -21.341 189.084 1.00 24.07 O +ATOM 2099 CB SER B 270 -7.069 -20.337 187.687 1.00 23.04 C +ATOM 2100 OG SER B 270 -7.456 -21.665 187.319 1.00 21.75 O +ATOM 2101 N PRO B 271 -6.153 -22.533 190.060 1.00 25.66 N +ATOM 2102 CA PRO B 271 -5.353 -23.763 190.125 1.00 26.80 C +ATOM 2103 C PRO B 271 -5.553 -24.696 188.939 1.00 27.73 C +ATOM 2104 O PRO B 271 -5.087 -25.837 188.995 1.00 26.03 O +ATOM 2105 CB PRO B 271 -5.889 -24.414 191.403 1.00 27.07 C +ATOM 2106 CG PRO B 271 -7.361 -24.054 191.377 1.00 27.63 C +ATOM 2107 CD PRO B 271 -7.437 -22.669 190.782 1.00 27.85 C +ATOM 2108 N ASN B 272 -6.223 -24.238 187.878 1.00 25.67 N +ATOM 2109 CA ASN B 272 -6.532 -25.062 186.716 1.00 25.03 C +ATOM 2110 C ASN B 272 -5.936 -24.477 185.440 1.00 27.10 C +ATOM 2111 O ASN B 272 -6.505 -24.622 184.354 1.00 26.69 O +ATOM 2112 CB ASN B 272 -8.047 -25.245 186.575 1.00 27.57 C +ATOM 2113 CG ASN B 272 -8.707 -25.773 187.860 1.00 27.02 C +ATOM 2114 OD1 ASN B 272 -8.461 -26.904 188.271 1.00 29.05 O +ATOM 2115 ND2 ASN B 272 -9.563 -24.957 188.478 1.00 23.18 N +ATOM 2116 N LYS B 273 -4.763 -23.842 185.554 1.00 25.63 N +ATOM 2117 CA LYS B 273 -4.178 -23.151 184.409 1.00 25.42 C +ATOM 2118 C LYS B 273 -3.854 -24.118 183.276 1.00 24.06 C +ATOM 2119 O LYS B 273 -4.050 -23.783 182.105 1.00 23.71 O +ATOM 2120 CB LYS B 273 -2.930 -22.366 184.830 1.00 27.14 C +ATOM 2121 CG LYS B 273 -3.170 -21.317 185.930 1.00 24.32 C +ATOM 2122 CD LYS B 273 -1.989 -20.360 186.033 1.00 24.54 C +ATOM 2123 CE LYS B 273 -2.172 -19.309 187.133 1.00 27.29 C +ATOM 2124 NZ LYS B 273 -2.227 -19.938 188.484 1.00 28.27 N +ATOM 2125 N GLU B 274 -3.384 -25.333 183.598 1.00 19.89 N +ATOM 2126 CA GLU B 274 -3.117 -26.318 182.552 1.00 24.47 C +ATOM 2127 C GLU B 274 -4.404 -26.745 181.848 1.00 27.60 C +ATOM 2128 O GLU B 274 -4.438 -26.856 180.613 1.00 27.29 O +ATOM 2129 CB GLU B 274 -2.385 -27.538 183.135 1.00 28.13 C +ATOM 2130 CG GLU B 274 -2.031 -28.630 182.101 1.00 28.92 C +ATOM 2131 CD GLU B 274 -1.429 -29.908 182.719 1.00 30.28 C +ATOM 2132 OE1 GLU B 274 -1.124 -29.920 183.931 1.00 27.01 O +ATOM 2133 OE2 GLU B 274 -1.268 -30.908 181.987 1.00 26.04 O +ATOM 2134 N LEU B 275 -5.473 -26.988 182.614 1.00 27.10 N +ATOM 2135 CA LEU B 275 -6.769 -27.292 182.010 1.00 27.54 C +ATOM 2136 C LEU B 275 -7.274 -26.130 181.166 1.00 25.60 C +ATOM 2137 O LEU B 275 -7.782 -26.336 180.053 1.00 24.54 O +ATOM 2138 CB LEU B 275 -7.795 -27.628 183.093 1.00 28.32 C +ATOM 2139 CG LEU B 275 -7.511 -28.862 183.946 1.00 28.60 C +ATOM 2140 CD1 LEU B 275 -8.694 -29.189 184.860 1.00 26.99 C +ATOM 2141 CD2 LEU B 275 -7.155 -30.027 183.046 1.00 29.71 C +ATOM 2142 N ALA B 276 -7.155 -24.902 181.686 1.00 18.20 N +ATOM 2143 CA ALA B 276 -7.604 -23.725 180.942 1.00 21.20 C +ATOM 2144 C ALA B 276 -6.865 -23.579 179.614 1.00 23.03 C +ATOM 2145 O ALA B 276 -7.475 -23.254 178.589 1.00 25.19 O +ATOM 2146 CB ALA B 276 -7.412 -22.467 181.792 1.00 20.45 C +ATOM 2147 N LYS B 277 -5.548 -23.799 179.618 1.00 21.52 N +ATOM 2148 CA LYS B 277 -4.773 -23.748 178.386 1.00 22.68 C +ATOM 2149 C LYS B 277 -5.248 -24.810 177.394 1.00 22.97 C +ATOM 2150 O LYS B 277 -5.431 -24.535 176.199 1.00 22.09 O +ATOM 2151 CB LYS B 277 -3.290 -23.936 178.715 1.00 21.73 C +ATOM 2152 CG LYS B 277 -2.380 -23.946 177.492 1.00 24.71 C +ATOM 2153 CD LYS B 277 -0.916 -24.135 177.881 1.00 26.29 C +ATOM 2154 CE LYS B 277 -0.018 -24.229 176.652 1.00 28.54 C +ATOM 2155 NZ LYS B 277 1.390 -24.503 177.023 1.00 25.85 N +ATOM 2156 N GLU B 278 -5.461 -26.034 177.879 1.00 22.81 N +ATOM 2157 CA GLU B 278 -5.924 -27.105 177.003 1.00 25.93 C +ATOM 2158 C GLU B 278 -7.305 -26.798 176.430 1.00 25.10 C +ATOM 2159 O GLU B 278 -7.556 -27.028 175.239 1.00 25.80 O +ATOM 2160 CB GLU B 278 -5.931 -28.430 177.765 1.00 31.28 C +ATOM 2161 CG GLU B 278 -6.432 -29.615 176.951 1.00 41.63 C +ATOM 2162 CD GLU B 278 -5.473 -30.025 175.843 1.00 50.85 C +ATOM 2163 OE1 GLU B 278 -4.273 -29.660 175.914 1.00 54.68 O +ATOM 2164 OE2 GLU B 278 -5.922 -30.719 174.902 1.00 53.44 O +ATOM 2165 N PHE B 279 -8.210 -26.261 177.253 1.00 21.79 N +ATOM 2166 CA PHE B 279 -9.536 -25.913 176.758 1.00 23.67 C +ATOM 2167 C PHE B 279 -9.456 -24.838 175.683 1.00 24.29 C +ATOM 2168 O PHE B 279 -10.066 -24.963 174.612 1.00 23.49 O +ATOM 2169 CB PHE B 279 -10.436 -25.448 177.907 1.00 25.01 C +ATOM 2170 CG PHE B 279 -11.784 -24.951 177.449 1.00 26.76 C +ATOM 2171 CD1 PHE B 279 -12.811 -25.853 177.154 1.00 27.53 C +ATOM 2172 CD2 PHE B 279 -12.029 -23.593 177.296 1.00 20.85 C +ATOM 2173 CE1 PHE B 279 -14.051 -25.406 176.721 1.00 22.71 C +ATOM 2174 CE2 PHE B 279 -13.272 -23.141 176.871 1.00 22.11 C +ATOM 2175 CZ PHE B 279 -14.287 -24.051 176.580 1.00 20.00 C +ATOM 2176 N LEU B 280 -8.694 -23.776 175.943 1.00 20.74 N +ATOM 2177 CA LEU B 280 -8.683 -22.647 175.017 1.00 21.45 C +ATOM 2178 C LEU B 280 -7.922 -22.972 173.735 1.00 23.56 C +ATOM 2179 O LEU B 280 -8.371 -22.611 172.642 1.00 27.17 O +ATOM 2180 CB LEU B 280 -8.092 -21.415 175.702 1.00 23.69 C +ATOM 2181 CG LEU B 280 -8.926 -20.819 176.832 1.00 22.22 C +ATOM 2182 CD1 LEU B 280 -8.105 -19.772 177.575 1.00 19.59 C +ATOM 2183 CD2 LEU B 280 -10.216 -20.186 176.288 1.00 18.45 C +ATOM 2184 N GLU B 281 -6.758 -23.635 173.844 1.00 23.09 N +ATOM 2185 CA GLU B 281 -5.942 -23.886 172.658 1.00 23.27 C +ATOM 2186 C GLU B 281 -6.503 -25.020 171.795 1.00 25.65 C +ATOM 2187 O GLU B 281 -6.531 -24.906 170.562 1.00 26.15 O +ATOM 2188 CB GLU B 281 -4.488 -24.196 173.055 1.00 22.56 C +ATOM 2189 CG GLU B 281 -3.688 -22.987 173.582 1.00 20.42 C +ATOM 2190 CD GLU B 281 -2.157 -23.211 173.639 1.00 24.70 C +ATOM 2191 OE1 GLU B 281 -1.665 -24.242 173.137 1.00 25.82 O +ATOM 2192 OE2 GLU B 281 -1.435 -22.322 174.167 1.00 24.75 O +ATOM 2193 N ASN B 282 -6.934 -26.124 172.406 1.00 24.07 N +ATOM 2194 CA ASN B 282 -7.265 -27.331 171.661 1.00 25.84 C +ATOM 2195 C ASN B 282 -8.759 -27.607 171.553 1.00 25.43 C +ATOM 2196 O ASN B 282 -9.140 -28.586 170.905 1.00 24.70 O +ATOM 2197 CB ASN B 282 -6.547 -28.544 172.267 1.00 31.35 C +ATOM 2198 CG ASN B 282 -5.038 -28.355 172.299 1.00 36.03 C +ATOM 2199 OD1 ASN B 282 -4.410 -28.470 173.347 1.00 37.17 O +ATOM 2200 ND2 ASN B 282 -4.467 -27.974 171.161 1.00 35.47 N +ATOM 2201 N TYR B 283 -9.617 -26.800 172.173 1.00 24.15 N +ATOM 2202 CA TYR B 283 -11.060 -26.982 172.016 1.00 25.79 C +ATOM 2203 C TYR B 283 -11.741 -25.729 171.490 1.00 24.36 C +ATOM 2204 O TYR B 283 -12.419 -25.793 170.455 1.00 24.20 O +ATOM 2205 CB TYR B 283 -11.706 -27.435 173.342 1.00 26.65 C +ATOM 2206 CG TYR B 283 -11.402 -28.884 173.662 1.00 28.22 C +ATOM 2207 CD1 TYR B 283 -12.357 -29.885 173.484 1.00 28.93 C +ATOM 2208 CD2 TYR B 283 -10.146 -29.251 174.128 1.00 27.23 C +ATOM 2209 CE1 TYR B 283 -12.058 -31.212 173.769 1.00 29.07 C +ATOM 2210 CE2 TYR B 283 -9.840 -30.557 174.414 1.00 27.00 C +ATOM 2211 CZ TYR B 283 -10.792 -31.538 174.229 1.00 30.26 C +ATOM 2212 OH TYR B 283 -10.456 -32.835 174.523 1.00 33.96 O +ATOM 2213 N LEU B 284 -11.528 -24.570 172.114 1.00 20.39 N +ATOM 2214 CA LEU B 284 -12.197 -23.360 171.624 1.00 19.21 C +ATOM 2215 C LEU B 284 -11.585 -22.877 170.309 1.00 22.67 C +ATOM 2216 O LEU B 284 -12.290 -22.723 169.308 1.00 24.12 O +ATOM 2217 CB LEU B 284 -12.151 -22.260 172.688 1.00 20.01 C +ATOM 2218 CG LEU B 284 -12.846 -20.951 172.272 1.00 23.03 C +ATOM 2219 CD1 LEU B 284 -14.277 -21.212 171.798 1.00 22.02 C +ATOM 2220 CD2 LEU B 284 -12.853 -19.958 173.416 1.00 21.73 C +ATOM 2221 N LEU B 285 -10.265 -22.642 170.285 1.00 22.99 N +ATOM 2222 CA LEU B 285 -9.593 -22.071 169.115 1.00 24.35 C +ATOM 2223 C LEU B 285 -9.272 -23.161 168.082 1.00 24.69 C +ATOM 2224 O LEU B 285 -8.125 -23.414 167.707 1.00 21.30 O +ATOM 2225 CB LEU B 285 -8.351 -21.290 169.548 1.00 24.75 C +ATOM 2226 CG LEU B 285 -8.693 -19.953 170.229 1.00 25.00 C +ATOM 2227 CD1 LEU B 285 -7.476 -19.337 170.932 1.00 25.46 C +ATOM 2228 CD2 LEU B 285 -9.282 -18.959 169.222 1.00 25.71 C +ATOM 2229 N THR B 286 -10.333 -23.848 167.669 1.00 26.93 N +ATOM 2230 CA THR B 286 -10.345 -24.793 166.558 1.00 25.55 C +ATOM 2231 C THR B 286 -11.509 -24.423 165.653 1.00 24.31 C +ATOM 2232 O THR B 286 -12.426 -23.706 166.067 1.00 24.19 O +ATOM 2233 CB THR B 286 -10.525 -26.236 167.040 1.00 30.43 C +ATOM 2234 OG1 THR B 286 -11.825 -26.365 167.642 1.00 29.13 O +ATOM 2235 CG2 THR B 286 -9.453 -26.614 168.063 1.00 30.49 C +ATOM 2236 N ASP B 287 -11.508 -24.974 164.431 1.00 26.98 N +ATOM 2237 CA ASP B 287 -12.619 -24.725 163.512 1.00 24.42 C +ATOM 2238 C ASP B 287 -13.954 -25.147 164.130 1.00 26.69 C +ATOM 2239 O ASP B 287 -14.968 -24.463 163.961 1.00 25.13 O +ATOM 2240 CB ASP B 287 -12.406 -25.469 162.190 1.00 25.90 C +ATOM 2241 CG ASP B 287 -11.227 -24.936 161.379 1.00 32.25 C +ATOM 2242 OD1 ASP B 287 -10.903 -23.731 161.446 1.00 29.52 O +ATOM 2243 OD2 ASP B 287 -10.620 -25.753 160.655 1.00 36.14 O +ATOM 2244 N GLU B 288 -13.985 -26.286 164.822 1.00 27.41 N +ATOM 2245 CA GLU B 288 -15.262 -26.772 165.345 1.00 32.11 C +ATOM 2246 C GLU B 288 -15.674 -26.065 166.634 1.00 29.65 C +ATOM 2247 O GLU B 288 -16.871 -25.948 166.919 1.00 28.73 O +ATOM 2248 CB GLU B 288 -15.202 -28.283 165.573 1.00 36.38 C +ATOM 2249 CG GLU B 288 -14.152 -28.727 166.569 1.00 42.18 C +ATOM 2250 CD GLU B 288 -12.748 -28.838 165.981 1.00 46.38 C +ATOM 2251 OE1 GLU B 288 -12.525 -28.412 164.819 1.00 45.07 O +ATOM 2252 OE2 GLU B 288 -11.859 -29.352 166.699 1.00 46.81 O +ATOM 2253 N GLY B 289 -14.714 -25.594 167.427 1.00 26.93 N +ATOM 2254 CA GLY B 289 -15.071 -24.827 168.609 1.00 21.53 C +ATOM 2255 C GLY B 289 -15.642 -23.465 168.263 1.00 22.64 C +ATOM 2256 O GLY B 289 -16.704 -23.076 168.763 1.00 24.42 O +ATOM 2257 N LEU B 290 -14.967 -22.736 167.372 1.00 24.69 N +ATOM 2258 CA LEU B 290 -15.469 -21.425 166.955 1.00 24.11 C +ATOM 2259 C LEU B 290 -16.798 -21.551 166.219 1.00 25.91 C +ATOM 2260 O LEU B 290 -17.676 -20.689 166.347 1.00 23.11 O +ATOM 2261 CB LEU B 290 -14.431 -20.727 166.073 1.00 23.75 C +ATOM 2262 CG LEU B 290 -13.127 -20.383 166.809 1.00 25.61 C +ATOM 2263 CD1 LEU B 290 -12.043 -19.939 165.810 1.00 22.68 C +ATOM 2264 CD2 LEU B 290 -13.359 -19.298 167.864 1.00 19.20 C +ATOM 2265 N GLU B 291 -16.960 -22.612 165.431 1.00 27.91 N +ATOM 2266 CA GLU B 291 -18.233 -22.834 164.761 1.00 29.61 C +ATOM 2267 C GLU B 291 -19.364 -22.972 165.771 1.00 25.92 C +ATOM 2268 O GLU B 291 -20.420 -22.344 165.626 1.00 23.65 O +ATOM 2269 CB GLU B 291 -18.134 -24.071 163.866 1.00 33.85 C +ATOM 2270 CG GLU B 291 -19.422 -24.423 163.151 1.00 44.57 C +ATOM 2271 CD GLU B 291 -19.321 -25.736 162.405 1.00 54.79 C +ATOM 2272 OE1 GLU B 291 -20.207 -26.013 161.568 1.00 59.87 O +ATOM 2273 OE2 GLU B 291 -18.358 -26.496 162.661 1.00 57.18 O +ATOM 2274 N ALA B 292 -19.133 -23.734 166.839 1.00 26.21 N +ATOM 2275 CA ALA B 292 -20.171 -23.955 167.840 1.00 26.53 C +ATOM 2276 C ALA B 292 -20.568 -22.658 168.531 1.00 24.12 C +ATOM 2277 O ALA B 292 -21.752 -22.416 168.758 1.00 21.75 O +ATOM 2278 CB ALA B 292 -19.705 -24.983 168.876 1.00 24.02 C +ATOM 2279 N VAL B 293 -19.598 -21.809 168.884 1.00 25.90 N +ATOM 2280 CA VAL B 293 -19.969 -20.536 169.496 1.00 24.46 C +ATOM 2281 C VAL B 293 -20.675 -19.652 168.472 1.00 26.98 C +ATOM 2282 O VAL B 293 -21.689 -19.006 168.774 1.00 27.10 O +ATOM 2283 CB VAL B 293 -18.736 -19.844 170.115 1.00 24.26 C +ATOM 2284 CG1 VAL B 293 -19.141 -18.538 170.790 1.00 24.53 C +ATOM 2285 CG2 VAL B 293 -18.078 -20.766 171.153 1.00 21.10 C +ATOM 2286 N ASN B 294 -20.179 -19.649 167.237 1.00 26.82 N +ATOM 2287 CA ASN B 294 -20.728 -18.788 166.192 1.00 30.83 C +ATOM 2288 C ASN B 294 -22.185 -19.129 165.870 1.00 33.61 C +ATOM 2289 O ASN B 294 -22.988 -18.231 165.589 1.00 32.04 O +ATOM 2290 CB ASN B 294 -19.847 -18.890 164.952 1.00 34.44 C +ATOM 2291 CG ASN B 294 -19.849 -17.624 164.130 1.00 40.98 C +ATOM 2292 OD1 ASN B 294 -19.254 -16.617 164.516 1.00 38.83 O +ATOM 2293 ND2 ASN B 294 -20.514 -17.670 162.980 1.00 44.42 N +ATOM 2294 N LYS B 295 -22.551 -20.418 165.916 1.00 31.75 N +ATOM 2295 CA LYS B 295 -23.928 -20.805 165.612 1.00 34.94 C +ATOM 2296 C LYS B 295 -24.905 -20.222 166.617 1.00 34.29 C +ATOM 2297 O LYS B 295 -26.052 -19.933 166.267 1.00 34.58 O +ATOM 2298 CB LYS B 295 -24.078 -22.328 165.604 1.00 40.96 C +ATOM 2299 CG LYS B 295 -23.626 -23.015 164.342 1.00 48.98 C +ATOM 2300 CD LYS B 295 -23.645 -24.523 164.534 1.00 56.29 C +ATOM 2301 CE LYS B 295 -23.037 -25.248 163.345 1.00 61.30 C +ATOM 2302 NZ LYS B 295 -23.597 -26.622 163.205 1.00 62.24 N +ATOM 2303 N ASP B 296 -24.477 -20.058 167.868 1.00 32.22 N +ATOM 2304 CA ASP B 296 -25.282 -19.413 168.896 1.00 30.87 C +ATOM 2305 C ASP B 296 -25.381 -17.914 168.620 1.00 29.64 C +ATOM 2306 O ASP B 296 -26.471 -17.415 168.316 1.00 27.95 O +ATOM 2307 CB ASP B 296 -24.685 -19.691 170.287 1.00 30.97 C +ATOM 2308 CG ASP B 296 -25.553 -19.164 171.424 1.00 34.29 C +ATOM 2309 OD1 ASP B 296 -26.644 -18.640 171.147 1.00 35.55 O +ATOM 2310 OD2 ASP B 296 -25.128 -19.242 172.604 1.00 35.13 O +ATOM 2311 N LYS B 297 -24.242 -17.180 168.715 1.00 24.75 N +ATOM 2312 CA LYS B 297 -24.155 -15.744 168.449 1.00 23.39 C +ATOM 2313 C LYS B 297 -22.870 -15.455 167.679 1.00 26.30 C +ATOM 2314 O LYS B 297 -21.777 -15.806 168.149 1.00 26.49 O +ATOM 2315 CB LYS B 297 -24.170 -14.936 169.753 1.00 28.65 C +ATOM 2316 CG LYS B 297 -25.344 -15.229 170.685 1.00 33.94 C +ATOM 2317 CD LYS B 297 -26.525 -14.322 170.447 1.00 41.82 C +ATOM 2318 CE LYS B 297 -27.615 -14.533 171.514 1.00 46.33 C +ATOM 2319 NZ LYS B 297 -27.978 -13.272 172.230 1.00 47.39 N +ATOM 2320 N PRO B 298 -22.946 -14.828 166.504 1.00 24.95 N +ATOM 2321 CA PRO B 298 -21.736 -14.646 165.688 1.00 23.68 C +ATOM 2322 C PRO B 298 -20.659 -13.853 166.415 1.00 24.25 C +ATOM 2323 O PRO B 298 -20.923 -12.811 167.013 1.00 19.17 O +ATOM 2324 CB PRO B 298 -22.252 -13.910 164.442 1.00 21.29 C +ATOM 2325 CG PRO B 298 -23.685 -14.332 164.346 1.00 25.76 C +ATOM 2326 CD PRO B 298 -24.169 -14.447 165.774 1.00 26.80 C +ATOM 2327 N LEU B 299 -19.422 -14.360 166.331 1.00 27.25 N +ATOM 2328 CA LEU B 299 -18.260 -13.771 166.992 1.00 25.90 C +ATOM 2329 C LEU B 299 -17.675 -12.597 166.231 1.00 28.81 C +ATOM 2330 O LEU B 299 -16.958 -11.784 166.826 1.00 26.41 O +ATOM 2331 CB LEU B 299 -17.161 -14.828 167.157 1.00 22.29 C +ATOM 2332 CG LEU B 299 -17.402 -15.835 168.271 1.00 24.42 C +ATOM 2333 CD1 LEU B 299 -16.543 -17.082 168.115 1.00 19.13 C +ATOM 2334 CD2 LEU B 299 -17.091 -15.102 169.574 1.00 18.93 C +ATOM 2335 N GLY B 300 -17.946 -12.502 164.934 1.00 26.44 N +ATOM 2336 CA GLY B 300 -17.238 -11.552 164.112 1.00 28.58 C +ATOM 2337 C GLY B 300 -16.114 -12.255 163.378 1.00 26.19 C +ATOM 2338 O GLY B 300 -16.230 -13.435 163.040 1.00 23.38 O +ATOM 2339 N ALA B 301 -15.016 -11.552 163.141 1.00 25.60 N +ATOM 2340 CA ALA B 301 -13.892 -12.103 162.389 1.00 21.86 C +ATOM 2341 C ALA B 301 -12.991 -12.843 163.366 1.00 23.03 C +ATOM 2342 O ALA B 301 -12.146 -12.235 164.019 1.00 22.72 O +ATOM 2343 CB ALA B 301 -13.151 -11.001 161.649 1.00 20.13 C +ATOM 2344 N VAL B 302 -13.184 -14.162 163.462 1.00 22.23 N +ATOM 2345 CA VAL B 302 -12.432 -14.967 164.409 1.00 24.79 C +ATOM 2346 C VAL B 302 -10.936 -14.925 164.073 1.00 25.96 C +ATOM 2347 O VAL B 302 -10.529 -14.806 162.910 1.00 24.20 O +ATOM 2348 CB VAL B 302 -12.973 -16.407 164.431 1.00 25.04 C +ATOM 2349 CG1 VAL B 302 -14.446 -16.410 164.867 1.00 19.25 C +ATOM 2350 CG2 VAL B 302 -12.814 -17.067 163.071 1.00 27.27 C +ATOM 2351 N ALA B 303 -10.112 -15.032 165.114 1.00 24.07 N +ATOM 2352 CA ALA B 303 -8.681 -14.804 164.992 1.00 24.14 C +ATOM 2353 C ALA B 303 -7.935 -15.976 164.368 1.00 25.28 C +ATOM 2354 O ALA B 303 -6.754 -15.817 164.027 1.00 23.85 O +ATOM 2355 CB ALA B 303 -8.094 -14.470 166.372 1.00 21.22 C +ATOM 2356 N LEU B 304 -8.600 -17.125 164.172 1.00 22.22 N +ATOM 2357 CA LEU B 304 -7.940 -18.346 163.713 1.00 21.78 C +ATOM 2358 C LEU B 304 -7.806 -18.347 162.188 1.00 19.63 C +ATOM 2359 O LEU B 304 -8.819 -18.364 161.485 1.00 22.10 O +ATOM 2360 CB LEU B 304 -8.738 -19.558 164.196 1.00 23.25 C +ATOM 2361 CG LEU B 304 -8.155 -20.962 163.981 1.00 24.79 C +ATOM 2362 CD1 LEU B 304 -6.921 -21.175 164.835 1.00 25.15 C +ATOM 2363 CD2 LEU B 304 -9.209 -22.024 164.295 1.00 23.44 C +ATOM 2364 N LYS B 305 -6.559 -18.405 161.685 1.00 19.72 N +ATOM 2365 CA LYS B 305 -6.294 -18.307 160.244 1.00 23.29 C +ATOM 2366 C LYS B 305 -7.085 -19.325 159.429 1.00 23.99 C +ATOM 2367 O LYS B 305 -7.537 -19.022 158.320 1.00 22.40 O +ATOM 2368 CB LYS B 305 -4.802 -18.514 159.961 1.00 20.57 C +ATOM 2369 CG LYS B 305 -3.891 -17.363 160.344 1.00 19.90 C +ATOM 2370 CD LYS B 305 -2.442 -17.755 160.098 1.00 20.04 C +ATOM 2371 CE LYS B 305 -1.477 -16.689 160.564 1.00 19.97 C +ATOM 2372 NZ LYS B 305 -0.084 -17.178 160.359 1.00 22.92 N +ATOM 2373 N SER B 306 -7.190 -20.560 159.918 1.00 26.74 N +ATOM 2374 CA SER B 306 -7.812 -21.626 159.139 1.00 28.01 C +ATOM 2375 C SER B 306 -9.302 -21.403 158.913 1.00 30.45 C +ATOM 2376 O SER B 306 -9.912 -22.138 158.127 1.00 29.28 O +ATOM 2377 CB SER B 306 -7.593 -22.974 159.827 1.00 30.66 C +ATOM 2378 OG SER B 306 -8.173 -22.984 161.120 1.00 30.02 O +ATOM 2379 N TYR B 307 -9.897 -20.411 159.571 1.00 26.80 N +ATOM 2380 CA TYR B 307 -11.311 -20.108 159.420 1.00 26.35 C +ATOM 2381 C TYR B 307 -11.580 -19.007 158.400 1.00 22.23 C +ATOM 2382 O TYR B 307 -12.745 -18.711 158.125 1.00 21.27 O +ATOM 2383 CB TYR B 307 -11.897 -19.716 160.780 1.00 24.39 C +ATOM 2384 CG TYR B 307 -13.335 -20.149 160.997 1.00 23.14 C +ATOM 2385 CD1 TYR B 307 -14.384 -19.274 160.779 1.00 22.59 C +ATOM 2386 CD2 TYR B 307 -13.631 -21.423 161.442 1.00 28.34 C +ATOM 2387 CE1 TYR B 307 -15.687 -19.656 160.981 1.00 27.64 C +ATOM 2388 CE2 TYR B 307 -14.932 -21.821 161.652 1.00 33.33 C +ATOM 2389 CZ TYR B 307 -15.955 -20.931 161.416 1.00 33.85 C +ATOM 2390 OH TYR B 307 -17.258 -21.315 161.625 1.00 37.80 O +ATOM 2391 N GLU B 308 -10.544 -18.385 157.830 1.00 22.92 N +ATOM 2392 CA GLU B 308 -10.814 -17.209 157.007 1.00 24.78 C +ATOM 2393 C GLU B 308 -11.601 -17.563 155.751 1.00 25.71 C +ATOM 2394 O GLU B 308 -12.452 -16.774 155.316 1.00 28.06 O +ATOM 2395 CB GLU B 308 -9.519 -16.487 156.627 1.00 26.67 C +ATOM 2396 CG GLU B 308 -9.811 -15.070 156.145 1.00 31.05 C +ATOM 2397 CD GLU B 308 -8.574 -14.241 155.856 1.00 34.78 C +ATOM 2398 OE1 GLU B 308 -7.446 -14.770 155.954 1.00 35.32 O +ATOM 2399 OE2 GLU B 308 -8.744 -13.043 155.526 1.00 36.35 O +ATOM 2400 N GLU B 309 -11.369 -18.750 155.184 1.00 23.18 N +ATOM 2401 CA GLU B 309 -12.131 -19.152 153.997 1.00 31.98 C +ATOM 2402 C GLU B 309 -13.626 -19.204 154.292 1.00 31.02 C +ATOM 2403 O GLU B 309 -14.445 -18.760 153.481 1.00 28.39 O +ATOM 2404 CB GLU B 309 -11.633 -20.506 153.501 1.00 38.23 C +ATOM 2405 CG GLU B 309 -12.176 -20.905 152.142 1.00 47.57 C +ATOM 2406 CD GLU B 309 -11.670 -22.264 151.700 1.00 54.05 C +ATOM 2407 OE1 GLU B 309 -12.465 -23.225 151.699 1.00 56.21 O +ATOM 2408 OE2 GLU B 309 -10.468 -22.374 151.374 1.00 55.77 O +ATOM 2409 N GLU B 310 -13.992 -19.685 155.482 1.00 30.41 N +ATOM 2410 CA GLU B 310 -15.397 -19.741 155.871 1.00 31.52 C +ATOM 2411 C GLU B 310 -15.950 -18.346 156.155 1.00 34.34 C +ATOM 2412 O GLU B 310 -17.074 -18.029 155.753 1.00 36.50 O +ATOM 2413 CB GLU B 310 -15.537 -20.671 157.079 1.00 34.84 C +ATOM 2414 CG GLU B 310 -16.957 -21.038 157.449 1.00 40.82 C +ATOM 2415 CD GLU B 310 -17.671 -21.835 156.370 1.00 45.17 C +ATOM 2416 OE1 GLU B 310 -17.039 -22.695 155.713 1.00 47.36 O +ATOM 2417 OE2 GLU B 310 -18.880 -21.592 156.187 1.00 46.79 O +ATOM 2418 N LEU B 311 -15.158 -17.484 156.806 1.00 29.40 N +ATOM 2419 CA LEU B 311 -15.589 -16.109 157.039 1.00 26.77 C +ATOM 2420 C LEU B 311 -15.903 -15.390 155.733 1.00 28.43 C +ATOM 2421 O LEU B 311 -16.882 -14.639 155.651 1.00 32.35 O +ATOM 2422 CB LEU B 311 -14.506 -15.330 157.791 1.00 24.81 C +ATOM 2423 CG LEU B 311 -14.225 -15.692 159.243 1.00 26.83 C +ATOM 2424 CD1 LEU B 311 -13.189 -14.725 159.784 1.00 28.72 C +ATOM 2425 CD2 LEU B 311 -15.519 -15.635 160.049 1.00 25.53 C +ATOM 2426 N ALA B 312 -15.074 -15.598 154.707 1.00 27.26 N +ATOM 2427 CA ALA B 312 -15.234 -14.884 153.444 1.00 29.67 C +ATOM 2428 C ALA B 312 -16.558 -15.199 152.756 1.00 34.13 C +ATOM 2429 O ALA B 312 -17.001 -14.409 151.915 1.00 34.91 O +ATOM 2430 CB ALA B 312 -14.065 -15.204 152.508 1.00 32.03 C +ATOM 2431 N LYS B 313 -17.185 -16.334 153.082 1.00 32.56 N +ATOM 2432 CA LYS B 313 -18.509 -16.682 152.577 1.00 36.08 C +ATOM 2433 C LYS B 313 -19.635 -15.906 153.254 1.00 37.68 C +ATOM 2434 O LYS B 313 -20.766 -15.948 152.762 1.00 39.25 O +ATOM 2435 CB LYS B 313 -18.772 -18.183 152.747 1.00 36.00 C +ATOM 2436 CG LYS B 313 -17.796 -19.087 152.027 1.00 36.45 C +ATOM 2437 CD LYS B 313 -18.175 -20.551 152.190 1.00 38.36 C +ATOM 2438 CE LYS B 313 -17.026 -21.448 151.751 1.00 42.02 C +ATOM 2439 NZ LYS B 313 -17.396 -22.893 151.713 1.00 45.61 N +ATOM 2440 N ASP B 314 -19.359 -15.220 154.377 1.00 35.73 N +ATOM 2441 CA ASP B 314 -20.345 -14.451 155.130 1.00 34.59 C +ATOM 2442 C ASP B 314 -20.187 -12.966 154.814 1.00 33.72 C +ATOM 2443 O ASP B 314 -19.310 -12.305 155.389 1.00 34.44 O +ATOM 2444 CB ASP B 314 -20.185 -14.707 156.635 1.00 34.97 C +ATOM 2445 CG ASP B 314 -21.315 -14.098 157.472 1.00 33.23 C +ATOM 2446 OD1 ASP B 314 -22.149 -13.347 156.924 1.00 31.01 O +ATOM 2447 OD2 ASP B 314 -21.371 -14.382 158.689 1.00 34.91 O +ATOM 2448 N PRO B 315 -21.039 -12.383 153.963 1.00 34.17 N +ATOM 2449 CA PRO B 315 -20.857 -10.969 153.584 1.00 31.00 C +ATOM 2450 C PRO B 315 -21.030 -9.987 154.739 1.00 30.91 C +ATOM 2451 O PRO B 315 -20.568 -8.838 154.634 1.00 29.61 O +ATOM 2452 CB PRO B 315 -21.928 -10.755 152.501 1.00 32.17 C +ATOM 2453 CG PRO B 315 -22.973 -11.795 152.788 1.00 36.40 C +ATOM 2454 CD PRO B 315 -22.252 -12.979 153.367 1.00 36.51 C +ATOM 2455 N ARG B 316 -21.685 -10.391 155.830 1.00 30.50 N +ATOM 2456 CA ARG B 316 -21.750 -9.529 157.004 1.00 28.72 C +ATOM 2457 C ARG B 316 -20.371 -9.349 157.638 1.00 25.54 C +ATOM 2458 O ARG B 316 -20.101 -8.310 158.257 1.00 26.32 O +ATOM 2459 CB ARG B 316 -22.735 -10.118 158.018 1.00 28.42 C +ATOM 2460 CG ARG B 316 -24.154 -10.363 157.475 1.00 25.64 C +ATOM 2461 CD ARG B 316 -24.981 -11.254 158.404 1.00 22.64 C +ATOM 2462 NE ARG B 316 -24.315 -12.524 158.703 1.00 25.56 N +ATOM 2463 CZ ARG B 316 -24.767 -13.431 159.567 1.00 26.11 C +ATOM 2464 NH1 ARG B 316 -25.899 -13.232 160.232 1.00 22.45 N +ATOM 2465 NH2 ARG B 316 -24.085 -14.543 159.773 1.00 24.38 N +ATOM 2466 N ILE B 317 -19.481 -10.329 157.471 1.00 28.91 N +ATOM 2467 CA ILE B 317 -18.134 -10.225 158.029 1.00 28.00 C +ATOM 2468 C ILE B 317 -17.280 -9.256 157.222 1.00 25.53 C +ATOM 2469 O ILE B 317 -16.544 -8.449 157.797 1.00 26.26 O +ATOM 2470 CB ILE B 317 -17.495 -11.626 158.109 1.00 30.17 C +ATOM 2471 CG1 ILE B 317 -18.280 -12.515 159.080 1.00 31.23 C +ATOM 2472 CG2 ILE B 317 -16.003 -11.544 158.463 1.00 25.69 C +ATOM 2473 CD1 ILE B 317 -18.386 -11.951 160.491 1.00 32.57 C +ATOM 2474 N ALA B 318 -17.383 -9.287 155.881 1.00 21.96 N +ATOM 2475 CA ALA B 318 -16.682 -8.300 155.056 1.00 22.59 C +ATOM 2476 C ALA B 318 -17.111 -6.881 155.411 1.00 22.81 C +ATOM 2477 O ALA B 318 -16.285 -5.959 155.445 1.00 25.61 O +ATOM 2478 CB ALA B 318 -16.934 -8.572 153.562 1.00 25.92 C +ATOM 2479 N ALA B 319 -18.403 -6.684 155.675 1.00 19.45 N +ATOM 2480 CA ALA B 319 -18.870 -5.372 156.094 1.00 19.40 C +ATOM 2481 C ALA B 319 -18.293 -5.002 157.455 1.00 19.32 C +ATOM 2482 O ALA B 319 -17.872 -3.857 157.675 1.00 26.42 O +ATOM 2483 CB ALA B 319 -20.403 -5.355 156.136 1.00 23.67 C +ATOM 2484 N THR B 320 -18.254 -5.966 158.367 1.00 19.28 N +ATOM 2485 CA THR B 320 -17.643 -5.734 159.680 1.00 19.52 C +ATOM 2486 C THR B 320 -16.184 -5.304 159.531 1.00 22.87 C +ATOM 2487 O THR B 320 -15.730 -4.349 160.182 1.00 20.74 O +ATOM 2488 CB THR B 320 -17.733 -7.000 160.512 1.00 19.18 C +ATOM 2489 OG1 THR B 320 -19.105 -7.378 160.677 1.00 19.58 O +ATOM 2490 CG2 THR B 320 -17.074 -6.787 161.883 1.00 21.46 C +ATOM 2491 N MET B 321 -15.435 -5.999 158.665 1.00 22.04 N +ATOM 2492 CA MET B 321 -14.025 -5.670 158.493 1.00 23.04 C +ATOM 2493 C MET B 321 -13.809 -4.411 157.663 1.00 24.74 C +ATOM 2494 O MET B 321 -12.705 -3.850 157.698 1.00 24.44 O +ATOM 2495 CB MET B 321 -13.266 -6.839 157.864 1.00 23.61 C +ATOM 2496 CG MET B 321 -13.126 -8.060 158.766 1.00 23.27 C +ATOM 2497 SD MET B 321 -12.427 -7.641 160.385 1.00 27.33 S +ATOM 2498 CE MET B 321 -10.751 -7.152 159.931 1.00 28.01 C +ATOM 2499 N GLU B 322 -14.818 -3.948 156.911 1.00 27.96 N +ATOM 2500 CA GLU B 322 -14.674 -2.647 156.263 1.00 23.90 C +ATOM 2501 C GLU B 322 -14.826 -1.524 157.275 1.00 22.35 C +ATOM 2502 O GLU B 322 -14.096 -0.527 157.222 1.00 23.97 O +ATOM 2503 CB GLU B 322 -15.673 -2.476 155.115 1.00 24.62 C +ATOM 2504 CG GLU B 322 -15.492 -1.136 154.408 1.00 32.35 C +ATOM 2505 CD GLU B 322 -16.311 -1.001 153.127 1.00 43.51 C +ATOM 2506 OE1 GLU B 322 -16.685 -2.036 152.533 1.00 45.29 O +ATOM 2507 OE2 GLU B 322 -16.545 0.153 152.699 1.00 47.46 O +ATOM 2508 N ASN B 323 -15.752 -1.667 158.219 1.00 24.94 N +ATOM 2509 CA ASN B 323 -15.834 -0.686 159.295 1.00 25.42 C +ATOM 2510 C ASN B 323 -14.605 -0.751 160.187 1.00 22.08 C +ATOM 2511 O ASN B 323 -14.113 0.285 160.650 1.00 26.34 O +ATOM 2512 CB ASN B 323 -17.118 -0.890 160.106 1.00 28.18 C +ATOM 2513 CG ASN B 323 -18.347 -0.348 159.395 1.00 26.91 C +ATOM 2514 OD1 ASN B 323 -18.387 0.814 158.995 1.00 21.37 O +ATOM 2515 ND2 ASN B 323 -19.346 -1.201 159.213 1.00 28.26 N +ATOM 2516 N ALA B 324 -14.070 -1.948 160.420 1.00 20.71 N +ATOM 2517 CA ALA B 324 -12.838 -2.040 161.208 1.00 23.10 C +ATOM 2518 C ALA B 324 -11.661 -1.385 160.490 1.00 25.85 C +ATOM 2519 O ALA B 324 -10.804 -0.774 161.142 1.00 19.01 O +ATOM 2520 CB ALA B 324 -12.510 -3.501 161.524 1.00 19.32 C +ATOM 2521 N GLN B 325 -11.618 -1.487 159.150 1.00 21.59 N +ATOM 2522 CA GLN B 325 -10.565 -0.850 158.364 1.00 20.70 C +ATOM 2523 C GLN B 325 -10.549 0.655 158.556 1.00 19.24 C +ATOM 2524 O GLN B 325 -9.500 1.291 158.409 1.00 19.92 O +ATOM 2525 CB GLN B 325 -10.760 -1.153 156.868 1.00 19.84 C +ATOM 2526 CG GLN B 325 -9.672 -0.594 155.961 1.00 19.48 C +ATOM 2527 CD GLN B 325 -8.359 -1.309 156.122 1.00 19.88 C +ATOM 2528 OE1 GLN B 325 -8.316 -2.425 156.636 1.00 20.93 O +ATOM 2529 NE2 GLN B 325 -7.262 -0.666 155.683 1.00 19.61 N +ATOM 2530 N LYS B 326 -11.708 1.248 158.804 1.00 21.01 N +ATOM 2531 CA LYS B 326 -11.815 2.677 159.019 1.00 19.20 C +ATOM 2532 C LYS B 326 -11.750 3.041 160.495 1.00 25.02 C +ATOM 2533 O LYS B 326 -11.908 4.212 160.835 1.00 28.29 O +ATOM 2534 CB LYS B 326 -13.114 3.194 158.409 1.00 25.98 C +ATOM 2535 CG LYS B 326 -13.316 2.816 156.935 1.00 26.73 C +ATOM 2536 CD LYS B 326 -14.804 2.954 156.602 1.00 33.61 C +ATOM 2537 CE LYS B 326 -15.147 2.557 155.168 1.00 35.19 C +ATOM 2538 NZ LYS B 326 -14.561 3.510 154.177 1.00 36.91 N +ATOM 2539 N GLY B 327 -11.504 2.071 161.366 1.00 24.96 N +ATOM 2540 CA GLY B 327 -11.434 2.353 162.790 1.00 21.14 C +ATOM 2541 C GLY B 327 -10.052 2.121 163.366 1.00 26.60 C +ATOM 2542 O GLY B 327 -9.067 2.002 162.628 1.00 26.56 O +ATOM 2543 N GLU B 328 -9.958 2.070 164.694 1.00 29.42 N +ATOM 2544 CA GLU B 328 -8.695 1.867 165.382 1.00 24.63 C +ATOM 2545 C GLU B 328 -8.876 0.816 166.460 1.00 24.27 C +ATOM 2546 O GLU B 328 -9.908 0.781 167.141 1.00 21.01 O +ATOM 2547 CB GLU B 328 -8.191 3.162 166.017 1.00 31.23 C +ATOM 2548 CG GLU B 328 -7.787 4.227 165.029 1.00 40.13 C +ATOM 2549 CD GLU B 328 -7.368 5.520 165.708 1.00 46.01 C +ATOM 2550 OE1 GLU B 328 -7.082 5.495 166.927 1.00 47.43 O +ATOM 2551 OE2 GLU B 328 -7.315 6.558 165.015 1.00 47.95 O +ATOM 2552 N ILE B 329 -7.856 -0.025 166.621 1.00 18.54 N +ATOM 2553 CA ILE B 329 -7.836 -0.989 167.710 1.00 22.16 C +ATOM 2554 C ILE B 329 -7.702 -0.236 169.025 1.00 21.44 C +ATOM 2555 O ILE B 329 -6.872 0.667 169.153 1.00 20.09 O +ATOM 2556 CB ILE B 329 -6.703 -2.004 167.492 1.00 23.23 C +ATOM 2557 CG1 ILE B 329 -6.985 -2.776 166.193 1.00 28.48 C +ATOM 2558 CG2 ILE B 329 -6.573 -2.969 168.671 1.00 25.68 C +ATOM 2559 CD1 ILE B 329 -6.121 -3.968 165.996 1.00 33.63 C +ATOM 2560 N MET B 330 -8.562 -0.558 169.980 1.00 22.03 N +ATOM 2561 CA MET B 330 -8.550 0.142 171.260 1.00 22.35 C +ATOM 2562 C MET B 330 -7.187 0.020 171.937 1.00 18.39 C +ATOM 2563 O MET B 330 -6.509 -1.002 171.804 1.00 19.07 O +ATOM 2564 CB MET B 330 -9.615 -0.427 172.189 1.00 22.22 C +ATOM 2565 CG MET B 330 -10.989 -0.093 171.744 1.00 28.97 C +ATOM 2566 SD MET B 330 -12.291 -0.587 172.872 1.00 28.73 S +ATOM 2567 CE MET B 330 -12.385 -2.346 172.628 1.00 26.62 C +ATOM 2568 N PRO B 331 -6.762 1.044 172.677 1.00 24.98 N +ATOM 2569 CA PRO B 331 -5.656 0.844 173.613 1.00 23.70 C +ATOM 2570 C PRO B 331 -6.083 -0.151 174.679 1.00 23.16 C +ATOM 2571 O PRO B 331 -7.276 -0.346 174.937 1.00 26.60 O +ATOM 2572 CB PRO B 331 -5.427 2.239 174.216 1.00 23.42 C +ATOM 2573 CG PRO B 331 -6.221 3.194 173.345 1.00 23.91 C +ATOM 2574 CD PRO B 331 -7.357 2.386 172.808 1.00 23.49 C +ATOM 2575 N ASN B 332 -5.096 -0.803 175.301 1.00 20.78 N +ATOM 2576 CA ASN B 332 -5.394 -1.671 176.434 1.00 17.50 C +ATOM 2577 C ASN B 332 -4.819 -1.137 177.733 1.00 21.23 C +ATOM 2578 O ASN B 332 -4.814 -1.861 178.735 1.00 21.60 O +ATOM 2579 CB ASN B 332 -4.907 -3.110 176.195 1.00 18.11 C +ATOM 2580 CG ASN B 332 -3.375 -3.265 176.256 1.00 24.62 C +ATOM 2581 OD1 ASN B 332 -2.626 -2.306 176.437 1.00 21.61 O +ATOM 2582 ND2 ASN B 332 -2.915 -4.502 176.086 1.00 28.29 N +ATOM 2583 N ILE B 333 -4.373 0.115 177.756 1.00 22.81 N +ATOM 2584 CA ILE B 333 -3.712 0.651 178.948 1.00 24.16 C +ATOM 2585 C ILE B 333 -4.670 0.729 180.133 1.00 28.21 C +ATOM 2586 O ILE B 333 -5.895 0.828 179.948 1.00 27.41 O +ATOM 2587 CB ILE B 333 -3.078 2.017 178.668 1.00 23.72 C +ATOM 2588 CG1 ILE B 333 -4.124 3.055 178.292 1.00 25.76 C +ATOM 2589 CG2 ILE B 333 -1.988 1.901 177.628 1.00 22.59 C +ATOM 2590 CD1 ILE B 333 -3.502 4.401 178.051 1.00 29.35 C +ATOM 2591 N PRO B 334 -4.152 0.700 181.364 1.00 26.56 N +ATOM 2592 CA PRO B 334 -5.039 0.729 182.535 1.00 24.35 C +ATOM 2593 C PRO B 334 -5.974 1.927 182.567 1.00 26.92 C +ATOM 2594 O PRO B 334 -7.052 1.836 183.164 1.00 27.14 O +ATOM 2595 CB PRO B 334 -4.052 0.763 183.714 1.00 22.99 C +ATOM 2596 CG PRO B 334 -2.811 0.093 183.189 1.00 22.88 C +ATOM 2597 CD PRO B 334 -2.734 0.496 181.729 1.00 21.99 C +ATOM 2598 N GLN B 335 -5.618 3.038 181.922 1.00 27.06 N +ATOM 2599 CA GLN B 335 -6.480 4.212 181.998 1.00 26.89 C +ATOM 2600 C GLN B 335 -7.764 4.077 181.181 1.00 27.57 C +ATOM 2601 O GLN B 335 -8.574 5.013 181.194 1.00 23.78 O +ATOM 2602 CB GLN B 335 -5.703 5.460 181.566 1.00 26.88 C +ATOM 2603 CG GLN B 335 -4.613 5.879 182.552 1.00 28.38 C +ATOM 2604 CD GLN B 335 -3.453 4.892 182.596 1.00 31.61 C +ATOM 2605 OE1 GLN B 335 -3.155 4.223 181.602 1.00 29.05 O +ATOM 2606 NE2 GLN B 335 -2.822 4.767 183.762 1.00 32.71 N +ATOM 2607 N MET B 336 -7.989 2.952 180.486 1.00 27.63 N +ATOM 2608 CA MET B 336 -9.137 2.875 179.584 1.00 27.83 C +ATOM 2609 C MET B 336 -10.457 2.857 180.351 1.00 27.70 C +ATOM 2610 O MET B 336 -11.440 3.455 179.904 1.00 26.25 O +ATOM 2611 CB MET B 336 -9.022 1.650 178.673 1.00 22.24 C +ATOM 2612 CG MET B 336 -8.052 1.856 177.514 1.00 24.84 C +ATOM 2613 SD MET B 336 -8.527 3.144 176.342 1.00 26.05 S +ATOM 2614 CE MET B 336 -9.969 2.372 175.602 1.00 24.35 C +ATOM 2615 N SER B 337 -10.509 2.194 181.509 1.00 28.70 N +ATOM 2616 CA SER B 337 -11.768 2.161 182.246 1.00 30.94 C +ATOM 2617 C SER B 337 -12.174 3.564 182.689 1.00 29.86 C +ATOM 2618 O SER B 337 -13.365 3.900 182.688 1.00 29.36 O +ATOM 2619 CB SER B 337 -11.686 1.207 183.444 1.00 36.01 C +ATOM 2620 OG SER B 337 -10.847 1.714 184.454 1.00 40.69 O +ATOM 2621 N ALA B 338 -11.197 4.401 183.062 1.00 29.04 N +ATOM 2622 CA ALA B 338 -11.507 5.781 183.428 1.00 29.19 C +ATOM 2623 C ALA B 338 -11.947 6.591 182.218 1.00 31.01 C +ATOM 2624 O ALA B 338 -12.817 7.463 182.326 1.00 35.62 O +ATOM 2625 CB ALA B 338 -10.296 6.438 184.091 1.00 31.08 C +ATOM 2626 N PHE B 339 -11.346 6.329 181.063 1.00 29.16 N +ATOM 2627 CA PHE B 339 -11.780 6.987 179.838 1.00 27.08 C +ATOM 2628 C PHE B 339 -13.234 6.653 179.527 1.00 28.82 C +ATOM 2629 O PHE B 339 -14.038 7.545 179.219 1.00 25.62 O +ATOM 2630 CB PHE B 339 -10.858 6.588 178.691 1.00 25.03 C +ATOM 2631 CG PHE B 339 -11.441 6.825 177.329 1.00 24.58 C +ATOM 2632 CD1 PHE B 339 -11.424 8.085 176.760 1.00 23.62 C +ATOM 2633 CD2 PHE B 339 -12.005 5.777 176.617 1.00 25.18 C +ATOM 2634 CE1 PHE B 339 -11.955 8.293 175.505 1.00 25.09 C +ATOM 2635 CE2 PHE B 339 -12.541 5.980 175.367 1.00 23.90 C +ATOM 2636 CZ PHE B 339 -12.514 7.240 174.810 1.00 26.13 C +ATOM 2637 N TRP B 340 -13.591 5.366 179.602 1.00 26.99 N +ATOM 2638 CA TRP B 340 -14.952 4.966 179.268 1.00 30.44 C +ATOM 2639 C TRP B 340 -15.964 5.544 180.249 1.00 32.09 C +ATOM 2640 O TRP B 340 -17.018 6.032 179.837 1.00 28.42 O +ATOM 2641 CB TRP B 340 -15.070 3.444 179.234 1.00 26.94 C +ATOM 2642 CG TRP B 340 -14.535 2.799 178.003 1.00 24.42 C +ATOM 2643 CD1 TRP B 340 -13.581 1.829 177.937 1.00 20.12 C +ATOM 2644 CD2 TRP B 340 -14.924 3.079 176.649 1.00 23.66 C +ATOM 2645 NE1 TRP B 340 -13.361 1.471 176.628 1.00 20.27 N +ATOM 2646 CE2 TRP B 340 -14.166 2.229 175.817 1.00 22.02 C +ATOM 2647 CE3 TRP B 340 -15.827 3.971 176.064 1.00 26.92 C +ATOM 2648 CZ2 TRP B 340 -14.294 2.231 174.423 1.00 26.07 C +ATOM 2649 CZ3 TRP B 340 -15.959 3.968 174.663 1.00 26.85 C +ATOM 2650 CH2 TRP B 340 -15.198 3.107 173.873 1.00 25.45 C +ATOM 2651 N TYR B 341 -15.659 5.504 181.548 1.00 34.45 N +ATOM 2652 CA TYR B 341 -16.581 6.058 182.531 1.00 37.88 C +ATOM 2653 C TYR B 341 -16.825 7.539 182.281 1.00 32.85 C +ATOM 2654 O TYR B 341 -17.937 8.038 182.486 1.00 34.13 O +ATOM 2655 CB TYR B 341 -16.035 5.847 183.944 1.00 47.91 C +ATOM 2656 CG TYR B 341 -16.945 6.364 185.039 1.00 57.82 C +ATOM 2657 CD1 TYR B 341 -17.975 5.578 185.538 1.00 63.49 C +ATOM 2658 CD2 TYR B 341 -16.773 7.639 185.576 1.00 61.47 C +ATOM 2659 CE1 TYR B 341 -18.811 6.043 186.542 1.00 67.55 C +ATOM 2660 CE2 TYR B 341 -17.605 8.114 186.582 1.00 64.82 C +ATOM 2661 CZ TYR B 341 -18.622 7.311 187.060 1.00 68.62 C +ATOM 2662 OH TYR B 341 -19.458 7.770 188.056 1.00 71.38 O +ATOM 2663 N ALA B 342 -15.794 8.256 181.842 1.00 28.48 N +ATOM 2664 CA ALA B 342 -15.918 9.689 181.612 1.00 31.56 C +ATOM 2665 C ALA B 342 -16.743 9.986 180.370 1.00 31.58 C +ATOM 2666 O ALA B 342 -17.578 10.902 180.380 1.00 32.17 O +ATOM 2667 CB ALA B 342 -14.530 10.323 181.499 1.00 32.06 C +ATOM 2668 N VAL B 343 -16.528 9.232 179.289 1.00 29.48 N +ATOM 2669 CA VAL B 343 -17.325 9.460 178.087 1.00 27.41 C +ATOM 2670 C VAL B 343 -18.777 9.055 178.327 1.00 28.22 C +ATOM 2671 O VAL B 343 -19.703 9.723 177.855 1.00 27.51 O +ATOM 2672 CB VAL B 343 -16.720 8.732 176.873 1.00 29.42 C +ATOM 2673 CG1 VAL B 343 -17.531 9.036 175.630 1.00 32.25 C +ATOM 2674 CG2 VAL B 343 -15.279 9.164 176.654 1.00 31.52 C +ATOM 2675 N ARG B 344 -19.000 7.988 179.102 1.00 29.57 N +ATOM 2676 CA ARG B 344 -20.363 7.537 179.378 1.00 32.02 C +ATOM 2677 C ARG B 344 -21.173 8.598 180.119 1.00 31.80 C +ATOM 2678 O ARG B 344 -22.349 8.821 179.812 1.00 30.97 O +ATOM 2679 CB ARG B 344 -20.325 6.239 180.180 1.00 37.25 C +ATOM 2680 CG ARG B 344 -21.691 5.705 180.596 1.00 43.13 C +ATOM 2681 CD ARG B 344 -21.539 4.371 181.294 1.00 53.24 C +ATOM 2682 NE ARG B 344 -22.510 4.217 182.367 1.00 67.45 N +ATOM 2683 CZ ARG B 344 -22.315 4.643 183.611 1.00 77.43 C +ATOM 2684 NH1 ARG B 344 -21.179 5.252 183.935 1.00 80.29 N +ATOM 2685 NH2 ARG B 344 -23.257 4.465 184.532 1.00 80.29 N +ATOM 2686 N THR B 345 -20.564 9.254 181.106 1.00 32.20 N +ATOM 2687 CA THR B 345 -21.256 10.294 181.860 1.00 31.27 C +ATOM 2688 C THR B 345 -21.520 11.520 180.996 1.00 31.23 C +ATOM 2689 O THR B 345 -22.595 12.130 181.082 1.00 32.25 O +ATOM 2690 CB THR B 345 -20.427 10.671 183.088 1.00 34.60 C +ATOM 2691 OG1 THR B 345 -20.237 9.512 183.913 1.00 36.88 O +ATOM 2692 CG2 THR B 345 -21.100 11.774 183.892 1.00 36.34 C +ATOM 2693 N ALA B 346 -20.556 11.885 180.148 1.00 28.02 N +ATOM 2694 CA ALA B 346 -20.699 13.063 179.296 1.00 29.77 C +ATOM 2695 C ALA B 346 -21.790 12.871 178.251 1.00 32.54 C +ATOM 2696 O ALA B 346 -22.538 13.809 177.945 1.00 34.46 O +ATOM 2697 CB ALA B 346 -19.367 13.389 178.624 1.00 26.71 C +ATOM 2698 N VAL B 347 -21.890 11.672 177.676 1.00 31.29 N +ATOM 2699 CA VAL B 347 -22.920 11.439 176.667 1.00 31.26 C +ATOM 2700 C VAL B 347 -24.302 11.438 177.309 1.00 34.86 C +ATOM 2701 O VAL B 347 -25.254 12.003 176.760 1.00 33.18 O +ATOM 2702 CB VAL B 347 -22.637 10.127 175.910 1.00 33.11 C +ATOM 2703 CG1 VAL B 347 -23.816 9.744 175.032 1.00 31.36 C +ATOM 2704 CG2 VAL B 347 -21.364 10.264 175.070 1.00 35.40 C +ATOM 2705 N ILE B 348 -24.427 10.819 178.488 1.00 36.36 N +ATOM 2706 CA ILE B 348 -25.715 10.741 179.175 1.00 37.20 C +ATOM 2707 C ILE B 348 -26.165 12.118 179.655 1.00 37.46 C +ATOM 2708 O ILE B 348 -27.352 12.463 179.568 1.00 36.97 O +ATOM 2709 CB ILE B 348 -25.627 9.729 180.333 1.00 36.59 C +ATOM 2710 CG1 ILE B 348 -25.538 8.301 179.782 1.00 36.13 C +ATOM 2711 CG2 ILE B 348 -26.805 9.872 181.280 1.00 35.72 C +ATOM 2712 CD1 ILE B 348 -25.384 7.237 180.867 1.00 36.13 C +ATOM 2713 N ASN B 349 -25.235 12.925 180.171 1.00 35.71 N +ATOM 2714 CA ASN B 349 -25.609 14.246 180.664 1.00 33.16 C +ATOM 2715 C ASN B 349 -25.958 15.183 179.521 1.00 36.24 C +ATOM 2716 O ASN B 349 -26.887 15.989 179.639 1.00 39.95 O +ATOM 2717 CB ASN B 349 -24.480 14.847 181.499 1.00 30.57 C +ATOM 2718 CG ASN B 349 -24.299 14.139 182.825 1.00 35.61 C +ATOM 2719 OD1 ASN B 349 -25.140 13.353 183.239 1.00 38.42 O +ATOM 2720 ND2 ASN B 349 -23.188 14.410 183.490 1.00 38.25 N +ATOM 2721 N ALA B 350 -25.220 15.106 178.410 1.00 34.11 N +ATOM 2722 CA ALA B 350 -25.532 15.968 177.273 1.00 36.01 C +ATOM 2723 C ALA B 350 -26.830 15.544 176.604 1.00 39.44 C +ATOM 2724 O ALA B 350 -27.672 16.385 176.274 1.00 43.69 O +ATOM 2725 CB ALA B 350 -24.385 15.968 176.262 1.00 30.75 C +ATOM 2726 N ALA B 351 -27.000 14.239 176.374 1.00 38.98 N +ATOM 2727 CA ALA B 351 -28.192 13.765 175.680 1.00 36.06 C +ATOM 2728 C ALA B 351 -29.461 14.089 176.465 1.00 38.01 C +ATOM 2729 O ALA B 351 -30.509 14.381 175.872 1.00 36.45 O +ATOM 2730 CB ALA B 351 -28.089 12.262 175.416 1.00 32.55 C +ATOM 2731 N SER B 352 -29.387 14.047 177.798 1.00 39.02 N +ATOM 2732 CA SER B 352 -30.560 14.323 178.619 1.00 37.75 C +ATOM 2733 C SER B 352 -30.853 15.811 178.765 1.00 40.92 C +ATOM 2734 O SER B 352 -31.997 16.174 179.059 1.00 44.64 O +ATOM 2735 CB SER B 352 -30.392 13.706 180.009 1.00 36.44 C +ATOM 2736 OG SER B 352 -29.458 14.441 180.775 1.00 37.07 O +ATOM 2737 N GLY B 353 -29.865 16.675 178.558 1.00 39.82 N +ATOM 2738 CA GLY B 353 -30.055 18.102 178.690 1.00 40.03 C +ATOM 2739 C GLY B 353 -29.667 18.685 180.032 1.00 41.43 C +ATOM 2740 O GLY B 353 -29.718 19.911 180.186 1.00 42.71 O +ATOM 2741 N ARG B 354 -29.270 17.856 181.002 1.00 44.11 N +ATOM 2742 CA ARG B 354 -28.847 18.384 182.295 1.00 49.28 C +ATOM 2743 C ARG B 354 -27.576 19.216 182.187 1.00 49.34 C +ATOM 2744 O ARG B 354 -27.345 20.086 183.034 1.00 50.28 O +ATOM 2745 CB ARG B 354 -28.613 17.249 183.297 1.00 52.73 C +ATOM 2746 CG ARG B 354 -29.879 16.549 183.775 1.00 59.15 C +ATOM 2747 CD ARG B 354 -29.578 15.611 184.932 1.00 62.55 C +ATOM 2748 NE ARG B 354 -28.419 14.764 184.661 1.00 66.45 N +ATOM 2749 CZ ARG B 354 -28.465 13.590 184.041 1.00 68.88 C +ATOM 2750 NH1 ARG B 354 -27.350 12.902 183.846 1.00 68.77 N +ATOM 2751 NH2 ARG B 354 -29.622 13.105 183.613 1.00 70.77 N +ATOM 2752 N GLN B 355 -26.772 18.988 181.150 1.00 45.81 N +ATOM 2753 CA GLN B 355 -25.603 19.797 180.850 1.00 44.63 C +ATOM 2754 C GLN B 355 -25.553 20.064 179.354 1.00 43.39 C +ATOM 2755 O GLN B 355 -26.087 19.294 178.550 1.00 43.90 O +ATOM 2756 CB GLN B 355 -24.303 19.118 181.274 1.00 45.75 C +ATOM 2757 CG GLN B 355 -24.096 18.996 182.772 1.00 47.41 C +ATOM 2758 CD GLN B 355 -22.740 18.401 183.103 1.00 49.71 C +ATOM 2759 OE1 GLN B 355 -22.486 17.223 182.853 1.00 49.72 O +ATOM 2760 NE2 GLN B 355 -21.849 19.224 183.638 1.00 52.76 N +ATOM 2761 N THR B 356 -24.916 21.171 178.988 1.00 41.20 N +ATOM 2762 CA THR B 356 -24.618 21.404 177.587 1.00 41.51 C +ATOM 2763 C THR B 356 -23.462 20.504 177.145 1.00 41.13 C +ATOM 2764 O THR B 356 -22.801 19.848 177.958 1.00 36.48 O +ATOM 2765 CB THR B 356 -24.268 22.871 177.346 1.00 42.39 C +ATOM 2766 OG1 THR B 356 -22.996 23.162 177.933 1.00 45.59 O +ATOM 2767 CG2 THR B 356 -25.318 23.780 177.972 1.00 39.36 C +ATOM 2768 N VAL B 357 -23.214 20.490 175.833 1.00 40.95 N +ATOM 2769 CA VAL B 357 -22.127 19.676 175.299 1.00 45.25 C +ATOM 2770 C VAL B 357 -20.787 20.147 175.851 1.00 49.17 C +ATOM 2771 O VAL B 357 -19.956 19.335 176.282 1.00 51.36 O +ATOM 2772 CB VAL B 357 -22.149 19.699 173.759 1.00 44.45 C +ATOM 2773 CG1 VAL B 357 -20.875 19.084 173.196 1.00 46.38 C +ATOM 2774 CG2 VAL B 357 -23.360 18.945 173.240 1.00 43.24 C +ATOM 2775 N ASP B 358 -20.572 21.465 175.889 1.00 49.39 N +ATOM 2776 CA ASP B 358 -19.302 21.990 176.386 1.00 51.10 C +ATOM 2777 C ASP B 358 -19.091 21.647 177.855 1.00 48.73 C +ATOM 2778 O ASP B 358 -17.986 21.266 178.252 1.00 48.04 O +ATOM 2779 CB ASP B 358 -19.233 23.505 176.183 1.00 53.74 C +ATOM 2780 CG ASP B 358 -19.041 23.893 174.736 1.00 57.52 C +ATOM 2781 OD1 ASP B 358 -18.806 22.994 173.899 1.00 60.00 O +ATOM 2782 OD2 ASP B 358 -19.122 25.103 174.436 1.00 60.19 O +ATOM 2783 N GLU B 359 -20.140 21.777 178.679 1.00 49.05 N +ATOM 2784 CA GLU B 359 -20.016 21.458 180.103 1.00 48.69 C +ATOM 2785 C GLU B 359 -19.749 19.975 180.327 1.00 47.38 C +ATOM 2786 O GLU B 359 -18.947 19.607 181.193 1.00 48.08 O +ATOM 2787 CB GLU B 359 -21.281 21.872 180.860 1.00 51.97 C +ATOM 2788 CG GLU B 359 -21.613 23.351 180.816 1.00 58.83 C +ATOM 2789 CD GLU B 359 -23.003 23.655 181.369 1.00 65.49 C +ATOM 2790 OE1 GLU B 359 -23.136 24.629 182.144 1.00 68.55 O +ATOM 2791 OE2 GLU B 359 -23.958 22.911 181.049 1.00 66.34 O +ATOM 2792 N ALA B 360 -20.414 19.110 179.564 1.00 44.72 N +ATOM 2793 CA ALA B 360 -20.281 17.676 179.796 1.00 44.75 C +ATOM 2794 C ALA B 360 -18.896 17.186 179.395 1.00 46.26 C +ATOM 2795 O ALA B 360 -18.248 16.447 180.145 1.00 50.32 O +ATOM 2796 CB ALA B 360 -21.375 16.920 179.038 1.00 43.19 C +ATOM 2797 N LEU B 361 -18.416 17.606 178.219 1.00 46.61 N +ATOM 2798 CA LEU B 361 -17.098 17.174 177.757 1.00 44.36 C +ATOM 2799 C LEU B 361 -15.981 17.815 178.566 1.00 44.49 C +ATOM 2800 O LEU B 361 -14.917 17.208 178.744 1.00 44.12 O +ATOM 2801 CB LEU B 361 -16.934 17.493 176.267 1.00 39.64 C +ATOM 2802 CG LEU B 361 -17.800 16.604 175.374 1.00 35.58 C +ATOM 2803 CD1 LEU B 361 -17.583 16.879 173.895 1.00 32.75 C +ATOM 2804 CD2 LEU B 361 -17.471 15.153 175.712 1.00 35.17 C +ATOM 2805 N LYS B 362 -16.207 19.021 179.082 1.00 45.42 N +ATOM 2806 CA LYS B 362 -15.229 19.620 179.981 1.00 50.46 C +ATOM 2807 C LYS B 362 -15.115 18.814 181.269 1.00 51.26 C +ATOM 2808 O LYS B 362 -14.021 18.681 181.829 1.00 53.68 O +ATOM 2809 CB LYS B 362 -15.609 21.072 180.274 1.00 55.00 C +ATOM 2810 CG LYS B 362 -14.601 21.824 181.117 1.00 59.64 C +ATOM 2811 CD LYS B 362 -15.047 23.258 181.351 1.00 63.01 C +ATOM 2812 CE LYS B 362 -16.274 23.317 182.245 1.00 65.91 C +ATOM 2813 NZ LYS B 362 -16.015 22.743 183.598 1.00 67.89 N +ATOM 2814 N ASP B 363 -16.235 18.268 181.754 1.00 51.30 N +ATOM 2815 CA ASP B 363 -16.188 17.401 182.930 1.00 52.04 C +ATOM 2816 C ASP B 363 -15.544 16.052 182.612 1.00 49.04 C +ATOM 2817 O ASP B 363 -14.919 15.440 183.487 1.00 44.95 O +ATOM 2818 CB ASP B 363 -17.598 17.204 183.489 1.00 55.18 C +ATOM 2819 CG ASP B 363 -18.180 18.482 184.078 1.00 58.99 C +ATOM 2820 OD1 ASP B 363 -17.427 19.473 184.209 1.00 61.14 O +ATOM 2821 OD2 ASP B 363 -19.389 18.502 184.399 1.00 59.57 O +ATOM 2822 N ALA B 364 -15.691 15.566 181.376 1.00 49.44 N +ATOM 2823 CA ALA B 364 -15.015 14.329 180.994 1.00 49.71 C +ATOM 2824 C ALA B 364 -13.512 14.534 180.861 1.00 51.47 C +ATOM 2825 O ALA B 364 -12.737 13.592 181.062 1.00 52.48 O +ATOM 2826 CB ALA B 364 -15.593 13.790 179.687 1.00 49.15 C +ATOM 2827 N GLN B 365 -13.089 15.744 180.516 1.00 52.93 N +ATOM 2828 CA GLN B 365 -11.677 16.085 180.444 1.00 56.98 C +ATOM 2829 C GLN B 365 -11.087 16.222 181.852 1.00 58.44 C +ATOM 2830 O GLN B 365 -10.249 15.420 182.273 1.00 59.63 O +ATOM 2831 CB GLN B 365 -11.493 17.384 179.655 1.00 62.07 C +ATOM 2832 CG GLN B 365 -10.048 17.828 179.498 1.00 65.51 C +ATOM 2833 CD GLN B 365 -9.213 16.803 178.766 1.00 67.66 C +ATOM 2834 OE1 GLN B 365 -8.350 16.152 179.358 1.00 70.02 O +ATOM 2835 NE2 GLN B 365 -9.468 16.648 177.471 1.00 67.57 N +HETATM 2836 C1 MAL B 401 -16.780 -1.670 175.019 1.00 22.31 C +HETATM 2837 C2 MAL B 401 -15.458 -1.864 175.750 1.00 20.10 C +HETATM 2838 C3 MAL B 401 -15.725 -1.759 177.260 1.00 22.44 C +HETATM 2839 C4 MAL B 401 -16.356 -0.412 177.578 1.00 23.54 C +HETATM 2840 C5 MAL B 401 -17.612 -0.218 176.728 1.00 21.74 C +HETATM 2841 C6 MAL B 401 -18.181 1.184 176.949 1.00 24.56 C +HETATM 2842 O1 MAL B 401 -17.679 -2.694 175.383 1.00 23.77 O +HETATM 2843 O2 MAL B 401 -14.947 -3.131 175.441 1.00 19.29 O +HETATM 2844 O3 MAL B 401 -14.531 -1.936 177.997 1.00 20.90 O +HETATM 2845 O4 MAL B 401 -16.698 -0.306 178.948 1.00 22.31 O +HETATM 2846 O5 MAL B 401 -17.323 -0.414 175.357 1.00 21.30 O +HETATM 2847 O6 MAL B 401 -19.358 1.387 176.189 1.00 24.58 O +HETATM 2848 C1' MAL B 401 -20.164 -5.437 173.448 1.00 27.37 C +HETATM 2849 C2' MAL B 401 -18.684 -5.407 173.044 1.00 26.37 C +HETATM 2850 C3' MAL B 401 -17.785 -4.643 174.017 1.00 24.36 C +HETATM 2851 C4' MAL B 401 -18.418 -3.307 174.341 1.00 26.47 C +HETATM 2852 C5' MAL B 401 -19.887 -3.472 174.771 1.00 25.02 C +HETATM 2853 C6' MAL B 401 -20.564 -2.126 174.943 1.00 21.11 C +HETATM 2854 O1' MAL B 401 -20.398 -6.331 174.513 1.00 29.23 O +HETATM 2855 O2' MAL B 401 -18.240 -6.733 172.968 1.00 32.21 O +HETATM 2856 O3' MAL B 401 -16.481 -4.449 173.475 1.00 26.14 O +HETATM 2857 O5' MAL B 401 -20.646 -4.162 173.796 1.00 24.94 O +HETATM 2858 O6' MAL B 401 -21.712 -2.306 175.755 1.00 27.37 O +HETATM 2859 C1 GOL B 402 -7.319 4.755 186.724 1.00 80.71 C +HETATM 2860 O1 GOL B 402 -7.268 5.712 185.709 1.00 78.10 O +HETATM 2861 C2 GOL B 402 -6.022 3.898 186.639 1.00 82.74 C +HETATM 2862 O2 GOL B 402 -5.740 3.466 185.348 1.00 84.65 O +HETATM 2863 C3 GOL B 402 -4.903 4.791 187.212 1.00 82.86 C +HETATM 2864 O3 GOL B 402 -4.501 5.653 186.190 1.00 82.74 O +HETATM 2865 N1 EPE B 403 -27.634 -11.554 155.075 1.00 60.23 N +HETATM 2866 C2 EPE B 403 -28.917 -10.927 155.449 1.00 61.42 C +HETATM 2867 C3 EPE B 403 -29.711 -11.878 156.334 1.00 63.04 C +HETATM 2868 N4 EPE B 403 -29.879 -13.148 155.662 1.00 64.84 N +HETATM 2869 C5 EPE B 403 -29.272 -13.266 154.353 1.00 62.21 C +HETATM 2870 C6 EPE B 403 -27.801 -12.881 154.456 1.00 60.89 C +HETATM 2871 C7 EPE B 403 -30.003 -14.345 156.467 1.00 66.16 C +HETATM 2872 C8 EPE B 403 -31.415 -14.910 156.436 1.00 66.90 C +HETATM 2873 O8 EPE B 403 -32.098 -14.495 157.598 1.00 67.58 O +HETATM 2874 C9 EPE B 403 -26.913 -10.718 154.113 1.00 60.55 C +HETATM 2875 C10 EPE B 403 -27.140 -9.262 154.474 1.00 60.85 C +HETATM 2876 S EPE B 403 -25.892 -8.220 153.726 1.00 61.57 S +HETATM 2877 O1S EPE B 403 -26.519 -7.298 152.774 1.00 62.40 O +HETATM 2878 O2S EPE B 403 -24.913 -9.056 153.036 1.00 63.39 O +HETATM 2879 O3S EPE B 403 -25.261 -7.477 154.816 1.00 60.55 O +HETATM 2880 O HOH B 501 -9.159 -20.724 150.764 1.00 55.42 O +HETATM 2881 O HOH B 502 -19.159 -17.660 189.588 1.00 40.13 O +HETATM 2882 O HOH B 503 2.760 -9.636 169.199 1.00 30.44 O +HETATM 2883 O HOH B 504 -17.966 -24.468 154.603 1.00 52.33 O +HETATM 2884 O HOH B 505 0.762 0.709 181.737 1.00 47.69 O +HETATM 2885 O HOH B 506 10.901 -18.156 162.538 1.00 45.41 O +HETATM 2886 O HOH B 507 -21.280 0.473 185.915 1.00 55.48 O +HETATM 2887 O HOH B 508 -14.165 -19.874 190.596 1.00 47.64 O +HETATM 2888 O HOH B 509 0.558 15.260 174.121 1.00 37.99 O +HETATM 2889 O HOH B 510 -28.150 4.517 181.465 1.00 39.78 O +HETATM 2890 O HOH B 511 -19.297 -20.286 160.859 1.00 42.11 O +HETATM 2891 O HOH B 512 -9.207 17.280 174.080 1.00 46.63 O +HETATM 2892 O HOH B 513 2.526 -18.143 182.888 1.00 42.43 O +HETATM 2893 O HOH B 514 -8.558 -27.017 161.156 1.00 45.27 O +HETATM 2894 O HOH B 515 -24.196 3.937 154.831 1.00 43.03 O +HETATM 2895 O HOH B 516 -28.413 -8.750 170.698 1.00 28.92 O +HETATM 2896 O HOH B 517 -42.571 18.931 169.819 1.00 50.09 O +HETATM 2897 O HOH B 518 -0.314 -1.506 175.973 1.00 30.59 O +HETATM 2898 O HOH B 519 -22.177 0.372 182.059 1.00 55.46 O +HETATM 2899 O HOH B 520 -18.787 -27.190 165.900 1.00 34.40 O +HETATM 2900 O HOH B 521 -8.763 3.155 184.426 1.00 40.13 O +HETATM 2901 O HOH B 522 -33.779 6.461 170.154 1.00 32.26 O +HETATM 2902 O HOH B 523 -30.961 9.528 152.709 1.00 40.61 O +HETATM 2903 O HOH B 524 -27.160 18.837 176.034 1.00 50.52 O +HETATM 2904 O HOH B 525 -11.180 -6.619 195.582 1.00 42.83 O +HETATM 2905 O HOH B 526 -23.370 -21.211 187.468 1.00 52.26 O +HETATM 2906 O HOH B 527 -5.257 -13.571 155.530 1.00 40.25 O +HETATM 2907 O HOH B 528 -20.968 -2.768 178.140 1.00 35.03 O +HETATM 2908 O HOH B 529 -6.982 -11.451 154.610 1.00 23.68 O +HETATM 2909 O HOH B 530 -34.520 8.503 163.892 1.00 40.59 O +HETATM 2910 O HOH B 531 -16.852 -0.972 167.259 1.00 21.24 O +HETATM 2911 O HOH B 532 2.014 12.362 180.680 1.00 52.37 O +HETATM 2912 O HOH B 533 -13.050 -23.640 189.187 1.00 33.29 O +HETATM 2913 O HOH B 534 1.317 -7.387 163.928 1.00 30.36 O +HETATM 2914 O HOH B 535 -28.733 -18.700 173.564 1.00 47.46 O +HETATM 2915 O HOH B 536 5.651 -14.034 171.226 1.00 57.03 O +HETATM 2916 O HOH B 537 -36.594 -2.701 161.143 1.00 29.13 O +HETATM 2917 O HOH B 538 0.623 -14.915 164.217 1.00 22.76 O +HETATM 2918 O HOH B 539 -15.695 -4.562 170.621 1.00 27.44 O +HETATM 2919 O HOH B 540 -19.726 -15.611 160.259 1.00 42.79 O +HETATM 2920 O HOH B 541 -31.476 0.654 180.451 1.00 46.24 O +HETATM 2921 O HOH B 542 -0.594 -3.357 173.800 1.00 35.06 O +HETATM 2922 O HOH B 543 -26.988 -10.882 172.141 1.00 52.59 O +HETATM 2923 O HOH B 544 -42.821 13.841 159.672 1.00 43.87 O +HETATM 2924 O HOH B 545 -6.096 -16.833 156.750 1.00 31.39 O +HETATM 2925 O HOH B 546 -35.422 -12.198 167.715 1.00 49.13 O +HETATM 2926 O HOH B 547 1.188 -23.625 163.363 1.00 32.42 O +HETATM 2927 O HOH B 548 -19.052 -36.190 182.980 1.00 42.67 O +HETATM 2928 O HOH B 549 1.925 9.071 179.497 1.00 48.36 O +HETATM 2929 O HOH B 550 -4.740 17.809 173.627 1.00 40.83 O +HETATM 2930 O HOH B 551 -33.999 -12.042 159.689 1.00 35.36 O +HETATM 2931 O HOH B 552 -18.637 -14.461 162.895 1.00 30.54 O +HETATM 2932 O HOH B 553 3.690 -16.050 176.192 1.00 48.61 O +HETATM 2933 O HOH B 554 -1.424 -20.493 178.509 1.00 22.82 O +HETATM 2934 O HOH B 555 -37.566 14.659 154.656 1.00 33.81 O +HETATM 2935 O HOH B 556 -5.996 16.182 178.159 1.00 43.93 O +HETATM 2936 O HOH B 557 -9.100 -36.782 181.907 1.00 47.41 O +HETATM 2937 O HOH B 558 -17.603 -11.362 169.550 1.00 31.82 O +HETATM 2938 O HOH B 559 -1.629 16.946 171.385 1.00 41.19 O +HETATM 2939 O HOH B 560 2.984 -7.788 181.348 1.00 34.95 O +HETATM 2940 O HOH B 561 1.740 -6.935 185.483 1.00 35.58 O +HETATM 2941 O HOH B 562 -21.942 6.141 166.443 1.00 34.38 O +HETATM 2942 O HOH B 563 -9.659 8.875 167.157 1.00 35.04 O +HETATM 2943 O HOH B 564 -15.863 25.473 172.722 1.00 57.27 O +HETATM 2944 O HOH B 565 -1.918 -30.552 179.434 1.00 34.74 O +HETATM 2945 O HOH B 566 -38.178 -6.893 156.534 1.00 33.17 O +HETATM 2946 O HOH B 567 -23.967 -23.888 168.943 1.00 35.07 O +HETATM 2947 O HOH B 568 -24.551 -16.636 161.366 1.00 45.26 O +HETATM 2948 O HOH B 569 -12.726 9.671 160.304 1.00 27.83 O +HETATM 2949 O HOH B 570 -12.111 -27.675 159.547 1.00 28.91 O +HETATM 2950 O HOH B 571 -4.308 -14.633 181.119 1.00 18.87 O +HETATM 2951 O HOH B 572 -7.011 8.069 167.658 1.00 39.53 O +HETATM 2952 O HOH B 573 -18.894 -1.864 179.770 1.00 33.01 O +HETATM 2953 O HOH B 574 -26.545 -14.650 162.415 1.00 35.76 O +HETATM 2954 O HOH B 575 -39.433 3.945 166.063 1.00 41.10 O +HETATM 2955 O HOH B 576 -7.286 -1.774 180.640 1.00 19.03 O +HETATM 2956 O HOH B 577 4.695 -13.625 176.735 1.00 28.12 O +HETATM 2957 O HOH B 578 -0.322 3.088 184.851 1.00 29.69 O +HETATM 2958 O HOH B 579 -38.716 14.714 164.969 1.00 42.13 O +HETATM 2959 O HOH B 580 -10.768 12.553 162.322 1.00 66.28 O +HETATM 2960 O HOH B 581 -10.394 -16.200 160.551 1.00 26.84 O +HETATM 2961 O HOH B 582 2.205 -4.071 188.444 1.00 29.22 O +HETATM 2962 O HOH B 583 -1.291 -10.155 185.755 1.00 28.28 O +HETATM 2963 O HOH B 584 -4.568 4.566 170.384 1.00 26.35 O +HETATM 2964 O HOH B 585 -15.596 2.383 182.791 1.00 41.41 O +HETATM 2965 O HOH B 586 -13.147 19.145 160.239 1.00 54.21 O +HETATM 2966 O HOH B 587 -20.375 -26.950 179.663 1.00 36.70 O +HETATM 2967 O HOH B 588 -16.655 13.878 165.164 1.00 28.67 O +HETATM 2968 O HOH B 589 1.563 -15.368 161.512 1.00 46.42 O +HETATM 2969 O HOH B 590 4.621 -18.505 175.067 1.00 33.09 O +HETATM 2970 O HOH B 591 -26.457 -14.221 174.562 1.00 42.73 O +HETATM 2971 O HOH B 592 -3.130 -7.643 193.199 1.00 25.21 O +HETATM 2972 O HOH B 593 -20.620 -14.988 170.459 1.00 21.89 O +HETATM 2973 O HOH B 594 -9.451 -2.923 183.460 1.00 24.88 O +HETATM 2974 O HOH B 595 -10.982 5.970 158.977 1.00 39.74 O +HETATM 2975 O HOH B 596 1.025 -24.201 172.718 1.00 24.05 O +HETATM 2976 O HOH B 597 -26.233 -17.616 174.494 1.00 43.57 O +HETATM 2977 O HOH B 598 -20.667 13.129 155.906 1.00 35.18 O +HETATM 2978 O HOH B 599 -20.247 -5.552 162.427 1.00 24.40 O +HETATM 2979 O HOH B 600 -25.185 -25.365 175.711 1.00 44.82 O +HETATM 2980 O HOH B 601 -20.380 9.895 152.524 1.00 37.23 O +HETATM 2981 O HOH B 602 5.112 -7.171 183.321 1.00 45.72 O +HETATM 2982 O HOH B 603 -23.096 -5.421 162.719 1.00 27.97 O +HETATM 2983 O HOH B 604 -10.102 10.973 165.022 1.00 37.73 O +HETATM 2984 O HOH B 605 -38.514 -0.531 171.463 1.00 28.69 O +HETATM 2985 O HOH B 606 -6.137 3.325 169.069 1.00 44.84 O +HETATM 2986 O HOH B 607 0.772 -28.259 185.057 1.00 47.10 O +HETATM 2987 O HOH B 608 -17.834 5.356 157.667 1.00 25.51 O +HETATM 2988 O HOH B 609 -31.043 15.825 156.700 1.00 40.34 O +HETATM 2989 O HOH B 610 3.979 14.537 176.394 1.00 43.41 O +HETATM 2990 O HOH B 611 -25.724 14.635 153.591 1.00 41.98 O +HETATM 2991 O HOH B 612 5.876 6.695 167.458 1.00 57.38 O +HETATM 2992 O HOH B 613 -6.227 -13.131 190.629 1.00 28.44 O +HETATM 2993 O HOH B 614 0.173 -12.148 189.440 1.00 24.58 O +HETATM 2994 O HOH B 615 -10.533 -27.360 195.217 1.00 43.51 O +HETATM 2995 O HOH B 616 -6.801 -24.873 165.744 1.00 37.73 O +HETATM 2996 O HOH B 617 -3.859 16.648 181.600 1.00 42.37 O +HETATM 2997 O HOH B 618 1.610 -15.746 185.243 1.00 41.20 O +HETATM 2998 O HOH B 619 -6.054 -3.532 157.828 1.00 28.44 O +HETATM 2999 O HOH B 620 -30.608 -8.120 167.380 1.00 28.18 O +HETATM 3000 O HOH B 621 -7.365 -29.818 169.135 1.00 46.23 O +HETATM 3001 O HOH B 622 -2.304 -27.720 176.316 1.00 40.49 O +HETATM 3002 O HOH B 623 4.974 -22.780 175.892 1.00 39.65 O +HETATM 3003 O HOH B 624 -19.022 -29.338 180.966 1.00 29.00 O +HETATM 3004 O HOH B 625 -12.377 -2.744 184.526 1.00 32.43 O +HETATM 3005 O HOH B 626 -1.916 -26.889 174.014 1.00 42.16 O +HETATM 3006 O HOH B 627 -26.680 -11.611 181.332 1.00 40.43 O +HETATM 3007 O HOH B 628 -24.120 -5.955 182.792 1.00 47.68 O +HETATM 3008 O HOH B 629 -22.013 19.263 164.723 1.00 30.88 O +HETATM 3009 O HOH B 630 -20.899 1.222 183.717 1.00 61.75 O +HETATM 3010 O HOH B 631 -7.572 -4.229 188.173 1.00 35.71 O +HETATM 3011 O HOH B 632 -23.810 -10.352 181.256 1.00 37.92 O +HETATM 3012 O HOH B 633 5.826 -26.642 172.735 1.00 44.27 O +HETATM 3013 O HOH B 634 -20.025 -12.173 169.609 1.00 23.81 O +HETATM 3014 O HOH B 635 -17.693 13.048 182.206 1.00 38.42 O +HETATM 3015 O HOH B 636 -5.957 6.508 171.950 1.00 28.66 O +HETATM 3016 O HOH B 637 -14.902 -31.562 186.748 1.00 33.82 O +HETATM 3017 O HOH B 638 -30.415 -12.360 173.324 1.00 54.34 O +HETATM 3018 O HOH B 639 -17.006 3.262 159.281 1.00 28.06 O +HETATM 3019 O HOH B 640 -19.688 -19.020 157.039 1.00 46.52 O +HETATM 3020 O HOH B 641 -13.998 -28.129 170.244 1.00 27.32 O +HETATM 3021 O HOH B 642 -28.544 -11.897 168.676 1.00 31.09 O +HETATM 3022 O HOH B 643 4.362 -8.298 166.757 1.00 50.00 O +HETATM 3023 O HOH B 644 2.730 -25.017 174.580 1.00 35.40 O +HETATM 3024 O HOH B 645 -21.037 5.562 154.695 1.00 31.62 O +HETATM 3025 O HOH B 646 -0.424 3.939 180.873 1.00 33.18 O +HETATM 3026 O HOH B 647 -5.139 -21.421 161.952 1.00 20.35 O +HETATM 3027 O HOH B 648 2.868 -13.591 168.679 1.00 42.41 O +HETATM 3028 O HOH B 649 -4.766 -1.638 187.375 1.00 36.47 O +HETATM 3029 O HOH B 650 -15.606 -8.305 173.247 1.00 41.68 O +HETATM 3030 O HOH B 651 -30.673 -2.800 177.422 1.00 30.28 O +HETATM 3031 O HOH B 652 -5.123 -6.368 175.972 1.00 27.44 O +HETATM 3032 O HOH B 653 -21.244 -30.548 172.991 1.00 50.00 O +HETATM 3033 O HOH B 654 -1.862 -26.296 171.141 1.00 46.27 O +HETATM 3034 O HOH B 655 -32.108 11.742 153.510 1.00 38.71 O +HETATM 3035 O HOH B 656 -36.364 -12.465 155.960 1.00 46.98 O +HETATM 3036 O HOH B 657 -28.893 -11.288 186.515 1.00 53.57 O +HETATM 3037 O HOH B 658 -14.288 -2.666 189.338 1.00 50.15 O +HETATM 3038 O HOH B 659 4.528 3.092 167.040 1.00 32.83 O +HETATM 3039 O HOH B 660 -24.486 -2.844 175.186 1.00 26.19 O +HETATM 3040 O HOH B 661 -36.703 5.067 173.524 1.00 38.71 O +HETATM 3041 O HOH B 662 -17.334 -11.326 177.051 1.00 24.00 O +HETATM 3042 O HOH B 663 -35.025 -9.835 169.315 1.00 44.03 O +HETATM 3043 O HOH B 664 -28.681 -13.226 178.215 1.00 48.54 O +HETATM 3044 O HOH B 665 -19.876 14.916 181.991 1.00 49.47 O +HETATM 3045 O HOH B 666 -33.284 15.177 176.136 1.00 49.45 O +HETATM 3046 O HOH B 667 -12.092 -33.333 188.363 1.00 31.92 O +HETATM 3047 O HOH B 668 -4.495 8.579 169.421 1.00 45.05 O +HETATM 3048 O HOH B 669 -16.867 -23.411 192.036 1.00 50.97 O +HETATM 3049 O HOH B 670 -8.996 -26.261 163.706 1.00 30.67 O +HETATM 3050 O HOH B 671 -10.739 3.001 187.068 1.00 43.93 O +HETATM 3051 O HOH B 672 -10.422 18.343 166.427 1.00 37.80 O +HETATM 3052 O HOH B 673 -26.869 8.373 150.644 1.00 36.66 O +HETATM 3053 O HOH B 674 -12.483 -21.982 156.752 1.00 35.65 O +HETATM 3054 O HOH B 675 -9.626 21.155 168.653 1.00 45.61 O +HETATM 3055 O HOH B 676 -30.122 -3.209 167.813 1.00 29.42 O +HETATM 3056 O HOH B 677 -16.999 1.757 168.651 1.00 24.10 O +HETATM 3057 O HOH B 678 -28.853 -17.516 163.032 1.00 45.15 O +HETATM 3058 O HOH B 679 -20.482 -34.075 178.260 1.00 40.77 O +HETATM 3059 O HOH B 680 5.367 9.424 166.194 1.00 51.17 O +HETATM 3060 O HOH B 681 -8.594 4.207 160.746 1.00 42.48 O +HETATM 3061 O HOH B 682 -28.399 9.071 176.762 1.00 43.30 O +HETATM 3062 O HOH B 683 -6.100 -24.001 162.940 1.00 40.39 O +HETATM 3063 O HOH B 684 -16.715 -11.847 154.079 1.00 52.59 O +HETATM 3064 O HOH B 685 -40.420 -1.934 170.032 1.00 42.08 O +HETATM 3065 O HOH B 686 -1.887 0.433 171.691 1.00 25.99 O +HETATM 3066 O HOH B 687 -8.823 -20.216 155.463 1.00 37.22 O +HETATM 3067 O HOH B 688 -25.025 -11.023 188.073 1.00 34.84 O +HETATM 3068 O HOH B 689 -27.843 -0.500 169.517 1.00 28.06 O +HETATM 3069 O HOH B 690 -8.194 7.235 170.077 1.00 29.94 O +HETATM 3070 O HOH B 691 -3.678 -1.598 171.127 1.00 33.88 O +HETATM 3071 O HOH B 692 -28.537 -0.860 177.535 1.00 42.85 O +HETATM 3072 O HOH B 693 -28.416 16.544 164.248 1.00 33.00 O +HETATM 3073 O HOH B 694 -2.318 -0.045 174.514 1.00 24.83 O +HETATM 3074 O HOH B 695 -24.936 -17.543 163.432 1.00 47.12 O +HETATM 3075 O HOH B 696 -31.069 6.059 169.518 1.00 31.70 O +HETATM 3076 O HOH B 697 -2.550 9.282 168.768 1.00 41.61 O +HETATM 3077 O HOH B 698 2.493 -2.318 176.571 1.00 44.12 O +HETATM 3078 O HOH B 699 -29.461 -2.626 170.305 1.00 28.73 O +HETATM 3079 O HOH B 700 -25.657 21.569 174.466 1.00 50.61 O +HETATM 3080 O HOH B 701 0.536 -13.911 187.252 1.00 45.13 O +HETATM 3081 O HOH B 702 -2.638 -26.205 186.375 1.00 37.08 O +HETATM 3082 O HOH B 703 -9.481 -15.718 199.398 1.00 34.97 O +HETATM 3083 O HOH B 704 2.337 14.810 170.768 1.00 48.71 O +HETATM 3084 O HOH B 705 -35.015 12.648 174.637 1.00 39.44 O +HETATM 3085 O HOH B 706 6.416 -24.528 168.360 1.00 26.14 O +HETATM 3086 O HOH B 707 -42.146 3.999 165.295 1.00 53.05 O +HETATM 3087 O HOH B 708 7.846 -21.965 171.313 1.00 31.95 O +HETATM 3088 O HOH B 709 -3.537 -3.263 173.108 1.00 33.82 O +HETATM 3089 O HOH B 710 -4.868 -27.833 185.467 1.00 29.43 O +HETATM 3090 O HOH B 711 -24.925 -16.416 184.865 1.00 31.67 O +HETATM 3091 O HOH B 712 -0.813 -19.647 182.357 1.00 34.86 O +HETATM 3092 O HOH B 713 -15.850 0.840 185.456 1.00 62.08 O +HETATM 3093 O HOH B 714 -4.071 -10.265 193.803 1.00 35.91 O +HETATM 3094 O HOH B 715 -31.107 -5.602 166.488 1.00 28.37 O +HETATM 3095 O HOH B 716 -3.678 -11.883 191.963 1.00 38.68 O +HETATM 3096 O HOH B 717 -9.075 -0.525 181.894 1.00 33.25 O +HETATM 3097 O HOH B 718 -14.395 -22.479 191.278 1.00 33.32 O +HETATM 3098 O HOH B 719 -1.936 -27.588 178.910 1.00 27.23 O +HETATM 3099 O HOH B 720 -21.180 18.255 156.478 1.00 45.47 O +HETATM 3100 O HOH B 721 -29.589 10.373 178.914 1.00 42.64 O +HETATM 3101 O HOH B 722 6.805 -16.599 172.578 1.00 44.28 O +HETATM 3102 O HOH B 723 0.071 -17.121 190.087 1.00 45.29 O +HETATM 3103 O HOH B 724 -1.802 -21.790 181.065 1.00 39.53 O +HETATM 3104 O HOH B 725 -21.076 -28.695 183.253 1.00 53.17 O +HETATM 3105 O HOH B 726 2.268 -11.000 166.502 1.00 36.80 O +HETATM 3106 O HOH B 727 3.001 5.530 178.557 1.00 53.18 O +HETATM 3107 O HOH B 728 -40.128 -5.242 158.145 1.00 40.75 O +HETATM 3108 O HOH B 729 -22.629 -24.417 182.058 1.00 37.70 O +HETATM 3109 O HOH B 730 -16.935 5.575 155.105 1.00 43.21 O +HETATM 3110 O HOH B 731 -17.293 -9.064 175.909 1.00 29.99 O +HETATM 3111 O HOH B 732 6.624 -12.890 174.464 1.00 47.96 O +HETATM 3112 O HOH B 733 -28.522 -16.514 174.729 1.00 47.12 O +HETATM 3113 O HOH B 734 -26.152 -2.136 177.437 1.00 41.50 O +HETATM 3114 O HOH B 735 -39.263 13.963 162.554 1.00 50.82 O +HETATM 3115 O HOH B 736 -22.318 -4.960 178.696 1.00 50.12 O +HETATM 3116 O HOH B 737 -16.464 -24.994 160.222 1.00 46.46 O +HETATM 3117 O HOH B 738 -23.642 -2.862 178.911 1.00 64.53 O +HETATM 3118 O HOH B 739 -7.855 -4.945 190.794 1.00 44.59 O +HETATM 3119 O HOH B 740 5.009 -17.571 181.940 1.00 45.71 O +HETATM 3120 O HOH B 741 -5.893 -28.601 168.050 1.00 47.94 O +HETATM 3121 O HOH B 742 -16.898 -28.035 169.758 1.00 52.91 O +HETATM 3122 O HOH B 743 -2.157 -27.024 191.101 1.00 48.01 O +HETATM 3123 O HOH B 744 -24.657 -7.517 180.835 1.00 51.02 O +HETATM 3124 O HOH B 745 -5.102 -30.353 180.415 1.00 38.71 O +HETATM 3125 O HOH B 746 3.969 7.296 179.939 1.00 60.26 O +HETATM 3126 O HOH B 747 5.847 -9.795 168.527 1.00 35.04 O +HETATM 3127 O HOH B 748 3.169 0.428 183.305 1.00 40.37 O +HETATM 3128 O HOH B 749 -8.175 7.936 160.888 1.00 45.19 O +HETATM 3129 O HOH B 750 -0.293 -16.445 187.649 1.00 39.49 O +HETATM 3130 O HOH B 751 2.678 -3.040 184.585 1.00 34.65 O +HETATM 3131 O HOH B 752 -19.142 -28.372 187.910 1.00 49.99 O +HETATM 3132 O HOH B 753 -1.980 -24.018 188.028 1.00 36.20 O +HETATM 3133 O HOH B 754 -16.154 -0.644 190.142 1.00 58.98 O +HETATM 3134 O HOH B 755 -19.016 18.400 155.649 1.00 63.86 O +HETATM 3135 O HOH B 756 -26.643 -15.069 185.085 1.00 42.68 O +HETATM 3136 O HOH B 757 4.001 -23.679 162.522 1.00 49.35 O +HETATM 3137 O HOH B 758 -20.962 14.873 153.634 1.00 36.94 O +HETATM 3138 O HOH B 759 -8.748 -2.935 186.177 1.00 36.94 O +HETATM 3139 O HOH B 760 -1.691 -24.822 190.336 1.00 48.41 O +HETATM 3140 O HOH B 761 -0.447 -6.954 161.362 1.00 38.89 O +HETATM 3141 O HOH B 762 -27.924 -10.714 179.396 1.00 51.76 O +HETATM 3142 O HOH B 763 -8.219 12.090 183.013 1.00 56.82 O +HETATM 3143 O HOH B 764 2.796 -6.635 187.718 1.00 40.01 O +HETATM 3144 O HOH B 765 -18.817 -17.821 159.373 1.00 36.63 O +HETATM 3145 O HOH B 766 -11.442 -29.710 161.124 1.00 37.24 O +HETATM 3146 O HOH B 767 -10.864 -1.381 187.145 1.00 59.00 O +HETATM 3147 O HOH B 768 -13.892 -23.878 158.595 1.00 49.23 O +HETATM 3148 O HOH B 769 -28.095 -9.300 174.730 1.00 51.28 O +HETATM 3149 O HOH B 770 1.187 -20.386 184.186 1.00 48.33 O +HETATM 3150 O HOH B 771 -9.831 10.445 182.100 1.00 56.44 O +HETATM 3151 O HOH B 772 -41.999 1.311 171.597 1.00 43.42 O +HETATM 3152 O HOH B 773 -29.781 -5.724 177.223 1.00 42.48 O +HETATM 3153 O HOH B 774 -31.669 18.040 158.188 1.00 55.93 O +HETATM 3154 O HOH B 775 -21.397 -29.095 187.250 1.00 52.54 O +HETATM 3155 O HOH B 776 -39.483 1.656 170.975 1.00 40.80 O +HETATM 3156 O HOH B 777 4.653 13.265 174.049 1.00 48.45 O +HETATM 3157 O HOH B 778 2.701 14.015 172.790 1.00 41.20 O +HETATM 3158 O HOH B 779 9.116 -23.552 169.530 1.00 45.78 O +HETATM 3159 O HOH B 780 2.019 -10.549 189.155 1.00 35.42 O +HETATM 3160 O HOH B 781 -24.821 -13.391 188.736 1.00 54.74 O +HETATM 3161 O HOH B 782 -41.648 15.180 161.627 1.00 45.54 O +HETATM 3162 O HOH B 783 9.831 -5.646 176.762 1.00 42.75 O +HETATM 3163 O HOH B 784 -9.507 -33.619 188.872 1.00 49.46 O +HETATM 3164 O HOH B 785 -5.064 10.294 168.270 1.00 44.18 O +HETATM 3165 O HOH B 786 -13.703 -1.431 187.390 1.00 52.94 O +HETATM 3166 O HOH B 787 -15.162 -26.834 159.555 1.00 51.57 O +HETATM 3167 O HOH B 788 -36.926 17.000 154.127 1.00 42.12 O +HETATM 3168 O HOH B 789 8.481 -5.775 174.032 1.00 44.44 O +HETATM 3169 O HOH B 790 3.392 -1.987 186.780 1.00 33.59 O +HETATM 3170 O HOH B 791 -27.240 -6.774 176.259 1.00 51.43 O +HETATM 3171 O HOH B 792 10.310 -8.238 177.065 1.00 36.98 O +ATOM 3172 N LYS A 1 -25.266 -22.849 47.898 1.00 62.44 N +ATOM 3173 CA LYS A 1 -26.323 -23.641 48.512 1.00 60.31 C +ATOM 3174 C LYS A 1 -25.808 -24.439 49.701 1.00 52.66 C +ATOM 3175 O LYS A 1 -24.696 -24.965 49.678 1.00 49.60 O +ATOM 3176 CB LYS A 1 -26.951 -24.586 47.482 1.00 65.06 C +ATOM 3177 CG LYS A 1 -28.239 -25.237 47.956 1.00 67.76 C +ATOM 3178 CD LYS A 1 -29.375 -24.233 48.016 1.00 68.18 C +ATOM 3179 CE LYS A 1 -30.397 -24.643 49.061 1.00 67.72 C +ATOM 3180 NZ LYS A 1 -29.796 -24.629 50.427 1.00 65.42 N +ATOM 3181 N ILE A 2 -26.625 -24.518 50.741 1.00 48.42 N +ATOM 3182 CA ILE A 2 -26.298 -25.274 51.942 1.00 41.20 C +ATOM 3183 C ILE A 2 -26.836 -26.689 51.771 1.00 39.15 C +ATOM 3184 O ILE A 2 -27.970 -26.884 51.323 1.00 41.50 O +ATOM 3185 CB ILE A 2 -26.880 -24.581 53.196 1.00 33.65 C +ATOM 3186 CG1 ILE A 2 -26.306 -23.165 53.349 1.00 35.00 C +ATOM 3187 CG2 ILE A 2 -26.617 -25.393 54.448 1.00 31.34 C +ATOM 3188 CD1 ILE A 2 -26.975 -22.309 54.447 1.00 33.05 C +ATOM 3189 N GLU A 3 -26.025 -27.679 52.126 1.00 36.48 N +ATOM 3190 CA GLU A 3 -26.414 -29.074 51.956 1.00 38.58 C +ATOM 3191 C GLU A 3 -27.530 -29.454 52.930 1.00 38.39 C +ATOM 3192 O GLU A 3 -27.429 -29.212 54.138 1.00 37.07 O +ATOM 3193 CB GLU A 3 -25.202 -29.982 52.167 1.00 40.36 C +ATOM 3194 CG GLU A 3 -25.445 -31.450 51.886 1.00 46.62 C +ATOM 3195 CD GLU A 3 -24.192 -32.288 52.103 1.00 55.49 C +ATOM 3196 OE1 GLU A 3 -24.284 -33.372 52.729 1.00 57.25 O +ATOM 3197 OE2 GLU A 3 -23.105 -31.850 51.659 1.00 58.15 O +ATOM 3198 N GLU A 4 -28.580 -30.081 52.406 1.00 36.22 N +ATOM 3199 CA GLU A 4 -29.694 -30.533 53.226 1.00 36.68 C +ATOM 3200 C GLU A 4 -29.356 -31.878 53.852 1.00 36.48 C +ATOM 3201 O GLU A 4 -28.668 -32.701 53.245 1.00 35.78 O +ATOM 3202 CB GLU A 4 -30.960 -30.646 52.376 1.00 41.48 C +ATOM 3203 CG GLU A 4 -32.227 -31.009 53.140 1.00 49.35 C +ATOM 3204 CD GLU A 4 -33.476 -30.901 52.277 1.00 57.22 C +ATOM 3205 OE1 GLU A 4 -33.334 -30.707 51.050 1.00 60.02 O +ATOM 3206 OE2 GLU A 4 -34.597 -31.026 52.821 1.00 60.49 O +ATOM 3207 N GLY A 5 -29.804 -32.084 55.090 1.00 33.08 N +ATOM 3208 CA GLY A 5 -29.585 -33.351 55.756 1.00 33.10 C +ATOM 3209 C GLY A 5 -28.330 -33.441 56.595 1.00 38.24 C +ATOM 3210 O GLY A 5 -27.897 -34.551 56.924 1.00 39.22 O +ATOM 3211 N LYS A 6 -27.714 -32.316 56.929 1.00 39.80 N +ATOM 3212 CA LYS A 6 -26.557 -32.302 57.810 1.00 36.90 C +ATOM 3213 C LYS A 6 -26.416 -30.883 58.330 1.00 31.79 C +ATOM 3214 O LYS A 6 -27.060 -29.961 57.831 1.00 33.06 O +ATOM 3215 CB LYS A 6 -25.288 -32.765 57.093 1.00 39.64 C +ATOM 3216 CG LYS A 6 -24.775 -31.798 56.055 1.00 46.79 C +ATOM 3217 CD LYS A 6 -23.367 -32.194 55.633 1.00 55.05 C +ATOM 3218 CE LYS A 6 -22.596 -31.012 55.076 1.00 62.51 C +ATOM 3219 NZ LYS A 6 -21.271 -31.426 54.520 1.00 66.83 N +ATOM 3220 N LEU A 7 -25.573 -30.715 59.344 1.00 28.85 N +ATOM 3221 CA LEU A 7 -25.362 -29.411 59.957 1.00 28.09 C +ATOM 3222 C LEU A 7 -23.908 -28.994 59.786 1.00 28.07 C +ATOM 3223 O LEU A 7 -22.999 -29.789 60.033 1.00 29.46 O +ATOM 3224 CB LEU A 7 -25.736 -29.437 61.436 1.00 27.77 C +ATOM 3225 CG LEU A 7 -27.237 -29.565 61.744 1.00 25.62 C +ATOM 3226 CD1 LEU A 7 -27.430 -29.702 63.234 1.00 23.51 C +ATOM 3227 CD2 LEU A 7 -28.003 -28.351 61.215 1.00 23.00 C +ATOM 3228 N VAL A 8 -23.698 -27.758 59.350 1.00 22.73 N +ATOM 3229 CA VAL A 8 -22.388 -27.115 59.368 1.00 29.81 C +ATOM 3230 C VAL A 8 -22.468 -25.983 60.389 1.00 26.88 C +ATOM 3231 O VAL A 8 -23.401 -25.172 60.355 1.00 27.83 O +ATOM 3232 CB VAL A 8 -21.973 -26.614 57.968 1.00 31.89 C +ATOM 3233 CG1 VAL A 8 -20.630 -25.870 58.002 1.00 23.60 C +ATOM 3234 CG2 VAL A 8 -21.868 -27.795 57.013 1.00 23.39 C +ATOM 3235 N ILE A 9 -21.525 -25.966 61.326 1.00 28.34 N +ATOM 3236 CA ILE A 9 -21.499 -25.019 62.436 1.00 26.43 C +ATOM 3237 C ILE A 9 -20.189 -24.236 62.382 1.00 26.26 C +ATOM 3238 O ILE A 9 -19.118 -24.830 62.215 1.00 24.83 O +ATOM 3239 CB ILE A 9 -21.635 -25.751 63.788 1.00 28.17 C +ATOM 3240 CG1 ILE A 9 -22.968 -26.501 63.889 1.00 28.81 C +ATOM 3241 CG2 ILE A 9 -21.486 -24.785 64.945 1.00 23.10 C +ATOM 3242 CD1 ILE A 9 -23.145 -27.218 65.216 1.00 28.33 C +ATOM 3243 N TRP A 10 -20.270 -22.910 62.529 1.00 26.20 N +ATOM 3244 CA TRP A 10 -19.098 -22.042 62.683 1.00 24.03 C +ATOM 3245 C TRP A 10 -19.044 -21.504 64.110 1.00 23.60 C +ATOM 3246 O TRP A 10 -20.065 -21.057 64.651 1.00 23.84 O +ATOM 3247 CB TRP A 10 -19.125 -20.860 61.709 1.00 24.61 C +ATOM 3248 CG TRP A 10 -18.848 -21.209 60.279 1.00 24.61 C +ATOM 3249 CD1 TRP A 10 -18.619 -22.451 59.767 1.00 24.97 C +ATOM 3250 CD2 TRP A 10 -18.803 -20.301 59.169 1.00 27.42 C +ATOM 3251 NE1 TRP A 10 -18.426 -22.374 58.407 1.00 26.70 N +ATOM 3252 CE2 TRP A 10 -18.535 -21.065 58.015 1.00 27.92 C +ATOM 3253 CE3 TRP A 10 -18.963 -18.915 59.040 1.00 28.43 C +ATOM 3254 CZ2 TRP A 10 -18.423 -20.492 56.745 1.00 30.06 C +ATOM 3255 CZ3 TRP A 10 -18.850 -18.347 57.779 1.00 29.83 C +ATOM 3256 CH2 TRP A 10 -18.582 -19.137 56.648 1.00 31.03 C +ATOM 3257 N ILE A 11 -17.853 -21.547 64.707 1.00 24.01 N +ATOM 3258 CA ILE A 11 -17.593 -20.983 66.027 1.00 24.01 C +ATOM 3259 C ILE A 11 -16.154 -20.476 66.015 1.00 30.75 C +ATOM 3260 O ILE A 11 -15.327 -20.931 65.217 1.00 24.83 O +ATOM 3261 CB ILE A 11 -17.857 -22.030 67.142 1.00 27.30 C +ATOM 3262 CG1 ILE A 11 -17.744 -21.413 68.540 1.00 23.93 C +ATOM 3263 CG2 ILE A 11 -16.932 -23.238 67.000 1.00 28.52 C +ATOM 3264 CD1 ILE A 11 -18.214 -22.343 69.654 1.00 23.84 C +ATOM 3265 N ASN A 12 -15.867 -19.480 66.851 1.00 29.00 N +ATOM 3266 CA ASN A 12 -14.539 -18.871 66.815 1.00 25.83 C +ATOM 3267 C ASN A 12 -13.455 -19.847 67.268 1.00 25.33 C +ATOM 3268 O ASN A 12 -13.682 -20.725 68.102 1.00 30.89 O +ATOM 3269 CB ASN A 12 -14.497 -17.618 67.681 1.00 27.49 C +ATOM 3270 CG ASN A 12 -13.330 -16.706 67.316 1.00 36.25 C +ATOM 3271 OD1 ASN A 12 -13.001 -16.539 66.142 1.00 41.09 O +ATOM 3272 ND2 ASN A 12 -12.691 -16.133 68.324 1.00 37.53 N +ATOM 3273 N GLY A 13 -12.249 -19.661 66.727 1.00 25.77 N +ATOM 3274 CA GLY A 13 -11.152 -20.583 66.980 1.00 28.75 C +ATOM 3275 C GLY A 13 -10.658 -20.600 68.417 1.00 31.09 C +ATOM 3276 O GLY A 13 -9.937 -21.528 68.803 1.00 30.81 O +ATOM 3277 N ASP A 14 -11.006 -19.596 69.216 1.00 29.58 N +ATOM 3278 CA ASP A 14 -10.574 -19.607 70.608 1.00 32.73 C +ATOM 3279 C ASP A 14 -11.572 -20.300 71.543 1.00 30.87 C +ATOM 3280 O ASP A 14 -11.296 -20.401 72.743 1.00 34.72 O +ATOM 3281 CB ASP A 14 -10.268 -18.172 71.093 1.00 36.66 C +ATOM 3282 CG ASP A 14 -11.461 -17.220 70.984 1.00 38.79 C +ATOM 3283 OD1 ASP A 14 -12.570 -17.666 70.621 1.00 40.07 O +ATOM 3284 OD2 ASP A 14 -11.282 -16.011 71.259 1.00 37.06 O +ATOM 3285 N LYS A 15 -12.693 -20.811 71.024 1.00 27.99 N +ATOM 3286 CA LYS A 15 -13.701 -21.507 71.820 1.00 31.23 C +ATOM 3287 C LYS A 15 -13.482 -23.020 71.756 1.00 31.34 C +ATOM 3288 O LYS A 15 -12.609 -23.519 71.046 1.00 25.81 O +ATOM 3289 CB LYS A 15 -15.117 -21.160 71.352 1.00 26.49 C +ATOM 3290 CG LYS A 15 -15.439 -19.677 71.342 1.00 29.78 C +ATOM 3291 CD LYS A 15 -15.359 -19.071 72.719 1.00 31.78 C +ATOM 3292 CE LYS A 15 -15.987 -17.684 72.726 1.00 31.88 C +ATOM 3293 NZ LYS A 15 -15.237 -16.687 71.930 1.00 36.49 N +ATOM 3294 N GLY A 16 -14.299 -23.758 72.511 1.00 26.06 N +ATOM 3295 CA GLY A 16 -14.159 -25.202 72.581 1.00 28.89 C +ATOM 3296 C GLY A 16 -14.790 -25.946 71.422 1.00 29.28 C +ATOM 3297 O GLY A 16 -15.774 -26.673 71.612 1.00 33.11 O +ATOM 3298 N TYR A 17 -14.214 -25.805 70.227 1.00 26.69 N +ATOM 3299 CA TYR A 17 -14.844 -26.378 69.036 1.00 30.35 C +ATOM 3300 C TYR A 17 -14.711 -27.897 68.993 1.00 32.60 C +ATOM 3301 O TYR A 17 -15.580 -28.572 68.430 1.00 34.58 O +ATOM 3302 CB TYR A 17 -14.274 -25.749 67.759 1.00 28.20 C +ATOM 3303 CG TYR A 17 -12.761 -25.783 67.591 1.00 30.70 C +ATOM 3304 CD1 TYR A 17 -11.994 -24.658 67.870 1.00 31.62 C +ATOM 3305 CD2 TYR A 17 -12.107 -26.924 67.124 1.00 27.88 C +ATOM 3306 CE1 TYR A 17 -10.630 -24.666 67.719 1.00 32.48 C +ATOM 3307 CE2 TYR A 17 -10.734 -26.942 66.974 1.00 30.08 C +ATOM 3308 CZ TYR A 17 -10.002 -25.801 67.275 1.00 33.85 C +ATOM 3309 OH TYR A 17 -8.638 -25.770 67.130 1.00 41.45 O +ATOM 3310 N ASN A 18 -13.656 -28.453 69.590 1.00 29.37 N +ATOM 3311 CA ASN A 18 -13.541 -29.907 69.671 1.00 32.06 C +ATOM 3312 C ASN A 18 -14.574 -30.495 70.624 1.00 31.16 C +ATOM 3313 O ASN A 18 -15.126 -31.571 70.363 1.00 29.47 O +ATOM 3314 CB ASN A 18 -12.130 -30.303 70.104 1.00 32.90 C +ATOM 3315 CG ASN A 18 -11.123 -30.135 68.992 1.00 35.84 C +ATOM 3316 OD1 ASN A 18 -11.413 -30.439 67.837 1.00 39.19 O +ATOM 3317 ND2 ASN A 18 -9.943 -29.629 69.325 1.00 36.27 N +ATOM 3318 N GLY A 19 -14.837 -29.814 71.738 1.00 30.51 N +ATOM 3319 CA GLY A 19 -15.902 -30.252 72.624 1.00 32.65 C +ATOM 3320 C GLY A 19 -17.271 -30.155 71.978 1.00 31.45 C +ATOM 3321 O GLY A 19 -18.100 -31.056 72.128 1.00 31.07 O +ATOM 3322 N LEU A 20 -17.524 -29.068 71.242 1.00 28.83 N +ATOM 3323 CA LEU A 20 -18.776 -28.944 70.509 1.00 26.19 C +ATOM 3324 C LEU A 20 -18.925 -30.055 69.469 1.00 28.83 C +ATOM 3325 O LEU A 20 -20.037 -30.545 69.219 1.00 27.33 O +ATOM 3326 CB LEU A 20 -18.847 -27.565 69.850 1.00 26.11 C +ATOM 3327 CG LEU A 20 -20.089 -27.202 69.044 1.00 26.47 C +ATOM 3328 CD1 LEU A 20 -21.337 -27.311 69.916 1.00 25.42 C +ATOM 3329 CD2 LEU A 20 -19.949 -25.791 68.488 1.00 26.11 C +ATOM 3330 N ALA A 21 -17.816 -30.457 68.841 1.00 26.74 N +ATOM 3331 CA ALA A 21 -17.857 -31.552 67.879 1.00 27.52 C +ATOM 3332 C ALA A 21 -18.209 -32.876 68.552 1.00 28.17 C +ATOM 3333 O ALA A 21 -18.801 -33.756 67.915 1.00 27.41 O +ATOM 3334 CB ALA A 21 -16.513 -31.665 67.152 1.00 30.58 C +ATOM 3335 N GLU A 22 -17.863 -33.036 69.829 1.00 27.56 N +ATOM 3336 CA GLU A 22 -18.270 -34.242 70.538 1.00 32.43 C +ATOM 3337 C GLU A 22 -19.773 -34.256 70.776 1.00 33.97 C +ATOM 3338 O GLU A 22 -20.407 -35.313 70.658 1.00 37.75 O +ATOM 3339 CB GLU A 22 -17.501 -34.370 71.852 1.00 34.79 C +ATOM 3340 CG GLU A 22 -16.015 -34.585 71.627 1.00 42.92 C +ATOM 3341 CD GLU A 22 -15.710 -35.919 70.948 1.00 49.97 C +ATOM 3342 OE1 GLU A 22 -14.733 -35.984 70.178 1.00 53.02 O +ATOM 3343 OE2 GLU A 22 -16.464 -36.894 71.154 1.00 52.85 O +ATOM 3344 N VAL A 23 -20.371 -33.087 71.034 1.00 29.77 N +ATOM 3345 CA VAL A 23 -21.831 -33.022 71.084 1.00 27.80 C +ATOM 3346 C VAL A 23 -22.405 -33.370 69.725 1.00 28.52 C +ATOM 3347 O VAL A 23 -23.416 -34.073 69.633 1.00 30.87 O +ATOM 3348 CB VAL A 23 -22.305 -31.631 71.543 1.00 23.60 C +ATOM 3349 CG1 VAL A 23 -23.832 -31.563 71.557 1.00 23.40 C +ATOM 3350 CG2 VAL A 23 -21.768 -31.319 72.945 1.00 23.71 C +ATOM 3351 N GLY A 24 -21.723 -32.973 68.650 1.00 27.00 N +ATOM 3352 CA GLY A 24 -22.217 -33.278 67.318 1.00 25.67 C +ATOM 3353 C GLY A 24 -22.082 -34.742 66.958 1.00 29.87 C +ATOM 3354 O GLY A 24 -22.862 -35.259 66.153 1.00 27.78 O +ATOM 3355 N LYS A 25 -21.102 -35.436 67.545 1.00 34.97 N +ATOM 3356 CA LYS A 25 -20.993 -36.868 67.290 1.00 36.75 C +ATOM 3357 C LYS A 25 -22.108 -37.635 67.989 1.00 38.40 C +ATOM 3358 O LYS A 25 -22.657 -38.590 67.429 1.00 37.82 O +ATOM 3359 CB LYS A 25 -19.621 -37.379 67.730 1.00 34.84 C +ATOM 3360 CG LYS A 25 -18.484 -36.914 66.835 1.00 39.47 C +ATOM 3361 CD LYS A 25 -17.157 -37.469 67.320 1.00 47.78 C +ATOM 3362 CE LYS A 25 -16.004 -36.988 66.451 1.00 54.35 C +ATOM 3363 NZ LYS A 25 -14.694 -37.309 67.096 1.00 59.33 N +ATOM 3364 N LYS A 26 -22.491 -37.195 69.189 1.00 40.34 N +ATOM 3365 CA LYS A 26 -23.634 -37.789 69.878 1.00 41.31 C +ATOM 3366 C LYS A 26 -24.928 -37.555 69.101 1.00 41.49 C +ATOM 3367 O LYS A 26 -25.770 -38.455 69.000 1.00 41.58 O +ATOM 3368 CB LYS A 26 -23.719 -37.228 71.299 1.00 43.46 C +ATOM 3369 CG LYS A 26 -24.908 -37.702 72.110 1.00 48.34 C +ATOM 3370 CD LYS A 26 -24.804 -37.207 73.539 1.00 53.36 C +ATOM 3371 CE LYS A 26 -26.019 -37.607 74.358 1.00 57.90 C +ATOM 3372 NZ LYS A 26 -26.159 -39.085 74.434 1.00 61.03 N +ATOM 3373 N PHE A 27 -25.092 -36.355 68.534 1.00 38.88 N +ATOM 3374 CA PHE A 27 -26.234 -36.069 67.675 1.00 35.82 C +ATOM 3375 C PHE A 27 -26.276 -37.016 66.485 1.00 35.56 C +ATOM 3376 O PHE A 27 -27.358 -37.462 66.072 1.00 31.74 O +ATOM 3377 CB PHE A 27 -26.160 -34.616 67.189 1.00 33.73 C +ATOM 3378 CG PHE A 27 -27.388 -34.135 66.449 1.00 31.71 C +ATOM 3379 CD1 PHE A 27 -28.556 -33.824 67.132 1.00 30.14 C +ATOM 3380 CD2 PHE A 27 -27.358 -33.959 65.068 1.00 30.80 C +ATOM 3381 CE1 PHE A 27 -29.672 -33.356 66.462 1.00 27.06 C +ATOM 3382 CE2 PHE A 27 -28.479 -33.494 64.377 1.00 30.17 C +ATOM 3383 CZ PHE A 27 -29.637 -33.192 65.075 1.00 29.63 C +ATOM 3384 N GLU A 28 -25.104 -37.319 65.913 1.00 33.93 N +ATOM 3385 CA GLU A 28 -25.029 -38.203 64.753 1.00 37.45 C +ATOM 3386 C GLU A 28 -25.324 -39.651 65.118 1.00 39.15 C +ATOM 3387 O GLU A 28 -25.897 -40.389 64.309 1.00 41.62 O +ATOM 3388 CB GLU A 28 -23.644 -38.109 64.109 1.00 40.65 C +ATOM 3389 CG GLU A 28 -23.496 -38.917 62.820 1.00 42.70 C +ATOM 3390 CD GLU A 28 -22.055 -38.956 62.300 1.00 45.96 C +ATOM 3391 OE1 GLU A 28 -21.185 -38.246 62.853 1.00 43.88 O +ATOM 3392 OE2 GLU A 28 -21.798 -39.705 61.329 1.00 48.61 O +ATOM 3393 N LYS A 29 -24.918 -40.082 66.312 1.00 40.04 N +ATOM 3394 CA LYS A 29 -25.168 -41.456 66.723 1.00 44.27 C +ATOM 3395 C LYS A 29 -26.657 -41.695 66.942 1.00 46.57 C +ATOM 3396 O LYS A 29 -27.175 -42.765 66.601 1.00 47.03 O +ATOM 3397 CB LYS A 29 -24.363 -41.772 67.983 1.00 46.60 C +ATOM 3398 CG LYS A 29 -24.400 -43.227 68.420 1.00 50.42 C +ATOM 3399 CD LYS A 29 -23.650 -43.405 69.738 1.00 53.71 C +ATOM 3400 CE LYS A 29 -23.562 -44.868 70.161 1.00 53.40 C +ATOM 3401 NZ LYS A 29 -22.655 -45.691 69.301 1.00 50.63 N +ATOM 3402 N ASP A 30 -27.363 -40.695 67.486 1.00 44.39 N +ATOM 3403 CA ASP A 30 -28.782 -40.833 67.797 1.00 40.70 C +ATOM 3404 C ASP A 30 -29.659 -40.634 66.568 1.00 43.05 C +ATOM 3405 O ASP A 30 -30.670 -41.326 66.409 1.00 46.51 O +ATOM 3406 CB ASP A 30 -29.183 -39.830 68.876 1.00 41.72 C +ATOM 3407 CG ASP A 30 -28.575 -40.142 70.223 1.00 45.23 C +ATOM 3408 OD1 ASP A 30 -27.948 -41.209 70.380 1.00 48.00 O +ATOM 3409 OD2 ASP A 30 -28.717 -39.305 71.133 1.00 49.38 O +ATOM 3410 N THR A 31 -29.292 -39.706 65.683 1.00 40.84 N +ATOM 3411 CA THR A 31 -30.165 -39.322 64.584 1.00 41.19 C +ATOM 3412 C THR A 31 -29.649 -39.713 63.212 1.00 42.19 C +ATOM 3413 O THR A 31 -30.424 -39.673 62.254 1.00 42.97 O +ATOM 3414 CB THR A 31 -30.396 -37.802 64.573 1.00 42.74 C +ATOM 3415 OG1 THR A 31 -29.187 -37.141 64.169 1.00 46.01 O +ATOM 3416 CG2 THR A 31 -30.821 -37.292 65.944 1.00 40.62 C +ATOM 3417 N GLY A 32 -28.370 -40.059 63.084 1.00 44.36 N +ATOM 3418 CA GLY A 32 -27.786 -40.312 61.785 1.00 41.88 C +ATOM 3419 C GLY A 32 -27.373 -39.071 61.019 1.00 41.25 C +ATOM 3420 O GLY A 32 -26.940 -39.193 59.867 1.00 39.93 O +ATOM 3421 N ILE A 33 -27.516 -37.884 61.604 1.00 39.40 N +ATOM 3422 CA ILE A 33 -27.209 -36.626 60.933 1.00 39.18 C +ATOM 3423 C ILE A 33 -25.819 -36.154 61.345 1.00 36.82 C +ATOM 3424 O ILE A 33 -25.562 -35.921 62.534 1.00 35.60 O +ATOM 3425 CB ILE A 33 -28.268 -35.569 61.253 1.00 41.62 C +ATOM 3426 CG1 ILE A 33 -29.572 -35.961 60.567 1.00 44.42 C +ATOM 3427 CG2 ILE A 33 -27.792 -34.192 60.808 1.00 40.19 C +ATOM 3428 CD1 ILE A 33 -30.769 -35.640 61.387 1.00 47.57 C +ATOM 3429 N LYS A 34 -24.936 -35.976 60.361 1.00 35.00 N +ATOM 3430 CA LYS A 34 -23.570 -35.551 60.635 1.00 38.51 C +ATOM 3431 C LYS A 34 -23.499 -34.050 60.903 1.00 36.79 C +ATOM 3432 O LYS A 34 -24.134 -33.246 60.212 1.00 33.60 O +ATOM 3433 CB LYS A 34 -22.649 -35.916 59.469 1.00 45.74 C +ATOM 3434 CG LYS A 34 -22.626 -37.409 59.144 1.00 51.28 C +ATOM 3435 CD LYS A 34 -21.613 -37.744 58.057 1.00 53.09 C +ATOM 3436 CE LYS A 34 -21.518 -39.249 57.845 1.00 53.84 C +ATOM 3437 NZ LYS A 34 -20.574 -39.898 58.803 1.00 56.68 N +ATOM 3438 N VAL A 35 -22.722 -33.686 61.924 1.00 37.33 N +ATOM 3439 CA VAL A 35 -22.477 -32.298 62.312 1.00 32.55 C +ATOM 3440 C VAL A 35 -20.997 -32.001 62.074 1.00 33.81 C +ATOM 3441 O VAL A 35 -20.128 -32.666 62.649 1.00 33.89 O +ATOM 3442 CB VAL A 35 -22.847 -32.049 63.784 1.00 30.15 C +ATOM 3443 CG1 VAL A 35 -22.522 -30.616 64.175 1.00 27.32 C +ATOM 3444 CG2 VAL A 35 -24.332 -32.363 64.053 1.00 27.31 C +ATOM 3445 N THR A 36 -20.707 -30.996 61.249 1.00 30.52 N +ATOM 3446 CA THR A 36 -19.339 -30.572 60.952 1.00 29.66 C +ATOM 3447 C THR A 36 -19.104 -29.201 61.580 1.00 28.76 C +ATOM 3448 O THR A 36 -19.810 -28.241 61.251 1.00 28.99 O +ATOM 3449 CB THR A 36 -19.101 -30.530 59.438 1.00 32.25 C +ATOM 3450 OG1 THR A 36 -19.215 -31.852 58.906 1.00 35.16 O +ATOM 3451 CG2 THR A 36 -17.724 -29.969 59.102 1.00 31.37 C +ATOM 3452 N VAL A 37 -18.142 -29.119 62.510 1.00 28.85 N +ATOM 3453 CA VAL A 37 -17.799 -27.874 63.203 1.00 28.29 C +ATOM 3454 C VAL A 37 -16.543 -27.290 62.561 1.00 29.19 C +ATOM 3455 O VAL A 37 -15.526 -27.983 62.434 1.00 29.72 O +ATOM 3456 CB VAL A 37 -17.594 -28.114 64.713 1.00 30.51 C +ATOM 3457 CG1 VAL A 37 -17.226 -26.827 65.418 1.00 29.71 C +ATOM 3458 CG2 VAL A 37 -18.866 -28.676 65.349 1.00 24.43 C +ATOM 3459 N GLU A 38 -16.613 -26.023 62.132 1.00 26.98 N +ATOM 3460 CA GLU A 38 -15.474 -25.335 61.525 1.00 25.35 C +ATOM 3461 C GLU A 38 -15.222 -24.033 62.272 1.00 25.28 C +ATOM 3462 O GLU A 38 -16.111 -23.495 62.936 1.00 24.87 O +ATOM 3463 CB GLU A 38 -15.696 -25.030 60.024 1.00 30.65 C +ATOM 3464 CG GLU A 38 -16.145 -26.225 59.212 1.00 31.87 C +ATOM 3465 CD GLU A 38 -16.458 -25.890 57.766 1.00 35.62 C +ATOM 3466 OE1 GLU A 38 -16.818 -24.731 57.474 1.00 34.42 O +ATOM 3467 OE2 GLU A 38 -16.373 -26.807 56.922 1.00 36.91 O +ATOM 3468 N HIS A 39 -13.990 -23.530 62.183 1.00 25.69 N +ATOM 3469 CA HIS A 39 -13.619 -22.284 62.858 1.00 25.68 C +ATOM 3470 C HIS A 39 -12.816 -21.396 61.923 1.00 33.88 C +ATOM 3471 O HIS A 39 -11.617 -21.178 62.120 1.00 32.19 O +ATOM 3472 CB HIS A 39 -12.875 -22.581 64.166 1.00 25.93 C +ATOM 3473 CG HIS A 39 -11.782 -23.600 64.038 1.00 33.37 C +ATOM 3474 ND1 HIS A 39 -10.454 -23.255 63.921 1.00 33.25 N +ATOM 3475 CD2 HIS A 39 -11.819 -24.954 64.021 1.00 34.03 C +ATOM 3476 CE1 HIS A 39 -9.719 -24.350 63.835 1.00 34.34 C +ATOM 3477 NE2 HIS A 39 -10.524 -25.395 63.892 1.00 33.61 N +ATOM 3478 N PRO A 40 -13.457 -20.840 60.894 1.00 32.80 N +ATOM 3479 CA PRO A 40 -12.711 -20.017 59.934 1.00 31.10 C +ATOM 3480 C PRO A 40 -12.241 -18.714 60.562 1.00 31.28 C +ATOM 3481 O PRO A 40 -12.778 -18.243 61.563 1.00 30.37 O +ATOM 3482 CB PRO A 40 -13.714 -19.770 58.800 1.00 28.20 C +ATOM 3483 CG PRO A 40 -15.056 -19.969 59.411 1.00 28.61 C +ATOM 3484 CD PRO A 40 -14.880 -20.965 60.537 1.00 28.96 C +ATOM 3485 N ASP A 41 -11.177 -18.162 59.983 1.00 33.59 N +ATOM 3486 CA ASP A 41 -10.667 -16.876 60.434 1.00 36.15 C +ATOM 3487 C ASP A 41 -11.647 -15.771 60.057 1.00 30.80 C +ATOM 3488 O ASP A 41 -12.277 -15.818 59.000 1.00 29.66 O +ATOM 3489 CB ASP A 41 -9.288 -16.589 59.821 1.00 41.08 C +ATOM 3490 CG ASP A 41 -8.211 -17.577 60.280 1.00 50.38 C +ATOM 3491 OD1 ASP A 41 -7.520 -18.150 59.413 1.00 54.35 O +ATOM 3492 OD2 ASP A 41 -8.059 -17.790 61.505 1.00 53.98 O +ATOM 3493 N LYS A 42 -11.779 -14.785 60.940 1.00 31.93 N +ATOM 3494 CA BLYS A 42 -12.643 -13.634 60.695 0.57 35.60 C +ATOM 3495 C LYS A 42 -14.070 -14.069 60.361 1.00 33.69 C +ATOM 3496 O LYS A 42 -14.734 -13.481 59.503 1.00 32.35 O +ATOM 3497 CB BLYS A 42 -12.065 -12.750 59.583 0.57 37.42 C +ATOM 3498 CG BLYS A 42 -10.652 -12.240 59.872 0.57 39.45 C +ATOM 3499 CD BLYS A 42 -10.205 -11.186 58.875 0.57 40.02 C +ATOM 3500 CE BLYS A 42 -8.850 -10.597 59.261 0.57 42.63 C +ATOM 3501 NZ BLYS A 42 -8.484 -9.430 58.412 0.57 42.58 N +ATOM 3502 N LEU A 43 -14.549 -15.115 61.042 1.00 28.86 N +ATOM 3503 CA LEU A 43 -15.861 -15.654 60.692 1.00 31.63 C +ATOM 3504 C LEU A 43 -16.987 -14.648 60.917 1.00 24.31 C +ATOM 3505 O LEU A 43 -18.029 -14.754 60.265 1.00 24.32 O +ATOM 3506 CB LEU A 43 -16.136 -16.947 61.465 1.00 33.63 C +ATOM 3507 CG LEU A 43 -16.496 -16.895 62.952 1.00 35.62 C +ATOM 3508 CD1 LEU A 43 -17.995 -16.802 63.201 1.00 31.70 C +ATOM 3509 CD2 LEU A 43 -15.936 -18.113 63.643 1.00 38.12 C +ATOM 3510 N GLU A 44 -16.803 -13.673 61.808 1.00 23.83 N +ATOM 3511 CA GLU A 44 -17.839 -12.665 62.027 1.00 30.34 C +ATOM 3512 C GLU A 44 -17.920 -11.662 60.884 1.00 27.64 C +ATOM 3513 O GLU A 44 -18.924 -10.951 60.773 1.00 30.39 O +ATOM 3514 CB GLU A 44 -17.609 -11.932 63.355 1.00 30.09 C +ATOM 3515 CG GLU A 44 -16.644 -10.750 63.277 1.00 33.73 C +ATOM 3516 CD GLU A 44 -15.176 -11.158 63.333 1.00 35.60 C +ATOM 3517 OE1 GLU A 44 -14.865 -12.347 63.126 1.00 35.93 O +ATOM 3518 OE2 GLU A 44 -14.331 -10.278 63.588 1.00 35.97 O +ATOM 3519 N GLU A 45 -16.879 -11.576 60.049 1.00 28.33 N +ATOM 3520 CA GLU A 45 -16.939 -10.811 58.812 1.00 30.06 C +ATOM 3521 C GLU A 45 -17.301 -11.681 57.613 1.00 32.27 C +ATOM 3522 O GLU A 45 -17.933 -11.191 56.675 1.00 31.61 O +ATOM 3523 CB GLU A 45 -15.593 -10.127 58.548 1.00 37.60 C +ATOM 3524 CG GLU A 45 -15.178 -9.090 59.590 1.00 46.35 C +ATOM 3525 CD GLU A 45 -13.807 -8.483 59.284 1.00 54.51 C +ATOM 3526 OE1 GLU A 45 -13.158 -8.941 58.320 1.00 58.91 O +ATOM 3527 OE2 GLU A 45 -13.374 -7.557 60.003 1.00 57.98 O +ATOM 3528 N LYS A 46 -16.914 -12.961 57.626 1.00 31.22 N +ATOM 3529 CA LYS A 46 -17.238 -13.854 56.517 1.00 31.62 C +ATOM 3530 C LYS A 46 -18.714 -14.233 56.522 1.00 26.07 C +ATOM 3531 O LYS A 46 -19.333 -14.344 55.459 1.00 26.50 O +ATOM 3532 CB LYS A 46 -16.381 -15.127 56.576 1.00 33.84 C +ATOM 3533 CG LYS A 46 -14.931 -14.968 56.154 1.00 43.39 C +ATOM 3534 CD LYS A 46 -14.480 -16.163 55.316 1.00 50.20 C +ATOM 3535 CE LYS A 46 -12.969 -16.169 55.092 1.00 52.30 C +ATOM 3536 NZ LYS A 46 -12.217 -16.658 56.285 1.00 54.29 N +ATOM 3537 N PHE A 47 -19.298 -14.447 57.699 1.00 23.06 N +ATOM 3538 CA PHE A 47 -20.692 -14.891 57.728 1.00 29.03 C +ATOM 3539 C PHE A 47 -21.635 -13.954 56.987 1.00 24.44 C +ATOM 3540 O PHE A 47 -22.387 -14.442 56.131 1.00 28.81 O +ATOM 3541 CB PHE A 47 -21.191 -15.107 59.163 1.00 22.41 C +ATOM 3542 CG PHE A 47 -22.668 -15.453 59.229 1.00 21.92 C +ATOM 3543 CD1 PHE A 47 -23.101 -16.745 58.960 1.00 21.86 C +ATOM 3544 CD2 PHE A 47 -23.617 -14.477 59.501 1.00 21.53 C +ATOM 3545 CE1 PHE A 47 -24.455 -17.064 58.997 1.00 21.43 C +ATOM 3546 CE2 PHE A 47 -24.964 -14.794 59.546 1.00 21.10 C +ATOM 3547 CZ PHE A 47 -25.385 -16.087 59.281 1.00 21.04 C +ATOM 3548 N PRO A 48 -21.658 -12.638 57.239 1.00 24.77 N +ATOM 3549 CA PRO A 48 -22.603 -11.783 56.501 1.00 25.16 C +ATOM 3550 C PRO A 48 -22.361 -11.749 54.998 1.00 27.57 C +ATOM 3551 O PRO A 48 -23.308 -11.489 54.244 1.00 26.36 O +ATOM 3552 CB PRO A 48 -22.409 -10.399 57.142 1.00 25.07 C +ATOM 3553 CG PRO A 48 -21.053 -10.452 57.756 1.00 26.16 C +ATOM 3554 CD PRO A 48 -20.904 -11.862 58.242 1.00 25.13 C +ATOM 3555 N GLN A 49 -21.131 -12.019 54.544 1.00 27.88 N +ATOM 3556 CA GLN A 49 -20.816 -12.027 53.122 1.00 28.46 C +ATOM 3557 C GLN A 49 -21.334 -13.290 52.448 1.00 28.43 C +ATOM 3558 O GLN A 49 -21.958 -13.217 51.384 1.00 27.07 O +ATOM 3559 CB GLN A 49 -19.299 -11.904 52.918 1.00 32.10 C +ATOM 3560 CG GLN A 49 -18.697 -10.614 53.458 1.00 40.98 C +ATOM 3561 CD GLN A 49 -17.186 -10.550 53.292 1.00 52.91 C +ATOM 3562 OE1 GLN A 49 -16.513 -11.580 53.200 1.00 57.35 O +ATOM 3563 NE2 GLN A 49 -16.643 -9.335 53.269 1.00 54.92 N +ATOM 3564 N VAL A 50 -21.078 -14.460 53.042 1.00 22.46 N +ATOM 3565 CA VAL A 50 -21.523 -15.694 52.398 1.00 22.38 C +ATOM 3566 C VAL A 50 -23.009 -15.941 52.654 1.00 25.17 C +ATOM 3567 O VAL A 50 -23.717 -16.438 51.765 1.00 21.97 O +ATOM 3568 CB VAL A 50 -20.671 -16.902 52.842 1.00 23.44 C +ATOM 3569 CG1 VAL A 50 -19.222 -16.752 52.381 1.00 26.92 C +ATOM 3570 CG2 VAL A 50 -20.718 -17.077 54.354 1.00 29.21 C +ATOM 3571 N ALA A 51 -23.516 -15.578 53.837 1.00 23.33 N +ATOM 3572 CA ALA A 51 -24.925 -15.821 54.133 1.00 26.28 C +ATOM 3573 C ALA A 51 -25.840 -14.969 53.266 1.00 27.47 C +ATOM 3574 O ALA A 51 -26.929 -15.419 52.902 1.00 22.14 O +ATOM 3575 CB ALA A 51 -25.231 -15.553 55.607 1.00 22.51 C +ATOM 3576 N ALA A 52 -25.416 -13.753 52.913 1.00 20.83 N +ATOM 3577 CA ALA A 52 -26.266 -12.912 52.075 1.00 28.53 C +ATOM 3578 C ALA A 52 -26.551 -13.567 50.726 1.00 29.57 C +ATOM 3579 O ALA A 52 -27.637 -13.381 50.170 1.00 32.91 O +ATOM 3580 CB ALA A 52 -25.627 -11.541 51.873 1.00 30.26 C +ATOM 3581 N THR A 53 -25.606 -14.336 50.183 1.00 26.33 N +ATOM 3582 CA THR A 53 -25.833 -14.991 48.894 1.00 26.24 C +ATOM 3583 C THR A 53 -26.444 -16.388 49.031 1.00 24.76 C +ATOM 3584 O THR A 53 -26.585 -17.097 48.025 1.00 23.06 O +ATOM 3585 CB THR A 53 -24.536 -15.054 48.079 1.00 28.94 C +ATOM 3586 OG1 THR A 53 -23.556 -15.836 48.771 1.00 31.55 O +ATOM 3587 CG2 THR A 53 -23.989 -13.648 47.832 1.00 29.03 C +ATOM 3588 N GLY A 54 -26.848 -16.780 50.234 1.00 27.01 N +ATOM 3589 CA GLY A 54 -27.485 -18.063 50.460 1.00 26.17 C +ATOM 3590 C GLY A 54 -26.546 -19.196 50.798 1.00 29.72 C +ATOM 3591 O GLY A 54 -26.983 -20.355 50.797 1.00 32.63 O +ATOM 3592 N ASP A 55 -25.283 -18.900 51.114 1.00 28.22 N +ATOM 3593 CA ASP A 55 -24.267 -19.873 51.488 1.00 29.83 C +ATOM 3594 C ASP A 55 -23.996 -19.764 52.997 1.00 25.57 C +ATOM 3595 O ASP A 55 -24.714 -19.085 53.724 1.00 25.50 O +ATOM 3596 CB ASP A 55 -22.988 -19.632 50.679 1.00 34.09 C +ATOM 3597 CG ASP A 55 -23.244 -19.546 49.176 1.00 42.28 C +ATOM 3598 OD1 ASP A 55 -23.548 -20.591 48.558 1.00 45.52 O +ATOM 3599 OD2 ASP A 55 -23.136 -18.431 48.613 1.00 42.00 O +ATOM 3600 N GLY A 56 -22.925 -20.401 53.454 1.00 24.74 N +ATOM 3601 CA GLY A 56 -22.508 -20.295 54.838 1.00 25.34 C +ATOM 3602 C GLY A 56 -22.908 -21.484 55.691 1.00 24.06 C +ATOM 3603 O GLY A 56 -23.374 -22.507 55.193 1.00 24.37 O +ATOM 3604 N PRO A 57 -22.715 -21.377 56.998 1.00 22.39 N +ATOM 3605 CA PRO A 57 -23.082 -22.478 57.889 1.00 22.37 C +ATOM 3606 C PRO A 57 -24.577 -22.465 58.195 1.00 27.44 C +ATOM 3607 O PRO A 57 -25.276 -21.473 57.986 1.00 21.52 O +ATOM 3608 CB PRO A 57 -22.271 -22.185 59.157 1.00 22.62 C +ATOM 3609 CG PRO A 57 -22.270 -20.686 59.204 1.00 22.47 C +ATOM 3610 CD PRO A 57 -22.206 -20.215 57.738 1.00 22.46 C +ATOM 3611 N ASP A 58 -25.059 -23.605 58.703 1.00 21.80 N +ATOM 3612 CA ASP A 58 -26.431 -23.683 59.207 1.00 21.36 C +ATOM 3613 C ASP A 58 -26.588 -22.902 60.511 1.00 26.91 C +ATOM 3614 O ASP A 58 -27.628 -22.272 60.750 1.00 23.58 O +ATOM 3615 CB ASP A 58 -26.822 -25.146 59.426 1.00 21.39 C +ATOM 3616 CG ASP A 58 -26.858 -25.937 58.133 1.00 31.81 C +ATOM 3617 OD1 ASP A 58 -25.852 -26.633 57.833 1.00 32.70 O +ATOM 3618 OD2 ASP A 58 -27.870 -25.828 57.414 1.00 25.55 O +ATOM 3619 N ILE A 59 -25.576 -22.967 61.370 1.00 26.54 N +ATOM 3620 CA ILE A 59 -25.563 -22.327 62.682 1.00 21.53 C +ATOM 3621 C ILE A 59 -24.274 -21.527 62.800 1.00 24.10 C +ATOM 3622 O ILE A 59 -23.204 -21.999 62.396 1.00 22.27 O +ATOM 3623 CB ILE A 59 -25.656 -23.362 63.829 1.00 21.61 C +ATOM 3624 CG1 ILE A 59 -26.948 -24.184 63.724 1.00 21.29 C +ATOM 3625 CG2 ILE A 59 -25.569 -22.681 65.213 1.00 21.58 C +ATOM 3626 CD1 ILE A 59 -26.959 -25.399 64.622 1.00 21.43 C +ATOM 3627 N ILE A 60 -24.371 -20.317 63.346 1.00 24.33 N +ATOM 3628 CA ILE A 60 -23.207 -19.480 63.607 1.00 22.03 C +ATOM 3629 C ILE A 60 -23.192 -19.117 65.087 1.00 22.00 C +ATOM 3630 O ILE A 60 -24.224 -18.714 65.649 1.00 23.04 O +ATOM 3631 CB ILE A 60 -23.192 -18.215 62.727 1.00 24.77 C +ATOM 3632 CG1 ILE A 60 -22.003 -17.344 63.133 1.00 32.98 C +ATOM 3633 CG2 ILE A 60 -24.523 -17.450 62.828 1.00 24.64 C +ATOM 3634 CD1 ILE A 60 -21.934 -16.033 62.460 1.00 38.40 C +ATOM 3635 N PHE A 61 -22.025 -19.273 65.710 1.00 22.38 N +ATOM 3636 CA PHE A 61 -21.786 -18.895 67.101 1.00 22.42 C +ATOM 3637 C PHE A 61 -20.973 -17.602 67.140 1.00 25.11 C +ATOM 3638 O PHE A 61 -19.919 -17.510 66.499 1.00 26.04 O +ATOM 3639 CB PHE A 61 -21.016 -19.996 67.839 1.00 22.75 C +ATOM 3640 CG PHE A 61 -21.850 -21.173 68.248 1.00 27.13 C +ATOM 3641 CD1 PHE A 61 -22.311 -22.083 67.305 1.00 22.53 C +ATOM 3642 CD2 PHE A 61 -22.147 -21.390 69.591 1.00 25.10 C +ATOM 3643 CE1 PHE A 61 -23.068 -23.177 67.690 1.00 22.40 C +ATOM 3644 CE2 PHE A 61 -22.917 -22.473 69.984 1.00 23.98 C +ATOM 3645 CZ PHE A 61 -23.372 -23.373 69.033 1.00 28.41 C +ATOM 3646 N TRP A 62 -21.454 -16.619 67.893 1.00 25.93 N +ATOM 3647 CA TRP A 62 -20.691 -15.409 68.179 1.00 22.49 C +ATOM 3648 C TRP A 62 -21.324 -14.726 69.384 1.00 25.19 C +ATOM 3649 O TRP A 62 -22.459 -15.024 69.769 1.00 21.89 O +ATOM 3650 CB TRP A 62 -20.649 -14.453 66.977 1.00 22.45 C +ATOM 3651 CG TRP A 62 -19.555 -13.425 67.098 1.00 23.84 C +ATOM 3652 CD1 TRP A 62 -19.675 -12.146 67.564 1.00 25.25 C +ATOM 3653 CD2 TRP A 62 -18.166 -13.602 66.768 1.00 23.23 C +ATOM 3654 NE1 TRP A 62 -18.444 -11.517 67.548 1.00 25.42 N +ATOM 3655 CE2 TRP A 62 -17.506 -12.388 67.061 1.00 26.00 C +ATOM 3656 CE3 TRP A 62 -17.421 -14.668 66.260 1.00 23.56 C +ATOM 3657 CZ2 TRP A 62 -16.130 -12.210 66.851 1.00 24.26 C +ATOM 3658 CZ3 TRP A 62 -16.052 -14.495 66.054 1.00 24.03 C +ATOM 3659 CH2 TRP A 62 -15.422 -13.272 66.346 1.00 24.17 C +ATOM 3660 N ALA A 63 -20.579 -13.797 69.980 1.00 24.24 N +ATOM 3661 CA ALA A 63 -21.172 -12.948 71.004 1.00 22.14 C +ATOM 3662 C ALA A 63 -22.358 -12.182 70.414 1.00 28.22 C +ATOM 3663 O ALA A 63 -22.426 -11.928 69.201 1.00 21.72 O +ATOM 3664 CB ALA A 63 -20.121 -11.989 71.582 1.00 23.61 C +ATOM 3665 N HIS A 64 -23.318 -11.835 71.280 1.00 21.43 N +ATOM 3666 CA HIS A 64 -24.617 -11.350 70.817 1.00 22.39 C +ATOM 3667 C HIS A 64 -24.553 -10.002 70.099 1.00 24.65 C +ATOM 3668 O HIS A 64 -25.538 -9.635 69.447 1.00 26.48 O +ATOM 3669 CB HIS A 64 -25.583 -11.247 71.995 1.00 23.11 C +ATOM 3670 CG HIS A 64 -25.281 -10.100 72.902 1.00 23.21 C +ATOM 3671 ND1 HIS A 64 -24.312 -10.167 73.881 1.00 24.27 N +ATOM 3672 CD2 HIS A 64 -25.796 -8.851 72.966 1.00 21.25 C +ATOM 3673 CE1 HIS A 64 -24.240 -9.007 74.509 1.00 21.38 C +ATOM 3674 NE2 HIS A 64 -25.135 -8.192 73.979 1.00 22.93 N +ATOM 3675 N ASP A 65 -23.441 -9.248 70.210 1.00 23.10 N +ATOM 3676 CA ASP A 65 -23.419 -7.867 69.715 1.00 23.58 C +ATOM 3677 C ASP A 65 -23.509 -7.765 68.197 1.00 23.43 C +ATOM 3678 O ASP A 65 -23.972 -6.738 67.692 1.00 24.89 O +ATOM 3679 CB ASP A 65 -22.157 -7.112 70.185 1.00 21.59 C +ATOM 3680 CG ASP A 65 -20.845 -7.752 69.709 1.00 23.80 C +ATOM 3681 OD1 ASP A 65 -20.576 -8.929 70.053 1.00 22.42 O +ATOM 3682 OD2 ASP A 65 -20.074 -7.075 68.986 1.00 23.79 O +ATOM 3683 N ARG A 66 -23.108 -8.800 67.464 1.00 22.11 N +ATOM 3684 CA ARG A 66 -23.127 -8.772 66.003 1.00 21.37 C +ATOM 3685 C ARG A 66 -24.450 -9.224 65.400 1.00 20.98 C +ATOM 3686 O ARG A 66 -24.643 -9.067 64.186 1.00 21.28 O +ATOM 3687 CB ARG A 66 -22.004 -9.655 65.428 1.00 23.51 C +ATOM 3688 CG ARG A 66 -20.610 -9.232 65.814 1.00 29.57 C +ATOM 3689 CD ARG A 66 -19.810 -8.782 64.629 1.00 33.63 C +ATOM 3690 NE ARG A 66 -18.640 -8.003 65.061 1.00 35.72 N +ATOM 3691 CZ ARG A 66 -17.961 -7.202 64.251 1.00 33.09 C +ATOM 3692 NH1 ARG A 66 -18.335 -7.092 62.975 1.00 36.39 N +ATOM 3693 NH2 ARG A 66 -16.929 -6.512 64.706 1.00 29.94 N +ATOM 3694 N PHE A 67 -25.354 -9.787 66.198 1.00 26.68 N +ATOM 3695 CA PHE A 67 -26.547 -10.423 65.646 1.00 26.12 C +ATOM 3696 C PHE A 67 -27.608 -9.426 65.197 1.00 20.03 C +ATOM 3697 O PHE A 67 -28.391 -9.745 64.297 1.00 19.80 O +ATOM 3698 CB PHE A 67 -27.120 -11.411 66.665 1.00 26.96 C +ATOM 3699 CG PHE A 67 -26.398 -12.735 66.678 1.00 31.29 C +ATOM 3700 CD1 PHE A 67 -25.168 -12.860 67.288 1.00 35.40 C +ATOM 3701 CD2 PHE A 67 -26.937 -13.846 66.046 1.00 34.09 C +ATOM 3702 CE1 PHE A 67 -24.483 -14.074 67.278 1.00 37.38 C +ATOM 3703 CE2 PHE A 67 -26.267 -15.058 66.040 1.00 33.28 C +ATOM 3704 CZ PHE A 67 -25.040 -15.171 66.659 1.00 33.04 C +ATOM 3705 N GLY A 68 -27.619 -8.212 65.744 1.00 20.63 N +ATOM 3706 CA GLY A 68 -28.569 -7.222 65.262 1.00 19.67 C +ATOM 3707 C GLY A 68 -28.317 -6.838 63.812 1.00 22.13 C +ATOM 3708 O GLY A 68 -29.254 -6.743 63.014 1.00 21.38 O +ATOM 3709 N GLY A 69 -27.045 -6.639 63.444 1.00 26.11 N +ATOM 3710 CA GLY A 69 -26.725 -6.365 62.051 1.00 20.15 C +ATOM 3711 C GLY A 69 -27.069 -7.525 61.132 1.00 23.16 C +ATOM 3712 O GLY A 69 -27.535 -7.323 60.009 1.00 25.03 O +ATOM 3713 N TYR A 70 -26.797 -8.753 61.577 1.00 20.20 N +ATOM 3714 CA TYR A 70 -27.206 -9.930 60.811 1.00 25.98 C +ATOM 3715 C TYR A 70 -28.720 -9.983 60.662 1.00 24.69 C +ATOM 3716 O TYR A 70 -29.236 -10.301 59.584 1.00 25.23 O +ATOM 3717 CB TYR A 70 -26.718 -11.211 61.489 1.00 25.44 C +ATOM 3718 CG TYR A 70 -25.224 -11.353 61.693 1.00 24.03 C +ATOM 3719 CD1 TYR A 70 -24.307 -10.616 60.945 1.00 21.08 C +ATOM 3720 CD2 TYR A 70 -24.734 -12.249 62.637 1.00 21.03 C +ATOM 3721 CE1 TYR A 70 -22.933 -10.769 61.147 1.00 23.84 C +ATOM 3722 CE2 TYR A 70 -23.385 -12.417 62.829 1.00 29.71 C +ATOM 3723 CZ TYR A 70 -22.484 -11.675 62.091 1.00 21.74 C +ATOM 3724 OH TYR A 70 -21.139 -11.861 62.319 1.00 24.83 O +ATOM 3725 N ALA A 71 -29.450 -9.676 61.732 1.00 19.43 N +ATOM 3726 CA ALA A 71 -30.912 -9.724 61.678 1.00 22.26 C +ATOM 3727 C ALA A 71 -31.475 -8.649 60.750 1.00 23.62 C +ATOM 3728 O ALA A 71 -32.391 -8.920 59.967 1.00 22.45 O +ATOM 3729 CB ALA A 71 -31.492 -9.563 63.079 1.00 18.86 C +ATOM 3730 N GLN A 72 -30.934 -7.429 60.822 1.00 24.51 N +ATOM 3731 CA GLN A 72 -31.398 -6.342 59.967 1.00 23.37 C +ATOM 3732 C GLN A 72 -31.165 -6.643 58.490 1.00 25.35 C +ATOM 3733 O GLN A 72 -31.939 -6.193 57.642 1.00 21.28 O +ATOM 3734 CB GLN A 72 -30.699 -5.029 60.336 1.00 21.86 C +ATOM 3735 CG GLN A 72 -31.220 -3.822 59.557 1.00 25.70 C +ATOM 3736 CD GLN A 72 -30.453 -2.527 59.845 1.00 27.21 C +ATOM 3737 OE1 GLN A 72 -29.246 -2.428 59.600 1.00 32.45 O +ATOM 3738 NE2 GLN A 72 -31.162 -1.528 60.350 1.00 21.30 N +ATOM 3739 N SER A 73 -30.080 -7.355 58.161 1.00 23.95 N +ATOM 3740 CA SER A 73 -29.777 -7.753 56.788 1.00 24.62 C +ATOM 3741 C SER A 73 -30.560 -8.979 56.332 1.00 25.96 C +ATOM 3742 O SER A 73 -30.353 -9.435 55.199 1.00 30.17 O +ATOM 3743 CB SER A 73 -28.273 -8.027 56.619 1.00 26.07 C +ATOM 3744 OG SER A 73 -27.477 -6.892 56.938 1.00 26.72 O +ATOM 3745 N GLY A 74 -31.441 -9.516 57.174 1.00 25.92 N +ATOM 3746 CA GLY A 74 -32.260 -10.668 56.828 1.00 26.56 C +ATOM 3747 C GLY A 74 -31.541 -11.996 56.834 1.00 27.07 C +ATOM 3748 O GLY A 74 -32.008 -12.948 56.189 1.00 27.24 O +ATOM 3749 N LEU A 75 -30.436 -12.107 57.564 1.00 22.41 N +ATOM 3750 CA LEU A 75 -29.593 -13.290 57.472 1.00 22.21 C +ATOM 3751 C LEU A 75 -29.934 -14.367 58.489 1.00 27.21 C +ATOM 3752 O LEU A 75 -29.392 -15.475 58.385 1.00 28.77 O +ATOM 3753 CB LEU A 75 -28.117 -12.893 57.617 1.00 21.74 C +ATOM 3754 CG LEU A 75 -27.609 -11.769 56.715 1.00 25.79 C +ATOM 3755 CD1 LEU A 75 -26.142 -11.510 56.985 1.00 27.94 C +ATOM 3756 CD2 LEU A 75 -27.810 -12.106 55.225 1.00 24.14 C +ATOM 3757 N LEU A 76 -30.836 -14.096 59.436 1.00 25.47 N +ATOM 3758 CA LEU A 76 -31.102 -15.010 60.538 1.00 24.79 C +ATOM 3759 C LEU A 76 -32.569 -15.409 60.575 1.00 27.16 C +ATOM 3760 O LEU A 76 -33.460 -14.581 60.350 1.00 28.09 O +ATOM 3761 CB LEU A 76 -30.720 -14.378 61.890 1.00 21.79 C +ATOM 3762 CG LEU A 76 -29.293 -13.892 62.071 1.00 22.80 C +ATOM 3763 CD1 LEU A 76 -29.152 -13.219 63.457 1.00 22.98 C +ATOM 3764 CD2 LEU A 76 -28.298 -15.047 61.915 1.00 24.14 C +ATOM 3765 N ALA A 77 -32.818 -16.668 60.910 1.00 25.07 N +ATOM 3766 CA ALA A 77 -34.181 -17.115 61.157 1.00 27.09 C +ATOM 3767 C ALA A 77 -34.635 -16.711 62.557 1.00 28.69 C +ATOM 3768 O ALA A 77 -33.858 -16.745 63.518 1.00 27.34 O +ATOM 3769 CB ALA A 77 -34.272 -18.631 60.994 1.00 29.36 C +ATOM 3770 N GLU A 78 -35.897 -16.295 62.674 1.00 30.44 N +ATOM 3771 CA GLU A 78 -36.480 -16.156 64.004 1.00 31.68 C +ATOM 3772 C GLU A 78 -36.529 -17.531 64.651 1.00 29.53 C +ATOM 3773 O GLU A 78 -36.952 -18.500 64.022 1.00 28.63 O +ATOM 3774 CB GLU A 78 -37.887 -15.550 63.926 1.00 32.67 C +ATOM 3775 CG GLU A 78 -38.510 -15.285 65.300 1.00 31.41 C +ATOM 3776 CD GLU A 78 -39.883 -14.626 65.230 1.00 35.98 C +ATOM 3777 OE1 GLU A 78 -40.398 -14.421 64.109 1.00 38.55 O +ATOM 3778 OE2 GLU A 78 -40.451 -14.308 66.300 1.00 36.72 O +ATOM 3779 N ILE A 79 -36.017 -17.649 65.878 1.00 18.22 N +ATOM 3780 CA ILE A 79 -36.037 -18.957 66.521 1.00 18.35 C +ATOM 3781 C ILE A 79 -37.387 -19.161 67.209 1.00 21.20 C +ATOM 3782 O ILE A 79 -38.093 -18.207 67.522 1.00 23.88 O +ATOM 3783 CB ILE A 79 -34.870 -19.127 67.498 1.00 22.67 C +ATOM 3784 CG1 ILE A 79 -34.939 -18.097 68.622 1.00 22.02 C +ATOM 3785 CG2 ILE A 79 -33.507 -19.026 66.735 1.00 23.96 C +ATOM 3786 CD1 ILE A 79 -34.154 -18.530 69.861 1.00 18.92 C +ATOM 3787 N THR A 80 -37.741 -20.422 67.465 1.00 21.23 N +ATOM 3788 CA THR A 80 -39.079 -20.768 67.963 1.00 26.05 C +ATOM 3789 C THR A 80 -39.054 -21.660 69.204 1.00 24.51 C +ATOM 3790 O THR A 80 -39.748 -22.684 69.251 1.00 24.54 O +ATOM 3791 CB THR A 80 -39.882 -21.458 66.857 1.00 28.34 C +ATOM 3792 OG1 THR A 80 -39.167 -22.627 66.428 1.00 29.03 O +ATOM 3793 CG2 THR A 80 -40.110 -20.530 65.674 1.00 32.87 C +ATOM 3794 N PRO A 81 -38.367 -21.258 70.272 1.00 26.06 N +ATOM 3795 CA PRO A 81 -38.450 -22.047 71.515 1.00 26.04 C +ATOM 3796 C PRO A 81 -39.819 -21.892 72.177 1.00 25.78 C +ATOM 3797 O PRO A 81 -40.393 -20.801 72.199 1.00 24.37 O +ATOM 3798 CB PRO A 81 -37.350 -21.438 72.393 1.00 18.52 C +ATOM 3799 CG PRO A 81 -37.315 -20.018 71.982 1.00 18.38 C +ATOM 3800 CD PRO A 81 -37.602 -20.012 70.467 1.00 22.86 C +ATOM 3801 N ASP A 82 -40.351 -22.991 72.706 1.00 25.38 N +ATOM 3802 CA ASP A 82 -41.632 -22.882 73.389 1.00 25.87 C +ATOM 3803 C ASP A 82 -41.403 -22.342 74.803 1.00 25.42 C +ATOM 3804 O ASP A 82 -40.269 -22.114 75.224 1.00 23.01 O +ATOM 3805 CB ASP A 82 -42.390 -24.214 73.346 1.00 26.16 C +ATOM 3806 CG ASP A 82 -41.700 -25.339 74.099 1.00 32.13 C +ATOM 3807 OD1 ASP A 82 -40.730 -25.103 74.850 1.00 34.40 O +ATOM 3808 OD2 ASP A 82 -42.130 -26.502 73.913 1.00 34.47 O +ATOM 3809 N LYS A 83 -42.501 -22.094 75.526 1.00 19.62 N +ATOM 3810 CA LYS A 83 -42.423 -21.459 76.838 1.00 25.19 C +ATOM 3811 C LYS A 83 -41.645 -22.301 77.834 1.00 23.03 C +ATOM 3812 O LYS A 83 -40.927 -21.762 78.683 1.00 25.77 O +ATOM 3813 CB LYS A 83 -43.836 -21.189 77.371 1.00 32.31 C +ATOM 3814 CG LYS A 83 -43.887 -20.554 78.748 1.00 36.83 C +ATOM 3815 CD LYS A 83 -45.341 -20.357 79.199 1.00 44.66 C +ATOM 3816 CE LYS A 83 -45.434 -19.697 80.567 1.00 49.73 C +ATOM 3817 NZ LYS A 83 -44.817 -20.546 81.623 1.00 54.44 N +ATOM 3818 N ALA A 84 -41.813 -23.618 77.790 1.00 21.85 N +ATOM 3819 CA ALA A 84 -41.055 -24.467 78.703 1.00 24.54 C +ATOM 3820 C ALA A 84 -39.556 -24.363 78.426 1.00 25.08 C +ATOM 3821 O ALA A 84 -38.750 -24.303 79.360 1.00 20.47 O +ATOM 3822 CB ALA A 84 -41.525 -25.917 78.600 1.00 26.06 C +ATOM 3823 N PHE A 85 -39.155 -24.285 77.156 1.00 19.75 N +ATOM 3824 CA PHE A 85 -37.715 -24.193 76.916 1.00 24.65 C +ATOM 3825 C PHE A 85 -37.176 -22.822 77.315 1.00 25.52 C +ATOM 3826 O PHE A 85 -36.093 -22.736 77.895 1.00 23.95 O +ATOM 3827 CB PHE A 85 -37.337 -24.497 75.460 1.00 25.47 C +ATOM 3828 CG PHE A 85 -35.841 -24.521 75.252 1.00 19.27 C +ATOM 3829 CD1 PHE A 85 -35.116 -25.676 75.506 1.00 22.36 C +ATOM 3830 CD2 PHE A 85 -35.152 -23.365 74.922 1.00 19.29 C +ATOM 3831 CE1 PHE A 85 -33.738 -25.689 75.375 1.00 21.86 C +ATOM 3832 CE2 PHE A 85 -33.778 -23.367 74.806 1.00 19.60 C +ATOM 3833 CZ PHE A 85 -33.073 -24.535 75.019 1.00 22.07 C +ATOM 3834 N GLN A 86 -37.920 -21.741 77.027 1.00 22.90 N +ATOM 3835 CA GLN A 86 -37.450 -20.415 77.406 1.00 23.36 C +ATOM 3836 C GLN A 86 -37.250 -20.316 78.915 1.00 23.95 C +ATOM 3837 O GLN A 86 -36.318 -19.648 79.377 1.00 24.47 O +ATOM 3838 CB GLN A 86 -38.431 -19.336 76.918 1.00 23.27 C +ATOM 3839 CG GLN A 86 -38.552 -19.212 75.368 1.00 22.54 C +ATOM 3840 CD GLN A 86 -39.606 -18.189 74.930 1.00 26.68 C +ATOM 3841 OE1 GLN A 86 -39.675 -17.090 75.470 1.00 25.15 O +ATOM 3842 NE2 GLN A 86 -40.459 -18.575 73.975 1.00 25.67 N +ATOM 3843 N ASP A 87 -38.079 -21.010 79.694 1.00 22.84 N +ATOM 3844 CA ASP A 87 -37.927 -21.047 81.150 1.00 27.74 C +ATOM 3845 C ASP A 87 -36.701 -21.817 81.612 1.00 26.50 C +ATOM 3846 O ASP A 87 -36.420 -21.809 82.815 1.00 28.86 O +ATOM 3847 CB ASP A 87 -39.166 -21.648 81.806 1.00 36.01 C +ATOM 3848 CG ASP A 87 -40.371 -20.755 81.679 1.00 48.26 C +ATOM 3849 OD1 ASP A 87 -40.177 -19.524 81.559 1.00 52.36 O +ATOM 3850 OD2 ASP A 87 -41.509 -21.272 81.718 1.00 55.43 O +ATOM 3851 N LYS A 88 -35.952 -22.453 80.716 1.00 26.01 N +ATOM 3852 CA LYS A 88 -34.736 -23.146 81.112 1.00 27.30 C +ATOM 3853 C LYS A 88 -33.501 -22.254 81.135 1.00 23.84 C +ATOM 3854 O LYS A 88 -32.488 -22.668 81.692 1.00 25.75 O +ATOM 3855 CB LYS A 88 -34.464 -24.343 80.188 1.00 31.59 C +ATOM 3856 CG LYS A 88 -35.431 -25.509 80.356 1.00 34.73 C +ATOM 3857 CD LYS A 88 -35.150 -26.594 79.342 1.00 40.56 C +ATOM 3858 CE LYS A 88 -35.822 -27.886 79.755 1.00 47.01 C +ATOM 3859 NZ LYS A 88 -37.312 -27.764 79.745 1.00 50.61 N +ATOM 3860 N LEU A 89 -33.556 -21.052 80.572 1.00 19.61 N +ATOM 3861 CA LEU A 89 -32.410 -20.147 80.559 1.00 19.78 C +ATOM 3862 C LEU A 89 -32.754 -18.887 81.342 1.00 24.31 C +ATOM 3863 O LEU A 89 -33.931 -18.535 81.488 1.00 22.79 O +ATOM 3864 CB LEU A 89 -32.005 -19.782 79.111 1.00 21.16 C +ATOM 3865 CG LEU A 89 -31.865 -20.924 78.083 1.00 24.26 C +ATOM 3866 CD1 LEU A 89 -31.346 -20.405 76.737 1.00 25.21 C +ATOM 3867 CD2 LEU A 89 -30.935 -22.009 78.583 1.00 24.52 C +ATOM 3868 N TYR A 90 -31.722 -18.185 81.835 1.00 24.35 N +ATOM 3869 CA TYR A 90 -31.974 -16.988 82.649 1.00 25.26 C +ATOM 3870 C TYR A 90 -32.639 -15.902 81.804 1.00 25.24 C +ATOM 3871 O TYR A 90 -32.241 -15.682 80.662 1.00 20.93 O +ATOM 3872 CB TYR A 90 -30.683 -16.422 83.234 1.00 23.29 C +ATOM 3873 CG TYR A 90 -29.870 -17.397 84.030 1.00 22.21 C +ATOM 3874 CD1 TYR A 90 -30.367 -17.948 85.196 1.00 22.43 C +ATOM 3875 CD2 TYR A 90 -28.598 -17.761 83.616 1.00 20.48 C +ATOM 3876 CE1 TYR A 90 -29.628 -18.840 85.932 1.00 25.52 C +ATOM 3877 CE2 TYR A 90 -27.848 -18.657 84.350 1.00 30.52 C +ATOM 3878 CZ TYR A 90 -28.372 -19.190 85.508 1.00 26.89 C +ATOM 3879 OH TYR A 90 -27.648 -20.092 86.243 1.00 29.17 O +ATOM 3880 N PRO A 91 -33.620 -15.177 82.354 1.00 25.15 N +ATOM 3881 CA PRO A 91 -34.322 -14.166 81.536 1.00 23.66 C +ATOM 3882 C PRO A 91 -33.423 -13.113 80.910 1.00 26.01 C +ATOM 3883 O PRO A 91 -33.664 -12.712 79.760 1.00 20.41 O +ATOM 3884 CB PRO A 91 -35.305 -13.541 82.531 1.00 20.30 C +ATOM 3885 CG PRO A 91 -35.548 -14.617 83.541 1.00 23.19 C +ATOM 3886 CD PRO A 91 -34.246 -15.355 83.678 1.00 26.95 C +ATOM 3887 N PHE A 92 -32.420 -12.613 81.633 1.00 19.29 N +ATOM 3888 CA PHE A 92 -31.569 -11.585 81.045 1.00 28.77 C +ATOM 3889 C PHE A 92 -30.770 -12.087 79.845 1.00 27.50 C +ATOM 3890 O PHE A 92 -30.411 -11.278 78.980 1.00 27.69 O +ATOM 3891 CB PHE A 92 -30.625 -10.994 82.108 1.00 23.41 C +ATOM 3892 CG PHE A 92 -29.374 -11.803 82.363 1.00 24.66 C +ATOM 3893 CD1 PHE A 92 -28.144 -11.418 81.816 1.00 22.78 C +ATOM 3894 CD2 PHE A 92 -29.408 -12.907 83.199 1.00 23.19 C +ATOM 3895 CE1 PHE A 92 -27.003 -12.152 82.050 1.00 21.42 C +ATOM 3896 CE2 PHE A 92 -28.256 -13.641 83.451 1.00 20.28 C +ATOM 3897 CZ PHE A 92 -27.053 -13.262 82.881 1.00 23.42 C +ATOM 3898 N THR A 93 -30.505 -13.390 79.740 1.00 19.70 N +ATOM 3899 CA THR A 93 -29.796 -13.857 78.549 1.00 22.29 C +ATOM 3900 C THR A 93 -30.707 -13.852 77.326 1.00 22.36 C +ATOM 3901 O THR A 93 -30.232 -13.632 76.211 1.00 20.94 O +ATOM 3902 CB THR A 93 -29.193 -15.250 78.768 1.00 24.02 C +ATOM 3903 OG1 THR A 93 -30.234 -16.238 78.869 1.00 23.87 O +ATOM 3904 CG2 THR A 93 -28.354 -15.264 80.032 1.00 20.32 C +ATOM 3905 N TRP A 94 -32.018 -14.060 77.518 1.00 23.48 N +ATOM 3906 CA TRP A 94 -32.965 -13.920 76.413 1.00 22.29 C +ATOM 3907 C TRP A 94 -33.108 -12.468 75.987 1.00 21.29 C +ATOM 3908 O TRP A 94 -33.371 -12.192 74.811 1.00 21.93 O +ATOM 3909 CB TRP A 94 -34.344 -14.466 76.800 1.00 26.32 C +ATOM 3910 CG TRP A 94 -34.461 -15.954 76.885 1.00 21.93 C +ATOM 3911 CD1 TRP A 94 -34.744 -16.684 78.010 1.00 23.53 C +ATOM 3912 CD2 TRP A 94 -34.319 -16.901 75.819 1.00 19.24 C +ATOM 3913 NE1 TRP A 94 -34.792 -18.024 77.711 1.00 21.71 N +ATOM 3914 CE2 TRP A 94 -34.548 -18.185 76.370 1.00 22.88 C +ATOM 3915 CE3 TRP A 94 -34.027 -16.794 74.457 1.00 20.01 C +ATOM 3916 CZ2 TRP A 94 -34.478 -19.352 75.606 1.00 22.83 C +ATOM 3917 CZ3 TRP A 94 -33.971 -17.961 73.690 1.00 21.02 C +ATOM 3918 CH2 TRP A 94 -34.191 -19.218 74.269 1.00 19.44 C +ATOM 3919 N ASP A 95 -33.012 -11.536 76.935 1.00 23.48 N +ATOM 3920 CA ASP A 95 -33.067 -10.123 76.586 1.00 22.46 C +ATOM 3921 C ASP A 95 -31.921 -9.754 75.651 1.00 27.25 C +ATOM 3922 O ASP A 95 -32.088 -8.897 74.774 1.00 23.79 O +ATOM 3923 CB ASP A 95 -33.029 -9.246 77.851 1.00 23.67 C +ATOM 3924 CG ASP A 95 -34.354 -9.230 78.641 1.00 28.50 C +ATOM 3925 OD1 ASP A 95 -35.384 -9.786 78.189 1.00 27.43 O +ATOM 3926 OD2 ASP A 95 -34.359 -8.638 79.747 1.00 28.47 O +ATOM 3927 N ALA A 96 -30.766 -10.419 75.786 1.00 19.41 N +ATOM 3928 CA ALA A 96 -29.610 -10.055 74.980 1.00 19.66 C +ATOM 3929 C ALA A 96 -29.766 -10.448 73.512 1.00 19.62 C +ATOM 3930 O ALA A 96 -29.088 -9.868 72.661 1.00 23.20 O +ATOM 3931 CB ALA A 96 -28.349 -10.681 75.556 1.00 20.04 C +ATOM 3932 N VAL A 97 -30.609 -11.431 73.207 1.00 24.07 N +ATOM 3933 CA VAL A 97 -30.796 -11.923 71.844 1.00 24.97 C +ATOM 3934 C VAL A 97 -32.157 -11.505 71.268 1.00 23.00 C +ATOM 3935 O VAL A 97 -32.672 -12.162 70.357 1.00 20.07 O +ATOM 3936 CB VAL A 97 -30.622 -13.449 71.773 1.00 24.54 C +ATOM 3937 CG1 VAL A 97 -29.188 -13.863 72.123 1.00 23.53 C +ATOM 3938 CG2 VAL A 97 -31.641 -14.133 72.668 1.00 22.15 C +ATOM 3939 N ARG A 98 -32.774 -10.453 71.805 1.00 21.81 N +ATOM 3940 CA ARG A 98 -33.981 -9.893 71.212 1.00 24.57 C +ATOM 3941 C ARG A 98 -33.592 -8.766 70.274 1.00 25.82 C +ATOM 3942 O ARG A 98 -32.758 -7.925 70.616 1.00 25.87 O +ATOM 3943 CB ARG A 98 -34.957 -9.365 72.265 1.00 25.24 C +ATOM 3944 CG ARG A 98 -35.618 -10.438 73.074 1.00 30.25 C +ATOM 3945 CD ARG A 98 -36.911 -9.955 73.685 1.00 35.43 C +ATOM 3946 NE ARG A 98 -37.604 -11.061 74.340 1.00 39.21 N +ATOM 3947 CZ ARG A 98 -38.489 -11.859 73.748 1.00 41.27 C +ATOM 3948 NH1 ARG A 98 -38.827 -11.674 72.471 1.00 40.88 N +ATOM 3949 NH2 ARG A 98 -39.044 -12.844 74.443 1.00 44.68 N +ATOM 3950 N TYR A 99 -34.183 -8.757 69.085 1.00 25.97 N +ATOM 3951 CA TYR A 99 -33.963 -7.660 68.156 1.00 23.32 C +ATOM 3952 C TYR A 99 -35.287 -7.314 67.495 1.00 23.17 C +ATOM 3953 O TYR A 99 -35.909 -8.174 66.854 1.00 20.24 O +ATOM 3954 CB TYR A 99 -32.903 -8.008 67.105 1.00 24.29 C +ATOM 3955 CG TYR A 99 -32.649 -6.845 66.182 1.00 27.92 C +ATOM 3956 CD1 TYR A 99 -31.948 -5.733 66.620 1.00 30.21 C +ATOM 3957 CD2 TYR A 99 -33.152 -6.834 64.885 1.00 30.80 C +ATOM 3958 CE1 TYR A 99 -31.726 -4.642 65.779 1.00 34.77 C +ATOM 3959 CE2 TYR A 99 -32.940 -5.751 64.042 1.00 31.91 C +ATOM 3960 CZ TYR A 99 -32.228 -4.661 64.496 1.00 35.14 C +ATOM 3961 OH TYR A 99 -32.015 -3.578 63.666 1.00 42.44 O +ATOM 3962 N ASN A 100 -35.694 -6.052 67.629 1.00 24.98 N +ATOM 3963 CA ASN A 100 -36.986 -5.591 67.132 1.00 28.48 C +ATOM 3964 C ASN A 100 -38.101 -6.469 67.696 1.00 28.95 C +ATOM 3965 O ASN A 100 -39.036 -6.861 66.997 1.00 29.81 O +ATOM 3966 CB ASN A 100 -37.004 -5.564 65.597 1.00 34.88 C +ATOM 3967 CG ASN A 100 -38.140 -4.715 65.042 1.00 40.18 C +ATOM 3968 OD1 ASN A 100 -38.573 -3.749 65.672 1.00 42.15 O +ATOM 3969 ND2 ASN A 100 -38.642 -5.088 63.864 1.00 38.69 N +ATOM 3970 N GLY A 101 -37.958 -6.832 68.972 1.00 29.35 N +ATOM 3971 CA GLY A 101 -38.936 -7.621 69.670 1.00 29.45 C +ATOM 3972 C GLY A 101 -38.793 -9.124 69.522 1.00 34.00 C +ATOM 3973 O GLY A 101 -39.365 -9.859 70.333 1.00 39.99 O +ATOM 3974 N LYS A 102 -38.028 -9.606 68.539 1.00 27.77 N +ATOM 3975 CA LYS A 102 -37.985 -11.025 68.205 1.00 26.53 C +ATOM 3976 C LYS A 102 -36.696 -11.673 68.699 1.00 25.39 C +ATOM 3977 O LYS A 102 -35.627 -11.059 68.681 1.00 21.46 O +ATOM 3978 CB LYS A 102 -38.074 -11.249 66.690 1.00 27.69 C +ATOM 3979 CG LYS A 102 -39.232 -10.584 65.953 1.00 32.76 C +ATOM 3980 CD LYS A 102 -39.099 -10.862 64.439 1.00 39.33 C +ATOM 3981 CE LYS A 102 -40.351 -10.480 63.659 1.00 47.22 C +ATOM 3982 NZ LYS A 102 -40.526 -9.002 63.568 1.00 53.20 N +ATOM 3983 N LEU A 103 -36.800 -12.951 69.071 1.00 25.26 N +ATOM 3984 CA LEU A 103 -35.634 -13.763 69.415 1.00 24.78 C +ATOM 3985 C LEU A 103 -34.924 -14.215 68.145 1.00 24.60 C +ATOM 3986 O LEU A 103 -35.517 -14.918 67.313 1.00 22.22 O +ATOM 3987 CB LEU A 103 -36.068 -14.971 70.244 1.00 23.06 C +ATOM 3988 CG LEU A 103 -36.771 -14.649 71.573 1.00 25.20 C +ATOM 3989 CD1 LEU A 103 -37.322 -15.920 72.210 1.00 22.62 C +ATOM 3990 CD2 LEU A 103 -35.826 -13.950 72.519 1.00 24.72 C +ATOM 3991 N ILE A 104 -33.654 -13.827 67.988 1.00 22.18 N +ATOM 3992 CA BILE A 104 -32.891 -14.129 66.779 0.58 22.90 C +ATOM 3993 C ILE A 104 -31.744 -15.086 67.038 1.00 23.44 C +ATOM 3994 O ILE A 104 -30.937 -15.323 66.133 1.00 21.96 O +ATOM 3995 CB BILE A 104 -32.360 -12.844 66.115 0.58 23.56 C +ATOM 3996 CG1BILE A 104 -31.374 -12.152 67.068 0.58 22.95 C +ATOM 3997 CG2BILE A 104 -33.521 -11.920 65.725 0.58 24.14 C +ATOM 3998 CD1BILE A 104 -30.729 -10.923 66.503 0.58 21.71 C +ATOM 3999 N ALA A 105 -31.625 -15.628 68.252 1.00 21.50 N +ATOM 4000 CA ALA A 105 -30.540 -16.571 68.533 1.00 21.91 C +ATOM 4001 C ALA A 105 -30.776 -17.212 69.898 1.00 22.37 C +ATOM 4002 O ALA A 105 -31.500 -16.674 70.738 1.00 22.28 O +ATOM 4003 CB ALA A 105 -29.157 -15.884 68.500 1.00 19.99 C +ATOM 4004 N TYR A 106 -30.112 -18.372 70.124 1.00 19.95 N +ATOM 4005 CA TYR A 106 -30.130 -19.046 71.425 1.00 22.03 C +ATOM 4006 C TYR A 106 -28.951 -18.569 72.273 1.00 23.69 C +ATOM 4007 O TYR A 106 -27.796 -18.666 71.831 1.00 20.62 O +ATOM 4008 CB TYR A 106 -30.049 -20.563 71.264 1.00 22.06 C +ATOM 4009 CG TYR A 106 -31.292 -21.214 70.691 1.00 22.18 C +ATOM 4010 CD1 TYR A 106 -31.433 -21.386 69.318 1.00 19.84 C +ATOM 4011 CD2 TYR A 106 -32.323 -21.651 71.521 1.00 22.58 C +ATOM 4012 CE1 TYR A 106 -32.547 -21.979 68.790 1.00 25.07 C +ATOM 4013 CE2 TYR A 106 -33.455 -22.248 70.997 1.00 24.04 C +ATOM 4014 CZ TYR A 106 -33.563 -22.403 69.620 1.00 26.88 C +ATOM 4015 OH TYR A 106 -34.681 -22.985 69.055 1.00 26.37 O +ATOM 4016 N PRO A 107 -29.186 -18.077 73.489 1.00 23.48 N +ATOM 4017 CA PRO A 107 -28.059 -17.725 74.356 1.00 21.99 C +ATOM 4018 C PRO A 107 -27.376 -18.986 74.843 1.00 26.24 C +ATOM 4019 O PRO A 107 -28.036 -19.993 75.113 1.00 24.09 O +ATOM 4020 CB PRO A 107 -28.710 -16.951 75.514 1.00 21.03 C +ATOM 4021 CG PRO A 107 -30.170 -16.920 75.246 1.00 19.93 C +ATOM 4022 CD PRO A 107 -30.480 -17.942 74.176 1.00 19.90 C +ATOM 4023 N ILE A 108 -26.042 -18.943 74.929 1.00 24.54 N +ATOM 4024 CA ILE A 108 -25.252 -20.086 75.385 1.00 21.45 C +ATOM 4025 C ILE A 108 -24.581 -19.807 76.741 1.00 21.60 C +ATOM 4026 O ILE A 108 -24.702 -20.601 77.677 1.00 21.64 O +ATOM 4027 CB ILE A 108 -24.208 -20.507 74.329 1.00 21.78 C +ATOM 4028 CG1 ILE A 108 -24.831 -20.668 72.921 1.00 21.62 C +ATOM 4029 CG2 ILE A 108 -23.463 -21.761 74.814 1.00 23.88 C +ATOM 4030 CD1 ILE A 108 -25.984 -21.687 72.839 1.00 21.39 C +ATOM 4031 N ALA A 109 -23.814 -18.719 76.838 1.00 22.60 N +ATOM 4032 CA ALA A 109 -23.014 -18.472 78.036 1.00 22.73 C +ATOM 4033 C ALA A 109 -22.708 -16.987 78.130 1.00 23.06 C +ATOM 4034 O ALA A 109 -22.716 -16.271 77.131 1.00 23.92 O +ATOM 4035 CB ALA A 109 -21.711 -19.286 78.027 1.00 22.33 C +ATOM 4036 N VAL A 110 -22.456 -16.527 79.348 1.00 23.12 N +ATOM 4037 CA VAL A 110 -22.144 -15.124 79.602 1.00 26.86 C +ATOM 4038 C VAL A 110 -20.640 -14.991 79.806 1.00 29.29 C +ATOM 4039 O VAL A 110 -20.035 -15.758 80.567 1.00 29.78 O +ATOM 4040 CB VAL A 110 -22.936 -14.588 80.802 1.00 26.14 C +ATOM 4041 CG1 VAL A 110 -22.601 -13.134 81.041 1.00 25.46 C +ATOM 4042 CG2 VAL A 110 -24.426 -14.774 80.547 1.00 28.44 C +ATOM 4043 N GLU A 111 -20.033 -14.037 79.106 1.00 28.67 N +ATOM 4044 CA GLU A 111 -18.589 -13.843 79.093 1.00 32.51 C +ATOM 4045 C GLU A 111 -18.231 -12.450 79.597 1.00 32.35 C +ATOM 4046 O GLU A 111 -18.869 -11.462 79.218 1.00 33.95 O +ATOM 4047 CB GLU A 111 -18.014 -14.012 77.665 1.00 35.58 C +ATOM 4048 CG GLU A 111 -18.344 -15.320 76.932 1.00 38.71 C +ATOM 4049 CD GLU A 111 -17.893 -15.298 75.463 1.00 39.55 C +ATOM 4050 OE1 GLU A 111 -17.572 -14.203 74.950 1.00 37.82 O +ATOM 4051 OE2 GLU A 111 -17.845 -16.378 74.829 1.00 36.33 O +ATOM 4052 N ALA A 112 -17.190 -12.368 80.425 1.00 29.63 N +ATOM 4053 CA ALA A 112 -16.597 -11.083 80.765 1.00 27.66 C +ATOM 4054 C ALA A 112 -15.103 -11.273 80.990 1.00 30.47 C +ATOM 4055 O ALA A 112 -14.653 -12.353 81.386 1.00 27.33 O +ATOM 4056 CB ALA A 112 -17.250 -10.456 81.996 1.00 26.81 C +ATOM 4057 N LEU A 113 -14.334 -10.218 80.719 1.00 23.80 N +ATOM 4058 CA LEU A 113 -12.899 -10.257 80.948 1.00 24.23 C +ATOM 4059 C LEU A 113 -12.618 -10.153 82.445 1.00 31.30 C +ATOM 4060 O LEU A 113 -13.345 -9.477 83.176 1.00 23.96 O +ATOM 4061 CB LEU A 113 -12.211 -9.120 80.195 1.00 30.34 C +ATOM 4062 CG LEU A 113 -12.215 -9.194 78.657 1.00 24.51 C +ATOM 4063 CD1 LEU A 113 -11.652 -7.920 78.079 1.00 28.62 C +ATOM 4064 CD2 LEU A 113 -11.392 -10.393 78.203 1.00 24.86 C +ATOM 4065 N SER A 114 -11.582 -10.859 82.902 1.00 27.97 N +ATOM 4066 CA SER A 114 -11.097 -10.766 84.274 1.00 27.34 C +ATOM 4067 C SER A 114 -9.591 -10.544 84.250 1.00 32.00 C +ATOM 4068 O SER A 114 -8.937 -10.688 83.217 1.00 26.93 O +ATOM 4069 CB SER A 114 -11.424 -12.025 85.093 1.00 25.37 C +ATOM 4070 OG SER A 114 -12.828 -12.198 85.285 1.00 27.86 O +ATOM 4071 N LEU A 115 -9.048 -10.169 85.405 1.00 31.44 N +ATOM 4072 CA LEU A 115 -7.608 -10.087 85.606 1.00 33.08 C +ATOM 4073 C LEU A 115 -7.091 -11.466 86.007 1.00 31.24 C +ATOM 4074 O LEU A 115 -7.618 -12.085 86.939 1.00 30.38 O +ATOM 4075 CB LEU A 115 -7.262 -9.053 86.677 1.00 33.95 C +ATOM 4076 CG LEU A 115 -5.781 -8.838 87.006 1.00 34.00 C +ATOM 4077 CD1 LEU A 115 -5.050 -8.127 85.893 1.00 32.01 C +ATOM 4078 CD2 LEU A 115 -5.629 -8.087 88.343 1.00 33.49 C +ATOM 4079 N ILE A 116 -6.105 -11.963 85.267 1.00 27.90 N +ATOM 4080 CA ILE A 116 -5.489 -13.258 85.518 1.00 29.79 C +ATOM 4081 C ILE A 116 -4.045 -12.999 85.928 1.00 32.62 C +ATOM 4082 O ILE A 116 -3.325 -12.264 85.245 1.00 31.88 O +ATOM 4083 CB ILE A 116 -5.574 -14.174 84.280 1.00 31.30 C +ATOM 4084 CG1 ILE A 116 -7.034 -14.349 83.847 1.00 30.26 C +ATOM 4085 CG2 ILE A 116 -4.924 -15.528 84.564 1.00 30.80 C +ATOM 4086 CD1 ILE A 116 -7.221 -15.115 82.519 1.00 28.81 C +ATOM 4087 N TYR A 117 -3.643 -13.550 87.069 1.00 35.38 N +ATOM 4088 CA TYR A 117 -2.344 -13.249 87.644 1.00 37.58 C +ATOM 4089 C TYR A 117 -1.645 -14.536 88.059 1.00 36.82 C +ATOM 4090 O TYR A 117 -2.292 -15.535 88.390 1.00 35.23 O +ATOM 4091 CB TYR A 117 -2.476 -12.287 88.855 1.00 38.84 C +ATOM 4092 CG TYR A 117 -3.133 -12.892 90.077 1.00 39.63 C +ATOM 4093 CD1 TYR A 117 -4.516 -13.023 90.158 1.00 39.76 C +ATOM 4094 CD2 TYR A 117 -2.370 -13.313 91.163 1.00 42.25 C +ATOM 4095 CE1 TYR A 117 -5.119 -13.577 91.279 1.00 43.21 C +ATOM 4096 CE2 TYR A 117 -2.961 -13.863 92.290 1.00 41.74 C +ATOM 4097 CZ TYR A 117 -4.333 -13.994 92.345 1.00 45.59 C +ATOM 4098 OH TYR A 117 -4.918 -14.543 93.461 1.00 47.72 O +ATOM 4099 N ASN A 118 -0.309 -14.496 88.003 1.00 33.87 N +ATOM 4100 CA ASN A 118 0.559 -15.594 88.411 1.00 37.16 C +ATOM 4101 C ASN A 118 0.803 -15.464 89.914 1.00 41.61 C +ATOM 4102 O ASN A 118 1.452 -14.511 90.355 1.00 46.10 O +ATOM 4103 CB ASN A 118 1.867 -15.533 87.621 1.00 37.11 C +ATOM 4104 CG ASN A 118 2.784 -16.709 87.888 1.00 42.25 C +ATOM 4105 OD1 ASN A 118 2.896 -17.195 89.014 1.00 46.88 O +ATOM 4106 ND2 ASN A 118 3.458 -17.169 86.843 1.00 47.25 N +ATOM 4107 N LYS A 119 0.277 -16.414 90.701 1.00 39.92 N +ATOM 4108 CA LYS A 119 0.357 -16.329 92.161 1.00 39.27 C +ATOM 4109 C LYS A 119 1.787 -16.432 92.678 1.00 45.37 C +ATOM 4110 O LYS A 119 2.108 -15.849 93.723 1.00 50.04 O +ATOM 4111 CB LYS A 119 -0.493 -17.426 92.806 1.00 36.70 C +ATOM 4112 CG LYS A 119 -1.982 -17.206 92.713 1.00 36.55 C +ATOM 4113 CD LYS A 119 -2.766 -18.371 93.292 1.00 37.57 C +ATOM 4114 CE LYS A 119 -4.261 -18.063 93.259 1.00 39.58 C +ATOM 4115 NZ LYS A 119 -5.082 -19.183 93.769 1.00 39.60 N +ATOM 4116 N ASP A 120 2.644 -17.193 91.995 1.00 44.73 N +ATOM 4117 CA ASP A 120 4.029 -17.328 92.432 1.00 46.23 C +ATOM 4118 C ASP A 120 4.792 -16.022 92.256 1.00 49.10 C +ATOM 4119 O ASP A 120 5.545 -15.611 93.147 1.00 52.93 O +ATOM 4120 CB ASP A 120 4.711 -18.461 91.664 1.00 44.82 C +ATOM 4121 CG ASP A 120 4.095 -19.818 91.957 1.00 46.94 C +ATOM 4122 OD1 ASP A 120 3.380 -19.945 92.970 1.00 47.53 O +ATOM 4123 OD2 ASP A 120 4.314 -20.761 91.166 1.00 48.68 O +ATOM 4124 N LEU A 121 4.610 -15.354 91.117 1.00 45.35 N +ATOM 4125 CA LEU A 121 5.274 -14.078 90.884 1.00 43.39 C +ATOM 4126 C LEU A 121 4.599 -12.928 91.619 1.00 41.75 C +ATOM 4127 O LEU A 121 5.261 -11.936 91.943 1.00 41.27 O +ATOM 4128 CB LEU A 121 5.305 -13.764 89.386 1.00 41.24 C +ATOM 4129 CG LEU A 121 6.126 -14.675 88.481 1.00 44.07 C +ATOM 4130 CD1 LEU A 121 5.941 -14.237 87.041 1.00 46.39 C +ATOM 4131 CD2 LEU A 121 7.600 -14.640 88.876 1.00 43.48 C +ATOM 4132 N LEU A 122 3.303 -13.041 91.901 1.00 44.00 N +ATOM 4133 CA LEU A 122 2.513 -11.911 92.391 1.00 42.62 C +ATOM 4134 C LEU A 122 1.361 -12.439 93.229 1.00 46.11 C +ATOM 4135 O LEU A 122 0.235 -12.615 92.742 1.00 43.56 O +ATOM 4136 CB LEU A 122 2.011 -11.056 91.224 1.00 41.99 C +ATOM 4137 CG LEU A 122 1.499 -9.641 91.489 1.00 43.21 C +ATOM 4138 CD1 LEU A 122 2.615 -8.768 92.036 1.00 45.07 C +ATOM 4139 CD2 LEU A 122 0.954 -9.043 90.204 1.00 43.26 C +ATOM 4140 N PRO A 123 1.611 -12.724 94.511 1.00 47.51 N +ATOM 4141 CA PRO A 123 0.528 -13.229 95.373 1.00 47.15 C +ATOM 4142 C PRO A 123 -0.529 -12.185 95.709 1.00 44.84 C +ATOM 4143 O PRO A 123 -1.661 -12.563 96.036 1.00 39.96 O +ATOM 4144 CB PRO A 123 1.270 -13.705 96.631 1.00 48.54 C +ATOM 4145 CG PRO A 123 2.535 -12.922 96.651 1.00 48.83 C +ATOM 4146 CD PRO A 123 2.908 -12.670 95.211 1.00 49.47 C +ATOM 4147 N ASN A 124 -0.204 -10.892 95.646 1.00 46.92 N +ATOM 4148 CA ASN A 124 -1.158 -9.812 95.899 1.00 49.37 C +ATOM 4149 C ASN A 124 -1.290 -8.977 94.630 1.00 49.71 C +ATOM 4150 O ASN A 124 -0.552 -7.996 94.443 1.00 48.14 O +ATOM 4151 CB ASN A 124 -0.717 -8.944 97.075 1.00 58.03 C +ATOM 4152 CG ASN A 124 -0.555 -9.731 98.368 1.00 63.05 C +ATOM 4153 OD1 ASN A 124 -0.856 -10.924 98.433 1.00 64.18 O +ATOM 4154 ND2 ASN A 124 -0.080 -9.057 99.409 1.00 65.82 N +ATOM 4155 N PRO A 125 -2.216 -9.327 93.729 1.00 49.93 N +ATOM 4156 CA PRO A 125 -2.340 -8.570 92.484 1.00 51.33 C +ATOM 4157 C PRO A 125 -2.779 -7.140 92.756 1.00 48.77 C +ATOM 4158 O PRO A 125 -3.427 -6.860 93.774 1.00 49.42 O +ATOM 4159 CB PRO A 125 -3.410 -9.353 91.698 1.00 51.17 C +ATOM 4160 CG PRO A 125 -4.163 -10.115 92.728 1.00 50.73 C +ATOM 4161 CD PRO A 125 -3.165 -10.451 93.793 1.00 49.77 C +ATOM 4162 N PRO A 126 -2.424 -6.203 91.882 1.00 48.98 N +ATOM 4163 CA PRO A 126 -2.751 -4.798 92.139 1.00 46.87 C +ATOM 4164 C PRO A 126 -4.227 -4.505 91.942 1.00 43.11 C +ATOM 4165 O PRO A 126 -4.903 -5.095 91.096 1.00 41.40 O +ATOM 4166 CB PRO A 126 -1.900 -4.049 91.112 1.00 47.38 C +ATOM 4167 CG PRO A 126 -1.705 -5.019 90.012 1.00 48.81 C +ATOM 4168 CD PRO A 126 -1.592 -6.361 90.678 1.00 48.86 C +ATOM 4169 N LYS A 127 -4.717 -3.542 92.718 1.00 39.70 N +ATOM 4170 CA LYS A 127 -6.115 -3.156 92.640 1.00 40.70 C +ATOM 4171 C LYS A 127 -6.351 -1.985 91.700 1.00 38.13 C +ATOM 4172 O LYS A 127 -7.498 -1.756 91.296 1.00 37.49 O +ATOM 4173 CB LYS A 127 -6.641 -2.810 94.034 1.00 44.83 C +ATOM 4174 CG LYS A 127 -6.455 -3.927 95.038 1.00 49.79 C +ATOM 4175 CD LYS A 127 -7.320 -5.133 94.705 1.00 56.94 C +ATOM 4176 CE LYS A 127 -6.955 -6.320 95.603 1.00 62.29 C +ATOM 4177 NZ LYS A 127 -8.066 -7.302 95.793 1.00 63.25 N +ATOM 4178 N THR A 128 -5.304 -1.240 91.346 1.00 35.30 N +ATOM 4179 CA THR A 128 -5.442 -0.058 90.509 1.00 39.30 C +ATOM 4180 C THR A 128 -4.513 -0.142 89.306 1.00 39.11 C +ATOM 4181 O THR A 128 -3.412 -0.698 89.379 1.00 36.46 O +ATOM 4182 CB THR A 128 -5.141 1.237 91.296 1.00 43.90 C +ATOM 4183 OG1 THR A 128 -3.744 1.289 91.609 1.00 45.21 O +ATOM 4184 CG2 THR A 128 -5.947 1.297 92.584 1.00 41.76 C +ATOM 4185 N TRP A 129 -4.969 0.437 88.192 1.00 41.05 N +ATOM 4186 CA TRP A 129 -4.091 0.603 87.043 1.00 37.19 C +ATOM 4187 C TRP A 129 -2.897 1.488 87.386 1.00 41.28 C +ATOM 4188 O TRP A 129 -1.812 1.323 86.815 1.00 42.14 O +ATOM 4189 CB TRP A 129 -4.868 1.198 85.867 1.00 34.78 C +ATOM 4190 CG TRP A 129 -5.725 0.221 85.111 1.00 35.06 C +ATOM 4191 CD1 TRP A 129 -7.038 -0.076 85.346 1.00 37.31 C +ATOM 4192 CD2 TRP A 129 -5.332 -0.569 83.977 1.00 36.84 C +ATOM 4193 NE1 TRP A 129 -7.486 -1.000 84.426 1.00 38.48 N +ATOM 4194 CE2 TRP A 129 -6.458 -1.326 83.582 1.00 37.76 C +ATOM 4195 CE3 TRP A 129 -4.137 -0.712 83.262 1.00 36.28 C +ATOM 4196 CZ2 TRP A 129 -6.422 -2.217 82.510 1.00 34.88 C +ATOM 4197 CZ3 TRP A 129 -4.109 -1.596 82.189 1.00 36.31 C +ATOM 4198 CH2 TRP A 129 -5.241 -2.338 81.831 1.00 32.76 C +ATOM 4199 N GLU A 130 -3.077 2.423 88.323 1.00 42.08 N +ATOM 4200 CA GLU A 130 -2.060 3.440 88.573 1.00 42.57 C +ATOM 4201 C GLU A 130 -0.771 2.849 89.130 1.00 40.88 C +ATOM 4202 O GLU A 130 0.309 3.420 88.926 1.00 41.78 O +ATOM 4203 CB GLU A 130 -2.621 4.509 89.510 1.00 43.31 C +ATOM 4204 CG GLU A 130 -3.616 5.442 88.815 1.00 44.30 C +ATOM 4205 CD GLU A 130 -5.043 4.890 88.752 1.00 43.51 C +ATOM 4206 OE1 GLU A 130 -5.274 3.724 89.153 1.00 41.93 O +ATOM 4207 OE2 GLU A 130 -5.927 5.624 88.263 1.00 42.59 O +ATOM 4208 N GLU A 131 -0.847 1.707 89.801 1.00 38.67 N +ATOM 4209 CA GLU A 131 0.335 1.137 90.430 1.00 42.10 C +ATOM 4210 C GLU A 131 1.061 0.131 89.540 1.00 42.13 C +ATOM 4211 O GLU A 131 2.061 -0.451 89.975 1.00 40.05 O +ATOM 4212 CB GLU A 131 -0.056 0.492 91.765 1.00 43.73 C +ATOM 4213 CG GLU A 131 -0.849 -0.791 91.641 1.00 47.88 C +ATOM 4214 CD GLU A 131 -1.633 -1.134 92.913 1.00 52.63 C +ATOM 4215 OE1 GLU A 131 -2.730 -0.565 93.123 1.00 52.28 O +ATOM 4216 OE2 GLU A 131 -1.147 -1.968 93.708 1.00 53.48 O +ATOM 4217 N ILE A 132 0.607 -0.069 88.305 1.00 39.63 N +ATOM 4218 CA ILE A 132 1.232 -1.026 87.395 1.00 38.39 C +ATOM 4219 C ILE A 132 2.585 -0.515 86.901 1.00 35.95 C +ATOM 4220 O ILE A 132 3.531 -1.314 86.812 1.00 35.26 O +ATOM 4221 CB ILE A 132 0.286 -1.370 86.230 1.00 41.29 C +ATOM 4222 CG1 ILE A 132 -0.862 -2.241 86.738 1.00 40.55 C +ATOM 4223 CG2 ILE A 132 1.020 -2.092 85.125 1.00 42.08 C +ATOM 4224 CD1 ILE A 132 -1.802 -2.659 85.649 1.00 41.06 C +ATOM 4225 N PRO A 133 2.751 0.777 86.577 1.00 36.56 N +ATOM 4226 CA PRO A 133 4.100 1.243 86.188 1.00 36.82 C +ATOM 4227 C PRO A 133 5.180 0.949 87.220 1.00 42.60 C +ATOM 4228 O PRO A 133 6.266 0.470 86.856 1.00 47.10 O +ATOM 4229 CB PRO A 133 3.892 2.750 85.980 1.00 38.57 C +ATOM 4230 CG PRO A 133 2.472 2.856 85.507 1.00 37.66 C +ATOM 4231 CD PRO A 133 1.726 1.808 86.298 1.00 39.40 C +ATOM 4232 N ALA A 134 4.919 1.219 88.502 1.00 41.20 N +ATOM 4233 CA ALA A 134 5.913 0.909 89.524 1.00 44.01 C +ATOM 4234 C ALA A 134 6.110 -0.593 89.652 1.00 46.25 C +ATOM 4235 O ALA A 134 7.243 -1.062 89.820 1.00 50.61 O +ATOM 4236 CB ALA A 134 5.506 1.519 90.864 1.00 45.12 C +ATOM 4237 N LEU A 135 5.022 -1.365 89.556 1.00 43.10 N +ATOM 4238 CA LEU A 135 5.142 -2.819 89.610 1.00 43.42 C +ATOM 4239 C LEU A 135 5.984 -3.352 88.455 1.00 44.30 C +ATOM 4240 O LEU A 135 6.783 -4.279 88.636 1.00 44.98 O +ATOM 4241 CB LEU A 135 3.755 -3.457 89.606 1.00 44.07 C +ATOM 4242 CG LEU A 135 3.724 -4.980 89.713 1.00 46.91 C +ATOM 4243 CD1 LEU A 135 4.485 -5.432 90.951 1.00 49.90 C +ATOM 4244 CD2 LEU A 135 2.285 -5.490 89.753 1.00 45.43 C +ATOM 4245 N ASP A 136 5.816 -2.786 87.255 1.00 42.87 N +ATOM 4246 CA ASP A 136 6.599 -3.263 86.123 1.00 42.00 C +ATOM 4247 C ASP A 136 8.083 -2.945 86.281 1.00 45.12 C +ATOM 4248 O ASP A 136 8.933 -3.731 85.842 1.00 44.19 O +ATOM 4249 CB ASP A 136 6.068 -2.680 84.818 1.00 43.19 C +ATOM 4250 CG ASP A 136 6.833 -3.187 83.617 1.00 44.54 C +ATOM 4251 OD1 ASP A 136 6.767 -4.402 83.339 1.00 44.98 O +ATOM 4252 OD2 ASP A 136 7.517 -2.373 82.966 1.00 45.99 O +ATOM 4253 N LYS A 137 8.413 -1.804 86.894 1.00 46.65 N +ATOM 4254 CA BLYS A 137 9.817 -1.479 87.122 0.52 49.74 C +ATOM 4255 C LYS A 137 10.484 -2.517 88.017 1.00 51.86 C +ATOM 4256 O LYS A 137 11.647 -2.881 87.794 1.00 53.76 O +ATOM 4257 CB BLYS A 137 9.948 -0.082 87.729 0.52 49.28 C +ATOM 4258 CG BLYS A 137 11.384 0.421 87.809 0.52 49.39 C +ATOM 4259 CD BLYS A 137 11.433 1.912 88.089 0.52 49.13 C +ATOM 4260 CE BLYS A 137 12.859 2.441 88.015 0.52 48.75 C +ATOM 4261 NZ BLYS A 137 12.895 3.926 88.112 0.52 47.94 N +ATOM 4262 N GLU A 138 9.762 -3.017 89.023 1.00 52.43 N +ATOM 4263 CA GLU A 138 10.331 -4.018 89.920 1.00 57.36 C +ATOM 4264 C GLU A 138 10.539 -5.350 89.213 1.00 54.12 C +ATOM 4265 O GLU A 138 11.596 -5.976 89.343 1.00 54.38 O +ATOM 4266 CB GLU A 138 9.429 -4.208 91.130 1.00 66.70 C +ATOM 4267 CG GLU A 138 9.938 -5.255 92.092 1.00 77.44 C +ATOM 4268 CD GLU A 138 8.951 -5.557 93.197 1.00 85.13 C +ATOM 4269 OE1 GLU A 138 7.771 -5.157 93.077 1.00 87.42 O +ATOM 4270 OE2 GLU A 138 9.362 -6.185 94.193 1.00 88.46 O +ATOM 4271 N LEU A 139 9.535 -5.805 88.463 1.00 49.11 N +ATOM 4272 CA LEU A 139 9.627 -7.113 87.825 1.00 47.81 C +ATOM 4273 C LEU A 139 10.643 -7.119 86.691 1.00 45.28 C +ATOM 4274 O LEU A 139 11.206 -8.174 86.372 1.00 44.52 O +ATOM 4275 CB LEU A 139 8.246 -7.544 87.319 1.00 46.81 C +ATOM 4276 CG LEU A 139 7.249 -7.922 88.414 1.00 48.46 C +ATOM 4277 CD1 LEU A 139 5.831 -8.001 87.866 1.00 48.44 C +ATOM 4278 CD2 LEU A 139 7.644 -9.245 89.062 1.00 49.04 C +ATOM 4279 N LYS A 140 10.871 -5.965 86.055 1.00 44.49 N +ATOM 4280 CA LYS A 140 11.879 -5.890 85.005 1.00 46.49 C +ATOM 4281 C LYS A 140 13.278 -6.126 85.565 1.00 47.60 C +ATOM 4282 O LYS A 140 14.157 -6.617 84.849 1.00 47.38 O +ATOM 4283 CB LYS A 140 11.792 -4.540 84.288 1.00 45.84 C +ATOM 4284 CG LYS A 140 10.619 -4.422 83.305 1.00 43.67 C +ATOM 4285 CD LYS A 140 10.950 -5.079 81.966 1.00 44.84 C +ATOM 4286 CE LYS A 140 9.759 -5.068 80.999 1.00 43.11 C +ATOM 4287 NZ LYS A 140 9.100 -3.727 80.874 1.00 42.16 N +ATOM 4288 N ALA A 141 13.492 -5.804 86.842 1.00 49.63 N +ATOM 4289 CA ALA A 141 14.766 -6.104 87.481 1.00 53.15 C +ATOM 4290 C ALA A 141 15.026 -7.604 87.536 1.00 58.10 C +ATOM 4291 O ALA A 141 16.187 -8.032 87.529 1.00 62.70 O +ATOM 4292 CB ALA A 141 14.793 -5.508 88.890 1.00 49.85 C +ATOM 4293 N LYS A 142 13.971 -8.418 87.565 1.00 56.09 N +ATOM 4294 CA LYS A 142 14.101 -9.868 87.627 1.00 54.53 C +ATOM 4295 C LYS A 142 13.861 -10.546 86.286 1.00 49.96 C +ATOM 4296 O LYS A 142 13.672 -11.766 86.248 1.00 48.81 O +ATOM 4297 CB LYS A 142 13.148 -10.437 88.673 1.00 60.14 C +ATOM 4298 CG LYS A 142 13.416 -9.948 90.070 1.00 67.16 C +ATOM 4299 CD LYS A 142 12.367 -10.475 91.028 1.00 72.33 C +ATOM 4300 CE LYS A 142 12.763 -10.191 92.461 1.00 76.60 C +ATOM 4301 NZ LYS A 142 12.872 -8.731 92.731 1.00 79.60 N +ATOM 4302 N GLY A 143 13.878 -9.787 85.189 1.00 48.65 N +ATOM 4303 CA GLY A 143 13.682 -10.348 83.866 1.00 47.82 C +ATOM 4304 C GLY A 143 12.254 -10.665 83.497 1.00 49.86 C +ATOM 4305 O GLY A 143 12.025 -11.388 82.520 1.00 51.72 O +ATOM 4306 N LYS A 144 11.284 -10.136 84.235 1.00 48.77 N +ATOM 4307 CA LYS A 144 9.864 -10.355 84.003 1.00 47.24 C +ATOM 4308 C LYS A 144 9.202 -9.034 83.615 1.00 48.25 C +ATOM 4309 O LYS A 144 9.861 -8.003 83.463 1.00 50.74 O +ATOM 4310 CB LYS A 144 9.200 -10.946 85.250 1.00 44.85 C +ATOM 4311 CG LYS A 144 9.871 -12.195 85.792 1.00 42.93 C +ATOM 4312 CD LYS A 144 9.778 -13.335 84.798 1.00 45.11 C +ATOM 4313 CE LYS A 144 10.285 -14.639 85.392 1.00 48.44 C +ATOM 4314 NZ LYS A 144 10.297 -15.735 84.381 1.00 51.06 N +ATOM 4315 N SER A 145 7.879 -9.067 83.461 1.00 44.27 N +ATOM 4316 CA SER A 145 7.095 -7.859 83.237 1.00 40.59 C +ATOM 4317 C SER A 145 5.796 -7.965 84.028 1.00 40.48 C +ATOM 4318 O SER A 145 5.427 -9.040 84.505 1.00 39.29 O +ATOM 4319 CB SER A 145 6.828 -7.627 81.734 1.00 38.42 C +ATOM 4320 OG SER A 145 6.009 -8.645 81.201 1.00 40.72 O +ATOM 4321 N ALA A 146 5.114 -6.828 84.186 1.00 39.65 N +ATOM 4322 CA ALA A 146 3.911 -6.805 85.015 1.00 38.34 C +ATOM 4323 C ALA A 146 2.703 -7.356 84.269 1.00 37.39 C +ATOM 4324 O ALA A 146 1.953 -8.171 84.819 1.00 36.46 O +ATOM 4325 CB ALA A 146 3.615 -5.387 85.513 1.00 35.14 C +ATOM 4326 N LEU A 147 2.477 -6.898 83.032 1.00 37.00 N +ATOM 4327 CA LEU A 147 1.208 -7.150 82.370 1.00 35.03 C +ATOM 4328 C LEU A 147 1.392 -7.216 80.862 1.00 34.95 C +ATOM 4329 O LEU A 147 2.082 -6.378 80.276 1.00 34.39 O +ATOM 4330 CB LEU A 147 0.197 -6.060 82.747 1.00 38.08 C +ATOM 4331 CG LEU A 147 -1.183 -6.051 82.101 1.00 37.69 C +ATOM 4332 CD1 LEU A 147 -1.995 -7.269 82.512 1.00 35.99 C +ATOM 4333 CD2 LEU A 147 -1.921 -4.766 82.462 1.00 39.40 C +ATOM 4334 N MET A 148 0.777 -8.219 80.239 1.00 28.90 N +ATOM 4335 CA MET A 148 0.706 -8.312 78.789 1.00 34.20 C +ATOM 4336 C MET A 148 -0.685 -8.792 78.411 1.00 36.63 C +ATOM 4337 O MET A 148 -1.164 -9.796 78.945 1.00 36.15 O +ATOM 4338 CB MET A 148 1.765 -9.270 78.225 1.00 37.59 C +ATOM 4339 CG MET A 148 3.190 -8.807 78.408 1.00 41.80 C +ATOM 4340 SD MET A 148 4.371 -9.929 77.640 1.00 49.34 S +ATOM 4341 CE MET A 148 3.896 -9.806 75.919 1.00 44.20 C +ATOM 4342 N PHE A 149 -1.338 -8.071 77.506 1.00 35.18 N +ATOM 4343 CA PHE A 149 -2.606 -8.537 76.976 1.00 31.45 C +ATOM 4344 C PHE A 149 -2.741 -8.024 75.547 1.00 33.79 C +ATOM 4345 O PHE A 149 -1.945 -7.204 75.079 1.00 31.95 O +ATOM 4346 CB PHE A 149 -3.784 -8.111 77.874 1.00 28.91 C +ATOM 4347 CG PHE A 149 -3.998 -6.622 77.949 1.00 32.53 C +ATOM 4348 CD1 PHE A 149 -3.282 -5.840 78.846 1.00 37.60 C +ATOM 4349 CD2 PHE A 149 -4.940 -6.007 77.143 1.00 34.46 C +ATOM 4350 CE1 PHE A 149 -3.486 -4.469 78.915 1.00 37.30 C +ATOM 4351 CE2 PHE A 149 -5.155 -4.638 77.212 1.00 36.70 C +ATOM 4352 CZ PHE A 149 -4.427 -3.870 78.097 1.00 36.58 C +ATOM 4353 N ASN A 150 -3.772 -8.512 74.865 1.00 32.21 N +ATOM 4354 CA ASN A 150 -3.965 -8.255 73.442 1.00 31.07 C +ATOM 4355 C ASN A 150 -4.328 -6.790 73.228 1.00 32.40 C +ATOM 4356 O ASN A 150 -5.426 -6.353 73.583 1.00 33.85 O +ATOM 4357 CB ASN A 150 -5.052 -9.189 72.908 1.00 28.75 C +ATOM 4358 CG ASN A 150 -5.313 -9.013 71.428 1.00 32.58 C +ATOM 4359 OD1 ASN A 150 -4.584 -8.302 70.734 1.00 34.78 O +ATOM 4360 ND2 ASN A 150 -6.351 -9.685 70.928 1.00 31.14 N +ATOM 4361 N LEU A 151 -3.414 -6.033 72.632 1.00 35.05 N +ATOM 4362 CA LEU A 151 -3.654 -4.634 72.304 1.00 36.16 C +ATOM 4363 C LEU A 151 -4.176 -4.440 70.891 1.00 33.29 C +ATOM 4364 O LEU A 151 -4.369 -3.295 70.470 1.00 35.56 O +ATOM 4365 CB LEU A 151 -2.358 -3.822 72.475 1.00 37.11 C +ATOM 4366 CG LEU A 151 -1.732 -3.771 73.873 1.00 41.39 C +ATOM 4367 CD1 LEU A 151 -0.513 -2.856 73.872 1.00 42.00 C +ATOM 4368 CD2 LEU A 151 -2.744 -3.315 74.918 1.00 39.34 C +ATOM 4369 N GLN A 152 -4.400 -5.522 70.146 1.00 33.80 N +ATOM 4370 CA GLN A 152 -4.879 -5.416 68.774 1.00 35.46 C +ATOM 4371 C GLN A 152 -6.399 -5.450 68.666 1.00 37.80 C +ATOM 4372 O GLN A 152 -6.939 -5.112 67.603 1.00 40.39 O +ATOM 4373 CB GLN A 152 -4.292 -6.541 67.909 1.00 37.35 C +ATOM 4374 CG GLN A 152 -2.772 -6.651 67.971 1.00 38.90 C +ATOM 4375 CD GLN A 152 -2.070 -5.307 67.875 1.00 38.10 C +ATOM 4376 OE1 GLN A 152 -2.174 -4.603 66.880 1.00 37.35 O +ATOM 4377 NE2 GLN A 152 -1.370 -4.939 68.934 1.00 38.02 N +ATOM 4378 N GLU A 153 -7.101 -5.869 69.715 1.00 34.65 N +ATOM 4379 CA GLU A 153 -8.558 -5.947 69.676 1.00 34.48 C +ATOM 4380 C GLU A 153 -9.143 -5.043 70.755 1.00 28.13 C +ATOM 4381 O GLU A 153 -8.831 -5.218 71.945 1.00 25.90 O +ATOM 4382 CB GLU A 153 -9.037 -7.392 69.847 1.00 33.72 C +ATOM 4383 CG GLU A 153 -8.868 -8.259 68.593 1.00 32.80 C +ATOM 4384 CD GLU A 153 -9.769 -7.846 67.427 1.00 36.65 C +ATOM 4385 OE1 GLU A 153 -10.841 -7.224 67.650 1.00 37.62 O +ATOM 4386 OE2 GLU A 153 -9.402 -8.150 66.272 1.00 37.38 O +ATOM 4387 N PRO A 154 -9.990 -4.078 70.390 1.00 28.78 N +ATOM 4388 CA PRO A 154 -10.486 -3.095 71.378 1.00 30.00 C +ATOM 4389 C PRO A 154 -11.346 -3.683 72.488 1.00 33.12 C +ATOM 4390 O PRO A 154 -11.571 -2.999 73.497 1.00 24.80 O +ATOM 4391 CB PRO A 154 -11.289 -2.110 70.519 1.00 28.09 C +ATOM 4392 CG PRO A 154 -11.656 -2.891 69.276 1.00 26.02 C +ATOM 4393 CD PRO A 154 -10.513 -3.838 69.032 1.00 25.42 C +ATOM 4394 N TYR A 155 -11.828 -4.915 72.337 1.00 24.81 N +ATOM 4395 CA TYR A 155 -12.541 -5.585 73.418 1.00 30.76 C +ATOM 4396 C TYR A 155 -11.718 -5.606 74.698 1.00 29.47 C +ATOM 4397 O TYR A 155 -12.264 -5.479 75.798 1.00 26.11 O +ATOM 4398 CB TYR A 155 -12.877 -7.007 72.976 1.00 32.71 C +ATOM 4399 CG TYR A 155 -13.625 -7.855 73.961 1.00 30.43 C +ATOM 4400 CD1 TYR A 155 -14.965 -7.628 74.217 1.00 29.56 C +ATOM 4401 CD2 TYR A 155 -13.005 -8.923 74.594 1.00 31.03 C +ATOM 4402 CE1 TYR A 155 -15.665 -8.423 75.100 1.00 28.50 C +ATOM 4403 CE2 TYR A 155 -13.698 -9.728 75.479 1.00 27.04 C +ATOM 4404 CZ TYR A 155 -15.021 -9.474 75.730 1.00 28.25 C +ATOM 4405 OH TYR A 155 -15.715 -10.267 76.638 1.00 30.92 O +ATOM 4406 N PHE A 156 -10.393 -5.762 74.571 1.00 25.21 N +ATOM 4407 CA PHE A 156 -9.533 -5.917 75.745 1.00 25.44 C +ATOM 4408 C PHE A 156 -9.154 -4.581 76.378 1.00 25.50 C +ATOM 4409 O PHE A 156 -8.917 -4.519 77.594 1.00 25.51 O +ATOM 4410 CB PHE A 156 -8.268 -6.697 75.366 1.00 32.41 C +ATOM 4411 CG PHE A 156 -8.541 -8.117 74.964 1.00 31.93 C +ATOM 4412 CD1 PHE A 156 -8.930 -8.422 73.660 1.00 30.82 C +ATOM 4413 CD2 PHE A 156 -8.431 -9.149 75.888 1.00 29.28 C +ATOM 4414 CE1 PHE A 156 -9.196 -9.732 73.283 1.00 25.86 C +ATOM 4415 CE2 PHE A 156 -8.709 -10.463 75.521 1.00 31.54 C +ATOM 4416 CZ PHE A 156 -9.082 -10.754 74.213 1.00 32.32 C +ATOM 4417 N THR A 157 -9.109 -3.503 75.596 1.00 27.43 N +ATOM 4418 CA THR A 157 -8.805 -2.190 76.160 1.00 29.06 C +ATOM 4419 C THR A 157 -10.052 -1.405 76.531 1.00 31.10 C +ATOM 4420 O THR A 157 -9.949 -0.422 77.277 1.00 32.48 O +ATOM 4421 CB THR A 157 -7.949 -1.372 75.184 1.00 29.96 C +ATOM 4422 OG1 THR A 157 -8.624 -1.260 73.918 1.00 35.47 O +ATOM 4423 CG2 THR A 157 -6.616 -2.059 74.979 1.00 27.71 C +ATOM 4424 N TRP A 158 -11.227 -1.845 76.077 1.00 26.46 N +ATOM 4425 CA TRP A 158 -12.454 -1.133 76.418 1.00 26.83 C +ATOM 4426 C TRP A 158 -12.699 -0.996 77.921 1.00 29.65 C +ATOM 4427 O TRP A 158 -13.182 0.073 78.330 1.00 32.01 O +ATOM 4428 CB TRP A 158 -13.658 -1.798 75.741 1.00 27.76 C +ATOM 4429 CG TRP A 158 -14.917 -1.009 75.979 1.00 28.18 C +ATOM 4430 CD1 TRP A 158 -15.931 -1.319 76.833 1.00 27.20 C +ATOM 4431 CD2 TRP A 158 -15.251 0.257 75.398 1.00 27.54 C +ATOM 4432 NE1 TRP A 158 -16.896 -0.336 76.803 1.00 27.92 N +ATOM 4433 CE2 TRP A 158 -16.501 0.642 75.928 1.00 28.44 C +ATOM 4434 CE3 TRP A 158 -14.618 1.099 74.476 1.00 31.57 C +ATOM 4435 CZ2 TRP A 158 -17.127 1.835 75.569 1.00 28.78 C +ATOM 4436 CZ3 TRP A 158 -15.242 2.275 74.115 1.00 32.09 C +ATOM 4437 CH2 TRP A 158 -16.487 2.635 74.667 1.00 30.54 C +ATOM 4438 N PRO A 159 -12.433 -1.995 78.781 1.00 28.89 N +ATOM 4439 CA PRO A 159 -12.733 -1.794 80.209 1.00 30.09 C +ATOM 4440 C PRO A 159 -12.052 -0.572 80.805 1.00 29.67 C +ATOM 4441 O PRO A 159 -12.626 0.080 81.691 1.00 32.60 O +ATOM 4442 CB PRO A 159 -12.250 -3.099 80.858 1.00 29.98 C +ATOM 4443 CG PRO A 159 -12.324 -4.110 79.755 1.00 30.68 C +ATOM 4444 CD PRO A 159 -11.951 -3.367 78.519 1.00 30.46 C +ATOM 4445 N LEU A 160 -10.835 -0.267 80.352 1.00 24.65 N +ATOM 4446 CA LEU A 160 -10.095 0.902 80.823 1.00 31.32 C +ATOM 4447 C LEU A 160 -10.651 2.196 80.236 1.00 33.59 C +ATOM 4448 O LEU A 160 -10.775 3.199 80.944 1.00 36.14 O +ATOM 4449 CB LEU A 160 -8.620 0.744 80.452 1.00 31.97 C +ATOM 4450 CG LEU A 160 -7.676 1.927 80.658 1.00 33.50 C +ATOM 4451 CD1 LEU A 160 -7.655 2.336 82.118 1.00 31.98 C +ATOM 4452 CD2 LEU A 160 -6.261 1.586 80.169 1.00 32.17 C +ATOM 4453 N ILE A 161 -10.986 2.183 78.941 1.00 31.27 N +ATOM 4454 CA ILE A 161 -11.531 3.359 78.264 1.00 34.28 C +ATOM 4455 C ILE A 161 -12.869 3.760 78.879 1.00 35.57 C +ATOM 4456 O ILE A 161 -13.161 4.953 79.050 1.00 35.62 O +ATOM 4457 CB ILE A 161 -11.667 3.077 76.753 1.00 37.26 C +ATOM 4458 CG1 ILE A 161 -10.298 2.928 76.093 1.00 41.92 C +ATOM 4459 CG2 ILE A 161 -12.482 4.156 76.050 1.00 38.56 C +ATOM 4460 CD1 ILE A 161 -10.386 2.558 74.615 1.00 42.52 C +ATOM 4461 N ALA A 162 -13.703 2.771 79.225 1.00 26.67 N +ATOM 4462 CA ALA A 162 -15.025 3.049 79.763 1.00 28.90 C +ATOM 4463 C ALA A 162 -15.021 3.402 81.250 1.00 32.28 C +ATOM 4464 O ALA A 162 -16.018 3.944 81.738 1.00 38.85 O +ATOM 4465 CB ALA A 162 -15.943 1.844 79.543 1.00 27.11 C +ATOM 4466 N ALA A 163 -13.927 3.145 81.966 1.00 30.73 N +ATOM 4467 CA ALA A 163 -13.927 3.280 83.422 1.00 32.75 C +ATOM 4468 C ALA A 163 -14.285 4.700 83.861 1.00 35.49 C +ATOM 4469 O ALA A 163 -15.244 4.906 84.611 1.00 39.84 O +ATOM 4470 CB ALA A 163 -12.561 2.867 83.978 1.00 29.67 C +ATOM 4471 N ASP A 164 -13.543 5.697 83.383 1.00 37.60 N +ATOM 4472 CA ASP A 164 -13.711 7.083 83.819 1.00 44.74 C +ATOM 4473 C ASP A 164 -14.777 7.818 83.022 1.00 46.53 C +ATOM 4474 O ASP A 164 -14.932 9.034 83.174 1.00 40.15 O +ATOM 4475 CB ASP A 164 -12.374 7.831 83.706 1.00 50.82 C +ATOM 4476 CG ASP A 164 -12.405 9.205 84.364 1.00 53.73 C +ATOM 4477 OD1 ASP A 164 -12.878 9.307 85.516 1.00 53.62 O +ATOM 4478 OD2 ASP A 164 -11.962 10.183 83.717 1.00 53.35 O +ATOM 4479 N GLY A 165 -15.508 7.107 82.192 1.00 54.30 N +ATOM 4480 CA GLY A 165 -16.510 7.654 81.318 1.00 55.37 C +ATOM 4481 C GLY A 165 -16.336 7.024 79.960 1.00 57.83 C +ATOM 4482 O GLY A 165 -15.612 6.049 79.807 1.00 64.62 O +ATOM 4483 N GLY A 166 -16.963 7.598 78.956 1.00 51.34 N +ATOM 4484 CA GLY A 166 -16.838 7.005 77.642 1.00 47.41 C +ATOM 4485 C GLY A 166 -17.764 5.817 77.509 1.00 37.70 C +ATOM 4486 O GLY A 166 -17.852 4.957 78.388 1.00 34.42 O +ATOM 4487 N TYR A 167 -18.428 5.751 76.367 1.00 32.18 N +ATOM 4488 CA TYR A 167 -19.471 4.771 76.130 1.00 29.85 C +ATOM 4489 C TYR A 167 -19.563 4.569 74.630 1.00 30.61 C +ATOM 4490 O TYR A 167 -18.906 5.269 73.856 1.00 30.63 O +ATOM 4491 CB TYR A 167 -20.798 5.238 76.746 1.00 31.33 C +ATOM 4492 CG TYR A 167 -21.203 6.637 76.314 1.00 31.61 C +ATOM 4493 CD1 TYR A 167 -21.947 6.844 75.159 1.00 30.43 C +ATOM 4494 CD2 TYR A 167 -20.834 7.754 77.064 1.00 35.33 C +ATOM 4495 CE1 TYR A 167 -22.308 8.119 74.753 1.00 31.13 C +ATOM 4496 CE2 TYR A 167 -21.197 9.043 76.667 1.00 36.73 C +ATOM 4497 CZ TYR A 167 -21.933 9.215 75.511 1.00 37.27 C +ATOM 4498 OH TYR A 167 -22.292 10.487 75.108 1.00 40.46 O +ATOM 4499 N ALA A 168 -20.362 3.582 74.224 1.00 27.33 N +ATOM 4500 CA ALA A 168 -20.560 3.357 72.801 1.00 27.92 C +ATOM 4501 C ALA A 168 -21.667 4.279 72.297 1.00 32.89 C +ATOM 4502 O ALA A 168 -21.388 5.327 71.713 1.00 36.53 O +ATOM 4503 CB ALA A 168 -20.862 1.888 72.517 1.00 25.46 C +ATOM 4504 N PHE A 169 -22.922 3.930 72.542 1.00 34.86 N +ATOM 4505 CA PHE A 169 -24.040 4.750 72.099 1.00 34.36 C +ATOM 4506 C PHE A 169 -24.857 5.184 73.303 1.00 32.53 C +ATOM 4507 O PHE A 169 -25.050 4.409 74.244 1.00 32.37 O +ATOM 4508 CB PHE A 169 -24.915 3.993 71.095 1.00 31.72 C +ATOM 4509 CG PHE A 169 -24.168 3.575 69.856 1.00 32.35 C +ATOM 4510 CD1 PHE A 169 -24.029 4.445 68.787 1.00 31.71 C +ATOM 4511 CD2 PHE A 169 -23.571 2.328 69.782 1.00 30.57 C +ATOM 4512 CE1 PHE A 169 -23.327 4.069 67.659 1.00 34.74 C +ATOM 4513 CE2 PHE A 169 -22.869 1.946 68.656 1.00 31.00 C +ATOM 4514 CZ PHE A 169 -22.748 2.818 67.595 1.00 34.20 C +ATOM 4515 N LYS A 170 -25.316 6.434 73.273 1.00 32.96 N +ATOM 4516 CA LYS A 170 -26.122 6.973 74.360 1.00 35.34 C +ATOM 4517 C LYS A 170 -27.532 6.407 74.282 1.00 30.92 C +ATOM 4518 O LYS A 170 -28.165 6.427 73.216 1.00 30.75 O +ATOM 4519 CB LYS A 170 -26.163 8.500 74.301 1.00 40.13 C +ATOM 4520 CG LYS A 170 -26.811 9.145 75.511 1.00 42.62 C +ATOM 4521 CD LYS A 170 -25.972 8.902 76.740 1.00 49.69 C +ATOM 4522 CE LYS A 170 -26.395 9.794 77.897 1.00 57.23 C +ATOM 4523 NZ LYS A 170 -27.841 9.622 78.208 1.00 61.67 N +ATOM 4524 N TYR A 171 -28.019 5.891 75.406 1.00 25.45 N +ATOM 4525 CA TYR A 171 -29.375 5.359 75.504 1.00 31.52 C +ATOM 4526 C TYR A 171 -30.197 6.303 76.369 1.00 36.21 C +ATOM 4527 O TYR A 171 -29.851 6.543 77.529 1.00 35.55 O +ATOM 4528 CB TYR A 171 -29.371 3.948 76.093 1.00 29.02 C +ATOM 4529 CG TYR A 171 -30.736 3.281 76.149 1.00 27.34 C +ATOM 4530 CD1 TYR A 171 -31.169 2.437 75.126 1.00 27.55 C +ATOM 4531 CD2 TYR A 171 -31.589 3.489 77.229 1.00 29.32 C +ATOM 4532 CE1 TYR A 171 -32.419 1.830 75.178 1.00 29.73 C +ATOM 4533 CE2 TYR A 171 -32.835 2.885 77.291 1.00 29.14 C +ATOM 4534 CZ TYR A 171 -33.243 2.062 76.264 1.00 28.88 C +ATOM 4535 OH TYR A 171 -34.474 1.466 76.334 1.00 28.14 O +ATOM 4536 N GLU A 172 -31.278 6.834 75.804 1.00 41.85 N +ATOM 4537 CA GLU A 172 -32.123 7.792 76.506 1.00 51.03 C +ATOM 4538 C GLU A 172 -33.542 7.684 75.972 1.00 51.54 C +ATOM 4539 O GLU A 172 -33.739 7.495 74.769 1.00 53.02 O +ATOM 4540 CB GLU A 172 -31.605 9.227 76.342 1.00 59.57 C +ATOM 4541 CG GLU A 172 -32.454 10.294 77.033 1.00 69.38 C +ATOM 4542 CD GLU A 172 -32.348 10.262 78.550 1.00 76.99 C +ATOM 4543 OE1 GLU A 172 -31.593 11.089 79.110 1.00 79.72 O +ATOM 4544 OE2 GLU A 172 -33.006 9.406 79.182 1.00 79.31 O +ATOM 4545 N ASN A 173 -34.522 7.811 76.867 1.00 51.39 N +ATOM 4546 CA ASN A 173 -35.932 7.798 76.478 1.00 52.37 C +ATOM 4547 C ASN A 173 -36.303 6.485 75.801 1.00 46.78 C +ATOM 4548 O ASN A 173 -37.017 6.465 74.799 1.00 48.41 O +ATOM 4549 CB ASN A 173 -36.273 8.977 75.562 1.00 57.35 C +ATOM 4550 CG ASN A 173 -36.475 10.266 76.321 1.00 63.78 C +ATOM 4551 OD1 ASN A 173 -36.261 10.327 77.537 1.00 66.60 O +ATOM 4552 ND2 ASN A 173 -36.887 11.314 75.607 1.00 64.00 N +ATOM 4553 N GLY A 174 -35.790 5.379 76.330 1.00 43.37 N +ATOM 4554 CA GLY A 174 -36.131 4.092 75.763 1.00 41.49 C +ATOM 4555 C GLY A 174 -35.590 3.796 74.378 1.00 36.71 C +ATOM 4556 O GLY A 174 -36.171 2.965 73.679 1.00 34.36 O +ATOM 4557 N LYS A 175 -34.505 4.448 73.949 1.00 35.80 N +ATOM 4558 CA LYS A 175 -33.911 4.144 72.649 1.00 36.45 C +ATOM 4559 C LYS A 175 -32.479 4.661 72.612 1.00 33.65 C +ATOM 4560 O LYS A 175 -32.089 5.512 73.415 1.00 31.97 O +ATOM 4561 CB LYS A 175 -34.710 4.767 71.499 1.00 44.49 C +ATOM 4562 CG LYS A 175 -34.683 6.288 71.503 1.00 50.03 C +ATOM 4563 CD LYS A 175 -35.495 6.875 70.355 1.00 55.59 C +ATOM 4564 CE LYS A 175 -35.535 8.399 70.426 1.00 57.93 C +ATOM 4565 NZ LYS A 175 -34.166 8.998 70.392 1.00 59.85 N +ATOM 4566 N TYR A 176 -31.707 4.161 71.644 1.00 30.58 N +ATOM 4567 CA TYR A 176 -30.346 4.640 71.436 1.00 31.80 C +ATOM 4568 C TYR A 176 -30.358 5.861 70.529 1.00 38.78 C +ATOM 4569 O TYR A 176 -31.223 6.007 69.664 1.00 40.85 O +ATOM 4570 CB TYR A 176 -29.444 3.571 70.804 1.00 29.53 C +ATOM 4571 CG TYR A 176 -29.015 2.458 71.732 1.00 29.70 C +ATOM 4572 CD1 TYR A 176 -28.077 2.683 72.738 1.00 30.49 C +ATOM 4573 CD2 TYR A 176 -29.541 1.175 71.598 1.00 28.34 C +ATOM 4574 CE1 TYR A 176 -27.682 1.663 73.596 1.00 27.39 C +ATOM 4575 CE2 TYR A 176 -29.157 0.150 72.454 1.00 27.49 C +ATOM 4576 CZ TYR A 176 -28.229 0.403 73.453 1.00 27.22 C +ATOM 4577 OH TYR A 176 -27.829 -0.612 74.291 1.00 29.18 O +ATOM 4578 N ASP A 177 -29.391 6.745 70.738 1.00 40.71 N +ATOM 4579 CA ASP A 177 -29.097 7.821 69.797 1.00 40.58 C +ATOM 4580 C ASP A 177 -27.817 7.420 69.075 1.00 38.01 C +ATOM 4581 O ASP A 177 -26.726 7.554 69.626 1.00 34.11 O +ATOM 4582 CB ASP A 177 -28.946 9.163 70.509 1.00 43.56 C +ATOM 4583 CG ASP A 177 -28.755 10.330 69.540 1.00 46.48 C +ATOM 4584 OD1 ASP A 177 -28.729 10.115 68.302 1.00 47.82 O +ATOM 4585 OD2 ASP A 177 -28.626 11.474 70.024 1.00 47.53 O +ATOM 4586 N ILE A 178 -27.946 6.890 67.855 1.00 40.17 N +ATOM 4587 CA ILE A 178 -26.760 6.409 67.154 1.00 41.37 C +ATOM 4588 C ILE A 178 -25.830 7.534 66.727 1.00 46.94 C +ATOM 4589 O ILE A 178 -24.688 7.267 66.335 1.00 47.97 O +ATOM 4590 CB ILE A 178 -27.149 5.547 65.939 1.00 41.09 C +ATOM 4591 CG1 ILE A 178 -27.839 6.393 64.867 1.00 40.24 C +ATOM 4592 CG2 ILE A 178 -28.023 4.390 66.388 1.00 39.95 C +ATOM 4593 CD1 ILE A 178 -28.151 5.621 63.593 1.00 37.83 C +ATOM 4594 N LYS A 179 -26.279 8.785 66.805 1.00 47.40 N +ATOM 4595 CA LYS A 179 -25.423 9.927 66.525 1.00 47.00 C +ATOM 4596 C LYS A 179 -24.675 10.418 67.757 1.00 44.75 C +ATOM 4597 O LYS A 179 -23.834 11.314 67.633 1.00 46.81 O +ATOM 4598 CB LYS A 179 -26.251 11.075 65.936 1.00 50.23 C +ATOM 4599 CG LYS A 179 -26.998 10.714 64.657 1.00 53.06 C +ATOM 4600 CD LYS A 179 -26.043 10.297 63.548 1.00 57.20 C +ATOM 4601 CE LYS A 179 -26.798 9.914 62.279 1.00 59.05 C +ATOM 4602 NZ LYS A 179 -27.597 11.052 61.744 1.00 58.97 N +ATOM 4603 N ASP A 180 -24.965 9.865 68.934 1.00 42.53 N +ATOM 4604 CA ASP A 180 -24.333 10.258 70.195 1.00 39.18 C +ATOM 4605 C ASP A 180 -23.375 9.143 70.625 1.00 40.13 C +ATOM 4606 O ASP A 180 -23.760 8.204 71.324 1.00 38.70 O +ATOM 4607 CB ASP A 180 -25.397 10.531 71.253 1.00 37.38 C +ATOM 4608 CG ASP A 180 -24.832 11.150 72.522 1.00 37.64 C +ATOM 4609 OD1 ASP A 180 -23.606 11.041 72.775 1.00 37.33 O +ATOM 4610 OD2 ASP A 180 -25.632 11.727 73.291 1.00 37.08 O +ATOM 4611 N VAL A 181 -22.112 9.272 70.223 1.00 40.79 N +ATOM 4612 CA VAL A 181 -21.073 8.285 70.500 1.00 38.77 C +ATOM 4613 C VAL A 181 -20.127 8.873 71.535 1.00 39.09 C +ATOM 4614 O VAL A 181 -19.745 10.043 71.437 1.00 41.07 O +ATOM 4615 CB VAL A 181 -20.316 7.897 69.214 1.00 38.93 C +ATOM 4616 CG1 VAL A 181 -19.240 6.867 69.506 1.00 38.20 C +ATOM 4617 CG2 VAL A 181 -21.290 7.363 68.182 1.00 38.78 C +ATOM 4618 N GLY A 182 -19.755 8.063 72.529 1.00 39.08 N +ATOM 4619 CA GLY A 182 -18.935 8.542 73.632 1.00 38.18 C +ATOM 4620 C GLY A 182 -17.492 8.073 73.595 1.00 38.27 C +ATOM 4621 O GLY A 182 -16.900 7.778 74.637 1.00 36.30 O +ATOM 4622 N VAL A 183 -16.911 8.002 72.395 1.00 36.77 N +ATOM 4623 CA VAL A 183 -15.536 7.524 72.225 1.00 41.22 C +ATOM 4624 C VAL A 183 -14.495 8.625 72.410 1.00 46.96 C +ATOM 4625 O VAL A 183 -13.306 8.320 72.604 1.00 47.15 O +ATOM 4626 CB VAL A 183 -15.429 6.848 70.837 1.00 44.36 C +ATOM 4627 CG1 VAL A 183 -13.994 6.523 70.446 1.00 46.75 C +ATOM 4628 CG2 VAL A 183 -16.256 5.567 70.823 1.00 42.99 C +ATOM 4629 N ASP A 184 -14.896 9.899 72.408 1.00 51.34 N +ATOM 4630 CA ASP A 184 -13.913 10.975 72.474 1.00 59.74 C +ATOM 4631 C ASP A 184 -14.203 11.969 73.592 1.00 60.36 C +ATOM 4632 O ASP A 184 -13.757 13.117 73.514 1.00 62.71 O +ATOM 4633 CB ASP A 184 -13.825 11.716 71.139 1.00 68.03 C +ATOM 4634 CG ASP A 184 -15.097 12.472 70.809 1.00 75.08 C +ATOM 4635 OD1 ASP A 184 -16.176 12.074 71.299 1.00 77.39 O +ATOM 4636 OD2 ASP A 184 -15.013 13.475 70.072 1.00 78.15 O +ATOM 4637 N ASN A 185 -14.930 11.564 74.628 1.00 58.22 N +ATOM 4638 CA ASN A 185 -15.156 12.462 75.747 1.00 54.32 C +ATOM 4639 C ASN A 185 -13.959 12.427 76.700 1.00 53.39 C +ATOM 4640 O ASN A 185 -12.964 11.731 76.471 1.00 53.67 O +ATOM 4641 CB ASN A 185 -16.463 12.114 76.459 1.00 50.15 C +ATOM 4642 CG ASN A 185 -16.488 10.695 77.007 1.00 50.95 C +ATOM 4643 OD1 ASN A 185 -15.458 10.053 77.175 1.00 49.84 O +ATOM 4644 ND2 ASN A 185 -17.687 10.202 77.291 1.00 54.52 N +ATOM 4645 N ALA A 186 -14.067 13.179 77.798 1.00 51.26 N +ATOM 4646 CA ALA A 186 -12.948 13.300 78.729 1.00 50.52 C +ATOM 4647 C ALA A 186 -12.569 11.953 79.337 1.00 48.76 C +ATOM 4648 O ALA A 186 -11.381 11.658 79.517 1.00 49.26 O +ATOM 4649 CB ALA A 186 -13.285 14.314 79.820 1.00 51.43 C +ATOM 4650 N GLY A 187 -13.563 11.128 79.677 1.00 45.54 N +ATOM 4651 CA GLY A 187 -13.266 9.836 80.278 1.00 41.19 C +ATOM 4652 C GLY A 187 -12.547 8.890 79.328 1.00 38.62 C +ATOM 4653 O GLY A 187 -11.606 8.195 79.723 1.00 38.19 O +ATOM 4654 N ALA A 188 -12.976 8.849 78.063 1.00 33.98 N +ATOM 4655 CA ALA A 188 -12.315 7.978 77.103 1.00 31.98 C +ATOM 4656 C ALA A 188 -10.874 8.422 76.878 1.00 36.88 C +ATOM 4657 O ALA A 188 -9.952 7.596 76.889 1.00 35.12 O +ATOM 4658 CB ALA A 188 -13.094 7.963 75.788 1.00 30.75 C +ATOM 4659 N LYS A 189 -10.656 9.730 76.730 1.00 39.89 N +ATOM 4660 CA LYS A 189 -9.307 10.230 76.499 1.00 45.39 C +ATOM 4661 C LYS A 189 -8.385 9.904 77.663 1.00 43.60 C +ATOM 4662 O LYS A 189 -7.219 9.552 77.453 1.00 44.89 O +ATOM 4663 CB LYS A 189 -9.344 11.733 76.231 1.00 48.06 C +ATOM 4664 CG LYS A 189 -10.048 12.084 74.925 1.00 49.49 C +ATOM 4665 CD LYS A 189 -9.931 13.557 74.614 1.00 52.22 C +ATOM 4666 CE LYS A 189 -10.511 13.874 73.258 1.00 57.14 C +ATOM 4667 NZ LYS A 189 -10.329 15.311 72.922 1.00 61.05 N +ATOM 4668 N ALA A 190 -8.894 9.985 78.895 1.00 43.35 N +ATOM 4669 CA ALA A 190 -8.070 9.656 80.057 1.00 42.02 C +ATOM 4670 C ALA A 190 -7.662 8.189 80.048 1.00 41.31 C +ATOM 4671 O ALA A 190 -6.511 7.854 80.357 1.00 39.75 O +ATOM 4672 CB ALA A 190 -8.813 9.989 81.348 1.00 42.64 C +ATOM 4673 N GLY A 191 -8.592 7.299 79.701 1.00 38.80 N +ATOM 4674 CA GLY A 191 -8.265 5.885 79.673 1.00 36.58 C +ATOM 4675 C GLY A 191 -7.248 5.553 78.598 1.00 34.20 C +ATOM 4676 O GLY A 191 -6.258 4.863 78.856 1.00 35.29 O +ATOM 4677 N LEU A 192 -7.468 6.056 77.381 1.00 36.44 N +ATOM 4678 CA LEU A 192 -6.533 5.790 76.298 1.00 38.08 C +ATOM 4679 C LEU A 192 -5.185 6.465 76.538 1.00 40.27 C +ATOM 4680 O LEU A 192 -4.143 5.912 76.162 1.00 39.48 O +ATOM 4681 CB LEU A 192 -7.138 6.232 74.961 1.00 39.90 C +ATOM 4682 CG LEU A 192 -6.325 5.838 73.727 1.00 40.24 C +ATOM 4683 CD1 LEU A 192 -6.019 4.352 73.797 1.00 40.61 C +ATOM 4684 CD2 LEU A 192 -7.050 6.182 72.414 1.00 36.93 C +ATOM 4685 N THR A 193 -5.180 7.650 77.162 1.00 41.42 N +ATOM 4686 CA THR A 193 -3.913 8.295 77.508 1.00 43.82 C +ATOM 4687 C THR A 193 -3.108 7.441 78.481 1.00 41.07 C +ATOM 4688 O THR A 193 -1.882 7.332 78.360 1.00 40.23 O +ATOM 4689 CB THR A 193 -4.162 9.689 78.089 1.00 44.39 C +ATOM 4690 OG1 THR A 193 -4.675 10.549 77.061 1.00 45.14 O +ATOM 4691 CG2 THR A 193 -2.878 10.286 78.630 1.00 46.11 C +ATOM 4692 N PHE A 194 -3.776 6.825 79.454 1.00 39.46 N +ATOM 4693 CA PHE A 194 -3.050 5.975 80.392 1.00 40.58 C +ATOM 4694 C PHE A 194 -2.446 4.764 79.690 1.00 42.54 C +ATOM 4695 O PHE A 194 -1.342 4.325 80.034 1.00 43.36 O +ATOM 4696 CB PHE A 194 -3.964 5.536 81.534 1.00 41.73 C +ATOM 4697 CG PHE A 194 -3.231 4.838 82.640 1.00 45.40 C +ATOM 4698 CD1 PHE A 194 -2.615 5.570 83.648 1.00 48.16 C +ATOM 4699 CD2 PHE A 194 -3.137 3.455 82.666 1.00 44.87 C +ATOM 4700 CE1 PHE A 194 -1.917 4.936 84.667 1.00 48.04 C +ATOM 4701 CE2 PHE A 194 -2.444 2.814 83.679 1.00 46.76 C +ATOM 4702 CZ PHE A 194 -1.832 3.559 84.683 1.00 49.55 C +ATOM 4703 N LEU A 195 -3.158 4.212 78.703 1.00 41.11 N +ATOM 4704 CA LEU A 195 -2.636 3.078 77.945 1.00 38.34 C +ATOM 4705 C LEU A 195 -1.449 3.485 77.077 1.00 35.19 C +ATOM 4706 O LEU A 195 -0.455 2.756 76.993 1.00 32.65 O +ATOM 4707 CB LEU A 195 -3.751 2.479 77.089 1.00 39.98 C +ATOM 4708 CG LEU A 195 -3.506 1.179 76.326 1.00 45.22 C +ATOM 4709 CD1 LEU A 195 -3.661 -0.015 77.239 1.00 47.15 C +ATOM 4710 CD2 LEU A 195 -4.472 1.075 75.161 1.00 49.59 C +ATOM 4711 N VAL A 196 -1.538 4.633 76.406 1.00 38.52 N +ATOM 4712 CA VAL A 196 -0.440 5.071 75.545 1.00 41.71 C +ATOM 4713 C VAL A 196 0.802 5.359 76.374 1.00 43.05 C +ATOM 4714 O VAL A 196 1.929 5.066 75.953 1.00 45.71 O +ATOM 4715 CB VAL A 196 -0.862 6.299 74.716 1.00 41.50 C +ATOM 4716 CG1 VAL A 196 0.356 6.935 74.048 1.00 41.50 C +ATOM 4717 CG2 VAL A 196 -1.863 5.893 73.673 1.00 42.86 C +ATOM 4718 N ASP A 197 0.614 5.912 77.573 1.00 43.55 N +ATOM 4719 CA ASP A 197 1.746 6.207 78.446 1.00 44.18 C +ATOM 4720 C ASP A 197 2.455 4.934 78.887 1.00 43.13 C +ATOM 4721 O ASP A 197 3.690 4.884 78.915 1.00 43.08 O +ATOM 4722 CB ASP A 197 1.274 6.999 79.665 1.00 45.51 C +ATOM 4723 CG ASP A 197 0.926 8.441 79.337 1.00 50.45 C +ATOM 4724 OD1 ASP A 197 1.038 8.847 78.159 1.00 54.72 O +ATOM 4725 OD2 ASP A 197 0.554 9.178 80.273 1.00 54.13 O +ATOM 4726 N LEU A 198 1.691 3.886 79.210 1.00 40.85 N +ATOM 4727 CA LEU A 198 2.295 2.595 79.525 1.00 39.81 C +ATOM 4728 C LEU A 198 3.197 2.118 78.398 1.00 40.00 C +ATOM 4729 O LEU A 198 4.212 1.465 78.655 1.00 42.56 O +ATOM 4730 CB LEU A 198 1.208 1.552 79.812 1.00 37.46 C +ATOM 4731 CG LEU A 198 0.430 1.613 81.123 1.00 36.62 C +ATOM 4732 CD1 LEU A 198 -0.636 0.519 81.152 1.00 37.75 C +ATOM 4733 CD2 LEU A 198 1.369 1.468 82.304 1.00 38.87 C +ATOM 4734 N ILE A 199 2.850 2.437 77.149 1.00 37.68 N +ATOM 4735 CA ILE A 199 3.684 2.034 76.025 1.00 39.35 C +ATOM 4736 C ILE A 199 4.845 3.005 75.838 1.00 41.34 C +ATOM 4737 O ILE A 199 5.985 2.586 75.597 1.00 42.16 O +ATOM 4738 CB ILE A 199 2.825 1.910 74.755 1.00 39.11 C +ATOM 4739 CG1 ILE A 199 1.811 0.785 74.931 1.00 37.32 C +ATOM 4740 CG2 ILE A 199 3.706 1.664 73.540 1.00 41.64 C +ATOM 4741 CD1 ILE A 199 0.809 0.684 73.808 1.00 40.13 C +ATOM 4742 N LYS A 200 4.580 4.311 75.972 1.00 43.47 N +ATOM 4743 CA LYS A 200 5.649 5.299 75.871 1.00 46.23 C +ATOM 4744 C LYS A 200 6.769 4.994 76.857 1.00 46.71 C +ATOM 4745 O LYS A 200 7.956 5.100 76.518 1.00 45.90 O +ATOM 4746 CB LYS A 200 5.096 6.702 76.135 1.00 50.94 C +ATOM 4747 CG LYS A 200 4.225 7.290 75.040 1.00 55.55 C +ATOM 4748 CD LYS A 200 3.957 8.772 75.314 1.00 59.43 C +ATOM 4749 CE LYS A 200 2.993 9.385 74.296 1.00 62.18 C +ATOM 4750 NZ LYS A 200 3.415 9.210 72.878 1.00 64.36 N +ATOM 4751 N ASN A 201 6.406 4.593 78.078 1.00 45.14 N +ATOM 4752 CA ASN A 201 7.360 4.282 79.133 1.00 44.74 C +ATOM 4753 C ASN A 201 7.797 2.817 79.129 1.00 44.67 C +ATOM 4754 O ASN A 201 8.356 2.345 80.124 1.00 45.77 O +ATOM 4755 CB ASN A 201 6.770 4.673 80.488 1.00 43.01 C +ATOM 4756 CG ASN A 201 6.411 6.147 80.558 1.00 43.81 C +ATOM 4757 OD1 ASN A 201 5.332 6.520 81.014 1.00 46.93 O +ATOM 4758 ND2 ASN A 201 7.313 6.991 80.101 1.00 46.39 N +ATOM 4759 N LYS A 202 7.556 2.100 78.032 1.00 44.50 N +ATOM 4760 CA LYS A 202 8.095 0.756 77.806 1.00 43.49 C +ATOM 4761 C LYS A 202 7.613 -0.248 78.856 1.00 42.04 C +ATOM 4762 O LYS A 202 8.254 -1.274 79.094 1.00 42.26 O +ATOM 4763 CB LYS A 202 9.630 0.795 77.735 1.00 43.05 C +ATOM 4764 CG LYS A 202 10.134 1.715 76.619 1.00 44.72 C +ATOM 4765 CD LYS A 202 11.662 1.810 76.525 1.00 47.11 C +ATOM 4766 CE LYS A 202 12.053 2.731 75.372 1.00 48.59 C +ATOM 4767 NZ LYS A 202 13.515 2.792 75.098 1.00 51.61 N +ATOM 4768 N HIS A 203 6.458 0.016 79.469 1.00 41.03 N +ATOM 4769 CA HIS A 203 5.823 -0.985 80.320 1.00 39.65 C +ATOM 4770 C HIS A 203 4.991 -1.976 79.514 1.00 39.92 C +ATOM 4771 O HIS A 203 4.715 -3.080 79.995 1.00 38.84 O +ATOM 4772 CB HIS A 203 4.952 -0.307 81.375 1.00 45.72 C +ATOM 4773 CG HIS A 203 5.703 0.638 82.264 1.00 51.10 C +ATOM 4774 ND1 HIS A 203 6.764 0.241 83.050 1.00 51.98 N +ATOM 4775 CD2 HIS A 203 5.534 1.960 82.503 1.00 52.12 C +ATOM 4776 CE1 HIS A 203 7.226 1.281 83.721 1.00 51.33 C +ATOM 4777 NE2 HIS A 203 6.496 2.336 83.409 1.00 51.46 N +ATOM 4778 N MET A 204 4.598 -1.612 78.295 1.00 37.53 N +ATOM 4779 CA MET A 204 3.957 -2.537 77.379 1.00 38.79 C +ATOM 4780 C MET A 204 4.472 -2.240 75.986 1.00 39.89 C +ATOM 4781 O MET A 204 5.088 -1.200 75.733 1.00 37.23 O +ATOM 4782 CB MET A 204 2.422 -2.436 77.403 1.00 40.51 C +ATOM 4783 CG MET A 204 1.752 -2.918 78.674 1.00 40.90 C +ATOM 4784 SD MET A 204 -0.043 -3.086 78.485 1.00 46.39 S +ATOM 4785 CE MET A 204 -0.490 -1.472 77.861 1.00 44.38 C +ATOM 4786 N ASN A 205 4.195 -3.170 75.082 1.00 40.95 N +ATOM 4787 CA ASN A 205 4.614 -3.098 73.695 1.00 45.67 C +ATOM 4788 C ASN A 205 3.378 -2.985 72.820 1.00 48.24 C +ATOM 4789 O ASN A 205 2.432 -3.763 72.975 1.00 50.30 O +ATOM 4790 CB ASN A 205 5.442 -4.327 73.321 1.00 49.74 C +ATOM 4791 CG ASN A 205 5.896 -4.301 71.890 1.00 56.23 C +ATOM 4792 OD1 ASN A 205 5.358 -5.016 71.042 1.00 57.07 O +ATOM 4793 ND2 ASN A 205 6.859 -3.441 71.595 1.00 61.81 N +ATOM 4794 N ALA A 206 3.390 -2.015 71.905 1.00 46.14 N +ATOM 4795 CA ALA A 206 2.225 -1.742 71.074 1.00 43.35 C +ATOM 4796 C ALA A 206 1.856 -2.908 70.165 1.00 43.26 C +ATOM 4797 O ALA A 206 0.693 -3.015 69.756 1.00 44.85 O +ATOM 4798 CB ALA A 206 2.484 -0.493 70.232 1.00 40.56 C +ATOM 4799 N ASP A 207 2.806 -3.793 69.860 1.00 40.77 N +ATOM 4800 CA ASP A 207 2.586 -4.892 68.925 1.00 44.04 C +ATOM 4801 C ASP A 207 1.966 -6.134 69.557 1.00 39.97 C +ATOM 4802 O ASP A 207 1.560 -7.038 68.817 1.00 39.03 O +ATOM 4803 CB ASP A 207 3.915 -5.293 68.267 1.00 51.92 C +ATOM 4804 CG ASP A 207 4.505 -4.187 67.411 1.00 60.42 C +ATOM 4805 OD1 ASP A 207 3.728 -3.419 66.803 1.00 60.69 O +ATOM 4806 OD2 ASP A 207 5.753 -4.089 67.349 1.00 66.68 O +ATOM 4807 N THR A 208 1.848 -6.181 70.886 1.00 34.91 N +ATOM 4808 CA THR A 208 1.394 -7.384 71.569 1.00 37.07 C +ATOM 4809 C THR A 208 -0.014 -7.750 71.132 1.00 37.75 C +ATOM 4810 O THR A 208 -0.925 -6.919 71.178 1.00 35.86 O +ATOM 4811 CB THR A 208 1.412 -7.180 73.089 1.00 38.10 C +ATOM 4812 OG1 THR A 208 2.717 -6.767 73.510 1.00 39.55 O +ATOM 4813 CG2 THR A 208 1.028 -8.465 73.813 1.00 34.87 C +ATOM 4814 N ASP A 209 -0.190 -9.002 70.714 1.00 38.29 N +ATOM 4815 CA ASP A 209 -1.485 -9.520 70.298 1.00 38.29 C +ATOM 4816 C ASP A 209 -1.888 -10.667 71.224 1.00 34.48 C +ATOM 4817 O ASP A 209 -1.293 -10.870 72.286 1.00 33.74 O +ATOM 4818 CB ASP A 209 -1.466 -9.941 68.823 1.00 38.02 C +ATOM 4819 CG ASP A 209 -0.482 -11.075 68.534 1.00 41.24 C +ATOM 4820 OD1 ASP A 209 0.081 -11.661 69.483 1.00 42.45 O +ATOM 4821 OD2 ASP A 209 -0.288 -11.393 67.340 1.00 44.49 O +ATOM 4822 N TYR A 210 -2.917 -11.416 70.816 1.00 34.54 N +ATOM 4823 CA TYR A 210 -3.451 -12.475 71.671 1.00 33.97 C +ATOM 4824 C TYR A 210 -2.422 -13.579 71.890 1.00 36.07 C +ATOM 4825 O TYR A 210 -2.123 -13.950 73.033 1.00 37.96 O +ATOM 4826 CB TYR A 210 -4.740 -13.043 71.058 1.00 33.17 C +ATOM 4827 CG TYR A 210 -5.500 -13.967 71.988 1.00 32.26 C +ATOM 4828 CD1 TYR A 210 -5.142 -15.306 72.120 1.00 32.24 C +ATOM 4829 CD2 TYR A 210 -6.569 -13.499 72.739 1.00 33.11 C +ATOM 4830 CE1 TYR A 210 -5.819 -16.147 72.974 1.00 33.43 C +ATOM 4831 CE2 TYR A 210 -7.260 -14.337 73.601 1.00 35.19 C +ATOM 4832 CZ TYR A 210 -6.880 -15.660 73.716 1.00 36.68 C +ATOM 4833 OH TYR A 210 -7.556 -16.499 74.574 1.00 37.30 O +ATOM 4834 N SER A 211 -1.832 -14.087 70.801 1.00 36.79 N +ATOM 4835 CA SER A 211 -0.917 -15.223 70.913 1.00 40.48 C +ATOM 4836 C SER A 211 0.320 -14.869 71.724 1.00 36.86 C +ATOM 4837 O SER A 211 0.781 -15.671 72.544 1.00 36.98 O +ATOM 4838 CB SER A 211 -0.513 -15.718 69.523 1.00 44.14 C +ATOM 4839 OG SER A 211 -1.646 -16.198 68.825 1.00 50.23 O +ATOM 4840 N ILE A 212 0.862 -13.670 71.512 1.00 34.78 N +ATOM 4841 CA ILE A 212 2.087 -13.266 72.191 1.00 33.59 C +ATOM 4842 C ILE A 212 1.852 -13.145 73.691 1.00 34.03 C +ATOM 4843 O ILE A 212 2.650 -13.634 74.502 1.00 32.74 O +ATOM 4844 CB ILE A 212 2.619 -11.953 71.586 1.00 37.37 C +ATOM 4845 CG1 ILE A 212 3.138 -12.202 70.165 1.00 39.90 C +ATOM 4846 CG2 ILE A 212 3.717 -11.361 72.471 1.00 41.39 C +ATOM 4847 CD1 ILE A 212 3.571 -10.949 69.420 1.00 39.74 C +ATOM 4848 N ALA A 213 0.747 -12.502 74.085 1.00 35.91 N +ATOM 4849 CA ALA A 213 0.454 -12.365 75.510 1.00 30.96 C +ATOM 4850 C ALA A 213 0.163 -13.716 76.141 1.00 31.67 C +ATOM 4851 O ALA A 213 0.567 -13.973 77.280 1.00 31.12 O +ATOM 4852 CB ALA A 213 -0.722 -11.416 75.721 1.00 35.05 C +ATOM 4853 N GLU A 214 -0.545 -14.591 75.424 1.00 34.66 N +ATOM 4854 CA GLU A 214 -0.845 -15.913 75.966 1.00 35.88 C +ATOM 4855 C GLU A 214 0.430 -16.714 76.188 1.00 39.55 C +ATOM 4856 O GLU A 214 0.644 -17.280 77.270 1.00 37.69 O +ATOM 4857 CB GLU A 214 -1.797 -16.666 75.031 1.00 34.54 C +ATOM 4858 CG GLU A 214 -2.116 -18.074 75.510 1.00 36.64 C +ATOM 4859 CD GLU A 214 -3.063 -18.818 74.591 1.00 41.32 C +ATOM 4860 OE1 GLU A 214 -2.916 -18.699 73.362 1.00 43.83 O +ATOM 4861 OE2 GLU A 214 -3.962 -19.520 75.101 1.00 43.37 O +ATOM 4862 N ALA A 215 1.309 -16.745 75.183 1.00 43.14 N +ATOM 4863 CA ALA A 215 2.568 -17.461 75.348 1.00 41.01 C +ATOM 4864 C ALA A 215 3.363 -16.892 76.514 1.00 41.55 C +ATOM 4865 O ALA A 215 3.898 -17.645 77.333 1.00 42.17 O +ATOM 4866 CB ALA A 215 3.378 -17.400 74.061 1.00 41.53 C +ATOM 4867 N ALA A 216 3.397 -15.562 76.642 1.00 39.70 N +ATOM 4868 CA ALA A 216 4.191 -14.945 77.700 1.00 38.76 C +ATOM 4869 C ALA A 216 3.647 -15.281 79.086 1.00 37.72 C +ATOM 4870 O ALA A 216 4.422 -15.605 79.991 1.00 41.80 O +ATOM 4871 CB ALA A 216 4.247 -13.434 77.497 1.00 39.40 C +ATOM 4872 N PHE A 217 2.320 -15.227 79.276 1.00 35.63 N +ATOM 4873 CA PHE A 217 1.776 -15.569 80.586 1.00 34.56 C +ATOM 4874 C PHE A 217 1.918 -17.062 80.855 1.00 34.32 C +ATOM 4875 O PHE A 217 2.285 -17.468 81.963 1.00 35.60 O +ATOM 4876 CB PHE A 217 0.301 -15.148 80.698 1.00 33.13 C +ATOM 4877 CG PHE A 217 -0.275 -15.350 82.072 1.00 33.53 C +ATOM 4878 CD1 PHE A 217 -0.890 -16.543 82.415 1.00 33.27 C +ATOM 4879 CD2 PHE A 217 -0.157 -14.361 83.041 1.00 33.23 C +ATOM 4880 CE1 PHE A 217 -1.390 -16.743 83.687 1.00 33.77 C +ATOM 4881 CE2 PHE A 217 -0.662 -14.551 84.320 1.00 35.35 C +ATOM 4882 CZ PHE A 217 -1.282 -15.742 84.642 1.00 35.37 C +ATOM 4883 N ASN A 218 1.647 -17.895 79.850 1.00 33.64 N +ATOM 4884 CA ASN A 218 1.697 -19.333 80.066 1.00 39.52 C +ATOM 4885 C ASN A 218 3.124 -19.866 80.199 1.00 43.41 C +ATOM 4886 O ASN A 218 3.302 -20.997 80.661 1.00 48.03 O +ATOM 4887 CB ASN A 218 0.938 -20.030 78.936 1.00 37.43 C +ATOM 4888 CG ASN A 218 -0.560 -19.755 79.005 1.00 39.08 C +ATOM 4889 OD1 ASN A 218 -1.008 -18.970 79.841 1.00 39.39 O +ATOM 4890 ND2 ASN A 218 -1.333 -20.377 78.120 1.00 39.07 N +ATOM 4891 N LYS A 219 4.137 -19.062 79.888 1.00 40.45 N +ATOM 4892 CA LYS A 219 5.522 -19.449 80.120 1.00 44.51 C +ATOM 4893 C LYS A 219 6.092 -18.795 81.372 1.00 41.25 C +ATOM 4894 O LYS A 219 7.279 -18.960 81.654 1.00 42.33 O +ATOM 4895 CB LYS A 219 6.380 -19.087 78.910 1.00 45.05 C +ATOM 4896 CG LYS A 219 6.031 -19.869 77.667 1.00 49.50 C +ATOM 4897 CD LYS A 219 6.925 -19.487 76.507 1.00 56.34 C +ATOM 4898 CE LYS A 219 6.547 -20.269 75.253 1.00 60.91 C +ATOM 4899 NZ LYS A 219 7.624 -20.247 74.227 1.00 65.93 N +ATOM 4900 N GLY A 220 5.268 -18.068 82.126 1.00 36.40 N +ATOM 4901 CA GLY A 220 5.716 -17.439 83.357 1.00 38.76 C +ATOM 4902 C GLY A 220 6.587 -16.221 83.159 1.00 42.22 C +ATOM 4903 O GLY A 220 7.333 -15.846 84.070 1.00 46.68 O +ATOM 4904 N GLU A 221 6.500 -15.579 81.999 1.00 44.04 N +ATOM 4905 CA GLU A 221 7.323 -14.419 81.690 1.00 44.49 C +ATOM 4906 C GLU A 221 6.674 -13.105 82.109 1.00 41.39 C +ATOM 4907 O GLU A 221 7.390 -12.125 82.355 1.00 41.06 O +ATOM 4908 CB GLU A 221 7.622 -14.400 80.192 1.00 48.56 C +ATOM 4909 CG GLU A 221 8.535 -15.528 79.753 1.00 52.53 C +ATOM 4910 CD GLU A 221 8.666 -15.620 78.246 1.00 57.22 C +ATOM 4911 OE1 GLU A 221 7.905 -14.923 77.539 1.00 58.68 O +ATOM 4912 OE2 GLU A 221 9.516 -16.402 77.770 1.00 58.77 O +ATOM 4913 N THR A 222 5.342 -13.057 82.196 1.00 36.05 N +ATOM 4914 CA THR A 222 4.637 -11.877 82.676 1.00 38.08 C +ATOM 4915 C THR A 222 3.688 -12.273 83.800 1.00 38.32 C +ATOM 4916 O THR A 222 3.084 -13.352 83.782 1.00 38.60 O +ATOM 4917 CB THR A 222 3.863 -11.157 81.542 1.00 42.52 C +ATOM 4918 OG1 THR A 222 3.291 -9.944 82.046 1.00 43.24 O +ATOM 4919 CG2 THR A 222 2.742 -12.042 80.977 1.00 38.79 C +ATOM 4920 N ALA A 223 3.545 -11.370 84.775 1.00 34.33 N +ATOM 4921 CA ALA A 223 2.808 -11.683 85.995 1.00 35.22 C +ATOM 4922 C ALA A 223 1.305 -11.542 85.840 1.00 33.92 C +ATOM 4923 O ALA A 223 0.559 -12.059 86.676 1.00 30.33 O +ATOM 4924 CB ALA A 223 3.273 -10.788 87.149 1.00 35.09 C +ATOM 4925 N MET A 224 0.837 -10.844 84.810 1.00 32.89 N +ATOM 4926 CA MET A 224 -0.592 -10.648 84.636 1.00 34.24 C +ATOM 4927 C MET A 224 -0.947 -10.677 83.159 1.00 32.37 C +ATOM 4928 O MET A 224 -0.110 -10.413 82.293 1.00 32.37 O +ATOM 4929 CB MET A 224 -1.073 -9.331 85.250 1.00 34.30 C +ATOM 4930 CG MET A 224 -0.979 -9.272 86.771 1.00 38.89 C +ATOM 4931 SD MET A 224 -1.500 -7.659 87.361 1.00 38.24 S +ATOM 4932 CE MET A 224 -0.132 -6.642 86.813 1.00 34.22 C +ATOM 4933 N THR A 225 -2.197 -11.044 82.895 1.00 29.60 N +ATOM 4934 CA THR A 225 -2.813 -10.871 81.588 1.00 32.18 C +ATOM 4935 C THR A 225 -4.296 -10.583 81.819 1.00 30.05 C +ATOM 4936 O THR A 225 -4.796 -10.657 82.947 1.00 29.26 O +ATOM 4937 CB THR A 225 -2.597 -12.095 80.686 1.00 33.15 C +ATOM 4938 OG1 THR A 225 -3.083 -11.814 79.365 1.00 33.37 O +ATOM 4939 CG2 THR A 225 -3.320 -13.313 81.231 1.00 34.12 C +ATOM 4940 N ILE A 226 -4.979 -10.222 80.738 1.00 29.41 N +ATOM 4941 CA ILE A 226 -6.402 -9.917 80.731 1.00 27.72 C +ATOM 4942 C ILE A 226 -7.036 -10.806 79.671 1.00 27.17 C +ATOM 4943 O ILE A 226 -6.684 -10.706 78.497 1.00 26.45 O +ATOM 4944 CB ILE A 226 -6.671 -8.435 80.412 1.00 28.44 C +ATOM 4945 CG1 ILE A 226 -6.137 -7.535 81.529 1.00 36.06 C +ATOM 4946 CG2 ILE A 226 -8.165 -8.189 80.242 1.00 26.94 C +ATOM 4947 CD1 ILE A 226 -6.141 -6.057 81.178 1.00 35.90 C +ATOM 4948 N ASN A 227 -7.947 -11.684 80.078 1.00 27.12 N +ATOM 4949 CA ASN A 227 -8.532 -12.628 79.132 1.00 26.41 C +ATOM 4950 C ASN A 227 -9.835 -13.159 79.718 1.00 25.43 C +ATOM 4951 O ASN A 227 -10.171 -12.894 80.872 1.00 27.00 O +ATOM 4952 CB ASN A 227 -7.561 -13.771 78.813 1.00 26.30 C +ATOM 4953 CG ASN A 227 -7.583 -14.161 77.341 1.00 32.33 C +ATOM 4954 OD1 ASN A 227 -8.624 -14.135 76.713 1.00 30.36 O +ATOM 4955 ND2 ASN A 227 -6.425 -14.513 76.792 1.00 26.89 N +ATOM 4956 N GLY A 228 -10.563 -13.923 78.904 1.00 28.40 N +ATOM 4957 CA GLY A 228 -11.822 -14.501 79.314 1.00 27.64 C +ATOM 4958 C GLY A 228 -11.737 -15.989 79.591 1.00 27.46 C +ATOM 4959 O GLY A 228 -10.675 -16.608 79.466 1.00 25.41 O +ATOM 4960 N PRO A 229 -12.886 -16.599 79.910 1.00 27.65 N +ATOM 4961 CA PRO A 229 -12.891 -18.005 80.356 1.00 26.46 C +ATOM 4962 C PRO A 229 -12.375 -18.997 79.339 1.00 26.23 C +ATOM 4963 O PRO A 229 -11.861 -20.054 79.734 1.00 25.64 O +ATOM 4964 CB PRO A 229 -14.375 -18.265 80.668 1.00 24.59 C +ATOM 4965 CG PRO A 229 -14.952 -16.921 80.894 1.00 25.69 C +ATOM 4966 CD PRO A 229 -14.228 -15.993 79.991 1.00 24.84 C +ATOM 4967 N TRP A 230 -12.515 -18.710 78.041 1.00 25.05 N +ATOM 4968 CA TRP A 230 -11.999 -19.617 77.030 1.00 30.70 C +ATOM 4969 C TRP A 230 -10.498 -19.868 77.194 1.00 32.22 C +ATOM 4970 O TRP A 230 -10.006 -20.913 76.752 1.00 31.58 O +ATOM 4971 CB TRP A 230 -12.283 -19.047 75.626 1.00 29.58 C +ATOM 4972 CG TRP A 230 -11.774 -17.647 75.506 1.00 27.51 C +ATOM 4973 CD1 TRP A 230 -10.503 -17.268 75.195 1.00 27.73 C +ATOM 4974 CD2 TRP A 230 -12.513 -16.437 75.718 1.00 24.99 C +ATOM 4975 NE1 TRP A 230 -10.403 -15.899 75.198 1.00 28.74 N +ATOM 4976 CE2 TRP A 230 -11.620 -15.365 75.527 1.00 25.22 C +ATOM 4977 CE3 TRP A 230 -13.837 -16.158 76.069 1.00 24.52 C +ATOM 4978 CZ2 TRP A 230 -12.010 -14.035 75.660 1.00 25.16 C +ATOM 4979 CZ3 TRP A 230 -14.227 -14.833 76.196 1.00 24.54 C +ATOM 4980 CH2 TRP A 230 -13.317 -13.790 75.986 1.00 24.83 C +ATOM 4981 N ALA A 231 -9.761 -18.947 77.821 1.00 28.97 N +ATOM 4982 CA ALA A 231 -8.308 -19.062 77.890 1.00 33.65 C +ATOM 4983 C ALA A 231 -7.805 -19.931 79.041 1.00 33.49 C +ATOM 4984 O ALA A 231 -6.616 -20.270 79.049 1.00 32.27 O +ATOM 4985 CB ALA A 231 -7.665 -17.672 78.005 1.00 32.53 C +ATOM 4986 N TRP A 232 -8.669 -20.304 79.993 1.00 32.27 N +ATOM 4987 CA TRP A 232 -8.217 -20.992 81.207 1.00 33.38 C +ATOM 4988 C TRP A 232 -7.651 -22.386 80.933 1.00 34.79 C +ATOM 4989 O TRP A 232 -6.807 -22.868 81.694 1.00 36.82 O +ATOM 4990 CB TRP A 232 -9.367 -21.104 82.214 1.00 28.87 C +ATOM 4991 CG TRP A 232 -9.953 -19.791 82.685 1.00 26.72 C +ATOM 4992 CD1 TRP A 232 -9.347 -18.559 82.691 1.00 27.80 C +ATOM 4993 CD2 TRP A 232 -11.266 -19.590 83.231 1.00 26.79 C +ATOM 4994 NE1 TRP A 232 -10.210 -17.609 83.206 1.00 25.41 N +ATOM 4995 CE2 TRP A 232 -11.388 -18.216 83.546 1.00 25.07 C +ATOM 4996 CE3 TRP A 232 -12.347 -20.436 83.479 1.00 24.98 C +ATOM 4997 CZ2 TRP A 232 -12.549 -17.672 84.093 1.00 31.27 C +ATOM 4998 CZ3 TRP A 232 -13.506 -19.890 84.036 1.00 30.12 C +ATOM 4999 CH2 TRP A 232 -13.597 -18.524 84.326 1.00 29.91 C +ATOM 5000 N SER A 233 -8.134 -23.061 79.888 1.00 30.07 N +ATOM 5001 CA ASER A 233 -7.681 -24.420 79.598 0.50 35.41 C +ATOM 5002 C SER A 233 -6.198 -24.452 79.252 1.00 37.23 C +ATOM 5003 O SER A 233 -5.456 -25.325 79.722 1.00 39.48 O +ATOM 5004 CB ASER A 233 -8.507 -25.011 78.453 0.50 36.64 C +ATOM 5005 OG ASER A 233 -9.528 -25.853 78.948 0.50 37.68 O +ATOM 5006 N ASN A 234 -5.743 -23.515 78.421 1.00 37.84 N +ATOM 5007 CA ASN A 234 -4.325 -23.509 78.079 1.00 38.06 C +ATOM 5008 C ASN A 234 -3.469 -23.134 79.278 1.00 38.52 C +ATOM 5009 O ASN A 234 -2.310 -23.557 79.364 1.00 38.19 O +ATOM 5010 CB ASN A 234 -4.055 -22.565 76.915 1.00 33.03 C +ATOM 5011 CG ASN A 234 -4.545 -23.122 75.601 1.00 37.18 C +ATOM 5012 OD1 ASN A 234 -4.903 -24.300 75.509 1.00 38.59 O +ATOM 5013 ND2 ASN A 234 -4.572 -22.282 74.576 1.00 37.11 N +ATOM 5014 N ILE A 235 -4.007 -22.347 80.210 1.00 34.84 N +ATOM 5015 CA ILE A 235 -3.228 -22.043 81.407 1.00 36.18 C +ATOM 5016 C ILE A 235 -3.106 -23.280 82.288 1.00 37.89 C +ATOM 5017 O ILE A 235 -2.045 -23.541 82.870 1.00 38.61 O +ATOM 5018 CB ILE A 235 -3.838 -20.864 82.177 1.00 33.20 C +ATOM 5019 CG1 ILE A 235 -4.261 -19.759 81.206 1.00 36.93 C +ATOM 5020 CG2 ILE A 235 -2.793 -20.293 83.116 1.00 33.88 C +ATOM 5021 CD1 ILE A 235 -4.794 -18.499 81.878 1.00 36.05 C +ATOM 5022 N ASP A 236 -4.176 -24.079 82.371 1.00 36.79 N +ATOM 5023 CA ASP A 236 -4.118 -25.340 83.105 1.00 40.28 C +ATOM 5024 C ASP A 236 -3.042 -26.261 82.539 1.00 40.83 C +ATOM 5025 O ASP A 236 -2.314 -26.914 83.294 1.00 42.02 O +ATOM 5026 CB ASP A 236 -5.476 -26.041 83.056 1.00 42.87 C +ATOM 5027 CG ASP A 236 -6.562 -25.279 83.800 1.00 45.43 C +ATOM 5028 OD1 ASP A 236 -6.242 -24.256 84.438 1.00 46.91 O +ATOM 5029 OD2 ASP A 236 -7.738 -25.708 83.743 1.00 46.51 O +ATOM 5030 N THR A 237 -2.921 -26.313 81.207 1.00 41.98 N +ATOM 5031 CA THR A 237 -1.929 -27.169 80.564 1.00 42.89 C +ATOM 5032 C THR A 237 -0.509 -26.724 80.885 1.00 45.16 C +ATOM 5033 O THR A 237 0.397 -27.562 80.990 1.00 45.82 O +ATOM 5034 CB THR A 237 -2.144 -27.162 79.048 1.00 43.61 C +ATOM 5035 OG1 THR A 237 -3.494 -27.534 78.757 1.00 45.17 O +ATOM 5036 CG2 THR A 237 -1.201 -28.128 78.354 1.00 39.87 C +ATOM 5037 N SER A 238 -0.294 -25.415 81.027 1.00 45.81 N +ATOM 5038 CA SER A 238 1.024 -24.865 81.315 1.00 44.96 C +ATOM 5039 C SER A 238 1.437 -25.033 82.774 1.00 46.61 C +ATOM 5040 O SER A 238 2.608 -24.798 83.091 1.00 48.38 O +ATOM 5041 CB SER A 238 1.066 -23.382 80.939 1.00 42.30 C +ATOM 5042 OG SER A 238 0.248 -22.616 81.807 1.00 44.05 O +ATOM 5043 N LYS A 239 0.512 -25.410 83.661 1.00 44.18 N +ATOM 5044 CA LYS A 239 0.747 -25.649 85.088 1.00 45.91 C +ATOM 5045 C LYS A 239 1.100 -24.386 85.871 1.00 45.22 C +ATOM 5046 O LYS A 239 1.426 -24.477 87.067 1.00 43.83 O +ATOM 5047 CB LYS A 239 1.835 -26.706 85.320 1.00 49.94 C +ATOM 5048 CG LYS A 239 1.592 -28.023 84.594 1.00 55.40 C +ATOM 5049 CD LYS A 239 2.872 -28.851 84.503 1.00 59.88 C +ATOM 5050 CE LYS A 239 2.698 -30.064 83.592 1.00 64.12 C +ATOM 5051 NZ LYS A 239 4.009 -30.711 83.245 1.00 66.48 N +ATOM 5052 N VAL A 240 1.043 -23.209 85.242 1.00 44.59 N +ATOM 5053 CA VAL A 240 1.189 -21.957 85.972 1.00 44.79 C +ATOM 5054 C VAL A 240 0.166 -21.880 87.097 1.00 43.69 C +ATOM 5055 O VAL A 240 -1.013 -22.209 86.921 1.00 43.27 O +ATOM 5056 CB VAL A 240 1.038 -20.769 85.007 1.00 46.82 C +ATOM 5057 CG1 VAL A 240 0.840 -19.464 85.772 1.00 46.71 C +ATOM 5058 CG2 VAL A 240 2.243 -20.673 84.103 1.00 46.73 C +ATOM 5059 N ASN A 241 0.614 -21.432 88.266 1.00 44.38 N +ATOM 5060 CA ASN A 241 -0.253 -21.301 89.435 1.00 45.55 C +ATOM 5061 C ASN A 241 -0.967 -19.956 89.365 1.00 42.75 C +ATOM 5062 O ASN A 241 -0.522 -18.961 89.943 1.00 42.58 O +ATOM 5063 CB ASN A 241 0.560 -21.429 90.717 1.00 50.46 C +ATOM 5064 CG ASN A 241 -0.290 -21.293 91.951 1.00 54.55 C +ATOM 5065 OD1 ASN A 241 -1.488 -21.577 91.923 1.00 56.59 O +ATOM 5066 ND2 ASN A 241 0.317 -20.841 93.043 1.00 57.33 N +ATOM 5067 N TYR A 242 -2.109 -19.924 88.678 1.00 38.83 N +ATOM 5068 CA TYR A 242 -2.752 -18.664 88.331 1.00 35.68 C +ATOM 5069 C TYR A 242 -4.013 -18.417 89.148 1.00 37.17 C +ATOM 5070 O TYR A 242 -4.647 -19.339 89.673 1.00 39.53 O +ATOM 5071 CB TYR A 242 -3.091 -18.615 86.830 1.00 32.83 C +ATOM 5072 CG TYR A 242 -4.220 -19.533 86.408 1.00 34.78 C +ATOM 5073 CD1 TYR A 242 -3.982 -20.872 86.123 1.00 30.46 C +ATOM 5074 CD2 TYR A 242 -5.533 -19.062 86.317 1.00 35.58 C +ATOM 5075 CE1 TYR A 242 -5.006 -21.709 85.731 1.00 32.61 C +ATOM 5076 CE2 TYR A 242 -6.574 -19.897 85.927 1.00 33.25 C +ATOM 5077 CZ TYR A 242 -6.306 -21.222 85.643 1.00 34.48 C +ATOM 5078 OH TYR A 242 -7.327 -22.059 85.262 1.00 33.85 O +ATOM 5079 N GLY A 243 -4.390 -17.137 89.215 1.00 34.19 N +ATOM 5080 CA GLY A 243 -5.639 -16.744 89.827 1.00 32.57 C +ATOM 5081 C GLY A 243 -6.422 -15.830 88.903 1.00 33.44 C +ATOM 5082 O GLY A 243 -5.876 -15.223 87.979 1.00 32.07 O +ATOM 5083 N VAL A 244 -7.728 -15.758 89.163 1.00 37.56 N +ATOM 5084 CA VAL A 244 -8.683 -14.956 88.397 1.00 36.06 C +ATOM 5085 C VAL A 244 -9.408 -14.028 89.369 1.00 34.80 C +ATOM 5086 O VAL A 244 -10.054 -14.499 90.313 1.00 33.79 O +ATOM 5087 CB VAL A 244 -9.688 -15.844 87.647 1.00 36.70 C +ATOM 5088 CG1 VAL A 244 -10.693 -14.997 86.874 1.00 37.14 C +ATOM 5089 CG2 VAL A 244 -8.975 -16.816 86.736 1.00 35.97 C +ATOM 5090 N THR A 245 -9.335 -12.722 89.128 1.00 32.34 N +ATOM 5091 CA THR A 245 -9.857 -11.770 90.094 1.00 32.49 C +ATOM 5092 C THR A 245 -10.392 -10.553 89.347 1.00 32.32 C +ATOM 5093 O THR A 245 -10.492 -10.550 88.118 1.00 32.15 O +ATOM 5094 CB THR A 245 -8.774 -11.404 91.125 1.00 37.04 C +ATOM 5095 OG1 THR A 245 -9.345 -10.589 92.163 1.00 37.29 O +ATOM 5096 CG2 THR A 245 -7.646 -10.637 90.450 1.00 35.28 C +ATOM 5097 N VAL A 246 -10.753 -9.517 90.100 1.00 32.60 N +ATOM 5098 CA VAL A 246 -11.433 -8.351 89.550 1.00 33.56 C +ATOM 5099 C VAL A 246 -10.425 -7.477 88.813 1.00 33.12 C +ATOM 5100 O VAL A 246 -9.269 -7.356 89.227 1.00 32.22 O +ATOM 5101 CB VAL A 246 -12.158 -7.585 90.676 1.00 40.35 C +ATOM 5102 CG1 VAL A 246 -11.198 -7.260 91.803 1.00 44.79 C +ATOM 5103 CG2 VAL A 246 -12.827 -6.327 90.158 1.00 43.63 C +ATOM 5104 N LEU A 247 -10.853 -6.902 87.684 1.00 30.07 N +ATOM 5105 CA LEU A 247 -10.015 -5.975 86.947 1.00 29.90 C +ATOM 5106 C LEU A 247 -9.640 -4.771 87.814 1.00 33.05 C +ATOM 5107 O LEU A 247 -10.361 -4.421 88.757 1.00 29.86 O +ATOM 5108 CB LEU A 247 -10.728 -5.511 85.680 1.00 28.75 C +ATOM 5109 CG LEU A 247 -10.929 -6.576 84.598 1.00 26.38 C +ATOM 5110 CD1 LEU A 247 -12.011 -6.123 83.657 1.00 29.09 C +ATOM 5111 CD2 LEU A 247 -9.620 -6.829 83.821 1.00 24.96 C +ATOM 5112 N PRO A 248 -8.501 -4.135 87.531 1.00 34.99 N +ATOM 5113 CA PRO A 248 -8.077 -2.983 88.335 1.00 36.41 C +ATOM 5114 C PRO A 248 -8.952 -1.763 88.085 1.00 34.22 C +ATOM 5115 O PRO A 248 -9.554 -1.595 87.018 1.00 31.29 O +ATOM 5116 CB PRO A 248 -6.635 -2.727 87.871 1.00 36.18 C +ATOM 5117 CG PRO A 248 -6.243 -3.912 87.081 1.00 35.89 C +ATOM 5118 CD PRO A 248 -7.493 -4.506 86.529 1.00 32.43 C +ATOM 5119 N THR A 249 -8.996 -0.893 89.094 1.00 33.81 N +ATOM 5120 CA THR A 249 -9.723 0.364 89.001 1.00 35.88 C +ATOM 5121 C THR A 249 -8.875 1.434 88.312 1.00 34.52 C +ATOM 5122 O THR A 249 -7.652 1.325 88.189 1.00 35.01 O +ATOM 5123 CB THR A 249 -10.142 0.869 90.385 1.00 40.26 C +ATOM 5124 OG1 THR A 249 -8.974 1.138 91.166 1.00 40.71 O +ATOM 5125 CG2 THR A 249 -10.996 -0.164 91.103 1.00 38.96 C +ATOM 5126 N PHE A 250 -9.550 2.478 87.847 1.00 35.70 N +ATOM 5127 CA PHE A 250 -8.882 3.607 87.216 1.00 37.85 C +ATOM 5128 C PHE A 250 -9.513 4.886 87.736 1.00 42.25 C +ATOM 5129 O PHE A 250 -10.736 5.048 87.656 1.00 44.11 O +ATOM 5130 CB PHE A 250 -8.982 3.533 85.693 1.00 35.96 C +ATOM 5131 CG PHE A 250 -8.331 4.682 84.999 1.00 37.27 C +ATOM 5132 CD1 PHE A 250 -6.963 4.893 85.127 1.00 37.19 C +ATOM 5133 CD2 PHE A 250 -9.071 5.544 84.212 1.00 36.94 C +ATOM 5134 CE1 PHE A 250 -6.351 5.949 84.486 1.00 38.44 C +ATOM 5135 CE2 PHE A 250 -8.466 6.606 83.566 1.00 38.57 C +ATOM 5136 CZ PHE A 250 -7.104 6.809 83.703 1.00 39.27 C +ATOM 5137 N LYS A 251 -8.691 5.770 88.305 1.00 42.18 N +ATOM 5138 CA LYS A 251 -9.181 7.003 88.921 1.00 41.88 C +ATOM 5139 C LYS A 251 -10.284 6.701 89.934 1.00 39.59 C +ATOM 5140 O LYS A 251 -11.307 7.390 90.004 1.00 38.69 O +ATOM 5141 CB LYS A 251 -9.652 7.998 87.856 1.00 42.52 C +ATOM 5142 CG LYS A 251 -8.533 8.433 86.905 1.00 43.28 C +ATOM 5143 CD LYS A 251 -9.022 9.363 85.799 1.00 48.69 C +ATOM 5144 CE LYS A 251 -9.435 10.720 86.340 1.00 51.47 C +ATOM 5145 NZ LYS A 251 -9.874 11.625 85.242 1.00 50.70 N +ATOM 5146 N GLY A 252 -10.090 5.621 90.697 1.00 39.05 N +ATOM 5147 CA GLY A 252 -11.002 5.229 91.759 1.00 38.80 C +ATOM 5148 C GLY A 252 -12.258 4.506 91.318 1.00 41.71 C +ATOM 5149 O GLY A 252 -13.049 4.093 92.176 1.00 42.14 O +ATOM 5150 N GLN A 253 -12.472 4.336 90.017 1.00 40.96 N +ATOM 5151 CA GLN A 253 -13.682 3.741 89.481 1.00 38.38 C +ATOM 5152 C GLN A 253 -13.407 2.364 88.882 1.00 38.20 C +ATOM 5153 O GLN A 253 -12.336 2.127 88.314 1.00 40.52 O +ATOM 5154 CB GLN A 253 -14.283 4.657 88.410 1.00 41.57 C +ATOM 5155 CG GLN A 253 -14.719 6.019 88.944 1.00 47.40 C +ATOM 5156 CD GLN A 253 -14.768 7.082 87.865 1.00 57.05 C +ATOM 5157 OE1 GLN A 253 -15.848 7.490 87.423 1.00 59.65 O +ATOM 5158 NE2 GLN A 253 -13.595 7.544 87.436 1.00 59.93 N +ATOM 5159 N PRO A 254 -14.361 1.442 88.966 1.00 37.06 N +ATOM 5160 CA PRO A 254 -14.117 0.086 88.460 1.00 37.31 C +ATOM 5161 C PRO A 254 -13.961 0.065 86.946 1.00 36.30 C +ATOM 5162 O PRO A 254 -14.540 0.885 86.228 1.00 37.09 O +ATOM 5163 CB PRO A 254 -15.374 -0.690 88.892 1.00 40.03 C +ATOM 5164 CG PRO A 254 -16.118 0.219 89.831 1.00 37.96 C +ATOM 5165 CD PRO A 254 -15.734 1.608 89.464 1.00 34.64 C +ATOM 5166 N SER A 255 -13.145 -0.880 86.463 1.00 34.45 N +ATOM 5167 CA SER A 255 -13.141 -1.178 85.036 1.00 31.64 C +ATOM 5168 C SER A 255 -14.527 -1.652 84.620 1.00 34.34 C +ATOM 5169 O SER A 255 -15.225 -2.334 85.379 1.00 37.57 O +ATOM 5170 CB SER A 255 -12.095 -2.240 84.688 1.00 32.23 C +ATOM 5171 OG SER A 255 -10.772 -1.738 84.801 1.00 34.19 O +ATOM 5172 N LYS A 256 -14.942 -1.256 83.417 1.00 35.70 N +ATOM 5173 CA LYS A 256 -16.291 -1.496 82.919 1.00 30.04 C +ATOM 5174 C LYS A 256 -16.208 -2.340 81.655 1.00 28.69 C +ATOM 5175 O LYS A 256 -16.376 -1.823 80.543 1.00 30.85 O +ATOM 5176 CB LYS A 256 -17.019 -0.182 82.643 1.00 35.07 C +ATOM 5177 CG LYS A 256 -17.506 0.542 83.891 1.00 43.09 C +ATOM 5178 CD LYS A 256 -18.292 1.792 83.518 1.00 47.56 C +ATOM 5179 CE LYS A 256 -19.534 1.440 82.710 1.00 49.42 C +ATOM 5180 NZ LYS A 256 -20.293 2.649 82.276 1.00 51.11 N +ATOM 5181 N PRO A 257 -15.967 -3.640 81.782 1.00 27.31 N +ATOM 5182 CA PRO A 257 -15.899 -4.487 80.583 1.00 30.40 C +ATOM 5183 C PRO A 257 -17.264 -4.644 79.936 1.00 31.28 C +ATOM 5184 O PRO A 257 -18.289 -4.723 80.621 1.00 31.09 O +ATOM 5185 CB PRO A 257 -15.371 -5.820 81.126 1.00 31.50 C +ATOM 5186 CG PRO A 257 -15.851 -5.826 82.580 1.00 28.88 C +ATOM 5187 CD PRO A 257 -15.709 -4.401 83.018 1.00 24.41 C +ATOM 5188 N PHE A 258 -17.277 -4.664 78.600 1.00 29.04 N +ATOM 5189 CA PHE A 258 -18.488 -5.067 77.899 1.00 28.01 C +ATOM 5190 C PHE A 258 -18.782 -6.537 78.165 1.00 31.78 C +ATOM 5191 O PHE A 258 -17.892 -7.386 78.082 1.00 38.56 O +ATOM 5192 CB PHE A 258 -18.369 -4.820 76.399 1.00 24.98 C +ATOM 5193 CG PHE A 258 -18.960 -3.517 75.946 1.00 27.64 C +ATOM 5194 CD1 PHE A 258 -20.211 -3.125 76.405 1.00 29.67 C +ATOM 5195 CD2 PHE A 258 -18.344 -2.751 74.973 1.00 28.54 C +ATOM 5196 CE1 PHE A 258 -20.796 -1.957 75.967 1.00 29.06 C +ATOM 5197 CE2 PHE A 258 -18.929 -1.574 74.529 1.00 27.02 C +ATOM 5198 CZ PHE A 258 -20.149 -1.177 75.026 1.00 27.30 C +ATOM 5199 N VAL A 259 -20.045 -6.849 78.464 1.00 28.54 N +ATOM 5200 CA VAL A 259 -20.444 -8.223 78.757 1.00 29.26 C +ATOM 5201 C VAL A 259 -21.043 -8.828 77.495 1.00 31.18 C +ATOM 5202 O VAL A 259 -21.924 -8.228 76.863 1.00 28.62 O +ATOM 5203 CB VAL A 259 -21.420 -8.282 79.942 1.00 31.61 C +ATOM 5204 CG1 VAL A 259 -21.844 -9.720 80.226 1.00 29.19 C +ATOM 5205 CG2 VAL A 259 -20.788 -7.647 81.165 1.00 32.17 C +ATOM 5206 N GLY A 260 -20.540 -9.997 77.109 1.00 22.08 N +ATOM 5207 CA GLY A 260 -20.990 -10.682 75.910 1.00 24.83 C +ATOM 5208 C GLY A 260 -21.767 -11.936 76.263 1.00 28.57 C +ATOM 5209 O GLY A 260 -21.464 -12.617 77.246 1.00 28.97 O +ATOM 5210 N VAL A 261 -22.784 -12.232 75.463 1.00 27.98 N +ATOM 5211 CA VAL A 261 -23.540 -13.468 75.579 1.00 26.29 C +ATOM 5212 C VAL A 261 -23.239 -14.265 74.318 1.00 32.64 C +ATOM 5213 O VAL A 261 -23.683 -13.902 73.217 1.00 21.43 O +ATOM 5214 CB VAL A 261 -25.043 -13.207 75.760 1.00 24.98 C +ATOM 5215 CG1 VAL A 261 -25.818 -14.515 75.843 1.00 22.51 C +ATOM 5216 CG2 VAL A 261 -25.279 -12.373 77.007 1.00 20.90 C +ATOM 5217 N LEU A 262 -22.414 -15.306 74.463 1.00 21.88 N +ATOM 5218 CA LEU A 262 -22.188 -16.210 73.348 1.00 27.52 C +ATOM 5219 C LEU A 262 -23.527 -16.791 72.930 1.00 24.28 C +ATOM 5220 O LEU A 262 -24.299 -17.244 73.775 1.00 22.13 O +ATOM 5221 CB LEU A 262 -21.203 -17.324 73.724 1.00 24.02 C +ATOM 5222 CG LEU A 262 -20.901 -18.341 72.616 1.00 24.70 C +ATOM 5223 CD1 LEU A 262 -20.158 -17.690 71.463 1.00 27.83 C +ATOM 5224 CD2 LEU A 262 -20.095 -19.532 73.175 1.00 27.56 C +ATOM 5225 N SER A 263 -23.829 -16.710 71.632 1.00 24.19 N +ATOM 5226 CA SER A 263 -25.145 -17.069 71.131 1.00 24.31 C +ATOM 5227 C SER A 263 -25.013 -17.816 69.813 1.00 25.74 C +ATOM 5228 O SER A 263 -24.042 -17.647 69.075 1.00 21.60 O +ATOM 5229 CB SER A 263 -26.020 -15.827 70.924 1.00 27.42 C +ATOM 5230 OG SER A 263 -25.940 -14.967 72.034 1.00 28.73 O +ATOM 5231 N ALA A 264 -26.038 -18.608 69.504 1.00 25.69 N +ATOM 5232 CA ALA A 264 -26.070 -19.444 68.309 1.00 21.14 C +ATOM 5233 C ALA A 264 -27.252 -19.030 67.448 1.00 20.76 C +ATOM 5234 O ALA A 264 -28.408 -19.169 67.860 1.00 23.22 O +ATOM 5235 CB ALA A 264 -26.173 -20.929 68.664 1.00 21.25 C +ATOM 5236 N GLY A 265 -26.965 -18.551 66.243 1.00 24.45 N +ATOM 5237 CA GLY A 265 -27.990 -18.118 65.314 1.00 23.74 C +ATOM 5238 C GLY A 265 -28.160 -19.143 64.213 1.00 30.18 C +ATOM 5239 O GLY A 265 -27.221 -19.883 63.886 1.00 20.80 O +ATOM 5240 N ILE A 266 -29.368 -19.188 63.645 1.00 20.09 N +ATOM 5241 CA ILE A 266 -29.708 -20.119 62.570 1.00 20.05 C +ATOM 5242 C ILE A 266 -29.770 -19.322 61.272 1.00 19.93 C +ATOM 5243 O ILE A 266 -30.538 -18.359 61.168 1.00 20.72 O +ATOM 5244 CB ILE A 266 -31.035 -20.846 62.859 1.00 21.90 C +ATOM 5245 CG1 ILE A 266 -30.916 -21.720 64.116 1.00 23.66 C +ATOM 5246 CG2 ILE A 266 -31.438 -21.744 61.696 1.00 22.49 C +ATOM 5247 CD1 ILE A 266 -32.208 -22.495 64.452 1.00 19.60 C +ATOM 5248 N ASN A 267 -28.950 -19.718 60.296 1.00 25.02 N +ATOM 5249 CA ASN A 267 -28.894 -19.057 58.989 1.00 24.85 C +ATOM 5250 C ASN A 267 -30.268 -19.088 58.325 1.00 25.98 C +ATOM 5251 O ASN A 267 -30.869 -20.154 58.177 1.00 24.45 O +ATOM 5252 CB ASN A 267 -27.852 -19.780 58.118 1.00 24.08 C +ATOM 5253 CG ASN A 267 -27.428 -18.999 56.874 1.00 23.67 C +ATOM 5254 OD1 ASN A 267 -28.189 -18.202 56.313 1.00 23.76 O +ATOM 5255 ND2 ASN A 267 -26.204 -19.266 56.411 1.00 22.41 N +ATOM 5256 N ALA A 268 -30.772 -17.912 57.927 1.00 27.73 N +ATOM 5257 CA ALA A 268 -32.066 -17.856 57.253 1.00 27.04 C +ATOM 5258 C ALA A 268 -32.082 -18.661 55.958 1.00 27.21 C +ATOM 5259 O ALA A 268 -33.152 -19.099 55.525 1.00 29.02 O +ATOM 5260 CB ALA A 268 -32.451 -16.406 56.961 1.00 25.00 C +ATOM 5261 N ALA A 269 -30.930 -18.876 55.335 1.00 25.64 N +ATOM 5262 CA ALA A 269 -30.871 -19.658 54.109 1.00 25.45 C +ATOM 5263 C ALA A 269 -30.746 -21.156 54.372 1.00 26.93 C +ATOM 5264 O ALA A 269 -30.647 -21.930 53.419 1.00 26.90 O +ATOM 5265 CB ALA A 269 -29.710 -19.185 53.234 1.00 28.40 C +ATOM 5266 N SER A 270 -30.717 -21.588 55.632 1.00 21.00 N +ATOM 5267 CA SER A 270 -30.523 -23.011 55.904 1.00 25.26 C +ATOM 5268 C SER A 270 -31.784 -23.811 55.576 1.00 27.77 C +ATOM 5269 O SER A 270 -32.896 -23.397 55.939 1.00 25.71 O +ATOM 5270 CB SER A 270 -30.135 -23.246 57.362 1.00 26.23 C +ATOM 5271 OG SER A 270 -30.123 -24.641 57.625 1.00 26.91 O +ATOM 5272 N PRO A 271 -31.659 -24.952 54.903 1.00 28.90 N +ATOM 5273 CA PRO A 271 -32.780 -25.895 54.801 1.00 27.45 C +ATOM 5274 C PRO A 271 -32.851 -26.890 55.948 1.00 30.16 C +ATOM 5275 O PRO A 271 -33.579 -27.883 55.832 1.00 29.40 O +ATOM 5276 CB PRO A 271 -32.468 -26.622 53.488 1.00 28.52 C +ATOM 5277 CG PRO A 271 -30.974 -26.704 53.497 1.00 29.03 C +ATOM 5278 CD PRO A 271 -30.485 -25.419 54.146 1.00 27.97 C +ATOM 5279 N ASN A 272 -32.094 -26.661 57.024 1.00 25.58 N +ATOM 5280 CA ASN A 272 -32.013 -27.571 58.162 1.00 27.59 C +ATOM 5281 C ASN A 272 -32.400 -26.881 59.458 1.00 27.22 C +ATOM 5282 O ASN A 272 -31.892 -27.236 60.525 1.00 26.28 O +ATOM 5283 CB ASN A 272 -30.605 -28.159 58.287 1.00 27.44 C +ATOM 5284 CG ASN A 272 -30.120 -28.760 56.994 1.00 29.11 C +ATOM 5285 OD1 ASN A 272 -30.674 -29.758 56.516 1.00 31.81 O +ATOM 5286 ND2 ASN A 272 -29.077 -28.175 56.422 1.00 27.53 N +ATOM 5287 N LYS A 273 -33.330 -25.921 59.381 1.00 27.83 N +ATOM 5288 CA LYS A 273 -33.679 -25.129 60.559 1.00 31.56 C +ATOM 5289 C LYS A 273 -34.246 -26.006 61.668 1.00 30.12 C +ATOM 5290 O LYS A 273 -33.980 -25.771 62.853 1.00 26.17 O +ATOM 5291 CB LYS A 273 -34.678 -24.036 60.176 1.00 30.88 C +ATOM 5292 CG LYS A 273 -34.189 -23.086 59.088 1.00 29.41 C +ATOM 5293 CD LYS A 273 -35.101 -21.885 58.979 1.00 28.82 C +ATOM 5294 CE LYS A 273 -34.618 -20.913 57.920 1.00 30.11 C +ATOM 5295 NZ LYS A 273 -34.631 -21.524 56.565 1.00 26.14 N +ATOM 5296 N GLU A 274 -35.028 -27.030 61.299 1.00 30.78 N +ATOM 5297 CA GLU A 274 -35.587 -27.936 62.296 1.00 31.76 C +ATOM 5298 C GLU A 274 -34.507 -28.818 62.918 1.00 27.85 C +ATOM 5299 O GLU A 274 -34.547 -29.095 64.122 1.00 23.67 O +ATOM 5300 CB GLU A 274 -36.688 -28.794 61.668 1.00 41.86 C +ATOM 5301 CG GLU A 274 -37.768 -29.231 62.646 1.00 53.14 C +ATOM 5302 CD GLU A 274 -38.548 -28.052 63.209 1.00 59.98 C +ATOM 5303 OE1 GLU A 274 -38.812 -27.104 62.439 1.00 64.36 O +ATOM 5304 OE2 GLU A 274 -38.884 -28.068 64.417 1.00 59.47 O +ATOM 5305 N LEU A 275 -33.542 -29.290 62.115 1.00 27.82 N +ATOM 5306 CA LEU A 275 -32.404 -29.997 62.696 1.00 28.23 C +ATOM 5307 C LEU A 275 -31.607 -29.096 63.631 1.00 28.53 C +ATOM 5308 O LEU A 275 -31.214 -29.519 64.735 1.00 20.66 O +ATOM 5309 CB LEU A 275 -31.499 -30.545 61.595 1.00 32.64 C +ATOM 5310 CG LEU A 275 -32.111 -31.628 60.704 1.00 35.90 C +ATOM 5311 CD1 LEU A 275 -31.081 -32.208 59.739 1.00 36.96 C +ATOM 5312 CD2 LEU A 275 -32.701 -32.721 61.584 1.00 33.80 C +ATOM 5313 N ALA A 276 -31.366 -27.847 63.209 1.00 25.97 N +ATOM 5314 CA ALA A 276 -30.580 -26.920 64.024 1.00 27.12 C +ATOM 5315 C ALA A 276 -31.230 -26.678 65.379 1.00 28.12 C +ATOM 5316 O ALA A 276 -30.544 -26.629 66.411 1.00 28.26 O +ATOM 5317 CB ALA A 276 -30.389 -25.604 63.274 1.00 24.99 C +ATOM 5318 N LYS A 277 -32.556 -26.514 65.394 1.00 29.53 N +ATOM 5319 CA LYS A 277 -33.282 -26.343 66.648 1.00 26.55 C +ATOM 5320 C LYS A 277 -33.110 -27.555 67.558 1.00 26.79 C +ATOM 5321 O LYS A 277 -32.827 -27.415 68.755 1.00 23.33 O +ATOM 5322 CB LYS A 277 -34.760 -26.094 66.341 1.00 26.39 C +ATOM 5323 CG LYS A 277 -35.667 -25.947 67.561 1.00 28.52 C +ATOM 5324 CD LYS A 277 -37.099 -25.664 67.123 1.00 33.28 C +ATOM 5325 CE LYS A 277 -38.053 -25.620 68.304 1.00 37.97 C +ATOM 5326 NZ LYS A 277 -39.457 -25.402 67.859 1.00 36.73 N +ATOM 5327 N GLU A 278 -33.252 -28.759 66.999 1.00 27.49 N +ATOM 5328 CA GLU A 278 -33.137 -29.964 67.818 1.00 27.69 C +ATOM 5329 C GLU A 278 -31.733 -30.120 68.376 1.00 26.72 C +ATOM 5330 O GLU A 278 -31.558 -30.482 69.546 1.00 28.34 O +ATOM 5331 CB GLU A 278 -33.541 -31.197 67.010 1.00 32.20 C +ATOM 5332 CG GLU A 278 -33.436 -32.498 67.789 1.00 41.52 C +ATOM 5333 CD GLU A 278 -33.866 -33.703 66.965 1.00 48.61 C +ATOM 5334 OE1 GLU A 278 -34.368 -33.497 65.834 1.00 49.88 O +ATOM 5335 OE2 GLU A 278 -33.693 -34.848 67.445 1.00 51.21 O +ATOM 5336 N PHE A 279 -30.711 -29.831 67.570 1.00 24.07 N +ATOM 5337 CA PHE A 279 -29.354 -29.898 68.098 1.00 22.55 C +ATOM 5338 C PHE A 279 -29.160 -28.908 69.245 1.00 24.42 C +ATOM 5339 O PHE A 279 -28.646 -29.271 70.313 1.00 25.76 O +ATOM 5340 CB PHE A 279 -28.338 -29.646 66.979 1.00 29.18 C +ATOM 5341 CG PHE A 279 -26.930 -29.557 67.465 1.00 31.65 C +ATOM 5342 CD1 PHE A 279 -26.202 -30.708 67.735 1.00 32.50 C +ATOM 5343 CD2 PHE A 279 -26.334 -28.319 67.671 1.00 30.76 C +ATOM 5344 CE1 PHE A 279 -24.899 -30.624 68.198 1.00 32.35 C +ATOM 5345 CE2 PHE A 279 -25.038 -28.223 68.125 1.00 28.18 C +ATOM 5346 CZ PHE A 279 -24.315 -29.380 68.391 1.00 31.76 C +ATOM 5347 N LEU A 280 -29.603 -27.659 69.059 1.00 22.87 N +ATOM 5348 CA LEU A 280 -29.327 -26.623 70.050 1.00 27.69 C +ATOM 5349 C LEU A 280 -30.168 -26.810 71.318 1.00 27.79 C +ATOM 5350 O LEU A 280 -29.647 -26.713 72.436 1.00 26.71 O +ATOM 5351 CB LEU A 280 -29.569 -25.244 69.425 1.00 24.88 C +ATOM 5352 CG LEU A 280 -28.610 -24.796 68.314 1.00 24.93 C +ATOM 5353 CD1 LEU A 280 -29.082 -23.542 67.602 1.00 22.03 C +ATOM 5354 CD2 LEU A 280 -27.220 -24.575 68.857 1.00 25.41 C +ATOM 5355 N GLU A 281 -31.465 -27.092 71.167 1.00 27.44 N +ATOM 5356 CA GLU A 281 -32.352 -27.196 72.318 1.00 26.32 C +ATOM 5357 C GLU A 281 -32.154 -28.509 73.067 1.00 26.81 C +ATOM 5358 O GLU A 281 -32.068 -28.516 74.300 1.00 26.51 O +ATOM 5359 CB GLU A 281 -33.815 -27.068 71.875 1.00 21.51 C +ATOM 5360 CG GLU A 281 -34.211 -25.670 71.422 1.00 21.29 C +ATOM 5361 CD GLU A 281 -35.719 -25.478 71.299 1.00 26.75 C +ATOM 5362 OE1 GLU A 281 -36.478 -26.381 71.717 1.00 29.85 O +ATOM 5363 OE2 GLU A 281 -36.143 -24.416 70.782 1.00 24.44 O +ATOM 5364 N ASN A 282 -32.028 -29.614 72.341 1.00 24.41 N +ATOM 5365 CA ASN A 282 -32.089 -30.942 72.932 1.00 28.15 C +ATOM 5366 C ASN A 282 -30.731 -31.615 73.095 1.00 28.26 C +ATOM 5367 O ASN A 282 -30.655 -32.650 73.766 1.00 29.11 O +ATOM 5368 CB ASN A 282 -33.000 -31.829 72.063 1.00 30.24 C +ATOM 5369 CG ASN A 282 -34.415 -31.284 71.964 1.00 32.16 C +ATOM 5370 OD1 ASN A 282 -34.912 -30.985 70.877 1.00 36.93 O +ATOM 5371 ND2 ASN A 282 -35.081 -31.187 73.099 1.00 30.83 N +ATOM 5372 N TYR A 283 -29.656 -31.033 72.562 1.00 26.50 N +ATOM 5373 CA TYR A 283 -28.334 -31.635 72.717 1.00 26.44 C +ATOM 5374 C TYR A 283 -27.330 -30.660 73.330 1.00 28.23 C +ATOM 5375 O TYR A 283 -26.717 -30.968 74.363 1.00 25.62 O +ATOM 5376 CB TYR A 283 -27.841 -32.168 71.367 1.00 27.19 C +ATOM 5377 CG TYR A 283 -28.531 -33.460 70.976 1.00 28.29 C +ATOM 5378 CD1 TYR A 283 -29.836 -33.455 70.500 1.00 32.99 C +ATOM 5379 CD2 TYR A 283 -27.891 -34.687 71.116 1.00 30.66 C +ATOM 5380 CE1 TYR A 283 -30.485 -34.634 70.151 1.00 35.45 C +ATOM 5381 CE2 TYR A 283 -28.530 -35.875 70.770 1.00 33.29 C +ATOM 5382 CZ TYR A 283 -29.829 -35.840 70.297 1.00 36.50 C +ATOM 5383 OH TYR A 283 -30.480 -37.005 69.960 1.00 35.70 O +ATOM 5384 N LEU A 284 -27.195 -29.458 72.759 1.00 22.43 N +ATOM 5385 CA LEU A 284 -26.197 -28.523 73.276 1.00 23.80 C +ATOM 5386 C LEU A 284 -26.614 -27.954 74.625 1.00 23.14 C +ATOM 5387 O LEU A 284 -25.873 -28.050 75.608 1.00 26.22 O +ATOM 5388 CB LEU A 284 -25.946 -27.396 72.272 1.00 26.90 C +ATOM 5389 CG LEU A 284 -24.887 -26.399 72.766 1.00 27.23 C +ATOM 5390 CD1 LEU A 284 -23.604 -27.145 73.166 1.00 25.68 C +ATOM 5391 CD2 LEU A 284 -24.582 -25.338 71.730 1.00 23.21 C +ATOM 5392 N LEU A 285 -27.805 -27.358 74.692 1.00 24.56 N +ATOM 5393 CA LEU A 285 -28.285 -26.690 75.899 1.00 26.37 C +ATOM 5394 C LEU A 285 -28.872 -27.713 76.877 1.00 26.47 C +ATOM 5395 O LEU A 285 -30.032 -27.650 77.289 1.00 26.42 O +ATOM 5396 CB LEU A 285 -29.292 -25.607 75.523 1.00 26.13 C +ATOM 5397 CG LEU A 285 -28.611 -24.391 74.890 1.00 25.13 C +ATOM 5398 CD1 LEU A 285 -29.592 -23.422 74.212 1.00 24.18 C +ATOM 5399 CD2 LEU A 285 -27.811 -23.674 75.969 1.00 25.78 C +ATOM 5400 N THR A 286 -28.035 -28.689 77.218 1.00 26.30 N +ATOM 5401 CA THR A 286 -28.298 -29.657 78.272 1.00 27.18 C +ATOM 5402 C THR A 286 -27.104 -29.661 79.211 1.00 27.55 C +ATOM 5403 O THR A 286 -26.023 -29.170 78.871 1.00 32.40 O +ATOM 5404 CB THR A 286 -28.516 -31.071 77.718 1.00 28.55 C +ATOM 5405 OG1 THR A 286 -27.302 -31.532 77.101 1.00 28.33 O +ATOM 5406 CG2 THR A 286 -29.630 -31.073 76.679 1.00 29.51 C +ATOM 5407 N ASP A 287 -27.288 -30.249 80.396 1.00 26.00 N +ATOM 5408 CA ASP A 287 -26.167 -30.333 81.329 1.00 31.04 C +ATOM 5409 C ASP A 287 -24.988 -31.068 80.702 1.00 29.91 C +ATOM 5410 O ASP A 287 -23.843 -30.605 80.783 1.00 28.43 O +ATOM 5411 CB ASP A 287 -26.592 -31.026 82.627 1.00 35.18 C +ATOM 5412 CG ASP A 287 -27.547 -30.188 83.463 1.00 43.99 C +ATOM 5413 OD1 ASP A 287 -27.454 -28.941 83.436 1.00 45.96 O +ATOM 5414 OD2 ASP A 287 -28.396 -30.786 84.160 1.00 46.32 O +ATOM 5415 N GLU A 288 -25.254 -32.181 80.016 1.00 28.49 N +ATOM 5416 CA GLU A 288 -24.157 -32.983 79.497 1.00 33.15 C +ATOM 5417 C GLU A 288 -23.560 -32.389 78.225 1.00 32.27 C +ATOM 5418 O GLU A 288 -22.354 -32.542 77.989 1.00 31.21 O +ATOM 5419 CB GLU A 288 -24.622 -34.429 79.279 1.00 40.91 C +ATOM 5420 CG GLU A 288 -25.797 -34.617 78.331 1.00 47.79 C +ATOM 5421 CD GLU A 288 -27.160 -34.363 78.995 1.00 54.35 C +ATOM 5422 OE1 GLU A 288 -27.202 -33.865 80.147 1.00 50.35 O +ATOM 5423 OE2 GLU A 288 -28.195 -34.670 78.355 1.00 58.25 O +ATOM 5424 N GLY A 289 -24.357 -31.667 77.433 1.00 29.27 N +ATOM 5425 CA GLY A 289 -23.807 -30.996 76.263 1.00 28.41 C +ATOM 5426 C GLY A 289 -22.910 -29.831 76.642 1.00 27.99 C +ATOM 5427 O GLY A 289 -21.807 -29.677 76.106 1.00 32.35 O +ATOM 5428 N LEU A 290 -23.369 -28.995 77.574 1.00 26.13 N +ATOM 5429 CA LEU A 290 -22.543 -27.883 78.036 1.00 30.26 C +ATOM 5430 C LEU A 290 -21.296 -28.384 78.749 1.00 34.02 C +ATOM 5431 O LEU A 290 -20.211 -27.818 78.577 1.00 33.83 O +ATOM 5432 CB LEU A 290 -23.356 -26.962 78.945 1.00 28.38 C +ATOM 5433 CG LEU A 290 -24.486 -26.233 78.197 1.00 31.29 C +ATOM 5434 CD1 LEU A 290 -25.434 -25.516 79.148 1.00 29.44 C +ATOM 5435 CD2 LEU A 290 -23.916 -25.251 77.177 1.00 32.30 C +ATOM 5436 N GLU A 291 -21.423 -29.476 79.508 1.00 32.50 N +ATOM 5437 CA GLU A 291 -20.262 -30.063 80.168 1.00 33.31 C +ATOM 5438 C GLU A 291 -19.185 -30.432 79.155 1.00 33.47 C +ATOM 5439 O GLU A 291 -17.997 -30.141 79.357 1.00 28.20 O +ATOM 5440 CB GLU A 291 -20.694 -31.297 80.960 1.00 37.97 C +ATOM 5441 CG GLU A 291 -19.567 -32.031 81.665 1.00 45.10 C +ATOM 5442 CD GLU A 291 -20.013 -33.357 82.275 1.00 53.69 C +ATOM 5443 OE1 GLU A 291 -21.104 -33.856 81.919 1.00 56.33 O +ATOM 5444 OE2 GLU A 291 -19.267 -33.903 83.118 1.00 57.52 O +ATOM 5445 N ALA A 292 -19.593 -31.051 78.042 1.00 33.30 N +ATOM 5446 CA ALA A 292 -18.642 -31.500 77.035 1.00 31.89 C +ATOM 5447 C ALA A 292 -17.898 -30.331 76.399 1.00 32.70 C +ATOM 5448 O ALA A 292 -16.698 -30.431 76.111 1.00 31.20 O +ATOM 5449 CB ALA A 292 -19.366 -32.324 75.973 1.00 31.09 C +ATOM 5450 N VAL A 293 -18.600 -29.236 76.112 1.00 30.17 N +ATOM 5451 CA VAL A 293 -17.911 -28.071 75.571 1.00 31.20 C +ATOM 5452 C VAL A 293 -17.024 -27.445 76.642 1.00 28.60 C +ATOM 5453 O VAL A 293 -15.851 -27.127 76.394 1.00 26.67 O +ATOM 5454 CB VAL A 293 -18.925 -27.061 74.996 1.00 28.47 C +ATOM 5455 CG1 VAL A 293 -18.192 -25.882 74.361 1.00 26.96 C +ATOM 5456 CG2 VAL A 293 -19.849 -27.736 73.972 1.00 25.56 C +ATOM 5457 N ASN A 294 -17.540 -27.349 77.867 1.00 27.54 N +ATOM 5458 CA ASN A 294 -16.805 -26.715 78.965 1.00 32.42 C +ATOM 5459 C ASN A 294 -15.479 -27.416 79.233 1.00 35.80 C +ATOM 5460 O ASN A 294 -14.493 -26.771 79.610 1.00 34.72 O +ATOM 5461 CB ASN A 294 -17.658 -26.731 80.232 1.00 39.15 C +ATOM 5462 CG ASN A 294 -18.138 -25.356 80.645 1.00 47.91 C +ATOM 5463 OD1 ASN A 294 -17.353 -24.415 80.774 1.00 45.84 O +ATOM 5464 ND2 ASN A 294 -19.443 -25.238 80.880 1.00 52.46 N +ATOM 5465 N LYS A 295 -15.449 -28.743 79.085 1.00 39.10 N +ATOM 5466 CA LYS A 295 -14.221 -29.498 79.318 1.00 42.46 C +ATOM 5467 C LYS A 295 -13.148 -29.180 78.286 1.00 40.57 C +ATOM 5468 O LYS A 295 -11.956 -29.240 78.601 1.00 41.65 O +ATOM 5469 CB LYS A 295 -14.521 -30.995 79.343 1.00 48.46 C +ATOM 5470 CG LYS A 295 -15.059 -31.456 80.690 1.00 55.36 C +ATOM 5471 CD LYS A 295 -15.550 -32.895 80.665 1.00 61.71 C +ATOM 5472 CE LYS A 295 -16.242 -33.249 81.978 1.00 65.72 C +ATOM 5473 NZ LYS A 295 -16.181 -34.705 82.291 1.00 68.87 N +ATOM 5474 N ASP A 296 -13.541 -28.854 77.057 1.00 36.57 N +ATOM 5475 CA ASP A 296 -12.589 -28.435 76.035 1.00 32.17 C +ATOM 5476 C ASP A 296 -12.023 -27.060 76.382 1.00 28.34 C +ATOM 5477 O ASP A 296 -10.813 -26.919 76.593 1.00 30.72 O +ATOM 5478 CB ASP A 296 -13.260 -28.443 74.646 1.00 31.80 C +ATOM 5479 CG ASP A 296 -12.292 -28.138 73.516 1.00 36.48 C +ATOM 5480 OD1 ASP A 296 -11.094 -27.934 73.804 1.00 40.72 O +ATOM 5481 OD2 ASP A 296 -12.715 -28.125 72.324 1.00 32.84 O +ATOM 5482 N LYS A 297 -12.879 -26.035 76.385 1.00 27.46 N +ATOM 5483 CA LYS A 297 -12.536 -24.659 76.748 1.00 27.44 C +ATOM 5484 C LYS A 297 -13.705 -24.063 77.520 1.00 27.45 C +ATOM 5485 O LYS A 297 -14.818 -24.029 76.990 1.00 28.17 O +ATOM 5486 CB LYS A 297 -12.252 -23.805 75.507 1.00 31.37 C +ATOM 5487 CG LYS A 297 -11.195 -24.334 74.552 1.00 35.11 C +ATOM 5488 CD LYS A 297 -9.837 -23.779 74.883 1.00 44.12 C +ATOM 5489 CE LYS A 297 -8.831 -24.144 73.802 1.00 50.48 C +ATOM 5490 NZ LYS A 297 -8.185 -22.924 73.227 1.00 53.06 N +ATOM 5491 N PRO A 298 -13.503 -23.564 78.743 1.00 25.59 N +ATOM 5492 CA PRO A 298 -14.643 -23.108 79.543 1.00 27.84 C +ATOM 5493 C PRO A 298 -15.433 -22.013 78.836 1.00 28.32 C +ATOM 5494 O PRO A 298 -14.869 -21.078 78.263 1.00 27.13 O +ATOM 5495 CB PRO A 298 -13.993 -22.605 80.836 1.00 27.04 C +ATOM 5496 CG PRO A 298 -12.699 -23.380 80.927 1.00 25.93 C +ATOM 5497 CD PRO A 298 -12.239 -23.524 79.499 1.00 29.58 C +ATOM 5498 N LEU A 299 -16.760 -22.155 78.876 1.00 28.99 N +ATOM 5499 CA LEU A 299 -17.676 -21.224 78.233 1.00 26.10 C +ATOM 5500 C LEU A 299 -17.939 -19.976 79.062 1.00 27.97 C +ATOM 5501 O LEU A 299 -18.353 -18.951 78.504 1.00 31.24 O +ATOM 5502 CB LEU A 299 -19.002 -21.932 77.960 1.00 25.54 C +ATOM 5503 CG LEU A 299 -19.011 -22.934 76.800 1.00 26.87 C +ATOM 5504 CD1 LEU A 299 -20.216 -23.872 76.943 1.00 23.21 C +ATOM 5505 CD2 LEU A 299 -19.057 -22.206 75.442 1.00 24.38 C +ATOM 5506 N GLY A 300 -17.696 -20.028 80.367 1.00 27.51 N +ATOM 5507 CA GLY A 300 -18.114 -18.969 81.263 1.00 29.69 C +ATOM 5508 C GLY A 300 -19.384 -19.360 81.997 1.00 28.50 C +ATOM 5509 O GLY A 300 -19.587 -20.544 82.278 1.00 28.25 O +ATOM 5510 N ALA A 301 -20.250 -18.392 82.294 1.00 27.39 N +ATOM 5511 CA ALA A 301 -21.495 -18.640 83.030 1.00 25.93 C +ATOM 5512 C ALA A 301 -22.568 -19.071 82.041 1.00 26.00 C +ATOM 5513 O ALA A 301 -23.278 -18.233 81.473 1.00 23.07 O +ATOM 5514 CB ALA A 301 -21.929 -17.391 83.784 1.00 25.06 C +ATOM 5515 N VAL A 302 -22.732 -20.384 81.878 1.00 23.33 N +ATOM 5516 CA VAL A 302 -23.678 -20.877 80.883 1.00 24.84 C +ATOM 5517 C VAL A 302 -25.089 -20.418 81.233 1.00 25.48 C +ATOM 5518 O VAL A 302 -25.420 -20.155 82.401 1.00 23.16 O +ATOM 5519 CB VAL A 302 -23.603 -22.407 80.744 1.00 25.37 C +ATOM 5520 CG1 VAL A 302 -22.206 -22.821 80.276 1.00 26.71 C +ATOM 5521 CG2 VAL A 302 -23.933 -23.079 82.054 1.00 28.54 C +ATOM 5522 N ALA A 303 -25.913 -20.269 80.198 1.00 23.15 N +ATOM 5523 CA ALA A 303 -27.238 -19.683 80.357 1.00 23.32 C +ATOM 5524 C ALA A 303 -28.247 -20.641 80.977 1.00 23.95 C +ATOM 5525 O ALA A 303 -29.316 -20.189 81.395 1.00 24.43 O +ATOM 5526 CB ALA A 303 -27.759 -19.200 78.999 1.00 20.74 C +ATOM 5527 N LEU A 304 -27.910 -21.922 81.112 1.00 24.15 N +ATOM 5528 CA LEU A 304 -28.868 -22.937 81.535 1.00 25.86 C +ATOM 5529 C LEU A 304 -29.006 -22.943 83.059 1.00 25.69 C +ATOM 5530 O LEU A 304 -28.036 -23.210 83.766 1.00 21.67 O +ATOM 5531 CB LEU A 304 -28.409 -24.299 81.022 1.00 26.85 C +ATOM 5532 CG LEU A 304 -29.319 -25.520 81.185 1.00 26.99 C +ATOM 5533 CD1 LEU A 304 -30.570 -25.428 80.303 1.00 25.41 C +ATOM 5534 CD2 LEU A 304 -28.529 -26.789 80.893 1.00 23.37 C +ATOM 5535 N LYS A 305 -30.229 -22.699 83.552 1.00 25.06 N +ATOM 5536 CA LYS A 305 -30.481 -22.565 84.988 1.00 24.42 C +ATOM 5537 C LYS A 305 -29.998 -23.772 85.784 1.00 28.33 C +ATOM 5538 O LYS A 305 -29.500 -23.623 86.908 1.00 30.64 O +ATOM 5539 CB LYS A 305 -31.983 -22.376 85.248 1.00 20.18 C +ATOM 5540 CG LYS A 305 -32.541 -21.020 84.905 1.00 22.12 C +ATOM 5541 CD LYS A 305 -34.037 -21.008 85.163 1.00 23.50 C +ATOM 5542 CE LYS A 305 -34.669 -19.700 84.736 1.00 25.54 C +ATOM 5543 NZ LYS A 305 -36.155 -19.725 84.965 1.00 26.00 N +ATOM 5544 N SER A 306 -30.220 -24.978 85.270 1.00 28.31 N +ATOM 5545 CA SER A 306 -29.891 -26.172 86.044 1.00 30.82 C +ATOM 5546 C SER A 306 -28.389 -26.377 86.231 1.00 31.60 C +ATOM 5547 O SER A 306 -27.997 -27.198 87.070 1.00 31.34 O +ATOM 5548 CB SER A 306 -30.513 -27.403 85.385 1.00 32.98 C +ATOM 5549 OG SER A 306 -30.032 -27.577 84.064 1.00 34.65 O +ATOM 5550 N TYR A 307 -27.542 -25.618 85.529 1.00 30.00 N +ATOM 5551 CA TYR A 307 -26.095 -25.754 85.645 1.00 28.32 C +ATOM 5552 C TYR A 307 -25.500 -24.840 86.714 1.00 24.55 C +ATOM 5553 O TYR A 307 -24.303 -24.939 86.981 1.00 25.72 O +ATOM 5554 CB TYR A 307 -25.425 -25.438 84.300 1.00 28.40 C +ATOM 5555 CG TYR A 307 -24.169 -26.239 84.020 1.00 31.72 C +ATOM 5556 CD1 TYR A 307 -24.252 -27.509 83.465 1.00 34.74 C +ATOM 5557 CD2 TYR A 307 -22.904 -25.728 84.305 1.00 29.47 C +ATOM 5558 CE1 TYR A 307 -23.116 -28.259 83.216 1.00 37.22 C +ATOM 5559 CE2 TYR A 307 -21.755 -26.473 84.059 1.00 31.22 C +ATOM 5560 CZ TYR A 307 -21.872 -27.738 83.511 1.00 37.52 C +ATOM 5561 OH TYR A 307 -20.749 -28.500 83.251 1.00 41.76 O +ATOM 5562 N GLU A 308 -26.305 -23.972 87.335 1.00 22.30 N +ATOM 5563 CA GLU A 308 -25.743 -22.954 88.218 1.00 29.27 C +ATOM 5564 C GLU A 308 -25.090 -23.563 89.452 1.00 29.30 C +ATOM 5565 O GLU A 308 -24.087 -23.033 89.941 1.00 28.10 O +ATOM 5566 CB GLU A 308 -26.814 -21.940 88.642 1.00 29.27 C +ATOM 5567 CG GLU A 308 -26.173 -20.686 89.246 1.00 34.59 C +ATOM 5568 CD GLU A 308 -27.144 -19.559 89.586 1.00 38.54 C +ATOM 5569 OE1 GLU A 308 -28.377 -19.727 89.417 1.00 38.93 O +ATOM 5570 OE2 GLU A 308 -26.653 -18.498 90.039 1.00 38.55 O +ATOM 5571 N GLU A 309 -25.635 -24.669 89.959 1.00 31.88 N +ATOM 5572 CA GLU A 309 -25.019 -25.348 91.096 1.00 36.23 C +ATOM 5573 C GLU A 309 -23.617 -25.822 90.748 1.00 34.14 C +ATOM 5574 O GLU A 309 -22.711 -25.786 91.589 1.00 29.52 O +ATOM 5575 CB GLU A 309 -25.884 -26.529 91.532 1.00 45.34 C +ATOM 5576 CG GLU A 309 -25.468 -27.153 92.848 1.00 54.70 C +ATOM 5577 CD GLU A 309 -26.321 -28.357 93.218 1.00 62.42 C +ATOM 5578 OE1 GLU A 309 -25.803 -29.492 93.145 1.00 63.91 O +ATOM 5579 OE2 GLU A 309 -27.511 -28.171 93.568 1.00 65.96 O +ATOM 5580 N GLU A 310 -23.423 -26.285 89.512 1.00 36.35 N +ATOM 5581 CA GLU A 310 -22.099 -26.717 89.076 1.00 40.14 C +ATOM 5582 C GLU A 310 -21.168 -25.524 88.879 1.00 35.12 C +ATOM 5583 O GLU A 310 -19.982 -25.597 89.216 1.00 41.13 O +ATOM 5584 CB GLU A 310 -22.222 -27.533 87.788 1.00 47.21 C +ATOM 5585 CG GLU A 310 -20.962 -28.284 87.379 1.00 54.74 C +ATOM 5586 CD GLU A 310 -20.586 -29.402 88.347 1.00 58.91 C +ATOM 5587 OE1 GLU A 310 -21.493 -30.104 88.851 1.00 59.08 O +ATOM 5588 OE2 GLU A 310 -19.374 -29.579 88.595 1.00 59.70 O +ATOM 5589 N LEU A 311 -21.689 -24.428 88.317 1.00 27.78 N +ATOM 5590 CA LEU A 311 -20.905 -23.207 88.156 1.00 28.93 C +ATOM 5591 C LEU A 311 -20.407 -22.686 89.500 1.00 30.54 C +ATOM 5592 O LEU A 311 -19.265 -22.227 89.615 1.00 33.43 O +ATOM 5593 CB LEU A 311 -21.748 -22.128 87.474 1.00 27.43 C +ATOM 5594 CG LEU A 311 -22.169 -22.273 86.010 1.00 29.01 C +ATOM 5595 CD1 LEU A 311 -22.887 -21.003 85.579 1.00 25.19 C +ATOM 5596 CD2 LEU A 311 -20.956 -22.537 85.148 1.00 22.70 C +ATOM 5597 N ALA A 312 -21.254 -22.735 90.524 1.00 31.27 N +ATOM 5598 CA ALA A 312 -20.881 -22.187 91.824 1.00 29.09 C +ATOM 5599 C ALA A 312 -19.687 -22.903 92.441 1.00 31.51 C +ATOM 5600 O ALA A 312 -19.004 -22.317 93.288 1.00 34.33 O +ATOM 5601 CB ALA A 312 -22.079 -22.231 92.779 1.00 30.73 C +ATOM 5602 N LYS A 313 -19.401 -24.139 92.023 1.00 32.97 N +ATOM 5603 CA LYS A 313 -18.208 -24.831 92.500 1.00 35.46 C +ATOM 5604 C LYS A 313 -16.920 -24.300 91.875 1.00 38.31 C +ATOM 5605 O LYS A 313 -15.836 -24.658 92.350 1.00 39.34 O +ATOM 5606 CB LYS A 313 -18.311 -26.333 92.217 1.00 35.62 C +ATOM 5607 CG LYS A 313 -19.523 -27.039 92.824 1.00 38.35 C +ATOM 5608 CD LYS A 313 -19.438 -28.538 92.535 1.00 41.78 C +ATOM 5609 CE LYS A 313 -20.755 -29.259 92.765 1.00 45.77 C +ATOM 5610 NZ LYS A 313 -21.230 -29.121 94.164 1.00 50.36 N +ATOM 5611 N ASP A 314 -17.005 -23.489 90.806 1.00 35.27 N +ATOM 5612 CA ASP A 314 -15.837 -22.942 90.124 1.00 35.17 C +ATOM 5613 C ASP A 314 -15.639 -21.490 90.541 1.00 36.18 C +ATOM 5614 O ASP A 314 -16.311 -20.597 90.001 1.00 36.66 O +ATOM 5615 CB ASP A 314 -16.005 -23.044 88.600 1.00 35.40 C +ATOM 5616 CG ASP A 314 -14.716 -22.704 87.833 1.00 36.33 C +ATOM 5617 OD1 ASP A 314 -13.730 -22.268 88.466 1.00 35.54 O +ATOM 5618 OD2 ASP A 314 -14.694 -22.873 86.590 1.00 34.66 O +ATOM 5619 N PRO A 315 -14.707 -21.188 91.445 1.00 38.81 N +ATOM 5620 CA PRO A 315 -14.540 -19.790 91.876 1.00 36.98 C +ATOM 5621 C PRO A 315 -14.079 -18.862 90.761 1.00 35.23 C +ATOM 5622 O PRO A 315 -14.215 -17.640 90.898 1.00 33.14 O +ATOM 5623 CB PRO A 315 -13.499 -19.890 93.002 1.00 38.02 C +ATOM 5624 CG PRO A 315 -12.751 -21.150 92.721 1.00 40.12 C +ATOM 5625 CD PRO A 315 -13.726 -22.092 92.070 1.00 40.08 C +ATOM 5626 N ARG A 316 -13.538 -19.396 89.661 1.00 34.71 N +ATOM 5627 CA ARG A 316 -13.193 -18.542 88.529 1.00 33.00 C +ATOM 5628 C ARG A 316 -14.438 -17.956 87.874 1.00 32.12 C +ATOM 5629 O ARG A 316 -14.354 -16.906 87.223 1.00 29.11 O +ATOM 5630 CB ARG A 316 -12.366 -19.320 87.507 1.00 30.98 C +ATOM 5631 CG ARG A 316 -11.118 -19.948 88.074 1.00 27.46 C +ATOM 5632 CD ARG A 316 -10.547 -20.939 87.097 1.00 26.92 C +ATOM 5633 NE ARG A 316 -11.556 -21.906 86.699 1.00 27.71 N +ATOM 5634 CZ ARG A 316 -11.377 -22.847 85.780 1.00 27.95 C +ATOM 5635 NH1 ARG A 316 -10.211 -22.969 85.158 1.00 30.28 N +ATOM 5636 NH2 ARG A 316 -12.374 -23.662 85.474 1.00 26.76 N +ATOM 5637 N ILE A 317 -15.584 -18.634 88.009 1.00 33.15 N +ATOM 5638 CA ILE A 317 -16.849 -18.125 87.479 1.00 29.95 C +ATOM 5639 C ILE A 317 -17.400 -17.021 88.377 1.00 29.25 C +ATOM 5640 O ILE A 317 -18.001 -16.056 87.893 1.00 27.01 O +ATOM 5641 CB ILE A 317 -17.865 -19.271 87.301 1.00 29.05 C +ATOM 5642 CG1 ILE A 317 -17.343 -20.307 86.305 1.00 26.81 C +ATOM 5643 CG2 ILE A 317 -19.234 -18.727 86.834 1.00 25.94 C +ATOM 5644 CD1 ILE A 317 -17.001 -19.748 84.930 1.00 31.88 C +ATOM 5645 N ALA A 318 -17.243 -17.155 89.700 1.00 30.17 N +ATOM 5646 CA ALA A 318 -17.649 -16.070 90.583 1.00 26.81 C +ATOM 5647 C ALA A 318 -16.901 -14.791 90.240 1.00 24.17 C +ATOM 5648 O ALA A 318 -17.493 -13.702 90.195 1.00 22.75 O +ATOM 5649 CB ALA A 318 -17.403 -16.457 92.044 1.00 29.88 C +ATOM 5650 N ALA A 319 -15.601 -14.916 89.957 1.00 23.32 N +ATOM 5651 CA ALA A 319 -14.800 -13.763 89.569 1.00 27.27 C +ATOM 5652 C ALA A 319 -15.255 -13.202 88.230 1.00 24.71 C +ATOM 5653 O ALA A 319 -15.349 -11.979 88.061 1.00 25.84 O +ATOM 5654 CB ALA A 319 -13.318 -14.149 89.512 1.00 23.90 C +ATOM 5655 N THR A 320 -15.565 -14.079 87.279 1.00 23.44 N +ATOM 5656 CA THR A 320 -16.079 -13.615 85.990 1.00 23.27 C +ATOM 5657 C THR A 320 -17.348 -12.791 86.179 1.00 25.63 C +ATOM 5658 O THR A 320 -17.489 -11.701 85.608 1.00 25.08 O +ATOM 5659 CB THR A 320 -16.347 -14.803 85.067 1.00 27.45 C +ATOM 5660 OG1 THR A 320 -15.138 -15.546 84.870 1.00 30.61 O +ATOM 5661 CG2 THR A 320 -16.862 -14.314 83.696 1.00 23.18 C +ATOM 5662 N MET A 321 -18.273 -13.283 87.008 1.00 22.63 N +ATOM 5663 CA MET A 321 -19.538 -12.587 87.202 1.00 26.57 C +ATOM 5664 C MET A 321 -19.408 -11.363 88.106 1.00 29.42 C +ATOM 5665 O MET A 321 -20.286 -10.496 88.074 1.00 28.63 O +ATOM 5666 CB MET A 321 -20.587 -13.554 87.750 1.00 22.04 C +ATOM 5667 CG MET A 321 -21.011 -14.638 86.744 1.00 26.77 C +ATOM 5668 SD MET A 321 -21.581 -13.968 85.142 1.00 27.24 S +ATOM 5669 CE MET A 321 -23.073 -13.113 85.623 1.00 27.42 C +ATOM 5670 N GLU A 322 -18.328 -11.252 88.888 1.00 31.08 N +ATOM 5671 CA GLU A 322 -18.089 -10.002 89.600 1.00 22.43 C +ATOM 5672 C GLU A 322 -17.616 -8.917 88.641 1.00 29.91 C +ATOM 5673 O GLU A 322 -18.017 -7.755 88.759 1.00 27.36 O +ATOM 5674 CB GLU A 322 -17.081 -10.214 90.731 1.00 25.87 C +ATOM 5675 CG GLU A 322 -16.813 -8.958 91.541 1.00 34.77 C +ATOM 5676 CD GLU A 322 -15.983 -9.234 92.785 1.00 45.71 C +ATOM 5677 OE1 GLU A 322 -16.003 -10.381 93.279 1.00 49.38 O +ATOM 5678 OE2 GLU A 322 -15.311 -8.301 93.269 1.00 50.16 O +ATOM 5679 N ASN A 323 -16.778 -9.272 87.666 1.00 32.30 N +ATOM 5680 CA ASN A 323 -16.422 -8.289 86.647 1.00 31.54 C +ATOM 5681 C ASN A 323 -17.620 -7.943 85.766 1.00 28.82 C +ATOM 5682 O ASN A 323 -17.782 -6.787 85.363 1.00 22.52 O +ATOM 5683 CB ASN A 323 -15.252 -8.794 85.809 1.00 30.26 C +ATOM 5684 CG ASN A 323 -13.942 -8.706 86.556 1.00 28.32 C +ATOM 5685 OD1 ASN A 323 -13.584 -7.653 87.084 1.00 28.40 O +ATOM 5686 ND2 ASN A 323 -13.237 -9.822 86.634 1.00 26.69 N +ATOM 5687 N ALA A 324 -18.482 -8.920 85.475 1.00 26.86 N +ATOM 5688 CA ALA A 324 -19.688 -8.628 84.698 1.00 29.21 C +ATOM 5689 C ALA A 324 -20.635 -7.709 85.458 1.00 31.23 C +ATOM 5690 O ALA A 324 -21.290 -6.856 84.853 1.00 21.62 O +ATOM 5691 CB ALA A 324 -20.409 -9.927 84.315 1.00 27.53 C +ATOM 5692 N GLN A 325 -20.694 -7.851 86.784 1.00 21.77 N +ATOM 5693 CA GLN A 325 -21.533 -6.991 87.608 1.00 24.56 C +ATOM 5694 C GLN A 325 -21.160 -5.520 87.472 1.00 24.65 C +ATOM 5695 O GLN A 325 -22.028 -4.649 87.596 1.00 26.74 O +ATOM 5696 CB GLN A 325 -21.415 -7.421 89.074 1.00 25.16 C +ATOM 5697 CG GLN A 325 -22.315 -6.650 90.006 1.00 21.29 C +ATOM 5698 CD GLN A 325 -23.785 -6.965 89.776 1.00 20.97 C +ATOM 5699 OE1 GLN A 325 -24.121 -7.998 89.197 1.00 20.94 O +ATOM 5700 NE2 GLN A 325 -24.661 -6.049 90.179 1.00 20.75 N +ATOM 5701 N LYS A 326 -19.886 -5.222 87.241 1.00 21.88 N +ATOM 5702 CA LYS A 326 -19.422 -3.855 87.068 1.00 26.96 C +ATOM 5703 C LYS A 326 -19.394 -3.430 85.606 1.00 26.49 C +ATOM 5704 O LYS A 326 -18.852 -2.369 85.289 1.00 26.97 O +ATOM 5705 CB LYS A 326 -18.033 -3.680 87.683 1.00 34.96 C +ATOM 5706 CG LYS A 326 -17.961 -4.092 89.134 1.00 40.94 C +ATOM 5707 CD LYS A 326 -16.521 -4.301 89.568 1.00 48.89 C +ATOM 5708 CE LYS A 326 -16.444 -4.735 91.029 1.00 54.00 C +ATOM 5709 NZ LYS A 326 -15.083 -4.524 91.604 1.00 58.48 N +ATOM 5710 N GLY A 327 -19.930 -4.248 84.714 1.00 24.59 N +ATOM 5711 CA GLY A 327 -19.920 -3.914 83.304 1.00 24.92 C +ATOM 5712 C GLY A 327 -21.308 -3.730 82.752 1.00 27.34 C +ATOM 5713 O GLY A 327 -22.276 -3.597 83.508 1.00 27.67 O +ATOM 5714 N GLU A 328 -21.415 -3.729 81.421 1.00 30.34 N +ATOM 5715 CA GLU A 328 -22.678 -3.537 80.732 1.00 31.52 C +ATOM 5716 C GLU A 328 -22.817 -4.581 79.639 1.00 28.22 C +ATOM 5717 O GLU A 328 -21.829 -4.941 78.985 1.00 27.05 O +ATOM 5718 CB GLU A 328 -22.786 -2.145 80.096 1.00 38.68 C +ATOM 5719 CG GLU A 328 -22.818 -0.993 81.078 1.00 47.01 C +ATOM 5720 CD GLU A 328 -22.855 0.359 80.382 1.00 52.65 C +ATOM 5721 OE1 GLU A 328 -23.212 0.410 79.183 1.00 53.64 O +ATOM 5722 OE2 GLU A 328 -22.505 1.364 81.032 1.00 54.92 O +ATOM 5723 N ILE A 329 -24.052 -5.057 79.447 1.00 21.76 N +ATOM 5724 CA ILE A 329 -24.348 -5.934 78.325 1.00 22.35 C +ATOM 5725 C ILE A 329 -24.199 -5.122 77.051 1.00 25.24 C +ATOM 5726 O ILE A 329 -24.742 -4.018 76.945 1.00 25.01 O +ATOM 5727 CB ILE A 329 -25.770 -6.502 78.446 1.00 24.58 C +ATOM 5728 CG1 ILE A 329 -25.931 -7.300 79.741 1.00 31.67 C +ATOM 5729 CG2 ILE A 329 -26.131 -7.355 77.228 1.00 20.46 C +ATOM 5730 CD1 ILE A 329 -25.204 -8.611 79.751 1.00 33.86 C +ATOM 5731 N MET A 330 -23.454 -5.652 76.090 1.00 26.51 N +ATOM 5732 CA MET A 330 -23.238 -4.932 74.845 1.00 29.35 C +ATOM 5733 C MET A 330 -24.573 -4.645 74.159 1.00 22.06 C +ATOM 5734 O MET A 330 -25.494 -5.464 74.214 1.00 20.57 O +ATOM 5735 CB MET A 330 -22.355 -5.745 73.895 1.00 28.81 C +ATOM 5736 CG MET A 330 -20.927 -5.879 74.336 1.00 30.58 C +ATOM 5737 SD MET A 330 -19.847 -6.679 73.120 1.00 31.80 S +ATOM 5738 CE MET A 330 -20.322 -8.395 73.268 1.00 27.81 C +ATOM 5739 N PRO A 331 -24.697 -3.500 73.486 1.00 24.89 N +ATOM 5740 CA PRO A 331 -25.795 -3.334 72.531 1.00 25.32 C +ATOM 5741 C PRO A 331 -25.635 -4.341 71.403 1.00 23.54 C +ATOM 5742 O PRO A 331 -24.537 -4.836 71.140 1.00 26.53 O +ATOM 5743 CB PRO A 331 -25.611 -1.899 72.013 1.00 25.46 C +ATOM 5744 CG PRO A 331 -24.612 -1.251 72.968 1.00 26.53 C +ATOM 5745 CD PRO A 331 -23.766 -2.358 73.467 1.00 24.59 C +ATOM 5746 N ASN A 332 -26.747 -4.657 70.737 1.00 20.87 N +ATOM 5747 CA ASN A 332 -26.686 -5.490 69.539 1.00 20.21 C +ATOM 5748 C ASN A 332 -27.095 -4.746 68.273 1.00 26.86 C +ATOM 5749 O ASN A 332 -27.344 -5.392 67.252 1.00 29.74 O +ATOM 5750 CB ASN A 332 -27.531 -6.762 69.685 1.00 20.01 C +ATOM 5751 CG ASN A 332 -29.033 -6.499 69.623 1.00 26.45 C +ATOM 5752 OD1 ASN A 332 -29.481 -5.364 69.531 1.00 27.19 O +ATOM 5753 ND2 ASN A 332 -29.815 -7.572 69.670 1.00 26.89 N +ATOM 5754 N ILE A 333 -27.175 -3.418 68.308 1.00 25.35 N +ATOM 5755 CA ILE A 333 -27.678 -2.635 67.171 1.00 26.31 C +ATOM 5756 C ILE A 333 -26.748 -2.789 65.974 1.00 26.73 C +ATOM 5757 O ILE A 333 -25.559 -3.101 66.145 1.00 24.57 O +ATOM 5758 CB ILE A 333 -27.860 -1.148 67.537 1.00 26.04 C +ATOM 5759 CG1 ILE A 333 -26.535 -0.487 67.881 1.00 25.23 C +ATOM 5760 CG2 ILE A 333 -28.847 -0.987 68.685 1.00 25.49 C +ATOM 5761 CD1 ILE A 333 -26.680 0.987 68.247 1.00 26.79 C +ATOM 5762 N PRO A 334 -27.245 -2.601 64.747 1.00 27.72 N +ATOM 5763 CA PRO A 334 -26.389 -2.813 63.571 1.00 23.08 C +ATOM 5764 C PRO A 334 -25.157 -1.927 63.556 1.00 23.21 C +ATOM 5765 O PRO A 334 -24.133 -2.320 62.987 1.00 26.64 O +ATOM 5766 CB PRO A 334 -27.326 -2.498 62.395 1.00 24.17 C +ATOM 5767 CG PRO A 334 -28.702 -2.755 62.928 1.00 25.68 C +ATOM 5768 CD PRO A 334 -28.652 -2.341 64.378 1.00 23.83 C +ATOM 5769 N GLN A 335 -25.192 -0.775 64.218 1.00 26.48 N +ATOM 5770 CA GLN A 335 -24.034 0.112 64.200 1.00 29.29 C +ATOM 5771 C GLN A 335 -22.856 -0.430 65.015 1.00 32.18 C +ATOM 5772 O GLN A 335 -21.797 0.211 65.035 1.00 28.42 O +ATOM 5773 CB GLN A 335 -24.439 1.492 64.736 1.00 30.77 C +ATOM 5774 CG GLN A 335 -25.385 2.278 63.827 1.00 35.29 C +ATOM 5775 CD GLN A 335 -26.763 1.641 63.712 1.00 35.79 C +ATOM 5776 OE1 GLN A 335 -27.220 0.954 64.627 1.00 34.82 O +ATOM 5777 NE2 GLN A 335 -27.420 1.843 62.570 1.00 38.00 N +ATOM 5778 N MET A 336 -22.992 -1.596 65.663 1.00 28.65 N +ATOM 5779 CA MET A 336 -21.939 -2.024 66.577 1.00 29.48 C +ATOM 5780 C MET A 336 -20.652 -2.375 65.836 1.00 29.25 C +ATOM 5781 O MET A 336 -19.563 -2.068 66.318 1.00 25.79 O +ATOM 5782 CB MET A 336 -22.415 -3.188 67.453 1.00 30.20 C +ATOM 5783 CG MET A 336 -23.241 -2.765 68.658 1.00 31.21 C +ATOM 5784 SD MET A 336 -22.302 -1.706 69.802 1.00 34.19 S +ATOM 5785 CE MET A 336 -21.057 -2.830 70.448 1.00 31.87 C +ATOM 5786 N SER A 337 -20.742 -2.978 64.646 1.00 31.05 N +ATOM 5787 CA SER A 337 -19.517 -3.329 63.936 1.00 29.45 C +ATOM 5788 C SER A 337 -18.722 -2.083 63.544 1.00 27.95 C +ATOM 5789 O SER A 337 -17.492 -2.069 63.648 1.00 27.23 O +ATOM 5790 CB SER A 337 -19.844 -4.182 62.710 1.00 37.22 C +ATOM 5791 OG SER A 337 -20.525 -3.409 61.748 1.00 44.14 O +ATOM 5792 N ALA A 338 -19.408 -1.010 63.132 1.00 29.17 N +ATOM 5793 CA ALA A 338 -18.705 0.229 62.808 1.00 32.39 C +ATOM 5794 C ALA A 338 -18.110 0.866 64.058 1.00 31.42 C +ATOM 5795 O ALA A 338 -17.026 1.462 64.003 1.00 35.48 O +ATOM 5796 CB ALA A 338 -19.638 1.212 62.106 1.00 30.75 C +ATOM 5797 N PHE A 339 -18.798 0.757 65.191 1.00 28.64 N +ATOM 5798 CA PHE A 339 -18.213 1.234 66.437 1.00 29.81 C +ATOM 5799 C PHE A 339 -16.907 0.500 66.730 1.00 33.73 C +ATOM 5800 O PHE A 339 -15.876 1.125 67.018 1.00 31.26 O +ATOM 5801 CB PHE A 339 -19.215 1.059 67.577 1.00 30.73 C +ATOM 5802 CG PHE A 339 -18.605 1.119 68.951 1.00 30.26 C +ATOM 5803 CD1 PHE A 339 -18.318 2.337 69.550 1.00 28.90 C +ATOM 5804 CD2 PHE A 339 -18.335 -0.046 69.655 1.00 30.39 C +ATOM 5805 CE1 PHE A 339 -17.767 2.384 70.815 1.00 22.82 C +ATOM 5806 CE2 PHE A 339 -17.779 0.004 70.913 1.00 28.80 C +ATOM 5807 CZ PHE A 339 -17.503 1.218 71.495 1.00 22.88 C +ATOM 5808 N TRP A 340 -16.922 -0.831 66.617 1.00 32.95 N +ATOM 5809 CA TRP A 340 -15.731 -1.599 66.952 1.00 30.21 C +ATOM 5810 C TRP A 340 -14.579 -1.258 66.013 1.00 32.34 C +ATOM 5811 O TRP A 340 -13.443 -1.096 66.462 1.00 30.13 O +ATOM 5812 CB TRP A 340 -16.035 -3.100 66.922 1.00 29.83 C +ATOM 5813 CG TRP A 340 -16.775 -3.639 68.132 1.00 27.80 C +ATOM 5814 CD1 TRP A 340 -17.969 -4.315 68.134 1.00 25.81 C +ATOM 5815 CD2 TRP A 340 -16.360 -3.564 69.509 1.00 23.35 C +ATOM 5816 NE1 TRP A 340 -18.315 -4.664 69.425 1.00 24.27 N +ATOM 5817 CE2 TRP A 340 -17.352 -4.205 70.283 1.00 25.34 C +ATOM 5818 CE3 TRP A 340 -15.256 -3.002 70.161 1.00 30.50 C +ATOM 5819 CZ2 TRP A 340 -17.267 -4.305 71.674 1.00 29.29 C +ATOM 5820 CZ3 TRP A 340 -15.172 -3.112 71.547 1.00 28.21 C +ATOM 5821 CH2 TRP A 340 -16.170 -3.757 72.280 1.00 29.18 C +ATOM 5822 N TYR A 341 -14.857 -1.125 64.707 1.00 34.34 N +ATOM 5823 CA TYR A 341 -13.808 -0.771 63.760 1.00 36.84 C +ATOM 5824 C TYR A 341 -13.192 0.585 64.090 1.00 33.91 C +ATOM 5825 O TYR A 341 -11.971 0.771 63.965 1.00 32.55 O +ATOM 5826 CB TYR A 341 -14.358 -0.774 62.334 1.00 44.04 C +ATOM 5827 CG TYR A 341 -13.320 -0.421 61.300 1.00 56.91 C +ATOM 5828 CD1 TYR A 341 -12.471 -1.389 60.783 1.00 62.32 C +ATOM 5829 CD2 TYR A 341 -13.184 0.883 60.842 1.00 62.20 C +ATOM 5830 CE1 TYR A 341 -11.517 -1.072 59.840 1.00 66.86 C +ATOM 5831 CE2 TYR A 341 -12.231 1.211 59.900 1.00 66.01 C +ATOM 5832 CZ TYR A 341 -11.401 0.230 59.401 1.00 68.57 C +ATOM 5833 OH TYR A 341 -10.452 0.557 58.459 1.00 70.98 O +ATOM 5834 N ALA A 342 -14.013 1.536 64.536 1.00 28.59 N +ATOM 5835 CA ALA A 342 -13.496 2.861 64.855 1.00 32.22 C +ATOM 5836 C ALA A 342 -12.647 2.834 66.119 1.00 35.07 C +ATOM 5837 O ALA A 342 -11.579 3.463 66.173 1.00 35.79 O +ATOM 5838 CB ALA A 342 -14.652 3.847 64.999 1.00 33.47 C +ATOM 5839 N VAL A 343 -13.092 2.107 67.148 1.00 32.79 N +ATOM 5840 CA VAL A 343 -12.286 2.023 68.366 1.00 30.94 C +ATOM 5841 C VAL A 343 -11.000 1.244 68.097 1.00 32.81 C +ATOM 5842 O VAL A 343 -9.937 1.579 68.625 1.00 33.10 O +ATOM 5843 CB VAL A 343 -13.098 1.403 69.518 1.00 28.98 C +ATOM 5844 CG1 VAL A 343 -12.265 1.365 70.809 1.00 30.24 C +ATOM 5845 CG2 VAL A 343 -14.400 2.179 69.749 1.00 27.49 C +ATOM 5846 N ARG A 344 -11.073 0.205 67.259 1.00 32.19 N +ATOM 5847 CA ARG A 344 -9.884 -0.583 66.950 1.00 32.08 C +ATOM 5848 C ARG A 344 -8.828 0.265 66.253 1.00 29.82 C +ATOM 5849 O ARG A 344 -7.635 0.151 66.550 1.00 29.24 O +ATOM 5850 CB ARG A 344 -10.252 -1.783 66.073 1.00 33.14 C +ATOM 5851 CG ARG A 344 -9.034 -2.608 65.654 1.00 41.01 C +ATOM 5852 CD ARG A 344 -9.411 -3.824 64.822 1.00 49.59 C +ATOM 5853 NE ARG A 344 -8.535 -4.960 65.119 1.00 60.07 N +ATOM 5854 CZ ARG A 344 -7.361 -5.196 64.535 1.00 64.34 C +ATOM 5855 NH1 ARG A 344 -6.892 -4.375 63.602 1.00 67.14 N +ATOM 5856 NH2 ARG A 344 -6.653 -6.262 64.888 1.00 64.01 N +ATOM 5857 N THR A 345 -9.254 1.107 65.308 1.00 31.76 N +ATOM 5858 CA THR A 345 -8.318 1.961 64.598 1.00 33.26 C +ATOM 5859 C THR A 345 -7.746 3.033 65.516 1.00 35.51 C +ATOM 5860 O THR A 345 -6.547 3.329 65.461 1.00 39.07 O +ATOM 5861 CB THR A 345 -9.010 2.585 63.392 1.00 36.04 C +ATOM 5862 OG1 THR A 345 -9.508 1.538 62.552 1.00 40.74 O +ATOM 5863 CG2 THR A 345 -8.034 3.432 62.593 1.00 34.27 C +ATOM 5864 N ALA A 346 -8.575 3.603 66.392 1.00 33.66 N +ATOM 5865 CA ALA A 346 -8.083 4.658 67.278 1.00 33.92 C +ATOM 5866 C ALA A 346 -7.054 4.126 68.266 1.00 35.96 C +ATOM 5867 O ALA A 346 -6.055 4.801 68.544 1.00 38.26 O +ATOM 5868 CB ALA A 346 -9.243 5.311 68.025 1.00 33.10 C +ATOM 5869 N VAL A 347 -7.273 2.923 68.807 1.00 33.58 N +ATOM 5870 CA VAL A 347 -6.342 2.376 69.793 1.00 37.31 C +ATOM 5871 C VAL A 347 -5.010 2.006 69.143 1.00 36.65 C +ATOM 5872 O VAL A 347 -3.939 2.281 69.694 1.00 40.46 O +ATOM 5873 CB VAL A 347 -6.983 1.174 70.514 1.00 41.38 C +ATOM 5874 CG1 VAL A 347 -5.959 0.429 71.360 1.00 42.44 C +ATOM 5875 CG2 VAL A 347 -8.136 1.644 71.387 1.00 42.75 C +ATOM 5876 N ILE A 348 -5.052 1.394 67.961 1.00 35.18 N +ATOM 5877 CA ILE A 348 -3.827 0.989 67.275 1.00 37.21 C +ATOM 5878 C ILE A 348 -3.031 2.211 66.826 1.00 38.75 C +ATOM 5879 O ILE A 348 -1.797 2.215 66.873 1.00 39.88 O +ATOM 5880 CB ILE A 348 -4.163 0.064 66.085 1.00 40.03 C +ATOM 5881 CG1 ILE A 348 -4.653 -1.302 66.575 1.00 41.06 C +ATOM 5882 CG2 ILE A 348 -2.963 -0.094 65.158 1.00 41.74 C +ATOM 5883 CD1 ILE A 348 -5.039 -2.254 65.449 1.00 41.48 C +ATOM 5884 N ASN A 349 -3.717 3.250 66.342 1.00 39.81 N +ATOM 5885 CA ASN A 349 -3.010 4.440 65.877 1.00 40.53 C +ATOM 5886 C ASN A 349 -2.420 5.224 67.038 1.00 43.35 C +ATOM 5887 O ASN A 349 -1.315 5.769 66.926 1.00 44.26 O +ATOM 5888 CB ASN A 349 -3.935 5.319 65.038 1.00 39.38 C +ATOM 5889 CG ASN A 349 -4.202 4.723 63.678 1.00 44.86 C +ATOM 5890 OD1 ASN A 349 -3.528 3.776 63.272 1.00 48.78 O +ATOM 5891 ND2 ASN A 349 -5.162 5.285 62.951 1.00 45.90 N +ATOM 5892 N ALA A 350 -3.134 5.298 68.159 1.00 39.82 N +ATOM 5893 CA ALA A 350 -2.581 5.986 69.319 1.00 40.42 C +ATOM 5894 C ALA A 350 -1.438 5.186 69.934 1.00 42.80 C +ATOM 5895 O ALA A 350 -0.349 5.725 70.171 1.00 38.26 O +ATOM 5896 CB ALA A 350 -3.676 6.247 70.350 1.00 41.23 C +ATOM 5897 N ALA A 351 -1.643 3.881 70.141 1.00 43.45 N +ATOM 5898 CA ALA A 351 -0.623 3.071 70.807 1.00 44.30 C +ATOM 5899 C ALA A 351 0.686 3.060 70.026 1.00 42.44 C +ATOM 5900 O ALA A 351 1.764 3.034 70.620 1.00 41.19 O +ATOM 5901 CB ALA A 351 -1.128 1.645 71.013 1.00 46.76 C +ATOM 5902 N SER A 352 0.614 3.077 68.697 1.00 46.06 N +ATOM 5903 CA SER A 352 1.828 3.059 67.889 1.00 45.72 C +ATOM 5904 C SER A 352 2.494 4.423 67.803 1.00 46.87 C +ATOM 5905 O SER A 352 3.665 4.502 67.413 1.00 46.56 O +ATOM 5906 CB SER A 352 1.529 2.576 66.473 1.00 45.36 C +ATOM 5907 OG SER A 352 0.860 3.586 65.747 1.00 47.02 O +ATOM 5908 N GLY A 353 1.765 5.497 68.097 1.00 44.70 N +ATOM 5909 CA GLY A 353 2.306 6.837 68.036 1.00 43.55 C +ATOM 5910 C GLY A 353 2.055 7.571 66.738 1.00 45.19 C +ATOM 5911 O GLY A 353 2.433 8.744 66.632 1.00 47.16 O +ATOM 5912 N ARG A 354 1.444 6.919 65.741 1.00 43.91 N +ATOM 5913 CA ARG A 354 1.148 7.595 64.482 1.00 48.42 C +ATOM 5914 C ARG A 354 0.132 8.716 64.647 1.00 49.36 C +ATOM 5915 O ARG A 354 0.052 9.593 63.780 1.00 48.49 O +ATOM 5916 CB ARG A 354 0.675 6.579 63.434 1.00 53.03 C +ATOM 5917 CG ARG A 354 1.824 5.757 62.843 1.00 60.07 C +ATOM 5918 CD ARG A 354 1.374 4.848 61.711 1.00 63.20 C +ATOM 5919 NE ARG A 354 0.254 4.013 62.125 1.00 66.01 N +ATOM 5920 CZ ARG A 354 0.402 2.834 62.724 1.00 66.83 C +ATOM 5921 NH1 ARG A 354 -0.660 2.124 63.080 1.00 65.81 N +ATOM 5922 NH2 ARG A 354 1.619 2.364 62.967 1.00 67.59 N +ATOM 5923 N GLN A 355 -0.664 8.686 65.715 1.00 47.90 N +ATOM 5924 CA GLN A 355 -1.543 9.788 66.071 1.00 47.31 C +ATOM 5925 C GLN A 355 -1.495 9.978 67.577 1.00 47.21 C +ATOM 5926 O GLN A 355 -1.259 9.027 68.327 1.00 46.11 O +ATOM 5927 CB GLN A 355 -2.996 9.537 65.645 1.00 49.00 C +ATOM 5928 CG GLN A 355 -3.241 9.517 64.149 1.00 50.27 C +ATOM 5929 CD GLN A 355 -4.713 9.364 63.820 1.00 52.30 C +ATOM 5930 OE1 GLN A 355 -5.313 8.313 64.054 1.00 51.76 O +ATOM 5931 NE2 GLN A 355 -5.308 10.421 63.286 1.00 55.40 N +ATOM 5932 N THR A 356 -1.737 11.207 68.020 1.00 46.97 N +ATOM 5933 CA THR A 356 -1.955 11.402 69.443 1.00 48.10 C +ATOM 5934 C THR A 356 -3.343 10.883 69.803 1.00 43.58 C +ATOM 5935 O THR A 356 -4.130 10.504 68.934 1.00 45.12 O +ATOM 5936 CB THR A 356 -1.821 12.875 69.829 1.00 49.59 C +ATOM 5937 OG1 THR A 356 -2.926 13.614 69.289 1.00 48.96 O +ATOM 5938 CG2 THR A 356 -0.509 13.450 69.297 1.00 49.94 C +ATOM 5939 N VAL A 357 -3.633 10.854 71.104 1.00 42.38 N +ATOM 5940 CA VAL A 357 -4.934 10.379 71.563 1.00 45.86 C +ATOM 5941 C VAL A 357 -6.053 11.281 71.050 1.00 50.62 C +ATOM 5942 O VAL A 357 -7.098 10.797 70.593 1.00 47.72 O +ATOM 5943 CB VAL A 357 -4.951 10.275 73.097 1.00 40.65 C +ATOM 5944 CG1 VAL A 357 -6.375 10.033 73.597 1.00 38.43 C +ATOM 5945 CG2 VAL A 357 -4.006 9.172 73.560 1.00 35.57 C +ATOM 5946 N ASP A 358 -5.855 12.601 71.112 1.00 53.06 N +ATOM 5947 CA ASP A 358 -6.898 13.521 70.663 1.00 56.72 C +ATOM 5948 C ASP A 358 -7.172 13.364 69.174 1.00 53.04 C +ATOM 5949 O ASP A 358 -8.332 13.368 68.748 1.00 52.72 O +ATOM 5950 CB ASP A 358 -6.512 14.963 70.989 1.00 62.81 C +ATOM 5951 CG ASP A 358 -6.630 15.271 72.468 1.00 68.02 C +ATOM 5952 OD1 ASP A 358 -7.167 14.418 73.204 1.00 68.86 O +ATOM 5953 OD2 ASP A 358 -6.181 16.358 72.894 1.00 70.32 O +ATOM 5954 N GLU A 359 -6.119 13.225 68.368 1.00 50.65 N +ATOM 5955 CA GLU A 359 -6.307 13.036 66.936 1.00 52.00 C +ATOM 5956 C GLU A 359 -7.001 11.708 66.646 1.00 50.00 C +ATOM 5957 O GLU A 359 -7.855 11.625 65.753 1.00 49.14 O +ATOM 5958 CB GLU A 359 -4.957 13.097 66.217 1.00 55.75 C +ATOM 5959 CG GLU A 359 -4.190 14.400 66.418 1.00 59.49 C +ATOM 5960 CD GLU A 359 -2.765 14.338 65.882 1.00 63.57 C +ATOM 5961 OE1 GLU A 359 -2.098 13.297 66.057 1.00 64.58 O +ATOM 5962 OE2 GLU A 359 -2.304 15.343 65.303 1.00 66.04 O +ATOM 5963 N ALA A 360 -6.641 10.659 67.390 1.00 44.77 N +ATOM 5964 CA ALA A 360 -7.155 9.326 67.109 1.00 41.24 C +ATOM 5965 C ALA A 360 -8.631 9.213 67.468 1.00 41.86 C +ATOM 5966 O ALA A 360 -9.433 8.682 66.685 1.00 39.36 O +ATOM 5967 CB ALA A 360 -6.332 8.278 67.861 1.00 36.25 C +ATOM 5968 N LEU A 361 -9.008 9.707 68.649 1.00 41.61 N +ATOM 5969 CA LEU A 361 -10.401 9.613 69.068 1.00 44.38 C +ATOM 5970 C LEU A 361 -11.291 10.566 68.287 1.00 49.14 C +ATOM 5971 O LEU A 361 -12.483 10.289 68.110 1.00 47.35 O +ATOM 5972 CB LEU A 361 -10.522 9.873 70.562 1.00 40.84 C +ATOM 5973 CG LEU A 361 -9.895 8.747 71.381 1.00 40.20 C +ATOM 5974 CD1 LEU A 361 -10.101 8.977 72.868 1.00 37.38 C +ATOM 5975 CD2 LEU A 361 -10.471 7.407 70.939 1.00 42.21 C +ATOM 5976 N LYS A 362 -10.739 11.683 67.810 1.00 54.70 N +ATOM 5977 CA LYS A 362 -11.517 12.574 66.955 1.00 59.77 C +ATOM 5978 C LYS A 362 -11.887 11.893 65.643 1.00 59.49 C +ATOM 5979 O LYS A 362 -13.000 12.081 65.137 1.00 60.43 O +ATOM 5980 CB LYS A 362 -10.739 13.861 66.686 1.00 64.49 C +ATOM 5981 CG LYS A 362 -11.514 14.901 65.892 1.00 69.33 C +ATOM 5982 CD LYS A 362 -10.683 16.163 65.673 1.00 74.22 C +ATOM 5983 CE LYS A 362 -9.514 15.905 64.731 1.00 77.63 C +ATOM 5984 NZ LYS A 362 -9.977 15.486 63.374 1.00 79.70 N +ATOM 5985 N ASP A 363 -10.979 11.082 65.090 1.00 58.72 N +ATOM 5986 CA ASP A 363 -11.291 10.341 63.869 1.00 60.79 C +ATOM 5987 C ASP A 363 -12.322 9.248 64.121 1.00 60.57 C +ATOM 5988 O ASP A 363 -13.086 8.895 63.214 1.00 59.87 O +ATOM 5989 CB ASP A 363 -10.024 9.730 63.271 1.00 66.01 C +ATOM 5990 CG ASP A 363 -9.086 10.771 62.695 1.00 72.04 C +ATOM 5991 OD1 ASP A 363 -9.479 11.953 62.587 1.00 73.58 O +ATOM 5992 OD2 ASP A 363 -7.946 10.402 62.347 1.00 74.93 O +ATOM 5993 N ALA A 364 -12.353 8.695 65.333 1.00 59.59 N +ATOM 5994 CA ALA A 364 -13.367 7.708 65.669 1.00 60.80 C +ATOM 5995 C ALA A 364 -14.754 8.328 65.786 1.00 65.52 C +ATOM 5996 O ALA A 364 -15.750 7.616 65.629 1.00 64.39 O +ATOM 5997 CB ALA A 364 -12.991 7.003 66.974 1.00 55.43 C +ATOM 5998 N GLN A 365 -14.838 9.636 66.030 1.00 73.90 N +ATOM 5999 CA GLN A 365 -16.093 10.324 66.307 1.00 82.31 C +ATOM 6000 C GLN A 365 -16.733 10.939 65.066 1.00 90.99 C +ATOM 6001 O GLN A 365 -17.827 11.502 65.169 1.00 90.29 O +ATOM 6002 CB GLN A 365 -15.855 11.415 67.363 1.00 84.07 C +ATOM 6003 CG GLN A 365 -17.108 11.983 68.018 1.00 86.64 C +ATOM 6004 CD GLN A 365 -17.784 10.999 68.949 1.00 88.58 C +ATOM 6005 OE1 GLN A 365 -17.174 10.027 69.394 1.00 89.81 O +ATOM 6006 NE2 GLN A 365 -19.053 11.247 69.251 1.00 89.25 N +ATOM 6007 N THR A 366 -16.090 10.831 63.900 1.00101.11 N +ATOM 6008 CA THR A 366 -16.516 11.532 62.689 1.00109.53 C +ATOM 6009 C THR A 366 -17.989 11.312 62.358 1.00119.87 C +ATOM 6010 O THR A 366 -18.588 10.318 62.783 1.00120.10 O +ATOM 6011 CB THR A 366 -15.650 11.111 61.497 1.00106.66 C +ATOM 6012 OG1 THR A 366 -15.580 9.681 61.433 1.00106.36 O +ATOM 6013 CG2 THR A 366 -14.244 11.683 61.626 1.00104.94 C +ATOM 6014 N ASN A 367 -18.568 12.244 61.598 1.00132.60 N +ATOM 6015 CA ASN A 367 -19.997 12.263 61.261 1.00139.82 C +ATOM 6016 C ASN A 367 -20.550 10.903 60.825 1.00143.66 C +ATOM 6017 O ASN A 367 -19.875 10.121 60.153 1.00145.39 O +ATOM 6018 CB ASN A 367 -20.261 13.293 60.152 1.00144.18 C +ATOM 6019 CG ASN A 367 -20.176 14.731 60.645 1.00146.65 C +ATOM 6020 OD1 ASN A 367 -19.099 15.225 60.981 1.00147.87 O +ATOM 6021 ND2 ASN A 367 -21.316 15.416 60.668 1.00146.44 N +ATOM 6022 OXT ASN A 367 -21.692 10.559 61.134 1.00144.58 O +HETATM 6023 C1 MAL A 401 -15.923 -8.698 70.919 1.00 25.02 C +HETATM 6024 C2 MAL A 401 -17.204 -8.495 70.137 1.00 26.58 C +HETATM 6025 C3 MAL A 401 -16.822 -8.396 68.661 1.00 28.92 C +HETATM 6026 C4 MAL A 401 -15.834 -7.253 68.473 1.00 23.66 C +HETATM 6027 C5 MAL A 401 -14.628 -7.421 69.381 1.00 28.48 C +HETATM 6028 C6 MAL A 401 -13.697 -6.214 69.259 1.00 32.25 C +HETATM 6029 O1 MAL A 401 -15.309 -9.901 70.487 1.00 25.18 O +HETATM 6030 O2 MAL A 401 -18.078 -9.584 70.337 1.00 22.96 O +HETATM 6031 O3 MAL A 401 -17.964 -8.170 67.874 1.00 28.51 O +HETATM 6032 O4 MAL A 401 -15.437 -7.201 67.119 1.00 23.84 O +HETATM 6033 O5 MAL A 401 -15.060 -7.586 70.728 1.00 26.41 O +HETATM 6034 O6 MAL A 401 -12.464 -6.486 69.891 1.00 24.75 O +HETATM 6035 C1' MAL A 401 -13.542 -13.192 72.336 1.00 33.57 C +HETATM 6036 C2' MAL A 401 -14.964 -12.830 72.778 1.00 33.16 C +HETATM 6037 C3' MAL A 401 -15.639 -11.874 71.800 1.00 27.70 C +HETATM 6038 C4' MAL A 401 -14.712 -10.702 71.487 1.00 28.22 C +HETATM 6039 C5' MAL A 401 -13.332 -11.198 71.028 1.00 30.17 C +HETATM 6040 C6' MAL A 401 -12.347 -10.052 70.793 1.00 28.83 C +HETATM 6041 O1' MAL A 401 -13.601 -14.067 71.234 1.00 34.30 O +HETATM 6042 O2' MAL A 401 -15.706 -14.023 72.851 1.00 36.79 O +HETATM 6043 O3' MAL A 401 -16.873 -11.415 72.316 1.00 28.60 O +HETATM 6044 O5' MAL A 401 -12.770 -12.052 72.007 1.00 30.46 O +HETATM 6045 O6' MAL A 401 -11.215 -10.506 70.067 1.00 26.19 O +HETATM 6046 C1 GOL A 402 -7.782 -20.936 91.393 1.00 45.12 C +HETATM 6047 O1 GOL A 402 -7.663 -21.377 90.064 1.00 42.40 O +HETATM 6048 C2 GOL A 402 -8.854 -19.829 91.440 1.00 42.57 C +HETATM 6049 O2 GOL A 402 -8.928 -19.225 92.673 1.00 48.35 O +HETATM 6050 C3 GOL A 402 -8.400 -18.814 90.437 1.00 42.41 C +HETATM 6051 O3 GOL A 402 -8.903 -17.612 90.920 1.00 42.66 O +HETATM 6052 C1 GOL A 403 -37.775 -25.496 57.598 1.00 51.17 C +HETATM 6053 O1 GOL A 403 -37.879 -24.131 57.892 1.00 55.94 O +HETATM 6054 C2 GOL A 403 -36.287 -25.885 57.706 1.00 44.80 C +HETATM 6055 O2 GOL A 403 -35.477 -25.212 56.818 1.00 43.20 O +HETATM 6056 C3 GOL A 403 -36.254 -27.374 57.503 1.00 43.26 C +HETATM 6057 O3 GOL A 403 -36.069 -27.894 58.765 1.00 41.84 O +HETATM 6058 O HOH A 501 -5.331 4.755 60.762 1.00 56.32 O +HETATM 6059 O HOH A 502 -17.650 -18.469 75.708 1.00 30.29 O +HETATM 6060 O HOH A 503 13.402 -1.934 86.653 1.00 47.20 O +HETATM 6061 O HOH A 504 -28.075 13.504 69.065 1.00 60.27 O +HETATM 6062 O HOH A 505 -36.708 -11.412 76.467 1.00 31.13 O +HETATM 6063 O HOH A 506 -38.312 -27.762 77.633 1.00 36.24 O +HETATM 6064 O HOH A 507 -33.486 -1.121 60.059 1.00 40.23 O +HETATM 6065 O HOH A 508 -19.551 -29.724 54.622 1.00 53.24 O +HETATM 6066 O HOH A 509 -30.051 -21.187 88.414 1.00 27.48 O +HETATM 6067 O HOH A 510 -21.013 -34.328 79.001 1.00 35.58 O +HETATM 6068 O HOH A 511 -34.530 -29.729 59.322 1.00 29.71 O +HETATM 6069 O HOH A 512 -22.138 -1.762 85.142 1.00 58.34 O +HETATM 6070 O HOH A 513 -11.163 -16.697 91.269 1.00 49.39 O +HETATM 6071 O HOH A 514 -42.200 -22.964 69.464 1.00 49.68 O +HETATM 6072 O HOH A 515 -36.127 -8.948 64.505 1.00 40.26 O +HETATM 6073 O HOH A 516 -25.514 -28.181 55.915 1.00 26.80 O +HETATM 6074 O HOH A 517 -4.373 -19.636 71.574 1.00 45.10 O +HETATM 6075 O HOH A 518 -14.375 -33.863 68.919 1.00 44.17 O +HETATM 6076 O HOH A 519 -4.435 -26.878 76.542 1.00 54.46 O +HETATM 6077 O HOH A 520 -11.881 -10.703 67.664 1.00 39.91 O +HETATM 6078 O HOH A 521 -39.028 -25.517 81.552 1.00 33.24 O +HETATM 6079 O HOH A 522 -39.209 -17.539 80.329 1.00 49.71 O +HETATM 6080 O HOH A 523 -15.698 -8.544 78.634 1.00 27.03 O +HETATM 6081 O HOH A 524 -36.680 -25.362 54.582 1.00 49.31 O +HETATM 6082 O HOH A 525 -30.931 -30.947 84.305 1.00 49.11 O +HETATM 6083 O HOH A 526 -9.413 -21.649 60.938 1.00 50.09 O +HETATM 6084 O HOH A 527 -8.087 -27.676 82.152 1.00 37.12 O +HETATM 6085 O HOH A 528 -20.691 17.827 60.086 1.00 57.97 O +HETATM 6086 O HOH A 529 -13.111 -16.326 63.583 1.00 52.38 O +HETATM 6087 O HOH A 530 2.808 3.286 89.536 1.00 45.17 O +HETATM 6088 O HOH A 531 -6.639 -18.903 74.732 1.00 39.34 O +HETATM 6089 O HOH A 532 -18.552 -27.594 84.267 1.00 38.94 O +HETATM 6090 O HOH A 533 -40.845 -26.686 60.896 1.00 52.25 O +HETATM 6091 O HOH A 534 -37.769 -9.504 79.149 1.00 34.23 O +HETATM 6092 O HOH A 535 -30.321 0.684 61.396 1.00 42.41 O +HETATM 6093 O HOH A 536 -22.498 -24.779 54.316 1.00 45.39 O +HETATM 6094 O HOH A 537 -17.677 -11.620 75.088 1.00 34.73 O +HETATM 6095 O HOH A 538 -42.687 -12.991 66.269 1.00 47.84 O +HETATM 6096 O HOH A 539 -30.578 -10.024 52.679 1.00 26.44 O +HETATM 6097 O HOH A 540 -15.807 -22.925 74.854 1.00 24.99 O +HETATM 6098 O HOH A 541 -31.660 -4.115 70.209 1.00 36.63 O +HETATM 6099 O HOH A 542 -22.091 -1.140 61.873 1.00 41.55 O +HETATM 6100 O HOH A 543 -24.411 -9.105 54.183 1.00 47.34 O +HETATM 6101 O HOH A 544 -29.699 1.324 65.426 1.00 35.57 O +HETATM 6102 O HOH A 545 3.829 -4.756 82.315 1.00 48.14 O +HETATM 6103 O HOH A 546 -35.661 -22.390 66.685 1.00 21.08 O +HETATM 6104 O HOH A 547 -28.960 -16.000 55.081 1.00 28.77 O +HETATM 6105 O HOH A 548 -0.205 8.590 70.710 1.00 51.17 O +HETATM 6106 O HOH A 549 -34.468 -5.425 57.625 1.00 22.15 O +HETATM 6107 O HOH A 550 -23.070 6.415 64.425 1.00 55.99 O +HETATM 6108 O HOH A 551 -41.123 -19.140 70.270 1.00 37.51 O +HETATM 6109 O HOH A 552 -15.538 -20.289 75.824 1.00 30.24 O +HETATM 6110 O HOH A 553 7.841 -2.015 69.586 1.00 46.19 O +HETATM 6111 O HOH A 554 -17.609 -22.294 82.545 1.00 37.09 O +HETATM 6112 O HOH A 555 -9.586 1.670 93.695 1.00 38.34 O +HETATM 6113 O HOH A 556 -7.877 3.459 90.485 1.00 34.45 O +HETATM 6114 O HOH A 557 -7.571 -14.746 93.268 1.00 47.91 O +HETATM 6115 O HOH A 558 -11.956 -24.119 89.218 1.00 42.91 O +HETATM 6116 O HOH A 559 -12.647 -3.060 88.501 1.00 32.12 O +HETATM 6117 O HOH A 560 -36.298 -17.303 81.335 1.00 29.09 O +HETATM 6118 O HOH A 561 2.810 -5.626 75.927 1.00 42.93 O +HETATM 6119 O HOH A 562 -41.066 -25.923 69.935 1.00 51.30 O +HETATM 6120 O HOH A 563 -27.945 -16.297 90.867 1.00 37.94 O +HETATM 6121 O HOH A 564 -38.306 -7.822 62.626 1.00 37.78 O +HETATM 6122 O HOH A 565 -39.070 -25.753 72.027 1.00 27.44 O +HETATM 6123 O HOH A 566 -21.184 -35.625 63.453 1.00 27.29 O +HETATM 6124 O HOH A 567 -17.587 -26.362 88.260 1.00 39.65 O +HETATM 6125 O HOH A 568 -31.339 -17.332 64.282 1.00 19.39 O +HETATM 6126 O HOH A 569 -19.216 -33.349 65.281 1.00 39.59 O +HETATM 6127 O HOH A 570 -33.112 -30.820 57.007 1.00 37.34 O +HETATM 6128 O HOH A 571 -16.626 2.596 86.421 1.00 37.45 O +HETATM 6129 O HOH A 572 -20.367 -8.032 61.457 1.00 28.15 O +HETATM 6130 O HOH A 573 -39.546 -14.117 68.847 1.00 23.93 O +HETATM 6131 O HOH A 574 -2.165 -24.313 85.651 1.00 45.06 O +HETATM 6132 O HOH A 575 -26.970 -20.937 46.995 1.00 47.13 O +HETATM 6133 O HOH A 576 -15.931 -4.252 63.222 1.00 37.01 O +HETATM 6134 O HOH A 577 -24.951 -5.825 65.325 1.00 20.71 O +HETATM 6135 O HOH A 578 -27.538 -4.797 58.675 1.00 36.29 O +HETATM 6136 O HOH A 579 13.003 -6.115 91.670 1.00 53.36 O +HETATM 6137 O HOH A 580 -34.805 -9.978 82.081 1.00 27.26 O +HETATM 6138 O HOH A 581 -13.866 -9.222 66.162 1.00 33.91 O +HETATM 6139 O HOH A 582 -25.893 0.226 76.033 1.00 30.20 O +HETATM 6140 O HOH A 583 -9.982 -24.380 82.824 1.00 39.03 O +HETATM 6141 O HOH A 584 -41.468 -7.607 65.730 1.00 43.64 O +HETATM 6142 O HOH A 585 -26.116 -3.588 80.497 1.00 31.90 O +HETATM 6143 O HOH A 586 -30.530 -18.126 89.993 1.00 35.79 O +HETATM 6144 O HOH A 587 -7.666 -8.913 93.544 1.00 47.94 O +HETATM 6145 O HOH A 588 -36.948 -28.477 73.428 1.00 38.54 O +HETATM 6146 O HOH A 589 -11.618 5.781 81.375 1.00 32.62 O +HETATM 6147 O HOH A 590 -16.241 11.686 79.981 1.00 54.56 O +HETATM 6148 O HOH A 591 -37.307 -21.018 56.133 1.00 46.96 O +HETATM 6149 O HOH A 592 7.983 -12.166 77.485 1.00 43.01 O +HETATM 6150 O HOH A 593 -31.707 -5.912 72.185 1.00 34.51 O +HETATM 6151 O HOH A 594 -10.381 14.519 70.197 1.00 53.79 O +HETATM 6152 O HOH A 595 -3.543 -14.010 77.752 1.00 34.13 O +HETATM 6153 O HOH A 596 2.992 -16.074 84.252 1.00 33.28 O +HETATM 6154 O HOH A 597 -34.995 -32.834 75.321 1.00 45.85 O +HETATM 6155 O HOH A 598 -41.039 -14.511 73.490 1.00 48.02 O +HETATM 6156 O HOH A 599 5.293 -14.245 73.916 1.00 38.28 O +HETATM 6157 O HOH A 600 6.579 5.017 84.127 1.00 45.78 O +HETATM 6158 O HOH A 601 -25.579 -27.902 88.240 1.00 40.68 O +HETATM 6159 O HOH A 602 -25.745 -36.215 57.485 1.00 38.18 O +HETATM 6160 O HOH A 603 -28.247 -10.103 69.850 1.00 25.26 O +HETATM 6161 O HOH A 604 -26.079 -19.021 46.082 1.00 35.44 O +HETATM 6162 O HOH A 605 6.838 -15.929 75.175 1.00 52.69 O +HETATM 6163 O HOH A 606 -17.847 -18.067 68.273 1.00 30.95 O +HETATM 6164 O HOH A 607 -35.740 -30.645 55.332 1.00 50.64 O +HETATM 6165 O HOH A 608 0.862 -6.780 66.133 1.00 44.72 O +HETATM 6166 O HOH A 609 -26.493 -5.875 54.536 1.00 32.05 O +HETATM 6167 O HOH A 610 11.184 -2.113 79.955 1.00 51.83 O +HETATM 6168 O HOH A 611 -7.458 -22.108 76.723 1.00 36.50 O +HETATM 6169 O HOH A 612 9.103 0.313 91.392 1.00 39.57 O +HETATM 6170 O HOH A 613 -25.869 -21.712 84.807 1.00 27.15 O +HETATM 6171 O HOH A 614 -9.045 -27.758 63.598 1.00 50.80 O +HETATM 6172 O HOH A 615 5.017 -7.827 72.297 1.00 45.80 O +HETATM 6173 O HOH A 616 -13.401 -14.135 83.173 1.00 39.00 O +HETATM 6174 O HOH A 617 -16.482 -23.572 84.539 1.00 42.54 O +HETATM 6175 O HOH A 618 -39.740 -17.176 69.551 1.00 32.47 O +HETATM 6176 O HOH A 619 -18.458 -27.378 55.127 1.00 47.91 O +HETATM 6177 O HOH A 620 -16.248 2.374 61.461 1.00 39.22 O +HETATM 6178 O HOH A 621 -32.571 -33.448 75.672 1.00 41.99 O +HETATM 6179 O HOH A 622 -22.350 -10.811 49.969 1.00 44.86 O +HETATM 6180 O HOH A 623 -0.384 -24.067 77.368 1.00 53.84 O +HETATM 6181 O HOH A 624 -4.316 -19.086 77.923 1.00 30.85 O +HETATM 6182 O HOH A 625 -28.262 -5.696 74.755 1.00 40.47 O +HETATM 6183 O HOH A 626 3.352 -20.246 88.554 1.00 48.22 O +HETATM 6184 O HOH A 627 -18.860 4.932 81.410 1.00 47.26 O +HETATM 6185 O HOH A 628 -34.792 -13.463 56.134 1.00 32.41 O +HETATM 6186 O HOH A 629 -26.690 -8.310 88.032 1.00 23.14 O +HETATM 6187 O HOH A 630 -9.523 -3.709 91.676 1.00 47.35 O +HETATM 6188 O HOH A 631 -10.649 -26.723 70.960 1.00 57.61 O +HETATM 6189 O HOH A 632 -11.227 -18.566 64.306 1.00 40.16 O +HETATM 6190 O HOH A 633 -14.146 -5.299 94.182 1.00 54.26 O +HETATM 6191 O HOH A 634 -23.824 1.847 74.509 1.00 34.56 O +HETATM 6192 O HOH A 635 -39.470 -27.548 75.610 1.00 39.21 O +HETATM 6193 O HOH A 636 -10.850 -14.733 82.947 1.00 27.20 O +HETATM 6194 O HOH A 637 -32.848 -11.851 59.776 1.00 28.26 O +HETATM 6195 O HOH A 638 -8.798 -11.925 70.652 1.00 32.84 O +HETATM 6196 O HOH A 639 -8.782 -2.760 79.854 1.00 31.17 O +HETATM 6197 O HOH A 640 -33.421 -29.386 76.677 1.00 34.41 O +HETATM 6198 O HOH A 641 -25.882 -33.706 74.582 1.00 36.68 O +HETATM 6199 O HOH A 642 -9.690 -23.675 70.712 1.00 52.41 O +HETATM 6200 O HOH A 643 -43.698 -23.128 80.977 1.00 54.53 O +HETATM 6201 O HOH A 644 -0.123 -5.497 76.532 1.00 36.38 O +HETATM 6202 O HOH A 645 -31.924 -28.757 79.184 1.00 36.10 O +HETATM 6203 O HOH A 646 0.443 5.150 82.164 1.00 47.42 O +HETATM 6204 O HOH A 647 -9.784 -14.552 63.033 1.00 44.00 O +HETATM 6205 O HOH A 648 -2.916 -13.763 67.885 1.00 37.68 O +HETATM 6206 O HOH A 649 -33.357 -37.406 69.920 1.00 40.17 O +HETATM 6207 O HOH A 650 -29.201 -3.426 71.690 1.00 28.47 O +HETATM 6208 O HOH A 651 -32.386 -25.145 83.219 1.00 21.71 O +HETATM 6209 O HOH A 652 -3.889 -13.513 75.314 1.00 32.23 O +HETATM 6210 O HOH A 653 -35.659 -23.641 63.931 1.00 32.04 O +HETATM 6211 O HOH A 654 -11.883 -26.676 80.913 1.00 44.97 O +HETATM 6212 O HOH A 655 -35.587 -32.445 63.397 1.00 51.36 O +HETATM 6213 O HOH A 656 -16.668 -31.479 63.399 1.00 45.37 O +HETATM 6214 O HOH A 657 10.266 0.483 81.333 1.00 48.27 O +HETATM 6215 O HOH A 658 -32.169 -27.804 82.061 1.00 36.40 O +HETATM 6216 O HOH A 659 -44.201 -25.016 76.785 1.00 19.69 O +HETATM 6217 O HOH A 660 -7.248 -23.756 88.375 1.00 45.75 O +HETATM 6218 O HOH A 661 -11.898 -24.769 60.507 1.00 30.84 O +HETATM 6219 O HOH A 662 -18.871 -1.002 79.184 1.00 40.25 O +HETATM 6220 O HOH A 663 -4.770 -10.935 76.237 1.00 34.77 O +HETATM 6221 O HOH A 664 10.520 -10.236 80.249 1.00 59.42 O +HETATM 6222 O HOH A 665 -0.450 -22.232 75.990 1.00 48.59 O +HETATM 6223 O HOH A 666 -20.640 -15.337 48.687 1.00 37.88 O +HETATM 6224 O HOH A 667 -25.017 -8.100 58.063 1.00 29.40 O +HETATM 6225 O HOH A 668 -14.736 -5.662 77.441 1.00 28.94 O +HETATM 6226 O HOH A 669 -35.327 -8.519 60.128 1.00 41.71 O +HETATM 6227 O HOH A 670 -21.908 2.214 76.356 1.00 41.55 O +HETATM 6228 O HOH A 671 -28.860 -6.909 72.837 1.00 27.93 O +HETATM 6229 O HOH A 672 -30.974 -14.317 53.751 1.00 29.48 O +HETATM 6230 O HOH A 673 -22.728 -5.172 64.193 1.00 32.49 O +HETATM 6231 O HOH A 674 -0.337 -0.287 67.630 1.00 39.85 O +HETATM 6232 O HOH A 675 -1.820 -1.375 69.632 1.00 48.79 O +HETATM 6233 O HOH A 676 -30.016 -31.166 81.255 1.00 39.95 O +HETATM 6234 O HOH A 677 -14.339 -4.744 86.960 1.00 41.53 O +HETATM 6235 O HOH A 678 -12.120 -26.288 84.022 1.00 46.88 O +HETATM 6236 O HOH A 679 -12.571 -4.681 59.605 1.00 49.23 O +HETATM 6237 O HOH A 680 -23.060 -7.473 62.179 1.00 24.21 O +HETATM 6238 O HOH A 681 -35.341 1.195 79.212 1.00 26.45 O +HETATM 6239 O HOH A 682 -12.386 15.687 75.104 1.00 61.45 O +HETATM 6240 O HOH A 683 -4.609 -15.991 68.217 1.00 49.95 O +HETATM 6241 O HOH A 684 2.158 -8.965 95.399 1.00 46.19 O +HETATM 6242 O HOH A 685 -12.314 -5.365 65.733 1.00 49.08 O +HETATM 6243 O HOH A 686 -37.700 -17.432 83.674 1.00 49.22 O +HETATM 6244 O HOH A 687 3.385 4.646 82.448 1.00 38.91 O +HETATM 6245 O HOH A 688 -3.116 -3.476 95.503 1.00 41.47 O +HETATM 6246 O HOH A 689 5.829 -0.210 71.490 1.00 47.87 O +HETATM 6247 O HOH A 690 5.276 -22.568 82.403 1.00 54.53 O +HETATM 6248 O HOH A 691 -11.143 5.719 64.137 1.00 33.90 O +HETATM 6249 O HOH A 692 -40.518 -3.120 62.425 1.00 36.75 O +HETATM 6250 O HOH A 693 -30.178 -12.943 51.849 1.00 26.74 O +HETATM 6251 O HOH A 694 -12.486 -13.930 64.271 1.00 38.00 O +HETATM 6252 O HOH A 695 -15.444 -33.110 75.242 1.00 44.10 O +HETATM 6253 O HOH A 696 -23.580 -27.096 53.941 1.00 39.55 O +HETATM 6254 O HOH A 697 -28.643 -25.368 89.606 1.00 35.39 O +HETATM 6255 O HOH A 698 -45.208 -22.287 74.007 1.00 30.80 O +HETATM 6256 O HOH A 699 9.855 -0.366 83.425 1.00 54.15 O +HETATM 6257 O HOH A 700 -35.945 -21.176 62.784 1.00 36.30 O +HETATM 6258 O HOH A 701 -40.151 -11.172 76.829 1.00 44.55 O +HETATM 6259 O HOH A 702 -21.542 -28.730 52.907 1.00 48.81 O +HETATM 6260 O HOH A 703 -4.574 -11.179 68.143 1.00 39.47 O +HETATM 6261 O HOH A 704 -5.990 -25.102 72.548 1.00 46.23 O +HETATM 6262 O HOH A 705 -41.203 -13.320 71.119 1.00 48.68 O +HETATM 6263 O HOH A 706 -34.583 -3.936 69.752 1.00 41.52 O +HETATM 6264 O HOH A 707 0.145 6.311 87.567 1.00 46.22 O +HETATM 6265 O HOH A 708 -28.268 -35.075 75.177 1.00 49.48 O +HETATM 6266 O HOH A 709 -40.777 -13.481 77.064 1.00 40.52 O +HETATM 6267 O HOH A 710 -17.371 -15.608 69.788 1.00 32.93 O +HETATM 6268 O HOH A 711 -7.153 -11.513 68.408 1.00 42.51 O +HETATM 6269 O HOH A 712 -35.637 -14.932 58.010 1.00 37.02 O +HETATM 6270 O HOH A 713 -3.184 -16.763 78.871 1.00 37.16 O +HETATM 6271 O HOH A 714 -9.642 -15.236 67.369 1.00 49.00 O +HETATM 6272 O HOH A 715 -23.216 -34.387 75.308 1.00 46.00 O +HETATM 6273 O HOH A 716 -36.988 -13.096 79.007 1.00 49.84 O +HETATM 6274 O HOH A 717 -12.319 5.768 62.016 1.00 47.76 O +HETATM 6275 O HOH A 718 -31.557 -1.074 66.006 1.00 47.59 O +HETATM 6276 O HOH A 719 -15.433 -26.992 89.818 1.00 55.84 O +HETATM 6277 O HOH A 720 -11.518 -13.330 66.266 1.00 46.04 O +HETATM 6278 O HOH A 721 -13.016 -32.356 73.420 1.00 46.96 O +HETATM 6279 O HOH A 722 -8.841 -17.793 66.915 1.00 44.90 O +HETATM 6280 O HOH A 723 -19.300 -20.847 52.959 1.00 45.54 O +HETATM 6281 O HOH A 724 -44.889 -24.873 79.405 1.00 42.35 O +HETATM 6282 O HOH A 725 -12.332 -23.434 58.482 1.00 49.57 O +HETATM 6283 O HOH A 726 -35.032 -7.475 62.184 1.00 40.72 O +HETATM 6284 O HOH A 727 -36.135 -29.154 76.119 1.00 40.02 O +HETATM 6285 O HOH A 728 3.819 6.585 84.534 1.00 45.69 O +HETATM 6286 O HOH A 729 -13.113 -4.459 63.954 1.00 48.99 O +HETATM 6287 O HOH A 730 -7.295 -19.431 70.683 1.00 41.91 O +HETATM 6288 O HOH A 731 -18.442 -7.336 59.115 1.00 54.49 O +HETATM 6289 O HOH A 732 -23.637 -7.187 59.825 1.00 36.39 O +HETATM 6290 O HOH A 733 -20.955 -35.689 74.525 1.00 52.24 O +HETATM 6291 O HOH A 734 -13.883 -3.986 61.560 1.00 55.62 O +HETATM 6292 O HOH A 735 -18.931 -13.933 48.983 1.00 44.54 O +HETATM 6293 O HOH A 736 -35.896 -17.446 57.840 1.00 39.57 O +HETATM 6294 O HOH A 737 -41.595 -9.694 74.638 1.00 37.84 O +HETATM 6295 O HOH A 738 -32.898 -33.979 56.876 1.00 53.69 O +HETATM 6296 O HOH A 739 -21.448 -28.378 50.208 1.00 48.96 O +HETATM 6297 O HOH A 740 -46.189 -24.027 75.380 1.00 41.84 O +HETATM 6298 O HOH A 741 -34.811 -25.181 84.755 1.00 38.53 O +HETATM 6299 O HOH A 742 -36.132 -32.164 60.386 1.00 47.04 O +HETATM 6300 O HOH A 743 -12.074 -5.903 94.778 1.00 60.45 O +HETATM 6301 O HOH A 744 -25.990 -7.690 52.967 1.00 46.95 O +HETATM 6302 O HOH A 745 -22.972 1.222 60.809 1.00 40.93 O +HETATM 6303 O HOH A 746 -18.706 19.569 60.131 1.00 53.86 O +HETATM 6304 O HOH A 747 -35.280 -3.214 59.378 1.00 32.97 O +HETATM 6305 O HOH A 748 -18.797 2.300 87.325 1.00 42.64 O +HETATM 6306 O HOH A 749 -6.676 -25.889 89.163 1.00 55.46 O +HETATM 6307 O HOH A 750 -17.378 -19.856 53.021 1.00 46.54 O +HETATM 6308 O HOH A 751 -39.135 5.945 69.143 1.00 63.19 O +HETATM 6309 O HOH A 752 -39.482 5.526 66.913 1.00 67.75 O +ATOM 6310 N GLU C 1 -36.989 14.751 95.228 1.00 60.75 N +ATOM 6311 CA GLU C 1 -38.118 14.868 94.308 1.00 59.85 C +ATOM 6312 C GLU C 1 -38.713 13.497 93.980 1.00 56.82 C +ATOM 6313 O GLU C 1 -39.903 13.385 93.678 1.00 57.74 O +ATOM 6314 CB GLU C 1 -37.688 15.580 93.022 1.00 60.51 C +ATOM 6315 N VAL C 2 -37.882 12.459 94.044 1.00 52.46 N +ATOM 6316 CA VAL C 2 -38.338 11.094 93.801 1.00 48.56 C +ATOM 6317 C VAL C 2 -38.990 10.555 95.068 1.00 46.00 C +ATOM 6318 O VAL C 2 -38.407 10.618 96.156 1.00 44.74 O +ATOM 6319 CB VAL C 2 -37.167 10.203 93.353 1.00 45.03 C +ATOM 6320 CG1 VAL C 2 -37.570 8.732 93.358 1.00 43.11 C +ATOM 6321 CG2 VAL C 2 -36.683 10.616 91.977 1.00 45.74 C +ATOM 6322 N GLN C 3 -40.209 10.032 94.938 1.00 42.62 N +ATOM 6323 CA GLN C 3 -40.816 9.355 96.073 1.00 42.11 C +ATOM 6324 C GLN C 3 -41.868 8.371 95.587 1.00 36.78 C +ATOM 6325 O GLN C 3 -42.373 8.459 94.463 1.00 36.77 O +ATOM 6326 CB GLN C 3 -41.417 10.344 97.080 1.00 47.43 C +ATOM 6327 CG GLN C 3 -42.431 11.310 96.521 1.00 52.51 C +ATOM 6328 CD GLN C 3 -43.104 12.128 97.614 1.00 59.51 C +ATOM 6329 OE1 GLN C 3 -43.061 11.769 98.795 1.00 61.40 O +ATOM 6330 NE2 GLN C 3 -43.730 13.235 97.224 1.00 61.40 N +ATOM 6331 N LEU C 4 -42.172 7.417 96.460 1.00 31.53 N +ATOM 6332 CA LEU C 4 -43.210 6.424 96.247 1.00 31.97 C +ATOM 6333 C LEU C 4 -44.183 6.506 97.411 1.00 33.23 C +ATOM 6334 O LEU C 4 -43.781 6.761 98.553 1.00 33.66 O +ATOM 6335 CB LEU C 4 -42.619 5.004 96.147 1.00 32.12 C +ATOM 6336 CG LEU C 4 -41.544 4.719 95.092 1.00 35.81 C +ATOM 6337 CD1 LEU C 4 -40.926 3.355 95.328 1.00 34.18 C +ATOM 6338 CD2 LEU C 4 -42.113 4.802 93.670 1.00 36.34 C +ATOM 6339 N VAL C 5 -45.464 6.311 97.126 1.00 33.34 N +ATOM 6340 CA VAL C 5 -46.500 6.350 98.154 1.00 33.16 C +ATOM 6341 C VAL C 5 -47.359 5.104 97.993 1.00 30.34 C +ATOM 6342 O VAL C 5 -47.951 4.894 96.929 1.00 28.14 O +ATOM 6343 CB VAL C 5 -47.358 7.626 98.062 1.00 36.24 C +ATOM 6344 CG1 VAL C 5 -48.439 7.621 99.135 1.00 36.31 C +ATOM 6345 CG2 VAL C 5 -46.481 8.883 98.191 1.00 36.41 C +ATOM 6346 N GLU C 6 -47.410 4.272 99.031 1.00 28.87 N +ATOM 6347 CA GLU C 6 -48.304 3.123 99.043 1.00 30.26 C +ATOM 6348 C GLU C 6 -49.661 3.540 99.586 1.00 29.67 C +ATOM 6349 O GLU C 6 -49.771 4.482 100.370 1.00 32.48 O +ATOM 6350 CB GLU C 6 -47.753 1.977 99.895 1.00 30.51 C +ATOM 6351 CG GLU C 6 -46.427 1.407 99.445 1.00 31.32 C +ATOM 6352 CD GLU C 6 -45.241 1.999 100.214 1.00 38.13 C +ATOM 6353 OE1 GLU C 6 -45.438 2.990 100.960 1.00 39.80 O +ATOM 6354 OE2 GLU C 6 -44.114 1.474 100.061 1.00 37.51 O +ATOM 6355 N SER C 7 -50.698 2.828 99.158 1.00 27.13 N +ATOM 6356 CA SER C 7 -52.039 3.024 99.694 1.00 26.32 C +ATOM 6357 C SER C 7 -52.841 1.754 99.449 1.00 28.77 C +ATOM 6358 O SER C 7 -52.417 0.853 98.717 1.00 27.16 O +ATOM 6359 CB SER C 7 -52.727 4.241 99.063 1.00 28.75 C +ATOM 6360 OG SER C 7 -52.904 4.051 97.667 1.00 28.56 O +ATOM 6361 N GLY C 8 -54.011 1.690 100.082 1.00 29.22 N +ATOM 6362 CA GLY C 8 -54.910 0.571 99.922 1.00 26.67 C +ATOM 6363 C GLY C 8 -54.864 -0.464 101.023 1.00 31.14 C +ATOM 6364 O GLY C 8 -55.627 -1.435 100.960 1.00 35.10 O +ATOM 6365 N GLY C 9 -54.004 -0.299 102.025 1.00 32.29 N +ATOM 6366 CA GLY C 9 -53.981 -1.248 103.122 1.00 32.28 C +ATOM 6367 C GLY C 9 -55.241 -1.179 103.967 1.00 32.77 C +ATOM 6368 O GLY C 9 -55.998 -0.212 103.921 1.00 35.77 O +ATOM 6369 N GLY C 11 -55.466 -2.226 104.755 1.00 31.47 N +ATOM 6370 CA GLY C 11 -56.628 -2.271 105.630 1.00 30.96 C +ATOM 6371 C GLY C 11 -56.898 -3.695 106.091 1.00 28.80 C +ATOM 6372 O GLY C 11 -56.015 -4.551 106.054 1.00 31.31 O +ATOM 6373 N LEU C 12 -58.136 -3.920 106.521 1.00 23.88 N +ATOM 6374 CA LEU C 12 -58.573 -5.230 106.994 1.00 29.51 C +ATOM 6375 C LEU C 12 -59.134 -6.052 105.838 1.00 27.96 C +ATOM 6376 O LEU C 12 -59.709 -5.510 104.896 1.00 31.43 O +ATOM 6377 CB LEU C 12 -59.652 -5.108 108.078 1.00 37.12 C +ATOM 6378 CG LEU C 12 -59.336 -4.606 109.493 1.00 45.51 C +ATOM 6379 CD1 LEU C 12 -58.036 -5.220 109.998 1.00 47.79 C +ATOM 6380 CD2 LEU C 12 -59.288 -3.084 109.560 1.00 47.72 C +ATOM 6381 N VAL C 13 -58.992 -7.371 105.936 1.00 26.07 N +ATOM 6382 CA VAL C 13 -59.575 -8.274 104.947 1.00 31.29 C +ATOM 6383 C VAL C 13 -59.784 -9.627 105.611 1.00 31.47 C +ATOM 6384 O VAL C 13 -58.987 -10.053 106.448 1.00 27.37 O +ATOM 6385 CB VAL C 13 -58.686 -8.365 103.679 1.00 35.25 C +ATOM 6386 CG1 VAL C 13 -57.278 -8.749 104.030 1.00 35.44 C +ATOM 6387 CG2 VAL C 13 -59.279 -9.344 102.658 1.00 37.08 C +ATOM 6388 N GLN C 14 -60.873 -10.288 105.251 1.00 31.27 N +ATOM 6389 CA GLN C 14 -61.129 -11.612 105.792 1.00 31.62 C +ATOM 6390 C GLN C 14 -60.260 -12.665 105.109 1.00 30.42 C +ATOM 6391 O GLN C 14 -59.875 -12.504 103.943 1.00 32.06 O +ATOM 6392 CB GLN C 14 -62.596 -11.974 105.618 1.00 35.14 C +ATOM 6393 CG GLN C 14 -63.540 -10.928 106.170 1.00 40.63 C +ATOM 6394 CD GLN C 14 -63.752 -11.076 107.658 1.00 45.79 C +ATOM 6395 OE1 GLN C 14 -63.801 -12.191 108.181 1.00 45.74 O +ATOM 6396 NE2 GLN C 14 -63.883 -9.951 108.352 1.00 50.79 N +ATOM 6397 N PRO C 15 -59.944 -13.753 105.810 1.00 32.84 N +ATOM 6398 CA PRO C 15 -59.203 -14.848 105.172 1.00 33.15 C +ATOM 6399 C PRO C 15 -59.954 -15.381 103.958 1.00 32.02 C +ATOM 6400 O PRO C 15 -61.177 -15.558 103.982 1.00 31.44 O +ATOM 6401 CB PRO C 15 -59.095 -15.900 106.281 1.00 34.73 C +ATOM 6402 CG PRO C 15 -59.187 -15.101 107.557 1.00 35.06 C +ATOM 6403 CD PRO C 15 -60.168 -13.996 107.247 1.00 34.22 C +ATOM 6404 N GLY C 16 -59.207 -15.628 102.886 1.00 26.52 N +ATOM 6405 CA GLY C 16 -59.790 -15.948 101.598 1.00 24.73 C +ATOM 6406 C GLY C 16 -60.142 -14.744 100.756 1.00 26.11 C +ATOM 6407 O GLY C 16 -60.523 -14.918 99.590 1.00 27.49 O +ATOM 6408 N GLY C 17 -60.009 -13.527 101.300 1.00 22.25 N +ATOM 6409 CA GLY C 17 -60.439 -12.323 100.622 1.00 25.06 C +ATOM 6410 C GLY C 17 -59.379 -11.727 99.700 1.00 24.18 C +ATOM 6411 O GLY C 17 -58.285 -12.256 99.529 1.00 22.46 O +ATOM 6412 N SER C 18 -59.720 -10.571 99.125 1.00 25.13 N +ATOM 6413 CA ASER C 18 -58.878 -9.904 98.143 0.93 25.73 C +ATOM 6414 C SER C 18 -58.678 -8.444 98.511 1.00 26.14 C +ATOM 6415 O SER C 18 -59.561 -7.800 99.079 1.00 28.94 O +ATOM 6416 CB ASER C 18 -59.482 -9.962 96.715 0.93 25.38 C +ATOM 6417 OG ASER C 18 -59.610 -11.295 96.251 0.93 26.42 O +ATOM 6418 N LEU C 19 -57.513 -7.918 98.140 1.00 24.54 N +ATOM 6419 CA LEU C 19 -57.163 -6.527 98.357 1.00 24.21 C +ATOM 6420 C LEU C 19 -56.186 -6.091 97.273 1.00 23.37 C +ATOM 6421 O LEU C 19 -55.255 -6.826 96.934 1.00 26.91 O +ATOM 6422 CB LEU C 19 -56.534 -6.336 99.749 1.00 28.12 C +ATOM 6423 CG LEU C 19 -56.334 -4.925 100.298 1.00 31.91 C +ATOM 6424 CD1 LEU C 19 -57.684 -4.296 100.613 1.00 35.79 C +ATOM 6425 CD2 LEU C 19 -55.471 -4.963 101.548 1.00 31.86 C +ATOM 6426 N ARG C 20 -56.359 -4.876 96.771 1.00 19.64 N +ATOM 6427 CA ARG C 20 -55.446 -4.311 95.788 1.00 23.50 C +ATOM 6428 C ARG C 20 -54.684 -3.140 96.398 1.00 22.17 C +ATOM 6429 O ARG C 20 -55.297 -2.167 96.838 1.00 24.69 O +ATOM 6430 CB ARG C 20 -56.224 -3.859 94.554 1.00 28.52 C +ATOM 6431 CG ARG C 20 -55.380 -3.511 93.354 1.00 33.09 C +ATOM 6432 CD ARG C 20 -56.199 -2.609 92.454 1.00 38.13 C +ATOM 6433 NE ARG C 20 -55.697 -2.541 91.093 1.00 42.73 N +ATOM 6434 CZ ARG C 20 -55.859 -1.489 90.298 1.00 43.34 C +ATOM 6435 NH1 ARG C 20 -56.492 -0.409 90.749 1.00 42.46 N +ATOM 6436 NH2 ARG C 20 -55.373 -1.513 89.060 1.00 39.20 N +ATOM 6437 N LEU C 21 -53.353 -3.214 96.385 1.00 21.49 N +ATOM 6438 CA LEU C 21 -52.495 -2.115 96.813 1.00 21.61 C +ATOM 6439 C LEU C 21 -52.094 -1.257 95.616 1.00 25.25 C +ATOM 6440 O LEU C 21 -52.088 -1.724 94.475 1.00 25.92 O +ATOM 6441 CB LEU C 21 -51.240 -2.639 97.519 1.00 18.72 C +ATOM 6442 CG LEU C 21 -51.551 -3.598 98.682 1.00 26.47 C +ATOM 6443 CD1 LEU C 21 -50.303 -3.941 99.491 1.00 26.59 C +ATOM 6444 CD2 LEU C 21 -52.630 -3.029 99.602 1.00 29.86 C +ATOM 6445 N SER C 22 -51.790 0.019 95.886 1.00 22.92 N +ATOM 6446 CA SER C 22 -51.314 0.956 94.878 1.00 26.90 C +ATOM 6447 C SER C 22 -49.995 1.561 95.328 1.00 28.05 C +ATOM 6448 O SER C 22 -49.756 1.749 96.523 1.00 30.18 O +ATOM 6449 CB SER C 22 -52.314 2.108 94.617 1.00 28.48 C +ATOM 6450 OG SER C 22 -53.555 1.634 94.139 1.00 32.10 O +ATOM 6451 N CYS C 23 -49.156 1.890 94.353 1.00 29.04 N +ATOM 6452 CA CYS C 23 -47.856 2.517 94.594 1.00 31.42 C +ATOM 6453 C CYS C 23 -47.727 3.670 93.603 1.00 30.90 C +ATOM 6454 O CYS C 23 -47.454 3.446 92.422 1.00 32.95 O +ATOM 6455 CB CYS C 23 -46.734 1.503 94.426 1.00 39.46 C +ATOM 6456 SG CYS C 23 -45.067 2.162 94.447 1.00 34.47 S +ATOM 6457 N ALA C 24 -47.932 4.896 94.078 1.00 30.88 N +ATOM 6458 CA ALA C 24 -47.917 6.066 93.209 1.00 30.02 C +ATOM 6459 C ALA C 24 -46.521 6.676 93.194 1.00 30.76 C +ATOM 6460 O ALA C 24 -45.988 7.051 94.245 1.00 31.34 O +ATOM 6461 CB ALA C 24 -48.953 7.092 93.665 1.00 28.69 C +ATOM 6462 N ALA C 25 -45.933 6.784 92.008 1.00 29.68 N +ATOM 6463 CA ALA C 25 -44.594 7.332 91.858 1.00 29.47 C +ATOM 6464 C ALA C 25 -44.649 8.775 91.370 1.00 36.91 C +ATOM 6465 O ALA C 25 -45.521 9.155 90.584 1.00 38.90 O +ATOM 6466 CB ALA C 25 -43.760 6.495 90.884 1.00 30.18 C +ATOM 6467 N SER C 26 -43.693 9.578 91.836 1.00 39.64 N +ATOM 6468 CA SER C 26 -43.551 10.935 91.337 1.00 41.58 C +ATOM 6469 C SER C 26 -42.077 11.310 91.321 1.00 40.98 C +ATOM 6470 O SER C 26 -41.283 10.822 92.133 1.00 39.15 O +ATOM 6471 CB SER C 26 -44.356 11.928 92.177 1.00 44.95 C +ATOM 6472 OG SER C 26 -43.929 11.907 93.523 1.00 47.34 O +ATOM 6473 N GLY C 27 -41.717 12.180 90.377 1.00 40.42 N +ATOM 6474 CA GLY C 27 -40.354 12.642 90.240 1.00 39.09 C +ATOM 6475 C GLY C 27 -39.480 11.779 89.363 1.00 37.98 C +ATOM 6476 O GLY C 27 -38.304 12.107 89.174 1.00 35.78 O +ATOM 6477 N PHE C 28 -40.010 10.682 88.838 1.00 36.33 N +ATOM 6478 CA PHE C 28 -39.302 9.882 87.854 1.00 36.60 C +ATOM 6479 C PHE C 28 -40.344 9.121 87.056 1.00 37.65 C +ATOM 6480 O PHE C 28 -41.512 9.036 87.448 1.00 38.23 O +ATOM 6481 CB PHE C 28 -38.293 8.921 88.503 1.00 36.05 C +ATOM 6482 CG PHE C 28 -38.927 7.776 89.245 1.00 34.24 C +ATOM 6483 CD1 PHE C 28 -39.469 7.964 90.505 1.00 33.25 C +ATOM 6484 CD2 PHE C 28 -38.975 6.509 88.684 1.00 35.26 C +ATOM 6485 CE1 PHE C 28 -40.047 6.915 91.199 1.00 31.69 C +ATOM 6486 CE2 PHE C 28 -39.560 5.452 89.368 1.00 34.44 C +ATOM 6487 CZ PHE C 28 -40.096 5.656 90.630 1.00 33.93 C +ATOM 6488 N ASN C 29 -39.909 8.578 85.927 1.00 36.54 N +ATOM 6489 CA ASN C 29 -40.775 7.779 85.075 1.00 38.72 C +ATOM 6490 C ASN C 29 -40.697 6.333 85.549 1.00 36.69 C +ATOM 6491 O ASN C 29 -39.650 5.686 85.430 1.00 34.43 O +ATOM 6492 CB ASN C 29 -40.357 7.912 83.615 1.00 44.43 C +ATOM 6493 CG ASN C 29 -41.357 7.293 82.666 1.00 49.74 C +ATOM 6494 OD1 ASN C 29 -42.211 6.495 83.068 1.00 52.61 O +ATOM 6495 ND2 ASN C 29 -41.255 7.655 81.390 1.00 50.08 N +ATOM 6496 N LEU C 30 -41.810 5.823 86.080 1.00 36.08 N +ATOM 6497 CA LEU C 30 -41.800 4.474 86.638 1.00 38.31 C +ATOM 6498 C LEU C 30 -41.543 3.425 85.563 1.00 36.36 C +ATOM 6499 O LEU C 30 -40.975 2.367 85.857 1.00 35.49 O +ATOM 6500 CB LEU C 30 -43.123 4.201 87.357 1.00 40.53 C +ATOM 6501 CG LEU C 30 -43.240 2.969 88.258 1.00 44.11 C +ATOM 6502 CD1 LEU C 30 -42.198 2.981 89.342 1.00 43.62 C +ATOM 6503 CD2 LEU C 30 -44.631 2.901 88.872 1.00 46.57 C +ATOM 6504 N SER C 35 -41.915 3.713 84.309 1.00 29.81 N +ATOM 6505 CA SER C 35 -41.802 2.705 83.263 1.00 31.66 C +ATOM 6506 C SER C 35 -40.351 2.421 82.873 1.00 32.81 C +ATOM 6507 O SER C 35 -40.073 1.356 82.316 1.00 34.10 O +ATOM 6508 CB SER C 35 -42.623 3.130 82.041 1.00 34.76 C +ATOM 6509 OG SER C 35 -42.127 4.340 81.492 1.00 37.90 O +ATOM 6510 N SER C 36 -39.416 3.323 83.163 1.00 29.02 N +ATOM 6511 CA SER C 36 -38.012 3.052 82.880 1.00 31.42 C +ATOM 6512 C SER C 36 -37.276 2.421 84.065 1.00 27.96 C +ATOM 6513 O SER C 36 -36.067 2.164 83.961 1.00 24.37 O +ATOM 6514 CB SER C 36 -37.308 4.338 82.443 1.00 34.60 C +ATOM 6515 OG SER C 36 -37.292 5.285 83.492 1.00 41.82 O +ATOM 6516 N SER C 37 -37.976 2.144 85.166 1.00 24.39 N +ATOM 6517 CA SER C 37 -37.419 1.502 86.353 1.00 27.94 C +ATOM 6518 C SER C 37 -38.021 0.116 86.540 1.00 27.29 C +ATOM 6519 O SER C 37 -39.079 -0.201 85.988 1.00 26.33 O +ATOM 6520 CB SER C 37 -37.690 2.330 87.618 1.00 26.75 C +ATOM 6521 OG SER C 37 -36.942 3.532 87.627 1.00 31.20 O +ATOM 6522 N SER C 38 -37.340 -0.712 87.334 1.00 23.37 N +ATOM 6523 CA SER C 38 -37.962 -1.914 87.871 1.00 23.00 C +ATOM 6524 C SER C 38 -38.724 -1.561 89.145 1.00 20.68 C +ATOM 6525 O SER C 38 -38.352 -0.648 89.883 1.00 24.74 O +ATOM 6526 CB SER C 38 -36.930 -3.007 88.164 1.00 23.87 C +ATOM 6527 OG SER C 38 -36.312 -3.462 86.973 1.00 28.31 O +ATOM 6528 N ILE C 39 -39.814 -2.277 89.392 1.00 22.88 N +ATOM 6529 CA ILE C 39 -40.657 -2.012 90.551 1.00 25.61 C +ATOM 6530 C ILE C 39 -40.818 -3.314 91.329 1.00 23.56 C +ATOM 6531 O ILE C 39 -41.077 -4.370 90.741 1.00 21.83 O +ATOM 6532 CB ILE C 39 -42.018 -1.397 90.155 1.00 29.14 C +ATOM 6533 CG1 ILE C 39 -42.698 -0.780 91.373 1.00 32.73 C +ATOM 6534 CG2 ILE C 39 -42.923 -2.406 89.415 1.00 27.37 C +ATOM 6535 CD1 ILE C 39 -41.873 0.364 92.019 1.00 35.64 C +ATOM 6536 N HIS C 40 -40.599 -3.241 92.649 1.00 19.43 N +ATOM 6537 CA HIS C 40 -40.608 -4.391 93.546 1.00 22.81 C +ATOM 6538 C HIS C 40 -41.560 -4.162 94.712 1.00 22.23 C +ATOM 6539 O HIS C 40 -41.595 -3.068 95.281 1.00 28.44 O +ATOM 6540 CB HIS C 40 -39.212 -4.668 94.143 1.00 19.89 C +ATOM 6541 CG HIS C 40 -38.106 -4.750 93.140 1.00 22.19 C +ATOM 6542 ND1 HIS C 40 -37.791 -5.916 92.474 1.00 21.37 N +ATOM 6543 CD2 HIS C 40 -37.203 -3.826 92.731 1.00 21.81 C +ATOM 6544 CE1 HIS C 40 -36.746 -5.704 91.693 1.00 21.44 C +ATOM 6545 NE2 HIS C 40 -36.378 -4.441 91.821 1.00 21.17 N +ATOM 6546 N TRP C 41 -42.302 -5.205 95.091 1.00 19.69 N +ATOM 6547 CA TRP C 41 -43.062 -5.233 96.340 1.00 21.08 C +ATOM 6548 C TRP C 41 -42.324 -6.088 97.368 1.00 18.18 C +ATOM 6549 O TRP C 41 -41.932 -7.221 97.075 1.00 18.23 O +ATOM 6550 CB TRP C 41 -44.487 -5.763 96.125 1.00 18.99 C +ATOM 6551 CG TRP C 41 -45.390 -4.778 95.424 1.00 19.37 C +ATOM 6552 CD1 TRP C 41 -45.680 -4.738 94.072 1.00 22.95 C +ATOM 6553 CD2 TRP C 41 -46.119 -3.702 96.020 1.00 18.22 C +ATOM 6554 NE1 TRP C 41 -46.549 -3.705 93.809 1.00 24.47 N +ATOM 6555 CE2 TRP C 41 -46.819 -3.043 94.984 1.00 25.18 C +ATOM 6556 CE3 TRP C 41 -46.245 -3.221 97.335 1.00 17.79 C +ATOM 6557 CZ2 TRP C 41 -47.649 -1.945 95.227 1.00 25.98 C +ATOM 6558 CZ3 TRP C 41 -47.057 -2.127 97.568 1.00 20.62 C +ATOM 6559 CH2 TRP C 41 -47.753 -1.501 96.520 1.00 23.74 C +ATOM 6560 N VAL C 42 -42.124 -5.535 98.563 1.00 18.26 N +ATOM 6561 CA VAL C 42 -41.435 -6.204 99.665 1.00 18.40 C +ATOM 6562 C VAL C 42 -42.295 -6.029 100.914 1.00 24.22 C +ATOM 6563 O VAL C 42 -42.845 -4.949 101.142 1.00 26.22 O +ATOM 6564 CB VAL C 42 -40.018 -5.620 99.885 1.00 23.91 C +ATOM 6565 CG1 VAL C 42 -39.310 -6.288 101.075 1.00 22.86 C +ATOM 6566 CG2 VAL C 42 -39.155 -5.752 98.620 1.00 18.57 C +ATOM 6567 N ARG C 43 -42.430 -7.086 101.716 1.00 18.45 N +ATOM 6568 CA ARG C 43 -43.296 -7.017 102.883 1.00 23.62 C +ATOM 6569 C ARG C 43 -42.509 -7.399 104.125 1.00 21.99 C +ATOM 6570 O ARG C 43 -41.418 -7.968 104.045 1.00 20.00 O +ATOM 6571 CB ARG C 43 -44.545 -7.906 102.740 1.00 21.66 C +ATOM 6572 CG ARG C 43 -44.299 -9.397 102.816 1.00 20.02 C +ATOM 6573 CD ARG C 43 -45.565 -10.175 102.469 1.00 21.93 C +ATOM 6574 NE ARG C 43 -45.334 -11.614 102.493 1.00 24.81 N +ATOM 6575 CZ ARG C 43 -46.279 -12.527 102.299 1.00 21.95 C +ATOM 6576 NH1 ARG C 43 -47.539 -12.164 102.078 1.00 19.97 N +ATOM 6577 NH2 ARG C 43 -45.969 -13.810 102.367 1.00 19.67 N +ATOM 6578 N GLN C 44 -43.068 -7.032 105.275 1.00 22.77 N +ATOM 6579 CA GLN C 44 -42.405 -7.213 106.566 1.00 23.41 C +ATOM 6580 C GLN C 44 -43.484 -7.514 107.594 1.00 22.49 C +ATOM 6581 O GLN C 44 -44.280 -6.630 107.929 1.00 22.71 O +ATOM 6582 CB GLN C 44 -41.611 -5.970 106.958 1.00 23.80 C +ATOM 6583 CG GLN C 44 -40.842 -6.071 108.293 1.00 19.47 C +ATOM 6584 CD GLN C 44 -39.739 -5.035 108.374 1.00 24.19 C +ATOM 6585 OE1 GLN C 44 -39.957 -3.853 108.085 1.00 26.32 O +ATOM 6586 NE2 GLN C 44 -38.536 -5.476 108.729 1.00 25.92 N +ATOM 6587 N ALA C 45 -43.527 -8.757 108.059 1.00 24.04 N +ATOM 6588 CA ALA C 45 -44.468 -9.131 109.095 1.00 28.99 C +ATOM 6589 C ALA C 45 -44.065 -8.461 110.405 1.00 31.02 C +ATOM 6590 O ALA C 45 -42.884 -8.168 110.612 1.00 30.91 O +ATOM 6591 CB ALA C 45 -44.499 -10.646 109.268 1.00 29.48 C +ATOM 6592 N PRO C 46 -45.039 -8.199 111.309 1.00 30.61 N +ATOM 6593 CA PRO C 46 -44.724 -7.514 112.580 1.00 33.36 C +ATOM 6594 C PRO C 46 -43.590 -8.164 113.365 1.00 31.60 C +ATOM 6595 O PRO C 46 -43.675 -9.335 113.744 1.00 30.91 O +ATOM 6596 CB PRO C 46 -46.052 -7.593 113.356 1.00 31.91 C +ATOM 6597 CG PRO C 46 -47.101 -7.683 112.278 1.00 34.01 C +ATOM 6598 CD PRO C 46 -46.476 -8.507 111.186 1.00 31.52 C +ATOM 6599 N GLY C 47 -42.509 -7.417 113.587 1.00 35.34 N +ATOM 6600 CA GLY C 47 -41.367 -7.923 114.323 1.00 32.62 C +ATOM 6601 C GLY C 47 -40.452 -8.859 113.566 1.00 33.48 C +ATOM 6602 O GLY C 47 -39.527 -9.411 114.177 1.00 32.46 O +ATOM 6603 N LYS C 48 -40.668 -9.056 112.259 1.00 30.78 N +ATOM 6604 CA LYS C 48 -39.902 -9.998 111.453 1.00 29.73 C +ATOM 6605 C LYS C 48 -39.044 -9.257 110.418 1.00 24.75 C +ATOM 6606 O LYS C 48 -38.953 -8.026 110.417 1.00 29.29 O +ATOM 6607 CB LYS C 48 -40.854 -10.996 110.794 1.00 32.59 C +ATOM 6608 CG LYS C 48 -41.817 -11.646 111.774 1.00 41.73 C +ATOM 6609 CD LYS C 48 -41.129 -12.696 112.623 1.00 50.38 C +ATOM 6610 CE LYS C 48 -40.800 -13.925 111.784 1.00 59.29 C +ATOM 6611 NZ LYS C 48 -42.024 -14.496 111.129 1.00 64.55 N +ATOM 6612 N GLY C 49 -38.411 -10.019 109.525 1.00 25.30 N +ATOM 6613 CA GLY C 49 -37.510 -9.455 108.537 1.00 27.58 C +ATOM 6614 C GLY C 49 -38.212 -9.088 107.229 1.00 25.80 C +ATOM 6615 O GLY C 49 -39.426 -9.188 107.089 1.00 22.58 O +ATOM 6616 N LEU C 50 -37.416 -8.635 106.263 1.00 24.61 N +ATOM 6617 CA LEU C 50 -37.952 -8.288 104.949 1.00 21.09 C +ATOM 6618 C LEU C 50 -38.148 -9.542 104.110 1.00 21.14 C +ATOM 6619 O LEU C 50 -37.297 -10.441 104.105 1.00 22.27 O +ATOM 6620 CB LEU C 50 -37.007 -7.327 104.233 1.00 23.53 C +ATOM 6621 CG LEU C 50 -36.748 -6.036 105.001 1.00 22.65 C +ATOM 6622 CD1 LEU C 50 -35.588 -5.307 104.356 1.00 19.99 C +ATOM 6623 CD2 LEU C 50 -38.010 -5.162 105.032 1.00 22.95 C +ATOM 6624 N GLU C 51 -39.272 -9.602 103.395 1.00 26.48 N +ATOM 6625 CA GLU C 51 -39.561 -10.697 102.469 1.00 23.77 C +ATOM 6626 C GLU C 51 -39.987 -10.116 101.127 1.00 21.65 C +ATOM 6627 O GLU C 51 -41.003 -9.418 101.047 1.00 19.92 O +ATOM 6628 CB GLU C 51 -40.656 -11.624 103.012 1.00 23.07 C +ATOM 6629 CG GLU C 51 -40.810 -12.907 102.202 1.00 25.27 C +ATOM 6630 CD GLU C 51 -42.060 -13.700 102.542 1.00 28.87 C +ATOM 6631 OE1 GLU C 51 -42.994 -13.136 103.124 1.00 32.29 O +ATOM 6632 OE2 GLU C 51 -42.113 -14.899 102.201 1.00 33.72 O +ATOM 6633 N TRP C 52 -39.214 -10.403 100.083 1.00 23.63 N +ATOM 6634 CA TRP C 52 -39.581 -9.999 98.725 1.00 22.91 C +ATOM 6635 C TRP C 52 -40.794 -10.787 98.237 1.00 23.19 C +ATOM 6636 O TRP C 52 -40.916 -11.988 98.500 1.00 20.85 O +ATOM 6637 CB TRP C 52 -38.390 -10.198 97.777 1.00 18.75 C +ATOM 6638 CG TRP C 52 -38.747 -10.068 96.304 1.00 21.45 C +ATOM 6639 CD1 TRP C 52 -38.940 -8.913 95.596 1.00 18.54 C +ATOM 6640 CD2 TRP C 52 -38.938 -11.144 95.378 1.00 18.62 C +ATOM 6641 NE1 TRP C 52 -39.252 -9.212 94.288 1.00 18.45 N +ATOM 6642 CE2 TRP C 52 -39.264 -10.572 94.131 1.00 18.50 C +ATOM 6643 CE3 TRP C 52 -38.884 -12.534 95.490 1.00 18.70 C +ATOM 6644 CZ2 TRP C 52 -39.501 -11.348 92.992 1.00 18.45 C +ATOM 6645 CZ3 TRP C 52 -39.141 -13.305 94.368 1.00 18.65 C +ATOM 6646 CH2 TRP C 52 -39.445 -12.707 93.132 1.00 19.87 C +ATOM 6647 N VAL C 53 -41.686 -10.101 97.498 1.00 22.79 N +ATOM 6648 CA VAL C 53 -42.977 -10.638 97.077 1.00 22.50 C +ATOM 6649 C VAL C 53 -43.086 -10.747 95.548 1.00 19.66 C +ATOM 6650 O VAL C 53 -43.533 -11.764 95.021 1.00 20.23 O +ATOM 6651 CB VAL C 53 -44.149 -9.789 97.645 1.00 25.27 C +ATOM 6652 CG1 VAL C 53 -45.473 -10.364 97.199 1.00 24.23 C +ATOM 6653 CG2 VAL C 53 -44.099 -9.714 99.171 1.00 30.18 C +ATOM 6654 N ALA C 54 -42.741 -9.684 94.828 1.00 19.82 N +ATOM 6655 CA ALA C 54 -43.008 -9.635 93.387 1.00 20.38 C +ATOM 6656 C ALA C 54 -42.239 -8.487 92.744 1.00 18.55 C +ATOM 6657 O ALA C 54 -41.830 -7.541 93.425 1.00 19.12 O +ATOM 6658 CB ALA C 54 -44.503 -9.475 93.105 1.00 20.20 C +ATOM 6659 N SER C 55 -42.071 -8.567 91.411 1.00 19.03 N +ATOM 6660 CA SER C 55 -41.276 -7.598 90.667 1.00 17.95 C +ATOM 6661 C SER C 55 -41.779 -7.491 89.229 1.00 17.80 C +ATOM 6662 O SER C 55 -42.240 -8.473 88.656 1.00 17.74 O +ATOM 6663 CB SER C 55 -39.786 -8.004 90.623 1.00 29.45 C +ATOM 6664 OG SER C 55 -39.310 -8.428 91.892 1.00 33.55 O +ATOM 6665 N ILE C 56 -41.680 -6.289 88.660 1.00 17.86 N +ATOM 6666 CA ILE C 56 -41.608 -6.080 87.212 1.00 18.24 C +ATOM 6667 C ILE C 56 -40.148 -5.716 86.936 1.00 17.86 C +ATOM 6668 O ILE C 56 -39.659 -4.680 87.411 1.00 21.04 O +ATOM 6669 CB ILE C 56 -42.580 -4.988 86.724 1.00 20.41 C +ATOM 6670 CG1 ILE C 56 -44.007 -5.279 87.200 1.00 24.76 C +ATOM 6671 CG2 ILE C 56 -42.618 -4.926 85.202 1.00 18.90 C +ATOM 6672 CD1 ILE C 56 -44.998 -4.197 86.873 1.00 22.93 C +ATOM 6673 N TYR C 57 -39.422 -6.579 86.229 1.00 19.06 N +ATOM 6674 CA TYR C 57 -37.960 -6.491 86.251 1.00 24.10 C +ATOM 6675 C TYR C 57 -37.263 -6.299 84.907 1.00 25.86 C +ATOM 6676 O TYR C 57 -36.037 -6.199 84.895 1.00 23.12 O +ATOM 6677 CB TYR C 57 -37.368 -7.732 86.955 1.00 23.22 C +ATOM 6678 CG TYR C 57 -37.561 -9.046 86.215 1.00 23.29 C +ATOM 6679 CD1 TYR C 57 -36.631 -9.474 85.263 1.00 23.68 C +ATOM 6680 CD2 TYR C 57 -38.650 -9.870 86.483 1.00 20.96 C +ATOM 6681 CE1 TYR C 57 -36.795 -10.666 84.574 1.00 21.13 C +ATOM 6682 CE2 TYR C 57 -38.823 -11.075 85.802 1.00 21.62 C +ATOM 6683 CZ TYR C 57 -37.883 -11.464 84.847 1.00 21.46 C +ATOM 6684 OH TYR C 57 -38.040 -12.649 84.154 1.00 20.06 O +ATOM 6685 N SER C 58 -37.977 -6.228 83.779 1.00 26.60 N +ATOM 6686 CA SER C 58 -37.302 -6.094 82.493 1.00 27.46 C +ATOM 6687 C SER C 58 -37.959 -5.025 81.630 1.00 25.50 C +ATOM 6688 O SER C 58 -39.112 -4.631 81.837 1.00 21.91 O +ATOM 6689 CB SER C 58 -37.282 -7.413 81.690 1.00 27.95 C +ATOM 6690 OG SER C 58 -38.551 -7.669 81.137 1.00 32.45 O +ATOM 6691 N TYR C 59 -37.188 -4.582 80.640 1.00 25.31 N +ATOM 6692 CA TYR C 59 -37.714 -3.684 79.616 1.00 26.64 C +ATOM 6693 C TYR C 59 -38.999 -4.232 78.982 1.00 24.54 C +ATOM 6694 O TYR C 59 -39.918 -3.468 78.664 1.00 23.64 O +ATOM 6695 CB TYR C 59 -36.637 -3.437 78.559 1.00 22.48 C +ATOM 6696 CG TYR C 59 -37.121 -2.634 77.370 1.00 21.68 C +ATOM 6697 CD1 TYR C 59 -37.042 -1.249 77.362 1.00 21.21 C +ATOM 6698 CD2 TYR C 59 -37.666 -3.264 76.266 1.00 22.55 C +ATOM 6699 CE1 TYR C 59 -37.508 -0.511 76.291 1.00 22.95 C +ATOM 6700 CE2 TYR C 59 -38.145 -2.535 75.185 1.00 22.92 C +ATOM 6701 CZ TYR C 59 -38.050 -1.168 75.203 1.00 23.37 C +ATOM 6702 OH TYR C 59 -38.500 -0.446 74.119 1.00 29.32 O +ATOM 6703 N TYR C 62 -39.093 -5.545 78.798 1.00 22.10 N +ATOM 6704 CA TYR C 62 -40.231 -6.119 78.091 1.00 23.34 C +ATOM 6705 C TYR C 62 -41.415 -6.414 79.008 1.00 25.47 C +ATOM 6706 O TYR C 62 -42.423 -6.946 78.540 1.00 24.46 O +ATOM 6707 CB TYR C 62 -39.776 -7.377 77.336 1.00 26.11 C +ATOM 6708 CG TYR C 62 -38.631 -7.068 76.377 1.00 27.16 C +ATOM 6709 CD1 TYR C 62 -38.873 -6.641 75.063 1.00 27.08 C +ATOM 6710 CD2 TYR C 62 -37.311 -7.181 76.789 1.00 25.75 C +ATOM 6711 CE1 TYR C 62 -37.823 -6.343 74.195 1.00 26.33 C +ATOM 6712 CE2 TYR C 62 -36.253 -6.882 75.933 1.00 25.62 C +ATOM 6713 CZ TYR C 62 -36.514 -6.462 74.637 1.00 28.99 C +ATOM 6714 OH TYR C 62 -35.462 -6.158 73.799 1.00 31.32 O +ATOM 6715 N GLY C 63 -41.327 -6.058 80.293 1.00 25.41 N +ATOM 6716 CA GLY C 63 -42.442 -6.196 81.212 1.00 24.41 C +ATOM 6717 C GLY C 63 -42.523 -7.503 81.964 1.00 23.90 C +ATOM 6718 O GLY C 63 -43.596 -7.840 82.470 1.00 22.59 O +ATOM 6719 N SER C 64 -41.438 -8.261 82.045 1.00 22.53 N +ATOM 6720 CA SER C 64 -41.516 -9.567 82.681 1.00 25.01 C +ATOM 6721 C SER C 64 -41.724 -9.411 84.179 1.00 22.23 C +ATOM 6722 O SER C 64 -41.235 -8.462 84.806 1.00 21.41 O +ATOM 6723 CB SER C 64 -40.244 -10.377 82.423 1.00 29.00 C +ATOM 6724 OG SER C 64 -39.952 -10.435 81.041 1.00 28.96 O +ATOM 6725 N THR C 65 -42.444 -10.362 84.754 1.00 20.64 N +ATOM 6726 CA THR C 65 -42.732 -10.351 86.178 1.00 22.64 C +ATOM 6727 C THR C 65 -42.242 -11.642 86.807 1.00 19.32 C +ATOM 6728 O THR C 65 -42.143 -12.676 86.142 1.00 19.13 O +ATOM 6729 CB THR C 65 -44.248 -10.191 86.438 1.00 21.93 C +ATOM 6730 OG1 THR C 65 -44.918 -11.367 85.980 1.00 21.13 O +ATOM 6731 CG2 THR C 65 -44.813 -8.969 85.706 1.00 17.74 C +ATOM 6732 N SER C 66 -41.961 -11.574 88.106 1.00 20.67 N +ATOM 6733 CA SER C 66 -41.543 -12.736 88.879 1.00 23.49 C +ATOM 6734 C SER C 66 -42.134 -12.622 90.280 1.00 19.10 C +ATOM 6735 O SER C 66 -42.471 -11.524 90.728 1.00 17.95 O +ATOM 6736 CB SER C 66 -40.004 -12.866 88.926 1.00 23.89 C +ATOM 6737 OG SER C 66 -39.391 -11.706 89.472 1.00 29.15 O +ATOM 6738 N TYR C 67 -42.269 -13.775 90.967 1.00 21.96 N +ATOM 6739 CA TYR C 67 -42.977 -13.869 92.247 1.00 21.52 C +ATOM 6740 C TYR C 67 -42.256 -14.783 93.224 1.00 22.92 C +ATOM 6741 O TYR C 67 -41.639 -15.774 92.835 1.00 21.69 O +ATOM 6742 CB TYR C 67 -44.417 -14.420 92.087 1.00 21.50 C +ATOM 6743 CG TYR C 67 -45.279 -13.540 91.231 1.00 20.22 C +ATOM 6744 CD1 TYR C 67 -46.035 -12.511 91.795 1.00 17.66 C +ATOM 6745 CD2 TYR C 67 -45.321 -13.717 89.855 1.00 17.66 C +ATOM 6746 CE1 TYR C 67 -46.809 -11.676 91.001 1.00 19.54 C +ATOM 6747 CE2 TYR C 67 -46.069 -12.887 89.058 1.00 17.47 C +ATOM 6748 CZ TYR C 67 -46.835 -11.887 89.631 1.00 19.83 C +ATOM 6749 OH TYR C 67 -47.593 -11.063 88.823 1.00 19.47 O +ATOM 6750 N ALA C 68 -42.369 -14.457 94.511 1.00 21.26 N +ATOM 6751 CA ALA C 68 -41.994 -15.416 95.537 1.00 20.32 C +ATOM 6752 C ALA C 68 -42.909 -16.637 95.488 1.00 23.40 C +ATOM 6753 O ALA C 68 -44.104 -16.532 95.217 1.00 24.88 O +ATOM 6754 CB ALA C 68 -42.062 -14.778 96.928 1.00 18.53 C +ATOM 6755 N ASP C 69 -42.336 -17.804 95.805 1.00 28.30 N +ATOM 6756 CA ASP C 69 -43.103 -19.046 95.776 1.00 33.81 C +ATOM 6757 C ASP C 69 -44.322 -18.994 96.683 1.00 32.79 C +ATOM 6758 O ASP C 69 -45.335 -19.631 96.380 1.00 33.15 O +ATOM 6759 CB ASP C 69 -42.224 -20.228 96.179 1.00 39.83 C +ATOM 6760 CG ASP C 69 -41.265 -20.640 95.087 1.00 49.01 C +ATOM 6761 OD1 ASP C 69 -41.585 -20.427 93.896 1.00 52.76 O +ATOM 6762 OD2 ASP C 69 -40.193 -21.185 95.420 1.00 52.80 O +ATOM 6763 N SER C 70 -44.244 -18.253 97.794 1.00 31.72 N +ATOM 6764 CA SER C 70 -45.318 -18.230 98.786 1.00 31.94 C +ATOM 6765 C SER C 70 -46.545 -17.448 98.337 1.00 31.40 C +ATOM 6766 O SER C 70 -47.597 -17.561 98.981 1.00 30.76 O +ATOM 6767 CB SER C 70 -44.806 -17.644 100.102 1.00 32.91 C +ATOM 6768 OG SER C 70 -44.378 -16.305 99.918 1.00 34.95 O +ATOM 6769 N VAL C 71 -46.445 -16.654 97.271 1.00 27.78 N +ATOM 6770 CA VAL C 71 -47.574 -15.886 96.756 1.00 24.39 C +ATOM 6771 C VAL C 71 -47.915 -16.256 95.325 1.00 26.95 C +ATOM 6772 O VAL C 71 -48.837 -15.675 94.748 1.00 25.43 O +ATOM 6773 CB VAL C 71 -47.314 -14.369 96.867 1.00 23.26 C +ATOM 6774 CG1 VAL C 71 -46.926 -14.021 98.277 1.00 23.75 C +ATOM 6775 CG2 VAL C 71 -46.193 -13.938 95.914 1.00 21.77 C +ATOM 6776 N LYS C 72 -47.193 -17.198 94.738 1.00 28.16 N +ATOM 6777 CA LYS C 72 -47.377 -17.522 93.333 1.00 34.55 C +ATOM 6778 C LYS C 72 -48.769 -18.092 93.115 1.00 36.54 C +ATOM 6779 O LYS C 72 -49.244 -18.912 93.901 1.00 40.39 O +ATOM 6780 CB LYS C 72 -46.294 -18.511 92.894 1.00 39.06 C +ATOM 6781 CG LYS C 72 -45.965 -18.465 91.415 1.00 41.67 C +ATOM 6782 CD LYS C 72 -44.813 -19.409 91.082 1.00 41.45 C +ATOM 6783 CE LYS C 72 -43.498 -18.918 91.658 1.00 41.13 C +ATOM 6784 NZ LYS C 72 -42.363 -19.830 91.325 1.00 39.91 N +ATOM 6785 N GLY C 74 -49.445 -17.618 92.070 1.00 37.65 N +ATOM 6786 CA GLY C 74 -50.810 -18.013 91.815 1.00 36.41 C +ATOM 6787 C GLY C 74 -51.862 -17.256 92.601 1.00 38.87 C +ATOM 6788 O GLY C 74 -53.049 -17.358 92.265 1.00 40.54 O +ATOM 6789 N ARG C 75 -51.476 -16.508 93.639 1.00 33.32 N +ATOM 6790 CA ARG C 75 -52.395 -15.681 94.417 1.00 27.36 C +ATOM 6791 C ARG C 75 -52.215 -14.185 94.191 1.00 25.48 C +ATOM 6792 O ARG C 75 -53.204 -13.444 94.179 1.00 24.17 O +ATOM 6793 CB ARG C 75 -52.241 -15.992 95.913 1.00 26.21 C +ATOM 6794 CG ARG C 75 -52.577 -17.428 96.292 1.00 24.54 C +ATOM 6795 CD ARG C 75 -52.594 -17.641 97.824 1.00 25.29 C +ATOM 6796 NE ARG C 75 -51.317 -17.281 98.440 1.00 27.71 N +ATOM 6797 CZ ARG C 75 -51.185 -16.392 99.415 1.00 27.85 C +ATOM 6798 NH1 ARG C 75 -52.257 -15.770 99.905 1.00 28.52 N +ATOM 6799 NH2 ARG C 75 -49.983 -16.123 99.896 1.00 25.81 N +ATOM 6800 N PHE C 76 -50.985 -13.705 93.992 1.00 23.16 N +ATOM 6801 CA PHE C 76 -50.718 -12.282 93.821 1.00 23.50 C +ATOM 6802 C PHE C 76 -50.379 -11.975 92.365 1.00 24.48 C +ATOM 6803 O PHE C 76 -49.709 -12.759 91.693 1.00 25.16 O +ATOM 6804 CB PHE C 76 -49.546 -11.807 94.691 1.00 22.18 C +ATOM 6805 CG PHE C 76 -49.806 -11.832 96.185 1.00 20.29 C +ATOM 6806 CD1 PHE C 76 -50.915 -12.451 96.719 1.00 19.49 C +ATOM 6807 CD2 PHE C 76 -48.910 -11.216 97.050 1.00 25.44 C +ATOM 6808 CE1 PHE C 76 -51.138 -12.462 98.094 1.00 22.23 C +ATOM 6809 CE2 PHE C 76 -49.110 -11.231 98.427 1.00 24.65 C +ATOM 6810 CZ PHE C 76 -50.229 -11.849 98.948 1.00 23.89 C +ATOM 6811 N THR C 77 -50.789 -10.796 91.904 1.00 17.17 N +ATOM 6812 CA THR C 77 -50.423 -10.295 90.574 1.00 21.90 C +ATOM 6813 C THR C 77 -49.896 -8.868 90.687 1.00 19.82 C +ATOM 6814 O THR C 77 -50.590 -7.988 91.204 1.00 23.15 O +ATOM 6815 CB THR C 77 -51.618 -10.338 89.614 1.00 21.05 C +ATOM 6816 OG1 THR C 77 -52.099 -11.682 89.527 1.00 28.08 O +ATOM 6817 CG2 THR C 77 -51.211 -9.866 88.215 1.00 19.92 C +ATOM 6818 N ILE C 78 -48.675 -8.636 90.193 1.00 18.57 N +ATOM 6819 CA ILE C 78 -48.108 -7.296 90.111 1.00 17.13 C +ATOM 6820 C ILE C 78 -48.424 -6.732 88.729 1.00 20.97 C +ATOM 6821 O ILE C 78 -48.469 -7.480 87.745 1.00 22.52 O +ATOM 6822 CB ILE C 78 -46.594 -7.320 90.400 1.00 21.96 C +ATOM 6823 CG1 ILE C 78 -46.053 -5.888 90.591 1.00 21.95 C +ATOM 6824 CG2 ILE C 78 -45.810 -8.108 89.339 1.00 17.33 C +ATOM 6825 CD1 ILE C 78 -44.628 -5.839 91.091 1.00 20.30 C +ATOM 6826 N SER C 79 -48.688 -5.428 88.656 1.00 21.56 N +ATOM 6827 CA SER C 79 -49.019 -4.774 87.391 1.00 21.96 C +ATOM 6828 C SER C 79 -48.697 -3.289 87.523 1.00 19.32 C +ATOM 6829 O SER C 79 -48.295 -2.817 88.587 1.00 20.03 O +ATOM 6830 CB SER C 79 -50.488 -5.003 87.008 1.00 23.82 C +ATOM 6831 OG SER C 79 -51.355 -4.278 87.871 1.00 24.55 O +ATOM 6832 N ALA C 80 -48.881 -2.542 86.434 1.00 18.49 N +ATOM 6833 CA ALA C 80 -48.592 -1.115 86.442 1.00 19.23 C +ATOM 6834 C ALA C 80 -49.456 -0.415 85.400 1.00 29.15 C +ATOM 6835 O ALA C 80 -49.946 -1.031 84.446 1.00 25.16 O +ATOM 6836 CB ALA C 80 -47.104 -0.829 86.151 1.00 20.14 C +ATOM 6837 N ASP C 81 -49.625 0.895 85.589 1.00 32.12 N +ATOM 6838 CA ASP C 81 -50.318 1.760 84.635 1.00 29.45 C +ATOM 6839 C ASP C 81 -49.381 2.923 84.331 1.00 29.86 C +ATOM 6840 O ASP C 81 -49.200 3.812 85.168 1.00 29.16 O +ATOM 6841 CB ASP C 81 -51.657 2.246 85.202 1.00 26.58 C +ATOM 6842 CG ASP C 81 -52.498 3.032 84.183 1.00 33.62 C +ATOM 6843 OD1 ASP C 81 -51.929 3.659 83.259 1.00 34.36 O +ATOM 6844 OD2 ASP C 81 -53.746 3.029 84.316 1.00 36.45 O +ATOM 6845 N THR C 82 -48.775 2.902 83.143 1.00 33.42 N +ATOM 6846 CA BTHR C 82 -47.821 3.947 82.785 0.51 35.80 C +ATOM 6847 C THR C 82 -48.483 5.320 82.764 1.00 36.13 C +ATOM 6848 O THR C 82 -47.864 6.319 83.163 1.00 38.62 O +ATOM 6849 CB BTHR C 82 -47.178 3.635 81.429 0.51 36.59 C +ATOM 6850 OG1BTHR C 82 -48.200 3.373 80.461 0.51 36.10 O +ATOM 6851 CG2BTHR C 82 -46.263 2.422 81.533 0.51 37.48 C +ATOM 6852 N SER C 83 -49.747 5.388 82.329 1.00 34.15 N +ATOM 6853 CA SER C 83 -50.411 6.680 82.155 1.00 33.31 C +ATOM 6854 C SER C 83 -50.585 7.426 83.471 1.00 36.04 C +ATOM 6855 O SER C 83 -50.672 8.656 83.473 1.00 39.62 O +ATOM 6856 CB SER C 83 -51.768 6.488 81.473 1.00 35.23 C +ATOM 6857 OG SER C 83 -52.706 5.823 82.306 1.00 34.97 O +ATOM 6858 N LYS C 84 -50.636 6.721 84.597 1.00 37.74 N +ATOM 6859 CA LYS C 84 -50.735 7.401 85.882 1.00 37.83 C +ATOM 6860 C LYS C 84 -49.528 7.166 86.784 1.00 35.95 C +ATOM 6861 O LYS C 84 -49.577 7.525 87.970 1.00 34.04 O +ATOM 6862 CB LYS C 84 -52.028 6.996 86.586 1.00 43.22 C +ATOM 6863 CG LYS C 84 -52.303 5.534 86.576 1.00 44.95 C +ATOM 6864 CD LYS C 84 -53.744 5.289 86.969 1.00 47.00 C +ATOM 6865 CE LYS C 84 -54.692 5.837 85.928 1.00 47.97 C +ATOM 6866 NZ LYS C 84 -56.093 5.390 86.196 1.00 46.70 N +ATOM 6867 N ASN C 85 -48.446 6.591 86.251 1.00 33.19 N +ATOM 6868 CA ASN C 85 -47.174 6.455 86.966 1.00 27.47 C +ATOM 6869 C ASN C 85 -47.347 5.686 88.274 1.00 27.07 C +ATOM 6870 O ASN C 85 -46.790 6.053 89.316 1.00 27.70 O +ATOM 6871 CB ASN C 85 -46.532 7.824 87.215 1.00 27.97 C +ATOM 6872 CG ASN C 85 -45.016 7.789 87.087 1.00 28.44 C +ATOM 6873 OD1 ASN C 85 -44.471 6.972 86.351 1.00 31.54 O +ATOM 6874 ND2 ASN C 85 -44.333 8.673 87.803 1.00 26.24 N +ATOM 6875 N THR C 86 -48.111 4.598 88.212 1.00 27.94 N +ATOM 6876 CA THR C 86 -48.529 3.851 89.391 1.00 28.71 C +ATOM 6877 C THR C 86 -48.290 2.364 89.175 1.00 27.73 C +ATOM 6878 O THR C 86 -48.477 1.852 88.064 1.00 25.44 O +ATOM 6879 CB THR C 86 -50.025 4.108 89.688 1.00 30.53 C +ATOM 6880 OG1 THR C 86 -50.233 5.509 89.872 1.00 34.37 O +ATOM 6881 CG2 THR C 86 -50.478 3.370 90.942 1.00 28.35 C +ATOM 6882 N ALA C 87 -47.889 1.667 90.237 1.00 23.23 N +ATOM 6883 CA ALA C 87 -47.841 0.212 90.216 1.00 26.20 C +ATOM 6884 C ALA C 87 -48.861 -0.359 91.196 1.00 22.81 C +ATOM 6885 O ALA C 87 -49.378 0.346 92.068 1.00 24.27 O +ATOM 6886 CB ALA C 87 -46.437 -0.302 90.544 1.00 29.96 C +ATOM 6887 N TYR C 88 -49.147 -1.652 91.042 1.00 20.75 N +ATOM 6888 CA TYR C 88 -50.210 -2.301 91.797 1.00 24.89 C +ATOM 6889 C TYR C 88 -49.782 -3.694 92.233 1.00 25.07 C +ATOM 6890 O TYR C 88 -48.950 -4.346 91.600 1.00 21.85 O +ATOM 6891 CB TYR C 88 -51.508 -2.430 90.984 1.00 24.37 C +ATOM 6892 CG TYR C 88 -52.035 -1.114 90.478 1.00 26.69 C +ATOM 6893 CD1 TYR C 88 -52.741 -0.260 91.316 1.00 27.57 C +ATOM 6894 CD2 TYR C 88 -51.832 -0.729 89.158 1.00 29.14 C +ATOM 6895 CE1 TYR C 88 -53.221 0.949 90.861 1.00 28.94 C +ATOM 6896 CE2 TYR C 88 -52.305 0.471 88.692 1.00 32.49 C +ATOM 6897 CZ TYR C 88 -53.000 1.312 89.545 1.00 31.37 C +ATOM 6898 OH TYR C 88 -53.478 2.512 89.079 1.00 31.68 O +ATOM 6899 N LEU C 89 -50.412 -4.154 93.310 1.00 23.79 N +ATOM 6900 CA LEU C 89 -50.287 -5.525 93.797 1.00 24.13 C +ATOM 6901 C LEU C 89 -51.703 -6.034 94.071 1.00 24.15 C +ATOM 6902 O LEU C 89 -52.322 -5.639 95.063 1.00 24.15 O +ATOM 6903 CB LEU C 89 -49.413 -5.585 95.059 1.00 20.40 C +ATOM 6904 CG LEU C 89 -49.170 -7.012 95.558 1.00 22.22 C +ATOM 6905 CD1 LEU C 89 -48.503 -7.868 94.469 1.00 19.39 C +ATOM 6906 CD2 LEU C 89 -48.374 -7.052 96.865 1.00 17.66 C +ATOM 6907 N GLN C 90 -52.235 -6.887 93.194 1.00 18.79 N +ATOM 6908 CA GLN C 90 -53.522 -7.525 93.460 1.00 19.88 C +ATOM 6909 C GLN C 90 -53.282 -8.766 94.311 1.00 24.81 C +ATOM 6910 O GLN C 90 -52.503 -9.642 93.925 1.00 27.44 O +ATOM 6911 CB GLN C 90 -54.232 -7.902 92.159 1.00 21.33 C +ATOM 6912 CG GLN C 90 -55.566 -8.666 92.352 1.00 19.32 C +ATOM 6913 CD GLN C 90 -56.704 -7.795 92.908 1.00 23.22 C +ATOM 6914 OE1 GLN C 90 -56.905 -6.655 92.473 1.00 23.38 O +ATOM 6915 NE2 GLN C 90 -57.453 -8.340 93.875 1.00 22.56 N +ATOM 6916 N MET C 91 -53.931 -8.849 95.471 1.00 20.66 N +ATOM 6917 CA MET C 91 -53.712 -9.963 96.386 1.00 20.74 C +ATOM 6918 C MET C 91 -55.020 -10.721 96.559 1.00 24.21 C +ATOM 6919 O MET C 91 -56.016 -10.154 97.017 1.00 24.28 O +ATOM 6920 CB MET C 91 -53.171 -9.466 97.730 1.00 20.96 C +ATOM 6921 CG MET C 91 -51.793 -8.796 97.662 1.00 26.14 C +ATOM 6922 SD MET C 91 -51.220 -8.277 99.302 1.00 30.36 S +ATOM 6923 CE MET C 91 -52.578 -7.225 99.778 1.00 26.48 C +ATOM 6924 N ASN C 92 -55.024 -11.992 96.176 1.00 24.55 N +ATOM 6925 CA ASN C 92 -56.202 -12.832 96.271 1.00 23.22 C +ATOM 6926 C ASN C 92 -55.915 -14.021 97.181 1.00 24.73 C +ATOM 6927 O ASN C 92 -54.759 -14.350 97.462 1.00 22.60 O +ATOM 6928 CB ASN C 92 -56.656 -13.304 94.867 1.00 24.26 C +ATOM 6929 CG ASN C 92 -57.052 -12.139 93.954 1.00 25.20 C +ATOM 6930 OD1 ASN C 92 -57.710 -11.195 94.386 1.00 26.92 O +ATOM 6931 ND2 ASN C 92 -56.636 -12.198 92.696 1.00 25.83 N +ATOM 6932 N SER C 93 -56.988 -14.662 97.647 1.00 24.77 N +ATOM 6933 CA SER C 93 -56.900 -15.836 98.519 1.00 25.07 C +ATOM 6934 C SER C 93 -56.003 -15.563 99.732 1.00 23.08 C +ATOM 6935 O SER C 93 -55.163 -16.376 100.122 1.00 24.10 O +ATOM 6936 CB SER C 93 -56.424 -17.063 97.741 1.00 26.86 C +ATOM 6937 OG SER C 93 -57.366 -17.392 96.729 1.00 31.25 O +ATOM 6938 N LEU C 94 -56.207 -14.400 100.328 1.00 23.23 N +ATOM 6939 CA LEU C 94 -55.348 -13.923 101.401 1.00 25.18 C +ATOM 6940 C LEU C 94 -55.443 -14.820 102.633 1.00 29.01 C +ATOM 6941 O LEU C 94 -56.521 -15.336 102.968 1.00 27.01 O +ATOM 6942 CB LEU C 94 -55.725 -12.486 101.749 1.00 23.42 C +ATOM 6943 CG LEU C 94 -55.123 -11.468 100.778 1.00 21.75 C +ATOM 6944 CD1 LEU C 94 -55.703 -10.077 100.983 1.00 20.74 C +ATOM 6945 CD2 LEU C 94 -53.613 -11.439 100.923 1.00 21.99 C +ATOM 6946 N ARG C 95 -54.300 -15.004 103.304 1.00 27.26 N +ATOM 6947 CA ARG C 95 -54.177 -15.854 104.480 1.00 30.55 C +ATOM 6948 C ARG C 95 -53.620 -15.063 105.660 1.00 29.17 C +ATOM 6949 O ARG C 95 -53.108 -13.947 105.516 1.00 27.46 O +ATOM 6950 CB ARG C 95 -53.278 -17.066 104.204 1.00 34.62 C +ATOM 6951 CG ARG C 95 -53.901 -18.097 103.289 1.00 40.98 C +ATOM 6952 CD ARG C 95 -53.075 -19.366 103.244 1.00 48.76 C +ATOM 6953 NE ARG C 95 -51.858 -19.219 102.444 1.00 51.49 N +ATOM 6954 CZ ARG C 95 -51.744 -19.633 101.186 1.00 51.29 C +ATOM 6955 NH1 ARG C 95 -52.775 -20.214 100.588 1.00 50.63 N +ATOM 6956 NH2 ARG C 95 -50.605 -19.473 100.530 1.00 50.98 N +ATOM 6957 N ALA C 96 -53.710 -15.678 106.842 1.00 29.66 N +ATOM 6958 CA ALA C 96 -53.207 -15.032 108.053 1.00 29.85 C +ATOM 6959 C ALA C 96 -51.732 -14.672 107.920 1.00 29.38 C +ATOM 6960 O ALA C 96 -51.326 -13.560 108.289 1.00 33.01 O +ATOM 6961 CB ALA C 96 -53.439 -15.933 109.270 1.00 31.03 C +ATOM 6962 N GLU C 97 -50.921 -15.585 107.368 1.00 29.58 N +ATOM 6963 CA GLU C 97 -49.483 -15.366 107.197 1.00 32.51 C +ATOM 6964 C GLU C 97 -49.154 -14.208 106.265 1.00 31.45 C +ATOM 6965 O GLU C 97 -47.972 -13.862 106.143 1.00 31.93 O +ATOM 6966 CB GLU C 97 -48.787 -16.613 106.640 1.00 39.59 C +ATOM 6967 CG GLU C 97 -49.193 -17.942 107.253 1.00 50.02 C +ATOM 6968 CD GLU C 97 -50.459 -18.517 106.629 1.00 55.34 C +ATOM 6969 OE1 GLU C 97 -51.560 -18.157 107.094 1.00 54.52 O +ATOM 6970 OE2 GLU C 97 -50.348 -19.317 105.668 1.00 58.57 O +ATOM 6971 N ASP C 98 -50.147 -13.629 105.583 1.00 26.69 N +ATOM 6972 CA ASP C 98 -49.918 -12.506 104.684 1.00 25.42 C +ATOM 6973 C ASP C 98 -50.003 -11.163 105.396 1.00 26.33 C +ATOM 6974 O ASP C 98 -49.685 -10.136 104.790 1.00 24.88 O +ATOM 6975 CB ASP C 98 -50.927 -12.528 103.521 1.00 26.09 C +ATOM 6976 CG ASP C 98 -50.792 -13.751 102.641 1.00 26.55 C +ATOM 6977 OD1 ASP C 98 -49.647 -14.100 102.254 1.00 28.31 O +ATOM 6978 OD2 ASP C 98 -51.838 -14.377 102.326 1.00 28.95 O +ATOM 6979 N THR C 99 -50.429 -11.147 106.661 1.00 26.55 N +ATOM 6980 CA THR C 99 -50.456 -9.917 107.441 1.00 24.74 C +ATOM 6981 C THR C 99 -49.048 -9.341 107.540 1.00 22.72 C +ATOM 6982 O THR C 99 -48.116 -10.037 107.953 1.00 21.83 O +ATOM 6983 CB THR C 99 -51.021 -10.195 108.837 1.00 27.29 C +ATOM 6984 OG1 THR C 99 -52.345 -10.736 108.726 1.00 24.34 O +ATOM 6985 CG2 THR C 99 -51.058 -8.923 109.683 1.00 25.37 C +ATOM 6986 N ALA C 100 -48.894 -8.074 107.159 1.00 20.97 N +ATOM 6987 CA ALA C 100 -47.579 -7.448 107.102 1.00 21.39 C +ATOM 6988 C ALA C 100 -47.757 -5.998 106.694 1.00 22.51 C +ATOM 6989 O ALA C 100 -48.843 -5.568 106.291 1.00 22.38 O +ATOM 6990 CB ALA C 100 -46.630 -8.162 106.123 1.00 21.49 C +ATOM 6991 N VAL C 101 -46.662 -5.250 106.800 1.00 20.67 N +ATOM 6992 CA VAL C 101 -46.525 -3.960 106.140 1.00 21.11 C +ATOM 6993 C VAL C 101 -45.970 -4.210 104.740 1.00 19.83 C +ATOM 6994 O VAL C 101 -44.993 -4.946 104.580 1.00 19.64 O +ATOM 6995 CB VAL C 101 -45.607 -3.030 106.952 1.00 22.32 C +ATOM 6996 CG1 VAL C 101 -45.393 -1.707 106.236 1.00 21.85 C +ATOM 6997 CG2 VAL C 101 -46.194 -2.799 108.373 1.00 25.78 C +ATOM 6998 N TYR C 102 -46.589 -3.614 103.729 1.00 22.55 N +ATOM 6999 CA TYR C 102 -46.209 -3.846 102.337 1.00 23.28 C +ATOM 7000 C TYR C 102 -45.528 -2.602 101.785 1.00 23.91 C +ATOM 7001 O TYR C 102 -46.110 -1.512 101.801 1.00 23.76 O +ATOM 7002 CB TYR C 102 -47.424 -4.237 101.495 1.00 24.00 C +ATOM 7003 CG TYR C 102 -47.823 -5.678 101.703 1.00 23.52 C +ATOM 7004 CD1 TYR C 102 -48.415 -6.082 102.892 1.00 24.33 C +ATOM 7005 CD2 TYR C 102 -47.600 -6.637 100.714 1.00 23.96 C +ATOM 7006 CE1 TYR C 102 -48.766 -7.403 103.106 1.00 24.82 C +ATOM 7007 CE2 TYR C 102 -47.961 -7.973 100.911 1.00 22.12 C +ATOM 7008 CZ TYR C 102 -48.545 -8.344 102.114 1.00 23.65 C +ATOM 7009 OH TYR C 102 -48.899 -9.653 102.339 1.00 21.43 O +ATOM 7010 N TYR C 103 -44.294 -2.771 101.318 1.00 19.62 N +ATOM 7011 CA TYR C 103 -43.498 -1.694 100.761 1.00 21.64 C +ATOM 7012 C TYR C 103 -43.404 -1.858 99.252 1.00 23.83 C +ATOM 7013 O TYR C 103 -43.272 -2.974 98.747 1.00 20.80 O +ATOM 7014 CB TYR C 103 -42.070 -1.689 101.309 1.00 22.23 C +ATOM 7015 CG TYR C 103 -41.900 -1.370 102.783 1.00 20.99 C +ATOM 7016 CD1 TYR C 103 -42.004 -0.067 103.251 1.00 22.47 C +ATOM 7017 CD2 TYR C 103 -41.565 -2.366 103.691 1.00 23.02 C +ATOM 7018 CE1 TYR C 103 -41.820 0.237 104.606 1.00 22.22 C +ATOM 7019 CE2 TYR C 103 -41.373 -2.073 105.045 1.00 23.73 C +ATOM 7020 CZ TYR C 103 -41.497 -0.768 105.484 1.00 23.80 C +ATOM 7021 OH TYR C 103 -41.328 -0.480 106.815 1.00 29.91 O +ATOM 7022 N CYS C 104 -43.458 -0.743 98.549 1.00 21.95 N +ATOM 7023 CA ACYS C 104 -43.047 -0.706 97.157 0.70 25.38 C +ATOM 7024 C CYS C 104 -41.707 0.008 97.072 1.00 24.31 C +ATOM 7025 O CYS C 104 -41.423 0.926 97.844 1.00 24.73 O +ATOM 7026 CB ACYS C 104 -44.093 -0.045 96.247 0.70 27.19 C +ATOM 7027 SG ACYS C 104 -44.384 1.735 96.350 0.70 29.99 S +ATOM 7028 N ALA C 105 -40.848 -0.478 96.175 1.00 23.29 N +ATOM 7029 CA ALA C 105 -39.496 0.059 96.022 1.00 24.15 C +ATOM 7030 C ALA C 105 -39.067 0.002 94.567 1.00 26.59 C +ATOM 7031 O ALA C 105 -39.410 -0.935 93.849 1.00 29.03 O +ATOM 7032 CB ALA C 105 -38.478 -0.717 96.854 1.00 20.41 C +ATOM 7033 N ARG C 106 -38.281 0.987 94.143 1.00 26.98 N +ATOM 7034 CA ARG C 106 -37.839 1.031 92.760 1.00 29.47 C +ATOM 7035 C ARG C 106 -36.347 0.727 92.650 1.00 29.51 C +ATOM 7036 O ARG C 106 -35.563 0.963 93.578 1.00 27.22 O +ATOM 7037 CB ARG C 106 -38.173 2.379 92.115 1.00 30.63 C +ATOM 7038 CG ARG C 106 -37.154 3.470 92.294 1.00 33.12 C +ATOM 7039 CD ARG C 106 -36.536 3.809 90.956 1.00 38.23 C +ATOM 7040 NE ARG C 106 -35.933 5.141 90.951 1.00 45.52 N +ATOM 7041 CZ ARG C 106 -34.631 5.367 91.037 1.00 48.48 C +ATOM 7042 NH1 ARG C 106 -33.792 4.352 91.141 1.00 54.75 N +ATOM 7043 NH2 ARG C 106 -34.167 6.603 91.023 1.00 46.93 N +ATOM 7044 N GLU C 107 -35.974 0.170 91.502 1.00 25.80 N +ATOM 7045 CA GLU C 107 -34.600 -0.191 91.186 1.00 25.89 C +ATOM 7046 C GLU C 107 -34.280 0.381 89.817 1.00 25.73 C +ATOM 7047 O GLU C 107 -35.007 0.119 88.856 1.00 23.91 O +ATOM 7048 CB GLU C 107 -34.404 -1.718 91.190 1.00 25.35 C +ATOM 7049 CG GLU C 107 -33.073 -2.148 90.598 1.00 26.63 C +ATOM 7050 CD GLU C 107 -32.985 -3.629 90.251 1.00 25.62 C +ATOM 7051 OE1 GLU C 107 -33.947 -4.404 90.487 1.00 25.03 O +ATOM 7052 OE2 GLU C 107 -31.919 -4.027 89.748 1.00 24.73 O +ATOM 7053 N TYR C 108 -33.211 1.171 89.720 1.00 26.28 N +ATOM 7054 CA TYR C 108 -32.895 1.797 88.443 1.00 28.01 C +ATOM 7055 C TYR C 108 -31.391 1.987 88.305 1.00 28.32 C +ATOM 7056 O TYR C 108 -30.705 2.367 89.265 1.00 24.38 O +ATOM 7057 CB TYR C 108 -33.598 3.148 88.291 1.00 30.52 C +ATOM 7058 CG TYR C 108 -33.182 3.935 87.061 1.00 34.88 C +ATOM 7059 CD1 TYR C 108 -33.630 3.576 85.795 1.00 36.10 C +ATOM 7060 CD2 TYR C 108 -32.348 5.044 87.171 1.00 37.42 C +ATOM 7061 CE1 TYR C 108 -33.255 4.296 84.673 1.00 37.92 C +ATOM 7062 CE2 TYR C 108 -31.970 5.770 86.056 1.00 38.99 C +ATOM 7063 CZ TYR C 108 -32.427 5.392 84.812 1.00 42.12 C +ATOM 7064 OH TYR C 108 -32.049 6.109 83.698 1.00 47.26 O +ATOM 7065 N HIS C 109 -30.882 1.720 87.105 1.00 26.37 N +ATOM 7066 CA HIS C 109 -29.485 1.992 86.796 1.00 27.11 C +ATOM 7067 C HIS C 109 -29.427 2.861 85.551 1.00 30.90 C +ATOM 7068 O HIS C 109 -30.028 2.523 84.524 1.00 26.81 O +ATOM 7069 CB HIS C 109 -28.693 0.701 86.612 1.00 29.58 C +ATOM 7070 CG HIS C 109 -27.214 0.915 86.517 1.00 39.68 C +ATOM 7071 ND1 HIS C 109 -26.494 1.590 87.479 1.00 41.73 N +ATOM 7072 CD2 HIS C 109 -26.321 0.553 85.566 1.00 40.98 C +ATOM 7073 CE1 HIS C 109 -25.220 1.626 87.129 1.00 41.17 C +ATOM 7074 NE2 HIS C 109 -25.090 1.008 85.970 1.00 41.24 N +ATOM 7075 N SER C 110 -28.703 3.982 85.649 1.00 33.40 N +ATOM 7076 CA SER C 110 -28.695 4.974 84.577 1.00 35.08 C +ATOM 7077 C SER C 110 -28.116 4.431 83.278 1.00 36.07 C +ATOM 7078 O SER C 110 -28.406 4.981 82.209 1.00 39.07 O +ATOM 7079 CB SER C 110 -27.906 6.214 85.009 1.00 35.69 C +ATOM 7080 OG SER C 110 -26.518 5.920 85.097 1.00 38.99 O +ATOM 7081 N TYR C 111 -27.295 3.384 83.342 1.00 32.56 N +ATOM 7082 CA TYR C 111 -26.746 2.761 82.147 1.00 34.16 C +ATOM 7083 C TYR C 111 -27.596 1.599 81.624 1.00 32.63 C +ATOM 7084 O TYR C 111 -27.151 0.882 80.716 1.00 34.81 O +ATOM 7085 CB TYR C 111 -25.312 2.294 82.414 1.00 42.10 C +ATOM 7086 CG TYR C 111 -24.356 3.447 82.678 1.00 48.59 C +ATOM 7087 CD1 TYR C 111 -23.803 4.170 81.626 1.00 49.77 C +ATOM 7088 CD2 TYR C 111 -24.016 3.820 83.979 1.00 51.97 C +ATOM 7089 CE1 TYR C 111 -22.934 5.229 81.854 1.00 50.89 C +ATOM 7090 CE2 TYR C 111 -23.147 4.882 84.218 1.00 52.97 C +ATOM 7091 CZ TYR C 111 -22.612 5.581 83.148 1.00 53.71 C +ATOM 7092 OH TYR C 111 -21.746 6.633 83.364 1.00 57.01 O +ATOM 7093 N TRP C 111A -28.806 1.401 82.157 1.00 25.60 N +ATOM 7094 CA TRP C 111A -29.698 0.401 81.583 1.00 23.82 C +ATOM 7095 C TRP C 111A -30.068 0.796 80.152 1.00 24.67 C +ATOM 7096 O TRP C 111A -30.115 1.977 79.794 1.00 22.76 O +ATOM 7097 CB TRP C 111A -30.959 0.240 82.440 1.00 21.15 C +ATOM 7098 CG TRP C 111A -30.759 -0.653 83.651 1.00 21.19 C +ATOM 7099 CD1 TRP C 111A -29.624 -1.329 83.983 1.00 24.06 C +ATOM 7100 CD2 TRP C 111A -31.724 -0.969 84.662 1.00 19.18 C +ATOM 7101 NE1 TRP C 111A -29.814 -2.044 85.144 1.00 21.67 N +ATOM 7102 CE2 TRP C 111A -31.098 -1.841 85.579 1.00 21.50 C +ATOM 7103 CE3 TRP C 111A -33.054 -0.584 84.893 1.00 19.31 C +ATOM 7104 CZ2 TRP C 111A -31.756 -2.342 86.705 1.00 19.89 C +ATOM 7105 CZ3 TRP C 111A -33.713 -1.089 86.006 1.00 19.29 C +ATOM 7106 CH2 TRP C 111A -33.057 -1.953 86.907 1.00 20.53 C +ATOM 7107 N SER C 111B -30.310 -0.213 79.326 1.00 25.37 N +ATOM 7108 CA SER C 111B -30.677 -0.010 77.928 1.00 26.71 C +ATOM 7109 C SER C 111B -31.898 -0.884 77.671 1.00 23.87 C +ATOM 7110 O SER C 111B -32.779 -0.934 78.524 1.00 24.22 O +ATOM 7111 CB SER C 111B -29.498 -0.336 77.011 1.00 23.95 C +ATOM 7112 OG SER C 111B -29.187 -1.718 77.026 1.00 22.80 O +ATOM 7113 N TYR C 111C -31.996 -1.570 76.527 1.00 22.92 N +ATOM 7114 CA TYR C 111C -32.998 -2.636 76.454 1.00 24.04 C +ATOM 7115 C TYR C 111C -32.646 -3.778 77.401 1.00 25.61 C +ATOM 7116 O TYR C 111C -33.530 -4.544 77.796 1.00 26.57 O +ATOM 7117 CB TYR C 111C -33.147 -3.175 75.022 1.00 24.73 C +ATOM 7118 CG TYR C 111C -33.502 -2.106 74.018 1.00 24.28 C +ATOM 7119 CD1 TYR C 111C -34.744 -1.481 74.051 1.00 27.31 C +ATOM 7120 CD2 TYR C 111C -32.590 -1.705 73.051 1.00 25.04 C +ATOM 7121 CE1 TYR C 111C -35.071 -0.490 73.137 1.00 29.83 C +ATOM 7122 CE2 TYR C 111C -32.905 -0.718 72.131 1.00 25.98 C +ATOM 7123 CZ TYR C 111C -34.149 -0.111 72.183 1.00 29.96 C +ATOM 7124 OH TYR C 111C -34.473 0.873 71.278 1.00 30.12 O +ATOM 7125 N SER C 112D -31.372 -3.895 77.769 1.00 22.90 N +ATOM 7126 CA SER C 112D -30.914 -4.854 78.762 1.00 21.44 C +ATOM 7127 C SER C 112D -30.871 -4.164 80.121 1.00 21.27 C +ATOM 7128 O SER C 112D -30.174 -3.157 80.285 1.00 22.00 O +ATOM 7129 CB SER C 112D -29.527 -5.386 78.393 1.00 21.68 C +ATOM 7130 OG SER C 112D -29.630 -6.407 77.418 1.00 24.37 O +ATOM 7131 N TRP C 112C -31.610 -4.694 81.087 1.00 19.58 N +ATOM 7132 CA TRP C 112C -31.626 -4.116 82.438 1.00 19.90 C +ATOM 7133 C TRP C 112C -30.651 -4.882 83.333 1.00 22.17 C +ATOM 7134 O TRP C 112C -31.017 -5.567 84.288 1.00 25.28 O +ATOM 7135 CB TRP C 112C -33.048 -4.101 82.993 1.00 21.11 C +ATOM 7136 CG TRP C 112C -33.931 -3.052 82.355 1.00 18.77 C +ATOM 7137 CD1 TRP C 112C -33.634 -2.269 81.264 1.00 19.64 C +ATOM 7138 CD2 TRP C 112C -35.244 -2.655 82.787 1.00 22.19 C +ATOM 7139 NE1 TRP C 112C -34.687 -1.421 80.992 1.00 20.13 N +ATOM 7140 CE2 TRP C 112C -35.692 -1.646 81.897 1.00 21.48 C +ATOM 7141 CE3 TRP C 112C -36.094 -3.079 83.810 1.00 22.98 C +ATOM 7142 CZ2 TRP C 112C -36.939 -1.034 82.025 1.00 22.06 C +ATOM 7143 CZ3 TRP C 112C -37.346 -2.473 83.937 1.00 23.15 C +ATOM 7144 CH2 TRP C 112C -37.754 -1.463 83.049 1.00 25.54 C +ATOM 7145 N TRP C 112B -29.372 -4.745 82.980 1.00 25.63 N +ATOM 7146 CA TRP C 112B -28.213 -5.299 83.658 1.00 27.01 C +ATOM 7147 C TRP C 112B -27.213 -4.176 83.891 1.00 29.70 C +ATOM 7148 O TRP C 112B -27.106 -3.265 83.058 1.00 28.92 O +ATOM 7149 CB TRP C 112B -27.557 -6.410 82.834 1.00 27.25 C +ATOM 7150 CG TRP C 112B -26.322 -6.992 83.462 1.00 29.26 C +ATOM 7151 CD1 TRP C 112B -25.044 -6.482 83.409 1.00 28.13 C +ATOM 7152 CD2 TRP C 112B -26.241 -8.199 84.227 1.00 26.96 C +ATOM 7153 NE1 TRP C 112B -24.183 -7.296 84.114 1.00 27.72 N +ATOM 7154 CE2 TRP C 112B -24.889 -8.361 84.616 1.00 27.30 C +ATOM 7155 CE3 TRP C 112B -27.182 -9.159 84.625 1.00 28.96 C +ATOM 7156 CZ2 TRP C 112B -24.458 -9.444 85.390 1.00 25.80 C +ATOM 7157 CZ3 TRP C 112B -26.761 -10.225 85.388 1.00 30.72 C +ATOM 7158 CH2 TRP C 112B -25.406 -10.364 85.766 1.00 27.21 C +ATOM 7159 N PRO C 112A -26.492 -4.181 85.030 1.00 30.83 N +ATOM 7160 CA PRO C 112A -26.617 -5.127 86.152 1.00 29.38 C +ATOM 7161 C PRO C 112A -27.780 -4.808 87.083 1.00 25.68 C +ATOM 7162 O PRO C 112A -28.380 -3.734 86.970 1.00 25.11 O +ATOM 7163 CB PRO C 112A -25.291 -4.958 86.893 1.00 29.40 C +ATOM 7164 CG PRO C 112A -24.976 -3.515 86.708 1.00 31.18 C +ATOM 7165 CD PRO C 112A -25.429 -3.187 85.279 1.00 30.17 C +ATOM 7166 N ARG C 112 -28.084 -5.732 87.994 1.00 22.09 N +ATOM 7167 CA ARG C 112 -29.115 -5.501 88.995 1.00 24.26 C +ATOM 7168 C ARG C 112 -28.496 -4.763 90.170 1.00 28.23 C +ATOM 7169 O ARG C 112 -27.436 -5.158 90.674 1.00 27.02 O +ATOM 7170 CB ARG C 112 -29.728 -6.819 89.460 1.00 19.74 C +ATOM 7171 CG ARG C 112 -30.280 -7.666 88.312 1.00 19.65 C +ATOM 7172 CD ARG C 112 -31.105 -6.805 87.340 1.00 19.44 C +ATOM 7173 NE ARG C 112 -32.283 -6.198 87.979 1.00 19.22 N +ATOM 7174 CZ ARG C 112 -33.368 -5.807 87.325 1.00 26.00 C +ATOM 7175 NH1 ARG C 112 -33.438 -5.976 85.998 1.00 23.90 N +ATOM 7176 NH2 ARG C 112 -34.391 -5.282 88.001 1.00 24.07 N +ATOM 7177 N VAL C 113 -29.143 -3.681 90.593 1.00 25.31 N +ATOM 7178 CA VAL C 113 -28.553 -2.808 91.599 1.00 25.39 C +ATOM 7179 C VAL C 113 -29.487 -2.707 92.795 1.00 25.26 C +ATOM 7180 O VAL C 113 -30.410 -3.514 92.953 1.00 24.95 O +ATOM 7181 CB VAL C 113 -28.220 -1.429 91.001 1.00 26.94 C +ATOM 7182 CG1 VAL C 113 -27.118 -1.570 89.963 1.00 28.01 C +ATOM 7183 CG2 VAL C 113 -29.455 -0.796 90.370 1.00 26.35 C +ATOM 7184 N GLY C 114 -29.239 -1.740 93.668 1.00 29.42 N +ATOM 7185 CA GLY C 114 -29.987 -1.678 94.900 1.00 28.05 C +ATOM 7186 C GLY C 114 -31.360 -1.061 94.718 1.00 27.62 C +ATOM 7187 O GLY C 114 -31.652 -0.387 93.729 1.00 28.59 O +ATOM 7188 N LEU C 115 -32.219 -1.317 95.695 1.00 27.62 N +ATOM 7189 CA LEU C 115 -33.534 -0.677 95.767 1.00 24.43 C +ATOM 7190 C LEU C 115 -33.328 0.644 96.498 1.00 25.92 C +ATOM 7191 O LEU C 115 -33.142 0.670 97.717 1.00 24.18 O +ATOM 7192 CB LEU C 115 -34.536 -1.588 96.462 1.00 19.01 C +ATOM 7193 CG LEU C 115 -35.214 -2.695 95.625 1.00 24.37 C +ATOM 7194 CD1 LEU C 115 -34.226 -3.537 94.801 1.00 25.63 C +ATOM 7195 CD2 LEU C 115 -36.047 -3.611 96.523 1.00 26.72 C +ATOM 7196 N ASP C 116 -33.329 1.750 95.745 1.00 26.18 N +ATOM 7197 CA ASP C 116 -32.847 3.011 96.290 1.00 27.26 C +ATOM 7198 C ASP C 116 -33.947 3.902 96.861 1.00 30.69 C +ATOM 7199 O ASP C 116 -33.654 4.708 97.754 1.00 30.33 O +ATOM 7200 CB ASP C 116 -32.031 3.782 95.236 1.00 27.57 C +ATOM 7201 CG ASP C 116 -32.807 4.087 93.945 1.00 31.89 C +ATOM 7202 OD1 ASP C 116 -33.830 3.435 93.632 1.00 31.46 O +ATOM 7203 OD2 ASP C 116 -32.347 4.990 93.212 1.00 32.04 O +ATOM 7204 N TYR C 117 -35.191 3.767 96.400 1.00 27.72 N +ATOM 7205 CA TYR C 117 -36.309 4.541 96.930 1.00 28.46 C +ATOM 7206 C TYR C 117 -37.419 3.597 97.360 1.00 27.35 C +ATOM 7207 O TYR C 117 -37.809 2.713 96.595 1.00 28.68 O +ATOM 7208 CB TYR C 117 -36.831 5.555 95.901 1.00 27.28 C +ATOM 7209 CG TYR C 117 -35.905 6.741 95.778 1.00 33.37 C +ATOM 7210 CD1 TYR C 117 -35.932 7.764 96.728 1.00 38.18 C +ATOM 7211 CD2 TYR C 117 -34.974 6.823 94.748 1.00 32.04 C +ATOM 7212 CE1 TYR C 117 -35.069 8.852 96.642 1.00 39.58 C +ATOM 7213 CE2 TYR C 117 -34.107 7.907 94.655 1.00 35.55 C +ATOM 7214 CZ TYR C 117 -34.160 8.917 95.606 1.00 40.60 C +ATOM 7215 OH TYR C 117 -33.302 9.998 95.521 1.00 45.64 O +ATOM 7216 N TRP C 118 -37.902 3.777 98.587 1.00 25.12 N +ATOM 7217 CA TRP C 118 -38.974 2.979 99.164 1.00 26.55 C +ATOM 7218 C TRP C 118 -40.113 3.896 99.609 1.00 28.90 C +ATOM 7219 O TRP C 118 -39.890 5.037 100.022 1.00 28.72 O +ATOM 7220 CB TRP C 118 -38.488 2.166 100.386 1.00 25.46 C +ATOM 7221 CG TRP C 118 -37.371 1.172 100.150 1.00 23.24 C +ATOM 7222 CD1 TRP C 118 -36.113 1.428 99.656 1.00 24.07 C +ATOM 7223 CD2 TRP C 118 -37.408 -0.235 100.434 1.00 21.95 C +ATOM 7224 NE1 TRP C 118 -35.373 0.263 99.616 1.00 20.71 N +ATOM 7225 CE2 TRP C 118 -36.149 -0.770 100.079 1.00 21.67 C +ATOM 7226 CE3 TRP C 118 -38.383 -1.092 100.956 1.00 20.96 C +ATOM 7227 CZ2 TRP C 118 -35.844 -2.119 100.234 1.00 22.34 C +ATOM 7228 CZ3 TRP C 118 -38.083 -2.433 101.103 1.00 19.30 C +ATOM 7229 CH2 TRP C 118 -36.826 -2.934 100.744 1.00 21.04 C +ATOM 7230 N GLY C 119 -41.340 3.391 99.541 1.00 27.92 N +ATOM 7231 CA GLY C 119 -42.455 4.065 100.171 1.00 26.98 C +ATOM 7232 C GLY C 119 -42.397 3.926 101.684 1.00 28.36 C +ATOM 7233 O GLY C 119 -41.504 3.296 102.243 1.00 28.30 O +ATOM 7234 N GLN C 120 -43.392 4.525 102.354 1.00 28.76 N +ATOM 7235 CA GLN C 120 -43.513 4.428 103.808 1.00 29.20 C +ATOM 7236 C GLN C 120 -44.130 3.110 104.269 1.00 25.76 C +ATOM 7237 O GLN C 120 -44.012 2.763 105.449 1.00 24.02 O +ATOM 7238 CB GLN C 120 -44.346 5.597 104.352 1.00 33.85 C +ATOM 7239 CG GLN C 120 -45.867 5.457 104.178 1.00 41.10 C +ATOM 7240 CD GLN C 120 -46.334 5.536 102.723 1.00 48.81 C +ATOM 7241 OE1 GLN C 120 -45.586 5.968 101.839 1.00 54.57 O +ATOM 7242 NE2 GLN C 120 -47.579 5.116 102.473 1.00 43.79 N +ATOM 7243 N GLY C 121 -44.772 2.375 103.377 1.00 23.70 N +ATOM 7244 CA GLY C 121 -45.412 1.107 103.713 1.00 24.63 C +ATOM 7245 C GLY C 121 -46.879 1.276 104.063 1.00 29.85 C +ATOM 7246 O GLY C 121 -47.328 2.334 104.505 1.00 30.87 O +ATOM 7247 N THR C 122 -47.641 0.195 103.876 1.00 31.17 N +ATOM 7248 CA THR C 122 -49.064 0.174 104.203 1.00 34.35 C +ATOM 7249 C THR C 122 -49.399 -1.166 104.849 1.00 31.35 C +ATOM 7250 O THR C 122 -49.023 -2.223 104.330 1.00 24.76 O +ATOM 7251 CB THR C 122 -49.919 0.441 102.944 1.00 37.63 C +ATOM 7252 OG1 THR C 122 -51.309 0.502 103.290 1.00 43.22 O +ATOM 7253 CG2 THR C 122 -49.702 -0.621 101.860 1.00 33.42 C +ATOM 7254 N LEU C 123 -50.067 -1.123 106.003 1.00 31.35 N +ATOM 7255 CA LEU C 123 -50.291 -2.335 106.789 1.00 30.63 C +ATOM 7256 C LEU C 123 -51.517 -3.090 106.288 1.00 27.05 C +ATOM 7257 O LEU C 123 -52.559 -2.494 106.004 1.00 30.71 O +ATOM 7258 CB LEU C 123 -50.457 -2.003 108.274 1.00 30.81 C +ATOM 7259 CG LEU C 123 -50.907 -3.129 109.217 1.00 30.00 C +ATOM 7260 CD1 LEU C 123 -49.922 -4.279 109.265 1.00 27.91 C +ATOM 7261 CD2 LEU C 123 -51.118 -2.592 110.632 1.00 32.56 C +ATOM 7262 N VAL C 124 -51.380 -4.410 106.182 1.00 24.80 N +ATOM 7263 CA VAL C 124 -52.447 -5.306 105.741 1.00 24.10 C +ATOM 7264 C VAL C 124 -52.657 -6.348 106.831 1.00 26.59 C +ATOM 7265 O VAL C 124 -51.710 -7.052 107.203 1.00 24.99 O +ATOM 7266 CB VAL C 124 -52.104 -5.986 104.407 1.00 23.13 C +ATOM 7267 CG1 VAL C 124 -53.097 -7.112 104.117 1.00 22.05 C +ATOM 7268 CG2 VAL C 124 -52.062 -4.959 103.270 1.00 18.00 C +ATOM 7269 N THR C 125 -53.892 -6.453 107.339 1.00 26.15 N +ATOM 7270 CA THR C 125 -54.225 -7.410 108.390 1.00 24.58 C +ATOM 7271 C THR C 125 -55.284 -8.370 107.869 1.00 25.02 C +ATOM 7272 O THR C 125 -56.390 -7.948 107.530 1.00 26.44 O +ATOM 7273 CB THR C 125 -54.722 -6.700 109.655 1.00 29.89 C +ATOM 7274 OG1 THR C 125 -53.767 -5.711 110.058 1.00 29.02 O +ATOM 7275 CG2 THR C 125 -54.921 -7.686 110.789 1.00 29.47 C +ATOM 7276 N VAL C 126 -54.945 -9.649 107.804 1.00 23.32 N +ATOM 7277 CA VAL C 126 -55.852 -10.686 107.338 1.00 24.02 C +ATOM 7278 C VAL C 126 -56.352 -11.435 108.560 1.00 28.64 C +ATOM 7279 O VAL C 126 -55.583 -12.155 109.208 1.00 28.32 O +ATOM 7280 CB VAL C 126 -55.160 -11.634 106.355 1.00 26.49 C +ATOM 7281 CG1 VAL C 126 -56.166 -12.656 105.808 1.00 26.19 C +ATOM 7282 CG2 VAL C 126 -54.483 -10.828 105.225 1.00 22.50 C +ATOM 7283 N SER C 127 -57.642 -11.279 108.868 1.00 27.90 N +ATOM 7284 CA SER C 127 -58.207 -11.863 110.078 1.00 32.32 C +ATOM 7285 C SER C 127 -59.725 -11.815 110.009 1.00 27.49 C +ATOM 7286 O SER C 127 -60.307 -10.921 109.385 1.00 28.85 O +ATOM 7287 CB SER C 127 -57.731 -11.124 111.338 1.00 33.81 C +ATOM 7288 OG SER C 127 -58.656 -11.313 112.400 1.00 35.76 O +ATOM 7289 N SER C 128 -60.355 -12.771 110.680 1.00 31.24 N +ATOM 7290 CA SER C 128 -61.807 -12.780 110.813 1.00 35.43 C +ATOM 7291 C SER C 128 -62.301 -12.055 112.061 1.00 35.83 C +ATOM 7292 O SER C 128 -63.510 -12.049 112.313 1.00 32.70 O +ATOM 7293 CB SER C 128 -62.318 -14.219 110.830 1.00 39.38 C +ATOM 7294 OG SER C 128 -61.580 -14.986 111.762 1.00 44.62 O +ATOM 7295 N ALA C 129 -61.414 -11.446 112.847 1.00 35.01 N +ATOM 7296 CA ALA C 129 -61.859 -10.792 114.070 1.00 34.75 C +ATOM 7297 C ALA C 129 -62.572 -9.481 113.747 1.00 36.65 C +ATOM 7298 O ALA C 129 -62.335 -8.853 112.711 1.00 37.89 O +ATOM 7299 CB ALA C 129 -60.678 -10.539 115.012 1.00 29.27 C +ATOM 7300 N SER C 130 -63.460 -9.076 114.651 1.00 39.58 N +ATOM 7301 CA SER C 130 -64.203 -7.831 114.520 1.00 39.48 C +ATOM 7302 C SER C 130 -63.476 -6.694 115.221 1.00 32.71 C +ATOM 7303 O SER C 130 -62.838 -6.885 116.259 1.00 32.13 O +ATOM 7304 CB SER C 130 -65.611 -7.961 115.106 1.00 42.55 C +ATOM 7305 OG SER C 130 -66.331 -9.009 114.494 1.00 48.02 O +ATOM 7306 N THR C 131 -63.616 -5.498 114.656 1.00 30.78 N +ATOM 7307 CA THR C 131 -63.014 -4.299 115.225 1.00 32.08 C +ATOM 7308 C THR C 131 -63.538 -4.047 116.634 1.00 34.50 C +ATOM 7309 O THR C 131 -64.750 -4.037 116.877 1.00 34.77 O +ATOM 7310 CB THR C 131 -63.304 -3.100 114.324 1.00 31.01 C +ATOM 7311 OG1 THR C 131 -62.789 -3.366 113.018 1.00 33.32 O +ATOM 7312 CG2 THR C 131 -62.629 -1.861 114.858 1.00 30.17 C +ATOM 7313 N LYS C 132 -62.615 -3.825 117.566 1.00 33.25 N +ATOM 7314 CA LYS C 132 -62.971 -3.760 118.977 1.00 31.41 C +ATOM 7315 C LYS C 132 -61.918 -2.945 119.712 1.00 28.15 C +ATOM 7316 O LYS C 132 -60.721 -3.153 119.502 1.00 30.30 O +ATOM 7317 CB LYS C 132 -63.064 -5.174 119.554 1.00 31.98 C +ATOM 7318 CG LYS C 132 -63.565 -5.249 120.953 1.00 37.68 C +ATOM 7319 CD LYS C 132 -63.484 -6.665 121.451 1.00 35.82 C +ATOM 7320 CE LYS C 132 -63.629 -6.697 122.943 1.00 32.75 C +ATOM 7321 NZ LYS C 132 -62.648 -5.780 123.562 1.00 32.69 N +ATOM 7322 N GLY C 133 -62.360 -2.021 120.559 1.00 29.77 N +ATOM 7323 CA GLY C 133 -61.462 -1.310 121.441 1.00 31.25 C +ATOM 7324 C GLY C 133 -61.093 -2.169 122.639 1.00 30.85 C +ATOM 7325 O GLY C 133 -61.765 -3.158 122.939 1.00 33.44 O +ATOM 7326 N PRO C 134 -60.030 -1.804 123.355 1.00 28.87 N +ATOM 7327 CA PRO C 134 -59.550 -2.651 124.446 1.00 28.13 C +ATOM 7328 C PRO C 134 -60.286 -2.403 125.753 1.00 29.29 C +ATOM 7329 O PRO C 134 -60.836 -1.332 126.006 1.00 28.82 O +ATOM 7330 CB PRO C 134 -58.082 -2.237 124.581 1.00 27.36 C +ATOM 7331 CG PRO C 134 -58.105 -0.789 124.229 1.00 27.85 C +ATOM 7332 CD PRO C 134 -59.114 -0.674 123.108 1.00 25.10 C +ATOM 7333 N SER C 135 -60.269 -3.428 126.594 1.00 28.61 N +ATOM 7334 CA SER C 135 -60.501 -3.252 128.016 1.00 33.41 C +ATOM 7335 C SER C 135 -59.182 -2.888 128.674 1.00 30.54 C +ATOM 7336 O SER C 135 -58.133 -3.428 128.317 1.00 31.95 O +ATOM 7337 CB SER C 135 -61.075 -4.525 128.638 1.00 39.85 C +ATOM 7338 OG SER C 135 -62.271 -4.892 127.980 1.00 44.46 O +ATOM 7339 N VAL C 136 -59.228 -1.953 129.618 1.00 29.60 N +ATOM 7340 CA VAL C 136 -58.021 -1.424 130.244 1.00 24.95 C +ATOM 7341 C VAL C 136 -58.094 -1.727 131.736 1.00 23.85 C +ATOM 7342 O VAL C 136 -59.065 -1.353 132.410 1.00 25.35 O +ATOM 7343 CB VAL C 136 -57.847 0.081 129.973 1.00 23.19 C +ATOM 7344 CG1 VAL C 136 -56.571 0.613 130.646 1.00 23.40 C +ATOM 7345 CG2 VAL C 136 -57.811 0.347 128.457 1.00 24.38 C +ATOM 7346 N PHE C 137 -57.084 -2.424 132.245 1.00 21.05 N +ATOM 7347 CA PHE C 137 -57.079 -2.857 133.631 1.00 26.21 C +ATOM 7348 C PHE C 137 -55.854 -2.317 134.350 1.00 24.56 C +ATOM 7349 O PHE C 137 -54.765 -2.290 133.773 1.00 25.55 O +ATOM 7350 CB PHE C 137 -57.095 -4.398 133.726 1.00 24.46 C +ATOM 7351 CG PHE C 137 -58.272 -5.034 133.027 1.00 26.49 C +ATOM 7352 CD1 PHE C 137 -59.568 -4.789 133.465 1.00 23.35 C +ATOM 7353 CD2 PHE C 137 -58.082 -5.876 131.942 1.00 26.74 C +ATOM 7354 CE1 PHE C 137 -60.646 -5.365 132.841 1.00 26.56 C +ATOM 7355 CE2 PHE C 137 -59.160 -6.462 131.310 1.00 27.67 C +ATOM 7356 CZ PHE C 137 -60.446 -6.202 131.757 1.00 28.33 C +ATOM 7357 N PRO C 138 -55.987 -1.899 135.608 1.00 26.56 N +ATOM 7358 CA PRO C 138 -54.815 -1.380 136.328 1.00 26.62 C +ATOM 7359 C PRO C 138 -53.833 -2.482 136.694 1.00 26.52 C +ATOM 7360 O PRO C 138 -54.227 -3.598 137.041 1.00 27.01 O +ATOM 7361 CB PRO C 138 -55.419 -0.735 137.584 1.00 28.15 C +ATOM 7362 CG PRO C 138 -56.728 -1.470 137.792 1.00 27.25 C +ATOM 7363 CD PRO C 138 -57.227 -1.809 136.401 1.00 24.45 C +ATOM 7364 N LEU C 139 -52.540 -2.152 136.586 1.00 23.30 N +ATOM 7365 CA LEU C 139 -51.433 -2.925 137.153 1.00 23.07 C +ATOM 7366 C LEU C 139 -50.972 -2.115 138.363 1.00 28.04 C +ATOM 7367 O LEU C 139 -50.113 -1.235 138.254 1.00 29.43 O +ATOM 7368 CB LEU C 139 -50.305 -3.123 136.139 1.00 23.42 C +ATOM 7369 CG LEU C 139 -50.664 -3.843 134.826 1.00 25.36 C +ATOM 7370 CD1 LEU C 139 -49.577 -3.708 133.775 1.00 23.82 C +ATOM 7371 CD2 LEU C 139 -50.960 -5.315 135.096 1.00 29.24 C +ATOM 7372 N ALA C 140 -51.557 -2.421 139.526 1.00 27.87 N +ATOM 7373 CA ALA C 140 -51.546 -1.537 140.688 1.00 35.99 C +ATOM 7374 C ALA C 140 -50.243 -1.678 141.467 1.00 39.55 C +ATOM 7375 O ALA C 140 -49.801 -2.794 141.738 1.00 38.43 O +ATOM 7376 CB ALA C 140 -52.730 -1.839 141.612 1.00 35.62 C +ATOM 7377 N PRO C 141 -49.641 -0.563 141.874 1.00 45.22 N +ATOM 7378 CA PRO C 141 -48.359 -0.624 142.579 1.00 46.59 C +ATOM 7379 C PRO C 141 -48.520 -1.186 143.982 1.00 49.43 C +ATOM 7380 O PRO C 141 -49.622 -1.322 144.523 1.00 43.94 O +ATOM 7381 CB PRO C 141 -47.909 0.836 142.613 1.00 45.47 C +ATOM 7382 CG PRO C 141 -49.193 1.589 142.698 1.00 46.88 C +ATOM 7383 CD PRO C 141 -50.165 0.814 141.815 1.00 46.44 C +ATOM 7384 N SER C 142 -47.371 -1.499 144.575 1.00 58.24 N +ATOM 7385 CA SER C 142 -47.311 -2.151 145.876 1.00 68.03 C +ATOM 7386 C SER C 142 -47.680 -1.177 146.988 1.00 73.57 C +ATOM 7387 O SER C 142 -47.207 -0.036 147.023 1.00 72.55 O +ATOM 7388 CB SER C 142 -45.908 -2.716 146.114 1.00 71.04 C +ATOM 7389 OG SER C 142 -45.895 -3.659 147.169 1.00 71.94 O +ATOM 7390 N SER C 143 -48.532 -1.637 147.898 1.00 79.01 N +ATOM 7391 CA SER C 143 -48.933 -0.836 149.046 1.00 84.61 C +ATOM 7392 C SER C 143 -47.832 -0.832 150.106 1.00 86.11 C +ATOM 7393 O SER C 143 -47.597 0.177 150.771 1.00 86.09 O +ATOM 7394 CB SER C 143 -50.241 -1.366 149.634 1.00 87.06 C +ATOM 7395 OG SER C 143 -50.153 -2.758 149.888 1.00 88.01 O +ATOM 7396 N THR C 144 -41.570 2.120 152.927 1.00 71.36 N +ATOM 7397 CA THR C 144 -40.347 2.279 152.141 1.00 72.36 C +ATOM 7398 C THR C 144 -40.023 3.751 151.894 1.00 72.10 C +ATOM 7399 O THR C 144 -40.912 4.555 151.612 1.00 75.06 O +ATOM 7400 CB THR C 144 -40.449 1.568 150.771 1.00 73.47 C +ATOM 7401 OG1 THR C 144 -41.031 0.269 150.940 1.00 76.27 O +ATOM 7402 CG2 THR C 144 -39.075 1.422 150.138 1.00 70.25 C +ATOM 7403 N SER C 145 -38.746 4.101 152.003 1.00 67.69 N +ATOM 7404 CA SER C 145 -38.263 5.429 151.658 1.00 64.27 C +ATOM 7405 C SER C 145 -37.185 5.310 150.594 1.00 59.92 C +ATOM 7406 O SER C 145 -36.402 4.354 150.595 1.00 57.72 O +ATOM 7407 CB SER C 145 -37.708 6.167 152.879 1.00 64.08 C +ATOM 7408 OG SER C 145 -38.762 6.661 153.686 1.00 66.13 O +ATOM 7409 N GLY C 146 -37.148 6.287 149.691 1.00 59.31 N +ATOM 7410 CA GLY C 146 -36.173 6.259 148.620 1.00 58.53 C +ATOM 7411 C GLY C 146 -36.341 5.115 147.650 1.00 59.05 C +ATOM 7412 O GLY C 146 -35.414 4.814 146.893 1.00 59.02 O +ATOM 7413 N GLY C 147 -37.505 4.457 147.654 1.00 58.22 N +ATOM 7414 CA GLY C 147 -37.744 3.350 146.756 1.00 56.40 C +ATOM 7415 C GLY C 147 -38.280 3.798 145.407 1.00 52.49 C +ATOM 7416 O GLY C 147 -38.602 4.963 145.176 1.00 52.30 O +ATOM 7417 N THR C 148 -38.366 2.839 144.496 1.00 49.51 N +ATOM 7418 CA THR C 148 -38.977 3.046 143.192 1.00 45.57 C +ATOM 7419 C THR C 148 -40.108 2.044 143.037 1.00 41.13 C +ATOM 7420 O THR C 148 -39.943 0.861 143.358 1.00 41.65 O +ATOM 7421 CB THR C 148 -37.955 2.890 142.062 1.00 45.53 C +ATOM 7422 OG1 THR C 148 -36.898 3.835 142.245 1.00 46.56 O +ATOM 7423 CG2 THR C 148 -38.607 3.148 140.725 1.00 43.37 C +ATOM 7424 N ALA C 149 -41.260 2.524 142.580 1.00 34.39 N +ATOM 7425 CA ALA C 149 -42.426 1.686 142.385 1.00 29.03 C +ATOM 7426 C ALA C 149 -42.762 1.632 140.896 1.00 29.64 C +ATOM 7427 O ALA C 149 -42.467 2.564 140.145 1.00 28.27 O +ATOM 7428 CB ALA C 149 -43.617 2.217 143.187 1.00 25.99 C +ATOM 7429 N ALA C 150 -43.371 0.531 140.474 1.00 27.53 N +ATOM 7430 CA ALA C 150 -43.819 0.360 139.096 1.00 26.53 C +ATOM 7431 C ALA C 150 -45.337 0.308 139.066 1.00 28.87 C +ATOM 7432 O ALA C 150 -45.963 -0.253 139.970 1.00 27.66 O +ATOM 7433 CB ALA C 150 -43.237 -0.917 138.489 1.00 25.66 C +ATOM 7434 N LEU C 151 -45.933 0.909 138.039 1.00 29.32 N +ATOM 7435 CA LEU C 151 -47.362 0.746 137.830 1.00 31.03 C +ATOM 7436 C LEU C 151 -47.625 0.729 136.334 1.00 25.29 C +ATOM 7437 O LEU C 151 -46.750 1.065 135.536 1.00 23.03 O +ATOM 7438 CB LEU C 151 -48.171 1.839 138.530 1.00 35.43 C +ATOM 7439 CG LEU C 151 -47.781 3.288 138.262 1.00 39.02 C +ATOM 7440 CD1 LEU C 151 -48.584 3.827 137.096 1.00 41.74 C +ATOM 7441 CD2 LEU C 151 -47.991 4.131 139.494 1.00 38.39 C +ATOM 7442 N GLY C 152 -48.833 0.333 135.963 1.00 23.69 N +ATOM 7443 CA GLY C 152 -49.120 0.214 134.553 1.00 23.25 C +ATOM 7444 C GLY C 152 -50.588 0.003 134.260 1.00 22.46 C +ATOM 7445 O GLY C 152 -51.439 0.040 135.148 1.00 22.15 O +ATOM 7446 N CYS C 153 -50.884 -0.202 132.976 1.00 24.27 N +ATOM 7447 CA CYS C 153 -52.187 -0.719 132.606 1.00 29.26 C +ATOM 7448 C CYS C 153 -52.022 -1.832 131.582 1.00 26.01 C +ATOM 7449 O CYS C 153 -51.138 -1.785 130.721 1.00 20.36 O +ATOM 7450 CB ACYS C 153 -53.065 0.369 131.962 0.72 32.38 C +ATOM 7451 SG ACYS C 153 -53.349 1.909 132.852 0.72 31.37 S +ATOM 7452 N LEU C 154 -52.841 -2.863 131.739 1.00 24.36 N +ATOM 7453 CA LEU C 154 -52.941 -3.948 130.774 1.00 21.87 C +ATOM 7454 C LEU C 154 -54.033 -3.589 129.778 1.00 21.90 C +ATOM 7455 O LEU C 154 -55.181 -3.329 130.165 1.00 27.14 O +ATOM 7456 CB LEU C 154 -53.233 -5.267 131.487 1.00 27.11 C +ATOM 7457 CG LEU C 154 -53.673 -6.467 130.635 1.00 29.61 C +ATOM 7458 CD1 LEU C 154 -52.492 -7.054 129.870 1.00 27.84 C +ATOM 7459 CD2 LEU C 154 -54.333 -7.523 131.520 1.00 31.18 C +ATOM 7460 N VAL C 155 -53.671 -3.564 128.507 1.00 23.08 N +ATOM 7461 CA VAL C 155 -54.528 -3.116 127.419 1.00 23.04 C +ATOM 7462 C VAL C 155 -54.870 -4.369 126.629 1.00 23.92 C +ATOM 7463 O VAL C 155 -54.042 -4.881 125.875 1.00 23.79 O +ATOM 7464 CB VAL C 155 -53.823 -2.063 126.562 1.00 22.61 C +ATOM 7465 CG1 VAL C 155 -54.688 -1.589 125.427 1.00 22.90 C +ATOM 7466 CG2 VAL C 155 -53.403 -0.888 127.438 1.00 20.25 C +ATOM 7467 N LYS C 156 -56.074 -4.895 126.818 1.00 24.92 N +ATOM 7468 CA LYS C 156 -56.347 -6.275 126.449 1.00 30.04 C +ATOM 7469 C LYS C 156 -57.531 -6.372 125.501 1.00 31.19 C +ATOM 7470 O LYS C 156 -58.532 -5.659 125.657 1.00 34.64 O +ATOM 7471 CB LYS C 156 -56.602 -7.129 127.706 1.00 34.24 C +ATOM 7472 CG LYS C 156 -56.496 -8.636 127.482 1.00 38.41 C +ATOM 7473 CD LYS C 156 -56.673 -9.398 128.787 1.00 41.04 C +ATOM 7474 CE LYS C 156 -56.581 -10.907 128.583 1.00 43.88 C +ATOM 7475 NZ LYS C 156 -57.651 -11.433 127.680 1.00 44.85 N +ATOM 7476 N ASP C 157 -57.400 -7.269 124.519 1.00 28.60 N +ATOM 7477 CA ASP C 157 -58.510 -7.701 123.675 1.00 29.05 C +ATOM 7478 C ASP C 157 -58.990 -6.597 122.741 1.00 25.72 C +ATOM 7479 O ASP C 157 -60.180 -6.260 122.733 1.00 25.78 O +ATOM 7480 CB ASP C 157 -59.684 -8.201 124.528 1.00 27.64 C +ATOM 7481 CG ASP C 157 -59.387 -9.530 125.240 1.00 32.29 C +ATOM 7482 OD1 ASP C 157 -58.363 -10.188 124.940 1.00 32.28 O +ATOM 7483 OD2 ASP C 157 -60.177 -9.905 126.129 1.00 34.56 O +ATOM 7484 N TYR C 158 -58.088 -6.028 121.952 1.00 25.20 N +ATOM 7485 CA TYR C 158 -58.480 -5.089 120.911 1.00 22.37 C +ATOM 7486 C TYR C 158 -58.096 -5.666 119.555 1.00 23.35 C +ATOM 7487 O TYR C 158 -57.372 -6.662 119.458 1.00 25.09 O +ATOM 7488 CB TYR C 158 -57.839 -3.709 121.126 1.00 22.09 C +ATOM 7489 CG TYR C 158 -56.328 -3.697 121.016 1.00 27.45 C +ATOM 7490 CD1 TYR C 158 -55.704 -3.404 119.809 1.00 24.32 C +ATOM 7491 CD2 TYR C 158 -55.525 -3.977 122.119 1.00 21.41 C +ATOM 7492 CE1 TYR C 158 -54.319 -3.385 119.697 1.00 25.84 C +ATOM 7493 CE2 TYR C 158 -54.137 -3.970 122.015 1.00 24.36 C +ATOM 7494 CZ TYR C 158 -53.541 -3.670 120.809 1.00 26.65 C +ATOM 7495 OH TYR C 158 -52.165 -3.659 120.700 1.00 25.83 O +ATOM 7496 N PHE C 159 -58.607 -5.035 118.500 1.00 24.61 N +ATOM 7497 CA PHE C 159 -58.336 -5.456 117.129 1.00 22.85 C +ATOM 7498 C PHE C 159 -58.848 -4.379 116.182 1.00 22.50 C +ATOM 7499 O PHE C 159 -59.944 -3.847 116.397 1.00 24.62 O +ATOM 7500 CB PHE C 159 -59.009 -6.790 116.799 1.00 25.13 C +ATOM 7501 CG PHE C 159 -58.781 -7.233 115.381 1.00 26.47 C +ATOM 7502 CD1 PHE C 159 -59.647 -6.846 114.372 1.00 29.52 C +ATOM 7503 CD2 PHE C 159 -57.669 -7.991 115.053 1.00 25.14 C +ATOM 7504 CE1 PHE C 159 -59.424 -7.235 113.060 1.00 30.66 C +ATOM 7505 CE2 PHE C 159 -57.441 -8.386 113.742 1.00 28.05 C +ATOM 7506 CZ PHE C 159 -58.316 -8.008 112.751 1.00 28.85 C +ATOM 7507 N PRO C 160 -58.075 -3.997 115.151 1.00 24.68 N +ATOM 7508 CA PRO C 160 -56.711 -4.476 114.897 1.00 22.89 C +ATOM 7509 C PRO C 160 -55.666 -3.559 115.537 1.00 24.34 C +ATOM 7510 O PRO C 160 -56.044 -2.638 116.265 1.00 29.18 O +ATOM 7511 CB PRO C 160 -56.618 -4.405 113.375 1.00 23.38 C +ATOM 7512 CG PRO C 160 -57.313 -3.101 113.097 1.00 24.39 C +ATOM 7513 CD PRO C 160 -58.498 -3.052 114.097 1.00 26.42 C +ATOM 7514 N GLU C 161 -54.382 -3.821 115.271 1.00 26.65 N +ATOM 7515 CA GLU C 161 -53.322 -2.854 115.540 1.00 26.05 C +ATOM 7516 C GLU C 161 -53.567 -1.570 114.747 1.00 31.31 C +ATOM 7517 O GLU C 161 -54.169 -1.606 113.667 1.00 32.21 O +ATOM 7518 CB GLU C 161 -51.956 -3.424 115.142 1.00 24.98 C +ATOM 7519 CG GLU C 161 -51.398 -4.489 116.059 1.00 30.53 C +ATOM 7520 CD GLU C 161 -50.722 -3.894 117.271 1.00 35.37 C +ATOM 7521 OE1 GLU C 161 -49.506 -4.131 117.453 1.00 37.56 O +ATOM 7522 OE2 GLU C 161 -51.392 -3.160 118.020 1.00 35.41 O +ATOM 7523 N PRO C 162 -53.071 -0.420 115.234 1.00 34.29 N +ATOM 7524 CA PRO C 162 -52.346 -0.275 116.504 1.00 31.31 C +ATOM 7525 C PRO C 162 -53.148 0.401 117.614 1.00 30.39 C +ATOM 7526 O PRO C 162 -54.254 0.880 117.404 1.00 30.52 O +ATOM 7527 CB PRO C 162 -51.178 0.612 116.107 1.00 34.96 C +ATOM 7528 CG PRO C 162 -51.851 1.605 115.158 1.00 35.77 C +ATOM 7529 CD PRO C 162 -52.935 0.800 114.411 1.00 34.66 C +ATOM 7530 N VAL C 163 -52.561 0.459 118.807 1.00 30.29 N +ATOM 7531 CA VAL C 163 -53.090 1.255 119.901 1.00 29.60 C +ATOM 7532 C VAL C 163 -51.994 2.234 120.329 1.00 30.92 C +ATOM 7533 O VAL C 163 -50.817 2.051 120.014 1.00 35.22 O +ATOM 7534 CB VAL C 163 -53.554 0.350 121.068 1.00 36.12 C +ATOM 7535 CG1 VAL C 163 -52.367 -0.176 121.853 1.00 30.86 C +ATOM 7536 CG2 VAL C 163 -54.523 1.068 121.964 1.00 41.69 C +ATOM 7537 N THR C 164 -52.391 3.314 121.005 1.00 29.94 N +ATOM 7538 CA THR C 164 -51.426 4.240 121.595 1.00 28.11 C +ATOM 7539 C THR C 164 -51.728 4.410 123.078 1.00 27.26 C +ATOM 7540 O THR C 164 -52.896 4.487 123.475 1.00 27.82 O +ATOM 7541 CB THR C 164 -51.438 5.626 120.911 1.00 34.92 C +ATOM 7542 OG1 THR C 164 -52.737 6.220 121.041 1.00 39.40 O +ATOM 7543 CG2 THR C 164 -51.072 5.520 119.434 1.00 33.10 C +ATOM 7544 N VAL C 165 -50.679 4.476 123.896 1.00 24.54 N +ATOM 7545 CA VAL C 165 -50.828 4.675 125.332 1.00 24.64 C +ATOM 7546 C VAL C 165 -50.005 5.885 125.743 1.00 23.04 C +ATOM 7547 O VAL C 165 -48.821 5.974 125.415 1.00 27.43 O +ATOM 7548 CB VAL C 165 -50.381 3.443 126.150 1.00 22.01 C +ATOM 7549 CG1 VAL C 165 -50.677 3.670 127.624 1.00 20.15 C +ATOM 7550 CG2 VAL C 165 -51.064 2.170 125.663 1.00 20.51 C +ATOM 7551 N SER C 166 -50.624 6.818 126.446 1.00 26.03 N +ATOM 7552 CA ASER C 166 -49.875 7.883 127.097 0.78 26.39 C +ATOM 7553 C SER C 166 -50.208 7.876 128.579 1.00 25.52 C +ATOM 7554 O SER C 166 -51.106 7.170 129.039 1.00 26.11 O +ATOM 7555 CB ASER C 166 -50.157 9.258 126.465 0.78 26.31 C +ATOM 7556 OG ASER C 166 -51.534 9.591 126.472 0.78 26.09 O +ATOM 7557 N TRP C 167 -49.434 8.639 129.337 1.00 25.06 N +ATOM 7558 CA TRP C 167 -49.604 8.745 130.778 1.00 25.91 C +ATOM 7559 C TRP C 167 -49.773 10.215 131.129 1.00 27.68 C +ATOM 7560 O TRP C 167 -49.032 11.067 130.621 1.00 27.38 O +ATOM 7561 CB TRP C 167 -48.414 8.132 131.531 1.00 25.98 C +ATOM 7562 CG TRP C 167 -48.394 6.621 131.461 1.00 26.94 C +ATOM 7563 CD1 TRP C 167 -47.798 5.846 130.506 1.00 26.89 C +ATOM 7564 CD2 TRP C 167 -49.033 5.716 132.373 1.00 27.96 C +ATOM 7565 NE1 TRP C 167 -48.014 4.514 130.774 1.00 26.98 N +ATOM 7566 CE2 TRP C 167 -48.770 4.407 131.915 1.00 27.58 C +ATOM 7567 CE3 TRP C 167 -49.806 5.888 133.526 1.00 26.79 C +ATOM 7568 CZ2 TRP C 167 -49.258 3.271 132.572 1.00 24.09 C +ATOM 7569 CZ3 TRP C 167 -50.275 4.760 134.191 1.00 29.75 C +ATOM 7570 CH2 TRP C 167 -50.007 3.468 133.705 1.00 26.74 C +ATOM 7571 N ASN C 168 -50.765 10.504 131.971 1.00 27.27 N +ATOM 7572 CA ASN C 168 -51.030 11.860 132.442 1.00 27.37 C +ATOM 7573 C ASN C 168 -51.137 12.828 131.272 1.00 27.62 C +ATOM 7574 O ASN C 168 -50.578 13.925 131.294 1.00 29.56 O +ATOM 7575 CB ASN C 168 -49.966 12.301 133.434 1.00 28.87 C +ATOM 7576 CG ASN C 168 -50.127 11.620 134.780 1.00 30.29 C +ATOM 7577 OD1 ASN C 168 -51.064 10.853 134.986 1.00 33.50 O +ATOM 7578 ND2 ASN C 168 -49.208 11.882 135.690 1.00 26.41 N +ATOM 7579 N SER C 169 -51.845 12.389 130.231 1.00 24.21 N +ATOM 7580 CA SER C 169 -52.167 13.209 129.062 1.00 32.48 C +ATOM 7581 C SER C 169 -50.910 13.682 128.344 1.00 33.94 C +ATOM 7582 O SER C 169 -50.898 14.749 127.725 1.00 35.99 O +ATOM 7583 CB SER C 169 -53.062 14.395 129.438 1.00 34.21 C +ATOM 7584 OG SER C 169 -54.305 13.953 129.957 1.00 35.67 O +ATOM 7585 N GLY C 170 -49.853 12.874 128.409 1.00 32.29 N +ATOM 7586 CA GLY C 170 -48.618 13.143 127.709 1.00 27.31 C +ATOM 7587 C GLY C 170 -47.601 13.932 128.490 1.00 29.30 C +ATOM 7588 O GLY C 170 -46.500 14.176 127.972 1.00 34.47 O +ATOM 7589 N ALA C 171 -47.926 14.333 129.717 1.00 29.40 N +ATOM 7590 CA ALA C 171 -46.988 15.026 130.584 1.00 30.14 C +ATOM 7591 C ALA C 171 -45.957 14.092 131.191 1.00 31.94 C +ATOM 7592 O ALA C 171 -44.926 14.564 131.684 1.00 31.81 O +ATOM 7593 CB ALA C 171 -47.734 15.730 131.718 1.00 31.11 C +ATOM 7594 N LEU C 172 -46.219 12.788 131.191 1.00 30.92 N +ATOM 7595 CA LEU C 172 -45.326 11.798 131.792 1.00 28.82 C +ATOM 7596 C LEU C 172 -44.847 10.868 130.686 1.00 30.08 C +ATOM 7597 O LEU C 172 -45.625 10.055 130.174 1.00 29.17 O +ATOM 7598 CB LEU C 172 -46.036 11.028 132.912 1.00 27.23 C +ATOM 7599 CG LEU C 172 -45.221 9.944 133.642 1.00 30.25 C +ATOM 7600 CD1 LEU C 172 -43.903 10.517 134.151 1.00 28.28 C +ATOM 7601 CD2 LEU C 172 -46.017 9.307 134.792 1.00 27.86 C +ATOM 7602 N THR C 173 -43.574 11.005 130.293 1.00 27.35 N +ATOM 7603 CA THR C 173 -42.970 10.095 129.324 1.00 33.58 C +ATOM 7604 C THR C 173 -41.662 9.478 129.787 1.00 35.64 C +ATOM 7605 O THR C 173 -41.303 8.409 129.283 1.00 36.28 O +ATOM 7606 CB THR C 173 -42.720 10.799 127.977 1.00 34.03 C +ATOM 7607 OG1 THR C 173 -41.666 11.759 128.124 1.00 33.22 O +ATOM 7608 CG2 THR C 173 -43.979 11.500 127.494 1.00 31.56 C +ATOM 7609 N SER C 174 -40.945 10.096 130.723 1.00 38.18 N +ATOM 7610 CA SER C 174 -39.735 9.490 131.266 1.00 42.44 C +ATOM 7611 C SER C 174 -40.075 8.221 132.038 1.00 40.80 C +ATOM 7612 O SER C 174 -40.975 8.218 132.881 1.00 39.82 O +ATOM 7613 CB SER C 174 -39.010 10.475 132.180 1.00 42.94 C +ATOM 7614 OG SER C 174 -38.645 11.630 131.460 1.00 42.60 O +ATOM 7615 N GLY C 175 -39.353 7.143 131.746 1.00 40.53 N +ATOM 7616 CA GLY C 175 -39.578 5.884 132.425 1.00 41.07 C +ATOM 7617 C GLY C 175 -40.784 5.095 131.960 1.00 37.04 C +ATOM 7618 O GLY C 175 -41.166 4.134 132.635 1.00 35.77 O +ATOM 7619 N VAL C 176 -41.398 5.466 130.841 1.00 33.21 N +ATOM 7620 CA VAL C 176 -42.532 4.727 130.296 1.00 32.43 C +ATOM 7621 C VAL C 176 -42.017 3.639 129.365 1.00 31.86 C +ATOM 7622 O VAL C 176 -41.186 3.904 128.488 1.00 34.06 O +ATOM 7623 CB VAL C 176 -43.500 5.657 129.543 1.00 26.90 C +ATOM 7624 CG1 VAL C 176 -44.654 4.850 128.982 1.00 26.76 C +ATOM 7625 CG2 VAL C 176 -43.997 6.762 130.453 1.00 25.39 C +ATOM 7626 N HIS C 177 -42.527 2.417 129.535 1.00 26.94 N +ATOM 7627 CA HIS C 177 -42.282 1.336 128.592 1.00 24.38 C +ATOM 7628 C HIS C 177 -43.616 0.763 128.153 1.00 27.08 C +ATOM 7629 O HIS C 177 -44.408 0.313 128.985 1.00 26.23 O +ATOM 7630 CB HIS C 177 -41.405 0.244 129.201 1.00 24.15 C +ATOM 7631 CG HIS C 177 -40.101 0.750 129.722 1.00 27.75 C +ATOM 7632 ND1 HIS C 177 -39.111 1.240 128.896 1.00 25.69 N +ATOM 7633 CD2 HIS C 177 -39.630 0.858 130.987 1.00 25.38 C +ATOM 7634 CE1 HIS C 177 -38.083 1.622 129.632 1.00 27.29 C +ATOM 7635 NE2 HIS C 177 -38.374 1.405 130.904 1.00 28.03 N +ATOM 7636 N THR C 178 -43.869 0.800 126.854 1.00 30.99 N +ATOM 7637 CA THR C 178 -45.068 0.222 126.266 1.00 30.98 C +ATOM 7638 C THR C 178 -44.600 -0.935 125.399 1.00 29.30 C +ATOM 7639 O THR C 178 -43.877 -0.729 124.418 1.00 27.87 O +ATOM 7640 CB THR C 178 -45.847 1.271 125.472 1.00 32.45 C +ATOM 7641 OG1 THR C 178 -46.271 2.310 126.367 1.00 29.45 O +ATOM 7642 CG2 THR C 178 -47.071 0.652 124.786 1.00 29.55 C +ATOM 7643 N PHE C 179 -44.974 -2.151 125.790 1.00 29.95 N +ATOM 7644 CA PHE C 179 -44.446 -3.352 125.168 1.00 24.99 C +ATOM 7645 C PHE C 179 -45.150 -3.636 123.844 1.00 28.37 C +ATOM 7646 O PHE C 179 -46.312 -3.264 123.661 1.00 28.09 O +ATOM 7647 CB PHE C 179 -44.614 -4.539 126.097 1.00 23.13 C +ATOM 7648 CG PHE C 179 -43.795 -4.436 127.345 1.00 24.63 C +ATOM 7649 CD1 PHE C 179 -44.358 -3.986 128.529 1.00 27.02 C +ATOM 7650 CD2 PHE C 179 -42.450 -4.783 127.331 1.00 22.26 C +ATOM 7651 CE1 PHE C 179 -43.594 -3.896 129.675 1.00 24.00 C +ATOM 7652 CE2 PHE C 179 -41.683 -4.683 128.470 1.00 22.68 C +ATOM 7653 CZ PHE C 179 -42.245 -4.240 129.634 1.00 21.73 C +ATOM 7654 N PRO C 180 -44.466 -4.294 122.909 1.00 24.93 N +ATOM 7655 CA PRO C 180 -45.129 -4.689 121.662 1.00 27.51 C +ATOM 7656 C PRO C 180 -46.303 -5.610 121.955 1.00 28.30 C +ATOM 7657 O PRO C 180 -46.235 -6.471 122.829 1.00 23.18 O +ATOM 7658 CB PRO C 180 -44.028 -5.417 120.880 1.00 25.53 C +ATOM 7659 CG PRO C 180 -42.748 -4.989 121.503 1.00 29.53 C +ATOM 7660 CD PRO C 180 -43.065 -4.750 122.955 1.00 24.51 C +ATOM 7661 N ALA C 181 -47.385 -5.417 121.211 1.00 27.78 N +ATOM 7662 CA ALA C 181 -48.565 -6.248 121.377 1.00 30.58 C +ATOM 7663 C ALA C 181 -48.266 -7.697 121.006 1.00 29.41 C +ATOM 7664 O ALA C 181 -47.348 -7.988 120.234 1.00 29.96 O +ATOM 7665 CB ALA C 181 -49.706 -5.714 120.514 1.00 32.61 C +ATOM 7666 N VAL C 182 -49.040 -8.613 121.584 1.00 27.00 N +ATOM 7667 CA VAL C 182 -49.013 -10.023 121.215 1.00 27.82 C +ATOM 7668 C VAL C 182 -50.390 -10.418 120.696 1.00 27.24 C +ATOM 7669 O VAL C 182 -51.421 -9.984 121.223 1.00 25.28 O +ATOM 7670 CB VAL C 182 -48.588 -10.943 122.384 1.00 31.70 C +ATOM 7671 CG1 VAL C 182 -47.225 -10.536 122.907 1.00 33.28 C +ATOM 7672 CG2 VAL C 182 -49.624 -10.941 123.508 1.00 36.78 C +ATOM 7673 N LEU C 183 -50.402 -11.241 119.654 1.00 25.97 N +ATOM 7674 CA LEU C 183 -51.639 -11.730 119.066 1.00 28.80 C +ATOM 7675 C LEU C 183 -52.069 -12.970 119.839 1.00 29.35 C +ATOM 7676 O LEU C 183 -51.363 -13.978 119.845 1.00 28.94 O +ATOM 7677 CB LEU C 183 -51.436 -12.027 117.580 1.00 27.34 C +ATOM 7678 CG LEU C 183 -52.644 -12.585 116.822 1.00 31.24 C +ATOM 7679 CD1 LEU C 183 -53.885 -11.730 117.076 1.00 29.35 C +ATOM 7680 CD2 LEU C 183 -52.339 -12.680 115.317 1.00 26.90 C +ATOM 7681 N GLN C 184 -53.213 -12.892 120.508 1.00 34.47 N +ATOM 7682 CA GLN C 184 -53.664 -14.013 121.314 1.00 34.79 C +ATOM 7683 C GLN C 184 -54.376 -15.031 120.428 1.00 36.07 C +ATOM 7684 O GLN C 184 -54.733 -14.747 119.281 1.00 35.59 O +ATOM 7685 CB GLN C 184 -54.587 -13.529 122.436 1.00 36.17 C +ATOM 7686 CG GLN C 184 -53.997 -12.380 123.259 1.00 37.27 C +ATOM 7687 CD GLN C 184 -55.002 -11.770 124.226 1.00 42.09 C +ATOM 7688 OE1 GLN C 184 -55.024 -12.107 125.408 1.00 43.87 O +ATOM 7689 NE2 GLN C 184 -55.839 -10.865 123.723 1.00 41.60 N +ATOM 7690 N SER C 185 -54.573 -16.237 120.966 1.00 35.76 N +ATOM 7691 CA SER C 185 -55.235 -17.279 120.184 1.00 40.25 C +ATOM 7692 C SER C 185 -56.687 -16.934 119.884 1.00 39.96 C +ATOM 7693 O SER C 185 -57.275 -17.516 118.965 1.00 42.87 O +ATOM 7694 CB SER C 185 -55.142 -18.630 120.901 1.00 44.81 C +ATOM 7695 OG SER C 185 -55.563 -18.541 122.252 1.00 47.33 O +ATOM 7696 N SER C 186 -57.272 -15.990 120.621 1.00 36.20 N +ATOM 7697 CA SER C 186 -58.612 -15.498 120.322 1.00 31.81 C +ATOM 7698 C SER C 186 -58.672 -14.653 119.059 1.00 30.32 C +ATOM 7699 O SER C 186 -59.771 -14.303 118.619 1.00 30.54 O +ATOM 7700 CB SER C 186 -59.123 -14.653 121.484 1.00 35.60 C +ATOM 7701 OG SER C 186 -58.356 -13.460 121.582 1.00 32.26 O +ATOM 7702 N GLY C 187 -57.532 -14.283 118.487 1.00 30.38 N +ATOM 7703 CA GLY C 187 -57.519 -13.316 117.415 1.00 29.61 C +ATOM 7704 C GLY C 187 -57.444 -11.873 117.859 1.00 28.30 C +ATOM 7705 O GLY C 187 -57.517 -10.980 117.011 1.00 23.67 O +ATOM 7706 N LEU C 188 -57.304 -11.609 119.154 1.00 28.97 N +ATOM 7707 CA LEU C 188 -57.267 -10.244 119.662 1.00 28.53 C +ATOM 7708 C LEU C 188 -55.875 -9.934 120.204 1.00 27.96 C +ATOM 7709 O LEU C 188 -55.150 -10.828 120.650 1.00 30.79 O +ATOM 7710 CB LEU C 188 -58.337 -10.021 120.753 1.00 26.63 C +ATOM 7711 CG LEU C 188 -59.802 -10.341 120.389 1.00 26.54 C +ATOM 7712 CD1 LEU C 188 -60.775 -10.040 121.528 1.00 26.95 C +ATOM 7713 CD2 LEU C 188 -60.239 -9.629 119.100 1.00 23.35 C +ATOM 7714 N TYR C 189 -55.490 -8.662 120.134 1.00 26.30 N +ATOM 7715 CA TYR C 189 -54.180 -8.234 120.606 1.00 23.53 C +ATOM 7716 C TYR C 189 -54.253 -7.862 122.086 1.00 22.90 C +ATOM 7717 O TYR C 189 -55.323 -7.543 122.614 1.00 22.05 O +ATOM 7718 CB TYR C 189 -53.669 -7.050 119.779 1.00 20.51 C +ATOM 7719 CG TYR C 189 -53.402 -7.404 118.325 1.00 23.45 C +ATOM 7720 CD1 TYR C 189 -52.169 -7.929 117.915 1.00 23.85 C +ATOM 7721 CD2 TYR C 189 -54.385 -7.222 117.359 1.00 26.51 C +ATOM 7722 CE1 TYR C 189 -51.934 -8.260 116.556 1.00 24.38 C +ATOM 7723 CE2 TYR C 189 -54.163 -7.542 116.021 1.00 25.42 C +ATOM 7724 CZ TYR C 189 -52.942 -8.058 115.627 1.00 27.23 C +ATOM 7725 OH TYR C 189 -52.763 -8.373 114.286 1.00 27.97 O +ATOM 7726 N SER C 190 -53.096 -7.921 122.752 1.00 22.10 N +ATOM 7727 CA SER C 190 -52.946 -7.526 124.150 1.00 25.20 C +ATOM 7728 C SER C 190 -51.567 -6.901 124.349 1.00 25.13 C +ATOM 7729 O SER C 190 -50.587 -7.347 123.741 1.00 21.48 O +ATOM 7730 CB SER C 190 -53.109 -8.728 125.081 1.00 30.86 C +ATOM 7731 OG SER C 190 -53.094 -8.335 126.437 1.00 39.74 O +ATOM 7732 N LEU C 191 -51.483 -5.879 125.201 1.00 22.00 N +ATOM 7733 CA LEU C 191 -50.172 -5.380 125.606 1.00 23.25 C +ATOM 7734 C LEU C 191 -50.283 -4.713 126.972 1.00 24.48 C +ATOM 7735 O LEU C 191 -51.377 -4.475 127.486 1.00 20.12 O +ATOM 7736 CB LEU C 191 -49.584 -4.408 124.573 1.00 21.40 C +ATOM 7737 CG LEU C 191 -50.250 -3.056 124.279 1.00 24.82 C +ATOM 7738 CD1 LEU C 191 -49.951 -1.982 125.335 1.00 20.60 C +ATOM 7739 CD2 LEU C 191 -49.838 -2.547 122.898 1.00 26.15 C +ATOM 7740 N SER C 192 -49.126 -4.393 127.547 1.00 21.33 N +ATOM 7741 CA BSER C 192 -49.062 -3.633 128.788 0.62 22.40 C +ATOM 7742 C SER C 192 -48.214 -2.386 128.578 1.00 22.83 C +ATOM 7743 O SER C 192 -47.316 -2.362 127.732 1.00 25.94 O +ATOM 7744 CB BSER C 192 -48.481 -4.466 129.958 0.62 20.14 C +ATOM 7745 OG BSER C 192 -49.432 -5.389 130.463 0.62 21.84 O +ATOM 7746 N SER C 193 -48.505 -1.352 129.367 1.00 26.50 N +ATOM 7747 CA SER C 193 -47.685 -0.150 129.439 1.00 25.08 C +ATOM 7748 C SER C 193 -47.395 0.075 130.909 1.00 20.14 C +ATOM 7749 O SER C 193 -48.308 -0.018 131.736 1.00 20.59 O +ATOM 7750 CB SER C 193 -48.373 1.082 128.837 1.00 20.06 C +ATOM 7751 OG SER C 193 -47.515 2.221 128.885 1.00 22.27 O +ATOM 7752 N VAL C 194 -46.128 0.332 131.234 1.00 20.10 N +ATOM 7753 CA VAL C 194 -45.706 0.480 132.620 1.00 20.76 C +ATOM 7754 C VAL C 194 -44.852 1.735 132.738 1.00 25.98 C +ATOM 7755 O VAL C 194 -44.337 2.261 131.751 1.00 24.17 O +ATOM 7756 CB VAL C 194 -44.945 -0.765 133.151 1.00 20.14 C +ATOM 7757 CG1 VAL C 194 -45.796 -2.025 132.998 1.00 24.43 C +ATOM 7758 CG2 VAL C 194 -43.574 -0.944 132.460 1.00 20.03 C +ATOM 7759 N VAL C 195 -44.718 2.218 133.972 1.00 20.21 N +ATOM 7760 CA VAL C 195 -43.873 3.372 134.259 1.00 22.66 C +ATOM 7761 C VAL C 195 -43.398 3.231 135.696 1.00 26.13 C +ATOM 7762 O VAL C 195 -44.100 2.662 136.534 1.00 25.44 O +ATOM 7763 CB VAL C 195 -44.625 4.704 134.002 1.00 23.04 C +ATOM 7764 CG1 VAL C 195 -45.886 4.770 134.802 1.00 20.39 C +ATOM 7765 CG2 VAL C 195 -43.734 5.924 134.297 1.00 28.14 C +ATOM 7766 N THR C 196 -42.176 3.684 135.963 1.00 29.59 N +ATOM 7767 CA THR C 196 -41.646 3.699 137.320 1.00 32.87 C +ATOM 7768 C THR C 196 -41.686 5.124 137.854 1.00 35.98 C +ATOM 7769 O THR C 196 -41.427 6.085 137.118 1.00 34.09 O +ATOM 7770 CB THR C 196 -40.217 3.144 137.383 1.00 32.71 C +ATOM 7771 OG1 THR C 196 -39.428 3.684 136.313 1.00 31.64 O +ATOM 7772 CG2 THR C 196 -40.232 1.625 137.283 1.00 33.51 C +ATOM 7773 N VAL C 197 -42.036 5.249 139.132 1.00 34.18 N +ATOM 7774 CA VAL C 197 -42.248 6.542 139.779 1.00 34.89 C +ATOM 7775 C VAL C 197 -41.576 6.486 141.145 1.00 36.35 C +ATOM 7776 O VAL C 197 -41.293 5.393 141.657 1.00 35.99 O +ATOM 7777 CB VAL C 197 -43.758 6.883 139.900 1.00 34.12 C +ATOM 7778 CG1 VAL C 197 -44.438 6.838 138.537 1.00 32.74 C +ATOM 7779 CG2 VAL C 197 -44.457 5.933 140.846 1.00 30.72 C +ATOM 7780 N PRO C 198 -41.259 7.636 141.738 1.00 39.31 N +ATOM 7781 CA PRO C 198 -40.725 7.614 143.105 1.00 39.56 C +ATOM 7782 C PRO C 198 -41.752 7.037 144.064 1.00 35.71 C +ATOM 7783 O PRO C 198 -42.924 7.424 144.055 1.00 33.09 O +ATOM 7784 CB PRO C 198 -40.433 9.091 143.402 1.00 41.72 C +ATOM 7785 CG PRO C 198 -41.240 9.855 142.407 1.00 44.54 C +ATOM 7786 CD PRO C 198 -41.269 9.000 141.180 1.00 42.04 C +ATOM 7787 N SER C 199 -41.301 6.096 144.898 1.00 40.54 N +ATOM 7788 CA SER C 199 -42.216 5.442 145.828 1.00 43.41 C +ATOM 7789 C SER C 199 -42.939 6.445 146.726 1.00 46.43 C +ATOM 7790 O SER C 199 -44.070 6.187 147.152 1.00 47.15 O +ATOM 7791 CB SER C 199 -41.454 4.416 146.662 1.00 46.47 C +ATOM 7792 OG SER C 199 -42.350 3.566 147.353 1.00 51.46 O +ATOM 7793 N SER C 200 -42.329 7.605 146.997 1.00 48.63 N +ATOM 7794 CA SER C 200 -42.973 8.596 147.854 1.00 51.59 C +ATOM 7795 C SER C 200 -44.128 9.317 147.169 1.00 52.41 C +ATOM 7796 O SER C 200 -44.929 9.964 147.852 1.00 52.53 O +ATOM 7797 CB SER C 200 -41.949 9.622 148.338 1.00 54.83 C +ATOM 7798 OG SER C 200 -40.890 8.987 149.034 1.00 59.17 O +ATOM 7799 N SER C 201 -44.237 9.233 145.848 1.00 51.65 N +ATOM 7800 CA SER C 201 -45.297 9.936 145.140 1.00 53.86 C +ATOM 7801 C SER C 201 -46.607 9.155 145.078 1.00 52.05 C +ATOM 7802 O SER C 201 -47.612 9.704 144.609 1.00 51.46 O +ATOM 7803 CB SER C 201 -44.843 10.280 143.715 1.00 54.84 C +ATOM 7804 OG SER C 201 -44.654 9.112 142.934 1.00 53.13 O +ATOM 7805 N LEU C 202 -46.629 7.906 145.554 1.00 48.54 N +ATOM 7806 CA LEU C 202 -47.786 7.044 145.328 1.00 45.88 C +ATOM 7807 C LEU C 202 -49.043 7.542 146.027 1.00 50.36 C +ATOM 7808 O LEU C 202 -50.149 7.210 145.588 1.00 50.68 O +ATOM 7809 CB LEU C 202 -47.474 5.610 145.769 1.00 37.53 C +ATOM 7810 CG LEU C 202 -46.424 4.886 144.919 1.00 33.57 C +ATOM 7811 CD1 LEU C 202 -46.135 3.492 145.465 1.00 33.08 C +ATOM 7812 CD2 LEU C 202 -46.884 4.817 143.443 1.00 32.61 C +ATOM 7813 N GLY C 203 -48.912 8.327 147.092 1.00 55.13 N +ATOM 7814 CA GLY C 203 -50.089 8.840 147.765 1.00 56.39 C +ATOM 7815 C GLY C 203 -50.412 10.289 147.458 1.00 58.63 C +ATOM 7816 O GLY C 203 -51.485 10.775 147.825 1.00 60.92 O +ATOM 7817 N THR C 204 -49.504 10.992 146.780 1.00 62.19 N +ATOM 7818 CA THR C 204 -49.650 12.425 146.545 1.00 61.91 C +ATOM 7819 C THR C 204 -49.623 12.807 145.068 1.00 62.43 C +ATOM 7820 O THR C 204 -49.614 14.003 144.754 1.00 66.07 O +ATOM 7821 CB THR C 204 -48.559 13.199 147.290 1.00 63.45 C +ATOM 7822 OG1 THR C 204 -47.271 12.727 146.874 1.00 62.81 O +ATOM 7823 CG2 THR C 204 -48.710 13.017 148.794 1.00 64.70 C +ATOM 7824 N GLN C 205 -49.596 11.838 144.155 1.00 55.76 N +ATOM 7825 CA GLN C 205 -49.668 12.123 142.728 1.00 51.18 C +ATOM 7826 C GLN C 205 -50.630 11.144 142.076 1.00 46.34 C +ATOM 7827 O GLN C 205 -50.684 9.974 142.457 1.00 46.28 O +ATOM 7828 CB GLN C 205 -48.283 12.036 142.058 1.00 50.76 C +ATOM 7829 CG GLN C 205 -48.302 12.201 140.535 1.00 52.77 C +ATOM 7830 CD GLN C 205 -48.852 13.551 140.084 1.00 54.45 C +ATOM 7831 OE1 GLN C 205 -48.621 14.577 140.730 1.00 56.51 O +ATOM 7832 NE2 GLN C 205 -49.586 13.554 138.973 1.00 52.27 N +ATOM 7833 N THR C 206 -51.396 11.630 141.107 1.00 43.58 N +ATOM 7834 CA THR C 206 -52.323 10.799 140.352 1.00 42.52 C +ATOM 7835 C THR C 206 -51.660 10.352 139.054 1.00 39.28 C +ATOM 7836 O THR C 206 -51.023 11.159 138.367 1.00 36.92 O +ATOM 7837 CB THR C 206 -53.618 11.558 140.060 1.00 44.69 C +ATOM 7838 OG1 THR C 206 -54.305 11.812 141.291 1.00 44.66 O +ATOM 7839 CG2 THR C 206 -54.519 10.751 139.132 1.00 44.50 C +ATOM 7840 N TYR C 207 -51.798 9.065 138.729 1.00 35.81 N +ATOM 7841 CA TYR C 207 -51.288 8.510 137.482 1.00 31.27 C +ATOM 7842 C TYR C 207 -52.443 7.922 136.697 1.00 30.44 C +ATOM 7843 O TYR C 207 -53.182 7.073 137.202 1.00 30.95 O +ATOM 7844 CB TYR C 207 -50.220 7.453 137.742 1.00 30.56 C +ATOM 7845 CG TYR C 207 -49.038 8.027 138.456 1.00 29.36 C +ATOM 7846 CD1 TYR C 207 -48.049 8.722 137.758 1.00 26.47 C +ATOM 7847 CD2 TYR C 207 -48.916 7.907 139.833 1.00 27.32 C +ATOM 7848 CE1 TYR C 207 -46.971 9.268 138.416 1.00 28.00 C +ATOM 7849 CE2 TYR C 207 -47.842 8.438 140.492 1.00 28.79 C +ATOM 7850 CZ TYR C 207 -46.871 9.119 139.791 1.00 29.87 C +ATOM 7851 OH TYR C 207 -45.804 9.650 140.474 1.00 32.34 O +ATOM 7852 N ILE C 208 -52.588 8.369 135.462 1.00 29.55 N +ATOM 7853 CA ILE C 208 -53.667 7.945 134.594 1.00 28.99 C +ATOM 7854 C ILE C 208 -53.042 7.539 133.275 1.00 27.93 C +ATOM 7855 O ILE C 208 -52.179 8.250 132.747 1.00 26.66 O +ATOM 7856 CB ILE C 208 -54.711 9.066 134.403 1.00 30.96 C +ATOM 7857 CG1 ILE C 208 -55.442 9.316 135.728 1.00 36.64 C +ATOM 7858 CG2 ILE C 208 -55.683 8.725 133.282 1.00 28.73 C +ATOM 7859 CD1 ILE C 208 -56.395 10.478 135.699 1.00 40.21 C +ATOM 7860 N CYS C 209 -53.437 6.381 132.766 1.00 26.00 N +ATOM 7861 CA CYS C 209 -53.017 5.980 131.437 1.00 27.88 C +ATOM 7862 C CYS C 209 -54.150 6.288 130.472 1.00 27.35 C +ATOM 7863 O CYS C 209 -55.323 6.070 130.796 1.00 33.25 O +ATOM 7864 CB CYS C 209 -52.590 4.508 131.388 1.00 31.36 C +ATOM 7865 SG CYS C 209 -53.863 3.231 131.357 1.00 37.20 S +ATOM 7866 N ASN C 210 -53.792 6.840 129.317 1.00 27.84 N +ATOM 7867 CA ASN C 210 -54.726 7.261 128.283 1.00 26.23 C +ATOM 7868 C ASN C 210 -54.531 6.349 127.087 1.00 27.17 C +ATOM 7869 O ASN C 210 -53.446 6.324 126.497 1.00 25.39 O +ATOM 7870 CB ASN C 210 -54.484 8.714 127.868 1.00 28.85 C +ATOM 7871 CG ASN C 210 -54.077 9.595 129.027 1.00 30.86 C +ATOM 7872 OD1 ASN C 210 -52.924 10.045 129.105 1.00 32.20 O +ATOM 7873 ND2 ASN C 210 -55.014 9.858 129.929 1.00 27.89 N +ATOM 7874 N VAL C 211 -55.571 5.603 126.731 1.00 27.63 N +ATOM 7875 CA VAL C 211 -55.486 4.599 125.678 1.00 27.40 C +ATOM 7876 C VAL C 211 -56.362 5.043 124.517 1.00 27.15 C +ATOM 7877 O VAL C 211 -57.550 5.332 124.695 1.00 31.57 O +ATOM 7878 CB VAL C 211 -55.893 3.208 126.190 1.00 26.52 C +ATOM 7879 CG1 VAL C 211 -55.735 2.196 125.099 1.00 20.24 C +ATOM 7880 CG2 VAL C 211 -55.035 2.824 127.414 1.00 24.00 C +ATOM 7881 N ASN C 212 -55.772 5.098 123.332 1.00 28.94 N +ATOM 7882 CA BASN C 212 -56.462 5.524 122.123 0.53 30.97 C +ATOM 7883 C ASN C 212 -56.402 4.399 121.099 1.00 30.09 C +ATOM 7884 O ASN C 212 -55.314 3.912 120.768 1.00 27.59 O +ATOM 7885 CB BASN C 212 -55.830 6.806 121.556 0.53 33.10 C +ATOM 7886 CG BASN C 212 -56.647 7.425 120.424 0.53 36.03 C +ATOM 7887 OD1BASN C 212 -57.517 6.781 119.838 0.53 38.66 O +ATOM 7888 ND2BASN C 212 -56.362 8.684 120.114 0.53 37.55 N +ATOM 7889 N HIS C 213 -57.567 3.991 120.609 1.00 33.81 N +ATOM 7890 CA HIS C 213 -57.694 2.977 119.561 1.00 35.38 C +ATOM 7891 C HIS C 213 -58.401 3.645 118.384 1.00 38.73 C +ATOM 7892 O HIS C 213 -59.624 3.821 118.410 1.00 38.92 O +ATOM 7893 CB HIS C 213 -58.460 1.754 120.058 1.00 31.14 C +ATOM 7894 CG HIS C 213 -58.413 0.596 119.114 1.00 31.01 C +ATOM 7895 ND1 HIS C 213 -59.542 0.063 118.530 1.00 31.60 N +ATOM 7896 CD2 HIS C 213 -57.367 -0.116 118.630 1.00 30.08 C +ATOM 7897 CE1 HIS C 213 -59.195 -0.937 117.739 1.00 29.26 C +ATOM 7898 NE2 HIS C 213 -57.882 -1.067 117.784 1.00 31.09 N +ATOM 7899 N LYS C 214 -57.625 4.045 117.374 1.00 42.89 N +ATOM 7900 CA LYS C 214 -58.194 4.754 116.227 1.00 46.19 C +ATOM 7901 C LYS C 214 -59.165 3.903 115.419 1.00 45.25 C +ATOM 7902 O LYS C 214 -60.244 4.412 115.066 1.00 41.48 O +ATOM 7903 CB LYS C 214 -57.068 5.291 115.334 1.00 52.69 C +ATOM 7904 CG LYS C 214 -56.219 6.397 115.965 1.00 60.19 C +ATOM 7905 CD LYS C 214 -57.071 7.610 116.345 1.00 65.24 C +ATOM 7906 CE LYS C 214 -56.222 8.768 116.862 1.00 67.73 C +ATOM 7907 NZ LYS C 214 -55.203 9.230 115.877 1.00 68.68 N +ATOM 7908 N PRO C 215 -58.866 2.641 115.077 1.00 43.95 N +ATOM 7909 CA PRO C 215 -59.815 1.874 114.251 1.00 43.69 C +ATOM 7910 C PRO C 215 -61.210 1.799 114.833 1.00 45.60 C +ATOM 7911 O PRO C 215 -62.181 1.680 114.076 1.00 48.06 O +ATOM 7912 CB PRO C 215 -59.165 0.487 114.174 1.00 43.07 C +ATOM 7913 CG PRO C 215 -57.710 0.757 114.351 1.00 43.29 C +ATOM 7914 CD PRO C 215 -57.636 1.869 115.338 1.00 43.47 C +ATOM 7915 N SER C 216 -61.348 1.870 116.154 1.00 44.08 N +ATOM 7916 CA SER C 216 -62.650 1.829 116.797 1.00 43.75 C +ATOM 7917 C SER C 216 -63.087 3.184 117.332 1.00 46.77 C +ATOM 7918 O SER C 216 -64.165 3.277 117.930 1.00 49.19 O +ATOM 7919 CB SER C 216 -62.649 0.802 117.937 1.00 43.19 C +ATOM 7920 OG SER C 216 -61.775 1.196 118.981 1.00 37.81 O +ATOM 7921 N ASN C 217 -62.283 4.229 117.134 1.00 47.99 N +ATOM 7922 CA ASN C 217 -62.561 5.566 117.661 1.00 53.98 C +ATOM 7923 C ASN C 217 -62.894 5.520 119.150 1.00 54.43 C +ATOM 7924 O ASN C 217 -63.851 6.141 119.622 1.00 58.15 O +ATOM 7925 CB ASN C 217 -63.676 6.240 116.863 1.00 62.22 C +ATOM 7926 CG ASN C 217 -63.175 6.825 115.562 1.00 67.45 C +ATOM 7927 OD1 ASN C 217 -62.132 7.481 115.529 1.00 70.42 O +ATOM 7928 ND2 ASN C 217 -63.905 6.580 114.479 1.00 67.86 N +ATOM 7929 N THR C 218 -62.082 4.773 119.894 1.00 50.36 N +ATOM 7930 CA THR C 218 -62.265 4.566 121.323 1.00 49.12 C +ATOM 7931 C THR C 218 -61.144 5.256 122.092 1.00 46.06 C +ATOM 7932 O THR C 218 -59.985 5.242 121.663 1.00 46.84 O +ATOM 7933 CB THR C 218 -62.283 3.070 121.661 1.00 53.40 C +ATOM 7934 OG1 THR C 218 -63.270 2.408 120.862 1.00 60.82 O +ATOM 7935 CG2 THR C 218 -62.617 2.845 123.130 1.00 55.06 C +ATOM 7936 N LYS C 219 -61.498 5.864 123.223 1.00 42.89 N +ATOM 7937 CA LYS C 219 -60.541 6.468 124.144 1.00 42.20 C +ATOM 7938 C LYS C 219 -60.902 6.059 125.565 1.00 39.11 C +ATOM 7939 O LYS C 219 -62.046 6.242 125.990 1.00 39.30 O +ATOM 7940 CB LYS C 219 -60.532 7.998 124.039 1.00 48.11 C +ATOM 7941 CG LYS C 219 -60.193 8.550 122.670 1.00 53.64 C +ATOM 7942 CD LYS C 219 -60.391 10.063 122.633 1.00 60.50 C +ATOM 7943 CE LYS C 219 -60.338 10.599 121.205 1.00 65.94 C +ATOM 7944 NZ LYS C 219 -60.781 12.021 121.122 1.00 68.44 N +ATOM 7945 N VAL C 220 -59.925 5.530 126.301 1.00 35.91 N +ATOM 7946 CA VAL C 220 -60.100 5.110 127.687 1.00 35.60 C +ATOM 7947 C VAL C 220 -59.089 5.850 128.551 1.00 32.44 C +ATOM 7948 O VAL C 220 -57.905 5.926 128.200 1.00 32.36 O +ATOM 7949 CB VAL C 220 -59.918 3.587 127.852 1.00 37.98 C +ATOM 7950 CG1 VAL C 220 -60.210 3.166 129.291 1.00 38.35 C +ATOM 7951 CG2 VAL C 220 -60.798 2.819 126.869 1.00 38.98 C +ATOM 7952 N ASP C 221 -59.545 6.375 129.687 1.00 28.35 N +ATOM 7953 CA ASP C 221 -58.658 6.892 130.721 1.00 32.39 C +ATOM 7954 C ASP C 221 -58.858 6.065 131.980 1.00 31.31 C +ATOM 7955 O ASP C 221 -59.994 5.876 132.423 1.00 33.95 O +ATOM 7956 CB ASP C 221 -58.921 8.376 131.013 1.00 37.29 C +ATOM 7957 CG ASP C 221 -58.561 9.281 129.837 1.00 39.13 C +ATOM 7958 OD1 ASP C 221 -57.386 9.278 129.407 1.00 37.52 O +ATOM 7959 OD2 ASP C 221 -59.465 9.982 129.336 1.00 39.17 O +ATOM 7960 N LYS C 222 -57.762 5.567 132.543 1.00 30.99 N +ATOM 7961 CA LYS C 222 -57.813 4.678 133.696 1.00 32.68 C +ATOM 7962 C LYS C 222 -56.850 5.193 134.752 1.00 29.84 C +ATOM 7963 O LYS C 222 -55.642 5.264 134.510 1.00 27.97 O +ATOM 7964 CB LYS C 222 -57.458 3.240 133.304 1.00 35.97 C +ATOM 7965 CG LYS C 222 -57.557 2.237 134.448 1.00 39.75 C +ATOM 7966 CD LYS C 222 -58.979 2.137 134.985 1.00 40.63 C +ATOM 7967 CE LYS C 222 -59.925 1.601 133.934 1.00 46.39 C +ATOM 7968 NZ LYS C 222 -61.322 1.431 134.447 1.00 50.51 N +ATOM 7969 N LYS C 223 -57.383 5.562 135.910 1.00 29.94 N +ATOM 7970 CA LYS C 223 -56.540 5.891 137.048 1.00 30.64 C +ATOM 7971 C LYS C 223 -55.967 4.607 137.640 1.00 30.77 C +ATOM 7972 O LYS C 223 -56.675 3.604 137.777 1.00 29.74 O +ATOM 7973 CB LYS C 223 -57.349 6.657 138.098 1.00 34.55 C +ATOM 7974 CG LYS C 223 -56.591 7.059 139.346 1.00 35.43 C +ATOM 7975 CD LYS C 223 -57.559 7.671 140.341 1.00 42.23 C +ATOM 7976 CE LYS C 223 -56.940 7.886 141.714 1.00 46.56 C +ATOM 7977 NZ LYS C 223 -55.845 8.880 141.661 1.00 50.39 N +ATOM 7978 N VAL C 224 -54.673 4.635 137.964 1.00 26.52 N +ATOM 7979 CA VAL C 224 -53.956 3.488 138.507 1.00 25.77 C +ATOM 7980 C VAL C 224 -53.464 3.898 139.889 1.00 32.99 C +ATOM 7981 O VAL C 224 -52.597 4.772 140.006 1.00 34.80 O +ATOM 7982 CB VAL C 224 -52.777 3.058 137.619 1.00 24.49 C +ATOM 7983 CG1 VAL C 224 -52.131 1.799 138.177 1.00 26.02 C +ATOM 7984 CG2 VAL C 224 -53.205 2.834 136.164 1.00 21.88 C +ATOM 7985 N GLU C 225 -53.994 3.272 140.932 1.00 38.29 N +ATOM 7986 CA GLU C 225 -53.591 3.598 142.299 1.00 43.58 C +ATOM 7987 C GLU C 225 -53.339 2.324 143.094 1.00 43.29 C +ATOM 7988 O GLU C 225 -53.923 1.277 142.790 1.00 41.02 O +ATOM 7989 CB GLU C 225 -54.664 4.438 143.010 1.00 49.38 C +ATOM 7990 CG GLU C 225 -55.998 3.732 143.157 1.00 56.25 C +ATOM 7991 CD GLU C 225 -57.019 4.584 143.879 1.00 63.31 C +ATOM 7992 OE1 GLU C 225 -56.675 5.725 144.252 1.00 62.82 O +ATOM 7993 OE2 GLU C 225 -58.163 4.114 144.071 1.00 69.22 O +ATOM 7994 N PRO C 226 -52.494 2.382 144.125 1.00 46.11 N +ATOM 7995 CA PRO C 226 -52.254 1.188 144.947 1.00 50.22 C +ATOM 7996 C PRO C 226 -53.523 0.723 145.647 1.00 53.46 C +ATOM 7997 O PRO C 226 -54.442 1.501 145.907 1.00 49.86 O +ATOM 7998 CB PRO C 226 -51.203 1.652 145.963 1.00 49.11 C +ATOM 7999 CG PRO C 226 -51.379 3.127 146.038 1.00 48.27 C +ATOM 8000 CD PRO C 226 -51.764 3.554 144.640 1.00 48.07 C +ATOM 8001 N LYS C 227 -53.560 -0.577 145.946 1.00 63.40 N +ATOM 8002 CA LYS C 227 -54.677 -1.159 146.678 1.00 76.33 C +ATOM 8003 C LYS C 227 -54.644 -0.741 148.149 1.00 88.66 C +ATOM 8004 O LYS C 227 -53.616 -0.313 148.684 1.00 88.09 O +ATOM 8005 CB LYS C 227 -54.660 -2.685 146.587 1.00 77.78 C +ATOM 8006 CG LYS C 227 -54.948 -3.244 145.210 1.00 80.03 C +ATOM 8007 CD LYS C 227 -55.535 -4.651 145.299 1.00 82.41 C +ATOM 8008 CE LYS C 227 -54.648 -5.595 146.104 1.00 83.66 C +ATOM 8009 NZ LYS C 227 -53.395 -5.958 145.393 1.00 84.41 N +ATOM 8010 N SER C 228 -55.791 -0.898 148.809 1.00100.86 N +ATOM 8011 CA SER C 228 -55.984 -0.458 150.190 1.00111.77 C +ATOM 8012 C SER C 228 -55.851 -1.661 151.117 1.00124.04 C +ATOM 8013 O SER C 228 -56.804 -2.422 151.305 1.00124.96 O +ATOM 8014 CB SER C 228 -57.344 0.211 150.348 1.00110.81 C +ATOM 8015 OG SER C 228 -58.385 -0.669 149.960 1.00110.34 O +ATOM 8016 N CYS C 229 -54.669 -1.827 151.704 1.00137.85 N +ATOM 8017 CA CYS C 229 -54.450 -2.885 152.686 1.00143.12 C +ATOM 8018 C CYS C 229 -54.515 -2.315 154.101 1.00146.25 C +ATOM 8019 O CYS C 229 -55.589 -1.965 154.592 1.00147.89 O +ATOM 8020 CB CYS C 229 -53.101 -3.584 152.464 1.00147.02 C +ATOM 8021 SG CYS C 229 -52.846 -4.334 150.824 1.00150.73 S +HETATM 8022 O HOH C 230 -36.911 5.606 85.658 1.00 34.92 O +HETATM 8023 O HOH C 231 -62.062 -8.836 110.497 1.00 49.21 O +HETATM 8024 O HOH C 232 -33.258 5.197 147.380 1.00 47.78 O +HETATM 8025 O HOH C 233 -50.517 -15.128 121.580 1.00 45.85 O +HETATM 8026 O HOH C 234 -33.186 -6.230 73.984 1.00 39.19 O +HETATM 8027 O HOH C 235 -52.250 -4.488 143.998 1.00 40.84 O +HETATM 8028 O HOH C 236 -54.845 -19.105 100.386 1.00 46.65 O +HETATM 8029 O HOH C 237 -43.836 7.557 100.776 1.00 41.85 O +HETATM 8030 O HOH C 238 -31.227 -5.722 93.189 1.00 33.95 O +HETATM 8031 O HOH C 239 -47.629 -11.684 86.484 1.00 23.68 O +HETATM 8032 O HOH C 240 -38.494 1.977 74.195 1.00 35.91 O +HETATM 8033 O HOH C 241 -54.074 -0.228 111.641 1.00 48.61 O +HETATM 8034 O HOH C 242 -63.179 -9.693 97.117 1.00 53.43 O +HETATM 8035 O HOH C 243 -43.110 -7.504 76.214 1.00 37.54 O +HETATM 8036 O HOH C 244 -41.206 -0.660 81.364 1.00 34.58 O +HETATM 8037 O HOH C 245 -58.512 -12.880 124.021 1.00 38.93 O +HETATM 8038 O HOH C 246 -54.484 -3.504 87.808 1.00 44.07 O +HETATM 8039 O HOH C 247 -47.839 -15.817 102.615 1.00 34.49 O +HETATM 8040 O HOH C 248 -31.921 1.648 92.263 1.00 21.49 O +HETATM 8041 O HOH C 249 -54.519 7.498 82.838 1.00 51.76 O +HETATM 8042 O HOH C 250 -54.509 4.379 90.435 1.00 38.01 O +HETATM 8043 O HOH C 251 -50.952 5.103 96.416 1.00 45.73 O +HETATM 8044 O HOH C 252 -41.815 1.876 107.674 1.00 37.87 O +HETATM 8045 O HOH C 253 -50.583 7.380 143.058 1.00 44.39 O +HETATM 8046 O HOH C 254 -33.880 3.898 150.338 1.00 35.87 O +HETATM 8047 O HOH C 255 -47.084 -6.742 127.588 1.00 29.34 O +HETATM 8048 O HOH C 256 -54.782 2.056 82.152 1.00 58.38 O +HETATM 8049 O HOH C 257 -48.111 -12.037 109.599 1.00 32.85 O +HETATM 8050 O HOH C 258 -57.307 -1.723 98.417 1.00 41.88 O +HETATM 8051 O HOH C 259 -47.240 -7.244 117.747 1.00 54.32 O +HETATM 8052 O HOH C 260 -50.276 -8.856 113.677 1.00 33.24 O +HETATM 8053 O HOH C 261 -53.015 7.256 140.677 1.00 28.77 O +HETATM 8054 O HOH C 262 -49.335 -8.143 85.361 1.00 21.18 O +HETATM 8055 O HOH C 263 -38.947 1.570 126.297 1.00 51.22 O +HETATM 8056 O HOH C 264 -46.943 9.568 127.952 1.00 36.85 O +HETATM 8057 O HOH C 265 -41.675 -10.504 79.051 1.00 39.95 O +HETATM 8058 O HOH C 266 -44.853 -8.746 119.845 1.00 35.95 O +HETATM 8059 O HOH C 267 -54.596 -3.574 108.748 1.00 23.98 O +HETATM 8060 O HOH C 268 -28.623 4.151 79.607 1.00 37.19 O +HETATM 8061 O HOH C 269 -39.044 2.674 133.898 1.00 27.01 O +HETATM 8062 O HOH C 270 -29.580 -2.732 74.605 1.00 24.77 O +HETATM 8063 O HOH C 271 -40.058 -17.880 93.173 1.00 43.15 O +HETATM 8064 O HOH C 272 -26.789 -5.072 93.248 1.00 20.29 O +HETATM 8065 O HOH C 273 -52.048 -6.230 89.838 1.00 24.43 O +HETATM 8066 O HOH C 274 -32.522 4.220 100.114 1.00 29.91 O +HETATM 8067 O HOH C 275 -46.289 4.805 125.432 1.00 42.84 O +HETATM 8068 O HOH C 276 -57.861 9.165 126.779 1.00 46.08 O +HETATM 8069 O HOH C 277 -40.278 -14.159 84.928 1.00 37.11 O +HETATM 8070 O HOH C 278 -40.953 -2.764 82.375 1.00 23.80 O +HETATM 8071 O HOH C 279 -47.372 -7.327 125.106 1.00 26.53 O +HETATM 8072 O HOH C 280 -48.166 8.919 90.182 1.00 46.35 O +HETATM 8073 O HOH C 281 -37.344 9.024 85.229 1.00 42.84 O +HETATM 8074 O HOH C 282 -36.019 -5.625 71.215 1.00 33.87 O +HETATM 8075 O HOH C 283 -63.020 -16.105 105.873 1.00 44.09 O +HETATM 8076 O HOH C 284 -39.183 -14.012 98.919 1.00 21.17 O +HETATM 8077 O HOH C 285 -59.738 -18.307 97.640 1.00 53.21 O +HETATM 8078 O HOH C 286 -55.428 0.331 95.815 1.00 39.12 O +HETATM 8079 O HOH C 287 -40.186 7.331 98.612 1.00 39.08 O +HETATM 8080 O HOH C 288 -33.040 -6.856 91.203 1.00 33.33 O +HETATM 8081 O HOH C 289 -37.285 -10.835 80.726 1.00 31.85 O +HETATM 8082 O HOH C 290 -50.589 15.983 133.072 1.00 28.86 O +HETATM 8083 O HOH C 291 -47.762 -3.051 119.239 1.00 41.70 O +HETATM 8084 O HOH C 292 -54.895 -15.760 116.760 1.00 47.28 O +HETATM 8085 O HOH C 293 -26.831 2.869 89.866 1.00 45.64 O +HETATM 8086 O HOH C 294 -43.926 -4.736 109.862 1.00 27.42 O +HETATM 8087 O HOH C 295 -56.189 13.420 128.053 1.00 39.75 O +HETATM 8088 O HOH C 296 -30.652 4.706 91.089 1.00 48.20 O +HETATM 8089 O HOH C 297 -39.200 -10.684 116.572 1.00 53.07 O +HETATM 8090 O HOH C 298 -63.518 -8.926 117.946 1.00 39.82 O +HETATM 8091 O HOH C 299 -41.743 -10.749 107.485 1.00 24.84 O +HETATM 8092 O HOH C 300 -42.324 -2.620 108.693 1.00 29.80 O +HETATM 8093 O HOH C 301 -41.299 8.565 135.960 1.00 57.59 O +HETATM 8094 O HOH C 302 -59.690 -13.944 97.159 1.00 27.93 O +HETATM 8095 O HOH C 303 -55.292 3.450 93.025 1.00 41.55 O +HETATM 8096 O HOH C 304 -49.183 -7.832 129.215 1.00 30.46 O +HETATM 8097 O HOH C 305 -45.238 -2.178 141.804 1.00 43.24 O +HETATM 8098 O HOH C 306 -42.147 -0.129 85.881 1.00 57.19 O +HETATM 8099 O HOH C 307 -58.857 -3.707 96.840 1.00 39.37 O +HETATM 8100 O HOH C 308 -62.915 -9.635 126.334 1.00 56.58 O +HETATM 8101 O HOH C 309 -45.514 -5.991 83.189 1.00 29.42 O +HETATM 8102 O HOH C 310 -34.708 -5.664 80.084 1.00 25.02 O +HETATM 8103 O HOH C 311 -64.165 -5.363 111.694 1.00 51.93 O +HETATM 8104 O HOH C 312 -40.226 -0.774 79.202 1.00 37.35 O +HETATM 8105 O HOH C 313 -53.890 -12.379 111.383 1.00 36.68 O +HETATM 8106 O HOH C 314 -42.578 -4.843 112.575 1.00 43.57 O +HETATM 8107 O HOH C 315 -54.862 3.573 117.194 1.00 41.69 O +HETATM 8108 O HOH C 316 -64.195 6.493 123.216 1.00 41.74 O +HETATM 8109 O HOH C 317 -41.064 -2.078 85.523 1.00 40.59 O +HETATM 8110 O HOH C 318 -32.781 2.120 69.470 1.00 34.97 O +HETATM 8111 O HOH C 319 -42.183 -1.693 122.445 1.00 39.17 O +HETATM 8112 O HOH C 320 -27.886 5.074 88.075 1.00 31.84 O +HETATM 8113 O HOH C 321 -53.392 -4.882 139.365 1.00 41.30 O +HETATM 8114 O HOH C 322 -51.776 2.964 104.505 1.00 43.59 O +HETATM 8115 O HOH C 323 -62.475 -9.179 103.256 1.00 54.60 O +HETATM 8116 O HOH C 324 -31.124 -8.256 83.544 1.00 32.07 O +HETATM 8117 O HOH C 325 -43.607 -11.850 105.527 1.00 35.30 O +HETATM 8118 O HOH C 326 -54.679 12.206 132.117 1.00 37.34 O +HETATM 8119 O HOH C 327 -56.503 -11.640 114.482 1.00 36.37 O +HETATM 8120 O HOH C 328 -29.682 -8.570 79.207 1.00 22.47 O +HETATM 8121 O HOH C 329 -53.874 -12.193 91.648 1.00 39.62 O +HETATM 8122 O HOH C 330 -50.629 4.866 142.020 1.00 41.43 O +HETATM 8123 O HOH C 331 -47.888 -11.999 118.632 1.00 38.22 O +HETATM 8124 O HOH C 332 -40.388 -16.026 100.273 1.00 34.63 O +HETATM 8125 O HOH C 333 -48.754 2.702 118.202 1.00 39.10 O +HETATM 8126 O HOH C 334 -49.987 -0.856 118.876 1.00 36.07 O +HETATM 8127 O HOH C 335 -62.352 -9.596 99.499 1.00 40.73 O +HETATM 8128 O HOH C 336 -41.668 -18.008 98.979 1.00 40.70 O +HETATM 8129 O HOH C 337 -53.412 -16.517 123.559 1.00 55.40 O +HETATM 8130 O HOH C 338 -55.726 -17.704 107.027 1.00 42.83 O +HETATM 8131 O HOH C 339 -47.192 13.891 135.343 1.00 38.15 O +HETATM 8132 O HOH C 340 -45.735 9.830 94.918 1.00 38.39 O +HETATM 8133 O HOH C 341 -36.899 6.029 100.059 1.00 40.79 O +HETATM 8134 O HOH C 342 -59.556 -5.546 92.562 1.00 42.99 O +HETATM 8135 O HOH C 343 -53.401 -5.831 113.095 1.00 39.03 O +HETATM 8136 O HOH C 344 -54.902 1.739 86.696 1.00 43.97 O +HETATM 8137 O HOH C 345 -44.325 -14.531 85.796 1.00 38.55 O +HETATM 8138 O HOH C 346 -26.897 -1.721 78.788 1.00 41.89 O +HETATM 8139 O HOH C 347 -46.323 -11.490 106.005 1.00 36.54 O +HETATM 8140 O HOH C 348 -50.528 -13.932 88.604 1.00 44.91 O +HETATM 8141 O HOH C 349 -50.316 -8.810 127.109 1.00 44.49 O +HETATM 8142 O HOH C 350 -52.592 -2.218 86.252 1.00 40.04 O +HETATM 8143 O HOH C 351 -54.487 -10.378 113.094 1.00 35.12 O +HETATM 8144 O HOH C 352 -58.672 -15.018 111.801 1.00 42.33 O +HETATM 8145 O HOH C 353 -48.181 3.954 122.499 1.00 33.01 O +HETATM 8146 O HOH C 354 -49.313 -19.247 96.793 1.00 39.95 O +HETATM 8147 O HOH C 355 -39.629 -18.058 96.855 1.00 33.50 O +HETATM 8148 O HOH C 356 -43.183 -12.529 82.939 1.00 37.43 O +HETATM 8149 O HOH C 357 -42.150 2.300 125.016 1.00 40.98 O +HETATM 8150 O HOH C 358 -31.839 -7.611 80.881 1.00 28.72 O +HETATM 8151 O HOH C 359 -55.615 -14.667 91.467 1.00 45.95 O +HETATM 8152 O HOH C 360 -59.761 -1.478 106.810 1.00 39.26 O +HETATM 8153 O HOH C 361 -48.693 -15.214 90.412 1.00 43.40 O +HETATM 8154 O HOH C 362 -59.564 -6.614 95.020 1.00 31.77 O +HETATM 8155 O HOH C 363 -38.421 -12.968 109.298 1.00 47.28 O +HETATM 8156 O HOH C 364 -37.851 6.168 136.677 1.00 45.83 O +HETATM 8157 O HOH C 365 -53.027 7.475 123.713 1.00 38.14 O +HETATM 8158 O HOH C 366 -37.606 6.917 129.359 1.00 43.04 O +HETATM 8159 O HOH C 367 -36.658 -13.276 103.497 1.00 43.30 O +HETATM 8160 O HOH C 368 -37.353 -20.485 94.909 1.00 48.33 O +HETATM 8161 O HOH C 369 -57.109 0.204 93.614 1.00 48.72 O +HETATM 8162 O HOH C 370 -54.185 5.551 118.507 1.00 48.38 O +HETATM 8163 O HOH C 371 -51.616 6.769 100.947 1.00 59.67 O +HETATM 8164 O HOH C 372 -63.459 -14.909 102.154 1.00 45.06 O +HETATM 8165 O HOH C 373 -53.475 0.160 107.057 1.00 37.20 O +HETATM 8166 O HOH C 374 -52.188 14.483 141.600 1.00 54.05 O +HETATM 8167 O HOH C 375 -56.084 -5.987 89.661 1.00 35.48 O +HETATM 8168 O HOH C 376 -60.367 5.588 136.356 1.00 41.16 O +HETATM 8169 O HOH C 377 -43.458 13.398 88.228 1.00 51.76 O +HETATM 8170 O HOH C 378 -41.798 -16.180 89.196 1.00 27.36 O +HETATM 8171 O HOH C 379 -63.824 -6.869 126.289 1.00 39.40 O +HETATM 8172 O HOH C 380 -38.460 -20.462 93.037 1.00 48.38 O +HETATM 8173 O HOH C 381 -45.920 2.077 107.711 1.00 52.54 O +HETATM 8174 O HOH C 382 -54.102 -6.089 135.280 1.00 31.68 O +HETATM 8175 O HOH C 383 -54.861 3.653 102.261 1.00 51.67 O +HETATM 8176 O HOH C 384 -31.977 3.823 81.377 1.00 40.82 O +HETATM 8177 O HOH C 385 -53.989 -5.672 142.401 1.00 66.12 O +HETATM 8178 O HOH C 386 -34.362 2.071 81.400 1.00 32.49 O +HETATM 8179 O HOH C 387 -61.980 -0.624 130.174 1.00 33.49 O +HETATM 8180 O HOH C 388 -45.567 -11.683 112.969 1.00 43.30 O +HETATM 8181 O HOH C 389 -51.340 -12.996 111.397 1.00 34.66 O +HETATM 8182 O HOH C 390 -36.450 0.370 145.056 1.00 46.50 O +HETATM 8183 O HOH C 391 -32.393 7.543 98.518 1.00 47.96 O +HETATM 8184 O HOH C 392 -52.583 13.243 136.500 1.00 43.59 O +HETATM 8185 O HOH C 393 -43.697 -1.136 143.233 1.00 69.74 O +HETATM 8186 O HOH C 394 -46.793 -1.138 121.222 1.00 44.76 O +HETATM 8187 O HOH C 395 -28.472 1.453 93.094 1.00 33.04 O +HETATM 8188 O HOH C 396 -37.532 -1.446 143.207 1.00 37.78 O +HETATM 8189 O HOH C 397 -48.206 -18.537 102.701 1.00 53.24 O +HETATM 8190 O HOH C 398 -64.358 -7.016 109.996 1.00 52.96 O +HETATM 8191 O HOH C 399 -63.625 -11.247 117.280 1.00 39.80 O +HETATM 8192 O HOH C 400 -56.843 -15.912 124.072 1.00 47.35 O +HETATM 8193 O HOH C 401 -46.832 10.280 125.274 1.00 42.69 O +HETATM 8194 O HOH C 402 -38.333 1.641 79.317 1.00 42.84 O +HETATM 8195 O HOH C 403 -26.266 2.462 77.741 1.00 35.47 O +HETATM 8196 O HOH C 404 -35.557 7.618 85.460 1.00 48.84 O +HETATM 8197 O HOH C 405 -38.703 -14.304 81.082 1.00 52.98 O +HETATM 8198 O HOH C 406 -50.417 -6.051 112.641 1.00 40.94 O +HETATM 8199 O HOH C 407 -53.297 13.743 134.093 1.00 43.87 O +HETATM 8200 O HOH C 408 -33.367 -9.700 87.104 1.00 40.25 O +HETATM 8201 O HOH C 409 -34.196 -8.788 89.946 1.00 34.63 O +HETATM 8202 O HOH C 410 -42.314 -20.679 100.033 1.00 50.60 O +HETATM 8203 O HOH C 411 -33.333 -9.405 84.280 1.00 31.51 O +HETATM 8204 O HOH C 412 -45.504 7.791 126.428 1.00 51.25 O +HETATM 8205 O HOH C 413 -57.282 12.279 132.105 1.00 37.07 O +HETATM 8206 O HOH C 414 -57.887 -4.529 88.402 1.00 37.75 O +HETATM 8207 O HOH C 415 -41.517 -2.718 144.507 1.00 44.49 O +HETATM 8208 O HOH C 416 -45.357 -3.571 118.142 1.00 41.90 O +HETATM 8209 O HOH C 417 -27.758 3.634 91.852 1.00 45.43 O +HETATM 8210 O HOH C 418 -48.880 15.999 135.295 1.00 38.04 O +HETATM 8211 O HOH C 419 -43.955 -0.274 84.457 1.00 47.36 O +HETATM 8212 O HOH C 420 -48.464 -4.232 113.355 1.00 44.30 O +HETATM 8213 O HOH C 421 -31.745 6.411 101.149 1.00 43.06 O +HETATM 8214 O HOH C 422 -36.382 -13.351 107.149 1.00 43.35 O +HETATM 8215 O HOH C 423 -47.678 -10.540 116.255 1.00 42.05 O +HETATM 8216 O HOH C 424 -44.118 -16.740 88.160 1.00 45.51 O +HETATM 8217 O HOH C 425 -46.316 -3.936 111.894 1.00 41.52 O +HETATM 8218 O HOH C 426 -48.096 -14.567 85.978 1.00 43.36 O +HETATM 8219 O HOH C 427 -49.692 -11.464 112.508 1.00 40.22 O +HETATM 8220 O HOH C 428 -49.740 4.464 116.030 1.00 42.61 O +HETATM 8221 O HOH C 429 -57.086 7.807 81.358 1.00 92.59 O +ATOM 8222 N GLN L 3 -30.970 -19.021 99.000 1.00 56.22 N +ATOM 8223 CA GLN L 3 -30.824 -18.527 100.363 1.00 55.68 C +ATOM 8224 C GLN L 3 -29.637 -17.598 100.534 1.00 49.24 C +ATOM 8225 O GLN L 3 -28.626 -17.724 99.845 1.00 50.13 O +ATOM 8226 CB GLN L 3 -30.689 -19.686 101.349 1.00 63.68 C +ATOM 8227 CG GLN L 3 -32.016 -20.193 101.877 1.00 71.26 C +ATOM 8228 CD GLN L 3 -31.852 -21.208 102.986 1.00 75.93 C +ATOM 8229 OE1 GLN L 3 -30.733 -21.582 103.343 1.00 77.68 O +ATOM 8230 NE2 GLN L 3 -32.972 -21.661 103.540 1.00 77.50 N +ATOM 8231 N MET L 4 -29.782 -16.671 101.478 1.00 43.67 N +ATOM 8232 CA MET L 4 -28.734 -15.741 101.894 1.00 41.46 C +ATOM 8233 C MET L 4 -28.664 -15.828 103.414 1.00 41.98 C +ATOM 8234 O MET L 4 -29.379 -15.107 104.111 1.00 48.10 O +ATOM 8235 CB MET L 4 -29.030 -14.317 101.416 1.00 38.67 C +ATOM 8236 CG MET L 4 -28.685 -14.056 99.961 1.00 37.51 C +ATOM 8237 SD MET L 4 -26.904 -13.984 99.656 1.00 42.50 S +ATOM 8238 CE MET L 4 -26.538 -12.296 100.120 1.00 41.68 C +ATOM 8239 N THR L 5 -27.810 -16.709 103.924 1.00 38.96 N +ATOM 8240 CA THR L 5 -27.708 -16.948 105.362 1.00 35.39 C +ATOM 8241 C THR L 5 -26.890 -15.829 105.997 1.00 31.61 C +ATOM 8242 O THR L 5 -25.677 -15.737 105.783 1.00 30.08 O +ATOM 8243 CB THR L 5 -27.075 -18.310 105.628 1.00 39.00 C +ATOM 8244 OG1 THR L 5 -27.804 -19.311 104.919 1.00 41.15 O +ATOM 8245 CG2 THR L 5 -27.104 -18.639 107.117 1.00 40.95 C +ATOM 8246 N GLN L 6 -27.546 -14.986 106.786 1.00 30.77 N +ATOM 8247 CA GLN L 6 -26.922 -13.820 107.395 1.00 30.61 C +ATOM 8248 C GLN L 6 -26.495 -14.136 108.825 1.00 33.55 C +ATOM 8249 O GLN L 6 -27.260 -14.731 109.587 1.00 36.12 O +ATOM 8250 CB GLN L 6 -27.888 -12.634 107.390 1.00 28.53 C +ATOM 8251 CG GLN L 6 -27.264 -11.356 107.874 1.00 30.71 C +ATOM 8252 CD GLN L 6 -28.090 -10.137 107.538 1.00 29.28 C +ATOM 8253 OE1 GLN L 6 -29.038 -10.207 106.752 1.00 26.89 O +ATOM 8254 NE2 GLN L 6 -27.730 -9.003 108.128 1.00 28.27 N +ATOM 8255 N SER L 7 -25.271 -13.728 109.178 1.00 34.98 N +ATOM 8256 CA ASER L 7 -24.698 -13.949 110.494 0.50 36.76 C +ATOM 8257 C SER L 7 -23.888 -12.728 110.911 1.00 38.34 C +ATOM 8258 O SER L 7 -23.223 -12.108 110.069 1.00 38.42 O +ATOM 8259 CB ASER L 7 -23.800 -15.195 110.515 0.50 37.33 C +ATOM 8260 OG ASER L 7 -24.533 -16.358 110.170 0.50 39.37 O +ATOM 8261 N PRO L 8 -23.932 -12.344 112.203 1.00 37.35 N +ATOM 8262 CA PRO L 8 -24.779 -12.952 113.237 1.00 32.85 C +ATOM 8263 C PRO L 8 -26.154 -12.297 113.254 1.00 32.74 C +ATOM 8264 O PRO L 8 -26.339 -11.266 112.616 1.00 33.38 O +ATOM 8265 CB PRO L 8 -24.017 -12.654 114.527 1.00 35.09 C +ATOM 8266 CG PRO L 8 -23.355 -11.341 114.252 1.00 36.02 C +ATOM 8267 CD PRO L 8 -23.030 -11.319 112.765 1.00 35.81 C +ATOM 8268 N SER L 9 -27.103 -12.870 113.992 1.00 35.23 N +ATOM 8269 CA SER L 9 -28.424 -12.256 114.088 1.00 33.74 C +ATOM 8270 C SER L 9 -28.407 -10.995 114.949 1.00 31.15 C +ATOM 8271 O SER L 9 -29.245 -10.104 114.770 1.00 29.40 O +ATOM 8272 CB SER L 9 -29.422 -13.267 114.644 1.00 36.26 C +ATOM 8273 OG SER L 9 -28.968 -13.795 115.877 1.00 36.26 O +ATOM 8274 N SER L 10 -27.475 -10.896 115.889 1.00 35.58 N +ATOM 8275 CA BSER L 10 -27.359 -9.701 116.710 0.63 34.66 C +ATOM 8276 C SER L 10 -25.918 -9.561 117.169 1.00 33.42 C +ATOM 8277 O SER L 10 -25.145 -10.523 117.173 1.00 31.34 O +ATOM 8278 CB BSER L 10 -28.313 -9.729 117.915 0.63 35.15 C +ATOM 8279 OG BSER L 10 -27.975 -10.758 118.828 0.63 34.12 O +ATOM 8280 N LEU L 11 -25.555 -8.335 117.523 1.00 35.62 N +ATOM 8281 CA LEU L 11 -24.227 -8.075 118.053 1.00 35.81 C +ATOM 8282 C LEU L 11 -24.263 -6.758 118.809 1.00 36.37 C +ATOM 8283 O LEU L 11 -25.011 -5.841 118.460 1.00 34.72 O +ATOM 8284 CB LEU L 11 -23.148 -8.048 116.956 1.00 35.67 C +ATOM 8285 CG LEU L 11 -23.034 -6.897 115.950 1.00 38.34 C +ATOM 8286 CD1 LEU L 11 -21.958 -5.904 116.361 1.00 39.96 C +ATOM 8287 CD2 LEU L 11 -22.742 -7.417 114.539 1.00 38.02 C +ATOM 8288 N SER L 12 -23.458 -6.690 119.862 1.00 36.60 N +ATOM 8289 CA BSER L 12 -23.336 -5.492 120.676 0.76 36.02 C +ATOM 8290 C SER L 12 -21.977 -4.851 120.429 1.00 34.07 C +ATOM 8291 O SER L 12 -20.956 -5.539 120.365 1.00 35.90 O +ATOM 8292 CB BSER L 12 -23.527 -5.819 122.163 0.76 37.05 C +ATOM 8293 OG BSER L 12 -24.903 -6.047 122.455 0.76 37.84 O +ATOM 8294 N ALA L 13 -21.973 -3.529 120.268 1.00 30.73 N +ATOM 8295 CA ALA L 13 -20.742 -2.813 119.963 1.00 31.44 C +ATOM 8296 C ALA L 13 -20.825 -1.401 120.528 1.00 30.94 C +ATOM 8297 O ALA L 13 -21.893 -0.932 120.942 1.00 28.22 O +ATOM 8298 CB ALA L 13 -20.479 -2.774 118.449 1.00 31.73 C +ATOM 8299 N SER L 14 -19.684 -0.711 120.506 1.00 29.05 N +ATOM 8300 CA SER L 14 -19.577 0.661 120.984 1.00 31.05 C +ATOM 8301 C SER L 14 -19.127 1.588 119.865 1.00 32.04 C +ATOM 8302 O SER L 14 -18.535 1.156 118.872 1.00 36.71 O +ATOM 8303 CB SER L 14 -18.581 0.773 122.148 1.00 30.39 C +ATOM 8304 OG SER L 14 -18.912 -0.154 123.160 1.00 32.39 O +ATOM 8305 N VAL L 15 -19.407 2.880 120.054 1.00 28.41 N +ATOM 8306 CA VAL L 15 -18.914 3.899 119.138 1.00 31.30 C +ATOM 8307 C VAL L 15 -17.416 3.728 118.941 1.00 31.73 C +ATOM 8308 O VAL L 15 -16.665 3.536 119.900 1.00 33.47 O +ATOM 8309 CB VAL L 15 -19.260 5.298 119.668 1.00 34.75 C +ATOM 8310 CG1 VAL L 15 -18.757 6.376 118.710 1.00 36.21 C +ATOM 8311 CG2 VAL L 15 -20.761 5.413 119.877 1.00 35.90 C +ATOM 8312 N GLY L 16 -16.980 3.777 117.686 1.00 32.38 N +ATOM 8313 CA GLY L 16 -15.587 3.587 117.345 1.00 32.98 C +ATOM 8314 C GLY L 16 -15.189 2.165 117.017 1.00 31.20 C +ATOM 8315 O GLY L 16 -14.059 1.950 116.565 1.00 34.21 O +ATOM 8316 N ASP L 17 -16.065 1.189 117.231 1.00 31.91 N +ATOM 8317 CA ASP L 17 -15.722 -0.193 116.931 1.00 35.09 C +ATOM 8318 C ASP L 17 -15.776 -0.473 115.426 1.00 35.20 C +ATOM 8319 O ASP L 17 -16.384 0.267 114.644 1.00 35.67 O +ATOM 8320 CB ASP L 17 -16.660 -1.159 117.653 1.00 36.25 C +ATOM 8321 CG ASP L 17 -16.414 -1.211 119.161 1.00 39.57 C +ATOM 8322 OD1 ASP L 17 -15.482 -0.531 119.650 1.00 37.12 O +ATOM 8323 OD2 ASP L 17 -17.165 -1.941 119.849 1.00 41.95 O +ATOM 8324 N ARG L 18 -15.108 -1.562 115.038 1.00 33.48 N +ATOM 8325 CA AARG L 18 -15.161 -2.094 113.681 0.50 34.99 C +ATOM 8326 C ARG L 18 -16.145 -3.256 113.676 1.00 35.56 C +ATOM 8327 O ARG L 18 -16.019 -4.183 114.484 1.00 35.56 O +ATOM 8328 CB AARG L 18 -13.775 -2.546 113.213 0.50 35.08 C +ATOM 8329 CG AARG L 18 -13.744 -3.195 111.822 0.50 35.56 C +ATOM 8330 CD AARG L 18 -12.328 -3.627 111.435 0.50 36.48 C +ATOM 8331 NE AARG L 18 -12.306 -4.357 110.165 0.50 37.04 N +ATOM 8332 CZ AARG L 18 -12.005 -3.819 108.985 0.50 34.49 C +ATOM 8333 NH1AARG L 18 -11.687 -2.535 108.893 0.50 30.95 N +ATOM 8334 NH2AARG L 18 -12.022 -4.571 107.893 0.50 36.10 N +ATOM 8335 N VAL L 19 -17.122 -3.205 112.770 1.00 33.40 N +ATOM 8336 CA VAL L 19 -18.206 -4.177 112.729 1.00 32.54 C +ATOM 8337 C VAL L 19 -18.257 -4.783 111.336 1.00 32.52 C +ATOM 8338 O VAL L 19 -18.227 -4.053 110.339 1.00 29.48 O +ATOM 8339 CB VAL L 19 -19.552 -3.525 113.095 1.00 31.42 C +ATOM 8340 CG1 VAL L 19 -20.647 -4.567 113.153 1.00 34.21 C +ATOM 8341 CG2 VAL L 19 -19.443 -2.787 114.424 1.00 34.03 C +ATOM 8342 N THR L 20 -18.318 -6.114 111.268 1.00 34.04 N +ATOM 8343 CA THR L 20 -18.515 -6.814 110.005 1.00 35.70 C +ATOM 8344 C THR L 20 -19.687 -7.773 110.125 1.00 34.83 C +ATOM 8345 O THR L 20 -19.819 -8.496 111.119 1.00 31.34 O +ATOM 8346 CB THR L 20 -17.277 -7.600 109.559 1.00 38.66 C +ATOM 8347 OG1 THR L 20 -17.071 -8.703 110.447 1.00 44.31 O +ATOM 8348 CG2 THR L 20 -16.050 -6.710 109.549 1.00 37.22 C +ATOM 8349 N ILE L 21 -20.520 -7.778 109.089 1.00 33.16 N +ATOM 8350 CA ILE L 21 -21.670 -8.658 108.965 1.00 29.62 C +ATOM 8351 C ILE L 21 -21.489 -9.428 107.668 1.00 30.53 C +ATOM 8352 O ILE L 21 -21.055 -8.852 106.666 1.00 28.50 O +ATOM 8353 CB ILE L 21 -22.985 -7.847 108.962 1.00 30.66 C +ATOM 8354 CG1 ILE L 21 -23.067 -6.966 110.214 1.00 32.46 C +ATOM 8355 CG2 ILE L 21 -24.199 -8.762 108.826 1.00 31.95 C +ATOM 8356 CD1 ILE L 21 -24.232 -5.992 110.229 1.00 29.63 C +ATOM 8357 N THR L 22 -21.793 -10.722 107.683 1.00 31.64 N +ATOM 8358 CA THR L 22 -21.533 -11.581 106.535 1.00 39.47 C +ATOM 8359 C THR L 22 -22.805 -12.303 106.096 1.00 38.96 C +ATOM 8360 O THR L 22 -23.608 -12.728 106.930 1.00 37.05 O +ATOM 8361 CB THR L 22 -20.431 -12.605 106.855 1.00 45.21 C +ATOM 8362 OG1 THR L 22 -20.916 -13.546 107.815 1.00 53.59 O +ATOM 8363 CG2 THR L 22 -19.222 -11.913 107.440 1.00 42.23 C +ATOM 8364 N CYS L 23 -22.986 -12.429 104.780 1.00 40.78 N +ATOM 8365 CA CYS L 23 -24.050 -13.232 104.191 1.00 40.92 C +ATOM 8366 C CYS L 23 -23.450 -14.267 103.248 1.00 39.10 C +ATOM 8367 O CYS L 23 -22.539 -13.965 102.468 1.00 36.89 O +ATOM 8368 CB CYS L 23 -25.069 -12.366 103.429 1.00 45.63 C +ATOM 8369 SG CYS L 23 -26.295 -11.601 104.505 1.00 46.42 S +ATOM 8370 N ARG L 24 -23.981 -15.482 103.309 1.00 38.01 N +ATOM 8371 CA ARG L 24 -23.446 -16.614 102.569 1.00 36.68 C +ATOM 8372 C ARG L 24 -24.430 -16.988 101.470 1.00 33.54 C +ATOM 8373 O ARG L 24 -25.587 -17.313 101.756 1.00 33.73 O +ATOM 8374 CB ARG L 24 -23.202 -17.792 103.508 1.00 44.15 C +ATOM 8375 CG ARG L 24 -22.470 -18.957 102.882 1.00 52.95 C +ATOM 8376 CD ARG L 24 -22.123 -19.983 103.945 1.00 59.65 C +ATOM 8377 NE ARG L 24 -21.283 -21.044 103.412 1.00 66.40 N +ATOM 8378 CZ ARG L 24 -19.957 -21.046 103.484 1.00 71.65 C +ATOM 8379 NH1 ARG L 24 -19.325 -20.037 104.072 1.00 71.29 N +ATOM 8380 NH2 ARG L 24 -19.264 -22.057 102.969 1.00 74.99 N +ATOM 8381 N ALA L 25 -23.984 -16.913 100.221 1.00 34.23 N +ATOM 8382 CA ALA L 25 -24.823 -17.289 99.089 1.00 36.49 C +ATOM 8383 C ALA L 25 -24.640 -18.772 98.792 1.00 40.44 C +ATOM 8384 O ALA L 25 -23.542 -19.317 98.937 1.00 38.58 O +ATOM 8385 CB ALA L 25 -24.486 -16.450 97.856 1.00 34.21 C +ATOM 8386 N SER L 26 -25.726 -19.425 98.384 1.00 46.98 N +ATOM 8387 CA SER L 26 -25.753 -20.869 98.168 1.00 50.29 C +ATOM 8388 C SER L 26 -26.055 -21.159 96.703 1.00 49.02 C +ATOM 8389 O SER L 26 -27.078 -20.703 96.181 1.00 50.52 O +ATOM 8390 CB SER L 26 -26.799 -21.522 99.072 1.00 53.74 C +ATOM 8391 OG SER L 26 -27.114 -22.831 98.634 1.00 57.80 O +ATOM 8392 N GLN L 27 -25.172 -21.923 96.050 1.00 47.49 N +ATOM 8393 CA GLN L 27 -25.371 -22.355 94.658 1.00 48.43 C +ATOM 8394 C GLN L 27 -25.736 -21.181 93.749 1.00 45.91 C +ATOM 8395 O GLN L 27 -26.635 -21.271 92.910 1.00 46.56 O +ATOM 8396 CB GLN L 27 -26.434 -23.455 94.566 1.00 48.86 C +ATOM 8397 N SER L 28 -25.032 -20.064 93.926 1.00 43.14 N +ATOM 8398 CA SER L 28 -25.294 -18.844 93.181 1.00 40.61 C +ATOM 8399 C SER L 28 -23.978 -18.240 92.714 1.00 37.89 C +ATOM 8400 O SER L 28 -22.987 -18.253 93.449 1.00 36.57 O +ATOM 8401 CB SER L 28 -26.057 -17.828 94.032 1.00 41.67 C +ATOM 8402 OG SER L 28 -26.231 -16.612 93.319 1.00 45.97 O +ATOM 8403 N VAL L 29 -23.969 -17.709 91.490 1.00 35.04 N +ATOM 8404 CA VAL L 29 -22.790 -17.031 90.968 1.00 34.72 C +ATOM 8405 C VAL L 29 -23.029 -15.535 90.784 1.00 35.66 C +ATOM 8406 O VAL L 29 -22.189 -14.843 90.200 1.00 40.39 O +ATOM 8407 CB VAL L 29 -22.298 -17.687 89.664 1.00 32.81 C +ATOM 8408 CG1 VAL L 29 -22.061 -19.173 89.876 1.00 32.82 C +ATOM 8409 CG2 VAL L 29 -23.276 -17.460 88.531 1.00 30.82 C +ATOM 8410 N SER L 36 -24.145 -15.013 91.290 1.00 30.60 N +ATOM 8411 CA SER L 36 -24.459 -13.598 91.156 1.00 28.11 C +ATOM 8412 C SER L 36 -23.679 -12.751 92.152 1.00 29.63 C +ATOM 8413 O SER L 36 -23.571 -13.093 93.331 1.00 31.11 O +ATOM 8414 CB SER L 36 -25.960 -13.371 91.357 1.00 31.37 C +ATOM 8415 OG SER L 36 -26.242 -11.991 91.533 1.00 31.92 O +ATOM 8416 N SER L 37 -23.150 -11.624 91.676 1.00 28.50 N +ATOM 8417 CA SER L 37 -22.585 -10.597 92.543 1.00 27.85 C +ATOM 8418 C SER L 37 -23.523 -9.411 92.719 1.00 28.26 C +ATOM 8419 O SER L 37 -23.080 -8.332 93.131 1.00 29.29 O +ATOM 8420 CB SER L 37 -21.231 -10.112 92.011 1.00 25.97 C +ATOM 8421 OG SER L 37 -20.186 -10.985 92.400 1.00 24.03 O +ATOM 8422 N ALA L 38 -24.811 -9.577 92.415 1.00 20.82 N +ATOM 8423 CA ALA L 38 -25.782 -8.507 92.665 1.00 20.58 C +ATOM 8424 C ALA L 38 -26.251 -8.614 94.110 1.00 20.49 C +ATOM 8425 O ALA L 38 -27.343 -9.101 94.407 1.00 20.47 O +ATOM 8426 CB ALA L 38 -26.956 -8.585 91.697 1.00 20.36 C +ATOM 8427 N VAL L 39 -25.403 -8.145 95.021 1.00 20.64 N +ATOM 8428 CA VAL L 39 -25.668 -8.207 96.454 1.00 20.58 C +ATOM 8429 C VAL L 39 -25.689 -6.783 96.987 1.00 22.29 C +ATOM 8430 O VAL L 39 -24.778 -5.993 96.708 1.00 21.69 O +ATOM 8431 CB VAL L 39 -24.624 -9.079 97.184 1.00 24.75 C +ATOM 8432 CG1 VAL L 39 -24.766 -8.947 98.689 1.00 20.76 C +ATOM 8433 CG2 VAL L 39 -24.808 -10.542 96.783 1.00 20.83 C +ATOM 8434 N ALA L 40 -26.741 -6.449 97.723 1.00 22.08 N +ATOM 8435 CA ALA L 40 -26.937 -5.112 98.253 1.00 23.92 C +ATOM 8436 C ALA L 40 -27.126 -5.193 99.763 1.00 24.41 C +ATOM 8437 O ALA L 40 -27.469 -6.243 100.309 1.00 25.04 O +ATOM 8438 CB ALA L 40 -28.150 -4.414 97.612 1.00 20.04 C +ATOM 8439 N TRP L 41 -26.925 -4.064 100.427 1.00 22.95 N +ATOM 8440 CA TRP L 41 -27.059 -3.982 101.877 1.00 20.22 C +ATOM 8441 C TRP L 41 -27.941 -2.802 102.260 1.00 24.05 C +ATOM 8442 O TRP L 41 -27.821 -1.721 101.673 1.00 26.11 O +ATOM 8443 CB TRP L 41 -25.707 -3.833 102.527 1.00 20.43 C +ATOM 8444 CG TRP L 41 -24.864 -5.047 102.435 1.00 20.59 C +ATOM 8445 CD1 TRP L 41 -23.963 -5.349 101.454 1.00 20.76 C +ATOM 8446 CD2 TRP L 41 -24.814 -6.117 103.372 1.00 25.00 C +ATOM 8447 NE1 TRP L 41 -23.360 -6.550 101.724 1.00 23.34 N +ATOM 8448 CE2 TRP L 41 -23.856 -7.038 102.904 1.00 24.42 C +ATOM 8449 CE3 TRP L 41 -25.473 -6.378 104.582 1.00 26.39 C +ATOM 8450 CZ2 TRP L 41 -23.546 -8.208 103.596 1.00 25.84 C +ATOM 8451 CZ3 TRP L 41 -25.160 -7.534 105.269 1.00 25.14 C +ATOM 8452 CH2 TRP L 41 -24.205 -8.437 104.774 1.00 24.88 C +ATOM 8453 N TYR L 42 -28.814 -3.017 103.256 1.00 24.55 N +ATOM 8454 CA TYR L 42 -29.807 -2.038 103.697 1.00 19.81 C +ATOM 8455 C TYR L 42 -29.730 -1.833 105.210 1.00 24.74 C +ATOM 8456 O TYR L 42 -29.477 -2.771 105.970 1.00 19.87 O +ATOM 8457 CB TYR L 42 -31.221 -2.479 103.329 1.00 22.10 C +ATOM 8458 CG TYR L 42 -31.411 -2.689 101.843 1.00 23.13 C +ATOM 8459 CD1 TYR L 42 -31.783 -1.643 101.019 1.00 23.61 C +ATOM 8460 CD2 TYR L 42 -31.196 -3.934 101.266 1.00 19.61 C +ATOM 8461 CE1 TYR L 42 -31.945 -1.832 99.655 1.00 24.89 C +ATOM 8462 CE2 TYR L 42 -31.362 -4.135 99.900 1.00 21.53 C +ATOM 8463 CZ TYR L 42 -31.738 -3.083 99.111 1.00 19.48 C +ATOM 8464 OH TYR L 42 -31.889 -3.278 97.748 1.00 25.64 O +ATOM 8465 N GLN L 43 -29.977 -0.598 105.638 1.00 22.84 N +ATOM 8466 CA GLN L 43 -30.118 -0.251 107.051 1.00 19.79 C +ATOM 8467 C GLN L 43 -31.580 0.113 107.334 1.00 23.86 C +ATOM 8468 O GLN L 43 -32.222 0.801 106.527 1.00 25.16 O +ATOM 8469 CB GLN L 43 -29.195 0.916 107.403 1.00 19.91 C +ATOM 8470 CG GLN L 43 -29.176 1.328 108.875 1.00 21.82 C +ATOM 8471 CD GLN L 43 -28.554 2.697 109.068 1.00 29.66 C +ATOM 8472 OE1 GLN L 43 -29.106 3.707 108.632 1.00 32.91 O +ATOM 8473 NE2 GLN L 43 -27.391 2.736 109.720 1.00 31.72 N +ATOM 8474 N GLN L 44 -32.119 -0.358 108.465 1.00 20.17 N +ATOM 8475 CA GLN L 44 -33.506 -0.051 108.847 1.00 19.45 C +ATOM 8476 C GLN L 44 -33.594 0.288 110.329 1.00 25.31 C +ATOM 8477 O GLN L 44 -33.225 -0.531 111.176 1.00 20.68 O +ATOM 8478 CB GLN L 44 -34.470 -1.216 108.567 1.00 21.11 C +ATOM 8479 CG GLN L 44 -35.968 -0.766 108.525 1.00 20.27 C +ATOM 8480 CD GLN L 44 -36.974 -1.910 108.391 1.00 22.61 C +ATOM 8481 OE1 GLN L 44 -36.693 -3.056 108.733 1.00 23.10 O +ATOM 8482 NE2 GLN L 44 -38.165 -1.587 107.891 1.00 26.87 N +ATOM 8483 N LYS L 45 -34.148 1.459 110.642 1.00 30.93 N +ATOM 8484 CA LYS L 45 -34.430 1.849 112.023 1.00 30.12 C +ATOM 8485 C LYS L 45 -35.906 1.628 112.352 1.00 30.80 C +ATOM 8486 O LYS L 45 -36.744 1.558 111.451 1.00 29.30 O +ATOM 8487 CB LYS L 45 -34.048 3.315 112.234 1.00 27.84 C +ATOM 8488 CG LYS L 45 -32.548 3.547 112.159 1.00 33.04 C +ATOM 8489 CD LYS L 45 -32.207 5.027 112.167 1.00 36.18 C +ATOM 8490 CE LYS L 45 -30.715 5.236 111.951 1.00 40.03 C +ATOM 8491 NZ LYS L 45 -29.914 4.437 112.922 1.00 43.68 N +ATOM 8492 N PRO L 46 -36.261 1.494 113.636 1.00 35.33 N +ATOM 8493 CA PRO L 46 -37.638 1.093 113.992 1.00 37.23 C +ATOM 8494 C PRO L 46 -38.696 2.034 113.430 1.00 37.01 C +ATOM 8495 O PRO L 46 -38.572 3.258 113.501 1.00 38.13 O +ATOM 8496 CB PRO L 46 -37.622 1.109 115.524 1.00 38.74 C +ATOM 8497 CG PRO L 46 -36.194 0.809 115.873 1.00 40.44 C +ATOM 8498 CD PRO L 46 -35.377 1.518 114.819 1.00 36.63 C +ATOM 8499 N GLY L 47 -39.746 1.444 112.857 1.00 39.01 N +ATOM 8500 CA GLY L 47 -40.834 2.216 112.289 1.00 41.01 C +ATOM 8501 C GLY L 47 -40.535 2.934 110.989 1.00 43.54 C +ATOM 8502 O GLY L 47 -41.342 3.769 110.562 1.00 43.02 O +ATOM 8503 N LYS L 48 -39.410 2.641 110.338 1.00 41.25 N +ATOM 8504 CA LYS L 48 -39.015 3.333 109.121 1.00 40.02 C +ATOM 8505 C LYS L 48 -38.740 2.324 108.013 1.00 36.18 C +ATOM 8506 O LYS L 48 -38.517 1.136 108.261 1.00 38.22 O +ATOM 8507 CB LYS L 48 -37.773 4.211 109.349 1.00 45.88 C +ATOM 8508 CG LYS L 48 -37.916 5.245 110.468 1.00 51.50 C +ATOM 8509 CD LYS L 48 -38.999 6.277 110.152 1.00 55.64 C +ATOM 8510 CE LYS L 48 -39.217 7.235 111.325 1.00 59.03 C +ATOM 8511 NZ LYS L 48 -40.348 8.182 111.093 1.00 60.77 N +ATOM 8512 N ALA L 49 -38.756 2.814 106.777 1.00 30.27 N +ATOM 8513 CA ALA L 49 -38.406 1.990 105.634 1.00 29.41 C +ATOM 8514 C ALA L 49 -36.898 1.742 105.597 1.00 29.14 C +ATOM 8515 O ALA L 49 -36.115 2.514 106.157 1.00 29.83 O +ATOM 8516 CB ALA L 49 -38.866 2.667 104.343 1.00 30.96 C +ATOM 8517 N PRO L 50 -36.462 0.664 104.948 1.00 30.24 N +ATOM 8518 CA PRO L 50 -35.017 0.437 104.788 1.00 28.39 C +ATOM 8519 C PRO L 50 -34.373 1.490 103.898 1.00 29.88 C +ATOM 8520 O PRO L 50 -35.029 2.168 103.102 1.00 33.34 O +ATOM 8521 CB PRO L 50 -34.934 -0.948 104.145 1.00 26.58 C +ATOM 8522 CG PRO L 50 -36.292 -1.580 104.407 1.00 27.03 C +ATOM 8523 CD PRO L 50 -37.262 -0.446 104.401 1.00 26.10 C +ATOM 8524 N LYS L 51 -33.052 1.610 104.042 1.00 25.38 N +ATOM 8525 CA LYS L 51 -32.251 2.581 103.307 1.00 25.46 C +ATOM 8526 C LYS L 51 -31.051 1.882 102.695 1.00 22.93 C +ATOM 8527 O LYS L 51 -30.305 1.193 103.400 1.00 22.19 O +ATOM 8528 CB LYS L 51 -31.774 3.734 104.210 1.00 33.98 C +ATOM 8529 CG LYS L 51 -32.872 4.734 104.544 1.00 44.72 C +ATOM 8530 CD LYS L 51 -32.316 6.002 105.178 1.00 52.76 C +ATOM 8531 CE LYS L 51 -33.426 7.026 105.413 1.00 55.66 C +ATOM 8532 NZ LYS L 51 -32.895 8.333 105.904 1.00 57.91 N +ATOM 8533 N LEU L 52 -30.861 2.090 101.390 1.00 22.40 N +ATOM 8534 CA LEU L 52 -29.777 1.465 100.645 1.00 23.69 C +ATOM 8535 C LEU L 52 -28.415 2.004 101.069 1.00 24.74 C +ATOM 8536 O LEU L 52 -28.228 3.214 101.209 1.00 24.07 O +ATOM 8537 CB LEU L 52 -29.982 1.696 99.141 1.00 24.45 C +ATOM 8538 CG LEU L 52 -28.905 1.077 98.266 1.00 25.61 C +ATOM 8539 CD1 LEU L 52 -28.882 -0.450 98.456 1.00 24.00 C +ATOM 8540 CD2 LEU L 52 -29.097 1.471 96.792 1.00 21.60 C +ATOM 8541 N LEU L 53 -27.445 1.092 101.219 1.00 24.67 N +ATOM 8542 CA LEU L 53 -26.081 1.398 101.633 1.00 26.06 C +ATOM 8543 C LEU L 53 -25.036 1.011 100.596 1.00 28.27 C +ATOM 8544 O LEU L 53 -24.161 1.820 100.257 1.00 26.05 O +ATOM 8545 CB LEU L 53 -25.761 0.655 102.940 1.00 27.50 C +ATOM 8546 CG LEU L 53 -26.542 1.009 104.189 1.00 26.91 C +ATOM 8547 CD1 LEU L 53 -26.155 0.055 105.302 1.00 27.94 C +ATOM 8548 CD2 LEU L 53 -26.253 2.444 104.574 1.00 25.52 C +ATOM 8549 N ILE L 54 -25.062 -0.241 100.148 1.00 26.10 N +ATOM 8550 CA ILE L 54 -24.112 -0.824 99.213 1.00 22.51 C +ATOM 8551 C ILE L 54 -24.944 -1.540 98.161 1.00 25.77 C +ATOM 8552 O ILE L 54 -26.020 -2.060 98.463 1.00 25.55 O +ATOM 8553 CB ILE L 54 -23.155 -1.825 99.910 1.00 24.22 C +ATOM 8554 CG1 ILE L 54 -22.450 -1.182 101.112 1.00 25.96 C +ATOM 8555 CG2 ILE L 54 -22.121 -2.379 98.943 1.00 25.11 C +ATOM 8556 CD1 ILE L 54 -21.358 -0.232 100.719 1.00 25.59 C +ATOM 8557 N TYR L 55 -24.462 -1.544 96.919 1.00 25.79 N +ATOM 8558 CA TYR L 55 -25.025 -2.386 95.868 1.00 25.96 C +ATOM 8559 C TYR L 55 -23.873 -2.960 95.057 1.00 25.80 C +ATOM 8560 O TYR L 55 -22.742 -2.468 95.120 1.00 23.14 O +ATOM 8561 CB TYR L 55 -26.007 -1.613 94.963 1.00 27.53 C +ATOM 8562 CG TYR L 55 -25.338 -0.526 94.162 1.00 27.76 C +ATOM 8563 CD1 TYR L 55 -25.071 0.718 94.732 1.00 29.60 C +ATOM 8564 CD2 TYR L 55 -24.948 -0.745 92.846 1.00 28.85 C +ATOM 8565 CE1 TYR L 55 -24.436 1.714 94.016 1.00 32.21 C +ATOM 8566 CE2 TYR L 55 -24.312 0.246 92.120 1.00 32.41 C +ATOM 8567 CZ TYR L 55 -24.061 1.478 92.707 1.00 36.17 C +ATOM 8568 OH TYR L 55 -23.426 2.468 91.990 1.00 38.49 O +ATOM 8569 N SER L 56 -24.177 -4.016 94.290 1.00 28.67 N +ATOM 8570 CA SER L 56 -23.192 -4.708 93.455 1.00 26.12 C +ATOM 8571 C SER L 56 -21.997 -5.176 94.283 1.00 30.22 C +ATOM 8572 O SER L 56 -20.833 -5.042 93.882 1.00 21.50 O +ATOM 8573 CB SER L 56 -22.750 -3.827 92.285 1.00 28.59 C +ATOM 8574 OG SER L 56 -23.796 -3.711 91.332 1.00 26.45 O +ATOM 8575 N ALA L 57 -22.304 -5.715 95.467 1.00 28.13 N +ATOM 8576 CA ALA L 57 -21.340 -6.266 96.411 1.00 25.34 C +ATOM 8577 C ALA L 57 -20.485 -5.190 97.073 1.00 25.75 C +ATOM 8578 O ALA L 57 -20.278 -5.243 98.296 1.00 24.42 O +ATOM 8579 CB ALA L 57 -20.449 -7.319 95.734 1.00 24.94 C +ATOM 8580 N SER L 65 -19.983 -4.208 96.303 1.00 21.61 N +ATOM 8581 CA SER L 65 -18.974 -3.299 96.845 1.00 31.41 C +ATOM 8582 C SER L 65 -19.103 -1.834 96.440 1.00 30.22 C +ATOM 8583 O SER L 65 -18.266 -1.031 96.857 1.00 33.99 O +ATOM 8584 CB SER L 65 -17.557 -3.792 96.467 1.00 31.41 C +ATOM 8585 OG SER L 65 -17.336 -3.764 95.067 1.00 32.76 O +ATOM 8586 N SER L 66 -20.094 -1.450 95.650 1.00 27.61 N +ATOM 8587 CA SER L 66 -20.252 -0.048 95.275 1.00 27.45 C +ATOM 8588 C SER L 66 -21.019 0.711 96.354 1.00 29.77 C +ATOM 8589 O SER L 66 -22.127 0.315 96.754 1.00 27.84 O +ATOM 8590 CB SER L 66 -20.977 0.083 93.937 1.00 27.10 C +ATOM 8591 OG SER L 66 -20.303 -0.666 92.947 1.00 33.21 O +ATOM 8592 N LEU L 67 -20.432 1.816 96.808 1.00 28.28 N +ATOM 8593 CA LEU L 67 -21.040 2.653 97.831 1.00 30.09 C +ATOM 8594 C LEU L 67 -22.123 3.528 97.212 1.00 30.41 C +ATOM 8595 O LEU L 67 -21.869 4.244 96.239 1.00 29.19 O +ATOM 8596 CB LEU L 67 -19.965 3.516 98.485 1.00 33.06 C +ATOM 8597 CG LEU L 67 -20.358 4.365 99.690 1.00 35.22 C +ATOM 8598 CD1 LEU L 67 -20.903 3.483 100.799 1.00 32.57 C +ATOM 8599 CD2 LEU L 67 -19.134 5.177 100.160 1.00 35.56 C +ATOM 8600 N TYR L 68 -23.328 3.479 97.779 1.00 27.91 N +ATOM 8601 CA TYR L 68 -24.427 4.278 97.255 1.00 26.32 C +ATOM 8602 C TYR L 68 -24.219 5.756 97.573 1.00 29.29 C +ATOM 8603 O TYR L 68 -23.795 6.120 98.677 1.00 27.82 O +ATOM 8604 CB TYR L 68 -25.755 3.786 97.830 1.00 27.11 C +ATOM 8605 CG TYR L 68 -26.957 4.599 97.401 1.00 30.51 C +ATOM 8606 CD1 TYR L 68 -27.304 4.709 96.062 1.00 30.92 C +ATOM 8607 CD2 TYR L 68 -27.765 5.229 98.339 1.00 32.33 C +ATOM 8608 CE1 TYR L 68 -28.399 5.444 95.669 1.00 31.74 C +ATOM 8609 CE2 TYR L 68 -28.876 5.960 97.953 1.00 30.95 C +ATOM 8610 CZ TYR L 68 -29.180 6.067 96.616 1.00 32.24 C +ATOM 8611 OH TYR L 68 -30.274 6.801 96.224 1.00 34.48 O +ATOM 8612 N SER L 69 -24.516 6.605 96.587 1.00 32.47 N +ATOM 8613 CA SER L 69 -24.333 8.050 96.718 1.00 37.09 C +ATOM 8614 C SER L 69 -24.932 8.583 98.017 1.00 35.25 C +ATOM 8615 O SER L 69 -26.085 8.297 98.354 1.00 34.80 O +ATOM 8616 CB SER L 69 -24.971 8.757 95.520 1.00 43.10 C +ATOM 8617 OG SER L 69 -25.047 10.153 95.737 1.00 48.09 O +ATOM 8618 N GLY L 70 -24.133 9.357 98.752 1.00 32.99 N +ATOM 8619 CA GLY L 70 -24.557 9.944 100.003 1.00 34.29 C +ATOM 8620 C GLY L 70 -24.228 9.137 101.244 1.00 37.89 C +ATOM 8621 O GLY L 70 -24.263 9.690 102.352 1.00 39.86 O +ATOM 8622 N VAL L 71 -23.913 7.857 101.099 1.00 36.32 N +ATOM 8623 CA VAL L 71 -23.652 7.011 102.265 1.00 32.11 C +ATOM 8624 C VAL L 71 -22.223 7.260 102.745 1.00 34.66 C +ATOM 8625 O VAL L 71 -21.302 7.306 101.916 1.00 29.85 O +ATOM 8626 CB VAL L 71 -23.881 5.541 101.916 1.00 33.12 C +ATOM 8627 CG1 VAL L 71 -23.535 4.633 103.076 1.00 35.27 C +ATOM 8628 CG2 VAL L 71 -25.342 5.319 101.510 1.00 32.94 C +ATOM 8629 N PRO L 72 -21.998 7.446 104.050 1.00 34.12 N +ATOM 8630 CA PRO L 72 -20.639 7.753 104.524 1.00 32.63 C +ATOM 8631 C PRO L 72 -19.644 6.672 104.122 1.00 31.88 C +ATOM 8632 O PRO L 72 -19.985 5.492 104.004 1.00 30.07 O +ATOM 8633 CB PRO L 72 -20.794 7.821 106.051 1.00 31.47 C +ATOM 8634 CG PRO L 72 -22.251 8.039 106.303 1.00 31.74 C +ATOM 8635 CD PRO L 72 -22.972 7.369 105.158 1.00 33.71 C +ATOM 8636 N SER L 74 -18.391 7.100 103.925 1.00 31.40 N +ATOM 8637 CA SER L 74 -17.301 6.229 103.483 1.00 30.90 C +ATOM 8638 C SER L 74 -16.988 5.102 104.460 1.00 33.85 C +ATOM 8639 O SER L 74 -16.323 4.135 104.069 1.00 34.46 O +ATOM 8640 CB SER L 74 -16.018 7.049 103.278 1.00 37.61 C +ATOM 8641 OG SER L 74 -16.225 8.176 102.446 1.00 43.31 O +ATOM 8642 N ARG L 75 -17.390 5.218 105.733 1.00 35.10 N +ATOM 8643 CA ARG L 75 -17.080 4.171 106.707 1.00 32.47 C +ATOM 8644 C ARG L 75 -17.811 2.860 106.424 1.00 33.31 C +ATOM 8645 O ARG L 75 -17.471 1.839 107.034 1.00 29.67 O +ATOM 8646 CB ARG L 75 -17.395 4.650 108.134 1.00 32.29 C +ATOM 8647 CG ARG L 75 -18.866 4.938 108.415 1.00 30.82 C +ATOM 8648 CD ARG L 75 -19.068 5.434 109.853 1.00 32.46 C +ATOM 8649 NE ARG L 75 -20.470 5.747 110.110 1.00 31.31 N +ATOM 8650 CZ ARG L 75 -21.017 6.945 109.928 1.00 30.88 C +ATOM 8651 NH1 ARG L 75 -20.278 7.965 109.516 1.00 33.41 N +ATOM 8652 NH2 ARG L 75 -22.307 7.126 110.167 1.00 30.70 N +ATOM 8653 N PHE L 76 -18.780 2.855 105.507 1.00 36.57 N +ATOM 8654 CA PHE L 76 -19.477 1.637 105.107 1.00 33.05 C +ATOM 8655 C PHE L 76 -18.800 1.051 103.877 1.00 29.59 C +ATOM 8656 O PHE L 76 -18.561 1.764 102.901 1.00 28.71 O +ATOM 8657 CB PHE L 76 -20.944 1.925 104.782 1.00 29.58 C +ATOM 8658 CG PHE L 76 -21.797 2.259 105.974 1.00 32.63 C +ATOM 8659 CD1 PHE L 76 -22.510 1.266 106.638 1.00 31.74 C +ATOM 8660 CD2 PHE L 76 -21.922 3.570 106.406 1.00 33.35 C +ATOM 8661 CE1 PHE L 76 -23.308 1.575 107.734 1.00 31.70 C +ATOM 8662 CE2 PHE L 76 -22.714 3.887 107.503 1.00 33.78 C +ATOM 8663 CZ PHE L 76 -23.409 2.888 108.167 1.00 31.56 C +ATOM 8664 N SER L 77 -18.525 -0.249 103.896 1.00 29.40 N +ATOM 8665 CA SER L 77 -17.930 -0.845 102.708 1.00 29.91 C +ATOM 8666 C SER L 77 -18.402 -2.284 102.542 1.00 30.57 C +ATOM 8667 O SER L 77 -18.792 -2.943 103.509 1.00 31.65 O +ATOM 8668 CB SER L 77 -16.396 -0.773 102.763 1.00 32.40 C +ATOM 8669 OG SER L 77 -15.877 -1.615 103.770 1.00 34.73 O +ATOM 8670 N GLY L 78 -18.368 -2.760 101.300 1.00 31.92 N +ATOM 8671 CA GLY L 78 -18.748 -4.127 100.994 1.00 32.76 C +ATOM 8672 C GLY L 78 -17.677 -4.845 100.196 1.00 21.99 C +ATOM 8673 O GLY L 78 -16.919 -4.236 99.450 1.00 24.18 O +ATOM 8674 N SER L 79 -17.641 -6.167 100.354 1.00 28.67 N +ATOM 8675 CA ASER L 79 -16.655 -7.002 99.684 0.51 29.00 C +ATOM 8676 C SER L 79 -17.205 -8.415 99.542 1.00 29.09 C +ATOM 8677 O SER L 79 -18.116 -8.825 100.271 1.00 28.62 O +ATOM 8678 CB ASER L 79 -15.331 -7.023 100.449 0.51 31.43 C +ATOM 8679 OG ASER L 79 -15.510 -7.568 101.745 0.51 32.20 O +ATOM 8680 N ARG L 80 -16.649 -9.154 98.577 1.00 27.16 N +ATOM 8681 CA ARG L 80 -16.970 -10.559 98.351 1.00 26.93 C +ATOM 8682 C ARG L 80 -15.723 -11.402 98.572 1.00 29.93 C +ATOM 8683 O ARG L 80 -14.620 -11.014 98.170 1.00 31.54 O +ATOM 8684 CB ARG L 80 -17.512 -10.824 96.926 1.00 29.59 C +ATOM 8685 CG ARG L 80 -17.811 -12.314 96.653 1.00 29.27 C +ATOM 8686 CD ARG L 80 -18.160 -12.613 95.188 1.00 29.05 C +ATOM 8687 NE ARG L 80 -17.018 -12.428 94.285 1.00 31.06 N +ATOM 8688 CZ ARG L 80 -16.112 -13.366 94.013 1.00 35.39 C +ATOM 8689 NH1 ARG L 80 -16.205 -14.571 94.570 1.00 35.14 N +ATOM 8690 NH2 ARG L 80 -15.113 -13.100 93.178 1.00 36.41 N +ATOM 8691 N SER L 83 -15.905 -12.554 99.212 1.00 29.56 N +ATOM 8692 CA SER L 83 -14.836 -13.536 99.393 1.00 34.10 C +ATOM 8693 C SER L 83 -15.444 -14.910 99.120 1.00 34.00 C +ATOM 8694 O SER L 83 -16.121 -15.479 99.984 1.00 34.25 O +ATOM 8695 CB SER L 83 -14.236 -13.454 100.792 1.00 39.52 C +ATOM 8696 OG SER L 83 -13.108 -14.312 100.902 1.00 45.95 O +ATOM 8697 N GLY L 84 -15.206 -15.435 97.922 1.00 36.55 N +ATOM 8698 CA GLY L 84 -15.858 -16.671 97.515 1.00 34.07 C +ATOM 8699 C GLY L 84 -17.366 -16.506 97.542 1.00 31.52 C +ATOM 8700 O GLY L 84 -17.927 -15.590 96.924 1.00 33.44 O +ATOM 8701 N THR L 85 -18.039 -17.387 98.278 1.00 32.27 N +ATOM 8702 CA THR L 85 -19.489 -17.351 98.414 1.00 37.19 C +ATOM 8703 C THR L 85 -19.972 -16.439 99.540 1.00 37.27 C +ATOM 8704 O THR L 85 -21.183 -16.379 99.782 1.00 39.57 O +ATOM 8705 CB THR L 85 -20.027 -18.772 98.639 1.00 44.00 C +ATOM 8706 OG1 THR L 85 -19.693 -19.215 99.965 1.00 49.00 O +ATOM 8707 CG2 THR L 85 -19.403 -19.728 97.645 1.00 43.70 C +ATOM 8708 N ASP L 86 -19.080 -15.723 100.226 1.00 33.26 N +ATOM 8709 CA ASP L 86 -19.449 -14.919 101.387 1.00 33.27 C +ATOM 8710 C ASP L 86 -19.354 -13.434 101.068 1.00 30.22 C +ATOM 8711 O ASP L 86 -18.316 -12.960 100.598 1.00 31.37 O +ATOM 8712 CB ASP L 86 -18.564 -15.248 102.587 1.00 36.12 C +ATOM 8713 CG ASP L 86 -18.881 -16.600 103.186 1.00 47.63 C +ATOM 8714 OD1 ASP L 86 -19.858 -17.230 102.736 1.00 51.97 O +ATOM 8715 OD2 ASP L 86 -18.161 -17.034 104.111 1.00 52.84 O +ATOM 8716 N PHE L 87 -20.432 -12.703 101.339 1.00 21.69 N +ATOM 8717 CA PHE L 87 -20.470 -11.262 101.163 1.00 22.97 C +ATOM 8718 C PHE L 87 -20.485 -10.583 102.526 1.00 22.06 C +ATOM 8719 O PHE L 87 -21.253 -10.977 103.411 1.00 24.94 O +ATOM 8720 CB PHE L 87 -21.691 -10.851 100.342 1.00 21.38 C +ATOM 8721 CG PHE L 87 -21.663 -11.379 98.923 1.00 21.44 C +ATOM 8722 CD1 PHE L 87 -22.021 -12.693 98.650 1.00 25.07 C +ATOM 8723 CD2 PHE L 87 -21.274 -10.566 97.872 1.00 23.08 C +ATOM 8724 CE1 PHE L 87 -21.990 -13.190 97.348 1.00 26.25 C +ATOM 8725 CE2 PHE L 87 -21.242 -11.057 96.556 1.00 22.98 C +ATOM 8726 CZ PHE L 87 -21.598 -12.366 96.304 1.00 25.07 C +ATOM 8727 N THR L 88 -19.660 -9.553 102.682 1.00 25.23 N +ATOM 8728 CA THR L 88 -19.477 -8.889 103.968 1.00 28.53 C +ATOM 8729 C THR L 88 -19.773 -7.399 103.848 1.00 29.98 C +ATOM 8730 O THR L 88 -19.435 -6.765 102.839 1.00 33.44 O +ATOM 8731 CB THR L 88 -18.047 -9.120 104.491 1.00 34.39 C +ATOM 8732 OG1 THR L 88 -17.899 -10.497 104.853 1.00 35.28 O +ATOM 8733 CG2 THR L 88 -17.758 -8.264 105.711 1.00 38.53 C +ATOM 8734 N LEU L 89 -20.458 -6.864 104.859 1.00 25.30 N +ATOM 8735 CA LEU L 89 -20.605 -5.431 105.081 1.00 21.28 C +ATOM 8736 C LEU L 89 -19.700 -5.034 106.240 1.00 23.10 C +ATOM 8737 O LEU L 89 -19.750 -5.658 107.303 1.00 24.32 O +ATOM 8738 CB LEU L 89 -22.059 -5.077 105.408 1.00 21.01 C +ATOM 8739 CG LEU L 89 -22.346 -3.616 105.756 1.00 24.38 C +ATOM 8740 CD1 LEU L 89 -22.197 -2.757 104.517 1.00 23.94 C +ATOM 8741 CD2 LEU L 89 -23.750 -3.468 106.368 1.00 23.37 C +ATOM 8742 N THR L 90 -18.880 -4.006 106.050 1.00 24.96 N +ATOM 8743 CA THR L 90 -17.997 -3.534 107.110 1.00 28.18 C +ATOM 8744 C THR L 90 -18.305 -2.081 107.435 1.00 29.52 C +ATOM 8745 O THR L 90 -18.489 -1.261 106.529 1.00 31.10 O +ATOM 8746 CB THR L 90 -16.518 -3.688 106.721 1.00 30.62 C +ATOM 8747 OG1 THR L 90 -16.185 -5.079 106.680 1.00 31.19 O +ATOM 8748 CG2 THR L 90 -15.610 -2.990 107.736 1.00 32.16 C +ATOM 8749 N ILE L 91 -18.364 -1.771 108.727 1.00 31.17 N +ATOM 8750 CA ILE L 91 -18.379 -0.399 109.215 1.00 30.67 C +ATOM 8751 C ILE L 91 -17.053 -0.196 109.932 1.00 30.59 C +ATOM 8752 O ILE L 91 -16.804 -0.824 110.968 1.00 30.39 O +ATOM 8753 CB ILE L 91 -19.569 -0.123 110.145 1.00 28.53 C +ATOM 8754 CG1 ILE L 91 -20.881 -0.535 109.480 1.00 29.17 C +ATOM 8755 CG2 ILE L 91 -19.635 1.362 110.482 1.00 26.73 C +ATOM 8756 CD1 ILE L 91 -22.078 -0.488 110.431 1.00 26.10 C +ATOM 8757 N SER L 92 -16.178 0.643 109.368 1.00 29.41 N +ATOM 8758 CA SER L 92 -14.815 0.706 109.897 1.00 32.72 C +ATOM 8759 C SER L 92 -14.758 1.384 111.264 1.00 33.83 C +ATOM 8760 O SER L 92 -13.874 1.065 112.068 1.00 32.71 O +ATOM 8761 CB SER L 92 -13.891 1.418 108.914 1.00 30.68 C +ATOM 8762 OG SER L 92 -14.358 2.724 108.640 1.00 32.12 O +ATOM 8763 N SER L 93 -15.681 2.312 111.544 1.00 36.08 N +ATOM 8764 CA SER L 93 -15.688 3.046 112.814 1.00 38.27 C +ATOM 8765 C SER L 93 -17.140 3.399 113.146 1.00 36.97 C +ATOM 8766 O SER L 93 -17.689 4.359 112.596 1.00 40.06 O +ATOM 8767 CB SER L 93 -14.812 4.290 112.734 1.00 37.05 C +ATOM 8768 OG SER L 93 -14.836 5.002 113.958 1.00 40.49 O +ATOM 8769 N LEU L 94 -17.736 2.638 114.060 1.00 35.52 N +ATOM 8770 CA LEU L 94 -19.159 2.774 114.370 1.00 36.24 C +ATOM 8771 C LEU L 94 -19.477 4.145 114.964 1.00 40.08 C +ATOM 8772 O LEU L 94 -18.788 4.612 115.878 1.00 42.83 O +ATOM 8773 CB LEU L 94 -19.571 1.677 115.344 1.00 35.18 C +ATOM 8774 CG LEU L 94 -21.034 1.247 115.381 1.00 38.25 C +ATOM 8775 CD1 LEU L 94 -21.457 0.714 114.021 1.00 38.41 C +ATOM 8776 CD2 LEU L 94 -21.220 0.183 116.447 1.00 38.57 C +ATOM 8777 N GLN L 95 -20.530 4.782 114.452 1.00 37.94 N +ATOM 8778 CA GLN L 95 -21.030 6.071 114.922 1.00 40.23 C +ATOM 8779 C GLN L 95 -22.387 5.918 115.617 1.00 40.91 C +ATOM 8780 O GLN L 95 -23.080 4.912 115.433 1.00 38.30 O +ATOM 8781 CB GLN L 95 -21.156 7.060 113.752 1.00 40.05 C +ATOM 8782 CG GLN L 95 -19.825 7.417 113.114 1.00 45.20 C +ATOM 8783 CD GLN L 95 -18.865 8.059 114.101 1.00 49.67 C +ATOM 8784 OE1 GLN L 95 -19.218 9.017 114.794 1.00 50.22 O +ATOM 8785 NE2 GLN L 95 -17.647 7.524 114.179 1.00 50.27 N +ATOM 8786 N PRO L 96 -22.789 6.892 116.444 1.00 46.00 N +ATOM 8787 CA PRO L 96 -24.066 6.749 117.165 1.00 47.25 C +ATOM 8788 C PRO L 96 -25.274 6.554 116.262 1.00 45.94 C +ATOM 8789 O PRO L 96 -26.238 5.896 116.671 1.00 48.33 O +ATOM 8790 CB PRO L 96 -24.163 8.058 117.962 1.00 47.84 C +ATOM 8791 CG PRO L 96 -22.755 8.483 118.158 1.00 48.45 C +ATOM 8792 CD PRO L 96 -22.032 8.074 116.903 1.00 47.77 C +ATOM 8793 N GLU L 97 -25.261 7.106 115.050 1.00 41.59 N +ATOM 8794 CA GLU L 97 -26.394 6.969 114.146 1.00 37.64 C +ATOM 8795 C GLU L 97 -26.415 5.629 113.415 1.00 35.65 C +ATOM 8796 O GLU L 97 -27.325 5.401 112.605 1.00 34.97 O +ATOM 8797 CB GLU L 97 -26.399 8.117 113.133 1.00 42.73 C +ATOM 8798 CG GLU L 97 -25.144 8.232 112.292 1.00 46.38 C +ATOM 8799 CD GLU L 97 -24.125 9.210 112.866 1.00 50.93 C +ATOM 8800 OE1 GLU L 97 -23.915 9.223 114.101 1.00 51.31 O +ATOM 8801 OE2 GLU L 97 -23.536 9.977 112.071 1.00 52.45 O +ATOM 8802 N ASP L 98 -25.454 4.745 113.699 1.00 32.10 N +ATOM 8803 CA ASP L 98 -25.299 3.452 113.045 1.00 30.29 C +ATOM 8804 C ASP L 98 -26.021 2.315 113.752 1.00 29.10 C +ATOM 8805 O ASP L 98 -26.129 1.228 113.176 1.00 24.50 O +ATOM 8806 CB ASP L 98 -23.814 3.073 112.939 1.00 29.83 C +ATOM 8807 CG ASP L 98 -23.039 3.974 112.002 1.00 30.99 C +ATOM 8808 OD1 ASP L 98 -23.664 4.810 111.329 1.00 30.96 O +ATOM 8809 OD2 ASP L 98 -21.800 3.844 111.940 1.00 34.49 O +ATOM 8810 N PHE L 99 -26.488 2.510 114.984 1.00 28.23 N +ATOM 8811 CA PHE L 99 -27.217 1.447 115.664 1.00 28.06 C +ATOM 8812 C PHE L 99 -28.571 1.266 114.995 1.00 27.71 C +ATOM 8813 O PHE L 99 -29.330 2.229 114.846 1.00 31.35 O +ATOM 8814 CB PHE L 99 -27.344 1.760 117.150 1.00 30.02 C +ATOM 8815 CG PHE L 99 -26.013 1.846 117.831 1.00 29.08 C +ATOM 8816 CD1 PHE L 99 -25.312 0.692 118.141 1.00 27.71 C +ATOM 8817 CD2 PHE L 99 -25.430 3.076 118.095 1.00 32.63 C +ATOM 8818 CE1 PHE L 99 -24.061 0.758 118.735 1.00 32.41 C +ATOM 8819 CE2 PHE L 99 -24.177 3.152 118.696 1.00 33.67 C +ATOM 8820 CZ PHE L 99 -23.493 1.995 119.014 1.00 32.63 C +ATOM 8821 N ALA L 100 -28.846 0.034 114.563 1.00 28.28 N +ATOM 8822 CA ALA L 100 -29.934 -0.273 113.642 1.00 27.62 C +ATOM 8823 C ALA L 100 -29.894 -1.747 113.259 1.00 26.82 C +ATOM 8824 O ALA L 100 -29.060 -2.505 113.764 1.00 30.13 O +ATOM 8825 CB ALA L 100 -29.850 0.603 112.385 1.00 25.03 C +ATOM 8826 N THR L 101 -30.805 -2.164 112.386 1.00 24.95 N +ATOM 8827 CA THR L 101 -30.824 -3.508 111.831 1.00 24.60 C +ATOM 8828 C THR L 101 -30.363 -3.431 110.382 1.00 22.80 C +ATOM 8829 O THR L 101 -30.742 -2.508 109.655 1.00 23.03 O +ATOM 8830 CB THR L 101 -32.231 -4.134 111.921 1.00 27.47 C +ATOM 8831 OG1 THR L 101 -32.590 -4.298 113.295 1.00 30.94 O +ATOM 8832 CG2 THR L 101 -32.271 -5.510 111.254 1.00 26.38 C +ATOM 8833 N TYR L 102 -29.522 -4.385 109.974 1.00 23.32 N +ATOM 8834 CA TYR L 102 -28.951 -4.411 108.636 1.00 22.35 C +ATOM 8835 C TYR L 102 -29.410 -5.660 107.906 1.00 23.55 C +ATOM 8836 O TYR L 102 -29.417 -6.747 108.484 1.00 21.28 O +ATOM 8837 CB TYR L 102 -27.412 -4.362 108.700 1.00 20.41 C +ATOM 8838 CG TYR L 102 -26.948 -3.031 109.220 1.00 21.92 C +ATOM 8839 CD1 TYR L 102 -26.706 -1.982 108.352 1.00 20.23 C +ATOM 8840 CD2 TYR L 102 -26.841 -2.792 110.589 1.00 24.74 C +ATOM 8841 CE1 TYR L 102 -26.319 -0.748 108.820 1.00 21.17 C +ATOM 8842 CE2 TYR L 102 -26.440 -1.554 111.069 1.00 24.38 C +ATOM 8843 CZ TYR L 102 -26.174 -0.540 110.173 1.00 24.38 C +ATOM 8844 OH TYR L 102 -25.786 0.705 110.609 1.00 25.35 O +ATOM 8845 N TYR L 103 -29.772 -5.506 106.622 1.00 22.04 N +ATOM 8846 CA TYR L 103 -30.181 -6.629 105.793 1.00 24.13 C +ATOM 8847 C TYR L 103 -29.314 -6.714 104.539 1.00 24.88 C +ATOM 8848 O TYR L 103 -29.034 -5.699 103.892 1.00 20.85 O +ATOM 8849 CB TYR L 103 -31.651 -6.515 105.356 1.00 25.13 C +ATOM 8850 CG TYR L 103 -32.656 -6.587 106.476 1.00 26.26 C +ATOM 8851 CD1 TYR L 103 -33.101 -7.816 106.951 1.00 25.64 C +ATOM 8852 CD2 TYR L 103 -33.170 -5.430 107.057 1.00 24.81 C +ATOM 8853 CE1 TYR L 103 -34.020 -7.898 107.988 1.00 23.17 C +ATOM 8854 CE2 TYR L 103 -34.107 -5.502 108.091 1.00 26.21 C +ATOM 8855 CZ TYR L 103 -34.519 -6.743 108.547 1.00 24.52 C +ATOM 8856 OH TYR L 103 -35.438 -6.848 109.548 1.00 30.76 O +ATOM 8857 N CYS L 104 -28.900 -7.926 104.189 1.00 22.35 N +ATOM 8858 CA CYS L 104 -28.334 -8.172 102.869 1.00 23.65 C +ATOM 8859 C CYS L 104 -29.426 -8.667 101.928 1.00 21.21 C +ATOM 8860 O CYS L 104 -30.496 -9.115 102.352 1.00 19.85 O +ATOM 8861 CB CYS L 104 -27.197 -9.195 102.923 1.00 26.66 C +ATOM 8862 SG CYS L 104 -27.756 -10.864 103.290 1.00 38.00 S +ATOM 8863 N GLN L 105 -29.125 -8.599 100.632 1.00 23.37 N +ATOM 8864 CA GLN L 105 -30.109 -8.887 99.601 1.00 23.43 C +ATOM 8865 C GLN L 105 -29.367 -9.333 98.355 1.00 24.80 C +ATOM 8866 O GLN L 105 -28.365 -8.717 97.981 1.00 25.29 O +ATOM 8867 CB GLN L 105 -30.960 -7.650 99.297 1.00 23.95 C +ATOM 8868 CG GLN L 105 -32.004 -7.856 98.228 1.00 24.74 C +ATOM 8869 CD GLN L 105 -31.709 -7.054 96.980 1.00 27.75 C +ATOM 8870 OE1 GLN L 105 -31.345 -5.876 97.053 1.00 31.94 O +ATOM 8871 NE2 GLN L 105 -31.848 -7.691 95.822 1.00 23.95 N +ATOM 8872 N GLN L 106 -29.837 -10.412 97.727 1.00 21.54 N +ATOM 8873 CA GLN L 106 -29.272 -10.857 96.455 1.00 22.12 C +ATOM 8874 C GLN L 106 -30.346 -10.858 95.380 1.00 21.06 C +ATOM 8875 O GLN L 106 -31.500 -11.220 95.645 1.00 20.97 O +ATOM 8876 CB GLN L 106 -28.656 -12.274 96.557 1.00 25.40 C +ATOM 8877 CG GLN L 106 -27.861 -12.684 95.310 1.00 31.65 C +ATOM 8878 CD GLN L 106 -27.209 -14.046 95.431 1.00 38.01 C +ATOM 8879 OE1 GLN L 106 -25.986 -14.183 95.262 1.00 43.72 O +ATOM 8880 NE2 GLN L 106 -28.011 -15.061 95.710 1.00 36.91 N +ATOM 8881 N ALA L 107 -29.950 -10.465 94.161 1.00 20.47 N +ATOM 8882 CA ALA L 107 -30.765 -10.623 92.958 1.00 19.74 C +ATOM 8883 C ALA L 107 -30.191 -11.793 92.169 1.00 19.89 C +ATOM 8884 O ALA L 107 -29.052 -11.728 91.689 1.00 20.09 O +ATOM 8885 CB ALA L 107 -30.771 -9.352 92.118 1.00 19.82 C +ATOM 8886 N SER L 108 -30.954 -12.876 92.076 1.00 19.80 N +ATOM 8887 CA SER L 108 -30.435 -14.060 91.429 1.00 25.87 C +ATOM 8888 C SER L 108 -30.483 -13.879 89.913 1.00 25.42 C +ATOM 8889 O SER L 108 -31.184 -13.008 89.391 1.00 22.86 O +ATOM 8890 CB SER L 108 -31.231 -15.298 91.844 1.00 26.15 C +ATOM 8891 OG SER L 108 -32.532 -15.278 91.276 1.00 30.72 O +ATOM 8892 N LEU L 109 -29.719 -14.716 89.206 1.00 23.51 N +ATOM 8893 CA LEU L 109 -29.753 -14.688 87.743 1.00 24.17 C +ATOM 8894 C LEU L 109 -31.114 -15.091 87.192 1.00 25.99 C +ATOM 8895 O LEU L 109 -31.420 -14.805 86.018 1.00 27.75 O +ATOM 8896 CB LEU L 109 -28.655 -15.597 87.166 1.00 23.23 C +ATOM 8897 CG LEU L 109 -27.203 -15.272 87.530 1.00 21.82 C +ATOM 8898 CD1 LEU L 109 -26.210 -16.133 86.717 1.00 22.84 C +ATOM 8899 CD2 LEU L 109 -26.925 -13.793 87.305 1.00 22.81 C +ATOM 8900 N THR L 113 -31.946 -15.723 88.007 1.00 26.97 N +ATOM 8901 CA THR L 113 -33.296 -16.094 87.621 1.00 26.13 C +ATOM 8902 C THR L 113 -34.316 -15.018 87.960 1.00 27.42 C +ATOM 8903 O THR L 113 -35.514 -15.302 87.929 1.00 28.04 O +ATOM 8904 CB THR L 113 -33.686 -17.408 88.292 1.00 28.21 C +ATOM 8905 OG1 THR L 113 -33.515 -17.275 89.711 1.00 30.35 O +ATOM 8906 CG2 THR L 113 -32.802 -18.541 87.791 1.00 27.98 C +ATOM 8907 N ALA L 114 -33.860 -13.814 88.313 1.00 19.26 N +ATOM 8908 CA ALA L 114 -34.703 -12.637 88.545 1.00 22.22 C +ATOM 8909 C ALA L 114 -35.560 -12.759 89.806 1.00 24.77 C +ATOM 8910 O ALA L 114 -36.661 -12.209 89.882 1.00 22.90 O +ATOM 8911 CB ALA L 114 -35.582 -12.318 87.328 1.00 25.98 C +ATOM 8912 N LEU L 115 -35.063 -13.469 90.813 1.00 25.28 N +ATOM 8913 CA LEU L 115 -35.689 -13.532 92.123 1.00 25.41 C +ATOM 8914 C LEU L 115 -34.853 -12.708 93.094 1.00 26.51 C +ATOM 8915 O LEU L 115 -33.643 -12.548 92.902 1.00 29.12 O +ATOM 8916 CB LEU L 115 -35.790 -14.976 92.620 1.00 25.03 C +ATOM 8917 CG LEU L 115 -36.350 -15.996 91.627 1.00 28.73 C +ATOM 8918 CD1 LEU L 115 -36.497 -17.346 92.310 1.00 31.21 C +ATOM 8919 CD2 LEU L 115 -37.683 -15.534 91.067 1.00 26.35 C +ATOM 8920 N LEU L 116 -35.505 -12.160 94.117 1.00 24.28 N +ATOM 8921 CA LEU L 116 -34.823 -11.428 95.184 1.00 26.48 C +ATOM 8922 C LEU L 116 -34.883 -12.236 96.470 1.00 26.04 C +ATOM 8923 O LEU L 116 -35.914 -12.842 96.777 1.00 29.56 O +ATOM 8924 CB LEU L 116 -35.457 -10.055 95.423 1.00 26.86 C +ATOM 8925 CG LEU L 116 -35.004 -8.843 94.621 1.00 34.16 C +ATOM 8926 CD1 LEU L 116 -35.254 -9.071 93.165 1.00 40.05 C +ATOM 8927 CD2 LEU L 116 -35.736 -7.609 95.099 1.00 32.50 C +ATOM 8928 N THR L 117 -33.787 -12.231 97.231 1.00 22.30 N +ATOM 8929 CA THR L 117 -33.735 -12.908 98.525 1.00 25.25 C +ATOM 8930 C THR L 117 -33.116 -11.961 99.541 1.00 24.60 C +ATOM 8931 O THR L 117 -32.049 -11.401 99.289 1.00 26.06 O +ATOM 8932 CB THR L 117 -32.908 -14.209 98.473 1.00 30.11 C +ATOM 8933 OG1 THR L 117 -33.393 -15.073 97.434 1.00 33.06 O +ATOM 8934 CG2 THR L 117 -33.010 -14.950 99.795 1.00 30.17 C +ATOM 8935 N PHE L 118 -33.766 -11.795 100.685 1.00 25.70 N +ATOM 8936 CA PHE L 118 -33.222 -10.996 101.777 1.00 27.16 C +ATOM 8937 C PHE L 118 -32.656 -11.908 102.855 1.00 28.71 C +ATOM 8938 O PHE L 118 -33.234 -12.956 103.156 1.00 31.41 O +ATOM 8939 CB PHE L 118 -34.292 -10.089 102.390 1.00 28.07 C +ATOM 8940 CG PHE L 118 -34.649 -8.906 101.546 1.00 23.94 C +ATOM 8941 CD1 PHE L 118 -33.924 -7.733 101.634 1.00 23.44 C +ATOM 8942 CD2 PHE L 118 -35.730 -8.954 100.681 1.00 28.32 C +ATOM 8943 CE1 PHE L 118 -34.252 -6.629 100.864 1.00 19.97 C +ATOM 8944 CE2 PHE L 118 -36.063 -7.859 99.906 1.00 24.41 C +ATOM 8945 CZ PHE L 118 -35.324 -6.693 99.997 1.00 21.74 C +ATOM 8946 N GLY L 119 -31.520 -11.511 103.429 1.00 25.75 N +ATOM 8947 CA GLY L 119 -31.035 -12.166 104.623 1.00 24.73 C +ATOM 8948 C GLY L 119 -31.971 -11.927 105.798 1.00 25.07 C +ATOM 8949 O GLY L 119 -32.830 -11.050 105.788 1.00 23.37 O +ATOM 8950 N GLN L 120 -31.782 -12.729 106.848 1.00 29.13 N +ATOM 8951 CA GLN L 120 -32.638 -12.650 108.028 1.00 32.10 C +ATOM 8952 C GLN L 120 -32.440 -11.361 108.829 1.00 29.23 C +ATOM 8953 O GLN L 120 -33.332 -10.988 109.599 1.00 28.92 O +ATOM 8954 CB GLN L 120 -32.393 -13.872 108.919 1.00 43.06 C +ATOM 8955 CG GLN L 120 -32.634 -15.228 108.231 1.00 52.15 C +ATOM 8956 CD GLN L 120 -31.481 -15.683 107.312 1.00 59.48 C +ATOM 8957 OE1 GLN L 120 -30.368 -15.140 107.348 1.00 58.31 O +ATOM 8958 NE2 GLN L 120 -31.757 -16.687 106.483 1.00 62.59 N +ATOM 8959 N GLY L 121 -31.314 -10.683 108.671 1.00 26.16 N +ATOM 8960 CA GLY L 121 -31.083 -9.398 109.306 1.00 24.14 C +ATOM 8961 C GLY L 121 -30.181 -9.503 110.523 1.00 25.67 C +ATOM 8962 O GLY L 121 -30.088 -10.551 111.176 1.00 25.44 O +ATOM 8963 N THR L 122 -29.496 -8.394 110.835 1.00 25.32 N +ATOM 8964 CA THR L 122 -28.576 -8.317 111.966 1.00 29.00 C +ATOM 8965 C THR L 122 -28.894 -7.069 112.780 1.00 29.41 C +ATOM 8966 O THR L 122 -28.830 -5.950 112.260 1.00 28.26 O +ATOM 8967 CB THR L 122 -27.110 -8.286 111.503 1.00 27.86 C +ATOM 8968 OG1 THR L 122 -26.776 -9.499 110.821 1.00 24.57 O +ATOM 8969 CG2 THR L 122 -26.163 -8.109 112.708 1.00 23.96 C +ATOM 8970 N LYS L 123 -29.240 -7.251 114.050 1.00 33.47 N +ATOM 8971 CA LYS L 123 -29.402 -6.120 114.957 1.00 36.10 C +ATOM 8972 C LYS L 123 -28.030 -5.686 115.461 1.00 32.73 C +ATOM 8973 O LYS L 123 -27.296 -6.495 116.042 1.00 35.66 O +ATOM 8974 CB LYS L 123 -30.286 -6.495 116.145 1.00 41.60 C +ATOM 8975 CG LYS L 123 -31.769 -6.376 115.941 1.00 50.11 C +ATOM 8976 CD LYS L 123 -32.492 -6.866 117.189 1.00 53.75 C +ATOM 8977 CE LYS L 123 -33.974 -6.565 117.128 1.00 56.45 C +ATOM 8978 NZ LYS L 123 -34.233 -5.098 117.115 1.00 58.00 N +ATOM 8979 N VAL L 124 -27.688 -4.413 115.274 1.00 29.84 N +ATOM 8980 CA VAL L 124 -26.469 -3.842 115.844 1.00 27.73 C +ATOM 8981 C VAL L 124 -26.886 -2.965 117.023 1.00 26.23 C +ATOM 8982 O VAL L 124 -27.464 -1.887 116.833 1.00 26.51 O +ATOM 8983 CB VAL L 124 -25.664 -3.053 114.800 1.00 25.70 C +ATOM 8984 CG1 VAL L 124 -24.397 -2.447 115.427 1.00 25.71 C +ATOM 8985 CG2 VAL L 124 -25.292 -3.955 113.637 1.00 22.29 C +ATOM 8986 N GLU L 125 -26.601 -3.426 118.241 1.00 26.78 N +ATOM 8987 CA GLU L 125 -27.087 -2.797 119.464 1.00 28.01 C +ATOM 8988 C GLU L 125 -25.951 -2.125 120.237 1.00 30.02 C +ATOM 8989 O GLU L 125 -24.766 -2.392 120.006 1.00 27.18 O +ATOM 8990 CB GLU L 125 -27.786 -3.830 120.353 1.00 31.91 C +ATOM 8991 CG GLU L 125 -28.912 -4.561 119.650 1.00 41.63 C +ATOM 8992 CD GLU L 125 -29.444 -5.735 120.451 1.00 48.07 C +ATOM 8993 OE1 GLU L 125 -28.622 -6.529 120.959 1.00 51.78 O +ATOM 8994 OE2 GLU L 125 -30.683 -5.849 120.582 1.00 48.82 O +ATOM 8995 N ILE L 126 -26.338 -1.254 121.180 1.00 29.30 N +ATOM 8996 CA ILE L 126 -25.396 -0.445 121.957 1.00 30.90 C +ATOM 8997 C ILE L 126 -24.916 -1.246 123.160 1.00 31.93 C +ATOM 8998 O ILE L 126 -25.722 -1.731 123.964 1.00 28.77 O +ATOM 8999 CB ILE L 126 -26.043 0.875 122.415 1.00 32.96 C +ATOM 9000 CG1 ILE L 126 -26.444 1.733 121.214 1.00 40.19 C +ATOM 9001 CG2 ILE L 126 -25.114 1.648 123.331 1.00 36.00 C +ATOM 9002 CD1 ILE L 126 -27.141 3.043 121.574 1.00 45.45 C +ATOM 9003 N LYS L 127 -23.600 -1.367 123.295 1.00 31.97 N +ATOM 9004 CA LYS L 127 -23.011 -2.041 124.437 1.00 31.30 C +ATOM 9005 C LYS L 127 -22.981 -1.103 125.640 1.00 29.16 C +ATOM 9006 O LYS L 127 -22.691 0.091 125.513 1.00 30.18 O +ATOM 9007 CB LYS L 127 -21.600 -2.518 124.087 1.00 36.88 C +ATOM 9008 CG LYS L 127 -20.878 -3.229 125.210 1.00 43.45 C +ATOM 9009 CD LYS L 127 -19.597 -3.891 124.722 1.00 51.94 C +ATOM 9010 CE LYS L 127 -19.891 -5.113 123.862 1.00 57.43 C +ATOM 9011 NZ LYS L 127 -18.648 -5.854 123.490 1.00 60.33 N +ATOM 9012 N AARG L 128 -23.300 -1.649 126.811 0.50 27.34 N +ATOM 9013 CA AARG L 128 -23.225 -0.901 128.059 0.50 26.80 C +ATOM 9014 C AARG L 128 -22.946 -1.886 129.186 0.50 27.92 C +ATOM 9015 O AARG L 128 -22.860 -3.098 128.971 0.50 29.18 O +ATOM 9016 CB AARG L 128 -24.513 -0.107 128.321 0.50 28.27 C +ATOM 9017 CG AARG L 128 -25.726 -0.980 128.627 0.50 28.61 C +ATOM 9018 CD AARG L 128 -26.895 -0.173 129.168 0.50 31.30 C +ATOM 9019 NE AARG L 128 -26.593 0.471 130.450 0.50 33.32 N +ATOM 9020 CZ AARG L 128 -26.690 -0.134 131.627 0.50 31.79 C +ATOM 9021 NH1AARG L 128 -27.075 -1.395 131.676 0.50 34.44 N +ATOM 9022 NH2AARG L 128 -26.401 0.509 132.748 0.50 31.65 N +ATOM 9023 N THR L 129 -22.811 -1.355 130.399 1.00 28.39 N +ATOM 9024 CA THR L 129 -22.518 -2.200 131.552 1.00 28.98 C +ATOM 9025 C THR L 129 -23.725 -3.058 131.905 1.00 28.96 C +ATOM 9026 O THR L 129 -24.875 -2.680 131.654 1.00 26.63 O +ATOM 9027 CB THR L 129 -22.135 -1.360 132.771 1.00 26.35 C +ATOM 9028 OG1 THR L 129 -23.197 -0.439 133.048 1.00 28.13 O +ATOM 9029 CG2 THR L 129 -20.835 -0.599 132.521 1.00 25.21 C +ATOM 9030 N VAL L 130 -23.444 -4.214 132.519 1.00 27.11 N +ATOM 9031 CA VAL L 130 -24.507 -5.104 132.965 1.00 29.15 C +ATOM 9032 C VAL L 130 -25.411 -4.371 133.948 1.00 29.96 C +ATOM 9033 O VAL L 130 -24.950 -3.565 134.769 1.00 29.63 O +ATOM 9034 CB VAL L 130 -23.890 -6.366 133.594 1.00 31.25 C +ATOM 9035 CG1 VAL L 130 -24.965 -7.320 134.100 1.00 29.90 C +ATOM 9036 CG2 VAL L 130 -22.998 -7.062 132.590 1.00 31.03 C +ATOM 9037 N ALA L 131 -26.714 -4.626 133.852 1.00 22.01 N +ATOM 9038 CA ALA L 131 -27.668 -4.042 134.781 1.00 20.64 C +ATOM 9039 C ALA L 131 -28.721 -5.080 135.116 1.00 21.54 C +ATOM 9040 O ALA L 131 -29.373 -5.627 134.223 1.00 21.65 O +ATOM 9041 CB ALA L 131 -28.334 -2.779 134.228 1.00 23.71 C +ATOM 9042 N ALA L 132 -28.870 -5.352 136.411 1.00 22.78 N +ATOM 9043 CA ALA L 132 -29.849 -6.291 136.931 1.00 25.88 C +ATOM 9044 C ALA L 132 -31.254 -5.703 136.823 1.00 25.79 C +ATOM 9045 O ALA L 132 -31.445 -4.506 137.055 1.00 29.78 O +ATOM 9046 CB ALA L 132 -29.541 -6.622 138.394 1.00 29.05 C +ATOM 9047 N PRO L 133 -32.249 -6.515 136.485 1.00 24.36 N +ATOM 9048 CA PRO L 133 -33.622 -6.001 136.407 1.00 28.30 C +ATOM 9049 C PRO L 133 -34.217 -5.722 137.776 1.00 30.54 C +ATOM 9050 O PRO L 133 -33.906 -6.390 138.766 1.00 27.99 O +ATOM 9051 CB PRO L 133 -34.386 -7.135 135.711 1.00 29.48 C +ATOM 9052 CG PRO L 133 -33.601 -8.374 136.066 1.00 29.53 C +ATOM 9053 CD PRO L 133 -32.155 -7.929 136.084 1.00 24.37 C +ATOM 9054 N SER L 134 -35.093 -4.723 137.817 1.00 27.01 N +ATOM 9055 CA SER L 134 -36.044 -4.577 138.910 1.00 28.85 C +ATOM 9056 C SER L 134 -37.266 -5.412 138.563 1.00 25.83 C +ATOM 9057 O SER L 134 -37.773 -5.329 137.442 1.00 25.88 O +ATOM 9058 CB SER L 134 -36.436 -3.113 139.116 1.00 31.42 C +ATOM 9059 OG SER L 134 -35.283 -2.321 139.329 1.00 37.11 O +ATOM 9060 N VAL L 135 -37.723 -6.224 139.508 1.00 23.35 N +ATOM 9061 CA VAL L 135 -38.791 -7.187 139.267 1.00 24.41 C +ATOM 9062 C VAL L 135 -40.033 -6.773 140.044 1.00 25.89 C +ATOM 9063 O VAL L 135 -39.950 -6.396 141.220 1.00 27.23 O +ATOM 9064 CB VAL L 135 -38.352 -8.611 139.654 1.00 28.36 C +ATOM 9065 CG1 VAL L 135 -39.429 -9.619 139.269 1.00 27.33 C +ATOM 9066 CG2 VAL L 135 -36.998 -8.956 139.007 1.00 25.63 C +ATOM 9067 N PHE L 136 -41.188 -6.854 139.388 1.00 24.02 N +ATOM 9068 CA PHE L 136 -42.468 -6.530 140.004 1.00 25.16 C +ATOM 9069 C PHE L 136 -43.519 -7.529 139.539 1.00 23.70 C +ATOM 9070 O PHE L 136 -43.487 -7.993 138.397 1.00 24.28 O +ATOM 9071 CB PHE L 136 -42.932 -5.110 139.638 1.00 24.44 C +ATOM 9072 CG PHE L 136 -41.911 -4.050 139.897 1.00 24.44 C +ATOM 9073 CD1 PHE L 136 -41.872 -3.387 141.125 1.00 26.60 C +ATOM 9074 CD2 PHE L 136 -41.001 -3.692 138.914 1.00 25.74 C +ATOM 9075 CE1 PHE L 136 -40.932 -2.403 141.361 1.00 23.95 C +ATOM 9076 CE2 PHE L 136 -40.061 -2.703 139.150 1.00 26.74 C +ATOM 9077 CZ PHE L 136 -40.028 -2.065 140.382 1.00 25.01 C +ATOM 9078 N ILE L 137 -44.478 -7.840 140.412 1.00 22.59 N +ATOM 9079 CA ILE L 137 -45.553 -8.759 140.054 1.00 22.00 C +ATOM 9080 C ILE L 137 -46.892 -8.091 140.342 1.00 20.77 C +ATOM 9081 O ILE L 137 -47.048 -7.397 141.354 1.00 25.06 O +ATOM 9082 CB ILE L 137 -45.419 -10.115 140.787 1.00 24.42 C +ATOM 9083 CG1 ILE L 137 -46.505 -11.090 140.303 1.00 23.35 C +ATOM 9084 CG2 ILE L 137 -45.505 -9.942 142.297 1.00 23.39 C +ATOM 9085 CD1 ILE L 137 -46.385 -12.482 140.889 1.00 25.31 C +ATOM 9086 N PHE L 138 -47.849 -8.275 139.435 1.00 20.80 N +ATOM 9087 CA PHE L 138 -49.151 -7.612 139.510 1.00 28.15 C +ATOM 9088 C PHE L 138 -50.277 -8.640 139.494 1.00 28.63 C +ATOM 9089 O PHE L 138 -50.409 -9.396 138.513 1.00 31.14 O +ATOM 9090 CB PHE L 138 -49.320 -6.628 138.344 1.00 25.00 C +ATOM 9091 CG PHE L 138 -48.255 -5.573 138.279 1.00 26.57 C +ATOM 9092 CD1 PHE L 138 -48.340 -4.427 139.066 1.00 26.93 C +ATOM 9093 CD2 PHE L 138 -47.163 -5.724 137.433 1.00 29.16 C +ATOM 9094 CE1 PHE L 138 -47.359 -3.450 138.999 1.00 26.84 C +ATOM 9095 CE2 PHE L 138 -46.179 -4.752 137.362 1.00 28.57 C +ATOM 9096 CZ PHE L 138 -46.269 -3.618 138.150 1.00 29.78 C +ATOM 9097 N PRO L 139 -51.118 -8.692 140.521 1.00 29.82 N +ATOM 9098 CA PRO L 139 -52.294 -9.574 140.489 1.00 28.66 C +ATOM 9099 C PRO L 139 -53.301 -9.103 139.458 1.00 32.46 C +ATOM 9100 O PRO L 139 -53.254 -7.950 139.004 1.00 34.37 O +ATOM 9101 CB PRO L 139 -52.872 -9.453 141.906 1.00 28.77 C +ATOM 9102 CG PRO L 139 -51.762 -8.853 142.733 1.00 32.40 C +ATOM 9103 CD PRO L 139 -51.001 -7.967 141.793 1.00 28.89 C +ATOM 9104 N PRO L 140 -54.235 -9.963 139.063 1.00 32.67 N +ATOM 9105 CA PRO L 140 -55.339 -9.497 138.224 1.00 31.51 C +ATOM 9106 C PRO L 140 -56.219 -8.530 138.998 1.00 29.51 C +ATOM 9107 O PRO L 140 -56.402 -8.656 140.213 1.00 28.11 O +ATOM 9108 CB PRO L 140 -56.085 -10.787 137.869 1.00 34.31 C +ATOM 9109 CG PRO L 140 -55.712 -11.750 138.959 1.00 32.96 C +ATOM 9110 CD PRO L 140 -54.302 -11.414 139.315 1.00 34.29 C +ATOM 9111 N SER L 141 -56.754 -7.544 138.288 1.00 29.86 N +ATOM 9112 CA SER L 141 -57.587 -6.552 138.947 1.00 30.21 C +ATOM 9113 C SER L 141 -58.989 -7.101 139.173 1.00 31.32 C +ATOM 9114 O SER L 141 -59.479 -7.955 138.425 1.00 32.79 O +ATOM 9115 CB SER L 141 -57.662 -5.264 138.129 1.00 30.18 C +ATOM 9116 OG SER L 141 -58.333 -5.488 136.907 1.00 33.04 O +ATOM 9117 N ASP L 142 -59.636 -6.603 140.227 1.00 28.30 N +ATOM 9118 CA ASP L 142 -61.025 -6.972 140.465 1.00 30.96 C +ATOM 9119 C ASP L 142 -61.873 -6.761 139.215 1.00 30.45 C +ATOM 9120 O ASP L 142 -62.743 -7.578 138.902 1.00 30.25 O +ATOM 9121 CB ASP L 142 -61.582 -6.175 141.642 1.00 36.81 C +ATOM 9122 CG ASP L 142 -60.882 -6.507 142.960 1.00 44.83 C +ATOM 9123 OD1 ASP L 142 -60.322 -7.625 143.083 1.00 43.87 O +ATOM 9124 OD2 ASP L 142 -60.888 -5.644 143.866 1.00 49.03 O +ATOM 9125 N SER L 143 -61.604 -5.697 138.458 1.00 29.14 N +ATOM 9126 CA SER L 143 -62.461 -5.418 137.314 1.00 32.28 C +ATOM 9127 C SER L 143 -62.256 -6.435 136.192 1.00 28.11 C +ATOM 9128 O SER L 143 -63.222 -6.785 135.514 1.00 31.14 O +ATOM 9129 CB SER L 143 -62.249 -3.986 136.816 1.00 36.20 C +ATOM 9130 OG SER L 143 -61.032 -3.843 136.126 1.00 39.55 O +ATOM 9131 N GLN L 144 -61.031 -6.952 135.996 1.00 30.48 N +ATOM 9132 CA GLN L 144 -60.853 -8.025 135.014 1.00 28.94 C +ATOM 9133 C GLN L 144 -61.592 -9.290 135.437 1.00 27.96 C +ATOM 9134 O GLN L 144 -62.253 -9.929 134.613 1.00 25.09 O +ATOM 9135 CB GLN L 144 -59.369 -8.344 134.777 1.00 28.23 C +ATOM 9136 CG GLN L 144 -59.166 -9.323 133.591 1.00 25.55 C +ATOM 9137 CD GLN L 144 -57.725 -9.818 133.386 1.00 25.93 C +ATOM 9138 OE1 GLN L 144 -56.853 -9.669 134.253 1.00 22.12 O +ATOM 9139 NE2 GLN L 144 -57.480 -10.428 132.218 1.00 24.97 N +ATOM 9140 N LEU L 145 -61.474 -9.675 136.714 1.00 28.82 N +ATOM 9141 CA LEU L 145 -62.127 -10.888 137.196 1.00 31.59 C +ATOM 9142 C LEU L 145 -63.637 -10.807 137.005 1.00 31.36 C +ATOM 9143 O LEU L 145 -64.271 -11.759 136.524 1.00 31.85 O +ATOM 9144 CB LEU L 145 -61.784 -11.115 138.675 1.00 30.52 C +ATOM 9145 CG LEU L 145 -60.305 -11.252 139.030 1.00 30.81 C +ATOM 9146 CD1 LEU L 145 -60.059 -11.213 140.548 1.00 33.61 C +ATOM 9147 CD2 LEU L 145 -59.740 -12.536 138.422 1.00 34.49 C +ATOM 9148 N LYS L 146 -64.232 -9.669 137.373 1.00 26.90 N +ATOM 9149 CA LYS L 146 -65.663 -9.496 137.167 1.00 31.18 C +ATOM 9150 C LYS L 146 -66.032 -9.644 135.691 1.00 34.57 C +ATOM 9151 O LYS L 146 -67.130 -10.110 135.372 1.00 35.43 O +ATOM 9152 CB LYS L 146 -66.099 -8.139 137.709 1.00 36.17 C +ATOM 9153 CG LYS L 146 -67.585 -7.905 137.615 1.00 44.35 C +ATOM 9154 CD LYS L 146 -68.015 -6.721 138.440 1.00 53.41 C +ATOM 9155 CE LYS L 146 -67.983 -7.042 139.930 1.00 58.86 C +ATOM 9156 NZ LYS L 146 -68.693 -5.999 140.733 1.00 61.01 N +ATOM 9157 N SER L 147 -65.121 -9.281 134.780 1.00 33.48 N +ATOM 9158 CA SER L 147 -65.368 -9.455 133.354 1.00 35.02 C +ATOM 9159 C SER L 147 -65.185 -10.896 132.904 1.00 34.45 C +ATOM 9160 O SER L 147 -65.513 -11.208 131.754 1.00 35.41 O +ATOM 9161 CB SER L 147 -64.444 -8.553 132.532 1.00 32.91 C +ATOM 9162 OG SER L 147 -63.176 -9.161 132.344 1.00 30.10 O +ATOM 9163 N GLY L 148 -64.647 -11.759 133.759 1.00 35.64 N +ATOM 9164 CA GLY L 148 -64.606 -13.183 133.513 1.00 37.30 C +ATOM 9165 C GLY L 148 -63.267 -13.830 133.117 1.00 41.02 C +ATOM 9166 O GLY L 148 -63.284 -14.961 132.619 1.00 46.10 O +ATOM 9167 N THR L 149 -62.130 -13.165 133.331 1.00 43.05 N +ATOM 9168 CA THR L 149 -60.830 -13.724 132.956 1.00 40.26 C +ATOM 9169 C THR L 149 -59.776 -13.244 133.947 1.00 36.32 C +ATOM 9170 O THR L 149 -60.045 -12.399 134.799 1.00 36.24 O +ATOM 9171 CB THR L 149 -60.446 -13.337 131.518 1.00 41.89 C +ATOM 9172 OG1 THR L 149 -59.086 -13.722 131.258 1.00 48.25 O +ATOM 9173 CG2 THR L 149 -60.602 -11.834 131.306 1.00 37.09 C +ATOM 9174 N ALA L 150 -58.557 -13.783 133.831 1.00 34.38 N +ATOM 9175 CA ALA L 150 -57.512 -13.447 134.797 1.00 31.96 C +ATOM 9176 C ALA L 150 -56.129 -13.434 134.153 1.00 31.58 C +ATOM 9177 O ALA L 150 -55.720 -14.425 133.537 1.00 34.85 O +ATOM 9178 CB ALA L 150 -57.523 -14.434 135.974 1.00 31.29 C +ATOM 9179 N SER L 151 -55.398 -12.331 134.337 1.00 25.15 N +ATOM 9180 CA SER L 151 -54.030 -12.178 133.838 1.00 24.16 C +ATOM 9181 C SER L 151 -53.113 -11.758 134.976 1.00 26.82 C +ATOM 9182 O SER L 151 -53.378 -10.751 135.640 1.00 28.31 O +ATOM 9183 CB SER L 151 -53.944 -11.128 132.723 1.00 22.76 C +ATOM 9184 OG SER L 151 -54.900 -11.372 131.698 1.00 22.91 O +ATOM 9185 N VAL L 152 -52.031 -12.511 135.188 1.00 27.85 N +ATOM 9186 CA VAL L 152 -50.979 -12.164 136.145 1.00 25.94 C +ATOM 9187 C VAL L 152 -49.762 -11.695 135.348 1.00 27.65 C +ATOM 9188 O VAL L 152 -49.366 -12.352 134.379 1.00 29.50 O +ATOM 9189 CB VAL L 152 -50.621 -13.359 137.053 1.00 23.46 C +ATOM 9190 CG1 VAL L 152 -49.917 -12.896 138.331 1.00 21.08 C +ATOM 9191 CG2 VAL L 152 -51.866 -14.182 137.385 1.00 25.95 C +ATOM 9192 N VAL L 153 -49.173 -10.566 135.746 1.00 23.44 N +ATOM 9193 CA VAL L 153 -48.109 -9.919 134.985 1.00 24.17 C +ATOM 9194 C VAL L 153 -46.869 -9.778 135.855 1.00 28.80 C +ATOM 9195 O VAL L 153 -46.948 -9.294 136.991 1.00 30.52 O +ATOM 9196 CB VAL L 153 -48.544 -8.539 134.445 1.00 25.58 C +ATOM 9197 CG1 VAL L 153 -47.384 -7.824 133.765 1.00 24.39 C +ATOM 9198 CG2 VAL L 153 -49.683 -8.691 133.473 1.00 25.71 C +ATOM 9199 N CYS L 154 -45.722 -10.184 135.305 1.00 31.00 N +ATOM 9200 CA CYS L 154 -44.417 -10.053 135.936 1.00 27.49 C +ATOM 9201 C CYS L 154 -43.581 -9.133 135.057 1.00 27.37 C +ATOM 9202 O CYS L 154 -43.409 -9.394 133.859 1.00 26.20 O +ATOM 9203 CB CYS L 154 -43.753 -11.426 136.106 1.00 32.85 C +ATOM 9204 SG CYS L 154 -42.171 -11.458 137.004 1.00 35.64 S +ATOM 9205 N LEU L 155 -43.084 -8.049 135.641 1.00 23.87 N +ATOM 9206 CA LEU L 155 -42.333 -7.025 134.921 1.00 21.78 C +ATOM 9207 C LEU L 155 -40.864 -7.099 135.301 1.00 24.98 C +ATOM 9208 O LEU L 155 -40.522 -7.115 136.496 1.00 25.61 O +ATOM 9209 CB LEU L 155 -42.871 -5.629 135.239 1.00 23.69 C +ATOM 9210 CG LEU L 155 -41.964 -4.447 134.891 1.00 24.85 C +ATOM 9211 CD1 LEU L 155 -41.876 -4.282 133.370 1.00 24.18 C +ATOM 9212 CD2 LEU L 155 -42.493 -3.170 135.558 1.00 23.72 C +ATOM 9213 N LEU L 156 -40.000 -7.139 134.293 1.00 24.06 N +ATOM 9214 CA LEU L 156 -38.556 -6.987 134.484 1.00 22.98 C +ATOM 9215 C LEU L 156 -38.153 -5.655 133.876 1.00 24.61 C +ATOM 9216 O LEU L 156 -38.295 -5.459 132.661 1.00 22.93 O +ATOM 9217 CB LEU L 156 -37.784 -8.132 133.832 1.00 22.31 C +ATOM 9218 CG LEU L 156 -37.792 -9.523 134.471 1.00 24.96 C +ATOM 9219 CD1 LEU L 156 -39.179 -10.158 134.489 1.00 25.51 C +ATOM 9220 CD2 LEU L 156 -36.801 -10.428 133.765 1.00 27.13 C +ATOM 9221 N ASN L 157 -37.652 -4.741 134.702 1.00 23.42 N +ATOM 9222 CA ASN L 157 -37.432 -3.365 134.262 1.00 24.16 C +ATOM 9223 C ASN L 157 -35.949 -3.018 134.184 1.00 24.85 C +ATOM 9224 O ASN L 157 -35.197 -3.239 135.140 1.00 26.47 O +ATOM 9225 CB ASN L 157 -38.129 -2.363 135.177 1.00 21.94 C +ATOM 9226 CG ASN L 157 -38.535 -1.111 134.430 1.00 29.41 C +ATOM 9227 OD1 ASN L 157 -39.078 -1.192 133.317 1.00 30.94 O +ATOM 9228 ND2 ASN L 157 -38.222 0.050 134.995 1.00 26.03 N +ATOM 9229 N ASN L 158 -35.555 -2.443 133.050 1.00 23.33 N +ATOM 9230 CA ASN L 158 -34.297 -1.709 132.887 1.00 25.87 C +ATOM 9231 C ASN L 158 -33.073 -2.594 133.142 1.00 26.13 C +ATOM 9232 O ASN L 158 -32.223 -2.296 133.984 1.00 23.26 O +ATOM 9233 CB ASN L 158 -34.277 -0.476 133.799 1.00 29.34 C +ATOM 9234 CG ASN L 158 -35.246 0.613 133.349 1.00 32.28 C +ATOM 9235 OD1 ASN L 158 -35.985 0.453 132.379 1.00 33.38 O +ATOM 9236 ND2 ASN L 158 -35.236 1.733 134.057 1.00 33.58 N +ATOM 9237 N PHE L 159 -32.980 -3.687 132.390 1.00 26.10 N +ATOM 9238 CA PHE L 159 -31.857 -4.599 132.549 1.00 23.86 C +ATOM 9239 C PHE L 159 -31.017 -4.682 131.277 1.00 25.89 C +ATOM 9240 O PHE L 159 -31.439 -4.271 130.188 1.00 26.35 O +ATOM 9241 CB PHE L 159 -32.331 -5.996 132.954 1.00 24.68 C +ATOM 9242 CG PHE L 159 -33.196 -6.661 131.930 1.00 28.19 C +ATOM 9243 CD1 PHE L 159 -34.571 -6.480 131.945 1.00 24.81 C +ATOM 9244 CD2 PHE L 159 -32.640 -7.463 130.951 1.00 29.82 C +ATOM 9245 CE1 PHE L 159 -35.367 -7.090 131.009 1.00 26.68 C +ATOM 9246 CE2 PHE L 159 -33.443 -8.081 129.997 1.00 27.62 C +ATOM 9247 CZ PHE L 159 -34.802 -7.896 130.032 1.00 26.85 C +ATOM 9248 N TYR L 160 -29.802 -5.236 131.433 1.00 25.71 N +ATOM 9249 CA TYR L 160 -28.853 -5.420 130.341 1.00 24.18 C +ATOM 9250 C TYR L 160 -27.844 -6.488 130.734 1.00 26.52 C +ATOM 9251 O TYR L 160 -27.321 -6.441 131.858 1.00 28.01 O +ATOM 9252 CB TYR L 160 -28.108 -4.125 129.976 1.00 22.37 C +ATOM 9253 CG TYR L 160 -27.249 -4.308 128.744 1.00 22.64 C +ATOM 9254 CD1 TYR L 160 -25.950 -4.821 128.834 1.00 25.62 C +ATOM 9255 CD2 TYR L 160 -27.754 -4.027 127.483 1.00 24.62 C +ATOM 9256 CE1 TYR L 160 -25.178 -5.028 127.703 1.00 29.41 C +ATOM 9257 CE2 TYR L 160 -26.994 -4.229 126.353 1.00 23.79 C +ATOM 9258 CZ TYR L 160 -25.708 -4.726 126.459 1.00 29.23 C +ATOM 9259 OH TYR L 160 -24.966 -4.916 125.312 1.00 32.74 O +ATOM 9260 N PRO L 161 -27.519 -7.442 129.844 1.00 27.63 N +ATOM 9261 CA PRO L 161 -28.044 -7.575 128.479 1.00 25.31 C +ATOM 9262 C PRO L 161 -29.413 -8.239 128.393 1.00 26.40 C +ATOM 9263 O PRO L 161 -30.023 -8.541 129.418 1.00 27.51 O +ATOM 9264 CB PRO L 161 -26.988 -8.445 127.792 1.00 28.07 C +ATOM 9265 CG PRO L 161 -26.496 -9.326 128.879 1.00 27.57 C +ATOM 9266 CD PRO L 161 -26.545 -8.506 130.159 1.00 25.22 C +ATOM 9267 N ARG L 162 -29.869 -8.466 127.153 1.00 28.51 N +ATOM 9268 CA ARG L 162 -31.240 -8.892 126.892 1.00 32.59 C +ATOM 9269 C ARG L 162 -31.565 -10.258 127.487 1.00 32.62 C +ATOM 9270 O ARG L 162 -32.721 -10.510 127.843 1.00 33.17 O +ATOM 9271 CB ARG L 162 -31.495 -8.908 125.381 1.00 38.24 C +ATOM 9272 CG ARG L 162 -32.902 -9.334 124.979 1.00 44.33 C +ATOM 9273 CD ARG L 162 -33.054 -9.410 123.458 1.00 53.88 C +ATOM 9274 NE ARG L 162 -33.043 -8.088 122.845 1.00 60.78 N +ATOM 9275 CZ ARG L 162 -33.057 -7.862 121.536 1.00 65.95 C +ATOM 9276 NH1 ARG L 162 -33.077 -8.878 120.684 1.00 70.22 N +ATOM 9277 NH2 ARG L 162 -33.049 -6.617 121.078 1.00 66.39 N +ATOM 9278 N GLU L 163 -30.589 -11.151 127.595 1.00 33.19 N +ATOM 9279 CA GLU L 163 -30.891 -12.523 127.985 1.00 33.72 C +ATOM 9280 C GLU L 163 -31.412 -12.579 129.421 1.00 31.75 C +ATOM 9281 O GLU L 163 -30.832 -11.975 130.326 1.00 35.37 O +ATOM 9282 CB GLU L 163 -29.643 -13.395 127.821 1.00 35.27 C +ATOM 9283 CG GLU L 163 -29.256 -13.687 126.356 0.75 38.80 C +ATOM 9284 CD GLU L 163 -28.694 -12.481 125.589 0.34 42.10 C +ATOM 9285 OE1 GLU L 163 -28.000 -11.627 126.185 1.00 42.38 O +ATOM 9286 OE2 GLU L 163 -28.943 -12.392 124.365 0.76 43.58 O +ATOM 9287 N ALA L 164 -32.510 -13.307 129.626 1.00 28.97 N +ATOM 9288 CA ALA L 164 -33.159 -13.397 130.935 1.00 33.47 C +ATOM 9289 C ALA L 164 -34.149 -14.554 130.929 1.00 33.61 C +ATOM 9290 O ALA L 164 -34.746 -14.873 129.896 1.00 35.76 O +ATOM 9291 CB ALA L 164 -33.887 -12.100 131.305 1.00 29.71 C +ATOM 9292 N LYS L 165 -34.320 -15.178 132.088 1.00 33.74 N +ATOM 9293 CA LYS L 165 -35.273 -16.274 132.236 1.00 37.69 C +ATOM 9294 C LYS L 165 -36.327 -15.912 133.272 1.00 36.36 C +ATOM 9295 O LYS L 165 -36.003 -15.394 134.349 1.00 33.97 O +ATOM 9296 CB LYS L 165 -34.581 -17.579 132.644 1.00 41.03 C +ATOM 9297 CG LYS L 165 -35.504 -18.794 132.616 1.00 46.69 C +ATOM 9298 CD LYS L 165 -34.763 -20.092 132.947 1.00 51.27 C +ATOM 9299 CE LYS L 165 -34.376 -20.159 134.418 1.00 56.32 C +ATOM 9300 NZ LYS L 165 -33.768 -21.471 134.789 1.00 59.86 N +ATOM 9301 N VAL L 166 -37.585 -16.205 132.945 1.00 37.11 N +ATOM 9302 CA VAL L 166 -38.720 -15.941 133.818 1.00 37.11 C +ATOM 9303 C VAL L 166 -39.483 -17.241 134.036 1.00 35.52 C +ATOM 9304 O VAL L 166 -39.913 -17.884 133.071 1.00 32.24 O +ATOM 9305 CB VAL L 166 -39.651 -14.859 133.233 1.00 36.92 C +ATOM 9306 CG1 VAL L 166 -40.834 -14.653 134.148 1.00 37.27 C +ATOM 9307 CG2 VAL L 166 -38.891 -13.561 133.048 1.00 36.51 C +ATOM 9308 N GLN L 167 -39.666 -17.608 135.301 1.00 34.47 N +ATOM 9309 CA GLN L 167 -40.285 -18.863 135.713 1.00 38.83 C +ATOM 9310 C GLN L 167 -41.540 -18.584 136.537 1.00 35.12 C +ATOM 9311 O GLN L 167 -41.473 -17.858 137.532 1.00 35.08 O +ATOM 9312 CB GLN L 167 -39.284 -19.670 136.547 1.00 41.26 C +ATOM 9313 CG GLN L 167 -39.615 -21.115 136.718 1.00 45.91 C +ATOM 9314 CD GLN L 167 -39.052 -21.960 135.595 1.00 52.62 C +ATOM 9315 OE1 GLN L 167 -39.585 -21.972 134.479 1.00 58.46 O +ATOM 9316 NE2 GLN L 167 -37.965 -22.672 135.879 1.00 49.41 N +ATOM 9317 N TRP L 168 -42.673 -19.171 136.146 1.00 33.96 N +ATOM 9318 CA TRP L 168 -43.923 -19.037 136.896 1.00 34.67 C +ATOM 9319 C TRP L 168 -44.212 -20.286 137.723 1.00 35.57 C +ATOM 9320 O TRP L 168 -44.068 -21.410 137.234 1.00 39.00 O +ATOM 9321 CB TRP L 168 -45.113 -18.797 135.966 1.00 33.58 C +ATOM 9322 CG TRP L 168 -45.230 -17.418 135.410 1.00 34.11 C +ATOM 9323 CD1 TRP L 168 -44.932 -17.017 134.143 1.00 35.01 C +ATOM 9324 CD2 TRP L 168 -45.721 -16.260 136.092 1.00 37.64 C +ATOM 9325 NE1 TRP L 168 -45.196 -15.675 133.994 1.00 34.46 N +ATOM 9326 CE2 TRP L 168 -45.679 -15.186 135.179 1.00 37.78 C +ATOM 9327 CE3 TRP L 168 -46.190 -16.025 137.385 1.00 36.61 C +ATOM 9328 CZ2 TRP L 168 -46.083 -13.897 135.523 1.00 36.85 C +ATOM 9329 CZ3 TRP L 168 -46.587 -14.745 137.726 1.00 37.32 C +ATOM 9330 CH2 TRP L 168 -46.530 -13.699 136.803 1.00 36.39 C +ATOM 9331 N LYS L 169 -44.660 -20.087 138.965 1.00 33.55 N +ATOM 9332 CA LYS L 169 -45.120 -21.187 139.809 1.00 35.64 C +ATOM 9333 C LYS L 169 -46.418 -20.806 140.512 1.00 33.08 C +ATOM 9334 O LYS L 169 -46.499 -19.751 141.147 1.00 34.46 O +ATOM 9335 CB LYS L 169 -44.058 -21.589 140.845 1.00 37.26 C +ATOM 9336 CG LYS L 169 -42.848 -22.280 140.218 1.00 39.48 C +ATOM 9337 CD LYS L 169 -41.911 -22.880 141.249 1.00 42.28 C +ATOM 9338 CE LYS L 169 -40.848 -23.742 140.578 1.00 44.13 C +ATOM 9339 NZ LYS L 169 -39.946 -24.385 141.574 1.00 46.00 N +ATOM 9340 N VAL L 170 -47.425 -21.667 140.395 1.00 29.04 N +ATOM 9341 CA VAL L 170 -48.713 -21.493 141.064 1.00 32.90 C +ATOM 9342 C VAL L 170 -48.825 -22.586 142.119 1.00 35.62 C +ATOM 9343 O VAL L 170 -48.921 -23.773 141.785 1.00 36.30 O +ATOM 9344 CB VAL L 170 -49.886 -21.546 140.077 1.00 34.16 C +ATOM 9345 CG1 VAL L 170 -51.216 -21.507 140.821 1.00 35.94 C +ATOM 9346 CG2 VAL L 170 -49.796 -20.398 139.081 1.00 31.64 C +ATOM 9347 N ASP L 171 -48.814 -22.188 143.392 1.00 38.98 N +ATOM 9348 CA ASP L 171 -48.728 -23.116 144.522 1.00 42.00 C +ATOM 9349 C ASP L 171 -47.551 -24.080 144.356 1.00 39.75 C +ATOM 9350 O ASP L 171 -47.696 -25.300 144.428 1.00 44.44 O +ATOM 9351 CB ASP L 171 -50.046 -23.872 144.715 1.00 44.21 C +ATOM 9352 CG ASP L 171 -51.097 -23.036 145.420 1.00 47.10 C +ATOM 9353 OD1 ASP L 171 -50.703 -22.177 146.239 1.00 49.81 O +ATOM 9354 OD2 ASP L 171 -52.311 -23.236 145.163 1.00 45.02 O +ATOM 9355 N ASN L 172 -46.373 -23.507 144.122 1.00 39.19 N +ATOM 9356 CA ASN L 172 -45.115 -24.231 143.914 1.00 40.70 C +ATOM 9357 C ASN L 172 -45.203 -25.263 142.787 1.00 39.08 C +ATOM 9358 O ASN L 172 -44.396 -26.193 142.725 1.00 38.80 O +ATOM 9359 CB ASN L 172 -44.628 -24.897 145.210 1.00 41.62 C +ATOM 9360 CG ASN L 172 -43.115 -25.117 145.230 1.00 45.82 C +ATOM 9361 OD1 ASN L 172 -42.350 -24.358 144.619 1.00 44.32 O +ATOM 9362 ND2 ASN L 172 -42.679 -26.162 145.927 1.00 47.42 N +ATOM 9363 N ALA L 173 -46.156 -25.117 141.877 1.00 39.12 N +ATOM 9364 CA ALA L 173 -46.283 -26.001 140.727 1.00 35.73 C +ATOM 9365 C ALA L 173 -45.846 -25.227 139.495 1.00 34.47 C +ATOM 9366 O ALA L 173 -46.391 -24.153 139.209 1.00 32.84 O +ATOM 9367 CB ALA L 173 -47.715 -26.522 140.578 1.00 35.55 C +ATOM 9368 N LEU L 174 -44.857 -25.769 138.782 1.00 30.94 N +ATOM 9369 CA LEU L 174 -44.251 -25.076 137.653 1.00 34.89 C +ATOM 9370 C LEU L 174 -45.237 -24.951 136.497 1.00 34.97 C +ATOM 9371 O LEU L 174 -45.842 -25.940 136.073 1.00 35.75 O +ATOM 9372 CB LEU L 174 -42.997 -25.821 137.202 1.00 37.91 C +ATOM 9373 CG LEU L 174 -42.278 -25.247 135.989 1.00 37.20 C +ATOM 9374 CD1 LEU L 174 -41.669 -23.929 136.383 1.00 38.24 C +ATOM 9375 CD2 LEU L 174 -41.212 -26.204 135.508 1.00 38.25 C +ATOM 9376 N GLN L 175 -45.393 -23.734 135.980 1.00 31.14 N +ATOM 9377 CA GLN L 175 -46.346 -23.474 134.909 1.00 31.08 C +ATOM 9378 C GLN L 175 -45.643 -23.565 133.563 1.00 31.02 C +ATOM 9379 O GLN L 175 -44.567 -22.994 133.375 1.00 33.11 O +ATOM 9380 CB GLN L 175 -46.997 -22.097 135.073 1.00 30.89 C +ATOM 9381 CG GLN L 175 -47.717 -21.891 136.393 1.00 31.47 C +ATOM 9382 CD GLN L 175 -48.950 -22.775 136.532 1.00 32.47 C +ATOM 9383 OE1 GLN L 175 -49.881 -22.688 135.740 1.00 34.60 O +ATOM 9384 NE2 GLN L 175 -48.951 -23.630 137.537 1.00 31.75 N +ATOM 9385 N SER L 176 -46.264 -24.269 132.622 1.00 34.51 N +ATOM 9386 CA ASER L 176 -45.695 -24.458 131.295 0.72 35.16 C +ATOM 9387 C SER L 176 -46.786 -24.261 130.253 1.00 34.83 C +ATOM 9388 O SER L 176 -47.881 -24.815 130.390 1.00 34.23 O +ATOM 9389 CB ASER L 176 -45.071 -25.856 131.161 0.72 36.05 C +ATOM 9390 OG ASER L 176 -44.115 -26.101 132.186 0.72 34.35 O +ATOM 9391 N GLY L 177 -46.486 -23.467 129.223 1.00 36.62 N +ATOM 9392 CA GLY L 177 -47.371 -23.289 128.088 1.00 36.33 C +ATOM 9393 C GLY L 177 -48.462 -22.246 128.225 1.00 35.96 C +ATOM 9394 O GLY L 177 -49.220 -22.049 127.270 1.00 35.86 O +ATOM 9395 N ASN L 178 -48.574 -21.570 129.369 1.00 34.38 N +ATOM 9396 CA ASN L 178 -49.636 -20.592 129.583 1.00 33.18 C +ATOM 9397 C ASN L 178 -49.095 -19.186 129.858 1.00 33.54 C +ATOM 9398 O ASN L 178 -49.828 -18.333 130.382 1.00 31.53 O +ATOM 9399 CB ASN L 178 -50.562 -21.053 130.714 1.00 31.26 C +ATOM 9400 CG ASN L 178 -49.816 -21.353 131.998 1.00 31.05 C +ATOM 9401 OD1 ASN L 178 -48.589 -21.222 132.068 1.00 35.66 O +ATOM 9402 ND2 ASN L 178 -50.553 -21.740 133.030 1.00 28.97 N +ATOM 9403 N SER L 179 -47.839 -18.930 129.493 1.00 34.53 N +ATOM 9404 CA SER L 179 -47.178 -17.636 129.625 1.00 39.49 C +ATOM 9405 C SER L 179 -46.791 -17.093 128.254 1.00 38.91 C +ATOM 9406 O SER L 179 -46.516 -17.856 127.328 1.00 36.46 O +ATOM 9407 CB SER L 179 -45.900 -17.739 130.461 1.00 43.23 C +ATOM 9408 OG SER L 179 -46.173 -18.237 131.749 1.00 52.25 O +ATOM 9409 N GLN L 180 -46.748 -15.764 128.135 1.00 38.99 N +ATOM 9410 CA GLN L 180 -46.202 -15.100 126.953 1.00 38.15 C +ATOM 9411 C GLN L 180 -45.344 -13.929 127.409 1.00 32.07 C +ATOM 9412 O GLN L 180 -45.717 -13.218 128.344 1.00 27.61 O +ATOM 9413 CB GLN L 180 -47.314 -14.598 126.012 1.00 41.41 C +ATOM 9414 CG GLN L 180 -48.390 -15.636 125.688 1.00 51.59 C +ATOM 9415 CD GLN L 180 -49.311 -15.209 124.557 1.00 60.78 C +ATOM 9416 OE1 GLN L 180 -50.348 -14.571 124.778 1.00 62.44 O +ATOM 9417 NE2 GLN L 180 -48.939 -15.569 123.332 1.00 65.22 N +ATOM 9418 N GLU L 181 -44.203 -13.710 126.762 1.00 30.74 N +ATOM 9419 CA GLU L 181 -43.392 -12.555 127.120 1.00 31.23 C +ATOM 9420 C GLU L 181 -43.202 -11.616 125.937 1.00 28.63 C +ATOM 9421 O GLU L 181 -43.251 -12.028 124.771 1.00 25.32 O +ATOM 9422 CB GLU L 181 -42.034 -12.961 127.694 1.00 39.57 C +ATOM 9423 CG GLU L 181 -41.176 -13.813 126.817 1.00 45.76 C +ATOM 9424 CD GLU L 181 -39.826 -14.077 127.454 1.00 53.60 C +ATOM 9425 OE1 GLU L 181 -38.795 -13.891 126.763 1.00 60.49 O +ATOM 9426 OE2 GLU L 181 -39.793 -14.459 128.647 1.00 51.85 O +ATOM 9427 N SER L 182 -43.020 -10.333 126.258 1.00 29.17 N +ATOM 9428 CA SER L 182 -42.700 -9.296 125.285 1.00 31.13 C +ATOM 9429 C SER L 182 -41.558 -8.446 125.822 1.00 28.30 C +ATOM 9430 O SER L 182 -41.485 -8.174 127.029 1.00 29.30 O +ATOM 9431 CB SER L 182 -43.901 -8.384 124.983 1.00 35.78 C +ATOM 9432 OG SER L 182 -45.093 -9.127 124.868 1.00 41.80 O +ATOM 9433 N VAL L 183 -40.670 -8.030 124.921 1.00 22.55 N +ATOM 9434 CA VAL L 183 -39.481 -7.263 125.264 1.00 20.50 C +ATOM 9435 C VAL L 183 -39.525 -5.940 124.525 1.00 23.31 C +ATOM 9436 O VAL L 183 -39.915 -5.890 123.353 1.00 22.75 O +ATOM 9437 CB VAL L 183 -38.198 -8.040 124.895 1.00 24.04 C +ATOM 9438 CG1 VAL L 183 -36.942 -7.286 125.372 1.00 22.00 C +ATOM 9439 CG2 VAL L 183 -38.251 -9.444 125.477 1.00 27.35 C +ATOM 9440 N THR L 184 -39.098 -4.872 125.191 1.00 23.55 N +ATOM 9441 CA THR L 184 -38.889 -3.621 124.476 1.00 26.02 C +ATOM 9442 C THR L 184 -37.525 -3.623 123.784 1.00 28.79 C +ATOM 9443 O THR L 184 -36.621 -4.378 124.141 1.00 26.77 O +ATOM 9444 CB THR L 184 -38.972 -2.419 125.425 1.00 29.36 C +ATOM 9445 OG1 THR L 184 -38.039 -2.593 126.505 1.00 31.27 O +ATOM 9446 CG2 THR L 184 -40.377 -2.268 125.986 1.00 28.37 C +ATOM 9447 N GLU L 185 -37.399 -2.782 122.760 1.00 28.10 N +ATOM 9448 CA AGLU L 185 -36.091 -2.545 122.175 0.66 29.60 C +ATOM 9449 C GLU L 185 -35.268 -1.644 123.097 1.00 28.10 C +ATOM 9450 O GLU L 185 -35.775 -1.043 124.052 1.00 30.77 O +ATOM 9451 CB AGLU L 185 -36.226 -1.932 120.777 0.66 31.60 C +ATOM 9452 CG AGLU L 185 -36.766 -2.895 119.721 0.66 32.20 C +ATOM 9453 CD AGLU L 185 -35.987 -4.204 119.674 0.66 35.37 C +ATOM 9454 OE1AGLU L 185 -34.770 -4.172 119.386 0.66 36.54 O +ATOM 9455 OE2AGLU L 185 -36.589 -5.271 119.935 0.66 36.42 O +ATOM 9456 N GLN L 186 -33.969 -1.569 122.816 1.00 26.81 N +ATOM 9457 CA GLN L 186 -33.056 -0.833 123.689 1.00 27.91 C +ATOM 9458 C GLN L 186 -33.545 0.583 123.927 1.00 27.60 C +ATOM 9459 O GLN L 186 -33.941 1.282 122.993 1.00 28.10 O +ATOM 9460 CB GLN L 186 -31.649 -0.801 123.095 1.00 25.13 C +ATOM 9461 CG GLN L 186 -30.708 -1.724 123.796 1.00 25.11 C +ATOM 9462 CD GLN L 186 -29.273 -1.521 123.353 1.00 28.65 C +ATOM 9463 OE1 GLN L 186 -29.003 -1.173 122.190 1.00 25.16 O +ATOM 9464 NE2 GLN L 186 -28.346 -1.700 124.284 1.00 22.89 N +ATOM 9465 N ASP L 187 -33.525 0.999 125.189 1.00 26.45 N +ATOM 9466 CA ASP L 187 -34.099 2.286 125.541 1.00 31.95 C +ATOM 9467 C ASP L 187 -33.246 3.422 124.987 1.00 31.99 C +ATOM 9468 O ASP L 187 -32.019 3.319 124.884 1.00 28.32 O +ATOM 9469 CB ASP L 187 -34.252 2.403 127.056 1.00 34.82 C +ATOM 9470 CG ASP L 187 -34.898 3.704 127.481 1.00 43.19 C +ATOM 9471 OD1 ASP L 187 -34.162 4.698 127.651 1.00 45.30 O +ATOM 9472 OD2 ASP L 187 -36.144 3.736 127.643 1.00 47.50 O +ATOM 9473 N SER L 188 -33.921 4.517 124.617 1.00 34.50 N +ATOM 9474 CA ASER L 188 -33.232 5.635 123.980 0.50 36.28 C +ATOM 9475 C SER L 188 -32.364 6.407 124.965 1.00 35.51 C +ATOM 9476 O SER L 188 -31.360 7.013 124.563 1.00 32.99 O +ATOM 9477 CB ASER L 188 -34.250 6.571 123.326 0.50 37.52 C +ATOM 9478 OG ASER L 188 -33.602 7.642 122.669 0.50 40.20 O +ATOM 9479 N LYS L 189 -32.719 6.391 126.251 1.00 35.72 N +ATOM 9480 CA LYS L 189 -31.980 7.147 127.254 1.00 33.63 C +ATOM 9481 C LYS L 189 -30.827 6.353 127.865 1.00 32.32 C +ATOM 9482 O LYS L 189 -29.700 6.859 127.954 1.00 28.20 O +ATOM 9483 CB LYS L 189 -32.941 7.617 128.345 1.00 35.63 C +ATOM 9484 CG LYS L 189 -34.005 8.538 127.793 1.00 37.57 C +ATOM 9485 CD LYS L 189 -34.963 8.988 128.850 1.00 42.96 C +ATOM 9486 CE LYS L 189 -36.107 9.761 128.217 1.00 44.55 C +ATOM 9487 NZ LYS L 189 -37.076 10.164 129.251 1.00 46.24 N +ATOM 9488 N ASP L 190 -31.081 5.116 128.292 1.00 31.04 N +ATOM 9489 CA ASP L 190 -30.087 4.372 129.051 1.00 31.15 C +ATOM 9490 C ASP L 190 -29.672 3.043 128.429 1.00 29.08 C +ATOM 9491 O ASP L 190 -28.857 2.339 129.029 1.00 26.01 O +ATOM 9492 CB ASP L 190 -30.583 4.142 130.489 1.00 31.75 C +ATOM 9493 CG ASP L 190 -31.855 3.292 130.564 1.00 33.84 C +ATOM 9494 OD1 ASP L 190 -32.260 2.682 129.550 1.00 30.80 O +ATOM 9495 OD2 ASP L 190 -32.451 3.231 131.663 1.00 35.59 O +ATOM 9496 N SER L 191 -30.204 2.671 127.261 1.00 26.89 N +ATOM 9497 CA SER L 191 -29.759 1.478 126.522 1.00 25.79 C +ATOM 9498 C SER L 191 -30.058 0.163 127.248 1.00 25.82 C +ATOM 9499 O SER L 191 -29.389 -0.839 126.999 1.00 23.94 O +ATOM 9500 CB SER L 191 -28.262 1.540 126.191 1.00 25.48 C +ATOM 9501 OG SER L 191 -27.947 2.704 125.458 1.00 27.48 O +ATOM 9502 N THR L 192 -31.055 0.129 128.132 1.00 23.13 N +ATOM 9503 CA THR L 192 -31.493 -1.118 128.748 1.00 23.97 C +ATOM 9504 C THR L 192 -32.699 -1.688 128.012 1.00 21.28 C +ATOM 9505 O THR L 192 -33.291 -1.047 127.145 1.00 20.45 O +ATOM 9506 CB THR L 192 -31.868 -0.915 130.214 1.00 23.94 C +ATOM 9507 OG1 THR L 192 -32.963 0.005 130.281 1.00 24.68 O +ATOM 9508 CG2 THR L 192 -30.703 -0.361 130.980 1.00 19.89 C +ATOM 9509 N TYR L 193 -33.070 -2.905 128.400 1.00 22.88 N +ATOM 9510 CA TYR L 193 -34.294 -3.571 127.970 1.00 21.38 C +ATOM 9511 C TYR L 193 -35.274 -3.648 129.131 1.00 22.83 C +ATOM 9512 O TYR L 193 -34.893 -3.537 130.298 1.00 24.96 O +ATOM 9513 CB TYR L 193 -34.005 -4.991 127.464 1.00 24.24 C +ATOM 9514 CG TYR L 193 -32.990 -5.036 126.355 1.00 26.77 C +ATOM 9515 CD1 TYR L 193 -31.647 -5.254 126.630 1.00 28.77 C +ATOM 9516 CD2 TYR L 193 -33.371 -4.836 125.034 1.00 25.06 C +ATOM 9517 CE1 TYR L 193 -30.707 -5.274 125.619 1.00 31.92 C +ATOM 9518 CE2 TYR L 193 -32.449 -4.864 124.019 1.00 30.16 C +ATOM 9519 CZ TYR L 193 -31.118 -5.083 124.312 1.00 31.26 C +ATOM 9520 OH TYR L 193 -30.196 -5.108 123.302 1.00 33.02 O +ATOM 9521 N SER L 194 -36.551 -3.846 128.802 1.00 20.99 N +ATOM 9522 CA SER L 194 -37.559 -4.240 129.783 1.00 22.38 C +ATOM 9523 C SER L 194 -38.364 -5.406 129.228 1.00 22.93 C +ATOM 9524 O SER L 194 -38.497 -5.565 128.006 1.00 25.09 O +ATOM 9525 CB SER L 194 -38.509 -3.079 130.153 1.00 21.22 C +ATOM 9526 OG SER L 194 -37.839 -2.076 130.919 1.00 25.34 O +ATOM 9527 N LEU L 195 -38.928 -6.212 130.129 1.00 23.28 N +ATOM 9528 CA LEU L 195 -39.679 -7.388 129.705 1.00 21.33 C +ATOM 9529 C LEU L 195 -40.950 -7.559 130.528 1.00 24.93 C +ATOM 9530 O LEU L 195 -40.963 -7.328 131.744 1.00 25.75 O +ATOM 9531 CB LEU L 195 -38.817 -8.641 129.821 1.00 23.87 C +ATOM 9532 CG LEU L 195 -39.299 -9.954 129.212 1.00 27.76 C +ATOM 9533 CD1 LEU L 195 -38.069 -10.739 128.820 1.00 28.64 C +ATOM 9534 CD2 LEU L 195 -40.118 -10.746 130.207 1.00 25.85 C +ATOM 9535 N SER L 196 -42.011 -8.015 129.874 1.00 23.99 N +ATOM 9536 CA SER L 196 -43.241 -8.366 130.568 1.00 25.35 C +ATOM 9537 C SER L 196 -43.558 -9.826 130.289 1.00 29.23 C +ATOM 9538 O SER L 196 -43.501 -10.263 129.136 1.00 30.23 O +ATOM 9539 CB SER L 196 -44.401 -7.482 130.131 1.00 25.10 C +ATOM 9540 OG SER L 196 -44.783 -7.820 128.812 1.00 32.77 O +ATOM 9541 N SER L 197 -43.875 -10.577 131.340 1.00 26.32 N +ATOM 9542 CA SER L 197 -44.356 -11.947 131.212 1.00 26.95 C +ATOM 9543 C SER L 197 -45.773 -12.012 131.757 1.00 26.06 C +ATOM 9544 O SER L 197 -46.013 -11.642 132.910 1.00 29.04 O +ATOM 9545 CB SER L 197 -43.449 -12.928 131.956 1.00 28.30 C +ATOM 9546 OG SER L 197 -43.990 -14.235 131.888 1.00 30.84 O +ATOM 9547 N THR L 198 -46.705 -12.487 130.936 1.00 27.90 N +ATOM 9548 CA THR L 198 -48.123 -12.510 131.282 1.00 29.91 C +ATOM 9549 C THR L 198 -48.580 -13.956 131.411 1.00 32.18 C +ATOM 9550 O THR L 198 -48.520 -14.720 130.442 1.00 29.33 O +ATOM 9551 CB THR L 198 -48.960 -11.777 130.235 1.00 28.30 C +ATOM 9552 OG1 THR L 198 -48.496 -10.431 130.111 1.00 30.51 O +ATOM 9553 CG2 THR L 198 -50.427 -11.754 130.639 1.00 31.47 C +ATOM 9554 N LEU L 199 -49.035 -14.321 132.605 1.00 30.72 N +ATOM 9555 CA LEU L 199 -49.593 -15.638 132.874 1.00 30.47 C +ATOM 9556 C LEU L 199 -51.110 -15.568 132.723 1.00 32.34 C +ATOM 9557 O LEU L 199 -51.777 -14.795 133.420 1.00 29.87 O +ATOM 9558 CB LEU L 199 -49.192 -16.096 134.279 1.00 31.59 C +ATOM 9559 CG LEU L 199 -49.828 -17.380 134.809 1.00 33.66 C +ATOM 9560 CD1 LEU L 199 -49.401 -18.564 133.972 1.00 36.22 C +ATOM 9561 CD2 LEU L 199 -49.451 -17.596 136.265 1.00 31.71 C +ATOM 9562 N THR L 200 -51.657 -16.354 131.801 1.00 31.92 N +ATOM 9563 CA THR L 200 -53.086 -16.362 131.549 1.00 34.64 C +ATOM 9564 C THR L 200 -53.689 -17.676 132.021 1.00 39.08 C +ATOM 9565 O THR L 200 -53.159 -18.754 131.739 1.00 39.19 O +ATOM 9566 CB THR L 200 -53.407 -16.150 130.061 1.00 36.39 C +ATOM 9567 OG1 THR L 200 -52.840 -14.913 129.621 1.00 41.64 O +ATOM 9568 CG2 THR L 200 -54.917 -16.092 129.849 1.00 33.33 C +ATOM 9569 N LEU L 201 -54.805 -17.577 132.734 1.00 41.48 N +ATOM 9570 CA LEU L 201 -55.543 -18.763 133.132 1.00 42.17 C +ATOM 9571 C LEU L 201 -56.973 -18.341 133.420 1.00 39.05 C +ATOM 9572 O LEU L 201 -57.261 -17.154 133.583 1.00 37.06 O +ATOM 9573 CB LEU L 201 -54.880 -19.443 134.331 1.00 47.19 C +ATOM 9574 CG LEU L 201 -54.475 -18.502 135.457 1.00 48.65 C +ATOM 9575 CD1 LEU L 201 -55.601 -18.467 136.401 1.00 49.95 C +ATOM 9576 CD2 LEU L 201 -53.223 -18.966 136.164 1.00 48.59 C +ATOM 9577 N SER L 202 -57.870 -19.322 133.458 1.00 40.15 N +ATOM 9578 CA SER L 202 -59.282 -19.011 133.628 1.00 39.98 C +ATOM 9579 C SER L 202 -59.539 -18.426 135.011 1.00 38.60 C +ATOM 9580 O SER L 202 -58.770 -18.625 135.957 1.00 36.04 O +ATOM 9581 CB SER L 202 -60.149 -20.256 133.422 1.00 39.42 C +ATOM 9582 OG SER L 202 -59.976 -21.184 134.482 1.00 37.98 O +ATOM 9583 N LYS L 203 -60.637 -17.676 135.114 1.00 39.24 N +ATOM 9584 CA LYS L 203 -61.051 -17.159 136.411 1.00 37.51 C +ATOM 9585 C LYS L 203 -61.290 -18.293 137.397 1.00 37.67 C +ATOM 9586 O LYS L 203 -60.928 -18.189 138.576 1.00 37.66 O +ATOM 9587 CB LYS L 203 -62.309 -16.307 136.254 1.00 38.93 C +ATOM 9588 CG LYS L 203 -62.936 -15.883 137.568 1.00 40.14 C +ATOM 9589 CD LYS L 203 -64.176 -15.058 137.308 1.00 42.52 C +ATOM 9590 CE LYS L 203 -64.794 -14.539 138.591 1.00 45.68 C +ATOM 9591 NZ LYS L 203 -66.063 -13.812 138.276 1.00 49.16 N +ATOM 9592 N ALA L 204 -61.880 -19.395 136.928 1.00 37.07 N +ATOM 9593 CA ALA L 204 -62.132 -20.526 137.815 1.00 38.90 C +ATOM 9594 C ALA L 204 -60.829 -21.144 138.311 1.00 38.60 C +ATOM 9595 O ALA L 204 -60.713 -21.473 139.496 1.00 40.33 O +ATOM 9596 CB ALA L 204 -63.003 -21.569 137.113 1.00 38.31 C +ATOM 9597 N ASP L 205 -59.830 -21.295 137.430 1.00 36.71 N +ATOM 9598 CA ASP L 205 -58.542 -21.829 137.870 1.00 36.16 C +ATOM 9599 C ASP L 205 -57.830 -20.864 138.806 1.00 36.26 C +ATOM 9600 O ASP L 205 -57.204 -21.292 139.787 1.00 36.98 O +ATOM 9601 CB ASP L 205 -57.659 -22.153 136.666 1.00 43.72 C +ATOM 9602 CG ASP L 205 -58.031 -23.471 136.009 1.00 54.48 C +ATOM 9603 OD1 ASP L 205 -58.582 -24.352 136.710 1.00 58.62 O +ATOM 9604 OD2 ASP L 205 -57.776 -23.628 134.797 1.00 58.47 O +ATOM 9605 N TYR L 206 -57.918 -19.559 138.524 1.00 37.19 N +ATOM 9606 CA TYR L 206 -57.288 -18.558 139.386 1.00 36.19 C +ATOM 9607 C TYR L 206 -57.752 -18.688 140.831 1.00 37.82 C +ATOM 9608 O TYR L 206 -56.936 -18.673 141.758 1.00 37.62 O +ATOM 9609 CB TYR L 206 -57.576 -17.148 138.867 1.00 33.49 C +ATOM 9610 CG TYR L 206 -56.926 -16.087 139.726 1.00 32.89 C +ATOM 9611 CD1 TYR L 206 -55.536 -15.974 139.793 1.00 32.69 C +ATOM 9612 CD2 TYR L 206 -57.691 -15.215 140.485 1.00 32.34 C +ATOM 9613 CE1 TYR L 206 -54.934 -15.016 140.594 1.00 32.84 C +ATOM 9614 CE2 TYR L 206 -57.100 -14.259 141.291 1.00 33.52 C +ATOM 9615 CZ TYR L 206 -55.729 -14.157 141.338 1.00 32.51 C +ATOM 9616 OH TYR L 206 -55.161 -13.191 142.137 1.00 31.62 O +ATOM 9617 N GLU L 207 -59.066 -18.809 141.041 1.00 43.10 N +ATOM 9618 CA GLU L 207 -59.634 -18.848 142.384 1.00 51.25 C +ATOM 9619 C GLU L 207 -59.399 -20.171 143.103 1.00 53.37 C +ATOM 9620 O GLU L 207 -59.778 -20.287 144.275 1.00 54.26 O +ATOM 9621 CB GLU L 207 -61.132 -18.555 142.320 1.00 56.09 C +ATOM 9622 CG GLU L 207 -61.467 -17.240 141.647 1.00 62.09 C +ATOM 9623 CD GLU L 207 -62.887 -16.790 141.926 1.00 68.85 C +ATOM 9624 OE1 GLU L 207 -63.340 -16.942 143.084 1.00 74.91 O +ATOM 9625 OE2 GLU L 207 -63.551 -16.295 140.991 1.00 67.09 O +ATOM 9626 N LYS L 208 -58.792 -21.156 142.445 1.00 52.68 N +ATOM 9627 CA LYS L 208 -58.502 -22.449 143.049 1.00 52.62 C +ATOM 9628 C LYS L 208 -57.117 -22.518 143.676 1.00 50.94 C +ATOM 9629 O LYS L 208 -56.751 -23.571 144.208 1.00 49.07 O +ATOM 9630 CB LYS L 208 -58.632 -23.566 142.006 1.00 53.50 C +ATOM 9631 CG LYS L 208 -60.052 -23.871 141.543 1.00 56.41 C +ATOM 9632 CD LYS L 208 -60.039 -24.966 140.478 1.00 59.52 C +ATOM 9633 CE LYS L 208 -61.430 -25.259 139.945 1.00 62.80 C +ATOM 9634 NZ LYS L 208 -62.330 -25.754 141.023 1.00 64.88 N +ATOM 9635 N HIS L 209 -56.338 -21.437 143.626 1.00 48.42 N +ATOM 9636 CA HIS L 209 -54.968 -21.456 144.114 1.00 45.25 C +ATOM 9637 C HIS L 209 -54.670 -20.174 144.878 1.00 42.12 C +ATOM 9638 O HIS L 209 -55.358 -19.161 144.727 1.00 39.90 O +ATOM 9639 CB HIS L 209 -53.973 -21.636 142.965 1.00 46.31 C +ATOM 9640 CG HIS L 209 -54.089 -22.959 142.279 1.00 48.79 C +ATOM 9641 ND1 HIS L 209 -53.498 -24.104 142.770 1.00 49.97 N +ATOM 9642 CD2 HIS L 209 -54.746 -23.326 141.154 1.00 50.36 C +ATOM 9643 CE1 HIS L 209 -53.777 -25.117 141.968 1.00 50.74 C +ATOM 9644 NE2 HIS L 209 -54.533 -24.672 140.980 1.00 50.98 N +ATOM 9645 N LYS L 210 -53.621 -20.232 145.700 1.00 39.28 N +ATOM 9646 CA LYS L 210 -53.284 -19.148 146.611 1.00 38.48 C +ATOM 9647 C LYS L 210 -52.018 -18.405 146.205 1.00 35.85 C +ATOM 9648 O LYS L 210 -52.046 -17.183 146.036 1.00 36.71 O +ATOM 9649 CB LYS L 210 -53.135 -19.690 148.042 1.00 40.62 C +ATOM 9650 CG LYS L 210 -52.603 -18.672 149.030 1.00 43.38 C +ATOM 9651 CD LYS L 210 -52.504 -19.252 150.435 1.00 49.63 C +ATOM 9652 CE LYS L 210 -51.937 -18.233 151.421 1.00 53.62 C +ATOM 9653 NZ LYS L 210 -51.901 -18.732 152.826 1.00 56.42 N +ATOM 9654 N VAL L 211 -50.899 -19.106 146.066 1.00 34.19 N +ATOM 9655 CA VAL L 211 -49.587 -18.482 145.924 1.00 35.49 C +ATOM 9656 C VAL L 211 -49.236 -18.389 144.444 1.00 36.03 C +ATOM 9657 O VAL L 211 -49.230 -19.398 143.731 1.00 35.44 O +ATOM 9658 CB VAL L 211 -48.511 -19.263 146.692 1.00 36.53 C +ATOM 9659 CG1 VAL L 211 -47.190 -18.533 146.631 1.00 32.90 C +ATOM 9660 CG2 VAL L 211 -48.944 -19.471 148.142 1.00 40.69 C +ATOM 9661 N TYR L 212 -48.937 -17.178 143.987 1.00 35.91 N +ATOM 9662 CA TYR L 212 -48.532 -16.903 142.615 1.00 31.88 C +ATOM 9663 C TYR L 212 -47.174 -16.231 142.673 1.00 30.37 C +ATOM 9664 O TYR L 212 -47.027 -15.209 143.347 1.00 30.47 O +ATOM 9665 CB TYR L 212 -49.552 -16.002 141.911 1.00 33.10 C +ATOM 9666 CG TYR L 212 -50.856 -16.703 141.630 1.00 32.18 C +ATOM 9667 CD1 TYR L 212 -51.091 -17.285 140.400 1.00 31.47 C +ATOM 9668 CD2 TYR L 212 -51.839 -16.804 142.603 1.00 31.23 C +ATOM 9669 CE1 TYR L 212 -52.270 -17.938 140.141 1.00 32.90 C +ATOM 9670 CE2 TYR L 212 -53.020 -17.456 142.353 1.00 30.69 C +ATOM 9671 CZ TYR L 212 -53.229 -18.022 141.116 1.00 32.62 C +ATOM 9672 OH TYR L 212 -54.402 -18.679 140.849 1.00 34.46 O +ATOM 9673 N ALA L 213 -46.188 -16.803 141.981 1.00 32.46 N +ATOM 9674 CA ALA L 213 -44.812 -16.335 142.059 1.00 30.04 C +ATOM 9675 C ALA L 213 -44.189 -16.297 140.672 1.00 32.63 C +ATOM 9676 O ALA L 213 -44.473 -17.144 139.823 1.00 33.64 O +ATOM 9677 CB ALA L 213 -43.964 -17.230 142.965 1.00 29.83 C +ATOM 9678 N CYS L 214 -43.315 -15.313 140.456 1.00 30.67 N +ATOM 9679 CA CYS L 214 -42.481 -15.264 139.264 1.00 33.67 C +ATOM 9680 C CYS L 214 -41.026 -15.124 139.695 1.00 32.98 C +ATOM 9681 O CYS L 214 -40.704 -14.310 140.573 1.00 33.21 O +ATOM 9682 CB ACYS L 214 -42.892 -14.153 138.276 0.65 34.89 C +ATOM 9683 SG ACYS L 214 -42.629 -12.437 138.751 0.65 35.68 S +ATOM 9684 N GLU L 215 -40.161 -15.955 139.113 1.00 30.34 N +ATOM 9685 CA GLU L 215 -38.754 -16.047 139.487 1.00 31.78 C +ATOM 9686 C GLU L 215 -37.891 -15.683 138.286 1.00 32.99 C +ATOM 9687 O GLU L 215 -38.071 -16.230 137.194 1.00 33.50 O +ATOM 9688 CB GLU L 215 -38.403 -17.455 139.991 1.00 38.15 C +ATOM 9689 CG GLU L 215 -36.919 -17.655 140.319 1.00 44.81 C +ATOM 9690 CD GLU L 215 -36.570 -19.090 140.719 1.00 51.84 C +ATOM 9691 OE1 GLU L 215 -36.498 -19.374 141.936 1.00 54.60 O +ATOM 9692 OE2 GLU L 215 -36.369 -19.933 139.817 1.00 53.66 O +ATOM 9693 N VAL L 216 -36.937 -14.783 138.499 1.00 31.79 N +ATOM 9694 CA VAL L 216 -36.185 -14.149 137.426 1.00 32.38 C +ATOM 9695 C VAL L 216 -34.702 -14.480 137.578 1.00 32.51 C +ATOM 9696 O VAL L 216 -34.126 -14.315 138.662 1.00 31.96 O +ATOM 9697 CB VAL L 216 -36.415 -12.626 137.428 1.00 29.30 C +ATOM 9698 CG1 VAL L 216 -35.355 -11.921 136.614 1.00 26.40 C +ATOM 9699 CG2 VAL L 216 -37.813 -12.316 136.909 1.00 31.88 C +ATOM 9700 N THR L 217 -34.091 -14.944 136.493 1.00 33.23 N +ATOM 9701 CA THR L 217 -32.653 -15.176 136.419 1.00 35.00 C +ATOM 9702 C THR L 217 -32.042 -14.249 135.382 1.00 33.68 C +ATOM 9703 O THR L 217 -32.577 -14.109 134.277 1.00 32.32 O +ATOM 9704 CB THR L 217 -32.330 -16.629 136.059 1.00 38.16 C +ATOM 9705 OG1 THR L 217 -32.852 -17.493 137.072 1.00 40.75 O +ATOM 9706 CG2 THR L 217 -30.827 -16.827 135.970 1.00 40.56 C +ATOM 9707 N HIS L 218 -30.910 -13.641 135.732 1.00 34.46 N +ATOM 9708 CA HIS L 218 -30.250 -12.690 134.855 1.00 32.87 C +ATOM 9709 C HIS L 218 -28.791 -12.559 135.267 1.00 31.04 C +ATOM 9710 O HIS L 218 -28.455 -12.688 136.446 1.00 32.23 O +ATOM 9711 CB HIS L 218 -30.938 -11.320 134.897 1.00 30.37 C +ATOM 9712 CG HIS L 218 -30.365 -10.342 133.925 1.00 29.08 C +ATOM 9713 ND1 HIS L 218 -29.401 -9.422 134.274 1.00 28.31 N +ATOM 9714 CD2 HIS L 218 -30.587 -10.174 132.601 1.00 26.95 C +ATOM 9715 CE1 HIS L 218 -29.072 -8.712 133.212 1.00 28.98 C +ATOM 9716 NE2 HIS L 218 -29.776 -9.151 132.181 1.00 28.88 N +ATOM 9717 N GLN L 219 -27.937 -12.273 134.278 1.00 34.63 N +ATOM 9718 CA GLN L 219 -26.498 -12.150 134.517 1.00 38.27 C +ATOM 9719 C GLN L 219 -26.172 -11.175 135.648 1.00 37.78 C +ATOM 9720 O GLN L 219 -25.215 -11.391 136.400 1.00 37.26 O +ATOM 9721 CB GLN L 219 -25.799 -11.722 133.220 1.00 43.41 C +ATOM 9722 CG GLN L 219 -24.298 -11.493 133.354 1.00 49.01 C +ATOM 9723 CD GLN L 219 -23.625 -11.166 132.029 1.00 50.87 C +ATOM 9724 OE1 GLN L 219 -24.178 -11.415 130.958 1.00 48.68 O +ATOM 9725 NE2 GLN L 219 -22.421 -10.606 132.102 1.00 53.41 N +ATOM 9726 N GLY L 220 -26.954 -10.109 135.803 1.00 35.38 N +ATOM 9727 CA GLY L 220 -26.668 -9.159 136.865 1.00 31.68 C +ATOM 9728 C GLY L 220 -27.107 -9.576 138.256 1.00 34.44 C +ATOM 9729 O GLY L 220 -26.843 -8.843 139.212 1.00 33.57 O +ATOM 9730 N LEU L 221 -27.782 -10.714 138.396 1.00 35.12 N +ATOM 9731 CA LEU L 221 -28.269 -11.189 139.685 1.00 38.75 C +ATOM 9732 C LEU L 221 -27.410 -12.366 140.128 1.00 43.05 C +ATOM 9733 O LEU L 221 -27.265 -13.344 139.387 1.00 45.24 O +ATOM 9734 CB LEU L 221 -29.740 -11.597 139.599 1.00 34.25 C +ATOM 9735 CG LEU L 221 -30.754 -10.519 139.200 1.00 32.51 C +ATOM 9736 CD1 LEU L 221 -32.110 -11.158 138.917 1.00 31.99 C +ATOM 9737 CD2 LEU L 221 -30.889 -9.436 140.280 1.00 27.17 C +ATOM 9738 N SER L 222 -26.843 -12.271 141.334 1.00 46.39 N +ATOM 9739 CA SER L 222 -26.019 -13.359 141.851 1.00 49.86 C +ATOM 9740 C SER L 222 -26.851 -14.584 142.202 1.00 50.88 C +ATOM 9741 O SER L 222 -26.314 -15.695 142.249 1.00 51.49 O +ATOM 9742 CB SER L 222 -25.234 -12.887 143.075 1.00 51.19 C +ATOM 9743 OG SER L 222 -26.105 -12.332 144.044 1.00 54.05 O +ATOM 9744 N SER L 223 -28.145 -14.395 142.438 1.00 50.62 N +ATOM 9745 CA BSER L 223 -29.077 -15.466 142.746 0.52 51.19 C +ATOM 9746 C SER L 223 -30.443 -15.061 142.216 1.00 46.30 C +ATOM 9747 O SER L 223 -30.760 -13.868 142.186 1.00 42.22 O +ATOM 9748 CB BSER L 223 -29.146 -15.734 144.257 0.52 53.01 C +ATOM 9749 OG BSER L 223 -30.021 -16.809 144.547 0.52 54.95 O +ATOM 9750 N PRO L 224 -31.264 -16.017 141.783 1.00 45.71 N +ATOM 9751 CA PRO L 224 -32.581 -15.662 141.230 1.00 44.81 C +ATOM 9752 C PRO L 224 -33.454 -14.895 142.218 1.00 42.91 C +ATOM 9753 O PRO L 224 -33.455 -15.159 143.423 1.00 41.27 O +ATOM 9754 CB PRO L 224 -33.190 -17.023 140.883 1.00 45.45 C +ATOM 9755 CG PRO L 224 -31.996 -17.881 140.580 1.00 44.54 C +ATOM 9756 CD PRO L 224 -30.939 -17.437 141.559 1.00 45.75 C +ATOM 9757 N VAL L 225 -34.211 -13.935 141.686 1.00 39.88 N +ATOM 9758 CA VAL L 225 -35.132 -13.115 142.468 1.00 37.57 C +ATOM 9759 C VAL L 225 -36.552 -13.626 142.260 1.00 37.40 C +ATOM 9760 O VAL L 225 -36.950 -13.950 141.134 1.00 39.22 O +ATOM 9761 CB VAL L 225 -35.004 -11.630 142.074 1.00 36.99 C +ATOM 9762 CG1 VAL L 225 -36.085 -10.794 142.741 1.00 34.13 C +ATOM 9763 CG2 VAL L 225 -33.630 -11.115 142.457 1.00 39.55 C +ATOM 9764 N THR L 226 -37.317 -13.717 143.343 1.00 33.45 N +ATOM 9765 CA THR L 226 -38.704 -14.164 143.288 1.00 34.82 C +ATOM 9766 C THR L 226 -39.603 -13.076 143.851 1.00 32.06 C +ATOM 9767 O THR L 226 -39.352 -12.559 144.941 1.00 35.51 O +ATOM 9768 CB THR L 226 -38.913 -15.467 144.074 1.00 37.18 C +ATOM 9769 OG1 THR L 226 -38.071 -16.496 143.540 1.00 39.03 O +ATOM 9770 CG2 THR L 226 -40.359 -15.920 143.985 1.00 36.18 C +ATOM 9771 N LYS L 227 -40.628 -12.714 143.099 1.00 28.35 N +ATOM 9772 CA LYS L 227 -41.719 -11.891 143.599 1.00 27.18 C +ATOM 9773 C LYS L 227 -42.978 -12.744 143.615 1.00 30.64 C +ATOM 9774 O LYS L 227 -43.196 -13.549 142.703 1.00 33.77 O +ATOM 9775 CB LYS L 227 -41.931 -10.640 142.727 1.00 25.72 C +ATOM 9776 CG LYS L 227 -40.719 -9.721 142.625 1.00 29.54 C +ATOM 9777 CD LYS L 227 -40.308 -9.138 144.003 1.00 31.31 C +ATOM 9778 CE LYS L 227 -39.010 -8.343 143.895 1.00 31.64 C +ATOM 9779 NZ LYS L 227 -38.669 -7.626 145.158 1.00 38.73 N +ATOM 9780 N SER L 228 -43.801 -12.581 144.650 1.00 31.61 N +ATOM 9781 CA SER L 228 -45.018 -13.375 144.766 1.00 34.61 C +ATOM 9782 C SER L 228 -46.090 -12.590 145.505 1.00 33.55 C +ATOM 9783 O SER L 228 -45.828 -11.552 146.113 1.00 38.23 O +ATOM 9784 CB SER L 228 -44.751 -14.696 145.488 1.00 40.83 C +ATOM 9785 OG SER L 228 -43.850 -14.485 146.559 1.00 42.95 O +ATOM 9786 N PHE L 229 -47.306 -13.118 145.455 1.00 31.68 N +ATOM 9787 CA PHE L 229 -48.412 -12.620 146.257 1.00 33.96 C +ATOM 9788 C PHE L 229 -49.327 -13.793 146.573 1.00 37.98 C +ATOM 9789 O PHE L 229 -49.236 -14.862 145.958 1.00 37.72 O +ATOM 9790 CB PHE L 229 -49.188 -11.496 145.544 1.00 32.50 C +ATOM 9791 CG PHE L 229 -49.892 -11.942 144.288 1.00 32.85 C +ATOM 9792 CD1 PHE L 229 -49.277 -11.817 143.051 1.00 30.62 C +ATOM 9793 CD2 PHE L 229 -51.156 -12.498 144.345 1.00 30.97 C +ATOM 9794 CE1 PHE L 229 -49.921 -12.227 141.901 1.00 27.67 C +ATOM 9795 CE2 PHE L 229 -51.796 -12.919 143.196 1.00 32.39 C +ATOM 9796 CZ PHE L 229 -51.175 -12.781 141.974 1.00 29.33 C +ATOM 9797 N ASN L 230 -50.226 -13.575 147.532 1.00 37.74 N +ATOM 9798 CA ASN L 230 -51.249 -14.544 147.896 1.00 37.72 C +ATOM 9799 C ASN L 230 -52.610 -14.011 147.476 1.00 39.69 C +ATOM 9800 O ASN L 230 -52.972 -12.881 147.825 1.00 40.44 O +ATOM 9801 CB ASN L 230 -51.230 -14.830 149.402 1.00 42.49 C +ATOM 9802 CG ASN L 230 -49.973 -15.568 149.845 1.00 47.46 C +ATOM 9803 OD1 ASN L 230 -49.504 -16.489 149.167 1.00 46.56 O +ATOM 9804 ND2 ASN L 230 -49.420 -15.161 150.984 1.00 48.86 N +ATOM 9805 N ARG L 231 -53.359 -14.826 146.734 1.00 39.72 N +ATOM 9806 CA ARG L 231 -54.648 -14.397 146.211 1.00 45.57 C +ATOM 9807 C ARG L 231 -55.592 -14.001 147.337 1.00 53.57 C +ATOM 9808 O ARG L 231 -55.799 -14.761 148.287 1.00 51.93 O +ATOM 9809 CB ARG L 231 -55.275 -15.509 145.378 1.00 43.94 C +ATOM 9810 CG ARG L 231 -56.617 -15.129 144.789 1.00 44.98 C +ATOM 9811 CD ARG L 231 -57.304 -16.318 144.156 1.00 47.51 C +ATOM 9812 NE ARG L 231 -58.456 -16.731 144.945 1.00 53.03 N +ATOM 9813 CZ ARG L 231 -58.436 -17.722 145.824 1.00 54.96 C +ATOM 9814 NH1 ARG L 231 -57.321 -18.409 146.015 1.00 54.01 N +ATOM 9815 NH2 ARG L 231 -59.532 -18.032 146.501 1.00 58.32 N +ATOM 9816 N GLY L 232 -56.167 -12.802 147.222 1.00 65.45 N +ATOM 9817 CA GLY L 232 -57.161 -12.326 148.158 1.00 70.67 C +ATOM 9818 C GLY L 232 -56.624 -11.678 149.413 1.00 79.70 C +ATOM 9819 O GLY L 232 -57.396 -11.022 150.125 1.00 81.63 O +ATOM 9820 N GLU L 233 -55.338 -11.836 149.717 1.00 85.66 N +ATOM 9821 CA GLU L 233 -54.763 -11.274 150.929 1.00 89.64 C +ATOM 9822 C GLU L 233 -54.323 -9.831 150.697 1.00 99.94 C +ATOM 9823 O GLU L 233 -54.333 -9.325 149.574 1.00100.94 O +ATOM 9824 CB GLU L 233 -53.593 -12.127 151.414 1.00 83.64 C +ATOM 9825 CG GLU L 233 -53.986 -13.553 151.763 1.00 79.94 C +ATOM 9826 CD GLU L 233 -53.023 -14.199 152.736 1.00 78.07 C +ATOM 9827 OE1 GLU L 233 -52.362 -13.460 153.496 1.00 77.93 O +ATOM 9828 OE2 GLU L 233 -52.926 -15.445 152.743 1.00 77.16 O +ATOM 9829 N CYS L 234 -53.934 -9.174 151.791 1.00113.19 N +ATOM 9830 CA CYS L 234 -53.624 -7.740 151.829 1.00124.38 C +ATOM 9831 C CYS L 234 -54.887 -6.910 151.569 1.00127.15 C +ATOM 9832 O CYS L 234 -55.592 -7.079 150.574 1.00127.92 O +ATOM 9833 CB CYS L 234 -52.524 -7.385 150.820 1.00133.57 C +ATOM 9834 SG CYS L 234 -51.566 -5.881 151.162 1.00141.23 S +ATOM 9835 OXT CYS L 234 -55.241 -6.038 152.363 1.00128.22 O +HETATM 9836 CL CL L 235 -16.313 -18.661 94.741 1.00 68.00 CL +HETATM 9837 O HOH L 236 -39.944 -22.794 132.479 1.00 58.81 O +HETATM 9838 O HOH L 237 -36.696 6.665 125.846 1.00 43.35 O +HETATM 9839 O HOH L 238 -33.280 -2.285 114.426 1.00 45.39 O +HETATM 9840 O HOH L 239 -30.952 -12.360 144.086 1.00 53.20 O +HETATM 9841 O HOH L 240 -32.149 4.616 133.650 1.00 41.84 O +HETATM 9842 O HOH L 241 -50.668 -15.325 128.530 1.00 30.76 O +HETATM 9843 O HOH L 242 -46.047 -20.707 131.754 1.00 32.01 O +HETATM 9844 O HOH L 243 -49.463 -22.698 148.318 1.00 52.25 O +HETATM 9845 O HOH L 244 -39.133 -5.711 121.010 1.00 35.26 O +HETATM 9846 O HOH L 245 -56.454 -22.077 133.306 1.00 47.13 O +HETATM 9847 O HOH L 246 -20.920 1.402 124.265 1.00 33.00 O +HETATM 9848 O HOH L 247 -20.716 -13.818 110.803 1.00 56.53 O +HETATM 9849 O HOH L 248 -62.080 -17.217 132.558 1.00 44.64 O +HETATM 9850 O HOH L 249 -35.722 -16.256 144.542 1.00 38.36 O +HETATM 9851 O HOH L 250 -36.517 -0.541 126.835 1.00 20.09 O +HETATM 9852 O HOH L 251 -32.413 -14.449 95.126 1.00 39.21 O +HETATM 9853 O HOH L 252 -53.772 -12.215 129.531 1.00 38.69 O +HETATM 9854 O HOH L 253 -45.097 -27.725 134.358 1.00 31.71 O +HETATM 9855 O HOH L 254 -29.620 3.512 123.658 1.00 48.49 O +HETATM 9856 O HOH L 255 -32.975 -15.206 104.407 1.00 55.88 O +HETATM 9857 O HOH L 256 -70.907 -6.631 141.922 1.00 55.68 O +HETATM 9858 O HOH L 257 -32.014 -19.276 96.641 1.00 54.32 O +HETATM 9859 O HOH L 258 -19.902 -13.363 91.382 1.00 40.24 O +HETATM 9860 O HOH L 259 -50.875 -25.320 140.989 1.00 46.62 O +HETATM 9861 O HOH L 260 -34.688 3.204 108.252 1.00 31.01 O +HETATM 9862 O HOH L 261 -15.604 -0.133 105.930 1.00 27.46 O +HETATM 9863 O HOH L 262 -35.445 -10.832 106.106 1.00 28.28 O +HETATM 9864 O HOH L 263 -50.977 -13.144 126.914 1.00 44.65 O +HETATM 9865 O HOH L 264 -43.063 -10.673 146.335 1.00 41.02 O +HETATM 9866 O HOH L 265 -14.558 -3.278 98.717 1.00 40.62 O +HETATM 9867 O HOH L 266 -52.629 -8.225 136.030 1.00 30.53 O +HETATM 9868 O HOH L 267 -22.964 -6.657 125.549 1.00 51.09 O +HETATM 9869 O HOH L 268 -25.346 -1.198 135.945 1.00 44.69 O +HETATM 9870 O HOH L 269 -32.625 -3.121 120.590 1.00 43.72 O +HETATM 9871 O HOH L 270 -61.512 -23.327 134.028 1.00 43.95 O +HETATM 9872 O HOH L 271 -56.330 -7.297 135.375 1.00 31.14 O +HETATM 9873 O HOH L 272 -49.981 -11.390 149.066 1.00 42.02 O +HETATM 9874 O HOH L 273 -28.900 5.768 101.701 1.00 39.41 O +HETATM 9875 O HOH L 274 -12.296 0.922 114.257 1.00 32.59 O +HETATM 9876 O HOH L 275 -42.817 -20.888 134.062 1.00 40.63 O +HETATM 9877 O HOH L 276 -21.141 -5.258 128.834 1.00 44.00 O +HETATM 9878 O HOH L 277 -35.772 -4.352 110.925 1.00 27.53 O +HETATM 9879 O HOH L 278 -38.818 -19.058 144.004 1.00 47.49 O +HETATM 9880 O HOH L 279 -17.221 -0.845 99.352 1.00 31.65 O +HETATM 9881 O HOH L 280 -35.126 -11.459 127.026 1.00 35.97 O +HETATM 9882 O HOH L 281 -32.325 -12.688 84.576 1.00 24.19 O +HETATM 9883 O HOH L 282 -46.056 -20.811 143.855 1.00 37.60 O +HETATM 9884 O HOH L 283 -60.792 -1.586 134.594 1.00 32.60 O +HETATM 9885 O HOH L 284 -63.897 -18.730 145.084 1.00 49.05 O +HETATM 9886 O HOH L 285 -30.072 -1.267 117.410 1.00 32.13 O +HETATM 9887 O HOH L 286 -36.104 -13.840 127.743 1.00 48.77 O +HETATM 9888 O HOH L 287 -22.524 4.659 93.603 1.00 49.39 O +HETATM 9889 O HOH L 288 -26.312 -12.909 130.068 1.00 40.25 O +HETATM 9890 O HOH L 289 -30.811 7.329 93.575 1.00 46.01 O +HETATM 9891 O HOH L 290 -29.325 9.267 126.667 1.00 39.14 O +HETATM 9892 O HOH L 291 -46.365 -10.347 128.359 1.00 27.34 O +HETATM 9893 O HOH L 292 -36.693 -9.502 90.446 1.00 31.34 O +HETATM 9894 O HOH L 293 -28.401 -12.666 131.453 1.00 33.87 O +HETATM 9895 O HOH L 294 -33.624 -6.640 141.510 1.00 44.05 O +HETATM 9896 O HOH L 295 -29.316 -14.954 138.424 1.00 41.72 O +HETATM 9897 O HOH L 296 -17.839 2.405 95.943 1.00 32.89 O +HETATM 9898 O HOH L 297 -36.701 4.036 133.370 1.00 39.23 O +HETATM 9899 O HOH L 298 -30.581 -1.709 119.919 1.00 49.18 O +HETATM 9900 O HOH L 299 -36.176 -13.287 145.886 1.00 42.17 O +HETATM 9901 O HOH L 300 -29.402 -13.325 110.767 1.00 42.65 O +HETATM 9902 O HOH L 301 -65.112 -5.018 134.383 1.00 45.65 O +HETATM 9903 O HOH L 302 -20.516 -0.885 90.139 1.00 44.11 O +HETATM 9904 O HOH L 303 -34.471 -6.313 113.945 1.00 42.19 O +HETATM 9905 O HOH L 304 -51.344 -24.850 138.460 1.00 42.83 O +HETATM 9906 O HOH L 305 -35.301 4.356 101.304 1.00 37.75 O +HETATM 9907 O HOH L 306 -45.569 -20.524 127.643 1.00 36.11 O +HETATM 9908 O HOH L 307 -20.695 -4.666 133.114 1.00 36.32 O +HETATM 9909 O HOH L 308 -23.037 -10.733 88.961 1.00 24.48 O +HETATM 9910 O HOH L 309 -68.801 -11.759 137.006 1.00 35.22 O +HETATM 9911 O HOH L 310 -27.669 7.973 100.721 1.00 41.04 O +HETATM 9912 O HOH L 311 -25.850 5.652 109.671 1.00 37.73 O +HETATM 9913 O HOH L 312 -21.023 -7.397 100.049 1.00 24.34 O +HETATM 9914 O HOH L 313 -14.738 -4.151 103.032 1.00 38.24 O +HETATM 9915 O HOH L 314 -41.213 -9.193 122.345 1.00 36.28 O +HETATM 9916 O HOH L 315 -38.046 -16.720 130.134 1.00 37.68 O +HETATM 9917 O HOH L 316 -29.959 0.429 119.960 1.00 36.22 O +HETATM 9918 O HOH L 317 -33.725 -19.766 91.198 1.00 50.88 O +HETATM 9919 O HOH L 318 -33.415 -14.668 127.210 1.00 53.04 O +HETATM 9920 O HOH L 319 -39.970 -0.494 110.688 1.00 43.60 O +HETATM 9921 O HOH L 320 -47.328 -10.388 126.262 1.00 45.59 O +HETATM 9922 O HOH L 321 -27.320 -3.848 138.377 1.00 48.31 O +HETATM 9923 O HOH L 322 -36.759 0.058 137.524 1.00 41.93 O +HETATM 9924 O HOH L 323 -46.276 -8.668 145.965 1.00 33.65 O +HETATM 9925 O HOH L 324 -27.977 7.057 110.287 1.00 37.78 O +HETATM 9926 O HOH L 325 -56.825 -11.003 143.132 1.00 45.95 O +HETATM 9927 O HOH L 326 -43.348 -15.520 124.621 1.00 47.79 O +HETATM 9928 O HOH L 327 -35.614 -0.665 129.212 1.00 23.28 O +HETATM 9929 O HOH L 328 -16.497 -5.658 103.747 1.00 41.55 O +HETATM 9930 O HOH L 329 -31.993 3.911 108.101 1.00 42.72 O +HETATM 9931 O HOH L 330 -18.036 10.004 104.266 1.00 47.37 O +HETATM 9932 O HOH L 331 -27.604 -9.885 142.908 1.00 58.68 O +HETATM 9933 O HOH L 332 -22.614 -2.102 89.147 1.00 30.94 O +HETATM 9934 O HOH L 333 -19.093 -3.140 91.850 1.00 48.65 O +HETATM 9935 O HOH L 334 -22.318 1.770 89.324 1.00 39.47 O +HETATM 9936 O HOH L 335 -35.794 -17.995 136.469 1.00 41.89 O +HETATM 9937 O HOH L 336 -17.919 -7.501 113.892 1.00 37.14 O +HETATM 9938 O HOH L 337 -35.203 2.883 130.364 1.00 43.71 O +HETATM 9939 O HOH L 338 -45.862 -4.826 142.382 1.00 39.36 O +HETATM 9940 O HOH L 339 -33.272 2.123 136.311 1.00 46.50 O +HETATM 9941 O HOH L 340 -29.111 5.141 116.091 1.00 49.66 O +HETATM 9942 O HOH L 341 -58.788 -4.132 141.776 1.00 43.02 O +HETATM 9943 O HOH L 342 -43.885 -21.924 129.564 1.00 60.82 O +HETATM 9944 O HOH L 343 -36.190 -6.404 142.132 1.00 31.92 O +HETATM 9945 O HOH L 344 -28.820 -6.439 94.487 1.00 27.70 O +HETATM 9946 O HOH L 345 -39.818 -1.079 122.032 1.00 40.04 O +HETATM 9947 O HOH L 346 -35.756 5.557 130.109 1.00 36.21 O +HETATM 9948 O HOH L 347 -63.974 -8.903 141.364 1.00 51.09 O +HETATM 9949 O HOH L 348 -30.238 -11.228 87.085 1.00 46.24 O +HETATM 9950 O HOH L 349 -53.563 -22.236 132.736 1.00 46.07 O +HETATM 9951 O HOH L 350 -48.938 -25.549 133.403 1.00 45.90 O +HETATM 9952 O HOH L 351 -40.411 5.339 106.202 1.00 50.68 O +HETATM 9953 O HOH L 352 -20.811 3.591 122.702 1.00 50.32 O +HETATM 9954 O HOH L 353 -23.353 2.920 126.546 1.00 40.67 O +HETATM 9955 O HOH L 354 -38.104 -4.335 142.607 1.00 49.14 O +HETATM 9956 O HOH L 355 -43.943 -6.710 143.251 1.00 20.64 O +HETATM 9957 O HOH L 356 -50.911 -17.705 127.543 1.00 36.36 O +HETATM 9958 O HOH L 357 -14.767 -7.337 96.671 1.00 47.34 O +HETATM 9959 O HOH L 358 -41.562 -5.624 143.776 1.00 35.55 O +HETATM 9960 O HOH L 359 -34.883 -8.761 111.955 1.00 43.91 O +HETATM 9961 O HOH L 360 -22.799 1.759 130.660 1.00 36.38 O +HETATM 9962 O HOH L 361 -56.146 -6.917 142.799 1.00 45.47 O +HETATM 9963 O HOH L 362 -22.110 -3.209 136.035 1.00 44.49 O +HETATM 9964 O HOH L 363 -24.711 5.615 93.619 1.00 45.15 O +HETATM 9965 O HOH L 364 -27.893 6.171 107.097 1.00 49.64 O +HETATM 9966 O HOH L 365 -36.828 -12.496 100.393 1.00 23.29 O +HETATM 9967 O HOH L 366 -23.064 0.351 136.117 1.00 49.85 O +HETATM 9968 O HOH L 367 -28.234 -10.391 88.926 1.00 28.76 O +HETATM 9969 O HOH L 368 -12.916 -14.012 96.224 1.00 42.65 O +HETATM 9970 O HOH L 369 -43.756 -9.717 122.025 1.00 48.50 O +HETATM 9971 O HOH L 370 -12.640 -1.886 119.047 1.00 45.37 O +HETATM 9972 O HOH L 371 -28.031 -7.680 124.635 1.00 35.90 O +HETATM 9973 O HOH L 372 -48.158 -7.897 144.361 1.00 42.68 O +HETATM 9974 O HOH L 373 -45.386 -14.056 123.375 1.00 51.37 O +HETATM 9975 O HOH L 374 -44.405 -11.194 149.046 1.00 44.83 O +HETATM 9976 O HOH L 375 -60.480 -0.868 137.453 1.00 46.26 O +HETATM 9977 O HOH L 376 -55.141 -10.459 145.116 1.00 47.14 O +HETATM 9978 O HOH L 377 -60.028 -2.837 139.251 1.00 40.11 O +HETATM 9979 O HOH L 378 -30.193 7.267 114.794 1.00 55.53 O +HETATM 9980 O HOH L 379 -40.188 -7.923 120.511 1.00 48.59 O +HETATM 9981 O HOH L 380 -31.773 -2.990 140.392 1.00 51.57 O +HETATM 9982 O HOH L 381 -32.496 -17.407 94.719 1.00 54.97 O +HETATM 9983 O HOH L 382 -19.739 -0.628 128.310 1.00 51.68 O +HETATM 9984 O HOH L 383 -44.053 -8.233 145.574 1.00 40.57 O +HETATM 9985 O HOH L 384 -13.462 -3.409 101.029 1.00 50.56 O +HETATM 9986 O HOH L 385 -18.886 -2.918 129.757 1.00 52.66 O +HETATM 9987 O HOH L 386 -42.075 -21.077 130.885 1.00 55.83 O +HETATM 9988 O HOH L 387 -41.036 -15.623 123.743 1.00 49.01 O +HETATM 9989 O HOH L 388 -25.540 6.383 107.353 1.00 40.15 O +HETATM 9990 O HOH L 389 -24.001 3.607 128.835 1.00 45.93 O +HETATM 9991 O HOH L 390 -31.643 8.164 111.394 1.00 48.10 O +HETATM 9992 O HOH L 391 -28.640 5.977 104.682 1.00 42.60 O +HETATM 9993 O HOH L 392 -29.095 -3.251 140.695 1.00 61.30 O +HETATM 9994 O HOH L 393 -29.329 9.800 115.292 1.00 52.04 O +HETATM 9995 O HOH L 394 -49.129 -8.455 148.068 1.00 52.69 O +HETATM 9996 O HOH L 395 -22.845 5.202 122.874 1.00 43.14 O +ATOM 9997 N GLU D 1 11.465 16.826 152.945 1.00 66.34 N +ATOM 9998 CA GLU D 1 10.728 15.881 152.116 1.00 62.13 C +ATOM 9999 C GLU D 1 11.022 14.437 152.518 1.00 54.31 C +ATOM 10000 O GLU D 1 12.167 14.077 152.806 1.00 53.44 O +ATOM 10001 CB GLU D 1 11.085 16.093 150.644 1.00 66.34 C +ATOM 10002 CG GLU D 1 10.381 15.151 149.685 1.00 69.78 C +ATOM 10003 CD GLU D 1 11.127 14.988 148.370 1.00 71.43 C +ATOM 10004 OE1 GLU D 1 12.037 15.800 148.085 1.00 70.94 O +ATOM 10005 OE2 GLU D 1 10.806 14.036 147.626 1.00 71.74 O +ATOM 10006 N VAL D 2 9.975 13.607 152.535 1.00 48.11 N +ATOM 10007 CA VAL D 2 10.157 12.170 152.720 1.00 42.73 C +ATOM 10008 C VAL D 2 10.752 11.571 151.453 1.00 40.30 C +ATOM 10009 O VAL D 2 10.285 11.852 150.343 1.00 37.88 O +ATOM 10010 CB VAL D 2 8.821 11.499 153.063 1.00 40.91 C +ATOM 10011 CG1 VAL D 2 8.961 9.981 153.032 1.00 38.52 C +ATOM 10012 CG2 VAL D 2 8.315 11.974 154.410 1.00 38.89 C +ATOM 10013 N GLN D 3 11.791 10.750 151.603 1.00 39.31 N +ATOM 10014 CA GLN D 3 12.283 10.009 150.446 1.00 37.88 C +ATOM 10015 C GLN D 3 13.056 8.769 150.882 1.00 31.74 C +ATOM 10016 O GLN D 3 13.527 8.651 152.025 1.00 28.85 O +ATOM 10017 CB GLN D 3 13.137 10.887 149.520 1.00 44.80 C +ATOM 10018 CG GLN D 3 14.372 11.484 150.134 1.00 50.24 C +ATOM 10019 CD GLN D 3 15.204 12.250 149.116 1.00 59.15 C +ATOM 10020 OE1 GLN D 3 15.107 12.015 147.908 1.00 61.83 O +ATOM 10021 NE2 GLN D 3 16.024 13.176 149.601 1.00 61.80 N +ATOM 10022 N LEU D 4 13.138 7.831 149.945 1.00 29.34 N +ATOM 10023 CA LEU D 4 13.806 6.549 150.104 1.00 28.01 C +ATOM 10024 C LEU D 4 14.733 6.363 148.915 1.00 29.29 C +ATOM 10025 O LEU D 4 14.378 6.709 147.782 1.00 29.03 O +ATOM 10026 CB LEU D 4 12.791 5.390 150.167 1.00 26.44 C +ATOM 10027 CG LEU D 4 11.637 5.479 151.168 1.00 30.81 C +ATOM 10028 CD1 LEU D 4 10.623 4.376 150.912 1.00 34.26 C +ATOM 10029 CD2 LEU D 4 12.144 5.405 152.598 1.00 24.94 C +ATOM 10030 N VAL D 5 15.932 5.847 149.168 1.00 29.63 N +ATOM 10031 CA VAL D 5 16.958 5.713 148.136 1.00 26.86 C +ATOM 10032 C VAL D 5 17.548 4.312 148.246 1.00 26.15 C +ATOM 10033 O VAL D 5 18.210 3.995 149.241 1.00 25.25 O +ATOM 10034 CB VAL D 5 18.052 6.783 148.271 1.00 29.17 C +ATOM 10035 CG1 VAL D 5 19.156 6.569 147.223 1.00 31.53 C +ATOM 10036 CG2 VAL D 5 17.451 8.187 148.145 1.00 28.79 C +ATOM 10037 N GLU D 6 17.304 3.471 147.235 1.00 28.54 N +ATOM 10038 CA GLU D 6 17.859 2.120 147.200 1.00 27.16 C +ATOM 10039 C GLU D 6 19.253 2.127 146.594 1.00 29.28 C +ATOM 10040 O GLU D 6 19.509 2.845 145.630 1.00 29.47 O +ATOM 10041 CB GLU D 6 16.992 1.173 146.369 1.00 24.48 C +ATOM 10042 CG GLU D 6 15.550 1.047 146.789 1.00 27.12 C +ATOM 10043 CD GLU D 6 14.658 2.030 146.073 1.00 33.02 C +ATOM 10044 OE1 GLU D 6 15.179 2.918 145.357 1.00 36.49 O +ATOM 10045 OE2 GLU D 6 13.433 1.907 146.220 1.00 36.89 O +ATOM 10046 N SER D 7 20.135 1.282 147.127 1.00 24.50 N +ATOM 10047 CA SER D 7 21.419 1.048 146.483 1.00 30.29 C +ATOM 10048 C SER D 7 21.819 -0.409 146.677 1.00 29.38 C +ATOM 10049 O SER D 7 21.179 -1.166 147.418 1.00 27.75 O +ATOM 10050 CB SER D 7 22.506 1.987 147.022 1.00 31.08 C +ATOM 10051 OG SER D 7 22.729 1.748 148.400 1.00 34.79 O +ATOM 10052 N GLY D 8 22.910 -0.785 146.014 1.00 29.96 N +ATOM 10053 CA GLY D 8 23.454 -2.126 146.090 1.00 31.38 C +ATOM 10054 C GLY D 8 23.192 -2.987 144.870 1.00 29.83 C +ATOM 10055 O GLY D 8 23.748 -4.086 144.785 1.00 30.44 O +ATOM 10056 N GLY D 9 22.379 -2.535 143.924 1.00 27.61 N +ATOM 10057 CA GLY D 9 22.106 -3.348 142.756 1.00 32.76 C +ATOM 10058 C GLY D 9 23.361 -3.649 141.959 1.00 33.95 C +ATOM 10059 O GLY D 9 24.373 -2.950 142.043 1.00 36.83 O +ATOM 10060 N GLY D 11 23.290 -4.725 141.186 1.00 33.57 N +ATOM 10061 CA GLY D 11 24.369 -5.058 140.280 1.00 34.60 C +ATOM 10062 C GLY D 11 24.184 -6.453 139.714 1.00 36.72 C +ATOM 10063 O GLY D 11 23.135 -7.081 139.877 1.00 32.09 O +ATOM 10064 N LEU D 12 25.238 -6.922 139.051 1.00 35.88 N +ATOM 10065 CA LEU D 12 25.272 -8.253 138.465 1.00 35.52 C +ATOM 10066 C LEU D 12 25.857 -9.243 139.462 1.00 32.59 C +ATOM 10067 O LEU D 12 26.868 -8.963 140.111 1.00 33.17 O +ATOM 10068 CB LEU D 12 26.108 -8.235 137.181 1.00 39.55 C +ATOM 10069 CG LEU D 12 26.441 -9.566 136.510 1.00 37.88 C +ATOM 10070 CD1 LEU D 12 25.157 -10.264 136.116 1.00 28.32 C +ATOM 10071 CD2 LEU D 12 27.381 -9.366 135.320 1.00 34.57 C +ATOM 10072 N VAL D 13 25.217 -10.405 139.587 1.00 31.74 N +ATOM 10073 CA VAL D 13 25.678 -11.439 140.507 1.00 32.04 C +ATOM 10074 C VAL D 13 25.429 -12.800 139.868 1.00 32.31 C +ATOM 10075 O VAL D 13 24.516 -12.962 139.052 1.00 35.23 O +ATOM 10076 CB VAL D 13 24.995 -11.312 141.895 1.00 33.63 C +ATOM 10077 CG1 VAL D 13 23.505 -11.534 141.790 1.00 33.20 C +ATOM 10078 CG2 VAL D 13 25.628 -12.254 142.915 1.00 36.58 C +ATOM 10079 N GLN D 14 26.291 -13.778 140.208 1.00 31.08 N +ATOM 10080 CA GLN D 14 26.181 -15.114 139.639 1.00 33.79 C +ATOM 10081 C GLN D 14 25.105 -15.917 140.362 1.00 32.21 C +ATOM 10082 O GLN D 14 24.859 -15.699 141.556 1.00 34.13 O +ATOM 10083 CB GLN D 14 27.513 -15.859 139.735 1.00 36.85 C +ATOM 10084 CG GLN D 14 28.551 -15.456 138.705 1.00 44.96 C +ATOM 10085 CD GLN D 14 29.803 -16.329 138.759 1.00 53.05 C +ATOM 10086 OE1 GLN D 14 30.214 -16.790 139.826 1.00 56.47 O +ATOM 10087 NE2 GLN D 14 30.409 -16.558 137.607 1.00 58.19 N +ATOM 10088 N PRO D 15 24.458 -16.856 139.666 1.00 28.45 N +ATOM 10089 CA PRO D 15 23.539 -17.771 140.352 1.00 32.50 C +ATOM 10090 C PRO D 15 24.237 -18.458 141.517 1.00 31.00 C +ATOM 10091 O PRO D 15 25.406 -18.848 141.430 1.00 28.27 O +ATOM 10092 CB PRO D 15 23.148 -18.769 139.256 1.00 33.89 C +ATOM 10093 CG PRO D 15 23.332 -18.013 137.989 1.00 32.71 C +ATOM 10094 CD PRO D 15 24.511 -17.116 138.215 1.00 30.22 C +ATOM 10095 N GLY D 16 23.512 -18.580 142.624 1.00 29.30 N +ATOM 10096 CA GLY D 16 24.088 -19.055 143.865 1.00 29.17 C +ATOM 10097 C GLY D 16 24.711 -17.975 144.713 1.00 32.20 C +ATOM 10098 O GLY D 16 25.030 -18.231 145.879 1.00 30.08 O +ATOM 10099 N GLY D 17 24.877 -16.770 144.174 1.00 34.01 N +ATOM 10100 CA GLY D 17 25.560 -15.703 144.867 1.00 31.45 C +ATOM 10101 C GLY D 17 24.678 -14.963 145.856 1.00 30.01 C +ATOM 10102 O GLY D 17 23.496 -15.251 146.040 1.00 27.61 O +ATOM 10103 N SER D 18 25.296 -13.989 146.517 1.00 30.48 N +ATOM 10104 CA ASER D 18 24.640 -13.182 147.534 0.82 30.95 C +ATOM 10105 C SER D 18 24.772 -11.708 147.189 1.00 29.87 C +ATOM 10106 O SER D 18 25.764 -11.277 146.590 1.00 31.33 O +ATOM 10107 CB ASER D 18 25.235 -13.413 148.938 0.82 28.81 C +ATOM 10108 OG ASER D 18 25.108 -14.760 149.343 0.82 28.23 O +ATOM 10109 N LEU D 19 23.772 -10.941 147.605 1.00 27.88 N +ATOM 10110 CA LEU D 19 23.727 -9.505 147.386 1.00 32.94 C +ATOM 10111 C LEU D 19 22.906 -8.868 148.504 1.00 30.74 C +ATOM 10112 O LEU D 19 21.835 -9.372 148.851 1.00 29.99 O +ATOM 10113 CB LEU D 19 23.116 -9.201 146.008 1.00 33.03 C +ATOM 10114 CG LEU D 19 23.569 -7.960 145.260 1.00 37.18 C +ATOM 10115 CD1 LEU D 19 22.975 -7.933 143.860 1.00 37.36 C +ATOM 10116 CD2 LEU D 19 23.126 -6.756 146.044 1.00 42.64 C +ATOM 10117 N ARG D 20 23.396 -7.763 149.057 1.00 25.01 N +ATOM 10118 CA ARG D 20 22.660 -7.006 150.057 1.00 26.52 C +ATOM 10119 C ARG D 20 22.298 -5.635 149.506 1.00 27.04 C +ATOM 10120 O ARG D 20 23.188 -4.843 149.166 1.00 27.05 O +ATOM 10121 CB ARG D 20 23.466 -6.861 151.348 1.00 24.50 C +ATOM 10122 CG ARG D 20 22.788 -6.018 152.416 1.00 32.25 C +ATOM 10123 CD ARG D 20 23.852 -5.431 153.344 1.00 37.76 C +ATOM 10124 NE ARG D 20 23.441 -5.352 154.739 1.00 42.98 N +ATOM 10125 CZ ARG D 20 24.025 -4.556 155.634 1.00 47.88 C +ATOM 10126 NH1 ARG D 20 25.023 -3.761 155.263 1.00 47.48 N +ATOM 10127 NH2 ARG D 20 23.606 -4.545 156.894 1.00 47.03 N +ATOM 10128 N LEU D 21 20.996 -5.356 149.458 1.00 24.31 N +ATOM 10129 CA LEU D 21 20.445 -4.056 149.099 1.00 29.26 C +ATOM 10130 C LEU D 21 20.264 -3.184 150.336 1.00 31.13 C +ATOM 10131 O LEU D 21 20.054 -3.679 151.446 1.00 31.56 O +ATOM 10132 CB LEU D 21 19.098 -4.215 148.396 1.00 24.09 C +ATOM 10133 CG LEU D 21 19.205 -5.106 147.158 1.00 27.96 C +ATOM 10134 CD1 LEU D 21 17.904 -5.214 146.421 1.00 27.26 C +ATOM 10135 CD2 LEU D 21 20.285 -4.570 146.240 1.00 24.78 C +ATOM 10136 N SER D 22 20.341 -1.871 150.123 1.00 30.88 N +ATOM 10137 CA SER D 22 20.152 -0.866 151.157 1.00 26.83 C +ATOM 10138 C SER D 22 19.072 0.116 150.737 1.00 26.10 C +ATOM 10139 O SER D 22 18.906 0.419 149.552 1.00 25.38 O +ATOM 10140 CB SER D 22 21.444 -0.105 151.438 1.00 27.14 C +ATOM 10141 OG SER D 22 22.344 -0.940 152.128 1.00 31.45 O +ATOM 10142 N CYS D 23 18.338 0.600 151.729 1.00 29.07 N +ATOM 10143 CA CYS D 23 17.245 1.554 151.549 1.00 27.16 C +ATOM 10144 C CYS D 23 17.441 2.641 152.598 1.00 26.94 C +ATOM 10145 O CYS D 23 17.150 2.425 153.778 1.00 27.39 O +ATOM 10146 CB CYS D 23 15.894 0.878 151.706 1.00 25.21 C +ATOM 10147 SG CYS D 23 14.443 1.977 151.612 1.00 29.57 S +ATOM 10148 N ALA D 24 17.960 3.790 152.177 1.00 30.63 N +ATOM 10149 CA ALA D 24 18.243 4.890 153.093 1.00 27.73 C +ATOM 10150 C ALA D 24 17.056 5.848 153.107 1.00 23.84 C +ATOM 10151 O ALA D 24 16.646 6.354 152.058 1.00 24.52 O +ATOM 10152 CB ALA D 24 19.527 5.607 152.688 1.00 26.73 C +ATOM 10153 N ALA D 25 16.512 6.095 154.289 1.00 25.57 N +ATOM 10154 CA ALA D 25 15.346 6.950 154.459 1.00 26.44 C +ATOM 10155 C ALA D 25 15.748 8.316 155.008 1.00 31.65 C +ATOM 10156 O ALA D 25 16.661 8.433 155.833 1.00 31.58 O +ATOM 10157 CB ALA D 25 14.332 6.307 155.411 1.00 26.13 C +ATOM 10158 N SER D 26 15.029 9.350 154.570 1.00 33.83 N +ATOM 10159 CA SER D 26 15.207 10.675 155.144 1.00 37.89 C +ATOM 10160 C SER D 26 13.869 11.403 155.167 1.00 36.18 C +ATOM 10161 O SER D 26 12.960 11.105 154.379 1.00 30.80 O +ATOM 10162 CB SER D 26 16.248 11.488 154.370 1.00 42.85 C +ATOM 10163 OG SER D 26 15.886 11.581 153.005 1.00 50.61 O +ATOM 10164 N GLY D 27 13.763 12.368 156.082 1.00 34.57 N +ATOM 10165 CA GLY D 27 12.547 13.136 156.249 1.00 33.99 C +ATOM 10166 C GLY D 27 11.508 12.489 157.131 1.00 33.91 C +ATOM 10167 O GLY D 27 10.420 13.050 157.288 1.00 35.30 O +ATOM 10168 N PHE D 28 11.800 11.323 157.703 1.00 32.14 N +ATOM 10169 CA PHE D 28 10.901 10.668 158.641 1.00 30.04 C +ATOM 10170 C PHE D 28 11.711 9.643 159.412 1.00 28.96 C +ATOM 10171 O PHE D 28 12.806 9.258 158.999 1.00 29.43 O +ATOM 10172 CB PHE D 28 9.705 10.010 157.938 1.00 33.00 C +ATOM 10173 CG PHE D 28 10.053 8.775 157.156 1.00 34.77 C +ATOM 10174 CD1 PHE D 28 10.692 8.874 155.927 1.00 35.73 C +ATOM 10175 CD2 PHE D 28 9.733 7.515 157.644 1.00 33.77 C +ATOM 10176 CE1 PHE D 28 11.018 7.743 155.200 1.00 35.48 C +ATOM 10177 CE2 PHE D 28 10.057 6.369 156.919 1.00 33.14 C +ATOM 10178 CZ PHE D 28 10.702 6.486 155.699 1.00 35.62 C +ATOM 10179 N ASN D 29 11.170 9.222 160.550 1.00 28.26 N +ATOM 10180 CA ASN D 29 11.815 8.228 161.399 1.00 32.22 C +ATOM 10181 C ASN D 29 11.367 6.843 160.934 1.00 28.89 C +ATOM 10182 O ASN D 29 10.187 6.497 161.044 1.00 27.89 O +ATOM 10183 CB ASN D 29 11.466 8.477 162.866 1.00 37.95 C +ATOM 10184 CG ASN D 29 12.157 7.512 163.811 1.00 48.06 C +ATOM 10185 OD1 ASN D 29 12.937 6.659 163.391 1.00 52.97 O +ATOM 10186 ND2 ASN D 29 11.881 7.652 165.103 1.00 50.87 N +ATOM 10187 N LEU D 30 12.315 6.047 160.427 1.00 27.44 N +ATOM 10188 CA LEU D 30 11.979 4.735 159.868 1.00 32.87 C +ATOM 10189 C LEU D 30 11.402 3.802 160.924 1.00 34.52 C +ATOM 10190 O LEU D 30 10.570 2.944 160.606 1.00 32.37 O +ATOM 10191 CB LEU D 30 13.219 4.109 159.220 1.00 35.13 C +ATOM 10192 CG LEU D 30 13.047 2.913 158.285 1.00 36.50 C +ATOM 10193 CD1 LEU D 30 12.053 3.221 157.184 1.00 37.67 C +ATOM 10194 CD2 LEU D 30 14.383 2.505 157.672 1.00 36.95 C +ATOM 10195 N SER D 35 11.796 3.984 162.186 1.00 33.93 N +ATOM 10196 CA SER D 35 11.373 3.087 163.252 1.00 31.48 C +ATOM 10197 C SER D 35 9.882 3.186 163.561 1.00 29.25 C +ATOM 10198 O SER D 35 9.327 2.259 164.160 1.00 29.20 O +ATOM 10199 CB SER D 35 12.186 3.368 164.519 1.00 35.34 C +ATOM 10200 OG SER D 35 11.992 4.701 164.965 1.00 36.51 O +ATOM 10201 N SER D 36 9.211 4.271 163.181 1.00 26.71 N +ATOM 10202 CA SER D 36 7.774 4.363 163.414 1.00 28.66 C +ATOM 10203 C SER D 36 6.935 3.974 162.196 1.00 26.90 C +ATOM 10204 O SER D 36 5.703 4.024 162.278 1.00 25.97 O +ATOM 10205 CB SER D 36 7.400 5.772 163.868 1.00 33.47 C +ATOM 10206 OG SER D 36 7.754 6.717 162.881 1.00 38.41 O +ATOM 10207 N SER D 37 7.561 3.586 161.083 1.00 23.87 N +ATOM 10208 CA SER D 37 6.871 3.147 159.877 1.00 23.15 C +ATOM 10209 C SER D 37 7.101 1.660 159.627 1.00 26.02 C +ATOM 10210 O SER D 37 8.018 1.058 160.172 1.00 24.44 O +ATOM 10211 CB SER D 37 7.357 3.925 158.646 1.00 26.55 C +ATOM 10212 OG SER D 37 7.008 5.295 158.712 1.00 27.80 O +ATOM 10213 N SER D 38 6.272 1.079 158.762 1.00 29.59 N +ATOM 10214 CA SER D 38 6.554 -0.220 158.169 1.00 24.85 C +ATOM 10215 C SER D 38 7.342 -0.033 156.879 1.00 22.81 C +ATOM 10216 O SER D 38 7.166 0.952 156.161 1.00 26.05 O +ATOM 10217 CB SER D 38 5.259 -0.996 157.880 1.00 23.38 C +ATOM 10218 OG SER D 38 4.621 -1.404 159.080 1.00 22.78 O +ATOM 10219 N ILE D 39 8.218 -0.986 156.584 1.00 21.73 N +ATOM 10220 CA ILE D 39 9.100 -0.898 155.427 1.00 27.02 C +ATOM 10221 C ILE D 39 8.925 -2.170 154.601 1.00 28.11 C +ATOM 10222 O ILE D 39 8.918 -3.283 155.143 1.00 21.16 O +ATOM 10223 CB ILE D 39 10.571 -0.657 155.840 1.00 30.21 C +ATOM 10224 CG1 ILE D 39 11.406 -0.163 154.657 1.00 34.43 C +ATOM 10225 CG2 ILE D 39 11.202 -1.887 156.482 1.00 31.90 C +ATOM 10226 CD1 ILE D 39 10.962 1.200 154.106 1.00 35.98 C +ATOM 10227 N HIS D 40 8.737 -1.998 153.300 1.00 21.40 N +ATOM 10228 CA HIS D 40 8.477 -3.112 152.404 1.00 31.55 C +ATOM 10229 C HIS D 40 9.445 -3.088 151.230 1.00 29.78 C +ATOM 10230 O HIS D 40 9.830 -2.020 150.743 1.00 26.61 O +ATOM 10231 CB HIS D 40 7.060 -3.077 151.842 1.00 31.52 C +ATOM 10232 CG HIS D 40 5.990 -2.930 152.876 1.00 21.12 C +ATOM 10233 ND1 HIS D 40 5.464 -4.003 153.561 1.00 20.97 N +ATOM 10234 CD2 HIS D 40 5.306 -1.841 153.303 1.00 23.93 C +ATOM 10235 CE1 HIS D 40 4.519 -3.580 154.382 1.00 24.66 C +ATOM 10236 NE2 HIS D 40 4.398 -2.272 154.240 1.00 24.68 N +ATOM 10237 N TRP D 41 9.808 -4.284 150.766 1.00 27.71 N +ATOM 10238 CA TRP D 41 10.549 -4.467 149.532 1.00 22.32 C +ATOM 10239 C TRP D 41 9.625 -5.088 148.501 1.00 24.93 C +ATOM 10240 O TRP D 41 8.917 -6.054 148.797 1.00 22.21 O +ATOM 10241 CB TRP D 41 11.789 -5.349 149.724 1.00 22.51 C +ATOM 10242 CG TRP D 41 12.912 -4.676 150.442 1.00 26.74 C +ATOM 10243 CD1 TRP D 41 13.203 -4.761 151.784 1.00 22.38 C +ATOM 10244 CD2 TRP D 41 13.921 -3.832 149.866 1.00 22.82 C +ATOM 10245 NE1 TRP D 41 14.327 -4.014 152.074 1.00 22.50 N +ATOM 10246 CE2 TRP D 41 14.783 -3.433 150.916 1.00 22.78 C +ATOM 10247 CE3 TRP D 41 14.177 -3.370 148.569 1.00 23.08 C +ATOM 10248 CZ2 TRP D 41 15.877 -2.595 150.704 1.00 27.51 C +ATOM 10249 CZ3 TRP D 41 15.254 -2.531 148.361 1.00 23.30 C +ATOM 10250 CH2 TRP D 41 16.103 -2.160 149.422 1.00 25.01 C +ATOM 10251 N VAL D 42 9.624 -4.515 147.304 1.00 23.89 N +ATOM 10252 CA VAL D 42 8.771 -4.946 146.203 1.00 23.85 C +ATOM 10253 C VAL D 42 9.638 -4.963 144.954 1.00 27.83 C +ATOM 10254 O VAL D 42 10.441 -4.046 144.741 1.00 27.30 O +ATOM 10255 CB VAL D 42 7.549 -4.012 146.006 1.00 24.79 C +ATOM 10256 CG1 VAL D 42 6.744 -4.434 144.782 1.00 26.56 C +ATOM 10257 CG2 VAL D 42 6.646 -3.984 147.232 1.00 24.02 C +ATOM 10258 N ARG D 43 9.497 -6.005 144.134 1.00 23.04 N +ATOM 10259 CA ARG D 43 10.337 -6.112 142.955 1.00 23.38 C +ATOM 10260 C ARG D 43 9.455 -6.226 141.719 1.00 30.23 C +ATOM 10261 O ARG D 43 8.254 -6.519 141.798 1.00 23.19 O +ATOM 10262 CB ARG D 43 11.312 -7.293 143.037 1.00 23.59 C +ATOM 10263 CG ARG D 43 10.660 -8.666 143.022 1.00 28.99 C +ATOM 10264 CD ARG D 43 11.692 -9.777 143.233 1.00 28.52 C +ATOM 10265 NE ARG D 43 11.042 -11.087 143.227 1.00 27.81 N +ATOM 10266 CZ ARG D 43 11.667 -12.254 143.368 1.00 25.43 C +ATOM 10267 NH1 ARG D 43 12.983 -12.298 143.535 1.00 24.06 N +ATOM 10268 NH2 ARG D 43 10.966 -13.383 143.348 1.00 25.72 N +ATOM 10269 N GLN D 44 10.073 -5.961 140.574 1.00 23.70 N +ATOM 10270 CA GLN D 44 9.381 -5.920 139.288 1.00 25.89 C +ATOM 10271 C GLN D 44 10.344 -6.495 138.254 1.00 29.76 C +ATOM 10272 O GLN D 44 11.326 -5.847 137.878 1.00 29.04 O +ATOM 10273 CB GLN D 44 8.961 -4.502 138.933 1.00 26.33 C +ATOM 10274 CG GLN D 44 8.285 -4.414 137.581 1.00 27.44 C +ATOM 10275 CD GLN D 44 7.434 -3.171 137.434 1.00 30.19 C +ATOM 10276 OE1 GLN D 44 7.877 -2.061 137.726 1.00 28.52 O +ATOM 10277 NE2 GLN D 44 6.193 -3.354 136.981 1.00 28.81 N +ATOM 10278 N ALA D 45 10.088 -7.728 137.832 1.00 31.04 N +ATOM 10279 CA ALA D 45 10.947 -8.342 136.843 1.00 29.54 C +ATOM 10280 C ALA D 45 10.733 -7.642 135.501 1.00 33.92 C +ATOM 10281 O ALA D 45 9.664 -7.073 135.261 1.00 33.60 O +ATOM 10282 CB ALA D 45 10.657 -9.836 136.735 1.00 28.36 C +ATOM 10283 N PRO D 46 11.756 -7.620 134.630 1.00 33.75 N +ATOM 10284 CA PRO D 46 11.653 -6.845 133.382 1.00 37.14 C +ATOM 10285 C PRO D 46 10.401 -7.161 132.583 1.00 38.57 C +ATOM 10286 O PRO D 46 10.124 -8.329 132.282 1.00 42.29 O +ATOM 10287 CB PRO D 46 12.925 -7.246 132.618 1.00 38.34 C +ATOM 10288 CG PRO D 46 13.899 -7.591 133.699 1.00 35.85 C +ATOM 10289 CD PRO D 46 13.093 -8.218 134.803 1.00 34.13 C +ATOM 10290 N GLY D 47 9.614 -6.131 132.273 1.00 38.46 N +ATOM 10291 CA GLY D 47 8.386 -6.307 131.524 1.00 38.54 C +ATOM 10292 C GLY D 47 7.233 -6.934 132.279 1.00 40.79 C +ATOM 10293 O GLY D 47 6.200 -7.229 131.662 1.00 41.41 O +ATOM 10294 N LYS D 48 7.356 -7.133 133.589 1.00 36.55 N +ATOM 10295 CA LYS D 48 6.372 -7.866 134.372 1.00 34.44 C +ATOM 10296 C LYS D 48 5.763 -6.964 135.452 1.00 30.73 C +ATOM 10297 O LYS D 48 6.084 -5.781 135.574 1.00 29.05 O +ATOM 10298 CB LYS D 48 7.000 -9.113 135.000 1.00 40.65 C +ATOM 10299 CG LYS D 48 7.730 -10.016 134.014 1.00 46.98 C +ATOM 10300 CD LYS D 48 6.776 -10.799 133.119 1.00 52.41 C +ATOM 10301 CE LYS D 48 6.055 -11.891 133.902 1.00 58.01 C +ATOM 10302 NZ LYS D 48 6.998 -12.838 134.565 1.00 61.66 N +ATOM 10303 N GLY D 49 4.871 -7.549 136.249 1.00 29.04 N +ATOM 10304 CA GLY D 49 4.141 -6.807 137.254 1.00 30.04 C +ATOM 10305 C GLY D 49 4.894 -6.706 138.575 1.00 27.47 C +ATOM 10306 O GLY D 49 6.003 -7.204 138.735 1.00 27.97 O +ATOM 10307 N LEU D 50 4.267 -6.022 139.519 1.00 25.94 N +ATOM 10308 CA LEU D 50 4.827 -5.841 140.857 1.00 24.25 C +ATOM 10309 C LEU D 50 4.708 -7.119 141.680 1.00 25.78 C +ATOM 10310 O LEU D 50 3.660 -7.779 141.692 1.00 25.12 O +ATOM 10311 CB LEU D 50 4.102 -4.705 141.576 1.00 22.88 C +ATOM 10312 CG LEU D 50 4.209 -3.360 140.865 1.00 24.39 C +ATOM 10313 CD1 LEU D 50 3.337 -2.354 141.579 1.00 22.31 C +ATOM 10314 CD2 LEU D 50 5.664 -2.889 140.807 1.00 24.80 C +ATOM 10315 N GLU D 51 5.779 -7.457 142.394 1.00 31.02 N +ATOM 10316 CA GLU D 51 5.781 -8.621 143.274 1.00 30.84 C +ATOM 10317 C GLU D 51 6.347 -8.237 144.639 1.00 32.48 C +ATOM 10318 O GLU D 51 7.510 -7.827 144.744 1.00 22.66 O +ATOM 10319 CB GLU D 51 6.579 -9.777 142.672 1.00 26.12 C +ATOM 10320 CG GLU D 51 6.457 -11.042 143.506 1.00 27.74 C +ATOM 10321 CD GLU D 51 7.486 -12.089 143.161 1.00 32.16 C +ATOM 10322 OE1 GLU D 51 8.405 -11.804 142.361 1.00 32.71 O +ATOM 10323 OE2 GLU D 51 7.376 -13.210 143.695 1.00 34.93 O +ATOM 10324 N TRP D 52 5.526 -8.381 145.674 1.00 22.23 N +ATOM 10325 CA TRP D 52 5.957 -8.091 147.041 1.00 22.09 C +ATOM 10326 C TRP D 52 6.933 -9.155 147.528 1.00 27.46 C +ATOM 10327 O TRP D 52 6.756 -10.345 147.253 1.00 25.78 O +ATOM 10328 CB TRP D 52 4.746 -8.019 147.972 1.00 24.36 C +ATOM 10329 CG TRP D 52 5.128 -8.031 149.457 1.00 24.02 C +ATOM 10330 CD1 TRP D 52 5.609 -6.988 150.184 1.00 21.55 C +ATOM 10331 CD2 TRP D 52 5.032 -9.138 150.352 1.00 21.53 C +ATOM 10332 NE1 TRP D 52 5.833 -7.379 151.482 1.00 21.68 N +ATOM 10333 CE2 TRP D 52 5.489 -8.701 151.610 1.00 21.39 C +ATOM 10334 CE3 TRP D 52 4.619 -10.468 150.211 1.00 26.36 C +ATOM 10335 CZ2 TRP D 52 5.521 -9.537 152.724 1.00 25.00 C +ATOM 10336 CZ3 TRP D 52 4.664 -11.299 151.323 1.00 24.27 C +ATOM 10337 CH2 TRP D 52 5.100 -10.827 152.560 1.00 21.29 C +ATOM 10338 N VAL D 53 7.977 -8.714 148.251 1.00 24.51 N +ATOM 10339 CA VAL D 53 9.100 -9.558 148.636 1.00 22.39 C +ATOM 10340 C VAL D 53 9.175 -9.758 150.153 1.00 27.59 C +ATOM 10341 O VAL D 53 9.285 -10.892 150.630 1.00 22.17 O +ATOM 10342 CB VAL D 53 10.434 -8.997 148.082 1.00 22.67 C +ATOM 10343 CG1 VAL D 53 11.611 -9.783 148.600 1.00 22.82 C +ATOM 10344 CG2 VAL D 53 10.411 -8.995 146.539 1.00 27.38 C +ATOM 10345 N ALA D 54 9.149 -8.670 150.926 1.00 22.00 N +ATOM 10346 CA ALA D 54 9.360 -8.817 152.372 1.00 21.81 C +ATOM 10347 C ALA D 54 8.933 -7.550 153.101 1.00 21.59 C +ATOM 10348 O ALA D 54 8.872 -6.472 152.507 1.00 23.76 O +ATOM 10349 CB ALA D 54 10.823 -9.153 152.682 1.00 21.99 C +ATOM 10350 N SER D 55 8.626 -7.686 154.396 1.00 21.35 N +ATOM 10351 CA SER D 55 8.196 -6.538 155.190 1.00 23.38 C +ATOM 10352 C SER D 55 8.704 -6.644 156.628 1.00 24.57 C +ATOM 10353 O SER D 55 8.884 -7.745 157.149 1.00 20.95 O +ATOM 10354 CB SER D 55 6.663 -6.416 155.241 1.00 29.95 C +ATOM 10355 OG SER D 55 6.095 -6.329 153.948 1.00 35.85 O +ATOM 10356 N ILE D 56 8.956 -5.482 157.246 1.00 20.87 N +ATOM 10357 CA ILE D 56 8.908 -5.292 158.700 1.00 20.63 C +ATOM 10358 C ILE D 56 7.598 -4.557 158.963 1.00 22.82 C +ATOM 10359 O ILE D 56 7.420 -3.411 158.530 1.00 21.40 O +ATOM 10360 CB ILE D 56 10.103 -4.501 159.249 1.00 20.67 C +ATOM 10361 CG1 ILE D 56 11.434 -5.069 158.746 1.00 23.73 C +ATOM 10362 CG2 ILE D 56 10.132 -4.555 160.773 1.00 20.42 C +ATOM 10363 CD1 ILE D 56 12.633 -4.243 159.220 1.00 23.95 C +ATOM 10364 N TYR D 57 6.664 -5.216 159.619 1.00 20.24 N +ATOM 10365 CA TYR D 57 5.293 -4.726 159.620 1.00 21.26 C +ATOM 10366 C TYR D 57 4.715 -4.403 160.986 1.00 20.98 C +ATOM 10367 O TYR D 57 3.553 -3.993 161.056 1.00 23.17 O +ATOM 10368 CB TYR D 57 4.367 -5.735 158.917 1.00 22.40 C +ATOM 10369 CG TYR D 57 4.226 -7.062 159.627 1.00 20.05 C +ATOM 10370 CD1 TYR D 57 3.231 -7.266 160.579 1.00 21.77 C +ATOM 10371 CD2 TYR D 57 5.084 -8.119 159.335 1.00 22.43 C +ATOM 10372 CE1 TYR D 57 3.109 -8.480 161.229 1.00 25.95 C +ATOM 10373 CE2 TYR D 57 4.969 -9.330 159.975 1.00 22.78 C +ATOM 10374 CZ TYR D 57 3.970 -9.507 160.917 1.00 25.58 C +ATOM 10375 OH TYR D 57 3.853 -10.715 161.554 1.00 28.17 O +ATOM 10376 N SER D 58 5.451 -4.561 162.079 1.00 21.15 N +ATOM 10377 CA SER D 58 4.799 -4.322 163.364 1.00 19.49 C +ATOM 10378 C SER D 58 5.681 -3.497 164.281 1.00 19.42 C +ATOM 10379 O SER D 58 6.886 -3.347 164.062 1.00 19.55 O +ATOM 10380 CB SER D 58 4.411 -5.637 164.065 1.00 26.16 C +ATOM 10381 OG SER D 58 5.553 -6.333 164.510 1.00 30.51 O +ATOM 10382 N TYR D 59 5.039 -2.953 165.317 1.00 22.27 N +ATOM 10383 CA TYR D 59 5.775 -2.251 166.372 1.00 24.19 C +ATOM 10384 C TYR D 59 6.855 -3.137 166.981 1.00 23.69 C +ATOM 10385 O TYR D 59 7.928 -2.651 167.361 1.00 24.94 O +ATOM 10386 CB TYR D 59 4.804 -1.771 167.454 1.00 21.01 C +ATOM 10387 CG TYR D 59 5.493 -1.198 168.678 1.00 21.70 C +ATOM 10388 CD1 TYR D 59 5.858 0.142 168.730 1.00 22.27 C +ATOM 10389 CD2 TYR D 59 5.796 -2.002 169.768 1.00 21.08 C +ATOM 10390 CE1 TYR D 59 6.502 0.672 169.843 1.00 24.08 C +ATOM 10391 CE2 TYR D 59 6.452 -1.481 170.894 1.00 21.39 C +ATOM 10392 CZ TYR D 59 6.791 -0.143 170.912 1.00 25.08 C +ATOM 10393 OH TYR D 59 7.434 0.389 172.006 1.00 26.64 O +ATOM 10394 N TYR D 62 6.583 -4.434 167.101 1.00 22.86 N +ATOM 10395 CA TYR D 62 7.499 -5.350 167.762 1.00 24.29 C +ATOM 10396 C TYR D 62 8.589 -5.869 166.821 1.00 27.83 C +ATOM 10397 O TYR D 62 9.457 -6.641 167.252 1.00 25.48 O +ATOM 10398 CB TYR D 62 6.696 -6.499 168.397 1.00 22.32 C +ATOM 10399 CG TYR D 62 5.687 -5.965 169.410 1.00 27.46 C +ATOM 10400 CD1 TYR D 62 6.068 -5.683 170.723 1.00 25.82 C +ATOM 10401 CD2 TYR D 62 4.373 -5.687 169.041 1.00 27.24 C +ATOM 10402 CE1 TYR D 62 5.168 -5.171 171.643 1.00 27.56 C +ATOM 10403 CE2 TYR D 62 3.457 -5.169 169.961 1.00 25.90 C +ATOM 10404 CZ TYR D 62 3.869 -4.906 171.261 1.00 29.05 C +ATOM 10405 OH TYR D 62 2.988 -4.392 172.172 1.00 29.62 O +ATOM 10406 N GLY D 63 8.582 -5.448 165.557 1.00 25.12 N +ATOM 10407 CA GLY D 63 9.648 -5.799 164.637 1.00 26.38 C +ATOM 10408 C GLY D 63 9.438 -7.087 163.874 1.00 25.09 C +ATOM 10409 O GLY D 63 10.414 -7.651 163.374 1.00 21.63 O +ATOM 10410 N SER D 64 8.203 -7.585 163.812 1.00 20.27 N +ATOM 10411 CA SER D 64 7.878 -8.809 163.097 1.00 20.46 C +ATOM 10412 C SER D 64 8.120 -8.635 161.603 1.00 20.19 C +ATOM 10413 O SER D 64 7.878 -7.564 161.044 1.00 20.21 O +ATOM 10414 CB SER D 64 6.406 -9.187 163.314 1.00 23.01 C +ATOM 10415 OG SER D 64 6.083 -9.290 164.687 1.00 26.67 O +ATOM 10416 N THR D 65 8.560 -9.721 160.954 1.00 20.38 N +ATOM 10417 CA THR D 65 8.846 -9.745 159.526 1.00 21.49 C +ATOM 10418 C THR D 65 8.010 -10.798 158.813 1.00 20.70 C +ATOM 10419 O THR D 65 7.614 -11.814 159.382 1.00 20.62 O +ATOM 10420 CB THR D 65 10.336 -10.057 159.229 1.00 20.88 C +ATOM 10421 OG1 THR D 65 10.657 -11.347 159.767 1.00 25.08 O +ATOM 10422 CG2 THR D 65 11.284 -9.009 159.840 1.00 20.85 C +ATOM 10423 N SER D 66 7.823 -10.586 157.516 1.00 24.40 N +ATOM 10424 CA SER D 66 7.110 -11.552 156.706 1.00 23.48 C +ATOM 10425 C SER D 66 7.716 -11.538 155.316 1.00 25.01 C +ATOM 10426 O SER D 66 8.336 -10.556 154.900 1.00 21.35 O +ATOM 10427 CB SER D 66 5.602 -11.253 156.677 1.00 23.32 C +ATOM 10428 OG SER D 66 5.361 -9.962 156.141 1.00 25.12 O +ATOM 10429 N TYR D 67 7.547 -12.655 154.608 1.00 23.17 N +ATOM 10430 CA TYR D 67 8.197 -12.854 153.323 1.00 21.69 C +ATOM 10431 C TYR D 67 7.250 -13.550 152.367 1.00 22.87 C +ATOM 10432 O TYR D 67 6.367 -14.299 152.785 1.00 21.61 O +ATOM 10433 CB TYR D 67 9.467 -13.714 153.449 1.00 21.90 C +ATOM 10434 CG TYR D 67 10.512 -13.147 154.354 1.00 21.87 C +ATOM 10435 CD1 TYR D 67 11.558 -12.382 153.846 1.00 22.07 C +ATOM 10436 CD2 TYR D 67 10.467 -13.383 155.725 1.00 21.65 C +ATOM 10437 CE1 TYR D 67 12.524 -11.864 154.682 1.00 22.04 C +ATOM 10438 CE2 TYR D 67 11.420 -12.865 156.567 1.00 21.61 C +ATOM 10439 CZ TYR D 67 12.450 -12.115 156.044 1.00 30.09 C +ATOM 10440 OH TYR D 67 13.394 -11.613 156.881 1.00 21.78 O +ATOM 10441 N ALA D 68 7.449 -13.306 151.077 1.00 21.96 N +ATOM 10442 CA ALA D 68 6.738 -14.083 150.071 1.00 27.14 C +ATOM 10443 C ALA D 68 7.340 -15.485 149.981 1.00 28.43 C +ATOM 10444 O ALA D 68 8.535 -15.688 150.220 1.00 25.60 O +ATOM 10445 CB ALA D 68 6.805 -13.389 148.707 1.00 26.18 C +ATOM 10446 N ASP D 69 6.501 -16.463 149.622 1.00 29.48 N +ATOM 10447 CA ASP D 69 6.966 -17.851 149.603 1.00 31.69 C +ATOM 10448 C ASP D 69 8.169 -18.053 148.691 1.00 29.24 C +ATOM 10449 O ASP D 69 9.033 -18.879 148.995 1.00 32.27 O +ATOM 10450 CB ASP D 69 5.838 -18.782 149.174 1.00 40.70 C +ATOM 10451 CG ASP D 69 4.806 -18.984 150.259 1.00 47.14 C +ATOM 10452 OD1 ASP D 69 5.173 -18.891 151.451 1.00 49.27 O +ATOM 10453 OD2 ASP D 69 3.635 -19.246 149.916 1.00 49.09 O +ATOM 10454 N SER D 70 8.247 -17.318 147.575 1.00 31.07 N +ATOM 10455 CA SER D 70 9.310 -17.558 146.601 1.00 33.55 C +ATOM 10456 C SER D 70 10.692 -17.155 147.107 1.00 31.46 C +ATOM 10457 O SER D 70 11.696 -17.570 146.515 1.00 31.88 O +ATOM 10458 CB SER D 70 8.998 -16.823 145.297 1.00 36.60 C +ATOM 10459 OG SER D 70 8.691 -15.462 145.541 1.00 38.70 O +ATOM 10460 N VAL D 71 10.772 -16.364 148.179 1.00 26.31 N +ATOM 10461 CA VAL D 71 12.044 -15.907 148.723 1.00 26.49 C +ATOM 10462 C VAL D 71 12.286 -16.413 150.138 1.00 29.99 C +ATOM 10463 O VAL D 71 13.359 -16.169 150.698 1.00 23.14 O +ATOM 10464 CB VAL D 71 12.151 -14.366 148.688 1.00 27.45 C +ATOM 10465 CG1 VAL D 71 11.731 -13.825 147.330 1.00 28.40 C +ATOM 10466 CG2 VAL D 71 11.298 -13.733 149.798 1.00 23.21 C +ATOM 10467 N LYS D 72 11.333 -17.128 150.720 1.00 27.55 N +ATOM 10468 CA LYS D 72 11.427 -17.557 152.109 1.00 27.57 C +ATOM 10469 C LYS D 72 12.605 -18.493 152.299 1.00 31.10 C +ATOM 10470 O LYS D 72 12.807 -19.418 151.515 1.00 34.63 O +ATOM 10471 CB LYS D 72 10.120 -18.250 152.505 1.00 34.73 C +ATOM 10472 CG LYS D 72 9.861 -18.356 153.972 1.00 39.24 C +ATOM 10473 CD LYS D 72 8.437 -18.820 154.196 1.00 40.09 C +ATOM 10474 CE LYS D 72 7.447 -17.760 153.761 1.00 44.32 C +ATOM 10475 NZ LYS D 72 6.032 -18.237 153.874 1.00 45.12 N +ATOM 10476 N GLY D 74 13.397 -18.246 153.340 1.00 29.59 N +ATOM 10477 CA GLY D 74 14.576 -19.022 153.590 1.00 29.98 C +ATOM 10478 C GLY D 74 15.824 -18.546 152.873 1.00 33.15 C +ATOM 10479 O GLY D 74 16.925 -18.939 153.265 1.00 35.51 O +ATOM 10480 N ARG D 75 15.685 -17.714 151.838 1.00 29.45 N +ATOM 10481 CA ARG D 75 16.812 -17.168 151.083 1.00 28.04 C +ATOM 10482 C ARG D 75 17.070 -15.686 151.340 1.00 23.66 C +ATOM 10483 O ARG D 75 18.227 -15.265 151.338 1.00 23.86 O +ATOM 10484 CB ARG D 75 16.590 -17.388 149.573 1.00 27.03 C +ATOM 10485 CG ARG D 75 16.497 -18.863 149.147 1.00 26.58 C +ATOM 10486 CD ARG D 75 16.366 -19.030 147.619 1.00 26.66 C +ATOM 10487 NE ARG D 75 15.249 -18.267 147.059 1.00 26.14 N +ATOM 10488 CZ ARG D 75 15.363 -17.375 146.074 1.00 28.08 C +ATOM 10489 NH1 ARG D 75 16.548 -17.125 145.517 1.00 24.75 N +ATOM 10490 NH2 ARG D 75 14.286 -16.731 145.652 1.00 27.24 N +ATOM 10491 N PHE D 76 16.021 -14.882 151.540 1.00 23.37 N +ATOM 10492 CA PHE D 76 16.112 -13.443 151.775 1.00 24.40 C +ATOM 10493 C PHE D 76 15.887 -13.133 153.252 1.00 25.08 C +ATOM 10494 O PHE D 76 15.101 -13.799 153.926 1.00 28.44 O +ATOM 10495 CB PHE D 76 15.073 -12.655 150.963 1.00 23.17 C +ATOM 10496 CG PHE D 76 15.286 -12.677 149.464 1.00 23.48 C +ATOM 10497 CD1 PHE D 76 16.266 -13.467 148.890 1.00 23.82 C +ATOM 10498 CD2 PHE D 76 14.520 -11.868 148.638 1.00 23.44 C +ATOM 10499 CE1 PHE D 76 16.460 -13.485 147.510 1.00 24.11 C +ATOM 10500 CE2 PHE D 76 14.715 -11.869 147.253 1.00 23.72 C +ATOM 10501 CZ PHE D 76 15.687 -12.685 146.699 1.00 24.06 C +ATOM 10502 N THR D 77 16.535 -12.078 153.738 1.00 22.89 N +ATOM 10503 CA THR D 77 16.294 -11.588 155.098 1.00 22.56 C +ATOM 10504 C THR D 77 16.171 -10.070 155.078 1.00 22.47 C +ATOM 10505 O THR D 77 17.076 -9.387 154.587 1.00 26.47 O +ATOM 10506 CB THR D 77 17.418 -12.015 156.046 1.00 26.62 C +ATOM 10507 OG1 THR D 77 17.519 -13.444 156.056 1.00 30.43 O +ATOM 10508 CG2 THR D 77 17.155 -11.508 157.475 1.00 26.58 C +ATOM 10509 N ILE D 78 15.060 -9.534 155.603 1.00 22.17 N +ATOM 10510 CA ILE D 78 14.883 -8.090 155.720 1.00 22.06 C +ATOM 10511 C ILE D 78 15.319 -7.663 157.122 1.00 29.76 C +ATOM 10512 O ILE D 78 15.139 -8.413 158.089 1.00 28.99 O +ATOM 10513 CB ILE D 78 13.433 -7.662 155.392 1.00 21.87 C +ATOM 10514 CG1 ILE D 78 13.286 -6.136 155.403 1.00 21.80 C +ATOM 10515 CG2 ILE D 78 12.372 -8.332 156.298 1.00 21.58 C +ATOM 10516 CD1 ILE D 78 11.961 -5.663 154.850 1.00 21.68 C +ATOM 10517 N SER D 79 15.963 -6.495 157.224 1.00 25.91 N +ATOM 10518 CA SER D 79 16.447 -5.990 158.510 1.00 21.72 C +ATOM 10519 C SER D 79 16.550 -4.471 158.434 1.00 22.13 C +ATOM 10520 O SER D 79 16.323 -3.866 157.384 1.00 22.46 O +ATOM 10521 CB SER D 79 17.792 -6.618 158.895 1.00 21.88 C +ATOM 10522 OG SER D 79 18.832 -6.191 158.025 1.00 25.00 O +ATOM 10523 N ALA D 80 16.900 -3.847 159.562 1.00 21.54 N +ATOM 10524 CA ALA D 80 16.967 -2.390 159.611 1.00 26.89 C +ATOM 10525 C ALA D 80 17.938 -1.941 160.696 1.00 29.42 C +ATOM 10526 O ALA D 80 18.082 -2.598 161.728 1.00 28.98 O +ATOM 10527 CB ALA D 80 15.588 -1.770 159.868 1.00 21.25 C +ATOM 10528 N ASP D 81 18.580 -0.798 160.452 1.00 26.81 N +ATOM 10529 CA ASP D 81 19.477 -0.141 161.405 1.00 32.14 C +ATOM 10530 C ASP D 81 18.840 1.196 161.777 1.00 33.57 C +ATOM 10531 O ASP D 81 18.927 2.167 161.018 1.00 33.15 O +ATOM 10532 CB ASP D 81 20.868 0.046 160.810 1.00 29.97 C +ATOM 10533 CG ASP D 81 21.892 0.507 161.840 1.00 35.72 C +ATOM 10534 OD1 ASP D 81 21.505 1.195 162.805 1.00 37.53 O +ATOM 10535 OD2 ASP D 81 23.090 0.175 161.689 1.00 39.29 O +ATOM 10536 N THR D 82 18.207 1.237 162.948 1.00 35.44 N +ATOM 10537 CA ATHR D 82 17.520 2.448 163.387 0.83 37.36 C +ATOM 10538 C THR D 82 18.482 3.613 163.559 1.00 35.91 C +ATOM 10539 O THR D 82 18.107 4.765 163.323 1.00 38.15 O +ATOM 10540 CB ATHR D 82 16.780 2.175 164.697 0.83 39.52 C +ATOM 10541 OG1ATHR D 82 15.999 0.979 164.561 0.83 40.91 O +ATOM 10542 CG2ATHR D 82 15.863 3.336 165.050 0.83 39.15 C +ATOM 10543 N SER D 83 19.722 3.337 163.962 1.00 34.75 N +ATOM 10544 CA SER D 83 20.673 4.425 164.175 1.00 35.40 C +ATOM 10545 C SER D 83 21.058 5.101 162.869 1.00 37.22 C +ATOM 10546 O SER D 83 21.458 6.271 162.880 1.00 40.54 O +ATOM 10547 CB SER D 83 21.924 3.919 164.897 1.00 35.81 C +ATOM 10548 OG SER D 83 22.742 3.132 164.044 1.00 35.58 O +ATOM 10549 N LYS D 84 20.930 4.402 161.745 1.00 32.69 N +ATOM 10550 CA LYS D 84 21.259 4.953 160.441 1.00 29.89 C +ATOM 10551 C LYS D 84 20.032 5.252 159.610 1.00 29.04 C +ATOM 10552 O LYS D 84 20.179 5.688 158.461 1.00 33.79 O +ATOM 10553 CB LYS D 84 22.165 3.989 159.664 1.00 33.66 C +ATOM 10554 CG LYS D 84 23.449 3.623 160.383 1.00 36.69 C +ATOM 10555 CD LYS D 84 24.175 2.528 159.639 1.00 39.90 C +ATOM 10556 CE LYS D 84 25.502 2.194 160.296 1.00 43.41 C +ATOM 10557 NZ LYS D 84 26.227 1.167 159.496 1.00 47.26 N +ATOM 10558 N ASN D 85 18.834 4.993 160.140 1.00 25.41 N +ATOM 10559 CA ASN D 85 17.584 5.218 159.413 1.00 25.98 C +ATOM 10560 C ASN D 85 17.595 4.500 158.058 1.00 26.96 C +ATOM 10561 O ASN D 85 17.148 5.038 157.036 1.00 29.81 O +ATOM 10562 CB ASN D 85 17.316 6.717 159.245 1.00 25.50 C +ATOM 10563 CG ASN D 85 15.850 7.075 159.406 1.00 27.19 C +ATOM 10564 OD1 ASN D 85 15.127 6.458 160.189 1.00 33.12 O +ATOM 10565 ND2 ASN D 85 15.404 8.084 158.666 1.00 26.79 N +ATOM 10566 N THR D 86 18.113 3.274 158.048 1.00 23.15 N +ATOM 10567 CA THR D 86 18.325 2.510 156.821 1.00 28.59 C +ATOM 10568 C THR D 86 17.715 1.122 156.996 1.00 32.49 C +ATOM 10569 O THR D 86 17.757 0.543 158.092 1.00 21.91 O +ATOM 10570 CB THR D 86 19.851 2.433 156.487 1.00 28.07 C +ATOM 10571 OG1 THR D 86 20.346 3.746 156.230 1.00 28.02 O +ATOM 10572 CG2 THR D 86 20.161 1.550 155.256 1.00 23.11 C +ATOM 10573 N ALA D 87 17.106 0.610 155.931 1.00 22.21 N +ATOM 10574 CA ALA D 87 16.651 -0.773 155.899 1.00 27.63 C +ATOM 10575 C ALA D 87 17.457 -1.549 154.859 1.00 29.34 C +ATOM 10576 O ALA D 87 18.143 -0.964 154.012 1.00 27.97 O +ATOM 10577 CB ALA D 87 15.151 -0.858 155.604 1.00 21.96 C +ATOM 10578 N TYR D 88 17.375 -2.879 154.934 1.00 22.48 N +ATOM 10579 CA TYR D 88 18.248 -3.753 154.159 1.00 22.80 C +ATOM 10580 C TYR D 88 17.480 -4.972 153.664 1.00 28.06 C +ATOM 10581 O TYR D 88 16.490 -5.391 154.269 1.00 25.72 O +ATOM 10582 CB TYR D 88 19.441 -4.236 154.977 1.00 22.87 C +ATOM 10583 CG TYR D 88 20.267 -3.125 155.581 1.00 32.12 C +ATOM 10584 CD1 TYR D 88 21.242 -2.489 154.834 1.00 31.31 C +ATOM 10585 CD2 TYR D 88 20.088 -2.730 156.905 1.00 31.32 C +ATOM 10586 CE1 TYR D 88 22.000 -1.479 155.363 1.00 29.93 C +ATOM 10587 CE2 TYR D 88 20.841 -1.710 157.447 1.00 26.26 C +ATOM 10588 CZ TYR D 88 21.800 -1.092 156.669 1.00 28.85 C +ATOM 10589 OH TYR D 88 22.597 -0.085 157.184 1.00 27.56 O +ATOM 10590 N LEU D 89 17.952 -5.532 152.551 1.00 23.10 N +ATOM 10591 CA LEU D 89 17.479 -6.811 152.025 1.00 23.15 C +ATOM 10592 C LEU D 89 18.705 -7.653 151.688 1.00 23.48 C +ATOM 10593 O LEU D 89 19.397 -7.385 150.696 1.00 25.76 O +ATOM 10594 CB LEU D 89 16.584 -6.635 150.787 1.00 23.21 C +ATOM 10595 CG LEU D 89 15.896 -7.927 150.324 1.00 23.21 C +ATOM 10596 CD1 LEU D 89 14.837 -8.392 151.347 1.00 22.85 C +ATOM 10597 CD2 LEU D 89 15.265 -7.788 148.939 1.00 23.34 C +ATOM 10598 N GLN D 90 18.984 -8.656 152.518 1.00 23.61 N +ATOM 10599 CA GLN D 90 20.055 -9.610 152.260 1.00 23.71 C +ATOM 10600 C GLN D 90 19.497 -10.736 151.403 1.00 27.76 C +ATOM 10601 O GLN D 90 18.547 -11.417 151.805 1.00 25.98 O +ATOM 10602 CB GLN D 90 20.617 -10.175 153.559 1.00 23.59 C +ATOM 10603 CG GLN D 90 21.667 -11.249 153.323 1.00 23.90 C +ATOM 10604 CD GLN D 90 22.961 -10.675 152.788 1.00 25.66 C +ATOM 10605 OE1 GLN D 90 23.478 -9.693 153.324 1.00 29.10 O +ATOM 10606 NE2 GLN D 90 23.495 -11.281 151.731 1.00 24.62 N +ATOM 10607 N MET D 91 20.073 -10.928 150.225 1.00 24.18 N +ATOM 10608 CA MET D 91 19.570 -11.894 149.254 1.00 24.32 C +ATOM 10609 C MET D 91 20.632 -12.962 149.051 1.00 25.68 C +ATOM 10610 O MET D 91 21.740 -12.660 148.596 1.00 26.60 O +ATOM 10611 CB MET D 91 19.223 -11.200 147.935 1.00 25.59 C +ATOM 10612 CG MET D 91 18.202 -10.059 148.097 1.00 26.46 C +ATOM 10613 SD MET D 91 17.828 -9.303 146.496 1.00 33.37 S +ATOM 10614 CE MET D 91 19.422 -8.651 146.071 1.00 26.81 C +ATOM 10615 N ASN D 92 20.317 -14.194 149.427 1.00 24.59 N +ATOM 10616 CA ASN D 92 21.263 -15.293 149.302 1.00 24.89 C +ATOM 10617 C ASN D 92 20.703 -16.338 148.345 1.00 25.04 C +ATOM 10618 O ASN D 92 19.517 -16.313 148.008 1.00 24.85 O +ATOM 10619 CB ASN D 92 21.564 -15.917 150.668 1.00 24.72 C +ATOM 10620 CG ASN D 92 22.271 -14.952 151.602 1.00 26.44 C +ATOM 10621 OD1 ASN D 92 23.158 -14.207 151.183 1.00 26.87 O +ATOM 10622 ND2 ASN D 92 21.874 -14.952 152.873 1.00 26.50 N +ATOM 10623 N SER D 93 21.571 -17.254 147.908 1.00 25.39 N +ATOM 10624 CA SER D 93 21.186 -18.330 146.983 1.00 38.19 C +ATOM 10625 C SER D 93 20.350 -17.793 145.815 1.00 34.47 C +ATOM 10626 O SER D 93 19.251 -18.277 145.516 1.00 30.58 O +ATOM 10627 CB SER D 93 20.434 -19.436 147.728 1.00 39.35 C +ATOM 10628 OG SER D 93 21.266 -20.060 148.693 1.00 37.48 O +ATOM 10629 N LEU D 94 20.872 -16.762 145.163 1.00 29.15 N +ATOM 10630 CA LEU D 94 20.088 -16.055 144.162 1.00 27.45 C +ATOM 10631 C LEU D 94 19.930 -16.901 142.904 1.00 26.72 C +ATOM 10632 O LEU D 94 20.759 -17.759 142.595 1.00 27.94 O +ATOM 10633 CB LEU D 94 20.741 -14.713 143.833 1.00 27.96 C +ATOM 10634 CG LEU D 94 20.469 -13.595 144.841 1.00 27.52 C +ATOM 10635 CD1 LEU D 94 21.475 -12.468 144.678 1.00 30.53 C +ATOM 10636 CD2 LEU D 94 19.062 -13.081 144.675 1.00 25.18 C +ATOM 10637 N ARG D 95 18.852 -16.648 142.174 1.00 27.84 N +ATOM 10638 CA ARG D 95 18.532 -17.403 140.973 1.00 31.59 C +ATOM 10639 C ARG D 95 18.202 -16.438 139.849 1.00 33.63 C +ATOM 10640 O ARG D 95 17.905 -15.261 140.083 1.00 32.70 O +ATOM 10641 CB ARG D 95 17.348 -18.367 141.210 1.00 34.50 C +ATOM 10642 CG ARG D 95 17.538 -19.275 142.430 1.00 45.33 C +ATOM 10643 CD ARG D 95 16.559 -20.441 142.430 1.00 52.12 C +ATOM 10644 NE ARG D 95 15.291 -20.137 143.088 1.00 51.48 N +ATOM 10645 CZ ARG D 95 14.940 -20.598 144.286 1.00 50.36 C +ATOM 10646 NH1 ARG D 95 15.761 -21.384 144.967 1.00 51.54 N +ATOM 10647 NH2 ARG D 95 13.762 -20.282 144.803 1.00 50.04 N +ATOM 10648 N ALA D 96 18.234 -16.962 138.617 1.00 31.94 N +ATOM 10649 CA ALA D 96 17.923 -16.137 137.452 1.00 30.63 C +ATOM 10650 C ALA D 96 16.590 -15.430 137.612 1.00 29.76 C +ATOM 10651 O ALA D 96 16.462 -14.255 137.253 1.00 33.28 O +ATOM 10652 CB ALA D 96 17.925 -16.989 136.183 1.00 33.61 C +ATOM 10653 N GLU D 97 15.586 -16.127 138.161 1.00 32.91 N +ATOM 10654 CA GLU D 97 14.245 -15.575 138.348 1.00 35.76 C +ATOM 10655 C GLU D 97 14.197 -14.397 139.316 1.00 33.74 C +ATOM 10656 O GLU D 97 13.167 -13.710 139.364 1.00 33.44 O +ATOM 10657 CB GLU D 97 13.272 -16.641 138.868 1.00 42.83 C +ATOM 10658 CG GLU D 97 13.372 -17.993 138.214 1.00 50.79 C +ATOM 10659 CD GLU D 97 14.420 -18.868 138.875 1.00 54.27 C +ATOM 10660 OE1 GLU D 97 15.590 -18.823 138.435 1.00 55.38 O +ATOM 10661 OE2 GLU D 97 14.073 -19.585 139.842 1.00 55.63 O +ATOM 10662 N ASP D 98 15.245 -14.171 140.110 1.00 31.21 N +ATOM 10663 CA ASP D 98 15.287 -13.027 141.017 1.00 27.54 C +ATOM 10664 C ASP D 98 15.761 -11.747 140.334 1.00 31.31 C +ATOM 10665 O ASP D 98 15.815 -10.705 140.988 1.00 27.19 O +ATOM 10666 CB ASP D 98 16.196 -13.330 142.213 1.00 25.02 C +ATOM 10667 CG ASP D 98 15.748 -14.540 142.995 1.00 29.38 C +ATOM 10668 OD1 ASP D 98 14.537 -14.636 143.321 1.00 30.33 O +ATOM 10669 OD2 ASP D 98 16.601 -15.397 143.287 1.00 27.08 O +ATOM 10670 N THR D 99 16.125 -11.802 139.048 1.00 31.78 N +ATOM 10671 CA THR D 99 16.462 -10.593 138.305 1.00 28.02 C +ATOM 10672 C THR D 99 15.265 -9.654 138.277 1.00 25.32 C +ATOM 10673 O THR D 99 14.164 -10.065 137.911 1.00 27.20 O +ATOM 10674 CB THR D 99 16.860 -10.954 136.872 1.00 29.67 C +ATOM 10675 OG1 THR D 99 18.087 -11.680 136.879 1.00 26.35 O +ATOM 10676 CG2 THR D 99 16.993 -9.708 136.017 1.00 27.03 C +ATOM 10677 N ALA D 100 15.477 -8.388 138.639 1.00 25.25 N +ATOM 10678 CA ALA D 100 14.362 -7.447 138.748 1.00 24.94 C +ATOM 10679 C ALA D 100 14.880 -6.091 139.211 1.00 31.77 C +ATOM 10680 O ALA D 100 16.019 -5.957 139.668 1.00 25.10 O +ATOM 10681 CB ALA D 100 13.290 -7.926 139.736 1.00 24.56 C +ATOM 10682 N VAL D 101 14.025 -5.082 139.068 1.00 24.74 N +ATOM 10683 CA VAL D 101 14.198 -3.825 139.781 1.00 26.70 C +ATOM 10684 C VAL D 101 13.633 -4.006 141.183 1.00 25.52 C +ATOM 10685 O VAL D 101 12.484 -4.434 141.347 1.00 28.66 O +ATOM 10686 CB VAL D 101 13.497 -2.672 139.040 1.00 30.84 C +ATOM 10687 CG1 VAL D 101 13.547 -1.396 139.874 1.00 28.40 C +ATOM 10688 CG2 VAL D 101 14.131 -2.449 137.654 1.00 32.54 C +ATOM 10689 N TYR D 102 14.436 -3.704 142.193 1.00 26.13 N +ATOM 10690 CA TYR D 102 14.030 -3.845 143.591 1.00 27.68 C +ATOM 10691 C TYR D 102 13.723 -2.473 144.175 1.00 26.46 C +ATOM 10692 O TYR D 102 14.585 -1.587 144.185 1.00 23.90 O +ATOM 10693 CB TYR D 102 15.108 -4.548 144.412 1.00 26.07 C +ATOM 10694 CG TYR D 102 15.083 -6.042 144.215 1.00 30.62 C +ATOM 10695 CD1 TYR D 102 15.575 -6.604 143.040 1.00 27.48 C +ATOM 10696 CD2 TYR D 102 14.542 -6.897 145.186 1.00 26.84 C +ATOM 10697 CE1 TYR D 102 15.549 -7.967 142.831 1.00 27.77 C +ATOM 10698 CE2 TYR D 102 14.514 -8.280 144.980 1.00 26.89 C +ATOM 10699 CZ TYR D 102 15.020 -8.804 143.787 1.00 28.20 C +ATOM 10700 OH TYR D 102 15.013 -10.155 143.536 1.00 26.40 O +ATOM 10701 N TYR D 103 12.497 -2.313 144.651 1.00 23.42 N +ATOM 10702 CA TYR D 103 11.994 -1.085 145.241 1.00 24.40 C +ATOM 10703 C TYR D 103 11.820 -1.275 146.736 1.00 27.15 C +ATOM 10704 O TYR D 103 11.308 -2.307 147.186 1.00 25.95 O +ATOM 10705 CB TYR D 103 10.615 -0.700 144.695 1.00 23.05 C +ATOM 10706 CG TYR D 103 10.512 -0.346 143.228 1.00 27.82 C +ATOM 10707 CD1 TYR D 103 10.920 0.897 142.761 1.00 26.85 C +ATOM 10708 CD2 TYR D 103 9.933 -1.227 142.324 1.00 26.30 C +ATOM 10709 CE1 TYR D 103 10.786 1.238 141.415 1.00 23.89 C +ATOM 10710 CE2 TYR D 103 9.804 -0.903 140.980 1.00 27.69 C +ATOM 10711 CZ TYR D 103 10.230 0.330 140.536 1.00 29.92 C +ATOM 10712 OH TYR D 103 10.115 0.650 139.191 1.00 34.29 O +ATOM 10713 N CYS D 104 12.183 -0.259 147.496 1.00 22.87 N +ATOM 10714 CA ACYS D 104 11.742 -0.181 148.877 0.64 24.10 C +ATOM 10715 C CYS D 104 10.649 0.872 148.989 1.00 26.80 C +ATOM 10716 O CYS D 104 10.584 1.824 148.202 1.00 31.93 O +ATOM 10717 CB ACYS D 104 12.882 0.110 149.850 0.64 23.79 C +ATOM 10718 SG ACYS D 104 13.700 1.688 149.721 0.64 26.82 S +ATOM 10719 N ALA D 105 9.731 0.646 149.923 1.00 24.09 N +ATOM 10720 CA ALA D 105 8.574 1.519 150.087 1.00 24.12 C +ATOM 10721 C ALA D 105 8.135 1.500 151.537 1.00 24.97 C +ATOM 10722 O ALA D 105 8.162 0.454 152.191 1.00 26.35 O +ATOM 10723 CB ALA D 105 7.398 1.102 149.214 1.00 24.52 C +ATOM 10724 N ARG D 106 7.671 2.648 152.021 1.00 25.36 N +ATOM 10725 CA ARG D 106 7.247 2.749 153.406 1.00 28.26 C +ATOM 10726 C ARG D 106 5.727 2.842 153.513 1.00 26.37 C +ATOM 10727 O ARG D 106 5.035 3.331 152.611 1.00 24.85 O +ATOM 10728 CB ARG D 106 7.896 3.944 154.101 1.00 28.71 C +ATOM 10729 CG ARG D 106 7.207 5.245 153.820 1.00 31.92 C +ATOM 10730 CD ARG D 106 6.794 5.914 155.106 1.00 33.74 C +ATOM 10731 NE ARG D 106 5.859 7.003 154.844 1.00 33.68 N +ATOM 10732 CZ ARG D 106 5.746 8.086 155.602 1.00 31.89 C +ATOM 10733 NH1 ARG D 106 6.517 8.226 156.671 1.00 30.80 N +ATOM 10734 NH2 ARG D 106 4.864 9.022 155.289 1.00 31.12 N +ATOM 10735 N GLU D 107 5.223 2.342 154.631 1.00 20.76 N +ATOM 10736 CA GLU D 107 3.810 2.401 154.991 1.00 20.55 C +ATOM 10737 C GLU D 107 3.730 3.019 156.380 1.00 21.37 C +ATOM 10738 O GLU D 107 4.398 2.546 157.303 1.00 21.95 O +ATOM 10739 CB GLU D 107 3.183 1.002 154.968 1.00 20.48 C +ATOM 10740 CG GLU D 107 1.714 0.934 155.368 1.00 20.29 C +ATOM 10741 CD GLU D 107 1.271 -0.471 155.761 1.00 25.08 C +ATOM 10742 OE1 GLU D 107 2.029 -1.445 155.557 1.00 24.64 O +ATOM 10743 OE2 GLU D 107 0.136 -0.615 156.260 1.00 26.40 O +ATOM 10744 N TYR D 108 2.925 4.075 156.527 1.00 26.45 N +ATOM 10745 CA TYR D 108 2.795 4.784 157.798 1.00 27.78 C +ATOM 10746 C TYR D 108 1.371 5.307 157.958 1.00 29.16 C +ATOM 10747 O TYR D 108 0.771 5.795 156.995 1.00 29.47 O +ATOM 10748 CB TYR D 108 3.775 5.962 157.904 1.00 29.55 C +ATOM 10749 CG TYR D 108 3.589 6.774 159.180 1.00 33.70 C +ATOM 10750 CD1 TYR D 108 3.939 6.242 160.417 1.00 31.79 C +ATOM 10751 CD2 TYR D 108 3.036 8.059 159.149 1.00 35.19 C +ATOM 10752 CE1 TYR D 108 3.759 6.958 161.583 1.00 34.53 C +ATOM 10753 CE2 TYR D 108 2.859 8.790 160.322 1.00 35.10 C +ATOM 10754 CZ TYR D 108 3.221 8.226 161.536 1.00 37.59 C +ATOM 10755 OH TYR D 108 3.051 8.917 162.718 1.00 41.68 O +ATOM 10756 N HIS D 109 0.838 5.209 159.175 1.00 26.72 N +ATOM 10757 CA HIS D 109 -0.466 5.781 159.516 1.00 26.57 C +ATOM 10758 C HIS D 109 -0.321 6.557 160.812 1.00 23.30 C +ATOM 10759 O HIS D 109 0.129 6.000 161.812 1.00 23.33 O +ATOM 10760 CB HIS D 109 -1.542 4.707 159.666 1.00 25.54 C +ATOM 10761 CG HIS D 109 -2.922 5.265 159.848 1.00 33.70 C +ATOM 10762 ND1 HIS D 109 -3.426 6.280 159.062 1.00 36.89 N +ATOM 10763 CD2 HIS D 109 -3.902 4.952 160.728 1.00 37.20 C +ATOM 10764 CE1 HIS D 109 -4.661 6.561 159.443 1.00 37.44 C +ATOM 10765 NE2 HIS D 109 -4.972 5.772 160.456 1.00 37.36 N +ATOM 10766 N SER D 110 -0.694 7.840 160.798 1.00 26.92 N +ATOM 10767 CA SER D 110 -0.383 8.709 161.937 1.00 28.49 C +ATOM 10768 C SER D 110 -1.092 8.292 163.222 1.00 29.98 C +ATOM 10769 O SER D 110 -0.658 8.689 164.315 1.00 29.21 O +ATOM 10770 CB SER D 110 -0.734 10.166 161.618 1.00 29.11 C +ATOM 10771 OG SER D 110 -2.135 10.347 161.615 1.00 33.96 O +ATOM 10772 N TYR D 111 -2.157 7.505 163.129 1.00 27.12 N +ATOM 10773 CA TYR D 111 -2.876 7.066 164.314 1.00 28.15 C +ATOM 10774 C TYR D 111 -2.411 5.711 164.837 1.00 30.60 C +ATOM 10775 O TYR D 111 -2.973 5.235 165.832 1.00 29.17 O +ATOM 10776 CB TYR D 111 -4.377 7.008 164.036 1.00 32.02 C +ATOM 10777 CG TYR D 111 -4.984 8.367 163.774 1.00 41.15 C +ATOM 10778 CD1 TYR D 111 -5.362 9.194 164.828 1.00 45.43 C +ATOM 10779 CD2 TYR D 111 -5.167 8.834 162.473 1.00 46.14 C +ATOM 10780 CE1 TYR D 111 -5.914 10.444 164.598 1.00 49.52 C +ATOM 10781 CE2 TYR D 111 -5.716 10.086 162.231 1.00 49.73 C +ATOM 10782 CZ TYR D 111 -6.087 10.887 163.301 1.00 52.36 C +ATOM 10783 OH TYR D 111 -6.637 12.131 163.081 1.00 55.53 O +ATOM 10784 N TRP D 111A -1.419 5.078 164.202 1.00 25.34 N +ATOM 10785 CA TRP D 111A -0.884 3.832 164.737 1.00 18.95 C +ATOM 10786 C TRP D 111A -0.406 4.050 166.169 1.00 18.80 C +ATOM 10787 O TRP D 111A 0.088 5.126 166.517 1.00 21.26 O +ATOM 10788 CB TRP D 111A 0.290 3.331 163.887 1.00 25.02 C +ATOM 10789 CG TRP D 111A -0.114 2.631 162.628 1.00 22.64 C +ATOM 10790 CD1 TRP D 111A -1.374 2.280 162.262 1.00 23.78 C +ATOM 10791 CD2 TRP D 111A 0.752 2.194 161.574 1.00 19.42 C +ATOM 10792 NE1 TRP D 111A -1.355 1.648 161.042 1.00 22.66 N +ATOM 10793 CE2 TRP D 111A -0.060 1.584 160.595 1.00 21.55 C +ATOM 10794 CE3 TRP D 111A 2.134 2.263 161.363 1.00 19.54 C +ATOM 10795 CZ2 TRP D 111A 0.463 1.048 159.419 1.00 21.07 C +ATOM 10796 CZ3 TRP D 111A 2.656 1.724 160.199 1.00 29.30 C +ATOM 10797 CH2 TRP D 111A 1.826 1.127 159.244 1.00 19.79 C +ATOM 10798 N SER D 111B -0.515 2.996 166.984 1.00 24.92 N +ATOM 10799 CA SER D 111B -0.049 3.010 168.369 1.00 22.18 C +ATOM 10800 C SER D 111B 0.919 1.855 168.590 1.00 23.35 C +ATOM 10801 O SER D 111B 1.857 1.677 167.811 1.00 24.36 O +ATOM 10802 CB SER D 111B -1.243 2.944 169.329 1.00 18.36 C +ATOM 10803 OG SER D 111B -2.063 1.814 169.075 1.00 19.95 O +ATOM 10804 N TYR D 111C 0.727 1.070 169.650 1.00 23.96 N +ATOM 10805 CA TYR D 111C 1.401 -0.221 169.695 1.00 24.43 C +ATOM 10806 C TYR D 111C 0.794 -1.179 168.681 1.00 25.64 C +ATOM 10807 O TYR D 111C 1.460 -2.133 168.264 1.00 22.79 O +ATOM 10808 CB TYR D 111C 1.344 -0.818 171.103 1.00 23.16 C +ATOM 10809 CG TYR D 111C 2.029 0.049 172.145 1.00 25.51 C +ATOM 10810 CD1 TYR D 111C 3.382 0.407 172.014 1.00 23.84 C +ATOM 10811 CD2 TYR D 111C 1.337 0.497 173.267 1.00 25.75 C +ATOM 10812 CE1 TYR D 111C 4.014 1.191 172.979 1.00 24.67 C +ATOM 10813 CE2 TYR D 111C 1.963 1.286 174.235 1.00 25.86 C +ATOM 10814 CZ TYR D 111C 3.294 1.627 174.080 1.00 27.63 C +ATOM 10815 OH TYR D 111C 3.901 2.409 175.028 1.00 29.20 O +ATOM 10816 N SER D 112D -0.438 -0.916 168.264 1.00 23.18 N +ATOM 10817 CA SER D 112D -1.110 -1.649 167.203 1.00 25.64 C +ATOM 10818 C SER D 112D -0.942 -0.880 165.899 1.00 18.77 C +ATOM 10819 O SER D 112D -1.347 0.284 165.801 1.00 18.77 O +ATOM 10820 CB SER D 112D -2.592 -1.836 167.537 1.00 24.30 C +ATOM 10821 OG SER D 112D -2.743 -2.853 168.515 1.00 22.16 O +ATOM 10822 N TRP D 112C -0.328 -1.517 164.905 1.00 27.11 N +ATOM 10823 CA TRP D 112C -0.159 -0.888 163.597 1.00 22.55 C +ATOM 10824 C TRP D 112C -1.310 -1.344 162.696 1.00 27.66 C +ATOM 10825 O TRP D 112C -1.141 -2.096 161.735 1.00 19.28 O +ATOM 10826 CB TRP D 112C 1.224 -1.201 163.024 1.00 19.25 C +ATOM 10827 CG TRP D 112C 2.358 -0.466 163.732 1.00 19.23 C +ATOM 10828 CD1 TRP D 112C 2.277 0.276 164.897 1.00 19.06 C +ATOM 10829 CD2 TRP D 112C 3.729 -0.374 163.301 1.00 22.22 C +ATOM 10830 NE1 TRP D 112C 3.511 0.817 165.200 1.00 19.10 N +ATOM 10831 CE2 TRP D 112C 4.418 0.423 164.250 1.00 21.46 C +ATOM 10832 CE3 TRP D 112C 4.442 -0.905 162.226 1.00 25.06 C +ATOM 10833 CZ2 TRP D 112C 5.781 0.710 164.136 1.00 21.52 C +ATOM 10834 CZ3 TRP D 112C 5.813 -0.632 162.120 1.00 19.72 C +ATOM 10835 CH2 TRP D 112C 6.460 0.168 163.063 1.00 20.91 C +ATOM 10836 N TRP D 112B -2.510 -0.873 163.062 1.00 27.19 N +ATOM 10837 CA TRP D 112B -3.798 -1.083 162.415 1.00 25.59 C +ATOM 10838 C TRP D 112B -4.483 0.262 162.214 1.00 25.88 C +ATOM 10839 O TRP D 112B -4.442 1.112 163.111 1.00 29.85 O +ATOM 10840 CB TRP D 112B -4.718 -1.981 163.255 1.00 24.62 C +ATOM 10841 CG TRP D 112B -6.042 -2.249 162.585 1.00 26.91 C +ATOM 10842 CD1 TRP D 112B -7.159 -1.450 162.606 1.00 27.04 C +ATOM 10843 CD2 TRP D 112B -6.378 -3.387 161.775 1.00 22.87 C +ATOM 10844 NE1 TRP D 112B -8.161 -2.025 161.859 1.00 29.06 N +ATOM 10845 CE2 TRP D 112B -7.714 -3.217 161.349 1.00 27.65 C +ATOM 10846 CE3 TRP D 112B -5.685 -4.537 161.386 1.00 26.23 C +ATOM 10847 CZ2 TRP D 112B -8.363 -4.147 160.538 1.00 25.20 C +ATOM 10848 CZ3 TRP D 112B -6.333 -5.464 160.573 1.00 25.16 C +ATOM 10849 CH2 TRP D 112B -7.657 -5.266 160.171 1.00 25.62 C +ATOM 10850 N PRO D 112A -5.147 0.489 161.065 1.00 22.72 N +ATOM 10851 CA PRO D 112A -5.309 -0.393 159.891 1.00 23.04 C +ATOM 10852 C PRO D 112A -4.101 -0.385 158.978 1.00 22.76 C +ATOM 10853 O PRO D 112A -3.225 0.477 159.112 1.00 27.30 O +ATOM 10854 CB PRO D 112A -6.522 0.218 159.172 1.00 22.27 C +ATOM 10855 CG PRO D 112A -6.345 1.681 159.416 1.00 24.12 C +ATOM 10856 CD PRO D 112A -5.856 1.764 160.881 1.00 21.98 C +ATOM 10857 N ARG D 112 -4.040 -1.324 158.039 1.00 22.03 N +ATOM 10858 CA ARG D 112 -2.950 -1.339 157.077 1.00 23.70 C +ATOM 10859 C ARG D 112 -3.306 -0.392 155.941 1.00 25.80 C +ATOM 10860 O ARG D 112 -4.407 -0.465 155.390 1.00 23.53 O +ATOM 10861 CB ARG D 112 -2.716 -2.757 156.554 1.00 24.77 C +ATOM 10862 CG ARG D 112 -2.420 -3.762 157.677 1.00 25.82 C +ATOM 10863 CD ARG D 112 -1.394 -3.214 158.666 1.00 19.64 C +ATOM 10864 NE ARG D 112 -0.097 -2.941 158.038 1.00 22.07 N +ATOM 10865 CZ ARG D 112 1.057 -2.902 158.700 1.00 23.79 C +ATOM 10866 NH1 ARG D 112 1.077 -3.122 160.008 1.00 25.15 N +ATOM 10867 NH2 ARG D 112 2.189 -2.644 158.061 1.00 23.50 N +ATOM 10868 N VAL D 113 -2.390 0.513 155.606 1.00 24.21 N +ATOM 10869 CA VAL D 113 -2.701 1.543 154.621 1.00 26.81 C +ATOM 10870 C VAL D 113 -1.804 1.399 153.394 1.00 27.33 C +ATOM 10871 O VAL D 113 -1.160 0.362 153.189 1.00 26.69 O +ATOM 10872 CB VAL D 113 -2.597 2.952 155.242 1.00 26.69 C +ATOM 10873 CG1 VAL D 113 -3.627 3.112 156.346 1.00 25.31 C +ATOM 10874 CG2 VAL D 113 -1.207 3.224 155.779 1.00 26.64 C +ATOM 10875 N GLY D 114 -1.778 2.422 152.555 1.00 28.56 N +ATOM 10876 CA GLY D 114 -1.064 2.316 151.309 1.00 30.10 C +ATOM 10877 C GLY D 114 0.426 2.525 151.477 1.00 29.26 C +ATOM 10878 O GLY D 114 0.910 3.009 152.506 1.00 29.86 O +ATOM 10879 N LEU D 115 1.165 2.115 150.455 1.00 27.11 N +ATOM 10880 CA LEU D 115 2.606 2.380 150.382 1.00 25.32 C +ATOM 10881 C LEU D 115 2.766 3.751 149.735 1.00 24.36 C +ATOM 10882 O LEU D 115 2.607 3.890 148.525 1.00 23.74 O +ATOM 10883 CB LEU D 115 3.315 1.276 149.604 1.00 21.22 C +ATOM 10884 CG LEU D 115 3.701 0.003 150.385 1.00 28.85 C +ATOM 10885 CD1 LEU D 115 2.518 -0.610 151.149 1.00 30.00 C +ATOM 10886 CD2 LEU D 115 4.327 -1.040 149.471 1.00 27.77 C +ATOM 10887 N ASP D 116 3.058 4.784 150.536 1.00 24.43 N +ATOM 10888 CA ASP D 116 2.891 6.138 150.008 1.00 27.24 C +ATOM 10889 C ASP D 116 4.160 6.724 149.407 1.00 30.31 C +ATOM 10890 O ASP D 116 4.072 7.602 148.539 1.00 30.47 O +ATOM 10891 CB ASP D 116 2.340 7.094 151.080 1.00 27.50 C +ATOM 10892 CG ASP D 116 3.205 7.172 152.339 1.00 30.64 C +ATOM 10893 OD1 ASP D 116 4.025 6.259 152.592 1.00 30.26 O +ATOM 10894 OD2 ASP D 116 3.041 8.162 153.094 1.00 31.74 O +ATOM 10895 N TYR D 117 5.331 6.270 149.838 1.00 28.08 N +ATOM 10896 CA TYR D 117 6.599 6.711 149.277 1.00 29.26 C +ATOM 10897 C TYR D 117 7.390 5.487 148.856 1.00 31.63 C +ATOM 10898 O TYR D 117 7.543 4.544 149.639 1.00 30.77 O +ATOM 10899 CB TYR D 117 7.405 7.555 150.279 1.00 30.71 C +ATOM 10900 CG TYR D 117 6.821 8.929 150.502 1.00 32.75 C +ATOM 10901 CD1 TYR D 117 7.146 9.989 149.661 1.00 35.94 C +ATOM 10902 CD2 TYR D 117 5.927 9.162 151.538 1.00 32.66 C +ATOM 10903 CE1 TYR D 117 6.605 11.250 149.859 1.00 39.59 C +ATOM 10904 CE2 TYR D 117 5.382 10.415 151.747 1.00 37.22 C +ATOM 10905 CZ TYR D 117 5.718 11.457 150.908 1.00 42.52 C +ATOM 10906 OH TYR D 117 5.166 12.703 151.127 1.00 44.37 O +ATOM 10907 N TRP D 118 7.842 5.498 147.608 1.00 27.79 N +ATOM 10908 CA TRP D 118 8.693 4.486 147.015 1.00 25.66 C +ATOM 10909 C TRP D 118 10.014 5.133 146.629 1.00 27.90 C +ATOM 10910 O TRP D 118 10.081 6.334 146.372 1.00 32.42 O +ATOM 10911 CB TRP D 118 8.050 3.879 145.753 1.00 27.36 C +ATOM 10912 CG TRP D 118 6.736 3.188 145.943 1.00 24.08 C +ATOM 10913 CD1 TRP D 118 5.576 3.727 146.436 1.00 23.44 C +ATOM 10914 CD2 TRP D 118 6.429 1.838 145.575 1.00 22.22 C +ATOM 10915 NE1 TRP D 118 4.578 2.777 146.432 1.00 23.17 N +ATOM 10916 CE2 TRP D 118 5.076 1.612 145.905 1.00 24.43 C +ATOM 10917 CE3 TRP D 118 7.178 0.790 145.025 1.00 27.44 C +ATOM 10918 CZ2 TRP D 118 4.453 0.382 145.691 1.00 25.71 C +ATOM 10919 CZ3 TRP D 118 6.558 -0.435 144.812 1.00 25.44 C +ATOM 10920 CH2 TRP D 118 5.209 -0.625 145.140 1.00 24.04 C +ATOM 10921 N GLY D 119 11.067 4.332 146.573 1.00 25.81 N +ATOM 10922 CA GLY D 119 12.302 4.785 145.981 1.00 24.37 C +ATOM 10923 C GLY D 119 12.275 4.647 144.464 1.00 23.42 C +ATOM 10924 O GLY D 119 11.319 4.156 143.869 1.00 29.21 O +ATOM 10925 N GLN D 120 13.387 5.052 143.841 1.00 25.16 N +ATOM 10926 CA GLN D 120 13.528 4.923 142.393 1.00 28.10 C +ATOM 10927 C GLN D 120 13.802 3.484 141.946 1.00 27.59 C +ATOM 10928 O GLN D 120 13.614 3.166 140.769 1.00 28.90 O +ATOM 10929 CB GLN D 120 14.646 5.847 141.904 1.00 27.87 C +ATOM 10930 N GLY D 121 14.258 2.623 142.840 1.00 24.06 N +ATOM 10931 CA GLY D 121 14.544 1.244 142.476 1.00 24.18 C +ATOM 10932 C GLY D 121 16.007 1.032 142.131 1.00 33.32 C +ATOM 10933 O GLY D 121 16.697 1.914 141.620 1.00 33.86 O +ATOM 10934 N THR D 122 16.496 -0.170 142.430 1.00 31.98 N +ATOM 10935 CA THR D 122 17.848 -0.574 142.053 1.00 33.74 C +ATOM 10936 C THR D 122 17.770 -1.910 141.320 1.00 34.78 C +ATOM 10937 O THR D 122 16.954 -2.773 141.667 1.00 24.87 O +ATOM 10938 CB THR D 122 18.773 -0.658 143.279 1.00 30.93 C +ATOM 10939 OG1 THR D 122 20.123 -0.884 142.861 1.00 33.74 O +ATOM 10940 CG2 THR D 122 18.343 -1.775 144.216 1.00 29.39 C +ATOM 10941 N LEU D 123 18.594 -2.067 140.286 1.00 31.06 N +ATOM 10942 CA LEU D 123 18.474 -3.189 139.359 1.00 31.80 C +ATOM 10943 C LEU D 123 19.421 -4.315 139.758 1.00 28.10 C +ATOM 10944 O LEU D 123 20.622 -4.088 139.922 1.00 27.73 O +ATOM 10945 CB LEU D 123 18.767 -2.752 137.920 1.00 33.93 C +ATOM 10946 CG LEU D 123 18.788 -3.900 136.905 1.00 32.08 C +ATOM 10947 CD1 LEU D 123 17.465 -4.636 136.950 1.00 32.54 C +ATOM 10948 CD2 LEU D 123 19.079 -3.410 135.481 1.00 33.85 C +ATOM 10949 N VAL D 124 18.879 -5.524 139.893 1.00 27.53 N +ATOM 10950 CA VAL D 124 19.645 -6.714 140.250 1.00 27.23 C +ATOM 10951 C VAL D 124 19.584 -7.691 139.082 1.00 28.01 C +ATOM 10952 O VAL D 124 18.497 -8.116 138.681 1.00 27.33 O +ATOM 10953 CB VAL D 124 19.115 -7.382 141.531 1.00 27.11 C +ATOM 10954 CG1 VAL D 124 19.851 -8.683 141.782 1.00 28.16 C +ATOM 10955 CG2 VAL D 124 19.247 -6.440 142.736 1.00 26.49 C +ATOM 10956 N THR D 125 20.745 -8.075 138.561 1.00 32.14 N +ATOM 10957 CA THR D 125 20.820 -9.057 137.486 1.00 34.08 C +ATOM 10958 C THR D 125 21.551 -10.299 137.984 1.00 27.48 C +ATOM 10959 O THR D 125 22.695 -10.212 138.428 1.00 28.41 O +ATOM 10960 CB THR D 125 21.515 -8.472 136.259 1.00 35.16 C +ATOM 10961 OG1 THR D 125 20.881 -7.232 135.917 1.00 34.80 O +ATOM 10962 CG2 THR D 125 21.405 -9.436 135.075 1.00 37.95 C +ATOM 10963 N VAL D 126 20.881 -11.442 137.923 1.00 28.24 N +ATOM 10964 CA VAL D 126 21.457 -12.728 138.289 1.00 28.40 C +ATOM 10965 C VAL D 126 21.686 -13.501 136.999 1.00 33.91 C +ATOM 10966 O VAL D 126 20.728 -13.869 136.308 1.00 33.76 O +ATOM 10967 CB VAL D 126 20.552 -13.512 139.249 1.00 29.87 C +ATOM 10968 CG1 VAL D 126 21.253 -14.795 139.692 1.00 29.15 C +ATOM 10969 CG2 VAL D 126 20.151 -12.632 140.463 1.00 26.72 C +ATOM 10970 N SER D 127 22.955 -13.751 136.675 1.00 37.89 N +ATOM 10971 CA SER D 127 23.309 -14.448 135.448 1.00 36.38 C +ATOM 10972 C SER D 127 24.755 -14.896 135.526 1.00 36.88 C +ATOM 10973 O SER D 127 25.590 -14.239 136.160 1.00 37.83 O +ATOM 10974 CB SER D 127 23.127 -13.559 134.219 1.00 37.08 C +ATOM 10975 OG SER D 127 23.920 -14.058 133.165 1.00 38.31 O +ATOM 10976 N SER D 128 25.055 -16.001 134.857 1.00 36.78 N +ATOM 10977 CA SER D 128 26.431 -16.477 134.788 1.00 39.34 C +ATOM 10978 C SER D 128 27.117 -16.094 133.475 1.00 36.74 C +ATOM 10979 O SER D 128 28.262 -16.496 133.247 1.00 39.07 O +ATOM 10980 CB SER D 128 26.474 -17.991 134.999 1.00 43.19 C +ATOM 10981 OG SER D 128 25.670 -18.651 134.043 1.00 48.20 O +ATOM 10982 N ALA D 129 26.457 -15.303 132.626 1.00 33.99 N +ATOM 10983 CA ALA D 129 27.035 -14.882 131.353 1.00 33.96 C +ATOM 10984 C ALA D 129 28.219 -13.932 131.556 1.00 37.97 C +ATOM 10985 O ALA D 129 28.282 -13.172 132.531 1.00 30.22 O +ATOM 10986 CB ALA D 129 25.970 -14.197 130.500 1.00 33.89 C +ATOM 10987 N SER D 130 29.173 -13.993 130.624 1.00 34.62 N +ATOM 10988 CA SER D 130 30.260 -13.024 130.542 1.00 34.48 C +ATOM 10989 C SER D 130 29.888 -11.894 129.586 1.00 34.73 C +ATOM 10990 O SER D 130 29.052 -12.052 128.692 1.00 33.52 O +ATOM 10991 CB SER D 130 31.565 -13.678 130.063 1.00 35.76 C +ATOM 10992 OG SER D 130 31.993 -14.714 130.927 1.00 36.05 O +ATOM 10993 N THR D 131 30.541 -10.746 129.772 1.00 36.89 N +ATOM 10994 CA THR D 131 30.372 -9.637 128.840 1.00 38.75 C +ATOM 10995 C THR D 131 30.661 -10.113 127.426 1.00 39.08 C +ATOM 10996 O THR D 131 31.739 -10.654 127.151 1.00 39.13 O +ATOM 10997 CB THR D 131 31.299 -8.475 129.196 1.00 39.47 C +ATOM 10998 OG1 THR D 131 31.133 -8.117 130.574 1.00 38.40 O +ATOM 10999 CG2 THR D 131 30.983 -7.267 128.318 1.00 41.33 C +ATOM 11000 N LYS D 132 29.690 -9.931 126.537 1.00 39.95 N +ATOM 11001 CA LYS D 132 29.837 -10.325 125.143 1.00 38.46 C +ATOM 11002 C LYS D 132 29.174 -9.290 124.254 1.00 39.03 C +ATOM 11003 O LYS D 132 28.042 -8.877 124.517 1.00 41.21 O +ATOM 11004 CB LYS D 132 29.219 -11.700 124.875 1.00 39.03 C +ATOM 11005 CG LYS D 132 29.279 -12.095 123.407 1.00 37.86 C +ATOM 11006 CD LYS D 132 28.722 -13.480 123.179 1.00 39.16 C +ATOM 11007 CE LYS D 132 28.699 -13.820 121.696 1.00 42.82 C +ATOM 11008 NZ LYS D 132 28.068 -12.760 120.851 1.00 42.91 N +ATOM 11009 N GLY D 133 29.881 -8.879 123.208 1.00 40.35 N +ATOM 11010 CA GLY D 133 29.359 -7.948 122.241 1.00 42.91 C +ATOM 11011 C GLY D 133 28.500 -8.648 121.212 1.00 43.67 C +ATOM 11012 O GLY D 133 28.610 -9.860 120.992 1.00 42.51 O +ATOM 11013 N PRO D 134 27.612 -7.898 120.570 1.00 45.52 N +ATOM 11014 CA PRO D 134 26.667 -8.499 119.631 1.00 45.53 C +ATOM 11015 C PRO D 134 27.253 -8.662 118.238 1.00 50.50 C +ATOM 11016 O PRO D 134 28.175 -7.956 117.829 1.00 51.49 O +ATOM 11017 CB PRO D 134 25.523 -7.480 119.607 1.00 43.44 C +ATOM 11018 CG PRO D 134 26.226 -6.176 119.776 1.00 42.02 C +ATOM 11019 CD PRO D 134 27.362 -6.455 120.753 1.00 44.77 C +ATOM 11020 N SER D 135 26.687 -9.619 117.512 1.00 54.46 N +ATOM 11021 CA SER D 135 26.899 -9.761 116.077 1.00 58.98 C +ATOM 11022 C SER D 135 25.653 -9.234 115.371 1.00 59.35 C +ATOM 11023 O SER D 135 24.537 -9.691 115.649 1.00 56.85 O +ATOM 11024 CB SER D 135 27.195 -11.215 115.696 1.00 60.13 C +ATOM 11025 OG SER D 135 26.161 -12.102 116.089 1.00 61.17 O +ATOM 11026 N VAL D 136 25.844 -8.254 114.486 1.00 60.79 N +ATOM 11027 CA VAL D 136 24.753 -7.561 113.805 1.00 61.12 C +ATOM 11028 C VAL D 136 24.578 -8.157 112.415 1.00 60.83 C +ATOM 11029 O VAL D 136 25.538 -8.239 111.638 1.00 61.93 O +ATOM 11030 CB VAL D 136 25.026 -6.048 113.723 1.00 61.28 C +ATOM 11031 CG1 VAL D 136 23.914 -5.338 112.957 1.00 59.75 C +ATOM 11032 CG2 VAL D 136 25.184 -5.463 115.117 1.00 61.74 C +ATOM 11033 N PHE D 137 23.355 -8.565 112.097 1.00 59.15 N +ATOM 11034 CA PHE D 137 23.058 -9.130 110.792 1.00 59.03 C +ATOM 11035 C PHE D 137 22.015 -8.287 110.064 1.00 58.34 C +ATOM 11036 O PHE D 137 21.135 -7.694 110.694 1.00 53.40 O +ATOM 11037 CB PHE D 137 22.559 -10.576 110.915 1.00 57.74 C +ATOM 11038 CG PHE D 137 23.471 -11.453 111.717 1.00 57.41 C +ATOM 11039 CD1 PHE D 137 24.779 -11.663 111.311 1.00 57.59 C +ATOM 11040 CD2 PHE D 137 23.029 -12.058 112.879 1.00 57.80 C +ATOM 11041 CE1 PHE D 137 25.634 -12.464 112.048 1.00 56.08 C +ATOM 11042 CE2 PHE D 137 23.876 -12.863 113.622 1.00 59.56 C +ATOM 11043 CZ PHE D 137 25.185 -13.064 113.205 1.00 57.97 C +ATOM 11044 N PRO D 138 22.096 -8.201 108.741 1.00 63.89 N +ATOM 11045 CA PRO D 138 21.095 -7.435 107.994 1.00 62.38 C +ATOM 11046 C PRO D 138 19.766 -8.167 107.906 1.00 59.72 C +ATOM 11047 O PRO D 138 19.696 -9.399 107.896 1.00 56.48 O +ATOM 11048 CB PRO D 138 21.731 -7.280 106.608 1.00 65.95 C +ATOM 11049 CG PRO D 138 22.632 -8.467 106.479 1.00 66.38 C +ATOM 11050 CD PRO D 138 23.171 -8.715 107.871 1.00 64.49 C +ATOM 11051 N LEU D 139 18.697 -7.378 107.868 1.00 60.76 N +ATOM 11052 CA LEU D 139 17.364 -7.855 107.517 1.00 64.05 C +ATOM 11053 C LEU D 139 17.033 -7.222 106.167 1.00 71.44 C +ATOM 11054 O LEU D 139 16.385 -6.177 106.084 1.00 69.36 O +ATOM 11055 CB LEU D 139 16.337 -7.502 108.598 1.00 59.52 C +ATOM 11056 CG LEU D 139 16.532 -8.180 109.957 1.00 52.66 C +ATOM 11057 CD1 LEU D 139 15.620 -7.540 110.996 1.00 53.48 C +ATOM 11058 CD2 LEU D 139 16.285 -9.687 109.871 1.00 46.75 C +ATOM 11059 N ALA D 140 17.512 -7.864 105.102 1.00 80.59 N +ATOM 11060 CA ALA D 140 17.472 -7.264 103.775 1.00 87.92 C +ATOM 11061 C ALA D 140 16.031 -7.096 103.298 1.00 92.36 C +ATOM 11062 O ALA D 140 15.196 -7.983 103.509 1.00 89.86 O +ATOM 11063 CB ALA D 140 18.251 -8.119 102.774 1.00 88.26 C +ATOM 11064 N PRO D 141 15.713 -5.975 102.650 1.00 99.88 N +ATOM 11065 CA PRO D 141 14.360 -5.794 102.111 1.00104.10 C +ATOM 11066 C PRO D 141 14.020 -6.881 101.103 1.00106.99 C +ATOM 11067 O PRO D 141 14.870 -7.324 100.326 1.00107.84 O +ATOM 11068 CB PRO D 141 14.421 -4.409 101.455 1.00105.16 C +ATOM 11069 CG PRO D 141 15.879 -4.160 101.213 1.00105.04 C +ATOM 11070 CD PRO D 141 16.589 -4.831 102.347 1.00102.63 C +ATOM 11071 N SER D 142 12.763 -7.317 101.135 1.00108.02 N +ATOM 11072 CA SER D 142 12.316 -8.379 100.246 1.00109.35 C +ATOM 11073 C SER D 142 12.453 -7.948 98.790 1.00112.73 C +ATOM 11074 O SER D 142 12.216 -6.788 98.440 1.00113.04 O +ATOM 11075 CB SER D 142 10.863 -8.750 100.556 1.00106.34 C +ATOM 11076 OG SER D 142 10.403 -9.796 99.717 1.00104.77 O +ATOM 11077 N SER D 143 12.852 -8.894 97.939 1.00116.95 N +ATOM 11078 CA SER D 143 12.962 -8.611 96.515 1.00122.76 C +ATOM 11079 C SER D 143 11.605 -8.525 95.827 1.00126.06 C +ATOM 11080 O SER D 143 11.541 -8.076 94.678 1.00126.69 O +ATOM 11081 CB SER D 143 13.826 -9.675 95.839 1.00125.07 C +ATOM 11082 OG SER D 143 13.224 -10.955 95.930 1.00125.69 O +ATOM 11083 N LYS D 144 10.527 -8.942 96.497 1.00127.60 N +ATOM 11084 CA LYS D 144 9.167 -8.796 95.991 1.00128.50 C +ATOM 11085 C LYS D 144 8.415 -7.675 96.708 1.00130.96 C +ATOM 11086 O LYS D 144 7.205 -7.773 96.931 1.00130.45 O +ATOM 11087 CB LYS D 144 8.405 -10.115 96.107 1.00126.22 C +ATOM 11088 CG LYS D 144 8.938 -11.213 95.202 1.00125.15 C +ATOM 11089 CD LYS D 144 7.927 -12.334 95.031 1.00123.50 C +ATOM 11090 CE LYS D 144 7.842 -13.202 96.273 1.00122.30 C +ATOM 11091 NZ LYS D 144 9.096 -13.980 96.476 1.00122.24 N +ATOM 11092 N SER D 145 9.126 -6.604 97.067 1.00133.82 N +ATOM 11093 CA SER D 145 8.520 -5.489 97.785 1.00135.69 C +ATOM 11094 C SER D 145 7.477 -4.797 96.919 1.00136.69 C +ATOM 11095 O SER D 145 7.724 -4.509 95.746 1.00136.52 O +ATOM 11096 CB SER D 145 9.595 -4.487 98.211 1.00137.36 C +ATOM 11097 OG SER D 145 10.516 -5.062 99.123 1.00138.60 O +ATOM 11098 N THR D 146 6.311 -4.526 97.505 1.00137.58 N +ATOM 11099 CA THR D 146 5.229 -3.874 96.777 1.00138.85 C +ATOM 11100 C THR D 146 5.708 -2.554 96.190 1.00147.03 C +ATOM 11101 O THR D 146 6.128 -1.652 96.921 1.00148.22 O +ATOM 11102 CB THR D 146 4.032 -3.643 97.697 1.00132.38 C +ATOM 11103 OG1 THR D 146 3.586 -4.898 98.224 1.00130.64 O +ATOM 11104 CG2 THR D 146 2.891 -2.987 96.930 1.00129.56 C +ATOM 11105 N SER D 147 5.648 -2.450 94.867 1.00156.47 N +ATOM 11106 CA SER D 147 6.153 -1.279 94.172 1.00157.90 C +ATOM 11107 C SER D 147 5.141 -0.142 94.223 1.00155.92 C +ATOM 11108 O SER D 147 3.926 -0.362 94.241 1.00157.64 O +ATOM 11109 CB SER D 147 6.473 -1.626 92.724 1.00162.09 C +ATOM 11110 OG SER D 147 7.084 -2.899 92.635 1.00164.51 O +ATOM 11111 N GLY D 148 5.656 1.085 94.234 1.00149.80 N +ATOM 11112 CA GLY D 148 4.806 2.228 94.489 1.00142.40 C +ATOM 11113 C GLY D 148 4.275 2.300 95.901 1.00134.55 C +ATOM 11114 O GLY D 148 3.415 3.140 96.185 1.00135.24 O +ATOM 11115 N GLY D 149 4.759 1.438 96.794 1.00124.44 N +ATOM 11116 CA GLY D 149 4.330 1.430 98.177 1.00113.78 C +ATOM 11117 C GLY D 149 5.484 1.523 99.155 1.00103.60 C +ATOM 11118 O GLY D 149 6.302 2.447 99.080 1.00100.62 O +ATOM 11119 N THR D 150 5.568 0.560 100.072 1.00 97.77 N +ATOM 11120 CA THR D 150 6.523 0.622 101.168 1.00 91.33 C +ATOM 11121 C THR D 150 7.172 -0.739 101.380 1.00 84.57 C +ATOM 11122 O THR D 150 6.491 -1.769 101.380 1.00 86.38 O +ATOM 11123 CB THR D 150 5.837 1.087 102.462 1.00 92.01 C +ATOM 11124 OG1 THR D 150 5.137 2.314 102.220 1.00 92.39 O +ATOM 11125 CG2 THR D 150 6.858 1.317 103.551 1.00 91.92 C +ATOM 11126 N ALA D 151 8.492 -0.735 101.559 1.00 76.05 N +ATOM 11127 CA ALA D 151 9.265 -1.930 101.868 1.00 69.42 C +ATOM 11128 C ALA D 151 9.857 -1.828 103.271 1.00 63.75 C +ATOM 11129 O ALA D 151 10.087 -0.733 103.798 1.00 62.88 O +ATOM 11130 CB ALA D 151 10.383 -2.143 100.843 1.00 68.85 C +ATOM 11131 N ALA D 152 10.115 -2.986 103.874 1.00 59.46 N +ATOM 11132 CA ALA D 152 10.638 -3.055 105.233 1.00 59.64 C +ATOM 11133 C ALA D 152 12.040 -3.653 105.238 1.00 61.00 C +ATOM 11134 O ALA D 152 12.330 -4.593 104.489 1.00 60.59 O +ATOM 11135 CB ALA D 152 9.718 -3.881 106.136 1.00 58.49 C +ATOM 11136 N LEU D 153 12.906 -3.102 106.091 1.00 60.88 N +ATOM 11137 CA LEU D 153 14.252 -3.624 106.288 1.00 63.74 C +ATOM 11138 C LEU D 153 14.685 -3.328 107.722 1.00 65.98 C +ATOM 11139 O LEU D 153 13.974 -2.664 108.482 1.00 66.61 O +ATOM 11140 CB LEU D 153 15.236 -3.035 105.263 1.00 62.48 C +ATOM 11141 CG LEU D 153 15.297 -1.510 105.127 1.00 62.55 C +ATOM 11142 CD1 LEU D 153 16.397 -0.913 106.004 1.00 64.61 C +ATOM 11143 CD2 LEU D 153 15.467 -1.087 103.670 1.00 60.31 C +ATOM 11144 N GLY D 154 15.857 -3.833 108.089 1.00 66.86 N +ATOM 11145 CA GLY D 154 16.376 -3.600 109.426 1.00 66.38 C +ATOM 11146 C GLY D 154 17.673 -4.350 109.651 1.00 65.51 C +ATOM 11147 O GLY D 154 18.268 -4.893 108.715 1.00 62.90 O +ATOM 11148 N CYS D 155 18.117 -4.360 110.913 1.00 64.81 N +ATOM 11149 CA CYS D 155 19.228 -5.206 111.335 1.00 66.43 C +ATOM 11150 C CYS D 155 18.857 -5.971 112.601 1.00 62.14 C +ATOM 11151 O CYS D 155 18.103 -5.486 113.453 1.00 60.86 O +ATOM 11152 CB ACYS D 155 20.489 -4.389 111.670 0.57 67.40 C +ATOM 11153 SG ACYS D 155 21.074 -3.175 110.479 0.57 68.06 S +ATOM 11154 N LEU D 156 19.396 -7.185 112.705 1.00 58.40 N +ATOM 11155 CA LEU D 156 19.176 -8.067 113.844 1.00 55.37 C +ATOM 11156 C LEU D 156 20.430 -8.066 114.714 1.00 56.23 C +ATOM 11157 O LEU D 156 21.516 -8.437 114.247 1.00 57.80 O +ATOM 11158 CB LEU D 156 18.836 -9.482 113.372 1.00 52.57 C +ATOM 11159 CG LEU D 156 18.810 -10.574 114.442 1.00 52.89 C +ATOM 11160 CD1 LEU D 156 17.712 -10.311 115.468 1.00 51.80 C +ATOM 11161 CD2 LEU D 156 18.641 -11.943 113.808 1.00 51.42 C +ATOM 11162 N VAL D 157 20.280 -7.637 115.965 1.00 51.96 N +ATOM 11163 CA VAL D 157 21.380 -7.513 116.916 1.00 50.87 C +ATOM 11164 C VAL D 157 21.274 -8.682 117.887 1.00 48.18 C +ATOM 11165 O VAL D 157 20.402 -8.693 118.763 1.00 37.95 O +ATOM 11166 CB VAL D 157 21.327 -6.169 117.658 1.00 51.06 C +ATOM 11167 CG1 VAL D 157 22.589 -5.949 118.459 1.00 49.13 C +ATOM 11168 CG2 VAL D 157 21.090 -5.016 116.687 1.00 50.18 C +ATOM 11169 N LYS D 158 22.157 -9.669 117.752 1.00 51.15 N +ATOM 11170 CA LYS D 158 21.980 -10.940 118.437 1.00 54.97 C +ATOM 11171 C LYS D 158 23.166 -11.277 119.335 1.00 54.62 C +ATOM 11172 O LYS D 158 24.320 -10.937 119.037 1.00 55.78 O +ATOM 11173 CB LYS D 158 21.761 -12.079 117.428 1.00 59.15 C +ATOM 11174 CG LYS D 158 21.268 -13.369 118.067 1.00 62.76 C +ATOM 11175 CD LYS D 158 21.043 -14.470 117.052 1.00 65.21 C +ATOM 11176 CE LYS D 158 20.661 -15.759 117.761 1.00 67.33 C +ATOM 11177 NZ LYS D 158 20.590 -16.915 116.834 1.00 70.59 N +ATOM 11178 N ASP D 159 22.854 -11.949 120.448 1.00 51.78 N +ATOM 11179 CA ASP D 159 23.828 -12.604 121.323 1.00 49.89 C +ATOM 11180 C ASP D 159 24.789 -11.591 121.950 1.00 46.42 C +ATOM 11181 O ASP D 159 25.995 -11.577 121.687 1.00 45.46 O +ATOM 11182 CB ASP D 159 24.603 -13.689 120.564 1.00 53.90 C +ATOM 11183 CG ASP D 159 23.720 -14.829 120.118 1.00 59.08 C +ATOM 11184 OD1 ASP D 159 22.644 -15.022 120.722 1.00 60.66 O +ATOM 11185 OD2 ASP D 159 24.102 -15.534 119.162 1.00 62.20 O +ATOM 11186 N TYR D 160 24.223 -10.753 122.812 1.00 38.66 N +ATOM 11187 CA TYR D 160 25.023 -9.828 123.597 1.00 37.75 C +ATOM 11188 C TYR D 160 24.645 -9.947 125.066 1.00 34.39 C +ATOM 11189 O TYR D 160 23.593 -10.488 125.420 1.00 35.79 O +ATOM 11190 CB TYR D 160 24.862 -8.372 123.123 1.00 37.58 C +ATOM 11191 CG TYR D 160 23.463 -7.814 123.264 1.00 38.68 C +ATOM 11192 CD1 TYR D 160 22.533 -7.950 122.240 1.00 38.58 C +ATOM 11193 CD2 TYR D 160 23.073 -7.144 124.421 1.00 37.17 C +ATOM 11194 CE1 TYR D 160 21.255 -7.433 122.364 1.00 40.12 C +ATOM 11195 CE2 TYR D 160 21.795 -6.629 124.556 1.00 37.94 C +ATOM 11196 CZ TYR D 160 20.892 -6.777 123.524 1.00 39.27 C +ATOM 11197 OH TYR D 160 19.617 -6.265 123.657 1.00 43.59 O +ATOM 11198 N PHE D 161 25.530 -9.431 125.920 1.00 34.85 N +ATOM 11199 CA PHE D 161 25.308 -9.390 127.360 1.00 34.96 C +ATOM 11200 C PHE D 161 26.279 -8.398 127.968 1.00 36.93 C +ATOM 11201 O PHE D 161 27.470 -8.436 127.629 1.00 38.94 O +ATOM 11202 CB PHE D 161 25.497 -10.759 128.022 1.00 30.18 C +ATOM 11203 CG PHE D 161 25.167 -10.758 129.498 1.00 32.23 C +ATOM 11204 CD1 PHE D 161 26.118 -10.408 130.442 1.00 32.53 C +ATOM 11205 CD2 PHE D 161 23.887 -11.061 129.930 1.00 34.70 C +ATOM 11206 CE1 PHE D 161 25.800 -10.390 131.800 1.00 29.73 C +ATOM 11207 CE2 PHE D 161 23.565 -11.048 131.281 1.00 32.52 C +ATOM 11208 CZ PHE D 161 24.518 -10.709 132.209 1.00 28.99 C +ATOM 11209 N PRO D 162 25.832 -7.528 128.885 1.00 35.01 N +ATOM 11210 CA PRO D 162 24.438 -7.427 129.312 1.00 36.94 C +ATOM 11211 C PRO D 162 23.699 -6.344 128.541 1.00 40.31 C +ATOM 11212 O PRO D 162 24.241 -5.810 127.575 1.00 40.72 O +ATOM 11213 CB PRO D 162 24.562 -7.059 130.790 1.00 34.76 C +ATOM 11214 CG PRO D 162 25.786 -6.197 130.823 1.00 35.50 C +ATOM 11215 CD PRO D 162 26.714 -6.697 129.722 1.00 34.10 C +ATOM 11216 N GLU D 163 22.478 -6.036 128.967 1.00 42.06 N +ATOM 11217 CA GLU D 163 21.755 -4.891 128.447 1.00 43.81 C +ATOM 11218 C GLU D 163 22.472 -3.596 128.835 1.00 46.29 C +ATOM 11219 O GLU D 163 23.196 -3.553 129.836 1.00 46.91 O +ATOM 11220 CB GLU D 163 20.330 -4.879 128.992 1.00 44.25 C +ATOM 11221 CG GLU D 163 19.478 -6.038 128.524 1.00 48.91 C +ATOM 11222 CD GLU D 163 18.577 -5.658 127.370 1.00 57.08 C +ATOM 11223 OE1 GLU D 163 17.371 -5.423 127.609 1.00 55.85 O +ATOM 11224 OE2 GLU D 163 19.079 -5.577 126.220 1.00 64.34 O +ATOM 11225 N PRO D 164 22.285 -2.511 128.056 1.00 47.16 N +ATOM 11226 CA PRO D 164 21.513 -2.449 126.807 1.00 45.83 C +ATOM 11227 C PRO D 164 22.339 -2.222 125.539 1.00 48.28 C +ATOM 11228 O PRO D 164 23.555 -2.012 125.607 1.00 45.47 O +ATOM 11229 CB PRO D 164 20.604 -1.249 127.049 1.00 47.73 C +ATOM 11230 CG PRO D 164 21.494 -0.307 127.839 1.00 48.93 C +ATOM 11231 CD PRO D 164 22.465 -1.166 128.635 1.00 46.96 C +ATOM 11232 N VAL D 165 21.670 -2.282 124.386 1.00 49.67 N +ATOM 11233 CA VAL D 165 22.209 -1.762 123.136 1.00 49.60 C +ATOM 11234 C VAL D 165 21.308 -0.629 122.672 1.00 52.73 C +ATOM 11235 O VAL D 165 20.118 -0.579 123.001 1.00 51.30 O +ATOM 11236 CB VAL D 165 22.337 -2.830 122.022 1.00 46.59 C +ATOM 11237 CG1 VAL D 165 23.267 -3.947 122.445 1.00 45.32 C +ATOM 11238 CG2 VAL D 165 20.992 -3.378 121.652 1.00 47.56 C +ATOM 11239 N THR D 166 21.889 0.294 121.908 1.00 55.88 N +ATOM 11240 CA THR D 166 21.152 1.372 121.266 1.00 57.00 C +ATOM 11241 C THR D 166 21.359 1.268 119.767 1.00 56.52 C +ATOM 11242 O THR D 166 22.452 0.919 119.308 1.00 58.78 O +ATOM 11243 CB THR D 166 21.609 2.750 121.756 1.00 62.18 C +ATOM 11244 OG1 THR D 166 22.992 2.943 121.426 1.00 66.04 O +ATOM 11245 CG2 THR D 166 21.426 2.873 123.259 1.00 62.11 C +ATOM 11246 N VAL D 167 20.310 1.559 119.003 1.00 53.73 N +ATOM 11247 CA VAL D 167 20.360 1.452 117.552 1.00 54.66 C +ATOM 11248 C VAL D 167 19.837 2.745 116.945 1.00 59.44 C +ATOM 11249 O VAL D 167 18.824 3.286 117.399 1.00 60.32 O +ATOM 11250 CB VAL D 167 19.552 0.250 117.030 1.00 50.66 C +ATOM 11251 CG1 VAL D 167 19.669 0.160 115.523 1.00 45.26 C +ATOM 11252 CG2 VAL D 167 20.028 -1.044 117.681 1.00 51.31 C +ATOM 11253 N SER D 168 20.544 3.244 115.935 1.00 63.38 N +ATOM 11254 CA BSER D 168 20.117 4.387 115.143 0.68 63.95 C +ATOM 11255 C SER D 168 20.227 4.021 113.671 1.00 64.49 C +ATOM 11256 O SER D 168 20.671 2.926 113.313 1.00 64.09 O +ATOM 11257 CB BSER D 168 20.946 5.637 115.458 0.68 64.88 C +ATOM 11258 OG BSER D 168 20.666 6.114 116.759 0.68 65.50 O +ATOM 11259 N TRP D 169 19.805 4.946 112.811 1.00 65.81 N +ATOM 11260 CA TRP D 169 19.849 4.741 111.370 1.00 65.26 C +ATOM 11261 C TRP D 169 20.395 5.997 110.710 1.00 67.15 C +ATOM 11262 O TRP D 169 19.960 7.107 111.032 1.00 67.91 O +ATOM 11263 CB TRP D 169 18.461 4.395 110.813 1.00 61.05 C +ATOM 11264 CG TRP D 169 18.013 3.003 111.156 1.00 54.47 C +ATOM 11265 CD1 TRP D 169 17.333 2.613 112.273 1.00 50.26 C +ATOM 11266 CD2 TRP D 169 18.231 1.818 110.385 1.00 50.81 C +ATOM 11267 NE1 TRP D 169 17.105 1.259 112.238 1.00 47.70 N +ATOM 11268 CE2 TRP D 169 17.644 0.747 111.088 1.00 48.53 C +ATOM 11269 CE3 TRP D 169 18.861 1.558 109.166 1.00 54.57 C +ATOM 11270 CZ2 TRP D 169 17.668 -0.562 110.613 1.00 48.75 C +ATOM 11271 CZ3 TRP D 169 18.880 0.255 108.691 1.00 55.40 C +ATOM 11272 CH2 TRP D 169 18.290 -0.789 109.418 1.00 52.32 C +ATOM 11273 N ASN D 170 21.350 5.813 109.795 1.00 68.77 N +ATOM 11274 CA ASN D 170 22.015 6.921 109.107 1.00 68.12 C +ATOM 11275 C ASN D 170 22.457 7.993 110.097 1.00 71.49 C +ATOM 11276 O ASN D 170 22.295 9.193 109.864 1.00 72.01 O +ATOM 11277 CB ASN D 170 21.123 7.512 108.018 1.00 68.20 C +ATOM 11278 CG ASN D 170 20.821 6.515 106.910 1.00 69.93 C +ATOM 11279 OD1 ASN D 170 21.430 5.445 106.841 1.00 69.68 O +ATOM 11280 ND2 ASN D 170 19.885 6.864 106.034 1.00 70.67 N +ATOM 11281 N SER D 171 22.996 7.539 111.230 1.00 72.12 N +ATOM 11282 CA SER D 171 23.594 8.406 112.243 1.00 71.89 C +ATOM 11283 C SER D 171 22.577 9.374 112.831 1.00 74.44 C +ATOM 11284 O SER D 171 22.913 10.506 113.185 1.00 73.38 O +ATOM 11285 CB SER D 171 24.800 9.158 111.675 1.00 67.10 C +ATOM 11286 OG SER D 171 25.569 8.288 110.867 1.00 64.14 O +ATOM 11287 N GLY D 172 21.328 8.927 112.948 1.00 79.33 N +ATOM 11288 CA GLY D 172 20.276 9.727 113.530 1.00 83.30 C +ATOM 11289 C GLY D 172 19.482 10.555 112.546 1.00 87.59 C +ATOM 11290 O GLY D 172 18.497 11.189 112.948 1.00 88.30 O +ATOM 11291 N ALA D 173 19.878 10.574 111.271 1.00 92.19 N +ATOM 11292 CA ALA D 173 19.142 11.351 110.280 1.00 90.73 C +ATOM 11293 C ALA D 173 17.807 10.697 109.946 1.00 89.50 C +ATOM 11294 O ALA D 173 16.808 11.391 109.726 1.00 88.46 O +ATOM 11295 CB ALA D 173 19.987 11.528 109.019 1.00 92.83 C +ATOM 11296 N LEU D 174 17.771 9.366 109.905 1.00 79.57 N +ATOM 11297 CA LEU D 174 16.560 8.610 109.591 1.00 73.71 C +ATOM 11298 C LEU D 174 15.906 8.190 110.905 1.00 71.98 C +ATOM 11299 O LEU D 174 16.366 7.258 111.571 1.00 69.16 O +ATOM 11300 CB LEU D 174 16.885 7.403 108.716 1.00 69.77 C +ATOM 11301 CG LEU D 174 15.711 6.504 108.322 1.00 67.85 C +ATOM 11302 CD1 LEU D 174 14.668 7.284 107.522 1.00 69.04 C +ATOM 11303 CD2 LEU D 174 16.181 5.287 107.540 1.00 65.85 C +ATOM 11304 N THR D 175 14.829 8.887 111.276 1.00 72.70 N +ATOM 11305 CA THR D 175 14.079 8.584 112.487 1.00 72.64 C +ATOM 11306 C THR D 175 12.609 8.288 112.242 1.00 72.56 C +ATOM 11307 O THR D 175 11.958 7.723 113.129 1.00 72.14 O +ATOM 11308 CB THR D 175 14.181 9.743 113.493 1.00 71.93 C +ATOM 11309 OG1 THR D 175 13.593 10.922 112.933 1.00 70.75 O +ATOM 11310 CG2 THR D 175 15.635 10.023 113.839 1.00 72.12 C +ATOM 11311 N SER D 176 12.073 8.643 111.077 1.00 71.82 N +ATOM 11312 CA SER D 176 10.665 8.429 110.776 1.00 69.89 C +ATOM 11313 C SER D 176 10.426 6.975 110.380 1.00 65.51 C +ATOM 11314 O SER D 176 11.092 6.448 109.482 1.00 66.48 O +ATOM 11315 CB SER D 176 10.228 9.375 109.658 1.00 74.87 C +ATOM 11316 OG SER D 176 8.870 9.174 109.304 1.00 78.65 O +ATOM 11317 N GLY D 177 9.486 6.322 111.060 1.00 60.58 N +ATOM 11318 CA GLY D 177 9.153 4.947 110.744 1.00 59.51 C +ATOM 11319 C GLY D 177 10.053 3.895 111.356 1.00 59.29 C +ATOM 11320 O GLY D 177 10.017 2.740 110.917 1.00 59.55 O +ATOM 11321 N VAL D 178 10.859 4.255 112.362 1.00 58.54 N +ATOM 11322 CA VAL D 178 11.797 3.331 112.995 1.00 54.52 C +ATOM 11323 C VAL D 178 11.149 2.705 114.225 1.00 51.89 C +ATOM 11324 O VAL D 178 10.616 3.413 115.088 1.00 51.04 O +ATOM 11325 CB VAL D 178 13.100 4.049 113.384 1.00 52.68 C +ATOM 11326 CG1 VAL D 178 13.998 3.116 114.185 1.00 52.77 C +ATOM 11327 CG2 VAL D 178 13.828 4.556 112.159 1.00 50.05 C +ATOM 11328 N HIS D 179 11.218 1.375 114.318 1.00 51.43 N +ATOM 11329 CA HIS D 179 10.778 0.633 115.498 1.00 50.37 C +ATOM 11330 C HIS D 179 11.928 -0.240 115.987 1.00 49.42 C +ATOM 11331 O HIS D 179 12.298 -1.215 115.327 1.00 49.44 O +ATOM 11332 CB HIS D 179 9.544 -0.220 115.191 1.00 50.49 C +ATOM 11333 CG HIS D 179 8.361 0.573 114.726 1.00 49.50 C +ATOM 11334 ND1 HIS D 179 7.622 1.371 115.573 1.00 47.41 N +ATOM 11335 CD2 HIS D 179 7.800 0.704 113.498 1.00 48.90 C +ATOM 11336 CE1 HIS D 179 6.651 1.951 114.889 1.00 48.91 C +ATOM 11337 NE2 HIS D 179 6.737 1.564 113.628 1.00 48.43 N +ATOM 11338 N THR D 180 12.487 0.099 117.143 1.00 47.59 N +ATOM 11339 CA THR D 180 13.485 -0.735 117.800 1.00 46.96 C +ATOM 11340 C THR D 180 12.777 -1.492 118.921 1.00 41.77 C +ATOM 11341 O THR D 180 12.310 -0.885 119.890 1.00 38.44 O +ATOM 11342 CB THR D 180 14.653 0.106 118.319 1.00 49.27 C +ATOM 11343 OG1 THR D 180 15.328 0.713 117.208 1.00 50.70 O +ATOM 11344 CG2 THR D 180 15.644 -0.757 119.105 1.00 47.31 C +ATOM 11345 N PHE D 181 12.679 -2.819 118.770 1.00 39.02 N +ATOM 11346 CA PHE D 181 11.860 -3.656 119.626 1.00 40.61 C +ATOM 11347 C PHE D 181 12.557 -3.930 120.957 1.00 42.93 C +ATOM 11348 O PHE D 181 13.789 -3.894 121.040 1.00 46.55 O +ATOM 11349 CB PHE D 181 11.544 -4.970 118.925 1.00 40.98 C +ATOM 11350 CG PHE D 181 10.650 -4.802 117.732 1.00 45.18 C +ATOM 11351 CD1 PHE D 181 11.186 -4.550 116.478 1.00 43.79 C +ATOM 11352 CD2 PHE D 181 9.270 -4.853 117.872 1.00 43.70 C +ATOM 11353 CE1 PHE D 181 10.363 -4.372 115.386 1.00 42.77 C +ATOM 11354 CE2 PHE D 181 8.448 -4.679 116.782 1.00 42.15 C +ATOM 11355 CZ PHE D 181 8.994 -4.438 115.540 1.00 40.54 C +ATOM 11356 N PRO D 182 11.790 -4.191 122.012 1.00 39.89 N +ATOM 11357 CA PRO D 182 12.411 -4.589 123.284 1.00 40.28 C +ATOM 11358 C PRO D 182 13.208 -5.872 123.100 1.00 40.69 C +ATOM 11359 O PRO D 182 12.846 -6.742 122.304 1.00 41.80 O +ATOM 11360 CB PRO D 182 11.214 -4.794 124.219 1.00 39.77 C +ATOM 11361 CG PRO D 182 10.084 -4.022 123.576 1.00 40.72 C +ATOM 11362 CD PRO D 182 10.319 -4.137 122.104 1.00 38.49 C +ATOM 11363 N ALA D 183 14.323 -5.965 123.819 1.00 40.06 N +ATOM 11364 CA ALA D 183 15.181 -7.134 123.722 1.00 38.32 C +ATOM 11365 C ALA D 183 14.496 -8.345 124.346 1.00 39.34 C +ATOM 11366 O ALA D 183 13.617 -8.224 125.205 1.00 36.79 O +ATOM 11367 CB ALA D 183 16.522 -6.870 124.410 1.00 34.62 C +ATOM 11368 N VAL D 184 14.901 -9.528 123.898 1.00 41.03 N +ATOM 11369 CA VAL D 184 14.428 -10.781 124.474 1.00 43.57 C +ATOM 11370 C VAL D 184 15.618 -11.538 125.037 1.00 42.16 C +ATOM 11371 O VAL D 184 16.716 -11.511 124.465 1.00 42.20 O +ATOM 11372 CB VAL D 184 13.671 -11.654 123.453 1.00 50.09 C +ATOM 11373 CG1 VAL D 184 12.379 -10.985 123.050 1.00 53.37 C +ATOM 11374 CG2 VAL D 184 14.543 -11.946 122.240 1.00 51.78 C +ATOM 11375 N LEU D 185 15.398 -12.203 126.167 1.00 37.65 N +ATOM 11376 CA LEU D 185 16.420 -13.026 126.796 1.00 37.10 C +ATOM 11377 C LEU D 185 16.305 -14.443 126.246 1.00 39.56 C +ATOM 11378 O LEU D 185 15.328 -15.148 126.521 1.00 41.04 O +ATOM 11379 CB LEU D 185 16.275 -13.008 128.319 1.00 30.68 C +ATOM 11380 CG LEU D 185 17.302 -13.852 129.065 1.00 32.28 C +ATOM 11381 CD1 LEU D 185 18.716 -13.464 128.641 1.00 33.64 C +ATOM 11382 CD2 LEU D 185 17.143 -13.716 130.585 1.00 33.91 C +ATOM 11383 N GLN D 186 17.303 -14.855 125.473 1.00 43.41 N +ATOM 11384 CA GLN D 186 17.340 -16.196 124.914 1.00 47.51 C +ATOM 11385 C GLN D 186 17.664 -17.216 126.004 1.00 48.83 C +ATOM 11386 O GLN D 186 18.115 -16.875 127.101 1.00 45.63 O +ATOM 11387 CB GLN D 186 18.368 -16.265 123.782 1.00 50.10 C +ATOM 11388 CG GLN D 186 18.001 -15.386 122.584 1.00 55.19 C +ATOM 11389 CD GLN D 186 19.189 -15.036 121.700 1.00 58.46 C +ATOM 11390 OE1 GLN D 186 19.054 -14.904 120.482 1.00 57.51 O +ATOM 11391 NE2 GLN D 186 20.355 -14.864 122.313 1.00 59.63 N +ATOM 11392 N SER D 187 17.414 -18.488 125.693 1.00 52.64 N +ATOM 11393 CA SER D 187 17.672 -19.550 126.659 1.00 56.41 C +ATOM 11394 C SER D 187 19.159 -19.730 126.918 1.00 55.72 C +ATOM 11395 O SER D 187 19.539 -20.363 127.908 1.00 55.35 O +ATOM 11396 CB SER D 187 17.070 -20.863 126.166 1.00 62.56 C +ATOM 11397 OG SER D 187 17.713 -21.281 124.976 1.00 66.02 O +ATOM 11398 N SER D 188 20.003 -19.185 126.047 1.00 54.83 N +ATOM 11399 CA SER D 188 21.446 -19.212 126.236 1.00 51.80 C +ATOM 11400 C SER D 188 21.920 -18.256 127.324 1.00 52.44 C +ATOM 11401 O SER D 188 23.077 -18.357 127.752 1.00 53.70 O +ATOM 11402 CB SER D 188 22.123 -18.845 124.929 1.00 47.97 C +ATOM 11403 OG SER D 188 21.639 -17.587 124.494 1.00 43.91 O +ATOM 11404 N GLY D 189 21.072 -17.334 127.770 1.00 46.81 N +ATOM 11405 CA GLY D 189 21.492 -16.286 128.670 1.00 45.10 C +ATOM 11406 C GLY D 189 21.931 -15.011 127.984 1.00 43.96 C +ATOM 11407 O GLY D 189 22.346 -14.069 128.673 1.00 40.05 O +ATOM 11408 N LEU D 190 21.853 -14.950 126.655 1.00 40.75 N +ATOM 11409 CA LEU D 190 22.208 -13.761 125.894 1.00 41.93 C +ATOM 11410 C LEU D 190 20.948 -13.085 125.363 1.00 38.06 C +ATOM 11411 O LEU D 190 19.907 -13.724 125.181 1.00 39.15 O +ATOM 11412 CB LEU D 190 23.142 -14.109 124.729 1.00 43.85 C +ATOM 11413 CG LEU D 190 24.392 -14.927 125.062 1.00 43.35 C +ATOM 11414 CD1 LEU D 190 25.219 -15.193 123.805 1.00 43.97 C +ATOM 11415 CD2 LEU D 190 25.223 -14.218 126.115 1.00 44.41 C +ATOM 11416 N TYR D 191 21.044 -11.783 125.121 1.00 33.46 N +ATOM 11417 CA TYR D 191 19.910 -11.009 124.638 1.00 29.13 C +ATOM 11418 C TYR D 191 19.954 -10.887 123.117 1.00 36.03 C +ATOM 11419 O TYR D 191 20.971 -11.153 122.470 1.00 38.54 O +ATOM 11420 CB TYR D 191 19.887 -9.617 125.269 1.00 28.93 C +ATOM 11421 CG TYR D 191 19.663 -9.608 126.761 1.00 33.26 C +ATOM 11422 CD1 TYR D 191 18.370 -9.576 127.296 1.00 34.31 C +ATOM 11423 CD2 TYR D 191 20.730 -9.635 127.636 1.00 35.25 C +ATOM 11424 CE1 TYR D 191 18.156 -9.573 128.676 1.00 33.04 C +ATOM 11425 CE2 TYR D 191 20.526 -9.625 129.020 1.00 33.93 C +ATOM 11426 CZ TYR D 191 19.240 -9.590 129.522 1.00 31.53 C +ATOM 11427 OH TYR D 191 19.060 -9.583 130.888 1.00 34.03 O +ATOM 11428 N SER D 192 18.819 -10.469 122.554 1.00 38.40 N +ATOM 11429 CA SER D 192 18.646 -10.282 121.121 1.00 43.98 C +ATOM 11430 C SER D 192 17.518 -9.286 120.899 1.00 45.80 C +ATOM 11431 O SER D 192 16.501 -9.334 121.595 1.00 47.09 O +ATOM 11432 CB SER D 192 18.326 -11.609 120.426 1.00 48.20 C +ATOM 11433 OG SER D 192 17.977 -11.399 119.071 1.00 56.57 O +ATOM 11434 N LEU D 193 17.700 -8.381 119.941 1.00 46.31 N +ATOM 11435 CA LEU D 193 16.621 -7.486 119.549 1.00 46.20 C +ATOM 11436 C LEU D 193 16.733 -7.183 118.061 1.00 48.23 C +ATOM 11437 O LEU D 193 17.737 -7.494 117.410 1.00 45.70 O +ATOM 11438 CB LEU D 193 16.623 -6.190 120.379 1.00 45.69 C +ATOM 11439 CG LEU D 193 17.742 -5.136 120.372 1.00 44.12 C +ATOM 11440 CD1 LEU D 193 17.847 -4.362 119.056 1.00 45.79 C +ATOM 11441 CD2 LEU D 193 17.511 -4.154 121.501 1.00 44.83 C +ATOM 11442 N SER D 194 15.690 -6.549 117.531 1.00 47.14 N +ATOM 11443 CA ASER D 194 15.669 -6.104 116.147 0.62 47.10 C +ATOM 11444 C SER D 194 15.297 -4.629 116.092 1.00 45.43 C +ATOM 11445 O SER D 194 14.696 -4.080 117.020 1.00 44.55 O +ATOM 11446 CB ASER D 194 14.693 -6.935 115.307 0.62 47.27 C +ATOM 11447 OG ASER D 194 13.472 -7.134 115.999 0.62 46.61 O +ATOM 11448 N SER D 195 15.677 -3.986 114.990 1.00 44.19 N +ATOM 11449 CA SER D 195 15.346 -2.586 114.743 1.00 42.98 C +ATOM 11450 C SER D 195 15.025 -2.452 113.263 1.00 46.08 C +ATOM 11451 O SER D 195 15.915 -2.614 112.420 1.00 46.97 O +ATOM 11452 CB SER D 195 16.492 -1.661 115.133 1.00 43.87 C +ATOM 11453 OG SER D 195 16.201 -0.323 114.773 1.00 44.40 O +ATOM 11454 N VAL D 196 13.769 -2.157 112.947 1.00 47.39 N +ATOM 11455 CA VAL D 196 13.298 -2.128 111.571 1.00 44.88 C +ATOM 11456 C VAL D 196 12.944 -0.695 111.174 1.00 46.63 C +ATOM 11457 O VAL D 196 12.877 0.213 112.005 1.00 46.26 O +ATOM 11458 CB VAL D 196 12.103 -3.078 111.348 1.00 42.55 C +ATOM 11459 CG1 VAL D 196 12.504 -4.522 111.639 1.00 38.93 C +ATOM 11460 CG2 VAL D 196 10.895 -2.650 112.189 1.00 40.85 C +ATOM 11461 N VAL D 197 12.724 -0.497 109.874 1.00 49.16 N +ATOM 11462 CA VAL D 197 12.280 0.793 109.362 1.00 50.28 C +ATOM 11463 C VAL D 197 11.612 0.558 108.018 1.00 53.10 C +ATOM 11464 O VAL D 197 12.018 -0.319 107.248 1.00 53.46 O +ATOM 11465 CB VAL D 197 13.447 1.807 109.268 1.00 52.19 C +ATOM 11466 CG1 VAL D 197 14.524 1.340 108.282 1.00 51.81 C +ATOM 11467 CG2 VAL D 197 12.923 3.190 108.907 1.00 53.01 C +ATOM 11468 N THR D 198 10.555 1.326 107.760 1.00 53.43 N +ATOM 11469 CA THR D 198 9.824 1.265 106.507 1.00 52.36 C +ATOM 11470 C THR D 198 10.248 2.431 105.626 1.00 55.04 C +ATOM 11471 O THR D 198 10.354 3.569 106.102 1.00 52.61 O +ATOM 11472 CB THR D 198 8.313 1.297 106.755 1.00 52.76 C +ATOM 11473 OG1 THR D 198 7.999 2.330 107.701 1.00 54.51 O +ATOM 11474 CG2 THR D 198 7.826 -0.045 107.278 1.00 50.52 C +ATOM 11475 N VAL D 199 10.506 2.138 104.354 1.00 57.98 N +ATOM 11476 CA VAL D 199 10.970 3.134 103.387 1.00 62.47 C +ATOM 11477 C VAL D 199 10.271 2.899 102.055 1.00 63.77 C +ATOM 11478 O VAL D 199 9.787 1.794 101.774 1.00 61.50 O +ATOM 11479 CB VAL D 199 12.503 3.085 103.199 1.00 63.80 C +ATOM 11480 CG1 VAL D 199 13.218 3.453 104.496 1.00 64.13 C +ATOM 11481 CG2 VAL D 199 12.941 1.711 102.703 1.00 63.73 C +ATOM 11482 N PRO D 200 10.191 3.935 101.215 1.00 68.10 N +ATOM 11483 CA PRO D 200 9.610 3.756 99.875 1.00 72.61 C +ATOM 11484 C PRO D 200 10.359 2.700 99.068 1.00 77.99 C +ATOM 11485 O PRO D 200 11.590 2.643 99.078 1.00 80.20 O +ATOM 11486 CB PRO D 200 9.748 5.144 99.243 1.00 71.46 C +ATOM 11487 CG PRO D 200 9.806 6.086 100.404 1.00 69.80 C +ATOM 11488 CD PRO D 200 10.490 5.349 101.511 1.00 68.24 C +ATOM 11489 N SER D 201 9.599 1.864 98.353 1.00 81.73 N +ATOM 11490 CA SER D 201 10.200 0.781 97.577 1.00 86.39 C +ATOM 11491 C SER D 201 11.028 1.279 96.397 1.00 86.85 C +ATOM 11492 O SER D 201 11.899 0.546 95.916 1.00 84.94 O +ATOM 11493 CB SER D 201 9.120 -0.173 97.066 1.00 88.61 C +ATOM 11494 OG SER D 201 8.481 -0.836 98.141 1.00 90.11 O +ATOM 11495 N SER D 202 10.773 2.495 95.913 1.00 89.92 N +ATOM 11496 CA SER D 202 11.537 3.043 94.798 1.00 93.38 C +ATOM 11497 C SER D 202 12.895 3.591 95.220 1.00 96.78 C +ATOM 11498 O SER D 202 13.690 3.971 94.352 1.00 97.69 O +ATOM 11499 CB SER D 202 10.727 4.140 94.099 1.00 91.80 C +ATOM 11500 OG SER D 202 10.286 5.121 95.021 1.00 91.04 O +ATOM 11501 N SER D 203 13.184 3.636 96.519 1.00 97.20 N +ATOM 11502 CA SER D 203 14.447 4.155 97.023 1.00 96.90 C +ATOM 11503 C SER D 203 15.424 3.057 97.425 1.00 95.78 C +ATOM 11504 O SER D 203 16.502 3.366 97.943 1.00 96.60 O +ATOM 11505 CB SER D 203 14.193 5.088 98.214 1.00 98.15 C +ATOM 11506 OG SER D 203 13.679 4.376 99.326 1.00 98.00 O +ATOM 11507 N LEU D 204 15.079 1.785 97.195 1.00 89.89 N +ATOM 11508 CA LEU D 204 15.971 0.694 97.574 1.00 86.20 C +ATOM 11509 C LEU D 204 17.250 0.685 96.743 1.00 92.65 C +ATOM 11510 O LEU D 204 18.312 0.305 97.250 1.00 94.22 O +ATOM 11511 CB LEU D 204 15.248 -0.647 97.447 1.00 75.72 C +ATOM 11512 CG LEU D 204 14.103 -0.886 98.434 1.00 68.49 C +ATOM 11513 CD1 LEU D 204 13.486 -2.267 98.228 1.00 64.88 C +ATOM 11514 CD2 LEU D 204 14.590 -0.708 99.872 1.00 65.55 C +ATOM 11515 N GLY D 205 17.174 1.090 95.478 1.00 99.18 N +ATOM 11516 CA GLY D 205 18.331 1.141 94.612 1.00 99.31 C +ATOM 11517 C GLY D 205 19.003 2.489 94.507 1.00100.91 C +ATOM 11518 O GLY D 205 19.989 2.617 93.774 1.00103.32 O +ATOM 11519 N THR D 206 18.506 3.504 95.218 1.00100.08 N +ATOM 11520 CA THR D 206 19.046 4.854 95.126 1.00 98.46 C +ATOM 11521 C THR D 206 19.406 5.478 96.466 1.00 97.63 C +ATOM 11522 O THR D 206 20.112 6.492 96.476 1.00 97.05 O +ATOM 11523 CB THR D 206 18.053 5.784 94.407 1.00 97.12 C +ATOM 11524 OG1 THR D 206 16.789 5.755 95.081 1.00 96.38 O +ATOM 11525 CG2 THR D 206 17.859 5.352 92.959 1.00 97.03 C +ATOM 11526 N GLN D 207 18.949 4.924 97.587 1.00 98.93 N +ATOM 11527 CA GLN D 207 19.225 5.483 98.902 1.00100.40 C +ATOM 11528 C GLN D 207 19.968 4.468 99.761 1.00 95.59 C +ATOM 11529 O GLN D 207 19.773 3.255 99.632 1.00 94.16 O +ATOM 11530 CB GLN D 207 17.935 5.921 99.612 1.00106.00 C +ATOM 11531 CG GLN D 207 17.165 7.023 98.894 1.00111.67 C +ATOM 11532 CD GLN D 207 17.953 8.318 98.771 1.00117.50 C +ATOM 11533 OE1 GLN D 207 18.813 8.619 99.601 1.00119.18 O +ATOM 11534 NE2 GLN D 207 17.660 9.090 97.727 1.00119.81 N +ATOM 11535 N THR D 208 20.821 4.980 100.642 1.00 92.06 N +ATOM 11536 CA THR D 208 21.660 4.157 101.503 1.00 90.00 C +ATOM 11537 C THR D 208 21.075 4.126 102.910 1.00 85.14 C +ATOM 11538 O THR D 208 20.785 5.178 103.491 1.00 84.96 O +ATOM 11539 CB THR D 208 23.095 4.691 101.534 1.00 91.74 C +ATOM 11540 OG1 THR D 208 23.673 4.584 100.226 1.00 93.45 O +ATOM 11541 CG2 THR D 208 23.943 3.905 102.523 1.00 91.31 C +ATOM 11542 N TYR D 209 20.903 2.921 103.450 1.00 80.75 N +ATOM 11543 CA TYR D 209 20.353 2.726 104.791 1.00 77.03 C +ATOM 11544 C TYR D 209 21.373 1.972 105.636 1.00 72.21 C +ATOM 11545 O TYR D 209 21.641 0.789 105.391 1.00 71.47 O +ATOM 11546 CB TYR D 209 19.021 1.979 104.734 1.00 77.61 C +ATOM 11547 CG TYR D 209 17.946 2.692 103.940 1.00 78.84 C +ATOM 11548 CD1 TYR D 209 17.390 3.881 104.397 1.00 78.47 C +ATOM 11549 CD2 TYR D 209 17.485 2.174 102.735 1.00 79.74 C +ATOM 11550 CE1 TYR D 209 16.410 4.537 103.675 1.00 78.89 C +ATOM 11551 CE2 TYR D 209 16.504 2.821 102.005 1.00 80.28 C +ATOM 11552 CZ TYR D 209 15.968 4.002 102.480 1.00 80.21 C +ATOM 11553 OH TYR D 209 14.986 4.647 101.754 1.00 80.23 O +ATOM 11554 N ILE D 210 21.936 2.653 106.632 1.00 67.63 N +ATOM 11555 CA ILE D 210 22.924 2.072 107.533 1.00 65.54 C +ATOM 11556 C ILE D 210 22.400 2.167 108.959 1.00 65.65 C +ATOM 11557 O ILE D 210 22.015 3.253 109.412 1.00 63.96 O +ATOM 11558 CB ILE D 210 24.291 2.774 107.413 1.00 62.15 C +ATOM 11559 CG1 ILE D 210 24.770 2.766 105.959 1.00 60.57 C +ATOM 11560 CG2 ILE D 210 25.309 2.094 108.316 1.00 59.78 C +ATOM 11561 CD1 ILE D 210 25.858 3.782 105.655 1.00 59.63 C +ATOM 11562 N CYS D 211 22.399 1.038 109.664 1.00 69.03 N +ATOM 11563 CA CYS D 211 22.013 0.988 111.067 1.00 66.95 C +ATOM 11564 C CYS D 211 23.265 0.993 111.935 1.00 65.19 C +ATOM 11565 O CYS D 211 24.215 0.252 111.672 1.00 64.16 O +ATOM 11566 CB CYS D 211 21.150 -0.245 111.356 1.00 68.24 C +ATOM 11567 SG CYS D 211 22.039 -1.793 111.617 1.00 70.87 S +ATOM 11568 N ASN D 212 23.266 1.842 112.955 1.00 63.91 N +ATOM 11569 CA ASN D 212 24.398 2.010 113.853 1.00 64.69 C +ATOM 11570 C ASN D 212 24.066 1.364 115.192 1.00 62.64 C +ATOM 11571 O ASN D 212 23.120 1.783 115.867 1.00 62.47 O +ATOM 11572 CB ASN D 212 24.721 3.494 114.031 1.00 68.71 C +ATOM 11573 CG ASN D 212 24.452 4.298 112.772 1.00 73.56 C +ATOM 11574 OD1 ASN D 212 23.584 5.173 112.757 1.00 75.22 O +ATOM 11575 ND2 ASN D 212 25.190 4.002 111.706 1.00 74.15 N +ATOM 11576 N VAL D 213 24.848 0.356 115.576 1.00 59.93 N +ATOM 11577 CA VAL D 213 24.637 -0.397 116.810 1.00 54.20 C +ATOM 11578 C VAL D 213 25.727 -0.028 117.809 1.00 52.62 C +ATOM 11579 O VAL D 213 26.916 -0.006 117.466 1.00 50.59 O +ATOM 11580 CB VAL D 213 24.628 -1.914 116.547 1.00 48.94 C +ATOM 11581 CG1 VAL D 213 24.472 -2.693 117.858 1.00 45.01 C +ATOM 11582 CG2 VAL D 213 23.542 -2.269 115.565 1.00 49.84 C +ATOM 11583 N ASN D 214 25.321 0.254 119.047 1.00 51.36 N +ATOM 11584 CA AASN D 214 26.242 0.602 120.122 0.57 51.15 C +ATOM 11585 C ASN D 214 25.953 -0.281 121.326 1.00 49.46 C +ATOM 11586 O ASN D 214 24.812 -0.329 121.804 1.00 42.60 O +ATOM 11587 CB AASN D 214 26.122 2.082 120.500 0.57 52.32 C +ATOM 11588 CG AASN D 214 27.058 2.966 119.701 0.57 54.75 C +ATOM 11589 OD1AASN D 214 28.083 3.422 120.210 0.57 55.79 O +ATOM 11590 ND2AASN D 214 26.713 3.210 118.439 0.57 55.02 N +ATOM 11591 N HIS D 215 26.983 -0.975 121.815 1.00 46.66 N +ATOM 11592 CA HIS D 215 26.897 -1.813 123.009 1.00 43.42 C +ATOM 11593 C HIS D 215 28.022 -1.340 123.916 1.00 42.14 C +ATOM 11594 O HIS D 215 29.156 -1.826 123.822 1.00 40.17 O +ATOM 11595 CB HIS D 215 27.012 -3.294 122.682 1.00 43.77 C +ATOM 11596 CG HIS D 215 26.901 -4.182 123.884 1.00 44.95 C +ATOM 11597 ND1 HIS D 215 27.936 -4.979 124.322 1.00 44.74 N +ATOM 11598 CD2 HIS D 215 25.876 -4.389 124.746 1.00 43.79 C +ATOM 11599 CE1 HIS D 215 27.551 -5.645 125.396 1.00 44.98 C +ATOM 11600 NE2 HIS D 215 26.305 -5.305 125.674 1.00 43.84 N +ATOM 11601 N LYS D 216 27.714 -0.362 124.766 1.00 40.59 N +ATOM 11602 CA LYS D 216 28.741 0.198 125.636 1.00 46.30 C +ATOM 11603 C LYS D 216 29.413 -0.827 126.545 1.00 45.56 C +ATOM 11604 O LYS D 216 30.636 -0.712 126.743 1.00 45.68 O +ATOM 11605 CB LYS D 216 28.154 1.346 126.462 1.00 54.21 C +ATOM 11606 CG LYS D 216 27.865 2.598 125.650 1.00 62.58 C +ATOM 11607 CD LYS D 216 27.248 3.678 126.527 1.00 69.90 C +ATOM 11608 CE LYS D 216 26.856 4.901 125.718 1.00 74.58 C +ATOM 11609 NZ LYS D 216 26.162 5.906 126.569 1.00 77.39 N +ATOM 11610 N PRO D 217 28.720 -1.821 127.120 1.00 41.88 N +ATOM 11611 CA PRO D 217 29.423 -2.752 128.028 1.00 40.76 C +ATOM 11612 C PRO D 217 30.626 -3.449 127.405 1.00 39.00 C +ATOM 11613 O PRO D 217 31.577 -3.759 128.129 1.00 37.77 O +ATOM 11614 CB PRO D 217 28.327 -3.751 128.414 1.00 36.97 C +ATOM 11615 CG PRO D 217 27.081 -2.933 128.379 1.00 35.99 C +ATOM 11616 CD PRO D 217 27.259 -2.023 127.183 1.00 41.56 C +ATOM 11617 N SER D 218 30.617 -3.691 126.092 1.00 36.71 N +ATOM 11618 CA SER D 218 31.717 -4.338 125.386 1.00 39.82 C +ATOM 11619 C SER D 218 32.462 -3.404 124.442 1.00 40.40 C +ATOM 11620 O SER D 218 33.396 -3.852 123.771 1.00 38.36 O +ATOM 11621 CB SER D 218 31.198 -5.535 124.583 1.00 41.34 C +ATOM 11622 OG SER D 218 30.429 -5.102 123.470 1.00 39.70 O +ATOM 11623 N ASN D 219 32.070 -2.130 124.366 1.00 42.43 N +ATOM 11624 CA ASN D 219 32.707 -1.143 123.491 1.00 47.65 C +ATOM 11625 C ASN D 219 32.637 -1.564 122.029 1.00 48.75 C +ATOM 11626 O ASN D 219 33.588 -1.383 121.265 1.00 49.00 O +ATOM 11627 CB ASN D 219 34.151 -0.880 123.908 1.00 55.79 C +ATOM 11628 CG ASN D 219 34.236 -0.004 125.117 1.00 64.24 C +ATOM 11629 OD1 ASN D 219 33.571 1.028 125.187 1.00 67.68 O +ATOM 11630 ND2 ASN D 219 35.034 -0.414 126.096 1.00 68.00 N +ATOM 11631 N THR D 220 31.499 -2.123 121.638 1.00 50.02 N +ATOM 11632 CA THR D 220 31.243 -2.511 120.259 1.00 52.15 C +ATOM 11633 C THR D 220 30.427 -1.417 119.582 1.00 59.39 C +ATOM 11634 O THR D 220 29.363 -1.033 120.084 1.00 60.92 O +ATOM 11635 CB THR D 220 30.502 -3.846 120.183 1.00 48.11 C +ATOM 11636 OG1 THR D 220 31.223 -4.846 120.912 1.00 49.63 O +ATOM 11637 CG2 THR D 220 30.370 -4.285 118.734 1.00 45.40 C +ATOM 11638 N LYS D 221 30.938 -0.911 118.457 1.00 63.51 N +ATOM 11639 CA LYS D 221 30.225 0.017 117.585 1.00 64.77 C +ATOM 11640 C LYS D 221 30.256 -0.566 116.182 1.00 69.02 C +ATOM 11641 O LYS D 221 31.321 -0.640 115.561 1.00 72.34 O +ATOM 11642 CB LYS D 221 30.854 1.409 117.590 1.00 63.36 C +ATOM 11643 CG LYS D 221 30.709 2.173 118.878 1.00 63.15 C +ATOM 11644 CD LYS D 221 31.197 3.601 118.701 1.00 63.93 C +ATOM 11645 CE LYS D 221 31.402 4.287 120.042 1.00 65.23 C +ATOM 11646 NZ LYS D 221 32.079 5.599 119.867 1.00 66.30 N +ATOM 11647 N VAL D 222 29.099 -0.980 115.684 1.00 68.74 N +ATOM 11648 CA VAL D 222 28.971 -1.532 114.344 1.00 69.65 C +ATOM 11649 C VAL D 222 28.129 -0.572 113.517 1.00 70.02 C +ATOM 11650 O VAL D 222 27.165 0.016 114.022 1.00 69.74 O +ATOM 11651 CB VAL D 222 28.349 -2.946 114.373 1.00 68.74 C +ATOM 11652 CG1 VAL D 222 27.884 -3.374 112.991 1.00 68.25 C +ATOM 11653 CG2 VAL D 222 29.349 -3.951 114.913 1.00 68.19 C +ATOM 11654 N ASP D 223 28.536 -0.367 112.267 1.00 68.69 N +ATOM 11655 CA ASP D 223 27.678 0.175 111.223 1.00 65.32 C +ATOM 11656 C ASP D 223 27.455 -0.934 110.205 1.00 65.22 C +ATOM 11657 O ASP D 223 28.420 -1.544 109.732 1.00 64.59 O +ATOM 11658 CB ASP D 223 28.304 1.405 110.555 1.00 64.61 C +ATOM 11659 CG ASP D 223 28.520 2.565 111.523 1.00 64.95 C +ATOM 11660 OD1 ASP D 223 27.848 2.615 112.579 1.00 63.13 O +ATOM 11661 OD2 ASP D 223 29.364 3.438 111.221 1.00 64.41 O +ATOM 11662 N LYS D 224 26.193 -1.220 109.894 1.00 66.36 N +ATOM 11663 CA LYS D 224 25.847 -2.300 108.974 1.00 68.58 C +ATOM 11664 C LYS D 224 25.006 -1.734 107.835 1.00 71.98 C +ATOM 11665 O LYS D 224 23.872 -1.293 108.052 1.00 73.12 O +ATOM 11666 CB LYS D 224 25.108 -3.426 109.696 1.00 66.57 C +ATOM 11667 CG LYS D 224 24.757 -4.611 108.802 1.00 66.61 C +ATOM 11668 CD LYS D 224 26.001 -5.245 108.193 1.00 68.25 C +ATOM 11669 CE LYS D 224 26.935 -5.785 109.274 1.00 69.74 C +ATOM 11670 NZ LYS D 224 28.142 -6.474 108.729 1.00 69.54 N +ATOM 11671 N LYS D 225 25.561 -1.749 106.627 1.00 72.86 N +ATOM 11672 CA LYS D 225 24.835 -1.303 105.447 1.00 72.53 C +ATOM 11673 C LYS D 225 23.856 -2.392 105.032 1.00 70.70 C +ATOM 11674 O LYS D 225 24.259 -3.533 104.778 1.00 68.87 O +ATOM 11675 CB LYS D 225 25.804 -0.978 104.311 1.00 77.90 C +ATOM 11676 CG LYS D 225 25.130 -0.597 102.992 1.00 82.81 C +ATOM 11677 CD LYS D 225 26.156 -0.349 101.888 1.00 85.82 C +ATOM 11678 CE LYS D 225 25.480 -0.030 100.562 1.00 88.58 C +ATOM 11679 NZ LYS D 225 24.574 1.154 100.664 1.00 89.51 N +ATOM 11680 N VAL D 226 22.571 -2.044 104.981 1.00 68.61 N +ATOM 11681 CA VAL D 226 21.519 -2.965 104.574 1.00 67.41 C +ATOM 11682 C VAL D 226 21.115 -2.628 103.146 1.00 73.62 C +ATOM 11683 O VAL D 226 20.968 -1.451 102.786 1.00 74.61 O +ATOM 11684 CB VAL D 226 20.315 -2.892 105.534 1.00 60.98 C +ATOM 11685 CG1 VAL D 226 19.409 -4.107 105.356 1.00 57.47 C +ATOM 11686 CG2 VAL D 226 20.797 -2.784 106.973 1.00 57.30 C +ATOM 11687 N GLU D 227 20.955 -3.661 102.324 1.00 80.23 N +ATOM 11688 CA GLU D 227 20.656 -3.498 100.909 1.00 87.35 C +ATOM 11689 C GLU D 227 20.073 -4.807 100.393 1.00 92.53 C +ATOM 11690 O GLU D 227 20.235 -5.853 101.034 1.00 92.05 O +ATOM 11691 CB GLU D 227 21.916 -3.105 100.115 1.00 92.45 C +ATOM 11692 CG GLU D 227 23.101 -4.049 100.292 1.00 95.62 C +ATOM 11693 CD GLU D 227 24.363 -3.551 99.604 1.00 98.30 C +ATOM 11694 OE1 GLU D 227 24.277 -2.607 98.791 1.00 99.37 O +ATOM 11695 OE2 GLU D 227 25.447 -4.106 99.881 1.00 99.75 O +ATOM 11696 N PRO D 228 19.371 -4.778 99.257 1.00 97.53 N +ATOM 11697 CA PRO D 228 18.832 -6.024 98.695 1.00 99.79 C +ATOM 11698 C PRO D 228 19.932 -7.036 98.405 1.00102.69 C +ATOM 11699 O PRO D 228 21.074 -6.680 98.106 1.00102.37 O +ATOM 11700 CB PRO D 228 18.142 -5.563 97.406 1.00 98.82 C +ATOM 11701 CG PRO D 228 17.797 -4.133 97.657 1.00 98.10 C +ATOM 11702 CD PRO D 228 18.907 -3.591 98.515 1.00 98.07 C +ATOM 11703 N LYS D 229 19.574 -8.315 98.500 1.00105.61 N +ATOM 11704 CA LYS D 229 20.535 -9.388 98.285 1.00108.01 C +ATOM 11705 C LYS D 229 20.718 -9.660 96.798 1.00109.78 C +ATOM 11706 O LYS D 229 19.758 -9.639 96.022 1.00109.42 O +ATOM 11707 CB LYS D 229 20.083 -10.663 98.996 1.00107.83 C +ATOM 11708 CG LYS D 229 19.951 -10.512 100.497 1.00108.54 C +ATOM 11709 CD LYS D 229 19.698 -11.850 101.168 1.00110.12 C +ATOM 11710 CE LYS D 229 19.572 -11.687 102.677 1.00110.63 C +ATOM 11711 NZ LYS D 229 20.751 -10.982 103.256 1.00110.92 N +ATOM 11712 N SER D 230 21.962 -9.920 96.406 1.00112.05 N +ATOM 11713 CA SER D 230 22.305 -10.204 95.021 1.00114.81 C +ATOM 11714 C SER D 230 22.164 -11.695 94.730 1.00118.31 C +ATOM 11715 O SER D 230 22.391 -12.543 95.598 1.00117.68 O +ATOM 11716 CB SER D 230 23.731 -9.740 94.714 1.00114.51 C +ATOM 11717 OG SER D 230 24.051 -9.917 93.345 1.00114.72 O +ATOM 11718 N CYS D 231 21.785 -12.007 93.495 1.00122.11 N +ATOM 11719 CA CYS D 231 21.568 -13.390 93.085 1.00125.15 C +ATOM 11720 C CYS D 231 22.309 -13.698 91.790 1.00124.26 C +ATOM 11721 O CYS D 231 21.691 -13.991 90.768 1.00123.44 O +ATOM 11722 CB CYS D 231 20.070 -13.670 92.918 1.00128.80 C +ATOM 11723 SG CYS D 231 19.094 -13.371 94.414 1.00131.95 S +HETATM11724 C1 GOL D 232 10.471 -0.918 159.869 1.00 59.25 C +HETATM11725 O1 GOL D 232 9.260 -1.488 160.272 1.00 57.42 O +HETATM11726 C2 GOL D 232 11.049 -0.172 161.097 1.00 58.78 C +HETATM11727 O2 GOL D 232 10.163 -0.200 162.172 1.00 57.22 O +HETATM11728 C3 GOL D 232 12.404 -0.884 161.401 1.00 58.88 C +HETATM11729 O3 GOL D 232 13.117 -0.074 162.290 1.00 59.33 O +HETATM11730 O HOH D 233 7.501 7.066 160.837 1.00 33.39 O +HETATM11731 O HOH D 234 14.338 14.103 152.238 1.00 45.85 O +HETATM11732 O HOH D 235 11.005 5.508 107.046 1.00 46.70 O +HETATM11733 O HOH D 236 29.825 0.649 121.770 1.00 59.11 O +HETATM11734 O HOH D 237 24.537 -2.406 131.342 1.00 48.60 O +HETATM11735 O HOH D 238 13.216 -12.098 159.191 1.00 25.18 O +HETATM11736 O HOH D 239 33.079 -1.400 117.478 1.00 37.85 O +HETATM11737 O HOH D 240 17.891 14.580 148.885 1.00 40.90 O +HETATM11738 O HOH D 241 9.178 -10.651 140.294 1.00 35.82 O +HETATM11739 O HOH D 242 9.150 -2.632 94.013 1.00 55.91 O +HETATM11740 O HOH D 243 0.559 -4.040 171.636 1.00 28.10 O +HETATM11741 O HOH D 244 8.959 10.309 161.218 1.00 36.81 O +HETATM11742 O HOH D 245 0.641 -3.469 154.830 1.00 31.80 O +HETATM11743 O HOH D 246 15.580 -9.180 160.493 1.00 38.62 O +HETATM11744 O HOH D 247 12.247 -11.362 139.824 1.00 38.74 O +HETATM11745 O HOH D 248 14.788 -12.174 94.274 1.00 72.18 O +HETATM11746 O HOH D 249 5.325 -12.821 161.265 1.00 43.99 O +HETATM11747 O HOH D 250 9.907 -0.186 164.775 1.00 39.17 O +HETATM11748 O HOH D 251 9.103 -2.062 163.660 1.00 27.54 O +HETATM11749 O HOH D 252 -0.873 -2.154 152.593 1.00 35.98 O +HETATM11750 O HOH D 253 -7.203 5.954 161.798 1.00 40.53 O +HETATM11751 O HOH D 254 3.474 -9.205 164.837 1.00 35.78 O +HETATM11752 O HOH D 255 -5.178 0.853 165.608 1.00 22.68 O +HETATM11753 O HOH D 256 11.473 -3.998 136.018 1.00 35.32 O +HETATM11754 O HOH D 257 14.548 6.237 165.430 1.00 60.10 O +HETATM11755 O HOH D 258 30.262 -16.623 131.494 1.00 57.44 O +HETATM11756 O HOH D 259 19.059 -13.544 134.290 1.00 40.15 O +HETATM11757 O HOH D 260 19.028 -14.184 154.017 1.00 31.22 O +HETATM11758 O HOH D 261 32.387 -9.299 122.464 1.00 35.96 O +HETATM11759 O HOH D 262 -3.169 -4.817 166.785 1.00 25.91 O +HETATM11760 O HOH D 263 22.137 -17.435 121.726 1.00 59.18 O +HETATM11761 O HOH D 264 4.355 -16.508 155.009 1.00 40.96 O +HETATM11762 O HOH D 265 21.864 -6.140 158.140 1.00 52.33 O +HETATM11763 O HOH D 266 1.665 5.018 154.104 1.00 24.75 O +HETATM11764 O HOH D 267 32.511 -12.751 125.674 1.00 43.43 O +HETATM11765 O HOH D 268 17.983 4.213 143.905 1.00 38.78 O +HETATM11766 O HOH D 269 24.671 0.116 149.268 1.00 37.07 O +HETATM11767 O HOH D 270 -3.908 2.715 167.340 1.00 38.61 O +HETATM11768 O HOH D 271 -2.624 7.349 156.725 1.00 36.83 O +HETATM11769 O HOH D 272 -2.666 11.313 164.074 1.00 50.43 O +HETATM11770 O HOH D 273 24.121 1.383 155.514 1.00 32.26 O +HETATM11771 O HOH D 274 14.920 4.831 162.329 1.00 39.22 O +HETATM11772 O HOH D 275 24.417 -17.168 148.330 1.00 29.39 O +HETATM11773 O HOH D 276 30.784 -14.494 135.899 1.00 49.57 O +HETATM11774 O HOH D 277 19.114 -8.135 156.165 1.00 25.09 O +HETATM11775 O HOH D 278 3.229 7.486 145.966 1.00 28.73 O +HETATM11776 O HOH D 279 -1.633 -4.669 162.459 1.00 29.90 O +HETATM11777 O HOH D 280 12.118 -15.811 142.919 1.00 31.94 O +HETATM11778 O HOH D 281 12.989 -12.144 127.442 1.00 36.80 O +HETATM11779 O HOH D 282 28.961 -8.328 132.212 1.00 31.50 O +HETATM11780 O HOH D 283 4.566 -11.866 146.628 1.00 27.21 O +HETATM11781 O HOH D 284 29.513 -10.819 133.201 1.00 30.32 O +HETATM11782 O HOH D 285 -0.681 7.975 166.961 1.00 32.33 O +HETATM11783 O HOH D 286 7.995 -9.359 138.524 1.00 27.09 O +HETATM11784 O HOH D 287 13.132 -15.492 154.828 1.00 47.31 O +HETATM11785 O HOH D 288 13.393 -12.022 136.139 1.00 38.79 O +HETATM11786 O HOH D 289 18.575 -20.894 144.987 1.00 42.33 O +HETATM11787 O HOH D 290 28.572 -14.586 127.709 1.00 49.38 O +HETATM11788 O HOH D 291 3.744 -4.152 174.816 1.00 36.99 O +HETATM11789 O HOH D 292 12.824 -6.324 163.109 1.00 30.87 O +HETATM11790 O HOH D 293 5.160 -13.966 145.179 1.00 33.47 O +HETATM11791 O HOH D 294 2.260 -3.352 165.901 1.00 22.46 O +HETATM11792 O HOH D 295 20.749 3.129 149.961 1.00 33.47 O +HETATM11793 O HOH D 296 16.054 3.339 117.831 1.00 42.22 O +HETATM11794 O HOH D 297 29.130 -8.359 110.549 1.00 55.17 O +HETATM11795 O HOH D 298 23.116 -8.759 155.940 1.00 32.37 O +HETATM11796 O HOH D 299 21.699 -13.915 131.456 1.00 40.10 O +HETATM11797 O HOH D 300 15.036 -1.928 122.608 1.00 43.73 O +HETATM11798 O HOH D 301 23.798 -1.334 159.407 1.00 41.67 O +HETATM11799 O HOH D 302 28.281 -13.693 135.479 1.00 41.75 O +HETATM11800 O HOH D 303 19.318 7.496 156.090 1.00 32.90 O +HETATM11801 O HOH D 304 -1.102 9.267 158.385 1.00 40.08 O +HETATM11802 O HOH D 305 11.406 8.415 147.779 1.00 49.83 O +HETATM11803 O HOH D 306 6.974 -3.987 133.568 1.00 45.82 O +HETATM11804 O HOH D 307 22.337 -6.221 133.702 1.00 50.69 O +HETATM11805 O HOH D 308 9.243 -14.063 160.006 1.00 41.04 O +HETATM11806 O HOH D 309 4.191 -16.091 152.336 1.00 42.18 O +HETATM11807 O HOH D 310 23.994 -2.277 150.124 1.00 34.84 O +HETATM11808 O HOH D 311 2.326 6.280 165.171 1.00 35.16 O +HETATM11809 O HOH D 312 -5.215 -0.153 152.669 1.00 24.31 O +HETATM11810 O HOH D 313 10.351 -13.298 139.128 1.00 37.68 O +HETATM11811 O HOH D 314 20.371 -11.790 132.143 1.00 34.93 O +HETATM11812 O HOH D 315 6.483 -14.828 156.154 1.00 32.02 O +HETATM11813 O HOH D 316 -4.756 3.911 163.683 1.00 40.59 O +HETATM11814 O HOH D 317 4.283 -10.274 136.969 1.00 45.10 O +HETATM11815 O HOH D 318 20.681 1.875 142.248 1.00 41.98 O +HETATM11816 O HOH D 319 28.146 -13.981 146.082 1.00 41.12 O +HETATM11817 O HOH D 320 25.358 -4.647 147.127 1.00 47.46 O +HETATM11818 O HOH D 321 26.249 -8.838 153.392 1.00 37.22 O +HETATM11819 O HOH D 322 27.229 -4.884 138.442 1.00 30.16 O +HETATM11820 O HOH D 323 21.442 -7.203 131.454 1.00 42.40 O +HETATM11821 O HOH D 324 10.693 -1.505 137.093 1.00 46.02 O +HETATM11822 O HOH D 325 24.250 1.083 153.104 1.00 36.44 O +HETATM11823 O HOH D 326 9.230 -11.834 162.900 1.00 40.73 O +HETATM11824 O HOH D 327 12.930 -19.473 148.442 1.00 40.23 O +HETATM11825 O HOH D 328 -3.451 6.372 168.524 1.00 34.56 O +HETATM11826 O HOH D 329 -0.972 -4.423 164.988 1.00 21.41 O +HETATM11827 O HOH D 330 8.241 -15.595 142.122 1.00 36.75 O +HETATM11828 O HOH D 331 3.658 10.527 148.074 1.00 36.45 O +HETATM11829 O HOH D 332 22.386 -5.108 137.399 1.00 41.00 O +HETATM11830 O HOH D 333 3.619 -16.039 148.914 1.00 47.52 O +HETATM11831 O HOH D 334 2.065 -10.223 142.411 1.00 39.07 O +HETATM11832 O HOH D 335 5.959 10.664 158.350 1.00 37.81 O +HETATM11833 O HOH D 336 11.720 3.296 138.427 1.00 48.52 O +HETATM11834 O HOH D 337 3.345 -6.375 132.148 1.00 47.91 O +HETATM11835 O HOH D 338 16.360 -13.701 134.285 1.00 39.66 O +HETATM11836 O HOH D 339 19.544 -19.674 138.365 1.00 39.31 O +HETATM11837 O HOH D 340 20.270 -4.271 159.866 1.00 34.44 O +HETATM11838 O HOH D 341 15.035 15.853 148.545 1.00 72.22 O +HETATM11839 O HOH D 342 6.408 -8.104 128.742 1.00 44.91 O +HETATM11840 O HOH D 343 2.806 -9.733 145.342 1.00 25.68 O +HETATM11841 O HOH D 344 7.464 12.964 158.065 1.00 58.40 O +HETATM11842 O HOH D 345 8.081 4.916 114.267 1.00 47.50 O +HETATM11843 O HOH D 346 15.877 12.658 158.275 1.00 39.55 O +HETATM11844 O HOH D 347 22.487 -4.188 159.743 1.00 54.91 O +HETATM11845 O HOH D 348 7.432 8.280 146.300 1.00 39.83 O +HETATM11846 O HOH D 349 21.897 -3.264 132.642 1.00 47.92 O +HETATM11847 O HOH D 350 26.489 -7.455 148.997 1.00 34.12 O +HETATM11848 O HOH D 351 15.698 -18.784 123.049 1.00 45.48 O +HETATM11849 O HOH D 352 26.185 -10.094 150.524 1.00 28.57 O +HETATM11850 O HOH D 353 19.687 -17.023 153.970 1.00 48.34 O +HETATM11851 O HOH D 354 2.139 3.892 177.266 1.00 35.87 O +HETATM11852 O HOH D 355 11.858 -18.477 142.933 1.00 57.52 O +HETATM11853 O HOH D 356 22.210 -17.281 134.030 1.00 48.39 O +HETATM11854 O HOH D 357 6.377 -11.984 137.637 1.00 60.77 O +HETATM11855 O HOH D 358 5.466 -16.039 146.472 1.00 31.07 O +HETATM11856 O HOH D 359 3.133 -18.889 146.704 1.00 59.29 O +HETATM11857 O HOH D 360 3.976 4.521 165.013 1.00 42.20 O +HETATM11858 O HOH D 361 10.510 -15.325 140.414 1.00 40.94 O +HETATM11859 O HOH D 362 7.716 2.827 166.980 1.00 36.21 O +HETATM11860 O HOH D 363 -1.602 5.760 152.995 1.00 27.42 O +HETATM11861 O HOH D 364 32.139 -8.098 119.946 1.00 54.50 O +HETATM11862 O HOH D 365 0.042 -6.418 158.969 1.00 36.27 O +HETATM11863 O HOH D 366 1.171 -5.754 156.177 1.00 32.43 O +HETATM11864 O HOH D 367 28.829 -3.481 98.559 1.00 73.96 O +HETATM11865 O HOH D 368 6.558 9.419 160.675 1.00 41.92 O +HETATM11866 O HOH D 369 7.331 -0.536 134.317 1.00 50.64 O +HETATM11867 O HOH D 370 29.379 -17.752 129.688 1.00 56.59 O +HETATM11868 O HOH D 371 -2.735 11.066 166.572 1.00 42.54 O +HETATM11869 O HOH D 372 21.845 5.472 149.748 1.00 50.06 O +HETATM11870 O HOH D 373 20.359 -15.893 132.423 1.00 44.08 O +HETATM11871 O HOH D 374 11.718 -16.492 156.612 1.00 56.12 O +HETATM11872 O HOH D 375 5.217 -18.418 145.040 1.00 40.38 O +HETATM11873 O HOH D 376 22.532 3.355 152.176 1.00 39.99 O +HETATM11874 O HOH D 377 13.133 -10.689 129.305 1.00 49.15 O +HETATM11875 O HOH D 378 28.221 -7.950 147.266 1.00 47.46 O +HETATM11876 O HOH D 379 26.962 -5.519 151.123 1.00 49.13 O +HETATM11877 O HOH D 380 31.783 -17.073 127.327 1.00 48.82 O +HETATM11878 O HOH D 381 2.743 10.137 145.279 1.00 41.34 O +HETATM11879 O HOH D 382 19.796 -2.120 132.221 1.00 52.98 O +HETATM11880 O HOH D 383 8.401 -16.141 157.167 1.00 49.86 O +HETATM11881 O HOH D 384 30.987 -15.126 126.081 1.00 48.33 O +HETATM11882 O HOH D 385 15.170 -7.718 162.555 1.00 44.02 O +HETATM11883 O HOH D 386 15.396 -11.701 133.230 1.00 45.33 O +HETATM11884 O HOH D 387 20.787 8.307 150.631 1.00 41.23 O +HETATM11885 O HOH D 388 14.958 -16.115 133.035 1.00 48.24 O +HETATM11886 O HOH D 389 29.444 -1.347 100.081 1.00 54.78 O +HETATM11887 O HOH D 390 20.820 -19.515 135.315 1.00 45.15 O +HETATM11888 O HOH D 391 28.115 -5.850 133.891 1.00 57.15 O +HETATM11889 O HOH D 392 13.461 -12.112 131.593 1.00 41.03 O +HETATM11890 O HOH D 393 13.133 -14.815 131.245 1.00 47.03 O +ATOM 11891 N GLN H 3 -4.467 -14.253 146.926 1.00 64.03 N +ATOM 11892 CA GLN H 3 -4.590 -14.055 145.486 1.00 65.12 C +ATOM 11893 C GLN H 3 -5.572 -12.925 145.146 1.00 62.32 C +ATOM 11894 O GLN H 3 -6.719 -12.925 145.593 1.00 63.82 O +ATOM 11895 CB GLN H 3 -5.025 -15.362 144.817 1.00 68.41 C +ATOM 11896 CG GLN H 3 -5.032 -15.326 143.295 1.00 72.11 C +ATOM 11897 CD GLN H 3 -5.208 -16.708 142.677 1.00 74.33 C +ATOM 11898 OE1 GLN H 3 -5.532 -17.674 143.368 1.00 75.67 O +ATOM 11899 NE2 GLN H 3 -4.986 -16.805 141.371 1.00 73.98 N +ATOM 11900 N MET H 4 -5.105 -11.957 144.356 1.00 56.57 N +ATOM 11901 CA MET H 4 -5.901 -10.818 143.909 1.00 51.47 C +ATOM 11902 C MET H 4 -5.992 -10.866 142.391 1.00 49.45 C +ATOM 11903 O MET H 4 -5.024 -10.533 141.698 1.00 49.96 O +ATOM 11904 CB MET H 4 -5.286 -9.497 144.371 1.00 50.16 C +ATOM 11905 CG MET H 4 -5.576 -9.145 145.807 1.00 49.43 C +ATOM 11906 SD MET H 4 -7.344 -8.890 146.041 1.00 51.58 S +ATOM 11907 CE MET H 4 -7.434 -7.126 146.256 1.00 46.72 C +ATOM 11908 N THR H 5 -7.152 -11.262 141.875 1.00 43.69 N +ATOM 11909 CA THR H 5 -7.338 -11.443 140.440 1.00 42.05 C +ATOM 11910 C THR H 5 -7.774 -10.116 139.829 1.00 37.18 C +ATOM 11911 O THR H 5 -8.904 -9.668 140.044 1.00 35.23 O +ATOM 11912 CB THR H 5 -8.364 -12.541 140.180 1.00 42.92 C +ATOM 11913 OG1 THR H 5 -7.913 -13.759 140.785 1.00 44.80 O +ATOM 11914 CG2 THR H 5 -8.562 -12.754 138.685 1.00 42.00 C +ATOM 11915 N GLN H 6 -6.883 -9.486 139.066 1.00 33.66 N +ATOM 11916 CA GLN H 6 -7.187 -8.211 138.430 1.00 32.66 C +ATOM 11917 C GLN H 6 -7.718 -8.431 137.016 1.00 33.56 C +ATOM 11918 O GLN H 6 -7.218 -9.287 136.287 1.00 37.18 O +ATOM 11919 CB GLN H 6 -5.946 -7.319 138.395 1.00 29.45 C +ATOM 11920 CG GLN H 6 -6.244 -5.908 137.912 1.00 31.09 C +ATOM 11921 CD GLN H 6 -5.182 -4.906 138.305 1.00 30.93 C +ATOM 11922 OE1 GLN H 6 -4.361 -5.164 139.193 1.00 31.64 O +ATOM 11923 NE2 GLN H 6 -5.196 -3.745 137.652 1.00 27.02 N +ATOM 11924 N SER H 7 -8.734 -7.643 136.635 1.00 35.97 N +ATOM 11925 CA SER H 7 -9.391 -7.705 135.322 1.00 40.28 C +ATOM 11926 C SER H 7 -9.870 -6.323 134.899 1.00 43.93 C +ATOM 11927 O SER H 7 -10.372 -5.567 135.741 1.00 45.88 O +ATOM 11928 CB SER H 7 -10.589 -8.664 135.329 1.00 44.39 C +ATOM 11929 OG SER H 7 -10.172 -10.017 135.375 1.00 50.60 O +ATOM 11930 N PRO H 8 -9.746 -5.966 133.611 1.00 46.84 N +ATOM 11931 CA PRO H 8 -9.061 -6.752 132.579 1.00 43.18 C +ATOM 11932 C PRO H 8 -7.559 -6.497 132.567 1.00 42.12 C +ATOM 11933 O PRO H 8 -7.075 -5.574 133.219 1.00 42.96 O +ATOM 11934 CB PRO H 8 -9.704 -6.255 131.283 1.00 45.72 C +ATOM 11935 CG PRO H 8 -10.033 -4.824 131.581 1.00 47.24 C +ATOM 11936 CD PRO H 8 -10.441 -4.795 133.042 1.00 47.51 C +ATOM 11937 N SER H 9 -6.821 -7.317 131.825 1.00 43.03 N +ATOM 11938 CA SER H 9 -5.380 -7.109 131.733 1.00 42.18 C +ATOM 11939 C SER H 9 -5.050 -5.859 130.935 1.00 40.11 C +ATOM 11940 O SER H 9 -3.991 -5.257 131.131 1.00 39.39 O +ATOM 11941 CB SER H 9 -4.723 -8.334 131.111 1.00 48.92 C +ATOM 11942 OG SER H 9 -5.480 -8.770 129.995 1.00 55.90 O +ATOM 11943 N SER H 10 -5.938 -5.453 130.035 1.00 43.56 N +ATOM 11944 CA BSER H 10 -5.736 -4.240 129.260 0.64 42.78 C +ATOM 11945 C SER H 10 -7.093 -3.720 128.816 1.00 42.23 C +ATOM 11946 O SER H 10 -8.004 -4.500 128.538 1.00 45.61 O +ATOM 11947 CB BSER H 10 -4.835 -4.492 128.047 0.64 43.77 C +ATOM 11948 OG BSER H 10 -5.498 -5.284 127.080 0.64 43.84 O +ATOM 11949 N LEU H 11 -7.222 -2.403 128.767 1.00 40.67 N +ATOM 11950 CA LEU H 11 -8.460 -1.797 128.319 1.00 41.98 C +ATOM 11951 C LEU H 11 -8.130 -0.534 127.546 1.00 40.80 C +ATOM 11952 O LEU H 11 -7.229 0.220 127.926 1.00 36.32 O +ATOM 11953 CB LEU H 11 -9.402 -1.501 129.496 1.00 45.54 C +ATOM 11954 CG LEU H 11 -9.201 -0.302 130.422 1.00 47.27 C +ATOM 11955 CD1 LEU H 11 -9.895 0.942 129.870 1.00 44.47 C +ATOM 11956 CD2 LEU H 11 -9.758 -0.644 131.798 1.00 49.59 C +ATOM 11957 N SER H 12 -8.849 -0.326 126.447 1.00 39.25 N +ATOM 11958 CA BSER H 12 -8.694 0.861 125.621 0.64 38.34 C +ATOM 11959 C SER H 12 -9.814 1.848 125.920 1.00 36.70 C +ATOM 11960 O SER H 12 -10.961 1.450 126.145 1.00 37.93 O +ATOM 11961 CB BSER H 12 -8.697 0.484 124.141 0.64 39.64 C +ATOM 11962 OG BSER H 12 -9.784 -0.376 123.851 0.64 41.99 O +ATOM 11963 N ALA H 13 -9.477 3.136 125.919 1.00 35.41 N +ATOM 11964 CA ALA H 13 -10.433 4.169 126.288 1.00 36.68 C +ATOM 11965 C ALA H 13 -10.028 5.488 125.639 1.00 35.90 C +ATOM 11966 O ALA H 13 -8.921 5.630 125.110 1.00 33.35 O +ATOM 11967 CB ALA H 13 -10.515 4.312 127.819 1.00 36.87 C +ATOM 11968 N SER H 14 -10.930 6.468 125.712 1.00 35.15 N +ATOM 11969 CA SER H 14 -10.680 7.802 125.183 1.00 39.32 C +ATOM 11970 C SER H 14 -10.750 8.846 126.293 1.00 40.22 C +ATOM 11971 O SER H 14 -11.386 8.636 127.332 1.00 41.94 O +ATOM 11972 CB SER H 14 -11.688 8.161 124.077 1.00 40.34 C +ATOM 11973 OG SER H 14 -11.752 7.140 123.098 1.00 40.66 O +ATOM 11974 N VAL H 15 -10.072 9.978 126.059 1.00 40.55 N +ATOM 11975 CA VAL H 15 -10.174 11.123 126.960 1.00 41.12 C +ATOM 11976 C VAL H 15 -11.642 11.458 127.188 1.00 43.75 C +ATOM 11977 O VAL H 15 -12.406 11.660 126.235 1.00 41.70 O +ATOM 11978 CB VAL H 15 -9.407 12.330 126.389 1.00 40.42 C +ATOM 11979 CG1 VAL H 15 -9.676 13.579 127.224 1.00 41.40 C +ATOM 11980 CG2 VAL H 15 -7.916 12.049 126.322 1.00 38.77 C +ATOM 11981 N GLY H 16 -12.043 11.503 128.461 1.00 42.34 N +ATOM 11982 CA GLY H 16 -13.415 11.755 128.849 1.00 41.45 C +ATOM 11983 C GLY H 16 -14.212 10.522 129.225 1.00 38.77 C +ATOM 11984 O GLY H 16 -15.339 10.661 129.710 1.00 35.32 O +ATOM 11985 N ASP H 17 -13.666 9.328 129.019 1.00 40.03 N +ATOM 11986 CA ASP H 17 -14.376 8.105 129.350 1.00 38.12 C +ATOM 11987 C ASP H 17 -14.411 7.879 130.858 1.00 38.74 C +ATOM 11988 O ASP H 17 -13.579 8.388 131.611 1.00 40.53 O +ATOM 11989 CB ASP H 17 -13.727 6.900 128.674 1.00 38.18 C +ATOM 11990 CG ASP H 17 -14.076 6.803 127.204 1.00 46.65 C +ATOM 11991 OD1 ASP H 17 -14.920 7.604 126.741 1.00 49.76 O +ATOM 11992 OD2 ASP H 17 -13.511 5.922 126.517 1.00 46.52 O +ATOM 11993 N ARG H 18 -15.406 7.106 131.288 1.00 38.09 N +ATOM 11994 CA ARG H 18 -15.471 6.557 132.635 1.00 39.82 C +ATOM 11995 C ARG H 18 -14.876 5.153 132.608 1.00 40.63 C +ATOM 11996 O ARG H 18 -15.377 4.278 131.890 1.00 45.43 O +ATOM 11997 CB ARG H 18 -16.914 6.525 133.140 1.00 39.84 C +ATOM 11998 CG ARG H 18 -17.068 6.005 134.563 1.00 43.67 C +ATOM 11999 CD ARG H 18 -18.535 5.988 134.977 1.00 47.18 C +ATOM 12000 NE ARG H 18 -18.712 5.647 136.385 1.00 48.10 N +ATOM 12001 CZ ARG H 18 -18.911 4.411 136.832 1.00 50.21 C +ATOM 12002 NH1 ARG H 18 -18.961 3.394 135.979 1.00 52.06 N +ATOM 12003 NH2 ARG H 18 -19.062 4.193 138.131 1.00 49.71 N +ATOM 12004 N VAL H 19 -13.817 4.942 133.390 1.00 32.83 N +ATOM 12005 CA VAL H 19 -13.013 3.725 133.352 1.00 35.03 C +ATOM 12006 C VAL H 19 -13.184 2.972 134.665 1.00 33.33 C +ATOM 12007 O VAL H 19 -13.148 3.580 135.740 1.00 32.14 O +ATOM 12008 CB VAL H 19 -11.522 4.057 133.117 1.00 38.45 C +ATOM 12009 CG1 VAL H 19 -10.687 2.779 133.012 1.00 40.49 C +ATOM 12010 CG2 VAL H 19 -11.344 4.941 131.887 1.00 41.23 C +ATOM 12011 N THR H 20 -13.316 1.643 134.576 1.00 34.01 N +ATOM 12012 CA THR H 20 -13.565 0.769 135.720 1.00 36.38 C +ATOM 12013 C THR H 20 -12.597 -0.411 135.719 1.00 35.34 C +ATOM 12014 O THR H 20 -12.476 -1.108 134.709 1.00 34.66 O +ATOM 12015 CB THR H 20 -15.007 0.251 135.682 1.00 37.25 C +ATOM 12016 OG1 THR H 20 -15.893 1.276 136.152 1.00 41.69 O +ATOM 12017 CG2 THR H 20 -15.158 -0.998 136.527 1.00 38.88 C +ATOM 12018 N ILE H 21 -11.933 -0.653 136.854 1.00 31.71 N +ATOM 12019 CA ILE H 21 -11.007 -1.772 137.007 1.00 30.14 C +ATOM 12020 C ILE H 21 -11.338 -2.488 138.307 1.00 31.31 C +ATOM 12021 O ILE H 21 -11.496 -1.840 139.347 1.00 30.08 O +ATOM 12022 CB ILE H 21 -9.535 -1.306 137.014 1.00 31.94 C +ATOM 12023 CG1 ILE H 21 -9.204 -0.522 135.744 1.00 31.67 C +ATOM 12024 CG2 ILE H 21 -8.590 -2.501 137.163 1.00 30.71 C +ATOM 12025 CD1 ILE H 21 -7.798 0.056 135.742 1.00 34.06 C +ATOM 12026 N THR H 22 -11.424 -3.818 138.261 1.00 32.71 N +ATOM 12027 CA THR H 22 -11.876 -4.573 139.422 1.00 39.40 C +ATOM 12028 C THR H 22 -10.921 -5.707 139.763 1.00 40.30 C +ATOM 12029 O THR H 22 -10.464 -6.431 138.876 1.00 43.13 O +ATOM 12030 CB THR H 22 -13.279 -5.164 139.197 1.00 44.25 C +ATOM 12031 OG1 THR H 22 -13.181 -6.264 138.283 1.00 51.89 O +ATOM 12032 CG2 THR H 22 -14.226 -4.128 138.616 1.00 39.09 C +ATOM 12033 N CYS H 23 -10.644 -5.866 141.056 1.00 38.64 N +ATOM 12034 CA ACYS H 23 -9.891 -6.993 141.588 0.50 37.67 C +ATOM 12035 C CYS H 23 -10.775 -7.790 142.534 1.00 35.94 C +ATOM 12036 O CYS H 23 -11.510 -7.209 143.344 1.00 34.78 O +ATOM 12037 CB ACYS H 23 -8.642 -6.534 142.339 0.50 38.35 C +ATOM 12038 SG ACYS H 23 -7.281 -6.057 141.285 0.50 35.64 S +ATOM 12039 N ARG H 24 -10.701 -9.115 142.440 1.00 33.43 N +ATOM 12040 CA ARG H 24 -11.511 -10.007 143.258 1.00 36.07 C +ATOM 12041 C ARG H 24 -10.619 -10.706 144.274 1.00 33.00 C +ATOM 12042 O ARG H 24 -9.645 -11.370 143.897 1.00 33.93 O +ATOM 12043 CB ARG H 24 -12.241 -11.035 142.395 1.00 40.86 C +ATOM 12044 CG ARG H 24 -13.119 -11.964 143.218 1.00 47.88 C +ATOM 12045 CD ARG H 24 -13.845 -12.980 142.358 1.00 55.44 C +ATOM 12046 NE ARG H 24 -14.770 -12.362 141.412 1.00 62.54 N +ATOM 12047 CZ ARG H 24 -16.055 -12.126 141.660 1.00 65.76 C +ATOM 12048 NH1 ARG H 24 -16.576 -12.445 142.838 1.00 67.40 N +ATOM 12049 NH2 ARG H 24 -16.821 -11.565 140.731 1.00 65.31 N +ATOM 12050 N ALA H 25 -10.943 -10.557 145.555 1.00 32.30 N +ATOM 12051 CA ALA H 25 -10.170 -11.201 146.611 1.00 32.56 C +ATOM 12052 C ALA H 25 -10.742 -12.584 146.902 1.00 38.00 C +ATOM 12053 O ALA H 25 -11.960 -12.771 146.935 1.00 45.40 O +ATOM 12054 CB ALA H 25 -10.162 -10.348 147.881 1.00 29.97 C +ATOM 12055 N SER H 26 -9.859 -13.558 147.099 1.00 40.62 N +ATOM 12056 CA SER H 26 -10.257 -14.941 147.328 1.00 43.39 C +ATOM 12057 C SER H 26 -9.911 -15.356 148.750 1.00 41.95 C +ATOM 12058 O SER H 26 -8.769 -15.175 149.191 1.00 40.37 O +ATOM 12059 CB SER H 26 -9.578 -15.885 146.334 1.00 49.31 C +ATOM 12060 OG SER H 26 -9.836 -17.243 146.669 1.00 52.73 O +ATOM 12061 N GLN H 27 -10.895 -15.924 149.452 1.00 39.32 N +ATOM 12062 CA GLN H 27 -10.704 -16.473 150.794 1.00 39.75 C +ATOM 12063 C GLN H 27 -10.087 -15.434 151.731 1.00 38.85 C +ATOM 12064 O GLN H 27 -9.140 -15.707 152.472 1.00 45.30 O +ATOM 12065 CB GLN H 27 -9.857 -17.747 150.741 1.00 37.70 C +ATOM 12066 N SER H 28 -10.633 -14.221 151.681 1.00 36.09 N +ATOM 12067 CA SER H 28 -10.099 -13.087 152.421 1.00 37.37 C +ATOM 12068 C SER H 28 -11.235 -12.168 152.846 1.00 35.65 C +ATOM 12069 O SER H 28 -12.205 -11.985 152.103 1.00 37.93 O +ATOM 12070 CB SER H 28 -9.094 -12.303 151.575 1.00 38.10 C +ATOM 12071 OG SER H 28 -8.715 -11.108 152.232 1.00 41.45 O +ATOM 12072 N VAL H 29 -11.106 -11.576 154.034 1.00 29.60 N +ATOM 12073 CA VAL H 29 -12.077 -10.604 154.507 1.00 28.25 C +ATOM 12074 C VAL H 29 -11.447 -9.235 154.752 1.00 28.45 C +ATOM 12075 O VAL H 29 -12.118 -8.326 155.246 1.00 31.25 O +ATOM 12076 CB VAL H 29 -12.811 -11.117 155.761 1.00 28.36 C +ATOM 12077 CG1 VAL H 29 -13.350 -12.516 155.510 1.00 29.27 C +ATOM 12078 CG2 VAL H 29 -11.894 -11.114 156.976 1.00 22.23 C +ATOM 12079 N SER H 36 -10.185 -9.057 154.379 1.00 21.93 N +ATOM 12080 CA SER H 36 -9.508 -7.781 154.573 1.00 23.44 C +ATOM 12081 C SER H 36 -10.058 -6.706 153.643 1.00 28.36 C +ATOM 12082 O SER H 36 -10.273 -6.949 152.452 1.00 26.94 O +ATOM 12083 CB SER H 36 -8.014 -7.957 154.322 1.00 23.55 C +ATOM 12084 OG SER H 36 -7.355 -6.710 154.281 1.00 26.56 O +ATOM 12085 N SER H 37 -10.260 -5.496 154.176 1.00 28.28 N +ATOM 12086 CA SER H 37 -10.546 -4.333 153.337 1.00 26.17 C +ATOM 12087 C SER H 37 -9.325 -3.445 153.118 1.00 24.83 C +ATOM 12088 O SER H 37 -9.474 -2.325 152.622 1.00 24.77 O +ATOM 12089 CB SER H 37 -11.683 -3.493 153.922 1.00 26.77 C +ATOM 12090 OG SER H 37 -12.940 -3.917 153.429 1.00 29.63 O +ATOM 12091 N ALA H 38 -8.124 -3.924 153.457 1.00 22.76 N +ATOM 12092 CA ALA H 38 -6.884 -3.169 153.256 1.00 19.88 C +ATOM 12093 C ALA H 38 -6.471 -3.280 151.791 1.00 21.57 C +ATOM 12094 O ALA H 38 -5.561 -4.022 151.418 1.00 21.60 O +ATOM 12095 CB ALA H 38 -5.778 -3.683 154.174 1.00 19.86 C +ATOM 12096 N VAL H 39 -7.143 -2.516 150.941 1.00 20.88 N +ATOM 12097 CA VAL H 39 -6.956 -2.626 149.498 1.00 21.61 C +ATOM 12098 C VAL H 39 -6.537 -1.266 148.963 1.00 23.23 C +ATOM 12099 O VAL H 39 -7.220 -0.260 149.200 1.00 24.49 O +ATOM 12100 CB VAL H 39 -8.221 -3.152 148.795 1.00 20.21 C +ATOM 12101 CG1 VAL H 39 -8.061 -3.056 147.247 1.00 20.36 C +ATOM 12102 CG2 VAL H 39 -8.474 -4.602 149.211 1.00 20.18 C +ATOM 12103 N ALA H 40 -5.404 -1.241 148.263 1.00 23.58 N +ATOM 12104 CA ALA H 40 -4.836 -0.016 147.732 1.00 23.28 C +ATOM 12105 C ALA H 40 -4.675 -0.138 146.222 1.00 24.43 C +ATOM 12106 O ALA H 40 -4.588 -1.242 145.671 1.00 27.19 O +ATOM 12107 CB ALA H 40 -3.491 0.305 148.380 1.00 20.62 C +ATOM 12108 N TRP H 41 -4.638 1.015 145.562 1.00 25.19 N +ATOM 12109 CA TRP H 41 -4.484 1.100 144.112 1.00 20.97 C +ATOM 12110 C TRP H 41 -3.293 1.986 143.774 1.00 24.20 C +ATOM 12111 O TRP H 41 -3.091 3.027 144.405 1.00 26.17 O +ATOM 12112 CB TRP H 41 -5.748 1.653 143.464 1.00 20.91 C +ATOM 12113 CG TRP H 41 -6.903 0.730 143.549 1.00 20.78 C +ATOM 12114 CD1 TRP H 41 -7.843 0.675 144.540 1.00 20.61 C +ATOM 12115 CD2 TRP H 41 -7.252 -0.288 142.605 1.00 22.88 C +ATOM 12116 NE1 TRP H 41 -8.750 -0.319 144.272 1.00 25.44 N +ATOM 12117 CE2 TRP H 41 -8.418 -0.913 143.081 1.00 26.67 C +ATOM 12118 CE3 TRP H 41 -6.694 -0.726 141.404 1.00 22.20 C +ATOM 12119 CZ2 TRP H 41 -9.033 -1.958 142.398 1.00 25.33 C +ATOM 12120 CZ3 TRP H 41 -7.302 -1.758 140.727 1.00 27.46 C +ATOM 12121 CH2 TRP H 41 -8.465 -2.365 141.224 1.00 24.64 C +ATOM 12122 N TYR H 42 -2.515 1.577 142.773 1.00 27.00 N +ATOM 12123 CA TYR H 42 -1.312 2.299 142.370 1.00 21.54 C +ATOM 12124 C TYR H 42 -1.323 2.570 140.868 1.00 22.06 C +ATOM 12125 O TYR H 42 -1.883 1.796 140.085 1.00 21.72 O +ATOM 12126 CB TYR H 42 -0.045 1.523 142.731 1.00 21.66 C +ATOM 12127 CG TYR H 42 0.069 1.233 144.217 1.00 22.99 C +ATOM 12128 CD1 TYR H 42 0.809 2.055 145.053 1.00 21.49 C +ATOM 12129 CD2 TYR H 42 -0.578 0.141 144.778 1.00 21.83 C +ATOM 12130 CE1 TYR H 42 0.911 1.795 146.409 1.00 23.20 C +ATOM 12131 CE2 TYR H 42 -0.475 -0.139 146.135 1.00 21.20 C +ATOM 12132 CZ TYR H 42 0.263 0.699 146.942 1.00 23.75 C +ATOM 12133 OH TYR H 42 0.351 0.427 148.299 1.00 23.89 O +ATOM 12134 N GLN H 43 -0.661 3.660 140.473 1.00 27.01 N +ATOM 12135 CA GLN H 43 -0.451 4.003 139.068 1.00 26.55 C +ATOM 12136 C GLN H 43 1.046 3.995 138.760 1.00 22.32 C +ATOM 12137 O GLN H 43 1.857 4.486 139.553 1.00 22.35 O +ATOM 12138 CB GLN H 43 -1.040 5.374 138.739 1.00 22.04 C +ATOM 12139 CG GLN H 43 -0.998 5.761 137.249 1.00 31.18 C +ATOM 12140 CD GLN H 43 -1.114 7.260 137.057 1.00 35.41 C +ATOM 12141 OE1 GLN H 43 -0.375 8.039 137.672 1.00 36.46 O +ATOM 12142 NE2 GLN H 43 -2.053 7.678 136.221 1.00 35.54 N +ATOM 12143 N GLN H 44 1.414 3.438 137.607 1.00 25.74 N +ATOM 12144 CA GLN H 44 2.820 3.356 137.218 1.00 24.40 C +ATOM 12145 C GLN H 44 2.977 3.707 135.747 1.00 26.97 C +ATOM 12146 O GLN H 44 2.324 3.102 134.893 1.00 27.04 O +ATOM 12147 CB GLN H 44 3.403 1.960 137.460 1.00 22.84 C +ATOM 12148 CG GLN H 44 4.946 1.927 137.320 1.00 23.13 C +ATOM 12149 CD GLN H 44 5.528 0.534 137.520 1.00 25.02 C +ATOM 12150 OE1 GLN H 44 4.863 -0.477 137.264 1.00 25.56 O +ATOM 12151 NE2 GLN H 44 6.775 0.475 137.983 1.00 23.37 N +ATOM 12152 N LYS H 45 3.864 4.666 135.457 1.00 31.15 N +ATOM 12153 CA LYS H 45 4.259 4.997 134.092 1.00 32.61 C +ATOM 12154 C LYS H 45 5.542 4.258 133.724 1.00 32.68 C +ATOM 12155 O LYS H 45 6.302 3.846 134.602 1.00 33.91 O +ATOM 12156 CB LYS H 45 4.477 6.508 133.957 1.00 36.64 C +ATOM 12157 CG LYS H 45 3.311 7.382 134.397 1.00 41.94 C +ATOM 12158 CD LYS H 45 2.277 7.511 133.308 1.00 46.44 C +ATOM 12159 CE LYS H 45 1.118 8.402 133.738 1.00 50.62 C +ATOM 12160 NZ LYS H 45 1.545 9.786 134.103 1.00 51.65 N +ATOM 12161 N PRO H 46 5.821 4.091 132.429 1.00 31.40 N +ATOM 12162 CA PRO H 46 7.061 3.408 132.017 1.00 36.28 C +ATOM 12163 C PRO H 46 8.301 4.052 132.624 1.00 38.27 C +ATOM 12164 O PRO H 46 8.462 5.274 132.608 1.00 39.60 O +ATOM 12165 CB PRO H 46 7.054 3.546 130.489 1.00 35.49 C +ATOM 12166 CG PRO H 46 5.588 3.697 130.131 1.00 34.42 C +ATOM 12167 CD PRO H 46 4.971 4.455 131.279 1.00 33.23 C +ATOM 12168 N GLY H 47 9.185 3.212 133.165 1.00 39.81 N +ATOM 12169 CA GLY H 47 10.437 3.674 133.733 1.00 38.47 C +ATOM 12170 C GLY H 47 10.344 4.322 135.102 1.00 39.85 C +ATOM 12171 O GLY H 47 11.373 4.773 135.620 1.00 39.19 O +ATOM 12172 N LYS H 48 9.159 4.389 135.709 1.00 38.86 N +ATOM 12173 CA LYS H 48 8.978 5.114 136.960 1.00 37.21 C +ATOM 12174 C LYS H 48 8.485 4.191 138.075 1.00 34.72 C +ATOM 12175 O LYS H 48 7.932 3.114 137.830 1.00 31.92 O +ATOM 12176 CB LYS H 48 7.993 6.277 136.785 1.00 39.25 C +ATOM 12177 CG LYS H 48 8.346 7.238 135.661 1.00 43.57 C +ATOM 12178 CD LYS H 48 9.769 7.764 135.796 1.00 46.56 C +ATOM 12179 CE LYS H 48 10.085 8.801 134.718 1.00 50.85 C +ATOM 12180 NZ LYS H 48 11.494 9.293 134.786 1.00 54.39 N +ATOM 12181 N ALA H 49 8.684 4.643 139.313 1.00 31.38 N +ATOM 12182 CA ALA H 49 8.163 3.941 140.477 1.00 30.88 C +ATOM 12183 C ALA H 49 6.640 4.093 140.557 1.00 30.79 C +ATOM 12184 O ALA H 49 6.074 5.062 140.041 1.00 30.27 O +ATOM 12185 CB ALA H 49 8.798 4.484 141.752 1.00 31.21 C +ATOM 12186 N PRO H 50 5.951 3.144 141.186 1.00 33.79 N +ATOM 12187 CA PRO H 50 4.496 3.277 141.342 1.00 33.31 C +ATOM 12188 C PRO H 50 4.129 4.461 142.228 1.00 32.52 C +ATOM 12189 O PRO H 50 4.925 4.944 143.033 1.00 31.96 O +ATOM 12190 CB PRO H 50 4.079 1.950 141.988 1.00 32.89 C +ATOM 12191 CG PRO H 50 5.199 0.995 141.684 1.00 34.09 C +ATOM 12192 CD PRO H 50 6.443 1.841 141.677 1.00 33.88 C +ATOM 12193 N LYS H 51 2.894 4.931 142.064 1.00 32.28 N +ATOM 12194 CA LYS H 51 2.377 6.050 142.840 1.00 31.60 C +ATOM 12195 C LYS H 51 1.035 5.661 143.443 1.00 26.14 C +ATOM 12196 O LYS H 51 0.174 5.108 142.751 1.00 21.73 O +ATOM 12197 CB LYS H 51 2.230 7.317 141.982 1.00 34.11 C +ATOM 12198 CG LYS H 51 3.546 7.949 141.576 1.00 37.63 C +ATOM 12199 CD LYS H 51 3.327 9.355 141.039 1.00 44.56 C +ATOM 12200 CE LYS H 51 4.640 10.072 140.764 1.00 50.61 C +ATOM 12201 NZ LYS H 51 4.417 11.448 140.226 1.00 53.65 N +ATOM 12202 N LEU H 52 0.866 5.954 144.730 1.00 22.82 N +ATOM 12203 CA LEU H 52 -0.332 5.547 145.457 1.00 23.29 C +ATOM 12204 C LEU H 52 -1.525 6.413 145.069 1.00 27.66 C +ATOM 12205 O LEU H 52 -1.423 7.640 144.997 1.00 26.17 O +ATOM 12206 CB LEU H 52 -0.091 5.637 146.971 1.00 21.21 C +ATOM 12207 CG LEU H 52 -1.296 5.458 147.882 1.00 24.93 C +ATOM 12208 CD1 LEU H 52 -1.834 4.031 147.782 1.00 22.84 C +ATOM 12209 CD2 LEU H 52 -0.968 5.842 149.360 1.00 22.90 C +ATOM 12210 N LEU H 53 -2.672 5.761 144.861 1.00 28.30 N +ATOM 12211 CA LEU H 53 -3.914 6.418 144.464 1.00 29.41 C +ATOM 12212 C LEU H 53 -4.976 6.345 145.551 1.00 28.34 C +ATOM 12213 O LEU H 53 -5.512 7.374 145.971 1.00 28.54 O +ATOM 12214 CB LEU H 53 -4.461 5.780 143.179 1.00 27.56 C +ATOM 12215 CG LEU H 53 -3.677 5.975 141.890 1.00 31.20 C +ATOM 12216 CD1 LEU H 53 -4.315 5.150 140.760 1.00 32.59 C +ATOM 12217 CD2 LEU H 53 -3.606 7.451 141.499 1.00 34.37 C +ATOM 12218 N ILE H 54 -5.303 5.132 145.991 1.00 25.76 N +ATOM 12219 CA ILE H 54 -6.388 4.841 146.916 1.00 26.79 C +ATOM 12220 C ILE H 54 -5.810 3.914 147.972 1.00 27.32 C +ATOM 12221 O ILE H 54 -4.903 3.124 147.690 1.00 28.51 O +ATOM 12222 CB ILE H 54 -7.594 4.170 146.205 1.00 26.76 C +ATOM 12223 CG1 ILE H 54 -8.112 5.011 145.027 1.00 29.67 C +ATOM 12224 CG2 ILE H 54 -8.733 3.853 147.184 1.00 20.67 C +ATOM 12225 CD1 ILE H 54 -8.828 6.284 145.435 1.00 33.01 C +ATOM 12226 N TYR H 55 -6.304 4.038 149.200 1.00 25.39 N +ATOM 12227 CA TYR H 55 -5.999 3.071 150.247 1.00 26.59 C +ATOM 12228 C TYR H 55 -7.271 2.799 151.037 1.00 29.90 C +ATOM 12229 O TYR H 55 -8.265 3.528 150.928 1.00 20.03 O +ATOM 12230 CB TYR H 55 -4.864 3.557 151.157 1.00 23.69 C +ATOM 12231 CG TYR H 55 -5.217 4.760 151.988 1.00 22.75 C +ATOM 12232 CD1 TYR H 55 -5.106 6.046 151.473 1.00 23.80 C +ATOM 12233 CD2 TYR H 55 -5.658 4.611 153.303 1.00 24.77 C +ATOM 12234 CE1 TYR H 55 -5.442 7.152 152.245 1.00 27.44 C +ATOM 12235 CE2 TYR H 55 -5.993 5.701 154.077 1.00 27.63 C +ATOM 12236 CZ TYR H 55 -5.882 6.970 153.551 1.00 31.50 C +ATOM 12237 OH TYR H 55 -6.212 8.047 154.337 1.00 32.82 O +ATOM 12238 N SER H 56 -7.232 1.728 151.834 1.00 30.87 N +ATOM 12239 CA SER H 56 -8.379 1.322 152.651 1.00 25.43 C +ATOM 12240 C SER H 56 -9.652 1.203 151.807 1.00 29.28 C +ATOM 12241 O SER H 56 -10.740 1.636 152.212 1.00 23.95 O +ATOM 12242 CB SER H 56 -8.582 2.287 153.822 1.00 27.22 C +ATOM 12243 OG SER H 56 -7.628 2.048 154.851 1.00 23.54 O +ATOM 12244 N ALA H 57 -9.498 0.624 150.609 1.00 29.53 N +ATOM 12245 CA ALA H 57 -10.575 0.364 149.658 1.00 29.39 C +ATOM 12246 C ALA H 57 -11.140 1.635 149.033 1.00 27.69 C +ATOM 12247 O ALA H 57 -11.418 1.655 147.829 1.00 30.93 O +ATOM 12248 CB ALA H 57 -11.706 -0.449 150.312 1.00 28.53 C +ATOM 12249 N SER H 65 -11.319 2.697 149.813 1.00 23.24 N +ATOM 12250 CA SER H 65 -12.110 3.821 149.327 1.00 28.59 C +ATOM 12251 C SER H 65 -11.581 5.194 149.719 1.00 32.19 C +ATOM 12252 O SER H 65 -12.201 6.198 149.346 1.00 33.03 O +ATOM 12253 CB SER H 65 -13.569 3.691 149.814 1.00 26.26 C +ATOM 12254 OG SER H 65 -13.629 3.731 151.238 1.00 28.97 O +ATOM 12255 N SER H 66 -10.477 5.281 150.451 1.00 28.74 N +ATOM 12256 CA SER H 66 -9.930 6.566 150.861 1.00 30.06 C +ATOM 12257 C SER H 66 -9.006 7.110 149.782 1.00 28.23 C +ATOM 12258 O SER H 66 -8.075 6.422 149.348 1.00 29.86 O +ATOM 12259 CB SER H 66 -9.182 6.432 152.189 1.00 28.42 C +ATOM 12260 OG SER H 66 -10.059 5.933 153.177 1.00 28.28 O +ATOM 12261 N LEU H 67 -9.266 8.346 149.354 1.00 27.63 N +ATOM 12262 CA LEU H 67 -8.438 9.002 148.349 1.00 27.55 C +ATOM 12263 C LEU H 67 -7.157 9.530 148.992 1.00 28.06 C +ATOM 12264 O LEU H 67 -7.206 10.328 149.937 1.00 28.59 O +ATOM 12265 CB LEU H 67 -9.206 10.141 147.687 1.00 32.70 C +ATOM 12266 CG LEU H 67 -8.506 10.885 146.551 1.00 35.51 C +ATOM 12267 CD1 LEU H 67 -8.340 9.965 145.359 1.00 36.93 C +ATOM 12268 CD2 LEU H 67 -9.286 12.149 146.157 1.00 35.39 C +ATOM 12269 N TYR H 68 -6.013 9.088 148.477 1.00 26.74 N +ATOM 12270 CA TYR H 68 -4.737 9.579 148.963 1.00 26.42 C +ATOM 12271 C TYR H 68 -4.595 11.070 148.679 1.00 27.16 C +ATOM 12272 O TYR H 68 -4.980 11.560 147.616 1.00 31.85 O +ATOM 12273 CB TYR H 68 -3.591 8.789 148.330 1.00 24.59 C +ATOM 12274 CG TYR H 68 -2.230 9.240 148.802 1.00 30.03 C +ATOM 12275 CD1 TYR H 68 -1.922 9.264 150.157 1.00 27.79 C +ATOM 12276 CD2 TYR H 68 -1.253 9.651 147.899 1.00 34.72 C +ATOM 12277 CE1 TYR H 68 -0.684 9.682 150.607 1.00 29.10 C +ATOM 12278 CE2 TYR H 68 0.003 10.073 148.345 1.00 35.99 C +ATOM 12279 CZ TYR H 68 0.274 10.082 149.707 1.00 33.64 C +ATOM 12280 OH TYR H 68 1.502 10.492 150.164 1.00 32.34 O +ATOM 12281 N SER H 69 -4.051 11.788 149.652 1.00 28.90 N +ATOM 12282 CA SER H 69 -3.903 13.235 149.558 1.00 35.52 C +ATOM 12283 C SER H 69 -3.118 13.644 148.317 1.00 37.73 C +ATOM 12284 O SER H 69 -2.069 13.072 148.001 1.00 38.17 O +ATOM 12285 CB SER H 69 -3.201 13.759 150.812 1.00 41.12 C +ATOM 12286 OG SER H 69 -2.947 15.148 150.711 1.00 48.30 O +ATOM 12287 N GLY H 70 -3.623 14.666 147.620 1.00 37.96 N +ATOM 12288 CA GLY H 70 -3.003 15.149 146.405 1.00 35.89 C +ATOM 12289 C GLY H 70 -3.456 14.461 145.133 1.00 37.28 C +ATOM 12290 O GLY H 70 -3.178 14.972 144.040 1.00 38.91 O +ATOM 12291 N VAL H 71 -4.141 13.332 145.234 1.00 37.84 N +ATOM 12292 CA VAL H 71 -4.615 12.622 144.042 1.00 36.80 C +ATOM 12293 C VAL H 71 -5.896 13.292 143.547 1.00 36.79 C +ATOM 12294 O VAL H 71 -6.780 13.600 144.364 1.00 33.60 O +ATOM 12295 CB VAL H 71 -4.849 11.145 144.356 1.00 35.78 C +ATOM 12296 CG1 VAL H 71 -5.288 10.376 143.102 1.00 32.78 C +ATOM 12297 CG2 VAL H 71 -3.578 10.519 144.966 1.00 34.10 C +ATOM 12298 N PRO H 72 -6.038 13.524 142.240 1.00 38.39 N +ATOM 12299 CA PRO H 72 -7.225 14.224 141.735 1.00 37.81 C +ATOM 12300 C PRO H 72 -8.522 13.496 142.068 1.00 41.62 C +ATOM 12301 O PRO H 72 -8.555 12.284 142.297 1.00 40.25 O +ATOM 12302 CB PRO H 72 -6.988 14.266 140.223 1.00 38.06 C +ATOM 12303 CG PRO H 72 -5.508 14.189 140.076 1.00 37.00 C +ATOM 12304 CD PRO H 72 -5.044 13.286 141.178 1.00 38.18 C +ATOM 12305 N SER H 74 -9.615 14.269 142.068 1.00 42.68 N +ATOM 12306 CA SER H 74 -10.902 13.765 142.537 1.00 42.94 C +ATOM 12307 C SER H 74 -11.514 12.723 141.612 1.00 38.98 C +ATOM 12308 O SER H 74 -12.413 11.992 142.041 1.00 38.20 O +ATOM 12309 CB SER H 74 -11.883 14.924 142.717 1.00 48.07 C +ATOM 12310 OG SER H 74 -11.410 15.841 143.688 1.00 53.10 O +ATOM 12311 N ARG H 75 -11.066 12.639 140.357 1.00 36.52 N +ATOM 12312 CA ARG H 75 -11.659 11.680 139.432 1.00 39.32 C +ATOM 12313 C ARG H 75 -11.326 10.234 139.777 1.00 40.21 C +ATOM 12314 O ARG H 75 -11.924 9.326 139.190 1.00 40.88 O +ATOM 12315 CB ARG H 75 -11.227 11.981 137.993 1.00 39.53 C +ATOM 12316 CG ARG H 75 -9.724 11.967 137.752 1.00 42.00 C +ATOM 12317 CD ARG H 75 -9.406 12.362 136.316 1.00 42.92 C +ATOM 12318 NE ARG H 75 -7.970 12.374 136.039 1.00 41.81 N +ATOM 12319 CZ ARG H 75 -7.164 13.390 136.326 1.00 43.88 C +ATOM 12320 NH1 ARG H 75 -7.647 14.478 136.910 1.00 45.79 N +ATOM 12321 NH2 ARG H 75 -5.871 13.316 136.042 1.00 45.84 N +ATOM 12322 N PHE H 76 -10.409 9.995 140.711 1.00 38.75 N +ATOM 12323 CA PHE H 76 -10.075 8.642 141.132 1.00 34.06 C +ATOM 12324 C PHE H 76 -10.872 8.265 142.372 1.00 30.24 C +ATOM 12325 O PHE H 76 -10.968 9.045 143.319 1.00 34.18 O +ATOM 12326 CB PHE H 76 -8.579 8.516 141.426 1.00 30.77 C +ATOM 12327 CG PHE H 76 -7.694 8.673 140.220 1.00 31.76 C +ATOM 12328 CD1 PHE H 76 -7.341 7.575 139.456 1.00 33.25 C +ATOM 12329 CD2 PHE H 76 -7.179 9.911 139.878 1.00 32.33 C +ATOM 12330 CE1 PHE H 76 -6.502 7.707 138.357 1.00 34.18 C +ATOM 12331 CE2 PHE H 76 -6.337 10.053 138.781 1.00 32.54 C +ATOM 12332 CZ PHE H 76 -6.005 8.949 138.017 1.00 30.93 C +ATOM 12333 N SER H 77 -11.434 7.061 142.374 1.00 32.31 N +ATOM 12334 CA SER H 77 -12.208 6.623 143.528 1.00 35.36 C +ATOM 12335 C SER H 77 -12.196 5.103 143.631 1.00 32.17 C +ATOM 12336 O SER H 77 -12.154 4.399 142.619 1.00 31.31 O +ATOM 12337 CB SER H 77 -13.652 7.126 143.444 1.00 36.36 C +ATOM 12338 OG SER H 77 -14.252 6.649 142.256 1.00 36.77 O +ATOM 12339 N GLY H 78 -12.277 4.606 144.865 1.00 27.97 N +ATOM 12340 CA GLY H 78 -12.346 3.178 145.120 1.00 29.38 C +ATOM 12341 C GLY H 78 -13.646 2.780 145.801 1.00 28.65 C +ATOM 12342 O GLY H 78 -14.262 3.574 146.515 1.00 27.67 O +ATOM 12343 N SER H 79 -14.061 1.534 145.577 1.00 30.94 N +ATOM 12344 CA ASER H 79 -15.256 1.005 146.219 0.72 33.56 C +ATOM 12345 C SER H 79 -15.119 -0.503 146.377 1.00 31.77 C +ATOM 12346 O SER H 79 -14.305 -1.147 145.710 1.00 28.06 O +ATOM 12347 CB ASER H 79 -16.521 1.354 145.420 0.72 35.83 C +ATOM 12348 OG ASER H 79 -16.408 0.926 144.071 0.72 38.59 O +ATOM 12349 N ARG H 80 -15.935 -1.065 147.268 1.00 32.18 N +ATOM 12350 CA ARG H 80 -15.976 -2.503 147.502 1.00 32.17 C +ATOM 12351 C ARG H 80 -17.401 -3.005 147.319 1.00 33.62 C +ATOM 12352 O ARG H 80 -18.353 -2.389 147.809 1.00 32.49 O +ATOM 12353 CB ARG H 80 -15.483 -2.885 148.913 1.00 29.58 C +ATOM 12354 CG ARG H 80 -15.568 -4.388 149.172 1.00 29.28 C +ATOM 12355 CD ARG H 80 -15.338 -4.767 150.627 1.00 31.18 C +ATOM 12356 NE ARG H 80 -16.358 -4.216 151.507 1.00 30.81 N +ATOM 12357 CZ ARG H 80 -17.513 -4.813 151.789 1.00 31.91 C +ATOM 12358 NH1 ARG H 80 -17.799 -5.995 151.251 1.00 29.35 N +ATOM 12359 NH2 ARG H 80 -18.380 -4.220 152.611 1.00 29.52 N +ATOM 12360 N SER H 83 -17.534 -4.131 146.622 1.00 32.01 N +ATOM 12361 CA SER H 83 -18.816 -4.804 146.430 1.00 35.87 C +ATOM 12362 C SER H 83 -18.597 -6.289 146.693 1.00 36.84 C +ATOM 12363 O SER H 83 -18.108 -7.012 145.818 1.00 35.57 O +ATOM 12364 CB SER H 83 -19.361 -4.568 145.031 1.00 39.93 C +ATOM 12365 OG SER H 83 -20.536 -5.329 144.837 1.00 45.42 O +ATOM 12366 N GLY H 84 -18.960 -6.744 147.893 1.00 37.98 N +ATOM 12367 CA GLY H 84 -18.670 -8.123 148.250 1.00 38.30 C +ATOM 12368 C GLY H 84 -17.170 -8.343 148.273 1.00 39.34 C +ATOM 12369 O GLY H 84 -16.429 -7.619 148.944 1.00 42.67 O +ATOM 12370 N THR H 85 -16.702 -9.344 147.532 1.00 41.07 N +ATOM 12371 CA THR H 85 -15.272 -9.640 147.465 1.00 42.32 C +ATOM 12372 C THR H 85 -14.556 -8.897 146.347 1.00 36.48 C +ATOM 12373 O THR H 85 -13.365 -9.148 146.125 1.00 35.06 O +ATOM 12374 CB THR H 85 -15.031 -11.148 147.291 1.00 46.32 C +ATOM 12375 OG1 THR H 85 -15.601 -11.592 146.057 1.00 50.22 O +ATOM 12376 CG2 THR H 85 -15.639 -11.926 148.441 1.00 48.99 C +ATOM 12377 N ASP H 86 -15.249 -8.001 145.646 1.00 36.73 N +ATOM 12378 CA ASP H 86 -14.740 -7.321 144.462 1.00 33.95 C +ATOM 12379 C ASP H 86 -14.426 -5.869 144.783 1.00 27.29 C +ATOM 12380 O ASP H 86 -15.302 -5.123 145.238 1.00 30.76 O +ATOM 12381 CB ASP H 86 -15.754 -7.373 143.314 1.00 40.28 C +ATOM 12382 CG ASP H 86 -15.848 -8.741 142.683 1.00 48.94 C +ATOM 12383 OD1 ASP H 86 -15.351 -9.707 143.294 1.00 53.81 O +ATOM 12384 OD2 ASP H 86 -16.406 -8.851 141.572 1.00 53.34 O +ATOM 12385 N PHE H 87 -13.193 -5.461 144.515 1.00 25.90 N +ATOM 12386 CA PHE H 87 -12.773 -4.084 144.716 1.00 26.76 C +ATOM 12387 C PHE H 87 -12.553 -3.428 143.356 1.00 28.46 C +ATOM 12388 O PHE H 87 -11.988 -4.042 142.446 1.00 33.39 O +ATOM 12389 CB PHE H 87 -11.510 -4.026 145.574 1.00 25.95 C +ATOM 12390 CG PHE H 87 -11.695 -4.611 146.963 1.00 23.02 C +ATOM 12391 CD1 PHE H 87 -11.717 -5.988 147.155 1.00 22.60 C +ATOM 12392 CD2 PHE H 87 -11.861 -3.779 148.071 1.00 24.94 C +ATOM 12393 CE1 PHE H 87 -11.899 -6.537 148.438 1.00 24.79 C +ATOM 12394 CE2 PHE H 87 -12.038 -4.314 149.350 1.00 25.72 C +ATOM 12395 CZ PHE H 87 -12.051 -5.696 149.529 1.00 24.13 C +ATOM 12396 N THR H 88 -13.003 -2.183 143.218 1.00 26.38 N +ATOM 12397 CA THR H 88 -13.014 -1.497 141.932 1.00 29.99 C +ATOM 12398 C THR H 88 -12.398 -0.112 142.057 1.00 32.51 C +ATOM 12399 O THR H 88 -12.702 0.624 142.999 1.00 36.33 O +ATOM 12400 CB THR H 88 -14.439 -1.379 141.387 1.00 33.68 C +ATOM 12401 OG1 THR H 88 -14.985 -2.689 141.189 1.00 36.73 O +ATOM 12402 CG2 THR H 88 -14.449 -0.628 140.062 1.00 36.25 C +ATOM 12403 N LEU H 89 -11.535 0.237 141.103 1.00 29.55 N +ATOM 12404 CA LEU H 89 -11.030 1.591 140.929 1.00 28.14 C +ATOM 12405 C LEU H 89 -11.786 2.247 139.782 1.00 28.99 C +ATOM 12406 O LEU H 89 -11.922 1.652 138.709 1.00 31.01 O +ATOM 12407 CB LEU H 89 -9.527 1.578 140.626 1.00 31.79 C +ATOM 12408 CG LEU H 89 -8.897 2.897 140.170 1.00 33.28 C +ATOM 12409 CD1 LEU H 89 -8.777 3.872 141.329 1.00 32.96 C +ATOM 12410 CD2 LEU H 89 -7.532 2.660 139.518 1.00 35.60 C +ATOM 12411 N THR H 90 -12.270 3.465 139.998 1.00 29.24 N +ATOM 12412 CA THR H 90 -13.035 4.182 138.979 1.00 32.37 C +ATOM 12413 C THR H 90 -12.335 5.489 138.641 1.00 31.81 C +ATOM 12414 O THR H 90 -11.921 6.226 139.540 1.00 34.64 O +ATOM 12415 CB THR H 90 -14.479 4.454 139.445 1.00 29.84 C +ATOM 12416 OG1 THR H 90 -15.164 3.211 139.635 1.00 28.20 O +ATOM 12417 CG2 THR H 90 -15.251 5.278 138.402 1.00 32.18 C +ATOM 12418 N ILE H 91 -12.195 5.768 137.348 1.00 32.05 N +ATOM 12419 CA ILE H 91 -11.762 7.073 136.861 1.00 36.08 C +ATOM 12420 C ILE H 91 -12.962 7.696 136.155 1.00 37.02 C +ATOM 12421 O ILE H 91 -13.425 7.178 135.129 1.00 31.49 O +ATOM 12422 CB ILE H 91 -10.549 6.975 135.925 1.00 37.19 C +ATOM 12423 CG1 ILE H 91 -9.490 6.037 136.511 1.00 36.87 C +ATOM 12424 CG2 ILE H 91 -9.934 8.352 135.730 1.00 38.35 C +ATOM 12425 CD1 ILE H 91 -8.286 5.835 135.592 1.00 35.40 C +ATOM 12426 N SER H 92 -13.480 8.797 136.713 1.00 36.27 N +ATOM 12427 CA SER H 92 -14.776 9.300 136.261 1.00 39.35 C +ATOM 12428 C SER H 92 -14.680 9.921 134.870 1.00 41.66 C +ATOM 12429 O SER H 92 -15.576 9.728 134.039 1.00 42.71 O +ATOM 12430 CB SER H 92 -15.348 10.297 137.274 1.00 38.50 C +ATOM 12431 OG SER H 92 -14.510 11.425 137.454 1.00 40.63 O +ATOM 12432 N SER H 93 -13.597 10.650 134.591 1.00 40.97 N +ATOM 12433 CA SER H 93 -13.394 11.297 133.293 1.00 42.55 C +ATOM 12434 C SER H 93 -11.912 11.196 132.947 1.00 40.15 C +ATOM 12435 O SER H 93 -11.110 12.016 133.397 1.00 40.05 O +ATOM 12436 CB SER H 93 -13.861 12.749 133.320 1.00 45.29 C +ATOM 12437 OG SER H 93 -13.591 13.399 132.092 1.00 46.17 O +ATOM 12438 N LEU H 94 -11.563 10.197 132.139 1.00 38.58 N +ATOM 12439 CA LEU H 94 -10.169 9.920 131.810 1.00 39.81 C +ATOM 12440 C LEU H 94 -9.487 11.130 131.163 1.00 42.05 C +ATOM 12441 O LEU H 94 -9.986 11.690 130.177 1.00 41.01 O +ATOM 12442 CB LEU H 94 -10.100 8.711 130.876 1.00 34.79 C +ATOM 12443 CG LEU H 94 -8.739 8.054 130.687 1.00 33.76 C +ATOM 12444 CD1 LEU H 94 -8.351 7.307 131.948 1.00 35.16 C +ATOM 12445 CD2 LEU H 94 -8.780 7.107 129.519 1.00 33.73 C +ATOM 12446 N GLN H 95 -8.339 11.523 131.718 1.00 38.77 N +ATOM 12447 CA GLN H 95 -7.503 12.630 131.260 1.00 40.52 C +ATOM 12448 C GLN H 95 -6.265 12.115 130.533 1.00 40.89 C +ATOM 12449 O GLN H 95 -5.862 10.963 130.723 1.00 39.53 O +ATOM 12450 CB GLN H 95 -7.067 13.504 132.445 1.00 41.79 C +ATOM 12451 CG GLN H 95 -8.210 14.218 133.123 1.00 45.65 C +ATOM 12452 CD GLN H 95 -8.934 15.146 132.180 1.00 51.45 C +ATOM 12453 OE1 GLN H 95 -8.332 16.041 131.587 1.00 53.10 O +ATOM 12454 NE2 GLN H 95 -10.237 14.931 132.023 1.00 54.13 N +ATOM 12455 N PRO H 96 -5.629 12.945 129.691 1.00 44.69 N +ATOM 12456 CA PRO H 96 -4.479 12.452 128.904 1.00 46.29 C +ATOM 12457 C PRO H 96 -3.329 11.910 129.740 1.00 44.72 C +ATOM 12458 O PRO H 96 -2.632 10.993 129.287 1.00 40.21 O +ATOM 12459 CB PRO H 96 -4.045 13.688 128.101 1.00 47.94 C +ATOM 12460 CG PRO H 96 -5.260 14.541 128.023 1.00 48.59 C +ATOM 12461 CD PRO H 96 -5.999 14.323 129.320 1.00 46.14 C +ATOM 12462 N GLU H 97 -3.102 12.440 130.942 1.00 45.56 N +ATOM 12463 CA GLU H 97 -2.037 11.936 131.802 1.00 44.89 C +ATOM 12464 C GLU H 97 -2.410 10.647 132.533 1.00 41.29 C +ATOM 12465 O GLU H 97 -1.587 10.133 133.298 1.00 39.58 O +ATOM 12466 CB GLU H 97 -1.629 13.009 132.818 1.00 48.62 C +ATOM 12467 CG GLU H 97 -2.736 13.454 133.764 1.00 53.03 C +ATOM 12468 CD GLU H 97 -3.565 14.612 133.218 1.00 58.93 C +ATOM 12469 OE1 GLU H 97 -3.646 14.774 131.978 1.00 59.95 O +ATOM 12470 OE2 GLU H 97 -4.138 15.364 134.038 1.00 60.18 O +ATOM 12471 N ASP H 98 -3.610 10.105 132.306 1.00 39.56 N +ATOM 12472 CA ASP H 98 -4.094 8.917 133.001 1.00 37.85 C +ATOM 12473 C ASP H 98 -3.831 7.614 132.249 1.00 38.37 C +ATOM 12474 O ASP H 98 -4.135 6.538 132.780 1.00 35.66 O +ATOM 12475 CB ASP H 98 -5.601 9.037 133.275 1.00 36.87 C +ATOM 12476 CG ASP H 98 -5.960 10.238 134.140 1.00 39.70 C +ATOM 12477 OD1 ASP H 98 -5.054 10.843 134.745 1.00 40.67 O +ATOM 12478 OD2 ASP H 98 -7.161 10.585 134.211 1.00 40.92 O +ATOM 12479 N PHE H 99 -3.300 7.669 131.030 1.00 38.31 N +ATOM 12480 CA PHE H 99 -2.899 6.446 130.340 1.00 37.76 C +ATOM 12481 C PHE H 99 -1.620 5.913 130.968 1.00 33.81 C +ATOM 12482 O PHE H 99 -0.590 6.593 130.963 1.00 33.60 O +ATOM 12483 CB PHE H 99 -2.702 6.714 128.850 1.00 40.43 C +ATOM 12484 CG PHE H 99 -3.946 7.187 128.154 1.00 45.58 C +ATOM 12485 CD1 PHE H 99 -4.912 6.277 127.740 1.00 45.20 C +ATOM 12486 CD2 PHE H 99 -4.163 8.541 127.929 1.00 48.37 C +ATOM 12487 CE1 PHE H 99 -6.068 6.709 127.106 1.00 45.45 C +ATOM 12488 CE2 PHE H 99 -5.318 8.978 127.292 1.00 47.78 C +ATOM 12489 CZ PHE H 99 -6.270 8.059 126.882 1.00 45.54 C +ATOM 12490 N ALA H 100 -1.684 4.704 131.506 1.00 35.89 N +ATOM 12491 CA ALA H 100 -0.627 4.142 132.357 1.00 30.46 C +ATOM 12492 C ALA H 100 -1.049 2.724 132.728 1.00 32.19 C +ATOM 12493 O ALA H 100 -2.026 2.188 132.185 1.00 36.23 O +ATOM 12494 CB ALA H 100 -0.400 5.004 133.597 1.00 30.65 C +ATOM 12495 N THR H 101 -0.332 2.118 133.667 1.00 29.06 N +ATOM 12496 CA THR H 101 -0.722 0.825 134.208 1.00 29.26 C +ATOM 12497 C THR H 101 -1.119 0.976 135.673 1.00 28.85 C +ATOM 12498 O THR H 101 -0.508 1.753 136.416 1.00 26.54 O +ATOM 12499 CB THR H 101 0.399 -0.196 134.034 1.00 28.25 C +ATOM 12500 OG1 THR H 101 0.690 -0.326 132.638 1.00 34.09 O +ATOM 12501 CG2 THR H 101 -0.033 -1.566 134.558 1.00 25.93 C +ATOM 12502 N TYR H 102 -2.157 0.247 136.076 1.00 28.70 N +ATOM 12503 CA TYR H 102 -2.725 0.358 137.412 1.00 25.81 C +ATOM 12504 C TYR H 102 -2.653 -0.988 138.125 1.00 24.39 C +ATOM 12505 O TYR H 102 -2.914 -2.040 137.528 1.00 23.30 O +ATOM 12506 CB TYR H 102 -4.173 0.868 137.345 1.00 25.96 C +ATOM 12507 CG TYR H 102 -4.260 2.282 136.814 1.00 24.80 C +ATOM 12508 CD1 TYR H 102 -4.201 3.374 137.681 1.00 22.58 C +ATOM 12509 CD2 TYR H 102 -4.350 2.531 135.440 1.00 26.54 C +ATOM 12510 CE1 TYR H 102 -4.257 4.674 137.202 1.00 24.29 C +ATOM 12511 CE2 TYR H 102 -4.411 3.833 134.947 1.00 24.97 C +ATOM 12512 CZ TYR H 102 -4.371 4.899 135.830 1.00 28.18 C +ATOM 12513 OH TYR H 102 -4.419 6.192 135.359 1.00 29.20 O +ATOM 12514 N TYR H 103 -2.292 -0.951 139.406 1.00 24.96 N +ATOM 12515 CA TYR H 103 -2.141 -2.158 140.204 1.00 25.57 C +ATOM 12516 C TYR H 103 -3.010 -2.074 141.456 1.00 26.23 C +ATOM 12517 O TYR H 103 -3.026 -1.045 142.144 1.00 23.19 O +ATOM 12518 CB TYR H 103 -0.682 -2.374 140.613 1.00 27.18 C +ATOM 12519 CG TYR H 103 0.260 -2.712 139.474 1.00 28.33 C +ATOM 12520 CD1 TYR H 103 0.409 -4.024 139.043 1.00 29.42 C +ATOM 12521 CD2 TYR H 103 1.009 -1.724 138.839 1.00 28.45 C +ATOM 12522 CE1 TYR H 103 1.266 -4.348 138.016 1.00 28.51 C +ATOM 12523 CE2 TYR H 103 1.881 -2.043 137.802 1.00 28.61 C +ATOM 12524 CZ TYR H 103 2.001 -3.358 137.398 1.00 28.37 C +ATOM 12525 OH TYR H 103 2.846 -3.702 136.372 1.00 30.03 O +ATOM 12526 N CYS H 104 -3.738 -3.152 141.731 1.00 25.71 N +ATOM 12527 CA ACYS H 104 -4.403 -3.299 143.015 0.50 26.45 C +ATOM 12528 C CYS H 104 -3.497 -4.070 143.966 1.00 23.26 C +ATOM 12529 O CYS H 104 -2.563 -4.766 143.560 1.00 21.29 O +ATOM 12530 CB ACYS H 104 -5.760 -3.996 142.880 0.50 27.89 C +ATOM 12531 SG ACYS H 104 -5.714 -5.762 142.550 0.50 27.70 S +ATOM 12532 N GLN H 105 -3.741 -3.884 145.263 1.00 24.28 N +ATOM 12533 CA GLN H 105 -2.875 -4.493 146.263 1.00 25.14 C +ATOM 12534 C GLN H 105 -3.670 -4.740 147.536 1.00 24.35 C +ATOM 12535 O GLN H 105 -4.414 -3.865 147.982 1.00 29.03 O +ATOM 12536 CB GLN H 105 -1.664 -3.605 146.566 1.00 27.82 C +ATOM 12537 CG GLN H 105 -0.767 -4.152 147.690 1.00 29.75 C +ATOM 12538 CD GLN H 105 -0.754 -3.281 148.923 1.00 31.45 C +ATOM 12539 OE1 GLN H 105 -0.838 -2.057 148.837 1.00 37.66 O +ATOM 12540 NE2 GLN H 105 -0.633 -3.910 150.088 1.00 29.36 N +ATOM 12541 N GLN H 106 -3.514 -5.923 148.126 1.00 24.41 N +ATOM 12542 CA GLN H 106 -4.174 -6.233 149.392 1.00 23.75 C +ATOM 12543 C GLN H 106 -3.141 -6.571 150.456 1.00 24.51 C +ATOM 12544 O GLN H 106 -2.151 -7.254 150.177 1.00 26.91 O +ATOM 12545 CB GLN H 106 -5.168 -7.408 149.249 1.00 29.19 C +ATOM 12546 CG GLN H 106 -5.958 -7.750 150.530 1.00 30.12 C +ATOM 12547 CD GLN H 106 -6.888 -8.948 150.358 1.00 37.74 C +ATOM 12548 OE1 GLN H 106 -8.105 -8.842 150.552 1.00 40.72 O +ATOM 12549 NE2 GLN H 106 -6.321 -10.091 150.006 1.00 41.63 N +ATOM 12550 N ALA H 107 -3.380 -6.084 151.674 1.00 21.41 N +ATOM 12551 CA ALA H 107 -2.650 -6.512 152.863 1.00 21.95 C +ATOM 12552 C ALA H 107 -3.535 -7.510 153.597 1.00 20.17 C +ATOM 12553 O ALA H 107 -4.614 -7.149 154.078 1.00 20.74 O +ATOM 12554 CB ALA H 107 -2.304 -5.323 153.753 1.00 22.88 C +ATOM 12555 N SER H 108 -3.104 -8.766 153.648 1.00 21.46 N +ATOM 12556 CA SER H 108 -3.909 -9.796 154.282 1.00 25.87 C +ATOM 12557 C SER H 108 -3.837 -9.660 155.806 1.00 26.80 C +ATOM 12558 O SER H 108 -2.929 -9.028 156.357 1.00 22.58 O +ATOM 12559 CB SER H 108 -3.428 -11.185 153.871 1.00 27.72 C +ATOM 12560 OG SER H 108 -2.137 -11.444 154.414 1.00 28.74 O +ATOM 12561 N LEU H 109 -4.828 -10.254 156.485 1.00 19.87 N +ATOM 12562 CA LEU H 109 -4.802 -10.312 157.947 1.00 22.52 C +ATOM 12563 C LEU H 109 -3.618 -11.123 158.455 1.00 22.82 C +ATOM 12564 O LEU H 109 -3.201 -10.942 159.605 1.00 25.50 O +ATOM 12565 CB LEU H 109 -6.131 -10.884 158.484 1.00 19.62 C +ATOM 12566 CG LEU H 109 -7.432 -10.144 158.142 1.00 24.94 C +ATOM 12567 CD1 LEU H 109 -8.656 -10.768 158.834 1.00 23.90 C +ATOM 12568 CD2 LEU H 109 -7.369 -8.654 158.447 1.00 24.84 C +ATOM 12569 N THR H 113 -3.037 -11.975 157.608 1.00 23.25 N +ATOM 12570 CA THR H 113 -1.815 -12.707 157.908 1.00 23.07 C +ATOM 12571 C THR H 113 -0.551 -11.901 157.611 1.00 25.52 C +ATOM 12572 O THR H 113 0.544 -12.471 157.641 1.00 28.06 O +ATOM 12573 CB THR H 113 -1.785 -14.019 157.122 1.00 25.78 C +ATOM 12574 OG1 THR H 113 -1.801 -13.729 155.717 1.00 29.91 O +ATOM 12575 CG2 THR H 113 -3.017 -14.867 157.460 1.00 30.29 C +ATOM 12576 N ALA H 114 -0.679 -10.605 157.298 1.00 20.07 N +ATOM 12577 CA ALA H 114 0.462 -9.690 157.132 1.00 26.10 C +ATOM 12578 C ALA H 114 1.287 -9.996 155.878 1.00 30.72 C +ATOM 12579 O ALA H 114 2.501 -9.738 155.832 1.00 27.08 O +ATOM 12580 CB ALA H 114 1.362 -9.679 158.375 1.00 27.90 C +ATOM 12581 N LEU H 115 0.641 -10.546 154.855 1.00 29.60 N +ATOM 12582 CA LEU H 115 1.229 -10.742 153.542 1.00 31.23 C +ATOM 12583 C LEU H 115 0.636 -9.715 152.581 1.00 30.61 C +ATOM 12584 O LEU H 115 -0.531 -9.323 152.708 1.00 27.77 O +ATOM 12585 CB LEU H 115 0.968 -12.160 153.021 1.00 31.70 C +ATOM 12586 CG LEU H 115 1.412 -13.310 153.934 1.00 36.53 C +ATOM 12587 CD1 LEU H 115 1.140 -14.670 153.278 1.00 37.13 C +ATOM 12588 CD2 LEU H 115 2.878 -13.176 154.288 1.00 35.86 C +ATOM 12589 N LEU H 116 1.455 -9.257 151.636 1.00 25.59 N +ATOM 12590 CA LEU H 116 1.006 -8.341 150.594 1.00 29.21 C +ATOM 12591 C LEU H 116 0.864 -9.090 149.276 1.00 25.39 C +ATOM 12592 O LEU H 116 1.691 -9.949 148.949 1.00 28.40 O +ATOM 12593 CB LEU H 116 1.980 -7.178 150.412 1.00 30.05 C +ATOM 12594 CG LEU H 116 1.759 -5.936 151.270 1.00 32.91 C +ATOM 12595 CD1 LEU H 116 1.734 -6.277 152.737 1.00 35.49 C +ATOM 12596 CD2 LEU H 116 2.837 -4.914 150.972 1.00 29.74 C +ATOM 12597 N THR H 117 -0.177 -8.761 148.521 1.00 24.59 N +ATOM 12598 CA THR H 117 -0.373 -9.338 147.193 1.00 30.04 C +ATOM 12599 C THR H 117 -0.781 -8.239 146.225 1.00 29.16 C +ATOM 12600 O THR H 117 -1.696 -7.464 146.523 1.00 32.49 O +ATOM 12601 CB THR H 117 -1.438 -10.445 147.213 1.00 32.18 C +ATOM 12602 OG1 THR H 117 -1.017 -11.506 148.082 1.00 37.59 O +ATOM 12603 CG2 THR H 117 -1.640 -11.008 145.826 1.00 29.11 C +ATOM 12604 N PHE H 118 -0.110 -8.177 145.077 1.00 26.47 N +ATOM 12605 CA PHE H 118 -0.459 -7.251 144.001 1.00 28.99 C +ATOM 12606 C PHE H 118 -1.241 -7.968 142.911 1.00 28.75 C +ATOM 12607 O PHE H 118 -0.904 -9.091 142.535 1.00 32.20 O +ATOM 12608 CB PHE H 118 0.793 -6.622 143.375 1.00 27.09 C +ATOM 12609 CG PHE H 118 1.484 -5.654 144.266 1.00 26.04 C +ATOM 12610 CD1 PHE H 118 1.164 -4.310 144.217 1.00 25.67 C +ATOM 12611 CD2 PHE H 118 2.430 -6.091 145.170 1.00 26.66 C +ATOM 12612 CE1 PHE H 118 1.778 -3.412 145.051 1.00 25.72 C +ATOM 12613 CE2 PHE H 118 3.058 -5.203 146.014 1.00 26.94 C +ATOM 12614 CZ PHE H 118 2.730 -3.854 145.957 1.00 28.83 C +ATOM 12615 N GLY H 119 -2.270 -7.306 142.395 1.00 30.48 N +ATOM 12616 CA GLY H 119 -2.901 -7.755 141.166 1.00 31.16 C +ATOM 12617 C GLY H 119 -1.907 -7.791 140.018 1.00 30.18 C +ATOM 12618 O GLY H 119 -0.809 -7.247 140.085 1.00 29.16 O +ATOM 12619 N GLN H 120 -2.320 -8.448 138.928 1.00 32.42 N +ATOM 12620 CA GLN H 120 -1.443 -8.610 137.768 1.00 35.99 C +ATOM 12621 C GLN H 120 -1.237 -7.297 137.020 1.00 30.01 C +ATOM 12622 O GLN H 120 -0.234 -7.140 136.318 1.00 29.55 O +ATOM 12623 CB GLN H 120 -2.011 -9.665 136.812 1.00 45.17 C +ATOM 12624 CG GLN H 120 -2.150 -11.085 137.393 1.00 54.22 C +ATOM 12625 CD GLN H 120 -3.402 -11.287 138.265 1.00 59.58 C +ATOM 12626 OE1 GLN H 120 -4.267 -10.413 138.365 1.00 57.66 O +ATOM 12627 NE2 GLN H 120 -3.488 -12.449 138.903 1.00 63.56 N +ATOM 12628 N GLY H 121 -2.171 -6.361 137.131 1.00 27.02 N +ATOM 12629 CA GLY H 121 -2.032 -5.060 136.509 1.00 29.82 C +ATOM 12630 C GLY H 121 -2.973 -4.883 135.320 1.00 29.18 C +ATOM 12631 O GLY H 121 -3.449 -5.844 134.707 1.00 32.42 O +ATOM 12632 N THR H 122 -3.252 -3.617 135.008 1.00 27.07 N +ATOM 12633 CA THR H 122 -4.148 -3.256 133.912 1.00 31.10 C +ATOM 12634 C THR H 122 -3.540 -2.102 133.128 1.00 30.94 C +ATOM 12635 O THR H 122 -3.251 -1.044 133.697 1.00 30.57 O +ATOM 12636 CB THR H 122 -5.542 -2.870 134.433 1.00 34.48 C +ATOM 12637 OG1 THR H 122 -6.112 -3.977 135.148 1.00 33.14 O +ATOM 12638 CG2 THR H 122 -6.475 -2.471 133.273 1.00 33.95 C +ATOM 12639 N LYS H 123 -3.348 -2.303 131.829 1.00 33.28 N +ATOM 12640 CA LYS H 123 -2.865 -1.248 130.944 1.00 38.32 C +ATOM 12641 C LYS H 123 -4.059 -0.476 130.403 1.00 36.66 C +ATOM 12642 O LYS H 123 -4.922 -1.056 129.742 1.00 37.65 O +ATOM 12643 CB LYS H 123 -2.056 -1.827 129.787 1.00 44.68 C +ATOM 12644 CG LYS H 123 -0.575 -1.943 130.020 1.00 52.74 C +ATOM 12645 CD LYS H 123 0.109 -2.519 128.783 1.00 58.72 C +ATOM 12646 CE LYS H 123 1.575 -2.810 129.043 1.00 63.41 C +ATOM 12647 NZ LYS H 123 2.377 -1.562 129.186 1.00 66.57 N +ATOM 12648 N VAL H 124 -4.117 0.818 130.687 1.00 34.64 N +ATOM 12649 CA VAL H 124 -5.122 1.697 130.102 1.00 34.46 C +ATOM 12650 C VAL H 124 -4.451 2.414 128.938 1.00 36.11 C +ATOM 12651 O VAL H 124 -3.491 3.167 129.132 1.00 34.96 O +ATOM 12652 CB VAL H 124 -5.695 2.676 131.133 1.00 36.72 C +ATOM 12653 CG1 VAL H 124 -6.666 3.638 130.474 1.00 33.37 C +ATOM 12654 CG2 VAL H 124 -6.406 1.902 132.264 1.00 35.42 C +ATOM 12655 N GLU H 125 -4.930 2.158 127.720 1.00 36.62 N +ATOM 12656 CA GLU H 125 -4.294 2.658 126.511 1.00 42.41 C +ATOM 12657 C GLU H 125 -5.296 3.425 125.650 1.00 36.97 C +ATOM 12658 O GLU H 125 -6.507 3.401 125.886 1.00 32.45 O +ATOM 12659 CB GLU H 125 -3.660 1.511 125.715 1.00 53.95 C +ATOM 12660 CG GLU H 125 -4.601 0.360 125.442 1.00 66.15 C +ATOM 12661 CD GLU H 125 -3.872 -0.966 125.303 1.00 77.58 C +ATOM 12662 OE1 GLU H 125 -2.662 -1.028 125.632 1.00 79.79 O +ATOM 12663 OE2 GLU H 125 -4.513 -1.948 124.863 1.00 82.79 O +ATOM 12664 N ILE H 126 -4.760 4.109 124.638 1.00 33.59 N +ATOM 12665 CA ILE H 126 -5.529 5.049 123.830 1.00 35.33 C +ATOM 12666 C ILE H 126 -6.278 4.285 122.748 1.00 32.97 C +ATOM 12667 O ILE H 126 -5.673 3.544 121.963 1.00 29.85 O +ATOM 12668 CB ILE H 126 -4.614 6.117 123.204 1.00 38.75 C +ATOM 12669 CG1 ILE H 126 -3.763 6.808 124.275 1.00 41.66 C +ATOM 12670 CG2 ILE H 126 -5.451 7.144 122.443 1.00 39.13 C +ATOM 12671 CD1 ILE H 126 -2.756 7.807 123.718 1.00 42.55 C +ATOM 12672 N LYS H 127 -7.599 4.474 122.704 1.00 32.80 N +ATOM 12673 CA LYS H 127 -8.439 3.840 121.705 1.00 34.32 C +ATOM 12674 C LYS H 127 -8.298 4.565 120.371 1.00 33.12 C +ATOM 12675 O LYS H 127 -8.147 5.790 120.328 1.00 32.67 O +ATOM 12676 CB LYS H 127 -9.898 3.849 122.171 1.00 39.38 C +ATOM 12677 CG LYS H 127 -10.866 3.060 121.300 1.00 43.09 C +ATOM 12678 CD LYS H 127 -12.270 3.056 121.900 1.00 47.35 C +ATOM 12679 CE LYS H 127 -13.214 2.213 121.072 1.00 53.43 C +ATOM 12680 NZ LYS H 127 -12.824 0.776 121.123 1.00 56.52 N +ATOM 12681 N ARG H 128 -8.342 3.802 119.281 1.00 32.50 N +ATOM 12682 CA ARG H 128 -8.260 4.374 117.942 1.00 32.14 C +ATOM 12683 C ARG H 128 -8.929 3.408 116.973 1.00 33.21 C +ATOM 12684 O ARG H 128 -9.396 2.333 117.359 1.00 34.21 O +ATOM 12685 CB ARG H 128 -6.809 4.653 117.541 1.00 34.72 C +ATOM 12686 CG ARG H 128 -5.959 3.403 117.444 1.00 36.15 C +ATOM 12687 CD ARG H 128 -4.668 3.679 116.707 1.00 42.42 C +ATOM 12688 NE ARG H 128 -4.900 4.295 115.404 1.00 51.12 N +ATOM 12689 CZ ARG H 128 -5.117 3.608 114.290 1.00 56.48 C +ATOM 12690 NH1 ARG H 128 -5.142 2.284 114.331 1.00 61.46 N +ATOM 12691 NH2 ARG H 128 -5.319 4.239 113.139 1.00 55.17 N +ATOM 12692 N THR H 129 -8.967 3.800 115.702 1.00 33.11 N +ATOM 12693 CA THR H 129 -9.620 2.982 114.688 1.00 33.20 C +ATOM 12694 C THR H 129 -8.820 1.714 114.419 1.00 33.27 C +ATOM 12695 O THR H 129 -7.595 1.754 114.286 1.00 32.70 O +ATOM 12696 CB THR H 129 -9.793 3.783 113.395 1.00 37.92 C +ATOM 12697 OG1 THR H 129 -10.639 4.918 113.644 1.00 40.66 O +ATOM 12698 CG2 THR H 129 -10.435 2.923 112.318 1.00 40.57 C +ATOM 12699 N VAL H 130 -9.529 0.581 114.341 1.00 34.77 N +ATOM 12700 CA VAL H 130 -8.889 -0.699 114.058 1.00 37.49 C +ATOM 12701 C VAL H 130 -8.097 -0.614 112.755 1.00 42.02 C +ATOM 12702 O VAL H 130 -8.563 -0.045 111.758 1.00 42.02 O +ATOM 12703 CB VAL H 130 -9.954 -1.809 113.999 1.00 38.77 C +ATOM 12704 CG1 VAL H 130 -9.332 -3.153 113.642 1.00 37.12 C +ATOM 12705 CG2 VAL H 130 -10.701 -1.895 115.324 1.00 39.85 C +ATOM 12706 N ALA H 131 -6.879 -1.167 112.763 1.00 39.85 N +ATOM 12707 CA ALA H 131 -5.969 -1.064 111.627 1.00 38.29 C +ATOM 12708 C ALA H 131 -5.187 -2.359 111.472 1.00 39.74 C +ATOM 12709 O ALA H 131 -4.520 -2.804 112.412 1.00 35.18 O +ATOM 12710 CB ALA H 131 -4.996 0.111 111.788 1.00 36.64 C +ATOM 12711 N ALA H 132 -5.263 -2.953 110.287 1.00 38.26 N +ATOM 12712 CA ALA H 132 -4.602 -4.225 110.050 1.00 41.02 C +ATOM 12713 C ALA H 132 -3.089 -4.025 109.904 1.00 43.43 C +ATOM 12714 O ALA H 132 -2.631 -2.966 109.464 1.00 44.73 O +ATOM 12715 CB ALA H 132 -5.173 -4.891 108.801 1.00 41.25 C +ATOM 12716 N PRO H 133 -2.290 -5.022 110.282 1.00 45.66 N +ATOM 12717 CA PRO H 133 -0.835 -4.905 110.120 1.00 49.21 C +ATOM 12718 C PRO H 133 -0.373 -5.153 108.693 1.00 51.24 C +ATOM 12719 O PRO H 133 -0.928 -5.975 107.964 1.00 50.08 O +ATOM 12720 CB PRO H 133 -0.289 -5.998 111.047 1.00 49.28 C +ATOM 12721 CG PRO H 133 -1.385 -7.018 111.102 1.00 48.84 C +ATOM 12722 CD PRO H 133 -2.670 -6.232 111.035 1.00 46.08 C +ATOM 12723 N SER H 134 0.678 -4.440 108.305 1.00 53.50 N +ATOM 12724 CA SER H 134 1.473 -4.838 107.153 1.00 55.40 C +ATOM 12725 C SER H 134 2.497 -5.867 107.619 1.00 52.19 C +ATOM 12726 O SER H 134 3.195 -5.648 108.614 1.00 51.14 O +ATOM 12727 CB SER H 134 2.159 -3.633 106.507 1.00 58.90 C +ATOM 12728 OG SER H 134 2.945 -2.920 107.443 1.00 61.64 O +ATOM 12729 N VAL H 135 2.560 -6.998 106.922 1.00 49.86 N +ATOM 12730 CA VAL H 135 3.350 -8.147 107.348 1.00 49.64 C +ATOM 12731 C VAL H 135 4.524 -8.322 106.394 1.00 53.91 C +ATOM 12732 O VAL H 135 4.366 -8.216 105.171 1.00 51.58 O +ATOM 12733 CB VAL H 135 2.491 -9.425 107.412 1.00 45.38 C +ATOM 12734 CG1 VAL H 135 3.285 -10.574 107.990 1.00 44.54 C +ATOM 12735 CG2 VAL H 135 1.230 -9.180 108.239 1.00 40.66 C +ATOM 12736 N PHE H 136 5.703 -8.583 106.958 1.00 56.12 N +ATOM 12737 CA PHE H 136 6.909 -8.841 106.184 1.00 58.29 C +ATOM 12738 C PHE H 136 7.642 -10.024 106.796 1.00 62.46 C +ATOM 12739 O PHE H 136 7.561 -10.265 108.004 1.00 62.36 O +ATOM 12740 CB PHE H 136 7.833 -7.616 106.146 1.00 57.39 C +ATOM 12741 CG PHE H 136 7.122 -6.337 105.833 1.00 59.69 C +ATOM 12742 CD1 PHE H 136 6.905 -5.955 104.518 1.00 62.51 C +ATOM 12743 CD2 PHE H 136 6.657 -5.523 106.848 1.00 59.47 C +ATOM 12744 CE1 PHE H 136 6.242 -4.778 104.225 1.00 63.46 C +ATOM 12745 CE2 PHE H 136 5.995 -4.346 106.564 1.00 61.51 C +ATOM 12746 CZ PHE H 136 5.785 -3.972 105.249 1.00 63.26 C +ATOM 12747 N ILE H 137 8.361 -10.767 105.958 1.00 63.15 N +ATOM 12748 CA ILE H 137 9.176 -11.881 106.424 1.00 63.23 C +ATOM 12749 C ILE H 137 10.594 -11.690 105.908 1.00 63.33 C +ATOM 12750 O ILE H 137 10.801 -11.222 104.783 1.00 61.11 O +ATOM 12751 CB ILE H 137 8.595 -13.246 105.992 1.00 62.51 C +ATOM 12752 CG1 ILE H 137 9.362 -14.391 106.660 1.00 59.73 C +ATOM 12753 CG2 ILE H 137 8.615 -13.390 104.475 1.00 65.43 C +ATOM 12754 CD1 ILE H 137 8.689 -15.738 106.532 1.00 56.34 C +ATOM 12755 N PHE H 138 11.570 -12.017 106.748 1.00 66.20 N +ATOM 12756 CA PHE H 138 12.968 -11.827 106.432 1.00 68.67 C +ATOM 12757 C PHE H 138 13.713 -13.148 106.560 1.00 74.20 C +ATOM 12758 O PHE H 138 13.636 -13.802 107.612 1.00 70.67 O +ATOM 12759 CB PHE H 138 13.604 -10.781 107.355 1.00 66.83 C +ATOM 12760 CG PHE H 138 13.036 -9.396 107.200 1.00 63.88 C +ATOM 12761 CD1 PHE H 138 13.544 -8.525 106.248 1.00 62.17 C +ATOM 12762 CD2 PHE H 138 12.016 -8.955 108.027 1.00 61.83 C +ATOM 12763 CE1 PHE H 138 13.036 -7.246 106.111 1.00 60.76 C +ATOM 12764 CE2 PHE H 138 11.502 -7.675 107.896 1.00 60.53 C +ATOM 12765 CZ PHE H 138 12.011 -6.820 106.935 1.00 60.81 C +ATOM 12766 N PRO H 139 14.426 -13.580 105.526 1.00 86.37 N +ATOM 12767 CA PRO H 139 15.240 -14.791 105.636 1.00 87.95 C +ATOM 12768 C PRO H 139 16.533 -14.500 106.373 1.00 88.05 C +ATOM 12769 O PRO H 139 16.992 -13.348 106.405 1.00 87.24 O +ATOM 12770 CB PRO H 139 15.504 -15.164 104.171 1.00 89.27 C +ATOM 12771 CG PRO H 139 15.502 -13.847 103.464 1.00 89.77 C +ATOM 12772 CD PRO H 139 14.480 -12.994 104.174 1.00 87.87 C +ATOM 12773 N PRO H 140 17.151 -15.512 106.980 1.00 81.41 N +ATOM 12774 CA PRO H 140 18.440 -15.289 107.647 1.00 80.81 C +ATOM 12775 C PRO H 140 19.511 -14.875 106.651 1.00 79.16 C +ATOM 12776 O PRO H 140 19.580 -15.393 105.535 1.00 78.00 O +ATOM 12777 CB PRO H 140 18.754 -16.650 108.279 1.00 82.62 C +ATOM 12778 CG PRO H 140 17.959 -17.630 107.475 1.00 82.23 C +ATOM 12779 CD PRO H 140 16.705 -16.910 107.088 1.00 80.89 C +ATOM 12780 N SER H 141 20.350 -13.928 107.065 1.00 79.49 N +ATOM 12781 CA SER H 141 21.411 -13.448 106.193 1.00 81.85 C +ATOM 12782 C SER H 141 22.470 -14.530 105.989 1.00 87.58 C +ATOM 12783 O SER H 141 22.551 -15.511 106.734 1.00 89.19 O +ATOM 12784 CB SER H 141 22.048 -12.179 106.765 1.00 77.97 C +ATOM 12785 OG SER H 141 22.619 -12.415 108.040 1.00 76.93 O +ATOM 12786 N ASP H 142 23.281 -14.347 104.943 1.00 94.09 N +ATOM 12787 CA ASP H 142 24.366 -15.288 104.685 1.00 95.52 C +ATOM 12788 C ASP H 142 25.430 -15.212 105.772 1.00 93.35 C +ATOM 12789 O ASP H 142 25.974 -16.242 106.188 1.00 94.18 O +ATOM 12790 CB ASP H 142 24.982 -15.022 103.312 1.00102.05 C +ATOM 12791 CG ASP H 142 24.056 -15.398 102.174 1.00105.97 C +ATOM 12792 OD1 ASP H 142 23.192 -16.277 102.376 1.00106.66 O +ATOM 12793 OD2 ASP H 142 24.194 -14.817 101.077 1.00107.31 O +ATOM 12794 N SER H 143 25.735 -14.001 106.249 1.00 86.04 N +ATOM 12795 CA SER H 143 26.761 -13.847 107.275 1.00 82.58 C +ATOM 12796 C SER H 143 26.374 -14.552 108.569 1.00 79.28 C +ATOM 12797 O SER H 143 27.253 -14.992 109.319 1.00 78.19 O +ATOM 12798 CB SER H 143 27.032 -12.365 107.533 1.00 83.75 C +ATOM 12799 OG SER H 143 25.842 -11.677 107.870 1.00 84.82 O +ATOM 12800 N GLN H 144 25.075 -14.673 108.848 1.00 77.45 N +ATOM 12801 CA GLN H 144 24.654 -15.426 110.023 1.00 75.92 C +ATOM 12802 C GLN H 144 24.793 -16.926 109.793 1.00 77.63 C +ATOM 12803 O GLN H 144 25.401 -17.625 110.609 1.00 75.48 O +ATOM 12804 CB GLN H 144 23.214 -15.075 110.406 1.00 71.68 C +ATOM 12805 CG GLN H 144 22.803 -15.682 111.734 1.00 68.43 C +ATOM 12806 CD GLN H 144 21.325 -15.553 112.019 1.00 68.03 C +ATOM 12807 OE1 GLN H 144 20.525 -15.274 111.125 1.00 67.31 O +ATOM 12808 NE2 GLN H 144 20.952 -15.762 113.277 1.00 67.57 N +ATOM 12809 N LEU H 145 24.238 -17.436 108.685 1.00 85.44 N +ATOM 12810 CA LEU H 145 24.389 -18.851 108.347 1.00 91.49 C +ATOM 12811 C LEU H 145 25.847 -19.284 108.381 1.00 98.13 C +ATOM 12812 O LEU H 145 26.146 -20.454 108.646 1.00 99.99 O +ATOM 12813 CB LEU H 145 23.800 -19.129 106.963 1.00 93.27 C +ATOM 12814 CG LEU H 145 22.291 -18.943 106.810 1.00 94.75 C +ATOM 12815 CD1 LEU H 145 21.874 -19.115 105.356 1.00 94.85 C +ATOM 12816 CD2 LEU H 145 21.552 -19.924 107.701 1.00 94.49 C +ATOM 12817 N LYS H 146 26.763 -18.347 108.129 1.00100.98 N +ATOM 12818 CA LYS H 146 28.199 -18.573 108.212 1.00102.32 C +ATOM 12819 C LYS H 146 28.652 -19.048 109.591 1.00 99.89 C +ATOM 12820 O LYS H 146 29.783 -19.530 109.716 1.00100.21 O +ATOM 12821 CB LYS H 146 28.914 -17.272 107.837 1.00104.74 C +ATOM 12822 CG LYS H 146 30.373 -17.396 107.451 1.00107.53 C +ATOM 12823 CD LYS H 146 30.904 -16.039 107.009 1.00109.62 C +ATOM 12824 CE LYS H 146 32.387 -16.087 106.701 1.00112.57 C +ATOM 12825 NZ LYS H 146 32.926 -14.744 106.335 1.00113.84 N +ATOM 12826 N SER H 147 27.805 -18.936 110.620 1.00 95.76 N +ATOM 12827 CA SER H 147 28.196 -19.271 111.983 1.00 92.14 C +ATOM 12828 C SER H 147 27.445 -20.456 112.579 1.00 87.91 C +ATOM 12829 O SER H 147 27.842 -20.934 113.648 1.00 86.74 O +ATOM 12830 CB SER H 147 28.027 -18.049 112.901 1.00 92.74 C +ATOM 12831 OG SER H 147 26.718 -17.514 112.824 1.00 94.05 O +ATOM 12832 N GLY H 148 26.381 -20.945 111.937 1.00 84.32 N +ATOM 12833 CA GLY H 148 25.728 -22.171 112.364 1.00 83.65 C +ATOM 12834 C GLY H 148 24.321 -22.028 112.914 1.00 83.91 C +ATOM 12835 O GLY H 148 23.736 -23.041 113.320 1.00 86.68 O +ATOM 12836 N THR H 149 23.753 -20.822 112.944 1.00 82.32 N +ATOM 12837 CA THR H 149 22.390 -20.607 113.411 1.00 79.61 C +ATOM 12838 C THR H 149 21.647 -19.732 112.410 1.00 78.92 C +ATOM 12839 O THR H 149 22.243 -18.880 111.745 1.00 78.92 O +ATOM 12840 CB THR H 149 22.365 -19.956 114.803 1.00 82.31 C +ATOM 12841 OG1 THR H 149 23.311 -20.613 115.655 1.00 82.79 O +ATOM 12842 CG2 THR H 149 20.982 -20.074 115.427 1.00 83.45 C +ATOM 12843 N ALA H 150 20.337 -19.954 112.301 1.00 71.74 N +ATOM 12844 CA ALA H 150 19.495 -19.229 111.357 1.00 68.36 C +ATOM 12845 C ALA H 150 18.296 -18.642 112.089 1.00 64.06 C +ATOM 12846 O ALA H 150 17.536 -19.375 112.734 1.00 60.42 O +ATOM 12847 CB ALA H 150 19.031 -20.141 110.220 1.00 69.20 C +ATOM 12848 N SER H 151 18.122 -17.326 111.976 1.00 64.31 N +ATOM 12849 CA SER H 151 16.992 -16.618 112.560 1.00 66.62 C +ATOM 12850 C SER H 151 16.068 -16.131 111.450 1.00 69.77 C +ATOM 12851 O SER H 151 16.519 -15.479 110.500 1.00 70.25 O +ATOM 12852 CB SER H 151 17.469 -15.439 113.412 1.00 64.66 C +ATOM 12853 OG SER H 151 18.270 -15.880 114.496 1.00 62.48 O +ATOM 12854 N VAL H 152 14.781 -16.451 111.571 1.00 73.33 N +ATOM 12855 CA VAL H 152 13.755 -16.011 110.630 1.00 74.13 C +ATOM 12856 C VAL H 152 12.862 -15.010 111.349 1.00 70.85 C +ATOM 12857 O VAL H 152 12.295 -15.320 112.404 1.00 69.81 O +ATOM 12858 CB VAL H 152 12.936 -17.189 110.084 1.00 78.07 C +ATOM 12859 CG1 VAL H 152 12.096 -16.738 108.900 1.00 79.37 C +ATOM 12860 CG2 VAL H 152 13.847 -18.339 109.688 1.00 79.09 C +ATOM 12861 N VAL H 153 12.729 -13.817 110.775 1.00 67.80 N +ATOM 12862 CA VAL H 153 12.053 -12.691 111.410 1.00 63.99 C +ATOM 12863 C VAL H 153 10.778 -12.372 110.635 1.00 61.35 C +ATOM 12864 O VAL H 153 10.802 -12.256 109.403 1.00 60.88 O +ATOM 12865 CB VAL H 153 12.975 -11.461 111.482 1.00 62.55 C +ATOM 12866 CG1 VAL H 153 12.257 -10.290 112.122 1.00 61.68 C +ATOM 12867 CG2 VAL H 153 14.254 -11.797 112.246 1.00 62.57 C +ATOM 12868 N CYS H 154 9.671 -12.226 111.359 1.00 58.66 N +ATOM 12869 CA CYS H 154 8.393 -11.789 110.811 1.00 57.53 C +ATOM 12870 C CYS H 154 8.017 -10.465 111.464 1.00 54.93 C +ATOM 12871 O CYS H 154 7.974 -10.373 112.696 1.00 56.69 O +ATOM 12872 CB CYS H 154 7.305 -12.840 111.061 1.00 58.56 C +ATOM 12873 SG CYS H 154 5.733 -12.605 110.170 1.00 63.05 S +ATOM 12874 N LEU H 155 7.745 -9.447 110.649 1.00 47.96 N +ATOM 12875 CA LEU H 155 7.434 -8.107 111.137 1.00 42.01 C +ATOM 12876 C LEU H 155 5.956 -7.782 110.929 1.00 43.97 C +ATOM 12877 O LEU H 155 5.430 -7.924 109.818 1.00 43.71 O +ATOM 12878 CB LEU H 155 8.302 -7.061 110.433 1.00 36.84 C +ATOM 12879 CG LEU H 155 7.938 -5.604 110.715 1.00 36.42 C +ATOM 12880 CD1 LEU H 155 8.113 -5.293 112.208 1.00 36.76 C +ATOM 12881 CD2 LEU H 155 8.769 -4.650 109.860 1.00 34.73 C +ATOM 12882 N LEU H 156 5.293 -7.329 111.993 1.00 39.82 N +ATOM 12883 CA LEU H 156 3.936 -6.790 111.923 1.00 39.17 C +ATOM 12884 C LEU H 156 4.017 -5.303 112.249 1.00 38.90 C +ATOM 12885 O LEU H 156 4.330 -4.933 113.388 1.00 37.57 O +ATOM 12886 CB LEU H 156 3.003 -7.508 112.896 1.00 41.21 C +ATOM 12887 CG LEU H 156 2.585 -8.960 112.651 1.00 44.44 C +ATOM 12888 CD1 LEU H 156 3.772 -9.917 112.676 1.00 46.53 C +ATOM 12889 CD2 LEU H 156 1.550 -9.366 113.680 1.00 43.35 C +ATOM 12890 N ASN H 157 3.729 -4.449 111.266 1.00 38.18 N +ATOM 12891 CA ASN H 157 3.959 -3.013 111.397 1.00 40.67 C +ATOM 12892 C ASN H 157 2.654 -2.248 111.587 1.00 39.54 C +ATOM 12893 O ASN H 157 1.717 -2.404 110.800 1.00 41.87 O +ATOM 12894 CB ASN H 157 4.705 -2.467 110.176 1.00 44.76 C +ATOM 12895 CG ASN H 157 5.552 -1.261 110.514 1.00 48.25 C +ATOM 12896 OD1 ASN H 157 6.195 -1.225 111.559 1.00 52.82 O +ATOM 12897 ND2 ASN H 157 5.535 -0.257 109.652 1.00 47.49 N +ATOM 12898 N ASN H 158 2.610 -1.420 112.631 1.00 38.49 N +ATOM 12899 CA ASN H 158 1.598 -0.378 112.840 1.00 43.57 C +ATOM 12900 C ASN H 158 0.170 -0.930 112.771 1.00 40.43 C +ATOM 12901 O ASN H 158 -0.604 -0.617 111.865 1.00 40.43 O +ATOM 12902 CB ASN H 158 1.775 0.759 111.829 1.00 49.32 C +ATOM 12903 CG ASN H 158 3.167 1.341 111.848 1.00 54.25 C +ATOM 12904 OD1 ASN H 158 3.621 1.927 110.868 1.00 58.45 O +ATOM 12905 ND2 ASN H 158 3.855 1.175 112.955 1.00 54.38 N +ATOM 12906 N PHE H 159 -0.181 -1.728 113.775 1.00 37.48 N +ATOM 12907 CA PHE H 159 -1.518 -2.303 113.839 1.00 36.45 C +ATOM 12908 C PHE H 159 -2.234 -1.888 115.121 1.00 38.74 C +ATOM 12909 O PHE H 159 -1.641 -1.330 116.048 1.00 40.34 O +ATOM 12910 CB PHE H 159 -1.476 -3.834 113.715 1.00 35.39 C +ATOM 12911 CG PHE H 159 -0.622 -4.517 114.744 1.00 37.92 C +ATOM 12912 CD1 PHE H 159 0.729 -4.746 114.503 1.00 39.97 C +ATOM 12913 CD2 PHE H 159 -1.175 -4.964 115.934 1.00 38.80 C +ATOM 12914 CE1 PHE H 159 1.520 -5.389 115.441 1.00 41.30 C +ATOM 12915 CE2 PHE H 159 -0.397 -5.606 116.881 1.00 42.43 C +ATOM 12916 CZ PHE H 159 0.961 -5.817 116.633 1.00 43.04 C +ATOM 12917 N TYR H 160 -3.543 -2.158 115.153 1.00 37.43 N +ATOM 12918 CA TYR H 160 -4.380 -1.870 116.311 1.00 36.58 C +ATOM 12919 C TYR H 160 -5.696 -2.636 116.205 1.00 36.66 C +ATOM 12920 O TYR H 160 -6.362 -2.583 115.162 1.00 31.54 O +ATOM 12921 CB TYR H 160 -4.659 -0.371 116.443 1.00 36.01 C +ATOM 12922 CG TYR H 160 -5.434 -0.052 117.704 1.00 40.20 C +ATOM 12923 CD1 TYR H 160 -4.774 0.293 118.881 1.00 39.89 C +ATOM 12924 CD2 TYR H 160 -6.826 -0.132 117.730 1.00 40.71 C +ATOM 12925 CE1 TYR H 160 -5.478 0.568 120.039 1.00 37.55 C +ATOM 12926 CE2 TYR H 160 -7.540 0.135 118.887 1.00 37.56 C +ATOM 12927 CZ TYR H 160 -6.861 0.480 120.034 1.00 37.22 C +ATOM 12928 OH TYR H 160 -7.567 0.751 121.178 1.00 34.67 O +ATOM 12929 N PRO H 161 -6.135 -3.326 117.275 1.00 35.90 N +ATOM 12930 CA PRO H 161 -5.516 -3.313 118.604 1.00 36.96 C +ATOM 12931 C PRO H 161 -4.313 -4.238 118.713 1.00 38.07 C +ATOM 12932 O PRO H 161 -3.891 -4.821 117.706 1.00 36.35 O +ATOM 12933 CB PRO H 161 -6.650 -3.801 119.504 1.00 34.08 C +ATOM 12934 CG PRO H 161 -7.350 -4.801 118.647 1.00 33.07 C +ATOM 12935 CD PRO H 161 -7.305 -4.224 117.241 1.00 33.59 C +ATOM 12936 N ARG H 162 -3.819 -4.387 119.950 1.00 41.21 N +ATOM 12937 CA ARG H 162 -2.547 -5.055 120.217 1.00 46.62 C +ATOM 12938 C ARG H 162 -2.638 -6.565 120.036 1.00 45.80 C +ATOM 12939 O ARG H 162 -1.637 -7.203 119.698 1.00 46.13 O +ATOM 12940 CB ARG H 162 -2.082 -4.714 121.643 1.00 52.07 C +ATOM 12941 CG ARG H 162 -0.748 -5.320 122.075 1.00 59.30 C +ATOM 12942 CD ARG H 162 -0.459 -5.046 123.556 1.00 64.84 C +ATOM 12943 NE ARG H 162 0.682 -5.818 124.055 1.00 70.37 N +ATOM 12944 CZ ARG H 162 1.889 -5.316 124.313 1.00 73.05 C +ATOM 12945 NH1 ARG H 162 2.138 -4.024 124.127 1.00 73.03 N +ATOM 12946 NH2 ARG H 162 2.853 -6.112 124.762 1.00 74.61 N +ATOM 12947 N GLU H 163 -3.808 -7.154 120.265 1.00 44.77 N +ATOM 12948 CA GLU H 163 -3.940 -8.604 120.188 1.00 49.63 C +ATOM 12949 C GLU H 163 -3.705 -9.076 118.757 1.00 53.04 C +ATOM 12950 O GLU H 163 -4.370 -8.616 117.822 1.00 53.99 O +ATOM 12951 CB GLU H 163 -5.315 -9.045 120.686 1.00 50.53 C +ATOM 12952 CG GLU H 163 -5.476 -8.973 122.204 0.70 53.88 C +ATOM 12953 CD GLU H 163 -5.537 -7.546 122.731 0.52 57.19 C +ATOM 12954 OE1 GLU H 163 -6.062 -6.664 122.016 0.89 58.15 O +ATOM 12955 OE2 GLU H 163 -5.054 -7.305 123.858 1.00 59.43 O +ATOM 12956 N ALA H 164 -2.751 -9.986 118.589 1.00 55.43 N +ATOM 12957 CA ALA H 164 -2.402 -10.532 117.286 1.00 59.10 C +ATOM 12958 C ALA H 164 -1.818 -11.923 117.489 1.00 60.75 C +ATOM 12959 O ALA H 164 -1.244 -12.221 118.540 1.00 60.43 O +ATOM 12960 CB ALA H 164 -1.408 -9.628 116.543 1.00 58.68 C +ATOM 12961 N LYS H 165 -1.978 -12.778 116.480 1.00 62.83 N +ATOM 12962 CA LYS H 165 -1.500 -14.155 116.538 1.00 66.05 C +ATOM 12963 C LYS H 165 -0.539 -14.406 115.385 1.00 67.01 C +ATOM 12964 O LYS H 165 -0.922 -14.286 114.217 1.00 64.33 O +ATOM 12965 CB LYS H 165 -2.664 -15.145 116.486 1.00 68.11 C +ATOM 12966 CG LYS H 165 -2.233 -16.605 116.561 1.00 70.75 C +ATOM 12967 CD LYS H 165 -3.383 -17.540 116.216 1.00 72.72 C +ATOM 12968 CE LYS H 165 -4.606 -17.247 117.079 1.00 74.62 C +ATOM 12969 NZ LYS H 165 -5.778 -18.094 116.712 1.00 75.23 N +ATOM 12970 N VAL H 166 0.702 -14.759 115.713 1.00 69.43 N +ATOM 12971 CA VAL H 166 1.722 -15.104 114.729 1.00 70.93 C +ATOM 12972 C VAL H 166 1.986 -16.599 114.821 1.00 75.78 C +ATOM 12973 O VAL H 166 2.290 -17.115 115.903 1.00 76.04 O +ATOM 12974 CB VAL H 166 3.017 -14.304 114.948 1.00 68.97 C +ATOM 12975 CG1 VAL H 166 4.106 -14.802 114.019 1.00 67.54 C +ATOM 12976 CG2 VAL H 166 2.769 -12.828 114.721 1.00 69.80 C +ATOM 12977 N GLN H 167 1.871 -17.291 113.690 1.00 83.29 N +ATOM 12978 CA GLN H 167 2.083 -18.732 113.625 1.00 85.29 C +ATOM 12979 C GLN H 167 3.131 -19.032 112.563 1.00 86.82 C +ATOM 12980 O GLN H 167 2.971 -18.640 111.402 1.00 87.86 O +ATOM 12981 CB GLN H 167 0.777 -19.468 113.315 1.00 90.09 C +ATOM 12982 CG GLN H 167 0.931 -20.973 113.228 1.00 94.33 C +ATOM 12983 CD GLN H 167 1.430 -21.579 114.524 1.00 97.76 C +ATOM 12984 OE1 GLN H 167 0.902 -21.292 115.600 1.00 98.94 O +ATOM 12985 NE2 GLN H 167 2.459 -22.416 114.430 1.00 98.75 N +ATOM 12986 N TRP H 168 4.199 -19.724 112.961 1.00 79.14 N +ATOM 12987 CA TRP H 168 5.264 -20.109 112.043 1.00 75.11 C +ATOM 12988 C TRP H 168 4.980 -21.476 111.435 1.00 76.60 C +ATOM 12989 O TRP H 168 4.525 -22.397 112.123 1.00 76.37 O +ATOM 12990 CB TRP H 168 6.618 -20.139 112.756 1.00 69.29 C +ATOM 12991 CG TRP H 168 7.195 -18.789 113.045 1.00 62.21 C +ATOM 12992 CD1 TRP H 168 7.215 -18.146 114.250 1.00 59.20 C +ATOM 12993 CD2 TRP H 168 7.844 -17.916 112.112 1.00 58.65 C +ATOM 12994 NE1 TRP H 168 7.835 -16.925 114.124 1.00 57.77 N +ATOM 12995 CE2 TRP H 168 8.230 -16.761 112.821 1.00 56.20 C +ATOM 12996 CE3 TRP H 168 8.132 -17.998 110.745 1.00 58.56 C +ATOM 12997 CZ2 TRP H 168 8.891 -15.696 112.211 1.00 54.79 C +ATOM 12998 CZ3 TRP H 168 8.788 -16.939 110.141 1.00 57.62 C +ATOM 12999 CH2 TRP H 168 9.163 -15.803 110.875 1.00 57.04 C +ATOM 13000 N LYS H 169 5.259 -21.604 110.138 1.00 78.14 N +ATOM 13001 CA LYS H 169 5.045 -22.845 109.402 1.00 78.21 C +ATOM 13002 C LYS H 169 6.272 -23.131 108.550 1.00 79.50 C +ATOM 13003 O LYS H 169 6.661 -22.304 107.718 1.00 77.66 O +ATOM 13004 CB LYS H 169 3.790 -22.763 108.528 1.00 76.94 C +ATOM 13005 CG LYS H 169 2.487 -22.690 109.309 1.00 76.27 C +ATOM 13006 CD LYS H 169 1.292 -22.544 108.377 1.00 76.22 C +ATOM 13007 CE LYS H 169 -0.002 -22.401 109.157 1.00 76.30 C +ATOM 13008 NZ LYS H 169 -1.173 -22.191 108.262 1.00 76.96 N +ATOM 13009 N VAL H 170 6.875 -24.297 108.760 1.00 83.69 N +ATOM 13010 CA VAL H 170 8.050 -24.742 108.017 1.00 87.68 C +ATOM 13011 C VAL H 170 7.637 -25.966 107.208 1.00 89.55 C +ATOM 13012 O VAL H 170 7.376 -27.036 107.773 1.00 88.04 O +ATOM 13013 CB VAL H 170 9.229 -25.056 108.949 1.00 87.63 C +ATOM 13014 CG1 VAL H 170 10.429 -25.529 108.148 1.00 86.80 C +ATOM 13015 CG2 VAL H 170 9.584 -23.833 109.786 1.00 87.60 C +ATOM 13016 N ASP H 171 7.588 -25.811 105.883 1.00 92.88 N +ATOM 13017 CA ASP H 171 6.999 -26.813 104.990 1.00 96.16 C +ATOM 13018 C ASP H 171 5.586 -27.175 105.441 1.00 99.17 C +ATOM 13019 O ASP H 171 5.200 -28.346 105.476 1.00100.24 O +ATOM 13020 CB ASP H 171 7.877 -28.063 104.882 1.00 95.58 C +ATOM 13021 CG ASP H 171 9.102 -27.844 104.018 1.00 95.69 C +ATOM 13022 OD1 ASP H 171 10.214 -28.186 104.465 1.00 96.16 O +ATOM 13023 OD2 ASP H 171 8.955 -27.320 102.895 1.00 95.61 O +ATOM 13024 N ASN H 172 4.814 -26.149 105.803 1.00 99.99 N +ATOM 13025 CA ASN H 172 3.431 -26.279 106.258 1.00 99.72 C +ATOM 13026 C ASN H 172 3.312 -27.083 107.552 1.00 97.85 C +ATOM 13027 O ASN H 172 2.239 -27.611 107.862 1.00 98.39 O +ATOM 13028 CB ASN H 172 2.544 -26.891 105.166 1.00101.52 C +ATOM 13029 CG ASN H 172 1.097 -26.457 105.280 1.00103.47 C +ATOM 13030 OD1 ASN H 172 0.798 -25.392 105.822 1.00104.52 O +ATOM 13031 ND2 ASN H 172 0.190 -27.280 104.770 1.00103.94 N +ATOM 13032 N ALA H 173 4.390 -27.182 108.326 1.00 96.00 N +ATOM 13033 CA ALA H 173 4.372 -27.858 109.617 1.00 95.40 C +ATOM 13034 C ALA H 173 4.370 -26.820 110.734 1.00 95.22 C +ATOM 13035 O ALA H 173 5.156 -25.867 110.704 1.00 94.07 O +ATOM 13036 CB ALA H 173 5.571 -28.796 109.763 1.00 94.72 C +ATOM 13037 N LEU H 174 3.490 -27.009 111.713 1.00 97.15 N +ATOM 13038 CA LEU H 174 3.358 -26.046 112.799 1.00 98.33 C +ATOM 13039 C LEU H 174 4.591 -26.060 113.696 1.00100.71 C +ATOM 13040 O LEU H 174 5.183 -27.111 113.956 1.00100.69 O +ATOM 13041 CB LEU H 174 2.110 -26.347 113.625 1.00 96.47 C +ATOM 13042 CG LEU H 174 0.775 -26.241 112.886 1.00 95.03 C +ATOM 13043 CD1 LEU H 174 -0.379 -26.478 113.849 1.00 94.56 C +ATOM 13044 CD2 LEU H 174 0.643 -24.889 112.198 1.00 93.99 C +ATOM 13045 N GLN H 175 4.970 -24.880 114.173 1.00103.60 N +ATOM 13046 CA GLN H 175 6.122 -24.712 115.043 1.00106.46 C +ATOM 13047 C GLN H 175 5.668 -24.290 116.434 1.00104.68 C +ATOM 13048 O GLN H 175 4.646 -23.615 116.593 1.00105.09 O +ATOM 13049 CB GLN H 175 7.094 -23.674 114.473 1.00110.80 C +ATOM 13050 CG GLN H 175 7.531 -23.958 113.043 1.00113.73 C +ATOM 13051 CD GLN H 175 8.332 -25.240 112.920 1.00115.77 C +ATOM 13052 OE1 GLN H 175 9.368 -25.403 113.562 1.00117.04 O +ATOM 13053 NE2 GLN H 175 7.852 -26.160 112.092 1.00116.07 N +ATOM 13054 N SER H 176 6.437 -24.696 117.443 1.00101.76 N +ATOM 13055 CA BSER H 176 6.122 -24.364 118.823 0.84 99.53 C +ATOM 13056 C SER H 176 7.378 -24.523 119.669 1.00 98.33 C +ATOM 13057 O SER H 176 8.105 -25.510 119.530 1.00 97.72 O +ATOM 13058 CB BSER H 176 4.992 -25.249 119.363 0.84 98.99 C +ATOM 13059 OG BSER H 176 4.576 -24.819 120.646 0.84 98.85 O +ATOM 13060 N GLY H 177 7.625 -23.544 120.539 1.00 95.84 N +ATOM 13061 CA GLY H 177 8.756 -23.575 121.442 1.00 93.53 C +ATOM 13062 C GLY H 177 10.068 -23.087 120.870 1.00 92.42 C +ATOM 13063 O GLY H 177 11.087 -23.145 121.572 1.00 92.31 O +ATOM 13064 N ASN H 178 10.086 -22.603 119.628 1.00 91.32 N +ATOM 13065 CA ASN H 178 11.321 -22.167 118.989 1.00 90.70 C +ATOM 13066 C ASN H 178 11.198 -20.749 118.440 1.00 86.44 C +ATOM 13067 O ASN H 178 11.911 -20.374 117.503 1.00 87.54 O +ATOM 13068 CB ASN H 178 11.730 -23.140 117.883 1.00 96.63 C +ATOM 13069 CG ASN H 178 10.638 -23.338 116.847 1.00100.38 C +ATOM 13070 OD1 ASN H 178 9.459 -23.112 117.117 1.00100.39 O +ATOM 13071 ND2 ASN H 178 11.029 -23.769 115.654 1.00102.20 N +ATOM 13072 N SER H 179 10.305 -19.945 119.015 1.00 75.12 N +ATOM 13073 CA SER H 179 10.121 -18.567 118.588 1.00 67.73 C +ATOM 13074 C SER H 179 9.838 -17.689 119.798 1.00 64.81 C +ATOM 13075 O SER H 179 9.247 -18.133 120.786 1.00 65.04 O +ATOM 13076 CB SER H 179 8.980 -18.437 117.573 1.00 63.99 C +ATOM 13077 OG SER H 179 7.730 -18.718 118.178 1.00 60.85 O +ATOM 13078 N GLN H 180 10.274 -16.434 119.709 1.00 61.94 N +ATOM 13079 CA GLN H 180 9.995 -15.419 120.715 1.00 58.73 C +ATOM 13080 C GLN H 180 9.570 -14.137 120.014 1.00 57.25 C +ATOM 13081 O GLN H 180 9.987 -13.863 118.884 1.00 54.45 O +ATOM 13082 CB GLN H 180 11.218 -15.132 121.605 1.00 57.28 C +ATOM 13083 CG GLN H 180 11.738 -16.329 122.387 1.00 56.97 C +ATOM 13084 CD GLN H 180 12.978 -15.996 123.200 1.00 57.21 C +ATOM 13085 OE1 GLN H 180 14.086 -15.916 122.663 1.00 58.51 O +ATOM 13086 NE2 GLN H 180 12.795 -15.793 124.501 1.00 54.41 N +ATOM 13087 N GLU H 181 8.745 -13.345 120.695 1.00 58.47 N +ATOM 13088 CA GLU H 181 8.260 -12.097 120.123 1.00 59.98 C +ATOM 13089 C GLU H 181 8.327 -10.983 121.157 1.00 56.98 C +ATOM 13090 O GLU H 181 8.333 -11.220 122.367 1.00 57.98 O +ATOM 13091 CB GLU H 181 6.829 -12.228 119.590 1.00 64.42 C +ATOM 13092 CG GLU H 181 5.824 -12.734 120.602 1.00 69.67 C +ATOM 13093 CD GLU H 181 4.417 -12.804 120.030 1.00 75.35 C +ATOM 13094 OE1 GLU H 181 3.587 -11.934 120.371 1.00 77.49 O +ATOM 13095 OE2 GLU H 181 4.143 -13.723 119.229 1.00 77.26 O +ATOM 13096 N SER H 182 8.384 -9.754 120.653 1.00 53.32 N +ATOM 13097 CA SER H 182 8.313 -8.566 121.486 1.00 48.99 C +ATOM 13098 C SER H 182 7.508 -7.512 120.742 1.00 43.18 C +ATOM 13099 O SER H 182 7.419 -7.530 119.512 1.00 41.09 O +ATOM 13100 CB SER H 182 9.712 -8.037 121.859 1.00 48.23 C +ATOM 13101 OG SER H 182 10.384 -7.480 120.751 1.00 51.25 O +ATOM 13102 N VAL H 183 6.902 -6.611 121.504 1.00 38.21 N +ATOM 13103 CA VAL H 183 5.989 -5.608 120.979 1.00 35.32 C +ATOM 13104 C VAL H 183 6.495 -4.240 121.398 1.00 36.70 C +ATOM 13105 O VAL H 183 7.048 -4.076 122.491 1.00 37.20 O +ATOM 13106 CB VAL H 183 4.547 -5.833 121.489 1.00 35.74 C +ATOM 13107 CG1 VAL H 183 3.554 -4.921 120.761 1.00 33.29 C +ATOM 13108 CG2 VAL H 183 4.151 -7.298 121.345 1.00 38.83 C +ATOM 13109 N THR H 184 6.304 -3.252 120.531 1.00 35.51 N +ATOM 13110 CA THR H 184 6.672 -1.903 120.929 1.00 43.02 C +ATOM 13111 C THR H 184 5.559 -1.259 121.758 1.00 45.74 C +ATOM 13112 O THR H 184 4.438 -1.775 121.867 1.00 39.76 O +ATOM 13113 CB THR H 184 6.974 -1.039 119.706 1.00 46.56 C +ATOM 13114 OG1 THR H 184 5.793 -0.941 118.895 1.00 48.43 O +ATOM 13115 CG2 THR H 184 8.109 -1.646 118.892 1.00 44.47 C +ATOM 13116 N GLU H 185 5.896 -0.118 122.362 1.00 51.54 N +ATOM 13117 CA AGLU H 185 4.899 0.680 123.056 0.53 54.25 C +ATOM 13118 C GLU H 185 3.966 1.345 122.049 1.00 51.34 C +ATOM 13119 O GLU H 185 4.250 1.424 120.852 1.00 52.57 O +ATOM 13120 CB AGLU H 185 5.558 1.751 123.926 0.53 57.92 C +ATOM 13121 CG AGLU H 185 6.691 1.257 124.802 0.53 60.99 C +ATOM 13122 CD AGLU H 185 6.249 0.209 125.796 0.53 65.37 C +ATOM 13123 OE1AGLU H 185 5.061 0.211 126.185 0.53 65.87 O +ATOM 13124 OE2AGLU H 185 7.097 -0.622 126.188 0.53 67.98 O +ATOM 13125 N GLN H 186 2.833 1.824 122.553 1.00 47.17 N +ATOM 13126 CA GLN H 186 1.880 2.505 121.688 1.00 44.29 C +ATOM 13127 C GLN H 186 2.507 3.777 121.122 1.00 44.30 C +ATOM 13128 O GLN H 186 3.018 4.618 121.870 1.00 41.67 O +ATOM 13129 CB GLN H 186 0.601 2.822 122.467 1.00 39.74 C +ATOM 13130 CG GLN H 186 -0.557 3.256 121.607 1.00 38.06 C +ATOM 13131 CD GLN H 186 -1.903 3.152 122.319 1.00 37.61 C +ATOM 13132 OE1 GLN H 186 -1.996 3.322 123.544 1.00 34.12 O +ATOM 13133 NE2 GLN H 186 -2.952 2.863 121.551 1.00 31.49 N +ATOM 13134 N ASP H 187 2.492 3.902 119.793 1.00 46.15 N +ATOM 13135 CA ASP H 187 3.131 5.040 119.141 1.00 52.03 C +ATOM 13136 C ASP H 187 2.522 6.355 119.623 1.00 57.09 C +ATOM 13137 O ASP H 187 1.313 6.452 119.852 1.00 53.93 O +ATOM 13138 CB ASP H 187 2.997 4.917 117.624 1.00 53.99 C +ATOM 13139 CG ASP H 187 3.717 6.027 116.879 1.00 57.03 C +ATOM 13140 OD1 ASP H 187 4.939 5.887 116.644 1.00 57.83 O +ATOM 13141 OD2 ASP H 187 3.068 7.041 116.539 1.00 58.61 O +ATOM 13142 N SER H 188 3.372 7.377 119.772 1.00 64.08 N +ATOM 13143 CA SER H 188 2.934 8.631 120.382 1.00 70.60 C +ATOM 13144 C SER H 188 2.014 9.453 119.483 1.00 77.30 C +ATOM 13145 O SER H 188 1.312 10.335 119.990 1.00 78.60 O +ATOM 13146 CB SER H 188 4.147 9.473 120.786 1.00 71.35 C +ATOM 13147 OG SER H 188 4.957 9.791 119.666 1.00 73.42 O +ATOM 13148 N LYS H 189 1.991 9.195 118.175 1.00 85.36 N +ATOM 13149 CA LYS H 189 1.164 9.970 117.256 1.00 85.53 C +ATOM 13150 C LYS H 189 -0.005 9.167 116.698 1.00 81.49 C +ATOM 13151 O LYS H 189 -1.161 9.571 116.855 1.00 83.52 O +ATOM 13152 CB LYS H 189 2.023 10.532 116.119 1.00 92.13 C +ATOM 13153 CG LYS H 189 2.871 11.708 116.556 1.00 98.94 C +ATOM 13154 CD LYS H 189 3.690 12.272 115.413 1.00103.93 C +ATOM 13155 CE LYS H 189 4.522 13.458 115.877 1.00106.98 C +ATOM 13156 NZ LYS H 189 5.412 13.969 114.798 1.00108.80 N +ATOM 13157 N ASP H 190 0.255 8.038 116.049 1.00 67.04 N +ATOM 13158 CA ASP H 190 -0.826 7.249 115.482 1.00 54.61 C +ATOM 13159 C ASP H 190 -1.299 6.128 116.401 1.00 44.17 C +ATOM 13160 O ASP H 190 -2.151 5.341 115.991 1.00 41.35 O +ATOM 13161 CB ASP H 190 -0.418 6.687 114.109 1.00 55.65 C +ATOM 13162 CG ASP H 190 0.716 5.681 114.183 1.00 56.24 C +ATOM 13163 OD1 ASP H 190 1.079 5.247 115.292 1.00 56.00 O +ATOM 13164 OD2 ASP H 190 1.255 5.316 113.118 1.00 56.20 O +ATOM 13165 N SER H 191 -0.754 6.019 117.619 1.00 41.15 N +ATOM 13166 CA SER H 191 -1.294 5.124 118.647 1.00 36.41 C +ATOM 13167 C SER H 191 -1.338 3.653 118.200 1.00 35.71 C +ATOM 13168 O SER H 191 -2.181 2.878 118.661 1.00 36.08 O +ATOM 13169 CB SER H 191 -2.692 5.584 119.088 1.00 37.31 C +ATOM 13170 OG SER H 191 -2.670 6.870 119.703 1.00 35.12 O +ATOM 13171 N THR H 192 -0.441 3.237 117.308 1.00 36.19 N +ATOM 13172 CA THR H 192 -0.413 1.857 116.836 1.00 35.50 C +ATOM 13173 C THR H 192 0.675 1.053 117.547 1.00 34.59 C +ATOM 13174 O THR H 192 1.495 1.587 118.297 1.00 38.04 O +ATOM 13175 CB THR H 192 -0.194 1.802 115.315 1.00 34.02 C +ATOM 13176 OG1 THR H 192 1.035 2.471 114.976 1.00 36.53 O +ATOM 13177 CG2 THR H 192 -1.365 2.449 114.576 1.00 31.47 C +ATOM 13178 N TYR H 193 0.668 -0.255 117.296 1.00 34.38 N +ATOM 13179 CA TYR H 193 1.665 -1.182 117.819 1.00 37.89 C +ATOM 13180 C TYR H 193 2.448 -1.807 116.671 1.00 39.49 C +ATOM 13181 O TYR H 193 1.982 -1.867 115.531 1.00 37.29 O +ATOM 13182 CB TYR H 193 1.021 -2.297 118.659 1.00 39.21 C +ATOM 13183 CG TYR H 193 0.278 -1.785 119.863 1.00 42.27 C +ATOM 13184 CD1 TYR H 193 -1.079 -1.511 119.797 1.00 41.52 C +ATOM 13185 CD2 TYR H 193 0.935 -1.564 121.067 1.00 45.60 C +ATOM 13186 CE1 TYR H 193 -1.761 -1.029 120.888 1.00 44.70 C +ATOM 13187 CE2 TYR H 193 0.261 -1.078 122.167 1.00 44.80 C +ATOM 13188 CZ TYR H 193 -1.089 -0.815 122.071 1.00 46.42 C +ATOM 13189 OH TYR H 193 -1.780 -0.334 123.160 1.00 47.30 O +ATOM 13190 N SER H 194 3.654 -2.274 116.981 1.00 40.35 N +ATOM 13191 CA SER H 194 4.418 -3.101 116.060 1.00 37.77 C +ATOM 13192 C SER H 194 4.925 -4.322 116.814 1.00 39.97 C +ATOM 13193 O SER H 194 5.222 -4.250 118.016 1.00 36.21 O +ATOM 13194 CB SER H 194 5.576 -2.322 115.420 1.00 40.54 C +ATOM 13195 OG SER H 194 5.075 -1.305 114.558 1.00 39.32 O +ATOM 13196 N LEU H 195 4.987 -5.449 116.111 1.00 39.28 N +ATOM 13197 CA LEU H 195 5.389 -6.717 116.696 1.00 40.93 C +ATOM 13198 C LEU H 195 6.486 -7.327 115.839 1.00 45.33 C +ATOM 13199 O LEU H 195 6.505 -7.168 114.614 1.00 44.52 O +ATOM 13200 CB LEU H 195 4.199 -7.682 116.815 1.00 40.39 C +ATOM 13201 CG LEU H 195 4.327 -9.036 117.518 1.00 40.27 C +ATOM 13202 CD1 LEU H 195 2.963 -9.470 118.026 1.00 41.78 C +ATOM 13203 CD2 LEU H 195 4.893 -10.102 116.587 1.00 40.71 C +ATOM 13204 N SER H 196 7.404 -8.024 116.498 1.00 50.22 N +ATOM 13205 CA SER H 196 8.487 -8.730 115.833 1.00 53.93 C +ATOM 13206 C SER H 196 8.535 -10.145 116.386 1.00 56.55 C +ATOM 13207 O SER H 196 8.489 -10.334 117.604 1.00 58.56 O +ATOM 13208 CB SER H 196 9.825 -8.017 116.056 1.00 59.23 C +ATOM 13209 OG SER H 196 10.911 -8.887 115.806 1.00 63.35 O +ATOM 13210 N SER H 197 8.613 -11.135 115.501 1.00 54.01 N +ATOM 13211 CA SER H 197 8.720 -12.529 115.909 1.00 51.73 C +ATOM 13212 C SER H 197 9.942 -13.146 115.247 1.00 53.31 C +ATOM 13213 O SER H 197 10.105 -13.050 114.026 1.00 54.82 O +ATOM 13214 CB SER H 197 7.460 -13.316 115.544 1.00 51.42 C +ATOM 13215 OG SER H 197 7.532 -14.643 116.034 1.00 54.15 O +ATOM 13216 N THR H 198 10.800 -13.775 116.047 1.00 53.50 N +ATOM 13217 CA THR H 198 12.029 -14.384 115.552 1.00 55.33 C +ATOM 13218 C THR H 198 11.930 -15.902 115.665 1.00 56.41 C +ATOM 13219 O THR H 198 11.747 -16.437 116.764 1.00 53.62 O +ATOM 13220 CB THR H 198 13.252 -13.862 116.310 1.00 56.24 C +ATOM 13221 OG1 THR H 198 13.377 -12.448 116.104 1.00 58.58 O +ATOM 13222 CG2 THR H 198 14.520 -14.547 115.807 1.00 53.81 C +ATOM 13223 N LEU H 199 12.041 -16.586 114.526 1.00 59.26 N +ATOM 13224 CA LEU H 199 12.101 -18.041 114.473 1.00 61.54 C +ATOM 13225 C LEU H 199 13.564 -18.458 114.416 1.00 62.78 C +ATOM 13226 O LEU H 199 14.262 -18.151 113.444 1.00 62.97 O +ATOM 13227 CB LEU H 199 11.339 -18.585 113.263 1.00 62.66 C +ATOM 13228 CG LEU H 199 11.356 -20.108 113.083 1.00 61.37 C +ATOM 13229 CD1 LEU H 199 10.641 -20.807 114.232 1.00 60.24 C +ATOM 13230 CD2 LEU H 199 10.755 -20.510 111.742 1.00 60.76 C +ATOM 13231 N THR H 200 14.025 -19.151 115.452 1.00 63.55 N +ATOM 13232 CA THR H 200 15.424 -19.534 115.579 1.00 62.44 C +ATOM 13233 C THR H 200 15.569 -21.028 115.330 1.00 61.37 C +ATOM 13234 O THR H 200 14.876 -21.837 115.959 1.00 56.04 O +ATOM 13235 CB THR H 200 15.977 -19.172 116.960 1.00 61.71 C +ATOM 13236 OG1 THR H 200 15.764 -17.776 117.207 1.00 62.67 O +ATOM 13237 CG2 THR H 200 17.474 -19.464 117.025 1.00 59.89 C +ATOM 13238 N LEU H 201 16.467 -21.381 114.407 1.00 63.99 N +ATOM 13239 CA LEU H 201 16.782 -22.764 114.085 1.00 67.46 C +ATOM 13240 C LEU H 201 18.277 -22.884 113.827 1.00 69.61 C +ATOM 13241 O LEU H 201 18.933 -21.919 113.420 1.00 67.31 O +ATOM 13242 CB LEU H 201 16.012 -23.259 112.847 1.00 68.99 C +ATOM 13243 CG LEU H 201 14.487 -23.112 112.793 1.00 67.80 C +ATOM 13244 CD1 LEU H 201 13.982 -23.417 111.386 1.00 67.40 C +ATOM 13245 CD2 LEU H 201 13.804 -24.011 113.821 1.00 67.23 C +ATOM 13246 N SER H 202 18.810 -24.081 114.062 1.00 74.42 N +ATOM 13247 CA SER H 202 20.195 -24.362 113.715 1.00 79.34 C +ATOM 13248 C SER H 202 20.363 -24.391 112.199 1.00 82.93 C +ATOM 13249 O SER H 202 19.405 -24.589 111.447 1.00 81.34 O +ATOM 13250 CB SER H 202 20.640 -25.695 114.314 1.00 80.82 C +ATOM 13251 OG SER H 202 19.891 -26.768 113.768 1.00 81.67 O +ATOM 13252 N LYS H 203 21.607 -24.189 111.750 1.00 88.97 N +ATOM 13253 CA LYS H 203 21.878 -24.199 110.313 1.00 93.99 C +ATOM 13254 C LYS H 203 21.586 -25.563 109.699 1.00 97.20 C +ATOM 13255 O LYS H 203 21.187 -25.647 108.530 1.00 97.96 O +ATOM 13256 CB LYS H 203 23.328 -23.795 110.042 1.00 94.93 C +ATOM 13257 CG LYS H 203 23.668 -23.656 108.563 1.00 94.69 C +ATOM 13258 CD LYS H 203 25.156 -23.446 108.352 1.00 95.68 C +ATOM 13259 CE LYS H 203 25.492 -23.351 106.873 1.00 96.73 C +ATOM 13260 NZ LYS H 203 26.956 -23.195 106.639 1.00 98.21 N +ATOM 13261 N ALA H 204 21.772 -26.637 110.469 1.00100.56 N +ATOM 13262 CA ALA H 204 21.453 -27.973 109.978 1.00100.82 C +ATOM 13263 C ALA H 204 19.958 -28.120 109.725 1.00 99.64 C +ATOM 13264 O ALA H 204 19.540 -28.577 108.654 1.00100.99 O +ATOM 13265 CB ALA H 204 21.943 -29.026 110.974 1.00102.49 C +ATOM 13266 N ASP H 205 19.134 -27.726 110.701 1.00 96.07 N +ATOM 13267 CA ASP H 205 17.687 -27.856 110.556 1.00 91.57 C +ATOM 13268 C ASP H 205 17.122 -26.857 109.554 1.00 86.44 C +ATOM 13269 O ASP H 205 16.109 -27.143 108.903 1.00 83.49 O +ATOM 13270 CB ASP H 205 17.007 -27.683 111.914 1.00 92.39 C +ATOM 13271 CG ASP H 205 17.297 -28.830 112.859 1.00 93.22 C +ATOM 13272 OD1 ASP H 205 17.346 -29.989 112.393 1.00 93.77 O +ATOM 13273 OD2 ASP H 205 17.480 -28.573 114.068 1.00 93.50 O +ATOM 13274 N TYR H 206 17.752 -25.689 109.417 1.00 85.87 N +ATOM 13275 CA TYR H 206 17.259 -24.694 108.470 1.00 87.53 C +ATOM 13276 C TYR H 206 17.396 -25.168 107.029 1.00 92.88 C +ATOM 13277 O TYR H 206 16.548 -24.843 106.190 1.00 93.77 O +ATOM 13278 CB TYR H 206 17.997 -23.369 108.659 1.00 84.78 C +ATOM 13279 CG TYR H 206 17.627 -22.308 107.643 1.00 82.44 C +ATOM 13280 CD1 TYR H 206 16.370 -21.717 107.653 1.00 81.38 C +ATOM 13281 CD2 TYR H 206 18.536 -21.890 106.680 1.00 82.19 C +ATOM 13282 CE1 TYR H 206 16.024 -20.745 106.729 1.00 80.24 C +ATOM 13283 CE2 TYR H 206 18.200 -20.915 105.751 1.00 81.75 C +ATOM 13284 CZ TYR H 206 16.940 -20.349 105.781 1.00 80.32 C +ATOM 13285 OH TYR H 206 16.594 -19.378 104.869 1.00 79.35 O +ATOM 13286 N GLU H 207 18.448 -25.929 106.722 1.00 97.73 N +ATOM 13287 CA GLU H 207 18.681 -26.407 105.365 1.00 99.93 C +ATOM 13288 C GLU H 207 17.981 -27.728 105.064 1.00 98.32 C +ATOM 13289 O GLU H 207 17.985 -28.165 103.908 1.00 97.51 O +ATOM 13290 CB GLU H 207 20.187 -26.535 105.111 1.00104.08 C +ATOM 13291 CG GLU H 207 20.908 -25.191 105.072 1.00106.74 C +ATOM 13292 CD GLU H 207 22.413 -25.329 104.943 1.00110.00 C +ATOM 13293 OE1 GLU H 207 22.924 -26.454 105.122 1.00111.49 O +ATOM 13294 OE2 GLU H 207 23.086 -24.313 104.664 1.00111.01 O +ATOM 13295 N LYS H 208 17.373 -28.366 106.067 1.00 96.93 N +ATOM 13296 CA LYS H 208 16.568 -29.559 105.840 1.00 95.91 C +ATOM 13297 C LYS H 208 15.207 -29.252 105.235 1.00 95.72 C +ATOM 13298 O LYS H 208 14.475 -30.190 104.902 1.00 95.38 O +ATOM 13299 CB LYS H 208 16.355 -30.322 107.152 1.00 95.09 C +ATOM 13300 CG LYS H 208 17.596 -30.985 107.722 1.00 96.19 C +ATOM 13301 CD LYS H 208 17.277 -31.696 109.035 1.00 96.05 C +ATOM 13302 CE LYS H 208 18.531 -32.268 109.685 1.00 96.03 C +ATOM 13303 NZ LYS H 208 19.189 -33.300 108.836 1.00 95.51 N +ATOM 13304 N HIS H 209 14.847 -27.979 105.089 1.00 96.21 N +ATOM 13305 CA HIS H 209 13.497 -27.597 104.703 1.00 97.04 C +ATOM 13306 C HIS H 209 13.544 -26.546 103.600 1.00100.66 C +ATOM 13307 O HIS H 209 14.607 -26.027 103.246 1.00101.65 O +ATOM 13308 CB HIS H 209 12.706 -27.085 105.914 1.00 92.86 C +ATOM 13309 CG HIS H 209 12.509 -28.115 106.984 1.00 89.55 C +ATOM 13310 ND1 HIS H 209 13.333 -28.213 108.085 1.00 88.76 N +ATOM 13311 CD2 HIS H 209 11.590 -29.101 107.114 1.00 88.38 C +ATOM 13312 CE1 HIS H 209 12.926 -29.209 108.851 1.00 88.43 C +ATOM 13313 NE2 HIS H 209 11.869 -29.765 108.284 1.00 88.17 N +ATOM 13314 N LYS H 210 12.363 -26.232 103.060 1.00103.94 N +ATOM 13315 CA LYS H 210 12.245 -25.401 101.865 1.00107.08 C +ATOM 13316 C LYS H 210 11.386 -24.163 102.090 1.00107.15 C +ATOM 13317 O LYS H 210 11.870 -23.043 101.891 1.00108.45 O +ATOM 13318 CB LYS H 210 11.682 -26.242 100.711 1.00112.52 C +ATOM 13319 CG LYS H 210 11.528 -25.491 99.398 1.00115.85 C +ATOM 13320 CD LYS H 210 12.879 -25.094 98.821 1.00118.54 C +ATOM 13321 CE LYS H 210 12.723 -24.427 97.460 1.00119.99 C +ATOM 13322 NZ LYS H 210 14.037 -24.068 96.854 1.00120.56 N +ATOM 13323 N VAL H 211 10.124 -24.322 102.489 1.00 98.23 N +ATOM 13324 CA VAL H 211 9.180 -23.212 102.590 1.00 93.45 C +ATOM 13325 C VAL H 211 9.100 -22.743 104.037 1.00 96.42 C +ATOM 13326 O VAL H 211 8.843 -23.543 104.947 1.00 97.34 O +ATOM 13327 CB VAL H 211 7.789 -23.617 102.074 1.00 86.67 C +ATOM 13328 CG1 VAL H 211 6.850 -22.424 102.111 1.00 84.96 C +ATOM 13329 CG2 VAL H 211 7.889 -24.184 100.669 1.00 84.60 C +ATOM 13330 N TYR H 212 9.300 -21.443 104.246 1.00101.47 N +ATOM 13331 CA TYR H 212 9.221 -20.818 105.562 1.00101.09 C +ATOM 13332 C TYR H 212 8.177 -19.712 105.513 1.00100.04 C +ATOM 13333 O TYR H 212 8.318 -18.760 104.739 1.00101.67 O +ATOM 13334 CB TYR H 212 10.583 -20.262 105.988 1.00104.65 C +ATOM 13335 CG TYR H 212 11.600 -21.333 106.303 1.00106.94 C +ATOM 13336 CD1 TYR H 212 12.455 -21.819 105.323 1.00108.12 C +ATOM 13337 CD2 TYR H 212 11.695 -21.868 107.581 1.00107.00 C +ATOM 13338 CE1 TYR H 212 13.381 -22.805 105.611 1.00109.18 C +ATOM 13339 CE2 TYR H 212 12.615 -22.850 107.877 1.00108.13 C +ATOM 13340 CZ TYR H 212 13.454 -23.316 106.891 1.00109.40 C +ATOM 13341 OH TYR H 212 14.367 -24.298 107.193 1.00110.30 O +ATOM 13342 N ALA H 213 7.140 -19.830 106.341 1.00 88.91 N +ATOM 13343 CA ALA H 213 6.029 -18.890 106.325 1.00 83.66 C +ATOM 13344 C ALA H 213 5.678 -18.446 107.737 1.00 77.53 C +ATOM 13345 O ALA H 213 5.866 -19.188 108.705 1.00 76.19 O +ATOM 13346 CB ALA H 213 4.791 -19.505 105.660 1.00 84.27 C +ATOM 13347 N CYS H 214 5.159 -17.222 107.842 1.00 74.67 N +ATOM 13348 CA CYS H 214 4.608 -16.697 109.088 1.00 71.07 C +ATOM 13349 C CYS H 214 3.190 -16.204 108.834 1.00 72.89 C +ATOM 13350 O CYS H 214 2.966 -15.374 107.947 1.00 71.96 O +ATOM 13351 CB BCYS H 214 5.490 -15.563 109.619 0.57 68.01 C +ATOM 13352 SG BCYS H 214 4.650 -14.281 110.570 0.57 65.83 S +ATOM 13353 N GLU H 215 2.239 -16.722 109.607 1.00 74.80 N +ATOM 13354 CA GLU H 215 0.818 -16.460 109.419 1.00 77.77 C +ATOM 13355 C GLU H 215 0.319 -15.518 110.509 1.00 75.29 C +ATOM 13356 O GLU H 215 0.582 -15.744 111.696 1.00 77.60 O +ATOM 13357 CB GLU H 215 0.029 -17.770 109.447 1.00 83.26 C +ATOM 13358 CG GLU H 215 -1.462 -17.615 109.243 1.00 87.72 C +ATOM 13359 CD GLU H 215 -2.231 -18.846 109.677 1.00 91.83 C +ATOM 13360 OE1 GLU H 215 -2.016 -19.309 110.818 1.00 92.97 O +ATOM 13361 OE2 GLU H 215 -3.043 -19.355 108.874 1.00 93.48 O +ATOM 13362 N VAL H 216 -0.409 -14.476 110.110 1.00 70.37 N +ATOM 13363 CA VAL H 216 -0.845 -13.420 111.018 1.00 67.38 C +ATOM 13364 C VAL H 216 -2.370 -13.415 111.082 1.00 66.20 C +ATOM 13365 O VAL H 216 -3.040 -13.395 110.045 1.00 68.37 O +ATOM 13366 CB VAL H 216 -0.306 -12.044 110.581 1.00 65.60 C +ATOM 13367 CG1 VAL H 216 -0.837 -10.945 111.487 1.00 63.67 C +ATOM 13368 CG2 VAL H 216 1.220 -12.047 110.586 1.00 66.09 C +ATOM 13369 N THR H 217 -2.911 -13.427 112.299 1.00 63.03 N +ATOM 13370 CA THR H 217 -4.348 -13.343 112.541 1.00 62.26 C +ATOM 13371 C THR H 217 -4.633 -12.069 113.323 1.00 62.39 C +ATOM 13372 O THR H 217 -4.122 -11.896 114.434 1.00 63.50 O +ATOM 13373 CB THR H 217 -4.853 -14.561 113.318 1.00 63.48 C +ATOM 13374 OG1 THR H 217 -4.728 -15.738 112.511 1.00 65.60 O +ATOM 13375 CG2 THR H 217 -6.309 -14.371 113.720 1.00 62.86 C +ATOM 13376 N HIS H 218 -5.451 -11.186 112.752 1.00 60.97 N +ATOM 13377 CA HIS H 218 -5.739 -9.904 113.382 1.00 57.45 C +ATOM 13378 C HIS H 218 -7.173 -9.495 113.088 1.00 59.74 C +ATOM 13379 O HIS H 218 -7.742 -9.867 112.058 1.00 61.34 O +ATOM 13380 CB HIS H 218 -4.778 -8.807 112.907 1.00 51.73 C +ATOM 13381 CG HIS H 218 -4.825 -7.566 113.742 1.00 47.55 C +ATOM 13382 ND1 HIS H 218 -5.383 -6.387 113.296 1.00 45.92 N +ATOM 13383 CD2 HIS H 218 -4.390 -7.323 115.003 1.00 45.44 C +ATOM 13384 CE1 HIS H 218 -5.290 -5.473 114.245 1.00 46.31 C +ATOM 13385 NE2 HIS H 218 -4.687 -6.013 115.290 1.00 45.89 N +ATOM 13386 N GLN H 219 -7.745 -8.706 114.005 1.00 59.73 N +ATOM 13387 CA GLN H 219 -9.117 -8.234 113.839 1.00 59.69 C +ATOM 13388 C GLN H 219 -9.273 -7.383 112.583 1.00 60.99 C +ATOM 13389 O GLN H 219 -10.325 -7.413 111.932 1.00 62.73 O +ATOM 13390 CB GLN H 219 -9.548 -7.436 115.066 1.00 59.02 C +ATOM 13391 CG GLN H 219 -10.914 -6.795 114.903 1.00 60.11 C +ATOM 13392 CD GLN H 219 -11.275 -5.874 116.040 1.00 58.67 C +ATOM 13393 OE1 GLN H 219 -10.577 -5.809 117.050 1.00 56.83 O +ATOM 13394 NE2 GLN H 219 -12.375 -5.150 115.881 1.00 59.78 N +ATOM 13395 N GLY H 220 -8.244 -6.613 112.230 1.00 58.90 N +ATOM 13396 CA GLY H 220 -8.283 -5.802 111.025 1.00 57.30 C +ATOM 13397 C GLY H 220 -8.153 -6.588 109.736 1.00 56.70 C +ATOM 13398 O GLY H 220 -8.310 -6.005 108.657 1.00 55.62 O +ATOM 13399 N LEU H 221 -7.867 -7.883 109.822 1.00 57.08 N +ATOM 13400 CA LEU H 221 -7.744 -8.748 108.658 1.00 58.92 C +ATOM 13401 C LEU H 221 -8.977 -9.637 108.567 1.00 63.11 C +ATOM 13402 O LEU H 221 -9.354 -10.287 109.548 1.00 64.91 O +ATOM 13403 CB LEU H 221 -6.482 -9.607 108.740 1.00 57.99 C +ATOM 13404 CG LEU H 221 -5.128 -8.898 108.765 1.00 58.50 C +ATOM 13405 CD1 LEU H 221 -4.024 -9.891 109.088 1.00 60.08 C +ATOM 13406 CD2 LEU H 221 -4.853 -8.217 107.441 1.00 57.55 C +ATOM 13407 N SER H 222 -9.609 -9.654 107.393 1.00 64.96 N +ATOM 13408 CA SER H 222 -10.755 -10.534 107.200 1.00 65.77 C +ATOM 13409 C SER H 222 -10.340 -11.999 107.219 1.00 68.75 C +ATOM 13410 O SER H 222 -11.117 -12.856 107.647 1.00 69.79 O +ATOM 13411 CB SER H 222 -11.452 -10.194 105.889 1.00 63.56 C +ATOM 13412 OG SER H 222 -10.513 -10.187 104.832 1.00 63.00 O +ATOM 13413 N SER H 223 -9.129 -12.300 106.763 1.00 70.05 N +ATOM 13414 CA ASER H 223 -8.585 -13.648 106.751 0.61 71.02 C +ATOM 13415 C SER H 223 -7.094 -13.587 107.058 1.00 71.76 C +ATOM 13416 O SER H 223 -6.435 -12.597 106.726 1.00 71.60 O +ATOM 13417 CB ASER H 223 -8.803 -14.340 105.397 0.61 70.75 C +ATOM 13418 OG ASER H 223 -8.069 -13.692 104.373 0.61 70.71 O +ATOM 13419 N PRO H 224 -6.549 -14.628 107.688 1.00 74.06 N +ATOM 13420 CA PRO H 224 -5.111 -14.633 108.007 1.00 73.63 C +ATOM 13421 C PRO H 224 -4.241 -14.393 106.779 1.00 72.81 C +ATOM 13422 O PRO H 224 -4.432 -15.005 105.727 1.00 76.13 O +ATOM 13423 CB PRO H 224 -4.888 -16.032 108.592 1.00 73.89 C +ATOM 13424 CG PRO H 224 -6.213 -16.394 109.186 1.00 73.73 C +ATOM 13425 CD PRO H 224 -7.249 -15.781 108.282 1.00 73.93 C +ATOM 13426 N VAL H 225 -3.280 -13.484 106.926 1.00 69.45 N +ATOM 13427 CA VAL H 225 -2.305 -13.169 105.886 1.00 66.38 C +ATOM 13428 C VAL H 225 -1.051 -13.997 106.126 1.00 66.58 C +ATOM 13429 O VAL H 225 -0.573 -14.105 107.265 1.00 68.18 O +ATOM 13430 CB VAL H 225 -1.979 -11.662 105.875 1.00 64.16 C +ATOM 13431 CG1 VAL H 225 -0.854 -11.357 104.893 1.00 65.39 C +ATOM 13432 CG2 VAL H 225 -3.214 -10.853 105.539 1.00 62.02 C +ATOM 13433 N THR H 226 -0.507 -14.582 105.059 1.00 64.62 N +ATOM 13434 CA THR H 226 0.704 -15.389 105.149 1.00 63.62 C +ATOM 13435 C THR H 226 1.788 -14.814 104.248 1.00 65.55 C +ATOM 13436 O THR H 226 1.555 -14.578 103.058 1.00 63.03 O +ATOM 13437 CB THR H 226 0.429 -16.849 104.777 1.00 59.04 C +ATOM 13438 OG1 THR H 226 -0.572 -17.382 105.654 1.00 58.95 O +ATOM 13439 CG2 THR H 226 1.701 -17.682 104.908 1.00 55.58 C +ATOM 13440 N LYS H 227 2.963 -14.581 104.826 1.00 69.24 N +ATOM 13441 CA LYS H 227 4.151 -14.172 104.090 1.00 74.51 C +ATOM 13442 C LYS H 227 5.162 -15.308 104.148 1.00 77.48 C +ATOM 13443 O LYS H 227 5.428 -15.849 105.227 1.00 78.09 O +ATOM 13444 CB LYS H 227 4.750 -12.890 104.672 1.00 76.69 C +ATOM 13445 CG LYS H 227 3.884 -11.653 104.492 1.00 78.05 C +ATOM 13446 CD LYS H 227 3.757 -11.274 103.028 1.00 79.32 C +ATOM 13447 CE LYS H 227 2.875 -10.051 102.855 1.00 81.28 C +ATOM 13448 NZ LYS H 227 2.782 -9.640 101.426 1.00 83.45 N +ATOM 13449 N SER H 228 5.719 -15.672 102.995 1.00 78.46 N +ATOM 13450 CA SER H 228 6.584 -16.838 102.917 1.00 78.27 C +ATOM 13451 C SER H 228 7.744 -16.578 101.966 1.00 78.16 C +ATOM 13452 O SER H 228 7.749 -15.616 101.191 1.00 76.14 O +ATOM 13453 CB SER H 228 5.803 -18.081 102.474 1.00 77.25 C +ATOM 13454 OG SER H 228 5.211 -17.877 101.203 1.00 78.03 O +ATOM 13455 N PHE H 229 8.742 -17.455 102.051 1.00 80.21 N +ATOM 13456 CA PHE H 229 9.856 -17.480 101.115 1.00 83.08 C +ATOM 13457 C PHE H 229 10.346 -18.915 100.992 1.00 87.41 C +ATOM 13458 O PHE H 229 10.026 -19.777 101.817 1.00 85.02 O +ATOM 13459 CB PHE H 229 11.003 -16.550 101.547 1.00 81.45 C +ATOM 13460 CG PHE H 229 11.732 -17.007 102.785 1.00 81.05 C +ATOM 13461 CD1 PHE H 229 12.910 -17.735 102.687 1.00 82.16 C +ATOM 13462 CD2 PHE H 229 11.247 -16.698 104.047 1.00 79.75 C +ATOM 13463 CE1 PHE H 229 13.584 -18.152 103.825 1.00 82.75 C +ATOM 13464 CE2 PHE H 229 11.917 -17.110 105.186 1.00 79.99 C +ATOM 13465 CZ PHE H 229 13.086 -17.838 105.076 1.00 81.69 C +ATOM 13466 N ASN H 230 11.120 -19.165 99.940 1.00 93.87 N +ATOM 13467 CA ASN H 230 11.739 -20.461 99.709 1.00 98.77 C +ATOM 13468 C ASN H 230 13.234 -20.350 99.959 1.00105.61 C +ATOM 13469 O ASN H 230 13.858 -19.345 99.601 1.00105.08 O +ATOM 13470 CB ASN H 230 11.470 -20.958 98.286 1.00 96.91 C +ATOM 13471 CG ASN H 230 10.002 -21.257 98.038 1.00 93.38 C +ATOM 13472 OD1 ASN H 230 9.292 -21.725 98.928 1.00 92.52 O +ATOM 13473 ND2 ASN H 230 9.541 -20.987 96.823 1.00 91.49 N +ATOM 13474 N ARG H 231 13.801 -21.384 100.575 1.00117.04 N +ATOM 13475 CA ARG H 231 15.181 -21.322 101.037 1.00121.66 C +ATOM 13476 C ARG H 231 16.139 -21.189 99.863 1.00123.34 C +ATOM 13477 O ARG H 231 16.183 -22.056 98.984 1.00125.61 O +ATOM 13478 CB ARG H 231 15.523 -22.565 101.857 1.00127.85 C +ATOM 13479 CG ARG H 231 16.830 -22.434 102.622 1.00132.98 C +ATOM 13480 CD ARG H 231 17.336 -23.774 103.130 1.00136.66 C +ATOM 13481 NE ARG H 231 18.031 -24.532 102.093 1.00139.69 N +ATOM 13482 CZ ARG H 231 17.497 -25.546 101.421 1.00141.09 C +ATOM 13483 NH1 ARG H 231 16.256 -25.934 101.677 1.00141.36 N +ATOM 13484 NH2 ARG H 231 18.206 -26.177 100.495 1.00141.57 N +ATOM 13485 N GLY H 232 16.897 -20.097 99.851 1.00119.65 N +ATOM 13486 CA GLY H 232 17.981 -19.936 98.894 1.00118.94 C +ATOM 13487 C GLY H 232 17.558 -19.874 97.444 1.00118.17 C +ATOM 13488 O GLY H 232 18.267 -20.392 96.572 1.00116.98 O +ATOM 13489 N GLU H 233 16.415 -19.254 97.159 1.00119.45 N +ATOM 13490 CA GLU H 233 16.007 -19.028 95.769 1.00120.84 C +ATOM 13491 C GLU H 233 16.535 -17.672 95.309 1.00124.90 C +ATOM 13492 O GLU H 233 17.469 -17.605 94.504 1.00125.95 O +ATOM 13493 CB GLU H 233 14.489 -19.145 95.627 1.00118.08 C +ATOM 13494 CG GLU H 233 13.993 -20.578 95.743 1.00117.59 C +ATOM 13495 CD GLU H 233 12.625 -20.782 95.124 1.00117.78 C +ATOM 13496 OE1 GLU H 233 11.972 -19.779 94.769 1.00117.60 O +ATOM 13497 OE2 GLU H 233 12.205 -21.952 94.992 1.00118.10 O +ATOM 13498 N CYS H 234 15.950 -16.592 95.823 1.00129.52 N +ATOM 13499 CA CYS H 234 16.466 -15.237 95.621 1.00134.54 C +ATOM 13500 C CYS H 234 15.673 -14.239 96.461 1.00138.23 C +ATOM 13501 O CYS H 234 16.201 -13.218 96.905 1.00139.36 O +ATOM 13502 CB CYS H 234 16.421 -14.835 94.141 1.00135.10 C +ATOM 13503 SG CYS H 234 17.168 -13.219 93.774 1.00136.55 S +ATOM 13504 OXT CYS H 234 14.483 -14.432 96.719 1.00138.95 O +HETATM13505 C1 GOL H 235 -2.723 10.923 139.434 1.00 47.07 C +HETATM13506 O1 GOL H 235 -2.717 12.067 138.631 1.00 45.13 O +HETATM13507 C2 GOL H 235 -1.251 10.566 139.782 1.00 50.00 C +HETATM13508 O2 GOL H 235 -0.355 10.791 138.734 1.00 52.96 O +HETATM13509 C3 GOL H 235 -0.919 11.381 141.053 1.00 48.14 C +HETATM13510 O3 GOL H 235 -0.372 10.485 141.962 1.00 42.45 O +HETATM13511 CL CL H 236 0.498 -8.576 121.717 1.00 74.40 CL +HETATM13512 O HOH H 237 24.572 -19.319 111.551 1.00 74.31 O +HETATM13513 O HOH H 238 17.151 -11.079 105.855 1.00 50.57 O +HETATM13514 O HOH H 239 -13.646 -6.577 154.810 1.00 48.98 O +HETATM13515 O HOH H 240 1.940 10.664 152.524 1.00 41.64 O +HETATM13516 O HOH H 241 8.951 -10.283 124.522 1.00 41.48 O +HETATM13517 O HOH H 242 -14.655 9.860 125.818 1.00 50.86 O +HETATM13518 O HOH H 243 4.859 1.280 118.219 1.00 42.59 O +HETATM13519 O HOH H 244 12.780 -12.912 97.762 1.00 63.25 O +HETATM13520 O HOH H 245 0.069 9.937 144.414 1.00 35.14 O +HETATM13521 O HOH H 246 3.845 -1.284 135.060 1.00 30.42 O +HETATM13522 O HOH H 247 -2.764 10.767 136.415 1.00 30.04 O +HETATM13523 O HOH H 248 -12.712 6.933 146.924 1.00 33.69 O +HETATM13524 O HOH H 249 -12.355 -12.940 149.484 1.00 55.62 O +HETATM13525 O HOH H 250 7.095 -2.943 124.828 1.00 47.47 O +HETATM13526 O HOH H 251 -8.303 3.401 156.964 1.00 33.05 O +HETATM13527 O HOH H 252 2.283 1.358 131.462 1.00 40.58 O +HETATM13528 O HOH H 253 25.058 -11.771 105.068 1.00 63.98 O +HETATM13529 O HOH H 254 -10.047 15.527 136.946 1.00 55.13 O +HETATM13530 O HOH H 255 1.719 -7.756 139.589 1.00 32.79 O +HETATM13531 O HOH H 256 -10.581 -11.833 111.315 1.00 50.75 O +HETATM13532 O HOH H 257 4.893 6.088 137.898 1.00 25.96 O +HETATM13533 O HOH H 258 -14.239 8.305 140.178 1.00 41.06 O +HETATM13534 O HOH H 259 -11.705 1.093 117.855 1.00 41.10 O +HETATM13535 O HOH H 260 -0.719 3.757 125.849 1.00 41.84 O +HETATM13536 O HOH H 261 -14.959 2.379 142.359 1.00 37.49 O +HETATM13537 O HOH H 262 -4.016 10.768 152.127 1.00 41.06 O +HETATM13538 O HOH H 263 9.057 0.534 133.180 1.00 50.34 O +HETATM13539 O HOH H 264 -6.107 16.586 137.611 1.00 34.24 O +HETATM13540 O HOH H 265 -13.630 -3.086 117.098 1.00 37.93 O +HETATM13541 O HOH H 266 11.567 -10.434 117.928 1.00 56.37 O +HETATM13542 O HOH H 267 -12.449 9.536 145.534 1.00 41.65 O +HETATM13543 O HOH H 268 -14.767 10.745 141.543 1.00 46.69 O +HETATM13544 O HOH H 269 -19.247 -2.678 150.358 1.00 53.57 O +HETATM13545 O HOH H 270 3.923 3.885 113.370 1.00 58.65 O +HETATM13546 O HOH H 271 -13.805 -6.473 152.841 1.00 50.49 O +HETATM13547 O HOH H 272 -0.360 9.195 130.064 1.00 47.09 O +HETATM13548 O HOH H 273 -1.676 -9.260 161.179 1.00 24.80 O +HETATM13549 O HOH H 274 6.741 -7.076 124.224 1.00 46.87 O +HETATM13550 O HOH H 275 -10.010 -4.921 156.870 1.00 26.19 O +HETATM13551 O HOH H 276 -11.029 -0.464 145.835 1.00 29.27 O +HETATM13552 O HOH H 277 8.620 0.376 122.354 1.00 45.37 O +HETATM13553 O HOH H 278 3.730 1.243 115.721 1.00 44.74 O +HETATM13554 O HOH H 279 -7.695 13.043 149.658 1.00 49.53 O +HETATM13555 O HOH H 280 -16.550 -3.419 143.431 1.00 35.96 O +HETATM13556 O HOH H 281 -0.820 3.223 128.325 1.00 33.48 O +HETATM13557 O HOH H 282 -9.192 7.886 121.863 1.00 37.37 O +HETATM13558 O HOH H 283 -7.843 -11.715 135.034 1.00 60.46 O +HETATM13559 O HOH H 284 5.604 6.691 145.120 1.00 45.49 O +HETATM13560 O HOH H 285 -18.276 -1.184 143.889 1.00 52.03 O +HETATM13561 O HOH H 286 -11.420 9.839 150.408 1.00 41.08 O +HETATM13562 O HOH H 287 7.099 7.555 131.642 1.00 46.63 O +HETATM13563 O HOH H 288 -13.968 0.698 131.972 1.00 37.35 O +HETATM13564 O HOH H 289 -7.084 -8.535 116.944 1.00 38.68 O +HETATM13565 O HOH H 290 -11.003 -2.142 125.968 1.00 47.12 O +HETATM13566 O HOH H 291 -20.077 -7.620 151.933 1.00 39.16 O +HETATM13567 O HOH H 292 -8.552 9.916 123.611 1.00 53.69 O +HETATM13568 O HOH H 293 -3.274 -7.130 158.499 1.00 33.49 O +HETATM13569 O HOH H 294 -8.289 -9.426 130.114 1.00 44.22 O +HETATM13570 O HOH H 295 2.073 5.497 130.726 1.00 33.23 O +HETATM13571 O HOH H 296 3.322 -6.976 155.493 1.00 32.48 O +HETATM13572 O HOH H 297 7.570 7.555 140.034 1.00 49.07 O +HETATM13573 O HOH H 298 2.559 -12.714 148.627 1.00 37.88 O +HETATM13574 O HOH H 299 2.469 10.646 136.737 1.00 59.34 O +HETATM13575 O HOH H 300 2.229 -5.982 134.630 1.00 51.45 O +HETATM13576 O HOH H 301 -0.561 11.740 135.963 1.00 41.61 O +HETATM13577 O HOH H 302 0.200 13.549 149.808 1.00 48.83 O +HETATM13578 O HOH H 303 -9.021 17.079 141.439 1.00 51.03 O +HETATM13579 O HOH H 304 -0.330 12.661 145.640 1.00 36.80 O +HETATM13580 O HOH H 305 21.124 -35.382 109.681 1.00 55.32 O +HETATM13581 O HOH H 306 0.770 -10.982 120.352 1.00 50.36 O +HETATM13582 O HOH H 307 -4.963 -2.399 121.951 1.00 38.91 O +HETATM13583 O HOH H 308 -3.451 -1.894 151.419 1.00 23.49 O +HETATM13584 O HOH H 309 -6.024 -12.485 152.326 1.00 55.58 O +HETATM13585 O HOH H 310 -20.781 -4.987 149.579 1.00 43.37 O +HETATM13586 O HOH H 311 -6.286 10.979 153.519 1.00 48.75 O +HETATM13587 O HOH H 312 -21.309 -4.977 152.265 1.00 34.99 O +HETATM13588 O HOH H 313 -7.155 7.810 157.225 1.00 40.77 O +HETATM13589 O HOH H 314 -17.856 6.420 129.546 1.00 45.01 O +HETATM13590 O HOH H 315 -5.026 -5.845 156.903 1.00 30.96 O +HETATM13591 O HOH H 316 -10.015 15.602 139.245 1.00 38.82 O +HETATM13592 O HOH H 317 2.741 7.984 112.010 1.00 52.29 O +HETATM13593 O HOH H 318 3.852 0.528 133.519 1.00 55.32 O +HETATM13594 O HOH H 319 -17.068 1.109 149.486 1.00 43.20 O +HETATM13595 O HOH H 320 -6.452 8.426 119.172 1.00 54.70 O +HETATM13596 O HOH H 321 -16.883 4.300 128.879 1.00 47.62 O +HETATM13597 O HOH H 322 -10.039 5.125 156.461 1.00 34.95 O +HETATM13598 O HOH H 323 10.772 7.098 140.473 1.00 41.98 O +HETATM13599 O HOH H 324 1.534 3.254 129.645 1.00 35.09 O +HETATM13600 O HOH H 325 -2.036 7.534 154.250 1.00 37.81 O +HETATM13601 O HOH H 326 -10.145 13.352 149.946 1.00 49.39 O +HETATM13602 O HOH H 327 -1.008 11.682 153.774 1.00 45.30 O +HETATM13603 O HOH H 328 0.824 14.279 135.740 1.00 57.63 O +HETATM13604 O HOH H 329 0.886 10.066 111.573 1.00 57.17 O +HETATM13605 O HOH H 330 -5.960 10.714 123.259 1.00 47.57 O +HETATM13606 O HOH H 331 -6.268 10.897 120.217 1.00 59.94 O diff --git a/content/data/protein/benchbb_antibody_targets/5x8m_imgt.pdb b/content/data/protein/benchbb_antibody_targets/5x8m_imgt.pdb new file mode 100644 index 0000000..d803f73 --- /dev/null +++ b/content/data/protein/benchbb_antibody_targets/5x8m_imgt.pdb @@ -0,0 +1,4278 @@ +REMARK 5 IMGT RENUMBERED STRUCTURE 5X8M GENERATED BY SABDAB +REMARK 5 ANTIBODY CHAINS ARE RENUMBERED IN THE VARIABLE REGIONS ONLY +REMARK 5 NON ANTIBODY CHAINS ARE LEFT WITH RESIDUE IDS AS IN PDB +REMARK 5 PAIRED_HL HCHAIN=B LCHAIN=C AGCHAIN=A AGTYPE=PROTEIN +ATOM 1 N ALA A 18 30.627 85.052 81.072 1.00 48.64 N +ATOM 2 CA ALA A 18 31.818 85.729 80.588 1.00 48.72 C +ATOM 3 C ALA A 18 31.667 87.235 80.747 1.00 49.13 C +ATOM 4 O ALA A 18 32.592 87.891 81.225 1.00 50.81 O +ATOM 5 CB ALA A 18 32.105 85.357 79.131 1.00 55.31 C +ATOM 6 N PHE A 19 30.520 87.792 80.350 1.00 46.07 N +ATOM 7 CA PHE A 19 30.247 89.191 80.672 1.00 43.62 C +ATOM 8 C PHE A 19 29.870 89.316 82.146 1.00 44.73 C +ATOM 9 O PHE A 19 28.871 88.749 82.607 1.00 42.72 O +ATOM 10 CB PHE A 19 29.135 89.790 79.815 1.00 38.55 C +ATOM 11 CG PHE A 19 28.922 91.268 80.060 1.00 37.09 C +ATOM 12 CD1 PHE A 19 29.697 92.216 79.402 1.00 40.51 C +ATOM 13 CD2 PHE A 19 27.975 91.711 80.969 1.00 37.68 C +ATOM 14 CE1 PHE A 19 29.510 93.590 79.625 1.00 38.62 C +ATOM 15 CE2 PHE A 19 27.785 93.068 81.204 1.00 39.35 C +ATOM 16 CZ PHE A 19 28.554 94.012 80.528 1.00 37.43 C +ATOM 17 N THR A 20 30.668 90.096 82.862 1.00 40.34 N +ATOM 18 CA THR A 20 30.557 90.217 84.299 1.00 40.92 C +ATOM 19 C THR A 20 30.764 91.665 84.761 1.00 40.92 C +ATOM 20 O THR A 20 31.746 92.326 84.392 1.00 40.88 O +ATOM 21 CB THR A 20 31.571 89.287 84.989 1.00 41.00 C +ATOM 22 OG1 THR A 20 31.158 87.932 84.790 1.00 53.10 O +ATOM 23 CG2 THR A 20 31.647 89.558 86.479 1.00 41.86 C +ATOM 24 N VAL A 21 29.817 92.156 85.552 1.00 37.22 N +ATOM 25 CA VAL A 21 29.994 93.412 86.245 1.00 37.79 C +ATOM 26 C VAL A 21 30.734 93.112 87.542 1.00 36.76 C +ATOM 27 O VAL A 21 30.419 92.154 88.245 1.00 39.62 O +ATOM 28 CB VAL A 21 28.644 94.114 86.510 1.00 40.60 C +ATOM 29 CG1 VAL A 21 28.822 95.296 87.483 1.00 37.44 C +ATOM 30 CG2 VAL A 21 28.000 94.567 85.181 1.00 31.69 C +ATOM 31 N THR A 22 31.751 93.909 87.835 1.00 39.91 N +ATOM 32 CA THR A 22 32.562 93.722 89.041 1.00 36.77 C +ATOM 33 C THR A 22 32.554 94.942 89.925 1.00 37.02 C +ATOM 34 O THR A 22 32.200 96.040 89.497 1.00 39.80 O +ATOM 35 CB THR A 22 34.023 93.404 88.710 1.00 39.38 C +ATOM 36 OG1 THR A 22 34.471 94.263 87.647 1.00 49.93 O +ATOM 37 CG2 THR A 22 34.177 91.962 88.307 1.00 39.07 C +ATOM 38 N VAL A 23 32.948 94.746 91.173 1.00 44.34 N +ATOM 39 CA VAL A 23 33.088 95.863 92.085 1.00 41.22 C +ATOM 40 C VAL A 23 34.429 95.755 92.796 1.00 41.47 C +ATOM 41 O VAL A 23 34.702 94.780 93.497 1.00 39.80 O +ATOM 42 CB VAL A 23 31.911 95.929 93.084 1.00 39.37 C +ATOM 43 CG1 VAL A 23 30.626 96.334 92.352 1.00 40.05 C +ATOM 44 CG2 VAL A 23 31.717 94.604 93.776 1.00 42.87 C +ATOM 45 N PRO A 24 35.302 96.745 92.556 1.00 48.65 N +ATOM 46 CA PRO A 24 36.563 96.878 93.294 1.00 47.27 C +ATOM 47 C PRO A 24 36.280 96.865 94.795 1.00 43.11 C +ATOM 48 O PRO A 24 36.869 96.089 95.548 1.00 46.54 O +ATOM 49 CB PRO A 24 37.107 98.235 92.827 1.00 42.02 C +ATOM 50 CG PRO A 24 36.521 98.419 91.473 1.00 49.87 C +ATOM 51 CD PRO A 24 35.149 97.791 91.528 1.00 46.51 C +ATOM 52 N LYS A 25 35.353 97.708 95.221 1.00 39.39 N +ATOM 53 CA LYS A 25 34.902 97.657 96.599 1.00 38.99 C +ATOM 54 C LYS A 25 33.422 97.323 96.653 1.00 37.72 C +ATOM 55 O LYS A 25 32.618 97.904 95.913 1.00 38.86 O +ATOM 56 CB LYS A 25 35.178 98.985 97.310 1.00 37.93 C +ATOM 57 CG LYS A 25 36.464 99.648 96.866 1.00 35.29 C +ATOM 58 CD LYS A 25 37.124 100.367 98.016 1.00 43.17 C +ATOM 59 CE LYS A 25 36.161 101.285 98.742 1.00 40.22 C +ATOM 60 NZ LYS A 25 36.678 101.595 100.110 1.00 42.23 N +ATOM 61 N ASP A 26 33.064 96.384 97.524 1.00 36.28 N +ATOM 62 CA ASP A 26 31.662 96.056 97.736 1.00 36.00 C +ATOM 63 C ASP A 26 31.159 96.783 98.982 1.00 35.50 C +ATOM 64 O ASP A 26 29.989 96.688 99.351 1.00 38.42 O +ATOM 65 CB ASP A 26 31.459 94.539 97.856 1.00 37.79 C +ATOM 66 CG ASP A 26 32.363 93.890 98.912 1.00 44.73 C +ATOM 67 OD1 ASP A 26 32.962 94.613 99.750 1.00 42.15 O +ATOM 68 OD2 ASP A 26 32.451 92.637 98.908 1.00 42.16 O +ATOM 69 N LEU A 27 32.058 97.520 99.626 1.00 35.79 N +ATOM 70 CA LEU A 27 31.710 98.274 100.827 1.00 34.21 C +ATOM 71 C LEU A 27 32.421 99.610 100.886 1.00 36.77 C +ATOM 72 O LEU A 27 33.644 99.676 100.783 1.00 36.61 O +ATOM 73 CB LEU A 27 32.047 97.476 102.080 1.00 31.90 C +ATOM 74 CG LEU A 27 31.850 98.222 103.404 1.00 36.46 C +ATOM 75 CD1 LEU A 27 30.403 98.727 103.541 1.00 30.82 C +ATOM 76 CD2 LEU A 27 32.239 97.327 104.577 1.00 32.39 C +ATOM 77 N TYR A 28 31.645 100.673 101.068 1.00 35.47 N +ATOM 78 CA TYR A 28 32.200 102.012 101.233 1.00 37.09 C +ATOM 79 C TYR A 28 31.843 102.594 102.598 1.00 35.16 C +ATOM 80 O TYR A 28 30.698 102.489 103.032 1.00 36.07 O +ATOM 81 CB TYR A 28 31.694 102.942 100.134 1.00 37.88 C +ATOM 82 CG TYR A 28 32.225 102.652 98.745 1.00 39.44 C +ATOM 83 CD1 TYR A 28 33.134 103.511 98.137 1.00 39.78 C +ATOM 84 CD2 TYR A 28 31.809 101.530 98.036 1.00 36.67 C +ATOM 85 CE1 TYR A 28 33.621 103.261 96.863 1.00 38.66 C +ATOM 86 CE2 TYR A 28 32.292 101.267 96.761 1.00 37.83 C +ATOM 87 CZ TYR A 28 33.197 102.142 96.172 1.00 39.19 C +ATOM 88 OH TYR A 28 33.682 101.901 94.895 1.00 40.20 O +ATOM 89 N VAL A 29 32.827 103.196 103.268 1.00 34.05 N +ATOM 90 CA VAL A 29 32.613 103.901 104.536 1.00 33.83 C +ATOM 91 C VAL A 29 33.003 105.368 104.374 1.00 35.27 C +ATOM 92 O VAL A 29 34.183 105.684 104.181 1.00 33.76 O +ATOM 93 CB VAL A 29 33.430 103.280 105.708 1.00 32.29 C +ATOM 94 CG1 VAL A 29 33.187 104.050 107.007 1.00 29.79 C +ATOM 95 CG2 VAL A 29 33.078 101.825 105.896 1.00 29.72 C +ATOM 96 N VAL A 30 32.027 106.270 104.438 1.00 32.18 N +ATOM 97 CA VAL A 30 32.344 107.670 104.174 1.00 35.38 C +ATOM 98 C VAL A 30 31.876 108.616 105.271 1.00 33.87 C +ATOM 99 O VAL A 30 30.977 108.307 106.053 1.00 33.05 O +ATOM 100 CB VAL A 30 31.750 108.145 102.815 1.00 37.16 C +ATOM 101 CG1 VAL A 30 32.240 107.253 101.680 1.00 34.17 C +ATOM 102 CG2 VAL A 30 30.234 108.196 102.859 1.00 36.96 C +ATOM 103 N GLU A 31 32.511 109.779 105.319 1.00 39.64 N +ATOM 104 CA GLU A 31 32.142 110.799 106.288 1.00 40.26 C +ATOM 105 C GLU A 31 30.963 111.582 105.771 1.00 34.32 C +ATOM 106 O GLU A 31 30.862 111.870 104.576 1.00 38.11 O +ATOM 107 CB GLU A 31 33.317 111.742 106.588 1.00 38.70 C +ATOM 108 CG GLU A 31 34.576 111.029 107.091 1.00 46.89 C +ATOM 109 CD GLU A 31 34.324 110.136 108.306 1.00 53.50 C +ATOM 110 OE1 GLU A 31 33.558 110.545 109.208 1.00 53.57 O +ATOM 111 OE2 GLU A 31 34.896 109.021 108.355 1.00 57.42 O +ATOM 112 N TYR A 32 30.062 111.902 106.682 1.00 34.84 N +ATOM 113 CA TYR A 32 28.960 112.797 106.398 1.00 38.79 C +ATOM 114 C TYR A 32 29.468 114.096 105.756 1.00 38.51 C +ATOM 115 O TYR A 32 30.496 114.645 106.162 1.00 37.02 O +ATOM 116 CB TYR A 32 28.200 113.077 107.691 1.00 35.99 C +ATOM 117 CG TYR A 32 27.120 114.112 107.584 1.00 37.61 C +ATOM 118 CD1 TYR A 32 27.400 115.455 107.794 1.00 35.13 C +ATOM 119 CD2 TYR A 32 25.811 113.746 107.305 1.00 37.25 C +ATOM 120 CE1 TYR A 32 26.410 116.409 107.706 1.00 37.41 C +ATOM 121 CE2 TYR A 32 24.816 114.688 107.218 1.00 37.17 C +ATOM 122 CZ TYR A 32 25.120 116.019 107.419 1.00 37.86 C +ATOM 123 OH TYR A 32 24.130 116.967 107.342 1.00 45.60 O +ATOM 124 N GLY A 33 28.769 114.562 104.726 1.00 37.06 N +ATOM 125 CA GLY A 33 29.110 115.826 104.101 1.00 37.54 C +ATOM 126 C GLY A 33 30.217 115.793 103.059 1.00 40.74 C +ATOM 127 O GLY A 33 30.482 116.791 102.402 1.00 44.63 O +ATOM 128 N SER A 34 30.878 114.660 102.895 1.00 40.66 N +ATOM 129 CA SER A 34 31.939 114.582 101.903 1.00 37.98 C +ATOM 130 C SER A 34 31.399 114.097 100.580 1.00 41.52 C +ATOM 131 O SER A 34 30.200 113.833 100.443 1.00 41.32 O +ATOM 132 CB SER A 34 33.048 113.644 102.365 1.00 41.20 C +ATOM 133 OG SER A 34 32.566 112.311 102.415 1.00 42.48 O +ATOM 134 N ASN A 35 32.303 113.965 99.616 1.00 41.21 N +ATOM 135 CA ASN A 35 31.969 113.405 98.317 1.00 41.72 C +ATOM 136 C ASN A 35 32.381 111.945 98.236 1.00 37.69 C +ATOM 137 O ASN A 35 33.274 111.503 98.960 1.00 36.87 O +ATOM 138 CB ASN A 35 32.637 114.207 97.200 1.00 42.45 C +ATOM 139 CG ASN A 35 32.186 115.649 97.174 1.00 43.13 C +ATOM 140 OD1 ASN A 35 31.072 115.971 97.593 1.00 41.54 O +ATOM 141 ND2 ASN A 35 33.049 116.531 96.680 1.00 51.92 N +ATOM 142 N MET A 36 31.711 111.197 97.368 1.00 37.71 N +ATOM 143 CA MET A 36 32.005 109.781 97.179 1.00 38.33 C +ATOM 144 C MET A 36 31.779 109.383 95.725 1.00 46.29 C +ATOM 145 O MET A 36 30.876 109.901 95.039 1.00 40.40 O +ATOM 146 CB MET A 36 31.140 108.906 98.084 1.00 36.33 C +ATOM 147 CG MET A 36 29.673 108.953 97.705 1.00 45.66 C +ATOM 148 SD MET A 36 28.609 107.782 98.565 1.00 50.16 S +ATOM 149 CE MET A 36 29.745 106.410 98.724 1.00 60.26 C +ATOM 150 N THR A 37 32.612 108.460 95.259 1.00 44.48 N +ATOM 151 CA THR A 37 32.469 107.920 93.926 1.00 39.65 C +ATOM 152 C THR A 37 32.501 106.412 93.980 1.00 40.82 C +ATOM 153 O THR A 37 33.555 105.822 94.208 1.00 42.89 O +ATOM 154 CB THR A 37 33.576 108.404 92.999 1.00 41.79 C +ATOM 155 OG1 THR A 37 33.559 109.838 92.947 1.00 45.81 O +ATOM 156 CG2 THR A 37 33.368 107.818 91.606 1.00 43.28 C +ATOM 157 N ILE A 38 31.360 105.771 93.776 1.00 39.89 N +ATOM 158 CA ILE A 38 31.359 104.314 93.775 1.00 40.10 C +ATOM 159 C ILE A 38 31.476 103.771 92.346 1.00 41.60 C +ATOM 160 O ILE A 38 31.031 104.409 91.391 1.00 43.81 O +ATOM 161 CB ILE A 38 30.114 103.775 94.482 1.00 43.92 C +ATOM 162 CG1 ILE A 38 28.840 104.266 93.803 1.00 44.70 C +ATOM 163 CG2 ILE A 38 30.108 104.245 95.921 1.00 39.49 C +ATOM 164 CD1 ILE A 38 27.581 103.965 94.621 1.00 46.40 C +ATOM 165 N GLU A 39 32.098 102.605 92.193 1.00 42.39 N +ATOM 166 CA GLU A 39 32.455 102.117 90.860 1.00 43.51 C +ATOM 167 C GLU A 39 31.892 100.740 90.561 1.00 41.57 C +ATOM 168 O GLU A 39 31.921 99.846 91.403 1.00 43.03 O +ATOM 169 CB GLU A 39 33.983 102.098 90.687 1.00 41.84 C +ATOM 170 CG GLU A 39 34.634 103.488 90.855 1.00 50.64 C +ATOM 171 CD GLU A 39 36.112 103.542 90.456 1.00 63.41 C +ATOM 172 OE1 GLU A 39 36.854 102.579 90.755 1.00 69.27 O +ATOM 173 OE2 GLU A 39 36.528 104.551 89.837 1.00 63.18 O +ATOM 174 N CYS A 40 31.339 100.600 89.362 1.00 40.66 N +ATOM 175 CA CYS A 40 31.068 99.297 88.763 1.00 45.13 C +ATOM 176 C CYS A 40 31.953 99.178 87.540 1.00 42.17 C +ATOM 177 O CYS A 40 32.057 100.124 86.749 1.00 39.56 O +ATOM 178 CB CYS A 40 29.596 99.128 88.358 1.00 46.60 C +ATOM 179 SG CYS A 40 28.500 98.299 89.558 1.00 73.30 S +ATOM 180 N LYS A 41 32.588 98.027 87.375 1.00 39.93 N +ATOM 181 CA LYS A 41 33.431 97.819 86.209 1.00 40.16 C +ATOM 182 C LYS A 41 32.806 96.780 85.291 1.00 37.97 C +ATOM 183 O LYS A 41 32.111 95.866 85.737 1.00 36.18 O +ATOM 184 CB LYS A 41 34.846 97.420 86.636 1.00 41.58 C +ATOM 185 CG LYS A 41 35.664 98.606 87.151 1.00 36.83 C +ATOM 186 CD LYS A 41 37.118 98.251 87.377 1.00 51.52 C +ATOM 187 CE LYS A 41 37.946 99.477 87.784 1.00 55.63 C +ATOM 188 NZ LYS A 41 38.329 100.309 86.606 1.00 53.94 N +ATOM 189 N PHE A 42 33.026 96.960 83.996 1.00 36.71 N +ATOM 190 CA PHE A 42 32.521 96.051 82.980 1.00 34.73 C +ATOM 191 C PHE A 42 33.513 96.044 81.807 1.00 39.51 C +ATOM 192 O PHE A 42 34.140 97.061 81.506 1.00 37.72 O +ATOM 193 CB PHE A 42 31.120 96.463 82.529 1.00 32.21 C +ATOM 194 CG PHE A 42 31.080 97.793 81.842 1.00 38.56 C +ATOM 195 CD1 PHE A 42 31.085 98.976 82.584 1.00 38.90 C +ATOM 196 CD2 PHE A 42 31.079 97.871 80.451 1.00 36.03 C +ATOM 197 CE1 PHE A 42 31.073 100.220 81.951 1.00 37.91 C +ATOM 198 CE2 PHE A 42 31.069 99.104 79.806 1.00 36.11 C +ATOM 199 CZ PHE A 42 31.066 100.286 80.556 1.00 39.86 C +ATOM 200 N PRO A 43 33.674 94.886 81.147 1.00 38.88 N +ATOM 201 CA PRO A 43 34.690 94.725 80.093 1.00 36.00 C +ATOM 202 C PRO A 43 34.419 95.518 78.800 1.00 38.74 C +ATOM 203 O PRO A 43 33.356 95.396 78.180 1.00 41.82 O +ATOM 204 CB PRO A 43 34.665 93.216 79.819 1.00 28.41 C +ATOM 205 CG PRO A 43 33.324 92.776 80.236 1.00 35.36 C +ATOM 206 CD PRO A 43 32.943 93.634 81.406 1.00 37.50 C +ATOM 207 N VAL A 44 35.395 96.334 78.411 1.00 37.39 N +ATOM 208 CA VAL A 44 35.357 97.057 77.137 1.00 44.28 C +ATOM 209 C VAL A 44 36.618 96.778 76.317 1.00 48.30 C +ATOM 210 O VAL A 44 37.738 97.016 76.787 1.00 49.50 O +ATOM 211 CB VAL A 44 35.233 98.585 77.342 1.00 44.81 C +ATOM 212 CG1 VAL A 44 35.325 99.315 76.008 1.00 42.22 C +ATOM 213 CG2 VAL A 44 33.945 98.926 78.057 1.00 40.18 C +ATOM 214 N GLU A 45 36.445 96.260 75.105 1.00 47.98 N +ATOM 215 CA GLU A 45 37.583 96.110 74.204 1.00 56.33 C +ATOM 216 C GLU A 45 37.599 97.262 73.193 1.00 54.15 C +ATOM 217 O GLU A 45 36.561 97.649 72.652 1.00 53.83 O +ATOM 218 CB GLU A 45 37.563 94.747 73.506 1.00 58.09 C +ATOM 219 CG GLU A 45 36.324 94.462 72.664 1.00 69.27 C +ATOM 220 CD GLU A 45 36.359 93.083 72.003 1.00 80.97 C +ATOM 221 OE1 GLU A 45 37.289 92.819 71.208 1.00 88.99 O +ATOM 222 OE2 GLU A 45 35.455 92.263 72.281 1.00 81.57 O +ATOM 223 N LYS A 46 38.796 97.799 72.965 1.00 55.59 N +ATOM 224 CA LYS A 46 39.024 99.029 72.201 1.00 59.68 C +ATOM 225 C LYS A 46 37.910 100.062 72.438 1.00 57.11 C +ATOM 226 O LYS A 46 37.598 100.364 73.587 1.00 61.28 O +ATOM 227 CB LYS A 46 39.195 98.723 70.710 1.00 64.14 C +ATOM 228 CG LYS A 46 40.345 99.542 70.078 1.00 74.19 C +ATOM 229 CD LYS A 46 40.788 99.034 68.702 1.00 76.79 C +ATOM 230 CE LYS A 46 42.227 99.471 68.350 1.00 74.83 C +ATOM 231 NZ LYS A 46 43.143 99.647 69.517 1.00 74.19 N +ATOM 232 N GLU A 47 37.292 100.587 71.383 1.00 54.38 N +ATOM 233 CA GLU A 47 36.405 101.738 71.559 1.00 55.39 C +ATOM 234 C GLU A 47 34.944 101.387 71.897 1.00 48.15 C +ATOM 235 O GLU A 47 34.340 100.480 71.325 1.00 45.48 O +ATOM 236 CB GLU A 47 36.454 102.635 70.320 1.00 55.28 C +ATOM 237 CG GLU A 47 36.767 104.090 70.660 1.00 62.14 C +ATOM 238 CD GLU A 47 36.661 105.025 69.471 1.00 67.81 C +ATOM 239 OE1 GLU A 47 35.612 105.014 68.782 1.00 66.20 O +ATOM 240 OE2 GLU A 47 37.629 105.777 69.231 1.00 73.18 O +ATOM 241 N LEU A 48 34.401 102.150 72.841 1.00 49.79 N +ATOM 242 CA LEU A 48 33.076 101.942 73.416 1.00 46.00 C +ATOM 243 C LEU A 48 31.955 102.551 72.570 1.00 47.39 C +ATOM 244 O LEU A 48 31.927 103.762 72.346 1.00 49.63 O +ATOM 245 CB LEU A 48 33.029 102.544 74.825 1.00 40.66 C +ATOM 246 CG LEU A 48 31.649 102.665 75.474 1.00 42.75 C +ATOM 247 CD1 LEU A 48 31.254 101.334 76.098 1.00 39.90 C +ATOM 248 CD2 LEU A 48 31.599 103.814 76.487 1.00 38.51 C +ATOM 249 N ASP A 49 31.023 101.704 72.134 1.00 44.89 N +ATOM 250 CA ASP A 49 29.878 102.123 71.331 1.00 42.95 C +ATOM 251 C ASP A 49 28.658 102.426 72.231 1.00 45.31 C +ATOM 252 O ASP A 49 28.044 101.527 72.811 1.00 42.79 O +ATOM 253 CB ASP A 49 29.567 101.040 70.287 1.00 46.14 C +ATOM 254 CG ASP A 49 28.299 101.316 69.496 1.00 51.75 C +ATOM 255 OD1 ASP A 49 27.858 102.488 69.443 1.00 55.06 O +ATOM 256 OD2 ASP A 49 27.752 100.349 68.914 1.00 55.75 O +ATOM 257 N LEU A 50 28.316 103.703 72.340 1.00 41.77 N +ATOM 258 CA LEU A 50 27.293 104.142 73.278 1.00 39.89 C +ATOM 259 C LEU A 50 25.885 103.610 72.972 1.00 38.85 C +ATOM 260 O LEU A 50 25.053 103.493 73.872 1.00 40.27 O +ATOM 261 CB LEU A 50 27.274 105.679 73.332 1.00 36.30 C +ATOM 262 CG LEU A 50 28.507 106.370 73.933 1.00 36.22 C +ATOM 263 CD1 LEU A 50 28.383 107.876 73.889 1.00 32.43 C +ATOM 264 CD2 LEU A 50 28.714 105.928 75.365 1.00 41.56 C +ATOM 265 N ALA A 51 25.605 103.296 71.714 1.00 36.57 N +ATOM 266 CA ALA A 51 24.258 102.875 71.348 1.00 38.31 C +ATOM 267 C ALA A 51 23.889 101.538 71.976 1.00 42.05 C +ATOM 268 O ALA A 51 22.719 101.250 72.227 1.00 46.72 O +ATOM 269 CB ALA A 51 24.129 102.784 69.873 1.00 40.55 C +ATOM 270 N ALA A 52 24.907 100.720 72.208 1.00 43.50 N +ATOM 271 CA ALA A 52 24.726 99.373 72.720 1.00 41.97 C +ATOM 272 C ALA A 52 24.682 99.333 74.247 1.00 39.20 C +ATOM 273 O ALA A 52 24.450 98.271 74.825 1.00 35.73 O +ATOM 274 CB ALA A 52 25.855 98.469 72.204 1.00 41.26 C +ATOM 275 N LEU A 53 24.899 100.487 74.886 1.00 37.13 N +ATOM 276 CA LEU A 53 25.211 100.551 76.320 1.00 35.35 C +ATOM 277 C LEU A 53 24.063 101.072 77.174 1.00 35.50 C +ATOM 278 O LEU A 53 23.494 102.129 76.883 1.00 36.65 O +ATOM 279 CB LEU A 53 26.445 101.436 76.550 1.00 34.33 C +ATOM 280 CG LEU A 53 26.762 101.773 78.013 1.00 36.71 C +ATOM 281 CD1 LEU A 53 27.375 100.579 78.726 1.00 33.71 C +ATOM 282 CD2 LEU A 53 27.668 103.005 78.148 1.00 38.64 C +ATOM 283 N ILE A 54 23.726 100.328 78.228 1.00 33.80 N +ATOM 284 CA ILE A 54 22.779 100.800 79.244 1.00 34.05 C +ATOM 285 C ILE A 54 23.400 100.741 80.652 1.00 35.34 C +ATOM 286 O ILE A 54 24.013 99.734 81.032 1.00 33.53 O +ATOM 287 CB ILE A 54 21.471 99.984 79.216 1.00 33.44 C +ATOM 288 CG1 ILE A 54 20.770 100.158 77.873 1.00 32.66 C +ATOM 289 CG2 ILE A 54 20.533 100.396 80.367 1.00 33.10 C +ATOM 290 CD1 ILE A 54 19.636 99.170 77.623 1.00 29.30 C +ATOM 291 N VAL A 55 23.269 101.830 81.413 1.00 32.75 N +ATOM 292 CA VAL A 55 23.713 101.835 82.808 1.00 36.32 C +ATOM 293 C VAL A 55 22.596 102.265 83.753 1.00 33.93 C +ATOM 294 O VAL A 55 21.995 103.313 83.550 1.00 36.15 O +ATOM 295 CB VAL A 55 24.923 102.762 83.015 1.00 35.37 C +ATOM 296 CG1 VAL A 55 25.362 102.767 84.493 1.00 27.72 C +ATOM 297 CG2 VAL A 55 26.057 102.331 82.108 1.00 25.52 C +ATOM 298 N TYR A 56 22.301 101.445 84.762 1.00 35.15 N +ATOM 299 CA TYR A 56 21.388 101.850 85.834 1.00 36.36 C +ATOM 300 C TYR A 56 22.126 101.888 87.159 1.00 32.10 C +ATOM 301 O TYR A 56 22.832 100.950 87.499 1.00 33.47 O +ATOM 302 CB TYR A 56 20.194 100.908 86.000 1.00 35.82 C +ATOM 303 CG TYR A 56 19.313 100.683 84.807 1.00 39.17 C +ATOM 304 CD1 TYR A 56 19.056 101.691 83.888 1.00 45.38 C +ATOM 305 CD2 TYR A 56 18.704 99.448 84.616 1.00 44.50 C +ATOM 306 CE1 TYR A 56 18.217 101.458 82.783 1.00 47.16 C +ATOM 307 CE2 TYR A 56 17.881 99.203 83.532 1.00 43.12 C +ATOM 308 CZ TYR A 56 17.639 100.204 82.615 1.00 48.87 C +ATOM 309 OH TYR A 56 16.811 99.939 81.541 1.00 51.09 O +ATOM 310 N TRP A 57 21.949 102.973 87.900 1.00 35.11 N +ATOM 311 CA TRP A 57 22.271 103.006 89.319 1.00 34.38 C +ATOM 312 C TRP A 57 20.987 103.191 90.118 1.00 34.68 C +ATOM 313 O TRP A 57 20.198 104.098 89.849 1.00 36.96 O +ATOM 314 CB TRP A 57 23.250 104.129 89.630 1.00 37.91 C +ATOM 315 CG TRP A 57 24.680 103.813 89.333 1.00 35.48 C +ATOM 316 CD1 TRP A 57 25.395 104.186 88.231 1.00 35.10 C +ATOM 317 CD2 TRP A 57 25.582 103.072 90.163 1.00 38.26 C +ATOM 318 NE1 TRP A 57 26.691 103.723 88.324 1.00 34.75 N +ATOM 319 CE2 TRP A 57 26.829 103.033 89.500 1.00 37.85 C +ATOM 320 CE3 TRP A 57 25.456 102.433 91.403 1.00 39.22 C +ATOM 321 CZ2 TRP A 57 27.942 102.384 90.038 1.00 37.83 C +ATOM 322 CZ3 TRP A 57 26.567 101.786 91.937 1.00 37.94 C +ATOM 323 CH2 TRP A 57 27.789 101.768 91.255 1.00 35.28 C +ATOM 324 N GLU A 58 20.753 102.324 91.090 1.00 37.71 N +ATOM 325 CA GLU A 58 19.571 102.469 91.943 1.00 38.45 C +ATOM 326 C GLU A 58 19.956 102.403 93.424 1.00 39.60 C +ATOM 327 O GLU A 58 20.958 101.804 93.807 1.00 39.19 O +ATOM 328 CB GLU A 58 18.526 101.394 91.615 1.00 32.64 C +ATOM 329 CG GLU A 58 18.139 101.347 90.155 1.00 40.32 C +ATOM 330 CD GLU A 58 17.627 99.979 89.728 1.00 48.91 C +ATOM 331 OE1 GLU A 58 17.665 99.053 90.569 1.00 41.32 O +ATOM 332 OE2 GLU A 58 17.214 99.826 88.549 1.00 52.94 O +ATOM 333 N MET A 59 19.140 103.033 94.252 1.00 39.53 N +ATOM 334 CA MET A 59 19.322 103.036 95.695 1.00 35.15 C +ATOM 335 C MET A 59 17.937 102.824 96.277 1.00 37.52 C +ATOM 336 O MET A 59 17.027 103.613 95.989 1.00 34.31 O +ATOM 337 CB MET A 59 19.938 104.356 96.166 1.00 34.70 C +ATOM 338 CG MET A 59 19.609 104.743 97.606 1.00 40.93 C +ATOM 339 SD MET A 59 20.376 103.606 98.729 1.00100.23 S +ATOM 340 CE MET A 59 20.258 104.534 100.247 1.00 59.70 C +ATOM 341 N GLU A 60 17.765 101.762 97.063 1.00 43.44 N +ATOM 342 CA GLU A 60 16.434 101.398 97.550 1.00 45.03 C +ATOM 343 C GLU A 60 15.462 101.311 96.360 1.00 43.52 C +ATOM 344 O GLU A 60 15.754 100.626 95.373 1.00 43.68 O +ATOM 345 CB GLU A 60 15.950 102.402 98.604 1.00 46.06 C +ATOM 346 CG GLU A 60 16.699 102.254 99.942 1.00 48.84 C +ATOM 347 CD GLU A 60 16.548 103.436 100.900 1.00 52.06 C +ATOM 348 OE1 GLU A 60 17.295 103.451 101.902 1.00 55.32 O +ATOM 349 OE2 GLU A 60 15.715 104.340 100.655 1.00 53.77 O +ATOM 350 N ASP A 61 14.321 101.991 96.442 1.00 41.32 N +ATOM 351 CA ASP A 61 13.369 101.997 95.330 1.00 46.95 C +ATOM 352 C ASP A 61 13.478 103.256 94.470 1.00 49.77 C +ATOM 353 O ASP A 61 12.589 103.542 93.677 1.00 50.30 O +ATOM 354 CB ASP A 61 11.933 101.873 95.835 1.00 46.46 C +ATOM 355 CG ASP A 61 11.478 103.098 96.626 1.00 60.00 C +ATOM 356 OD1 ASP A 61 12.337 103.889 97.094 1.00 57.57 O +ATOM 357 OD2 ASP A 61 10.246 103.278 96.767 1.00 67.19 O +ATOM 358 N LYS A 62 14.545 104.030 94.650 1.00 51.69 N +ATOM 359 CA LYS A 62 14.735 105.233 93.843 1.00 47.21 C +ATOM 360 C LYS A 62 15.701 104.961 92.689 1.00 47.45 C +ATOM 361 O LYS A 62 16.576 104.092 92.780 1.00 49.07 O +ATOM 362 CB LYS A 62 15.249 106.398 94.700 1.00 47.11 C +ATOM 363 CG LYS A 62 14.858 106.352 96.173 1.00 49.83 C +ATOM 364 CD LYS A 62 15.479 107.517 96.948 1.00 51.11 C +ATOM 365 CE LYS A 62 15.635 107.192 98.436 1.00 59.72 C +ATOM 366 NZ LYS A 62 14.335 107.056 99.168 1.00 65.40 N +ATOM 367 N ASN A 63 15.532 105.690 91.592 1.00 47.26 N +ATOM 368 CA ASN A 63 16.473 105.608 90.487 1.00 41.57 C +ATOM 369 C ASN A 63 17.416 106.803 90.531 1.00 45.40 C +ATOM 370 O ASN A 63 16.966 107.945 90.585 1.00 49.66 O +ATOM 371 CB ASN A 63 15.751 105.548 89.139 1.00 40.82 C +ATOM 372 CG ASN A 63 16.714 105.586 87.967 1.00 50.76 C +ATOM 373 OD1 ASN A 63 17.112 106.668 87.509 1.00 49.63 O +ATOM 374 ND2 ASN A 63 17.122 104.402 87.489 1.00 45.12 N +ATOM 375 N ILE A 64 18.720 106.539 90.537 1.00 37.07 N +ATOM 376 CA ILE A 64 19.710 107.604 90.521 1.00 38.75 C +ATOM 377 C ILE A 64 20.143 107.936 89.092 1.00 43.29 C +ATOM 378 O ILE A 64 20.174 109.100 88.678 1.00 39.94 O +ATOM 379 CB ILE A 64 20.976 107.228 91.315 1.00 36.18 C +ATOM 380 CG1 ILE A 64 20.631 106.550 92.640 1.00 39.69 C +ATOM 381 CG2 ILE A 64 21.837 108.449 91.530 1.00 34.63 C +ATOM 382 CD1 ILE A 64 21.854 106.040 93.370 1.00 36.07 C +ATOM 383 N ILE A 65 20.517 106.900 88.350 1.00 35.78 N +ATOM 384 CA ILE A 65 21.062 107.088 87.021 1.00 40.76 C +ATOM 385 C ILE A 65 20.416 106.126 86.038 1.00 40.20 C +ATOM 386 O ILE A 65 20.353 104.926 86.283 1.00 39.11 O +ATOM 387 CB ILE A 65 22.592 106.883 86.996 1.00 44.87 C +ATOM 388 CG1 ILE A 65 23.301 107.936 87.855 1.00 42.25 C +ATOM 389 CG2 ILE A 65 23.119 106.912 85.562 1.00 37.48 C +ATOM 390 CD1 ILE A 65 23.401 109.288 87.201 1.00 44.13 C +ATOM 391 N GLN A 66 19.914 106.663 84.934 1.00 38.83 N +ATOM 392 CA GLN A 66 19.481 105.822 83.835 1.00 41.98 C +ATOM 393 C GLN A 66 20.125 106.334 82.555 1.00 43.96 C +ATOM 394 O GLN A 66 19.656 107.308 81.959 1.00 44.30 O +ATOM 395 CB GLN A 66 17.962 105.796 83.708 1.00 44.87 C +ATOM 396 CG GLN A 66 17.488 105.057 82.461 1.00 52.38 C +ATOM 397 CD GLN A 66 16.004 104.743 82.468 1.00 58.87 C +ATOM 398 OE1 GLN A 66 15.485 104.150 83.420 1.00 64.66 O +ATOM 399 NE2 GLN A 66 15.311 105.138 81.401 1.00 54.90 N +ATOM 400 N PHE A 67 21.208 105.676 82.147 1.00 37.49 N +ATOM 401 CA PHE A 67 22.009 106.136 81.028 1.00 40.80 C +ATOM 402 C PHE A 67 21.723 105.308 79.781 1.00 42.04 C +ATOM 403 O PHE A 67 22.109 104.134 79.696 1.00 38.46 O +ATOM 404 CB PHE A 67 23.494 106.072 81.388 1.00 37.92 C +ATOM 405 CG PHE A 67 24.391 106.754 80.394 1.00 40.97 C +ATOM 406 CD1 PHE A 67 25.008 106.033 79.382 1.00 40.74 C +ATOM 407 CD2 PHE A 67 24.615 108.126 80.469 1.00 44.18 C +ATOM 408 CE1 PHE A 67 25.837 106.671 78.464 1.00 41.59 C +ATOM 409 CE2 PHE A 67 25.443 108.772 79.550 1.00 40.12 C +ATOM 410 CZ PHE A 67 26.059 108.042 78.557 1.00 37.52 C +ATOM 411 N VAL A 68 21.029 105.915 78.823 1.00 38.13 N +ATOM 412 CA VAL A 68 20.690 105.239 77.576 1.00 39.15 C +ATOM 413 C VAL A 68 21.006 106.157 76.411 1.00 42.49 C +ATOM 414 O VAL A 68 20.737 107.358 76.475 1.00 45.73 O +ATOM 415 CB VAL A 68 19.182 104.837 77.497 1.00 42.74 C +ATOM 416 CG1 VAL A 68 18.950 103.839 76.358 1.00 41.54 C +ATOM 417 CG2 VAL A 68 18.685 104.259 78.816 1.00 34.12 C +ATOM 418 N HIS A 69 21.575 105.595 75.350 1.00 44.29 N +ATOM 419 CA HIS A 69 21.809 106.341 74.117 1.00 44.42 C +ATOM 420 C HIS A 69 22.742 107.550 74.286 1.00 44.74 C +ATOM 421 O HIS A 69 22.515 108.597 73.666 1.00 42.68 O +ATOM 422 CB HIS A 69 20.471 106.801 73.534 1.00 43.38 C +ATOM 423 CG HIS A 69 19.562 105.674 73.141 1.00 50.09 C +ATOM 424 ND1 HIS A 69 18.200 105.709 73.353 1.00 50.05 N +ATOM 425 CD2 HIS A 69 19.819 104.490 72.535 1.00 51.39 C +ATOM 426 CE1 HIS A 69 17.659 104.590 72.907 1.00 49.22 C +ATOM 427 NE2 HIS A 69 18.616 103.833 72.401 1.00 49.55 N +ATOM 428 N GLY A 70 23.777 107.395 75.117 1.00 39.66 N +ATOM 429 CA GLY A 70 24.768 108.434 75.362 1.00 39.56 C +ATOM 430 C GLY A 70 24.310 109.544 76.299 1.00 44.10 C +ATOM 431 O GLY A 70 25.012 110.539 76.513 1.00 44.10 O +ATOM 432 N GLU A 71 23.137 109.359 76.888 1.00 40.65 N +ATOM 433 CA GLU A 71 22.483 110.437 77.606 1.00 45.18 C +ATOM 434 C GLU A 71 21.864 109.988 78.929 1.00 47.29 C +ATOM 435 O GLU A 71 21.244 108.927 78.999 1.00 42.42 O +ATOM 436 CB GLU A 71 21.410 111.030 76.707 1.00 48.67 C +ATOM 437 CG GLU A 71 20.720 112.260 77.228 1.00 61.89 C +ATOM 438 CD GLU A 71 19.948 112.960 76.118 1.00 76.84 C +ATOM 439 OE1 GLU A 71 19.884 112.398 74.998 1.00 73.47 O +ATOM 440 OE2 GLU A 71 19.407 114.063 76.358 1.00 87.56 O +ATOM 441 N GLU A 72 22.019 110.789 79.980 1.00 47.79 N +ATOM 442 CA GLU A 72 21.321 110.466 81.208 1.00 46.11 C +ATOM 443 C GLU A 72 19.909 111.016 81.096 1.00 45.25 C +ATOM 444 O GLU A 72 19.706 112.099 80.567 1.00 54.33 O +ATOM 445 CB GLU A 72 22.030 111.013 82.450 1.00 46.20 C +ATOM 446 CG GLU A 72 21.421 110.409 83.702 1.00 65.27 C +ATOM 447 CD GLU A 72 21.327 111.365 84.858 1.00 70.74 C +ATOM 448 OE1 GLU A 72 22.140 112.322 84.921 1.00 78.00 O +ATOM 449 OE2 GLU A 72 20.421 111.146 85.695 1.00 67.01 O +ATOM 450 N ASP A 73 18.942 110.247 81.576 1.00 50.18 N +ATOM 451 CA ASP A 73 17.528 110.569 81.440 1.00 53.13 C +ATOM 452 C ASP A 73 17.008 111.149 82.763 1.00 60.92 C +ATOM 453 O ASP A 73 16.692 110.404 83.701 1.00 57.06 O +ATOM 454 CB ASP A 73 16.755 109.307 81.035 1.00 54.08 C +ATOM 455 CG ASP A 73 15.316 109.587 80.625 1.00 67.48 C +ATOM 456 OD1 ASP A 73 14.758 110.638 81.021 1.00 69.27 O +ATOM 457 OD2 ASP A 73 14.749 108.737 79.892 1.00 67.83 O +ATOM 458 N LEU A 74 16.921 112.475 82.844 1.00 58.37 N +ATOM 459 CA LEU A 74 16.610 113.111 84.119 1.00 60.84 C +ATOM 460 C LEU A 74 15.130 113.063 84.491 1.00 67.46 C +ATOM 461 O LEU A 74 14.776 113.342 85.636 1.00 70.32 O +ATOM 462 CB LEU A 74 17.074 114.569 84.137 1.00 66.64 C +ATOM 463 CG LEU A 74 18.416 114.963 83.539 1.00 66.72 C +ATOM 464 CD1 LEU A 74 18.629 116.460 83.700 1.00 65.09 C +ATOM 465 CD2 LEU A 74 19.537 114.195 84.206 1.00 64.64 C +ATOM 466 N LYS A 75 14.260 112.708 83.554 1.00 67.92 N +ATOM 467 CA LYS A 75 12.838 112.687 83.881 1.00 67.01 C +ATOM 468 C LYS A 75 12.495 111.447 84.694 1.00 66.19 C +ATOM 469 O LYS A 75 11.501 111.419 85.417 1.00 72.52 O +ATOM 470 CB LYS A 75 11.976 112.774 82.615 1.00 71.81 C +ATOM 471 CG LYS A 75 12.010 114.161 81.967 1.00 74.04 C +ATOM 472 CD LYS A 75 11.098 114.265 80.759 1.00 79.99 C +ATOM 473 CE LYS A 75 11.583 113.381 79.619 1.00 84.36 C +ATOM 474 NZ LYS A 75 12.938 113.773 79.128 1.00 78.82 N +ATOM 475 N VAL A 76 13.344 110.434 84.600 1.00 65.60 N +ATOM 476 CA VAL A 76 13.167 109.213 85.374 1.00 60.24 C +ATOM 477 C VAL A 76 13.915 109.333 86.706 1.00 58.39 C +ATOM 478 O VAL A 76 13.671 108.580 87.646 1.00 54.56 O +ATOM 479 CB VAL A 76 13.666 107.978 84.576 1.00 64.61 C +ATOM 480 CG1 VAL A 76 13.478 106.683 85.360 1.00 56.62 C +ATOM 481 CG2 VAL A 76 12.961 107.903 83.221 1.00 62.99 C +ATOM 482 N GLN A 77 14.818 110.300 86.802 1.00 56.27 N +ATOM 483 CA GLN A 77 15.649 110.403 87.991 1.00 55.07 C +ATOM 484 C GLN A 77 14.847 110.880 89.199 1.00 62.70 C +ATOM 485 O GLN A 77 14.078 111.837 89.101 1.00 69.30 O +ATOM 486 CB GLN A 77 16.832 111.346 87.748 1.00 55.72 C +ATOM 487 CG GLN A 77 17.894 111.301 88.854 1.00 55.43 C +ATOM 488 CD GLN A 77 18.807 112.520 88.872 1.00 57.35 C +ATOM 489 OE1 GLN A 77 18.364 113.651 88.679 1.00 65.53 O +ATOM 490 NE2 GLN A 77 20.094 112.287 89.096 1.00 53.97 N +ATOM 491 N HIS A 78 15.024 110.208 90.332 1.00 55.91 N +ATOM 492 CA HIS A 78 14.438 110.659 91.587 1.00 61.48 C +ATOM 493 C HIS A 78 14.956 112.072 91.894 1.00 65.94 C +ATOM 494 O HIS A 78 16.110 112.370 91.622 1.00 67.96 O +ATOM 495 CB HIS A 78 14.776 109.640 92.685 1.00 58.94 C +ATOM 496 CG HIS A 78 13.960 109.774 93.921 1.00 60.57 C +ATOM 497 ND1 HIS A 78 14.139 110.792 94.825 1.00 65.83 N +ATOM 498 CD2 HIS A 78 12.969 108.993 94.416 1.00 60.16 C +ATOM 499 CE1 HIS A 78 13.292 110.638 95.830 1.00 67.55 C +ATOM 500 NE2 HIS A 78 12.572 109.551 95.599 1.00 66.90 N +ATOM 501 N SER A 79 14.084 112.929 92.441 1.00 71.62 N +ATOM 502 CA SER A 79 14.386 114.353 92.689 1.00 73.93 C +ATOM 503 C SER A 79 15.248 114.579 93.927 1.00 69.65 C +ATOM 504 O SER A 79 15.786 115.709 94.113 1.00 73.44 O +ATOM 505 CB SER A 79 13.104 115.198 92.822 1.00 80.24 C +ATOM 506 OG SER A 79 12.291 115.138 91.649 1.00 81.81 O +ATOM 507 N SER A 80 15.359 113.547 94.771 1.00 67.54 N +ATOM 508 CA SER A 80 16.329 113.573 95.860 1.00 65.12 C +ATOM 509 C SER A 80 17.757 113.795 95.339 1.00 64.19 C +ATOM 510 O SER A 80 18.635 114.363 96.016 1.00 67.00 O +ATOM 511 CB SER A 80 16.233 112.271 96.626 1.00 63.84 C +ATOM 512 OG SER A 80 17.369 112.019 97.385 1.00 56.32 O +ATOM 513 N TYR A 81 17.958 113.373 94.098 1.00 67.04 N +ATOM 514 CA TYR A 81 19.287 113.229 93.565 1.00 63.49 C +ATOM 515 C TYR A 81 19.604 114.286 92.540 1.00 61.80 C +ATOM 516 O TYR A 81 20.725 114.360 92.029 1.00 58.52 O +ATOM 517 CB TYR A 81 19.446 111.822 92.988 1.00 52.44 C +ATOM 518 CG TYR A 81 19.716 110.804 94.067 1.00 51.74 C +ATOM 519 CD1 TYR A 81 20.915 110.834 94.765 1.00 45.17 C +ATOM 520 CD2 TYR A 81 18.775 109.840 94.410 1.00 49.04 C +ATOM 521 CE1 TYR A 81 21.183 109.940 95.758 1.00 44.31 C +ATOM 522 CE2 TYR A 81 19.038 108.923 95.417 1.00 44.24 C +ATOM 523 CZ TYR A 81 20.247 108.977 96.088 1.00 46.57 C +ATOM 524 OH TYR A 81 20.537 108.072 97.098 1.00 52.73 O +ATOM 525 N ARG A 82 18.610 115.112 92.250 1.00 64.76 N +ATOM 526 CA ARG A 82 18.856 116.276 91.427 1.00 70.44 C +ATOM 527 C ARG A 82 19.987 117.093 92.047 1.00 65.65 C +ATOM 528 O ARG A 82 20.023 117.286 93.267 1.00 67.65 O +ATOM 529 CB ARG A 82 17.598 117.122 91.274 1.00 77.85 C +ATOM 530 CG ARG A 82 17.040 117.081 89.865 1.00 83.88 C +ATOM 531 CD ARG A 82 16.055 118.197 89.590 1.00 92.72 C +ATOM 532 NE ARG A 82 15.623 118.182 88.193 1.00100.17 N +ATOM 533 CZ ARG A 82 16.408 118.482 87.160 1.00102.13 C +ATOM 534 NH1 ARG A 82 17.675 118.822 87.353 1.00102.32 N +ATOM 535 NH2 ARG A 82 15.926 118.442 85.926 1.00104.91 N +ATOM 536 N GLN A 83 20.933 117.500 91.200 1.00 60.75 N +ATOM 537 CA GLN A 83 22.073 118.359 91.571 1.00 60.34 C +ATOM 538 C GLN A 83 23.236 117.630 92.273 1.00 56.66 C +ATOM 539 O GLN A 83 24.363 118.122 92.268 1.00 58.33 O +ATOM 540 CB GLN A 83 21.606 119.530 92.463 1.00 70.24 C +ATOM 541 CG GLN A 83 21.904 120.911 91.925 1.00 75.19 C +ATOM 542 CD GLN A 83 21.210 121.184 90.617 1.00 77.57 C +ATOM 543 OE1 GLN A 83 19.994 121.357 90.571 1.00 81.58 O +ATOM 544 NE2 GLN A 83 21.978 121.227 89.539 1.00 78.47 N +ATOM 545 N ARG A 84 22.989 116.475 92.885 1.00 56.19 N +ATOM 546 CA ARG A 84 24.080 115.801 93.608 1.00 54.05 C +ATOM 547 C ARG A 84 24.616 114.520 92.992 1.00 48.88 C +ATOM 548 O ARG A 84 25.585 113.971 93.495 1.00 47.67 O +ATOM 549 CB ARG A 84 23.679 115.468 95.048 1.00 51.56 C +ATOM 550 CG ARG A 84 22.645 116.367 95.649 1.00 56.95 C +ATOM 551 CD ARG A 84 22.456 115.985 97.091 1.00 52.05 C +ATOM 552 NE ARG A 84 21.915 114.640 97.228 1.00 49.70 N +ATOM 553 CZ ARG A 84 22.486 113.677 97.944 1.00 50.22 C +ATOM 554 NH1 ARG A 84 23.645 113.886 98.562 1.00 46.46 N +ATOM 555 NH2 ARG A 84 21.907 112.488 98.020 1.00 53.50 N +ATOM 556 N ALA A 85 24.002 114.037 91.924 1.00 49.20 N +ATOM 557 CA ALA A 85 24.398 112.741 91.366 1.00 48.12 C +ATOM 558 C ALA A 85 24.832 112.821 89.908 1.00 50.90 C +ATOM 559 O ALA A 85 24.118 113.372 89.063 1.00 53.90 O +ATOM 560 CB ALA A 85 23.270 111.747 91.498 1.00 44.42 C +ATOM 561 N ARG A 86 25.997 112.246 89.619 1.00 45.67 N +ATOM 562 CA ARG A 86 26.556 112.272 88.272 1.00 46.81 C +ATOM 563 C ARG A 86 27.254 110.976 87.887 1.00 44.71 C +ATOM 564 O ARG A 86 28.113 110.472 88.609 1.00 42.54 O +ATOM 565 CB ARG A 86 27.550 113.429 88.122 1.00 52.17 C +ATOM 566 CG ARG A 86 27.022 114.613 87.348 1.00 65.76 C +ATOM 567 CD ARG A 86 28.169 115.457 86.801 1.00 83.60 C +ATOM 568 NE ARG A 86 29.294 115.541 87.734 1.00 89.80 N +ATOM 569 CZ ARG A 86 30.540 115.852 87.382 1.00 94.45 C +ATOM 570 NH1 ARG A 86 30.831 116.090 86.109 1.00 91.86 N +ATOM 571 NH2 ARG A 86 31.498 115.913 88.302 1.00 92.32 N +ATOM 572 N LEU A 87 26.882 110.445 86.730 1.00 45.97 N +ATOM 573 CA LEU A 87 27.665 109.396 86.113 1.00 40.33 C +ATOM 574 C LEU A 87 28.826 110.083 85.403 1.00 42.03 C +ATOM 575 O LEU A 87 28.622 111.032 84.635 1.00 46.02 O +ATOM 576 CB LEU A 87 26.819 108.565 85.150 1.00 42.06 C +ATOM 577 CG LEU A 87 27.478 107.319 84.558 1.00 43.75 C +ATOM 578 CD1 LEU A 87 27.489 106.206 85.589 1.00 39.25 C +ATOM 579 CD2 LEU A 87 26.775 106.877 83.269 1.00 37.76 C +ATOM 580 N LEU A 88 30.043 109.635 85.705 1.00 39.85 N +ATOM 581 CA LEU A 88 31.255 110.222 85.138 1.00 44.00 C +ATOM 582 C LEU A 88 31.499 109.654 83.748 1.00 48.52 C +ATOM 583 O LEU A 88 31.869 108.483 83.616 1.00 43.14 O +ATOM 584 CB LEU A 88 32.467 109.947 86.035 1.00 44.75 C +ATOM 585 CG LEU A 88 32.441 110.447 87.485 1.00 39.71 C +ATOM 586 CD1 LEU A 88 33.844 110.452 88.059 1.00 34.30 C +ATOM 587 CD2 LEU A 88 31.803 111.824 87.624 1.00 48.87 C +ATOM 588 N LYS A 89 31.305 110.485 82.724 1.00 48.89 N +ATOM 589 CA LYS A 89 31.213 109.991 81.346 1.00 49.64 C +ATOM 590 C LYS A 89 32.551 109.491 80.787 1.00 53.25 C +ATOM 591 O LYS A 89 32.597 108.454 80.117 1.00 44.70 O +ATOM 592 CB LYS A 89 30.630 111.077 80.435 1.00 46.87 C +ATOM 593 CG LYS A 89 29.092 111.109 80.386 1.00 52.31 C +ATOM 594 CD LYS A 89 28.497 111.955 81.529 1.00 65.36 C +ATOM 595 CE LYS A 89 27.008 111.653 81.776 1.00 57.63 C +ATOM 596 NZ LYS A 89 26.360 112.681 82.648 1.00 53.57 N +ATOM 597 N ASP A 90 33.639 110.204 81.077 1.00 52.13 N +ATOM 598 CA ASP A 90 34.928 109.845 80.504 1.00 52.90 C +ATOM 599 C ASP A 90 35.458 108.508 81.069 1.00 55.77 C +ATOM 600 O ASP A 90 36.178 107.770 80.391 1.00 59.89 O +ATOM 601 CB ASP A 90 35.916 110.996 80.710 1.00 64.30 C +ATOM 602 CG ASP A 90 35.631 112.176 79.764 1.00 84.28 C +ATOM 603 OD1 ASP A 90 34.917 111.969 78.754 1.00 84.58 O +ATOM 604 OD2 ASP A 90 36.102 113.307 80.025 1.00 89.46 O +ATOM 605 N GLN A 91 35.050 108.176 82.288 1.00 51.32 N +ATOM 606 CA GLN A 91 35.369 106.887 82.894 1.00 46.86 C +ATOM 607 C GLN A 91 34.738 105.675 82.187 1.00 47.88 C +ATOM 608 O GLN A 91 35.154 104.534 82.402 1.00 45.07 O +ATOM 609 CB GLN A 91 34.932 106.889 84.362 1.00 46.22 C +ATOM 610 CG GLN A 91 35.912 107.598 85.289 1.00 52.32 C +ATOM 611 CD GLN A 91 37.324 107.050 85.149 1.00 53.80 C +ATOM 612 OE1 GLN A 91 37.574 105.860 85.374 1.00 51.57 O +ATOM 613 NE2 GLN A 91 38.251 107.914 84.753 1.00 49.24 N +ATOM 614 N LEU A 92 33.731 105.920 81.357 1.00 46.69 N +ATOM 615 CA LEU A 92 32.998 104.839 80.713 1.00 44.08 C +ATOM 616 C LEU A 92 33.817 104.106 79.646 1.00 47.37 C +ATOM 617 O LEU A 92 33.677 102.888 79.483 1.00 49.58 O +ATOM 618 CB LEU A 92 31.712 105.382 80.103 1.00 40.90 C +ATOM 619 CG LEU A 92 30.551 105.582 81.069 1.00 40.10 C +ATOM 620 CD1 LEU A 92 29.404 106.286 80.363 1.00 35.22 C +ATOM 621 CD2 LEU A 92 30.107 104.242 81.649 1.00 38.15 C +ATOM 622 N SER A 93 34.670 104.847 78.937 1.00 47.75 N +ATOM 623 CA SER A 93 35.541 104.286 77.899 1.00 45.17 C +ATOM 624 C SER A 93 36.452 103.222 78.479 1.00 44.54 C +ATOM 625 O SER A 93 36.919 102.333 77.777 1.00 47.33 O +ATOM 626 CB SER A 93 36.392 105.377 77.266 1.00 42.49 C +ATOM 627 OG SER A 93 35.705 106.609 77.300 1.00 56.12 O +ATOM 628 N LEU A 94 36.695 103.331 79.777 1.00 45.36 N +ATOM 629 CA LEU A 94 37.633 102.471 80.480 1.00 46.71 C +ATOM 630 C LEU A 94 36.906 101.307 81.146 1.00 46.33 C +ATOM 631 O LEU A 94 37.501 100.548 81.924 1.00 44.34 O +ATOM 632 CB LEU A 94 38.415 103.300 81.505 1.00 43.83 C +ATOM 633 CG LEU A 94 39.079 104.516 80.828 1.00 47.03 C +ATOM 634 CD1 LEU A 94 39.463 105.608 81.817 1.00 40.47 C +ATOM 635 CD2 LEU A 94 40.279 104.093 79.964 1.00 35.62 C +ATOM 636 N GLY A 95 35.616 101.172 80.831 1.00 43.52 N +ATOM 637 CA GLY A 95 34.801 100.106 81.385 1.00 38.71 C +ATOM 638 C GLY A 95 34.537 100.315 82.860 1.00 43.04 C +ATOM 639 O GLY A 95 34.517 99.375 83.657 1.00 50.12 O +ATOM 640 N ASN A 96 34.339 101.572 83.227 1.00 44.44 N +ATOM 641 CA ASN A 96 34.128 101.925 84.611 1.00 41.31 C +ATOM 642 C ASN A 96 32.924 102.850 84.743 1.00 39.95 C +ATOM 643 O ASN A 96 32.974 104.017 84.364 1.00 41.51 O +ATOM 644 CB ASN A 96 35.390 102.569 85.185 1.00 41.40 C +ATOM 645 CG ASN A 96 35.230 102.964 86.630 1.00 47.21 C +ATOM 646 OD1 ASN A 96 34.567 102.266 87.392 1.00 49.26 O +ATOM 647 ND2 ASN A 96 35.826 104.092 87.020 1.00 47.32 N +ATOM 648 N ALA A 97 31.829 102.309 85.263 1.00 42.30 N +ATOM 649 CA ALA A 97 30.644 103.112 85.524 1.00 38.76 C +ATOM 650 C ALA A 97 30.755 103.722 86.915 1.00 39.55 C +ATOM 651 O ALA A 97 30.415 103.097 87.918 1.00 41.43 O +ATOM 652 CB ALA A 97 29.386 102.274 85.389 1.00 37.18 C +ATOM 653 N ALA A 98 31.269 104.942 86.970 1.00 42.91 N +ATOM 654 CA ALA A 98 31.510 105.599 88.242 1.00 40.65 C +ATOM 655 C ALA A 98 30.367 106.542 88.592 1.00 38.34 C +ATOM 656 O ALA A 98 29.945 107.342 87.761 1.00 41.25 O +ATOM 657 CB ALA A 98 32.836 106.350 88.201 1.00 38.71 C +ATOM 658 N LEU A 99 29.872 106.437 89.820 1.00 37.15 N +ATOM 659 CA LEU A 99 28.808 107.308 90.307 1.00 38.31 C +ATOM 660 C LEU A 99 29.338 108.240 91.369 1.00 37.08 C +ATOM 661 O LEU A 99 29.726 107.805 92.455 1.00 38.73 O +ATOM 662 CB LEU A 99 27.643 106.493 90.874 1.00 38.34 C +ATOM 663 CG LEU A 99 26.567 107.313 91.584 1.00 37.07 C +ATOM 664 CD1 LEU A 99 25.987 108.358 90.659 1.00 36.67 C +ATOM 665 CD2 LEU A 99 25.480 106.413 92.101 1.00 35.38 C +ATOM 666 N GLN A 100 29.365 109.524 91.046 1.00 41.11 N +ATOM 667 CA GLN A 100 29.814 110.545 91.982 1.00 41.48 C +ATOM 668 C GLN A 100 28.578 111.147 92.643 1.00 41.61 C +ATOM 669 O GLN A 100 27.647 111.594 91.972 1.00 40.30 O +ATOM 670 CB GLN A 100 30.655 111.614 91.267 1.00 42.87 C +ATOM 671 CG GLN A 100 31.397 112.587 92.174 1.00 50.16 C +ATOM 672 CD GLN A 100 31.725 113.897 91.479 1.00 56.66 C +ATOM 673 OE1 GLN A 100 30.840 114.564 90.943 1.00 65.93 O +ATOM 674 NE2 GLN A 100 32.996 114.269 91.480 1.00 57.06 N +ATOM 675 N ILE A 101 28.555 111.101 93.966 1.00 42.68 N +ATOM 676 CA ILE A 101 27.500 111.734 94.735 1.00 45.18 C +ATOM 677 C ILE A 101 28.124 112.761 95.661 1.00 44.10 C +ATOM 678 O ILE A 101 29.045 112.449 96.416 1.00 43.60 O +ATOM 679 CB ILE A 101 26.696 110.719 95.539 1.00 45.03 C +ATOM 680 CG1 ILE A 101 25.858 109.862 94.593 1.00 37.86 C +ATOM 681 CG2 ILE A 101 25.808 111.435 96.565 1.00 45.75 C +ATOM 682 CD1 ILE A 101 25.099 108.771 95.296 1.00 43.22 C +ATOM 683 N THR A 102 27.637 113.992 95.588 1.00 43.10 N +ATOM 684 CA THR A 102 28.264 115.074 96.326 1.00 47.53 C +ATOM 685 C THR A 102 27.463 115.435 97.564 1.00 49.19 C +ATOM 686 O THR A 102 26.240 115.271 97.587 1.00 53.82 O +ATOM 687 CB THR A 102 28.448 116.319 95.439 1.00 48.15 C +ATOM 688 OG1 THR A 102 27.245 116.559 94.705 1.00 50.88 O +ATOM 689 CG2 THR A 102 29.591 116.102 94.455 1.00 41.12 C +ATOM 690 N ASP A 103 28.168 115.926 98.586 1.00 51.22 N +ATOM 691 CA ASP A 103 27.568 116.291 99.872 1.00 44.13 C +ATOM 692 C ASP A 103 26.774 115.100 100.409 1.00 45.26 C +ATOM 693 O ASP A 103 25.538 115.097 100.401 1.00 48.42 O +ATOM 694 CB ASP A 103 26.687 117.536 99.724 1.00 50.63 C +ATOM 695 CG ASP A 103 26.432 118.242 101.049 1.00 61.35 C +ATOM 696 OD1 ASP A 103 27.041 117.848 102.060 1.00 63.08 O +ATOM 697 OD2 ASP A 103 25.629 119.205 101.081 1.00 68.50 O +ATOM 698 N VAL A 104 27.498 114.078 100.854 1.00 41.47 N +ATOM 699 CA VAL A 104 26.880 112.833 101.284 1.00 42.68 C +ATOM 700 C VAL A 104 26.150 112.967 102.621 1.00 43.86 C +ATOM 701 O VAL A 104 26.743 113.383 103.626 1.00 44.15 O +ATOM 702 CB VAL A 104 27.931 111.718 101.380 1.00 40.42 C +ATOM 703 CG1 VAL A 104 27.459 110.586 102.294 1.00 42.06 C +ATOM 704 CG2 VAL A 104 28.239 111.199 99.997 1.00 38.38 C +ATOM 705 N LYS A 105 24.867 112.611 102.632 1.00 35.53 N +ATOM 706 CA LYS A 105 24.075 112.693 103.847 1.00 41.14 C +ATOM 707 C LYS A 105 23.829 111.304 104.439 1.00 40.20 C +ATOM 708 O LYS A 105 24.086 110.298 103.788 1.00 38.63 O +ATOM 709 CB LYS A 105 22.755 113.411 103.573 1.00 52.16 C +ATOM 710 CG LYS A 105 22.893 114.931 103.562 1.00 68.04 C +ATOM 711 CD LYS A 105 21.802 115.589 102.723 1.00 81.42 C +ATOM 712 CE LYS A 105 22.333 116.778 101.914 1.00 83.36 C +ATOM 713 NZ LYS A 105 23.031 117.795 102.752 1.00 83.76 N +ATOM 714 N LEU A 106 23.351 111.254 105.683 1.00 43.21 N +ATOM 715 CA LEU A 106 23.131 109.978 106.350 1.00 42.36 C +ATOM 716 C LEU A 106 22.123 109.111 105.590 1.00 41.23 C +ATOM 717 O LEU A 106 22.215 107.890 105.625 1.00 38.44 O +ATOM 718 CB LEU A 106 22.657 110.183 107.797 1.00 44.64 C +ATOM 719 CG LEU A 106 23.692 110.158 108.930 1.00 43.22 C +ATOM 720 CD1 LEU A 106 23.026 109.864 110.268 1.00 46.69 C +ATOM 721 CD2 LEU A 106 24.794 109.150 108.675 1.00 42.20 C +ATOM 722 N GLN A 107 21.175 109.744 104.899 1.00 45.51 N +ATOM 723 CA GLN A 107 20.162 109.016 104.121 1.00 46.10 C +ATOM 724 C GLN A 107 20.780 108.279 102.926 1.00 43.90 C +ATOM 725 O GLN A 107 20.170 107.362 102.377 1.00 43.23 O +ATOM 726 CB GLN A 107 19.057 109.961 103.631 1.00 38.58 C +ATOM 727 CG GLN A 107 18.153 110.477 104.728 1.00 39.95 C +ATOM 728 CD GLN A 107 18.839 111.496 105.633 1.00 49.44 C +ATOM 729 OE1 GLN A 107 19.877 112.072 105.279 1.00 50.31 O +ATOM 730 NE2 GLN A 107 18.264 111.719 106.814 1.00 48.91 N +ATOM 731 N ASP A 108 21.992 108.663 102.536 1.00 39.60 N +ATOM 732 CA ASP A 108 22.688 107.987 101.438 1.00 40.63 C +ATOM 733 C ASP A 108 23.203 106.580 101.811 1.00 42.29 C +ATOM 734 O ASP A 108 23.583 105.792 100.937 1.00 38.13 O +ATOM 735 CB ASP A 108 23.841 108.862 100.944 1.00 36.23 C +ATOM 736 CG ASP A 108 23.362 110.204 100.402 1.00 46.28 C +ATOM 737 OD1 ASP A 108 22.286 110.232 99.756 1.00 44.96 O +ATOM 738 OD2 ASP A 108 24.056 111.227 100.615 1.00 46.88 O +ATOM 739 N ALA A 109 23.205 106.270 103.106 1.00 38.93 N +ATOM 740 CA ALA A 109 23.625 104.957 103.574 1.00 38.17 C +ATOM 741 C ALA A 109 22.639 103.869 103.168 1.00 39.59 C +ATOM 742 O ALA A 109 21.424 104.056 103.200 1.00 43.01 O +ATOM 743 CB ALA A 109 23.804 104.959 105.072 1.00 34.43 C +ATOM 744 N GLY A 110 23.175 102.720 102.792 1.00 37.26 N +ATOM 745 CA GLY A 110 22.335 101.635 102.341 1.00 40.10 C +ATOM 746 C GLY A 110 22.937 100.892 101.172 1.00 36.73 C +ATOM 747 O GLY A 110 24.123 101.066 100.859 1.00 33.28 O +ATOM 748 N VAL A 111 22.111 100.062 100.538 1.00 31.14 N +ATOM 749 CA VAL A 111 22.558 99.189 99.460 1.00 33.41 C +ATOM 750 C VAL A 111 22.273 99.828 98.108 1.00 36.47 C +ATOM 751 O VAL A 111 21.156 100.278 97.841 1.00 38.46 O +ATOM 752 CB VAL A 111 21.874 97.814 99.542 1.00 36.14 C +ATOM 753 CG1 VAL A 111 22.691 96.764 98.800 1.00 35.55 C +ATOM 754 CG2 VAL A 111 21.711 97.405 100.987 1.00 33.61 C +ATOM 755 N TYR A 112 23.296 99.886 97.267 1.00 33.60 N +ATOM 756 CA TYR A 112 23.145 100.437 95.931 1.00 34.21 C +ATOM 757 C TYR A 112 23.156 99.323 94.885 1.00 34.69 C +ATOM 758 O TYR A 112 23.729 98.253 95.105 1.00 33.31 O +ATOM 759 CB TYR A 112 24.254 101.445 95.640 1.00 36.19 C +ATOM 760 CG TYR A 112 24.134 102.743 96.408 1.00 36.73 C +ATOM 761 CD1 TYR A 112 24.367 102.783 97.776 1.00 32.83 C +ATOM 762 CD2 TYR A 112 23.814 103.936 95.757 1.00 35.61 C +ATOM 763 CE1 TYR A 112 24.269 103.964 98.482 1.00 37.56 C +ATOM 764 CE2 TYR A 112 23.712 105.126 96.454 1.00 35.64 C +ATOM 765 CZ TYR A 112 23.943 105.137 97.820 1.00 39.62 C +ATOM 766 OH TYR A 112 23.854 106.315 98.528 1.00 32.78 O +ATOM 767 N ARG A 113 22.523 99.569 93.746 1.00 34.43 N +ATOM 768 CA ARG A 113 22.577 98.601 92.658 1.00 37.86 C +ATOM 769 C ARG A 113 23.117 99.204 91.368 1.00 34.96 C +ATOM 770 O ARG A 113 22.718 100.292 90.957 1.00 32.59 O +ATOM 771 CB ARG A 113 21.201 98.000 92.405 1.00 38.67 C +ATOM 772 CG ARG A 113 21.232 96.676 91.651 1.00 31.88 C +ATOM 773 CD ARG A 113 19.809 96.191 91.368 1.00 36.94 C +ATOM 774 NE ARG A 113 19.739 95.504 90.086 1.00 41.37 N +ATOM 775 CZ ARG A 113 19.127 95.975 89.004 1.00 38.57 C +ATOM 776 NH1 ARG A 113 18.493 97.141 89.029 1.00 33.98 N +ATOM 777 NH2 ARG A 113 19.147 95.259 87.894 1.00 42.00 N +ATOM 778 N CYS A 114 24.021 98.460 90.742 1.00 32.58 N +ATOM 779 CA CYS A 114 24.666 98.810 89.476 1.00 34.40 C +ATOM 780 C CYS A 114 24.291 97.806 88.395 1.00 35.08 C +ATOM 781 O CYS A 114 24.706 96.655 88.492 1.00 33.73 O +ATOM 782 CB CYS A 114 26.186 98.813 89.660 1.00 38.26 C +ATOM 783 SG CYS A 114 27.179 99.093 88.193 1.00100.48 S +ATOM 784 N MET A 115 23.509 98.212 87.392 1.00 34.66 N +ATOM 785 CA MET A 115 23.221 97.342 86.242 1.00 34.45 C +ATOM 786 C MET A 115 23.903 97.868 84.994 1.00 35.05 C +ATOM 787 O MET A 115 23.762 99.048 84.659 1.00 34.01 O +ATOM 788 CB MET A 115 21.711 97.235 85.989 1.00 37.86 C +ATOM 789 CG MET A 115 21.262 96.044 85.121 1.00 35.20 C +ATOM 790 SD MET A 115 21.719 96.112 83.365 1.00 48.17 S +ATOM 791 CE MET A 115 21.029 97.687 82.859 1.00 36.80 C +ATOM 792 N ILE A 116 24.632 96.994 84.300 1.00 35.93 N +ATOM 793 CA ILE A 116 25.271 97.375 83.035 1.00 35.67 C +ATOM 794 C ILE A 116 25.039 96.374 81.902 1.00 37.48 C +ATOM 795 O ILE A 116 25.295 95.179 82.037 1.00 36.65 O +ATOM 796 CB ILE A 116 26.768 97.557 83.206 1.00 33.89 C +ATOM 797 CG1 ILE A 116 27.038 98.661 84.234 1.00 37.85 C +ATOM 798 CG2 ILE A 116 27.393 97.889 81.859 1.00 33.86 C +ATOM 799 CD1 ILE A 116 28.437 98.673 84.767 1.00 41.25 C +ATOM 800 N SER A 117 24.537 96.886 80.783 1.00 38.51 N +ATOM 801 CA SER A 117 24.291 96.079 79.600 1.00 34.54 C +ATOM 802 C SER A 117 25.122 96.593 78.408 1.00 35.97 C +ATOM 803 O SER A 117 24.959 97.726 77.930 1.00 33.89 O +ATOM 804 CB SER A 117 22.802 96.076 79.261 1.00 35.81 C +ATOM 805 OG SER A 117 22.557 95.389 78.048 1.00 39.55 O +ATOM 806 N TYR A 118 26.026 95.742 77.947 1.00 39.64 N +ATOM 807 CA TYR A 118 26.890 96.044 76.823 1.00 36.97 C +ATOM 808 C TYR A 118 27.152 94.758 76.050 1.00 35.84 C +ATOM 809 O TYR A 118 28.202 94.129 76.205 1.00 41.71 O +ATOM 810 CB TYR A 118 28.192 96.652 77.316 1.00 39.08 C +ATOM 811 CG TYR A 118 29.031 97.226 76.219 1.00 40.45 C +ATOM 812 CD1 TYR A 118 28.524 98.193 75.380 1.00 35.47 C +ATOM 813 CD2 TYR A 118 30.330 96.802 76.024 1.00 38.80 C +ATOM 814 CE1 TYR A 118 29.284 98.725 74.363 1.00 41.48 C +ATOM 815 CE2 TYR A 118 31.105 97.324 75.010 1.00 44.51 C +ATOM 816 CZ TYR A 118 30.576 98.290 74.176 1.00 45.93 C +ATOM 817 OH TYR A 118 31.337 98.831 73.162 1.00 41.29 O +ATOM 818 N GLY A 119 26.182 94.351 75.239 1.00 34.38 N +ATOM 819 CA GLY A 119 26.199 93.029 74.624 1.00 36.74 C +ATOM 820 C GLY A 119 25.533 92.011 75.534 1.00 44.59 C +ATOM 821 O GLY A 119 24.381 91.624 75.312 1.00 56.78 O +ATOM 822 N GLY A 120 26.277 91.557 76.544 1.00 42.45 N +ATOM 823 CA GLY A 120 25.694 90.811 77.648 1.00 38.72 C +ATOM 824 C GLY A 120 25.292 91.770 78.761 1.00 40.37 C +ATOM 825 O GLY A 120 25.467 92.985 78.639 1.00 38.57 O +ATOM 826 N ALA A 121 24.757 91.247 79.857 1.00 41.79 N +ATOM 827 CA ALA A 121 24.278 92.124 80.915 1.00 38.31 C +ATOM 828 C ALA A 121 24.379 91.458 82.276 1.00 36.09 C +ATOM 829 O ALA A 121 24.208 90.255 82.400 1.00 42.89 O +ATOM 830 CB ALA A 121 22.850 92.553 80.635 1.00 34.49 C +ATOM 831 N ASP A 122 24.638 92.269 83.294 1.00 39.73 N +ATOM 832 CA ASP A 122 24.889 91.801 84.645 1.00 35.24 C +ATOM 833 C ASP A 122 24.610 92.943 85.638 1.00 38.00 C +ATOM 834 O ASP A 122 24.424 94.104 85.237 1.00 33.97 O +ATOM 835 CB ASP A 122 26.336 91.309 84.769 1.00 37.56 C +ATOM 836 CG ASP A 122 26.532 90.283 85.900 1.00 46.24 C +ATOM 837 OD1 ASP A 122 25.544 89.621 86.303 1.00 57.21 O +ATOM 838 OD2 ASP A 122 27.687 90.122 86.374 1.00 40.64 O +ATOM 839 N TYR A 123 24.566 92.617 86.929 1.00 34.87 N +ATOM 840 CA TYR A 123 24.494 93.644 87.951 1.00 34.02 C +ATOM 841 C TYR A 123 25.153 93.212 89.244 1.00 37.43 C +ATOM 842 O TYR A 123 25.377 92.022 89.488 1.00 39.46 O +ATOM 843 CB TYR A 123 23.045 94.063 88.219 1.00 32.67 C +ATOM 844 CG TYR A 123 22.171 93.035 88.910 1.00 36.03 C +ATOM 845 CD1 TYR A 123 22.104 92.949 90.305 1.00 32.52 C +ATOM 846 CD2 TYR A 123 21.366 92.184 88.164 1.00 35.33 C +ATOM 847 CE1 TYR A 123 21.271 92.018 90.920 1.00 32.31 C +ATOM 848 CE2 TYR A 123 20.542 91.256 88.768 1.00 33.09 C +ATOM 849 CZ TYR A 123 20.498 91.174 90.134 1.00 32.84 C +ATOM 850 OH TYR A 123 19.665 90.236 90.684 1.00 36.75 O +ATOM 851 N LYS A 124 25.462 94.205 90.066 1.00 33.62 N +ATOM 852 CA LYS A 124 26.071 93.983 91.364 1.00 35.94 C +ATOM 853 C LYS A 124 25.452 94.908 92.400 1.00 33.03 C +ATOM 854 O LYS A 124 24.746 95.861 92.070 1.00 34.13 O +ATOM 855 CB LYS A 124 27.584 94.198 91.292 1.00 40.77 C +ATOM 856 CG LYS A 124 28.337 93.042 90.662 1.00 39.89 C +ATOM 857 CD LYS A 124 28.222 91.793 91.532 1.00 39.04 C +ATOM 858 CE LYS A 124 29.256 90.748 91.144 1.00 41.89 C +ATOM 859 NZ LYS A 124 29.032 90.130 89.793 1.00 41.89 N +ATOM 860 N ARG A 125 25.714 94.618 93.662 1.00 34.66 N +ATOM 861 CA ARG A 125 25.269 95.495 94.729 1.00 34.41 C +ATOM 862 C ARG A 125 26.461 96.064 95.495 1.00 35.10 C +ATOM 863 O ARG A 125 27.517 95.432 95.607 1.00 35.76 O +ATOM 864 CB ARG A 125 24.327 94.754 95.664 1.00 29.90 C +ATOM 865 CG ARG A 125 23.220 94.016 94.943 1.00 32.86 C +ATOM 866 CD ARG A 125 22.391 93.278 95.953 1.00 38.32 C +ATOM 867 NE ARG A 125 21.546 92.238 95.379 1.00 39.51 N +ATOM 868 CZ ARG A 125 21.941 90.990 95.162 1.00 36.17 C +ATOM 869 NH1 ARG A 125 23.187 90.630 95.437 1.00 35.03 N +ATOM 870 NH2 ARG A 125 21.092 90.104 94.658 1.00 42.62 N +ATOM 871 N ILE A 126 26.293 97.281 95.989 1.00 34.48 N +ATOM 872 CA ILE A 126 27.322 97.912 96.801 1.00 37.61 C +ATOM 873 C ILE A 126 26.699 98.496 98.072 1.00 35.97 C +ATOM 874 O ILE A 126 25.610 99.077 98.038 1.00 32.69 O +ATOM 875 CB ILE A 126 28.062 99.015 96.022 1.00 34.34 C +ATOM 876 CG1 ILE A 126 28.805 98.420 94.828 1.00 37.43 C +ATOM 877 CG2 ILE A 126 29.057 99.716 96.909 1.00 34.14 C +ATOM 878 CD1 ILE A 126 29.715 99.414 94.121 1.00 35.85 C +ATOM 879 N THR A 127 27.387 98.318 99.193 1.00 33.99 N +ATOM 880 CA THR A 127 26.934 98.874 100.454 1.00 32.78 C +ATOM 881 C THR A 127 27.692 100.154 100.773 1.00 32.09 C +ATOM 882 O THR A 127 28.924 100.179 100.728 1.00 32.16 O +ATOM 883 CB THR A 127 27.117 97.878 101.617 1.00 30.55 C +ATOM 884 OG1 THR A 127 26.460 96.641 101.308 1.00 34.84 O +ATOM 885 CG2 THR A 127 26.545 98.448 102.899 1.00 26.12 C +ATOM 886 N VAL A 128 26.949 101.208 101.099 1.00 30.07 N +ATOM 887 CA VAL A 128 27.543 102.448 101.579 1.00 32.35 C +ATOM 888 C VAL A 128 27.181 102.690 103.043 1.00 34.16 C +ATOM 889 O VAL A 128 26.010 102.632 103.436 1.00 34.11 O +ATOM 890 CB VAL A 128 27.096 103.645 100.738 1.00 36.50 C +ATOM 891 CG1 VAL A 128 27.479 104.940 101.433 1.00 39.42 C +ATOM 892 CG2 VAL A 128 27.691 103.560 99.318 1.00 28.52 C +ATOM 893 N LYS A 129 28.214 102.937 103.843 1.00 33.64 N +ATOM 894 CA LYS A 129 28.069 103.243 105.262 1.00 38.77 C +ATOM 895 C LYS A 129 28.535 104.676 105.532 1.00 34.33 C +ATOM 896 O LYS A 129 29.548 105.122 104.975 1.00 31.00 O +ATOM 897 CB LYS A 129 28.864 102.233 106.099 1.00 41.76 C +ATOM 898 CG LYS A 129 28.636 102.324 107.589 1.00 47.23 C +ATOM 899 CD LYS A 129 29.215 101.125 108.353 1.00 51.17 C +ATOM 900 CE LYS A 129 29.212 101.393 109.869 1.00 50.99 C +ATOM 901 NZ LYS A 129 28.465 102.658 110.243 1.00 48.03 N +ATOM 902 N VAL A 130 27.783 105.400 106.358 1.00 32.84 N +ATOM 903 CA VAL A 130 28.082 106.809 106.638 1.00 38.22 C +ATOM 904 C VAL A 130 28.234 107.102 108.127 1.00 37.30 C +ATOM 905 O VAL A 130 27.297 106.922 108.917 1.00 37.80 O +ATOM 906 CB VAL A 130 26.989 107.753 106.069 1.00 42.41 C +ATOM 907 CG1 VAL A 130 27.401 109.222 106.230 1.00 38.86 C +ATOM 908 CG2 VAL A 130 26.700 107.425 104.597 1.00 36.54 C +ATOM 909 N ASN A 131 29.427 107.551 108.499 1.00 34.05 N +ATOM 910 CA ASN A 131 29.687 107.976 109.868 1.00 38.80 C +ATOM 911 C ASN A 131 29.158 109.388 110.082 1.00 40.18 C +ATOM 912 O ASN A 131 29.278 110.210 109.180 1.00 34.54 O +ATOM 913 CB ASN A 131 31.181 107.918 110.180 1.00 37.22 C +ATOM 914 CG ASN A 131 31.765 106.563 109.951 1.00 37.72 C +ATOM 915 OD1 ASN A 131 31.056 105.554 109.943 1.00 43.36 O +ATOM 916 ND2 ASN A 131 33.072 106.524 109.748 1.00 39.80 N +ATOM 917 N ALA A 132 28.610 109.680 111.266 1.00 40.44 N +ATOM 918 CA ALA A 132 27.931 110.953 111.472 1.00 40.07 C +ATOM 919 C ALA A 132 28.839 112.183 111.776 1.00 51.11 C +ATOM 920 O ALA A 132 28.790 113.166 111.030 1.00 53.04 O +ATOM 921 CB ALA A 132 26.859 110.750 112.529 1.00 38.20 C +ATOM 922 N PRO A 133 29.629 112.184 112.874 1.00 46.03 N +ATOM 923 CA PRO A 133 30.658 113.234 112.735 1.00 52.39 C +ATOM 924 C PRO A 133 32.099 112.767 112.615 1.00 52.94 C +ATOM 925 O PRO A 133 32.339 111.603 112.907 1.00 55.54 O +ATOM 926 CB PRO A 133 30.523 114.045 114.061 1.00 54.67 C +ATOM 927 CG PRO A 133 29.268 113.509 114.752 1.00 44.00 C +ATOM 928 CD PRO A 133 29.209 112.094 114.285 1.00 54.28 C +HETATM 929 O HOH A 201 29.088 115.552 110.992 1.00 35.11 O +HETATM 930 O HOH A 202 33.252 90.043 82.116 1.00 40.88 O +HETATM 931 O HOH A 203 28.239 93.176 96.234 1.00 29.65 O +HETATM 932 O HOH A 204 24.765 104.769 76.067 1.00 37.14 O +HETATM 933 O HOH A 205 21.900 102.336 74.833 1.00 38.28 O +HETATM 934 O HOH A 206 23.863 95.703 74.374 1.00 37.97 O +HETATM 935 O HOH A 207 20.736 115.984 88.983 1.00 53.19 O +HETATM 936 O HOH A 208 25.150 100.947 105.458 1.00 40.67 O +HETATM 937 O HOH A 209 34.334 93.186 84.960 1.00 33.41 O +HETATM 938 O HOH A 210 25.967 91.884 94.782 1.00 32.06 O +HETATM 939 O HOH A 211 36.894 97.589 83.420 1.00 39.21 O +HETATM 940 O HOH A 212 32.434 113.397 82.946 1.00 46.08 O +HETATM 941 O HOH A 213 19.205 100.508 101.720 1.00 36.72 O +HETATM 942 O HOH A 214 25.112 104.350 107.847 1.00 31.96 O +HETATM 943 O HOH A 215 25.028 104.959 110.318 1.00 31.39 O +HETATM 944 O HOH A 216 36.505 93.974 83.675 1.00 40.73 O +ATOM 945 N GLU B 1 2.465 87.492 107.371 1.00 70.02 N +ATOM 946 CA GLU B 1 1.924 86.278 106.777 1.00 55.58 C +ATOM 947 C GLU B 1 2.180 86.241 105.270 1.00 49.84 C +ATOM 948 O GLU B 1 1.252 86.260 104.460 1.00 48.68 O +ATOM 949 CB GLU B 1 0.428 86.169 107.073 1.00 66.00 C +ATOM 950 CG GLU B 1 -0.101 84.760 106.986 1.00 70.71 C +ATOM 951 CD GLU B 1 0.831 83.757 107.632 1.00 73.99 C +ATOM 952 OE1 GLU B 1 1.084 83.888 108.848 1.00 75.67 O +ATOM 953 OE2 GLU B 1 1.301 82.834 106.928 1.00 74.65 O +ATOM 954 N VAL B 2 3.450 86.206 104.888 1.00 47.12 N +ATOM 955 CA VAL B 2 3.809 86.055 103.482 1.00 45.68 C +ATOM 956 C VAL B 2 3.405 84.664 102.988 1.00 46.00 C +ATOM 957 O VAL B 2 3.763 83.662 103.606 1.00 40.03 O +ATOM 958 CB VAL B 2 5.317 86.231 103.257 1.00 43.06 C +ATOM 959 CG1 VAL B 2 5.705 85.833 101.817 1.00 39.96 C +ATOM 960 CG2 VAL B 2 5.750 87.642 103.603 1.00 42.13 C +ATOM 961 N GLN B 3 2.673 84.595 101.877 1.00 41.08 N +ATOM 962 CA GLN B 3 2.283 83.303 101.324 1.00 39.78 C +ATOM 963 C GLN B 3 2.671 83.192 99.865 1.00 38.43 C +ATOM 964 O GLN B 3 2.667 84.190 99.145 1.00 41.03 O +ATOM 965 CB GLN B 3 0.785 83.084 101.481 1.00 43.80 C +ATOM 966 CG GLN B 3 0.305 83.218 102.908 1.00 43.56 C +ATOM 967 CD GLN B 3 -1.192 83.120 103.006 1.00 48.58 C +ATOM 968 OE1 GLN B 3 -1.805 83.652 103.932 1.00 58.11 O +ATOM 969 NE2 GLN B 3 -1.796 82.422 102.058 1.00 49.59 N +ATOM 970 N LEU B 4 3.014 81.976 99.442 1.00 39.29 N +ATOM 971 CA LEU B 4 3.384 81.695 98.053 1.00 38.05 C +ATOM 972 C LEU B 4 2.842 80.336 97.604 1.00 36.45 C +ATOM 973 O LEU B 4 3.072 79.327 98.257 1.00 37.76 O +ATOM 974 CB LEU B 4 4.903 81.741 97.889 1.00 38.18 C +ATOM 975 CG LEU B 4 5.578 83.116 97.917 1.00 37.50 C +ATOM 976 CD1 LEU B 4 7.068 83.001 97.707 1.00 35.83 C +ATOM 977 CD2 LEU B 4 4.980 84.027 96.862 1.00 39.21 C +ATOM 978 N VAL B 5 2.115 80.313 96.491 1.00 43.95 N +ATOM 979 CA VAL B 5 1.443 79.095 96.022 1.00 41.75 C +ATOM 980 C VAL B 5 1.685 78.842 94.534 1.00 43.19 C +ATOM 981 O VAL B 5 1.261 79.635 93.693 1.00 49.56 O +ATOM 982 CB VAL B 5 -0.096 79.159 96.257 1.00 42.94 C +ATOM 983 CG1 VAL B 5 -0.757 77.887 95.759 1.00 42.08 C +ATOM 984 CG2 VAL B 5 -0.424 79.380 97.725 1.00 40.63 C +ATOM 985 N GLU B 6 2.348 77.737 94.199 1.00 45.58 N +ATOM 986 CA GLU B 6 2.580 77.412 92.786 1.00 43.48 C +ATOM 987 C GLU B 6 1.457 76.553 92.236 1.00 40.82 C +ATOM 988 O GLU B 6 0.823 75.793 92.970 1.00 43.71 O +ATOM 989 CB GLU B 6 3.921 76.689 92.577 1.00 42.87 C +ATOM 990 CG GLU B 6 5.144 77.468 93.028 1.00 42.63 C +ATOM 991 CD GLU B 6 5.572 77.118 94.452 1.00 45.51 C +ATOM 992 OE1 GLU B 6 4.758 76.536 95.206 1.00 46.27 O +ATOM 993 OE2 GLU B 6 6.730 77.421 94.814 1.00 42.66 O +ATOM 994 N SER B 7 1.234 76.692 90.932 1.00 45.85 N +ATOM 995 CA SER B 7 0.217 75.960 90.178 1.00 48.04 C +ATOM 996 C SER B 7 0.732 75.726 88.768 1.00 47.81 C +ATOM 997 O SER B 7 1.619 76.450 88.292 1.00 41.65 O +ATOM 998 CB SER B 7 -1.107 76.734 90.104 1.00 44.97 C +ATOM 999 OG SER B 7 -1.666 76.972 91.384 1.00 55.75 O +ATOM 1000 N GLY B 8 0.165 74.728 88.097 1.00 47.31 N +ATOM 1001 CA GLY B 8 0.383 74.571 86.673 1.00 44.31 C +ATOM 1002 C GLY B 8 1.251 73.397 86.272 1.00 45.29 C +ATOM 1003 O GLY B 8 1.406 73.123 85.081 1.00 48.15 O +ATOM 1004 N GLY B 9 1.815 72.701 87.256 1.00 44.34 N +ATOM 1005 CA GLY B 9 2.698 71.584 86.977 1.00 45.27 C +ATOM 1006 C GLY B 9 1.963 70.327 86.552 1.00 49.36 C +ATOM 1007 O GLY B 9 0.739 70.222 86.695 1.00 52.19 O +ATOM 1008 N GLY B 11 2.719 69.370 86.021 1.00 41.69 N +ATOM 1009 CA GLY B 11 2.190 68.053 85.721 1.00 38.65 C +ATOM 1010 C GLY B 11 3.099 67.274 84.794 1.00 41.02 C +ATOM 1011 O GLY B 11 4.327 67.410 84.862 1.00 42.06 O +ATOM 1012 N LEU B 12 2.495 66.458 83.929 1.00 41.85 N +ATOM 1013 CA LEU B 12 3.232 65.677 82.936 1.00 38.32 C +ATOM 1014 C LEU B 12 3.191 66.343 81.568 1.00 39.09 C +ATOM 1015 O LEU B 12 2.170 66.882 81.146 1.00 45.73 O +ATOM 1016 CB LEU B 12 2.675 64.248 82.841 1.00 37.49 C +ATOM 1017 CG LEU B 12 3.261 63.306 81.777 1.00 36.33 C +ATOM 1018 CD1 LEU B 12 4.743 63.041 81.999 1.00 38.96 C +ATOM 1019 CD2 LEU B 12 2.486 61.998 81.714 1.00 38.01 C +ATOM 1020 N VAL B 13 4.322 66.297 80.879 1.00 38.86 N +ATOM 1021 CA VAL B 13 4.463 66.871 79.552 1.00 40.58 C +ATOM 1022 C VAL B 13 5.563 66.094 78.822 1.00 45.20 C +ATOM 1023 O VAL B 13 6.560 65.702 79.431 1.00 45.76 O +ATOM 1024 CB VAL B 13 4.788 68.370 79.630 1.00 39.11 C +ATOM 1025 CG1 VAL B 13 5.819 68.621 80.706 1.00 45.60 C +ATOM 1026 CG2 VAL B 13 5.288 68.886 78.303 1.00 47.27 C +ATOM 1027 N GLN B 14 5.381 65.827 77.532 1.00 50.21 N +ATOM 1028 CA GLN B 14 6.352 64.984 76.846 1.00 48.85 C +ATOM 1029 C GLN B 14 7.451 65.832 76.207 1.00 47.40 C +ATOM 1030 O GLN B 14 7.250 67.026 75.979 1.00 47.36 O +ATOM 1031 CB GLN B 14 5.648 64.075 75.841 1.00 45.29 C +ATOM 1032 CG GLN B 14 4.778 64.729 74.832 1.00 53.89 C +ATOM 1033 CD GLN B 14 4.376 63.712 73.787 1.00 71.59 C +ATOM 1034 OE1 GLN B 14 4.813 62.557 73.852 1.00 77.07 O +ATOM 1035 NE2 GLN B 14 3.564 64.125 72.811 1.00 69.25 N +ATOM 1036 N PRO B 15 8.636 65.232 75.975 1.00 47.21 N +ATOM 1037 CA PRO B 15 9.818 66.023 75.610 1.00 47.36 C +ATOM 1038 C PRO B 15 9.606 66.855 74.364 1.00 51.17 C +ATOM 1039 O PRO B 15 8.921 66.405 73.441 1.00 49.88 O +ATOM 1040 CB PRO B 15 10.896 64.962 75.376 1.00 48.12 C +ATOM 1041 CG PRO B 15 10.443 63.783 76.156 1.00 47.70 C +ATOM 1042 CD PRO B 15 8.955 63.797 76.084 1.00 46.70 C +ATOM 1043 N GLY B 16 10.186 68.054 74.354 1.00 53.95 N +ATOM 1044 CA GLY B 16 9.984 69.011 73.282 1.00 47.53 C +ATOM 1045 C GLY B 16 8.712 69.819 73.470 1.00 46.31 C +ATOM 1046 O GLY B 16 8.467 70.764 72.725 1.00 55.25 O +ATOM 1047 N GLY B 17 7.903 69.453 74.462 1.00 46.86 N +ATOM 1048 CA GLY B 17 6.654 70.150 74.736 1.00 47.06 C +ATOM 1049 C GLY B 17 6.801 71.362 75.645 1.00 48.07 C +ATOM 1050 O GLY B 17 7.895 71.686 76.118 1.00 44.54 O +ATOM 1051 N SER B 18 5.684 72.031 75.905 1.00 49.76 N +ATOM 1052 CA SER B 18 5.710 73.281 76.643 1.00 46.75 C +ATOM 1053 C SER B 18 4.721 73.289 77.794 1.00 46.80 C +ATOM 1054 O SER B 18 3.725 72.572 77.783 1.00 50.36 O +ATOM 1055 CB SER B 18 5.421 74.456 75.709 1.00 54.13 C +ATOM 1056 OG SER B 18 4.027 74.621 75.515 1.00 65.55 O +ATOM 1057 N LEU B 19 5.000 74.131 78.779 1.00 49.98 N +ATOM 1058 CA LEU B 19 4.216 74.185 80.003 1.00 49.77 C +ATOM 1059 C LEU B 19 4.405 75.546 80.669 1.00 48.28 C +ATOM 1060 O LEU B 19 5.486 76.135 80.598 1.00 44.91 O +ATOM 1061 CB LEU B 19 4.627 73.053 80.947 1.00 46.99 C +ATOM 1062 CG LEU B 19 3.810 72.859 82.227 1.00 53.96 C +ATOM 1063 CD1 LEU B 19 2.431 72.269 81.921 1.00 49.33 C +ATOM 1064 CD2 LEU B 19 4.583 71.987 83.224 1.00 47.10 C +ATOM 1065 N ARG B 20 3.351 76.052 81.300 1.00 44.35 N +ATOM 1066 CA ARG B 20 3.424 77.354 81.940 1.00 44.00 C +ATOM 1067 C ARG B 20 3.106 77.244 83.427 1.00 44.25 C +ATOM 1068 O ARG B 20 1.992 76.867 83.813 1.00 40.51 O +ATOM 1069 CB ARG B 20 2.473 78.336 81.259 1.00 53.09 C +ATOM 1070 CG ARG B 20 2.282 79.654 81.997 1.00 57.15 C +ATOM 1071 CD ARG B 20 0.881 80.200 81.744 1.00 66.79 C +ATOM 1072 NE ARG B 20 0.745 81.592 82.155 1.00 75.00 N +ATOM 1073 CZ ARG B 20 1.096 82.626 81.394 1.00 79.82 C +ATOM 1074 NH1 ARG B 20 1.608 82.416 80.186 1.00 80.09 N +ATOM 1075 NH2 ARG B 20 0.945 83.870 81.840 1.00 81.79 N +ATOM 1076 N LEU B 21 4.101 77.570 84.252 1.00 45.34 N +ATOM 1077 CA LEU B 21 3.942 77.567 85.702 1.00 40.29 C +ATOM 1078 C LEU B 21 3.485 78.920 86.203 1.00 39.95 C +ATOM 1079 O LEU B 21 3.813 79.950 85.629 1.00 46.18 O +ATOM 1080 CB LEU B 21 5.249 77.201 86.390 1.00 37.03 C +ATOM 1081 CG LEU B 21 5.882 75.859 86.052 1.00 42.21 C +ATOM 1082 CD1 LEU B 21 7.146 75.668 86.890 1.00 39.06 C +ATOM 1083 CD2 LEU B 21 4.892 74.737 86.288 1.00 40.87 C +ATOM 1084 N SER B 22 2.747 78.922 87.296 1.00 38.72 N +ATOM 1085 CA SER B 22 2.296 80.169 87.858 1.00 35.71 C +ATOM 1086 C SER B 22 2.490 80.145 89.357 1.00 38.76 C +ATOM 1087 O SER B 22 2.541 79.088 89.968 1.00 38.47 O +ATOM 1088 CB SER B 22 0.838 80.422 87.496 1.00 38.06 C +ATOM 1089 OG SER B 22 -0.027 79.794 88.425 1.00 48.79 O +ATOM 1090 N CYS B 23 2.603 81.328 89.943 1.00 40.53 N +ATOM 1091 CA CYS B 23 2.876 81.475 91.360 1.00 39.77 C +ATOM 1092 C CYS B 23 2.069 82.654 91.880 1.00 41.36 C +ATOM 1093 O CYS B 23 2.198 83.760 91.354 1.00 41.75 O +ATOM 1094 CB CYS B 23 4.375 81.695 91.591 1.00 40.47 C +ATOM 1095 SG CYS B 23 4.912 81.940 93.310 1.00 62.16 S +ATOM 1096 N ALA B 24 1.233 82.425 92.891 1.00 35.58 N +ATOM 1097 CA ALA B 24 0.433 83.502 93.464 1.00 37.41 C +ATOM 1098 C ALA B 24 1.002 83.949 94.812 1.00 39.27 C +ATOM 1099 O ALA B 24 1.436 83.125 95.614 1.00 44.75 O +ATOM 1100 CB ALA B 24 -1.015 83.070 93.615 1.00 34.81 C +ATOM 1101 N ALA B 25 0.996 85.257 95.059 1.00 38.49 N +ATOM 1102 CA ALA B 25 1.608 85.811 96.262 1.00 40.17 C +ATOM 1103 C ALA B 25 0.591 86.482 97.175 1.00 40.21 C +ATOM 1104 O ALA B 25 -0.442 86.963 96.721 1.00 41.98 O +ATOM 1105 CB ALA B 25 2.703 86.804 95.884 1.00 40.27 C +ATOM 1106 N SER B 26 0.897 86.536 98.464 1.00 36.79 N +ATOM 1107 CA SER B 26 0.021 87.221 99.395 1.00 41.46 C +ATOM 1108 C SER B 26 0.801 87.654 100.641 1.00 41.37 C +ATOM 1109 O SER B 26 1.829 87.056 100.971 1.00 41.23 O +ATOM 1110 CB SER B 26 -1.161 86.314 99.772 1.00 42.52 C +ATOM 1111 OG SER B 26 -2.144 87.030 100.496 1.00 44.27 O +ATOM 1112 N GLY B 27 0.318 88.702 101.310 1.00 38.44 N +ATOM 1113 CA GLY B 27 0.861 89.125 102.587 1.00 36.57 C +ATOM 1114 C GLY B 27 2.015 90.104 102.502 1.00 40.94 C +ATOM 1115 O GLY B 27 2.648 90.421 103.514 1.00 46.47 O +ATOM 1116 N PHE B 28 2.307 90.574 101.297 1.00 34.05 N +ATOM 1117 CA PHE B 28 3.373 91.552 101.116 1.00 39.86 C +ATOM 1118 C PHE B 28 3.110 92.286 99.821 1.00 40.71 C +ATOM 1119 O PHE B 28 2.328 91.824 99.005 1.00 42.76 O +ATOM 1120 CB PHE B 28 4.769 90.890 101.111 1.00 38.54 C +ATOM 1121 CG PHE B 28 5.034 90.002 99.913 1.00 40.29 C +ATOM 1122 CD1 PHE B 28 4.652 88.665 99.921 1.00 38.16 C +ATOM 1123 CD2 PHE B 28 5.670 90.504 98.779 1.00 39.16 C +ATOM 1124 CE1 PHE B 28 4.888 87.850 98.821 1.00 37.10 C +ATOM 1125 CE2 PHE B 28 5.915 89.695 97.679 1.00 38.43 C +ATOM 1126 CZ PHE B 28 5.526 88.362 97.702 1.00 36.04 C +ATOM 1127 N THR B 29 3.765 93.423 99.627 1.00 44.03 N +ATOM 1128 CA THR B 29 3.540 94.199 98.423 1.00 39.27 C +ATOM 1129 C THR B 29 4.388 93.625 97.295 1.00 42.77 C +ATOM 1130 O THR B 29 5.596 93.867 97.202 1.00 41.64 O +ATOM 1131 CB THR B 29 3.851 95.684 98.650 1.00 48.91 C +ATOM 1132 OG1 THR B 29 3.135 96.140 99.805 1.00 50.48 O +ATOM 1133 CG2 THR B 29 3.429 96.504 97.444 1.00 44.19 C +ATOM 1134 N PHE B 30 3.729 92.857 96.438 1.00 45.26 N +ATOM 1135 CA PHE B 30 4.389 92.082 95.394 1.00 44.07 C +ATOM 1136 C PHE B 30 5.197 92.934 94.415 1.00 41.55 C +ATOM 1137 O PHE B 30 6.229 92.495 93.909 1.00 42.62 O +ATOM 1138 CB PHE B 30 3.336 91.269 94.640 1.00 45.83 C +ATOM 1139 CG PHE B 30 3.895 90.387 93.561 1.00 45.01 C +ATOM 1140 CD1 PHE B 30 4.502 89.182 93.884 1.00 40.56 C +ATOM 1141 CD2 PHE B 30 3.780 90.744 92.220 1.00 44.92 C +ATOM 1142 CE1 PHE B 30 5.005 88.357 92.892 1.00 39.32 C +ATOM 1143 CE2 PHE B 30 4.279 89.927 91.228 1.00 42.47 C +ATOM 1144 CZ PHE B 30 4.890 88.727 91.564 1.00 41.19 C +ATOM 1145 N SER B 35 4.738 94.150 94.146 1.00 44.39 N +ATOM 1146 CA SER B 35 5.411 95.000 93.164 1.00 40.79 C +ATOM 1147 C SER B 35 6.743 95.537 93.693 1.00 41.36 C +ATOM 1148 O SER B 35 7.511 96.129 92.939 1.00 45.87 O +ATOM 1149 CB SER B 35 4.513 96.167 92.753 1.00 44.04 C +ATOM 1150 OG SER B 35 4.217 97.013 93.858 1.00 43.61 O +ATOM 1151 N ARG B 36 7.019 95.335 94.982 1.00 38.67 N +ATOM 1152 CA ARG B 36 8.249 95.854 95.592 1.00 38.72 C +ATOM 1153 C ARG B 36 9.425 94.872 95.555 1.00 37.17 C +ATOM 1154 O ARG B 36 10.540 95.206 95.963 1.00 38.74 O +ATOM 1155 CB ARG B 36 7.998 96.241 97.049 1.00 43.82 C +ATOM 1156 CG ARG B 36 7.257 97.551 97.278 1.00 51.02 C +ATOM 1157 CD ARG B 36 7.795 98.240 98.539 1.00 64.96 C +ATOM 1158 NE ARG B 36 6.752 98.878 99.342 1.00 72.88 N +ATOM 1159 CZ ARG B 36 6.227 98.349 100.447 1.00 81.27 C +ATOM 1160 NH1 ARG B 36 6.643 97.164 100.893 1.00 82.71 N +ATOM 1161 NH2 ARG B 36 5.283 99.007 101.110 1.00 79.89 N +ATOM 1162 N TYR B 37 9.194 93.657 95.080 1.00 35.59 N +ATOM 1163 CA TYR B 37 10.211 92.636 95.267 1.00 37.39 C +ATOM 1164 C TYR B 37 10.675 91.958 93.978 1.00 38.86 C +ATOM 1165 O TYR B 37 9.905 91.782 93.021 1.00 38.21 O +ATOM 1166 CB TYR B 37 9.706 91.585 96.281 1.00 33.37 C +ATOM 1167 CG TYR B 37 9.572 92.126 97.711 1.00 36.39 C +ATOM 1168 CD1 TYR B 37 10.633 92.046 98.617 1.00 35.32 C +ATOM 1169 CD2 TYR B 37 8.394 92.724 98.143 1.00 36.03 C +ATOM 1170 CE1 TYR B 37 10.513 92.539 99.911 1.00 39.28 C +ATOM 1171 CE2 TYR B 37 8.268 93.220 99.431 1.00 42.77 C +ATOM 1172 CZ TYR B 37 9.328 93.125 100.314 1.00 45.29 C +ATOM 1173 OH TYR B 37 9.206 93.618 101.602 1.00 52.53 O +ATOM 1174 N TRP B 38 11.964 91.628 93.957 1.00 34.22 N +ATOM 1175 CA TRP B 38 12.515 90.701 92.981 1.00 33.44 C +ATOM 1176 C TRP B 38 11.975 89.294 93.281 1.00 33.21 C +ATOM 1177 O TRP B 38 11.758 88.934 94.438 1.00 28.75 O +ATOM 1178 CB TRP B 38 14.049 90.718 93.020 1.00 35.08 C +ATOM 1179 CG TRP B 38 14.662 91.907 92.366 1.00 36.34 C +ATOM 1180 CD1 TRP B 38 14.619 93.191 92.800 1.00 37.51 C +ATOM 1181 CD2 TRP B 38 15.422 91.917 91.154 1.00 36.54 C +ATOM 1182 NE1 TRP B 38 15.296 94.008 91.930 1.00 38.36 N +ATOM 1183 CE2 TRP B 38 15.797 93.246 90.908 1.00 35.01 C +ATOM 1184 CE3 TRP B 38 15.813 90.928 90.249 1.00 35.54 C +ATOM 1185 CZ2 TRP B 38 16.551 93.617 89.795 1.00 33.19 C +ATOM 1186 CZ3 TRP B 38 16.561 91.302 89.138 1.00 35.15 C +ATOM 1187 CH2 TRP B 38 16.920 92.633 88.923 1.00 30.81 C +ATOM 1188 N MET B 39 11.742 88.503 92.242 1.00 34.16 N +ATOM 1189 CA MET B 39 11.205 87.154 92.427 1.00 32.87 C +ATOM 1190 C MET B 39 12.047 86.132 91.637 1.00 30.19 C +ATOM 1191 O MET B 39 12.550 86.449 90.557 1.00 30.07 O +ATOM 1192 CB MET B 39 9.735 87.106 91.993 1.00 31.49 C +ATOM 1193 CG MET B 39 8.817 88.028 92.769 1.00 24.86 C +ATOM 1194 SD MET B 39 8.667 87.515 94.484 1.00 39.03 S +ATOM 1195 CE MET B 39 8.051 85.835 94.312 1.00 29.85 C +ATOM 1196 N SER B 40 12.217 84.930 92.194 1.00 28.36 N +ATOM 1197 CA SER B 40 13.007 83.868 91.565 1.00 31.34 C +ATOM 1198 C SER B 40 12.215 82.592 91.364 1.00 33.40 C +ATOM 1199 O SER B 40 11.216 82.343 92.047 1.00 31.45 O +ATOM 1200 CB SER B 40 14.254 83.520 92.394 1.00 30.70 C +ATOM 1201 OG SER B 40 15.392 84.261 91.995 1.00 33.43 O +ATOM 1202 N TRP B 41 12.682 81.785 90.418 1.00 33.70 N +ATOM 1203 CA TRP B 41 12.319 80.382 90.354 1.00 31.25 C +ATOM 1204 C TRP B 41 13.548 79.531 90.719 1.00 33.92 C +ATOM 1205 O TRP B 41 14.673 79.791 90.265 1.00 31.29 O +ATOM 1206 CB TRP B 41 11.794 80.011 88.966 1.00 32.52 C +ATOM 1207 CG TRP B 41 10.446 80.604 88.581 1.00 34.67 C +ATOM 1208 CD1 TRP B 41 10.227 81.705 87.792 1.00 35.36 C +ATOM 1209 CD2 TRP B 41 9.144 80.103 88.931 1.00 31.71 C +ATOM 1210 NE1 TRP B 41 8.875 81.924 87.644 1.00 34.75 N +ATOM 1211 CE2 TRP B 41 8.190 80.952 88.326 1.00 33.55 C +ATOM 1212 CE3 TRP B 41 8.695 79.016 89.687 1.00 30.92 C +ATOM 1213 CZ2 TRP B 41 6.813 80.749 88.462 1.00 35.41 C +ATOM 1214 CZ3 TRP B 41 7.326 78.818 89.825 1.00 33.77 C +ATOM 1215 CH2 TRP B 41 6.401 79.681 89.218 1.00 33.38 C +ATOM 1216 N VAL B 42 13.317 78.524 91.553 1.00 35.63 N +ATOM 1217 CA VAL B 42 14.328 77.540 91.940 1.00 34.28 C +ATOM 1218 C VAL B 42 13.741 76.145 91.733 1.00 32.76 C +ATOM 1219 O VAL B 42 12.586 75.902 92.083 1.00 33.85 O +ATOM 1220 CB VAL B 42 14.758 77.711 93.429 1.00 36.08 C +ATOM 1221 CG1 VAL B 42 15.656 76.556 93.887 1.00 35.91 C +ATOM 1222 CG2 VAL B 42 15.456 79.044 93.640 1.00 34.20 C +ATOM 1223 N ARG B 43 14.513 75.220 91.177 1.00 32.74 N +ATOM 1224 CA ARG B 43 13.990 73.868 90.984 1.00 33.53 C +ATOM 1225 C ARG B 43 14.823 72.814 91.690 1.00 36.52 C +ATOM 1226 O ARG B 43 15.966 73.056 92.075 1.00 36.29 O +ATOM 1227 CB ARG B 43 13.901 73.534 89.497 1.00 36.03 C +ATOM 1228 CG ARG B 43 15.247 73.294 88.822 1.00 33.97 C +ATOM 1229 CD ARG B 43 15.057 73.047 87.348 1.00 32.01 C +ATOM 1230 NE ARG B 43 16.331 72.859 86.665 1.00 41.15 N +ATOM 1231 CZ ARG B 43 16.478 72.839 85.344 1.00 39.26 C +ATOM 1232 NH1 ARG B 43 15.424 72.997 84.554 1.00 39.29 N +ATOM 1233 NH2 ARG B 43 17.682 72.669 84.816 1.00 41.55 N +ATOM 1234 N GLN B 44 14.233 71.636 91.849 1.00 36.67 N +ATOM 1235 CA GLN B 44 14.906 70.515 92.482 1.00 33.58 C +ATOM 1236 C GLN B 44 14.476 69.197 91.854 1.00 34.91 C +ATOM 1237 O GLN B 44 13.307 68.810 91.907 1.00 35.60 O +ATOM 1238 CB GLN B 44 14.621 70.509 93.978 1.00 31.65 C +ATOM 1239 CG GLN B 44 15.239 69.334 94.712 1.00 37.66 C +ATOM 1240 CD GLN B 44 15.148 69.492 96.214 1.00 37.20 C +ATOM 1241 OE1 GLN B 44 14.095 69.845 96.754 1.00 37.76 O +ATOM 1242 NE2 GLN B 44 16.264 69.276 96.895 1.00 35.30 N +ATOM 1243 N ALA B 45 15.430 68.522 91.234 1.00 37.21 N +ATOM 1244 CA ALA B 45 15.177 67.224 90.634 1.00 37.87 C +ATOM 1245 C ALA B 45 15.067 66.166 91.741 1.00 40.45 C +ATOM 1246 O ALA B 45 15.721 66.292 92.781 1.00 42.03 O +ATOM 1247 CB ALA B 45 16.282 66.888 89.662 1.00 35.58 C +ATOM 1248 N PRO B 46 14.247 65.120 91.520 1.00 42.82 N +ATOM 1249 CA PRO B 46 13.991 64.078 92.530 1.00 42.12 C +ATOM 1250 C PRO B 46 15.272 63.465 93.092 1.00 39.67 C +ATOM 1251 O PRO B 46 16.023 62.835 92.346 1.00 32.89 O +ATOM 1252 CB PRO B 46 13.192 63.026 91.755 1.00 43.65 C +ATOM 1253 CG PRO B 46 12.592 63.771 90.603 1.00 41.19 C +ATOM 1254 CD PRO B 46 13.578 64.825 90.238 1.00 41.27 C +ATOM 1255 N GLY B 47 15.519 63.673 94.383 1.00 38.05 N +ATOM 1256 CA GLY B 47 16.703 63.136 95.030 1.00 40.04 C +ATOM 1257 C GLY B 47 17.951 63.997 94.926 1.00 42.10 C +ATOM 1258 O GLY B 47 18.953 63.742 95.609 1.00 34.07 O +ATOM 1259 N LYS B 48 17.894 65.024 94.083 1.00 42.94 N +ATOM 1260 CA LYS B 48 19.037 65.912 93.908 1.00 43.15 C +ATOM 1261 C LYS B 48 18.940 67.139 94.810 1.00 41.22 C +ATOM 1262 O LYS B 48 18.085 67.216 95.691 1.00 40.24 O +ATOM 1263 CB LYS B 48 19.155 66.342 92.450 1.00 41.18 C +ATOM 1264 CG LYS B 48 19.343 65.182 91.499 1.00 44.34 C +ATOM 1265 CD LYS B 48 20.751 64.631 91.582 1.00 57.35 C +ATOM 1266 CE LYS B 48 20.954 63.416 90.668 1.00 61.56 C +ATOM 1267 NZ LYS B 48 20.735 62.111 91.365 1.00 61.01 N +ATOM 1268 N GLY B 49 19.826 68.098 94.581 1.00 37.88 N +ATOM 1269 CA GLY B 49 19.813 69.332 95.335 1.00 35.54 C +ATOM 1270 C GLY B 49 19.112 70.466 94.600 1.00 37.48 C +ATOM 1271 O GLY B 49 18.404 70.248 93.609 1.00 37.39 O +ATOM 1272 N LEU B 50 19.322 71.683 95.098 1.00 35.42 N +ATOM 1273 CA LEU B 50 18.621 72.870 94.623 1.00 35.42 C +ATOM 1274 C LEU B 50 19.393 73.602 93.520 1.00 34.85 C +ATOM 1275 O LEU B 50 20.612 73.755 93.579 1.00 34.36 O +ATOM 1276 CB LEU B 50 18.348 73.830 95.793 1.00 33.28 C +ATOM 1277 CG LEU B 50 17.590 73.308 97.031 1.00 39.57 C +ATOM 1278 CD1 LEU B 50 17.754 74.229 98.264 1.00 31.86 C +ATOM 1279 CD2 LEU B 50 16.108 73.067 96.730 1.00 33.49 C +ATOM 1280 N GLU B 51 18.663 74.059 92.517 1.00 33.28 N +ATOM 1281 CA GLU B 51 19.244 74.790 91.402 1.00 36.10 C +ATOM 1282 C GLU B 51 18.408 76.042 91.074 1.00 36.09 C +ATOM 1283 O GLU B 51 17.199 75.948 90.813 1.00 35.27 O +ATOM 1284 CB GLU B 51 19.349 73.879 90.178 1.00 36.89 C +ATOM 1285 CG GLU B 51 19.813 74.597 88.924 1.00 44.73 C +ATOM 1286 CD GLU B 51 19.978 73.669 87.743 1.00 53.62 C +ATOM 1287 OE1 GLU B 51 19.277 72.630 87.690 1.00 61.95 O +ATOM 1288 OE2 GLU B 51 20.831 73.972 86.881 1.00 55.55 O +ATOM 1289 N TRP B 52 19.039 77.212 91.106 1.00 35.09 N +ATOM 1290 CA TRP B 52 18.355 78.442 90.712 1.00 34.68 C +ATOM 1291 C TRP B 52 18.057 78.444 89.205 1.00 39.83 C +ATOM 1292 O TRP B 52 18.842 77.915 88.421 1.00 40.41 O +ATOM 1293 CB TRP B 52 19.192 79.657 91.094 1.00 31.36 C +ATOM 1294 CG TRP B 52 18.648 80.954 90.558 1.00 37.70 C +ATOM 1295 CD1 TRP B 52 17.566 81.648 91.026 1.00 37.14 C +ATOM 1296 CD2 TRP B 52 19.159 81.714 89.451 1.00 35.34 C +ATOM 1297 NE1 TRP B 52 17.374 82.787 90.285 1.00 33.26 N +ATOM 1298 CE2 TRP B 52 18.338 82.854 89.313 1.00 34.77 C +ATOM 1299 CE3 TRP B 52 20.230 81.540 88.564 1.00 36.80 C +ATOM 1300 CZ2 TRP B 52 18.553 83.819 88.324 1.00 33.88 C +ATOM 1301 CZ3 TRP B 52 20.441 82.504 87.574 1.00 36.29 C +ATOM 1302 CH2 TRP B 52 19.606 83.624 87.467 1.00 34.13 C +ATOM 1303 N VAL B 53 16.930 79.035 88.801 1.00 35.14 N +ATOM 1304 CA VAL B 53 16.521 78.982 87.400 1.00 33.85 C +ATOM 1305 C VAL B 53 16.430 80.352 86.731 1.00 32.91 C +ATOM 1306 O VAL B 53 17.068 80.594 85.710 1.00 32.29 O +ATOM 1307 CB VAL B 53 15.156 78.280 87.238 1.00 34.90 C +ATOM 1308 CG1 VAL B 53 14.746 78.242 85.774 1.00 29.97 C +ATOM 1309 CG2 VAL B 53 15.211 76.879 87.803 1.00 32.90 C +ATOM 1310 N ALA B 54 15.621 81.244 87.297 1.00 36.25 N +ATOM 1311 CA ALA B 54 15.333 82.524 86.656 1.00 32.30 C +ATOM 1312 C ALA B 54 15.076 83.633 87.669 1.00 33.51 C +ATOM 1313 O ALA B 54 14.772 83.386 88.828 1.00 31.89 O +ATOM 1314 CB ALA B 54 14.139 82.393 85.727 1.00 28.41 C +ATOM 1315 N ASN B 55 15.159 84.863 87.192 1.00 37.20 N +ATOM 1316 CA ASN B 55 15.035 86.050 88.019 1.00 34.81 C +ATOM 1317 C ASN B 55 14.259 87.160 87.325 1.00 36.69 C +ATOM 1318 O ASN B 55 14.439 87.380 86.125 1.00 37.60 O +ATOM 1319 CB ASN B 55 16.426 86.560 88.365 1.00 37.74 C +ATOM 1320 CG ASN B 55 16.457 87.232 89.666 1.00 44.83 C +ATOM 1321 OD1 ASN B 55 17.443 87.898 89.987 1.00 54.31 O +ATOM 1322 ND2 ASN B 55 15.387 87.093 90.440 1.00 41.96 N +ATOM 1323 N ILE B 56 13.437 87.898 88.058 1.00 33.63 N +ATOM 1324 CA ILE B 56 12.811 89.057 87.436 1.00 33.20 C +ATOM 1325 C ILE B 56 12.740 90.283 88.378 1.00 35.87 C +ATOM 1326 O ILE B 56 12.510 90.152 89.590 1.00 32.67 O +ATOM 1327 CB ILE B 56 11.397 88.678 86.863 1.00 33.71 C +ATOM 1328 CG1 ILE B 56 10.817 89.824 86.026 1.00 35.07 C +ATOM 1329 CG2 ILE B 56 10.429 88.192 87.942 1.00 30.65 C +ATOM 1330 CD1 ILE B 56 9.621 89.419 85.207 1.00 33.43 C +ATOM 1331 N LYS B 57 12.999 91.461 87.799 1.00 32.64 N +ATOM 1332 CA LYS B 57 12.951 92.741 88.505 1.00 37.91 C +ATOM 1333 C LYS B 57 11.491 93.115 88.824 1.00 41.44 C +ATOM 1334 O LYS B 57 10.572 92.558 88.223 1.00 43.03 O +ATOM 1335 CB LYS B 57 13.642 93.824 87.652 1.00 39.36 C +ATOM 1336 CG LYS B 57 13.923 95.182 88.327 1.00 37.23 C +ATOM 1337 CD LYS B 57 14.893 96.014 87.493 1.00 36.57 C +ATOM 1338 CE LYS B 57 14.903 97.495 87.888 1.00 40.18 C +ATOM 1339 NZ LYS B 57 15.158 98.368 86.688 1.00 51.40 N +ATOM 1340 N GLN B 58 11.287 94.029 89.778 1.00 38.72 N +ATOM 1341 CA GLN B 58 9.946 94.483 90.175 1.00 40.99 C +ATOM 1342 C GLN B 58 9.046 94.792 88.992 1.00 46.09 C +ATOM 1343 O GLN B 58 7.904 94.338 88.936 1.00 48.66 O +ATOM 1344 CB GLN B 58 10.027 95.739 91.044 1.00 43.22 C +ATOM 1345 CG GLN B 58 10.576 95.520 92.431 1.00 41.96 C +ATOM 1346 CD GLN B 58 12.089 95.700 92.496 1.00 47.10 C +ATOM 1347 OE1 GLN B 58 12.756 95.916 91.472 1.00 41.34 O +ATOM 1348 NE2 GLN B 58 12.640 95.605 93.709 1.00 49.58 N +ATOM 1349 N ASP B 59 9.566 95.578 88.056 1.00 44.28 N +ATOM 1350 CA ASP B 59 8.776 96.069 86.932 1.00 45.68 C +ATOM 1351 C ASP B 59 8.857 95.169 85.681 1.00 49.89 C +ATOM 1352 O ASP B 59 8.341 95.525 84.609 1.00 48.14 O +ATOM 1353 CB ASP B 59 9.225 97.495 86.581 1.00 48.69 C +ATOM 1354 CG ASP B 59 10.730 97.593 86.311 1.00 49.27 C +ATOM 1355 OD1 ASP B 59 11.467 96.621 86.582 1.00 57.46 O +ATOM 1356 OD2 ASP B 59 11.182 98.643 85.812 1.00 50.40 O +ATOM 1357 N GLY B 62 9.515 94.016 85.811 1.00 44.03 N +ATOM 1358 CA GLY B 62 9.644 93.095 84.695 1.00 36.12 C +ATOM 1359 C GLY B 62 10.660 93.555 83.679 1.00 38.42 C +ATOM 1360 O GLY B 62 10.817 92.945 82.617 1.00 43.35 O +ATOM 1361 N SER B 63 11.377 94.616 84.031 1.00 41.17 N +ATOM 1362 CA SER B 63 12.309 95.293 83.133 1.00 40.88 C +ATOM 1363 C SER B 63 13.641 94.561 82.899 1.00 43.23 C +ATOM 1364 O SER B 63 14.356 94.869 81.944 1.00 45.30 O +ATOM 1365 CB SER B 63 12.582 96.701 83.681 1.00 45.88 C +ATOM 1366 OG SER B 63 13.804 97.222 83.199 1.00 59.70 O +ATOM 1367 N GLU B 64 13.988 93.624 83.782 1.00 40.79 N +ATOM 1368 CA GLU B 64 15.205 92.817 83.635 1.00 36.13 C +ATOM 1369 C GLU B 64 14.914 91.375 84.017 1.00 37.40 C +ATOM 1370 O GLU B 64 14.137 91.115 84.935 1.00 37.24 O +ATOM 1371 CB GLU B 64 16.337 93.351 84.509 1.00 37.48 C +ATOM 1372 CG GLU B 64 16.663 94.812 84.316 1.00 44.55 C +ATOM 1373 CD GLU B 64 17.718 95.286 85.285 1.00 40.90 C +ATOM 1374 OE1 GLU B 64 18.479 94.423 85.768 1.00 34.88 O +ATOM 1375 OE2 GLU B 64 17.773 96.506 85.580 1.00 43.33 O +ATOM 1376 N LYS B 65 15.540 90.436 83.317 1.00 37.44 N +ATOM 1377 CA LYS B 65 15.308 89.013 83.540 1.00 29.74 C +ATOM 1378 C LYS B 65 16.616 88.278 83.400 1.00 29.22 C +ATOM 1379 O LYS B 65 17.340 88.514 82.444 1.00 35.41 O +ATOM 1380 CB LYS B 65 14.284 88.460 82.539 1.00 32.16 C +ATOM 1381 CG LYS B 65 12.979 89.260 82.418 1.00 35.26 C +ATOM 1382 CD LYS B 65 12.017 88.615 81.432 1.00 36.63 C +ATOM 1383 CE LYS B 65 10.746 89.447 81.243 1.00 41.04 C +ATOM 1384 NZ LYS B 65 9.844 88.861 80.197 1.00 40.19 N +ATOM 1385 N TYR B 66 16.936 87.387 84.334 1.00 30.63 N +ATOM 1386 CA TYR B 66 18.152 86.581 84.203 1.00 29.16 C +ATOM 1387 C TYR B 66 17.893 85.088 84.342 1.00 29.87 C +ATOM 1388 O TYR B 66 16.978 84.662 85.038 1.00 31.67 O +ATOM 1389 CB TYR B 66 19.186 87.036 85.219 1.00 29.20 C +ATOM 1390 CG TYR B 66 19.445 88.506 85.101 1.00 33.64 C +ATOM 1391 CD1 TYR B 66 18.795 89.411 85.936 1.00 34.39 C +ATOM 1392 CD2 TYR B 66 20.304 89.003 84.123 1.00 24.79 C +ATOM 1393 CE1 TYR B 66 19.007 90.776 85.816 1.00 32.73 C +ATOM 1394 CE2 TYR B 66 20.531 90.363 84.001 1.00 31.51 C +ATOM 1395 CZ TYR B 66 19.879 91.248 84.849 1.00 34.21 C +ATOM 1396 OH TYR B 66 20.098 92.603 84.744 1.00 31.55 O +ATOM 1397 N TYR B 67 18.713 84.291 83.673 1.00 35.36 N +ATOM 1398 CA TYR B 67 18.502 82.854 83.617 1.00 33.29 C +ATOM 1399 C TYR B 67 19.790 82.068 83.821 1.00 39.81 C +ATOM 1400 O TYR B 67 20.888 82.560 83.552 1.00 42.35 O +ATOM 1401 CB TYR B 67 17.891 82.477 82.273 1.00 31.88 C +ATOM 1402 CG TYR B 67 16.623 83.215 81.919 1.00 34.35 C +ATOM 1403 CD1 TYR B 67 15.386 82.730 82.320 1.00 33.28 C +ATOM 1404 CD2 TYR B 67 16.659 84.390 81.165 1.00 33.79 C +ATOM 1405 CE1 TYR B 67 14.217 83.392 81.990 1.00 34.81 C +ATOM 1406 CE2 TYR B 67 15.499 85.059 80.833 1.00 30.99 C +ATOM 1407 CZ TYR B 67 14.279 84.552 81.249 1.00 35.67 C +ATOM 1408 OH TYR B 67 13.109 85.197 80.924 1.00 38.38 O +ATOM 1409 N VAL B 68 19.665 80.835 84.297 1.00 39.48 N +ATOM 1410 CA VAL B 68 20.788 79.906 84.209 1.00 44.69 C +ATOM 1411 C VAL B 68 20.991 79.508 82.743 1.00 46.99 C +ATOM 1412 O VAL B 68 20.019 79.426 81.971 1.00 39.94 O +ATOM 1413 CB VAL B 68 20.585 78.616 85.057 1.00 39.63 C +ATOM 1414 CG1 VAL B 68 21.064 78.808 86.470 1.00 40.45 C +ATOM 1415 CG2 VAL B 68 19.136 78.174 85.040 1.00 38.54 C +ATOM 1416 N ASP B 69 22.254 79.265 82.383 1.00 49.18 N +ATOM 1417 CA ASP B 69 22.663 78.751 81.069 1.00 46.06 C +ATOM 1418 C ASP B 69 21.707 77.701 80.476 1.00 51.58 C +ATOM 1419 O ASP B 69 21.286 77.836 79.317 1.00 50.64 O +ATOM 1420 CB ASP B 69 24.071 78.155 81.175 1.00 53.57 C +ATOM 1421 CG ASP B 69 24.228 77.243 82.390 1.00 70.15 C +ATOM 1422 OD1 ASP B 69 23.224 76.592 82.791 1.00 71.17 O +ATOM 1423 OD2 ASP B 69 25.357 77.153 82.932 1.00 78.15 O +ATOM 1424 N SER B 70 21.345 76.689 81.282 1.00 46.47 N +ATOM 1425 CA SER B 70 20.550 75.524 80.830 1.00 46.06 C +ATOM 1426 C SER B 70 19.163 75.830 80.281 1.00 46.91 C +ATOM 1427 O SER B 70 18.583 75.015 79.555 1.00 51.73 O +ATOM 1428 CB SER B 70 20.349 74.518 81.964 1.00 44.63 C +ATOM 1429 OG SER B 70 21.488 74.424 82.786 1.00 55.51 O +ATOM 1430 N VAL B 71 18.618 76.980 80.657 1.00 47.57 N +ATOM 1431 CA VAL B 71 17.245 77.322 80.304 1.00 49.08 C +ATOM 1432 C VAL B 71 17.192 78.594 79.477 1.00 45.42 C +ATOM 1433 O VAL B 71 16.117 78.992 79.010 1.00 47.12 O +ATOM 1434 CB VAL B 71 16.366 77.504 81.561 1.00 45.52 C +ATOM 1435 CG1 VAL B 71 16.524 76.303 82.486 1.00 43.50 C +ATOM 1436 CG2 VAL B 71 16.734 78.801 82.283 1.00 37.40 C +ATOM 1437 N LYS B 72 18.347 79.233 79.304 1.00 42.81 N +ATOM 1438 CA LYS B 72 18.409 80.472 78.537 1.00 46.21 C +ATOM 1439 C LYS B 72 18.075 80.172 77.082 1.00 49.59 C +ATOM 1440 O LYS B 72 18.716 79.339 76.445 1.00 52.70 O +ATOM 1441 CB LYS B 72 19.781 81.139 78.653 1.00 43.67 C +ATOM 1442 CG LYS B 72 19.707 82.642 78.443 1.00 45.61 C +ATOM 1443 CD LYS B 72 21.064 83.322 78.530 1.00 52.97 C +ATOM 1444 CE LYS B 72 21.027 84.715 77.878 1.00 51.29 C +ATOM 1445 NZ LYS B 72 22.328 85.448 78.012 1.00 47.75 N +ATOM 1446 N GLY B 74 17.048 80.835 76.569 1.00 46.43 N +ATOM 1447 CA GLY B 74 16.596 80.586 75.218 1.00 44.27 C +ATOM 1448 C GLY B 74 15.385 79.678 75.155 1.00 50.03 C +ATOM 1449 O GLY B 74 14.756 79.565 74.105 1.00 51.70 O +ATOM 1450 N ARG B 75 15.055 79.037 76.276 1.00 52.32 N +ATOM 1451 CA ARG B 75 13.955 78.067 76.330 1.00 45.84 C +ATOM 1452 C ARG B 75 12.880 78.454 77.337 1.00 48.19 C +ATOM 1453 O ARG B 75 11.681 78.298 77.074 1.00 48.32 O +ATOM 1454 CB ARG B 75 14.486 76.680 76.681 1.00 44.67 C +ATOM 1455 CG ARG B 75 14.975 75.903 75.504 1.00 45.10 C +ATOM 1456 CD ARG B 75 15.560 74.542 75.855 1.00 49.39 C +ATOM 1457 NE ARG B 75 16.197 74.408 77.170 1.00 54.23 N +ATOM 1458 CZ ARG B 75 15.783 73.574 78.132 1.00 53.90 C +ATOM 1459 NH1 ARG B 75 14.705 72.822 77.949 1.00 54.31 N +ATOM 1460 NH2 ARG B 75 16.439 73.498 79.287 1.00 50.39 N +ATOM 1461 N PHE B 76 13.316 78.942 78.498 1.00 45.05 N +ATOM 1462 CA PHE B 76 12.388 79.389 79.534 1.00 45.47 C +ATOM 1463 C PHE B 76 12.213 80.902 79.457 1.00 49.89 C +ATOM 1464 O PHE B 76 13.170 81.632 79.195 1.00 62.15 O +ATOM 1465 CB PHE B 76 12.878 78.994 80.936 1.00 43.38 C +ATOM 1466 CG PHE B 76 12.860 77.502 81.216 1.00 45.53 C +ATOM 1467 CD1 PHE B 76 12.561 76.572 80.219 1.00 46.62 C +ATOM 1468 CD2 PHE B 76 13.106 77.030 82.498 1.00 40.10 C +ATOM 1469 CE1 PHE B 76 12.538 75.198 80.495 1.00 43.67 C +ATOM 1470 CE2 PHE B 76 13.084 75.655 82.777 1.00 42.81 C +ATOM 1471 CZ PHE B 76 12.798 74.743 81.770 1.00 42.29 C +ATOM 1472 N THR B 77 10.996 81.379 79.675 1.00 42.12 N +ATOM 1473 CA THR B 77 10.786 82.815 79.796 1.00 42.05 C +ATOM 1474 C THR B 77 10.072 83.137 81.107 1.00 42.01 C +ATOM 1475 O THR B 77 8.989 82.614 81.386 1.00 37.68 O +ATOM 1476 CB THR B 77 9.992 83.382 78.599 1.00 39.32 C +ATOM 1477 OG1 THR B 77 10.907 83.689 77.540 1.00 44.90 O +ATOM 1478 CG2 THR B 77 9.261 84.658 78.972 1.00 31.80 C +ATOM 1479 N ILE B 78 10.705 83.983 81.920 1.00 41.69 N +ATOM 1480 CA ILE B 78 10.109 84.432 83.172 1.00 39.31 C +ATOM 1481 C ILE B 78 9.325 85.722 82.919 1.00 37.19 C +ATOM 1482 O ILE B 78 9.693 86.524 82.067 1.00 38.18 O +ATOM 1483 CB ILE B 78 11.181 84.652 84.279 1.00 38.90 C +ATOM 1484 CG1 ILE B 78 10.531 84.750 85.662 1.00 36.35 C +ATOM 1485 CG2 ILE B 78 12.059 85.882 83.986 1.00 34.06 C +ATOM 1486 CD1 ILE B 78 11.543 84.831 86.787 1.00 36.40 C +ATOM 1487 N SER B 79 8.225 85.898 83.637 1.00 36.71 N +ATOM 1488 CA SER B 79 7.419 87.107 83.521 1.00 41.19 C +ATOM 1489 C SER B 79 6.524 87.215 84.745 1.00 37.51 C +ATOM 1490 O SER B 79 6.397 86.256 85.498 1.00 39.67 O +ATOM 1491 CB SER B 79 6.588 87.098 82.234 1.00 41.57 C +ATOM 1492 OG SER B 79 5.335 86.456 82.424 1.00 43.94 O +ATOM 1493 N ARG B 80 5.906 88.376 84.945 1.00 41.36 N +ATOM 1494 CA ARG B 80 5.160 88.655 86.180 1.00 39.78 C +ATOM 1495 C ARG B 80 4.028 89.642 85.943 1.00 41.13 C +ATOM 1496 O ARG B 80 4.126 90.480 85.051 1.00 39.80 O +ATOM 1497 CB ARG B 80 6.096 89.220 87.252 1.00 35.66 C +ATOM 1498 CG ARG B 80 6.622 90.632 86.949 1.00 36.23 C +ATOM 1499 CD ARG B 80 7.695 91.081 87.928 1.00 38.56 C +ATOM 1500 NE ARG B 80 7.167 91.265 89.275 1.00 38.72 N +ATOM 1501 CZ ARG B 80 7.903 91.187 90.378 1.00 37.49 C +ATOM 1502 NH1 ARG B 80 9.201 90.922 90.285 1.00 33.50 N +ATOM 1503 NH2 ARG B 80 7.343 91.380 91.571 1.00 36.99 N +ATOM 1504 N ASP B 81 2.965 89.570 86.746 1.00 42.66 N +ATOM 1505 CA ASP B 81 1.934 90.614 86.697 1.00 44.25 C +ATOM 1506 C ASP B 81 1.637 91.198 88.071 1.00 43.66 C +ATOM 1507 O ASP B 81 1.003 90.562 88.902 1.00 48.83 O +ATOM 1508 CB ASP B 81 0.637 90.092 86.088 1.00 48.43 C +ATOM 1509 CG ASP B 81 -0.386 91.195 85.903 1.00 59.56 C +ATOM 1510 OD1 ASP B 81 -0.332 91.893 84.868 1.00 61.71 O +ATOM 1511 OD2 ASP B 81 -1.215 91.399 86.815 1.00 69.31 O +ATOM 1512 N ASN B 82 2.068 92.427 88.303 1.00 42.85 N +ATOM 1513 CA ASN B 82 2.010 92.968 89.647 1.00 45.80 C +ATOM 1514 C ASN B 82 0.569 93.201 90.115 1.00 49.66 C +ATOM 1515 O ASN B 82 0.241 93.040 91.289 1.00 49.53 O +ATOM 1516 CB ASN B 82 2.840 94.246 89.708 1.00 44.19 C +ATOM 1517 CG ASN B 82 4.313 93.991 89.414 1.00 40.25 C +ATOM 1518 OD1 ASN B 82 4.826 92.895 89.645 1.00 40.61 O +ATOM 1519 ND2 ASN B 82 5.002 95.009 88.919 1.00 40.63 N +ATOM 1520 N ALA B 83 -0.294 93.540 89.171 1.00 56.45 N +ATOM 1521 CA ALA B 83 -1.717 93.692 89.441 1.00 53.46 C +ATOM 1522 C ALA B 83 -2.375 92.386 89.921 1.00 50.10 C +ATOM 1523 O ALA B 83 -3.175 92.399 90.858 1.00 50.41 O +ATOM 1524 CB ALA B 83 -2.409 94.212 88.187 1.00 61.45 C +ATOM 1525 N LYS B 84 -2.027 91.265 89.284 1.00 51.37 N +ATOM 1526 CA LYS B 84 -2.588 89.948 89.632 1.00 52.67 C +ATOM 1527 C LYS B 84 -1.864 89.281 90.809 1.00 51.69 C +ATOM 1528 O LYS B 84 -2.259 88.203 91.255 1.00 50.93 O +ATOM 1529 CB LYS B 84 -2.560 89.004 88.409 1.00 52.05 C +ATOM 1530 CG LYS B 84 -3.774 88.050 88.286 1.00 56.82 C +ATOM 1531 CD LYS B 84 -5.047 88.671 88.896 1.00 70.87 C +ATOM 1532 CE LYS B 84 -6.242 87.706 88.921 1.00 81.20 C +ATOM 1533 NZ LYS B 84 -7.464 88.306 89.574 1.00 77.63 N +ATOM 1534 N ASN B 85 -0.802 89.919 91.300 1.00 51.43 N +ATOM 1535 CA ASN B 85 0.063 89.309 92.309 1.00 50.11 C +ATOM 1536 C ASN B 85 0.587 87.943 91.865 1.00 44.72 C +ATOM 1537 O ASN B 85 0.519 86.977 92.614 1.00 42.94 O +ATOM 1538 CB ASN B 85 -0.670 89.164 93.648 1.00 47.09 C +ATOM 1539 CG ASN B 85 -0.874 90.486 94.339 1.00 47.01 C +ATOM 1540 OD1 ASN B 85 0.054 91.039 94.928 1.00 46.11 O +ATOM 1541 ND2 ASN B 85 -2.093 91.009 94.271 1.00 56.88 N +ATOM 1542 N SER B 86 1.114 87.859 90.653 1.00 40.50 N +ATOM 1543 CA SER B 86 1.458 86.564 90.114 1.00 40.16 C +ATOM 1544 C SER B 86 2.751 86.525 89.303 1.00 44.86 C +ATOM 1545 O SER B 86 3.124 87.485 88.618 1.00 44.44 O +ATOM 1546 CB SER B 86 0.297 86.049 89.269 1.00 45.54 C +ATOM 1547 OG SER B 86 -0.871 85.955 90.067 1.00 48.50 O +ATOM 1548 N LEU B 87 3.423 85.381 89.399 1.00 44.10 N +ATOM 1549 CA LEU B 87 4.685 85.154 88.731 1.00 41.52 C +ATOM 1550 C LEU B 87 4.514 83.999 87.756 1.00 39.87 C +ATOM 1551 O LEU B 87 3.726 83.092 87.997 1.00 39.20 O +ATOM 1552 CB LEU B 87 5.772 84.855 89.760 1.00 37.24 C +ATOM 1553 CG LEU B 87 7.200 84.783 89.241 1.00 38.39 C +ATOM 1554 CD1 LEU B 87 7.631 86.176 88.829 1.00 37.59 C +ATOM 1555 CD2 LEU B 87 8.125 84.206 90.308 1.00 33.17 C +ATOM 1556 N TYR B 88 5.236 84.032 86.648 1.00 40.03 N +ATOM 1557 CA TYR B 88 5.063 83.013 85.632 1.00 39.40 C +ATOM 1558 C TYR B 88 6.382 82.513 85.089 1.00 41.23 C +ATOM 1559 O TYR B 88 7.367 83.251 84.977 1.00 38.50 O +ATOM 1560 CB TYR B 88 4.219 83.535 84.459 1.00 43.69 C +ATOM 1561 CG TYR B 88 2.878 84.095 84.852 1.00 45.23 C +ATOM 1562 CD1 TYR B 88 2.698 85.467 85.014 1.00 45.56 C +ATOM 1563 CD2 TYR B 88 1.794 83.261 85.062 1.00 42.13 C +ATOM 1564 CE1 TYR B 88 1.473 85.990 85.372 1.00 40.38 C +ATOM 1565 CE2 TYR B 88 0.564 83.775 85.423 1.00 48.44 C +ATOM 1566 CZ TYR B 88 0.410 85.143 85.575 1.00 47.00 C +ATOM 1567 OH TYR B 88 -0.810 85.665 85.941 1.00 50.22 O +ATOM 1568 N LEU B 89 6.379 81.240 84.737 1.00 40.69 N +ATOM 1569 CA LEU B 89 7.480 80.667 84.010 1.00 37.42 C +ATOM 1570 C LEU B 89 6.877 79.911 82.848 1.00 44.28 C +ATOM 1571 O LEU B 89 6.137 78.941 83.041 1.00 44.70 O +ATOM 1572 CB LEU B 89 8.317 79.761 84.898 1.00 36.64 C +ATOM 1573 CG LEU B 89 9.649 79.263 84.333 1.00 38.94 C +ATOM 1574 CD1 LEU B 89 10.566 80.414 83.919 1.00 36.38 C +ATOM 1575 CD2 LEU B 89 10.331 78.358 85.359 1.00 36.25 C +ATOM 1576 N GLN B 90 7.147 80.415 81.649 1.00 41.91 N +ATOM 1577 CA GLN B 90 6.799 79.741 80.424 1.00 39.92 C +ATOM 1578 C GLN B 90 7.982 78.888 80.025 1.00 42.63 C +ATOM 1579 O GLN B 90 9.057 79.401 79.674 1.00 41.94 O +ATOM 1580 CB GLN B 90 6.454 80.736 79.324 1.00 42.72 C +ATOM 1581 CG GLN B 90 6.249 80.113 77.965 1.00 44.72 C +ATOM 1582 CD GLN B 90 5.037 79.212 77.915 1.00 47.10 C +ATOM 1583 OE1 GLN B 90 3.948 79.597 78.331 1.00 50.59 O +ATOM 1584 NE2 GLN B 90 5.221 78.000 77.404 1.00 51.18 N +ATOM 1585 N MET B 91 7.773 77.578 80.110 1.00 40.88 N +ATOM 1586 CA MET B 91 8.781 76.598 79.753 1.00 44.21 C +ATOM 1587 C MET B 91 8.480 75.981 78.384 1.00 47.62 C +ATOM 1588 O MET B 91 7.393 75.452 78.155 1.00 47.54 O +ATOM 1589 CB MET B 91 8.856 75.508 80.820 1.00 43.90 C +ATOM 1590 CG MET B 91 8.817 76.019 82.254 1.00 43.28 C +ATOM 1591 SD MET B 91 9.423 74.766 83.389 1.00 67.90 S +ATOM 1592 CE MET B 91 7.920 73.838 83.685 1.00 42.97 C +ATOM 1593 N ASN B 92 9.450 76.063 77.478 1.00 47.01 N +ATOM 1594 CA ASN B 92 9.297 75.557 76.123 1.00 47.21 C +ATOM 1595 C ASN B 92 10.457 74.638 75.819 1.00 48.69 C +ATOM 1596 O ASN B 92 11.511 74.752 76.456 1.00 46.87 O +ATOM 1597 CB ASN B 92 9.247 76.704 75.103 1.00 47.91 C +ATOM 1598 CG ASN B 92 8.014 77.585 75.260 1.00 52.73 C +ATOM 1599 OD1 ASN B 92 6.963 77.129 75.718 1.00 54.87 O +ATOM 1600 ND2 ASN B 92 8.140 78.856 74.888 1.00 52.63 N +ATOM 1601 N SER B 93 10.269 73.730 74.863 1.00 48.09 N +ATOM 1602 CA SER B 93 11.365 72.895 74.387 1.00 48.45 C +ATOM 1603 C SER B 93 11.939 72.061 75.555 1.00 44.71 C +ATOM 1604 O SER B 93 13.154 71.936 75.725 1.00 45.21 O +ATOM 1605 CB SER B 93 12.432 73.789 73.716 1.00 49.05 C +ATOM 1606 OG SER B 93 13.632 73.100 73.413 1.00 51.87 O +ATOM 1607 N LEU B 94 11.039 71.480 76.345 1.00 49.15 N +ATOM 1608 CA LEU B 94 11.404 70.794 77.588 1.00 51.11 C +ATOM 1609 C LEU B 94 12.116 69.452 77.375 1.00 49.16 C +ATOM 1610 O LEU B 94 11.646 68.610 76.623 1.00 51.75 O +ATOM 1611 CB LEU B 94 10.151 70.571 78.451 1.00 48.55 C +ATOM 1612 CG LEU B 94 9.540 71.781 79.171 1.00 49.23 C +ATOM 1613 CD1 LEU B 94 8.123 71.504 79.650 1.00 45.35 C +ATOM 1614 CD2 LEU B 94 10.421 72.216 80.338 1.00 51.12 C +ATOM 1615 N ARG B 95 13.247 69.267 78.054 1.00 50.81 N +ATOM 1616 CA ARG B 95 13.976 67.996 78.059 1.00 49.54 C +ATOM 1617 C ARG B 95 13.689 67.191 79.332 1.00 55.22 C +ATOM 1618 O ARG B 95 13.070 67.700 80.277 1.00 50.56 O +ATOM 1619 CB ARG B 95 15.483 68.238 77.943 1.00 58.05 C +ATOM 1620 CG ARG B 95 15.905 69.249 76.879 1.00 57.16 C +ATOM 1621 CD ARG B 95 17.208 69.929 77.294 1.00 59.72 C +ATOM 1622 NE ARG B 95 17.664 70.925 76.326 1.00 61.01 N +ATOM 1623 CZ ARG B 95 18.704 71.738 76.512 1.00 61.75 C +ATOM 1624 NH1 ARG B 95 19.401 71.692 77.648 1.00 63.25 N +ATOM 1625 NH2 ARG B 95 19.043 72.604 75.563 1.00 49.14 N +ATOM 1626 N ALA B 96 14.151 65.942 79.362 1.00 55.89 N +ATOM 1627 CA ALA B 96 13.914 65.064 80.512 1.00 53.39 C +ATOM 1628 C ALA B 96 14.633 65.546 81.772 1.00 48.41 C +ATOM 1629 O ALA B 96 14.170 65.272 82.874 1.00 45.83 O +ATOM 1630 CB ALA B 96 14.328 63.631 80.194 1.00 42.97 C +ATOM 1631 N GLU B 97 15.754 66.254 81.614 1.00 51.09 N +ATOM 1632 CA GLU B 97 16.510 66.779 82.759 1.00 48.38 C +ATOM 1633 C GLU B 97 15.835 68.006 83.361 1.00 49.58 C +ATOM 1634 O GLU B 97 16.271 68.530 84.393 1.00 47.77 O +ATOM 1635 CB GLU B 97 17.950 67.134 82.369 1.00 58.57 C +ATOM 1636 CG GLU B 97 18.127 67.578 80.934 1.00 67.08 C +ATOM 1637 CD GLU B 97 18.586 66.442 80.052 1.00 80.48 C +ATOM 1638 OE1 GLU B 97 19.602 66.611 79.346 1.00 91.49 O +ATOM 1639 OE2 GLU B 97 17.940 65.372 80.081 1.00 82.54 O +ATOM 1640 N ASP B 98 14.771 68.468 82.717 1.00 45.65 N +ATOM 1641 CA ASP B 98 13.990 69.542 83.296 1.00 45.01 C +ATOM 1642 C ASP B 98 12.997 68.988 84.333 1.00 42.71 C +ATOM 1643 O ASP B 98 12.326 69.759 85.021 1.00 39.13 O +ATOM 1644 CB ASP B 98 13.273 70.337 82.198 1.00 46.79 C +ATOM 1645 CG ASP B 98 14.239 71.170 81.342 1.00 51.47 C +ATOM 1646 OD1 ASP B 98 15.369 71.468 81.795 1.00 46.42 O +ATOM 1647 OD2 ASP B 98 13.869 71.525 80.201 1.00 55.84 O +ATOM 1648 N THR B 99 12.917 67.663 84.464 1.00 39.43 N +ATOM 1649 CA THR B 99 12.031 67.058 85.462 1.00 43.84 C +ATOM 1650 C THR B 99 12.476 67.452 86.867 1.00 39.76 C +ATOM 1651 O THR B 99 13.637 67.242 87.228 1.00 39.86 O +ATOM 1652 CB THR B 99 11.985 65.511 85.362 1.00 40.56 C +ATOM 1653 OG1 THR B 99 11.297 65.135 84.170 1.00 41.77 O +ATOM 1654 CG2 THR B 99 11.246 64.902 86.564 1.00 31.56 C +ATOM 1655 N ALA B 100 11.547 68.012 87.642 1.00 32.00 N +ATOM 1656 CA ALA B 100 11.862 68.571 88.953 1.00 36.43 C +ATOM 1657 C ALA B 100 10.640 69.128 89.666 1.00 35.57 C +ATOM 1658 O ALA B 100 9.605 69.382 89.056 1.00 32.14 O +ATOM 1659 CB ALA B 100 12.910 69.677 88.825 1.00 31.96 C +ATOM 1660 N VAL B 101 10.784 69.318 90.973 1.00 37.15 N +ATOM 1661 CA VAL B 101 9.884 70.186 91.725 1.00 39.84 C +ATOM 1662 C VAL B 101 10.323 71.627 91.473 1.00 35.42 C +ATOM 1663 O VAL B 101 11.512 71.964 91.615 1.00 30.39 O +ATOM 1664 CB VAL B 101 9.896 69.897 93.263 1.00 35.61 C +ATOM 1665 CG1 VAL B 101 9.098 70.965 94.013 1.00 29.03 C +ATOM 1666 CG2 VAL B 101 9.362 68.513 93.556 1.00 25.37 C +ATOM 1667 N TYR B 102 9.369 72.469 91.086 1.00 33.59 N +ATOM 1668 CA TYR B 102 9.667 73.870 90.852 1.00 34.14 C +ATOM 1669 C TYR B 102 9.108 74.752 91.978 1.00 35.89 C +ATOM 1670 O TYR B 102 7.910 74.721 92.265 1.00 36.40 O +ATOM 1671 CB TYR B 102 9.127 74.290 89.485 1.00 35.21 C +ATOM 1672 CG TYR B 102 9.992 73.797 88.341 1.00 38.14 C +ATOM 1673 CD1 TYR B 102 9.993 72.454 87.967 1.00 36.00 C +ATOM 1674 CD2 TYR B 102 10.817 74.673 87.637 1.00 36.92 C +ATOM 1675 CE1 TYR B 102 10.798 71.998 86.924 1.00 38.89 C +ATOM 1676 CE2 TYR B 102 11.622 74.227 86.588 1.00 36.19 C +ATOM 1677 CZ TYR B 102 11.610 72.890 86.239 1.00 38.65 C +ATOM 1678 OH TYR B 102 12.406 72.441 85.208 1.00 35.69 O +ATOM 1679 N TYR B 103 10.005 75.510 92.618 1.00 34.31 N +ATOM 1680 CA TYR B 103 9.673 76.450 93.700 1.00 37.57 C +ATOM 1681 C TYR B 103 9.724 77.905 93.260 1.00 39.35 C +ATOM 1682 O TYR B 103 10.651 78.303 92.539 1.00 36.23 O +ATOM 1683 CB TYR B 103 10.646 76.313 94.866 1.00 35.54 C +ATOM 1684 CG TYR B 103 10.666 74.970 95.518 1.00 37.91 C +ATOM 1685 CD1 TYR B 103 9.689 74.623 96.435 1.00 35.24 C +ATOM 1686 CD2 TYR B 103 11.675 74.053 95.236 1.00 32.38 C +ATOM 1687 CE1 TYR B 103 9.700 73.392 97.038 1.00 37.62 C +ATOM 1688 CE2 TYR B 103 11.695 72.820 95.838 1.00 34.79 C +ATOM 1689 CZ TYR B 103 10.704 72.494 96.741 1.00 37.69 C +ATOM 1690 OH TYR B 103 10.704 71.267 97.356 1.00 43.39 O +ATOM 1691 N CYS B 104 8.772 78.713 93.722 1.00 34.08 N +ATOM 1692 CA CYS B 104 8.935 80.157 93.587 1.00 36.23 C +ATOM 1693 C CYS B 104 9.482 80.736 94.890 1.00 35.78 C +ATOM 1694 O CYS B 104 9.135 80.264 95.986 1.00 34.30 O +ATOM 1695 CB CYS B 104 7.617 80.841 93.175 1.00 38.15 C +ATOM 1696 SG CYS B 104 6.211 80.719 94.302 1.00 72.30 S +ATOM 1697 N ALA B 105 10.358 81.735 94.776 1.00 32.14 N +ATOM 1698 CA ALA B 105 10.928 82.364 95.974 1.00 37.36 C +ATOM 1699 C ALA B 105 10.941 83.885 95.888 1.00 33.88 C +ATOM 1700 O ALA B 105 11.243 84.457 94.837 1.00 27.61 O +ATOM 1701 CB ALA B 105 12.354 81.839 96.229 1.00 32.72 C +ATOM 1702 N ARG B 106 10.626 84.542 97.001 1.00 34.12 N +ATOM 1703 CA ARG B 106 10.809 85.980 97.061 1.00 30.76 C +ATOM 1704 C ARG B 106 12.254 86.282 97.404 1.00 34.12 C +ATOM 1705 O ARG B 106 12.828 85.675 98.309 1.00 36.38 O +ATOM 1706 CB ARG B 106 9.880 86.631 98.080 1.00 31.27 C +ATOM 1707 CG ARG B 106 10.000 88.171 98.101 1.00 33.05 C +ATOM 1708 CD ARG B 106 9.084 88.828 99.121 1.00 33.08 C +ATOM 1709 NE ARG B 106 9.694 88.877 100.446 1.00 39.11 N +ATOM 1710 CZ ARG B 106 9.175 89.516 101.493 1.00 38.68 C +ATOM 1711 NH1 ARG B 106 8.020 90.164 101.378 1.00 40.50 N +ATOM 1712 NH2 ARG B 106 9.807 89.499 102.662 1.00 37.45 N +ATOM 1713 N GLU B 107 12.849 87.206 96.663 1.00 32.37 N +ATOM 1714 CA GLU B 107 14.135 87.763 97.056 1.00 35.73 C +ATOM 1715 C GLU B 107 13.901 88.978 97.921 1.00 34.69 C +ATOM 1716 O GLU B 107 13.438 90.008 97.420 1.00 36.65 O +ATOM 1717 CB GLU B 107 14.967 88.135 95.839 1.00 32.83 C +ATOM 1718 CG GLU B 107 15.465 86.934 95.091 1.00 35.61 C +ATOM 1719 CD GLU B 107 16.339 87.292 93.916 1.00 38.83 C +ATOM 1720 OE1 GLU B 107 17.125 88.260 94.012 1.00 39.42 O +ATOM 1721 OE2 GLU B 107 16.242 86.595 92.890 1.00 41.53 O +ATOM 1722 N GLY B 108 14.220 88.853 99.210 1.00 32.85 N +ATOM 1723 CA GLY B 108 13.955 89.897 100.198 1.00 36.43 C +ATOM 1724 C GLY B 108 14.771 91.176 100.074 1.00 35.60 C +ATOM 1725 O GLY B 108 15.808 91.192 99.417 1.00 34.81 O +ATOM 1726 N GLY B 109 14.307 92.253 100.708 1.00 36.36 N +ATOM 1727 CA GLY B 109 14.949 93.553 100.592 1.00 31.13 C +ATOM 1728 C GLY B 109 14.632 94.228 99.272 1.00 34.40 C +ATOM 1729 O GLY B 109 13.717 93.817 98.560 1.00 40.25 O +ATOM 1730 N TRP B 110 15.403 95.254 98.933 1.00 37.00 N +ATOM 1731 CA TRP B 110 15.175 96.031 97.716 1.00 35.16 C +ATOM 1732 C TRP B 110 15.642 95.337 96.440 1.00 37.39 C +ATOM 1733 O TRP B 110 14.952 95.364 95.415 1.00 37.35 O +ATOM 1734 CB TRP B 110 15.878 97.378 97.821 1.00 33.75 C +ATOM 1735 CG TRP B 110 15.570 98.132 99.059 1.00 37.59 C +ATOM 1736 CD1 TRP B 110 16.332 98.197 100.195 1.00 39.65 C +ATOM 1737 CD2 TRP B 110 14.416 98.943 99.301 1.00 37.14 C +ATOM 1738 NE1 TRP B 110 15.722 99.006 101.129 1.00 37.10 N +ATOM 1739 CE2 TRP B 110 14.543 99.475 100.607 1.00 41.91 C +ATOM 1740 CE3 TRP B 110 13.287 99.271 98.545 1.00 38.71 C +ATOM 1741 CZ2 TRP B 110 13.582 100.321 101.170 1.00 38.08 C +ATOM 1742 CZ3 TRP B 110 12.333 100.115 99.103 1.00 46.59 C +ATOM 1743 CH2 TRP B 110 12.488 100.631 100.405 1.00 43.02 C +ATOM 1744 N PHE B 111 16.827 94.737 96.517 1.00 37.22 N +ATOM 1745 CA PHE B 111 17.505 94.142 95.365 1.00 36.32 C +ATOM 1746 C PHE B 111 17.810 92.672 95.580 1.00 38.08 C +ATOM 1747 O PHE B 111 18.600 92.085 94.853 1.00 45.48 O +ATOM 1748 CB PHE B 111 18.818 94.853 95.091 1.00 36.72 C +ATOM 1749 CG PHE B 111 18.724 96.335 95.094 1.00 34.77 C +ATOM 1750 CD1 PHE B 111 17.897 96.991 94.206 1.00 34.37 C +ATOM 1751 CD2 PHE B 111 19.500 97.080 95.958 1.00 36.44 C +ATOM 1752 CE1 PHE B 111 17.832 98.377 94.188 1.00 36.68 C +ATOM 1753 CE2 PHE B 111 19.439 98.454 95.947 1.00 40.95 C +ATOM 1754 CZ PHE B 111 18.602 99.106 95.055 1.00 40.66 C +ATOM 1755 N GLY B 112A 17.221 92.094 96.614 1.00 36.28 N +ATOM 1756 CA GLY B 112A 17.452 90.699 96.916 1.00 38.69 C +ATOM 1757 C GLY B 112A 18.535 90.437 97.952 1.00 36.87 C +ATOM 1758 O GLY B 112A 19.038 89.315 98.051 1.00 38.45 O +ATOM 1759 N GLU B 112 18.884 91.451 98.738 1.00 33.89 N +ATOM 1760 CA GLU B 112 20.033 91.350 99.641 1.00 35.00 C +ATOM 1761 C GLU B 112 19.713 90.549 100.899 1.00 37.71 C +ATOM 1762 O GLU B 112 20.608 90.294 101.717 1.00 37.07 O +ATOM 1763 CB GLU B 112 20.546 92.749 100.014 1.00 33.02 C +ATOM 1764 CG GLU B 112 19.568 93.612 100.808 1.00 34.18 C +ATOM 1765 CD GLU B 112 18.586 94.390 99.931 1.00 37.53 C +ATOM 1766 OE1 GLU B 112 18.548 94.158 98.701 1.00 44.90 O +ATOM 1767 OE2 GLU B 112 17.843 95.235 100.480 1.00 34.74 O +ATOM 1768 N LEU B 113 18.444 90.158 101.043 1.00 32.40 N +ATOM 1769 CA LEU B 113 17.993 89.291 102.128 1.00 32.42 C +ATOM 1770 C LEU B 113 17.809 87.853 101.635 1.00 33.56 C +ATOM 1771 O LEU B 113 17.108 87.057 102.266 1.00 35.41 O +ATOM 1772 CB LEU B 113 16.679 89.810 102.726 1.00 34.68 C +ATOM 1773 CG LEU B 113 16.688 91.266 103.208 1.00 37.69 C +ATOM 1774 CD1 LEU B 113 15.410 91.613 103.977 1.00 27.90 C +ATOM 1775 CD2 LEU B 113 17.938 91.570 104.035 1.00 27.71 C +ATOM 1776 N ALA B 114 18.424 87.541 100.498 1.00 31.10 N +ATOM 1777 CA ALA B 114 18.350 86.211 99.891 1.00 32.82 C +ATOM 1778 C ALA B 114 16.905 85.732 99.670 1.00 35.55 C +ATOM 1779 O ALA B 114 15.989 86.550 99.501 1.00 35.53 O +ATOM 1780 CB ALA B 114 19.118 85.203 100.743 1.00 30.31 C +ATOM 1781 N PHE B 115 16.712 84.409 99.677 1.00 33.66 N +ATOM 1782 CA PHE B 115 15.384 83.822 99.467 1.00 36.01 C +ATOM 1783 C PHE B 115 14.580 83.712 100.766 1.00 33.18 C +ATOM 1784 O PHE B 115 14.541 82.667 101.414 1.00 30.11 O +ATOM 1785 CB PHE B 115 15.497 82.457 98.791 1.00 32.07 C +ATOM 1786 CG PHE B 115 16.028 82.528 97.381 1.00 35.29 C +ATOM 1787 CD1 PHE B 115 15.660 83.569 96.537 1.00 34.40 C +ATOM 1788 CD2 PHE B 115 16.899 81.557 96.899 1.00 33.86 C +ATOM 1789 CE1 PHE B 115 16.152 83.634 95.236 1.00 32.58 C +ATOM 1790 CE2 PHE B 115 17.390 81.619 95.609 1.00 32.50 C +ATOM 1791 CZ PHE B 115 17.015 82.658 94.773 1.00 32.77 C +ATOM 1792 N ASP B 116 13.964 84.841 101.105 1.00 37.13 N +ATOM 1793 CA ASP B 116 13.045 85.065 102.224 1.00 33.45 C +ATOM 1794 C ASP B 116 11.987 84.001 102.492 1.00 32.71 C +ATOM 1795 O ASP B 116 11.805 83.550 103.626 1.00 35.35 O +ATOM 1796 CB ASP B 116 12.301 86.373 101.964 1.00 34.12 C +ATOM 1797 CG ASP B 116 12.815 87.498 102.767 1.00 40.36 C +ATOM 1798 OD1 ASP B 116 13.657 87.249 103.653 1.00 53.10 O +ATOM 1799 OD2 ASP B 116 12.352 88.631 102.524 1.00 45.92 O +ATOM 1800 N TYR B 117 11.246 83.667 101.440 1.00 31.77 N +ATOM 1801 CA TYR B 117 10.037 82.861 101.537 1.00 32.66 C +ATOM 1802 C TYR B 117 9.876 82.030 100.260 1.00 33.24 C +ATOM 1803 O TYR B 117 10.247 82.467 99.166 1.00 33.53 O +ATOM 1804 CB TYR B 117 8.803 83.749 101.773 1.00 31.28 C +ATOM 1805 CG TYR B 117 8.821 84.458 103.113 1.00 33.13 C +ATOM 1806 CD1 TYR B 117 8.404 83.812 104.283 1.00 36.60 C +ATOM 1807 CD2 TYR B 117 9.271 85.764 103.219 1.00 35.91 C +ATOM 1808 CE1 TYR B 117 8.440 84.455 105.516 1.00 34.91 C +ATOM 1809 CE2 TYR B 117 9.316 86.418 104.453 1.00 36.60 C +ATOM 1810 CZ TYR B 117 8.896 85.760 105.594 1.00 37.03 C +ATOM 1811 OH TYR B 117 8.937 86.402 106.809 1.00 38.43 O +ATOM 1812 N TRP B 118 9.341 80.822 100.422 1.00 31.53 N +ATOM 1813 CA TRP B 118 9.212 79.861 99.346 1.00 28.53 C +ATOM 1814 C TRP B 118 7.769 79.397 99.256 1.00 32.33 C +ATOM 1815 O TRP B 118 7.072 79.350 100.276 1.00 29.25 O +ATOM 1816 CB TRP B 118 10.129 78.648 99.583 1.00 30.88 C +ATOM 1817 CG TRP B 118 11.598 78.961 99.675 1.00 28.26 C +ATOM 1818 CD1 TRP B 118 12.216 79.766 100.587 1.00 29.18 C +ATOM 1819 CD2 TRP B 118 12.631 78.455 98.825 1.00 30.36 C +ATOM 1820 NE1 TRP B 118 13.571 79.803 100.352 1.00 31.30 N +ATOM 1821 CE2 TRP B 118 13.853 79.005 99.277 1.00 29.08 C +ATOM 1822 CE3 TRP B 118 12.643 77.591 97.725 1.00 28.35 C +ATOM 1823 CZ2 TRP B 118 15.070 78.725 98.664 1.00 29.10 C +ATOM 1824 CZ3 TRP B 118 13.856 77.304 97.119 1.00 30.74 C +ATOM 1825 CH2 TRP B 118 15.053 77.872 97.586 1.00 32.16 C +ATOM 1826 N GLY B 119 7.323 79.044 98.048 1.00 33.12 N +ATOM 1827 CA GLY B 119 6.091 78.288 97.885 1.00 36.09 C +ATOM 1828 C GLY B 119 6.328 76.833 98.270 1.00 36.61 C +ATOM 1829 O GLY B 119 7.418 76.487 98.705 1.00 35.73 O +ATOM 1830 N GLN B 120 5.323 75.974 98.117 1.00 41.91 N +ATOM 1831 CA GLN B 120 5.468 74.559 98.494 1.00 42.20 C +ATOM 1832 C GLN B 120 5.975 73.725 97.317 1.00 38.64 C +ATOM 1833 O GLN B 120 6.371 72.561 97.479 1.00 34.13 O +ATOM 1834 CB GLN B 120 4.138 73.996 99.014 1.00 39.95 C +ATOM 1835 CG GLN B 120 3.096 73.733 97.923 1.00 55.19 C +ATOM 1836 CD GLN B 120 2.470 75.012 97.373 1.00 63.46 C +ATOM 1837 OE1 GLN B 120 2.291 75.991 98.102 1.00 63.16 O +ATOM 1838 NE2 GLN B 120 2.161 75.014 96.072 1.00 63.96 N +ATOM 1839 N GLY B 121 5.955 74.331 96.133 1.00 42.18 N +ATOM 1840 CA GLY B 121 6.459 73.689 94.938 1.00 39.28 C +ATOM 1841 C GLY B 121 5.404 72.894 94.205 1.00 38.87 C +ATOM 1842 O GLY B 121 4.411 72.460 94.788 1.00 39.18 O +ATOM 1843 N THR B 122 5.639 72.718 92.911 1.00 37.57 N +ATOM 1844 CA THR B 122 4.797 71.914 92.037 1.00 38.47 C +ATOM 1845 C THR B 122 5.707 71.004 91.198 1.00 36.11 C +ATOM 1846 O THR B 122 6.775 71.425 90.752 1.00 34.40 O +ATOM 1847 CB THR B 122 3.895 72.811 91.137 1.00 48.78 C +ATOM 1848 OG1 THR B 122 3.011 71.999 90.355 1.00 57.15 O +ATOM 1849 CG2 THR B 122 4.722 73.715 90.216 1.00 42.73 C +ATOM 1850 N LEU B 123 5.310 69.746 91.030 1.00 36.47 N +ATOM 1851 CA LEU B 123 6.133 68.766 90.322 1.00 28.69 C +ATOM 1852 C LEU B 123 5.906 68.823 88.835 1.00 35.80 C +ATOM 1853 O LEU B 123 4.767 68.727 88.378 1.00 39.17 O +ATOM 1854 CB LEU B 123 5.843 67.347 90.803 1.00 26.93 C +ATOM 1855 CG LEU B 123 6.595 66.222 90.074 1.00 34.17 C +ATOM 1856 CD1 LEU B 123 8.100 66.327 90.278 1.00 32.66 C +ATOM 1857 CD2 LEU B 123 6.104 64.836 90.485 1.00 34.05 C +ATOM 1858 N VAL B 124 6.994 68.973 88.083 1.00 36.78 N +ATOM 1859 CA VAL B 124 6.957 68.903 86.628 1.00 33.82 C +ATOM 1860 C VAL B 124 7.645 67.632 86.185 1.00 37.33 C +ATOM 1861 O VAL B 124 8.803 67.372 86.542 1.00 38.78 O +ATOM 1862 CB VAL B 124 7.636 70.112 85.967 1.00 37.66 C +ATOM 1863 CG1 VAL B 124 7.810 69.866 84.476 1.00 40.31 C +ATOM 1864 CG2 VAL B 124 6.832 71.385 86.217 1.00 36.02 C +ATOM 1865 N THR B 125 6.912 66.828 85.426 1.00 37.27 N +ATOM 1866 CA THR B 125 7.425 65.551 84.954 1.00 39.87 C +ATOM 1867 C THR B 125 7.515 65.517 83.442 1.00 36.98 C +ATOM 1868 O THR B 125 6.499 65.631 82.757 1.00 33.98 O +ATOM 1869 CB THR B 125 6.539 64.404 85.418 1.00 41.12 C +ATOM 1870 OG1 THR B 125 6.379 64.488 86.832 1.00 39.17 O +ATOM 1871 CG2 THR B 125 7.146 63.055 85.034 1.00 42.98 C +ATOM 1872 N VAL B 126 8.730 65.349 82.934 1.00 37.14 N +ATOM 1873 CA VAL B 126 8.976 65.313 81.492 1.00 42.77 C +ATOM 1874 C VAL B 126 9.376 63.923 81.003 1.00 44.29 C +ATOM 1875 O VAL B 126 10.499 63.470 81.246 1.00 43.44 O +ATOM 1876 CB VAL B 126 10.074 66.307 81.086 1.00 46.25 C +ATOM 1877 CG1 VAL B 126 10.338 66.217 79.593 1.00 47.81 C +ATOM 1878 CG2 VAL B 126 9.668 67.719 81.485 1.00 49.44 C +ATOM 1879 N SER B 127 8.454 63.259 80.309 1.00 39.04 N +ATOM 1880 CA SER B 127 8.685 61.896 79.853 1.00 39.84 C +ATOM 1881 C SER B 127 7.714 61.447 78.763 1.00 42.21 C +ATOM 1882 O SER B 127 6.601 61.965 78.642 1.00 38.97 O +ATOM 1883 CB SER B 127 8.607 60.936 81.037 1.00 38.76 C +ATOM 1884 OG SER B 127 8.128 59.668 80.629 1.00 44.02 O +ATOM 1885 N SER B 128 8.145 60.456 77.990 1.00 40.11 N +ATOM 1886 CA SER B 128 7.342 59.927 76.891 1.00 43.59 C +ATOM 1887 C SER B 128 6.190 59.056 77.367 1.00 45.19 C +ATOM 1888 O SER B 128 5.245 58.798 76.604 1.00 43.89 O +ATOM 1889 CB SER B 128 8.213 59.115 75.940 1.00 37.94 C +ATOM 1890 OG SER B 128 9.231 59.930 75.406 1.00 51.96 O +ATOM 1891 N ALA B 129 6.272 58.587 78.610 1.00 34.85 N +ATOM 1892 CA ALA B 129 5.298 57.615 79.078 1.00 41.16 C +ATOM 1893 C ALA B 129 3.938 58.278 79.280 1.00 43.10 C +ATOM 1894 O ALA B 129 3.840 59.474 79.573 1.00 43.60 O +ATOM 1895 CB ALA B 129 5.777 56.941 80.358 1.00 37.33 C +ATOM 1896 N SER B 130 2.887 57.497 79.081 1.00 43.24 N +ATOM 1897 CA SER B 130 1.537 57.995 79.249 1.00 44.78 C +ATOM 1898 C SER B 130 1.103 57.788 80.684 1.00 43.83 C +ATOM 1899 O SER B 130 1.590 56.891 81.368 1.00 45.77 O +ATOM 1900 CB SER B 130 0.574 57.279 78.306 1.00 48.01 C +ATOM 1901 OG SER B 130 1.232 56.924 77.108 1.00 58.52 O +ATOM 1902 N THR B 131 0.190 58.629 81.137 1.00 41.52 N +ATOM 1903 CA THR B 131 -0.444 58.423 82.416 1.00 42.22 C +ATOM 1904 C THR B 131 -1.053 57.016 82.485 1.00 42.33 C +ATOM 1905 O THR B 131 -1.672 56.539 81.531 1.00 40.13 O +ATOM 1906 CB THR B 131 -1.517 59.492 82.670 1.00 41.72 C +ATOM 1907 OG1 THR B 131 -0.906 60.790 82.608 1.00 40.86 O +ATOM 1908 CG2 THR B 131 -2.181 59.282 84.038 1.00 39.65 C +ATOM 1909 N LYS B 132 -0.854 56.356 83.619 1.00 39.88 N +ATOM 1910 CA LYS B 132 -1.262 54.977 83.780 1.00 38.69 C +ATOM 1911 C LYS B 132 -1.447 54.648 85.265 1.00 41.54 C +ATOM 1912 O LYS B 132 -0.554 54.888 86.083 1.00 34.83 O +ATOM 1913 CB LYS B 132 -0.231 54.041 83.138 1.00 33.07 C +ATOM 1914 CG LYS B 132 -0.555 52.572 83.310 1.00 35.75 C +ATOM 1915 CD LYS B 132 0.494 51.667 82.678 1.00 44.28 C +ATOM 1916 CE LYS B 132 0.000 50.217 82.595 1.00 53.50 C +ATOM 1917 NZ LYS B 132 0.558 49.468 81.418 1.00 66.68 N +ATOM 1918 N GLY B 133 -2.614 54.107 85.598 1.00 41.12 N +ATOM 1919 CA GLY B 133 -2.914 53.668 86.948 1.00 38.20 C +ATOM 1920 C GLY B 133 -2.149 52.425 87.374 1.00 44.72 C +ATOM 1921 O GLY B 133 -1.818 51.560 86.551 1.00 47.15 O +ATOM 1922 N PRO B 134 -1.861 52.331 88.681 1.00 47.91 N +ATOM 1923 CA PRO B 134 -1.046 51.266 89.279 1.00 45.50 C +ATOM 1924 C PRO B 134 -1.728 49.904 89.371 1.00 43.58 C +ATOM 1925 O PRO B 134 -2.941 49.814 89.547 1.00 46.35 O +ATOM 1926 CB PRO B 134 -0.767 51.801 90.688 1.00 47.24 C +ATOM 1927 CG PRO B 134 -1.922 52.734 90.980 1.00 42.94 C +ATOM 1928 CD PRO B 134 -2.212 53.379 89.663 1.00 47.00 C +ATOM 1929 N SER B 135 -0.943 48.843 89.269 1.00 44.40 N +ATOM 1930 CA SER B 135 -1.428 47.534 89.671 1.00 45.16 C +ATOM 1931 C SER B 135 -1.081 47.386 91.139 1.00 41.74 C +ATOM 1932 O SER B 135 -0.017 47.825 91.569 1.00 41.70 O +ATOM 1933 CB SER B 135 -0.804 46.418 88.834 1.00 46.69 C +ATOM 1934 OG SER B 135 -1.155 46.561 87.466 1.00 47.89 O +ATOM 1935 N VAL B 136 -1.993 46.807 91.911 1.00 42.24 N +ATOM 1936 CA VAL B 136 -1.791 46.654 93.344 1.00 37.92 C +ATOM 1937 C VAL B 136 -1.817 45.193 93.761 1.00 43.36 C +ATOM 1938 O VAL B 136 -2.856 44.533 93.724 1.00 44.19 O +ATOM 1939 CB VAL B 136 -2.840 47.406 94.150 1.00 40.84 C +ATOM 1940 CG1 VAL B 136 -2.575 47.208 95.645 1.00 40.01 C +ATOM 1941 CG2 VAL B 136 -2.825 48.888 93.778 1.00 43.57 C +ATOM 1942 N PHE B 137 -0.658 44.697 94.170 1.00 45.64 N +ATOM 1943 CA PHE B 137 -0.520 43.303 94.533 1.00 41.99 C +ATOM 1944 C PHE B 137 -0.248 43.119 96.011 1.00 40.04 C +ATOM 1945 O PHE B 137 0.523 43.867 96.600 1.00 39.22 O +ATOM 1946 CB PHE B 137 0.592 42.677 93.713 1.00 39.39 C +ATOM 1947 CG PHE B 137 0.407 42.844 92.243 1.00 43.96 C +ATOM 1948 CD1 PHE B 137 -0.736 42.368 91.624 1.00 47.62 C +ATOM 1949 CD2 PHE B 137 1.368 43.476 91.475 1.00 45.31 C +ATOM 1950 CE1 PHE B 137 -0.911 42.524 90.259 1.00 50.74 C +ATOM 1951 CE2 PHE B 137 1.196 43.630 90.113 1.00 44.93 C +ATOM 1952 CZ PHE B 137 0.058 43.153 89.504 1.00 40.53 C +ATOM 1953 N PRO B 138 -0.880 42.107 96.616 1.00 45.99 N +ATOM 1954 CA PRO B 138 -0.712 41.811 98.044 1.00 45.52 C +ATOM 1955 C PRO B 138 0.659 41.239 98.368 1.00 43.06 C +ATOM 1956 O PRO B 138 1.089 40.309 97.687 1.00 44.58 O +ATOM 1957 CB PRO B 138 -1.800 40.774 98.310 1.00 45.65 C +ATOM 1958 CG PRO B 138 -1.986 40.098 96.995 1.00 41.12 C +ATOM 1959 CD PRO B 138 -1.789 41.156 95.956 1.00 44.40 C +ATOM 1960 N LEU B 139 1.332 41.803 99.370 1.00 41.62 N +ATOM 1961 CA LEU B 139 2.524 41.192 99.967 1.00 41.35 C +ATOM 1962 C LEU B 139 2.144 40.392 101.199 1.00 41.28 C +ATOM 1963 O LEU B 139 2.115 40.943 102.302 1.00 39.11 O +ATOM 1964 CB LEU B 139 3.552 42.256 100.352 1.00 42.03 C +ATOM 1965 CG LEU B 139 4.202 42.993 99.184 1.00 44.47 C +ATOM 1966 CD1 LEU B 139 4.926 44.241 99.677 1.00 45.17 C +ATOM 1967 CD2 LEU B 139 5.154 42.054 98.460 1.00 39.54 C +ATOM 1968 N ALA B 140 1.852 39.103 101.024 1.00 39.92 N +ATOM 1969 CA ALA B 140 1.238 38.331 102.112 1.00 43.77 C +ATOM 1970 C ALA B 140 2.248 37.763 103.119 1.00 49.95 C +ATOM 1971 O ALA B 140 3.340 37.316 102.741 1.00 49.28 O +ATOM 1972 CB ALA B 140 0.404 37.216 101.542 1.00 49.55 C +ATOM 1973 N PRO B 141 1.865 37.761 104.410 1.00 49.53 N +ATOM 1974 CA PRO B 141 2.641 37.214 105.539 1.00 51.83 C +ATOM 1975 C PRO B 141 2.714 35.680 105.534 1.00 53.65 C +ATOM 1976 O PRO B 141 3.479 35.090 106.307 1.00 54.48 O +ATOM 1977 CB PRO B 141 1.870 37.714 106.766 1.00 44.73 C +ATOM 1978 CG PRO B 141 0.451 37.856 106.272 1.00 49.54 C +ATOM 1979 CD PRO B 141 0.570 38.318 104.848 1.00 47.83 C +ATOM 1980 N THR B 142 5.841 38.495 115.622 1.00 39.19 N +ATOM 1981 CA THR B 142 5.657 39.674 114.767 1.00 49.39 C +ATOM 1982 C THR B 142 5.669 39.362 113.260 1.00 45.18 C +ATOM 1983 O THR B 142 6.581 38.707 112.747 1.00 41.78 O +ATOM 1984 CB THR B 142 6.730 40.739 115.039 1.00 46.96 C +ATOM 1985 OG1 THR B 142 6.705 41.098 116.425 1.00 58.64 O +ATOM 1986 CG2 THR B 142 6.478 41.987 114.188 1.00 42.12 C +ATOM 1987 N ALA B 143 4.646 39.852 112.565 1.00 43.08 N +ATOM 1988 CA ALA B 143 4.480 39.611 111.138 1.00 43.12 C +ATOM 1989 C ALA B 143 4.523 40.914 110.344 1.00 39.67 C +ATOM 1990 O ALA B 143 4.168 41.982 110.845 1.00 41.29 O +ATOM 1991 CB ALA B 143 3.169 38.869 110.872 1.00 40.49 C +ATOM 1992 N ALA B 144 4.969 40.807 109.100 1.00 36.44 N +ATOM 1993 CA ALA B 144 5.024 41.937 108.183 1.00 41.57 C +ATOM 1994 C ALA B 144 4.137 41.668 106.970 1.00 42.26 C +ATOM 1995 O ALA B 144 4.165 40.580 106.394 1.00 39.65 O +ATOM 1996 CB ALA B 144 6.478 42.204 107.738 1.00 35.91 C +ATOM 1997 N LEU B 145 3.355 42.664 106.576 1.00 42.20 N +ATOM 1998 CA LEU B 145 2.556 42.551 105.359 1.00 39.97 C +ATOM 1999 C LEU B 145 2.567 43.858 104.570 1.00 42.52 C +ATOM 2000 O LEU B 145 3.145 44.852 105.001 1.00 42.61 O +ATOM 2001 CB LEU B 145 1.121 42.121 105.701 1.00 41.50 C +ATOM 2002 CG LEU B 145 0.359 42.904 106.783 1.00 42.47 C +ATOM 2003 CD1 LEU B 145 -0.403 44.111 106.231 1.00 38.33 C +ATOM 2004 CD2 LEU B 145 -0.568 41.973 107.545 1.00 36.99 C +ATOM 2005 N GLY B 146 1.945 43.852 103.398 1.00 47.97 N +ATOM 2006 CA GLY B 146 1.875 45.068 102.622 1.00 41.62 C +ATOM 2007 C GLY B 146 1.302 44.949 101.230 1.00 42.39 C +ATOM 2008 O GLY B 146 0.709 43.933 100.859 1.00 40.63 O +ATOM 2009 N CYS B 147 1.492 46.027 100.470 1.00 45.09 N +ATOM 2010 CA CYS B 147 0.957 46.201 99.123 1.00 41.51 C +ATOM 2011 C CYS B 147 2.082 46.513 98.152 1.00 41.88 C +ATOM 2012 O CYS B 147 2.938 47.353 98.426 1.00 41.34 O +ATOM 2013 CB CYS B 147 -0.069 47.342 99.078 1.00 41.12 C +ATOM 2014 SG CYS B 147 -1.781 46.933 99.537 1.00 60.76 S +ATOM 2015 N LEU B 148 2.076 45.831 97.017 1.00 41.71 N +ATOM 2016 CA LEU B 148 2.945 46.192 95.920 1.00 39.29 C +ATOM 2017 C LEU B 148 2.174 47.069 94.930 1.00 40.05 C +ATOM 2018 O LEU B 148 1.260 46.605 94.248 1.00 38.33 O +ATOM 2019 CB LEU B 148 3.491 44.941 95.242 1.00 42.65 C +ATOM 2020 CG LEU B 148 4.458 45.243 94.102 1.00 48.30 C +ATOM 2021 CD1 LEU B 148 5.746 45.853 94.637 1.00 44.55 C +ATOM 2022 CD2 LEU B 148 4.731 43.982 93.282 1.00 41.72 C +ATOM 2023 N VAL B 149 2.544 48.345 94.886 1.00 38.87 N +ATOM 2024 CA VAL B 149 1.939 49.324 93.990 1.00 38.68 C +ATOM 2025 C VAL B 149 2.830 49.488 92.753 1.00 39.74 C +ATOM 2026 O VAL B 149 3.883 50.129 92.819 1.00 39.83 O +ATOM 2027 CB VAL B 149 1.764 50.681 94.708 1.00 39.61 C +ATOM 2028 CG1 VAL B 149 1.062 51.680 93.825 1.00 37.48 C +ATOM 2029 CG2 VAL B 149 1.016 50.495 96.018 1.00 38.73 C +ATOM 2030 N LYS B 150 2.416 48.914 91.630 1.00 37.71 N +ATOM 2031 CA LYS B 150 3.342 48.737 90.511 1.00 45.05 C +ATOM 2032 C LYS B 150 2.890 49.340 89.165 1.00 47.13 C +ATOM 2033 O LYS B 150 1.708 49.313 88.817 1.00 44.82 O +ATOM 2034 CB LYS B 150 3.627 47.241 90.334 1.00 43.14 C +ATOM 2035 CG LYS B 150 4.784 46.946 89.404 1.00 48.20 C +ATOM 2036 CD LYS B 150 5.455 45.619 89.742 1.00 45.76 C +ATOM 2037 CE LYS B 150 6.567 45.265 88.738 1.00 53.15 C +ATOM 2038 NZ LYS B 150 6.070 44.967 87.360 1.00 50.84 N +ATOM 2039 N ASP B 151 3.858 49.883 88.427 1.00 48.22 N +ATOM 2040 CA ASP B 151 3.671 50.372 87.054 1.00 48.92 C +ATOM 2041 C ASP B 151 2.636 51.487 86.937 1.00 45.10 C +ATOM 2042 O ASP B 151 1.690 51.393 86.147 1.00 45.20 O +ATOM 2043 CB ASP B 151 3.287 49.218 86.112 1.00 49.87 C +ATOM 2044 CG ASP B 151 4.404 48.200 85.941 1.00 55.48 C +ATOM 2045 OD1 ASP B 151 5.589 48.585 86.066 1.00 54.80 O +ATOM 2046 OD2 ASP B 151 4.094 47.015 85.672 1.00 57.08 O +ATOM 2047 N TYR B 152 2.828 52.548 87.710 1.00 41.26 N +ATOM 2048 CA TYR B 152 2.002 53.737 87.564 1.00 41.23 C +ATOM 2049 C TYR B 152 2.829 54.924 87.057 1.00 39.10 C +ATOM 2050 O TYR B 152 4.057 54.945 87.185 1.00 35.69 O +ATOM 2051 CB TYR B 152 1.328 54.090 88.888 1.00 36.80 C +ATOM 2052 CG TYR B 152 2.296 54.583 89.925 1.00 39.33 C +ATOM 2053 CD1 TYR B 152 2.987 53.693 90.744 1.00 37.10 C +ATOM 2054 CD2 TYR B 152 2.531 55.945 90.084 1.00 39.09 C +ATOM 2055 CE1 TYR B 152 3.875 54.150 91.699 1.00 38.42 C +ATOM 2056 CE2 TYR B 152 3.418 56.411 91.033 1.00 39.37 C +ATOM 2057 CZ TYR B 152 4.083 55.512 91.838 1.00 41.60 C +ATOM 2058 OH TYR B 152 4.956 55.989 92.777 1.00 39.66 O +ATOM 2059 N PHE B 153 2.138 55.907 86.481 1.00 42.02 N +ATOM 2060 CA PHE B 153 2.769 57.120 85.941 1.00 41.56 C +ATOM 2061 C PHE B 153 1.723 58.244 85.799 1.00 41.49 C +ATOM 2062 O PHE B 153 0.595 58.005 85.355 1.00 36.77 O +ATOM 2063 CB PHE B 153 3.437 56.824 84.587 1.00 40.55 C +ATOM 2064 CG PHE B 153 4.518 57.802 84.204 1.00 41.06 C +ATOM 2065 CD1 PHE B 153 5.746 57.796 84.854 1.00 42.14 C +ATOM 2066 CD2 PHE B 153 4.321 58.707 83.174 1.00 40.73 C +ATOM 2067 CE1 PHE B 153 6.741 58.700 84.502 1.00 35.52 C +ATOM 2068 CE2 PHE B 153 5.312 59.596 82.816 1.00 38.18 C +ATOM 2069 CZ PHE B 153 6.519 59.593 83.485 1.00 40.40 C +ATOM 2070 N PRO B 154 2.082 59.471 86.217 1.00 42.94 N +ATOM 2071 CA PRO B 154 3.336 59.773 86.902 1.00 37.36 C +ATOM 2072 C PRO B 154 3.169 59.756 88.412 1.00 38.06 C +ATOM 2073 O PRO B 154 2.145 59.327 88.950 1.00 35.50 O +ATOM 2074 CB PRO B 154 3.642 61.188 86.422 1.00 38.69 C +ATOM 2075 CG PRO B 154 2.270 61.803 86.347 1.00 34.18 C +ATOM 2076 CD PRO B 154 1.315 60.703 85.943 1.00 37.71 C +ATOM 2077 N GLU B 155 4.191 60.242 89.092 1.00 39.15 N +ATOM 2078 CA GLU B 155 4.062 60.540 90.503 1.00 42.25 C +ATOM 2079 C GLU B 155 3.045 61.665 90.647 1.00 43.29 C +ATOM 2080 O GLU B 155 2.855 62.451 89.716 1.00 44.84 O +ATOM 2081 CB GLU B 155 5.414 60.919 91.100 1.00 43.56 C +ATOM 2082 CG GLU B 155 6.315 59.725 91.260 1.00 40.57 C +ATOM 2083 CD GLU B 155 6.370 59.278 92.682 1.00 44.14 C +ATOM 2084 OE1 GLU B 155 7.317 59.679 93.392 1.00 52.49 O +ATOM 2085 OE2 GLU B 155 5.446 58.546 93.093 1.00 49.73 O +ATOM 2086 N PRO B 156 2.376 61.745 91.800 1.00 38.36 N +ATOM 2087 CA PRO B 156 2.522 60.930 92.999 1.00 42.36 C +ATOM 2088 C PRO B 156 1.450 59.861 93.160 1.00 41.59 C +ATOM 2089 O PRO B 156 0.522 59.740 92.361 1.00 41.07 O +ATOM 2090 CB PRO B 156 2.398 61.964 94.129 1.00 41.54 C +ATOM 2091 CG PRO B 156 1.797 63.219 93.466 1.00 36.43 C +ATOM 2092 CD PRO B 156 1.451 62.851 92.051 1.00 40.81 C +ATOM 2093 N VAL B 157 1.591 59.098 94.234 1.00 46.25 N +ATOM 2094 CA VAL B 157 0.594 58.128 94.626 1.00 44.59 C +ATOM 2095 C VAL B 157 0.363 58.267 96.130 1.00 42.58 C +ATOM 2096 O VAL B 157 1.258 58.669 96.878 1.00 42.11 O +ATOM 2097 CB VAL B 157 1.028 56.697 94.262 1.00 43.31 C +ATOM 2098 CG1 VAL B 157 1.958 56.134 95.318 1.00 37.74 C +ATOM 2099 CG2 VAL B 157 -0.181 55.802 94.093 1.00 46.91 C +ATOM 2100 N THR B 158 -0.852 57.964 96.562 1.00 46.96 N +ATOM 2101 CA THR B 158 -1.236 58.074 97.968 1.00 45.56 C +ATOM 2102 C THR B 158 -1.510 56.714 98.556 1.00 44.79 C +ATOM 2103 O THR B 158 -2.334 55.970 98.019 1.00 45.10 O +ATOM 2104 CB THR B 158 -2.475 58.961 98.128 1.00 45.27 C +ATOM 2105 OG1 THR B 158 -2.052 60.321 98.228 1.00 47.07 O +ATOM 2106 CG2 THR B 158 -3.273 58.586 99.358 1.00 45.23 C +ATOM 2107 N VAL B 159 -0.812 56.379 99.642 1.00 40.80 N +ATOM 2108 CA VAL B 159 -1.038 55.096 100.315 1.00 38.63 C +ATOM 2109 C VAL B 159 -1.446 55.245 101.768 1.00 39.42 C +ATOM 2110 O VAL B 159 -0.728 55.838 102.564 1.00 46.24 O +ATOM 2111 CB VAL B 159 0.208 54.201 100.272 1.00 38.24 C +ATOM 2112 CG1 VAL B 159 -0.118 52.833 100.854 1.00 40.06 C +ATOM 2113 CG2 VAL B 159 0.718 54.071 98.853 1.00 37.45 C +ATOM 2114 N SER B 160 -2.603 54.705 102.123 1.00 41.99 N +ATOM 2115 CA SER B 160 -2.962 54.623 103.533 1.00 40.95 C +ATOM 2116 C SER B 160 -3.462 53.222 103.882 1.00 40.84 C +ATOM 2117 O SER B 160 -3.705 52.400 102.999 1.00 43.88 O +ATOM 2118 CB SER B 160 -4.010 55.684 103.906 1.00 44.59 C +ATOM 2119 OG SER B 160 -5.278 55.407 103.341 1.00 53.36 O +ATOM 2120 N TRP B 161 -3.599 52.957 105.179 1.00 44.69 N +ATOM 2121 CA TRP B 161 -4.003 51.646 105.669 1.00 41.05 C +ATOM 2122 C TRP B 161 -5.223 51.733 106.567 1.00 45.81 C +ATOM 2123 O TRP B 161 -5.227 52.499 107.538 1.00 44.48 O +ATOM 2124 CB TRP B 161 -2.862 50.992 106.422 1.00 40.60 C +ATOM 2125 CG TRP B 161 -1.813 50.452 105.533 1.00 40.97 C +ATOM 2126 CD1 TRP B 161 -0.689 51.093 105.108 1.00 40.75 C +ATOM 2127 CD2 TRP B 161 -1.770 49.142 104.963 1.00 39.64 C +ATOM 2128 NE1 TRP B 161 0.050 50.263 104.301 1.00 40.99 N +ATOM 2129 CE2 TRP B 161 -0.591 49.056 104.202 1.00 39.70 C +ATOM 2130 CE3 TRP B 161 -2.614 48.031 105.028 1.00 38.86 C +ATOM 2131 CZ2 TRP B 161 -0.239 47.911 103.497 1.00 42.07 C +ATOM 2132 CZ3 TRP B 161 -2.264 46.892 104.329 1.00 41.67 C +ATOM 2133 CH2 TRP B 161 -1.090 46.840 103.572 1.00 44.66 C +ATOM 2134 N ASN B 162 -6.248 50.944 106.230 1.00 41.72 N +ATOM 2135 CA ASN B 162 -7.509 50.932 106.954 1.00 39.29 C +ATOM 2136 C ASN B 162 -8.113 52.324 107.030 1.00 42.52 C +ATOM 2137 O ASN B 162 -8.732 52.700 108.027 1.00 42.79 O +ATOM 2138 CB ASN B 162 -7.309 50.347 108.355 1.00 44.76 C +ATOM 2139 CG ASN B 162 -7.049 48.843 108.323 1.00 44.63 C +ATOM 2140 OD1 ASN B 162 -7.016 48.234 107.257 1.00 46.16 O +ATOM 2141 ND2 ASN B 162 -6.858 48.248 109.487 1.00 43.71 N +ATOM 2142 N SER B 163 -7.915 53.083 105.959 1.00 42.04 N +ATOM 2143 CA SER B 163 -8.458 54.430 105.831 1.00 47.96 C +ATOM 2144 C SER B 163 -7.902 55.378 106.897 1.00 47.68 C +ATOM 2145 O SER B 163 -8.607 56.248 107.425 1.00 49.02 O +ATOM 2146 CB SER B 163 -9.990 54.390 105.869 1.00 45.67 C +ATOM 2147 OG SER B 163 -10.485 53.751 104.702 1.00 47.00 O +ATOM 2148 N GLY B 164 -6.619 55.207 107.194 1.00 43.32 N +ATOM 2149 CA GLY B 164 -5.920 56.112 108.079 1.00 41.03 C +ATOM 2150 C GLY B 164 -5.966 55.644 109.509 1.00 41.37 C +ATOM 2151 O GLY B 164 -5.328 56.227 110.384 1.00 44.19 O +ATOM 2152 N ALA B 165 -6.719 54.578 109.746 1.00 45.03 N +ATOM 2153 CA ALA B 165 -6.892 54.056 111.096 1.00 42.24 C +ATOM 2154 C ALA B 165 -5.711 53.184 111.507 1.00 46.60 C +ATOM 2155 O ALA B 165 -5.652 52.706 112.636 1.00 46.52 O +ATOM 2156 CB ALA B 165 -8.183 53.274 111.194 1.00 47.77 C +ATOM 2157 N LEU B 166 -4.780 52.972 110.579 1.00 44.68 N +ATOM 2158 CA LEU B 166 -3.582 52.181 110.847 1.00 43.25 C +ATOM 2159 C LEU B 166 -2.334 52.958 110.413 1.00 46.60 C +ATOM 2160 O LEU B 166 -2.141 53.236 109.224 1.00 46.94 O +ATOM 2161 CB LEU B 166 -3.660 50.827 110.139 1.00 39.53 C +ATOM 2162 CG LEU B 166 -2.473 49.892 110.360 1.00 41.45 C +ATOM 2163 CD1 LEU B 166 -2.219 49.726 111.831 1.00 46.64 C +ATOM 2164 CD2 LEU B 166 -2.710 48.543 109.730 1.00 40.34 C +ATOM 2165 N THR B 167 -1.488 53.293 111.387 1.00 48.15 N +ATOM 2166 CA THR B 167 -0.387 54.236 111.188 1.00 44.55 C +ATOM 2167 C THR B 167 0.932 53.734 111.760 1.00 46.33 C +ATOM 2168 O THR B 167 1.989 53.854 111.129 1.00 45.68 O +ATOM 2169 CB THR B 167 -0.698 55.592 111.839 1.00 48.87 C +ATOM 2170 OG1 THR B 167 -1.816 56.199 111.178 1.00 51.29 O +ATOM 2171 CG2 THR B 167 0.507 56.516 111.750 1.00 55.91 C +ATOM 2172 N SER B 168 0.874 53.182 112.967 1.00 46.99 N +ATOM 2173 CA SER B 168 2.088 52.775 113.654 1.00 45.65 C +ATOM 2174 C SER B 168 2.699 51.567 112.968 1.00 49.89 C +ATOM 2175 O SER B 168 1.997 50.584 112.661 1.00 46.67 O +ATOM 2176 CB SER B 168 1.808 52.481 115.122 1.00 47.16 C +ATOM 2177 OG SER B 168 1.405 53.676 115.771 1.00 66.22 O +ATOM 2178 N GLY B 169 4.004 51.662 112.706 1.00 39.29 N +ATOM 2179 CA GLY B 169 4.723 50.593 112.049 1.00 40.68 C +ATOM 2180 C GLY B 169 4.546 50.578 110.543 1.00 45.73 C +ATOM 2181 O GLY B 169 4.874 49.577 109.892 1.00 46.65 O +ATOM 2182 N VAL B 170 4.035 51.675 109.983 1.00 40.09 N +ATOM 2183 CA VAL B 170 3.808 51.727 108.545 1.00 36.91 C +ATOM 2184 C VAL B 170 4.997 52.372 107.838 1.00 37.72 C +ATOM 2185 O VAL B 170 5.439 53.464 108.200 1.00 35.26 O +ATOM 2186 CB VAL B 170 2.515 52.498 108.185 1.00 37.79 C +ATOM 2187 CG1 VAL B 170 2.397 52.686 106.671 1.00 32.24 C +ATOM 2188 CG2 VAL B 170 1.296 51.770 108.719 1.00 39.17 C +ATOM 2189 N HIS B 171 5.521 51.680 106.832 1.00 38.68 N +ATOM 2190 CA HIS B 171 6.558 52.250 105.980 1.00 40.06 C +ATOM 2191 C HIS B 171 6.106 52.226 104.528 1.00 35.54 C +ATOM 2192 O HIS B 171 5.996 51.167 103.918 1.00 37.79 O +ATOM 2193 CB HIS B 171 7.892 51.497 106.140 1.00 38.68 C +ATOM 2194 CG HIS B 171 8.484 51.604 107.517 1.00 40.59 C +ATOM 2195 ND1 HIS B 171 8.965 52.786 108.027 1.00 40.27 N +ATOM 2196 CD2 HIS B 171 8.641 50.674 108.489 1.00 39.26 C +ATOM 2197 CE1 HIS B 171 9.406 52.582 109.261 1.00 37.11 C +ATOM 2198 NE2 HIS B 171 9.222 51.310 109.562 1.00 38.17 N +ATOM 2199 N THR B 172 5.829 53.401 103.980 1.00 37.90 N +ATOM 2200 CA THR B 172 5.583 53.518 102.545 1.00 38.83 C +ATOM 2201 C THR B 172 6.850 54.038 101.886 1.00 34.41 C +ATOM 2202 O THR B 172 7.202 55.203 102.023 1.00 35.47 O +ATOM 2203 CB THR B 172 4.375 54.433 102.239 1.00 32.27 C +ATOM 2204 OG1 THR B 172 3.182 53.755 102.634 1.00 33.50 O +ATOM 2205 CG2 THR B 172 4.264 54.729 100.761 1.00 34.54 C +ATOM 2206 N PHE B 173 7.543 53.150 101.186 1.00 36.56 N +ATOM 2207 CA PHE B 173 8.818 53.500 100.573 1.00 38.75 C +ATOM 2208 C PHE B 173 8.679 54.481 99.427 1.00 36.90 C +ATOM 2209 O PHE B 173 7.686 54.449 98.703 1.00 39.62 O +ATOM 2210 CB PHE B 173 9.521 52.244 100.085 1.00 38.68 C +ATOM 2211 CG PHE B 173 9.943 51.349 101.192 1.00 38.13 C +ATOM 2212 CD1 PHE B 173 11.195 51.504 101.784 1.00 37.81 C +ATOM 2213 CD2 PHE B 173 9.089 50.369 101.665 1.00 34.37 C +ATOM 2214 CE1 PHE B 173 11.593 50.688 102.827 1.00 33.44 C +ATOM 2215 CE2 PHE B 173 9.481 49.547 102.709 1.00 40.10 C +ATOM 2216 CZ PHE B 173 10.737 49.711 103.291 1.00 37.79 C +ATOM 2217 N PRO B 174 9.673 55.368 99.274 1.00 36.44 N +ATOM 2218 CA PRO B 174 9.762 56.219 98.089 1.00 33.94 C +ATOM 2219 C PRO B 174 9.697 55.351 96.825 1.00 36.62 C +ATOM 2220 O PRO B 174 10.200 54.220 96.811 1.00 38.02 O +ATOM 2221 CB PRO B 174 11.137 56.885 98.225 1.00 31.50 C +ATOM 2222 CG PRO B 174 11.487 56.772 99.641 1.00 38.27 C +ATOM 2223 CD PRO B 174 10.842 55.527 100.156 1.00 38.70 C +ATOM 2224 N ALA B 175 9.071 55.865 95.776 1.00 37.78 N +ATOM 2225 CA ALA B 175 8.968 55.114 94.539 1.00 35.89 C +ATOM 2226 C ALA B 175 10.308 55.102 93.823 1.00 36.89 C +ATOM 2227 O ALA B 175 11.093 56.048 93.966 1.00 36.70 O +ATOM 2228 CB ALA B 175 7.907 55.703 93.664 1.00 38.25 C +ATOM 2229 N VAL B 176 10.575 54.026 93.078 1.00 36.19 N +ATOM 2230 CA VAL B 176 11.742 53.966 92.186 1.00 38.98 C +ATOM 2231 C VAL B 176 11.311 54.004 90.713 1.00 39.24 C +ATOM 2232 O VAL B 176 10.321 53.377 90.308 1.00 36.66 O +ATOM 2233 CB VAL B 176 12.626 52.694 92.426 1.00 38.33 C +ATOM 2234 CG1 VAL B 176 13.077 52.606 93.872 1.00 30.52 C +ATOM 2235 CG2 VAL B 176 11.889 51.402 92.007 1.00 40.80 C +ATOM 2236 N LEU B 177 12.049 54.760 89.913 1.00 36.72 N +ATOM 2237 CA LEU B 177 11.787 54.770 88.485 1.00 41.47 C +ATOM 2238 C LEU B 177 12.335 53.476 87.880 1.00 42.30 C +ATOM 2239 O LEU B 177 13.542 53.240 87.907 1.00 43.33 O +ATOM 2240 CB LEU B 177 12.413 56.001 87.844 1.00 37.40 C +ATOM 2241 CG LEU B 177 12.100 56.308 86.392 1.00 39.56 C +ATOM 2242 CD1 LEU B 177 10.599 56.443 86.179 1.00 41.03 C +ATOM 2243 CD2 LEU B 177 12.794 57.597 86.060 1.00 41.76 C +ATOM 2244 N GLN B 178 11.450 52.623 87.367 1.00 42.70 N +ATOM 2245 CA GLN B 178 11.873 51.320 86.847 1.00 47.26 C +ATOM 2246 C GLN B 178 12.539 51.440 85.483 1.00 50.52 C +ATOM 2247 O GLN B 178 12.469 52.488 84.840 1.00 50.00 O +ATOM 2248 CB GLN B 178 10.685 50.371 86.740 1.00 45.30 C +ATOM 2249 CG GLN B 178 10.160 49.848 88.051 1.00 43.58 C +ATOM 2250 CD GLN B 178 8.840 49.129 87.858 1.00 52.52 C +ATOM 2251 OE1 GLN B 178 8.664 47.988 88.298 1.00 57.70 O +ATOM 2252 NE2 GLN B 178 7.895 49.801 87.197 1.00 45.97 N +ATOM 2253 N SER B 179 13.172 50.360 85.036 1.00 48.74 N +ATOM 2254 CA SER B 179 13.776 50.338 83.707 1.00 55.38 C +ATOM 2255 C SER B 179 12.761 50.725 82.628 1.00 49.04 C +ATOM 2256 O SER B 179 13.100 51.391 81.657 1.00 52.01 O +ATOM 2257 CB SER B 179 14.361 48.958 83.405 1.00 59.41 C +ATOM 2258 OG SER B 179 15.284 48.564 84.408 1.00 61.95 O +ATOM 2259 N SER B 180 11.510 50.323 82.816 1.00 47.94 N +ATOM 2260 CA SER B 180 10.444 50.649 81.868 1.00 48.82 C +ATOM 2261 C SER B 180 10.123 52.146 81.758 1.00 51.50 C +ATOM 2262 O SER B 180 9.528 52.587 80.774 1.00 50.32 O +ATOM 2263 CB SER B 180 9.167 49.890 82.246 1.00 49.98 C +ATOM 2264 OG SER B 180 8.833 50.057 83.617 1.00 44.34 O +ATOM 2265 N GLY B 181 10.506 52.924 82.766 1.00 48.80 N +ATOM 2266 CA GLY B 181 10.105 54.316 82.828 1.00 41.12 C +ATOM 2267 C GLY B 181 8.823 54.507 83.630 1.00 42.98 C +ATOM 2268 O GLY B 181 8.349 55.626 83.771 1.00 41.59 O +ATOM 2269 N LEU B 182 8.260 53.420 84.157 1.00 42.40 N +ATOM 2270 CA LEU B 182 7.102 53.515 85.048 1.00 38.34 C +ATOM 2271 C LEU B 182 7.532 53.416 86.504 1.00 38.95 C +ATOM 2272 O LEU B 182 8.595 52.871 86.793 1.00 38.29 O +ATOM 2273 CB LEU B 182 6.093 52.425 84.736 1.00 41.80 C +ATOM 2274 CG LEU B 182 5.533 52.479 83.322 1.00 41.82 C +ATOM 2275 CD1 LEU B 182 4.698 51.237 83.068 1.00 45.03 C +ATOM 2276 CD2 LEU B 182 4.710 53.744 83.151 1.00 36.46 C +ATOM 2277 N TYR B 183 6.712 53.942 87.414 1.00 38.70 N +ATOM 2278 CA TYR B 183 7.065 53.962 88.828 1.00 39.06 C +ATOM 2279 C TYR B 183 6.527 52.761 89.574 1.00 42.91 C +ATOM 2280 O TYR B 183 5.451 52.234 89.248 1.00 41.15 O +ATOM 2281 CB TYR B 183 6.546 55.224 89.517 1.00 39.85 C +ATOM 2282 CG TYR B 183 7.254 56.504 89.142 1.00 41.75 C +ATOM 2283 CD1 TYR B 183 8.467 56.860 89.730 1.00 37.69 C +ATOM 2284 CD2 TYR B 183 6.706 57.359 88.198 1.00 38.47 C +ATOM 2285 CE1 TYR B 183 9.110 58.045 89.375 1.00 39.41 C +ATOM 2286 CE2 TYR B 183 7.330 58.529 87.843 1.00 41.64 C +ATOM 2287 CZ TYR B 183 8.530 58.879 88.425 1.00 45.64 C +ATOM 2288 OH TYR B 183 9.131 60.066 88.038 1.00 45.83 O +ATOM 2289 N SER B 184 7.274 52.368 90.605 1.00 40.03 N +ATOM 2290 CA SER B 184 6.910 51.243 91.438 1.00 37.33 C +ATOM 2291 C SER B 184 7.231 51.540 92.897 1.00 36.02 C +ATOM 2292 O SER B 184 8.220 52.212 93.193 1.00 38.87 O +ATOM 2293 CB SER B 184 7.641 49.992 90.964 1.00 42.69 C +ATOM 2294 OG SER B 184 7.004 48.826 91.451 1.00 48.19 O +ATOM 2295 N LEU B 185 6.386 51.067 93.814 1.00 41.04 N +ATOM 2296 CA LEU B 185 6.703 51.152 95.248 1.00 41.28 C +ATOM 2297 C LEU B 185 5.966 50.097 96.069 1.00 37.67 C +ATOM 2298 O LEU B 185 5.069 49.418 95.578 1.00 38.58 O +ATOM 2299 CB LEU B 185 6.402 52.560 95.805 1.00 38.73 C +ATOM 2300 CG LEU B 185 5.006 53.182 96.014 1.00 39.58 C +ATOM 2301 CD1 LEU B 185 4.211 52.552 97.158 1.00 37.80 C +ATOM 2302 CD2 LEU B 185 5.142 54.679 96.268 1.00 36.68 C +ATOM 2303 N SER B 186 6.357 49.967 97.329 1.00 39.23 N +ATOM 2304 CA SER B 186 5.659 49.078 98.250 1.00 40.45 C +ATOM 2305 C SER B 186 5.384 49.803 99.556 1.00 41.40 C +ATOM 2306 O SER B 186 6.144 50.697 99.962 1.00 39.98 O +ATOM 2307 CB SER B 186 6.466 47.816 98.530 1.00 36.83 C +ATOM 2308 OG SER B 186 7.819 48.156 98.768 1.00 48.42 O +ATOM 2309 N SER B 187 4.284 49.422 100.199 1.00 38.60 N +ATOM 2310 CA SER B 187 3.960 49.921 101.524 1.00 38.64 C +ATOM 2311 C SER B 187 3.901 48.716 102.448 1.00 38.19 C +ATOM 2312 O SER B 187 3.276 47.708 102.126 1.00 39.25 O +ATOM 2313 CB SER B 187 2.642 50.704 101.520 1.00 36.38 C +ATOM 2314 OG SER B 187 2.376 51.246 102.802 1.00 35.74 O +ATOM 2315 N VAL B 188 4.598 48.787 103.573 1.00 37.34 N +ATOM 2316 CA VAL B 188 4.564 47.676 104.511 1.00 36.12 C +ATOM 2317 C VAL B 188 4.115 48.121 105.883 1.00 36.14 C +ATOM 2318 O VAL B 188 4.102 49.308 106.209 1.00 39.17 O +ATOM 2319 CB VAL B 188 5.929 46.999 104.648 1.00 37.34 C +ATOM 2320 CG1 VAL B 188 6.364 46.404 103.316 1.00 35.13 C +ATOM 2321 CG2 VAL B 188 6.948 47.992 105.178 1.00 36.13 C +ATOM 2322 N VAL B 189 3.741 47.147 106.692 1.00 41.40 N +ATOM 2323 CA VAL B 189 3.430 47.411 108.083 1.00 44.23 C +ATOM 2324 C VAL B 189 3.701 46.126 108.864 1.00 42.40 C +ATOM 2325 O VAL B 189 3.481 45.010 108.362 1.00 41.73 O +ATOM 2326 CB VAL B 189 1.964 47.925 108.242 1.00 41.80 C +ATOM 2327 CG1 VAL B 189 0.997 46.969 107.611 1.00 39.00 C +ATOM 2328 CG2 VAL B 189 1.610 48.202 109.691 1.00 37.94 C +ATOM 2329 N THR B 190 4.260 46.290 110.057 1.00 38.45 N +ATOM 2330 CA THR B 190 4.485 45.170 110.959 1.00 41.78 C +ATOM 2331 C THR B 190 3.362 45.099 111.982 1.00 44.63 C +ATOM 2332 O THR B 190 2.929 46.116 112.539 1.00 41.98 O +ATOM 2333 CB THR B 190 5.833 45.273 111.680 1.00 42.72 C +ATOM 2334 OG1 THR B 190 6.051 46.631 112.074 1.00 50.27 O +ATOM 2335 CG2 THR B 190 6.956 44.842 110.761 1.00 44.71 C +ATOM 2336 N VAL B 191 2.889 43.880 112.214 1.00 45.18 N +ATOM 2337 CA VAL B 191 1.725 43.632 113.048 1.00 44.01 C +ATOM 2338 C VAL B 191 1.989 42.374 113.866 1.00 45.80 C +ATOM 2339 O VAL B 191 2.848 41.573 113.505 1.00 45.02 O +ATOM 2340 CB VAL B 191 0.459 43.449 112.188 1.00 46.76 C +ATOM 2341 CG1 VAL B 191 0.103 44.747 111.435 1.00 39.52 C +ATOM 2342 CG2 VAL B 191 0.656 42.284 111.214 1.00 43.31 C +ATOM 2343 N PRO B 192 1.277 42.208 114.990 1.00 53.66 N +ATOM 2344 CA PRO B 192 1.355 40.954 115.762 1.00 45.65 C +ATOM 2345 C PRO B 192 0.803 39.767 114.976 1.00 45.33 C +ATOM 2346 O PRO B 192 -0.232 39.904 114.330 1.00 46.15 O +ATOM 2347 CB PRO B 192 0.480 41.236 116.987 1.00 42.15 C +ATOM 2348 CG PRO B 192 0.361 42.754 117.052 1.00 39.72 C +ATOM 2349 CD PRO B 192 0.456 43.242 115.655 1.00 47.11 C +ATOM 2350 N SER B 193 1.474 38.622 115.039 1.00 48.37 N +ATOM 2351 CA SER B 193 1.040 37.420 114.324 1.00 45.88 C +ATOM 2352 C SER B 193 -0.391 37.030 114.689 1.00 46.91 C +ATOM 2353 O SER B 193 -1.137 36.488 113.872 1.00 46.54 O +ATOM 2354 CB SER B 193 1.976 36.262 114.642 1.00 50.61 C +ATOM 2355 OG SER B 193 3.276 36.744 114.925 1.00 59.63 O +ATOM 2356 N SER B 194 -0.750 37.307 115.937 1.00 47.60 N +ATOM 2357 CA SER B 194 -2.072 37.004 116.474 1.00 51.68 C +ATOM 2358 C SER B 194 -3.184 37.792 115.780 1.00 51.49 C +ATOM 2359 O SER B 194 -4.337 37.368 115.757 1.00 56.52 O +ATOM 2360 CB SER B 194 -2.083 37.273 117.986 1.00 52.16 C +ATOM 2361 OG SER B 194 -1.408 38.486 118.289 1.00 51.70 O +ATOM 2362 N SER B 195 -2.829 38.934 115.203 1.00 52.18 N +ATOM 2363 CA SER B 195 -3.791 39.798 114.526 1.00 49.55 C +ATOM 2364 C SER B 195 -4.140 39.313 113.121 1.00 54.19 C +ATOM 2365 O SER B 195 -5.065 39.838 112.486 1.00 52.13 O +ATOM 2366 CB SER B 195 -3.245 41.215 114.456 1.00 46.63 C +ATOM 2367 OG SER B 195 -2.775 41.613 115.731 1.00 62.09 O +ATOM 2368 N LEU B 196 -3.388 38.328 112.631 1.00 51.11 N +ATOM 2369 CA LEU B 196 -3.660 37.746 111.322 1.00 49.88 C +ATOM 2370 C LEU B 196 -4.922 36.901 111.434 1.00 52.96 C +ATOM 2371 O LEU B 196 -4.992 35.979 112.248 1.00 62.20 O +ATOM 2372 CB LEU B 196 -2.478 36.904 110.837 1.00 44.20 C +ATOM 2373 CG LEU B 196 -1.097 37.571 110.830 1.00 41.49 C +ATOM 2374 CD1 LEU B 196 -0.067 36.679 110.156 1.00 35.49 C +ATOM 2375 CD2 LEU B 196 -1.135 38.925 110.165 1.00 33.76 C +ATOM 2376 N GLY B 197 -5.931 37.221 110.638 1.00 51.93 N +ATOM 2377 CA GLY B 197 -7.186 36.501 110.741 1.00 50.62 C +ATOM 2378 C GLY B 197 -8.260 37.264 111.495 1.00 47.50 C +ATOM 2379 O GLY B 197 -9.390 37.365 111.033 1.00 53.76 O +ATOM 2380 N THR B 198 -7.929 37.814 112.653 1.00 47.55 N +ATOM 2381 CA THR B 198 -8.935 38.573 113.392 1.00 49.14 C +ATOM 2382 C THR B 198 -8.973 40.055 112.974 1.00 45.04 C +ATOM 2383 O THR B 198 -10.024 40.693 113.007 1.00 43.51 O +ATOM 2384 CB THR B 198 -8.712 38.481 114.922 1.00 43.73 C +ATOM 2385 OG1 THR B 198 -7.803 39.502 115.342 1.00 42.58 O +ATOM 2386 CG2 THR B 198 -8.150 37.136 115.294 1.00 45.20 C +ATOM 2387 N GLN B 199 -7.830 40.599 112.576 1.00 45.26 N +ATOM 2388 CA GLN B 199 -7.770 42.004 112.197 1.00 48.73 C +ATOM 2389 C GLN B 199 -7.783 42.172 110.669 1.00 47.74 C +ATOM 2390 O GLN B 199 -7.057 41.477 109.947 1.00 44.86 O +ATOM 2391 CB GLN B 199 -6.530 42.659 112.820 1.00 47.95 C +ATOM 2392 CG GLN B 199 -6.265 44.117 112.436 1.00 49.80 C +ATOM 2393 CD GLN B 199 -7.444 45.041 112.672 1.00 50.56 C +ATOM 2394 OE1 GLN B 199 -8.362 45.104 111.865 1.00 53.87 O +ATOM 2395 NE2 GLN B 199 -7.431 45.745 113.795 1.00 54.94 N +ATOM 2396 N THR B 200 -8.633 43.078 110.185 1.00 42.53 N +ATOM 2397 CA THR B 200 -8.684 43.399 108.761 1.00 49.70 C +ATOM 2398 C THR B 200 -7.572 44.383 108.398 1.00 47.11 C +ATOM 2399 O THR B 200 -7.332 45.363 109.107 1.00 44.49 O +ATOM 2400 CB THR B 200 -10.050 43.993 108.343 1.00 47.21 C +ATOM 2401 OG1 THR B 200 -11.088 43.052 108.633 1.00 59.52 O +ATOM 2402 CG2 THR B 200 -10.077 44.274 106.852 1.00 45.69 C +ATOM 2403 N TYR B 201 -6.891 44.095 107.293 1.00 41.40 N +ATOM 2404 CA TYR B 201 -5.856 44.971 106.772 1.00 40.44 C +ATOM 2405 C TYR B 201 -6.119 45.322 105.300 1.00 45.17 C +ATOM 2406 O TYR B 201 -5.953 44.496 104.390 1.00 45.00 O +ATOM 2407 CB TYR B 201 -4.487 44.320 106.942 1.00 40.30 C +ATOM 2408 CG TYR B 201 -4.093 44.078 108.384 1.00 40.59 C +ATOM 2409 CD1 TYR B 201 -3.580 45.109 109.165 1.00 38.51 C +ATOM 2410 CD2 TYR B 201 -4.220 42.820 108.958 1.00 39.66 C +ATOM 2411 CE1 TYR B 201 -3.209 44.899 110.474 1.00 44.60 C +ATOM 2412 CE2 TYR B 201 -3.843 42.595 110.273 1.00 46.17 C +ATOM 2413 CZ TYR B 201 -3.334 43.639 111.026 1.00 50.40 C +ATOM 2414 OH TYR B 201 -2.965 43.425 112.337 1.00 50.71 O +ATOM 2415 N ILE B 202 -6.552 46.558 105.084 1.00 42.56 N +ATOM 2416 CA ILE B 202 -6.841 47.048 103.750 1.00 42.60 C +ATOM 2417 C ILE B 202 -5.864 48.169 103.361 1.00 45.64 C +ATOM 2418 O ILE B 202 -5.673 49.167 104.075 1.00 42.58 O +ATOM 2419 CB ILE B 202 -8.308 47.533 103.644 1.00 41.75 C +ATOM 2420 CG1 ILE B 202 -9.253 46.329 103.685 1.00 44.43 C +ATOM 2421 CG2 ILE B 202 -8.531 48.343 102.376 1.00 40.47 C +ATOM 2422 CD1 ILE B 202 -10.706 46.680 103.456 1.00 43.98 C +ATOM 2423 N CYS B 203 -5.237 47.963 102.213 1.00 43.36 N +ATOM 2424 CA CYS B 203 -4.302 48.899 101.615 1.00 42.98 C +ATOM 2425 C CYS B 203 -5.075 49.861 100.725 1.00 42.51 C +ATOM 2426 O CYS B 203 -5.740 49.425 99.792 1.00 45.01 O +ATOM 2427 CB CYS B 203 -3.267 48.100 100.827 1.00 47.57 C +ATOM 2428 SG CYS B 203 -2.105 48.942 99.773 1.00 87.00 S +ATOM 2429 N ASN B 204 -5.026 51.155 101.021 1.00 41.11 N +ATOM 2430 CA ASN B 204 -5.743 52.136 100.209 1.00 42.98 C +ATOM 2431 C ASN B 204 -4.811 52.877 99.280 1.00 45.47 C +ATOM 2432 O ASN B 204 -3.943 53.628 99.734 1.00 44.94 O +ATOM 2433 CB ASN B 204 -6.471 53.149 101.088 1.00 42.38 C +ATOM 2434 CG ASN B 204 -7.235 52.496 102.203 1.00 47.99 C +ATOM 2435 OD1 ASN B 204 -6.922 52.691 103.384 1.00 45.53 O +ATOM 2436 ND2 ASN B 204 -8.244 51.707 101.845 1.00 46.05 N +ATOM 2437 N VAL B 205 -4.994 52.678 97.980 1.00 44.09 N +ATOM 2438 CA VAL B 205 -4.127 53.315 97.001 1.00 46.01 C +ATOM 2439 C VAL B 205 -4.897 54.308 96.143 1.00 44.16 C +ATOM 2440 O VAL B 205 -5.926 53.990 95.548 1.00 45.25 O +ATOM 2441 CB VAL B 205 -3.438 52.281 96.087 1.00 43.52 C +ATOM 2442 CG1 VAL B 205 -2.341 52.955 95.298 1.00 43.33 C +ATOM 2443 CG2 VAL B 205 -2.861 51.160 96.907 1.00 39.07 C +ATOM 2444 N ASN B 206 -4.374 55.519 96.087 1.00 44.11 N +ATOM 2445 CA ASN B 206 -5.022 56.610 95.385 1.00 48.73 C +ATOM 2446 C ASN B 206 -4.040 57.315 94.449 1.00 48.87 C +ATOM 2447 O ASN B 206 -3.113 57.988 94.907 1.00 49.97 O +ATOM 2448 CB ASN B 206 -5.607 57.596 96.398 1.00 47.31 C +ATOM 2449 CG ASN B 206 -6.393 58.718 95.745 1.00 61.91 C +ATOM 2450 OD1 ASN B 206 -6.518 59.803 96.314 1.00 74.31 O +ATOM 2451 ND2 ASN B 206 -6.931 58.465 94.553 1.00 59.63 N +ATOM 2452 N HIS B 207 -4.235 57.153 93.142 1.00 42.43 N +ATOM 2453 CA HIS B 207 -3.353 57.777 92.163 1.00 42.14 C +ATOM 2454 C HIS B 207 -4.105 58.840 91.378 1.00 46.03 C +ATOM 2455 O HIS B 207 -4.793 58.540 90.404 1.00 48.06 O +ATOM 2456 CB HIS B 207 -2.754 56.724 91.220 1.00 42.08 C +ATOM 2457 CG HIS B 207 -1.855 57.296 90.164 1.00 44.41 C +ATOM 2458 ND1 HIS B 207 -1.995 56.998 88.826 1.00 39.24 N +ATOM 2459 CD2 HIS B 207 -0.811 58.157 90.251 1.00 41.89 C +ATOM 2460 CE1 HIS B 207 -1.075 57.649 88.133 1.00 39.20 C +ATOM 2461 NE2 HIS B 207 -0.342 58.356 88.978 1.00 39.49 N +ATOM 2462 N LYS B 208 -3.956 60.088 91.806 1.00 48.36 N +ATOM 2463 CA LYS B 208 -4.759 61.187 91.270 1.00 50.78 C +ATOM 2464 C LYS B 208 -4.578 61.437 89.762 1.00 48.91 C +ATOM 2465 O LYS B 208 -5.574 61.619 89.063 1.00 49.86 O +ATOM 2466 CB LYS B 208 -4.477 62.484 92.050 1.00 52.39 C +ATOM 2467 CG LYS B 208 -4.881 62.436 93.510 1.00 54.21 C +ATOM 2468 CD LYS B 208 -6.334 62.804 93.703 1.00 65.66 C +ATOM 2469 CE LYS B 208 -6.745 62.672 95.164 1.00 73.65 C +ATOM 2470 NZ LYS B 208 -5.853 63.418 96.095 1.00 73.19 N +ATOM 2471 N PRO B 209 -3.326 61.464 89.252 1.00 50.62 N +ATOM 2472 CA PRO B 209 -3.178 61.650 87.794 1.00 43.93 C +ATOM 2473 C PRO B 209 -4.064 60.752 86.927 1.00 46.76 C +ATOM 2474 O PRO B 209 -4.758 61.264 86.055 1.00 48.58 O +ATOM 2475 CB PRO B 209 -1.708 61.326 87.563 1.00 38.30 C +ATOM 2476 CG PRO B 209 -1.053 61.804 88.815 1.00 44.22 C +ATOM 2477 CD PRO B 209 -2.018 61.518 89.937 1.00 39.92 C +ATOM 2478 N SER B 210 -4.054 59.446 87.182 1.00 50.97 N +ATOM 2479 CA SER B 210 -4.868 58.492 86.424 1.00 48.65 C +ATOM 2480 C SER B 210 -6.271 58.359 87.008 1.00 53.01 C +ATOM 2481 O SER B 210 -7.087 57.561 86.541 1.00 52.76 O +ATOM 2482 CB SER B 210 -4.181 57.125 86.386 1.00 46.62 C +ATOM 2483 OG SER B 210 -4.385 56.418 87.600 1.00 53.63 O +ATOM 2484 N ASN B 211 -6.532 59.145 88.044 1.00 55.33 N +ATOM 2485 CA ASN B 211 -7.834 59.189 88.707 1.00 59.30 C +ATOM 2486 C ASN B 211 -8.382 57.837 89.189 1.00 56.82 C +ATOM 2487 O ASN B 211 -9.597 57.636 89.227 1.00 55.20 O +ATOM 2488 CB ASN B 211 -8.861 59.844 87.785 1.00 60.20 C +ATOM 2489 CG ASN B 211 -9.862 60.687 88.551 1.00 75.19 C +ATOM 2490 OD1 ASN B 211 -10.908 60.191 88.987 1.00 74.65 O +ATOM 2491 ND2 ASN B 211 -9.537 61.969 88.740 1.00 75.21 N +ATOM 2492 N THR B 212 -7.492 56.928 89.579 1.00 53.63 N +ATOM 2493 CA THR B 212 -7.916 55.629 90.090 1.00 55.77 C +ATOM 2494 C THR B 212 -7.757 55.539 91.624 1.00 52.60 C +ATOM 2495 O THR B 212 -6.910 56.203 92.229 1.00 50.16 O +ATOM 2496 CB THR B 212 -7.142 54.468 89.395 1.00 56.88 C +ATOM 2497 OG1 THR B 212 -5.736 54.625 89.606 1.00 56.81 O +ATOM 2498 CG2 THR B 212 -7.422 54.452 87.876 1.00 53.30 C +ATOM 2499 N LYS B 213 -8.628 54.752 92.245 1.00 50.05 N +ATOM 2500 CA LYS B 213 -8.550 54.461 93.668 1.00 51.27 C +ATOM 2501 C LYS B 213 -8.623 52.943 93.823 1.00 48.44 C +ATOM 2502 O LYS B 213 -9.394 52.290 93.132 1.00 47.73 O +ATOM 2503 CB LYS B 213 -9.682 55.149 94.443 1.00 52.84 C +ATOM 2504 CG LYS B 213 -9.709 56.668 94.324 1.00 55.07 C +ATOM 2505 CD LYS B 213 -10.884 57.273 95.082 1.00 59.03 C +ATOM 2506 CE LYS B 213 -10.879 58.804 95.008 1.00 63.35 C +ATOM 2507 NZ LYS B 213 -12.078 59.423 95.664 1.00 61.41 N +ATOM 2508 N VAL B 214 -7.807 52.362 94.693 1.00 46.42 N +ATOM 2509 CA VAL B 214 -7.856 50.914 94.870 1.00 46.63 C +ATOM 2510 C VAL B 214 -7.848 50.561 96.356 1.00 49.52 C +ATOM 2511 O VAL B 214 -7.132 51.186 97.143 1.00 55.80 O +ATOM 2512 CB VAL B 214 -6.671 50.201 94.145 1.00 44.76 C +ATOM 2513 CG1 VAL B 214 -6.725 48.682 94.352 1.00 41.59 C +ATOM 2514 CG2 VAL B 214 -6.674 50.512 92.662 1.00 41.65 C +ATOM 2515 N ASP B 215 -8.677 49.588 96.736 1.00 49.92 N +ATOM 2516 CA ASP B 215 -8.634 48.995 98.070 1.00 44.57 C +ATOM 2517 C ASP B 215 -8.318 47.504 97.967 1.00 50.56 C +ATOM 2518 O ASP B 215 -9.146 46.718 97.506 1.00 60.60 O +ATOM 2519 CB ASP B 215 -9.957 49.202 98.821 1.00 44.33 C +ATOM 2520 CG ASP B 215 -10.271 50.671 99.091 1.00 55.29 C +ATOM 2521 OD1 ASP B 215 -9.938 51.537 98.254 1.00 64.51 O +ATOM 2522 OD2 ASP B 215 -10.848 50.971 100.157 1.00 57.98 O +ATOM 2523 N LYS B 216 -7.116 47.118 98.382 1.00 47.80 N +ATOM 2524 CA LYS B 216 -6.731 45.709 98.400 1.00 49.91 C +ATOM 2525 C LYS B 216 -6.721 45.181 99.829 1.00 46.86 C +ATOM 2526 O LYS B 216 -6.067 45.751 100.698 1.00 46.53 O +ATOM 2527 CB LYS B 216 -5.351 45.504 97.758 1.00 49.68 C +ATOM 2528 CG LYS B 216 -5.129 44.127 97.132 1.00 48.50 C +ATOM 2529 CD LYS B 216 -5.957 43.989 95.871 1.00 51.66 C +ATOM 2530 CE LYS B 216 -5.367 42.977 94.909 1.00 59.37 C +ATOM 2531 NZ LYS B 216 -5.514 43.433 93.479 1.00 56.66 N +ATOM 2532 N LYS B 217 -7.468 44.109 100.075 1.00 50.95 N +ATOM 2533 CA LYS B 217 -7.403 43.418 101.359 1.00 51.15 C +ATOM 2534 C LYS B 217 -6.240 42.439 101.297 1.00 48.67 C +ATOM 2535 O LYS B 217 -6.124 41.675 100.346 1.00 49.17 O +ATOM 2536 CB LYS B 217 -8.718 42.694 101.677 1.00 49.29 C +ATOM 2537 CG LYS B 217 -8.709 41.889 102.977 1.00 49.57 C +ATOM 2538 CD LYS B 217 -10.121 41.495 103.411 1.00 52.11 C +ATOM 2539 CE LYS B 217 -10.114 40.538 104.600 1.00 50.34 C +ATOM 2540 NZ LYS B 217 -9.465 41.129 105.804 1.00 48.77 N +ATOM 2541 N VAL B 218 -5.361 42.497 102.290 1.00 46.90 N +ATOM 2542 CA VAL B 218 -4.220 41.594 102.358 1.00 48.57 C +ATOM 2543 C VAL B 218 -4.460 40.541 103.428 1.00 45.62 C +ATOM 2544 O VAL B 218 -4.676 40.865 104.591 1.00 45.45 O +ATOM 2545 CB VAL B 218 -2.909 42.346 102.670 1.00 47.39 C +ATOM 2546 CG1 VAL B 218 -1.727 41.387 102.660 1.00 44.10 C +ATOM 2547 CG2 VAL B 218 -2.699 43.454 101.675 1.00 47.51 C +ATOM 2548 N GLU B 219 -4.442 39.280 103.027 1.00 47.38 N +ATOM 2549 CA GLU B 219 -4.648 38.192 103.967 1.00 50.32 C +ATOM 2550 C GLU B 219 -3.477 37.229 103.888 1.00 50.08 C +ATOM 2551 O GLU B 219 -2.714 37.252 102.925 1.00 49.72 O +ATOM 2552 CB GLU B 219 -5.951 37.451 103.668 1.00 57.44 C +ATOM 2553 CG GLU B 219 -7.162 38.337 103.435 1.00 66.21 C +ATOM 2554 CD GLU B 219 -8.217 37.642 102.592 1.00 78.94 C +ATOM 2555 OE1 GLU B 219 -8.505 36.457 102.873 1.00 84.17 O +ATOM 2556 OE2 GLU B 219 -8.740 38.271 101.642 1.00 80.12 O +ATOM 2557 N PRO B 220 -3.312 36.391 104.917 1.00 56.78 N +ATOM 2558 CA PRO B 220 -2.398 35.252 104.767 1.00 55.17 C +ATOM 2559 C PRO B 220 -2.928 34.255 103.732 1.00 58.15 C +ATOM 2560 O PRO B 220 -4.139 34.205 103.496 1.00 57.57 O +ATOM 2561 CB PRO B 220 -2.360 34.637 106.171 1.00 53.81 C +ATOM 2562 CG PRO B 220 -3.508 35.267 106.929 1.00 48.09 C +ATOM 2563 CD PRO B 220 -3.723 36.604 106.316 1.00 46.06 C +ATOM 2564 N LYS B 221 -2.027 33.493 103.113 1.00 65.39 N +ATOM 2565 CA LYS B 221 -2.398 32.470 102.127 1.00 66.79 C +ATOM 2566 C LYS B 221 -2.474 31.079 102.753 1.00 67.28 C +ATOM 2567 O LYS B 221 -3.388 30.302 102.464 1.00 66.54 O +ATOM 2568 CB LYS B 221 -1.399 32.458 100.968 1.00 70.94 C +ATOM 2569 CG LYS B 221 -1.327 31.135 100.214 1.00 77.99 C +ATOM 2570 CD LYS B 221 -1.293 31.347 98.703 1.00 82.52 C +ATOM 2571 CE LYS B 221 -0.391 32.511 98.324 1.00 74.70 C +ATOM 2572 NZ LYS B 221 -0.241 32.654 96.850 1.00 73.08 N +HETATM 2573 O HOH B 222 13.648 92.221 96.403 1.00 26.61 O +HETATM 2574 O HOH B 223 6.122 95.184 102.270 1.00 31.40 O +HETATM 2575 O HOH B 224 16.618 65.786 97.089 1.00 38.37 O +HETATM 2576 O HOH B 225 18.354 90.158 92.926 1.00 31.21 O +HETATM 2577 O HOH B 226 -0.127 78.208 84.050 1.00 46.72 O +HETATM 2578 O HOH B 227 15.750 71.711 74.752 1.00 53.12 O +HETATM 2579 O HOH B 228 13.163 83.632 76.183 1.00 44.55 O +HETATM 2580 O HOH B 229 -6.907 41.626 106.219 1.00 30.84 O +HETATM 2581 O HOH B 230 14.318 65.304 96.093 1.00 42.97 O +HETATM 2582 O HOH B 231 15.193 82.859 77.988 1.00 41.72 O +HETATM 2583 O HOH B 232 17.917 69.521 90.878 1.00 39.02 O +HETATM 2584 O HOH B 233 12.261 81.014 104.494 1.00 21.90 O +HETATM 2585 O HOH B 234 -7.870 56.425 103.500 1.00 46.27 O +HETATM 2586 O HOH B 235 -0.234 48.634 85.792 1.00 47.85 O +HETATM 2587 O HOH B 236 -11.582 38.918 110.130 1.00 35.51 O +HETATM 2588 O HOH B 237 14.049 87.779 106.412 1.00 28.34 O +HETATM 2589 O HOH B 238 3.842 65.526 87.573 1.00 34.20 O +HETATM 2590 O HOH B 239 1.243 56.583 115.088 1.00 55.63 O +HETATM 2591 O HOH B 240 -10.290 50.783 105.031 1.00 42.13 O +HETATM 2592 O HOH B 241 10.220 60.417 85.257 1.00 40.24 O +HETATM 2593 O HOH B 242 -11.037 39.602 107.974 1.00 42.67 O +HETATM 2594 O HOH B 243 3.017 60.890 98.241 1.00 41.96 O +HETATM 2595 O HOH B 244 -2.375 74.913 93.709 1.00 43.90 O +HETATM 2596 O HOH B 245 11.272 96.401 100.535 1.00 43.79 O +HETATM 2597 O HOH B 246 16.583 62.628 84.444 1.00 42.90 O +HETATM 2598 O HOH B 247 12.933 96.151 102.458 1.00 39.10 O +HETATM 2599 O HOH B 248 15.501 60.331 83.239 1.00 46.89 O +ATOM 2600 N ILE C 2 30.559 80.331 89.901 1.00 31.52 N +ATOM 2601 CA ILE C 2 30.894 80.136 91.328 1.00 38.30 C +ATOM 2602 C ILE C 2 30.399 78.822 91.919 1.00 33.46 C +ATOM 2603 O ILE C 2 29.209 78.637 92.139 1.00 34.77 O +ATOM 2604 CB ILE C 2 30.324 81.235 92.252 1.00 36.66 C +ATOM 2605 CG1 ILE C 2 30.901 82.605 91.922 1.00 34.26 C +ATOM 2606 CG2 ILE C 2 30.622 80.903 93.698 1.00 33.52 C +ATOM 2607 CD1 ILE C 2 30.712 83.616 93.024 1.00 28.57 C +ATOM 2608 N VAL C 3 31.334 77.932 92.215 1.00 31.52 N +ATOM 2609 CA VAL C 3 31.016 76.610 92.716 1.00 29.77 C +ATOM 2610 C VAL C 3 31.173 76.558 94.237 1.00 36.32 C +ATOM 2611 O VAL C 3 32.216 76.955 94.771 1.00 36.18 O +ATOM 2612 CB VAL C 3 31.922 75.556 92.052 1.00 30.15 C +ATOM 2613 CG1 VAL C 3 31.612 74.138 92.557 1.00 16.49 C +ATOM 2614 CG2 VAL C 3 31.809 75.672 90.523 1.00 26.04 C +ATOM 2615 N LEU C 4 30.130 76.075 94.918 1.00 31.91 N +ATOM 2616 CA LEU C 4 30.130 75.930 96.364 1.00 28.41 C +ATOM 2617 C LEU C 4 30.223 74.455 96.746 1.00 33.12 C +ATOM 2618 O LEU C 4 29.380 73.645 96.357 1.00 29.24 O +ATOM 2619 CB LEU C 4 28.869 76.544 96.975 1.00 31.97 C +ATOM 2620 CG LEU C 4 28.602 78.034 96.744 1.00 33.78 C +ATOM 2621 CD1 LEU C 4 27.346 78.475 97.480 1.00 30.55 C +ATOM 2622 CD2 LEU C 4 29.792 78.900 97.126 1.00 28.96 C +ATOM 2623 N THR C 5 31.244 74.121 97.528 1.00 37.93 N +ATOM 2624 CA THR C 5 31.474 72.753 97.963 1.00 36.51 C +ATOM 2625 C THR C 5 31.207 72.654 99.453 1.00 38.84 C +ATOM 2626 O THR C 5 31.982 73.157 100.272 1.00 37.05 O +ATOM 2627 CB THR C 5 32.917 72.277 97.647 1.00 35.40 C +ATOM 2628 OG1 THR C 5 33.159 72.388 96.240 1.00 40.00 O +ATOM 2629 CG2 THR C 5 33.107 70.835 98.053 1.00 31.51 C +ATOM 2630 N GLN C 6 30.089 72.010 99.784 1.00 36.93 N +ATOM 2631 CA GLN C 6 29.696 71.793 101.158 1.00 33.23 C +ATOM 2632 C GLN C 6 30.380 70.580 101.729 1.00 41.08 C +ATOM 2633 O GLN C 6 30.725 69.642 101.001 1.00 39.60 O +ATOM 2634 CB GLN C 6 28.186 71.636 101.270 1.00 34.87 C +ATOM 2635 CG GLN C 6 27.481 72.956 101.284 1.00 40.07 C +ATOM 2636 CD GLN C 6 26.037 72.831 101.651 1.00 36.93 C +ATOM 2637 OE1 GLN C 6 25.162 73.028 100.818 1.00 37.61 O +ATOM 2638 NE2 GLN C 6 25.772 72.506 102.911 1.00 37.28 N +ATOM 2639 N SER C 7 30.547 70.602 103.049 1.00 42.14 N +ATOM 2640 CA SER C 7 31.303 69.581 103.747 1.00 37.62 C +ATOM 2641 C SER C 7 30.903 69.474 105.218 1.00 41.63 C +ATOM 2642 O SER C 7 30.686 70.490 105.877 1.00 42.79 O +ATOM 2643 CB SER C 7 32.789 69.881 103.636 1.00 34.37 C +ATOM 2644 OG SER C 7 33.523 68.866 104.276 1.00 46.30 O +ATOM 2645 N PRO C 8 30.781 68.236 105.733 1.00 46.75 N +ATOM 2646 CA PRO C 8 30.921 66.985 104.968 1.00 43.58 C +ATOM 2647 C PRO C 8 29.599 66.568 104.307 1.00 39.94 C +ATOM 2648 O PRO C 8 28.656 67.361 104.243 1.00 38.39 O +ATOM 2649 CB PRO C 8 31.328 65.978 106.033 1.00 36.66 C +ATOM 2650 CG PRO C 8 30.518 66.455 107.264 1.00 44.93 C +ATOM 2651 CD PRO C 8 30.484 67.979 107.159 1.00 45.80 C +ATOM 2652 N GLY C 9 29.530 65.329 103.841 1.00 36.75 N +ATOM 2653 CA GLY C 9 28.318 64.828 103.222 1.00 35.94 C +ATOM 2654 C GLY C 9 27.232 64.574 104.243 1.00 37.80 C +ATOM 2655 O GLY C 9 26.113 65.051 104.107 1.00 41.29 O +ATOM 2656 N THR C 10 27.570 63.823 105.282 1.00 41.36 N +ATOM 2657 CA THR C 10 26.624 63.493 106.339 1.00 39.32 C +ATOM 2658 C THR C 10 27.232 63.749 107.718 1.00 42.75 C +ATOM 2659 O THR C 10 28.410 63.491 107.948 1.00 41.99 O +ATOM 2660 CB THR C 10 26.182 62.008 106.267 1.00 44.81 C +ATOM 2661 OG1 THR C 10 25.777 61.683 104.932 1.00 43.20 O +ATOM 2662 CG2 THR C 10 25.026 61.726 107.238 1.00 48.35 C +ATOM 2663 N LEU C 11 26.422 64.264 108.634 1.00 47.85 N +ATOM 2664 CA LEU C 11 26.792 64.311 110.045 1.00 43.92 C +ATOM 2665 C LEU C 11 25.880 63.391 110.860 1.00 44.58 C +ATOM 2666 O LEU C 11 24.652 63.468 110.757 1.00 45.43 O +ATOM 2667 CB LEU C 11 26.725 65.742 110.586 1.00 39.18 C +ATOM 2668 CG LEU C 11 27.976 66.601 110.398 1.00 46.12 C +ATOM 2669 CD1 LEU C 11 27.772 67.987 110.980 1.00 51.03 C +ATOM 2670 CD2 LEU C 11 29.166 65.939 111.058 1.00 47.47 C +ATOM 2671 N SER C 12 26.488 62.508 111.647 1.00 41.06 N +ATOM 2672 CA SER C 12 25.752 61.674 112.589 1.00 37.25 C +ATOM 2673 C SER C 12 26.009 62.169 114.014 1.00 44.30 C +ATOM 2674 O SER C 12 27.113 62.010 114.539 1.00 45.82 O +ATOM 2675 CB SER C 12 26.157 60.211 112.456 1.00 36.73 C +ATOM 2676 OG SER C 12 26.090 59.783 111.106 1.00 49.21 O +ATOM 2677 N LEU C 13 24.987 62.760 114.633 1.00 40.40 N +ATOM 2678 CA LEU C 13 25.133 63.400 115.931 1.00 38.75 C +ATOM 2679 C LEU C 13 23.930 63.127 116.824 1.00 45.59 C +ATOM 2680 O LEU C 13 22.823 62.907 116.334 1.00 43.22 O +ATOM 2681 CB LEU C 13 25.313 64.916 115.772 1.00 39.31 C +ATOM 2682 CG LEU C 13 26.539 65.454 115.020 1.00 34.89 C +ATOM 2683 CD1 LEU C 13 26.497 66.960 114.998 1.00 38.37 C +ATOM 2684 CD2 LEU C 13 27.833 65.008 115.646 1.00 30.85 C +ATOM 2685 N SER C 14 24.165 63.160 118.136 1.00 46.98 N +ATOM 2686 CA SER C 14 23.119 63.049 119.143 1.00 45.34 C +ATOM 2687 C SER C 14 22.583 64.427 119.495 1.00 46.81 C +ATOM 2688 O SER C 14 23.341 65.393 119.496 1.00 47.28 O +ATOM 2689 CB SER C 14 23.668 62.388 120.402 1.00 49.11 C +ATOM 2690 OG SER C 14 24.533 61.319 120.061 1.00 62.55 O +ATOM 2691 N PRO C 15 21.283 64.527 119.811 1.00 46.67 N +ATOM 2692 CA PRO C 15 20.774 65.795 120.341 1.00 44.93 C +ATOM 2693 C PRO C 15 21.655 66.329 121.477 1.00 49.36 C +ATOM 2694 O PRO C 15 22.174 65.561 122.304 1.00 45.95 O +ATOM 2695 CB PRO C 15 19.376 65.427 120.843 1.00 46.95 C +ATOM 2696 CG PRO C 15 18.958 64.308 119.948 1.00 49.75 C +ATOM 2697 CD PRO C 15 20.215 63.520 119.662 1.00 45.24 C +ATOM 2698 N GLY C 16 21.850 67.645 121.485 1.00 49.45 N +ATOM 2699 CA GLY C 16 22.690 68.284 122.478 1.00 46.26 C +ATOM 2700 C GLY C 16 24.123 68.492 122.021 1.00 48.24 C +ATOM 2701 O GLY C 16 24.835 69.339 122.566 1.00 45.48 O +ATOM 2702 N GLU C 17 24.563 67.716 121.031 1.00 41.33 N +ATOM 2703 CA GLU C 17 25.877 67.936 120.463 1.00 38.22 C +ATOM 2704 C GLU C 17 25.862 69.199 119.597 1.00 41.92 C +ATOM 2705 O GLU C 17 24.802 69.756 119.298 1.00 38.73 O +ATOM 2706 CB GLU C 17 26.327 66.723 119.658 1.00 43.04 C +ATOM 2707 CG GLU C 17 26.650 65.500 120.493 1.00 47.02 C +ATOM 2708 CD GLU C 17 27.262 64.369 119.670 1.00 56.71 C +ATOM 2709 OE1 GLU C 17 28.304 64.583 119.015 1.00 61.14 O +ATOM 2710 OE2 GLU C 17 26.700 63.256 119.673 1.00 60.42 O +ATOM 2711 N ARG C 18 27.047 69.659 119.217 1.00 43.76 N +ATOM 2712 CA ARG C 18 27.182 70.843 118.384 1.00 43.89 C +ATOM 2713 C ARG C 18 27.506 70.417 116.951 1.00 40.93 C +ATOM 2714 O ARG C 18 28.308 69.508 116.744 1.00 43.61 O +ATOM 2715 CB ARG C 18 28.266 71.755 118.957 1.00 45.63 C +ATOM 2716 CG ARG C 18 28.800 72.783 118.003 1.00 49.13 C +ATOM 2717 CD ARG C 18 30.089 73.359 118.526 1.00 57.54 C +ATOM 2718 NE ARG C 18 30.171 74.794 118.275 1.00 71.11 N +ATOM 2719 CZ ARG C 18 31.301 75.494 118.309 1.00 74.17 C +ATOM 2720 NH1 ARG C 18 32.451 74.888 118.578 1.00 69.39 N +ATOM 2721 NH2 ARG C 18 31.279 76.799 118.067 1.00 75.94 N +ATOM 2722 N ALA C 19 26.874 71.039 115.962 1.00 37.78 N +ATOM 2723 CA ALA C 19 27.159 70.684 114.565 1.00 41.66 C +ATOM 2724 C ALA C 19 27.852 71.822 113.812 1.00 38.81 C +ATOM 2725 O ALA C 19 27.472 72.987 113.935 1.00 37.95 O +ATOM 2726 CB ALA C 19 25.882 70.281 113.840 1.00 38.31 C +ATOM 2727 N THR C 20 28.866 71.463 113.030 1.00 40.65 N +ATOM 2728 CA THR C 20 29.654 72.423 112.261 1.00 41.04 C +ATOM 2729 C THR C 20 29.582 72.081 110.779 1.00 36.73 C +ATOM 2730 O THR C 20 29.966 70.988 110.367 1.00 42.49 O +ATOM 2731 CB THR C 20 31.144 72.449 112.717 1.00 36.80 C +ATOM 2732 OG1 THR C 20 31.256 73.112 113.978 1.00 39.35 O +ATOM 2733 CG2 THR C 20 31.992 73.197 111.723 1.00 40.41 C +ATOM 2734 N LEU C 21 29.089 73.015 109.975 1.00 37.30 N +ATOM 2735 CA LEU C 21 28.938 72.770 108.539 1.00 40.04 C +ATOM 2736 C LEU C 21 29.773 73.733 107.704 1.00 37.67 C +ATOM 2737 O LEU C 21 29.798 74.940 107.959 1.00 34.82 O +ATOM 2738 CB LEU C 21 27.474 72.873 108.120 1.00 37.45 C +ATOM 2739 CG LEU C 21 26.594 71.641 108.323 1.00 42.87 C +ATOM 2740 CD1 LEU C 21 26.382 71.350 109.797 1.00 45.50 C +ATOM 2741 CD2 LEU C 21 25.264 71.850 107.626 1.00 41.96 C +ATOM 2742 N SER C 22 30.445 73.197 106.692 1.00 36.51 N +ATOM 2743 CA SER C 22 31.352 74.007 105.902 1.00 40.34 C +ATOM 2744 C SER C 22 30.835 74.273 104.503 1.00 38.45 C +ATOM 2745 O SER C 22 30.154 73.436 103.895 1.00 37.66 O +ATOM 2746 CB SER C 22 32.729 73.352 105.833 1.00 40.42 C +ATOM 2747 OG SER C 22 33.361 73.434 107.098 1.00 52.53 O +ATOM 2748 N CYS C 23 31.157 75.466 104.018 1.00 36.70 N +ATOM 2749 CA CYS C 23 30.842 75.872 102.660 1.00 39.53 C +ATOM 2750 C CYS C 23 32.066 76.577 102.086 1.00 37.40 C +ATOM 2751 O CYS C 23 32.477 77.600 102.617 1.00 41.88 O +ATOM 2752 CB CYS C 23 29.615 76.792 102.640 1.00 35.46 C +ATOM 2753 SG CYS C 23 28.916 77.078 100.995 1.00 44.66 S +ATOM 2754 N ARG C 24 32.665 76.033 101.031 1.00 32.54 N +ATOM 2755 CA ARG C 24 33.804 76.706 100.397 1.00 37.39 C +ATOM 2756 C ARG C 24 33.442 77.173 98.990 1.00 35.36 C +ATOM 2757 O ARG C 24 32.730 76.482 98.259 1.00 38.81 O +ATOM 2758 CB ARG C 24 35.030 75.783 100.366 1.00 41.22 C +ATOM 2759 CG ARG C 24 35.507 75.367 101.760 1.00 48.32 C +ATOM 2760 CD ARG C 24 36.966 75.712 101.989 1.00 64.55 C +ATOM 2761 NE ARG C 24 37.809 75.332 100.851 1.00 81.21 N +ATOM 2762 CZ ARG C 24 39.126 75.530 100.787 1.00 81.42 C +ATOM 2763 NH1 ARG C 24 39.761 76.106 101.803 1.00 75.13 N +ATOM 2764 NH2 ARG C 24 39.809 75.146 99.710 1.00 77.90 N +ATOM 2765 N ALA C 25 33.911 78.353 98.607 1.00 35.19 N +ATOM 2766 CA ALA C 25 33.588 78.886 97.283 1.00 33.67 C +ATOM 2767 C ALA C 25 34.813 78.922 96.374 1.00 36.12 C +ATOM 2768 O ALA C 25 35.945 78.997 96.850 1.00 35.91 O +ATOM 2769 CB ALA C 25 32.984 80.269 97.401 1.00 32.68 C +ATOM 2770 N SER C 26 34.577 78.860 95.065 1.00 34.95 N +ATOM 2771 CA SER C 26 35.649 78.918 94.085 1.00 36.20 C +ATOM 2772 C SER C 26 35.997 80.372 93.744 1.00 34.03 C +ATOM 2773 O SER C 26 36.958 80.649 93.032 1.00 37.26 O +ATOM 2774 CB SER C 26 35.254 78.135 92.830 1.00 34.02 C +ATOM 2775 OG SER C 26 34.032 78.615 92.301 1.00 34.80 O +ATOM 2776 N GLN C 27 35.205 81.295 94.262 1.00 33.71 N +ATOM 2777 CA GLN C 27 35.439 82.723 94.060 1.00 33.99 C +ATOM 2778 C GLN C 27 35.036 83.465 95.305 1.00 37.16 C +ATOM 2779 O GLN C 27 34.303 82.924 96.134 1.00 41.15 O +ATOM 2780 CB GLN C 27 34.652 83.265 92.874 1.00 33.52 C +ATOM 2781 CG GLN C 27 35.036 82.683 91.550 1.00 38.13 C +ATOM 2782 CD GLN C 27 34.220 83.260 90.423 1.00 45.86 C +ATOM 2783 OE1 GLN C 27 33.840 84.442 90.451 1.00 46.70 O +ATOM 2784 NE2 GLN C 27 33.926 82.427 89.424 1.00 41.59 N +ATOM 2785 N ARG C 28 35.522 84.693 95.457 1.00 39.71 N +ATOM 2786 CA ARG C 28 35.091 85.524 96.574 1.00 37.36 C +ATOM 2787 C ARG C 28 33.615 85.858 96.409 1.00 38.97 C +ATOM 2788 O ARG C 28 33.172 86.199 95.307 1.00 37.86 O +ATOM 2789 CB ARG C 28 35.910 86.803 96.666 1.00 35.24 C +ATOM 2790 CG ARG C 28 35.429 87.696 97.769 1.00 40.31 C +ATOM 2791 CD ARG C 28 36.453 88.737 98.111 1.00 43.29 C +ATOM 2792 NE ARG C 28 35.977 89.598 99.183 1.00 46.81 N +ATOM 2793 CZ ARG C 28 35.124 90.591 98.986 1.00 44.86 C +ATOM 2794 NH1 ARG C 28 34.669 90.816 97.763 1.00 45.74 N +ATOM 2795 NH2 ARG C 28 34.725 91.353 99.997 1.00 44.10 N +ATOM 2796 N VAL C 29 32.855 85.727 97.494 1.00 35.18 N +ATOM 2797 CA VAL C 29 31.421 86.005 97.467 1.00 34.32 C +ATOM 2798 C VAL C 29 31.151 87.464 97.828 1.00 33.79 C +ATOM 2799 O VAL C 29 31.266 87.862 98.988 1.00 36.90 O +ATOM 2800 CB VAL C 29 30.652 85.070 98.425 1.00 35.29 C +ATOM 2801 CG1 VAL C 29 29.171 85.427 98.470 1.00 32.44 C +ATOM 2802 CG2 VAL C 29 30.831 83.632 97.986 1.00 36.77 C +ATOM 2803 N SER C 30 30.788 88.248 96.819 1.00 34.60 N +ATOM 2804 CA SER C 30 30.609 89.693 96.966 1.00 38.06 C +ATOM 2805 C SER C 30 29.744 90.054 98.169 1.00 35.12 C +ATOM 2806 O SER C 30 28.735 89.401 98.444 1.00 33.52 O +ATOM 2807 CB SER C 30 29.999 90.276 95.691 1.00 34.05 C +ATOM 2808 OG SER C 30 30.342 91.641 95.552 1.00 39.90 O +ATOM 2809 N SER C 36 30.170 91.074 98.904 1.00 37.69 N +ATOM 2810 CA SER C 36 29.463 91.542 100.109 1.00 41.26 C +ATOM 2811 C SER C 36 29.130 90.464 101.150 1.00 40.08 C +ATOM 2812 O SER C 36 28.338 90.726 102.051 1.00 36.47 O +ATOM 2813 CB SER C 36 28.164 92.237 99.717 1.00 37.00 C +ATOM 2814 OG SER C 36 28.411 93.287 98.810 1.00 43.17 O +ATOM 2815 N SER C 37 29.726 89.275 101.014 1.00 38.74 N +ATOM 2816 CA SER C 37 29.424 88.110 101.859 1.00 36.38 C +ATOM 2817 C SER C 37 27.960 87.709 101.817 1.00 35.50 C +ATOM 2818 O SER C 37 27.402 87.320 102.838 1.00 33.19 O +ATOM 2819 CB SER C 37 29.834 88.352 103.313 1.00 35.38 C +ATOM 2820 OG SER C 37 31.243 88.401 103.429 1.00 51.01 O +ATOM 2821 N TYR C 38 27.356 87.787 100.632 1.00 34.16 N +ATOM 2822 CA TYR C 38 25.986 87.338 100.437 1.00 31.79 C +ATOM 2823 C TYR C 38 25.944 85.823 100.319 1.00 31.48 C +ATOM 2824 O TYR C 38 25.913 85.261 99.212 1.00 32.06 O +ATOM 2825 CB TYR C 38 25.380 87.971 99.197 1.00 33.38 C +ATOM 2826 CG TYR C 38 25.069 89.436 99.350 1.00 33.77 C +ATOM 2827 CD1 TYR C 38 24.705 89.973 100.578 1.00 32.16 C +ATOM 2828 CD2 TYR C 38 25.145 90.289 98.259 1.00 33.22 C +ATOM 2829 CE1 TYR C 38 24.424 91.324 100.705 1.00 32.03 C +ATOM 2830 CE2 TYR C 38 24.867 91.629 98.380 1.00 32.24 C +ATOM 2831 CZ TYR C 38 24.510 92.142 99.593 1.00 29.97 C +ATOM 2832 OH TYR C 38 24.241 93.487 99.672 1.00 38.71 O +ATOM 2833 N LEU C 39 25.946 85.184 101.481 1.00 27.61 N +ATOM 2834 CA LEU C 39 25.921 83.740 101.620 1.00 29.75 C +ATOM 2835 C LEU C 39 24.719 83.383 102.487 1.00 31.04 C +ATOM 2836 O LEU C 39 24.652 83.775 103.652 1.00 32.61 O +ATOM 2837 CB LEU C 39 27.238 83.238 102.256 1.00 33.93 C +ATOM 2838 CG LEU C 39 27.651 81.752 102.308 1.00 32.00 C +ATOM 2839 CD1 LEU C 39 26.753 80.907 103.218 1.00 27.14 C +ATOM 2840 CD2 LEU C 39 27.742 81.152 100.899 1.00 30.36 C +ATOM 2841 N ALA C 40 23.765 82.652 101.926 1.00 31.78 N +ATOM 2842 CA ALA C 40 22.624 82.212 102.717 1.00 31.46 C +ATOM 2843 C ALA C 40 22.768 80.740 103.126 1.00 30.49 C +ATOM 2844 O ALA C 40 23.457 79.973 102.460 1.00 30.04 O +ATOM 2845 CB ALA C 40 21.324 82.439 101.945 1.00 27.78 C +ATOM 2846 N TRP C 41 22.132 80.351 104.224 1.00 27.09 N +ATOM 2847 CA TRP C 41 21.987 78.931 104.545 1.00 30.29 C +ATOM 2848 C TRP C 41 20.512 78.537 104.595 1.00 31.69 C +ATOM 2849 O TRP C 41 19.656 79.343 104.962 1.00 32.36 O +ATOM 2850 CB TRP C 41 22.655 78.589 105.878 1.00 30.66 C +ATOM 2851 CG TRP C 41 24.158 78.661 105.887 1.00 28.63 C +ATOM 2852 CD1 TRP C 41 24.920 79.767 106.148 1.00 28.23 C +ATOM 2853 CD2 TRP C 41 25.083 77.583 105.654 1.00 28.60 C +ATOM 2854 NE1 TRP C 41 26.259 79.448 106.087 1.00 29.58 N +ATOM 2855 CE2 TRP C 41 26.388 78.117 105.787 1.00 27.95 C +ATOM 2856 CE3 TRP C 41 24.934 76.221 105.344 1.00 27.57 C +ATOM 2857 CZ2 TRP C 41 27.541 77.338 105.635 1.00 25.97 C +ATOM 2858 CZ3 TRP C 41 26.080 75.443 105.183 1.00 30.22 C +ATOM 2859 CH2 TRP C 41 27.370 76.008 105.329 1.00 30.09 C +ATOM 2860 N TYR C 42 20.216 77.293 104.232 1.00 32.55 N +ATOM 2861 CA TYR C 42 18.830 76.824 104.213 1.00 33.79 C +ATOM 2862 C TYR C 42 18.664 75.456 104.864 1.00 34.69 C +ATOM 2863 O TYR C 42 19.572 74.620 104.864 1.00 34.08 O +ATOM 2864 CB TYR C 42 18.289 76.757 102.782 1.00 32.05 C +ATOM 2865 CG TYR C 42 18.246 78.087 102.080 1.00 33.82 C +ATOM 2866 CD1 TYR C 42 19.339 78.533 101.346 1.00 32.87 C +ATOM 2867 CD2 TYR C 42 17.123 78.900 102.149 1.00 31.82 C +ATOM 2868 CE1 TYR C 42 19.319 79.750 100.701 1.00 32.32 C +ATOM 2869 CE2 TYR C 42 17.091 80.128 101.497 1.00 33.70 C +ATOM 2870 CZ TYR C 42 18.195 80.545 100.776 1.00 34.38 C +ATOM 2871 OH TYR C 42 18.187 81.754 100.122 1.00 32.47 O +ATOM 2872 N GLN C 43 17.479 75.238 105.410 1.00 32.01 N +ATOM 2873 CA GLN C 43 17.151 73.959 105.996 1.00 34.74 C +ATOM 2874 C GLN C 43 16.039 73.326 105.193 1.00 33.23 C +ATOM 2875 O GLN C 43 15.031 73.979 104.879 1.00 33.10 O +ATOM 2876 CB GLN C 43 16.725 74.113 107.459 1.00 31.62 C +ATOM 2877 CG GLN C 43 16.052 72.880 108.027 1.00 30.60 C +ATOM 2878 CD GLN C 43 15.413 73.131 109.372 1.00 32.82 C +ATOM 2879 OE1 GLN C 43 14.236 73.490 109.456 1.00 36.67 O +ATOM 2880 NE2 GLN C 43 16.187 72.936 110.440 1.00 32.85 N +ATOM 2881 N GLN C 44 16.212 72.054 104.857 1.00 30.99 N +ATOM 2882 CA GLN C 44 15.133 71.339 104.205 1.00 34.37 C +ATOM 2883 C GLN C 44 14.861 70.007 104.867 1.00 33.96 C +ATOM 2884 O GLN C 44 15.768 69.192 105.058 1.00 33.71 O +ATOM 2885 CB GLN C 44 15.437 71.135 102.727 1.00 38.94 C +ATOM 2886 CG GLN C 44 14.205 70.786 101.926 1.00 40.33 C +ATOM 2887 CD GLN C 44 14.528 70.513 100.478 1.00 41.22 C +ATOM 2888 OE1 GLN C 44 15.639 70.085 100.151 1.00 45.52 O +ATOM 2889 NE2 GLN C 44 13.558 70.746 99.599 1.00 36.99 N +ATOM 2890 N LYS C 45 13.596 69.808 105.229 1.00 37.02 N +ATOM 2891 CA LYS C 45 13.095 68.519 105.698 1.00 35.18 C +ATOM 2892 C LYS C 45 12.446 67.771 104.525 1.00 38.07 C +ATOM 2893 O LYS C 45 11.984 68.398 103.573 1.00 37.54 O +ATOM 2894 CB LYS C 45 12.110 68.734 106.853 1.00 37.53 C +ATOM 2895 CG LYS C 45 12.732 69.423 108.078 1.00 38.28 C +ATOM 2896 CD LYS C 45 11.783 69.360 109.270 1.00 48.50 C +ATOM 2897 CE LYS C 45 12.422 69.858 110.555 1.00 43.87 C +ATOM 2898 NZ LYS C 45 12.797 71.280 110.443 1.00 48.12 N +ATOM 2899 N PRO C 46 12.426 66.431 104.579 1.00 38.33 N +ATOM 2900 CA PRO C 46 11.872 65.598 103.498 1.00 31.68 C +ATOM 2901 C PRO C 46 10.456 65.973 103.102 1.00 33.52 C +ATOM 2902 O PRO C 46 9.581 66.048 103.947 1.00 33.14 O +ATOM 2903 CB PRO C 46 11.881 64.193 104.096 1.00 33.86 C +ATOM 2904 CG PRO C 46 12.949 64.242 105.126 1.00 38.83 C +ATOM 2905 CD PRO C 46 12.887 65.614 105.714 1.00 37.22 C +ATOM 2906 N GLY C 47 10.235 66.205 101.815 1.00 42.83 N +ATOM 2907 CA GLY C 47 8.912 66.538 101.333 1.00 36.79 C +ATOM 2908 C GLY C 47 8.527 67.997 101.481 1.00 42.94 C +ATOM 2909 O GLY C 47 7.455 68.379 101.016 1.00 47.79 O +ATOM 2910 N GLN C 48 9.377 68.816 102.107 1.00 38.27 N +ATOM 2911 CA GLN C 48 9.063 70.240 102.284 1.00 35.35 C +ATOM 2912 C GLN C 48 9.985 71.155 101.467 1.00 38.48 C +ATOM 2913 O GLN C 48 11.055 70.739 101.027 1.00 42.21 O +ATOM 2914 CB GLN C 48 9.132 70.617 103.763 1.00 38.58 C +ATOM 2915 CG GLN C 48 8.328 69.703 104.688 1.00 44.57 C +ATOM 2916 CD GLN C 48 8.246 70.226 106.123 1.00 50.35 C +ATOM 2917 OE1 GLN C 48 8.503 71.402 106.391 1.00 55.19 O +ATOM 2918 NE2 GLN C 48 7.883 69.347 107.050 1.00 52.93 N +ATOM 2919 N ALA C 49 9.557 72.396 101.255 1.00 37.26 N +ATOM 2920 CA ALA C 49 10.415 73.422 100.661 1.00 35.79 C +ATOM 2921 C ALA C 49 11.450 73.907 101.685 1.00 39.03 C +ATOM 2922 O ALA C 49 11.237 73.780 102.895 1.00 35.04 O +ATOM 2923 CB ALA C 49 9.585 74.589 100.168 1.00 33.50 C +ATOM 2924 N PRO C 50 12.572 74.474 101.202 1.00 38.76 N +ATOM 2925 CA PRO C 50 13.596 75.014 102.103 1.00 37.32 C +ATOM 2926 C PRO C 50 13.101 76.178 102.958 1.00 34.50 C +ATOM 2927 O PRO C 50 12.215 76.916 102.530 1.00 34.12 O +ATOM 2928 CB PRO C 50 14.693 75.490 101.139 1.00 36.37 C +ATOM 2929 CG PRO C 50 14.474 74.717 99.889 1.00 31.97 C +ATOM 2930 CD PRO C 50 12.997 74.528 99.790 1.00 34.27 C +ATOM 2931 N ARG C 51 13.674 76.315 104.155 1.00 37.53 N +ATOM 2932 CA ARG C 51 13.494 77.485 105.023 1.00 34.14 C +ATOM 2933 C ARG C 51 14.815 78.265 105.135 1.00 35.56 C +ATOM 2934 O ARG C 51 15.875 77.669 105.394 1.00 35.07 O +ATOM 2935 CB ARG C 51 13.031 77.058 106.425 1.00 36.86 C +ATOM 2936 CG ARG C 51 11.599 76.576 106.517 1.00 47.90 C +ATOM 2937 CD ARG C 51 11.309 75.944 107.873 1.00 59.99 C +ATOM 2938 NE ARG C 51 10.717 74.607 107.755 1.00 68.95 N +ATOM 2939 CZ ARG C 51 10.370 73.838 108.787 1.00 66.62 C +ATOM 2940 NH1 ARG C 51 10.539 74.263 110.033 1.00 63.90 N +ATOM 2941 NH2 ARG C 51 9.836 72.642 108.578 1.00 65.08 N +ATOM 2942 N LEU C 52 14.765 79.584 104.964 1.00 31.49 N +ATOM 2943 CA LEU C 52 15.957 80.410 105.160 1.00 25.93 C +ATOM 2944 C LEU C 52 16.372 80.463 106.628 1.00 30.45 C +ATOM 2945 O LEU C 52 15.551 80.673 107.524 1.00 28.11 O +ATOM 2946 CB LEU C 52 15.722 81.824 104.641 1.00 26.53 C +ATOM 2947 CG LEU C 52 16.880 82.817 104.743 1.00 26.97 C +ATOM 2948 CD1 LEU C 52 18.071 82.331 103.934 1.00 28.33 C +ATOM 2949 CD2 LEU C 52 16.442 84.183 104.266 1.00 26.99 C +ATOM 2950 N LEU C 53 17.664 80.276 106.859 1.00 35.22 N +ATOM 2951 CA LEU C 53 18.232 80.282 108.197 1.00 32.59 C +ATOM 2952 C LEU C 53 19.065 81.528 108.435 1.00 35.95 C +ATOM 2953 O LEU C 53 18.798 82.315 109.341 1.00 36.90 O +ATOM 2954 CB LEU C 53 19.112 79.056 108.401 1.00 34.32 C +ATOM 2955 CG LEU C 53 18.457 77.681 108.415 1.00 36.40 C +ATOM 2956 CD1 LEU C 53 19.536 76.656 108.665 1.00 38.93 C +ATOM 2957 CD2 LEU C 53 17.385 77.593 109.487 1.00 32.43 C +ATOM 2958 N ILE C 54 20.093 81.679 107.607 1.00 36.93 N +ATOM 2959 CA ILE C 54 21.082 82.735 107.748 1.00 31.77 C +ATOM 2960 C ILE C 54 21.223 83.459 106.427 1.00 34.59 C +ATOM 2961 O ILE C 54 21.225 82.832 105.366 1.00 35.35 O +ATOM 2962 CB ILE C 54 22.474 82.171 108.187 1.00 34.62 C +ATOM 2963 CG1 ILE C 54 22.733 82.398 109.684 1.00 35.17 C +ATOM 2964 CG2 ILE C 54 23.587 82.837 107.433 1.00 36.08 C +ATOM 2965 CD1 ILE C 54 21.981 81.502 110.588 1.00 30.96 C +ATOM 2966 N TYR C 55 21.309 84.782 106.484 1.00 37.25 N +ATOM 2967 CA TYR C 55 21.644 85.576 105.306 1.00 36.30 C +ATOM 2968 C TYR C 55 22.787 86.510 105.672 1.00 34.02 C +ATOM 2969 O TYR C 55 23.024 86.756 106.864 1.00 35.27 O +ATOM 2970 CB TYR C 55 20.420 86.355 104.803 1.00 35.17 C +ATOM 2971 CG TYR C 55 19.934 87.444 105.742 1.00 32.73 C +ATOM 2972 CD1 TYR C 55 19.092 87.149 106.817 1.00 29.88 C +ATOM 2973 CD2 TYR C 55 20.298 88.767 105.540 1.00 30.58 C +ATOM 2974 CE1 TYR C 55 18.638 88.154 107.672 1.00 28.87 C +ATOM 2975 CE2 TYR C 55 19.856 89.766 106.383 1.00 32.44 C +ATOM 2976 CZ TYR C 55 19.037 89.460 107.447 1.00 31.49 C +ATOM 2977 OH TYR C 55 18.622 90.477 108.274 1.00 34.52 O +ATOM 2978 N ASP C 56 23.482 87.025 104.658 1.00 31.19 N +ATOM 2979 CA ASP C 56 24.680 87.860 104.850 1.00 32.60 C +ATOM 2980 C ASP C 56 25.647 87.125 105.759 1.00 37.00 C +ATOM 2981 O ASP C 56 26.287 87.724 106.620 1.00 45.45 O +ATOM 2982 CB ASP C 56 24.330 89.241 105.433 1.00 32.62 C +ATOM 2983 CG ASP C 56 23.527 90.107 104.464 1.00 39.78 C +ATOM 2984 OD1 ASP C 56 23.213 89.611 103.370 1.00 46.87 O +ATOM 2985 OD2 ASP C 56 23.187 91.271 104.784 1.00 38.20 O +ATOM 2986 N ALA C 57 25.689 85.808 105.581 1.00 41.00 N +ATOM 2987 CA ALA C 57 26.596 84.900 106.285 1.00 32.46 C +ATOM 2988 C ALA C 57 26.382 84.798 107.793 1.00 33.55 C +ATOM 2989 O ALA C 57 26.583 83.728 108.351 1.00 36.12 O +ATOM 2990 CB ALA C 57 28.064 85.283 105.995 1.00 32.64 C +ATOM 2991 N SER C 65 25.996 85.870 108.477 1.00 36.21 N +ATOM 2992 CA SER C 65 25.969 85.782 109.942 1.00 37.81 C +ATOM 2993 C SER C 65 24.656 86.207 110.592 1.00 32.64 C +ATOM 2994 O SER C 65 24.505 86.026 111.780 1.00 37.65 O +ATOM 2995 CB SER C 65 27.101 86.613 110.547 1.00 31.98 C +ATOM 2996 OG SER C 65 26.894 87.991 110.309 1.00 43.87 O +ATOM 2997 N SER C 66 23.727 86.768 109.822 1.00 31.28 N +ATOM 2998 CA SER C 66 22.447 87.232 110.366 1.00 29.66 C +ATOM 2999 C SER C 66 21.391 86.148 110.325 1.00 31.34 C +ATOM 3000 O SER C 66 21.169 85.546 109.276 1.00 30.35 O +ATOM 3001 CB SER C 66 21.905 88.437 109.585 1.00 28.36 C +ATOM 3002 OG SER C 66 22.924 89.377 109.319 1.00 33.49 O +ATOM 3003 N ARG C 67 20.713 85.931 111.448 1.00 34.18 N +ATOM 3004 CA ARG C 67 19.571 85.027 111.493 1.00 32.69 C +ATOM 3005 C ARG C 67 18.338 85.589 110.770 1.00 33.20 C +ATOM 3006 O ARG C 67 18.000 86.761 110.913 1.00 30.47 O +ATOM 3007 CB ARG C 67 19.217 84.703 112.939 1.00 31.23 C +ATOM 3008 CG ARG C 67 20.078 83.609 113.530 1.00 35.80 C +ATOM 3009 CD ARG C 67 19.694 83.269 114.963 1.00 35.81 C +ATOM 3010 NE ARG C 67 20.053 84.315 115.913 1.00 39.83 N +ATOM 3011 CZ ARG C 67 21.296 84.550 116.317 1.00 42.58 C +ATOM 3012 NH1 ARG C 67 22.297 83.823 115.833 1.00 44.94 N +ATOM 3013 NH2 ARG C 67 21.542 85.520 117.192 1.00 40.09 N +ATOM 3014 N ALA C 68 17.690 84.740 109.974 1.00 31.45 N +ATOM 3015 CA ALA C 68 16.392 85.055 109.396 1.00 34.72 C +ATOM 3016 C ALA C 68 15.365 85.169 110.526 1.00 38.80 C +ATOM 3017 O ALA C 68 15.663 84.803 111.670 1.00 36.99 O +ATOM 3018 CB ALA C 68 15.975 83.995 108.379 1.00 29.16 C +ATOM 3019 N THR C 69 14.167 85.668 110.225 1.00 37.43 N +ATOM 3020 CA THR C 69 13.255 86.029 111.304 1.00 39.96 C +ATOM 3021 C THR C 69 12.633 84.779 111.930 1.00 39.10 C +ATOM 3022 O THR C 69 12.206 83.856 111.236 1.00 36.12 O +ATOM 3023 CB THR C 69 12.147 87.018 110.833 1.00 42.11 C +ATOM 3024 OG1 THR C 69 11.054 86.294 110.270 1.00 45.86 O +ATOM 3025 CG2 THR C 69 12.694 88.038 109.806 1.00 45.08 C +ATOM 3026 N GLY C 70 12.639 84.744 113.261 1.00 37.06 N +ATOM 3027 CA GLY C 70 12.105 83.620 114.002 1.00 35.56 C +ATOM 3028 C GLY C 70 13.049 82.436 114.120 1.00 33.72 C +ATOM 3029 O GLY C 70 12.768 81.499 114.862 1.00 32.56 O +ATOM 3030 N ILE C 71 14.165 82.465 113.396 1.00 34.12 N +ATOM 3031 CA ILE C 71 15.151 81.398 113.505 1.00 32.34 C +ATOM 3032 C ILE C 71 15.839 81.475 114.866 1.00 36.76 C +ATOM 3033 O ILE C 71 16.323 82.534 115.280 1.00 34.94 O +ATOM 3034 CB ILE C 71 16.175 81.464 112.367 1.00 36.59 C +ATOM 3035 CG1 ILE C 71 15.452 81.392 111.013 1.00 34.47 C +ATOM 3036 CG2 ILE C 71 17.185 80.337 112.485 1.00 34.11 C +ATOM 3037 CD1 ILE C 71 14.550 80.183 110.850 1.00 21.83 C +ATOM 3038 N PRO C 72 15.842 80.351 115.591 1.00 35.82 N +ATOM 3039 CA PRO C 72 16.352 80.337 116.962 1.00 32.70 C +ATOM 3040 C PRO C 72 17.866 80.544 116.997 1.00 37.60 C +ATOM 3041 O PRO C 72 18.543 80.300 116.000 1.00 33.70 O +ATOM 3042 CB PRO C 72 15.936 78.953 117.483 1.00 32.19 C +ATOM 3043 CG PRO C 72 15.694 78.133 116.307 1.00 34.94 C +ATOM 3044 CD PRO C 72 15.284 79.052 115.183 1.00 34.99 C +ATOM 3045 N ASP C 74 18.383 81.010 118.132 1.00 40.48 N +ATOM 3046 CA ASP C 74 19.755 81.510 118.192 1.00 41.64 C +ATOM 3047 C ASP C 74 20.825 80.413 118.327 1.00 38.77 C +ATOM 3048 O ASP C 74 22.024 80.712 118.433 1.00 40.96 O +ATOM 3049 CB ASP C 74 19.891 82.506 119.344 1.00 38.74 C +ATOM 3050 CG ASP C 74 19.763 81.841 120.703 1.00 50.24 C +ATOM 3051 OD1 ASP C 74 19.031 80.829 120.803 1.00 55.80 O +ATOM 3052 OD2 ASP C 74 20.401 82.326 121.669 1.00 52.40 O +ATOM 3053 N ARG C 75 20.416 79.151 118.318 1.00 37.27 N +ATOM 3054 CA ARG C 75 21.410 78.082 118.298 1.00 43.33 C +ATOM 3055 C ARG C 75 21.945 77.906 116.862 1.00 41.21 C +ATOM 3056 O ARG C 75 22.926 77.200 116.620 1.00 39.57 O +ATOM 3057 CB ARG C 75 20.825 76.779 118.846 1.00 40.28 C +ATOM 3058 CG ARG C 75 19.515 76.395 118.234 1.00 39.23 C +ATOM 3059 CD ARG C 75 19.128 74.979 118.623 1.00 41.57 C +ATOM 3060 NE ARG C 75 18.006 74.552 117.794 1.00 42.39 N +ATOM 3061 CZ ARG C 75 16.730 74.833 118.045 1.00 39.99 C +ATOM 3062 NH1 ARG C 75 16.390 75.518 119.135 1.00 30.72 N +ATOM 3063 NH2 ARG C 75 15.792 74.410 117.202 1.00 39.77 N +ATOM 3064 N PHE C 76 21.289 78.586 115.928 1.00 41.70 N +ATOM 3065 CA PHE C 76 21.735 78.696 114.550 1.00 38.47 C +ATOM 3066 C PHE C 76 22.595 79.929 114.349 1.00 38.32 C +ATOM 3067 O PHE C 76 22.120 81.054 114.459 1.00 42.74 O +ATOM 3068 CB PHE C 76 20.542 78.750 113.613 1.00 33.65 C +ATOM 3069 CG PHE C 76 19.842 77.457 113.486 1.00 33.50 C +ATOM 3070 CD1 PHE C 76 18.710 77.203 114.232 1.00 33.79 C +ATOM 3071 CD2 PHE C 76 20.322 76.479 112.629 1.00 34.47 C +ATOM 3072 CE1 PHE C 76 18.051 75.994 114.122 1.00 34.69 C +ATOM 3073 CE2 PHE C 76 19.674 75.271 112.509 1.00 36.14 C +ATOM 3074 CZ PHE C 76 18.532 75.024 113.260 1.00 35.13 C +ATOM 3075 N SER C 77 23.854 79.709 114.014 1.00 37.34 N +ATOM 3076 CA SER C 77 24.814 80.787 113.988 1.00 34.83 C +ATOM 3077 C SER C 77 25.740 80.685 112.782 1.00 35.64 C +ATOM 3078 O SER C 77 26.289 79.629 112.471 1.00 37.74 O +ATOM 3079 CB SER C 77 25.606 80.789 115.293 1.00 35.99 C +ATOM 3080 OG SER C 77 26.889 81.336 115.108 1.00 47.77 O +ATOM 3081 N GLY C 78 25.913 81.800 112.096 1.00 35.62 N +ATOM 3082 CA GLY C 78 26.716 81.801 110.896 1.00 37.97 C +ATOM 3083 C GLY C 78 27.986 82.601 111.069 1.00 40.19 C +ATOM 3084 O GLY C 78 28.026 83.570 111.830 1.00 46.36 O +ATOM 3085 N SER C 79 29.031 82.193 110.363 1.00 33.29 N +ATOM 3086 CA SER C 79 30.262 82.953 110.364 1.00 38.77 C +ATOM 3087 C SER C 79 31.035 82.666 109.093 1.00 39.19 C +ATOM 3088 O SER C 79 30.664 81.779 108.322 1.00 35.92 O +ATOM 3089 CB SER C 79 31.117 82.631 111.591 1.00 35.56 C +ATOM 3090 OG SER C 79 31.450 81.254 111.623 1.00 40.04 O +ATOM 3091 N GLY C 80 32.119 83.416 108.900 1.00 41.77 N +ATOM 3092 CA GLY C 80 32.936 83.320 107.708 1.00 32.14 C +ATOM 3093 C GLY C 80 32.905 84.609 106.902 1.00 36.45 C +ATOM 3094 O GLY C 80 32.252 85.590 107.281 1.00 38.00 O +ATOM 3095 N SER C 83 33.609 84.586 105.774 1.00 34.43 N +ATOM 3096 CA SER C 83 33.810 85.744 104.918 1.00 38.30 C +ATOM 3097 C SER C 83 34.606 85.305 103.697 1.00 40.37 C +ATOM 3098 O SER C 83 35.432 84.393 103.791 1.00 45.11 O +ATOM 3099 CB SER C 83 34.557 86.856 105.657 1.00 38.87 C +ATOM 3100 OG SER C 83 35.042 87.839 104.757 1.00 44.04 O +ATOM 3101 N GLY C 84 34.369 85.943 102.556 1.00 34.23 N +ATOM 3102 CA GLY C 84 35.199 85.699 101.394 1.00 36.81 C +ATOM 3103 C GLY C 84 34.876 84.411 100.677 1.00 36.71 C +ATOM 3104 O GLY C 84 33.893 84.357 99.941 1.00 37.14 O +ATOM 3105 N THR C 85 35.697 83.378 100.868 1.00 37.05 N +ATOM 3106 CA THR C 85 35.412 82.080 100.249 1.00 39.11 C +ATOM 3107 C THR C 85 35.147 80.949 101.248 1.00 38.76 C +ATOM 3108 O THR C 85 34.900 79.813 100.839 1.00 35.73 O +ATOM 3109 CB THR C 85 36.561 81.615 99.313 1.00 38.40 C +ATOM 3110 OG1 THR C 85 37.720 81.281 100.095 1.00 37.86 O +ATOM 3111 CG2 THR C 85 36.897 82.683 98.263 1.00 32.81 C +ATOM 3112 N ASP C 86 35.205 81.236 102.546 1.00 40.70 N +ATOM 3113 CA ASP C 86 35.052 80.165 103.532 1.00 40.48 C +ATOM 3114 C ASP C 86 33.955 80.468 104.549 1.00 39.00 C +ATOM 3115 O ASP C 86 34.045 81.437 105.293 1.00 41.35 O +ATOM 3116 CB ASP C 86 36.375 79.908 104.255 1.00 42.97 C +ATOM 3117 CG ASP C 86 36.474 78.488 104.806 1.00 55.91 C +ATOM 3118 OD1 ASP C 86 35.460 77.755 104.781 1.00 55.79 O +ATOM 3119 OD2 ASP C 86 37.575 78.097 105.255 1.00 62.64 O +ATOM 3120 N PHE C 87 32.926 79.628 104.588 1.00 35.16 N +ATOM 3121 CA PHE C 87 31.764 79.914 105.413 1.00 35.13 C +ATOM 3122 C PHE C 87 31.361 78.728 106.263 1.00 38.51 C +ATOM 3123 O PHE C 87 31.394 77.582 105.799 1.00 44.92 O +ATOM 3124 CB PHE C 87 30.599 80.358 104.535 1.00 33.20 C +ATOM 3125 CG PHE C 87 30.912 81.568 103.708 1.00 34.03 C +ATOM 3126 CD1 PHE C 87 31.429 81.433 102.423 1.00 31.05 C +ATOM 3127 CD2 PHE C 87 30.723 82.840 104.228 1.00 31.79 C +ATOM 3128 CE1 PHE C 87 31.746 82.547 101.665 1.00 33.65 C +ATOM 3129 CE2 PHE C 87 31.027 83.962 103.478 1.00 34.22 C +ATOM 3130 CZ PHE C 87 31.542 83.817 102.192 1.00 36.02 C +ATOM 3131 N THR C 88 30.976 79.023 107.506 1.00 35.90 N +ATOM 3132 CA THR C 88 30.570 78.004 108.470 1.00 37.70 C +ATOM 3133 C THR C 88 29.164 78.255 109.040 1.00 36.96 C +ATOM 3134 O THR C 88 28.781 79.400 109.314 1.00 37.00 O +ATOM 3135 CB THR C 88 31.602 77.922 109.633 1.00 38.49 C +ATOM 3136 OG1 THR C 88 32.879 77.545 109.099 1.00 42.19 O +ATOM 3137 CG2 THR C 88 31.176 76.905 110.695 1.00 31.22 C +ATOM 3138 N LEU C 89 28.394 77.178 109.192 1.00 34.04 N +ATOM 3139 CA LEU C 89 27.118 77.224 109.902 1.00 35.77 C +ATOM 3140 C LEU C 89 27.218 76.344 111.138 1.00 36.04 C +ATOM 3141 O LEU C 89 27.548 75.166 111.054 1.00 36.88 O +ATOM 3142 CB LEU C 89 25.955 76.763 109.012 1.00 28.40 C +ATOM 3143 CG LEU C 89 24.643 76.506 109.766 1.00 32.80 C +ATOM 3144 CD1 LEU C 89 23.936 77.811 110.127 1.00 30.92 C +ATOM 3145 CD2 LEU C 89 23.727 75.589 108.958 1.00 33.77 C +ATOM 3146 N THR C 90 26.947 76.915 112.296 1.00 36.46 N +ATOM 3147 CA THR C 90 27.051 76.137 113.515 1.00 39.19 C +ATOM 3148 C THR C 90 25.681 75.983 114.151 1.00 40.97 C +ATOM 3149 O THR C 90 24.937 76.963 114.302 1.00 37.53 O +ATOM 3150 CB THR C 90 28.037 76.779 114.513 1.00 39.10 C +ATOM 3151 OG1 THR C 90 29.276 77.061 113.847 1.00 38.87 O +ATOM 3152 CG2 THR C 90 28.301 75.847 115.685 1.00 44.26 C +ATOM 3153 N ILE C 91 25.333 74.739 114.469 1.00 36.64 N +ATOM 3154 CA ILE C 91 24.191 74.470 115.320 1.00 35.75 C +ATOM 3155 C ILE C 91 24.703 73.902 116.624 1.00 40.34 C +ATOM 3156 O ILE C 91 25.139 72.749 116.698 1.00 40.99 O +ATOM 3157 CB ILE C 91 23.210 73.493 114.692 1.00 37.47 C +ATOM 3158 CG1 ILE C 91 23.122 73.720 113.184 1.00 41.14 C +ATOM 3159 CG2 ILE C 91 21.854 73.624 115.363 1.00 39.04 C +ATOM 3160 CD1 ILE C 91 22.213 72.743 112.481 1.00 36.24 C +ATOM 3161 N SER C 92 24.688 74.732 117.650 1.00 43.75 N +ATOM 3162 CA SER C 92 25.121 74.303 118.965 1.00 45.12 C +ATOM 3163 C SER C 92 23.930 73.730 119.707 1.00 48.84 C +ATOM 3164 O SER C 92 22.809 74.217 119.535 1.00 54.16 O +ATOM 3165 CB SER C 92 25.722 75.470 119.720 1.00 38.99 C +ATOM 3166 OG SER C 92 24.850 76.576 119.627 1.00 37.00 O +ATOM 3167 N ARG C 93 24.174 72.700 120.516 1.00 51.05 N +ATOM 3168 CA ARG C 93 23.117 72.033 121.278 1.00 50.22 C +ATOM 3169 C ARG C 93 21.902 71.713 120.382 1.00 52.79 C +ATOM 3170 O ARG C 93 20.829 72.317 120.510 1.00 53.26 O +ATOM 3171 CB ARG C 93 22.717 72.894 122.489 1.00 54.99 C +ATOM 3172 CG ARG C 93 23.862 73.113 123.510 1.00 65.89 C +ATOM 3173 CD ARG C 93 24.210 71.793 124.244 1.00 76.13 C +ATOM 3174 NE ARG C 93 25.382 71.856 125.129 1.00 79.77 N +ATOM 3175 CZ ARG C 93 25.355 72.127 126.434 1.00 88.63 C +ATOM 3176 NH1 ARG C 93 24.203 72.361 127.043 1.00 92.63 N +ATOM 3177 NH2 ARG C 93 26.485 72.144 127.139 1.00 85.56 N +ATOM 3178 N LEU C 94 22.093 70.759 119.471 1.00 47.79 N +ATOM 3179 CA LEU C 94 21.045 70.333 118.546 1.00 45.83 C +ATOM 3180 C LEU C 94 19.769 69.832 119.239 1.00 49.50 C +ATOM 3181 O LEU C 94 19.823 69.110 120.242 1.00 50.51 O +ATOM 3182 CB LEU C 94 21.578 69.233 117.620 1.00 44.57 C +ATOM 3183 CG LEU C 94 22.611 69.592 116.547 1.00 41.97 C +ATOM 3184 CD1 LEU C 94 23.513 68.410 116.309 1.00 39.52 C +ATOM 3185 CD2 LEU C 94 21.935 69.990 115.255 1.00 38.00 C +ATOM 3186 N GLU C 95 18.626 70.236 118.691 1.00 48.23 N +ATOM 3187 CA GLU C 95 17.329 69.690 119.069 1.00 46.05 C +ATOM 3188 C GLU C 95 16.900 68.691 117.989 1.00 45.85 C +ATOM 3189 O GLU C 95 17.356 68.787 116.848 1.00 47.05 O +ATOM 3190 CB GLU C 95 16.290 70.809 119.233 1.00 44.69 C +ATOM 3191 CG GLU C 95 16.539 71.763 120.393 1.00 47.80 C +ATOM 3192 CD GLU C 95 16.119 71.174 121.729 1.00 56.04 C +ATOM 3193 OE1 GLU C 95 14.972 70.684 121.812 1.00 64.82 O +ATOM 3194 OE2 GLU C 95 16.925 71.198 122.689 1.00 52.65 O +ATOM 3195 N PRO C 96 16.027 67.726 118.337 1.00 44.29 N +ATOM 3196 CA PRO C 96 15.541 66.740 117.365 1.00 41.21 C +ATOM 3197 C PRO C 96 14.986 67.364 116.088 1.00 39.97 C +ATOM 3198 O PRO C 96 15.178 66.817 115.010 1.00 43.29 O +ATOM 3199 CB PRO C 96 14.438 66.020 118.139 1.00 42.01 C +ATOM 3200 CG PRO C 96 14.890 66.079 119.529 1.00 38.70 C +ATOM 3201 CD PRO C 96 15.548 67.418 119.693 1.00 41.45 C +ATOM 3202 N GLU C 97 14.341 68.518 116.206 1.00 45.35 N +ATOM 3203 CA GLU C 97 13.762 69.219 115.060 1.00 41.67 C +ATOM 3204 C GLU C 97 14.825 69.776 114.103 1.00 38.74 C +ATOM 3205 O GLU C 97 14.491 70.229 113.019 1.00 38.32 O +ATOM 3206 CB GLU C 97 12.836 70.349 115.560 1.00 36.43 C +ATOM 3207 CG GLU C 97 13.371 71.135 116.748 1.00 47.84 C +ATOM 3208 CD GLU C 97 12.976 70.545 118.099 1.00 65.78 C +ATOM 3209 OE1 GLU C 97 13.108 69.318 118.305 1.00 80.00 O +ATOM 3210 OE2 GLU C 97 12.600 71.327 118.992 1.00 73.85 O +ATOM 3211 N ASP C 98 16.094 69.750 114.506 1.00 42.20 N +ATOM 3212 CA ASP C 98 17.154 70.349 113.694 1.00 41.93 C +ATOM 3213 C ASP C 98 17.788 69.369 112.721 1.00 43.33 C +ATOM 3214 O ASP C 98 18.713 69.726 111.988 1.00 39.58 O +ATOM 3215 CB ASP C 98 18.249 70.934 114.580 1.00 38.95 C +ATOM 3216 CG ASP C 98 17.759 72.075 115.416 1.00 48.32 C +ATOM 3217 OD1 ASP C 98 16.758 72.716 115.010 1.00 49.98 O +ATOM 3218 OD2 ASP C 98 18.369 72.322 116.481 1.00 48.90 O +ATOM 3219 N PHE C 99 17.327 68.127 112.729 1.00 41.85 N +ATOM 3220 CA PHE C 99 17.929 67.138 111.848 1.00 41.78 C +ATOM 3221 C PHE C 99 17.240 67.168 110.484 1.00 40.73 C +ATOM 3222 O PHE C 99 16.040 66.936 110.364 1.00 43.80 O +ATOM 3223 CB PHE C 99 17.902 65.751 112.504 1.00 38.74 C +ATOM 3224 CG PHE C 99 18.828 65.646 113.695 1.00 40.53 C +ATOM 3225 CD1 PHE C 99 20.117 65.146 113.548 1.00 38.90 C +ATOM 3226 CD2 PHE C 99 18.430 66.080 114.950 1.00 40.46 C +ATOM 3227 CE1 PHE C 99 20.986 65.058 114.635 1.00 35.03 C +ATOM 3228 CE2 PHE C 99 19.298 65.997 116.037 1.00 41.45 C +ATOM 3229 CZ PHE C 99 20.579 65.488 115.870 1.00 38.88 C +ATOM 3230 N ALA C 100 18.030 67.491 109.464 1.00 43.18 N +ATOM 3231 CA ALA C 100 17.537 67.788 108.129 1.00 33.88 C +ATOM 3232 C ALA C 100 18.722 67.893 107.176 1.00 37.54 C +ATOM 3233 O ALA C 100 19.862 67.648 107.563 1.00 37.47 O +ATOM 3234 CB ALA C 100 16.734 69.087 108.130 1.00 31.22 C +ATOM 3235 N VAL C 101 18.439 68.249 105.927 1.00 35.57 N +ATOM 3236 CA VAL C 101 19.470 68.597 104.966 1.00 35.75 C +ATOM 3237 C VAL C 101 19.696 70.112 105.020 1.00 33.34 C +ATOM 3238 O VAL C 101 18.746 70.893 105.060 1.00 30.50 O +ATOM 3239 CB VAL C 101 19.076 68.149 103.523 1.00 40.03 C +ATOM 3240 CG1 VAL C 101 20.120 68.602 102.488 1.00 30.87 C +ATOM 3241 CG2 VAL C 101 18.878 66.635 103.476 1.00 35.17 C +ATOM 3242 N TYR C 102 20.957 70.522 105.050 1.00 31.44 N +ATOM 3243 CA TYR C 102 21.287 71.938 105.001 1.00 30.11 C +ATOM 3244 C TYR C 102 21.966 72.314 103.693 1.00 34.77 C +ATOM 3245 O TYR C 102 22.778 71.553 103.153 1.00 35.14 O +ATOM 3246 CB TYR C 102 22.164 72.312 106.185 1.00 32.36 C +ATOM 3247 CG TYR C 102 21.394 72.223 107.466 1.00 36.38 C +ATOM 3248 CD1 TYR C 102 21.279 71.010 108.146 1.00 34.12 C +ATOM 3249 CD2 TYR C 102 20.741 73.337 107.983 1.00 33.96 C +ATOM 3250 CE1 TYR C 102 20.539 70.912 109.309 1.00 32.59 C +ATOM 3251 CE2 TYR C 102 20.004 73.251 109.155 1.00 33.57 C +ATOM 3252 CZ TYR C 102 19.905 72.038 109.812 1.00 33.66 C +ATOM 3253 OH TYR C 102 19.166 71.946 110.963 1.00 36.09 O +ATOM 3254 N TYR C 103 21.604 73.485 103.180 1.00 32.57 N +ATOM 3255 CA TYR C 103 22.179 74.008 101.943 1.00 31.10 C +ATOM 3256 C TYR C 103 22.744 75.397 102.185 1.00 31.83 C +ATOM 3257 O TYR C 103 22.182 76.189 102.945 1.00 35.21 O +ATOM 3258 CB TYR C 103 21.133 74.080 100.816 1.00 28.16 C +ATOM 3259 CG TYR C 103 20.698 72.754 100.241 1.00 29.42 C +ATOM 3260 CD1 TYR C 103 21.477 72.097 99.301 1.00 33.24 C +ATOM 3261 CD2 TYR C 103 19.499 72.162 100.623 1.00 30.31 C +ATOM 3262 CE1 TYR C 103 21.085 70.862 98.765 1.00 30.64 C +ATOM 3263 CE2 TYR C 103 19.097 70.947 100.090 1.00 31.86 C +ATOM 3264 CZ TYR C 103 19.895 70.298 99.162 1.00 31.81 C +ATOM 3265 OH TYR C 103 19.504 69.083 98.634 1.00 34.34 O +ATOM 3266 N CYS C 104 23.859 75.688 101.537 1.00 29.00 N +ATOM 3267 CA CYS C 104 24.348 77.052 101.460 1.00 34.93 C +ATOM 3268 C CYS C 104 24.084 77.576 100.042 1.00 35.57 C +ATOM 3269 O CYS C 104 23.886 76.795 99.100 1.00 35.40 O +ATOM 3270 CB CYS C 104 25.842 77.131 101.840 1.00 34.53 C +ATOM 3271 SG CYS C 104 27.030 76.320 100.720 1.00 44.74 S +ATOM 3272 N GLN C 105 24.031 78.894 99.898 1.00 34.07 N +ATOM 3273 CA GLN C 105 23.805 79.502 98.592 1.00 32.64 C +ATOM 3274 C GLN C 105 24.423 80.880 98.543 1.00 33.68 C +ATOM 3275 O GLN C 105 24.390 81.637 99.516 1.00 31.37 O +ATOM 3276 CB GLN C 105 22.309 79.599 98.262 1.00 33.29 C +ATOM 3277 CG GLN C 105 22.000 80.394 96.992 1.00 36.20 C +ATOM 3278 CD GLN C 105 21.071 81.563 97.259 1.00 36.56 C +ATOM 3279 OE1 GLN C 105 20.461 81.647 98.323 1.00 38.20 O +ATOM 3280 NE2 GLN C 105 20.958 82.471 96.296 1.00 37.18 N +ATOM 3281 N GLN C 106 24.986 81.186 97.386 1.00 32.36 N +ATOM 3282 CA GLN C 106 25.598 82.460 97.122 1.00 33.47 C +ATOM 3283 C GLN C 106 24.644 83.317 96.292 1.00 35.32 C +ATOM 3284 O GLN C 106 24.168 82.870 95.240 1.00 38.83 O +ATOM 3285 CB GLN C 106 26.921 82.238 96.391 1.00 31.08 C +ATOM 3286 CG GLN C 106 27.439 83.459 95.700 1.00 39.74 C +ATOM 3287 CD GLN C 106 27.175 83.464 94.214 1.00 45.64 C +ATOM 3288 OE1 GLN C 106 26.554 82.565 93.661 1.00 40.97 O +ATOM 3289 NE2 GLN C 106 27.640 84.500 93.563 1.00 60.66 N +ATOM 3290 N TYR C 107 24.354 84.533 96.750 1.00 34.64 N +ATOM 3291 CA TYR C 107 23.528 85.452 95.946 1.00 33.26 C +ATOM 3292 C TYR C 107 24.255 86.768 95.647 1.00 36.65 C +ATOM 3293 O TYR C 107 23.635 87.781 95.345 1.00 33.03 O +ATOM 3294 CB TYR C 107 22.198 85.740 96.636 1.00 30.81 C +ATOM 3295 CG TYR C 107 22.289 86.185 98.086 1.00 29.83 C +ATOM 3296 CD1 TYR C 107 22.613 85.285 99.094 1.00 28.37 C +ATOM 3297 CD2 TYR C 107 21.988 87.500 98.450 1.00 29.35 C +ATOM 3298 CE1 TYR C 107 22.678 85.689 100.417 1.00 30.08 C +ATOM 3299 CE2 TYR C 107 22.035 87.907 99.773 1.00 30.08 C +ATOM 3300 CZ TYR C 107 22.395 87.000 100.749 1.00 31.68 C +ATOM 3301 OH TYR C 107 22.452 87.395 102.065 1.00 34.87 O +ATOM 3302 N GLY C 108 25.580 86.731 95.739 1.00 37.93 N +ATOM 3303 CA GLY C 108 26.388 87.905 95.502 1.00 34.86 C +ATOM 3304 C GLY C 108 26.697 88.141 94.039 1.00 36.81 C +ATOM 3305 O GLY C 108 27.069 89.246 93.659 1.00 46.53 O +ATOM 3306 N SER C 109 26.533 87.119 93.212 1.00 32.03 N +ATOM 3307 CA SER C 109 27.029 87.159 91.836 1.00 35.25 C +ATOM 3308 C SER C 109 26.236 86.189 90.940 1.00 33.94 C +ATOM 3309 O SER C 109 26.111 84.999 91.246 1.00 36.95 O +ATOM 3310 CB SER C 109 28.540 86.830 91.814 1.00 28.91 C +ATOM 3311 OG SER C 109 29.176 87.350 90.664 1.00 47.49 O +ATOM 3312 N LEU C 114 25.689 86.698 89.841 1.00 30.19 N +ATOM 3313 CA LEU C 114 24.913 85.855 88.925 1.00 34.84 C +ATOM 3314 C LEU C 114 25.821 84.914 88.157 1.00 31.45 C +ATOM 3315 O LEU C 114 26.933 85.282 87.805 1.00 30.77 O +ATOM 3316 CB LEU C 114 24.100 86.699 87.927 1.00 35.93 C +ATOM 3317 CG LEU C 114 22.763 87.283 88.394 1.00 34.11 C +ATOM 3318 CD1 LEU C 114 22.226 88.246 87.352 1.00 33.81 C +ATOM 3319 CD2 LEU C 114 21.750 86.182 88.695 1.00 32.60 C +ATOM 3320 N PRO C 115 25.359 83.686 87.911 1.00 32.60 N +ATOM 3321 CA PRO C 115 24.108 83.068 88.383 1.00 35.77 C +ATOM 3322 C PRO C 115 24.148 82.678 89.864 1.00 33.73 C +ATOM 3323 O PRO C 115 25.201 82.221 90.327 1.00 33.85 O +ATOM 3324 CB PRO C 115 24.001 81.807 87.518 1.00 31.83 C +ATOM 3325 CG PRO C 115 25.450 81.443 87.254 1.00 27.31 C +ATOM 3326 CD PRO C 115 26.117 82.788 87.022 1.00 26.88 C +ATOM 3327 N TRP C 116 23.030 82.835 90.579 1.00 32.61 N +ATOM 3328 CA TRP C 116 22.937 82.348 91.961 1.00 32.20 C +ATOM 3329 C TRP C 116 23.227 80.840 92.006 1.00 35.42 C +ATOM 3330 O TRP C 116 22.724 80.070 91.184 1.00 34.81 O +ATOM 3331 CB TRP C 116 21.555 82.591 92.573 1.00 31.34 C +ATOM 3332 CG TRP C 116 20.939 83.965 92.514 1.00 33.63 C +ATOM 3333 CD1 TRP C 116 19.599 84.237 92.534 1.00 30.89 C +ATOM 3334 CD2 TRP C 116 21.604 85.247 92.470 1.00 35.58 C +ATOM 3335 NE1 TRP C 116 19.387 85.593 92.495 1.00 32.03 N +ATOM 3336 CE2 TRP C 116 20.596 86.235 92.457 1.00 28.10 C +ATOM 3337 CE3 TRP C 116 22.944 85.653 92.431 1.00 31.73 C +ATOM 3338 CZ2 TRP C 116 20.883 87.591 92.412 1.00 27.53 C +ATOM 3339 CZ3 TRP C 116 23.227 87.001 92.385 1.00 30.03 C +ATOM 3340 CH2 TRP C 116 22.202 87.956 92.375 1.00 29.95 C +ATOM 3341 N THR C 117 24.028 80.393 92.961 1.00 34.30 N +ATOM 3342 CA THR C 117 24.322 78.970 92.983 1.00 35.58 C +ATOM 3343 C THR C 117 24.188 78.381 94.376 1.00 34.21 C +ATOM 3344 O THR C 117 24.358 79.083 95.375 1.00 37.19 O +ATOM 3345 CB THR C 117 25.724 78.685 92.410 1.00 34.69 C +ATOM 3346 OG1 THR C 117 26.653 79.620 92.954 1.00 37.58 O +ATOM 3347 CG2 THR C 117 25.721 78.848 90.913 1.00 29.94 C +ATOM 3348 N PHE C 118 23.848 77.091 94.410 1.00 33.39 N +ATOM 3349 CA PHE C 118 23.698 76.308 95.637 1.00 31.80 C +ATOM 3350 C PHE C 118 24.792 75.263 95.745 1.00 32.83 C +ATOM 3351 O PHE C 118 25.206 74.684 94.739 1.00 35.12 O +ATOM 3352 CB PHE C 118 22.351 75.583 95.668 1.00 28.76 C +ATOM 3353 CG PHE C 118 21.173 76.481 95.838 1.00 31.30 C +ATOM 3354 CD1 PHE C 118 20.536 77.016 94.736 1.00 30.81 C +ATOM 3355 CD2 PHE C 118 20.682 76.772 97.107 1.00 32.40 C +ATOM 3356 CE1 PHE C 118 19.434 77.837 94.890 1.00 31.68 C +ATOM 3357 CE2 PHE C 118 19.584 77.591 97.267 1.00 33.98 C +ATOM 3358 CZ PHE C 118 18.957 78.124 96.156 1.00 32.88 C +ATOM 3359 N GLY C 119 25.234 74.993 96.963 1.00 28.10 N +ATOM 3360 CA GLY C 119 26.041 73.812 97.217 1.00 32.48 C +ATOM 3361 C GLY C 119 25.200 72.539 97.199 1.00 31.68 C +ATOM 3362 O GLY C 119 23.972 72.600 97.103 1.00 32.43 O +ATOM 3363 N GLN C 120 25.859 71.387 97.308 1.00 31.36 N +ATOM 3364 CA GLN C 120 25.201 70.090 97.097 1.00 36.73 C +ATOM 3365 C GLN C 120 24.483 69.564 98.347 1.00 35.08 C +ATOM 3366 O GLN C 120 23.844 68.514 98.320 1.00 40.41 O +ATOM 3367 CB GLN C 120 26.220 69.045 96.613 1.00 38.01 C +ATOM 3368 CG GLN C 120 27.075 68.394 97.730 1.00 40.38 C +ATOM 3369 CD GLN C 120 28.158 69.319 98.310 1.00 48.05 C +ATOM 3370 OE1 GLN C 120 28.322 70.469 97.883 1.00 49.09 O +ATOM 3371 NE2 GLN C 120 28.901 68.809 99.293 1.00 50.16 N +ATOM 3372 N GLY C 121 24.580 70.295 99.443 1.00 36.73 N +ATOM 3373 CA GLY C 121 23.877 69.903 100.648 1.00 36.41 C +ATOM 3374 C GLY C 121 24.693 69.072 101.614 1.00 36.29 C +ATOM 3375 O GLY C 121 25.660 68.414 101.229 1.00 39.09 O +ATOM 3376 N THR C 122 24.291 69.131 102.878 1.00 36.31 N +ATOM 3377 CA THR C 122 24.836 68.310 103.952 1.00 35.78 C +ATOM 3378 C THR C 122 23.654 67.733 104.717 1.00 36.03 C +ATOM 3379 O THR C 122 22.735 68.476 105.067 1.00 37.24 O +ATOM 3380 CB THR C 122 25.728 69.135 104.911 1.00 42.40 C +ATOM 3381 OG1 THR C 122 26.892 69.602 104.214 1.00 40.94 O +ATOM 3382 CG2 THR C 122 26.157 68.304 106.112 1.00 38.86 C +ATOM 3383 N LYS C 123 23.649 66.425 104.961 1.00 33.23 N +ATOM 3384 CA LYS C 123 22.621 65.835 105.816 1.00 37.34 C +ATOM 3385 C LYS C 123 23.113 65.679 107.270 1.00 38.03 C +ATOM 3386 O LYS C 123 24.168 65.105 107.511 1.00 38.34 O +ATOM 3387 CB LYS C 123 22.167 64.483 105.254 1.00 41.73 C +ATOM 3388 CG LYS C 123 21.078 63.784 106.079 1.00 44.49 C +ATOM 3389 CD LYS C 123 20.460 62.596 105.339 1.00 48.00 C +ATOM 3390 CE LYS C 123 21.414 61.397 105.246 1.00 60.58 C +ATOM 3391 NZ LYS C 123 21.252 60.399 106.359 1.00 59.64 N +ATOM 3392 N VAL C 124 22.350 66.212 108.222 1.00 35.17 N +ATOM 3393 CA VAL C 124 22.583 65.987 109.651 1.00 37.28 C +ATOM 3394 C VAL C 124 21.617 64.935 110.213 1.00 39.99 C +ATOM 3395 O VAL C 124 20.442 65.224 110.454 1.00 41.03 O +ATOM 3396 CB VAL C 124 22.418 67.286 110.468 1.00 38.00 C +ATOM 3397 CG1 VAL C 124 22.675 67.032 111.948 1.00 37.05 C +ATOM 3398 CG2 VAL C 124 23.345 68.368 109.941 1.00 38.78 C +ATOM 3399 N GLU C 125 22.123 63.728 110.440 1.00 36.35 N +ATOM 3400 CA GLU C 125 21.306 62.589 110.870 1.00 36.74 C +ATOM 3401 C GLU C 125 21.456 62.241 112.369 1.00 37.02 C +ATOM 3402 O GLU C 125 22.566 62.275 112.910 1.00 35.56 O +ATOM 3403 CB GLU C 125 21.669 61.367 110.015 1.00 38.91 C +ATOM 3404 CG GLU C 125 21.714 60.057 110.790 1.00 41.01 C +ATOM 3405 CD GLU C 125 22.583 59.008 110.139 1.00 54.62 C +ATOM 3406 OE1 GLU C 125 23.694 58.766 110.658 1.00 52.92 O +ATOM 3407 OE2 GLU C 125 22.151 58.409 109.126 1.00 67.35 O +ATOM 3408 N ILE C 126 20.355 61.885 113.033 1.00 35.38 N +ATOM 3409 CA ILE C 126 20.427 61.467 114.436 1.00 37.26 C +ATOM 3410 C ILE C 126 21.176 60.148 114.631 1.00 39.42 C +ATOM 3411 O ILE C 126 20.766 59.105 114.118 1.00 37.30 O +ATOM 3412 CB ILE C 126 19.036 61.297 115.069 1.00 36.89 C +ATOM 3413 CG1 ILE C 126 18.301 62.629 115.130 1.00 37.41 C +ATOM 3414 CG2 ILE C 126 19.169 60.733 116.477 1.00 38.85 C +ATOM 3415 CD1 ILE C 126 16.867 62.512 115.551 1.00 35.94 C +ATOM 3416 N LYS C 127 22.258 60.199 115.405 1.00 41.75 N +ATOM 3417 CA LYS C 127 23.057 59.020 115.697 1.00 40.23 C +ATOM 3418 C LYS C 127 22.525 58.277 116.916 1.00 40.91 C +ATOM 3419 O LYS C 127 22.642 58.760 118.036 1.00 48.44 O +ATOM 3420 CB LYS C 127 24.517 59.413 115.923 1.00 41.96 C +ATOM 3421 CG LYS C 127 25.379 58.262 116.381 1.00 42.09 C +ATOM 3422 CD LYS C 127 26.839 58.622 116.415 1.00 40.55 C +ATOM 3423 CE LYS C 127 27.669 57.338 116.425 1.00 48.01 C +ATOM 3424 NZ LYS C 127 28.995 57.492 115.750 1.00 49.79 N +ATOM 3425 N ARG C 128 21.942 57.102 116.707 1.00 39.21 N +ATOM 3426 CA ARG C 128 21.438 56.312 117.831 1.00 38.38 C +ATOM 3427 C ARG C 128 22.191 54.996 117.994 1.00 36.51 C +ATOM 3428 O ARG C 128 23.151 54.712 117.280 1.00 36.16 O +ATOM 3429 CB ARG C 128 19.945 56.038 117.668 1.00 35.06 C +ATOM 3430 CG ARG C 128 19.548 55.694 116.255 1.00 39.32 C +ATOM 3431 CD ARG C 128 18.313 54.850 116.239 1.00 36.92 C +ATOM 3432 NE ARG C 128 18.553 53.564 116.877 1.00 36.32 N +ATOM 3433 CZ ARG C 128 17.651 52.919 117.607 1.00 33.90 C +ATOM 3434 NH1 ARG C 128 16.452 53.448 117.815 1.00 33.63 N +ATOM 3435 NH2 ARG C 128 17.952 51.754 118.143 1.00 33.39 N +ATOM 3436 N THR C 129 21.766 54.190 118.953 1.00 39.80 N +ATOM 3437 CA THR C 129 22.434 52.915 119.143 1.00 40.51 C +ATOM 3438 C THR C 129 22.194 52.031 117.927 1.00 39.27 C +ATOM 3439 O THR C 129 21.163 52.130 117.249 1.00 36.34 O +ATOM 3440 CB THR C 129 21.972 52.199 120.421 1.00 35.41 C +ATOM 3441 OG1 THR C 129 20.626 51.735 120.262 1.00 38.30 O +ATOM 3442 CG2 THR C 129 22.052 53.135 121.590 1.00 40.26 C +ATOM 3443 N VAL C 130 23.181 51.194 117.645 1.00 35.42 N +ATOM 3444 CA VAL C 130 23.116 50.277 116.524 1.00 37.68 C +ATOM 3445 C VAL C 130 21.886 49.391 116.676 1.00 36.23 C +ATOM 3446 O VAL C 130 21.556 48.971 117.775 1.00 38.41 O +ATOM 3447 CB VAL C 130 24.413 49.429 116.421 1.00 36.00 C +ATOM 3448 CG1 VAL C 130 24.274 48.337 115.363 1.00 34.10 C +ATOM 3449 CG2 VAL C 130 25.599 50.345 116.095 1.00 33.66 C +ATOM 3450 N ALA C 131 21.173 49.166 115.582 1.00 34.95 N +ATOM 3451 CA ALA C 131 19.995 48.303 115.612 1.00 33.68 C +ATOM 3452 C ALA C 131 19.964 47.399 114.391 1.00 34.81 C +ATOM 3453 O ALA C 131 20.141 47.857 113.257 1.00 41.41 O +ATOM 3454 CB ALA C 131 18.728 49.123 115.693 1.00 30.48 C +ATOM 3455 N ALA C 132 19.755 46.109 114.642 1.00 36.73 N +ATOM 3456 CA ALA C 132 19.697 45.090 113.601 1.00 37.40 C +ATOM 3457 C ALA C 132 18.343 45.136 112.913 1.00 39.99 C +ATOM 3458 O ALA C 132 17.330 45.422 113.560 1.00 37.81 O +ATOM 3459 CB ALA C 132 19.948 43.708 114.188 1.00 33.93 C +ATOM 3460 N PRO C 133 18.325 44.871 111.595 1.00 37.00 N +ATOM 3461 CA PRO C 133 17.043 44.808 110.879 1.00 37.10 C +ATOM 3462 C PRO C 133 16.312 43.468 111.085 1.00 35.70 C +ATOM 3463 O PRO C 133 16.947 42.413 111.119 1.00 30.67 O +ATOM 3464 CB PRO C 133 17.448 44.996 109.407 1.00 31.62 C +ATOM 3465 CG PRO C 133 18.846 44.423 109.328 1.00 34.83 C +ATOM 3466 CD PRO C 133 19.485 44.653 110.705 1.00 36.22 C +ATOM 3467 N SER C 134 14.991 43.530 111.241 1.00 35.82 N +ATOM 3468 CA SER C 134 14.134 42.365 111.049 1.00 33.01 C +ATOM 3469 C SER C 134 14.021 42.118 109.550 1.00 36.68 C +ATOM 3470 O SER C 134 13.839 43.056 108.768 1.00 37.25 O +ATOM 3471 CB SER C 134 12.741 42.579 111.639 1.00 33.51 C +ATOM 3472 OG SER C 134 12.796 43.369 112.802 1.00 41.44 O +ATOM 3473 N VAL C 135 14.119 40.865 109.140 1.00 34.91 N +ATOM 3474 CA VAL C 135 14.129 40.578 107.719 1.00 33.88 C +ATOM 3475 C VAL C 135 12.967 39.693 107.326 1.00 34.62 C +ATOM 3476 O VAL C 135 12.717 38.669 107.950 1.00 39.85 O +ATOM 3477 CB VAL C 135 15.452 39.921 107.289 1.00 35.97 C +ATOM 3478 CG1 VAL C 135 15.447 39.636 105.782 1.00 36.54 C +ATOM 3479 CG2 VAL C 135 16.628 40.828 107.661 1.00 32.97 C +ATOM 3480 N PHE C 136 12.255 40.107 106.287 1.00 35.15 N +ATOM 3481 CA PHE C 136 11.119 39.356 105.765 1.00 38.71 C +ATOM 3482 C PHE C 136 11.292 39.171 104.264 1.00 41.21 C +ATOM 3483 O PHE C 136 11.870 40.029 103.597 1.00 42.47 O +ATOM 3484 CB PHE C 136 9.793 40.082 106.039 1.00 35.88 C +ATOM 3485 CG PHE C 136 9.562 40.396 107.482 1.00 38.44 C +ATOM 3486 CD1 PHE C 136 10.076 41.564 108.043 1.00 37.41 C +ATOM 3487 CD2 PHE C 136 8.829 39.536 108.280 1.00 31.63 C +ATOM 3488 CE1 PHE C 136 9.871 41.850 109.383 1.00 36.56 C +ATOM 3489 CE2 PHE C 136 8.613 39.825 109.619 1.00 34.18 C +ATOM 3490 CZ PHE C 136 9.135 40.978 110.172 1.00 31.49 C +ATOM 3491 N ILE C 137 10.777 38.071 103.726 1.00 38.17 N +ATOM 3492 CA ILE C 137 10.774 37.873 102.286 1.00 37.44 C +ATOM 3493 C ILE C 137 9.354 37.584 101.807 1.00 38.51 C +ATOM 3494 O ILE C 137 8.605 36.858 102.460 1.00 40.50 O +ATOM 3495 CB ILE C 137 11.734 36.737 101.867 1.00 42.89 C +ATOM 3496 CG1 ILE C 137 11.773 36.593 100.338 1.00 41.01 C +ATOM 3497 CG2 ILE C 137 11.366 35.421 102.571 1.00 38.43 C +ATOM 3498 CD1 ILE C 137 12.918 35.737 99.821 1.00 39.89 C +ATOM 3499 N PHE C 138 8.975 38.185 100.682 1.00 40.69 N +ATOM 3500 CA PHE C 138 7.642 37.989 100.114 1.00 42.10 C +ATOM 3501 C PHE C 138 7.691 37.401 98.708 1.00 42.18 C +ATOM 3502 O PHE C 138 8.338 37.950 97.813 1.00 42.65 O +ATOM 3503 CB PHE C 138 6.867 39.306 100.070 1.00 39.53 C +ATOM 3504 CG PHE C 138 6.656 39.940 101.415 1.00 42.84 C +ATOM 3505 CD1 PHE C 138 5.633 39.506 102.247 1.00 39.90 C +ATOM 3506 CD2 PHE C 138 7.466 40.988 101.836 1.00 39.73 C +ATOM 3507 CE1 PHE C 138 5.423 40.099 103.470 1.00 38.79 C +ATOM 3508 CE2 PHE C 138 7.268 41.590 103.052 1.00 32.95 C +ATOM 3509 CZ PHE C 138 6.243 41.144 103.878 1.00 40.37 C +ATOM 3510 N PRO C 139 6.998 36.277 98.512 1.00 47.49 N +ATOM 3511 CA PRO C 139 6.866 35.689 97.172 1.00 45.74 C +ATOM 3512 C PRO C 139 5.870 36.487 96.335 1.00 40.68 C +ATOM 3513 O PRO C 139 5.048 37.214 96.901 1.00 41.91 O +ATOM 3514 CB PRO C 139 6.346 34.266 97.451 1.00 43.90 C +ATOM 3515 CG PRO C 139 6.355 34.116 98.987 1.00 41.72 C +ATOM 3516 CD PRO C 139 6.270 35.505 99.531 1.00 39.71 C +ATOM 3517 N PRO C 140 5.956 36.366 95.005 1.00 44.03 N +ATOM 3518 CA PRO C 140 4.990 36.982 94.083 1.00 45.61 C +ATOM 3519 C PRO C 140 3.558 36.483 94.316 1.00 43.85 C +ATOM 3520 O PRO C 140 3.354 35.281 94.534 1.00 41.87 O +ATOM 3521 CB PRO C 140 5.492 36.543 92.700 1.00 45.31 C +ATOM 3522 CG PRO C 140 6.930 36.219 92.893 1.00 47.91 C +ATOM 3523 CD PRO C 140 7.055 35.692 94.289 1.00 47.31 C +ATOM 3524 N SER C 141 2.584 37.391 94.268 1.00 44.14 N +ATOM 3525 CA SER C 141 1.182 36.999 94.366 1.00 44.02 C +ATOM 3526 C SER C 141 0.792 36.270 93.095 1.00 47.91 C +ATOM 3527 O SER C 141 1.356 36.535 92.037 1.00 50.83 O +ATOM 3528 CB SER C 141 0.270 38.214 94.568 1.00 44.34 C +ATOM 3529 OG SER C 141 0.162 38.979 93.375 1.00 43.59 O +ATOM 3530 N ASP C 142 -0.179 35.367 93.194 1.00 53.00 N +ATOM 3531 CA ASP C 142 -0.693 34.663 92.021 1.00 48.95 C +ATOM 3532 C ASP C 142 -1.319 35.631 91.031 1.00 46.59 C +ATOM 3533 O ASP C 142 -1.258 35.411 89.818 1.00 52.18 O +ATOM 3534 CB ASP C 142 -1.713 33.610 92.435 1.00 49.87 C +ATOM 3535 CG ASP C 142 -1.061 32.348 92.948 1.00 62.21 C +ATOM 3536 OD1 ASP C 142 0.187 32.298 92.979 1.00 65.44 O +ATOM 3537 OD2 ASP C 142 -1.794 31.417 93.342 1.00 67.35 O +ATOM 3538 N GLU C 143 -1.912 36.702 91.554 1.00 39.00 N +ATOM 3539 CA GLU C 143 -2.488 37.749 90.723 1.00 46.05 C +ATOM 3540 C GLU C 143 -1.408 38.389 89.848 1.00 46.68 C +ATOM 3541 O GLU C 143 -1.621 38.666 88.670 1.00 42.30 O +ATOM 3542 CB GLU C 143 -3.169 38.807 91.592 1.00 50.15 C +ATOM 3543 CG GLU C 143 -3.922 39.887 90.820 1.00 56.92 C +ATOM 3544 CD GLU C 143 -4.528 40.952 91.740 1.00 70.64 C +ATOM 3545 OE1 GLU C 143 -4.662 40.677 92.956 1.00 70.33 O +ATOM 3546 OE2 GLU C 143 -4.870 42.056 91.249 1.00 71.92 O +ATOM 3547 N GLN C 144 -0.233 38.616 90.415 1.00 45.56 N +ATOM 3548 CA GLN C 144 0.808 39.252 89.633 1.00 45.26 C +ATOM 3549 C GLN C 144 1.298 38.365 88.492 1.00 45.90 C +ATOM 3550 O GLN C 144 1.582 38.858 87.397 1.00 44.50 O +ATOM 3551 CB GLN C 144 2.000 39.652 90.505 1.00 44.49 C +ATOM 3552 CG GLN C 144 3.140 40.190 89.644 1.00 44.67 C +ATOM 3553 CD GLN C 144 4.279 40.811 90.410 1.00 45.14 C +ATOM 3554 OE1 GLN C 144 4.707 40.305 91.451 1.00 49.56 O +ATOM 3555 NE2 GLN C 144 4.794 41.917 89.884 1.00 45.70 N +ATOM 3556 N LEU C 145 1.399 37.062 88.737 1.00 46.52 N +ATOM 3557 CA LEU C 145 2.032 36.175 87.761 1.00 49.57 C +ATOM 3558 C LEU C 145 1.336 36.179 86.393 1.00 49.74 C +ATOM 3559 O LEU C 145 1.979 35.955 85.369 1.00 54.49 O +ATOM 3560 CB LEU C 145 2.110 34.752 88.313 1.00 47.86 C +ATOM 3561 CG LEU C 145 2.972 34.606 89.571 1.00 44.61 C +ATOM 3562 CD1 LEU C 145 2.913 33.206 90.116 1.00 48.23 C +ATOM 3563 CD2 LEU C 145 4.410 34.984 89.308 1.00 45.76 C +ATOM 3564 N LYS C 146 0.035 36.464 86.382 1.00 50.67 N +ATOM 3565 CA LYS C 146 -0.732 36.580 85.141 1.00 45.58 C +ATOM 3566 C LYS C 146 -0.326 37.789 84.299 1.00 46.43 C +ATOM 3567 O LYS C 146 -0.761 37.928 83.158 1.00 49.49 O +ATOM 3568 CB LYS C 146 -2.222 36.669 85.448 1.00 48.19 C +ATOM 3569 CG LYS C 146 -2.838 35.381 85.953 1.00 50.17 C +ATOM 3570 CD LYS C 146 -4.349 35.509 86.022 1.00 51.21 C +ATOM 3571 CE LYS C 146 -4.752 36.794 86.729 1.00 57.68 C +ATOM 3572 NZ LYS C 146 -6.217 36.831 86.993 1.00 68.09 N +ATOM 3573 N SER C 147 0.496 38.666 84.866 1.00 45.05 N +ATOM 3574 CA SER C 147 0.973 39.845 84.150 1.00 44.71 C +ATOM 3575 C SER C 147 2.251 39.514 83.404 1.00 43.81 C +ATOM 3576 O SER C 147 2.741 40.324 82.614 1.00 41.67 O +ATOM 3577 CB SER C 147 1.237 41.014 85.109 1.00 44.84 C +ATOM 3578 OG SER C 147 2.425 40.796 85.865 1.00 38.43 O +ATOM 3579 N GLY C 148 2.809 38.339 83.688 1.00 40.99 N +ATOM 3580 CA GLY C 148 4.008 37.877 83.006 1.00 42.69 C +ATOM 3581 C GLY C 148 5.313 38.138 83.738 1.00 42.74 C +ATOM 3582 O GLY C 148 6.347 37.543 83.425 1.00 40.79 O +ATOM 3583 N THR C 149 5.263 39.047 84.706 1.00 45.86 N +ATOM 3584 CA THR C 149 6.414 39.363 85.548 1.00 47.37 C +ATOM 3585 C THR C 149 6.214 38.792 86.956 1.00 43.16 C +ATOM 3586 O THR C 149 5.076 38.658 87.430 1.00 45.70 O +ATOM 3587 CB THR C 149 6.652 40.902 85.637 1.00 52.59 C +ATOM 3588 OG1 THR C 149 7.869 41.173 86.338 1.00 53.01 O +ATOM 3589 CG2 THR C 149 5.521 41.583 86.386 1.00 59.80 C +ATOM 3590 N ALA C 150 7.306 38.437 87.623 1.00 42.59 N +ATOM 3591 CA ALA C 150 7.223 38.092 89.043 1.00 45.85 C +ATOM 3592 C ALA C 150 8.093 39.045 89.850 1.00 43.46 C +ATOM 3593 O ALA C 150 9.273 39.237 89.540 1.00 37.49 O +ATOM 3594 CB ALA C 150 7.638 36.660 89.282 1.00 38.81 C +ATOM 3595 N SER C 151 7.499 39.663 90.867 1.00 43.41 N +ATOM 3596 CA SER C 151 8.258 40.511 91.776 1.00 38.78 C +ATOM 3597 C SER C 151 8.486 39.803 93.106 1.00 39.81 C +ATOM 3598 O SER C 151 7.537 39.433 93.796 1.00 46.49 O +ATOM 3599 CB SER C 151 7.551 41.851 92.007 1.00 39.53 C +ATOM 3600 OG SER C 151 7.449 42.624 90.814 1.00 42.10 O +ATOM 3601 N VAL C 152 9.754 39.607 93.450 1.00 36.44 N +ATOM 3602 CA VAL C 152 10.125 39.107 94.762 1.00 41.24 C +ATOM 3603 C VAL C 152 10.576 40.273 95.634 1.00 38.89 C +ATOM 3604 O VAL C 152 11.461 41.037 95.236 1.00 36.33 O +ATOM 3605 CB VAL C 152 11.249 38.055 94.682 1.00 40.88 C +ATOM 3606 CG1 VAL C 152 11.495 37.472 96.065 1.00 39.68 C +ATOM 3607 CG2 VAL C 152 10.873 36.955 93.696 1.00 33.24 C +ATOM 3608 N VAL C 153 9.971 40.418 96.812 1.00 36.17 N +ATOM 3609 CA VAL C 153 10.307 41.541 97.692 1.00 37.58 C +ATOM 3610 C VAL C 153 10.950 41.094 99.006 1.00 42.12 C +ATOM 3611 O VAL C 153 10.599 40.054 99.568 1.00 40.56 O +ATOM 3612 CB VAL C 153 9.060 42.410 97.992 1.00 42.95 C +ATOM 3613 CG1 VAL C 153 9.397 43.552 98.951 1.00 37.36 C +ATOM 3614 CG2 VAL C 153 8.486 42.977 96.696 1.00 32.65 C +ATOM 3615 N CYS C 154 11.914 41.891 99.468 1.00 43.39 N +ATOM 3616 CA CYS C 154 12.651 41.637 100.700 1.00 39.19 C +ATOM 3617 C CYS C 154 12.684 42.873 101.599 1.00 37.08 C +ATOM 3618 O CYS C 154 13.333 43.873 101.280 1.00 36.39 O +ATOM 3619 CB CYS C 154 14.075 41.196 100.372 1.00 48.36 C +ATOM 3620 SG CYS C 154 15.185 41.045 101.788 1.00 58.38 S +ATOM 3621 N LEU C 155 11.993 42.804 102.729 1.00 37.31 N +ATOM 3622 CA LEU C 155 11.915 43.959 103.610 1.00 42.58 C +ATOM 3623 C LEU C 155 12.977 43.923 104.706 1.00 35.43 C +ATOM 3624 O LEU C 155 13.150 42.913 105.378 1.00 35.60 O +ATOM 3625 CB LEU C 155 10.522 44.051 104.233 1.00 38.72 C +ATOM 3626 CG LEU C 155 10.314 45.135 105.280 1.00 33.72 C +ATOM 3627 CD1 LEU C 155 10.606 46.491 104.682 1.00 34.53 C +ATOM 3628 CD2 LEU C 155 8.876 45.079 105.742 1.00 32.65 C +ATOM 3629 N LEU C 156 13.706 45.024 104.849 1.00 34.38 N +ATOM 3630 CA LEU C 156 14.616 45.212 105.973 1.00 35.10 C +ATOM 3631 C LEU C 156 14.031 46.289 106.858 1.00 35.63 C +ATOM 3632 O LEU C 156 13.888 47.437 106.439 1.00 35.93 O +ATOM 3633 CB LEU C 156 16.017 45.594 105.514 1.00 36.85 C +ATOM 3634 CG LEU C 156 16.929 44.451 105.061 1.00 37.04 C +ATOM 3635 CD1 LEU C 156 16.380 43.730 103.839 1.00 37.88 C +ATOM 3636 CD2 LEU C 156 18.323 44.985 104.798 1.00 34.19 C +ATOM 3637 N ASN C 157 13.675 45.913 108.080 1.00 36.05 N +ATOM 3638 CA ASN C 157 12.849 46.771 108.906 1.00 34.43 C +ATOM 3639 C ASN C 157 13.531 47.322 110.150 1.00 36.71 C +ATOM 3640 O ASN C 157 14.054 46.564 110.979 1.00 35.53 O +ATOM 3641 CB ASN C 157 11.592 46.021 109.322 1.00 37.77 C +ATOM 3642 CG ASN C 157 10.436 46.951 109.580 1.00 42.09 C +ATOM 3643 OD1 ASN C 157 10.173 47.870 108.789 1.00 43.64 O +ATOM 3644 ND2 ASN C 157 9.751 46.748 110.704 1.00 41.54 N +ATOM 3645 N ASN C 158 13.518 48.650 110.267 1.00 36.68 N +ATOM 3646 CA ASN C 158 13.941 49.360 111.484 1.00 38.65 C +ATOM 3647 C ASN C 158 15.383 49.117 111.916 1.00 36.66 C +ATOM 3648 O ASN C 158 15.616 48.604 113.003 1.00 38.89 O +ATOM 3649 CB ASN C 158 13.023 48.991 112.658 1.00 35.06 C +ATOM 3650 CG ASN C 158 11.591 49.461 112.468 1.00 37.91 C +ATOM 3651 OD1 ASN C 158 11.175 49.853 111.376 1.00 40.24 O +ATOM 3652 ND2 ASN C 158 10.828 49.426 113.547 1.00 46.01 N +ATOM 3653 N PHE C 159 16.349 49.493 111.086 1.00 36.38 N +ATOM 3654 CA PHE C 159 17.752 49.294 111.438 1.00 35.31 C +ATOM 3655 C PHE C 159 18.508 50.614 111.512 1.00 35.06 C +ATOM 3656 O PHE C 159 18.047 51.644 111.024 1.00 35.96 O +ATOM 3657 CB PHE C 159 18.437 48.356 110.429 1.00 36.76 C +ATOM 3658 CG PHE C 159 18.323 48.818 108.990 1.00 38.54 C +ATOM 3659 CD1 PHE C 159 19.331 49.573 108.403 1.00 37.50 C +ATOM 3660 CD2 PHE C 159 17.200 48.510 108.233 1.00 36.99 C +ATOM 3661 CE1 PHE C 159 19.222 50.007 107.093 1.00 32.22 C +ATOM 3662 CE2 PHE C 159 17.088 48.945 106.922 1.00 36.01 C +ATOM 3663 CZ PHE C 159 18.102 49.693 106.356 1.00 34.63 C +ATOM 3664 N TYR C 160 19.674 50.560 112.140 1.00 34.59 N +ATOM 3665 CA TYR C 160 20.610 51.675 112.186 1.00 36.50 C +ATOM 3666 C TYR C 160 22.020 51.107 112.387 1.00 34.21 C +ATOM 3667 O TYR C 160 22.201 50.214 113.202 1.00 37.76 O +ATOM 3668 CB TYR C 160 20.258 52.660 113.307 1.00 33.88 C +ATOM 3669 CG TYR C 160 21.126 53.891 113.258 1.00 39.15 C +ATOM 3670 CD1 TYR C 160 22.394 53.902 113.845 1.00 37.43 C +ATOM 3671 CD2 TYR C 160 20.694 55.039 112.603 1.00 37.12 C +ATOM 3672 CE1 TYR C 160 23.207 55.016 113.773 1.00 37.65 C +ATOM 3673 CE2 TYR C 160 21.496 56.169 112.541 1.00 38.15 C +ATOM 3674 CZ TYR C 160 22.754 56.153 113.126 1.00 40.81 C +ATOM 3675 OH TYR C 160 23.553 57.274 113.056 1.00 39.05 O +ATOM 3676 N PRO C 161 23.029 51.629 111.668 1.00 33.79 N +ATOM 3677 CA PRO C 161 22.973 52.756 110.736 1.00 33.05 C +ATOM 3678 C PRO C 161 22.391 52.382 109.371 1.00 36.24 C +ATOM 3679 O PRO C 161 22.013 51.231 109.124 1.00 33.81 O +ATOM 3680 CB PRO C 161 24.435 53.184 110.634 1.00 30.00 C +ATOM 3681 CG PRO C 161 25.204 51.946 110.849 1.00 31.42 C +ATOM 3682 CD PRO C 161 24.393 51.079 111.769 1.00 36.05 C +ATOM 3683 N ARG C 162 22.311 53.387 108.505 1.00 42.02 N +ATOM 3684 CA ARG C 162 21.649 53.276 107.208 1.00 40.54 C +ATOM 3685 C ARG C 162 22.292 52.248 106.289 1.00 44.15 C +ATOM 3686 O ARG C 162 21.601 51.623 105.476 1.00 45.17 O +ATOM 3687 CB ARG C 162 21.638 54.636 106.511 1.00 41.58 C +ATOM 3688 CG ARG C 162 20.628 54.747 105.392 1.00 40.91 C +ATOM 3689 CD ARG C 162 20.767 56.053 104.624 1.00 42.91 C +ATOM 3690 NE ARG C 162 20.092 55.944 103.341 1.00 49.52 N +ATOM 3691 CZ ARG C 162 20.082 56.888 102.413 1.00 60.47 C +ATOM 3692 NH1 ARG C 162 20.711 58.037 102.622 1.00 70.45 N +ATOM 3693 NH2 ARG C 162 19.433 56.678 101.276 1.00 62.75 N +ATOM 3694 N GLU C 163 23.605 52.071 106.416 1.00 38.36 N +ATOM 3695 CA GLU C 163 24.338 51.188 105.513 1.00 41.35 C +ATOM 3696 C GLU C 163 23.912 49.744 105.708 1.00 39.38 C +ATOM 3697 O GLU C 163 24.179 49.160 106.750 1.00 45.02 O +ATOM 3698 CB GLU C 163 25.846 51.323 105.732 1.00 42.66 C +ATOM 3699 CG GLU C 163 26.399 52.733 105.449 1.00 47.72 C +ATOM 3700 CD GLU C 163 26.132 53.752 106.579 1.00 49.99 C +ATOM 3701 OE1 GLU C 163 26.397 53.436 107.758 1.00 49.32 O +ATOM 3702 OE2 GLU C 163 25.664 54.877 106.292 1.00 55.10 O +ATOM 3703 N ALA C 164 23.233 49.176 104.717 1.00 42.03 N +ATOM 3704 CA ALA C 164 22.829 47.762 104.770 1.00 46.10 C +ATOM 3705 C ALA C 164 23.032 47.083 103.417 1.00 42.37 C +ATOM 3706 O ALA C 164 22.731 47.669 102.384 1.00 43.07 O +ATOM 3707 CB ALA C 164 21.375 47.632 105.207 1.00 34.76 C +ATOM 3708 N LYS C 165 23.527 45.849 103.422 1.00 43.67 N +ATOM 3709 CA LYS C 165 23.770 45.131 102.164 1.00 51.79 C +ATOM 3710 C LYS C 165 22.724 44.033 101.879 1.00 44.99 C +ATOM 3711 O LYS C 165 22.354 43.264 102.768 1.00 46.27 O +ATOM 3712 CB LYS C 165 25.179 44.521 102.174 1.00 52.97 C +ATOM 3713 CG LYS C 165 26.005 44.850 100.930 1.00 58.58 C +ATOM 3714 CD LYS C 165 27.386 44.198 100.979 1.00 65.82 C +ATOM 3715 CE LYS C 165 28.417 44.951 100.119 1.00 68.94 C +ATOM 3716 NZ LYS C 165 28.085 45.062 98.665 1.00 71.38 N +ATOM 3717 N VAL C 166 22.248 43.963 100.641 1.00 42.18 N +ATOM 3718 CA VAL C 166 21.321 42.903 100.243 1.00 42.78 C +ATOM 3719 C VAL C 166 21.821 42.157 99.018 1.00 39.88 C +ATOM 3720 O VAL C 166 21.968 42.742 97.951 1.00 47.37 O +ATOM 3721 CB VAL C 166 19.907 43.449 99.924 1.00 42.55 C +ATOM 3722 CG1 VAL C 166 19.085 42.411 99.153 1.00 42.59 C +ATOM 3723 CG2 VAL C 166 19.191 43.881 101.195 1.00 38.11 C +ATOM 3724 N GLN C 167 22.082 40.865 99.174 1.00 47.83 N +ATOM 3725 CA GLN C 167 22.363 39.978 98.038 1.00 54.34 C +ATOM 3726 C GLN C 167 21.127 39.125 97.688 1.00 49.16 C +ATOM 3727 O GLN C 167 20.421 38.648 98.591 1.00 43.82 O +ATOM 3728 CB GLN C 167 23.546 39.045 98.343 1.00 59.61 C +ATOM 3729 CG GLN C 167 24.933 39.669 98.476 1.00 66.37 C +ATOM 3730 CD GLN C 167 25.988 38.621 98.865 1.00 80.66 C +ATOM 3731 OE1 GLN C 167 26.203 37.637 98.152 1.00 77.44 O +ATOM 3732 NE2 GLN C 167 26.624 38.817 100.015 1.00 84.32 N +ATOM 3733 N TRP C 168 20.878 38.922 96.391 1.00 47.53 N +ATOM 3734 CA TRP C 168 19.829 37.997 95.934 1.00 50.33 C +ATOM 3735 C TRP C 168 20.402 36.685 95.357 1.00 55.48 C +ATOM 3736 O TRP C 168 21.331 36.702 94.538 1.00 53.97 O +ATOM 3737 CB TRP C 168 18.935 38.656 94.878 1.00 45.75 C +ATOM 3738 CG TRP C 168 17.921 39.622 95.409 1.00 43.49 C +ATOM 3739 CD1 TRP C 168 18.016 40.982 95.420 1.00 45.02 C +ATOM 3740 CD2 TRP C 168 16.650 39.306 95.996 1.00 44.57 C +ATOM 3741 NE1 TRP C 168 16.883 41.538 95.968 1.00 45.15 N +ATOM 3742 CE2 TRP C 168 16.029 40.531 96.334 1.00 47.72 C +ATOM 3743 CE3 TRP C 168 15.979 38.112 96.273 1.00 37.17 C +ATOM 3744 CZ2 TRP C 168 14.773 40.593 96.934 1.00 44.59 C +ATOM 3745 CZ3 TRP C 168 14.741 38.174 96.868 1.00 38.70 C +ATOM 3746 CH2 TRP C 168 14.146 39.406 97.192 1.00 42.60 C +ATOM 3747 N LYS C 169 19.833 35.557 95.784 1.00 55.87 N +ATOM 3748 CA LYS C 169 20.212 34.242 95.271 1.00 56.16 C +ATOM 3749 C LYS C 169 19.002 33.461 94.783 1.00 55.86 C +ATOM 3750 O LYS C 169 18.088 33.178 95.562 1.00 64.21 O +ATOM 3751 CB LYS C 169 20.929 33.415 96.344 1.00 58.37 C +ATOM 3752 CG LYS C 169 22.260 33.962 96.811 1.00 66.64 C +ATOM 3753 CD LYS C 169 22.601 33.412 98.202 1.00 74.85 C +ATOM 3754 CE LYS C 169 24.000 33.821 98.650 1.00 75.44 C +ATOM 3755 NZ LYS C 169 25.037 33.216 97.769 1.00 73.63 N +ATOM 3756 N VAL C 170 19.000 33.105 93.502 1.00 53.96 N +ATOM 3757 CA VAL C 170 18.032 32.143 92.983 1.00 53.70 C +ATOM 3758 C VAL C 170 18.721 30.793 92.808 1.00 56.25 C +ATOM 3759 O VAL C 170 19.675 30.677 92.018 1.00 53.84 O +ATOM 3760 CB VAL C 170 17.433 32.585 91.638 1.00 54.05 C +ATOM 3761 CG1 VAL C 170 16.419 31.562 91.162 1.00 52.50 C +ATOM 3762 CG2 VAL C 170 16.795 33.951 91.763 1.00 50.00 C +ATOM 3763 N ASP C 171 18.233 29.784 93.533 1.00 53.69 N +ATOM 3764 CA ASP C 171 18.898 28.481 93.619 1.00 57.57 C +ATOM 3765 C ASP C 171 20.407 28.651 93.858 1.00 64.78 C +ATOM 3766 O ASP C 171 21.239 28.102 93.133 1.00 59.87 O +ATOM 3767 CB ASP C 171 18.637 27.653 92.358 1.00 60.02 C +ATOM 3768 CG ASP C 171 17.230 27.066 92.322 1.00 61.93 C +ATOM 3769 OD1 ASP C 171 16.676 26.791 93.410 1.00 63.33 O +ATOM 3770 OD2 ASP C 171 16.680 26.883 91.208 1.00 60.77 O +ATOM 3771 N ASN C 172 20.735 29.443 94.877 1.00 65.51 N +ATOM 3772 CA ASN C 172 22.112 29.742 95.268 1.00 64.16 C +ATOM 3773 C ASN C 172 23.024 30.316 94.179 1.00 60.38 C +ATOM 3774 O ASN C 172 24.249 30.233 94.279 1.00 62.96 O +ATOM 3775 CB ASN C 172 22.759 28.495 95.860 1.00 66.67 C +ATOM 3776 CG ASN C 172 22.658 28.463 97.367 1.00 72.53 C +ATOM 3777 OD1 ASN C 172 21.730 29.026 97.955 1.00 77.74 O +ATOM 3778 ND2 ASN C 172 23.624 27.820 98.006 1.00 77.47 N +ATOM 3779 N ALA C 173 22.422 30.923 93.162 1.00 58.19 N +ATOM 3780 CA ALA C 173 23.167 31.706 92.183 1.00 59.00 C +ATOM 3781 C ALA C 173 22.994 33.215 92.449 1.00 59.20 C +ATOM 3782 O ALA C 173 21.871 33.694 92.629 1.00 60.60 O +ATOM 3783 CB ALA C 173 22.714 31.353 90.783 1.00 56.98 C +ATOM 3784 N LEU C 174 24.099 33.957 92.479 1.00 51.52 N +ATOM 3785 CA LEU C 174 24.045 35.398 92.712 1.00 53.71 C +ATOM 3786 C LEU C 174 23.372 36.164 91.559 1.00 57.52 C +ATOM 3787 O LEU C 174 23.517 35.808 90.388 1.00 53.10 O +ATOM 3788 CB LEU C 174 25.454 35.943 92.943 1.00 58.04 C +ATOM 3789 CG LEU C 174 25.517 37.376 93.474 1.00 69.92 C +ATOM 3790 CD1 LEU C 174 24.823 37.478 94.840 1.00 66.74 C +ATOM 3791 CD2 LEU C 174 26.957 37.880 93.559 1.00 70.76 C +ATOM 3792 N GLN C 175 22.644 37.223 91.902 1.00 54.00 N +ATOM 3793 CA GLN C 175 21.934 38.028 90.918 1.00 47.23 C +ATOM 3794 C GLN C 175 22.584 39.385 90.634 1.00 46.43 C +ATOM 3795 O GLN C 175 23.118 40.022 91.530 1.00 53.57 O +ATOM 3796 CB GLN C 175 20.501 38.249 91.379 1.00 45.68 C +ATOM 3797 CG GLN C 175 19.747 36.972 91.647 1.00 50.40 C +ATOM 3798 CD GLN C 175 19.561 36.124 90.398 1.00 53.07 C +ATOM 3799 OE1 GLN C 175 19.002 36.576 89.391 1.00 45.88 O +ATOM 3800 NE2 GLN C 175 20.049 34.889 90.453 1.00 54.44 N +ATOM 3801 N SER C 176 22.516 39.823 89.379 1.00 53.27 N +ATOM 3802 CA SER C 176 22.996 41.144 88.972 1.00 53.63 C +ATOM 3803 C SER C 176 22.048 41.788 87.963 1.00 52.01 C +ATOM 3804 O SER C 176 21.604 41.132 87.023 1.00 44.83 O +ATOM 3805 CB SER C 176 24.386 41.048 88.353 1.00 53.91 C +ATOM 3806 OG SER C 176 25.221 40.220 89.136 1.00 66.40 O +ATOM 3807 N GLY C 177 21.735 43.065 88.172 1.00 54.47 N +ATOM 3808 CA GLY C 177 21.031 43.860 87.181 1.00 50.30 C +ATOM 3809 C GLY C 177 19.528 43.674 87.117 1.00 47.81 C +ATOM 3810 O GLY C 177 18.870 44.242 86.239 1.00 47.52 O +ATOM 3811 N ASN C 178 18.988 42.871 88.029 1.00 44.68 N +ATOM 3812 CA ASN C 178 17.545 42.649 88.090 1.00 45.01 C +ATOM 3813 C ASN C 178 16.972 43.011 89.462 1.00 41.53 C +ATOM 3814 O ASN C 178 15.887 42.561 89.826 1.00 44.55 O +ATOM 3815 CB ASN C 178 17.198 41.194 87.742 1.00 42.23 C +ATOM 3816 CG ASN C 178 18.066 40.186 88.483 1.00 47.85 C +ATOM 3817 OD1 ASN C 178 18.856 40.542 89.357 1.00 47.02 O +ATOM 3818 ND2 ASN C 178 17.881 38.912 88.170 1.00 50.45 N +ATOM 3819 N SER C 179 17.716 43.820 90.217 1.00 41.93 N +ATOM 3820 CA SER C 179 17.287 44.299 91.537 1.00 36.86 C +ATOM 3821 C SER C 179 17.194 45.798 91.635 1.00 36.35 C +ATOM 3822 O SER C 179 17.985 46.514 91.019 1.00 35.28 O +ATOM 3823 CB SER C 179 18.239 43.835 92.627 1.00 34.37 C +ATOM 3824 OG SER C 179 17.742 42.660 93.198 1.00 51.94 O +ATOM 3825 N GLN C 180 16.243 46.267 92.437 1.00 35.76 N +ATOM 3826 CA GLN C 180 16.173 47.677 92.788 1.00 35.67 C +ATOM 3827 C GLN C 180 15.885 47.820 94.273 1.00 41.32 C +ATOM 3828 O GLN C 180 15.166 47.004 94.850 1.00 40.52 O +ATOM 3829 CB GLN C 180 15.114 48.397 91.956 1.00 34.84 C +ATOM 3830 CG GLN C 180 15.522 48.608 90.501 1.00 39.24 C +ATOM 3831 CD GLN C 180 14.580 49.521 89.747 1.00 45.41 C +ATOM 3832 OE1 GLN C 180 13.478 49.118 89.356 1.00 46.53 O +ATOM 3833 NE2 GLN C 180 15.007 50.764 89.536 1.00 43.85 N +ATOM 3834 N GLU C 181 16.464 48.851 94.887 1.00 42.73 N +ATOM 3835 CA GLU C 181 16.287 49.079 96.313 1.00 42.55 C +ATOM 3836 C GLU C 181 15.819 50.504 96.629 1.00 38.86 C +ATOM 3837 O GLU C 181 16.010 51.449 95.859 1.00 36.49 O +ATOM 3838 CB GLU C 181 17.580 48.766 97.083 1.00 51.88 C +ATOM 3839 CG GLU C 181 18.772 49.646 96.728 1.00 73.77 C +ATOM 3840 CD GLU C 181 19.995 49.348 97.582 1.00 82.77 C +ATOM 3841 OE1 GLU C 181 20.428 48.175 97.590 1.00 87.26 O +ATOM 3842 OE2 GLU C 181 20.520 50.283 98.235 1.00 85.69 O +ATOM 3843 N SER C 182 15.183 50.635 97.782 1.00 41.53 N +ATOM 3844 CA SER C 182 14.582 51.885 98.197 1.00 39.40 C +ATOM 3845 C SER C 182 14.694 52.018 99.713 1.00 35.89 C +ATOM 3846 O SER C 182 14.513 51.050 100.441 1.00 37.62 O +ATOM 3847 CB SER C 182 13.125 51.943 97.744 1.00 37.23 C +ATOM 3848 OG SER C 182 12.535 53.172 98.122 1.00 41.80 O +ATOM 3849 N VAL C 183 15.013 53.216 100.181 1.00 38.96 N +ATOM 3850 CA VAL C 183 15.258 53.451 101.597 1.00 36.00 C +ATOM 3851 C VAL C 183 14.356 54.554 102.159 1.00 35.62 C +ATOM 3852 O VAL C 183 14.196 55.613 101.540 1.00 34.97 O +ATOM 3853 CB VAL C 183 16.737 53.816 101.832 1.00 36.44 C +ATOM 3854 CG1 VAL C 183 16.989 54.189 103.289 1.00 42.86 C +ATOM 3855 CG2 VAL C 183 17.624 52.660 101.431 1.00 36.68 C +ATOM 3856 N THR C 184 13.756 54.304 103.322 1.00 31.50 N +ATOM 3857 CA THR C 184 12.936 55.329 103.962 1.00 35.06 C +ATOM 3858 C THR C 184 13.809 56.435 104.549 1.00 37.71 C +ATOM 3859 O THR C 184 15.015 56.265 104.746 1.00 35.87 O +ATOM 3860 CB THR C 184 12.030 54.762 105.096 1.00 33.31 C +ATOM 3861 OG1 THR C 184 12.832 54.257 106.168 1.00 32.84 O +ATOM 3862 CG2 THR C 184 11.132 53.664 104.584 1.00 35.83 C +ATOM 3863 N GLU C 185 13.187 57.579 104.799 1.00 37.87 N +ATOM 3864 CA GLU C 185 13.813 58.649 105.565 1.00 41.06 C +ATOM 3865 C GLU C 185 13.907 58.181 107.016 1.00 35.67 C +ATOM 3866 O GLU C 185 13.167 57.284 107.424 1.00 35.80 O +ATOM 3867 CB GLU C 185 13.008 59.954 105.454 1.00 35.89 C +ATOM 3868 CG GLU C 185 12.744 60.411 104.027 1.00 42.52 C +ATOM 3869 CD GLU C 185 13.919 61.170 103.411 1.00 61.00 C +ATOM 3870 OE1 GLU C 185 15.015 61.181 104.013 1.00 61.08 O +ATOM 3871 OE2 GLU C 185 13.741 61.773 102.325 1.00 65.63 O +ATOM 3872 N GLN C 186 14.822 58.770 107.783 1.00 37.81 N +ATOM 3873 CA GLN C 186 14.994 58.399 109.183 1.00 35.95 C +ATOM 3874 C GLN C 186 13.675 58.575 109.926 1.00 36.07 C +ATOM 3875 O GLN C 186 12.986 59.575 109.738 1.00 34.25 O +ATOM 3876 CB GLN C 186 16.099 59.226 109.838 1.00 34.27 C +ATOM 3877 CG GLN C 186 16.765 58.515 111.003 1.00 38.77 C +ATOM 3878 CD GLN C 186 17.957 59.267 111.558 1.00 37.43 C +ATOM 3879 OE1 GLN C 186 18.167 60.443 111.255 1.00 40.26 O +ATOM 3880 NE2 GLN C 186 18.730 58.596 112.398 1.00 36.22 N +ATOM 3881 N ASP C 187 13.327 57.591 110.754 1.00 36.62 N +ATOM 3882 CA ASP C 187 12.020 57.544 111.395 1.00 35.16 C +ATOM 3883 C ASP C 187 11.819 58.670 112.398 1.00 38.46 C +ATOM 3884 O ASP C 187 12.761 59.090 113.076 1.00 41.54 O +ATOM 3885 CB ASP C 187 11.824 56.203 112.086 1.00 39.86 C +ATOM 3886 CG ASP C 187 10.405 55.987 112.508 1.00 47.88 C +ATOM 3887 OD1 ASP C 187 10.116 56.101 113.720 1.00 51.01 O +ATOM 3888 OD2 ASP C 187 9.578 55.712 111.614 1.00 56.98 O +ATOM 3889 N SER C 188 10.583 59.152 112.479 1.00 41.17 N +ATOM 3890 CA SER C 188 10.195 60.209 113.419 1.00 44.11 C +ATOM 3891 C SER C 188 10.402 59.802 114.869 1.00 45.57 C +ATOM 3892 O SER C 188 10.915 60.578 115.662 1.00 48.08 O +ATOM 3893 CB SER C 188 8.724 60.603 113.218 1.00 41.17 C +ATOM 3894 OG SER C 188 8.591 61.658 112.289 1.00 47.43 O +ATOM 3895 N LYS C 189 9.996 58.588 115.222 1.00 42.44 N +ATOM 3896 CA LYS C 189 10.097 58.148 116.611 1.00 45.25 C +ATOM 3897 C LYS C 189 11.418 57.419 116.888 1.00 43.33 C +ATOM 3898 O LYS C 189 12.225 57.865 117.709 1.00 47.59 O +ATOM 3899 CB LYS C 189 8.905 57.254 116.957 1.00 46.87 C +ATOM 3900 CG LYS C 189 7.549 57.833 116.567 1.00 42.19 C +ATOM 3901 CD LYS C 189 6.428 56.899 116.994 1.00 42.11 C +ATOM 3902 CE LYS C 189 5.223 57.659 117.520 1.00 41.93 C +ATOM 3903 NZ LYS C 189 4.476 58.282 116.411 1.00 47.46 N +ATOM 3904 N ASP C 190 11.605 56.312 116.171 1.00 41.79 N +ATOM 3905 CA ASP C 190 12.745 55.385 116.246 1.00 41.61 C +ATOM 3906 C ASP C 190 14.139 55.940 115.974 1.00 43.12 C +ATOM 3907 O ASP C 190 15.115 55.456 116.546 1.00 35.60 O +ATOM 3908 CB ASP C 190 12.546 54.266 115.215 1.00 50.34 C +ATOM 3909 CG ASP C 190 11.823 53.070 115.761 1.00 61.07 C +ATOM 3910 OD1 ASP C 190 11.848 52.033 115.064 1.00 61.26 O +ATOM 3911 OD2 ASP C 190 11.232 53.159 116.859 1.00 71.60 O +ATOM 3912 N SER C 191 14.218 56.895 115.041 1.00 43.11 N +ATOM 3913 CA SER C 191 15.468 57.314 114.383 1.00 40.07 C +ATOM 3914 C SER C 191 16.139 56.173 113.613 1.00 40.18 C +ATOM 3915 O SER C 191 17.367 56.168 113.415 1.00 35.85 O +ATOM 3916 CB SER C 191 16.446 57.912 115.390 1.00 33.45 C +ATOM 3917 OG SER C 191 15.947 59.156 115.850 1.00 35.31 O +ATOM 3918 N THR C 192 15.324 55.226 113.151 1.00 38.63 N +ATOM 3919 CA THR C 192 15.824 54.100 112.361 1.00 39.88 C +ATOM 3920 C THR C 192 15.515 54.255 110.874 1.00 38.32 C +ATOM 3921 O THR C 192 14.744 55.143 110.483 1.00 34.94 O +ATOM 3922 CB THR C 192 15.226 52.766 112.830 1.00 39.78 C +ATOM 3923 OG1 THR C 192 13.800 52.805 112.682 1.00 46.57 O +ATOM 3924 CG2 THR C 192 15.571 52.512 114.273 1.00 35.71 C +ATOM 3925 N TYR C 193 16.111 53.379 110.058 1.00 35.36 N +ATOM 3926 CA TYR C 193 15.840 53.321 108.617 1.00 34.27 C +ATOM 3927 C TYR C 193 15.203 51.976 108.262 1.00 36.09 C +ATOM 3928 O TYR C 193 15.373 51.000 108.996 1.00 35.89 O +ATOM 3929 CB TYR C 193 17.129 53.516 107.800 1.00 34.09 C +ATOM 3930 CG TYR C 193 17.784 54.861 107.985 1.00 32.24 C +ATOM 3931 CD1 TYR C 193 17.362 55.963 107.261 1.00 31.75 C +ATOM 3932 CD2 TYR C 193 18.817 55.028 108.891 1.00 34.85 C +ATOM 3933 CE1 TYR C 193 17.952 57.196 107.426 1.00 36.50 C +ATOM 3934 CE2 TYR C 193 19.421 56.260 109.067 1.00 41.02 C +ATOM 3935 CZ TYR C 193 18.981 57.346 108.333 1.00 44.55 C +ATOM 3936 OH TYR C 193 19.571 58.581 108.507 1.00 41.65 O +ATOM 3937 N SER C 194 14.478 51.932 107.141 1.00 34.28 N +ATOM 3938 CA SER C 194 13.990 50.676 106.580 1.00 31.02 C +ATOM 3939 C SER C 194 14.289 50.615 105.094 1.00 37.26 C +ATOM 3940 O SER C 194 14.484 51.648 104.446 1.00 36.81 O +ATOM 3941 CB SER C 194 12.494 50.506 106.827 1.00 32.52 C +ATOM 3942 OG SER C 194 12.213 50.491 108.222 1.00 37.77 O +ATOM 3943 N LEU C 195 14.311 49.400 104.557 1.00 38.83 N +ATOM 3944 CA LEU C 195 14.716 49.183 103.175 1.00 34.58 C +ATOM 3945 C LEU C 195 13.878 48.092 102.496 1.00 37.33 C +ATOM 3946 O LEU C 195 13.584 47.060 103.103 1.00 35.82 O +ATOM 3947 CB LEU C 195 16.209 48.830 103.135 1.00 34.67 C +ATOM 3948 CG LEU C 195 16.940 48.818 101.786 1.00 39.44 C +ATOM 3949 CD1 LEU C 195 18.404 49.171 101.964 1.00 39.70 C +ATOM 3950 CD2 LEU C 195 16.831 47.457 101.125 1.00 40.61 C +ATOM 3951 N SER C 196 13.492 48.325 101.239 1.00 39.44 N +ATOM 3952 CA SER C 196 12.904 47.269 100.404 1.00 41.42 C +ATOM 3953 C SER C 196 13.823 46.949 99.229 1.00 39.82 C +ATOM 3954 O SER C 196 14.446 47.844 98.664 1.00 40.26 O +ATOM 3955 CB SER C 196 11.512 47.668 99.892 1.00 42.79 C +ATOM 3956 OG SER C 196 11.584 48.533 98.770 1.00 48.14 O +ATOM 3957 N SER C 197 13.926 45.673 98.873 1.00 42.55 N +ATOM 3958 CA SER C 197 14.659 45.278 97.669 1.00 41.48 C +ATOM 3959 C SER C 197 13.746 44.450 96.786 1.00 38.32 C +ATOM 3960 O SER C 197 13.132 43.503 97.256 1.00 42.00 O +ATOM 3961 CB SER C 197 15.920 44.493 98.017 1.00 41.14 C +ATOM 3962 OG SER C 197 16.775 44.399 96.889 1.00 47.01 O +ATOM 3963 N THR C 198 13.634 44.814 95.515 1.00 38.04 N +ATOM 3964 CA THR C 198 12.728 44.105 94.630 1.00 37.06 C +ATOM 3965 C THR C 198 13.503 43.436 93.510 1.00 39.48 C +ATOM 3966 O THR C 198 14.208 44.089 92.724 1.00 39.48 O +ATOM 3967 CB THR C 198 11.653 45.034 94.030 1.00 36.40 C +ATOM 3968 OG1 THR C 198 11.124 45.868 95.059 1.00 44.62 O +ATOM 3969 CG2 THR C 198 10.513 44.218 93.462 1.00 31.08 C +ATOM 3970 N LEU C 199 13.368 42.115 93.464 1.00 39.38 N +ATOM 3971 CA LEU C 199 13.932 41.295 92.405 1.00 41.15 C +ATOM 3972 C LEU C 199 12.876 40.989 91.337 1.00 41.12 C +ATOM 3973 O LEU C 199 11.884 40.328 91.622 1.00 36.48 O +ATOM 3974 CB LEU C 199 14.475 39.999 92.990 1.00 34.75 C +ATOM 3975 CG LEU C 199 14.973 39.022 91.939 1.00 40.68 C +ATOM 3976 CD1 LEU C 199 16.265 39.536 91.353 1.00 41.67 C +ATOM 3977 CD2 LEU C 199 15.165 37.664 92.563 1.00 43.96 C +ATOM 3978 N THR C 200 13.078 41.459 90.111 1.00 41.51 N +ATOM 3979 CA THR C 200 12.052 41.246 89.089 1.00 47.01 C +ATOM 3980 C THR C 200 12.502 40.219 88.028 1.00 42.89 C +ATOM 3981 O THR C 200 13.654 40.214 87.590 1.00 44.85 O +ATOM 3982 CB THR C 200 11.638 42.583 88.418 1.00 42.46 C +ATOM 3983 OG1 THR C 200 12.584 42.932 87.408 1.00 51.06 O +ATOM 3984 CG2 THR C 200 11.580 43.707 89.453 1.00 44.63 C +ATOM 3985 N LEU C 201 11.572 39.342 87.649 1.00 39.96 N +ATOM 3986 CA LEU C 201 11.833 38.233 86.738 1.00 42.77 C +ATOM 3987 C LEU C 201 10.643 37.956 85.819 1.00 43.08 C +ATOM 3988 O LEU C 201 9.513 38.330 86.123 1.00 39.16 O +ATOM 3989 CB LEU C 201 12.153 36.957 87.524 1.00 43.03 C +ATOM 3990 CG LEU C 201 13.458 36.827 88.304 1.00 45.13 C +ATOM 3991 CD1 LEU C 201 13.306 35.772 89.388 1.00 48.24 C +ATOM 3992 CD2 LEU C 201 14.589 36.459 87.363 1.00 54.56 C +ATOM 3993 N SER C 202 10.908 37.284 84.703 1.00 45.47 N +ATOM 3994 CA SER C 202 9.850 36.710 83.877 1.00 44.52 C +ATOM 3995 C SER C 202 9.066 35.707 84.704 1.00 43.05 C +ATOM 3996 O SER C 202 9.623 35.083 85.602 1.00 42.55 O +ATOM 3997 CB SER C 202 10.433 35.994 82.651 1.00 42.41 C +ATOM 3998 OG SER C 202 11.334 36.821 81.947 1.00 53.97 O +ATOM 3999 N LYS C 203 7.788 35.524 84.394 1.00 40.78 N +ATOM 4000 CA LYS C 203 7.071 34.365 84.909 1.00 38.59 C +ATOM 4001 C LYS C 203 7.775 33.080 84.442 1.00 43.63 C +ATOM 4002 O LYS C 203 7.929 32.130 85.205 1.00 44.12 O +ATOM 4003 CB LYS C 203 5.615 34.389 84.461 1.00 38.17 C +ATOM 4004 CG LYS C 203 4.836 33.125 84.740 1.00 44.76 C +ATOM 4005 CD LYS C 203 3.437 33.242 84.152 1.00 54.27 C +ATOM 4006 CE LYS C 203 2.465 32.257 84.785 1.00 61.70 C +ATOM 4007 NZ LYS C 203 2.155 31.122 83.869 1.00 70.97 N +ATOM 4008 N ALA C 204 8.235 33.067 83.197 1.00 41.74 N +ATOM 4009 CA ALA C 204 8.922 31.900 82.668 1.00 42.92 C +ATOM 4010 C ALA C 204 10.221 31.614 83.424 1.00 44.81 C +ATOM 4011 O ALA C 204 10.485 30.470 83.779 1.00 49.82 O +ATOM 4012 CB ALA C 204 9.197 32.074 81.177 1.00 40.66 C +ATOM 4013 N ASP C 205 11.025 32.644 83.668 1.00 46.42 N +ATOM 4014 CA ASP C 205 12.268 32.495 84.435 1.00 49.38 C +ATOM 4015 C ASP C 205 12.008 32.028 85.871 1.00 53.51 C +ATOM 4016 O ASP C 205 12.718 31.165 86.393 1.00 50.12 O +ATOM 4017 CB ASP C 205 13.044 33.815 84.474 1.00 51.57 C +ATOM 4018 CG ASP C 205 13.797 34.100 83.186 1.00 57.25 C +ATOM 4019 OD1 ASP C 205 14.255 33.140 82.534 1.00 51.19 O +ATOM 4020 OD2 ASP C 205 13.928 35.295 82.831 1.00 62.69 O +ATOM 4021 N TYR C 206 10.982 32.612 86.492 1.00 51.58 N +ATOM 4022 CA TYR C 206 10.612 32.328 87.878 1.00 44.85 C +ATOM 4023 C TYR C 206 10.205 30.873 88.108 1.00 48.15 C +ATOM 4024 O TYR C 206 10.591 30.267 89.116 1.00 47.52 O +ATOM 4025 CB TYR C 206 9.470 33.256 88.313 1.00 41.65 C +ATOM 4026 CG TYR C 206 8.924 33.004 89.709 1.00 42.29 C +ATOM 4027 CD1 TYR C 206 9.678 33.314 90.843 1.00 44.10 C +ATOM 4028 CD2 TYR C 206 7.651 32.480 89.896 1.00 39.32 C +ATOM 4029 CE1 TYR C 206 9.183 33.100 92.110 1.00 37.13 C +ATOM 4030 CE2 TYR C 206 7.146 32.263 91.164 1.00 35.00 C +ATOM 4031 CZ TYR C 206 7.919 32.576 92.264 1.00 43.09 C +ATOM 4032 OH TYR C 206 7.425 32.367 93.530 1.00 43.95 O +ATOM 4033 N GLU C 207 9.424 30.319 87.181 1.00 49.94 N +ATOM 4034 CA GLU C 207 8.904 28.958 87.332 1.00 51.97 C +ATOM 4035 C GLU C 207 9.949 27.909 86.972 1.00 50.34 C +ATOM 4036 O GLU C 207 9.711 26.714 87.131 1.00 54.07 O +ATOM 4037 CB GLU C 207 7.639 28.759 86.490 1.00 49.10 C +ATOM 4038 CG GLU C 207 6.504 29.679 86.900 1.00 58.17 C +ATOM 4039 CD GLU C 207 5.144 29.154 86.506 1.00 69.54 C +ATOM 4040 OE1 GLU C 207 5.085 28.182 85.723 1.00 78.93 O +ATOM 4041 OE2 GLU C 207 4.133 29.717 86.976 1.00 70.14 O +ATOM 4042 N LYS C 208 11.104 28.365 86.496 1.00 49.83 N +ATOM 4043 CA LYS C 208 12.217 27.479 86.187 1.00 52.41 C +ATOM 4044 C LYS C 208 13.054 27.150 87.419 1.00 54.56 C +ATOM 4045 O LYS C 208 13.887 26.244 87.373 1.00 60.64 O +ATOM 4046 CB LYS C 208 13.126 28.098 85.116 1.00 56.68 C +ATOM 4047 CG LYS C 208 12.605 28.014 83.698 1.00 58.53 C +ATOM 4048 CD LYS C 208 13.693 28.364 82.691 1.00 62.32 C +ATOM 4049 CE LYS C 208 13.274 28.000 81.274 1.00 70.77 C +ATOM 4050 NZ LYS C 208 14.414 28.048 80.306 1.00 74.76 N +ATOM 4051 N HIS C 209 12.856 27.887 88.509 1.00 52.65 N +ATOM 4052 CA HIS C 209 13.716 27.718 89.666 1.00 48.29 C +ATOM 4053 C HIS C 209 12.918 27.507 90.935 1.00 48.61 C +ATOM 4054 O HIS C 209 11.730 27.799 90.980 1.00 47.90 O +ATOM 4055 CB HIS C 209 14.652 28.914 89.802 1.00 52.01 C +ATOM 4056 CG HIS C 209 15.605 29.064 88.651 1.00 56.03 C +ATOM 4057 ND1 HIS C 209 15.449 30.011 87.660 1.00 54.90 N +ATOM 4058 CD2 HIS C 209 16.715 28.361 88.317 1.00 53.28 C +ATOM 4059 CE1 HIS C 209 16.424 29.897 86.775 1.00 47.13 C +ATOM 4060 NE2 HIS C 209 17.205 28.896 87.152 1.00 49.24 N +ATOM 4061 N LYS C 210 13.590 26.982 91.961 1.00 55.18 N +ATOM 4062 CA LYS C 210 12.958 26.506 93.202 1.00 51.89 C +ATOM 4063 C LYS C 210 13.185 27.415 94.412 1.00 52.86 C +ATOM 4064 O LYS C 210 12.241 27.829 95.077 1.00 46.71 O +ATOM 4065 CB LYS C 210 13.468 25.082 93.526 1.00 56.25 C +ATOM 4066 CG LYS C 210 12.736 24.370 94.665 1.00 62.21 C +ATOM 4067 CD LYS C 210 13.761 23.773 95.632 1.00 73.75 C +ATOM 4068 CE LYS C 210 13.124 23.098 96.858 1.00 84.02 C +ATOM 4069 NZ LYS C 210 14.147 22.576 97.831 1.00 83.23 N +ATOM 4070 N VAL C 211 14.444 27.717 94.703 1.00 50.56 N +ATOM 4071 CA VAL C 211 14.760 28.478 95.912 1.00 52.34 C +ATOM 4072 C VAL C 211 15.047 29.957 95.649 1.00 47.31 C +ATOM 4073 O VAL C 211 15.939 30.320 94.872 1.00 47.19 O +ATOM 4074 CB VAL C 211 15.976 27.888 96.672 1.00 53.11 C +ATOM 4075 CG1 VAL C 211 16.218 28.669 97.952 1.00 51.03 C +ATOM 4076 CG2 VAL C 211 15.723 26.434 96.987 1.00 51.08 C +ATOM 4077 N TYR C 212 14.287 30.805 96.329 1.00 45.54 N +ATOM 4078 CA TYR C 212 14.503 32.233 96.274 1.00 47.43 C +ATOM 4079 C TYR C 212 14.980 32.718 97.638 1.00 49.02 C +ATOM 4080 O TYR C 212 14.264 32.610 98.637 1.00 47.82 O +ATOM 4081 CB TYR C 212 13.226 32.919 95.812 1.00 43.40 C +ATOM 4082 CG TYR C 212 12.929 32.510 94.401 1.00 42.40 C +ATOM 4083 CD1 TYR C 212 12.179 31.373 94.125 1.00 42.86 C +ATOM 4084 CD2 TYR C 212 13.479 33.209 93.333 1.00 45.82 C +ATOM 4085 CE1 TYR C 212 11.950 30.966 92.807 1.00 44.76 C +ATOM 4086 CE2 TYR C 212 13.246 32.818 92.011 1.00 44.28 C +ATOM 4087 CZ TYR C 212 12.485 31.700 91.759 1.00 44.05 C +ATOM 4088 OH TYR C 212 12.260 31.327 90.457 1.00 45.45 O +ATOM 4089 N ALA C 213 16.214 33.215 97.672 1.00 43.04 N +ATOM 4090 CA ALA C 213 16.825 33.654 98.918 1.00 47.93 C +ATOM 4091 C ALA C 213 17.287 35.109 98.879 1.00 47.28 C +ATOM 4092 O ALA C 213 17.742 35.612 97.858 1.00 48.29 O +ATOM 4093 CB ALA C 213 17.998 32.752 99.277 1.00 51.06 C +ATOM 4094 N CYS C 214 17.183 35.752 100.034 1.00 49.49 N +ATOM 4095 CA CYS C 214 17.548 37.148 100.266 1.00 48.99 C +ATOM 4096 C CYS C 214 18.575 37.198 101.411 1.00 47.52 C +ATOM 4097 O CYS C 214 18.262 36.852 102.549 1.00 47.88 O +ATOM 4098 CB CYS C 214 16.277 37.950 100.597 1.00 49.81 C +ATOM 4099 SG CYS C 214 16.472 39.527 101.378 1.00 89.06 S +ATOM 4100 N GLU C 215 19.811 37.580 101.117 1.00 49.32 N +ATOM 4101 CA GLU C 215 20.842 37.540 102.151 1.00 54.91 C +ATOM 4102 C GLU C 215 21.268 38.935 102.618 1.00 51.12 C +ATOM 4103 O GLU C 215 21.582 39.805 101.801 1.00 48.49 O +ATOM 4104 CB GLU C 215 22.064 36.766 101.658 1.00 60.42 C +ATOM 4105 CG GLU C 215 22.778 36.008 102.770 1.00 66.75 C +ATOM 4106 CD GLU C 215 24.197 35.638 102.404 1.00 73.53 C +ATOM 4107 OE1 GLU C 215 24.543 35.731 101.207 1.00 83.04 O +ATOM 4108 OE2 GLU C 215 24.965 35.256 103.312 1.00 69.47 O +ATOM 4109 N VAL C 216 21.300 39.133 103.935 1.00 43.68 N +ATOM 4110 CA VAL C 216 21.497 40.468 104.496 1.00 46.04 C +ATOM 4111 C VAL C 216 22.708 40.592 105.435 1.00 51.37 C +ATOM 4112 O VAL C 216 22.829 39.832 106.405 1.00 51.72 O +ATOM 4113 CB VAL C 216 20.243 40.921 105.280 1.00 42.77 C +ATOM 4114 CG1 VAL C 216 20.429 42.337 105.795 1.00 43.31 C +ATOM 4115 CG2 VAL C 216 19.002 40.831 104.415 1.00 43.18 C +ATOM 4116 N THR C 217 23.589 41.558 105.165 1.00 46.07 N +ATOM 4117 CA THR C 217 24.623 41.917 106.141 1.00 46.07 C +ATOM 4118 C THR C 217 24.468 43.356 106.636 1.00 43.70 C +ATOM 4119 O THR C 217 24.068 44.253 105.898 1.00 47.73 O +ATOM 4120 CB THR C 217 26.057 41.730 105.584 1.00 53.65 C +ATOM 4121 OG1 THR C 217 26.133 42.202 104.230 1.00 63.21 O +ATOM 4122 CG2 THR C 217 26.449 40.259 105.640 1.00 53.17 C +ATOM 4123 N HIS C 218 24.805 43.568 107.898 1.00 48.32 N +ATOM 4124 CA HIS C 218 24.644 44.867 108.537 1.00 47.85 C +ATOM 4125 C HIS C 218 25.477 44.875 109.820 1.00 43.75 C +ATOM 4126 O HIS C 218 25.736 43.812 110.392 1.00 42.42 O +ATOM 4127 CB HIS C 218 23.164 45.130 108.832 1.00 41.35 C +ATOM 4128 CG HIS C 218 22.889 46.456 109.466 1.00 42.59 C +ATOM 4129 ND1 HIS C 218 22.923 46.648 110.834 1.00 40.06 N +ATOM 4130 CD2 HIS C 218 22.514 47.642 108.932 1.00 37.77 C +ATOM 4131 CE1 HIS C 218 22.610 47.899 111.110 1.00 37.03 C +ATOM 4132 NE2 HIS C 218 22.357 48.526 109.970 1.00 40.38 N +ATOM 4133 N GLN C 219 25.888 46.064 110.263 1.00 47.67 N +ATOM 4134 CA GLN C 219 26.749 46.210 111.445 1.00 47.75 C +ATOM 4135 C GLN C 219 26.137 45.556 112.681 1.00 44.37 C +ATOM 4136 O GLN C 219 26.857 45.056 113.550 1.00 43.73 O +ATOM 4137 CB GLN C 219 27.036 47.694 111.718 1.00 42.73 C +ATOM 4138 CG GLN C 219 27.703 47.979 113.077 1.00 52.64 C +ATOM 4139 CD GLN C 219 29.212 47.723 113.078 1.00 62.47 C +ATOM 4140 OE1 GLN C 219 29.898 47.930 112.070 1.00 65.59 O +ATOM 4141 NE2 GLN C 219 29.732 47.271 114.215 1.00 59.13 N +ATOM 4142 N GLY C 220 24.807 45.540 112.739 1.00 42.83 N +ATOM 4143 CA GLY C 220 24.094 45.020 113.891 1.00 38.91 C +ATOM 4144 C GLY C 220 23.856 43.523 113.859 1.00 43.85 C +ATOM 4145 O GLY C 220 23.184 42.990 114.738 1.00 44.18 O +ATOM 4146 N LEU C 221 24.401 42.845 112.849 1.00 44.32 N +ATOM 4147 CA LEU C 221 24.319 41.388 112.752 1.00 43.88 C +ATOM 4148 C LEU C 221 25.698 40.751 112.943 1.00 48.06 C +ATOM 4149 O LEU C 221 26.680 41.211 112.350 1.00 48.49 O +ATOM 4150 CB LEU C 221 23.745 40.969 111.399 1.00 46.24 C +ATOM 4151 CG LEU C 221 22.397 41.551 110.981 1.00 45.46 C +ATOM 4152 CD1 LEU C 221 22.155 41.277 109.509 1.00 43.86 C +ATOM 4153 CD2 LEU C 221 21.292 40.974 111.828 1.00 39.94 C +ATOM 4154 N SER C 222 25.771 39.698 113.758 1.00 47.36 N +ATOM 4155 CA SER C 222 27.042 39.032 114.024 1.00 39.93 C +ATOM 4156 C SER C 222 27.151 37.822 113.129 1.00 43.09 C +ATOM 4157 O SER C 222 28.187 37.163 113.083 1.00 48.92 O +ATOM 4158 CB SER C 222 27.149 38.602 115.481 1.00 38.65 C +ATOM 4159 OG SER C 222 26.345 39.408 116.313 1.00 44.58 O +ATOM 4160 N SER C 223 26.049 37.513 112.452 1.00 46.26 N +ATOM 4161 CA SER C 223 25.981 36.403 111.503 1.00 48.73 C +ATOM 4162 C SER C 223 25.003 36.813 110.422 1.00 45.25 C +ATOM 4163 O SER C 223 24.093 37.591 110.695 1.00 45.78 O +ATOM 4164 CB SER C 223 25.537 35.105 112.193 1.00 43.02 C +ATOM 4165 OG SER C 223 25.657 33.987 111.324 1.00 48.84 O +ATOM 4166 N PRO C 224 25.180 36.309 109.193 1.00 48.54 N +ATOM 4167 CA PRO C 224 24.285 36.794 108.137 1.00 47.20 C +ATOM 4168 C PRO C 224 22.865 36.260 108.302 1.00 48.50 C +ATOM 4169 O PRO C 224 22.677 35.084 108.653 1.00 46.26 O +ATOM 4170 CB PRO C 224 24.929 36.264 106.846 1.00 46.41 C +ATOM 4171 CG PRO C 224 26.273 35.740 107.247 1.00 46.40 C +ATOM 4172 CD PRO C 224 26.161 35.342 108.675 1.00 47.36 C +ATOM 4173 N VAL C 225 21.882 37.129 108.072 1.00 45.28 N +ATOM 4174 CA VAL C 225 20.487 36.714 108.055 1.00 46.43 C +ATOM 4175 C VAL C 225 20.040 36.420 106.609 1.00 50.51 C +ATOM 4176 O VAL C 225 20.184 37.251 105.713 1.00 48.46 O +ATOM 4177 CB VAL C 225 19.567 37.777 108.702 1.00 45.26 C +ATOM 4178 CG1 VAL C 225 18.105 37.348 108.633 1.00 45.01 C +ATOM 4179 CG2 VAL C 225 19.968 38.009 110.152 1.00 42.33 C +ATOM 4180 N THR C 226 19.535 35.208 106.395 1.00 51.33 N +ATOM 4181 CA THR C 226 18.998 34.795 105.108 1.00 45.11 C +ATOM 4182 C THR C 226 17.563 34.337 105.288 1.00 51.28 C +ATOM 4183 O THR C 226 17.291 33.420 106.065 1.00 56.26 O +ATOM 4184 CB THR C 226 19.807 33.650 104.487 1.00 45.41 C +ATOM 4185 OG1 THR C 226 21.200 33.979 104.503 1.00 53.55 O +ATOM 4186 CG2 THR C 226 19.359 33.395 103.052 1.00 48.73 C +ATOM 4187 N LYS C 227 16.635 34.985 104.599 1.00 47.48 N +ATOM 4188 CA LYS C 227 15.273 34.476 104.546 1.00 46.28 C +ATOM 4189 C LYS C 227 15.057 33.865 103.157 1.00 51.19 C +ATOM 4190 O LYS C 227 15.499 34.424 102.151 1.00 50.24 O +ATOM 4191 CB LYS C 227 14.265 35.582 104.848 1.00 38.12 C +ATOM 4192 CG LYS C 227 14.484 36.257 106.199 1.00 45.10 C +ATOM 4193 CD LYS C 227 14.034 35.412 107.393 1.00 39.14 C +ATOM 4194 CE LYS C 227 14.256 36.175 108.681 1.00 38.19 C +ATOM 4195 NZ LYS C 227 13.639 35.553 109.903 1.00 56.34 N +ATOM 4196 N SER C 228 14.416 32.701 103.109 1.00 48.19 N +ATOM 4197 CA SER C 228 14.192 32.013 101.843 1.00 50.10 C +ATOM 4198 C SER C 228 12.770 31.464 101.758 1.00 50.97 C +ATOM 4199 O SER C 228 12.023 31.467 102.743 1.00 50.04 O +ATOM 4200 CB SER C 228 15.197 30.870 101.660 1.00 51.55 C +ATOM 4201 OG SER C 228 14.901 29.793 102.539 1.00 57.65 O +ATOM 4202 N PHE C 229 12.399 31.006 100.569 1.00 48.16 N +ATOM 4203 CA PHE C 229 11.174 30.236 100.398 1.00 50.82 C +ATOM 4204 C PHE C 229 11.348 29.344 99.179 1.00 48.93 C +ATOM 4205 O PHE C 229 12.193 29.618 98.331 1.00 53.01 O +ATOM 4206 CB PHE C 229 9.945 31.147 100.262 1.00 41.26 C +ATOM 4207 CG PHE C 229 9.902 31.930 98.987 1.00 45.55 C +ATOM 4208 CD1 PHE C 229 10.454 33.203 98.918 1.00 49.88 C +ATOM 4209 CD2 PHE C 229 9.304 31.403 97.849 1.00 46.72 C +ATOM 4210 CE1 PHE C 229 10.419 33.934 97.731 1.00 48.14 C +ATOM 4211 CE2 PHE C 229 9.266 32.124 96.664 1.00 47.40 C +ATOM 4212 CZ PHE C 229 9.821 33.395 96.605 1.00 40.98 C +ATOM 4213 N ASN C 230 10.571 28.269 99.108 1.00 49.46 N +ATOM 4214 CA ASN C 230 10.583 27.377 97.949 1.00 54.73 C +ATOM 4215 C ASN C 230 9.336 27.578 97.112 1.00 49.41 C +ATOM 4216 O ASN C 230 8.225 27.631 97.641 1.00 50.38 O +ATOM 4217 CB ASN C 230 10.686 25.915 98.386 1.00 63.40 C +ATOM 4218 CG ASN C 230 11.988 25.611 99.098 1.00 66.46 C +ATOM 4219 OD1 ASN C 230 13.032 26.173 98.770 1.00 74.89 O +ATOM 4220 ND2 ASN C 230 11.933 24.723 100.079 1.00 74.95 N +ATOM 4221 N ARG C 231 9.514 27.697 95.805 1.00 53.91 N +ATOM 4222 CA ARG C 231 8.374 27.966 94.931 1.00 53.83 C +ATOM 4223 C ARG C 231 7.397 26.795 94.924 1.00 50.89 C +ATOM 4224 O ARG C 231 7.751 25.674 94.560 1.00 53.44 O +ATOM 4225 CB ARG C 231 8.833 28.267 93.506 1.00 45.78 C +ATOM 4226 CG ARG C 231 7.683 28.562 92.575 1.00 46.79 C +ATOM 4227 CD ARG C 231 8.135 28.688 91.135 1.00 49.43 C +ATOM 4228 NE ARG C 231 8.948 27.548 90.728 1.00 49.39 N +ATOM 4229 CZ ARG C 231 8.457 26.343 90.478 1.00 48.94 C +ATOM 4230 NH1 ARG C 231 7.151 26.129 90.603 1.00 54.11 N +ATOM 4231 NH2 ARG C 231 9.271 25.357 90.114 1.00 48.74 N +ATOM 4232 N GLY C 232 6.169 27.063 95.342 1.00 46.82 N +ATOM 4233 CA GLY C 232 5.144 26.041 95.356 1.00 57.70 C +ATOM 4234 C GLY C 232 4.884 25.532 96.753 1.00 64.53 C +ATOM 4235 O GLY C 232 3.805 25.030 97.054 1.00 69.80 O +ATOM 4236 N GLU C 233 5.883 25.667 97.615 1.00 65.98 N +ATOM 4237 CA GLU C 233 5.743 25.250 99.003 1.00 70.49 C +ATOM 4238 C GLU C 233 5.377 26.432 99.899 1.00 66.22 C +ATOM 4239 O GLU C 233 4.492 26.329 100.749 1.00 61.85 O +ATOM 4240 CB GLU C 233 7.030 24.595 99.497 1.00 69.82 C +ATOM 4241 CG GLU C 233 6.995 24.259 100.974 1.00 82.53 C +ATOM 4242 CD GLU C 233 8.365 23.936 101.527 1.00 88.66 C +ATOM 4243 OE1 GLU C 233 9.166 23.315 100.795 1.00 90.92 O +ATOM 4244 OE2 GLU C 233 8.640 24.311 102.690 1.00 86.42 O +HETATM 4245 O HOH C 234 8.858 72.411 110.787 1.00 56.36 O +HETATM 4246 O HOH C 235 16.733 67.898 100.291 1.00 44.70 O +HETATM 4247 O HOH C 236 26.386 89.135 89.299 1.00 34.20 O +HETATM 4248 O HOH C 237 14.715 60.567 114.043 1.00 36.36 O +HETATM 4249 O HOH C 238 22.356 43.812 90.607 1.00 45.15 O +HETATM 4250 O HOH C 239 16.967 62.695 110.585 1.00 38.93 O +HETATM 4251 O HOH C 240 25.902 48.856 108.735 1.00 39.81 O +HETATM 4252 O HOH C 241 22.301 71.760 95.185 1.00 33.16 O +HETATM 4253 O HOH C 242 29.454 79.717 112.622 1.00 37.65 O +HETATM 4254 O HOH C 243 27.875 81.745 90.159 1.00 37.78 O +HETATM 4255 O HOH C 244 17.114 57.758 103.866 1.00 37.30 O +HETATM 4256 O HOH C 245 27.653 72.157 104.850 1.00 34.98 O +HETATM 4257 O HOH C 246 28.250 51.968 109.114 1.00 42.65 O +HETATM 4258 O HOH C 247 13.401 27.586 101.820 1.00 46.65 O +HETATM 4259 O HOH C 248 27.750 81.597 107.033 1.00 31.65 O +HETATM 4260 O HOH C 249 27.286 32.078 112.495 1.00 38.13 O +HETATM 4261 O HOH C 250 28.487 87.551 87.417 1.00 37.39 O +HETATM 4262 O HOH C 251 11.935 72.319 105.210 1.00 42.16 O +HETATM 4263 O HOH C 252 26.657 40.823 109.519 1.00 34.83 O +HETATM 4264 O HOH C 253 23.564 75.593 91.981 1.00 34.86 O +HETATM 4265 O HOH C 254 25.794 54.116 116.197 1.00 37.53 O +HETATM 4266 O HOH C 255 30.625 62.607 104.048 1.00 43.60 O +HETATM 4267 O HOH C 256 32.917 71.043 108.766 1.00 42.39 O +HETATM 4268 O HOH C 257 6.002 61.377 110.891 1.00 45.45 O +HETATM 4269 O HOH C 258 15.545 85.651 114.612 1.00 36.87 O +HETATM 4270 O HOH C 259 26.191 37.287 89.554 1.00 52.55 O +HETATM 4271 O HOH C 260 9.614 50.277 97.083 1.00 41.12 O +HETATM 4272 O HOH C 261 8.331 70.273 110.028 1.00 41.56 O +HETATM 4273 O HOH C 262 24.534 86.647 116.508 1.00 38.55 O +HETATM 4274 O HOH C 263 14.638 36.247 113.100 1.00 21.61 O diff --git a/content/data/protein/benchbb_antibody_targets/6p67_imgt.pdb b/content/data/protein/benchbb_antibody_targets/6p67_imgt.pdb new file mode 100644 index 0000000..3fa47c8 --- /dev/null +++ b/content/data/protein/benchbb_antibody_targets/6p67_imgt.pdb @@ -0,0 +1,19336 @@ +REMARK 5 IMGT RENUMBERED STRUCTURE 6P67 GENERATED BY SABDAB +REMARK 5 ANTIBODY CHAINS ARE RENUMBERED IN THE VARIABLE REGIONS ONLY +REMARK 5 NON ANTIBODY CHAINS ARE LEFT WITH RESIDUE IDS AS IN PDB +REMARK 5 PAIRED_HL HCHAIN=A LCHAIN=B AGCHAIN=K;G AGTYPE=PROTEIN;PROTEIN +REMARK 5 PAIRED_HL HCHAIN=C LCHAIN=D AGCHAIN=J;I AGTYPE=PROTEIN;PROTEIN +REMARK 5 PAIRED_HL HCHAIN=E LCHAIN=F AGCHAIN=NONE AGTYPE=NONE +REMARK 5 PAIRED_HL HCHAIN=H LCHAIN=L AGCHAIN=NONE AGTYPE=NONE +REMARK 5 CRYSTAL CONTACT WARNING: ANTIGEN I HAS BEEN PAIRED WITH FAB +REMARK 5 CD +REMARK 5 CRYSTAL CONTACT WARNING: ANTIGEN G HAS BEEN PAIRED WITH FAB +REMARK 5 AB +ATOM 1 N ASP G 17 53.068 -46.163 23.431 1.00156.52 N +ATOM 2 CA ASP G 17 51.731 -46.362 22.885 1.00157.39 C +ATOM 3 C ASP G 17 51.756 -46.224 21.368 1.00161.32 C +ATOM 4 O ASP G 17 52.229 -45.223 20.832 1.00159.06 O +ATOM 5 CB ASP G 17 50.734 -45.373 23.498 1.00148.42 C +ATOM 6 CG ASP G 17 49.287 -45.830 23.357 1.00144.94 C +ATOM 7 OD1 ASP G 17 48.935 -46.395 22.300 1.00146.49 O +ATOM 8 OD2 ASP G 17 48.499 -45.623 24.306 1.00138.91 O +ATOM 9 N TYR G 18 51.223 -47.233 20.683 1.00165.90 N +ATOM 10 CA TYR G 18 51.191 -47.236 19.224 1.00165.86 C +ATOM 11 C TYR G 18 49.844 -46.673 18.809 1.00163.87 C +ATOM 12 O TYR G 18 48.855 -47.398 18.711 1.00165.16 O +ATOM 13 CB TYR G 18 51.393 -48.634 18.646 1.00170.17 C +ATOM 14 CG TYR G 18 52.761 -49.250 18.812 1.00176.98 C +ATOM 15 CD1 TYR G 18 53.828 -48.827 18.059 1.00177.27 C +ATOM 16 CD2 TYR G 18 52.969 -50.303 19.669 1.00178.53 C +ATOM 17 CE1 TYR G 18 55.075 -49.420 18.202 1.00181.98 C +ATOM 18 CE2 TYR G 18 54.215 -50.886 19.825 1.00181.21 C +ATOM 19 CZ TYR G 18 55.264 -50.444 19.084 1.00182.97 C +ATOM 20 OH TYR G 18 56.509 -51.019 19.211 1.00182.44 O +ATOM 21 N SER G 19 49.816 -45.369 18.575 1.00159.12 N +ATOM 22 CA SER G 19 48.611 -44.654 18.204 1.00149.50 C +ATOM 23 C SER G 19 48.787 -44.198 16.767 1.00140.27 C +ATOM 24 O SER G 19 49.912 -43.996 16.301 1.00138.80 O +ATOM 25 CB SER G 19 48.353 -43.458 19.126 1.00143.84 C +ATOM 26 N PHE G 20 47.677 -44.037 16.059 1.00135.60 N +ATOM 27 CA PHE G 20 47.776 -43.729 14.645 1.00131.40 C +ATOM 28 C PHE G 20 46.565 -42.923 14.209 1.00129.24 C +ATOM 29 O PHE G 20 45.568 -42.807 14.926 1.00127.24 O +ATOM 30 CB PHE G 20 47.919 -45.012 13.812 1.00128.89 C +ATOM 31 CG PHE G 20 46.830 -46.024 14.048 1.00130.28 C +ATOM 32 CD1 PHE G 20 46.870 -46.867 15.148 1.00133.86 C +ATOM 33 CD2 PHE G 20 45.776 -46.145 13.158 1.00127.39 C +ATOM 34 CE1 PHE G 20 45.872 -47.800 15.362 1.00132.89 C +ATOM 35 CE2 PHE G 20 44.776 -47.078 13.366 1.00125.56 C +ATOM 36 CZ PHE G 20 44.825 -47.906 14.470 1.00128.82 C +ATOM 37 N SER G 21 46.678 -42.368 13.009 1.00124.39 N +ATOM 38 CA SER G 21 45.646 -41.541 12.412 1.00116.33 C +ATOM 39 C SER G 21 45.481 -41.956 10.962 1.00109.34 C +ATOM 40 O SER G 21 46.467 -42.213 10.263 1.00112.96 O +ATOM 41 CB SER G 21 45.990 -40.048 12.506 1.00114.60 C +ATOM 42 OG SER G 21 47.217 -39.766 11.857 1.00117.81 O +ATOM 43 N CYS G 22 44.230 -42.025 10.519 1.00102.50 N +ATOM 44 CA CYS G 22 43.907 -42.447 9.169 1.00100.13 C +ATOM 45 C CYS G 22 43.060 -41.376 8.498 1.00 95.04 C +ATOM 46 O CYS G 22 42.432 -40.542 9.155 1.00 95.31 O +ATOM 47 CB CYS G 22 43.155 -43.784 9.166 1.00 99.31 C +ATOM 48 SG CYS G 22 44.046 -45.177 9.905 1.00113.45 S +ATOM 49 N TYR G 23 43.051 -41.418 7.170 1.00 96.17 N +ATOM 50 CA TYR G 23 42.189 -40.566 6.366 1.00 90.96 C +ATOM 51 C TYR G 23 41.876 -41.285 5.063 1.00 88.45 C +ATOM 52 O TYR G 23 42.727 -41.988 4.511 1.00 89.76 O +ATOM 53 CB TYR G 23 42.832 -39.196 6.100 1.00 87.00 C +ATOM 54 CG TYR G 23 44.038 -39.211 5.182 1.00 84.44 C +ATOM 55 CD1 TYR G 23 43.891 -39.068 3.807 1.00 85.08 C +ATOM 56 CD2 TYR G 23 45.323 -39.349 5.692 1.00 90.56 C +ATOM 57 CE1 TYR G 23 44.988 -39.074 2.966 1.00 87.97 C +ATOM 58 CE2 TYR G 23 46.427 -39.356 4.857 1.00 92.81 C +ATOM 59 CZ TYR G 23 46.254 -39.218 3.495 1.00 93.63 C +ATOM 60 OH TYR G 23 47.348 -39.225 2.659 1.00 92.34 O +ATOM 61 N SER G 24 40.657 -41.089 4.568 1.00 85.82 N +ATOM 62 CA SER G 24 40.163 -41.804 3.396 1.00 86.72 C +ATOM 63 C SER G 24 39.833 -40.796 2.305 1.00 87.34 C +ATOM 64 O SER G 24 38.908 -39.991 2.452 1.00 84.98 O +ATOM 65 CB SER G 24 38.937 -42.645 3.750 1.00 89.19 C +ATOM 66 OG SER G 24 37.885 -41.828 4.237 1.00 89.44 O +ATOM 67 N GLN G 25 40.592 -40.843 1.216 1.00 92.50 N +ATOM 68 CA GLN G 25 40.298 -40.069 0.020 1.00 89.32 C +ATOM 69 C GLN G 25 39.458 -40.929 -0.919 1.00 94.42 C +ATOM 70 O GLN G 25 39.889 -42.015 -1.328 1.00 97.68 O +ATOM 71 CB GLN G 25 41.585 -39.614 -0.664 1.00 83.93 C +ATOM 72 CG GLN G 25 42.385 -38.555 0.061 1.00 80.04 C +ATOM 73 CD GLN G 25 43.627 -38.157 -0.713 1.00 80.73 C +ATOM 74 OE1 GLN G 25 44.093 -38.896 -1.581 1.00 84.60 O +ATOM 75 NE2 GLN G 25 44.160 -36.978 -0.414 1.00 81.71 N +ATOM 76 N LEU G 26 38.270 -40.448 -1.269 1.00 93.15 N +ATOM 77 CA LEU G 26 37.332 -41.230 -2.060 1.00100.13 C +ATOM 78 C LEU G 26 37.397 -40.825 -3.526 1.00108.02 C +ATOM 79 O LEU G 26 37.553 -39.644 -3.852 1.00109.06 O +ATOM 80 CB LEU G 26 35.904 -41.046 -1.539 1.00102.18 C +ATOM 81 CG LEU G 26 35.649 -41.379 -0.067 1.00101.72 C +ATOM 82 CD1 LEU G 26 34.252 -40.940 0.349 1.00 99.91 C +ATOM 83 CD2 LEU G 26 35.843 -42.864 0.187 1.00103.64 C +ATOM 84 N GLU G 27 37.267 -41.822 -4.405 1.00110.11 N +ATOM 85 CA GLU G 27 37.245 -41.626 -5.857 1.00111.04 C +ATOM 86 C GLU G 27 38.481 -40.875 -6.352 1.00112.73 C +ATOM 87 O GLU G 27 38.390 -39.984 -7.200 1.00112.37 O +ATOM 88 CB GLU G 27 35.959 -40.919 -6.291 1.00109.79 C +ATOM 89 CG GLU G 27 34.712 -41.775 -6.107 1.00114.78 C +ATOM 90 CD GLU G 27 33.435 -41.039 -6.455 1.00125.16 C +ATOM 91 OE1 GLU G 27 33.291 -39.869 -6.045 1.00130.28 O +ATOM 92 OE2 GLU G 27 32.575 -41.630 -7.141 1.00127.75 O +ATOM 93 N VAL G 28 39.649 -41.234 -5.814 1.00113.85 N +ATOM 94 CA VAL G 28 40.890 -40.587 -6.234 1.00118.38 C +ATOM 95 C VAL G 28 41.301 -41.061 -7.621 1.00127.55 C +ATOM 96 O VAL G 28 41.597 -40.255 -8.512 1.00131.09 O +ATOM 97 CB VAL G 28 42.004 -40.858 -5.212 1.00114.44 C +ATOM 98 CG1 VAL G 28 43.238 -40.019 -5.527 1.00118.41 C +ATOM 99 CG2 VAL G 28 41.503 -40.594 -3.833 1.00104.16 C +ATOM 100 N ASN G 29 41.317 -42.374 -7.825 1.00127.73 N +ATOM 101 CA ASN G 29 41.666 -42.980 -9.105 1.00131.67 C +ATOM 102 C ASN G 29 40.382 -43.532 -9.709 1.00130.03 C +ATOM 103 O ASN G 29 39.964 -44.647 -9.382 1.00129.37 O +ATOM 104 CB ASN G 29 42.705 -44.079 -8.913 1.00142.72 C +ATOM 105 CG ASN G 29 43.478 -44.370 -10.173 1.00162.45 C +ATOM 106 OD1 ASN G 29 44.624 -43.950 -10.318 1.00161.24 O +ATOM 107 ND2 ASN G 29 42.858 -45.086 -11.098 1.00177.88 N +ATOM 108 N GLY G 30 39.774 -42.766 -10.611 1.00126.74 N +ATOM 109 CA GLY G 30 38.488 -43.167 -11.136 1.00120.21 C +ATOM 110 C GLY G 30 37.492 -43.280 -10.002 1.00113.55 C +ATOM 111 O GLY G 30 37.023 -42.270 -9.469 1.00111.75 O +ATOM 112 N SER G 31 37.160 -44.516 -9.632 1.00114.51 N +ATOM 113 CA SER G 31 36.308 -44.792 -8.484 1.00117.01 C +ATOM 114 C SER G 31 37.030 -45.520 -7.355 1.00119.52 C +ATOM 115 O SER G 31 36.401 -45.829 -6.337 1.00119.23 O +ATOM 116 CB SER G 31 35.088 -45.609 -8.927 1.00111.77 C +ATOM 117 OG SER G 31 35.488 -46.814 -9.556 1.00111.51 O +ATOM 118 N GLN G 32 38.324 -45.801 -7.501 1.00123.09 N +ATOM 119 CA GLN G 32 39.081 -46.540 -6.492 1.00127.39 C +ATOM 120 C GLN G 32 39.403 -45.643 -5.300 1.00129.24 C +ATOM 121 O GLN G 32 40.068 -44.612 -5.453 1.00132.26 O +ATOM 122 CB GLN G 32 40.359 -47.124 -7.090 1.00129.86 C +ATOM 123 CG GLN G 32 41.016 -48.157 -6.185 1.00130.24 C +ATOM 124 CD GLN G 32 41.972 -49.070 -6.924 1.00135.32 C +ATOM 125 OE1 GLN G 32 41.844 -50.294 -6.874 1.00135.99 O +ATOM 126 NE2 GLN G 32 42.941 -48.480 -7.609 1.00142.00 N +ATOM 127 N HIS G 33 38.935 -46.035 -4.116 1.00126.44 N +ATOM 128 CA HIS G 33 39.186 -45.266 -2.906 1.00118.51 C +ATOM 129 C HIS G 33 40.559 -45.598 -2.324 1.00117.90 C +ATOM 130 O HIS G 33 41.160 -46.636 -2.625 1.00121.10 O +ATOM 131 CB HIS G 33 38.097 -45.534 -1.866 1.00116.82 C +ATOM 132 CG HIS G 33 36.705 -45.377 -2.393 1.00116.38 C +ATOM 133 ND1 HIS G 33 36.406 -44.594 -3.487 1.00115.98 N +ATOM 134 CD2 HIS G 33 35.529 -45.906 -1.978 1.00119.63 C +ATOM 135 CE1 HIS G 33 35.107 -44.645 -3.722 1.00115.78 C +ATOM 136 NE2 HIS G 33 34.552 -45.435 -2.821 1.00117.10 N +ATOM 137 N SER G 34 41.067 -44.687 -1.492 1.00109.17 N +ATOM 138 CA SER G 34 42.390 -44.835 -0.894 1.00109.86 C +ATOM 139 C SER G 34 42.323 -44.478 0.583 1.00105.48 C +ATOM 140 O SER G 34 42.043 -43.329 0.934 1.00101.19 O +ATOM 141 CB SER G 34 43.418 -43.952 -1.608 1.00117.37 C +ATOM 142 OG SER G 34 43.122 -42.578 -1.427 1.00115.13 O +ATOM 143 N LEU G 35 42.593 -45.456 1.442 1.00106.03 N +ATOM 144 CA LEU G 35 42.616 -45.253 2.889 1.00100.25 C +ATOM 145 C LEU G 35 44.066 -45.279 3.354 1.00100.42 C +ATOM 146 O LEU G 35 44.730 -46.318 3.277 1.00103.86 O +ATOM 147 CB LEU G 35 41.787 -46.307 3.619 1.00103.09 C +ATOM 148 CG LEU G 35 41.871 -46.236 5.149 1.00100.87 C +ATOM 149 CD1 LEU G 35 41.610 -44.825 5.653 1.00 97.54 C +ATOM 150 CD2 LEU G 35 40.899 -47.201 5.791 1.00103.33 C +ATOM 151 N THR G 36 44.559 -44.135 3.814 1.00 98.86 N +ATOM 152 CA THR G 36 45.925 -44.000 4.290 1.00100.13 C +ATOM 153 C THR G 36 45.921 -43.915 5.812 1.00101.22 C +ATOM 154 O THR G 36 44.975 -43.407 6.417 1.00101.28 O +ATOM 155 CB THR G 36 46.592 -42.756 3.689 1.00 96.25 C +ATOM 156 OG1 THR G 36 46.410 -42.758 2.268 1.00 97.34 O +ATOM 157 CG2 THR G 36 48.084 -42.737 3.993 1.00 97.63 C +ATOM 158 N CYS G 37 46.979 -44.439 6.424 1.00105.66 N +ATOM 159 CA CYS G 37 47.155 -44.434 7.865 1.00106.46 C +ATOM 160 C CYS G 37 48.629 -44.209 8.168 1.00110.65 C +ATOM 161 O CYS G 37 49.513 -44.611 7.398 1.00115.66 O +ATOM 162 CB CYS G 37 46.692 -45.753 8.498 1.00109.00 C +ATOM 163 SG CYS G 37 44.927 -46.121 8.337 1.00126.29 S +ATOM 164 N ALA G 38 48.882 -43.588 9.318 1.00111.66 N +ATOM 165 CA ALA G 38 50.240 -43.268 9.727 1.00116.58 C +ATOM 166 C ALA G 38 50.303 -43.183 11.244 1.00124.20 C +ATOM 167 O ALA G 38 49.286 -43.025 11.922 1.00125.47 O +ATOM 168 CB ALA G 38 50.727 -41.958 9.096 1.00115.90 C +ATOM 169 N PHE G 39 51.521 -43.271 11.766 1.00128.01 N +ATOM 170 CA PHE G 39 51.765 -43.212 13.199 1.00132.36 C +ATOM 171 C PHE G 39 51.891 -41.761 13.642 1.00136.50 C +ATOM 172 O PHE G 39 52.290 -40.887 12.868 1.00136.32 O +ATOM 173 CB PHE G 39 53.025 -43.994 13.577 1.00138.09 C +ATOM 174 CG PHE G 39 52.855 -45.487 13.512 1.00141.23 C +ATOM 175 CD1 PHE G 39 52.175 -46.164 14.512 1.00144.70 C +ATOM 176 CD2 PHE G 39 53.381 -46.213 12.456 1.00137.94 C +ATOM 177 CE1 PHE G 39 52.018 -47.537 14.456 1.00147.11 C +ATOM 178 CE2 PHE G 39 53.228 -47.586 12.395 1.00139.34 C +ATOM 179 CZ PHE G 39 52.545 -48.249 13.397 1.00144.10 C +ATOM 180 N GLU G 40 51.533 -41.510 14.904 1.00138.38 N +ATOM 181 CA GLU G 40 51.584 -40.149 15.430 1.00140.32 C +ATOM 182 C GLU G 40 53.015 -39.627 15.466 1.00144.93 C +ATOM 183 O GLU G 40 53.290 -38.507 15.019 1.00147.38 O +ATOM 184 CB GLU G 40 50.963 -40.106 16.827 1.00137.21 C +ATOM 185 CG GLU G 40 49.544 -40.654 16.910 1.00134.90 C +ATOM 186 CD GLU G 40 48.506 -39.702 16.344 1.00129.35 C +ATOM 187 OE1 GLU G 40 48.862 -38.550 16.018 1.00127.35 O +ATOM 188 OE2 GLU G 40 47.330 -40.107 16.227 1.00126.17 O +ATOM 189 N ASP G 41 53.944 -40.421 15.995 1.00146.63 N +ATOM 190 CA ASP G 41 55.325 -39.977 15.989 1.00153.75 C +ATOM 191 C ASP G 41 56.182 -40.946 15.185 1.00158.10 C +ATOM 192 O ASP G 41 56.007 -42.163 15.291 1.00158.08 O +ATOM 193 CB ASP G 41 55.879 -39.870 17.416 1.00160.41 C +ATOM 194 CG ASP G 41 57.185 -39.103 17.475 1.00165.85 C +ATOM 195 OD1 ASP G 41 57.140 -37.856 17.498 1.00162.09 O +ATOM 196 OD2 ASP G 41 58.255 -39.745 17.488 1.00171.70 O +ATOM 197 N PRO G 42 57.112 -40.442 14.364 1.00163.03 N +ATOM 198 CA PRO G 42 57.970 -41.327 13.571 1.00169.12 C +ATOM 199 C PRO G 42 59.097 -41.988 14.349 1.00174.46 C +ATOM 200 O PRO G 42 59.989 -42.570 13.726 1.00175.33 O +ATOM 201 CB PRO G 42 58.544 -40.378 12.507 1.00167.24 C +ATOM 202 CG PRO G 42 58.553 -39.051 13.165 1.00166.69 C +ATOM 203 CD PRO G 42 57.353 -39.019 14.070 1.00161.47 C +ATOM 204 N ASP G 43 59.093 -41.920 15.683 1.00176.93 N +ATOM 205 CA ASP G 43 60.155 -42.566 16.448 1.00177.24 C +ATOM 206 C ASP G 43 59.971 -44.073 16.474 1.00177.62 C +ATOM 207 O ASP G 43 60.950 -44.820 16.582 1.00178.24 O +ATOM 208 CB ASP G 43 60.189 -42.018 17.875 1.00178.29 C +ATOM 209 CG ASP G 43 58.869 -42.212 18.620 1.00177.47 C +ATOM 210 OD1 ASP G 43 57.939 -42.851 18.076 1.00174.55 O +ATOM 211 OD2 ASP G 43 58.759 -41.712 19.756 1.00181.41 O +ATOM 212 N VAL G 44 58.719 -44.519 16.397 1.00177.12 N +ATOM 213 CA VAL G 44 58.371 -45.932 16.481 1.00177.36 C +ATOM 214 C VAL G 44 59.101 -46.704 15.395 1.00177.64 C +ATOM 215 O VAL G 44 58.950 -46.418 14.200 1.00176.60 O +ATOM 216 CB VAL G 44 56.854 -46.107 16.366 1.00172.85 C +ATOM 217 CG1 VAL G 44 56.507 -47.525 15.923 1.00170.60 C +ATOM 218 CG2 VAL G 44 56.183 -45.751 17.688 1.00168.32 C +ATOM 219 N ASN G 45 59.904 -47.682 15.808 1.00177.66 N +ATOM 220 CA ASN G 45 60.617 -48.514 14.852 1.00180.09 C +ATOM 221 C ASN G 45 59.619 -49.251 13.970 1.00184.45 C +ATOM 222 O ASN G 45 58.623 -49.797 14.453 1.00184.53 O +ATOM 223 CB ASN G 45 61.520 -49.511 15.584 1.00178.55 C +ATOM 224 CG ASN G 45 62.454 -50.262 14.644 1.00179.55 C +ATOM 225 OD1 ASN G 45 62.342 -50.161 13.421 1.00183.06 O +ATOM 226 ND2 ASN G 45 63.375 -51.031 15.215 1.00170.73 N +ATOM 227 N THR G 46 59.890 -49.259 12.662 1.00187.53 N +ATOM 228 CA THR G 46 58.955 -49.868 11.721 1.00187.00 C +ATOM 229 C THR G 46 58.878 -51.379 11.913 1.00189.17 C +ATOM 230 O THR G 46 57.788 -51.959 11.844 1.00186.50 O +ATOM 231 CB THR G 46 59.353 -49.530 10.283 1.00183.26 C +ATOM 232 OG1 THR G 46 59.642 -48.130 10.180 1.00178.29 O +ATOM 233 CG2 THR G 46 58.219 -49.871 9.323 1.00173.06 C +ATOM 234 N THR G 47 60.020 -52.027 12.157 1.00192.16 N +ATOM 235 CA THR G 47 60.119 -53.475 12.417 1.00193.05 C +ATOM 236 C THR G 47 59.381 -54.210 11.298 1.00189.20 C +ATOM 237 O THR G 47 59.644 -53.939 10.118 1.00187.57 O +ATOM 238 CB THR G 47 59.626 -53.778 13.828 1.00197.93 C +ATOM 239 OG1 THR G 47 58.212 -53.555 13.903 1.00198.40 O +ATOM 240 CG2 THR G 47 60.325 -52.895 14.845 1.00198.63 C +ATOM 241 N ASN G 48 58.468 -55.133 11.613 1.00187.77 N +ATOM 242 CA ASN G 48 57.623 -55.812 10.629 1.00183.15 C +ATOM 243 C ASN G 48 56.176 -55.606 11.076 1.00177.32 C +ATOM 244 O ASN G 48 55.569 -56.484 11.693 1.00171.99 O +ATOM 245 CB ASN G 48 57.986 -57.292 10.510 1.00188.05 C +ATOM 246 N LEU G 49 55.632 -54.433 10.767 1.00175.13 N +ATOM 247 CA LEU G 49 54.291 -54.046 11.177 1.00168.70 C +ATOM 248 C LEU G 49 53.354 -54.022 9.976 1.00162.47 C +ATOM 249 O LEU G 49 53.764 -53.722 8.851 1.00158.96 O +ATOM 250 CB LEU G 49 54.302 -52.673 11.857 1.00167.41 C +ATOM 251 CG LEU G 49 54.909 -52.606 13.259 1.00171.96 C +ATOM 252 CD1 LEU G 49 55.213 -51.169 13.647 1.00170.21 C +ATOM 253 CD2 LEU G 49 53.970 -53.238 14.268 1.00170.47 C +ATOM 254 N GLU G 50 52.087 -54.343 10.229 1.00159.78 N +ATOM 255 CA GLU G 50 51.066 -54.392 9.192 1.00155.10 C +ATOM 256 C GLU G 50 49.765 -53.827 9.739 1.00147.47 C +ATOM 257 O GLU G 50 49.455 -53.983 10.922 1.00149.54 O +ATOM 258 CB GLU G 50 50.827 -55.825 8.696 1.00160.09 C +ATOM 259 CG GLU G 50 52.057 -56.529 8.155 1.00164.58 C +ATOM 260 CD GLU G 50 52.066 -58.006 8.490 1.00168.74 C +ATOM 261 OE1 GLU G 50 51.627 -58.366 9.603 1.00167.99 O +ATOM 262 OE2 GLU G 50 52.505 -58.809 7.640 1.00172.50 O +ATOM 263 N PHE G 51 48.999 -53.182 8.866 1.00138.02 N +ATOM 264 CA PHE G 51 47.665 -52.698 9.194 1.00134.03 C +ATOM 265 C PHE G 51 46.625 -53.536 8.463 1.00131.01 C +ATOM 266 O PHE G 51 46.799 -53.870 7.287 1.00130.29 O +ATOM 267 CB PHE G 51 47.508 -51.222 8.813 1.00129.19 C +ATOM 268 CG PHE G 51 48.203 -50.270 9.744 1.00127.56 C +ATOM 269 CD1 PHE G 51 49.571 -50.080 9.666 1.00129.32 C +ATOM 270 CD2 PHE G 51 47.481 -49.523 10.662 1.00127.85 C +ATOM 271 CE1 PHE G 51 50.213 -49.197 10.511 1.00132.11 C +ATOM 272 CE2 PHE G 51 48.117 -48.630 11.505 1.00127.93 C +ATOM 273 CZ PHE G 51 49.486 -48.469 11.430 1.00132.00 C +ATOM 274 N GLU G 52 45.546 -53.879 9.164 1.00131.29 N +ATOM 275 CA GLU G 52 44.503 -54.748 8.641 1.00134.82 C +ATOM 276 C GLU G 52 43.153 -54.074 8.832 1.00135.86 C +ATOM 277 O GLU G 52 42.881 -53.505 9.893 1.00137.91 O +ATOM 278 CB GLU G 52 44.512 -56.124 9.318 1.00145.41 C +ATOM 279 CG GLU G 52 43.503 -57.104 8.732 1.00150.76 C +ATOM 280 CD GLU G 52 43.817 -58.546 9.077 1.00158.44 C +ATOM 281 OE1 GLU G 52 45.008 -58.920 9.044 1.00160.36 O +ATOM 282 OE2 GLU G 52 42.873 -59.305 9.385 1.00161.70 O +ATOM 283 N ILE G 53 42.308 -54.154 7.810 1.00133.74 N +ATOM 284 CA ILE G 53 40.974 -53.565 7.838 1.00133.70 C +ATOM 285 C ILE G 53 39.968 -54.695 7.745 1.00139.18 C +ATOM 286 O ILE G 53 39.955 -55.435 6.751 1.00141.17 O +ATOM 287 CB ILE G 53 40.743 -52.585 6.678 1.00132.33 C +ATOM 288 CG1 ILE G 53 41.711 -51.412 6.723 1.00128.98 C +ATOM 289 CG2 ILE G 53 39.302 -52.089 6.684 1.00135.03 C +ATOM 290 CD1 ILE G 53 41.648 -50.580 5.467 1.00126.96 C +ATOM 291 N CYS G 54 39.160 -54.855 8.794 1.00139.72 N +ATOM 292 CA CYS G 54 38.036 -55.781 8.789 1.00141.41 C +ATOM 293 C CYS G 54 36.751 -54.999 9.020 1.00137.25 C +ATOM 294 O CYS G 54 36.681 -54.168 9.932 1.00132.30 O +ATOM 295 CB CYS G 54 38.195 -56.864 9.860 1.00142.87 C +ATOM 296 SG CYS G 54 39.700 -57.876 9.762 1.00152.79 S +ATOM 297 N GLY G 55 35.733 -55.282 8.229 1.00140.95 N +ATOM 298 CA GLY G 55 34.485 -54.575 8.426 1.00139.24 C +ATOM 299 C GLY G 55 34.192 -53.609 7.291 1.00144.15 C +ATOM 300 O GLY G 55 35.100 -53.045 6.664 1.00147.22 O +ATOM 301 N ALA G 56 32.896 -53.390 7.049 1.00145.95 N +ATOM 302 CA ALA G 56 32.379 -52.550 5.971 1.00147.48 C +ATOM 303 C ALA G 56 33.165 -52.723 4.677 1.00148.37 C +ATOM 304 O ALA G 56 33.921 -51.833 4.278 1.00149.00 O +ATOM 305 CB ALA G 56 32.385 -51.078 6.392 1.00143.46 C +ATOM 306 N LEU G 57 32.972 -53.859 4.010 1.00150.01 N +ATOM 307 CA LEU G 57 33.612 -54.151 2.736 1.00152.66 C +ATOM 308 C LEU G 57 32.625 -54.888 1.843 1.00155.86 C +ATOM 309 O LEU G 57 31.717 -55.568 2.329 1.00163.32 O +ATOM 310 CB LEU G 57 34.886 -54.994 2.909 1.00152.95 C +ATOM 311 CG LEU G 57 36.052 -54.409 3.712 1.00151.34 C +ATOM 312 CD1 LEU G 57 37.185 -55.417 3.814 1.00151.34 C +ATOM 313 CD2 LEU G 57 36.548 -53.114 3.093 1.00151.66 C +ATOM 314 N VAL G 58 32.798 -54.733 0.530 1.00152.44 N +ATOM 315 CA VAL G 58 31.918 -55.380 -0.439 1.00153.06 C +ATOM 316 C VAL G 58 32.085 -56.886 -0.290 1.00154.75 C +ATOM 317 O VAL G 58 31.175 -57.581 0.176 1.00153.46 O +ATOM 318 CB VAL G 58 32.220 -54.920 -1.876 1.00150.34 C +ATOM 319 CG1 VAL G 58 31.345 -55.670 -2.868 1.00146.07 C +ATOM 320 CG2 VAL G 58 32.013 -53.420 -2.004 1.00148.34 C +ATOM 321 N GLU G 59 33.248 -57.401 -0.691 1.00153.74 N +ATOM 322 CA GLU G 59 33.581 -58.810 -0.494 1.00152.73 C +ATOM 323 C GLU G 59 34.085 -58.942 0.940 1.00153.46 C +ATOM 324 O GLU G 59 35.287 -58.920 1.219 1.00150.22 O +ATOM 325 CB GLU G 59 34.616 -59.275 -1.511 1.00148.62 C +ATOM 326 N VAL G 60 33.127 -59.061 1.864 1.00157.70 N +ATOM 327 CA VAL G 60 33.370 -59.127 3.305 1.00158.61 C +ATOM 328 C VAL G 60 34.567 -60.002 3.657 1.00156.95 C +ATOM 329 O VAL G 60 34.464 -61.233 3.710 1.00157.61 O +ATOM 330 CB VAL G 60 32.112 -59.617 4.048 1.00160.98 C +ATOM 331 CG1 VAL G 60 32.365 -59.664 5.548 1.00161.35 C +ATOM 332 CG2 VAL G 60 30.920 -58.721 3.737 1.00161.71 C +ATOM 333 N LYS G 61 35.714 -59.362 3.894 1.00154.33 N +ATOM 334 CA LYS G 61 36.919 -60.060 4.325 1.00153.71 C +ATOM 335 C LYS G 61 37.780 -59.119 5.162 1.00152.94 C +ATOM 336 O LYS G 61 37.250 -58.265 5.879 1.00150.34 O +ATOM 337 CB LYS G 61 37.693 -60.575 3.107 1.00148.96 C +ATOM 338 CG LYS G 61 38.167 -62.015 3.220 1.00142.61 C +ATOM 339 CD LYS G 61 38.442 -62.618 1.846 1.00136.59 C +ATOM 340 CE LYS G 61 37.161 -62.763 1.038 1.00133.06 C +ATOM 341 NZ LYS G 61 37.417 -63.275 -0.337 1.00116.74 N +ATOM 342 N CYS G 62 39.099 -59.209 5.023 1.00157.98 N +ATOM 343 CA CYS G 62 40.019 -58.284 5.668 1.00155.95 C +ATOM 344 C CYS G 62 41.150 -58.005 4.697 1.00155.17 C +ATOM 345 O CYS G 62 41.552 -58.880 3.925 1.00157.02 O +ATOM 346 CB CYS G 62 40.583 -58.815 7.001 1.00158.98 C +ATOM 347 SG CYS G 62 39.355 -59.218 8.271 1.00165.89 S +ATOM 348 N LEU G 63 41.659 -56.778 4.733 1.00143.50 N +ATOM 349 CA LEU G 63 42.690 -56.380 3.786 1.00137.35 C +ATOM 350 C LEU G 63 43.904 -55.823 4.512 1.00134.37 C +ATOM 351 O LEU G 63 43.794 -55.250 5.599 1.00135.53 O +ATOM 352 CB LEU G 63 42.174 -55.328 2.790 1.00132.23 C +ATOM 353 CG LEU G 63 41.514 -55.824 1.501 1.00131.05 C +ATOM 354 CD1 LEU G 63 40.173 -56.477 1.788 1.00136.26 C +ATOM 355 CD2 LEU G 63 41.357 -54.686 0.503 1.00125.84 C +ATOM 356 N ASN G 64 45.063 -55.993 3.882 1.00130.45 N +ATOM 357 CA ASN G 64 46.353 -55.573 4.410 1.00128.93 C +ATOM 358 C ASN G 64 46.824 -54.299 3.720 1.00125.92 C +ATOM 359 O ASN G 64 46.452 -54.018 2.578 1.00121.65 O +ATOM 360 CB ASN G 64 47.404 -56.669 4.218 1.00126.55 C +ATOM 361 CG ASN G 64 46.895 -58.044 4.599 1.00127.01 C +ATOM 362 OD1 ASN G 64 45.709 -58.229 4.870 1.00132.27 O +ATOM 363 ND2 ASN G 64 47.793 -59.023 4.612 1.00119.45 N +ATOM 364 N PHE G 65 47.674 -53.544 4.409 1.00125.62 N +ATOM 365 CA PHE G 65 48.195 -52.313 3.836 1.00123.70 C +ATOM 366 C PHE G 65 49.512 -52.573 3.119 1.00123.51 C +ATOM 367 O PHE G 65 50.214 -53.552 3.381 1.00124.59 O +ATOM 368 CB PHE G 65 48.428 -51.241 4.905 1.00124.02 C +ATOM 369 CG PHE G 65 47.188 -50.520 5.340 1.00121.77 C +ATOM 370 CD1 PHE G 65 46.075 -51.218 5.761 1.00123.30 C +ATOM 371 CD2 PHE G 65 47.135 -49.135 5.317 1.00119.22 C +ATOM 372 CE1 PHE G 65 44.944 -50.553 6.168 1.00122.76 C +ATOM 373 CE2 PHE G 65 45.997 -48.463 5.716 1.00116.97 C +ATOM 374 CZ PHE G 65 44.898 -49.175 6.141 1.00117.21 C +ATOM 375 N ARG G 66 49.840 -51.672 2.204 1.00123.92 N +ATOM 376 CA ARG G 66 51.153 -51.627 1.585 1.00128.92 C +ATOM 377 C ARG G 66 51.977 -50.532 2.245 1.00127.76 C +ATOM 378 O ARG G 66 51.443 -49.515 2.696 1.00127.60 O +ATOM 379 CB ARG G 66 51.056 -51.380 0.079 1.00130.70 C +ATOM 380 CG ARG G 66 50.498 -52.553 -0.703 1.00132.56 C +ATOM 381 CD ARG G 66 50.695 -52.360 -2.196 1.00140.20 C +ATOM 382 NE ARG G 66 52.096 -52.123 -2.533 1.00144.33 N +ATOM 383 CZ ARG G 66 53.005 -53.083 -2.670 1.00145.60 C +ATOM 384 NH1 ARG G 66 52.664 -54.352 -2.496 1.00143.43 N +ATOM 385 NH2 ARG G 66 54.257 -52.773 -2.979 1.00141.76 N +ATOM 386 N LYS G 67 53.283 -50.749 2.305 1.00123.98 N +ATOM 387 CA LYS G 67 54.182 -49.858 3.018 1.00121.61 C +ATOM 388 C LYS G 67 55.120 -49.190 2.024 1.00123.23 C +ATOM 389 O LYS G 67 55.798 -49.867 1.245 1.00128.46 O +ATOM 390 CB LYS G 67 54.982 -50.609 4.086 1.00122.60 C +ATOM 391 CG LYS G 67 55.794 -49.703 5.004 1.00123.11 C +ATOM 392 N LEU G 68 55.154 -47.862 2.069 1.00122.01 N +ATOM 393 CA LEU G 68 56.068 -47.045 1.281 1.00124.71 C +ATOM 394 C LEU G 68 56.476 -45.925 2.215 1.00121.68 C +ATOM 395 O LEU G 68 55.620 -45.149 2.653 1.00119.72 O +ATOM 396 CB LEU G 68 55.406 -46.478 0.021 1.00125.40 C +ATOM 397 CG LEU G 68 54.850 -47.401 -1.062 1.00127.44 C +ATOM 398 CD1 LEU G 68 54.200 -46.565 -2.156 1.00128.83 C +ATOM 399 CD2 LEU G 68 55.939 -48.284 -1.641 1.00123.44 C +ATOM 400 N GLN G 69 57.775 -45.840 2.515 1.00124.03 N +ATOM 401 CA GLN G 69 58.261 -44.919 3.537 1.00123.77 C +ATOM 402 C GLN G 69 57.551 -45.262 4.848 1.00122.37 C +ATOM 403 O GLN G 69 56.827 -46.259 4.921 1.00122.51 O +ATOM 404 CB GLN G 69 58.042 -43.458 3.128 1.00124.29 C +ATOM 405 N GLU G 70 57.799 -44.506 5.914 1.00122.09 N +ATOM 406 CA GLU G 70 57.127 -44.770 7.185 1.00123.68 C +ATOM 407 C GLU G 70 55.629 -44.457 7.156 1.00120.37 C +ATOM 408 O GLU G 70 55.114 -43.841 8.095 1.00115.98 O +ATOM 409 CB GLU G 70 57.800 -43.978 8.307 1.00121.87 C +ATOM 410 N ILE G 71 54.917 -44.874 6.102 1.00120.61 N +ATOM 411 CA ILE G 71 53.490 -44.603 5.942 1.00119.98 C +ATOM 412 C ILE G 71 52.808 -45.825 5.329 1.00119.76 C +ATOM 413 O ILE G 71 53.397 -46.542 4.513 1.00122.70 O +ATOM 414 CB ILE G 71 53.244 -43.333 5.084 1.00120.15 C +ATOM 415 CG1 ILE G 71 53.857 -42.098 5.751 1.00119.88 C +ATOM 416 CG2 ILE G 71 51.759 -43.092 4.861 1.00117.93 C +ATOM 417 CD1 ILE G 71 53.528 -40.790 5.063 1.00112.96 C +ATOM 418 N TYR G 72 51.549 -46.055 5.717 1.00116.26 N +ATOM 419 CA TYR G 72 50.772 -47.220 5.295 1.00117.59 C +ATOM 420 C TYR G 72 49.545 -46.777 4.511 1.00115.13 C +ATOM 421 O TYR G 72 48.867 -45.831 4.906 1.00112.33 O +ATOM 422 CB TYR G 72 50.334 -48.074 6.488 1.00119.95 C +ATOM 423 CG TYR G 72 51.452 -48.796 7.199 1.00124.61 C +ATOM 424 CD1 TYR G 72 52.305 -48.129 8.068 1.00126.55 C +ATOM 425 CD2 TYR G 72 51.648 -50.157 7.003 1.00128.14 C +ATOM 426 CE1 TYR G 72 53.324 -48.801 8.719 1.00129.93 C +ATOM 427 CE2 TYR G 72 52.659 -50.834 7.647 1.00133.89 C +ATOM 428 CZ TYR G 72 53.495 -50.154 8.503 1.00136.59 C +ATOM 429 OH TYR G 72 54.504 -50.835 9.143 1.00144.09 O +ATOM 430 N PHE G 73 49.310 -47.399 3.356 1.00117.25 N +ATOM 431 CA PHE G 73 48.174 -47.047 2.513 1.00117.76 C +ATOM 432 C PHE G 73 47.501 -48.300 1.964 1.00119.42 C +ATOM 433 O PHE G 73 48.107 -49.370 1.877 1.00121.50 O +ATOM 434 CB PHE G 73 48.603 -46.159 1.342 1.00119.16 C +ATOM 435 CG PHE G 73 49.415 -46.884 0.316 1.00124.71 C +ATOM 436 CD1 PHE G 73 50.747 -47.171 0.552 1.00126.52 C +ATOM 437 CD2 PHE G 73 48.846 -47.298 -0.876 1.00129.18 C +ATOM 438 CE1 PHE G 73 51.496 -47.849 -0.381 1.00129.04 C +ATOM 439 CE2 PHE G 73 49.594 -47.977 -1.816 1.00136.84 C +ATOM 440 CZ PHE G 73 50.922 -48.251 -1.569 1.00134.93 C +ATOM 441 N ILE G 74 46.226 -48.151 1.603 1.00116.49 N +ATOM 442 CA ILE G 74 45.497 -49.143 0.819 1.00116.02 C +ATOM 443 C ILE G 74 44.791 -48.414 -0.315 1.00118.43 C +ATOM 444 O ILE G 74 44.144 -47.385 -0.087 1.00117.63 O +ATOM 445 CB ILE G 74 44.467 -49.915 1.671 1.00117.08 C +ATOM 446 CG1 ILE G 74 45.117 -51.075 2.420 1.00119.12 C +ATOM 447 CG2 ILE G 74 43.325 -50.436 0.809 1.00120.01 C +ATOM 448 CD1 ILE G 74 44.103 -52.013 3.060 1.00122.46 C +ATOM 449 N GLU G 75 44.906 -48.947 -1.532 1.00124.26 N +ATOM 450 CA GLU G 75 44.193 -48.435 -2.702 1.00127.29 C +ATOM 451 C GLU G 75 43.270 -49.553 -3.175 1.00127.80 C +ATOM 452 O GLU G 75 43.727 -50.517 -3.798 1.00131.24 O +ATOM 453 CB GLU G 75 45.162 -48.004 -3.799 1.00132.18 C +ATOM 454 CG GLU G 75 46.350 -47.194 -3.304 1.00132.65 C +ATOM 455 CD GLU G 75 47.290 -46.791 -4.424 1.00143.22 C +ATOM 456 OE1 GLU G 75 46.797 -46.384 -5.498 1.00146.85 O +ATOM 457 OE2 GLU G 75 48.521 -46.886 -4.236 1.00140.95 O +ATOM 458 N THR G 76 41.975 -49.432 -2.891 1.00127.29 N +ATOM 459 CA THR G 76 41.044 -50.501 -3.226 1.00128.72 C +ATOM 460 C THR G 76 39.679 -49.905 -3.548 1.00129.81 C +ATOM 461 O THR G 76 39.353 -48.783 -3.146 1.00129.46 O +ATOM 462 CB THR G 76 40.958 -51.537 -2.090 1.00129.79 C +ATOM 463 OG1 THR G 76 42.279 -51.968 -1.741 1.00132.34 O +ATOM 464 CG2 THR G 76 40.161 -52.766 -2.514 1.00129.27 C +ATOM 465 N LYS G 77 38.898 -50.662 -4.320 1.00132.59 N +ATOM 466 CA LYS G 77 37.552 -50.264 -4.704 1.00133.90 C +ATOM 467 C LYS G 77 36.491 -50.789 -3.746 1.00137.16 C +ATOM 468 O LYS G 77 35.435 -50.162 -3.600 1.00136.25 O +ATOM 469 CB LYS G 77 37.240 -50.769 -6.116 1.00131.60 C +ATOM 470 CG LYS G 77 38.380 -50.603 -7.107 1.00130.31 C +ATOM 471 CD LYS G 77 38.515 -51.830 -7.996 1.00125.46 C +ATOM 472 CE LYS G 77 39.012 -53.033 -7.207 1.00120.01 C +ATOM 473 NZ LYS G 77 40.382 -52.814 -6.665 1.00114.93 N +ATOM 474 N LYS G 78 36.745 -51.921 -3.090 1.00139.65 N +ATOM 475 CA LYS G 78 35.759 -52.554 -2.214 1.00145.26 C +ATOM 476 C LYS G 78 35.711 -51.809 -0.885 1.00146.67 C +ATOM 477 O LYS G 78 36.416 -52.141 0.069 1.00147.57 O +ATOM 478 CB LYS G 78 36.091 -54.027 -2.012 1.00146.15 C +ATOM 479 N PHE G 79 34.861 -50.785 -0.827 1.00146.69 N +ATOM 480 CA PHE G 79 34.639 -49.996 0.377 1.00145.53 C +ATOM 481 C PHE G 79 33.151 -49.696 0.496 1.00147.57 C +ATOM 482 O PHE G 79 32.490 -49.402 -0.504 1.00149.80 O +ATOM 483 CB PHE G 79 35.449 -48.689 0.357 1.00141.71 C +ATOM 484 CG PHE G 79 36.880 -48.846 0.807 1.00139.69 C +ATOM 485 CD1 PHE G 79 37.838 -49.382 -0.040 1.00138.91 C +ATOM 486 CD2 PHE G 79 37.269 -48.440 2.073 1.00137.45 C +ATOM 487 CE1 PHE G 79 39.153 -49.522 0.375 1.00137.10 C +ATOM 488 CE2 PHE G 79 38.580 -48.576 2.492 1.00134.40 C +ATOM 489 CZ PHE G 79 39.523 -49.117 1.642 1.00134.53 C +ATOM 490 N LEU G 80 32.628 -49.769 1.717 1.00144.48 N +ATOM 491 CA LEU G 80 31.236 -49.452 1.996 1.00143.62 C +ATOM 492 C LEU G 80 31.129 -48.020 2.533 1.00142.41 C +ATOM 493 O LEU G 80 32.055 -47.217 2.380 1.00141.36 O +ATOM 494 CB LEU G 80 30.663 -50.505 2.950 1.00146.16 C +ATOM 495 CG LEU G 80 30.416 -51.877 2.313 1.00148.02 C +ATOM 496 CD1 LEU G 80 29.750 -52.825 3.295 1.00146.81 C +ATOM 497 CD2 LEU G 80 29.584 -51.750 1.043 1.00141.61 C +ATOM 498 N LEU G 81 30.014 -47.700 3.195 1.00144.59 N +ATOM 499 CA LEU G 81 29.808 -46.361 3.739 1.00144.43 C +ATOM 500 C LEU G 81 28.984 -46.406 5.017 1.00147.43 C +ATOM 501 O LEU G 81 29.017 -45.465 5.815 1.00146.79 O +ATOM 502 CB LEU G 81 29.101 -45.455 2.724 1.00142.36 C +ATOM 503 CG LEU G 81 29.708 -45.086 1.371 1.00139.48 C +ATOM 504 CD1 LEU G 81 28.756 -44.157 0.645 1.00135.94 C +ATOM 505 CD2 LEU G 81 31.072 -44.434 1.515 1.00136.25 C +ATOM 506 N ILE G 82 28.238 -47.486 5.220 1.00150.08 N +ATOM 507 CA ILE G 82 27.420 -47.659 6.412 1.00154.43 C +ATOM 508 C ILE G 82 28.080 -48.725 7.271 1.00151.39 C +ATOM 509 O ILE G 82 28.313 -49.848 6.807 1.00151.87 O +ATOM 510 CB ILE G 82 25.975 -48.056 6.061 1.00155.72 C +ATOM 511 CG1 ILE G 82 25.339 -47.019 5.133 1.00149.25 C +ATOM 512 CG2 ILE G 82 25.150 -48.204 7.324 1.00158.87 C +ATOM 513 CD1 ILE G 82 23.933 -47.370 4.697 1.00142.51 C +ATOM 514 N GLY G 83 28.362 -48.385 8.517 1.00147.79 N +ATOM 515 CA GLY G 83 28.981 -49.330 9.430 1.00147.95 C +ATOM 516 C GLY G 83 30.427 -48.948 9.694 1.00141.17 C +ATOM 517 O GLY G 83 31.139 -48.464 8.805 1.00140.48 O +ATOM 518 N LYS G 84 30.866 -49.165 10.929 1.00136.34 N +ATOM 519 CA LYS G 84 32.239 -48.904 11.327 1.00132.69 C +ATOM 520 C LYS G 84 33.145 -50.048 10.878 1.00133.07 C +ATOM 521 O LYS G 84 32.683 -51.136 10.523 1.00134.70 O +ATOM 522 CB LYS G 84 32.329 -48.721 12.841 1.00133.32 C +ATOM 523 CG LYS G 84 31.280 -47.778 13.412 1.00133.68 C +ATOM 524 CD LYS G 84 31.232 -47.862 14.929 1.00134.20 C +ATOM 525 CE LYS G 84 30.079 -47.050 15.497 1.00135.84 C +ATOM 526 NZ LYS G 84 30.236 -45.591 15.240 1.00137.70 N +ATOM 527 N SER G 85 34.453 -49.791 10.891 1.00131.11 N +ATOM 528 CA SER G 85 35.446 -50.775 10.487 1.00130.70 C +ATOM 529 C SER G 85 36.560 -50.803 11.520 1.00128.18 C +ATOM 530 O SER G 85 36.984 -49.754 12.020 1.00128.78 O +ATOM 531 CB SER G 85 36.028 -50.455 9.106 1.00131.74 C +ATOM 532 OG SER G 85 35.017 -50.427 8.116 1.00134.88 O +ATOM 533 N ASN G 86 37.026 -52.007 11.841 1.00128.93 N +ATOM 534 CA ASN G 86 38.140 -52.187 12.758 1.00130.51 C +ATOM 535 C ASN G 86 39.450 -52.198 11.980 1.00130.66 C +ATOM 536 O ASN G 86 39.668 -53.066 11.121 1.00132.13 O +ATOM 537 CB ASN G 86 37.981 -53.476 13.565 1.00129.59 C +ATOM 538 CG ASN G 86 37.235 -53.260 14.870 1.00130.22 C +ATOM 539 OD1 ASN G 86 37.838 -52.952 15.899 1.00134.05 O +ATOM 540 ND2 ASN G 86 35.918 -53.422 14.834 1.00124.25 N +ATOM 541 N ILE G 87 40.303 -51.220 12.266 1.00131.18 N +ATOM 542 CA ILE G 87 41.660 -51.169 11.743 1.00132.66 C +ATOM 543 C ILE G 87 42.561 -51.644 12.873 1.00139.93 C +ATOM 544 O ILE G 87 42.674 -50.981 13.910 1.00143.12 O +ATOM 545 CB ILE G 87 42.040 -49.760 11.271 1.00129.14 C +ATOM 546 CG1 ILE G 87 41.098 -49.299 10.156 1.00123.78 C +ATOM 547 CG2 ILE G 87 43.487 -49.727 10.805 1.00127.60 C +ATOM 548 CD1 ILE G 87 41.357 -47.886 9.685 1.00111.92 C +ATOM 549 N CYS G 88 43.173 -52.809 12.688 1.00143.00 N +ATOM 550 CA CYS G 88 44.009 -53.435 13.703 1.00145.43 C +ATOM 551 C CYS G 88 45.416 -53.651 13.168 1.00142.58 C +ATOM 552 O CYS G 88 45.596 -54.148 12.052 1.00142.79 O +ATOM 553 CB CYS G 88 43.417 -54.770 14.164 1.00150.84 C +ATOM 554 SG CYS G 88 41.806 -54.673 14.992 1.00146.99 S +ATOM 555 N VAL G 89 46.406 -53.257 13.956 1.00144.87 N +ATOM 556 CA VAL G 89 47.798 -53.509 13.615 1.00148.06 C +ATOM 557 C VAL G 89 48.134 -54.934 14.028 1.00154.79 C +ATOM 558 O VAL G 89 47.927 -55.326 15.182 1.00155.31 O +ATOM 559 CB VAL G 89 48.721 -52.491 14.303 1.00142.83 C +ATOM 560 CG1 VAL G 89 50.164 -52.713 13.883 1.00146.95 C +ATOM 561 CG2 VAL G 89 48.274 -51.077 13.981 1.00138.34 C +ATOM 562 N LYS G 90 48.647 -55.714 13.084 1.00161.19 N +ATOM 563 CA LYS G 90 48.951 -57.120 13.304 1.00165.57 C +ATOM 564 C LYS G 90 50.433 -57.365 13.067 1.00167.39 C +ATOM 565 O LYS G 90 50.972 -56.976 12.025 1.00170.22 O +ATOM 566 CB LYS G 90 48.104 -58.012 12.388 1.00168.14 C +ATOM 567 CG LYS G 90 46.612 -57.716 12.458 1.00164.88 C +ATOM 568 CD LYS G 90 45.779 -58.955 12.172 1.00168.17 C +ATOM 569 CE LYS G 90 44.319 -58.724 12.528 1.00168.12 C +ATOM 570 NZ LYS G 90 43.515 -59.971 12.412 1.00170.69 N +ATOM 571 N VAL G 91 51.084 -57.999 14.035 1.00167.63 N +ATOM 572 CA VAL G 91 52.477 -58.414 13.925 1.00166.99 C +ATOM 573 C VAL G 91 52.462 -59.929 13.773 1.00169.07 C +ATOM 574 O VAL G 91 52.371 -60.665 14.762 1.00168.70 O +ATOM 575 CB VAL G 91 53.308 -57.979 15.137 1.00157.85 C +ATOM 576 CG1 VAL G 91 54.788 -58.242 14.888 1.00145.03 C +ATOM 577 CG2 VAL G 91 53.061 -56.514 15.453 1.00155.04 C +ATOM 578 N GLY G 92 52.548 -60.403 12.533 1.00169.49 N +ATOM 579 CA GLY G 92 52.379 -61.817 12.263 1.00170.85 C +ATOM 580 C GLY G 92 50.916 -62.205 12.270 1.00172.85 C +ATOM 581 O GLY G 92 50.368 -62.615 11.242 1.00172.92 O +ATOM 582 N GLU G 93 50.272 -62.074 13.428 1.00172.33 N +ATOM 583 CA GLU G 93 48.841 -62.315 13.557 1.00173.80 C +ATOM 584 C GLU G 93 48.345 -61.632 14.825 1.00174.76 C +ATOM 585 O GLU G 93 49.079 -60.886 15.480 1.00176.04 O +ATOM 586 CB GLU G 93 48.523 -63.813 13.571 1.00174.42 C +ATOM 587 CG GLU G 93 47.842 -64.301 12.304 1.00170.92 C +ATOM 588 CD GLU G 93 46.558 -63.548 12.008 1.00167.30 C +ATOM 589 OE1 GLU G 93 45.806 -63.251 12.960 1.00165.87 O +ATOM 590 OE2 GLU G 93 46.306 -63.244 10.823 1.00165.52 O +ATOM 591 N LYS G 94 47.076 -61.896 15.158 1.00171.97 N +ATOM 592 CA LYS G 94 46.391 -61.323 16.313 1.00171.36 C +ATOM 593 C LYS G 94 46.262 -59.811 16.181 1.00169.50 C +ATOM 594 O LYS G 94 46.804 -59.213 15.247 1.00170.31 O +ATOM 595 CB LYS G 94 47.113 -61.686 17.614 1.00172.77 C +ATOM 596 N SER G 95 45.545 -59.182 17.101 1.00165.71 N +ATOM 597 CA SER G 95 45.350 -57.737 17.074 1.00162.69 C +ATOM 598 C SER G 95 46.214 -57.126 18.174 1.00160.22 C +ATOM 599 O SER G 95 46.039 -57.429 19.359 1.00163.15 O +ATOM 600 CB SER G 95 43.876 -57.397 17.251 1.00165.01 C +ATOM 601 OG SER G 95 43.451 -57.696 18.566 1.00167.26 O +ATOM 602 N LEU G 96 47.131 -56.244 17.773 1.00154.76 N +ATOM 603 CA LEU G 96 47.973 -55.545 18.738 1.00148.58 C +ATOM 604 C LEU G 96 47.273 -54.284 19.225 1.00149.05 C +ATOM 605 O LEU G 96 47.049 -54.103 20.428 1.00149.95 O +ATOM 606 CB LEU G 96 49.336 -55.226 18.118 1.00140.91 C +ATOM 607 CG LEU G 96 50.381 -54.616 19.058 1.00136.81 C +ATOM 608 CD1 LEU G 96 50.592 -55.487 20.291 1.00137.09 C +ATOM 609 CD2 LEU G 96 51.702 -54.376 18.338 1.00134.06 C +ATOM 610 N THR G 97 46.940 -53.390 18.304 1.00149.33 N +ATOM 611 CA THR G 97 46.193 -52.187 18.625 1.00147.56 C +ATOM 612 C THR G 97 45.099 -52.052 17.582 1.00146.24 C +ATOM 613 O THR G 97 45.364 -52.178 16.384 1.00146.77 O +ATOM 614 CB THR G 97 47.099 -50.954 18.627 1.00145.26 C +ATOM 615 OG1 THR G 97 48.186 -51.165 19.537 1.00151.86 O +ATOM 616 CG2 THR G 97 46.321 -49.724 19.048 1.00144.70 C +ATOM 617 N CYS G 98 43.878 -51.786 18.031 1.00144.28 N +ATOM 618 CA CYS G 98 42.728 -51.679 17.150 1.00142.34 C +ATOM 619 C CYS G 98 42.041 -50.337 17.337 1.00139.78 C +ATOM 620 O CYS G 98 42.117 -49.721 18.404 1.00138.37 O +ATOM 621 CB CYS G 98 41.705 -52.798 17.386 1.00145.21 C +ATOM 622 SG CYS G 98 42.245 -54.462 16.967 1.00162.74 S +ATOM 623 N LYS G 99 41.372 -49.896 16.277 1.00139.54 N +ATOM 624 CA LYS G 99 40.561 -48.687 16.314 1.00134.59 C +ATOM 625 C LYS G 99 39.335 -48.918 15.448 1.00134.17 C +ATOM 626 O LYS G 99 39.461 -49.291 14.277 1.00134.76 O +ATOM 627 CB LYS G 99 41.352 -47.470 15.823 1.00131.62 C +ATOM 628 N LYS G 100 38.154 -48.723 16.029 1.00131.09 N +ATOM 629 CA LYS G 100 36.893 -48.860 15.302 1.00131.29 C +ATOM 630 C LYS G 100 36.519 -47.479 14.782 1.00135.14 C +ATOM 631 O LYS G 100 35.987 -46.646 15.519 1.00142.44 O +ATOM 632 CB LYS G 100 35.808 -49.442 16.201 1.00127.71 C +ATOM 633 N ILE G 101 36.798 -47.236 13.505 1.00134.22 N +ATOM 634 CA ILE G 101 36.606 -45.924 12.901 1.00132.09 C +ATOM 635 C ILE G 101 35.667 -46.061 11.711 1.00128.91 C +ATOM 636 O ILE G 101 35.570 -47.125 11.091 1.00129.60 O +ATOM 637 CB ILE G 101 37.963 -45.303 12.488 1.00130.77 C +ATOM 638 CG1 ILE G 101 38.898 -45.228 13.699 1.00136.38 C +ATOM 639 CG2 ILE G 101 37.788 -43.914 11.888 1.00125.20 C +ATOM 640 CD1 ILE G 101 40.241 -44.598 13.402 1.00141.76 C +ATOM 641 N ASP G 102 34.942 -44.985 11.415 1.00125.83 N +ATOM 642 CA ASP G 102 34.056 -44.955 10.262 1.00121.50 C +ATOM 643 C ASP G 102 34.792 -44.360 9.069 1.00115.98 C +ATOM 644 O ASP G 102 35.493 -43.352 9.193 1.00111.93 O +ATOM 645 CB ASP G 102 32.795 -44.144 10.566 1.00120.36 C +ATOM 646 CG ASP G 102 31.725 -44.307 9.503 1.00119.60 C +ATOM 647 OD1 ASP G 102 31.942 -45.078 8.544 1.00123.28 O +ATOM 648 OD2 ASP G 102 30.661 -43.664 9.628 1.00119.42 O +ATOM 649 N LEU G 103 34.625 -44.996 7.907 1.00117.22 N +ATOM 650 CA LEU G 103 35.283 -44.532 6.692 1.00111.88 C +ATOM 651 C LEU G 103 34.739 -43.197 6.202 1.00108.87 C +ATOM 652 O LEU G 103 35.445 -42.481 5.484 1.00104.92 O +ATOM 653 CB LEU G 103 35.142 -45.584 5.592 1.00113.48 C +ATOM 654 CG LEU G 103 35.943 -46.866 5.806 1.00114.60 C +ATOM 655 CD1 LEU G 103 35.377 -47.999 4.969 1.00123.31 C +ATOM 656 CD2 LEU G 103 37.399 -46.623 5.462 1.00107.91 C +ATOM 657 N THR G 104 33.511 -42.846 6.572 1.00109.18 N +ATOM 658 CA THR G 104 32.881 -41.616 6.115 1.00105.86 C +ATOM 659 C THR G 104 33.124 -40.435 7.046 1.00102.87 C +ATOM 660 O THR G 104 32.628 -39.337 6.769 1.00100.51 O +ATOM 661 CB THR G 104 31.373 -41.829 5.943 1.00109.95 C +ATOM 662 OG1 THR G 104 30.802 -42.245 7.189 1.00114.56 O +ATOM 663 CG2 THR G 104 31.104 -42.895 4.892 1.00116.93 C +ATOM 664 N THR G 105 33.867 -40.625 8.135 1.00100.23 N +ATOM 665 CA THR G 105 34.146 -39.552 9.081 1.00 95.48 C +ATOM 666 C THR G 105 35.614 -39.142 9.096 1.00 91.19 C +ATOM 667 O THR G 105 36.033 -38.413 10.001 1.00 91.38 O +ATOM 668 CB THR G 105 33.703 -39.958 10.488 1.00102.25 C +ATOM 669 OG1 THR G 105 34.356 -41.177 10.865 1.00105.50 O +ATOM 670 CG2 THR G 105 32.195 -40.160 10.534 1.00102.44 C +ATOM 671 N ILE G 106 36.404 -39.585 8.118 1.00 89.07 N +ATOM 672 CA ILE G 106 37.823 -39.251 8.057 1.00 87.50 C +ATOM 673 C ILE G 106 38.206 -38.910 6.622 1.00 84.04 C +ATOM 674 O ILE G 106 39.307 -39.239 6.168 1.00 83.08 O +ATOM 675 CB ILE G 106 38.700 -40.397 8.598 1.00 90.05 C +ATOM 676 CG1 ILE G 106 38.363 -41.714 7.895 1.00 91.80 C +ATOM 677 CG2 ILE G 106 38.547 -40.530 10.108 1.00 89.86 C +ATOM 678 CD1 ILE G 106 39.315 -42.842 8.227 1.00 90.15 C +ATOM 679 N VAL G 107 37.313 -38.238 5.904 1.00 84.40 N +ATOM 680 CA VAL G 107 37.519 -37.984 4.483 1.00 79.29 C +ATOM 681 C VAL G 107 38.402 -36.756 4.303 1.00 75.67 C +ATOM 682 O VAL G 107 38.208 -35.725 4.957 1.00 74.12 O +ATOM 683 CB VAL G 107 36.169 -37.813 3.764 1.00 77.74 C +ATOM 684 CG1 VAL G 107 36.384 -37.546 2.282 1.00 76.96 C +ATOM 685 CG2 VAL G 107 35.306 -39.048 3.964 1.00 86.42 C +ATOM 686 N LYS G 108 39.375 -36.867 3.406 1.00 74.85 N +ATOM 687 CA LYS G 108 40.253 -35.752 3.051 1.00 70.91 C +ATOM 688 C LYS G 108 40.056 -35.412 1.582 1.00 70.63 C +ATOM 689 O LYS G 108 40.413 -36.227 0.709 1.00 71.60 O +ATOM 690 CB LYS G 108 41.714 -36.102 3.331 1.00 70.95 C +ATOM 691 CG LYS G 108 42.688 -34.957 3.105 1.00 67.27 C +ATOM 692 CD LYS G 108 44.122 -35.405 3.335 1.00 72.06 C +ATOM 693 CE LYS G 108 45.102 -34.259 3.143 1.00 73.51 C +ATOM 694 NZ LYS G 108 46.516 -34.714 3.260 1.00 81.89 N +ATOM 695 N PRO G 109 39.488 -34.254 1.251 1.00 67.43 N +ATOM 696 CA PRO G 109 39.266 -33.918 -0.158 1.00 66.08 C +ATOM 697 C PRO G 109 40.576 -33.758 -0.911 1.00 68.10 C +ATOM 698 O PRO G 109 41.653 -33.621 -0.326 1.00 68.99 O +ATOM 699 CB PRO G 109 38.505 -32.587 -0.096 1.00 66.94 C +ATOM 700 CG PRO G 109 37.982 -32.498 1.277 1.00 67.30 C +ATOM 701 CD PRO G 109 38.957 -33.221 2.151 1.00 67.37 C +ATOM 702 N GLU G 110 40.475 -33.804 -2.235 1.00 69.09 N +ATOM 703 CA GLU G 110 41.619 -33.506 -3.079 1.00 67.77 C +ATOM 704 C GLU G 110 41.827 -31.999 -3.151 1.00 63.29 C +ATOM 705 O GLU G 110 40.867 -31.223 -3.153 1.00 63.90 O +ATOM 706 CB GLU G 110 41.430 -34.088 -4.479 1.00 71.88 C +ATOM 707 CG GLU G 110 41.371 -35.606 -4.506 1.00 78.92 C +ATOM 708 CD GLU G 110 41.248 -36.161 -5.911 1.00 93.91 C +ATOM 709 OE1 GLU G 110 40.109 -36.358 -6.378 1.00 94.05 O +ATOM 710 OE2 GLU G 110 42.294 -36.382 -6.556 1.00102.72 O +ATOM 711 N ALA G 111 43.090 -31.593 -3.196 1.00 60.39 N +ATOM 712 CA ALA G 111 43.421 -30.177 -3.194 1.00 59.69 C +ATOM 713 C ALA G 111 42.857 -29.500 -4.440 1.00 60.93 C +ATOM 714 O ALA G 111 42.945 -30.054 -5.543 1.00 69.85 O +ATOM 715 CB ALA G 111 44.937 -29.982 -3.133 1.00 62.17 C +ATOM 716 N PRO G 112 42.252 -28.320 -4.303 1.00 56.33 N +ATOM 717 CA PRO G 112 41.810 -27.572 -5.485 1.00 60.22 C +ATOM 718 C PRO G 112 42.983 -27.252 -6.401 1.00 59.91 C +ATOM 719 O PRO G 112 44.154 -27.412 -6.052 1.00 59.44 O +ATOM 720 CB PRO G 112 41.197 -26.298 -4.893 1.00 56.60 C +ATOM 721 CG PRO G 112 40.809 -26.679 -3.505 1.00 56.18 C +ATOM 722 CD PRO G 112 41.851 -27.660 -3.050 1.00 58.40 C +ATOM 723 N PHE G 113 42.652 -26.782 -7.600 1.00 57.26 N +ATOM 724 CA PHE G 113 43.666 -26.515 -8.607 1.00 58.75 C +ATOM 725 C PHE G 113 43.175 -25.409 -9.529 1.00 57.66 C +ATOM 726 O PHE G 113 42.031 -24.956 -9.439 1.00 57.92 O +ATOM 727 CB PHE G 113 44.013 -27.778 -9.404 1.00 57.19 C +ATOM 728 CG PHE G 113 42.822 -28.455 -10.022 1.00 57.93 C +ATOM 729 CD1 PHE G 113 42.057 -29.349 -9.290 1.00 58.08 C +ATOM 730 CD2 PHE G 113 42.467 -28.197 -11.336 1.00 60.87 C +ATOM 731 CE1 PHE G 113 40.962 -29.973 -9.857 1.00 62.79 C +ATOM 732 CE2 PHE G 113 41.373 -28.817 -11.908 1.00 62.98 C +ATOM 733 CZ PHE G 113 40.619 -29.706 -11.168 1.00 67.46 C +ATOM 734 N ASP G 114 44.068 -24.983 -10.424 1.00 55.42 N +ATOM 735 CA ASP G 114 43.780 -23.928 -11.396 1.00 57.13 C +ATOM 736 C ASP G 114 43.333 -22.644 -10.701 1.00 55.94 C +ATOM 737 O ASP G 114 42.379 -21.987 -11.123 1.00 54.28 O +ATOM 738 CB ASP G 114 42.735 -24.388 -12.417 1.00 58.59 C +ATOM 739 CG ASP G 114 43.250 -25.491 -13.322 1.00 57.84 C +ATOM 740 OD1 ASP G 114 44.485 -25.641 -13.439 1.00 57.32 O +ATOM 741 OD2 ASP G 114 42.419 -26.207 -13.918 1.00 62.65 O +ATOM 742 N LEU G 115 44.033 -22.279 -9.629 1.00 53.78 N +ATOM 743 CA LEU G 115 43.726 -21.042 -8.927 1.00 50.51 C +ATOM 744 C LEU G 115 44.181 -19.839 -9.741 1.00 54.65 C +ATOM 745 O LEU G 115 45.273 -19.833 -10.316 1.00 57.61 O +ATOM 746 CB LEU G 115 44.393 -21.028 -7.553 1.00 50.05 C +ATOM 747 CG LEU G 115 44.122 -19.778 -6.714 1.00 52.70 C +ATOM 748 CD1 LEU G 115 42.640 -19.646 -6.409 1.00 52.82 C +ATOM 749 CD2 LEU G 115 44.935 -19.808 -5.433 1.00 53.30 C +ATOM 750 N SER G 116 43.343 -18.806 -9.773 1.00 54.68 N +ATOM 751 CA SER G 116 43.605 -17.643 -10.603 1.00 54.04 C +ATOM 752 C SER G 116 42.938 -16.421 -9.993 1.00 53.55 C +ATOM 753 O SER G 116 41.865 -16.514 -9.392 1.00 52.79 O +ATOM 754 CB SER G 116 43.100 -17.857 -12.035 1.00 56.50 C +ATOM 755 OG SER G 116 43.139 -16.651 -12.777 1.00 62.64 O +ATOM 756 N VAL G 117 43.589 -15.272 -10.160 1.00 51.57 N +ATOM 757 CA VAL G 117 43.059 -13.981 -9.741 1.00 52.35 C +ATOM 758 C VAL G 117 43.157 -13.039 -10.930 1.00 55.17 C +ATOM 759 O VAL G 117 44.212 -12.949 -11.568 1.00 57.92 O +ATOM 760 CB VAL G 117 43.820 -13.406 -8.530 1.00 52.79 C +ATOM 761 CG1 VAL G 117 43.244 -12.055 -8.131 1.00 51.38 C +ATOM 762 CG2 VAL G 117 43.772 -14.373 -7.357 1.00 51.72 C +ATOM 763 N VAL G 118 42.065 -12.341 -11.229 1.00 54.47 N +ATOM 764 CA VAL G 118 41.999 -11.454 -12.384 1.00 53.04 C +ATOM 765 C VAL G 118 41.446 -10.109 -11.942 1.00 50.55 C +ATOM 766 O VAL G 118 40.368 -10.043 -11.344 1.00 52.16 O +ATOM 767 CB VAL G 118 41.130 -12.042 -13.510 1.00 54.11 C +ATOM 768 CG1 VAL G 118 41.065 -11.071 -14.671 1.00 57.46 C +ATOM 769 CG2 VAL G 118 41.679 -13.387 -13.956 1.00 58.55 C +ATOM 770 N TYR G 119 42.171 -9.040 -12.252 1.00 51.55 N +ATOM 771 CA TYR G 119 41.745 -7.690 -11.911 1.00 52.31 C +ATOM 772 C TYR G 119 40.849 -7.132 -13.010 1.00 54.49 C +ATOM 773 O TYR G 119 41.226 -7.132 -14.187 1.00 53.15 O +ATOM 774 CB TYR G 119 42.960 -6.785 -11.706 1.00 50.85 C +ATOM 775 CG TYR G 119 42.619 -5.327 -11.516 1.00 54.29 C +ATOM 776 CD1 TYR G 119 41.922 -4.899 -10.395 1.00 55.01 C +ATOM 777 CD2 TYR G 119 43.001 -4.376 -12.454 1.00 54.42 C +ATOM 778 CE1 TYR G 119 41.609 -3.568 -10.215 1.00 56.94 C +ATOM 779 CE2 TYR G 119 42.694 -3.039 -12.281 1.00 58.41 C +ATOM 780 CZ TYR G 119 41.997 -2.641 -11.159 1.00 59.79 C +ATOM 781 OH TYR G 119 41.687 -1.312 -10.980 1.00 62.41 O +ATOM 782 N ARG G 120 39.666 -6.656 -12.623 1.00 53.46 N +ATOM 783 CA ARG G 120 38.729 -6.029 -13.549 1.00 54.61 C +ATOM 784 C ARG G 120 38.820 -4.518 -13.364 1.00 58.03 C +ATOM 785 O ARG G 120 38.344 -3.979 -12.359 1.00 59.93 O +ATOM 786 CB ARG G 120 37.307 -6.535 -13.319 1.00 54.02 C +ATOM 787 CG ARG G 120 37.144 -8.031 -13.539 1.00 53.93 C +ATOM 788 CD ARG G 120 35.678 -8.430 -13.604 1.00 56.21 C +ATOM 789 NE ARG G 120 35.020 -8.309 -12.307 1.00 63.39 N +ATOM 790 CZ ARG G 120 33.709 -8.429 -12.121 1.00 67.61 C +ATOM 791 NH1 ARG G 120 32.912 -8.678 -13.151 1.00 69.97 N +ATOM 792 NH2 ARG G 120 33.197 -8.304 -10.904 1.00 71.06 N +ATOM 793 N GLU G 121 39.442 -3.843 -14.334 1.00 58.77 N +ATOM 794 CA GLU G 121 39.674 -2.406 -14.222 1.00 60.71 C +ATOM 795 C GLU G 121 38.365 -1.634 -14.103 1.00 61.90 C +ATOM 796 O GLU G 121 38.296 -0.620 -13.398 1.00 64.59 O +ATOM 797 CB GLU G 121 40.486 -1.919 -15.423 1.00 62.86 C +ATOM 798 CG GLU G 121 40.928 -0.467 -15.343 1.00 68.59 C +ATOM 799 CD GLU G 121 41.888 -0.091 -16.457 1.00 74.29 C +ATOM 800 OE1 GLU G 121 41.618 0.898 -17.171 1.00 67.97 O +ATOM 801 OE2 GLU G 121 42.905 -0.796 -16.630 1.00 73.87 O +ATOM 802 N GLY G 122 37.318 -2.094 -14.789 1.00 59.90 N +ATOM 803 CA GLY G 122 36.056 -1.369 -14.766 1.00 62.42 C +ATOM 804 C GLY G 122 35.360 -1.426 -13.418 1.00 62.56 C +ATOM 805 O GLY G 122 34.889 -0.407 -12.906 1.00 64.41 O +ATOM 806 N ALA G 123 35.286 -2.617 -12.827 1.00 62.27 N +ATOM 807 CA ALA G 123 34.550 -2.821 -11.587 1.00 61.79 C +ATOM 808 C ALA G 123 35.380 -2.572 -10.334 1.00 62.81 C +ATOM 809 O ALA G 123 34.818 -2.580 -9.233 1.00 62.47 O +ATOM 810 CB ALA G 123 33.983 -4.245 -11.541 1.00 60.91 C +ATOM 811 N ASN G 124 36.689 -2.352 -10.472 1.00 64.53 N +ATOM 812 CA ASN G 124 37.591 -2.156 -9.336 1.00 64.88 C +ATOM 813 C ASN G 124 37.502 -3.332 -8.361 1.00 62.36 C +ATOM 814 O ASN G 124 37.188 -3.176 -7.180 1.00 64.53 O +ATOM 815 CB ASN G 124 37.298 -0.832 -8.618 1.00 62.86 C +ATOM 816 CG ASN G 124 37.479 0.374 -9.515 1.00 66.00 C +ATOM 817 OD1 ASN G 124 36.531 0.837 -10.149 1.00 70.90 O +ATOM 818 ND2 ASN G 124 38.697 0.900 -9.562 1.00 63.08 N +ATOM 819 N ASP G 125 37.786 -4.524 -8.879 1.00 60.49 N +ATOM 820 CA ASP G 125 37.739 -5.722 -8.053 1.00 59.42 C +ATOM 821 C ASP G 125 38.622 -6.801 -8.665 1.00 56.99 C +ATOM 822 O ASP G 125 39.191 -6.638 -9.749 1.00 55.38 O +ATOM 823 CB ASP G 125 36.300 -6.224 -7.870 1.00 60.86 C +ATOM 824 CG ASP G 125 35.629 -6.590 -9.183 1.00 63.36 C +ATOM 825 OD1 ASP G 125 36.220 -6.340 -10.254 1.00 64.33 O +ATOM 826 OD2 ASP G 125 34.506 -7.135 -9.140 1.00 64.08 O +ATOM 827 N PHE G 126 38.736 -7.907 -7.933 1.00 52.72 N +ATOM 828 CA PHE G 126 39.522 -9.065 -8.334 1.00 51.79 C +ATOM 829 C PHE G 126 38.629 -10.293 -8.268 1.00 51.40 C +ATOM 830 O PHE G 126 38.047 -10.583 -7.217 1.00 54.17 O +ATOM 831 CB PHE G 126 40.747 -9.251 -7.433 1.00 48.24 C +ATOM 832 CG PHE G 126 41.710 -8.097 -7.461 1.00 51.90 C +ATOM 833 CD1 PHE G 126 41.468 -6.954 -6.718 1.00 51.81 C +ATOM 834 CD2 PHE G 126 42.867 -8.165 -8.219 1.00 50.87 C +ATOM 835 CE1 PHE G 126 42.357 -5.895 -6.740 1.00 52.76 C +ATOM 836 CE2 PHE G 126 43.760 -7.111 -8.243 1.00 49.52 C +ATOM 837 CZ PHE G 126 43.504 -5.975 -7.503 1.00 52.14 C +ATOM 838 N VAL G 127 38.518 -11.005 -9.382 1.00 47.48 N +ATOM 839 CA VAL G 127 37.769 -12.253 -9.437 1.00 46.21 C +ATOM 840 C VAL G 127 38.745 -13.395 -9.198 1.00 47.08 C +ATOM 841 O VAL G 127 39.748 -13.526 -9.910 1.00 52.30 O +ATOM 842 CB VAL G 127 37.047 -12.413 -10.783 1.00 48.88 C +ATOM 843 CG1 VAL G 127 36.233 -13.699 -10.798 1.00 48.76 C +ATOM 844 CG2 VAL G 127 36.160 -11.209 -11.056 1.00 50.67 C +ATOM 845 N VAL G 128 38.463 -14.204 -8.181 1.00 48.36 N +ATOM 846 CA VAL G 128 39.265 -15.369 -7.830 1.00 50.66 C +ATOM 847 C VAL G 128 38.496 -16.609 -8.258 1.00 50.18 C +ATOM 848 O VAL G 128 37.317 -16.764 -7.918 1.00 52.98 O +ATOM 849 CB VAL G 128 39.573 -15.406 -6.323 1.00 51.12 C +ATOM 850 CG1 VAL G 128 40.510 -16.559 -5.997 1.00 50.98 C +ATOM 851 CG2 VAL G 128 40.165 -14.080 -5.868 1.00 50.91 C +ATOM 852 N THR G 129 39.165 -17.492 -8.996 1.00 49.62 N +ATOM 853 CA THR G 129 38.541 -18.692 -9.533 1.00 50.41 C +ATOM 854 C THR G 129 39.432 -19.900 -9.288 1.00 49.24 C +ATOM 855 O THR G 129 40.661 -19.803 -9.308 1.00 49.60 O +ATOM 856 CB THR G 129 38.268 -18.563 -11.041 1.00 50.11 C +ATOM 857 OG1 THR G 129 39.502 -18.339 -11.735 1.00 53.15 O +ATOM 858 CG2 THR G 129 37.312 -17.411 -11.322 1.00 47.04 C +ATOM 859 N PHE G 130 38.793 -21.044 -9.053 1.00 50.27 N +ATOM 860 CA PHE G 130 39.499 -22.304 -8.882 1.00 51.24 C +ATOM 861 C PHE G 130 38.561 -23.435 -9.277 1.00 54.60 C +ATOM 862 O PHE G 130 37.367 -23.228 -9.509 1.00 55.69 O +ATOM 863 CB PHE G 130 40.004 -22.488 -7.443 1.00 53.97 C +ATOM 864 CG PHE G 130 38.938 -22.328 -6.394 1.00 53.05 C +ATOM 865 CD1 PHE G 130 38.584 -21.073 -5.925 1.00 50.64 C +ATOM 866 CD2 PHE G 130 38.298 -23.438 -5.868 1.00 52.96 C +ATOM 867 CE1 PHE G 130 37.604 -20.929 -4.960 1.00 51.24 C +ATOM 868 CE2 PHE G 130 37.318 -23.301 -4.902 1.00 52.94 C +ATOM 869 CZ PHE G 130 36.971 -22.045 -4.448 1.00 52.62 C +ATOM 870 N ASN G 131 39.118 -24.639 -9.359 1.00 57.72 N +ATOM 871 CA ASN G 131 38.369 -25.825 -9.743 1.00 63.41 C +ATOM 872 C ASN G 131 38.641 -26.928 -8.730 1.00 60.76 C +ATOM 873 O ASN G 131 39.631 -26.893 -7.996 1.00 60.93 O +ATOM 874 CB ASN G 131 38.736 -26.286 -11.163 1.00 67.03 C +ATOM 875 CG ASN G 131 37.620 -27.067 -11.837 1.00 70.33 C +ATOM 876 OD1 ASN G 131 36.743 -27.624 -11.176 1.00 69.72 O +ATOM 877 ND2 ASN G 131 37.647 -27.098 -13.165 1.00 77.51 N +ATOM 878 N THR G 132 37.744 -27.910 -8.690 1.00 62.70 N +ATOM 879 CA THR G 132 37.900 -29.031 -7.772 1.00 66.16 C +ATOM 880 C THR G 132 37.286 -30.272 -8.403 1.00 72.36 C +ATOM 881 O THR G 132 36.161 -30.227 -8.911 1.00 78.17 O +ATOM 882 CB THR G 132 37.264 -28.737 -6.403 1.00 70.30 C +ATOM 883 OG1 THR G 132 37.411 -29.879 -5.548 1.00 75.42 O +ATOM 884 CG2 THR G 132 35.782 -28.391 -6.534 1.00 70.50 C +ATOM 885 N SER G 133 38.050 -31.366 -8.407 1.00 74.21 N +ATOM 886 CA SER G 133 37.585 -32.623 -8.984 1.00 78.59 C +ATOM 887 C SER G 133 36.369 -33.196 -8.268 1.00 85.30 C +ATOM 888 O SER G 133 35.785 -34.167 -8.759 1.00 90.02 O +ATOM 889 CB SER G 133 38.719 -33.652 -8.973 1.00 80.04 C +ATOM 890 OG SER G 133 39.167 -33.906 -7.652 1.00 83.49 O +ATOM 891 N HIS G 134 35.974 -32.625 -7.128 1.00 84.39 N +ATOM 892 CA HIS G 134 34.850 -33.142 -6.359 1.00 88.00 C +ATOM 893 C HIS G 134 33.496 -32.777 -6.953 1.00 91.89 C +ATOM 894 O HIS G 134 32.505 -33.452 -6.651 1.00 94.78 O +ATOM 895 CB HIS G 134 34.938 -32.630 -4.922 1.00 83.94 C +ATOM 896 CG HIS G 134 35.892 -33.404 -4.068 1.00 83.88 C +ATOM 897 ND1 HIS G 134 35.694 -34.728 -3.745 1.00 86.37 N +ATOM 898 CD2 HIS G 134 37.073 -33.053 -3.506 1.00 79.20 C +ATOM 899 CE1 HIS G 134 36.698 -35.153 -3.000 1.00 82.77 C +ATOM 900 NE2 HIS G 134 37.549 -34.156 -2.842 1.00 77.80 N +ATOM 901 N LEU G 135 33.426 -31.725 -7.773 1.00 89.17 N +ATOM 902 CA LEU G 135 32.155 -31.346 -8.385 1.00 92.92 C +ATOM 903 C LEU G 135 31.586 -32.478 -9.231 1.00 97.91 C +ATOM 904 O LEU G 135 30.373 -32.717 -9.229 1.00102.42 O +ATOM 905 CB LEU G 135 32.329 -30.080 -9.224 1.00 87.54 C +ATOM 906 CG LEU G 135 32.404 -28.767 -8.441 1.00 83.64 C +ATOM 907 CD1 LEU G 135 32.867 -27.629 -9.336 1.00 81.23 C +ATOM 908 CD2 LEU G 135 31.056 -28.445 -7.812 1.00 87.46 C +ATOM 909 N GLN G 136 32.446 -33.183 -9.961 1.00 97.01 N +ATOM 910 CA GLN G 136 32.036 -34.271 -10.836 1.00103.48 C +ATOM 911 C GLN G 136 32.046 -35.629 -10.144 1.00105.16 C +ATOM 912 O GLN G 136 31.887 -36.653 -10.816 1.00116.01 O +ATOM 913 CB GLN G 136 32.953 -34.320 -12.060 1.00101.01 C +ATOM 914 CG GLN G 136 34.406 -34.582 -11.695 1.00 96.09 C +ATOM 915 CD GLN G 136 35.354 -34.383 -12.856 1.00 98.22 C +ATOM 916 OE1 GLN G 136 35.291 -35.096 -13.857 1.00104.84 O +ATOM 917 NE2 GLN G 136 36.246 -33.408 -12.727 1.00 94.09 N +ATOM 918 N LYS G 137 32.224 -35.663 -8.828 1.00105.04 N +ATOM 919 CA LYS G 137 32.280 -36.918 -8.095 1.00110.70 C +ATOM 920 C LYS G 137 30.895 -37.364 -7.645 1.00116.41 C +ATOM 921 O LYS G 137 29.981 -36.553 -7.467 1.00112.43 O +ATOM 922 CB LYS G 137 33.209 -36.799 -6.888 1.00105.63 C +ATOM 923 CG LYS G 137 34.679 -36.763 -7.257 1.00 97.63 C +ATOM 924 CD LYS G 137 35.553 -36.927 -6.033 1.00 96.25 C +ATOM 925 CE LYS G 137 37.004 -36.623 -6.348 1.00 89.67 C +ATOM 926 NZ LYS G 137 37.582 -37.585 -7.325 1.00 96.86 N +ATOM 927 N LYS G 138 30.752 -38.678 -7.462 1.00123.69 N +ATOM 928 CA LYS G 138 29.466 -39.263 -7.101 1.00124.53 C +ATOM 929 C LYS G 138 29.158 -39.076 -5.619 1.00122.33 C +ATOM 930 O LYS G 138 28.097 -38.552 -5.260 1.00120.18 O +ATOM 931 CB LYS G 138 29.455 -40.748 -7.468 1.00126.86 C +ATOM 932 CG LYS G 138 28.229 -41.510 -6.995 1.00126.06 C +ATOM 933 CD LYS G 138 28.385 -42.999 -7.263 1.00129.14 C +ATOM 934 CE LYS G 138 27.185 -43.786 -6.764 1.00136.88 C +ATOM 935 NZ LYS G 138 27.370 -45.251 -6.954 1.00135.28 N +ATOM 936 N TYR G 139 30.073 -39.497 -4.744 1.00121.78 N +ATOM 937 CA TYR G 139 29.799 -39.474 -3.307 1.00120.16 C +ATOM 938 C TYR G 139 30.043 -38.087 -2.718 1.00114.89 C +ATOM 939 O TYR G 139 29.103 -37.393 -2.320 1.00111.96 O +ATOM 940 CB TYR G 139 30.651 -40.531 -2.598 1.00119.45 C +ATOM 941 CG TYR G 139 30.315 -41.949 -3.003 1.00128.48 C +ATOM 942 CD1 TYR G 139 29.216 -42.604 -2.466 1.00131.69 C +ATOM 943 CD2 TYR G 139 31.101 -42.632 -3.922 1.00131.12 C +ATOM 944 CE1 TYR G 139 28.905 -43.899 -2.835 1.00134.91 C +ATOM 945 CE2 TYR G 139 30.799 -43.928 -4.296 1.00133.03 C +ATOM 946 CZ TYR G 139 29.701 -44.557 -3.749 1.00137.49 C +ATOM 947 OH TYR G 139 29.395 -45.847 -4.117 1.00141.30 O +ATOM 948 N VAL G 140 31.306 -37.671 -2.654 1.00110.01 N +ATOM 949 CA VAL G 140 31.673 -36.376 -2.091 1.00103.99 C +ATOM 950 C VAL G 140 31.574 -35.353 -3.219 1.00102.96 C +ATOM 951 O VAL G 140 32.499 -35.194 -4.017 1.00102.50 O +ATOM 952 CB VAL G 140 33.067 -36.401 -1.463 1.00 97.79 C +ATOM 953 CG1 VAL G 140 33.457 -35.012 -0.979 1.00 92.14 C +ATOM 954 CG2 VAL G 140 33.108 -37.395 -0.312 1.00 98.98 C +ATOM 955 N LYS G 141 30.437 -34.660 -3.289 1.00101.81 N +ATOM 956 CA LYS G 141 30.215 -33.633 -4.294 1.00 99.51 C +ATOM 957 C LYS G 141 29.902 -32.268 -3.705 1.00 93.76 C +ATOM 958 O LYS G 141 29.870 -31.284 -4.453 1.00 93.81 O +ATOM 959 CB LYS G 141 29.074 -34.042 -5.239 1.00100.00 C +ATOM 960 N VAL G 142 29.673 -32.176 -2.398 1.00 90.82 N +ATOM 961 CA VAL G 142 29.409 -30.913 -1.721 1.00 87.14 C +ATOM 962 C VAL G 142 30.576 -30.641 -0.786 1.00 81.16 C +ATOM 963 O VAL G 142 30.881 -31.456 0.094 1.00 79.70 O +ATOM 964 CB VAL G 142 28.079 -30.943 -0.954 1.00 87.60 C +ATOM 965 CG1 VAL G 142 27.890 -29.650 -0.172 1.00 85.44 C +ATOM 966 CG2 VAL G 142 26.921 -31.163 -1.915 1.00 87.97 C +ATOM 967 N LEU G 143 31.228 -29.499 -0.977 1.00 77.59 N +ATOM 968 CA LEU G 143 32.377 -29.110 -0.180 1.00 71.77 C +ATOM 969 C LEU G 143 32.194 -27.682 0.305 1.00 69.69 C +ATOM 970 O LEU G 143 31.322 -26.945 -0.163 1.00 71.17 O +ATOM 971 CB LEU G 143 33.684 -29.213 -0.978 1.00 67.22 C +ATOM 972 CG LEU G 143 34.208 -30.578 -1.413 1.00 68.99 C +ATOM 973 CD1 LEU G 143 35.490 -30.383 -2.194 1.00 65.44 C +ATOM 974 CD2 LEU G 143 34.440 -31.480 -0.215 1.00 70.59 C +ATOM 975 N MET G 144 33.028 -27.301 1.264 1.00 65.75 N +ATOM 976 CA MET G 144 33.141 -25.923 1.709 1.00 64.11 C +ATOM 977 C MET G 144 34.608 -25.546 1.569 1.00 61.50 C +ATOM 978 O MET G 144 35.488 -26.265 2.059 1.00 61.82 O +ATOM 979 CB MET G 144 32.617 -25.762 3.147 1.00 65.82 C +ATOM 980 CG MET G 144 32.398 -24.321 3.623 1.00 69.10 C +ATOM 981 SD MET G 144 32.739 -23.954 5.371 1.00 90.65 S +ATOM 982 CE MET G 144 34.352 -24.673 5.654 1.00 72.16 C +ATOM 983 N HIS G 145 34.864 -24.448 0.864 1.00 58.93 N +ATOM 984 CA HIS G 145 36.206 -24.027 0.505 1.00 56.97 C +ATOM 985 C HIS G 145 36.623 -22.841 1.358 1.00 56.91 C +ATOM 986 O HIS G 145 35.821 -21.941 1.638 1.00 58.19 O +ATOM 987 CB HIS G 145 36.287 -23.644 -0.977 1.00 57.52 C +ATOM 988 CG HIS G 145 35.738 -24.683 -1.905 1.00 57.84 C +ATOM 989 ND1 HIS G 145 36.354 -25.900 -2.110 1.00 57.33 N +ATOM 990 CD2 HIS G 145 34.631 -24.687 -2.685 1.00 57.60 C +ATOM 991 CE1 HIS G 145 35.649 -26.607 -2.975 1.00 61.35 C +ATOM 992 NE2 HIS G 145 34.599 -25.894 -3.339 1.00 59.95 N +ATOM 993 N ASP G 146 37.888 -22.855 1.756 1.00 58.20 N +ATOM 994 CA ASP G 146 38.501 -21.788 2.535 1.00 57.19 C +ATOM 995 C ASP G 146 39.557 -21.139 1.651 1.00 54.88 C +ATOM 996 O ASP G 146 40.563 -21.772 1.315 1.00 57.12 O +ATOM 997 CB ASP G 146 39.110 -22.344 3.821 1.00 59.91 C +ATOM 998 CG ASP G 146 39.796 -21.280 4.660 1.00 61.60 C +ATOM 999 OD1 ASP G 146 39.623 -20.076 4.376 1.00 65.89 O +ATOM 1000 OD2 ASP G 146 40.519 -21.653 5.607 1.00 65.09 O +ATOM 1001 N VAL G 147 39.316 -19.893 1.260 1.00 53.23 N +ATOM 1002 CA VAL G 147 40.265 -19.115 0.475 1.00 54.69 C +ATOM 1003 C VAL G 147 40.999 -18.195 1.437 1.00 55.57 C +ATOM 1004 O VAL G 147 40.387 -17.323 2.064 1.00 54.86 O +ATOM 1005 CB VAL G 147 39.561 -18.318 -0.633 1.00 51.31 C +ATOM 1006 CG1 VAL G 147 40.544 -17.395 -1.327 1.00 49.09 C +ATOM 1007 CG2 VAL G 147 38.914 -19.262 -1.637 1.00 50.06 C +ATOM 1008 N ALA G 148 42.307 -18.387 1.560 1.00 56.26 N +ATOM 1009 CA ALA G 148 43.135 -17.586 2.448 1.00 56.97 C +ATOM 1010 C ALA G 148 44.092 -16.745 1.621 1.00 57.48 C +ATOM 1011 O ALA G 148 44.786 -17.267 0.740 1.00 56.92 O +ATOM 1012 CB ALA G 148 43.912 -18.469 3.425 1.00 57.66 C +ATOM 1013 N TYR G 149 44.130 -15.446 1.909 1.00 57.26 N +ATOM 1014 CA TYR G 149 45.028 -14.531 1.224 1.00 56.94 C +ATOM 1015 C TYR G 149 45.761 -13.674 2.244 1.00 62.01 C +ATOM 1016 O TYR G 149 45.203 -13.295 3.279 1.00 61.49 O +ATOM 1017 CB TYR G 149 44.286 -13.648 0.208 1.00 53.89 C +ATOM 1018 CG TYR G 149 43.248 -12.715 0.790 1.00 55.50 C +ATOM 1019 CD1 TYR G 149 41.951 -13.151 1.029 1.00 52.61 C +ATOM 1020 CD2 TYR G 149 43.558 -11.393 1.079 1.00 56.42 C +ATOM 1021 CE1 TYR G 149 40.996 -12.300 1.549 1.00 50.98 C +ATOM 1022 CE2 TYR G 149 42.609 -10.534 1.601 1.00 52.41 C +ATOM 1023 CZ TYR G 149 41.331 -10.993 1.834 1.00 51.07 C +ATOM 1024 OH TYR G 149 40.384 -10.141 2.354 1.00 55.19 O +ATOM 1025 N ARG G 150 47.022 -13.390 1.936 1.00 61.60 N +ATOM 1026 CA ARG G 150 47.925 -12.659 2.807 1.00 62.91 C +ATOM 1027 C ARG G 150 48.696 -11.648 1.971 1.00 66.65 C +ATOM 1028 O ARG G 150 48.826 -11.792 0.753 1.00 65.92 O +ATOM 1029 CB ARG G 150 48.877 -13.640 3.515 1.00 69.22 C +ATOM 1030 CG ARG G 150 50.068 -13.039 4.229 1.00 78.76 C +ATOM 1031 CD ARG G 150 51.111 -14.098 4.521 1.00 83.86 C +ATOM 1032 NE ARG G 150 51.766 -14.565 3.303 1.00 78.47 N +ATOM 1033 CZ ARG G 150 52.799 -15.401 3.284 1.00 82.16 C +ATOM 1034 NH1 ARG G 150 53.303 -15.864 4.420 1.00 84.01 N +ATOM 1035 NH2 ARG G 150 53.332 -15.772 2.128 1.00 81.81 N +ATOM 1036 N GLN G 151 49.212 -10.620 2.635 1.00 72.25 N +ATOM 1037 CA GLN G 151 50.072 -9.657 1.971 1.00 74.56 C +ATOM 1038 C GLN G 151 51.520 -10.137 2.066 1.00 82.21 C +ATOM 1039 O GLN G 151 51.888 -10.898 2.964 1.00 85.46 O +ATOM 1040 CB GLN G 151 49.895 -8.271 2.598 1.00 76.74 C +ATOM 1041 CG GLN G 151 50.477 -7.114 1.804 1.00 77.59 C +ATOM 1042 CD GLN G 151 50.075 -5.765 2.375 1.00 78.87 C +ATOM 1043 OE1 GLN G 151 49.082 -5.656 3.096 1.00 78.52 O +ATOM 1044 NE2 GLN G 151 50.848 -4.733 2.061 1.00 78.19 N +ATOM 1045 N GLU G 152 52.347 -9.676 1.124 1.00 83.37 N +ATOM 1046 CA GLU G 152 53.735 -10.133 1.072 1.00 90.17 C +ATOM 1047 C GLU G 152 54.477 -9.821 2.369 1.00 93.59 C +ATOM 1048 O GLU G 152 55.270 -10.639 2.848 1.00 94.53 O +ATOM 1049 CB GLU G 152 54.448 -9.554 -0.153 1.00 87.57 C +ATOM 1050 CG GLU G 152 54.988 -8.146 -0.038 1.00 96.74 C +ATOM 1051 CD GLU G 152 55.928 -7.815 -1.181 1.00101.99 C +ATOM 1052 OE1 GLU G 152 55.442 -7.442 -2.269 1.00104.41 O +ATOM 1053 OE2 GLU G 152 57.156 -7.949 -0.996 1.00102.86 O +ATOM 1054 N LYS G 153 54.235 -8.644 2.952 1.00 92.40 N +ATOM 1055 CA LYS G 153 54.942 -8.258 4.169 1.00 96.60 C +ATOM 1056 C LYS G 153 54.583 -9.184 5.329 1.00101.24 C +ATOM 1057 O LYS G 153 55.459 -9.581 6.106 1.00100.04 O +ATOM 1058 CB LYS G 153 54.637 -6.797 4.516 1.00 98.33 C +ATOM 1059 CG LYS G 153 53.162 -6.487 4.744 1.00 98.99 C +ATOM 1060 CD LYS G 153 52.934 -5.017 5.058 1.00107.03 C +ATOM 1061 CE LYS G 153 51.490 -4.764 5.470 1.00119.78 C +ATOM 1062 NZ LYS G 153 51.207 -3.315 5.667 1.00116.15 N +ATOM 1063 N ASP G 154 53.302 -9.524 5.466 1.00103.30 N +ATOM 1064 CA ASP G 154 52.834 -10.345 6.577 1.00 99.57 C +ATOM 1065 C ASP G 154 53.474 -11.729 6.531 1.00103.84 C +ATOM 1066 O ASP G 154 53.482 -12.388 5.489 1.00107.39 O +ATOM 1067 CB ASP G 154 51.312 -10.471 6.522 1.00 95.54 C +ATOM 1068 CG ASP G 154 50.609 -9.182 6.893 1.00102.29 C +ATOM 1069 OD1 ASP G 154 51.188 -8.381 7.655 1.00107.10 O +ATOM 1070 OD2 ASP G 154 49.474 -8.969 6.414 1.00 99.42 O +ATOM 1071 N GLU G 155 54.052 -12.151 7.657 1.00107.88 N +ATOM 1072 CA GLU G 155 54.704 -13.456 7.708 1.00109.68 C +ATOM 1073 C GLU G 155 53.707 -14.595 7.907 1.00103.82 C +ATOM 1074 O GLU G 155 53.669 -15.541 7.112 1.00102.49 O +ATOM 1075 CB GLU G 155 55.756 -13.483 8.818 1.00120.23 C +ATOM 1076 CG GLU G 155 56.485 -14.818 8.927 1.00127.94 C +ATOM 1077 CD GLU G 155 57.500 -14.852 10.053 1.00129.27 C +ATOM 1078 OE1 GLU G 155 57.529 -13.900 10.861 1.00129.31 O +ATOM 1079 OE2 GLU G 155 58.270 -15.833 10.130 1.00131.00 O +ATOM 1080 N ASN G 156 52.886 -14.520 8.961 1.00103.70 N +ATOM 1081 CA ASN G 156 51.990 -15.616 9.314 1.00 99.67 C +ATOM 1082 C ASN G 156 50.562 -15.148 9.589 1.00 92.70 C +ATOM 1083 O ASN G 156 49.829 -15.821 10.322 1.00 93.32 O +ATOM 1084 CB ASN G 156 52.544 -16.379 10.523 1.00108.52 C +ATOM 1085 CG ASN G 156 51.965 -17.778 10.655 1.00111.76 C +ATOM 1086 OD1 ASN G 156 51.298 -18.276 9.747 1.00 97.73 O +ATOM 1087 ND2 ASN G 156 52.221 -18.419 11.790 1.00126.74 N +ATOM 1088 N LYS G 157 50.129 -14.033 9.004 1.00 88.29 N +ATOM 1089 CA LYS G 157 48.743 -13.603 9.134 1.00 85.91 C +ATOM 1090 C LYS G 157 48.001 -13.868 7.834 1.00 79.66 C +ATOM 1091 O LYS G 157 48.521 -13.611 6.746 1.00 82.37 O +ATOM 1092 CB LYS G 157 48.648 -12.110 9.456 1.00 91.69 C +ATOM 1093 CG LYS G 157 49.554 -11.609 10.562 1.00101.64 C +ATOM 1094 CD LYS G 157 49.459 -10.090 10.667 1.00109.71 C +ATOM 1095 CE LYS G 157 50.437 -9.530 11.687 1.00113.53 C +ATOM 1096 NZ LYS G 157 50.149 -10.024 13.060 1.00119.33 N +ATOM 1097 N TRP G 158 46.793 -14.414 7.951 1.00 72.58 N +ATOM 1098 CA TRP G 158 45.990 -14.755 6.785 1.00 66.87 C +ATOM 1099 C TRP G 158 44.559 -14.270 6.957 1.00 64.95 C +ATOM 1100 O TRP G 158 43.966 -14.451 8.024 1.00 63.66 O +ATOM 1101 CB TRP G 158 46.026 -16.263 6.529 1.00 67.95 C +ATOM 1102 CG TRP G 158 47.395 -16.730 6.157 1.00 71.83 C +ATOM 1103 CD1 TRP G 158 48.408 -17.060 7.009 1.00 74.11 C +ATOM 1104 CD2 TRP G 158 47.913 -16.898 4.832 1.00 72.47 C +ATOM 1105 NE1 TRP G 158 49.523 -17.431 6.297 1.00 76.39 N +ATOM 1106 CE2 TRP G 158 49.245 -17.340 4.958 1.00 73.01 C +ATOM 1107 CE3 TRP G 158 47.378 -16.724 3.552 1.00 68.08 C +ATOM 1108 CZ2 TRP G 158 50.049 -17.610 3.853 1.00 73.53 C +ATOM 1109 CZ3 TRP G 158 48.179 -16.990 2.456 1.00 68.07 C +ATOM 1110 CH2 TRP G 158 49.500 -17.428 2.614 1.00 70.34 C +ATOM 1111 N THR G 159 44.010 -13.657 5.912 1.00 61.31 N +ATOM 1112 CA THR G 159 42.585 -13.359 5.856 1.00 54.42 C +ATOM 1113 C THR G 159 41.878 -14.516 5.160 1.00 54.91 C +ATOM 1114 O THR G 159 42.203 -14.847 4.014 1.00 59.72 O +ATOM 1115 CB THR G 159 42.316 -12.045 5.124 1.00 53.41 C +ATOM 1116 OG1 THR G 159 43.081 -10.994 5.726 1.00 55.65 O +ATOM 1117 CG2 THR G 159 40.839 -11.695 5.201 1.00 50.73 C +ATOM 1118 N HIS G 160 40.924 -15.131 5.852 1.00 52.70 N +ATOM 1119 CA HIS G 160 40.213 -16.298 5.353 1.00 54.41 C +ATOM 1120 C HIS G 160 38.796 -15.930 4.937 1.00 53.78 C +ATOM 1121 O HIS G 160 38.168 -15.038 5.515 1.00 52.50 O +ATOM 1122 CB HIS G 160 40.166 -17.408 6.409 1.00 57.11 C +ATOM 1123 CG HIS G 160 41.504 -18.000 6.726 1.00 60.20 C +ATOM 1124 ND1 HIS G 160 41.883 -19.253 6.293 1.00 63.79 N +ATOM 1125 CD2 HIS G 160 42.554 -17.511 7.427 1.00 63.02 C +ATOM 1126 CE1 HIS G 160 43.107 -19.511 6.716 1.00 67.14 C +ATOM 1127 NE2 HIS G 160 43.537 -18.470 7.407 1.00 65.86 N +ATOM 1128 N VAL G 161 38.298 -16.635 3.920 1.00 55.49 N +ATOM 1129 CA VAL G 161 36.946 -16.450 3.405 1.00 55.62 C +ATOM 1130 C VAL G 161 36.368 -17.829 3.124 1.00 56.57 C +ATOM 1131 O VAL G 161 36.950 -18.608 2.360 1.00 55.60 O +ATOM 1132 CB VAL G 161 36.905 -15.588 2.129 1.00 52.26 C +ATOM 1133 CG1 VAL G 161 35.480 -15.481 1.613 1.00 53.58 C +ATOM 1134 CG2 VAL G 161 37.477 -14.204 2.395 1.00 55.54 C +ATOM 1135 N ASN G 162 35.237 -18.138 3.751 1.00 60.57 N +ATOM 1136 CA ASN G 162 34.544 -19.398 3.534 1.00 61.65 C +ATOM 1137 C ASN G 162 33.496 -19.242 2.440 1.00 63.09 C +ATOM 1138 O ASN G 162 32.777 -18.239 2.391 1.00 65.26 O +ATOM 1139 CB ASN G 162 33.887 -19.865 4.835 1.00 66.25 C +ATOM 1140 CG ASN G 162 34.886 -20.451 5.813 1.00 70.86 C +ATOM 1141 OD1 ASN G 162 36.098 -20.370 5.602 1.00 65.86 O +ATOM 1142 ND2 ASN G 162 34.383 -21.032 6.899 1.00 83.98 N +ATOM 1143 N LEU G 163 33.410 -20.241 1.565 1.00 59.87 N +ATOM 1144 CA LEU G 163 32.448 -20.201 0.471 1.00 56.72 C +ATOM 1145 C LEU G 163 32.108 -21.622 0.042 1.00 58.48 C +ATOM 1146 O LEU G 163 32.726 -22.591 0.482 1.00 58.04 O +ATOM 1147 CB LEU G 163 32.962 -19.348 -0.700 1.00 58.96 C +ATOM 1148 CG LEU G 163 34.305 -19.641 -1.370 1.00 61.33 C +ATOM 1149 CD1 LEU G 163 34.176 -20.701 -2.437 1.00 60.77 C +ATOM 1150 CD2 LEU G 163 34.868 -18.361 -1.969 1.00 58.16 C +ATOM 1151 N SER G 164 31.079 -21.740 -0.797 1.00 63.75 N +ATOM 1152 CA SER G 164 30.646 -23.030 -1.321 1.00 63.86 C +ATOM 1153 C SER G 164 30.835 -23.176 -2.823 1.00 63.28 C +ATOM 1154 O SER G 164 31.003 -24.300 -3.302 1.00 61.85 O +ATOM 1155 CB SER G 164 29.170 -23.277 -0.979 1.00 62.03 C +ATOM 1156 OG SER G 164 28.351 -22.229 -1.466 1.00 75.16 O +ATOM 1157 N SER G 165 30.809 -22.076 -3.574 1.00 60.65 N +ATOM 1158 CA SER G 165 30.986 -22.125 -5.020 1.00 61.41 C +ATOM 1159 C SER G 165 32.463 -22.227 -5.380 1.00 62.13 C +ATOM 1160 O SER G 165 33.274 -22.691 -4.573 1.00 64.09 O +ATOM 1161 CB SER G 165 30.362 -20.893 -5.678 1.00 63.11 C +ATOM 1162 OG SER G 165 31.029 -19.709 -5.279 1.00 62.60 O +ATOM 1163 N THR G 166 32.817 -21.846 -6.608 1.00 59.19 N +ATOM 1164 CA THR G 166 34.208 -21.812 -7.043 1.00 55.03 C +ATOM 1165 C THR G 166 34.665 -20.421 -7.469 1.00 53.90 C +ATOM 1166 O THR G 166 35.738 -20.294 -8.073 1.00 51.26 O +ATOM 1167 CB THR G 166 34.437 -22.810 -8.183 1.00 54.47 C +ATOM 1168 OG1 THR G 166 33.498 -22.565 -9.236 1.00 59.61 O +ATOM 1169 CG2 THR G 166 34.276 -24.238 -7.680 1.00 56.15 C +ATOM 1170 N LYS G 167 33.889 -19.378 -7.178 1.00 52.79 N +ATOM 1171 CA LYS G 167 34.230 -18.019 -7.577 1.00 52.54 C +ATOM 1172 C LYS G 167 34.086 -17.073 -6.392 1.00 50.75 C +ATOM 1173 O LYS G 167 33.183 -17.232 -5.565 1.00 57.76 O +ATOM 1174 CB LYS G 167 33.332 -17.564 -8.743 1.00 52.04 C +ATOM 1175 CG LYS G 167 33.320 -16.068 -9.017 1.00 53.48 C +ATOM 1176 CD LYS G 167 32.343 -15.728 -10.133 1.00 61.98 C +ATOM 1177 CE LYS G 167 32.134 -14.227 -10.253 1.00 67.36 C +ATOM 1178 NZ LYS G 167 31.523 -13.656 -9.021 1.00 74.98 N +ATOM 1179 N LEU G 168 34.980 -16.088 -6.322 1.00 46.36 N +ATOM 1180 CA LEU G 168 34.980 -15.094 -5.256 1.00 51.25 C +ATOM 1181 C LEU G 168 35.329 -13.734 -5.846 1.00 51.47 C +ATOM 1182 O LEU G 168 35.968 -13.642 -6.895 1.00 55.81 O +ATOM 1183 CB LEU G 168 35.969 -15.477 -4.141 1.00 52.51 C +ATOM 1184 CG LEU G 168 36.148 -14.552 -2.933 1.00 51.73 C +ATOM 1185 CD1 LEU G 168 34.846 -14.409 -2.162 1.00 55.22 C +ATOM 1186 CD2 LEU G 168 37.262 -15.058 -2.028 1.00 49.51 C +ATOM 1187 N THR G 169 34.901 -12.670 -5.167 1.00 49.21 N +ATOM 1188 CA THR G 169 35.167 -11.304 -5.607 1.00 52.22 C +ATOM 1189 C THR G 169 35.724 -10.499 -4.442 1.00 53.92 C +ATOM 1190 O THR G 169 35.091 -10.415 -3.384 1.00 56.49 O +ATOM 1191 CB THR G 169 33.903 -10.639 -6.161 1.00 57.74 C +ATOM 1192 OG1 THR G 169 33.388 -11.421 -7.247 1.00 60.13 O +ATOM 1193 CG2 THR G 169 34.219 -9.236 -6.660 1.00 56.56 C +ATOM 1194 N LEU G 170 36.903 -9.911 -4.637 1.00 51.11 N +ATOM 1195 CA LEU G 170 37.552 -9.067 -3.639 1.00 51.53 C +ATOM 1196 C LEU G 170 37.525 -7.623 -4.122 1.00 54.53 C +ATOM 1197 O LEU G 170 38.005 -7.325 -5.219 1.00 58.37 O +ATOM 1198 CB LEU G 170 38.994 -9.513 -3.392 1.00 52.21 C +ATOM 1199 CG LEU G 170 39.251 -10.968 -3.000 1.00 54.19 C +ATOM 1200 CD1 LEU G 170 40.743 -11.210 -2.835 1.00 52.80 C +ATOM 1201 CD2 LEU G 170 38.508 -11.317 -1.722 1.00 52.77 C +ATOM 1202 N LEU G 171 36.972 -6.732 -3.305 1.00 59.85 N +ATOM 1203 CA LEU G 171 36.890 -5.329 -3.687 1.00 61.42 C +ATOM 1204 C LEU G 171 38.257 -4.663 -3.578 1.00 61.08 C +ATOM 1205 O LEU G 171 39.026 -4.934 -2.652 1.00 60.65 O +ATOM 1206 CB LEU G 171 35.877 -4.597 -2.808 1.00 66.86 C +ATOM 1207 CG LEU G 171 34.420 -5.036 -2.961 1.00 72.25 C +ATOM 1208 CD1 LEU G 171 33.550 -4.410 -1.883 1.00 81.55 C +ATOM 1209 CD2 LEU G 171 33.901 -4.683 -4.346 1.00 72.77 C +ATOM 1210 N GLN G 172 38.563 -3.791 -4.544 1.00 61.44 N +ATOM 1211 CA GLN G 172 39.848 -3.098 -4.532 1.00 62.96 C +ATOM 1212 C GLN G 172 39.966 -2.173 -3.328 1.00 65.92 C +ATOM 1213 O GLN G 172 41.051 -2.027 -2.752 1.00 65.24 O +ATOM 1214 CB GLN G 172 40.039 -2.305 -5.826 1.00 62.59 C +ATOM 1215 CG GLN G 172 41.450 -1.765 -6.009 1.00 66.40 C +ATOM 1216 CD GLN G 172 41.569 -0.814 -7.184 1.00 69.48 C +ATOM 1217 OE1 GLN G 172 41.347 -1.196 -8.332 1.00 66.29 O +ATOM 1218 NE2 GLN G 172 41.929 0.432 -6.902 1.00 77.57 N +ATOM 1219 N ARG G 173 38.860 -1.534 -2.936 1.00 66.86 N +ATOM 1220 CA ARG G 173 38.896 -0.615 -1.803 1.00 65.63 C +ATOM 1221 C ARG G 173 39.216 -1.337 -0.500 1.00 62.79 C +ATOM 1222 O ARG G 173 39.770 -0.731 0.424 1.00 64.25 O +ATOM 1223 CB ARG G 173 37.564 0.125 -1.685 1.00 65.75 C +ATOM 1224 CG ARG G 173 36.366 -0.792 -1.497 1.00 73.10 C +ATOM 1225 CD ARG G 173 35.112 -0.012 -1.144 1.00 85.13 C +ATOM 1226 NE ARG G 173 34.023 -0.896 -0.736 1.00 96.88 N +ATOM 1227 CZ ARG G 173 32.864 -0.477 -0.239 1.00 96.35 C +ATOM 1228 NH1 ARG G 173 32.636 0.819 -0.083 1.00 94.65 N +ATOM 1229 NH2 ARG G 173 31.932 -1.356 0.104 1.00 94.54 N +ATOM 1230 N LYS G 174 38.877 -2.622 -0.405 1.00 62.28 N +ATOM 1231 CA LYS G 174 39.149 -3.420 0.782 1.00 61.90 C +ATOM 1232 C LYS G 174 40.499 -4.128 0.718 1.00 61.08 C +ATOM 1233 O LYS G 174 40.680 -5.160 1.376 1.00 59.69 O +ATOM 1234 CB LYS G 174 38.023 -4.432 1.005 1.00 64.93 C +ATOM 1235 CG LYS G 174 36.677 -3.790 1.310 1.00 73.85 C +ATOM 1236 CD LYS G 174 35.565 -4.823 1.382 1.00 85.25 C +ATOM 1237 CE LYS G 174 34.233 -4.175 1.731 1.00 93.09 C +ATOM 1238 NZ LYS G 174 34.285 -3.457 3.035 1.00 99.11 N +ATOM 1239 N LEU G 175 41.444 -3.600 -0.058 1.00 61.72 N +ATOM 1240 CA LEU G 175 42.778 -4.168 -0.173 1.00 63.10 C +ATOM 1241 C LEU G 175 43.802 -3.042 -0.143 1.00 63.74 C +ATOM 1242 O LEU G 175 43.534 -1.927 -0.600 1.00 64.80 O +ATOM 1243 CB LEU G 175 42.938 -4.991 -1.460 1.00 61.11 C +ATOM 1244 CG LEU G 175 42.132 -6.288 -1.567 1.00 56.69 C +ATOM 1245 CD1 LEU G 175 42.226 -6.862 -2.972 1.00 57.42 C +ATOM 1246 CD2 LEU G 175 42.611 -7.303 -0.542 1.00 56.32 C +ATOM 1247 N GLN G 176 44.975 -3.344 0.400 1.00 58.67 N +ATOM 1248 CA GLN G 176 46.024 -2.336 0.515 1.00 62.00 C +ATOM 1249 C GLN G 176 46.557 -1.980 -0.869 1.00 69.95 C +ATOM 1250 O GLN G 176 46.855 -2.880 -1.664 1.00 72.34 O +ATOM 1251 CB GLN G 176 47.159 -2.844 1.402 1.00 66.13 C +ATOM 1252 CG GLN G 176 46.727 -3.266 2.800 1.00 72.24 C +ATOM 1253 CD GLN G 176 46.084 -2.138 3.586 1.00 69.85 C +ATOM 1254 OE1 GLN G 176 46.561 -1.003 3.570 1.00 67.34 O +ATOM 1255 NE2 GLN G 176 44.997 -2.448 4.283 1.00 65.52 N +ATOM 1256 N PRO G 177 46.692 -0.697 -1.195 1.00 68.49 N +ATOM 1257 CA PRO G 177 47.208 -0.325 -2.517 1.00 65.66 C +ATOM 1258 C PRO G 177 48.686 -0.648 -2.655 1.00 69.60 C +ATOM 1259 O PRO G 177 49.438 -0.661 -1.677 1.00 67.45 O +ATOM 1260 CB PRO G 177 46.966 1.190 -2.584 1.00 68.11 C +ATOM 1261 CG PRO G 177 45.993 1.490 -1.481 1.00 69.45 C +ATOM 1262 CD PRO G 177 46.267 0.477 -0.418 1.00 69.59 C +ATOM 1263 N ALA G 178 49.095 -0.909 -3.901 1.00 69.17 N +ATOM 1264 CA ALA G 178 50.500 -1.140 -4.245 1.00 64.46 C +ATOM 1265 C ALA G 178 51.103 -2.268 -3.412 1.00 59.57 C +ATOM 1266 O ALA G 178 52.230 -2.171 -2.923 1.00 62.36 O +ATOM 1267 CB ALA G 178 51.322 0.142 -4.097 1.00 68.99 C +ATOM 1268 N ALA G 179 50.347 -3.350 -3.247 1.00 59.13 N +ATOM 1269 CA ALA G 179 50.765 -4.473 -2.425 1.00 61.51 C +ATOM 1270 C ALA G 179 50.626 -5.773 -3.200 1.00 60.69 C +ATOM 1271 O ALA G 179 49.737 -5.923 -4.043 1.00 61.09 O +ATOM 1272 CB ALA G 179 49.946 -4.554 -1.131 1.00 66.15 C +ATOM 1273 N MET G 180 51.525 -6.709 -2.913 1.00 61.64 N +ATOM 1274 CA MET G 180 51.476 -8.047 -3.485 1.00 64.56 C +ATOM 1275 C MET G 180 50.795 -8.987 -2.500 1.00 64.88 C +ATOM 1276 O MET G 180 51.109 -8.976 -1.305 1.00 70.49 O +ATOM 1277 CB MET G 180 52.879 -8.556 -3.815 1.00 72.77 C +ATOM 1278 CG MET G 180 52.899 -9.903 -4.521 1.00 72.60 C +ATOM 1279 SD MET G 180 54.561 -10.424 -4.985 1.00 91.70 S +ATOM 1280 CE MET G 180 55.130 -11.148 -3.448 1.00 88.08 C +ATOM 1281 N TYR G 181 49.866 -9.793 -3.003 1.00 59.59 N +ATOM 1282 CA TYR G 181 49.112 -10.741 -2.202 1.00 57.81 C +ATOM 1283 C TYR G 181 49.349 -12.157 -2.701 1.00 56.32 C +ATOM 1284 O TYR G 181 49.354 -12.412 -3.914 1.00 58.34 O +ATOM 1285 CB TYR G 181 47.609 -10.437 -2.234 1.00 56.99 C +ATOM 1286 CG TYR G 181 47.184 -9.249 -1.405 1.00 61.17 C +ATOM 1287 CD1 TYR G 181 47.220 -7.962 -1.924 1.00 58.83 C +ATOM 1288 CD2 TYR G 181 46.729 -9.418 -0.102 1.00 60.58 C +ATOM 1289 CE1 TYR G 181 46.824 -6.875 -1.165 1.00 65.06 C +ATOM 1290 CE2 TYR G 181 46.332 -8.339 0.663 1.00 58.75 C +ATOM 1291 CZ TYR G 181 46.381 -7.071 0.127 1.00 64.12 C +ATOM 1292 OH TYR G 181 45.985 -5.994 0.888 1.00 62.16 O +ATOM 1293 N GLU G 182 49.552 -13.063 -1.749 1.00 53.80 N +ATOM 1294 CA GLU G 182 49.537 -14.499 -1.981 1.00 54.50 C +ATOM 1295 C GLU G 182 48.169 -15.038 -1.587 1.00 55.31 C +ATOM 1296 O GLU G 182 47.551 -14.544 -0.641 1.00 58.81 O +ATOM 1297 CB GLU G 182 50.637 -15.192 -1.171 1.00 57.75 C +ATOM 1298 CG GLU G 182 50.624 -16.711 -1.241 1.00 58.62 C +ATOM 1299 CD GLU G 182 51.703 -17.341 -0.383 1.00 64.17 C +ATOM 1300 OE1 GLU G 182 52.557 -16.596 0.142 1.00 65.16 O +ATOM 1301 OE2 GLU G 182 51.696 -18.580 -0.229 1.00 66.13 O +ATOM 1302 N ILE G 183 47.690 -16.040 -2.317 1.00 53.51 N +ATOM 1303 CA ILE G 183 46.340 -16.552 -2.105 1.00 51.82 C +ATOM 1304 C ILE G 183 46.336 -18.046 -2.402 1.00 51.02 C +ATOM 1305 O ILE G 183 47.046 -18.516 -3.296 1.00 52.63 O +ATOM 1306 CB ILE G 183 45.317 -15.777 -2.967 1.00 48.99 C +ATOM 1307 CG1 ILE G 183 43.886 -16.232 -2.673 1.00 50.40 C +ATOM 1308 CG2 ILE G 183 45.641 -15.912 -4.448 1.00 51.00 C +ATOM 1309 CD1 ILE G 183 42.832 -15.325 -3.275 1.00 49.29 C +ATOM 1310 N LYS G 184 45.542 -18.791 -1.637 1.00 51.65 N +ATOM 1311 CA LYS G 184 45.433 -20.235 -1.815 1.00 54.38 C +ATOM 1312 C LYS G 184 44.087 -20.694 -1.268 1.00 55.93 C +ATOM 1313 O LYS G 184 43.348 -19.918 -0.659 1.00 56.02 O +ATOM 1314 CB LYS G 184 46.599 -20.964 -1.142 1.00 60.17 C +ATOM 1315 CG LYS G 184 47.004 -20.380 0.202 1.00 61.41 C +ATOM 1316 CD LYS G 184 48.162 -21.156 0.808 1.00 70.02 C +ATOM 1317 CE LYS G 184 48.419 -20.734 2.244 1.00 71.71 C +ATOM 1318 NZ LYS G 184 49.677 -21.324 2.779 1.00 67.55 N +ATOM 1319 N VAL G 185 43.768 -21.969 -1.502 1.00 56.20 N +ATOM 1320 CA VAL G 185 42.435 -22.504 -1.227 1.00 57.80 C +ATOM 1321 C VAL G 185 42.551 -23.917 -0.664 1.00 61.57 C +ATOM 1322 O VAL G 185 43.424 -24.691 -1.071 1.00 63.70 O +ATOM 1323 CB VAL G 185 41.545 -22.523 -2.494 1.00 58.32 C +ATOM 1324 CG1 VAL G 185 40.092 -22.800 -2.126 1.00 57.97 C +ATOM 1325 CG2 VAL G 185 41.653 -21.227 -3.282 1.00 58.00 C +ATOM 1326 N ARG G 186 41.659 -24.246 0.273 1.00 60.35 N +ATOM 1327 CA ARG G 186 41.474 -25.594 0.795 1.00 63.06 C +ATOM 1328 C ARG G 186 40.008 -25.981 0.679 1.00 62.38 C +ATOM 1329 O ARG G 186 39.137 -25.137 0.454 1.00 61.82 O +ATOM 1330 CB ARG G 186 41.895 -25.721 2.265 1.00 66.66 C +ATOM 1331 CG ARG G 186 43.372 -25.628 2.540 1.00 75.39 C +ATOM 1332 CD ARG G 186 43.642 -25.856 4.020 1.00 74.72 C +ATOM 1333 NE ARG G 186 42.955 -24.872 4.852 1.00 74.50 N +ATOM 1334 CZ ARG G 186 42.961 -24.880 6.181 1.00 78.62 C +ATOM 1335 NH1 ARG G 186 43.619 -25.825 6.838 1.00 80.81 N +ATOM 1336 NH2 ARG G 186 42.307 -23.943 6.853 1.00 81.02 N +ATOM 1337 N SER G 187 39.734 -27.269 0.893 1.00 62.47 N +ATOM 1338 CA SER G 187 38.377 -27.792 0.812 1.00 61.99 C +ATOM 1339 C SER G 187 38.124 -28.759 1.961 1.00 63.99 C +ATOM 1340 O SER G 187 39.048 -29.405 2.466 1.00 63.82 O +ATOM 1341 CB SER G 187 38.125 -28.500 -0.528 1.00 59.94 C +ATOM 1342 OG SER G 187 38.299 -27.612 -1.616 1.00 56.32 O +ATOM 1343 N ILE G 188 36.857 -28.848 2.364 1.00 66.05 N +ATOM 1344 CA ILE G 188 36.442 -29.781 3.414 1.00 66.52 C +ATOM 1345 C ILE G 188 35.054 -30.309 3.089 1.00 67.83 C +ATOM 1346 O ILE G 188 34.213 -29.599 2.518 1.00 69.33 O +ATOM 1347 CB ILE G 188 36.446 -29.095 4.807 1.00 64.20 C +ATOM 1348 CG1 ILE G 188 36.358 -30.111 5.955 1.00 65.61 C +ATOM 1349 CG2 ILE G 188 35.334 -28.075 4.921 1.00 65.67 C +ATOM 1350 CD1 ILE G 188 36.653 -29.516 7.316 1.00 67.07 C +ATOM 1351 N PRO G 189 34.787 -31.572 3.431 1.00 67.57 N +ATOM 1352 CA PRO G 189 33.417 -32.087 3.311 1.00 69.84 C +ATOM 1353 C PRO G 189 32.447 -31.325 4.202 1.00 75.83 C +ATOM 1354 O PRO G 189 32.768 -30.972 5.339 1.00 75.85 O +ATOM 1355 CB PRO G 189 33.550 -33.550 3.744 1.00 72.76 C +ATOM 1356 CG PRO G 189 34.981 -33.888 3.538 1.00 72.63 C +ATOM 1357 CD PRO G 189 35.738 -32.627 3.830 1.00 68.31 C +ATOM 1358 N ASP G 190 31.246 -31.084 3.678 1.00 79.50 N +ATOM 1359 CA ASP G 190 30.227 -30.355 4.428 1.00 85.86 C +ATOM 1360 C ASP G 190 28.843 -30.901 4.063 1.00 92.29 C +ATOM 1361 O ASP G 190 27.931 -30.158 3.697 1.00 94.09 O +ATOM 1362 CB ASP G 190 30.311 -28.853 4.154 1.00 81.20 C +ATOM 1363 CG ASP G 190 29.559 -28.039 5.185 1.00 86.13 C +ATOM 1364 OD1 ASP G 190 29.205 -28.625 6.234 1.00 90.61 O +ATOM 1365 OD2 ASP G 190 29.310 -26.833 4.946 1.00 88.02 O +ATOM 1366 N HIS G 191 28.671 -32.219 4.161 1.00 99.84 N +ATOM 1367 CA HIS G 191 27.379 -32.860 3.930 1.00112.44 C +ATOM 1368 C HIS G 191 27.317 -34.100 4.814 1.00119.81 C +ATOM 1369 O HIS G 191 27.641 -34.018 6.004 1.00118.94 O +ATOM 1370 CB HIS G 191 27.187 -33.205 2.445 1.00110.31 C +ATOM 1371 CG HIS G 191 25.779 -33.576 2.076 1.00115.88 C +ATOM 1372 ND1 HIS G 191 25.445 -34.095 0.842 1.00118.76 N +ATOM 1373 CD2 HIS G 191 24.623 -33.508 2.778 1.00122.27 C +ATOM 1374 CE1 HIS G 191 24.146 -34.330 0.801 1.00124.48 C +ATOM 1375 NE2 HIS G 191 23.623 -33.982 1.963 1.00127.79 N +ATOM 1376 N TYR G 192 26.878 -35.241 4.271 1.00124.75 N +ATOM 1377 CA TYR G 192 26.928 -36.480 5.044 1.00129.26 C +ATOM 1378 C TYR G 192 28.346 -36.790 5.498 1.00126.68 C +ATOM 1379 O TYR G 192 28.549 -37.292 6.609 1.00135.15 O +ATOM 1380 CB TYR G 192 26.388 -37.656 4.226 1.00138.03 C +ATOM 1381 CG TYR G 192 26.455 -38.994 4.949 1.00147.07 C +ATOM 1382 CD1 TYR G 192 26.276 -39.083 6.327 1.00153.76 C +ATOM 1383 CD2 TYR G 192 26.751 -40.163 4.256 1.00143.08 C +ATOM 1384 CE1 TYR G 192 26.361 -40.297 6.985 1.00154.08 C +ATOM 1385 CE2 TYR G 192 26.837 -41.382 4.908 1.00148.86 C +ATOM 1386 CZ TYR G 192 26.641 -41.442 6.272 1.00152.01 C +ATOM 1387 OH TYR G 192 26.724 -42.648 6.928 1.00154.50 O +ATOM 1388 N PHE G 193 29.337 -36.462 4.680 1.00116.77 N +ATOM 1389 CA PHE G 193 30.711 -36.815 4.987 1.00105.35 C +ATOM 1390 C PHE G 193 31.358 -35.738 5.841 1.00 96.25 C +ATOM 1391 O PHE G 193 31.117 -34.542 5.654 1.00 96.97 O +ATOM 1392 CB PHE G 193 31.522 -37.004 3.703 1.00101.87 C +ATOM 1393 CG PHE G 193 30.983 -38.068 2.790 1.00106.41 C +ATOM 1394 CD1 PHE G 193 29.986 -37.777 1.873 1.00108.36 C +ATOM 1395 CD2 PHE G 193 31.475 -39.361 2.849 1.00106.28 C +ATOM 1396 CE1 PHE G 193 29.492 -38.755 1.032 1.00108.03 C +ATOM 1397 CE2 PHE G 193 30.984 -40.343 2.011 1.00107.28 C +ATOM 1398 CZ PHE G 193 29.992 -40.040 1.102 1.00108.99 C +ATOM 1399 N LYS G 194 32.175 -36.183 6.789 1.00 92.04 N +ATOM 1400 CA LYS G 194 33.003 -35.320 7.611 1.00 89.23 C +ATOM 1401 C LYS G 194 34.420 -35.864 7.546 1.00 86.53 C +ATOM 1402 O LYS G 194 34.641 -37.029 7.207 1.00 88.28 O +ATOM 1403 CB LYS G 194 32.508 -35.261 9.065 1.00 92.35 C +ATOM 1404 CG LYS G 194 31.080 -34.757 9.220 1.00 95.91 C +ATOM 1405 N GLY G 195 35.387 -35.008 7.847 1.00 79.74 N +ATOM 1406 CA GLY G 195 36.763 -35.446 7.770 1.00 75.53 C +ATOM 1407 C GLY G 195 37.770 -34.367 8.095 1.00 73.59 C +ATOM 1408 O GLY G 195 37.757 -33.790 9.186 1.00 74.05 O +ATOM 1409 N PHE G 196 38.646 -34.083 7.137 1.00 73.22 N +ATOM 1410 CA PHE G 196 39.746 -33.159 7.331 1.00 71.07 C +ATOM 1411 C PHE G 196 39.801 -32.188 6.162 1.00 67.88 C +ATOM 1412 O PHE G 196 39.091 -32.330 5.164 1.00 66.47 O +ATOM 1413 CB PHE G 196 41.086 -33.894 7.449 1.00 71.70 C +ATOM 1414 CG PHE G 196 41.204 -34.753 8.669 1.00 74.58 C +ATOM 1415 CD1 PHE G 196 41.790 -34.263 9.823 1.00 74.60 C +ATOM 1416 CD2 PHE G 196 40.732 -36.056 8.663 1.00 74.48 C +ATOM 1417 CE1 PHE G 196 41.902 -35.053 10.947 1.00 76.06 C +ATOM 1418 CE2 PHE G 196 40.840 -36.850 9.786 1.00 76.48 C +ATOM 1419 CZ PHE G 196 41.427 -36.347 10.930 1.00 86.29 C +ATOM 1420 N TRP G 197 40.661 -31.188 6.307 1.00 68.52 N +ATOM 1421 CA TRP G 197 40.911 -30.239 5.238 1.00 64.01 C +ATOM 1422 C TRP G 197 41.832 -30.861 4.199 1.00 61.78 C +ATOM 1423 O TRP G 197 42.708 -31.670 4.518 1.00 63.98 O +ATOM 1424 CB TRP G 197 41.521 -28.956 5.794 1.00 65.01 C +ATOM 1425 CG TRP G 197 40.539 -28.140 6.565 1.00 64.59 C +ATOM 1426 CD1 TRP G 197 40.339 -28.155 7.913 1.00 63.95 C +ATOM 1427 CD2 TRP G 197 39.625 -27.175 6.033 1.00 65.98 C +ATOM 1428 NE1 TRP G 197 39.349 -27.265 8.254 1.00 64.18 N +ATOM 1429 CE2 TRP G 197 38.896 -26.650 7.117 1.00 64.92 C +ATOM 1430 CE3 TRP G 197 39.350 -26.707 4.744 1.00 66.31 C +ATOM 1431 CZ2 TRP G 197 37.912 -25.681 6.952 1.00 68.74 C +ATOM 1432 CZ3 TRP G 197 38.372 -25.746 4.583 1.00 62.38 C +ATOM 1433 CH2 TRP G 197 37.668 -25.241 5.681 1.00 63.65 C +ATOM 1434 N SER G 198 41.628 -30.476 2.944 1.00 64.17 N +ATOM 1435 CA SER G 198 42.529 -30.911 1.893 1.00 67.61 C +ATOM 1436 C SER G 198 43.861 -30.177 2.023 1.00 68.43 C +ATOM 1437 O SER G 198 44.046 -29.305 2.879 1.00 65.65 O +ATOM 1438 CB SER G 198 41.905 -30.661 0.523 1.00 63.03 C +ATOM 1439 OG SER G 198 41.811 -29.273 0.250 1.00 61.55 O +ATOM 1440 N GLU G 199 44.802 -30.527 1.157 1.00 66.78 N +ATOM 1441 CA GLU G 199 46.062 -29.808 1.120 1.00 65.74 C +ATOM 1442 C GLU G 199 45.859 -28.464 0.438 1.00 64.72 C +ATOM 1443 O GLU G 199 44.940 -28.287 -0.368 1.00 65.40 O +ATOM 1444 CB GLU G 199 47.134 -30.619 0.390 1.00 68.57 C +ATOM 1445 CG GLU G 199 47.631 -31.836 1.158 1.00 75.23 C +ATOM 1446 CD GLU G 199 48.387 -31.468 2.424 1.00 84.02 C +ATOM 1447 OE1 GLU G 199 48.873 -30.321 2.523 1.00 78.06 O +ATOM 1448 OE2 GLU G 199 48.497 -32.329 3.323 1.00 99.80 O +ATOM 1449 N TRP G 200 46.712 -27.506 0.784 1.00 63.86 N +ATOM 1450 CA TRP G 200 46.630 -26.196 0.159 1.00 64.16 C +ATOM 1451 C TRP G 200 46.916 -26.310 -1.331 1.00 63.48 C +ATOM 1452 O TRP G 200 47.864 -26.983 -1.746 1.00 63.32 O +ATOM 1453 CB TRP G 200 47.615 -25.225 0.811 1.00 65.97 C +ATOM 1454 CG TRP G 200 47.142 -24.663 2.113 1.00 65.58 C +ATOM 1455 CD1 TRP G 200 47.615 -24.961 3.356 1.00 69.79 C +ATOM 1456 CD2 TRP G 200 46.100 -23.698 2.301 1.00 66.91 C +ATOM 1457 NE1 TRP G 200 46.933 -24.242 4.307 1.00 73.58 N +ATOM 1458 CE2 TRP G 200 45.997 -23.459 3.685 1.00 68.27 C +ATOM 1459 CE3 TRP G 200 45.241 -23.018 1.433 1.00 66.23 C +ATOM 1460 CZ2 TRP G 200 45.071 -22.568 4.221 1.00 68.36 C +ATOM 1461 CZ3 TRP G 200 44.324 -22.132 1.967 1.00 65.52 C +ATOM 1462 CH2 TRP G 200 44.245 -21.917 3.348 1.00 66.40 C +ATOM 1463 N SER G 201 46.084 -25.657 -2.135 1.00 59.64 N +ATOM 1464 CA SER G 201 46.340 -25.589 -3.557 1.00 61.21 C +ATOM 1465 C SER G 201 47.609 -24.777 -3.794 1.00 59.11 C +ATOM 1466 O SER G 201 48.025 -23.999 -2.931 1.00 60.11 O +ATOM 1467 CB SER G 201 45.156 -24.950 -4.279 1.00 59.76 C +ATOM 1468 OG SER G 201 45.099 -23.557 -4.029 1.00 60.59 O +ATOM 1469 N PRO G 202 48.262 -24.961 -4.940 1.00 60.04 N +ATOM 1470 CA PRO G 202 49.415 -24.114 -5.261 1.00 56.68 C +ATOM 1471 C PRO G 202 49.030 -22.645 -5.188 1.00 57.22 C +ATOM 1472 O PRO G 202 47.967 -22.236 -5.661 1.00 63.60 O +ATOM 1473 CB PRO G 202 49.789 -24.541 -6.686 1.00 54.73 C +ATOM 1474 CG PRO G 202 48.604 -25.309 -7.199 1.00 60.67 C +ATOM 1475 CD PRO G 202 47.997 -25.950 -5.998 1.00 60.49 C +ATOM 1476 N SER G 203 49.901 -21.850 -4.576 1.00 51.69 N +ATOM 1477 CA SER G 203 49.570 -20.461 -4.318 1.00 55.30 C +ATOM 1478 C SER G 203 49.544 -19.660 -5.615 1.00 54.17 C +ATOM 1479 O SER G 203 50.110 -20.052 -6.639 1.00 62.03 O +ATOM 1480 CB SER G 203 50.568 -19.842 -3.339 1.00 56.82 C +ATOM 1481 OG SER G 203 50.476 -20.450 -2.062 1.00 60.68 O +ATOM 1482 N TYR G 204 48.868 -18.518 -5.555 1.00 50.42 N +ATOM 1483 CA TYR G 204 48.827 -17.572 -6.655 1.00 52.79 C +ATOM 1484 C TYR G 204 49.136 -16.188 -6.109 1.00 53.36 C +ATOM 1485 O TYR G 204 48.875 -15.892 -4.941 1.00 53.93 O +ATOM 1486 CB TYR G 204 47.463 -17.578 -7.358 1.00 55.52 C +ATOM 1487 CG TYR G 204 47.484 -16.965 -8.740 1.00 57.15 C +ATOM 1488 CD1 TYR G 204 47.933 -17.691 -9.836 1.00 56.78 C +ATOM 1489 CD2 TYR G 204 47.056 -15.661 -8.950 1.00 55.49 C +ATOM 1490 CE1 TYR G 204 47.954 -17.137 -11.100 1.00 59.31 C +ATOM 1491 CE2 TYR G 204 47.074 -15.097 -10.211 1.00 58.43 C +ATOM 1492 CZ TYR G 204 47.524 -15.840 -11.282 1.00 61.62 C +ATOM 1493 OH TYR G 204 47.543 -15.283 -12.541 1.00 63.74 O +ATOM 1494 N TYR G 205 49.707 -15.343 -6.957 1.00 53.99 N +ATOM 1495 CA TYR G 205 50.190 -14.040 -6.530 1.00 56.12 C +ATOM 1496 C TYR G 205 49.615 -12.963 -7.434 1.00 56.08 C +ATOM 1497 O TYR G 205 49.545 -13.139 -8.655 1.00 58.10 O +ATOM 1498 CB TYR G 205 51.722 -13.998 -6.535 1.00 60.76 C +ATOM 1499 CG TYR G 205 52.342 -15.145 -5.766 1.00 62.00 C +ATOM 1500 CD1 TYR G 205 52.589 -15.037 -4.403 1.00 59.31 C +ATOM 1501 CD2 TYR G 205 52.665 -16.340 -6.397 1.00 58.97 C +ATOM 1502 CE1 TYR G 205 53.148 -16.082 -3.692 1.00 58.20 C +ATOM 1503 CE2 TYR G 205 53.223 -17.391 -5.694 1.00 61.35 C +ATOM 1504 CZ TYR G 205 53.462 -17.257 -4.342 1.00 62.03 C +ATOM 1505 OH TYR G 205 54.018 -18.300 -3.637 1.00 64.79 O +ATOM 1506 N PHE G 206 49.206 -11.849 -6.832 1.00 54.62 N +ATOM 1507 CA PHE G 206 48.643 -10.758 -7.617 1.00 56.09 C +ATOM 1508 C PHE G 206 48.918 -9.430 -6.929 1.00 57.07 C +ATOM 1509 O PHE G 206 49.053 -9.362 -5.707 1.00 54.78 O +ATOM 1510 CB PHE G 206 47.136 -10.935 -7.845 1.00 52.57 C +ATOM 1511 CG PHE G 206 46.317 -10.892 -6.586 1.00 53.00 C +ATOM 1512 CD1 PHE G 206 46.160 -12.026 -5.805 1.00 52.34 C +ATOM 1513 CD2 PHE G 206 45.691 -9.720 -6.192 1.00 52.00 C +ATOM 1514 CE1 PHE G 206 45.403 -11.988 -4.649 1.00 51.34 C +ATOM 1515 CE2 PHE G 206 44.933 -9.677 -5.039 1.00 50.46 C +ATOM 1516 CZ PHE G 206 44.787 -10.812 -4.267 1.00 52.05 C +ATOM 1517 N ARG G 207 48.984 -8.371 -7.727 1.00 60.68 N +ATOM 1518 CA ARG G 207 49.320 -7.046 -7.234 1.00 60.05 C +ATOM 1519 C ARG G 207 48.108 -6.122 -7.300 1.00 59.41 C +ATOM 1520 O ARG G 207 47.086 -6.429 -7.919 1.00 58.13 O +ATOM 1521 CB ARG G 207 50.500 -6.472 -8.023 1.00 64.37 C +ATOM 1522 CG ARG G 207 51.641 -7.471 -8.157 1.00 67.93 C +ATOM 1523 CD ARG G 207 52.883 -6.859 -8.769 1.00 72.53 C +ATOM 1524 NE ARG G 207 53.717 -6.213 -7.761 1.00 82.00 N +ATOM 1525 CZ ARG G 207 54.833 -6.740 -7.267 1.00 86.23 C +ATOM 1526 NH1 ARG G 207 55.257 -7.921 -7.695 1.00 81.08 N +ATOM 1527 NH2 ARG G 207 55.529 -6.082 -6.349 1.00 96.14 N +ATOM 1528 N THR G 208 48.246 -4.972 -6.642 1.00 62.36 N +ATOM 1529 CA THR G 208 47.216 -3.966 -6.455 1.00 65.08 C +ATOM 1530 C THR G 208 47.666 -2.635 -7.050 1.00 65.10 C +ATOM 1531 O THR G 208 48.851 -2.294 -6.960 1.00 66.98 O +ATOM 1532 CB THR G 208 46.909 -3.792 -4.952 1.00 64.36 C +ATOM 1533 OG1 THR G 208 46.549 -5.061 -4.391 1.00 62.69 O +ATOM 1534 CG2 THR G 208 45.765 -2.817 -4.721 1.00 66.49 C +ATOM 1535 N PRO G 209 46.765 -1.876 -7.678 1.00 64.86 N +ATOM 1536 CA PRO G 209 47.157 -0.574 -8.233 1.00 67.22 C +ATOM 1537 C PRO G 209 47.722 0.348 -7.161 1.00 73.68 C +ATOM 1538 O PRO G 209 47.496 0.172 -5.962 1.00 73.93 O +ATOM 1539 CB PRO G 209 45.851 -0.025 -8.818 1.00 67.61 C +ATOM 1540 CG PRO G 209 45.040 -1.239 -9.114 1.00 64.28 C +ATOM 1541 CD PRO G 209 45.389 -2.244 -8.058 1.00 64.34 C +ATOM 1542 N GLU G 210 48.469 1.356 -7.619 1.00 81.90 N +ATOM 1543 CA GLU G 210 49.205 2.216 -6.697 1.00 88.38 C +ATOM 1544 C GLU G 210 48.352 3.345 -6.131 1.00 91.85 C +ATOM 1545 O GLU G 210 48.540 3.736 -4.973 1.00 97.88 O +ATOM 1546 CB GLU G 210 50.423 2.805 -7.413 1.00107.77 C +ATOM 1547 CG GLU G 210 51.748 2.580 -6.714 1.00104.81 C +ATOM 1548 CD GLU G 210 52.646 3.800 -6.782 1.00117.17 C +ATOM 1549 OE1 GLU G 210 52.410 4.751 -6.008 1.00125.18 O +ATOM 1550 OE2 GLU G 210 53.577 3.814 -7.615 1.00118.99 O +ATOM 1551 N ILE G 211 47.426 3.884 -6.917 1.00 87.63 N +ATOM 1552 CA ILE G 211 46.585 4.982 -6.448 1.00 89.87 C +ATOM 1553 C ILE G 211 45.750 4.556 -5.243 1.00 90.10 C +ATOM 1554 O ILE G 211 45.859 5.138 -4.163 1.00 91.30 O +ATOM 1555 CB ILE G 211 45.685 5.518 -7.572 1.00 95.09 C +ATOM 1556 CG1 ILE G 211 45.313 6.977 -7.301 1.00 93.49 C +ATOM 1557 CG2 ILE G 211 44.434 4.666 -7.705 1.00 96.00 C +ATOM 1558 CD1 ILE G 211 46.503 7.916 -7.265 1.00 87.14 C +HETATM 1559 C1 FUC G 304 39.112 -34.075 -16.471 1.00107.86 C +HETATM 1560 C2 FUC G 304 40.066 -33.393 -17.466 1.00112.85 C +HETATM 1561 C3 FUC G 304 40.795 -32.210 -16.812 1.00112.58 C +HETATM 1562 C4 FUC G 304 41.462 -32.648 -15.501 1.00109.78 C +HETATM 1563 C5 FUC G 304 40.420 -33.304 -14.589 1.00103.74 C +HETATM 1564 C6 FUC G 304 41.013 -33.873 -13.310 1.00 93.55 C +HETATM 1565 O2 FUC G 304 39.393 -32.975 -18.648 1.00110.50 O +HETATM 1566 O3 FUC G 304 41.811 -31.713 -17.678 1.00112.37 O +HETATM 1567 O4 FUC G 304 42.504 -33.568 -15.775 1.00109.02 O +HETATM 1568 O5 FUC G 304 39.745 -34.393 -15.256 1.00105.95 O +HETATM 1569 C1 NAG G 305 43.577 -45.361 -12.313 1.00151.93 C +HETATM 1570 C2 NAG G 305 44.194 -46.757 -12.352 1.00149.08 C +HETATM 1571 C3 NAG G 305 45.009 -46.935 -13.632 1.00145.99 C +HETATM 1572 C4 NAG G 305 44.179 -46.568 -14.856 1.00143.09 C +HETATM 1573 C5 NAG G 305 43.545 -45.190 -14.682 1.00144.58 C +HETATM 1574 C6 NAG G 305 42.602 -44.819 -15.802 1.00137.68 C +HETATM 1575 C7 NAG G 305 44.777 -47.930 -10.271 1.00143.54 C +HETATM 1576 C8 NAG G 305 45.743 -48.010 -9.126 1.00136.08 C +HETATM 1577 N2 NAG G 305 45.027 -46.983 -11.181 1.00149.47 N +HETATM 1578 O3 NAG G 305 45.452 -48.283 -13.731 1.00148.70 O +HETATM 1579 O4 NAG G 305 45.005 -46.554 -16.015 1.00137.38 O +HETATM 1580 O5 NAG G 305 42.780 -45.159 -13.470 1.00148.52 O +HETATM 1581 O6 NAG G 305 42.414 -43.412 -15.874 1.00127.73 O +HETATM 1582 O7 NAG G 305 43.819 -48.691 -10.369 1.00139.67 O +ATOM 1583 N ASP I 17 19.151 59.883 43.419 1.00167.20 N +ATOM 1584 CA ASP I 17 18.061 59.110 44.004 1.00174.60 C +ATOM 1585 C ASP I 17 16.821 59.191 43.121 1.00180.05 C +ATOM 1586 O ASP I 17 16.341 60.279 42.803 1.00181.47 O +ATOM 1587 CB ASP I 17 17.753 59.611 45.418 1.00173.84 C +ATOM 1588 CG ASP I 17 16.780 58.714 46.163 1.00174.92 C +ATOM 1589 OD1 ASP I 17 16.228 57.774 45.556 1.00177.50 O +ATOM 1590 OD2 ASP I 17 16.572 58.952 47.371 1.00171.88 O +ATOM 1591 N TYR I 18 16.304 58.023 42.729 1.00179.63 N +ATOM 1592 CA TYR I 18 15.132 57.949 41.865 1.00180.14 C +ATOM 1593 C TYR I 18 14.250 56.763 42.238 1.00179.04 C +ATOM 1594 O TYR I 18 13.504 56.252 41.395 1.00177.98 O +ATOM 1595 CB TYR I 18 15.543 57.849 40.394 1.00182.28 C +ATOM 1596 CG TYR I 18 16.249 59.078 39.865 1.00185.58 C +ATOM 1597 CD1 TYR I 18 15.530 60.154 39.359 1.00186.77 C +ATOM 1598 CD2 TYR I 18 17.635 59.162 39.872 1.00186.96 C +ATOM 1599 CE1 TYR I 18 16.175 61.280 38.876 1.00191.53 C +ATOM 1600 CE2 TYR I 18 18.288 60.282 39.393 1.00190.77 C +ATOM 1601 CZ TYR I 18 17.553 61.338 38.896 1.00194.99 C +ATOM 1602 OH TYR I 18 18.197 62.456 38.416 1.00197.41 O +ATOM 1603 N SER I 19 14.318 56.320 43.493 1.00177.58 N +ATOM 1604 CA SER I 19 13.612 55.129 43.950 1.00168.19 C +ATOM 1605 C SER I 19 13.796 54.994 45.456 1.00165.22 C +ATOM 1606 O SER I 19 14.762 55.501 46.032 1.00164.80 O +ATOM 1607 CB SER I 19 14.111 53.862 43.247 1.00167.89 C +ATOM 1608 OG SER I 19 15.486 53.641 43.510 1.00170.52 O +ATOM 1609 N PHE I 20 12.851 54.296 46.082 1.00162.15 N +ATOM 1610 CA PHE I 20 12.841 54.086 47.522 1.00158.22 C +ATOM 1611 C PHE I 20 12.164 52.747 47.776 1.00154.49 C +ATOM 1612 O PHE I 20 11.576 52.150 46.871 1.00152.36 O +ATOM 1613 CB PHE I 20 12.144 55.231 48.270 1.00157.06 C +ATOM 1614 CG PHE I 20 10.742 55.508 47.802 1.00155.73 C +ATOM 1615 CD1 PHE I 20 9.662 54.871 48.391 1.00154.69 C +ATOM 1616 CD2 PHE I 20 10.503 56.420 46.787 1.00157.79 C +ATOM 1617 CE1 PHE I 20 8.371 55.128 47.968 1.00156.25 C +ATOM 1618 CE2 PHE I 20 9.214 56.682 46.360 1.00160.46 C +ATOM 1619 CZ PHE I 20 8.148 56.034 46.951 1.00160.37 C +ATOM 1620 N SER I 21 12.243 52.270 49.018 1.00153.42 N +ATOM 1621 CA SER I 21 11.694 50.964 49.349 1.00149.81 C +ATOM 1622 C SER I 21 10.864 51.039 50.619 1.00146.11 C +ATOM 1623 O SER I 21 11.268 51.657 51.606 1.00146.55 O +ATOM 1624 CB SER I 21 12.809 49.924 49.516 1.00148.14 C +ATOM 1625 OG SER I 21 13.518 49.741 48.303 1.00150.78 O +ATOM 1626 N CYS I 22 9.711 50.376 50.585 1.00141.16 N +ATOM 1627 CA CYS I 22 8.749 50.381 51.673 1.00139.28 C +ATOM 1628 C CYS I 22 8.417 48.950 52.070 1.00133.45 C +ATOM 1629 O CYS I 22 8.736 47.994 51.359 1.00132.57 O +ATOM 1630 CB CYS I 22 7.459 51.116 51.280 1.00137.39 C +ATOM 1631 SG CYS I 22 7.652 52.857 50.824 1.00143.82 S +ATOM 1632 N TYR I 23 7.823 48.814 53.253 1.00130.09 N +ATOM 1633 CA TYR I 23 7.251 47.554 53.704 1.00122.93 C +ATOM 1634 C TYR I 23 6.103 47.864 54.654 1.00121.36 C +ATOM 1635 O TYR I 23 6.169 48.823 55.429 1.00123.46 O +ATOM 1636 CB TYR I 23 8.291 46.649 54.382 1.00118.97 C +ATOM 1637 CG TYR I 23 8.788 47.126 55.731 1.00116.42 C +ATOM 1638 CD1 TYR I 23 8.135 46.758 56.901 1.00110.28 C +ATOM 1639 CD2 TYR I 23 9.923 47.917 55.837 1.00120.48 C +ATOM 1640 CE1 TYR I 23 8.586 47.179 58.136 1.00111.33 C +ATOM 1641 CE2 TYR I 23 10.385 48.342 57.069 1.00120.27 C +ATOM 1642 CZ TYR I 23 9.711 47.970 58.215 1.00117.60 C +ATOM 1643 OH TYR I 23 10.163 48.391 59.445 1.00116.25 O +ATOM 1644 N SER I 24 5.055 47.046 54.594 1.00118.00 N +ATOM 1645 CA SER I 24 3.832 47.278 55.357 1.00116.73 C +ATOM 1646 C SER I 24 3.577 46.088 56.274 1.00114.76 C +ATOM 1647 O SER I 24 3.320 44.976 55.802 1.00115.80 O +ATOM 1648 CB SER I 24 2.644 47.514 54.427 1.00113.92 C +ATOM 1649 OG SER I 24 2.420 46.396 53.587 1.00115.21 O +ATOM 1650 N GLN I 25 3.646 46.326 57.581 1.00114.31 N +ATOM 1651 CA GLN I 25 3.250 45.340 58.576 1.00116.06 C +ATOM 1652 C GLN I 25 1.781 45.568 58.911 1.00124.21 C +ATOM 1653 O GLN I 25 1.401 46.654 59.368 1.00128.86 O +ATOM 1654 CB GLN I 25 4.123 45.442 59.828 1.00111.81 C +ATOM 1655 CG GLN I 25 5.563 44.995 59.627 1.00105.73 C +ATOM 1656 CD GLN I 25 6.391 45.096 60.893 1.00100.70 C +ATOM 1657 OE1 GLN I 25 6.040 45.820 61.823 1.00105.62 O +ATOM 1658 NE2 GLN I 25 7.498 44.362 60.936 1.00 91.98 N +ATOM 1659 N LEU I 26 0.958 44.547 58.701 1.00125.11 N +ATOM 1660 CA LEU I 26 -0.483 44.683 58.846 1.00131.62 C +ATOM 1661 C LEU I 26 -0.935 44.168 60.203 1.00138.79 C +ATOM 1662 O LEU I 26 -0.423 43.159 60.698 1.00137.55 O +ATOM 1663 CB LEU I 26 -1.210 43.897 57.752 1.00129.85 C +ATOM 1664 CG LEU I 26 -0.904 44.188 56.284 1.00126.22 C +ATOM 1665 CD1 LEU I 26 -1.562 43.143 55.397 1.00134.88 C +ATOM 1666 CD2 LEU I 26 -1.383 45.577 55.912 1.00127.34 C +ATOM 1667 N GLU I 27 -1.907 44.866 60.790 1.00144.06 N +ATOM 1668 CA GLU I 27 -2.528 44.455 62.046 1.00150.29 C +ATOM 1669 C GLU I 27 -1.483 44.230 63.137 1.00151.77 C +ATOM 1670 O GLU I 27 -1.496 43.226 63.852 1.00149.52 O +ATOM 1671 CB GLU I 27 -3.408 43.225 61.835 1.00148.50 C +ATOM 1672 CG GLU I 27 -4.694 43.563 61.094 1.00152.24 C +ATOM 1673 CD GLU I 27 -5.413 42.344 60.564 1.00161.11 C +ATOM 1674 OE1 GLU I 27 -4.730 41.374 60.178 1.00161.25 O +ATOM 1675 OE2 GLU I 27 -6.661 42.359 60.531 1.00164.20 O +ATOM 1676 N VAL I 28 -0.565 45.190 63.260 1.00151.64 N +ATOM 1677 CA VAL I 28 0.488 45.079 64.263 1.00152.37 C +ATOM 1678 C VAL I 28 -0.115 45.132 65.659 1.00158.60 C +ATOM 1679 O VAL I 28 0.254 44.347 66.541 1.00159.03 O +ATOM 1680 CB VAL I 28 1.541 46.184 64.057 1.00148.83 C +ATOM 1681 CG1 VAL I 28 2.741 45.958 64.967 1.00147.02 C +ATOM 1682 CG2 VAL I 28 1.968 46.249 62.601 1.00142.01 C +ATOM 1683 N ASN I 29 -1.034 46.067 65.890 1.00163.47 N +ATOM 1684 CA ASN I 29 -1.759 46.156 67.157 1.00163.56 C +ATOM 1685 C ASN I 29 -3.245 46.320 66.842 1.00166.01 C +ATOM 1686 O ASN I 29 -3.694 47.417 66.495 1.00167.80 O +ATOM 1687 CB ASN I 29 -1.229 47.294 68.018 1.00162.72 C +ATOM 1688 CG ASN I 29 0.159 47.007 68.557 1.00159.92 C +ATOM 1689 OD1 ASN I 29 1.162 47.439 67.988 1.00159.43 O +ATOM 1690 ND2 ASN I 29 0.224 46.260 69.654 1.00157.81 N +ATOM 1691 N GLY I 30 -4.001 45.230 66.966 1.00168.38 N +ATOM 1692 CA GLY I 30 -5.407 45.231 66.606 1.00174.66 C +ATOM 1693 C GLY I 30 -5.673 45.490 65.138 1.00173.51 C +ATOM 1694 O GLY I 30 -5.481 44.603 64.300 1.00172.63 O +ATOM 1695 N SER I 31 -6.129 46.697 64.812 1.00175.39 N +ATOM 1696 CA SER I 31 -6.358 47.098 63.431 1.00176.57 C +ATOM 1697 C SER I 31 -5.356 48.137 62.953 1.00177.11 C +ATOM 1698 O SER I 31 -5.468 48.616 61.820 1.00178.58 O +ATOM 1699 CB SER I 31 -7.783 47.644 63.268 1.00179.32 C +ATOM 1700 OG SER I 31 -8.013 48.739 64.138 1.00178.80 O +ATOM 1701 N GLN I 32 -4.388 48.500 63.789 1.00175.65 N +ATOM 1702 CA GLN I 32 -3.398 49.517 63.455 1.00172.37 C +ATOM 1703 C GLN I 32 -2.364 48.944 62.489 1.00169.01 C +ATOM 1704 O GLN I 32 -1.588 48.054 62.853 1.00165.47 O +ATOM 1705 CB GLN I 32 -2.749 50.013 64.743 1.00172.87 C +ATOM 1706 CG GLN I 32 -1.494 50.840 64.586 1.00172.82 C +ATOM 1707 CD GLN I 32 -0.848 51.130 65.928 1.00176.70 C +ATOM 1708 OE1 GLN I 32 0.151 51.841 66.009 1.00176.02 O +ATOM 1709 NE2 GLN I 32 -1.420 50.574 66.991 1.00173.49 N +ATOM 1710 N HIS I 33 -2.358 49.445 61.255 1.00164.19 N +ATOM 1711 CA HIS I 33 -1.374 49.072 60.250 1.00154.26 C +ATOM 1712 C HIS I 33 -0.154 49.983 60.358 1.00148.07 C +ATOM 1713 O HIS I 33 -0.237 51.103 60.867 1.00150.55 O +ATOM 1714 CB HIS I 33 -1.975 49.155 58.845 1.00153.61 C +ATOM 1715 CG HIS I 33 -3.275 48.426 58.697 1.00155.44 C +ATOM 1716 ND1 HIS I 33 -3.644 47.383 59.519 1.00155.54 N +ATOM 1717 CD2 HIS I 33 -4.296 48.595 57.823 1.00155.25 C +ATOM 1718 CE1 HIS I 33 -4.834 46.939 59.157 1.00155.94 C +ATOM 1719 NE2 HIS I 33 -5.252 47.657 58.130 1.00156.69 N +ATOM 1720 N SER I 34 0.983 49.508 59.842 1.00138.93 N +ATOM 1721 CA SER I 34 2.224 50.276 59.904 1.00133.64 C +ATOM 1722 C SER I 34 2.931 50.207 58.560 1.00126.63 C +ATOM 1723 O SER I 34 3.377 49.134 58.144 1.00123.68 O +ATOM 1724 CB SER I 34 3.140 49.756 61.017 1.00132.06 C +ATOM 1725 OG SER I 34 3.580 48.439 60.741 1.00126.82 O +ATOM 1726 N LEU I 35 3.049 51.351 57.894 1.00126.51 N +ATOM 1727 CA LEU I 35 3.734 51.458 56.609 1.00123.63 C +ATOM 1728 C LEU I 35 5.055 52.192 56.815 1.00127.91 C +ATOM 1729 O LEU I 35 5.062 53.377 57.170 1.00132.15 O +ATOM 1730 CB LEU I 35 2.861 52.173 55.580 1.00120.29 C +ATOM 1731 CG LEU I 35 3.466 52.320 54.184 1.00124.27 C +ATOM 1732 CD1 LEU I 35 3.949 50.978 53.659 1.00124.23 C +ATOM 1733 CD2 LEU I 35 2.452 52.919 53.236 1.00127.24 C +ATOM 1734 N THR I 36 6.165 51.478 56.634 1.00128.04 N +ATOM 1735 CA THR I 36 7.504 52.029 56.773 1.00132.32 C +ATOM 1736 C THR I 36 8.134 52.179 55.392 1.00138.32 C +ATOM 1737 O THR I 36 7.864 51.389 54.486 1.00136.81 O +ATOM 1738 CB THR I 36 8.369 51.127 57.660 1.00126.46 C +ATOM 1739 OG1 THR I 36 7.669 50.843 58.879 1.00123.85 O +ATOM 1740 CG2 THR I 36 9.688 51.795 57.994 1.00129.64 C +ATOM 1741 N CYS I 37 8.960 53.211 55.230 1.00158.80 N +ATOM 1742 CA CYS I 37 9.633 53.497 53.972 1.00158.71 C +ATOM 1743 C CYS I 37 11.010 54.079 54.254 1.00157.75 C +ATOM 1744 O CYS I 37 11.241 54.692 55.302 1.00157.85 O +ATOM 1745 CB CYS I 37 8.830 54.479 53.110 1.00161.82 C +ATOM 1746 SG CYS I 37 7.227 53.881 52.526 1.00164.17 S +ATOM 1747 N ALA I 38 11.926 53.879 53.308 1.00150.94 N +ATOM 1748 CA ALA I 38 13.272 54.411 53.435 1.00151.54 C +ATOM 1749 C ALA I 38 13.878 54.600 52.051 1.00155.09 C +ATOM 1750 O ALA I 38 13.455 53.984 51.067 1.00155.23 O +ATOM 1751 CB ALA I 38 14.161 53.498 54.288 1.00144.75 C +ATOM 1752 N PHE I 39 14.875 55.478 51.989 1.00156.38 N +ATOM 1753 CA PHE I 39 15.598 55.754 50.758 1.00160.23 C +ATOM 1754 C PHE I 39 16.812 54.841 50.647 1.00164.41 C +ATOM 1755 O PHE I 39 17.419 54.461 51.652 1.00163.69 O +ATOM 1756 CB PHE I 39 16.027 57.219 50.689 1.00162.02 C +ATOM 1757 CG PHE I 39 14.962 58.135 50.159 1.00162.01 C +ATOM 1758 CD1 PHE I 39 14.454 57.958 48.883 1.00163.64 C +ATOM 1759 CD2 PHE I 39 14.475 59.177 50.930 1.00157.46 C +ATOM 1760 CE1 PHE I 39 13.478 58.798 48.385 1.00164.70 C +ATOM 1761 CE2 PHE I 39 13.498 60.022 50.438 1.00159.06 C +ATOM 1762 CZ PHE I 39 13.001 59.832 49.163 1.00163.42 C +ATOM 1763 N GLU I 40 17.161 54.486 49.410 1.00165.18 N +ATOM 1764 CA GLU I 40 18.324 53.630 49.199 1.00165.42 C +ATOM 1765 C GLU I 40 19.622 54.369 49.509 1.00170.21 C +ATOM 1766 O GLU I 40 20.457 53.879 50.278 1.00171.39 O +ATOM 1767 CB GLU I 40 18.334 53.111 47.760 1.00163.53 C +ATOM 1768 CG GLU I 40 17.010 52.527 47.289 1.00162.87 C +ATOM 1769 CD GLU I 40 16.692 51.190 47.930 1.00163.73 C +ATOM 1770 OE1 GLU I 40 17.609 50.568 48.507 1.00166.17 O +ATOM 1771 OE2 GLU I 40 15.522 50.760 47.855 1.00161.17 O +ATOM 1772 N ASP I 41 19.810 55.551 48.919 1.00173.15 N +ATOM 1773 CA ASP I 41 21.030 56.300 49.205 1.00177.82 C +ATOM 1774 C ASP I 41 20.830 57.231 50.400 1.00179.30 C +ATOM 1775 O ASP I 41 19.780 57.868 50.523 1.00176.18 O +ATOM 1776 CB ASP I 41 21.459 57.115 47.989 1.00176.59 C +ATOM 1777 CG ASP I 41 22.954 57.371 47.959 1.00177.19 C +ATOM 1778 OD1 ASP I 41 23.718 56.411 47.720 1.00179.58 O +ATOM 1779 OD2 ASP I 41 23.366 58.530 48.173 1.00175.85 O +ATOM 1780 N PRO I 42 21.819 57.324 51.295 1.00183.59 N +ATOM 1781 CA PRO I 42 21.692 58.224 52.451 1.00186.49 C +ATOM 1782 C PRO I 42 21.923 59.689 52.104 1.00186.85 C +ATOM 1783 O PRO I 42 23.075 60.127 52.021 1.00184.46 O +ATOM 1784 CB PRO I 42 22.766 57.704 53.414 1.00185.64 C +ATOM 1785 CG PRO I 42 23.799 57.101 52.520 1.00183.37 C +ATOM 1786 CD PRO I 42 23.055 56.523 51.346 1.00183.10 C +ATOM 1787 N ASP I 43 20.861 60.458 51.899 1.00188.29 N +ATOM 1788 CA ASP I 43 21.006 61.879 51.591 1.00189.22 C +ATOM 1789 C ASP I 43 19.871 62.634 52.279 1.00197.88 C +ATOM 1790 O ASP I 43 19.209 62.112 53.183 1.00199.95 O +ATOM 1791 CB ASP I 43 21.084 62.110 50.072 1.00181.73 C +ATOM 1792 CG ASP I 43 19.898 61.541 49.323 1.00180.51 C +ATOM 1793 OD1 ASP I 43 19.011 60.941 49.964 1.00184.21 O +ATOM 1794 OD2 ASP I 43 19.857 61.696 48.084 1.00171.90 O +ATOM 1795 N VAL I 44 19.636 63.872 51.837 1.00201.72 N +ATOM 1796 CA VAL I 44 18.697 64.799 52.464 1.00206.77 C +ATOM 1797 C VAL I 44 19.101 64.940 53.928 1.00214.19 C +ATOM 1798 O VAL I 44 18.254 64.952 54.829 1.00213.43 O +ATOM 1799 CB VAL I 44 17.231 64.342 52.315 1.00198.82 C +ATOM 1800 CG1 VAL I 44 16.273 65.489 52.632 1.00193.42 C +ATOM 1801 CG2 VAL I 44 16.974 63.821 50.910 1.00193.43 C +ATOM 1802 N ASN I 45 20.406 65.063 54.158 1.00216.26 N +ATOM 1803 CA ASN I 45 20.990 65.251 55.485 1.00219.15 C +ATOM 1804 C ASN I 45 20.403 64.361 56.575 1.00218.75 C +ATOM 1805 O ASN I 45 21.139 63.673 57.282 1.00219.17 O +ATOM 1806 CB ASN I 45 20.852 66.719 55.861 1.00223.62 C +ATOM 1807 CG ASN I 45 21.198 67.613 54.706 1.00235.34 C +ATOM 1808 OD1 ASN I 45 21.164 67.175 53.555 1.00231.59 O +ATOM 1809 ND2 ASN I 45 21.537 68.854 54.980 1.00251.67 N +ATOM 1810 N ASN I 48 13.031 67.654 56.956 1.00190.61 N +ATOM 1811 CA ASN I 48 11.600 67.421 57.104 1.00184.33 C +ATOM 1812 C ASN I 48 10.905 67.385 55.747 1.00182.86 C +ATOM 1813 O ASN I 48 10.225 68.336 55.363 1.00182.73 O +ATOM 1814 CB ASN I 48 10.969 68.499 57.988 1.00182.95 C +ATOM 1815 N LEU I 49 11.089 66.289 55.021 1.00179.89 N +ATOM 1816 CA LEU I 49 10.415 66.073 53.751 1.00174.03 C +ATOM 1817 C LEU I 49 9.243 65.124 53.947 1.00173.01 C +ATOM 1818 O LEU I 49 9.144 64.426 54.960 1.00172.19 O +ATOM 1819 CB LEU I 49 11.378 65.511 52.704 1.00167.58 C +ATOM 1820 CG LEU I 49 12.584 66.385 52.358 1.00164.32 C +ATOM 1821 CD1 LEU I 49 13.140 65.987 51.002 1.00160.94 C +ATOM 1822 CD2 LEU I 49 12.221 67.864 52.384 1.00161.24 C +ATOM 1823 N GLU I 50 8.345 65.103 52.968 1.00175.84 N +ATOM 1824 CA GLU I 50 7.138 64.313 53.125 1.00178.44 C +ATOM 1825 C GLU I 50 6.997 63.315 51.987 1.00177.51 C +ATOM 1826 O GLU I 50 7.587 63.463 50.916 1.00177.63 O +ATOM 1827 CB GLU I 50 5.901 65.216 53.219 1.00181.18 C +ATOM 1828 CG GLU I 50 5.840 65.993 54.530 1.00181.65 C +ATOM 1829 CD GLU I 50 4.683 66.968 54.593 1.00185.83 C +ATOM 1830 OE1 GLU I 50 3.965 67.112 53.582 1.00185.68 O +ATOM 1831 OE2 GLU I 50 4.494 67.595 55.658 1.00187.62 O +ATOM 1832 N PHE I 51 6.239 62.265 52.262 1.00175.94 N +ATOM 1833 CA PHE I 51 5.787 61.319 51.258 1.00177.76 C +ATOM 1834 C PHE I 51 4.278 61.429 51.146 1.00177.72 C +ATOM 1835 O PHE I 51 3.584 61.682 52.137 1.00174.57 O +ATOM 1836 CB PHE I 51 6.183 59.883 51.584 1.00176.70 C +ATOM 1837 CG PHE I 51 7.626 59.578 51.343 1.00173.89 C +ATOM 1838 CD1 PHE I 51 8.586 59.954 52.263 1.00168.20 C +ATOM 1839 CD2 PHE I 51 8.020 58.891 50.207 1.00173.20 C +ATOM 1840 CE1 PHE I 51 9.914 59.667 52.048 1.00163.61 C +ATOM 1841 CE2 PHE I 51 9.348 58.598 49.988 1.00170.80 C +ATOM 1842 CZ PHE I 51 10.295 58.986 50.911 1.00166.17 C +ATOM 1843 N GLU I 52 3.778 61.255 49.936 1.00182.63 N +ATOM 1844 CA GLU I 52 2.379 61.468 49.638 1.00189.86 C +ATOM 1845 C GLU I 52 1.818 60.175 49.082 1.00192.84 C +ATOM 1846 O GLU I 52 2.393 59.585 48.163 1.00192.78 O +ATOM 1847 CB GLU I 52 2.228 62.603 48.624 1.00191.89 C +ATOM 1848 CG GLU I 52 0.840 62.786 48.067 1.00195.67 C +ATOM 1849 CD GLU I 52 -0.021 63.653 48.952 1.00197.58 C +ATOM 1850 OE1 GLU I 52 0.263 63.732 50.166 1.00188.29 O +ATOM 1851 OE2 GLU I 52 -0.977 64.264 48.434 1.00200.28 O +ATOM 1852 N ILE I 53 0.694 59.746 49.638 1.00196.03 N +ATOM 1853 CA ILE I 53 0.012 58.541 49.206 1.00200.73 C +ATOM 1854 C ILE I 53 -1.380 58.978 48.784 1.00204.49 C +ATOM 1855 O ILE I 53 -2.193 59.374 49.628 1.00201.44 O +ATOM 1856 CB ILE I 53 -0.051 57.487 50.323 1.00199.21 C +ATOM 1857 CG1 ILE I 53 1.351 57.020 50.732 1.00192.42 C +ATOM 1858 CG2 ILE I 53 -0.924 56.301 49.921 1.00199.87 C +ATOM 1859 CD1 ILE I 53 1.333 55.926 51.788 1.00190.61 C +ATOM 1860 N CYS I 54 -1.660 58.889 47.485 1.00206.93 N +ATOM 1861 CA CYS I 54 -2.993 59.132 46.945 1.00211.20 C +ATOM 1862 C CYS I 54 -3.493 57.847 46.313 1.00208.80 C +ATOM 1863 O CYS I 54 -2.758 57.200 45.562 1.00205.93 O +ATOM 1864 CB CYS I 54 -2.998 60.253 45.903 1.00216.08 C +ATOM 1865 SG CYS I 54 -3.119 61.890 46.602 1.00219.56 S +ATOM 1866 N GLY I 55 -4.735 57.492 46.596 1.00212.91 N +ATOM 1867 CA GLY I 55 -5.320 56.285 46.055 1.00205.69 C +ATOM 1868 C GLY I 55 -5.518 55.226 47.128 1.00197.05 C +ATOM 1869 O GLY I 55 -4.874 55.229 48.181 1.00194.59 O +ATOM 1870 N ALA I 56 -6.431 54.297 46.836 1.00190.76 N +ATOM 1871 CA ALA I 56 -6.790 53.226 47.768 1.00185.97 C +ATOM 1872 C ALA I 56 -7.211 53.786 49.122 1.00187.06 C +ATOM 1873 O ALA I 56 -7.000 53.162 50.164 1.00183.86 O +ATOM 1874 CB ALA I 56 -5.646 52.224 47.931 1.00180.22 C +ATOM 1875 N LEU I 57 -7.784 54.989 49.113 1.00189.79 N +ATOM 1876 CA LEU I 57 -8.297 55.635 50.320 1.00187.32 C +ATOM 1877 C LEU I 57 -9.589 56.348 49.935 1.00188.43 C +ATOM 1878 O LEU I 57 -9.553 57.410 49.307 1.00185.79 O +ATOM 1879 CB LEU I 57 -7.279 56.606 50.908 1.00183.53 C +ATOM 1880 CG LEU I 57 -6.020 56.021 51.549 1.00176.03 C +ATOM 1881 CD1 LEU I 57 -5.075 57.132 51.974 1.00177.05 C +ATOM 1882 CD2 LEU I 57 -6.385 55.143 52.736 1.00169.67 C +ATOM 1883 N VAL I 58 -10.725 55.764 50.307 1.00192.18 N +ATOM 1884 CA VAL I 58 -12.017 56.345 49.952 1.00190.54 C +ATOM 1885 C VAL I 58 -12.542 57.235 51.072 1.00188.26 C +ATOM 1886 O VAL I 58 -13.079 58.314 50.807 1.00183.38 O +ATOM 1887 CB VAL I 58 -13.011 55.226 49.585 1.00182.75 C +ATOM 1888 CG1 VAL I 58 -14.352 55.815 49.183 1.00179.61 C +ATOM 1889 CG2 VAL I 58 -12.441 54.377 48.457 1.00172.96 C +ATOM 1890 N GLU I 59 -12.433 56.771 52.322 1.00189.65 N +ATOM 1891 CA GLU I 59 -12.730 57.607 53.482 1.00186.39 C +ATOM 1892 C GLU I 59 -12.109 58.992 53.323 1.00185.79 C +ATOM 1893 O GLU I 59 -12.806 59.984 53.081 1.00184.65 O +ATOM 1894 CB GLU I 59 -12.213 56.930 54.753 1.00182.93 C +ATOM 1895 N VAL I 60 -10.786 59.066 53.472 1.00184.55 N +ATOM 1896 CA VAL I 60 -10.010 60.296 53.347 1.00180.13 C +ATOM 1897 C VAL I 60 -9.299 60.293 51.997 1.00179.47 C +ATOM 1898 O VAL I 60 -9.022 59.233 51.424 1.00181.85 O +ATOM 1899 CB VAL I 60 -9.008 60.448 54.513 1.00174.64 C +ATOM 1900 CG1 VAL I 60 -8.216 61.748 54.401 1.00172.06 C +ATOM 1901 CG2 VAL I 60 -9.737 60.387 55.841 1.00164.21 C +ATOM 1902 N LYS I 61 -9.022 61.489 51.473 1.00176.47 N +ATOM 1903 CA LYS I 61 -8.315 61.642 50.199 1.00180.57 C +ATOM 1904 C LYS I 61 -6.886 62.128 50.454 1.00184.71 C +ATOM 1905 O LYS I 61 -6.621 63.328 50.541 1.00181.52 O +ATOM 1906 CB LYS I 61 -9.079 62.585 49.274 1.00171.82 C +ATOM 1907 N CYS I 62 -5.974 61.156 50.613 1.00187.46 N +ATOM 1908 CA CYS I 62 -4.513 61.286 50.675 1.00188.60 C +ATOM 1909 C CYS I 62 -3.980 61.799 52.021 1.00179.53 C +ATOM 1910 O CYS I 62 -4.608 62.646 52.667 1.00176.73 O +ATOM 1911 CB CYS I 62 -4.034 62.172 49.520 1.00196.06 C +ATOM 1912 SG CYS I 62 -4.660 61.643 47.895 1.00215.12 S +ATOM 1913 N LEU I 63 -2.826 61.257 52.449 1.00175.52 N +ATOM 1914 CA LEU I 63 -2.193 61.517 53.744 1.00164.21 C +ATOM 1915 C LEU I 63 -0.685 61.753 53.606 1.00164.03 C +ATOM 1916 O LEU I 63 -0.071 61.409 52.593 1.00171.45 O +ATOM 1917 CB LEU I 63 -2.445 60.352 54.721 1.00153.17 C +ATOM 1918 CG LEU I 63 -2.063 60.542 56.194 1.00146.93 C +ATOM 1919 CD1 LEU I 63 -2.671 61.831 56.720 1.00148.75 C +ATOM 1920 CD2 LEU I 63 -2.464 59.355 57.071 1.00140.23 C +ATOM 1921 N ASN I 64 -0.085 62.353 54.647 1.00161.18 N +ATOM 1922 CA ASN I 64 1.345 62.638 54.712 1.00162.82 C +ATOM 1923 C ASN I 64 2.056 61.553 55.538 1.00162.39 C +ATOM 1924 O ASN I 64 1.469 60.523 55.883 1.00160.25 O +ATOM 1925 CB ASN I 64 1.576 64.037 55.289 1.00164.41 C +ATOM 1926 CG ASN I 64 0.837 65.113 54.518 1.00162.59 C +ATOM 1927 OD1 ASN I 64 -0.291 65.469 54.855 1.00156.75 O +ATOM 1928 ND2 ASN I 64 1.470 65.633 53.472 1.00163.41 N +ATOM 1929 N PHE I 65 3.339 61.770 55.847 1.00163.42 N +ATOM 1930 CA PHE I 65 4.173 60.812 56.568 1.00162.01 C +ATOM 1931 C PHE I 65 4.747 61.393 57.855 1.00159.45 C +ATOM 1932 O PHE I 65 4.840 62.612 58.028 1.00161.16 O +ATOM 1933 CB PHE I 65 5.342 60.339 55.690 1.00166.44 C +ATOM 1934 CG PHE I 65 4.992 59.237 54.735 1.00168.03 C +ATOM 1935 CD1 PHE I 65 3.846 59.296 53.966 1.00170.65 C +ATOM 1936 CD2 PHE I 65 5.864 58.175 54.549 1.00165.50 C +ATOM 1937 CE1 PHE I 65 3.541 58.290 53.077 1.00172.02 C +ATOM 1938 CE2 PHE I 65 5.574 57.169 53.648 1.00167.87 C +ATOM 1939 CZ PHE I 65 4.407 57.225 52.913 1.00169.13 C +ATOM 1940 N ARG I 66 5.129 60.494 58.766 1.00158.60 N +ATOM 1941 CA ARG I 66 5.904 60.837 59.952 1.00160.15 C +ATOM 1942 C ARG I 66 7.362 60.416 59.764 1.00161.20 C +ATOM 1943 O ARG I 66 7.651 59.454 59.055 1.00160.67 O +ATOM 1944 CB ARG I 66 5.301 60.180 61.194 1.00156.46 C +ATOM 1945 N LYS I 67 8.286 61.156 60.382 1.00162.29 N +ATOM 1946 CA LYS I 67 9.722 60.966 60.171 1.00165.40 C +ATOM 1947 C LYS I 67 10.424 60.536 61.457 1.00170.71 C +ATOM 1948 O LYS I 67 10.271 61.186 62.497 1.00170.74 O +ATOM 1949 CB LYS I 67 10.366 62.241 59.614 1.00165.04 C +ATOM 1950 CG LYS I 67 10.055 63.504 60.398 1.00161.01 C +ATOM 1951 N LEU I 68 11.198 59.444 61.373 1.00181.33 N +ATOM 1952 CA LEU I 68 12.000 58.917 62.476 1.00182.21 C +ATOM 1953 C LEU I 68 13.300 58.309 61.965 1.00181.41 C +ATOM 1954 O LEU I 68 13.258 57.387 61.148 1.00180.43 O +ATOM 1955 CB LEU I 68 11.221 57.844 63.240 1.00181.35 C +ATOM 1956 CG LEU I 68 10.465 58.376 64.447 1.00184.09 C +ATOM 1957 CD1 LEU I 68 10.333 57.312 65.520 1.00183.26 C +ATOM 1958 CD2 LEU I 68 11.173 59.610 64.964 1.00190.42 C +ATOM 1959 N GLN I 69 14.442 58.841 62.421 1.00170.60 N +ATOM 1960 CA GLN I 69 15.782 58.276 62.170 1.00164.75 C +ATOM 1961 C GLN I 69 16.030 57.971 60.689 1.00161.99 C +ATOM 1962 O GLN I 69 16.389 56.852 60.312 1.00159.88 O +ATOM 1963 CB GLN I 69 16.044 57.037 63.046 1.00163.02 C +ATOM 1964 CG GLN I 69 15.126 55.823 62.849 1.00161.87 C +ATOM 1965 CD GLN I 69 15.639 54.572 63.530 1.00160.52 C +ATOM 1966 OE1 GLN I 69 16.847 54.362 63.642 1.00162.36 O +ATOM 1967 NE2 GLN I 69 14.720 53.730 63.991 1.00158.19 N +ATOM 1968 N GLU I 70 15.875 58.994 59.845 1.00161.60 N +ATOM 1969 CA GLU I 70 16.055 58.857 58.394 1.00155.88 C +ATOM 1970 C GLU I 70 15.227 57.689 57.864 1.00156.47 C +ATOM 1971 O GLU I 70 15.662 56.909 57.014 1.00151.96 O +ATOM 1972 CB GLU I 70 17.531 58.695 58.030 1.00143.75 C +ATOM 1973 N ILE I 71 14.010 57.584 58.388 1.00159.40 N +ATOM 1974 CA ILE I 71 13.035 56.556 58.056 1.00155.78 C +ATOM 1975 C ILE I 71 11.682 57.247 58.094 1.00156.67 C +ATOM 1976 O ILE I 71 11.477 58.189 58.861 1.00160.95 O +ATOM 1977 CB ILE I 71 13.092 55.353 59.033 1.00150.84 C +ATOM 1978 CG1 ILE I 71 14.396 54.569 58.859 1.00149.07 C +ATOM 1979 CG2 ILE I 71 11.904 54.426 58.844 1.00144.03 C +ATOM 1980 CD1 ILE I 71 14.490 53.336 59.735 1.00145.00 C +ATOM 1981 N TYR I 72 10.760 56.816 57.245 1.00152.77 N +ATOM 1982 CA TYR I 72 9.450 57.444 57.183 1.00153.71 C +ATOM 1983 C TYR I 72 8.428 56.389 57.563 1.00150.43 C +ATOM 1984 O TYR I 72 8.341 55.342 56.922 1.00149.87 O +ATOM 1985 CB TYR I 72 9.171 58.028 55.798 1.00159.00 C +ATOM 1986 CG TYR I 72 10.084 59.183 55.450 1.00161.63 C +ATOM 1987 CD1 TYR I 72 11.393 58.959 55.041 1.00161.15 C +ATOM 1988 CD2 TYR I 72 9.648 60.497 55.558 1.00161.79 C +ATOM 1989 CE1 TYR I 72 12.234 60.010 54.728 1.00158.14 C +ATOM 1990 CE2 TYR I 72 10.483 61.555 55.249 1.00160.24 C +ATOM 1991 CZ TYR I 72 11.775 61.305 54.835 1.00157.99 C +ATOM 1992 OH TYR I 72 12.609 62.355 54.527 1.00159.31 O +ATOM 1993 N PHE I 73 7.639 56.675 58.583 1.00147.78 N +ATOM 1994 CA PHE I 73 6.692 55.714 59.105 1.00142.42 C +ATOM 1995 C PHE I 73 5.319 56.346 59.212 1.00143.61 C +ATOM 1996 O PHE I 73 5.175 57.567 59.367 1.00148.13 O +ATOM 1997 CB PHE I 73 7.119 55.226 60.498 1.00143.91 C +ATOM 1998 CG PHE I 73 7.019 56.290 61.562 1.00153.92 C +ATOM 1999 CD1 PHE I 73 7.880 57.375 61.557 1.00160.73 C +ATOM 2000 CD2 PHE I 73 6.058 56.211 62.558 1.00150.81 C +ATOM 2001 CE1 PHE I 73 7.785 58.357 62.520 1.00164.70 C +ATOM 2002 CE2 PHE I 73 5.963 57.193 63.531 1.00153.65 C +ATOM 2003 CZ PHE I 73 6.831 58.265 63.512 1.00162.05 C +ATOM 2004 N ILE I 74 4.313 55.490 59.071 1.00139.23 N +ATOM 2005 CA ILE I 74 2.931 55.828 59.375 1.00139.52 C +ATOM 2006 C ILE I 74 2.328 54.664 60.141 1.00139.05 C +ATOM 2007 O ILE I 74 2.518 53.502 59.766 1.00138.76 O +ATOM 2008 CB ILE I 74 2.093 56.102 58.110 1.00138.40 C +ATOM 2009 CG1 ILE I 74 2.869 56.945 57.101 1.00145.71 C +ATOM 2010 CG2 ILE I 74 0.769 56.753 58.476 1.00138.73 C +ATOM 2011 CD1 ILE I 74 3.607 56.105 56.100 1.00144.53 C +ATOM 2012 N GLU I 75 1.614 54.971 61.214 1.00141.67 N +ATOM 2013 CA GLU I 75 0.828 53.992 61.952 1.00148.63 C +ATOM 2014 C GLU I 75 -0.615 54.461 61.841 1.00152.76 C +ATOM 2015 O GLU I 75 -0.998 55.450 62.476 1.00156.42 O +ATOM 2016 CB GLU I 75 1.297 53.870 63.400 1.00153.52 C +ATOM 2017 CG GLU I 75 2.712 53.317 63.507 1.00151.86 C +ATOM 2018 CD GLU I 75 3.133 53.021 64.931 1.00158.35 C +ATOM 2019 OE1 GLU I 75 2.405 53.415 65.866 1.00165.16 O +ATOM 2020 OE2 GLU I 75 4.196 52.392 65.114 1.00155.01 O +ATOM 2021 N THR I 76 -1.413 53.768 61.033 1.00154.52 N +ATOM 2022 CA THR I 76 -2.764 54.237 60.771 1.00159.02 C +ATOM 2023 C THR I 76 -3.736 53.076 60.630 1.00164.63 C +ATOM 2024 O THR I 76 -3.365 51.967 60.235 1.00162.60 O +ATOM 2025 CB THR I 76 -2.809 55.090 59.490 1.00157.28 C +ATOM 2026 OG1 THR I 76 -4.127 55.621 59.305 1.00160.73 O +ATOM 2027 CG2 THR I 76 -2.430 54.252 58.270 1.00156.91 C +ATOM 2028 N LYS I 77 -4.992 53.354 60.981 1.00168.64 N +ATOM 2029 CA LYS I 77 -6.085 52.398 60.865 1.00172.36 C +ATOM 2030 C LYS I 77 -6.895 52.576 59.590 1.00173.16 C +ATOM 2031 O LYS I 77 -7.455 51.598 59.082 1.00173.89 O +ATOM 2032 CB LYS I 77 -7.024 52.514 62.071 1.00173.44 C +ATOM 2033 CG LYS I 77 -6.392 52.127 63.398 1.00178.38 C +ATOM 2034 CD LYS I 77 -7.421 52.152 64.517 1.00182.52 C +ATOM 2035 CE LYS I 77 -6.851 51.589 65.808 1.00185.06 C +ATOM 2036 NZ LYS I 77 -7.876 51.540 66.887 1.00180.31 N +ATOM 2037 N LYS I 78 -6.969 53.799 59.068 1.00171.72 N +ATOM 2038 CA LYS I 78 -7.779 54.115 57.892 1.00173.86 C +ATOM 2039 C LYS I 78 -7.035 53.643 56.651 1.00172.96 C +ATOM 2040 O LYS I 78 -6.244 54.372 56.050 1.00170.02 O +ATOM 2041 CB LYS I 78 -8.094 55.606 57.824 1.00173.65 C +ATOM 2042 CG LYS I 78 -7.287 56.482 58.773 1.00165.62 C +ATOM 2043 CD LYS I 78 -7.924 56.552 60.156 1.00160.20 C +ATOM 2044 CE LYS I 78 -6.988 57.207 61.156 1.00150.85 C +ATOM 2045 NZ LYS I 78 -7.412 56.951 62.559 1.00140.96 N +ATOM 2046 N PHE I 79 -7.297 52.399 56.266 1.00175.47 N +ATOM 2047 CA PHE I 79 -6.705 51.793 55.086 1.00173.92 C +ATOM 2048 C PHE I 79 -7.786 51.016 54.355 1.00177.01 C +ATOM 2049 O PHE I 79 -8.612 50.349 54.984 1.00177.96 O +ATOM 2050 CB PHE I 79 -5.546 50.854 55.458 1.00169.96 C +ATOM 2051 CG PHE I 79 -4.189 51.354 55.043 1.00162.25 C +ATOM 2052 CD1 PHE I 79 -4.001 51.963 53.813 1.00158.14 C +ATOM 2053 CD2 PHE I 79 -3.099 51.207 55.885 1.00158.94 C +ATOM 2054 CE1 PHE I 79 -2.749 52.418 53.433 1.00150.54 C +ATOM 2055 CE2 PHE I 79 -1.847 51.660 55.512 1.00151.26 C +ATOM 2056 CZ PHE I 79 -1.672 52.265 54.285 1.00145.24 C +ATOM 2057 N LEU I 80 -7.779 51.103 53.027 1.00177.30 N +ATOM 2058 CA LEU I 80 -8.696 50.326 52.208 1.00179.84 C +ATOM 2059 C LEU I 80 -8.058 49.049 51.687 1.00181.25 C +ATOM 2060 O LEU I 80 -8.773 48.181 51.174 1.00181.72 O +ATOM 2061 CB LEU I 80 -9.211 51.163 51.031 1.00177.35 C +ATOM 2062 N LEU I 81 -6.734 48.927 51.804 1.00178.87 N +ATOM 2063 CA LEU I 81 -5.979 47.736 51.431 1.00176.23 C +ATOM 2064 C LEU I 81 -6.099 47.410 49.946 1.00179.49 C +ATOM 2065 O LEU I 81 -5.095 47.410 49.227 1.00175.89 O +ATOM 2066 CB LEU I 81 -6.423 46.551 52.292 1.00174.02 C +ATOM 2067 CG LEU I 81 -6.354 46.847 53.795 1.00173.61 C +ATOM 2068 CD1 LEU I 81 -7.715 46.671 54.458 1.00176.90 C +ATOM 2069 CD2 LEU I 81 -5.301 45.987 54.478 1.00166.64 C +ATOM 2070 N ILE I 82 -7.314 47.129 49.476 1.00185.77 N +ATOM 2071 CA ILE I 82 -7.515 46.795 48.071 1.00190.31 C +ATOM 2072 C ILE I 82 -7.315 48.041 47.218 1.00200.48 C +ATOM 2073 O ILE I 82 -7.912 49.094 47.478 1.00201.63 O +ATOM 2074 CB ILE I 82 -8.911 46.191 47.856 1.00183.42 C +ATOM 2075 N GLY I 83 -6.477 47.928 46.200 1.00184.32 N +ATOM 2076 CA GLY I 83 -6.214 49.029 45.287 1.00178.57 C +ATOM 2077 C GLY I 83 -4.806 49.572 45.460 1.00173.16 C +ATOM 2078 O GLY I 83 -4.269 49.621 46.574 1.00173.08 O +ATOM 2079 N LYS I 84 -4.198 49.978 44.348 1.00168.11 N +ATOM 2080 CA LYS I 84 -2.861 50.550 44.384 1.00167.60 C +ATOM 2081 C LYS I 84 -2.904 52.011 44.823 1.00173.54 C +ATOM 2082 O LYS I 84 -3.943 52.675 44.779 1.00176.14 O +ATOM 2083 CB LYS I 84 -2.188 50.441 43.014 1.00164.87 C +ATOM 2084 CG LYS I 84 -1.720 49.041 42.655 1.00163.52 C +ATOM 2085 CD LYS I 84 -1.034 49.017 41.298 1.00162.69 C +ATOM 2086 CE LYS I 84 -0.376 47.672 41.035 1.00154.78 C +ATOM 2087 NZ LYS I 84 0.741 47.406 41.984 1.00147.23 N +ATOM 2088 N SER I 85 -1.744 52.511 45.249 1.00175.83 N +ATOM 2089 CA SER I 85 -1.597 53.878 45.720 1.00184.12 C +ATOM 2090 C SER I 85 -0.333 54.477 45.125 1.00183.95 C +ATOM 2091 O SER I 85 0.691 53.796 45.010 1.00180.90 O +ATOM 2092 CB SER I 85 -1.535 53.943 47.250 1.00185.59 C +ATOM 2093 OG SER I 85 -2.708 53.407 47.832 1.00180.33 O +ATOM 2094 N ASN I 86 -0.414 55.748 44.742 1.00191.03 N +ATOM 2095 CA ASN I 86 0.737 56.488 44.244 1.00190.95 C +ATOM 2096 C ASN I 86 1.446 57.143 45.423 1.00191.95 C +ATOM 2097 O ASN I 86 0.853 57.974 46.128 1.00195.95 O +ATOM 2098 CB ASN I 86 0.307 57.535 43.218 1.00194.05 C +ATOM 2099 N ILE I 87 2.693 56.733 45.653 1.00187.48 N +ATOM 2100 CA ILE I 87 3.571 57.319 46.659 1.00187.28 C +ATOM 2101 C ILE I 87 4.565 58.227 45.945 1.00188.76 C +ATOM 2102 O ILE I 87 5.377 57.762 45.135 1.00189.07 O +ATOM 2103 CB ILE I 87 4.294 56.241 47.481 1.00182.86 C +ATOM 2104 CG1 ILE I 87 3.292 55.262 48.100 1.00184.45 C +ATOM 2105 CG2 ILE I 87 5.122 56.885 48.581 1.00177.07 C +ATOM 2106 CD1 ILE I 87 3.074 53.994 47.295 1.00181.01 C +ATOM 2107 N CYS I 88 4.472 59.522 46.227 1.00189.52 N +ATOM 2108 CA CYS I 88 5.293 60.558 45.618 1.00187.65 C +ATOM 2109 C CYS I 88 6.073 61.283 46.704 1.00184.67 C +ATOM 2110 O CYS I 88 5.497 61.685 47.718 1.00183.60 O +ATOM 2111 CB CYS I 88 4.427 61.562 44.850 1.00189.46 C +ATOM 2112 SG CYS I 88 3.501 60.899 43.447 1.00201.59 S +ATOM 2113 N VAL I 89 7.373 61.465 46.497 1.00182.77 N +ATOM 2114 CA VAL I 89 8.173 62.212 47.461 1.00181.12 C +ATOM 2115 C VAL I 89 7.928 63.694 47.206 1.00179.69 C +ATOM 2116 O VAL I 89 8.110 64.178 46.085 1.00178.75 O +ATOM 2117 CB VAL I 89 9.663 61.865 47.339 1.00176.80 C +ATOM 2118 CG1 VAL I 89 10.396 62.215 48.626 1.00171.47 C +ATOM 2119 CG2 VAL I 89 9.844 60.396 46.984 1.00176.68 C +ATOM 2120 N LYS I 90 7.509 64.414 48.244 1.00176.95 N +ATOM 2121 CA LYS I 90 7.130 65.812 48.138 1.00173.15 C +ATOM 2122 C LYS I 90 7.957 66.695 49.064 1.00170.56 C +ATOM 2123 O LYS I 90 8.181 66.361 50.239 1.00169.11 O +ATOM 2124 CB LYS I 90 5.641 65.992 48.454 1.00177.95 C +ATOM 2125 N VAL I 91 8.406 67.818 48.507 1.00169.40 N +ATOM 2126 CA VAL I 91 8.829 68.995 49.257 1.00164.64 C +ATOM 2127 C VAL I 91 7.727 70.031 49.091 1.00169.48 C +ATOM 2128 O VAL I 91 7.451 70.478 47.970 1.00171.37 O +ATOM 2129 CB VAL I 91 10.178 69.537 48.761 1.00154.66 C +ATOM 2130 CG1 VAL I 91 10.590 70.762 49.568 1.00149.13 C +ATOM 2131 CG2 VAL I 91 11.246 68.457 48.829 1.00151.77 C +ATOM 2132 N GLY I 92 7.086 70.404 50.194 1.00171.00 N +ATOM 2133 CA GLY I 92 5.880 71.201 50.103 1.00178.58 C +ATOM 2134 C GLY I 92 4.726 70.368 49.582 1.00192.23 C +ATOM 2135 O GLY I 92 4.216 69.499 50.294 1.00190.55 O +ATOM 2136 N GLU I 93 4.314 70.611 48.340 1.00204.39 N +ATOM 2137 CA GLU I 93 3.277 69.814 47.687 1.00210.54 C +ATOM 2138 C GLU I 93 3.600 69.658 46.203 1.00213.72 C +ATOM 2139 O GLU I 93 2.746 69.828 45.332 1.00218.02 O +ATOM 2140 CB GLU I 93 1.893 70.430 47.891 1.00218.74 C +ATOM 2141 CG GLU I 93 1.001 69.675 48.873 1.00215.63 C +ATOM 2142 CD GLU I 93 0.405 68.407 48.283 1.00215.85 C +ATOM 2143 OE1 GLU I 93 1.164 67.450 48.018 1.00216.60 O +ATOM 2144 OE2 GLU I 93 -0.827 68.370 48.078 1.00215.69 O +ATOM 2145 N LYS I 94 4.856 69.328 45.905 1.00193.16 N +ATOM 2146 CA LYS I 94 5.313 69.092 44.543 1.00183.18 C +ATOM 2147 C LYS I 94 5.980 67.725 44.463 1.00178.07 C +ATOM 2148 O LYS I 94 6.719 67.332 45.369 1.00175.04 O +ATOM 2149 CB LYS I 94 6.286 70.183 44.081 1.00173.33 C +ATOM 2150 N SER I 95 5.730 67.017 43.363 1.00176.96 N +ATOM 2151 CA SER I 95 6.133 65.623 43.226 1.00174.55 C +ATOM 2152 C SER I 95 7.566 65.505 42.717 1.00171.95 C +ATOM 2153 O SER I 95 7.904 66.047 41.660 1.00171.55 O +ATOM 2154 CB SER I 95 5.182 64.893 42.279 1.00173.81 C +ATOM 2155 OG SER I 95 5.346 65.354 40.948 1.00167.57 O +ATOM 2156 N LEU I 96 8.410 64.798 43.474 1.00171.04 N +ATOM 2157 CA LEU I 96 9.787 64.532 43.040 1.00169.63 C +ATOM 2158 C LEU I 96 9.845 63.240 42.222 1.00173.92 C +ATOM 2159 O LEU I 96 10.129 63.264 41.025 1.00171.52 O +ATOM 2160 CB LEU I 96 10.712 64.467 44.254 1.00165.46 C +ATOM 2161 CG LEU I 96 11.020 65.818 44.900 1.00160.30 C +ATOM 2162 CD1 LEU I 96 11.712 65.646 46.244 1.00156.31 C +ATOM 2163 CD2 LEU I 96 11.877 66.644 43.957 1.00150.81 C +ATOM 2164 N THR I 97 9.565 62.108 42.867 1.00176.96 N +ATOM 2165 CA THR I 97 9.539 60.808 42.208 1.00178.89 C +ATOM 2166 C THR I 97 8.321 60.057 42.719 1.00181.97 C +ATOM 2167 O THR I 97 8.044 60.065 43.922 1.00180.28 O +ATOM 2168 CB THR I 97 10.814 59.987 42.468 1.00174.72 C +ATOM 2169 OG1 THR I 97 10.997 59.801 43.877 1.00172.20 O +ATOM 2170 CG2 THR I 97 12.039 60.681 41.882 1.00171.14 C +ATOM 2171 N CYS I 98 7.609 59.392 41.815 1.00184.33 N +ATOM 2172 CA CYS I 98 6.382 58.698 42.172 1.00188.15 C +ATOM 2173 C CYS I 98 6.471 57.223 41.810 1.00185.85 C +ATOM 2174 O CYS I 98 7.140 56.839 40.846 1.00184.87 O +ATOM 2175 CB CYS I 98 5.174 59.314 41.457 1.00195.41 C +ATOM 2176 SG CYS I 98 4.793 61.028 41.886 1.00213.80 S +ATOM 2177 N LYS I 99 5.770 56.402 42.591 1.00184.13 N +ATOM 2178 CA LYS I 99 5.646 54.973 42.326 1.00178.30 C +ATOM 2179 C LYS I 99 4.257 54.519 42.747 1.00177.96 C +ATOM 2180 O LYS I 99 3.850 54.749 43.889 1.00178.83 O +ATOM 2181 CB LYS I 99 6.718 54.160 43.068 1.00169.16 C +ATOM 2182 CG LYS I 99 8.153 54.514 42.697 1.00166.09 C +ATOM 2183 CD LYS I 99 9.124 53.388 43.011 1.00156.70 C +ATOM 2184 CE LYS I 99 9.221 53.121 44.502 1.00154.90 C +ATOM 2185 NZ LYS I 99 10.213 52.049 44.795 1.00151.81 N +ATOM 2186 N LYS I 100 3.525 53.896 41.826 1.00174.29 N +ATOM 2187 CA LYS I 100 2.193 53.369 42.123 1.00171.57 C +ATOM 2188 C LYS I 100 2.342 51.906 42.524 1.00168.28 C +ATOM 2189 O LYS I 100 2.532 51.028 41.679 1.00164.98 O +ATOM 2190 CB LYS I 100 1.246 53.560 40.942 1.00163.22 C +ATOM 2191 CG LYS I 100 1.781 53.144 39.584 1.00151.64 C +ATOM 2192 CD LYS I 100 0.814 53.564 38.488 1.00139.52 C +ATOM 2193 CE LYS I 100 1.128 52.880 37.170 1.00133.13 C +ATOM 2194 NZ LYS I 100 0.848 51.419 37.228 1.00133.17 N +ATOM 2195 N ILE I 101 2.263 51.646 43.826 1.00169.95 N +ATOM 2196 CA ILE I 101 2.501 50.321 44.384 1.00165.11 C +ATOM 2197 C ILE I 101 1.245 49.867 45.115 1.00163.26 C +ATOM 2198 O ILE I 101 0.457 50.683 45.603 1.00165.74 O +ATOM 2199 CB ILE I 101 3.733 50.326 45.323 1.00164.03 C +ATOM 2200 CG1 ILE I 101 4.980 50.770 44.556 1.00168.27 C +ATOM 2201 CG2 ILE I 101 3.975 48.958 45.952 1.00155.89 C +ATOM 2202 CD1 ILE I 101 6.258 50.695 45.364 1.00163.24 C +ATOM 2203 N ASP I 102 1.052 48.552 45.175 1.00160.22 N +ATOM 2204 CA ASP I 102 -0.089 47.968 45.862 1.00157.86 C +ATOM 2205 C ASP I 102 0.273 47.660 47.308 1.00153.09 C +ATOM 2206 O ASP I 102 1.363 47.158 47.599 1.00148.92 O +ATOM 2207 CB ASP I 102 -0.548 46.692 45.153 1.00156.66 C +ATOM 2208 CG ASP I 102 -1.866 46.163 45.691 1.00155.72 C +ATOM 2209 OD1 ASP I 102 -2.480 46.834 46.547 1.00158.07 O +ATOM 2210 OD2 ASP I 102 -2.290 45.073 45.253 1.00153.16 O +ATOM 2211 N LEU I 103 -0.656 47.971 48.215 1.00154.90 N +ATOM 2212 CA LEU I 103 -0.436 47.734 49.636 1.00150.45 C +ATOM 2213 C LEU I 103 -0.354 46.251 49.968 1.00144.11 C +ATOM 2214 O LEU I 103 0.230 45.890 50.996 1.00136.88 O +ATOM 2215 CB LEU I 103 -1.554 48.387 50.450 1.00153.35 C +ATOM 2216 CG LEU I 103 -1.833 49.859 50.140 1.00154.48 C +ATOM 2217 CD1 LEU I 103 -3.198 50.267 50.669 1.00156.05 C +ATOM 2218 CD2 LEU I 103 -0.743 50.746 50.723 1.00151.15 C +ATOM 2219 N THR I 104 -0.918 45.390 49.125 1.00144.54 N +ATOM 2220 CA THR I 104 -0.929 43.954 49.362 1.00143.45 C +ATOM 2221 C THR I 104 0.275 43.246 48.754 1.00140.30 C +ATOM 2222 O THR I 104 0.381 42.022 48.872 1.00140.24 O +ATOM 2223 CB THR I 104 -2.216 43.339 48.804 1.00148.38 C +ATOM 2224 OG1 THR I 104 -2.297 43.597 47.398 1.00150.02 O +ATOM 2225 CG2 THR I 104 -3.430 43.953 49.483 1.00150.04 C +ATOM 2226 N THR I 105 1.171 43.983 48.098 1.00137.34 N +ATOM 2227 CA THR I 105 2.371 43.422 47.492 1.00135.10 C +ATOM 2228 C THR I 105 3.637 43.907 48.188 1.00130.81 C +ATOM 2229 O THR I 105 4.740 43.726 47.660 1.00130.06 O +ATOM 2230 CB THR I 105 2.417 43.767 45.999 1.00136.52 C +ATOM 2231 OG1 THR I 105 1.085 43.778 45.472 1.00142.76 O +ATOM 2232 CG2 THR I 105 3.236 42.737 45.224 1.00132.62 C +ATOM 2233 N ILE I 106 3.508 44.515 49.365 1.00127.93 N +ATOM 2234 CA ILE I 106 4.662 45.057 50.070 1.00122.95 C +ATOM 2235 C ILE I 106 4.553 44.707 51.554 1.00119.99 C +ATOM 2236 O ILE I 106 5.022 45.449 52.426 1.00117.12 O +ATOM 2237 CB ILE I 106 4.748 46.578 49.817 1.00123.73 C +ATOM 2238 CG1 ILE I 106 6.162 47.109 50.049 1.00124.77 C +ATOM 2239 CG2 ILE I 106 3.672 47.352 50.597 1.00123.65 C +ATOM 2240 CD1 ILE I 106 7.037 47.046 48.812 1.00123.48 C +ATOM 2241 N VAL I 107 3.988 43.537 51.843 1.00120.02 N +ATOM 2242 CA VAL I 107 3.684 43.127 53.210 1.00111.64 C +ATOM 2243 C VAL I 107 4.907 42.474 53.841 1.00105.28 C +ATOM 2244 O VAL I 107 5.566 41.631 53.222 1.00107.05 O +ATOM 2245 CB VAL I 107 2.478 42.173 53.236 1.00111.69 C +ATOM 2246 CG1 VAL I 107 2.161 41.748 54.661 1.00111.73 C +ATOM 2247 CG2 VAL I 107 1.269 42.829 52.587 1.00121.24 C +ATOM 2248 N LYS I 108 5.209 42.859 55.075 1.00103.56 N +ATOM 2249 CA LYS I 108 6.270 42.231 55.863 1.00 99.39 C +ATOM 2250 C LYS I 108 5.656 41.622 57.114 1.00101.07 C +ATOM 2251 O LYS I 108 5.148 42.369 57.972 1.00103.80 O +ATOM 2252 CB LYS I 108 7.361 43.235 56.236 1.00 95.49 C +ATOM 2253 CG LYS I 108 8.531 42.610 56.983 1.00 90.73 C +ATOM 2254 CD LYS I 108 9.610 43.633 57.292 1.00 93.57 C +ATOM 2255 CE LYS I 108 10.808 42.987 57.970 1.00 89.93 C +ATOM 2256 NZ LYS I 108 11.881 43.978 58.262 1.00 93.43 N +ATOM 2257 N PRO I 109 5.646 40.298 57.269 1.00 98.55 N +ATOM 2258 CA PRO I 109 5.030 39.705 58.459 1.00 98.75 C +ATOM 2259 C PRO I 109 5.773 40.100 59.724 1.00 96.85 C +ATOM 2260 O PRO I 109 6.925 40.537 59.696 1.00 92.82 O +ATOM 2261 CB PRO I 109 5.143 38.195 58.212 1.00 97.23 C +ATOM 2262 CG PRO I 109 5.403 38.052 56.778 1.00 94.71 C +ATOM 2263 CD PRO I 109 6.159 39.270 56.353 1.00 97.38 C +ATOM 2264 N GLU I 110 5.090 39.935 60.851 1.00 98.04 N +ATOM 2265 CA GLU I 110 5.724 40.127 62.144 1.00 94.78 C +ATOM 2266 C GLU I 110 6.575 38.910 62.473 1.00 86.35 C +ATOM 2267 O GLU I 110 6.211 37.775 62.150 1.00 86.88 O +ATOM 2268 CB GLU I 110 4.672 40.357 63.228 1.00102.76 C +ATOM 2269 CG GLU I 110 3.861 41.627 63.032 1.00113.00 C +ATOM 2270 CD GLU I 110 2.855 41.855 64.141 1.00129.79 C +ATOM 2271 OE1 GLU I 110 3.229 42.459 65.169 1.00131.76 O +ATOM 2272 OE2 GLU I 110 1.692 41.430 63.987 1.00131.11 O +ATOM 2273 N ALA I 111 7.716 39.151 63.105 1.00 82.47 N +ATOM 2274 CA ALA I 111 8.638 38.067 63.405 1.00 83.53 C +ATOM 2275 C ALA I 111 7.983 37.075 64.361 1.00 85.33 C +ATOM 2276 O ALA I 111 7.357 37.491 65.347 1.00 83.71 O +ATOM 2277 CB ALA I 111 9.929 38.613 64.013 1.00 81.91 C +ATOM 2278 N PRO I 112 8.084 35.771 64.104 1.00 84.97 N +ATOM 2279 CA PRO I 112 7.580 34.782 65.064 1.00 85.38 C +ATOM 2280 C PRO I 112 8.288 34.906 66.404 1.00 85.19 C +ATOM 2281 O PRO I 112 9.297 35.598 66.556 1.00 84.35 O +ATOM 2282 CB PRO I 112 7.880 33.441 64.386 1.00 85.45 C +ATOM 2283 CG PRO I 112 7.949 33.767 62.930 1.00 86.30 C +ATOM 2284 CD PRO I 112 8.544 35.144 62.853 1.00 85.44 C +ATOM 2285 N PHE I 113 7.746 34.204 67.395 1.00 83.47 N +ATOM 2286 CA PHE I 113 8.257 34.304 68.752 1.00 80.50 C +ATOM 2287 C PHE I 113 7.991 33.002 69.492 1.00 78.73 C +ATOM 2288 O PHE I 113 7.317 32.099 68.988 1.00 78.60 O +ATOM 2289 CB PHE I 113 7.627 35.491 69.491 1.00 79.99 C +ATOM 2290 CG PHE I 113 6.121 35.490 69.471 1.00 81.06 C +ATOM 2291 CD1 PHE I 113 5.427 36.021 68.395 1.00 83.52 C +ATOM 2292 CD2 PHE I 113 5.400 34.956 70.527 1.00 83.05 C +ATOM 2293 CE1 PHE I 113 4.045 36.020 68.372 1.00 87.86 C +ATOM 2294 CE2 PHE I 113 4.017 34.953 70.510 1.00 85.24 C +ATOM 2295 CZ PHE I 113 3.339 35.485 69.431 1.00 88.15 C +ATOM 2296 N ASP I 114 8.537 32.923 70.707 1.00 77.68 N +ATOM 2297 CA ASP I 114 8.372 31.768 71.589 1.00 77.25 C +ATOM 2298 C ASP I 114 8.836 30.476 70.917 1.00 77.78 C +ATOM 2299 O ASP I 114 8.166 29.442 70.972 1.00 78.46 O +ATOM 2300 CB ASP I 114 6.924 31.649 72.070 1.00 79.53 C +ATOM 2301 CG ASP I 114 6.524 32.784 72.992 1.00 75.04 C +ATOM 2302 OD1 ASP I 114 7.426 33.431 73.564 1.00 71.20 O +ATOM 2303 OD2 ASP I 114 5.309 33.028 73.146 1.00 77.72 O +ATOM 2304 N LEU I 115 9.999 30.541 70.273 1.00 76.85 N +ATOM 2305 CA LEU I 115 10.573 29.352 69.661 1.00 75.09 C +ATOM 2306 C LEU I 115 11.109 28.418 70.738 1.00 73.65 C +ATOM 2307 O LEU I 115 11.726 28.857 71.713 1.00 76.42 O +ATOM 2308 CB LEU I 115 11.689 29.733 68.689 1.00 78.80 C +ATOM 2309 CG LEU I 115 12.339 28.566 67.944 1.00 74.68 C +ATOM 2310 CD1 LEU I 115 11.323 27.865 67.056 1.00 71.33 C +ATOM 2311 CD2 LEU I 115 13.526 29.041 67.133 1.00 74.88 C +ATOM 2312 N SER I 116 10.879 27.120 70.555 1.00 73.29 N +ATOM 2313 CA SER I 116 11.234 26.134 71.564 1.00 75.71 C +ATOM 2314 C SER I 116 11.512 24.799 70.892 1.00 74.52 C +ATOM 2315 O SER I 116 10.899 24.456 69.877 1.00 70.53 O +ATOM 2316 CB SER I 116 10.121 25.978 72.608 1.00 74.52 C +ATOM 2317 OG SER I 116 10.362 24.862 73.448 1.00 78.61 O +ATOM 2318 N VAL I 117 12.447 24.050 71.472 1.00 73.14 N +ATOM 2319 CA VAL I 117 12.788 22.706 71.024 1.00 71.18 C +ATOM 2320 C VAL I 117 12.738 21.786 72.233 1.00 74.76 C +ATOM 2321 O VAL I 117 13.299 22.108 73.286 1.00 80.08 O +ATOM 2322 CB VAL I 117 14.178 22.652 70.361 1.00 71.34 C +ATOM 2323 CG1 VAL I 117 14.503 21.234 69.918 1.00 71.06 C +ATOM 2324 CG2 VAL I 117 14.244 23.609 69.180 1.00 73.76 C +ATOM 2325 N VAL I 118 12.067 20.646 72.086 1.00 75.12 N +ATOM 2326 CA VAL I 118 11.885 19.696 73.177 1.00 77.25 C +ATOM 2327 C VAL I 118 12.256 18.306 72.686 1.00 73.85 C +ATOM 2328 O VAL I 118 11.730 17.842 71.669 1.00 69.79 O +ATOM 2329 CB VAL I 118 10.441 19.704 73.712 1.00 74.32 C +ATOM 2330 CG1 VAL I 118 10.290 18.677 74.816 1.00 73.43 C +ATOM 2331 CG2 VAL I 118 10.064 21.089 74.212 1.00 76.99 C +ATOM 2332 N TYR I 119 13.150 17.640 73.411 1.00 74.07 N +ATOM 2333 CA TYR I 119 13.563 16.284 73.078 1.00 70.31 C +ATOM 2334 C TYR I 119 12.612 15.285 73.723 1.00 71.31 C +ATOM 2335 O TYR I 119 12.373 15.339 74.933 1.00 72.46 O +ATOM 2336 CB TYR I 119 14.996 16.025 73.541 1.00 70.30 C +ATOM 2337 CG TYR I 119 15.430 14.583 73.402 1.00 72.90 C +ATOM 2338 CD1 TYR I 119 15.560 13.994 72.151 1.00 73.48 C +ATOM 2339 CD2 TYR I 119 15.712 13.812 74.522 1.00 71.64 C +ATOM 2340 CE1 TYR I 119 15.956 12.676 72.019 1.00 75.37 C +ATOM 2341 CE2 TYR I 119 16.111 12.494 74.401 1.00 73.18 C +ATOM 2342 CZ TYR I 119 16.230 11.931 73.147 1.00 76.53 C +ATOM 2343 OH TYR I 119 16.626 10.619 73.022 1.00 79.63 O +ATOM 2344 N ARG I 120 12.072 14.376 72.913 1.00 71.24 N +ATOM 2345 CA ARG I 120 11.192 13.319 73.397 1.00 69.38 C +ATOM 2346 C ARG I 120 11.997 12.027 73.465 1.00 71.38 C +ATOM 2347 O ARG I 120 12.299 11.420 72.431 1.00 75.74 O +ATOM 2348 CB ARG I 120 9.972 13.178 72.490 1.00 68.65 C +ATOM 2349 CG ARG I 120 9.121 14.437 72.433 1.00 68.40 C +ATOM 2350 CD ARG I 120 7.779 14.191 71.766 1.00 72.41 C +ATOM 2351 NE ARG I 120 7.923 13.950 70.334 1.00 76.93 N +ATOM 2352 CZ ARG I 120 6.935 13.551 69.539 1.00 82.13 C +ATOM 2353 NH1 ARG I 120 5.723 13.350 70.036 1.00 80.25 N +ATOM 2354 NH2 ARG I 120 7.159 13.359 68.246 1.00 83.30 N +ATOM 2355 N GLU I 121 12.351 11.616 74.685 1.00 71.38 N +ATOM 2356 CA GLU I 121 13.203 10.443 74.864 1.00 75.40 C +ATOM 2357 C GLU I 121 12.549 9.185 74.306 1.00 78.70 C +ATOM 2358 O GLU I 121 13.233 8.309 73.764 1.00 78.80 O +ATOM 2359 CB GLU I 121 13.541 10.264 76.344 1.00 76.12 C +ATOM 2360 CG GLU I 121 14.549 9.162 76.621 1.00 76.53 C +ATOM 2361 CD GLU I 121 15.004 9.139 78.067 1.00 83.79 C +ATOM 2362 OE1 GLU I 121 15.424 10.199 78.577 1.00 87.17 O +ATOM 2363 OE2 GLU I 121 14.941 8.060 78.693 1.00 89.44 O +ATOM 2364 N GLY I 122 11.225 9.076 74.431 1.00 80.70 N +ATOM 2365 CA GLY I 122 10.549 7.872 73.973 1.00 81.54 C +ATOM 2366 C GLY I 122 10.565 7.729 72.463 1.00 79.64 C +ATOM 2367 O GLY I 122 10.862 6.655 71.931 1.00 82.26 O +ATOM 2368 N ALA I 123 10.251 8.810 71.751 1.00 77.38 N +ATOM 2369 CA ALA I 123 10.151 8.769 70.299 1.00 77.97 C +ATOM 2370 C ALA I 123 11.475 9.037 69.598 1.00 81.04 C +ATOM 2371 O ALA I 123 11.549 8.873 68.375 1.00 82.54 O +ATOM 2372 CB ALA I 123 9.106 9.779 69.814 1.00 78.67 C +ATOM 2373 N ASN I 124 12.511 9.437 70.337 1.00 80.10 N +ATOM 2374 CA ASN I 124 13.822 9.759 69.772 1.00 78.76 C +ATOM 2375 C ASN I 124 13.701 10.820 68.675 1.00 83.17 C +ATOM 2376 O ASN I 124 14.064 10.602 67.517 1.00 85.21 O +ATOM 2377 CB ASN I 124 14.520 8.499 69.246 1.00 78.64 C +ATOM 2378 CG ASN I 124 14.771 7.472 70.333 1.00 78.75 C +ATOM 2379 OD1 ASN I 124 13.954 6.579 70.558 1.00 80.87 O +ATOM 2380 ND2 ASN I 124 15.908 7.590 71.008 1.00 77.18 N +ATOM 2381 N ASP I 125 13.171 11.978 69.058 1.00 81.07 N +ATOM 2382 CA ASP I 125 13.003 13.082 68.121 1.00 78.12 C +ATOM 2383 C ASP I 125 12.958 14.392 68.900 1.00 74.82 C +ATOM 2384 O ASP I 125 12.980 14.411 70.135 1.00 74.73 O +ATOM 2385 CB ASP I 125 11.754 12.896 67.252 1.00 78.09 C +ATOM 2386 CG ASP I 125 10.472 12.835 68.064 1.00 79.03 C +ATOM 2387 OD1 ASP I 125 10.544 12.808 69.310 1.00 79.71 O +ATOM 2388 OD2 ASP I 125 9.384 12.822 67.449 1.00 77.73 O +ATOM 2389 N PHE I 126 12.911 15.495 68.155 1.00 71.03 N +ATOM 2390 CA PHE I 126 12.858 16.839 68.716 1.00 69.77 C +ATOM 2391 C PHE I 126 11.666 17.562 68.111 1.00 68.67 C +ATOM 2392 O PHE I 126 11.561 17.669 66.884 1.00 70.40 O +ATOM 2393 CB PHE I 126 14.151 17.612 68.432 1.00 71.03 C +ATOM 2394 CG PHE I 126 15.384 16.977 69.012 1.00 74.69 C +ATOM 2395 CD1 PHE I 126 16.005 15.919 68.366 1.00 76.76 C +ATOM 2396 CD2 PHE I 126 15.928 17.441 70.199 1.00 74.88 C +ATOM 2397 CE1 PHE I 126 17.140 15.334 68.893 1.00 76.70 C +ATOM 2398 CE2 PHE I 126 17.065 16.859 70.731 1.00 76.23 C +ATOM 2399 CZ PHE I 126 17.671 15.805 70.077 1.00 75.85 C +ATOM 2400 N VAL I 127 10.771 18.049 68.964 1.00 71.41 N +ATOM 2401 CA VAL I 127 9.619 18.833 68.539 1.00 68.53 C +ATOM 2402 C VAL I 127 9.982 20.308 68.637 1.00 69.00 C +ATOM 2403 O VAL I 127 10.389 20.787 69.703 1.00 70.91 O +ATOM 2404 CB VAL I 127 8.374 18.513 69.379 1.00 68.46 C +ATOM 2405 CG1 VAL I 127 7.181 19.317 68.880 1.00 70.43 C +ATOM 2406 CG2 VAL I 127 8.072 17.027 69.327 1.00 68.23 C +ATOM 2407 N VAL I 128 9.848 21.018 67.520 1.00 68.97 N +ATOM 2408 CA VAL I 128 10.100 22.450 67.433 1.00 69.57 C +ATOM 2409 C VAL I 128 8.757 23.158 67.346 1.00 69.32 C +ATOM 2410 O VAL I 128 7.909 22.793 66.524 1.00 70.08 O +ATOM 2411 CB VAL I 128 10.982 22.796 66.221 1.00 66.23 C +ATOM 2412 CG1 VAL I 128 11.320 24.277 66.217 1.00 64.97 C +ATOM 2413 CG2 VAL I 128 12.247 21.952 66.227 1.00 68.23 C +ATOM 2414 N THR I 129 8.566 24.169 68.190 1.00 68.37 N +ATOM 2415 CA THR I 129 7.312 24.902 68.267 1.00 67.89 C +ATOM 2416 C THR I 129 7.588 26.398 68.270 1.00 68.58 C +ATOM 2417 O THR I 129 8.608 26.858 68.789 1.00 69.06 O +ATOM 2418 CB THR I 129 6.508 24.532 69.527 1.00 69.10 C +ATOM 2419 OG1 THR I 129 7.283 24.829 70.697 1.00 66.73 O +ATOM 2420 CG2 THR I 129 6.140 23.056 69.523 1.00 69.02 C +ATOM 2421 N PHE I 130 6.671 27.154 67.672 1.00 69.22 N +ATOM 2422 CA PHE I 130 6.762 28.605 67.665 1.00 73.20 C +ATOM 2423 C PHE I 130 5.360 29.185 67.537 1.00 77.64 C +ATOM 2424 O PHE I 130 4.387 28.470 67.283 1.00 78.45 O +ATOM 2425 CB PHE I 130 7.691 29.108 66.549 1.00 74.36 C +ATOM 2426 CG PHE I 130 7.380 28.545 65.190 1.00 72.52 C +ATOM 2427 CD1 PHE I 130 6.527 29.209 64.325 1.00 75.36 C +ATOM 2428 CD2 PHE I 130 7.957 27.356 64.771 1.00 68.32 C +ATOM 2429 CE1 PHE I 130 6.246 28.694 63.073 1.00 78.12 C +ATOM 2430 CE2 PHE I 130 7.680 26.836 63.522 1.00 69.53 C +ATOM 2431 CZ PHE I 130 6.825 27.506 62.672 1.00 77.29 C +ATOM 2432 N ASN I 131 5.269 30.500 67.714 1.00 81.18 N +ATOM 2433 CA ASN I 131 4.005 31.218 67.679 1.00 87.39 C +ATOM 2434 C ASN I 131 4.124 32.397 66.724 1.00 88.95 C +ATOM 2435 O ASN I 131 5.221 32.884 66.440 1.00 86.73 O +ATOM 2436 CB ASN I 131 3.613 31.711 69.085 1.00 90.74 C +ATOM 2437 CG ASN I 131 2.117 31.928 69.245 1.00 94.94 C +ATOM 2438 OD1 ASN I 131 1.391 32.089 68.265 1.00 97.38 O +ATOM 2439 ND2 ASN I 131 1.655 31.949 70.494 1.00 98.36 N +ATOM 2440 N THR I 132 2.977 32.851 66.224 1.00 95.35 N +ATOM 2441 CA THR I 132 2.942 33.993 65.320 1.00100.94 C +ATOM 2442 C THR I 132 1.603 34.701 65.479 1.00108.33 C +ATOM 2443 O THR I 132 0.549 34.056 65.464 1.00112.16 O +ATOM 2444 CB THR I 132 3.179 33.572 63.860 1.00103.85 C +ATOM 2445 OG1 THR I 132 3.089 34.719 63.004 1.00108.70 O +ATOM 2446 CG2 THR I 132 2.170 32.520 63.407 1.00105.48 C +ATOM 2447 N SER I 133 1.652 36.022 65.667 1.00108.31 N +ATOM 2448 CA SER I 133 0.438 36.814 65.835 1.00113.24 C +ATOM 2449 C SER I 133 -0.466 36.792 64.609 1.00123.50 C +ATOM 2450 O SER I 133 -1.598 37.282 64.687 1.00131.42 O +ATOM 2451 CB SER I 133 0.804 38.261 66.174 1.00114.92 C +ATOM 2452 OG SER I 133 1.581 38.844 65.143 1.00116.18 O +ATOM 2453 N HIS I 134 -0.003 36.233 63.491 1.00122.99 N +ATOM 2454 CA HIS I 134 -0.777 36.206 62.257 1.00128.26 C +ATOM 2455 C HIS I 134 -1.890 35.167 62.268 1.00132.59 C +ATOM 2456 O HIS I 134 -2.818 35.270 61.457 1.00140.05 O +ATOM 2457 CB HIS I 134 0.156 35.948 61.072 1.00127.33 C +ATOM 2458 CG HIS I 134 0.876 37.169 60.591 1.00126.59 C +ATOM 2459 ND1 HIS I 134 0.223 38.250 60.041 1.00130.99 N +ATOM 2460 CD2 HIS I 134 2.192 37.490 60.601 1.00117.71 C +ATOM 2461 CE1 HIS I 134 1.106 39.178 59.717 1.00125.75 C +ATOM 2462 NE2 HIS I 134 2.308 38.742 60.047 1.00116.09 N +ATOM 2463 N LEU I 135 -1.812 34.163 63.147 1.00129.75 N +ATOM 2464 CA LEU I 135 -2.844 33.130 63.191 1.00133.63 C +ATOM 2465 C LEU I 135 -4.225 33.719 63.460 1.00139.92 C +ATOM 2466 O LEU I 135 -5.209 33.323 62.824 1.00141.69 O +ATOM 2467 CB LEU I 135 -2.500 32.097 64.265 1.00128.78 C +ATOM 2468 CG LEU I 135 -1.422 31.054 63.972 1.00121.75 C +ATOM 2469 CD1 LEU I 135 -1.026 30.338 65.254 1.00121.20 C +ATOM 2470 CD2 LEU I 135 -1.906 30.059 62.931 1.00116.68 C +ATOM 2471 N GLN I 136 -4.319 34.663 64.393 1.00143.08 N +ATOM 2472 CA GLN I 136 -5.591 35.269 64.767 1.00150.68 C +ATOM 2473 C GLN I 136 -5.899 36.553 64.005 1.00151.27 C +ATOM 2474 O GLN I 136 -6.835 37.267 64.381 1.00157.51 O +ATOM 2475 CB GLN I 136 -5.629 35.538 66.273 1.00157.93 C +ATOM 2476 CG GLN I 136 -4.709 36.648 66.744 1.00160.71 C +ATOM 2477 CD GLN I 136 -4.944 37.007 68.197 1.00168.95 C +ATOM 2478 OE1 GLN I 136 -5.765 36.390 68.876 1.00173.98 O +ATOM 2479 NE2 GLN I 136 -4.225 38.012 68.683 1.00166.67 N +ATOM 2480 N LYS I 137 -5.154 36.863 62.950 1.00148.11 N +ATOM 2481 CA LYS I 137 -5.381 38.096 62.214 1.00153.48 C +ATOM 2482 C LYS I 137 -6.468 37.901 61.164 1.00161.85 C +ATOM 2483 O LYS I 137 -6.702 36.792 60.677 1.00161.27 O +ATOM 2484 CB LYS I 137 -4.091 38.584 61.555 1.00151.27 C +ATOM 2485 CG LYS I 137 -3.064 39.103 62.547 1.00143.07 C +ATOM 2486 CD LYS I 137 -1.927 39.830 61.853 1.00139.32 C +ATOM 2487 CE LYS I 137 -0.805 40.149 62.829 1.00134.27 C +ATOM 2488 NZ LYS I 137 -1.285 40.942 63.994 1.00136.26 N +ATOM 2489 N LYS I 138 -7.131 39.006 60.819 1.00166.84 N +ATOM 2490 CA LYS I 138 -8.276 38.951 59.917 1.00174.50 C +ATOM 2491 C LYS I 138 -7.849 38.788 58.463 1.00179.52 C +ATOM 2492 O LYS I 138 -8.305 37.868 57.775 1.00179.69 O +ATOM 2493 CB LYS I 138 -9.126 40.213 60.087 1.00173.66 C +ATOM 2494 CG LYS I 138 -10.297 40.321 59.127 1.00171.35 C +ATOM 2495 CD LYS I 138 -10.980 41.675 59.253 1.00165.21 C +ATOM 2496 CE LYS I 138 -12.125 41.814 58.264 1.00163.35 C +ATOM 2497 NZ LYS I 138 -12.736 43.171 58.311 1.00165.15 N +ATOM 2498 N TYR I 139 -6.975 39.669 57.979 1.00184.06 N +ATOM 2499 CA TYR I 139 -6.619 39.665 56.559 1.00187.58 C +ATOM 2500 C TYR I 139 -5.550 38.619 56.254 1.00182.87 C +ATOM 2501 O TYR I 139 -5.816 37.620 55.577 1.00181.23 O +ATOM 2502 CB TYR I 139 -6.161 41.065 56.136 1.00186.81 C +ATOM 2503 CG TYR I 139 -7.254 42.105 56.229 1.00183.82 C +ATOM 2504 CD1 TYR I 139 -8.217 42.220 55.234 1.00182.95 C +ATOM 2505 CD2 TYR I 139 -7.327 42.967 57.315 1.00179.98 C +ATOM 2506 CE1 TYR I 139 -9.219 43.168 55.318 1.00179.43 C +ATOM 2507 CE2 TYR I 139 -8.325 43.917 57.407 1.00176.18 C +ATOM 2508 CZ TYR I 139 -9.268 44.013 56.406 1.00177.99 C +ATOM 2509 OH TYR I 139 -10.264 44.958 56.494 1.00179.04 O +ATOM 2510 N VAL I 140 -4.333 38.834 56.749 1.00197.69 N +ATOM 2511 CA VAL I 140 -3.205 37.945 56.486 1.00178.43 C +ATOM 2512 C VAL I 140 -3.250 36.826 57.521 1.00170.83 C +ATOM 2513 O VAL I 140 -2.779 36.988 58.648 1.00161.52 O +ATOM 2514 CB VAL I 140 -1.872 38.693 56.529 1.00174.55 C +ATOM 2515 CG1 VAL I 140 -1.298 38.851 55.124 1.00174.18 C +ATOM 2516 CG2 VAL I 140 -2.035 40.042 57.225 1.00168.37 C +ATOM 2517 N LYS I 141 -3.815 35.679 57.140 1.00160.22 N +ATOM 2518 CA LYS I 141 -3.892 34.535 58.036 1.00149.46 C +ATOM 2519 C LYS I 141 -3.208 33.285 57.499 1.00140.90 C +ATOM 2520 O LYS I 141 -3.080 32.308 58.245 1.00140.80 O +ATOM 2521 CB LYS I 141 -5.358 34.212 58.375 1.00145.04 C +ATOM 2522 CG LYS I 141 -6.269 34.025 57.173 1.00141.68 C +ATOM 2523 CD LYS I 141 -6.527 32.554 56.903 1.00130.23 C +ATOM 2524 CE LYS I 141 -7.406 32.361 55.679 1.00121.96 C +ATOM 2525 NZ LYS I 141 -7.523 30.925 55.304 1.00113.60 N +ATOM 2526 N VAL I 142 -2.771 33.279 56.241 1.00135.48 N +ATOM 2527 CA VAL I 142 -2.046 32.157 55.655 1.00127.04 C +ATOM 2528 C VAL I 142 -0.628 32.621 55.358 1.00116.36 C +ATOM 2529 O VAL I 142 -0.424 33.588 54.613 1.00113.03 O +ATOM 2530 CB VAL I 142 -2.730 31.626 54.387 1.00128.75 C +ATOM 2531 CG1 VAL I 142 -1.878 30.536 53.744 1.00125.97 C +ATOM 2532 CG2 VAL I 142 -4.107 31.090 54.718 1.00130.55 C +ATOM 2533 N LEU I 143 0.349 31.938 55.951 1.00110.00 N +ATOM 2534 CA LEU I 143 1.763 32.259 55.804 1.00104.33 C +ATOM 2535 C LEU I 143 2.562 30.993 55.520 1.00103.20 C +ATOM 2536 O LEU I 143 2.067 29.869 55.629 1.00104.26 O +ATOM 2537 CB LEU I 143 2.325 32.962 57.058 1.00100.97 C +ATOM 2538 CG LEU I 143 1.922 34.402 57.397 1.00107.53 C +ATOM 2539 CD1 LEU I 143 0.474 34.525 57.831 1.00124.19 C +ATOM 2540 CD2 LEU I 143 2.853 34.945 58.470 1.00102.73 C +ATOM 2541 N MET I 144 3.818 31.207 55.148 1.00 99.89 N +ATOM 2542 CA MET I 144 4.806 30.148 54.980 1.00 98.14 C +ATOM 2543 C MET I 144 6.004 30.429 55.874 1.00 94.18 C +ATOM 2544 O MET I 144 6.584 31.516 55.810 1.00 95.85 O +ATOM 2545 CB MET I 144 5.241 30.037 53.517 1.00104.87 C +ATOM 2546 CG MET I 144 6.144 28.858 53.202 1.00103.29 C +ATOM 2547 SD MET I 144 6.922 29.013 51.581 1.00125.57 S +ATOM 2548 CE MET I 144 5.498 28.838 50.504 1.00112.04 C +ATOM 2549 N HIS I 145 6.373 29.452 56.707 1.00 89.72 N +ATOM 2550 CA HIS I 145 7.434 29.616 57.694 1.00 89.35 C +ATOM 2551 C HIS I 145 8.681 28.844 57.269 1.00 87.69 C +ATOM 2552 O HIS I 145 8.592 27.740 56.711 1.00 89.09 O +ATOM 2553 CB HIS I 145 6.978 29.154 59.087 1.00 88.18 C +ATOM 2554 CG HIS I 145 5.691 29.776 59.538 1.00 86.85 C +ATOM 2555 ND1 HIS I 145 5.578 31.113 59.853 1.00 86.09 N +ATOM 2556 CD2 HIS I 145 4.464 29.240 59.744 1.00 87.97 C +ATOM 2557 CE1 HIS I 145 4.336 31.377 60.219 1.00 90.06 C +ATOM 2558 NE2 HIS I 145 3.639 30.257 60.162 1.00 89.21 N +ATOM 2559 N ASP I 146 9.840 29.449 57.513 1.00 86.02 N +ATOM 2560 CA ASP I 146 11.145 28.848 57.240 1.00 84.89 C +ATOM 2561 C ASP I 146 11.859 28.647 58.565 1.00 79.60 C +ATOM 2562 O ASP I 146 12.184 29.621 59.256 1.00 78.34 O +ATOM 2563 CB ASP I 146 11.986 29.725 56.321 1.00 89.13 C +ATOM 2564 CG ASP I 146 13.350 29.142 56.003 1.00 86.59 C +ATOM 2565 OD1 ASP I 146 13.600 27.958 56.303 1.00 82.82 O +ATOM 2566 OD2 ASP I 146 14.176 29.879 55.424 1.00 91.74 O +ATOM 2567 N VAL I 147 12.089 27.391 58.917 1.00 76.67 N +ATOM 2568 CA VAL I 147 12.836 27.031 60.111 1.00 75.02 C +ATOM 2569 C VAL I 147 14.259 26.710 59.677 1.00 77.77 C +ATOM 2570 O VAL I 147 14.484 25.767 58.908 1.00 78.08 O +ATOM 2571 CB VAL I 147 12.189 25.839 60.830 1.00 71.73 C +ATOM 2572 CG1 VAL I 147 13.058 25.384 61.984 1.00 65.37 C +ATOM 2573 CG2 VAL I 147 10.790 26.205 61.306 1.00 73.22 C +ATOM 2574 N ALA I 148 15.221 27.495 60.151 1.00 78.34 N +ATOM 2575 CA ALA I 148 16.627 27.297 59.825 1.00 78.59 C +ATOM 2576 C ALA I 148 17.389 26.889 61.076 1.00 77.81 C +ATOM 2577 O ALA I 148 17.288 27.553 62.114 1.00 80.08 O +ATOM 2578 CB ALA I 148 17.239 28.561 59.222 1.00 82.41 C +ATOM 2579 N TYR I 149 18.155 25.805 60.971 1.00 75.72 N +ATOM 2580 CA TYR I 149 18.952 25.311 62.083 1.00 80.42 C +ATOM 2581 C TYR I 149 20.371 24.997 61.628 1.00 83.72 C +ATOM 2582 O TYR I 149 20.600 24.550 60.501 1.00 83.66 O +ATOM 2583 CB TYR I 149 18.299 24.081 62.740 1.00 75.79 C +ATOM 2584 CG TYR I 149 18.141 22.871 61.849 1.00 75.32 C +ATOM 2585 CD1 TYR I 149 17.044 22.746 61.007 1.00 73.93 C +ATOM 2586 CD2 TYR I 149 19.068 21.836 61.875 1.00 74.20 C +ATOM 2587 CE1 TYR I 149 16.884 21.637 60.200 1.00 71.70 C +ATOM 2588 CE2 TYR I 149 18.916 20.722 61.072 1.00 74.30 C +ATOM 2589 CZ TYR I 149 17.821 20.627 60.238 1.00 73.48 C +ATOM 2590 OH TYR I 149 17.664 19.521 59.435 1.00 75.42 O +ATOM 2591 N ARG I 150 21.321 25.233 62.532 1.00 84.80 N +ATOM 2592 CA ARG I 150 22.744 25.086 62.271 1.00 89.98 C +ATOM 2593 C ARG I 150 23.396 24.321 63.417 1.00 89.86 C +ATOM 2594 O ARG I 150 22.911 24.328 64.552 1.00 89.18 O +ATOM 2595 CB ARG I 150 23.402 26.472 62.104 1.00 95.81 C +ATOM 2596 CG ARG I 150 24.922 26.490 62.020 1.00101.33 C +ATOM 2597 CD ARG I 150 25.473 27.895 62.198 1.00106.36 C +ATOM 2598 NE ARG I 150 25.288 28.385 63.561 1.00103.30 N +ATOM 2599 CZ ARG I 150 25.727 29.561 63.998 1.00107.25 C +ATOM 2600 NH1 ARG I 150 26.379 30.373 63.178 1.00116.40 N +ATOM 2601 NH2 ARG I 150 25.515 29.925 65.255 1.00101.30 N +ATOM 2602 N GLN I 151 24.521 23.683 63.105 1.00 91.98 N +ATOM 2603 CA GLN I 151 25.336 22.937 64.052 1.00 95.42 C +ATOM 2604 C GLN I 151 26.413 23.823 64.680 1.00101.47 C +ATOM 2605 O GLN I 151 26.764 24.886 64.165 1.00103.40 O +ATOM 2606 CB GLN I 151 25.983 21.732 63.363 1.00 96.05 C +ATOM 2607 CG GLN I 151 26.593 20.707 64.313 1.00 96.60 C +ATOM 2608 CD GLN I 151 27.063 19.456 63.603 1.00 98.09 C +ATOM 2609 OE1 GLN I 151 26.623 19.155 62.495 1.00 98.99 O +ATOM 2610 NE2 GLN I 151 27.966 18.719 64.241 1.00 98.58 N +ATOM 2611 N GLU I 152 26.921 23.365 65.828 1.00105.11 N +ATOM 2612 CA GLU I 152 27.965 24.090 66.545 1.00111.96 C +ATOM 2613 C GLU I 152 29.207 24.286 65.680 1.00116.51 C +ATOM 2614 O GLU I 152 29.801 25.370 65.673 1.00117.72 O +ATOM 2615 CB GLU I 152 28.310 23.356 67.843 1.00115.80 C +ATOM 2616 CG GLU I 152 28.528 21.855 67.683 1.00118.74 C +ATOM 2617 CD GLU I 152 28.553 21.121 69.012 1.00132.42 C +ATOM 2618 OE1 GLU I 152 28.092 21.697 70.020 1.00129.74 O +ATOM 2619 OE2 GLU I 152 29.031 19.967 69.047 1.00138.05 O +ATOM 2620 N LYS I 153 29.623 23.244 64.951 1.00116.50 N +ATOM 2621 CA LYS I 153 30.855 23.320 64.167 1.00117.59 C +ATOM 2622 C LYS I 153 30.730 24.313 63.012 1.00116.22 C +ATOM 2623 O LYS I 153 31.636 25.122 62.779 1.00117.22 O +ATOM 2624 CB LYS I 153 31.240 21.927 63.652 1.00114.77 C +ATOM 2625 CG LYS I 153 30.258 21.288 62.668 1.00113.09 C +ATOM 2626 CD LYS I 153 30.846 20.035 62.030 1.00112.03 C +ATOM 2627 CE LYS I 153 30.094 19.645 60.763 1.00112.45 C +ATOM 2628 NZ LYS I 153 30.699 18.453 60.103 1.00113.96 N +ATOM 2629 N ASP I 154 29.621 24.262 62.278 1.00115.55 N +ATOM 2630 CA ASP I 154 29.436 25.088 61.088 1.00116.12 C +ATOM 2631 C ASP I 154 29.425 26.572 61.438 1.00117.88 C +ATOM 2632 O ASP I 154 28.625 27.019 62.266 1.00118.68 O +ATOM 2633 CB ASP I 154 28.143 24.692 60.377 1.00114.64 C +ATOM 2634 CG ASP I 154 28.261 23.360 59.657 1.00118.63 C +ATOM 2635 OD1 ASP I 154 29.370 23.034 59.184 1.00120.39 O +ATOM 2636 OD2 ASP I 154 27.244 22.638 59.564 1.00121.23 O +ATOM 2637 N GLU I 155 30.313 27.337 60.795 1.00121.57 N +ATOM 2638 CA GLU I 155 30.405 28.766 61.078 1.00127.08 C +ATOM 2639 C GLU I 155 29.240 29.534 60.474 1.00127.56 C +ATOM 2640 O GLU I 155 28.809 30.548 61.038 1.00129.28 O +ATOM 2641 CB GLU I 155 31.712 29.336 60.521 1.00135.46 C +ATOM 2642 CG GLU I 155 32.907 29.296 61.447 1.00137.03 C +ATOM 2643 CD GLU I 155 34.108 30.004 60.841 1.00143.41 C +ATOM 2644 OE1 GLU I 155 34.098 30.245 59.614 1.00144.98 O +ATOM 2645 OE2 GLU I 155 35.055 30.328 61.587 1.00142.12 O +ATOM 2646 N ASN I 156 28.711 29.064 59.345 1.00124.57 N +ATOM 2647 CA ASN I 156 27.616 29.747 58.671 1.00123.15 C +ATOM 2648 C ASN I 156 27.025 28.866 57.580 1.00120.97 C +ATOM 2649 O ASN I 156 26.974 29.259 56.411 1.00126.69 O +ATOM 2650 CB ASN I 156 28.075 31.082 58.078 1.00129.23 C +ATOM 2651 CG ASN I 156 26.911 32.008 57.763 1.00127.00 C +ATOM 2652 OD1 ASN I 156 25.772 31.752 58.154 1.00120.73 O +ATOM 2653 ND2 ASN I 156 27.193 33.089 57.045 1.00135.38 N +ATOM 2654 N LYS I 157 26.601 27.663 57.952 1.00115.31 N +ATOM 2655 CA LYS I 157 25.805 26.808 57.087 1.00109.68 C +ATOM 2656 C LYS I 157 24.481 26.563 57.789 1.00105.10 C +ATOM 2657 O LYS I 157 24.451 26.262 58.985 1.00106.76 O +ATOM 2658 CB LYS I 157 26.489 25.460 56.813 1.00113.49 C +ATOM 2659 CG LYS I 157 27.908 25.534 56.294 1.00117.56 C +ATOM 2660 CD LYS I 157 28.419 24.128 55.999 1.00114.85 C +ATOM 2661 CE LYS I 157 29.897 24.126 55.650 1.00123.77 C +ATOM 2662 NZ LYS I 157 30.194 25.002 54.485 1.00124.50 N +ATOM 2663 N TRP I 158 23.387 26.684 57.048 1.00 99.66 N +ATOM 2664 CA TRP I 158 22.066 26.526 57.634 1.00 91.20 C +ATOM 2665 C TRP I 158 21.281 25.472 56.874 1.00 85.56 C +ATOM 2666 O TRP I 158 21.261 25.474 55.640 1.00 85.30 O +ATOM 2667 CB TRP I 158 21.319 27.861 57.661 1.00 92.09 C +ATOM 2668 CG TRP I 158 21.991 28.847 58.561 1.00 96.18 C +ATOM 2669 CD1 TRP I 158 23.023 29.679 58.241 1.00103.02 C +ATOM 2670 CD2 TRP I 158 21.711 29.070 59.948 1.00 97.54 C +ATOM 2671 NE1 TRP I 158 23.389 30.423 59.337 1.00104.92 N +ATOM 2672 CE2 TRP I 158 22.600 30.066 60.399 1.00100.88 C +ATOM 2673 CE3 TRP I 158 20.788 28.531 60.850 1.00 93.67 C +ATOM 2674 CZ2 TRP I 158 22.593 30.535 61.711 1.00 99.02 C +ATOM 2675 CZ3 TRP I 158 20.783 28.998 62.152 1.00 90.68 C +ATOM 2676 CH2 TRP I 158 21.679 29.989 62.570 1.00 95.64 C +ATOM 2677 N THR I 159 20.645 24.571 57.615 1.00 82.91 N +ATOM 2678 CA THR I 159 19.670 23.652 57.049 1.00 77.69 C +ATOM 2679 C THR I 159 18.299 24.301 57.179 1.00 77.15 C +ATOM 2680 O THR I 159 17.870 24.636 58.291 1.00 79.65 O +ATOM 2681 CB THR I 159 19.700 22.300 57.758 1.00 74.11 C +ATOM 2682 OG1 THR I 159 21.038 21.786 57.756 1.00 73.06 O +ATOM 2683 CG2 THR I 159 18.791 21.315 57.040 1.00 71.55 C +ATOM 2684 N HIS I 160 17.626 24.493 56.050 1.00 76.15 N +ATOM 2685 CA HIS I 160 16.344 25.175 56.016 1.00 78.87 C +ATOM 2686 C HIS I 160 15.220 24.178 55.776 1.00 81.95 C +ATOM 2687 O HIS I 160 15.394 23.173 55.081 1.00 83.89 O +ATOM 2688 CB HIS I 160 16.330 26.257 54.934 1.00 80.50 C +ATOM 2689 CG HIS I 160 17.292 27.371 55.200 1.00 83.98 C +ATOM 2690 ND1 HIS I 160 16.890 28.608 55.655 1.00 88.29 N +ATOM 2691 CD2 HIS I 160 18.638 27.437 55.072 1.00 86.28 C +ATOM 2692 CE1 HIS I 160 17.949 29.381 55.813 1.00 91.83 C +ATOM 2693 NE2 HIS I 160 19.021 28.699 55.455 1.00 89.28 N +ATOM 2694 N VAL I 161 14.060 24.468 56.363 1.00 80.54 N +ATOM 2695 CA VAL I 161 12.875 23.628 56.230 1.00 80.38 C +ATOM 2696 C VAL I 161 11.673 24.543 56.051 1.00 83.92 C +ATOM 2697 O VAL I 161 11.420 25.414 56.892 1.00 84.05 O +ATOM 2698 CB VAL I 161 12.663 22.703 57.442 1.00 77.83 C +ATOM 2699 CG1 VAL I 161 11.389 21.894 57.268 1.00 82.61 C +ATOM 2700 CG2 VAL I 161 13.857 21.777 57.633 1.00 74.13 C +ATOM 2701 N ASN I 162 10.940 24.354 54.958 1.00 87.65 N +ATOM 2702 CA ASN I 162 9.729 25.115 54.689 1.00 90.48 C +ATOM 2703 C ASN I 162 8.516 24.381 55.246 1.00 93.42 C +ATOM 2704 O ASN I 162 8.406 23.157 55.121 1.00 97.19 O +ATOM 2705 CB ASN I 162 9.573 25.335 53.184 1.00 97.06 C +ATOM 2706 CG ASN I 162 10.503 26.406 52.652 1.00100.52 C +ATOM 2707 OD1 ASN I 162 11.390 26.884 53.363 1.00 94.74 O +ATOM 2708 ND2 ASN I 162 10.314 26.783 51.390 1.00105.22 N +ATOM 2709 N LEU I 163 7.602 25.132 55.858 1.00 94.17 N +ATOM 2710 CA LEU I 163 6.414 24.534 56.450 1.00 89.04 C +ATOM 2711 C LEU I 163 5.290 25.561 56.500 1.00 90.05 C +ATOM 2712 O LEU I 163 5.489 26.750 56.243 1.00 91.11 O +ATOM 2713 CB LEU I 163 6.719 23.949 57.838 1.00 86.93 C +ATOM 2714 CG LEU I 163 7.323 24.833 58.932 1.00 90.31 C +ATOM 2715 CD1 LEU I 163 6.257 25.598 59.687 1.00 92.72 C +ATOM 2716 CD2 LEU I 163 8.142 23.982 59.891 1.00 84.81 C +ATOM 2717 N SER I 164 4.087 25.076 56.810 1.00 91.27 N +ATOM 2718 CA SER I 164 2.905 25.920 56.927 1.00 90.07 C +ATOM 2719 C SER I 164 2.327 25.985 58.333 1.00 91.67 C +ATOM 2720 O SER I 164 1.712 26.994 58.684 1.00 92.30 O +ATOM 2721 CB SER I 164 1.811 25.437 55.966 1.00 89.24 C +ATOM 2722 OG SER I 164 1.497 24.074 56.201 1.00 95.39 O +ATOM 2723 N SER I 165 2.505 24.942 59.144 1.00 90.03 N +ATOM 2724 CA SER I 165 1.974 24.926 60.502 1.00 90.24 C +ATOM 2725 C SER I 165 2.882 25.695 61.454 1.00 88.61 C +ATOM 2726 O SER I 165 3.648 26.562 61.023 1.00 88.36 O +ATOM 2727 CB SER I 165 1.793 23.487 60.989 1.00 93.11 C +ATOM 2728 OG SER I 165 3.040 22.821 61.091 1.00 92.05 O +ATOM 2729 N THR I 166 2.777 25.417 62.754 1.00 87.90 N +ATOM 2730 CA THR I 166 3.659 26.021 63.746 1.00 82.33 C +ATOM 2731 C THR I 166 4.481 24.991 64.512 1.00 80.36 C +ATOM 2732 O THR I 166 5.124 25.346 65.507 1.00 77.20 O +ATOM 2733 CB THR I 166 2.856 26.880 64.728 1.00 79.23 C +ATOM 2734 OG1 THR I 166 1.802 26.098 65.301 1.00 83.81 O +ATOM 2735 CG2 THR I 166 2.261 28.088 64.019 1.00 88.31 C +ATOM 2736 N LYS I 167 4.475 23.729 64.086 1.00 83.42 N +ATOM 2737 CA LYS I 167 5.239 22.683 64.749 1.00 79.79 C +ATOM 2738 C LYS I 167 5.988 21.857 63.712 1.00 78.91 C +ATOM 2739 O LYS I 167 5.519 21.661 62.587 1.00 81.16 O +ATOM 2740 CB LYS I 167 4.345 21.772 65.611 1.00 78.32 C +ATOM 2741 CG LYS I 167 3.425 20.847 64.834 1.00 84.28 C +ATOM 2742 CD LYS I 167 2.771 19.829 65.759 1.00 78.85 C +ATOM 2743 CE LYS I 167 3.814 18.970 66.460 1.00 77.65 C +ATOM 2744 NZ LYS I 167 3.197 17.972 67.378 1.00 77.65 N +ATOM 2745 N LEU I 168 7.167 21.384 64.107 1.00 73.00 N +ATOM 2746 CA LEU I 168 8.021 20.576 63.249 1.00 73.73 C +ATOM 2747 C LEU I 168 8.630 19.458 64.084 1.00 71.45 C +ATOM 2748 O LEU I 168 8.748 19.566 65.306 1.00 73.92 O +ATOM 2749 CB LEU I 168 9.115 21.434 62.591 1.00 71.00 C +ATOM 2750 CG LEU I 168 10.139 20.772 61.666 1.00 71.18 C +ATOM 2751 CD1 LEU I 168 9.452 20.148 60.462 1.00 75.19 C +ATOM 2752 CD2 LEU I 168 11.191 21.778 61.226 1.00 71.16 C +ATOM 2753 N THR I 169 9.018 18.373 63.417 1.00 70.82 N +ATOM 2754 CA THR I 169 9.604 17.216 64.085 1.00 70.29 C +ATOM 2755 C THR I 169 10.903 16.847 63.386 1.00 72.20 C +ATOM 2756 O THR I 169 10.909 16.594 62.177 1.00 74.83 O +ATOM 2757 CB THR I 169 8.638 16.028 64.085 1.00 71.72 C +ATOM 2758 OG1 THR I 169 7.409 16.408 64.715 1.00 71.38 O +ATOM 2759 CG2 THR I 169 9.243 14.853 64.838 1.00 70.82 C +ATOM 2760 N LEU I 170 11.996 16.817 64.145 1.00 71.23 N +ATOM 2761 CA LEU I 170 13.311 16.449 63.635 1.00 74.56 C +ATOM 2762 C LEU I 170 13.706 15.102 64.225 1.00 77.77 C +ATOM 2763 O LEU I 170 13.739 14.944 65.449 1.00 78.87 O +ATOM 2764 CB LEU I 170 14.349 17.515 63.986 1.00 72.62 C +ATOM 2765 CG LEU I 170 14.021 18.949 63.563 1.00 70.27 C +ATOM 2766 CD1 LEU I 170 15.125 19.902 63.998 1.00 68.58 C +ATOM 2767 CD2 LEU I 170 13.793 19.033 62.062 1.00 67.68 C +ATOM 2768 N LEU I 171 14.009 14.140 63.359 1.00 81.20 N +ATOM 2769 CA LEU I 171 14.381 12.811 63.824 1.00 83.23 C +ATOM 2770 C LEU I 171 15.798 12.810 64.387 1.00 83.24 C +ATOM 2771 O LEU I 171 16.697 13.468 63.855 1.00 83.00 O +ATOM 2772 CB LEU I 171 14.257 11.797 62.687 1.00 87.84 C +ATOM 2773 CG LEU I 171 12.830 11.562 62.186 1.00 86.49 C +ATOM 2774 CD1 LEU I 171 12.829 10.726 60.917 1.00 91.02 C +ATOM 2775 CD2 LEU I 171 11.983 10.903 63.266 1.00 81.90 C +ATOM 2776 N GLN I 172 15.989 12.065 65.479 1.00 83.48 N +ATOM 2777 CA GLN I 172 17.300 11.997 66.119 1.00 82.35 C +ATOM 2778 C GLN I 172 18.335 11.350 65.208 1.00 84.80 C +ATOM 2779 O GLN I 172 19.508 11.743 65.213 1.00 81.92 O +ATOM 2780 CB GLN I 172 17.199 11.235 67.441 1.00 80.17 C +ATOM 2781 CG GLN I 172 18.443 11.319 68.309 1.00 80.75 C +ATOM 2782 CD GLN I 172 18.374 10.400 69.513 1.00 81.67 C +ATOM 2783 OE1 GLN I 172 17.290 10.062 69.988 1.00 82.22 O +ATOM 2784 NE2 GLN I 172 19.534 9.987 70.011 1.00 84.47 N +ATOM 2785 N ARG I 173 17.924 10.350 64.423 1.00 89.32 N +ATOM 2786 CA ARG I 173 18.862 9.679 63.529 1.00 89.36 C +ATOM 2787 C ARG I 173 19.389 10.625 62.458 1.00 87.09 C +ATOM 2788 O ARG I 173 20.492 10.422 61.938 1.00 85.60 O +ATOM 2789 CB ARG I 173 18.198 8.466 62.876 1.00 89.07 C +ATOM 2790 CG ARG I 173 16.963 8.802 62.053 1.00 91.88 C +ATOM 2791 CD ARG I 173 16.493 7.607 61.238 1.00 97.70 C +ATOM 2792 NE ARG I 173 15.462 7.977 60.273 1.00 98.84 N +ATOM 2793 CZ ARG I 173 14.980 7.160 59.341 1.00 97.02 C +ATOM 2794 NH1 ARG I 173 15.437 5.919 59.243 1.00 96.75 N +ATOM 2795 NH2 ARG I 173 14.042 7.584 58.505 1.00 92.78 N +ATOM 2796 N LYS I 174 18.621 11.660 62.119 1.00 85.06 N +ATOM 2797 CA LYS I 174 19.003 12.637 61.111 1.00 85.08 C +ATOM 2798 C LYS I 174 19.779 13.815 61.694 1.00 83.70 C +ATOM 2799 O LYS I 174 19.794 14.893 61.091 1.00 81.33 O +ATOM 2800 CB LYS I 174 17.753 13.144 60.388 1.00 86.26 C +ATOM 2801 CG LYS I 174 17.007 12.076 59.603 1.00 89.73 C +ATOM 2802 CD LYS I 174 15.685 12.606 59.065 1.00 99.77 C +ATOM 2803 CE LYS I 174 15.885 13.573 57.911 1.00103.52 C +ATOM 2804 NZ LYS I 174 16.243 12.867 56.651 1.00 98.19 N +ATOM 2805 N LEU I 175 20.422 13.634 62.848 1.00 83.52 N +ATOM 2806 CA LEU I 175 21.205 14.690 63.473 1.00 82.29 C +ATOM 2807 C LEU I 175 22.499 14.115 64.029 1.00 82.80 C +ATOM 2808 O LEU I 175 22.555 12.956 64.449 1.00 83.61 O +ATOM 2809 CB LEU I 175 20.422 15.390 64.593 1.00 80.37 C +ATOM 2810 CG LEU I 175 19.211 16.219 64.162 1.00 80.01 C +ATOM 2811 CD1 LEU I 175 18.409 16.670 65.371 1.00 81.05 C +ATOM 2812 CD2 LEU I 175 19.649 17.414 63.328 1.00 80.97 C +ATOM 2813 N GLN I 176 23.540 14.940 64.022 1.00 81.83 N +ATOM 2814 CA GLN I 176 24.843 14.511 64.519 1.00 83.49 C +ATOM 2815 C GLN I 176 24.795 14.338 66.033 1.00 84.46 C +ATOM 2816 O GLN I 176 24.276 15.213 66.736 1.00 85.98 O +ATOM 2817 CB GLN I 176 25.920 15.524 64.138 1.00 84.54 C +ATOM 2818 CG GLN I 176 26.031 15.787 62.645 1.00 86.97 C +ATOM 2819 CD GLN I 176 26.359 14.535 61.854 1.00 87.60 C +ATOM 2820 OE1 GLN I 176 27.206 13.737 62.255 1.00 84.22 O +ATOM 2821 NE2 GLN I 176 25.687 14.358 60.722 1.00 87.22 N +ATOM 2822 N PRO I 177 25.314 13.237 66.571 1.00 85.24 N +ATOM 2823 CA PRO I 177 25.294 13.047 68.025 1.00 85.76 C +ATOM 2824 C PRO I 177 26.245 14.000 68.733 1.00 89.62 C +ATOM 2825 O PRO I 177 27.252 14.442 68.175 1.00 96.69 O +ATOM 2826 CB PRO I 177 25.739 11.589 68.205 1.00 86.34 C +ATOM 2827 CG PRO I 177 25.599 10.958 66.850 1.00 88.34 C +ATOM 2828 CD PRO I 177 25.840 12.057 65.867 1.00 85.23 C +ATOM 2829 N ALA I 178 25.901 14.311 69.985 1.00 89.44 N +ATOM 2830 CA ALA I 178 26.733 15.133 70.867 1.00 90.42 C +ATOM 2831 C ALA I 178 27.052 16.493 70.252 1.00 90.72 C +ATOM 2832 O ALA I 178 28.176 16.990 70.348 1.00 97.06 O +ATOM 2833 CB ALA I 178 28.023 14.402 71.245 1.00 94.44 C +ATOM 2834 N ALA I 179 26.057 17.107 69.619 1.00 91.48 N +ATOM 2835 CA ALA I 179 26.235 18.400 68.977 1.00 99.98 C +ATOM 2836 C ALA I 179 25.128 19.342 69.419 1.00 98.36 C +ATOM 2837 O ALA I 179 23.985 18.919 69.619 1.00 96.05 O +ATOM 2838 CB ALA I 179 26.236 18.271 67.450 1.00100.55 C +ATOM 2839 N MET I 180 25.470 20.617 69.570 1.00100.16 N +ATOM 2840 CA MET I 180 24.495 21.648 69.892 1.00 99.36 C +ATOM 2841 C MET I 180 24.090 22.389 68.624 1.00 95.38 C +ATOM 2842 O MET I 180 24.937 22.749 67.801 1.00100.28 O +ATOM 2843 CB MET I 180 25.034 22.622 70.941 1.00107.70 C +ATOM 2844 CG MET I 180 23.993 23.628 71.406 1.00117.22 C +ATOM 2845 SD MET I 180 24.535 24.675 72.767 1.00132.78 S +ATOM 2846 CE MET I 180 23.280 24.265 73.982 1.00129.44 C +ATOM 2847 N TYR I 181 22.789 22.612 68.480 1.00 88.39 N +ATOM 2848 CA TYR I 181 22.195 23.251 67.318 1.00 84.75 C +ATOM 2849 C TYR I 181 21.507 24.545 67.726 1.00 83.48 C +ATOM 2850 O TYR I 181 20.831 24.609 68.763 1.00 85.96 O +ATOM 2851 CB TYR I 181 21.176 22.329 66.640 1.00 83.79 C +ATOM 2852 CG TYR I 181 21.774 21.174 65.870 1.00 87.77 C +ATOM 2853 CD1 TYR I 181 22.092 19.980 66.505 1.00 86.84 C +ATOM 2854 CD2 TYR I 181 22.003 21.270 64.503 1.00 88.59 C +ATOM 2855 CE1 TYR I 181 22.632 18.919 65.804 1.00 87.78 C +ATOM 2856 CE2 TYR I 181 22.543 20.213 63.793 1.00 88.36 C +ATOM 2857 CZ TYR I 181 22.855 19.040 64.448 1.00 88.14 C +ATOM 2858 OH TYR I 181 23.392 17.986 63.745 1.00 86.36 O +ATOM 2859 N GLU I 182 21.705 25.568 66.899 1.00 79.73 N +ATOM 2860 CA GLU I 182 20.967 26.822 66.943 1.00 79.53 C +ATOM 2861 C GLU I 182 19.838 26.773 65.922 1.00 80.23 C +ATOM 2862 O GLU I 182 19.969 26.159 64.864 1.00 82.54 O +ATOM 2863 CB GLU I 182 21.892 28.006 66.645 1.00 82.74 C +ATOM 2864 CG GLU I 182 21.190 29.352 66.533 1.00 83.75 C +ATOM 2865 CD GLU I 182 22.138 30.480 66.174 1.00 87.63 C +ATOM 2866 OE1 GLU I 182 23.365 30.248 66.164 1.00 92.42 O +ATOM 2867 OE2 GLU I 182 21.654 31.597 65.894 1.00 87.12 O +ATOM 2868 N ILE I 183 18.715 27.409 66.251 1.00 76.77 N +ATOM 2869 CA ILE I 183 17.528 27.320 65.409 1.00 75.25 C +ATOM 2870 C ILE I 183 16.760 28.633 65.486 1.00 76.89 C +ATOM 2871 O ILE I 183 16.724 29.293 66.528 1.00 79.81 O +ATOM 2872 CB ILE I 183 16.656 26.108 65.822 1.00 74.37 C +ATOM 2873 CG1 ILE I 183 15.463 25.933 64.882 1.00 73.45 C +ATOM 2874 CG2 ILE I 183 16.200 26.237 67.269 1.00 74.55 C +ATOM 2875 CD1 ILE I 183 14.749 24.613 65.069 1.00 68.38 C +ATOM 2876 N LYS I 184 16.154 29.016 64.362 1.00 74.24 N +ATOM 2877 CA LYS I 184 15.359 30.237 64.285 1.00 76.56 C +ATOM 2878 C LYS I 184 14.337 30.092 63.163 1.00 74.30 C +ATOM 2879 O LYS I 184 14.357 29.121 62.401 1.00 75.15 O +ATOM 2880 CB LYS I 184 16.248 31.472 64.103 1.00 82.22 C +ATOM 2881 CG LYS I 184 17.436 31.285 63.178 1.00 87.00 C +ATOM 2882 CD LYS I 184 18.237 32.576 63.085 1.00 94.75 C +ATOM 2883 CE LYS I 184 19.292 32.512 61.995 1.00 96.68 C +ATOM 2884 NZ LYS I 184 20.204 33.687 62.050 1.00 96.14 N +ATOM 2885 N VAL I 185 13.431 31.073 63.073 1.00 74.18 N +ATOM 2886 CA VAL I 185 12.243 30.970 62.227 1.00 77.18 C +ATOM 2887 C VAL I 185 11.947 32.308 61.558 1.00 81.87 C +ATOM 2888 O VAL I 185 12.163 33.375 62.143 1.00 83.37 O +ATOM 2889 CB VAL I 185 11.015 30.500 63.039 1.00 76.48 C +ATOM 2890 CG1 VAL I 185 9.732 30.632 62.223 1.00 77.50 C +ATOM 2891 CG2 VAL I 185 11.198 29.066 63.491 1.00 74.91 C +ATOM 2892 N ARG I 186 11.472 32.235 60.309 1.00 82.96 N +ATOM 2893 CA ARG I 186 10.964 33.363 59.527 1.00 85.95 C +ATOM 2894 C ARG I 186 9.593 33.072 58.916 1.00 89.73 C +ATOM 2895 O ARG I 186 9.153 31.925 58.861 1.00 88.11 O +ATOM 2896 CB ARG I 186 11.923 33.713 58.396 1.00 94.09 C +ATOM 2897 CG ARG I 186 13.241 34.323 58.842 1.00 96.20 C +ATOM 2898 CD ARG I 186 14.070 34.746 57.661 1.00104.41 C +ATOM 2899 NE ARG I 186 14.378 33.520 56.852 1.00103.75 N +ATOM 2900 CZ ARG I 186 14.408 33.324 55.513 1.00107.78 C +ATOM 2901 NH1 ARG I 186 14.129 34.299 54.668 1.00108.37 N +ATOM 2902 NH2 ARG I 186 14.710 32.099 55.005 1.00108.45 N +ATOM 2903 N SER I 187 8.958 34.114 58.360 1.00 91.47 N +ATOM 2904 CA SER I 187 7.630 33.989 57.770 1.00 94.13 C +ATOM 2905 C SER I 187 7.462 34.824 56.494 1.00 96.21 C +ATOM 2906 O SER I 187 8.088 35.877 56.329 1.00 95.46 O +ATOM 2907 CB SER I 187 6.570 34.404 58.784 1.00 93.32 C +ATOM 2908 OG SER I 187 6.617 33.575 59.940 1.00 90.22 O +ATOM 2909 N ILE I 188 6.531 34.399 55.634 1.00 97.28 N +ATOM 2910 CA ILE I 188 6.120 35.182 54.441 1.00 97.80 C +ATOM 2911 C ILE I 188 4.614 35.095 54.289 1.00100.74 C +ATOM 2912 O ILE I 188 3.989 34.149 54.774 1.00103.62 O +ATOM 2913 CB ILE I 188 6.753 34.680 53.099 1.00 98.64 C +ATOM 2914 CG1 ILE I 188 8.124 33.907 53.192 1.00 98.74 C +ATOM 2915 CG2 ILE I 188 6.689 35.789 51.974 1.00100.38 C +ATOM 2916 CD1 ILE I 188 8.677 33.325 51.712 1.00104.18 C +ATOM 2917 N PRO I 189 3.988 36.139 53.723 1.00 99.05 N +ATOM 2918 CA PRO I 189 2.639 35.961 53.166 1.00107.50 C +ATOM 2919 C PRO I 189 2.678 34.892 52.081 1.00113.70 C +ATOM 2920 O PRO I 189 3.624 34.823 51.296 1.00114.77 O +ATOM 2921 CB PRO I 189 2.310 37.336 52.560 1.00115.01 C +ATOM 2922 CG PRO I 189 3.158 38.283 53.295 1.00110.01 C +ATOM 2923 CD PRO I 189 4.430 37.532 53.610 1.00 99.81 C +ATOM 2924 N ASP I 190 1.656 34.038 52.051 1.00118.46 N +ATOM 2925 CA ASP I 190 1.564 32.971 51.053 1.00120.90 C +ATOM 2926 C ASP I 190 0.093 32.738 50.729 1.00130.25 C +ATOM 2927 O ASP I 190 -0.416 31.616 50.784 1.00132.73 O +ATOM 2928 CB ASP I 190 2.246 31.687 51.529 1.00118.53 C +ATOM 2929 CG ASP I 190 2.302 30.612 50.441 1.00125.90 C +ATOM 2930 OD1 ASP I 190 3.085 30.766 49.480 1.00134.67 O +ATOM 2931 OD2 ASP I 190 1.554 29.611 50.545 1.00123.88 O +ATOM 2932 N HIS I 191 -0.610 33.815 50.388 1.00136.18 N +ATOM 2933 CA HIS I 191 -2.003 33.717 49.982 1.00146.38 C +ATOM 2934 C HIS I 191 -2.343 34.837 49.008 1.00155.97 C +ATOM 2935 O HIS I 191 -1.575 35.116 48.082 1.00161.35 O +ATOM 2936 CB HIS I 191 -2.915 33.772 51.211 1.00145.54 C +ATOM 2937 CG HIS I 191 -4.246 33.117 51.008 1.00153.47 C +ATOM 2938 ND1 HIS I 191 -5.150 32.938 52.033 1.00153.78 N +ATOM 2939 CD2 HIS I 191 -4.825 32.597 49.901 1.00157.52 C +ATOM 2940 CE1 HIS I 191 -6.229 32.336 51.565 1.00156.14 C +ATOM 2941 NE2 HIS I 191 -6.057 32.118 50.274 1.00160.21 N +ATOM 2942 N TYR I 192 -3.502 35.471 49.203 1.00158.94 N +ATOM 2943 CA TYR I 192 -3.873 36.617 48.381 1.00163.73 C +ATOM 2944 C TYR I 192 -2.836 37.729 48.508 1.00162.58 C +ATOM 2945 O TYR I 192 -2.584 38.461 47.544 1.00163.40 O +ATOM 2946 CB TYR I 192 -5.278 37.091 48.769 1.00166.60 C +ATOM 2947 CG TYR I 192 -5.856 38.217 47.934 1.00171.43 C +ATOM 2948 CD1 TYR I 192 -5.526 38.359 46.591 1.00172.50 C +ATOM 2949 CD2 TYR I 192 -6.788 39.096 48.473 1.00170.59 C +ATOM 2950 CE1 TYR I 192 -6.070 39.373 45.823 1.00173.15 C +ATOM 2951 CE2 TYR I 192 -7.341 40.111 47.711 1.00171.25 C +ATOM 2952 CZ TYR I 192 -6.979 40.244 46.388 1.00175.17 C +ATOM 2953 OH TYR I 192 -7.526 41.252 45.628 1.00181.28 O +ATOM 2954 N PHE I 193 -2.229 37.867 49.688 1.00158.73 N +ATOM 2955 CA PHE I 193 -1.224 38.888 49.957 1.00155.79 C +ATOM 2956 C PHE I 193 0.171 38.351 49.654 1.00149.48 C +ATOM 2957 O PHE I 193 0.460 37.172 49.881 1.00145.90 O +ATOM 2958 CB PHE I 193 -1.287 39.344 51.417 1.00156.08 C +ATOM 2959 CG PHE I 193 -2.609 39.934 51.821 1.00162.46 C +ATOM 2960 CD1 PHE I 193 -3.652 39.121 52.232 1.00170.05 C +ATOM 2961 CD2 PHE I 193 -2.798 41.306 51.819 1.00159.88 C +ATOM 2962 CE1 PHE I 193 -4.864 39.663 52.614 1.00172.50 C +ATOM 2963 CE2 PHE I 193 -4.008 41.854 52.202 1.00161.48 C +ATOM 2964 CZ PHE I 193 -5.042 41.032 52.599 1.00168.49 C +ATOM 2965 N LYS I 194 1.032 39.225 49.134 1.00146.83 N +ATOM 2966 CA LYS I 194 2.437 38.919 48.891 1.00142.46 C +ATOM 2967 C LYS I 194 3.311 40.015 49.487 1.00134.60 C +ATOM 2968 O LYS I 194 2.844 41.122 49.765 1.00134.89 O +ATOM 2969 CB LYS I 194 2.732 38.765 47.393 1.00149.10 C +ATOM 2970 CG LYS I 194 2.999 37.333 46.955 1.00155.78 C +ATOM 2971 CD LYS I 194 4.324 36.824 47.505 1.00158.71 C +ATOM 2972 CE LYS I 194 4.563 35.369 47.131 1.00161.92 C +ATOM 2973 NZ LYS I 194 3.564 34.458 47.756 1.00161.98 N +ATOM 2974 N GLY I 195 4.590 39.699 49.693 1.00124.48 N +ATOM 2975 CA GLY I 195 5.480 40.677 50.290 1.00115.88 C +ATOM 2976 C GLY I 195 6.926 40.254 50.495 1.00109.55 C +ATOM 2977 O GLY I 195 7.614 39.901 49.533 1.00111.10 O +ATOM 2978 N PHE I 196 7.397 40.295 51.744 1.00104.47 N +ATOM 2979 CA PHE I 196 8.791 40.049 52.089 1.00100.12 C +ATOM 2980 C PHE I 196 8.853 39.074 53.260 1.00 98.70 C +ATOM 2981 O PHE I 196 7.826 38.659 53.803 1.00100.74 O +ATOM 2982 CB PHE I 196 9.520 41.339 52.494 1.00 98.93 C +ATOM 2983 CG PHE I 196 9.613 42.367 51.414 1.00104.45 C +ATOM 2984 CD1 PHE I 196 10.764 42.509 50.656 1.00110.07 C +ATOM 2985 CD2 PHE I 196 8.557 43.233 51.190 1.00105.91 C +ATOM 2986 CE1 PHE I 196 10.848 43.479 49.681 1.00113.58 C +ATOM 2987 CE2 PHE I 196 8.634 44.202 50.219 1.00110.98 C +ATOM 2988 CZ PHE I 196 9.782 44.325 49.463 1.00112.94 C +ATOM 2989 N TRP I 197 10.072 38.663 53.623 1.00 95.00 N +ATOM 2990 CA TRP I 197 10.254 37.856 54.825 1.00 98.30 C +ATOM 2991 C TRP I 197 10.195 38.718 56.081 1.00 95.81 C +ATOM 2992 O TRP I 197 10.527 39.908 56.069 1.00 93.88 O +ATOM 2993 CB TRP I 197 11.577 37.066 54.830 1.00101.15 C +ATOM 2994 CG TRP I 197 11.680 35.790 53.991 1.00104.78 C +ATOM 2995 CD1 TRP I 197 12.246 35.637 52.741 1.00109.42 C +ATOM 2996 CD2 TRP I 197 11.261 34.471 54.403 1.00107.90 C +ATOM 2997 NE1 TRP I 197 12.148 34.311 52.357 1.00105.28 N +ATOM 2998 CE2 TRP I 197 11.558 33.579 53.357 1.00106.06 C +ATOM 2999 CE3 TRP I 197 10.644 33.973 55.543 1.00113.75 C +ATOM 3000 CZ2 TRP I 197 11.248 32.198 53.431 1.00104.78 C +ATOM 3001 CZ3 TRP I 197 10.338 32.638 55.609 1.00111.51 C +ATOM 3002 CH2 TRP I 197 10.620 31.774 54.564 1.00107.28 C +ATOM 3003 N SER I 198 9.721 38.104 57.162 1.00 95.81 N +ATOM 3004 CA SER I 198 9.784 38.737 58.462 1.00 95.27 C +ATOM 3005 C SER I 198 11.228 38.713 58.943 1.00 91.08 C +ATOM 3006 O SER I 198 12.111 38.152 58.299 1.00 93.18 O +ATOM 3007 CB SER I 198 8.859 38.027 59.448 1.00 91.91 C +ATOM 3008 OG SER I 198 9.367 36.743 59.777 1.00 89.46 O +ATOM 3009 N GLU I 199 11.465 39.322 60.097 1.00 84.94 N +ATOM 3010 CA GLU I 199 12.770 39.275 60.732 1.00 84.71 C +ATOM 3011 C GLU I 199 12.987 37.926 61.411 1.00 83.98 C +ATOM 3012 O GLU I 199 12.033 37.220 61.752 1.00 86.63 O +ATOM 3013 CB GLU I 199 12.906 40.401 61.750 1.00 89.66 C +ATOM 3014 CG GLU I 199 13.013 41.793 61.143 1.00 93.32 C +ATOM 3015 CD GLU I 199 14.292 42.000 60.352 1.00 97.78 C +ATOM 3016 OE1 GLU I 199 15.274 41.261 60.587 1.00 97.32 O +ATOM 3017 OE2 GLU I 199 14.309 42.894 59.480 1.00 97.84 O +ATOM 3018 N TRP I 200 14.257 37.559 61.594 1.00 84.44 N +ATOM 3019 CA TRP I 200 14.567 36.320 62.301 1.00 86.39 C +ATOM 3020 C TRP I 200 14.091 36.396 63.745 1.00 86.03 C +ATOM 3021 O TRP I 200 14.331 37.386 64.441 1.00 85.29 O +ATOM 3022 CB TRP I 200 16.069 36.030 62.287 1.00 89.17 C +ATOM 3023 CG TRP I 200 16.584 35.441 61.024 1.00 97.77 C +ATOM 3024 CD1 TRP I 200 17.385 36.043 60.108 1.00100.40 C +ATOM 3025 CD2 TRP I 200 16.315 34.128 60.521 1.00 99.00 C +ATOM 3026 NE1 TRP I 200 17.649 35.183 59.072 1.00104.25 N +ATOM 3027 CE2 TRP I 200 16.998 34.000 59.301 1.00102.32 C +ATOM 3028 CE3 TRP I 200 15.565 33.047 60.986 1.00 94.98 C +ATOM 3029 CZ2 TRP I 200 16.957 32.835 58.544 1.00101.86 C +ATOM 3030 CZ3 TRP I 200 15.522 31.893 60.228 1.00 92.23 C +ATOM 3031 CH2 TRP I 200 16.203 31.801 59.020 1.00 95.72 C +ATOM 3032 N SER I 201 13.418 35.341 64.192 1.00 83.47 N +ATOM 3033 CA SER I 201 13.047 35.226 65.588 1.00 82.24 C +ATOM 3034 C SER I 201 14.298 35.029 66.442 1.00 80.15 C +ATOM 3035 O SER I 201 15.344 34.613 65.937 1.00 79.39 O +ATOM 3036 CB SER I 201 12.083 34.058 65.786 1.00 83.43 C +ATOM 3037 OG SER I 201 12.755 32.815 65.669 1.00 80.82 O +ATOM 3038 N PRO I 202 14.225 35.346 67.736 1.00 78.18 N +ATOM 3039 CA PRO I 202 15.350 35.039 68.627 1.00 78.42 C +ATOM 3040 C PRO I 202 15.699 33.559 68.572 1.00 79.25 C +ATOM 3041 O PRO I 202 14.822 32.693 68.578 1.00 82.36 O +ATOM 3042 CB PRO I 202 14.836 35.455 70.012 1.00 77.88 C +ATOM 3043 CG PRO I 202 13.349 35.603 69.861 1.00 78.86 C +ATOM 3044 CD PRO I 202 13.134 36.032 68.447 1.00 76.15 C +ATOM 3045 N SER I 203 16.997 33.277 68.513 1.00 79.17 N +ATOM 3046 CA SER I 203 17.462 31.914 68.313 1.00 80.66 C +ATOM 3047 C SER I 203 17.223 31.062 69.558 1.00 79.73 C +ATOM 3048 O SER I 203 17.029 31.566 70.668 1.00 83.78 O +ATOM 3049 CB SER I 203 18.947 31.905 67.951 1.00 85.30 C +ATOM 3050 OG SER I 203 19.170 32.528 66.697 1.00 86.28 O +ATOM 3051 N TYR I 204 17.233 29.746 69.352 1.00 78.18 N +ATOM 3052 CA TYR I 204 17.129 28.775 70.429 1.00 80.25 C +ATOM 3053 C TYR I 204 18.217 27.725 70.252 1.00 81.94 C +ATOM 3054 O TYR I 204 18.658 27.454 69.133 1.00 83.40 O +ATOM 3055 CB TYR I 204 15.746 28.111 70.451 1.00 79.90 C +ATOM 3056 CG TYR I 204 15.400 27.448 71.763 1.00 84.08 C +ATOM 3057 CD1 TYR I 204 14.934 28.195 72.838 1.00 84.82 C +ATOM 3058 CD2 TYR I 204 15.535 26.076 71.928 1.00 82.95 C +ATOM 3059 CE1 TYR I 204 14.614 27.595 74.040 1.00 83.48 C +ATOM 3060 CE2 TYR I 204 15.217 25.467 73.128 1.00 83.31 C +ATOM 3061 CZ TYR I 204 14.758 26.232 74.179 1.00 83.56 C +ATOM 3062 OH TYR I 204 14.439 25.632 75.375 1.00 87.09 O +ATOM 3063 N TYR I 205 18.653 27.137 71.365 1.00 81.13 N +ATOM 3064 CA TYR I 205 19.793 26.230 71.363 1.00 84.40 C +ATOM 3065 C TYR I 205 19.420 24.922 72.045 1.00 84.57 C +ATOM 3066 O TYR I 205 18.750 24.924 73.082 1.00 86.34 O +ATOM 3067 CB TYR I 205 20.995 26.874 72.066 1.00 88.16 C +ATOM 3068 CG TYR I 205 21.318 28.258 71.545 1.00 87.98 C +ATOM 3069 CD1 TYR I 205 22.178 28.435 70.470 1.00 88.83 C +ATOM 3070 CD2 TYR I 205 20.751 29.388 72.123 1.00 90.07 C +ATOM 3071 CE1 TYR I 205 22.470 29.699 69.989 1.00 89.64 C +ATOM 3072 CE2 TYR I 205 21.036 30.655 71.648 1.00 92.55 C +ATOM 3073 CZ TYR I 205 21.896 30.804 70.581 1.00 92.06 C +ATOM 3074 OH TYR I 205 22.183 32.064 70.106 1.00 93.57 O +ATOM 3075 N PHE I 206 19.856 23.804 71.462 1.00 84.00 N +ATOM 3076 CA PHE I 206 19.561 22.499 72.047 1.00 83.46 C +ATOM 3077 C PHE I 206 20.641 21.493 71.671 1.00 84.29 C +ATOM 3078 O PHE I 206 21.249 21.591 70.607 1.00 89.49 O +ATOM 3079 CB PHE I 206 18.188 21.985 71.596 1.00 80.43 C +ATOM 3080 CG PHE I 206 18.087 21.743 70.116 1.00 77.51 C +ATOM 3081 CD1 PHE I 206 17.797 22.783 69.248 1.00 77.15 C +ATOM 3082 CD2 PHE I 206 18.275 20.474 69.593 1.00 76.80 C +ATOM 3083 CE1 PHE I 206 17.701 22.564 67.886 1.00 75.01 C +ATOM 3084 CE2 PHE I 206 18.180 20.248 68.232 1.00 75.04 C +ATOM 3085 CZ PHE I 206 17.892 21.294 67.378 1.00 74.35 C +ATOM 3086 N ARG I 207 20.846 20.498 72.529 1.00 85.54 N +ATOM 3087 CA ARG I 207 21.889 19.501 72.318 1.00 88.11 C +ATOM 3088 C ARG I 207 21.291 18.136 71.995 1.00 86.99 C +ATOM 3089 O ARG I 207 20.090 17.897 72.144 1.00 86.62 O +ATOM 3090 CB ARG I 207 22.809 19.401 73.540 1.00 93.89 C +ATOM 3091 CG ARG I 207 23.304 20.741 74.034 1.00102.05 C +ATOM 3092 CD ARG I 207 24.363 20.584 75.105 1.00107.60 C +ATOM 3093 NE ARG I 207 25.688 20.406 74.518 1.00113.83 N +ATOM 3094 CZ ARG I 207 26.610 21.360 74.453 1.00119.24 C +ATOM 3095 NH1 ARG I 207 26.357 22.564 74.949 1.00116.54 N +ATOM 3096 NH2 ARG I 207 27.788 21.110 73.898 1.00120.26 N +ATOM 3097 N THR I 208 22.165 17.232 71.541 1.00 86.44 N +ATOM 3098 CA THR I 208 21.803 15.895 71.102 1.00 84.85 C +ATOM 3099 C THR I 208 22.543 14.842 71.922 1.00 87.15 C +ATOM 3100 O THR I 208 23.738 14.999 72.197 1.00 89.22 O +ATOM 3101 CB THR I 208 22.134 15.717 69.609 1.00 85.07 C +ATOM 3102 OG1 THR I 208 21.469 16.734 68.849 1.00 82.19 O +ATOM 3103 CG2 THR I 208 21.697 14.350 69.102 1.00 86.73 C +ATOM 3104 N PRO I 209 21.864 13.770 72.334 1.00 87.88 N +ATOM 3105 CA PRO I 209 22.532 12.712 73.103 1.00 89.77 C +ATOM 3106 C PRO I 209 23.616 11.995 72.309 1.00 93.45 C +ATOM 3107 O PRO I 209 23.642 12.006 71.076 1.00 92.86 O +ATOM 3108 CB PRO I 209 21.387 11.754 73.459 1.00 88.34 C +ATOM 3109 CG PRO I 209 20.305 12.070 72.471 1.00 86.15 C +ATOM 3110 CD PRO I 209 20.413 13.543 72.249 1.00 84.84 C +ATOM 3111 N GLU I 210 24.526 11.366 73.048 1.00 99.32 N +ATOM 3112 CA GLU I 210 25.631 10.617 72.470 1.00106.05 C +ATOM 3113 C GLU I 210 25.204 9.180 72.193 1.00114.16 C +ATOM 3114 O GLU I 210 24.400 8.599 72.927 1.00113.47 O +ATOM 3115 CB GLU I 210 26.843 10.626 73.405 1.00112.87 C +ATOM 3116 CG GLU I 210 27.367 12.013 73.735 1.00112.16 C +ATOM 3117 CD GLU I 210 28.583 11.981 74.642 1.00120.58 C +ATOM 3118 OE1 GLU I 210 28.721 11.013 75.418 1.00116.21 O +ATOM 3119 OE2 GLU I 210 29.403 12.921 74.574 1.00126.78 O +ATOM 3120 N ILE I 211 25.754 8.607 71.127 1.00112.62 N +ATOM 3121 CA ILE I 211 25.430 7.234 70.754 1.00110.73 C +ATOM 3122 C ILE I 211 26.514 6.280 71.241 1.00108.01 C +ATOM 3123 O ILE I 211 26.220 5.197 71.748 1.00106.01 O +ATOM 3124 CB ILE I 211 25.228 7.101 69.235 1.00 99.71 C +HETATM 3125 C1 NAG I 301 21.869 69.612 53.815 1.00187.08 C +HETATM 3126 C2 NAG I 301 22.062 71.095 54.102 1.00166.02 C +HETATM 3127 C3 NAG I 301 22.506 71.824 52.840 1.00149.84 C +HETATM 3128 C4 NAG I 301 23.713 71.139 52.212 1.00149.90 C +HETATM 3129 C5 NAG I 301 23.440 69.658 52.011 1.00164.75 C +HETATM 3130 C6 NAG I 301 24.645 68.903 51.501 1.00158.79 C +HETATM 3131 C7 NAG I 301 19.677 71.732 53.964 1.00160.26 C +HETATM 3132 C8 NAG I 301 18.537 72.384 54.686 1.00144.58 C +HETATM 3133 N2 NAG I 301 20.841 71.686 54.629 1.00166.48 N +HETATM 3134 O3 NAG I 301 22.829 73.160 53.205 1.00135.54 O +HETATM 3135 O4 NAG I 301 23.936 71.647 50.904 1.00134.84 O +HETATM 3136 O5 NAG I 301 23.070 69.066 53.260 1.00181.68 O +HETATM 3137 O6 NAG I 301 24.568 68.691 50.097 1.00144.30 O +HETATM 3138 O7 NAG I 301 19.546 71.270 52.832 1.00158.24 O +ATOM 3139 N ASP J 17 -46.187 58.529 60.465 1.00170.77 N +ATOM 3140 CA ASP J 17 -45.095 58.175 59.565 1.00173.04 C +ATOM 3141 C ASP J 17 -45.399 56.879 58.815 1.00177.26 C +ATOM 3142 O ASP J 17 -45.701 55.853 59.426 1.00175.25 O +ATOM 3143 CB ASP J 17 -43.778 58.050 60.333 1.00161.88 C +ATOM 3144 N TYR J 18 -45.291 56.931 57.487 1.00180.13 N +ATOM 3145 CA TYR J 18 -45.579 55.787 56.621 1.00179.72 C +ATOM 3146 C TYR J 18 -44.274 55.076 56.290 1.00192.90 C +ATOM 3147 O TYR J 18 -43.532 55.489 55.395 1.00197.34 O +ATOM 3148 CB TYR J 18 -46.305 56.211 55.349 1.00171.93 C +ATOM 3149 CG TYR J 18 -47.753 56.615 55.523 1.00163.77 C +ATOM 3150 CD1 TYR J 18 -48.116 57.920 55.828 1.00160.38 C +ATOM 3151 CD2 TYR J 18 -48.764 55.678 55.349 1.00159.54 C +ATOM 3152 CE1 TYR J 18 -49.452 58.272 55.971 1.00156.20 C +ATOM 3153 CE2 TYR J 18 -50.092 56.018 55.489 1.00155.99 C +ATOM 3154 CZ TYR J 18 -50.434 57.314 55.800 1.00153.66 C +ATOM 3155 OH TYR J 18 -51.763 57.646 55.938 1.00145.30 O +ATOM 3156 N SER J 19 -43.992 54.016 57.045 1.00185.29 N +ATOM 3157 CA SER J 19 -42.745 53.275 56.917 1.00184.35 C +ATOM 3158 C SER J 19 -42.537 52.763 55.496 1.00183.18 C +ATOM 3159 O SER J 19 -43.484 52.534 54.739 1.00181.91 O +ATOM 3160 CB SER J 19 -42.729 52.094 57.888 1.00185.91 C +ATOM 3161 OG SER J 19 -42.821 52.531 59.232 1.00189.17 O +ATOM 3162 N PHE J 20 -41.266 52.593 55.146 1.00182.16 N +ATOM 3163 CA PHE J 20 -40.850 52.136 53.832 1.00178.15 C +ATOM 3164 C PHE J 20 -39.497 51.460 53.993 1.00178.30 C +ATOM 3165 O PHE J 20 -38.855 51.558 55.042 1.00177.68 O +ATOM 3166 CB PHE J 20 -40.787 53.293 52.826 1.00175.70 C +ATOM 3167 CG PHE J 20 -39.923 54.439 53.271 1.00172.85 C +ATOM 3168 CD1 PHE J 20 -40.445 55.447 54.066 1.00176.22 C +ATOM 3169 CD2 PHE J 20 -38.592 54.510 52.896 1.00166.98 C +ATOM 3170 CE1 PHE J 20 -39.655 56.501 54.480 1.00172.53 C +ATOM 3171 CE2 PHE J 20 -37.797 55.562 53.306 1.00165.04 C +ATOM 3172 CZ PHE J 20 -38.330 56.559 54.098 1.00167.23 C +ATOM 3173 N SER J 21 -39.067 50.765 52.946 1.00176.95 N +ATOM 3174 CA SER J 21 -37.785 50.078 52.973 1.00172.26 C +ATOM 3175 C SER J 21 -37.060 50.325 51.663 1.00169.80 C +ATOM 3176 O SER J 21 -37.652 50.223 50.586 1.00170.06 O +ATOM 3177 CB SER J 21 -37.958 48.571 53.206 1.00173.66 C +ATOM 3178 OG SER J 21 -38.541 48.314 54.472 1.00175.38 O +ATOM 3179 N CYS J 22 -35.770 50.627 51.761 1.00168.21 N +ATOM 3180 CA CYS J 22 -34.950 50.922 50.600 1.00165.65 C +ATOM 3181 C CYS J 22 -33.714 50.035 50.617 1.00162.80 C +ATOM 3182 O CYS J 22 -33.346 49.460 51.645 1.00160.95 O +ATOM 3183 CB CYS J 22 -34.532 52.400 50.557 1.00162.85 C +ATOM 3184 SG CYS J 22 -35.888 53.604 50.463 1.00159.74 S +ATOM 3185 N TYR J 23 -33.096 49.908 49.447 1.00162.75 N +ATOM 3186 CA TYR J 23 -31.805 49.251 49.314 1.00158.97 C +ATOM 3187 C TYR J 23 -31.086 49.846 48.114 1.00158.36 C +ATOM 3188 O TYR J 23 -31.712 50.164 47.100 1.00159.62 O +ATOM 3189 CB TYR J 23 -31.950 47.728 49.169 1.00158.70 C +ATOM 3190 CG TYR J 23 -32.576 47.256 47.872 1.00160.14 C +ATOM 3191 CD1 TYR J 23 -31.794 46.985 46.754 1.00158.70 C +ATOM 3192 CD2 TYR J 23 -33.948 47.062 47.771 1.00162.14 C +ATOM 3193 CE1 TYR J 23 -32.363 46.548 45.571 1.00160.46 C +ATOM 3194 CE2 TYR J 23 -34.525 46.624 46.594 1.00162.78 C +ATOM 3195 CZ TYR J 23 -33.728 46.369 45.497 1.00162.71 C +ATOM 3196 OH TYR J 23 -34.300 45.934 44.323 1.00158.59 O +ATOM 3197 N SER J 24 -29.770 49.986 48.229 1.00155.84 N +ATOM 3198 CA SER J 24 -28.967 50.629 47.196 1.00153.10 C +ATOM 3199 C SER J 24 -27.936 49.629 46.698 1.00152.48 C +ATOM 3200 O SER J 24 -27.014 49.262 47.434 1.00153.07 O +ATOM 3201 CB SER J 24 -28.289 51.886 47.737 1.00150.58 C +ATOM 3202 OG SER J 24 -27.428 51.574 48.819 1.00153.14 O +ATOM 3203 N GLN J 25 -28.086 49.191 45.453 1.00151.02 N +ATOM 3204 CA GLN J 25 -27.064 48.380 44.809 1.00150.24 C +ATOM 3205 C GLN J 25 -26.158 49.301 44.001 1.00153.32 C +ATOM 3206 O GLN J 25 -26.613 49.961 43.060 1.00155.70 O +ATOM 3207 CB GLN J 25 -27.693 47.308 43.921 1.00147.63 C +ATOM 3208 CG GLN J 25 -28.404 46.187 44.657 1.00146.93 C +ATOM 3209 CD GLN J 25 -28.977 45.150 43.707 1.00147.77 C +ATOM 3210 OE1 GLN J 25 -29.173 45.417 42.521 1.00147.51 O +ATOM 3211 NE2 GLN J 25 -29.239 43.955 44.224 1.00148.42 N +ATOM 3212 N LEU J 26 -24.882 49.346 44.363 1.00154.56 N +ATOM 3213 CA LEU J 26 -23.940 50.246 43.718 1.00159.60 C +ATOM 3214 C LEU J 26 -23.071 49.476 42.731 1.00162.94 C +ATOM 3215 O LEU J 26 -22.732 48.309 42.951 1.00161.34 O +ATOM 3216 CB LEU J 26 -23.081 50.982 44.750 1.00159.20 C +ATOM 3217 CG LEU J 26 -22.139 50.212 45.672 1.00156.44 C +ATOM 3218 CD1 LEU J 26 -20.716 50.369 45.182 1.00159.21 C +ATOM 3219 CD2 LEU J 26 -22.270 50.714 47.101 1.00151.21 C +ATOM 3220 N GLU J 27 -22.715 50.151 41.637 1.00167.38 N +ATOM 3221 CA GLU J 27 -21.885 49.583 40.573 1.00168.50 C +ATOM 3222 C GLU J 27 -22.516 48.322 39.986 1.00162.28 C +ATOM 3223 O GLU J 27 -21.833 47.330 39.722 1.00162.69 O +ATOM 3224 CB GLU J 27 -20.466 49.288 41.072 1.00169.33 C +ATOM 3225 CG GLU J 27 -19.767 50.463 41.735 1.00172.84 C +ATOM 3226 CD GLU J 27 -18.457 50.062 42.387 1.00174.13 C +ATOM 3227 OE1 GLU J 27 -17.736 49.223 41.807 1.00178.14 O +ATOM 3228 OE2 GLU J 27 -18.152 50.577 43.484 1.00171.76 O +ATOM 3229 N VAL J 28 -23.836 48.355 39.782 1.00159.20 N +ATOM 3230 CA VAL J 28 -24.514 47.202 39.195 1.00155.18 C +ATOM 3231 C VAL J 28 -24.206 47.111 37.706 1.00157.99 C +ATOM 3232 O VAL J 28 -23.768 46.068 37.205 1.00156.34 O +ATOM 3233 CB VAL J 28 -26.029 47.294 39.442 1.00149.97 C +ATOM 3234 CG1 VAL J 28 -26.723 45.998 39.036 1.00142.51 C +ATOM 3235 CG2 VAL J 28 -26.302 47.634 40.876 1.00150.25 C +ATOM 3236 N ASN J 29 -24.433 48.203 36.980 1.00160.95 N +ATOM 3237 CA ASN J 29 -24.112 48.320 35.560 1.00162.32 C +ATOM 3238 C ASN J 29 -22.977 49.335 35.456 1.00169.60 C +ATOM 3239 O ASN J 29 -23.202 50.547 35.531 1.00172.29 O +ATOM 3240 CB ASN J 29 -25.368 48.687 34.760 1.00156.65 C +ATOM 3241 CG ASN J 29 -25.115 49.675 33.624 1.00158.65 C +ATOM 3242 OD1 ASN J 29 -25.051 49.295 32.455 1.00154.57 O +ATOM 3243 ND2 ASN J 29 -25.012 50.954 33.968 1.00163.61 N +ATOM 3244 N GLY J 30 -21.751 48.832 35.329 1.00171.47 N +ATOM 3245 CA GLY J 30 -20.583 49.690 35.321 1.00179.42 C +ATOM 3246 C GLY J 30 -20.443 50.496 36.596 1.00185.49 C +ATOM 3247 O GLY J 30 -20.097 49.957 37.652 1.00182.14 O +ATOM 3248 N SER J 31 -20.715 51.797 36.505 1.00197.27 N +ATOM 3249 CA SER J 31 -20.712 52.681 37.660 1.00201.47 C +ATOM 3250 C SER J 31 -22.093 53.222 38.005 1.00202.72 C +ATOM 3251 O SER J 31 -22.214 54.012 38.947 1.00205.23 O +ATOM 3252 CB SER J 31 -19.747 53.850 37.424 1.00208.00 C +ATOM 3253 OG SER J 31 -20.098 54.567 36.253 1.00210.17 O +ATOM 3254 N GLN J 32 -23.132 52.832 37.270 1.00186.01 N +ATOM 3255 CA GLN J 32 -24.476 53.335 37.531 1.00180.99 C +ATOM 3256 C GLN J 32 -25.054 52.655 38.764 1.00176.42 C +ATOM 3257 O GLN J 32 -25.260 51.437 38.773 1.00171.45 O +ATOM 3258 CB GLN J 32 -25.386 53.112 36.328 1.00173.18 C +ATOM 3259 N HIS J 33 -25.314 53.442 39.800 1.00173.53 N +ATOM 3260 CA HIS J 33 -25.918 52.933 41.016 1.00167.62 C +ATOM 3261 C HIS J 33 -27.436 52.895 40.866 1.00163.05 C +ATOM 3262 O HIS J 33 -28.024 53.596 40.034 1.00163.14 O +ATOM 3263 CB HIS J 33 -25.527 53.803 42.209 1.00166.32 C +ATOM 3264 CG HIS J 33 -24.055 54.059 42.312 1.00170.66 C +ATOM 3265 ND1 HIS J 33 -23.113 53.223 41.753 1.00174.48 N +ATOM 3266 CD2 HIS J 33 -23.365 55.066 42.897 1.00168.74 C +ATOM 3267 CE1 HIS J 33 -21.905 53.700 41.996 1.00174.08 C +ATOM 3268 NE2 HIS J 33 -22.030 54.818 42.688 1.00171.07 N +ATOM 3269 N SER J 34 -28.073 52.071 41.697 1.00157.55 N +ATOM 3270 CA SER J 34 -29.518 51.890 41.668 1.00153.62 C +ATOM 3271 C SER J 34 -30.038 51.931 43.095 1.00153.07 C +ATOM 3272 O SER J 34 -29.716 51.053 43.903 1.00151.41 O +ATOM 3273 CB SER J 34 -29.898 50.569 40.992 1.00149.81 C +ATOM 3274 OG SER J 34 -29.438 49.459 41.745 1.00148.27 O +ATOM 3275 N LEU J 35 -30.846 52.943 43.398 1.00153.90 N +ATOM 3276 CA LEU J 35 -31.452 53.113 44.713 1.00155.98 C +ATOM 3277 C LEU J 35 -32.925 52.749 44.581 1.00161.28 C +ATOM 3278 O LEU J 35 -33.695 53.477 43.946 1.00164.62 O +ATOM 3279 CB LEU J 35 -31.282 54.546 45.213 1.00155.20 C +ATOM 3280 CG LEU J 35 -29.978 55.268 44.862 1.00150.94 C +ATOM 3281 CD1 LEU J 35 -30.029 56.715 45.326 1.00145.59 C +ATOM 3282 CD2 LEU J 35 -28.774 54.559 45.459 1.00145.21 C +ATOM 3283 N THR J 36 -33.312 51.626 45.177 1.00163.70 N +ATOM 3284 CA THR J 36 -34.672 51.124 45.116 1.00166.77 C +ATOM 3285 C THR J 36 -35.366 51.333 46.456 1.00169.10 C +ATOM 3286 O THR J 36 -34.737 51.269 47.514 1.00168.11 O +ATOM 3287 CB THR J 36 -34.668 49.636 44.749 1.00165.33 C +ATOM 3288 OG1 THR J 36 -33.870 49.433 43.576 1.00164.23 O +ATOM 3289 CG2 THR J 36 -36.066 49.134 44.492 1.00165.35 C +ATOM 3290 N CYS J 37 -36.672 51.588 46.398 1.00169.63 N +ATOM 3291 CA CYS J 37 -37.488 51.785 47.586 1.00168.11 C +ATOM 3292 C CYS J 37 -38.868 51.187 47.350 1.00167.22 C +ATOM 3293 O CYS J 37 -39.341 51.094 46.213 1.00166.83 O +ATOM 3294 CB CYS J 37 -37.608 53.267 47.965 1.00169.13 C +ATOM 3295 SG CYS J 37 -36.060 54.055 48.487 1.00174.97 S +ATOM 3296 N ALA J 38 -39.505 50.781 48.447 1.00168.35 N +ATOM 3297 CA ALA J 38 -40.815 50.152 48.400 1.00170.00 C +ATOM 3298 C ALA J 38 -41.532 50.401 49.719 1.00169.63 C +ATOM 3299 O ALA J 38 -40.920 50.775 50.722 1.00169.74 O +ATOM 3300 CB ALA J 38 -40.711 48.648 48.119 1.00171.76 C +ATOM 3301 N PHE J 39 -42.846 50.209 49.696 1.00169.65 N +ATOM 3302 CA PHE J 39 -43.690 50.413 50.863 1.00172.18 C +ATOM 3303 C PHE J 39 -43.781 49.143 51.697 1.00173.30 C +ATOM 3304 O PHE J 39 -43.721 48.026 51.176 1.00172.63 O +ATOM 3305 CB PHE J 39 -45.097 50.844 50.447 1.00173.41 C +ATOM 3306 CG PHE J 39 -45.126 51.741 49.249 1.00175.24 C +ATOM 3307 CD1 PHE J 39 -45.089 53.115 49.397 1.00176.67 C +ATOM 3308 CD2 PHE J 39 -45.192 51.209 47.972 1.00175.37 C +ATOM 3309 CE1 PHE J 39 -45.117 53.938 48.297 1.00178.54 C +ATOM 3310 CE2 PHE J 39 -45.215 52.029 46.868 1.00175.58 C +ATOM 3311 CZ PHE J 39 -45.179 53.395 47.031 1.00178.05 C +ATOM 3312 N GLU J 40 -43.924 49.329 53.010 1.00173.36 N +ATOM 3313 CA GLU J 40 -44.085 48.190 53.908 1.00171.77 C +ATOM 3314 C GLU J 40 -45.433 47.512 53.689 1.00177.40 C +ATOM 3315 O GLU J 40 -45.510 46.282 53.577 1.00178.92 O +ATOM 3316 CB GLU J 40 -43.932 48.640 55.361 1.00165.61 C +ATOM 3317 N ASP J 41 -46.510 48.299 53.623 1.00178.54 N +ATOM 3318 CA ASP J 41 -47.852 47.774 53.391 1.00176.68 C +ATOM 3319 C ASP J 41 -48.110 47.619 51.893 1.00174.73 C +ATOM 3320 O ASP J 41 -47.715 48.482 51.103 1.00174.82 O +ATOM 3321 CB ASP J 41 -48.903 48.701 53.996 1.00174.53 C +ATOM 3322 N PRO J 42 -48.753 46.525 51.470 1.00173.11 N +ATOM 3323 CA PRO J 42 -49.012 46.325 50.035 1.00169.84 C +ATOM 3324 C PRO J 42 -50.161 47.156 49.479 1.00168.02 C +ATOM 3325 O PRO J 42 -50.581 46.910 48.338 1.00161.60 O +ATOM 3326 CB PRO J 42 -49.335 44.821 49.943 1.00166.26 C +ATOM 3327 CG PRO J 42 -48.999 44.240 51.298 1.00169.48 C +ATOM 3328 CD PRO J 42 -49.163 45.361 52.268 1.00172.72 C +ATOM 3329 N ASP J 43 -50.672 48.135 50.229 1.00170.53 N +ATOM 3330 CA ASP J 43 -51.765 48.993 49.770 1.00167.59 C +ATOM 3331 C ASP J 43 -51.134 50.339 49.425 1.00167.76 C +ATOM 3332 O ASP J 43 -51.259 51.332 50.143 1.00167.33 O +ATOM 3333 CB ASP J 43 -52.855 49.113 50.831 1.00164.56 C +ATOM 3334 CG ASP J 43 -53.202 47.777 51.466 1.00162.79 C +ATOM 3335 OD1 ASP J 43 -52.277 47.100 51.964 1.00163.65 O +ATOM 3336 OD2 ASP J 43 -54.397 47.408 51.482 1.00157.58 O +ATOM 3337 N VAL J 44 -50.356 50.318 48.344 1.00167.19 N +ATOM 3338 CA VAL J 44 -49.586 51.478 47.908 1.00168.84 C +ATOM 3339 C VAL J 44 -50.474 52.614 47.401 1.00167.88 C +ATOM 3340 O VAL J 44 -50.277 53.777 47.774 1.00168.24 O +ATOM 3341 CB VAL J 44 -48.560 51.038 46.853 1.00167.84 C +ATOM 3342 N ASN J 45 -51.429 52.308 46.518 1.00165.62 N +ATOM 3343 CA ASN J 45 -52.299 53.312 45.900 1.00164.45 C +ATOM 3344 C ASN J 45 -51.455 54.357 45.164 1.00166.34 C +ATOM 3345 O ASN J 45 -51.430 55.542 45.507 1.00165.66 O +ATOM 3346 CB ASN J 45 -53.226 53.965 46.932 1.00159.29 C +ATOM 3347 N THR J 46 -50.752 53.884 44.132 1.00168.46 N +ATOM 3348 CA THR J 46 -49.717 54.650 43.450 1.00168.72 C +ATOM 3349 C THR J 46 -50.231 55.416 42.236 1.00166.25 C +ATOM 3350 O THR J 46 -49.442 55.723 41.335 1.00165.09 O +ATOM 3351 CB THR J 46 -48.576 53.726 43.016 1.00168.82 C +ATOM 3352 OG1 THR J 46 -49.099 52.657 42.218 1.00167.60 O +ATOM 3353 CG2 THR J 46 -47.870 53.151 44.222 1.00170.15 C +ATOM 3354 N THR J 47 -51.527 55.732 42.188 1.00166.24 N +ATOM 3355 CA THR J 47 -52.055 56.477 41.049 1.00164.52 C +ATOM 3356 C THR J 47 -51.451 57.875 40.977 1.00165.86 C +ATOM 3357 O THR J 47 -51.075 58.342 39.895 1.00168.40 O +ATOM 3358 CB THR J 47 -53.579 56.555 41.130 1.00156.59 C +ATOM 3359 N ASN J 48 -51.342 58.557 42.121 1.00165.50 N +ATOM 3360 CA ASN J 48 -50.767 59.900 42.200 1.00164.60 C +ATOM 3361 C ASN J 48 -49.787 59.934 43.377 1.00163.41 C +ATOM 3362 O ASN J 48 -50.021 60.595 44.390 1.00159.74 O +ATOM 3363 CB ASN J 48 -51.860 60.960 42.342 1.00161.42 C +ATOM 3364 N LEU J 49 -48.675 59.218 43.226 1.00167.19 N +ATOM 3365 CA LEU J 49 -47.690 59.047 44.284 1.00171.65 C +ATOM 3366 C LEU J 49 -46.292 59.208 43.703 1.00176.30 C +ATOM 3367 O LEU J 49 -46.038 58.842 42.552 1.00174.89 O +ATOM 3368 CB LEU J 49 -47.849 57.673 44.952 1.00168.00 C +ATOM 3369 CG LEU J 49 -46.934 57.260 46.103 1.00168.90 C +ATOM 3370 CD1 LEU J 49 -46.894 58.326 47.181 1.00166.10 C +ATOM 3371 CD2 LEU J 49 -47.428 55.948 46.676 1.00169.10 C +ATOM 3372 N GLU J 50 -45.383 59.762 44.506 1.00181.18 N +ATOM 3373 CA GLU J 50 -44.044 60.064 44.022 1.00185.60 C +ATOM 3374 C GLU J 50 -43.039 60.001 45.165 1.00191.24 C +ATOM 3375 O GLU J 50 -43.379 60.230 46.328 1.00192.64 O +ATOM 3376 CB GLU J 50 -43.990 61.446 43.360 1.00189.04 C +ATOM 3377 N PHE J 51 -41.792 59.698 44.810 1.00192.11 N +ATOM 3378 CA PHE J 51 -40.661 59.735 45.726 1.00192.34 C +ATOM 3379 C PHE J 51 -39.634 60.736 45.215 1.00192.59 C +ATOM 3380 O PHE J 51 -39.364 60.795 44.011 1.00189.52 O +ATOM 3381 CB PHE J 51 -40.001 58.354 45.859 1.00187.27 C +ATOM 3382 CG PHE J 51 -40.786 57.373 46.683 1.00184.16 C +ATOM 3383 CD1 PHE J 51 -41.859 56.686 46.140 1.00184.03 C +ATOM 3384 CD2 PHE J 51 -40.436 57.124 48.000 1.00180.30 C +ATOM 3385 CE1 PHE J 51 -42.573 55.780 46.900 1.00181.52 C +ATOM 3386 CE2 PHE J 51 -41.145 56.220 48.763 1.00175.28 C +ATOM 3387 CZ PHE J 51 -42.213 55.547 48.213 1.00178.16 C +ATOM 3388 N GLU J 52 -39.060 61.522 46.126 1.00195.86 N +ATOM 3389 CA GLU J 52 -38.110 62.569 45.765 1.00194.33 C +ATOM 3390 C GLU J 52 -36.851 62.382 46.597 1.00189.87 C +ATOM 3391 O GLU J 52 -36.944 62.154 47.809 1.00191.16 O +ATOM 3392 CB GLU J 52 -38.701 63.963 45.992 1.00195.65 C +ATOM 3393 N ILE J 53 -35.679 62.474 45.966 1.00185.41 N +ATOM 3394 CA ILE J 53 -34.413 62.307 46.672 1.00183.68 C +ATOM 3395 C ILE J 53 -33.594 63.580 46.512 1.00185.09 C +ATOM 3396 O ILE J 53 -33.216 63.944 45.391 1.00186.52 O +ATOM 3397 CB ILE J 53 -33.633 61.088 46.158 1.00180.47 C +ATOM 3398 N CYS J 54 -33.317 64.252 47.629 1.00183.64 N +ATOM 3399 CA CYS J 54 -32.439 65.412 47.658 1.00185.22 C +ATOM 3400 C CYS J 54 -31.219 65.115 48.521 1.00182.62 C +ATOM 3401 O CYS J 54 -31.247 64.237 49.385 1.00179.15 O +ATOM 3402 CB CYS J 54 -33.159 66.659 48.192 1.00188.08 C +ATOM 3403 SG CYS J 54 -34.627 67.179 47.280 1.00194.75 S +ATOM 3404 N GLY J 55 -30.146 65.867 48.289 1.00190.88 N +ATOM 3405 CA GLY J 55 -28.929 65.685 49.058 1.00183.82 C +ATOM 3406 C GLY J 55 -27.760 65.119 48.276 1.00180.71 C +ATOM 3407 O GLY J 55 -27.142 65.832 47.481 1.00183.92 O +ATOM 3408 N ALA J 56 -27.443 63.840 48.494 1.00170.62 N +ATOM 3409 CA ALA J 56 -26.303 63.205 47.838 1.00166.26 C +ATOM 3410 C ALA J 56 -26.483 63.130 46.329 1.00167.43 C +ATOM 3411 O ALA J 56 -26.839 62.081 45.782 1.00164.71 O +ATOM 3412 CB ALA J 56 -26.047 61.807 48.402 1.00161.10 C +ATOM 3413 N LEU J 57 -26.240 64.249 45.657 1.00169.16 N +ATOM 3414 CA LEU J 57 -26.288 64.346 44.209 1.00165.23 C +ATOM 3415 C LEU J 57 -25.092 65.182 43.784 1.00167.42 C +ATOM 3416 O LEU J 57 -24.616 66.032 44.539 1.00169.65 O +ATOM 3417 CB LEU J 57 -27.600 64.959 43.708 1.00160.17 C +ATOM 3418 N VAL J 58 -24.623 64.962 42.559 1.00168.20 N +ATOM 3419 CA VAL J 58 -23.377 65.591 42.132 1.00169.32 C +ATOM 3420 C VAL J 58 -23.640 66.984 41.584 1.00171.49 C +ATOM 3421 O VAL J 58 -23.185 67.985 42.149 1.00173.25 O +ATOM 3422 CB VAL J 58 -22.655 64.708 41.096 1.00164.10 C +ATOM 3423 CG1 VAL J 58 -21.378 65.383 40.619 1.00157.19 C +ATOM 3424 CG2 VAL J 58 -22.351 63.337 41.686 1.00162.88 C +ATOM 3425 N GLU J 59 -24.394 67.079 40.491 1.00172.76 N +ATOM 3426 CA GLU J 59 -24.733 68.376 39.917 1.00173.70 C +ATOM 3427 C GLU J 59 -26.166 68.791 40.235 1.00173.67 C +ATOM 3428 O GLU J 59 -26.385 69.817 40.885 1.00173.04 O +ATOM 3429 CB GLU J 59 -24.500 68.357 38.402 1.00170.34 C +ATOM 3430 CG GLU J 59 -24.835 69.670 37.710 1.00165.94 C +ATOM 3431 CD GLU J 59 -24.026 70.843 38.238 1.00163.30 C +ATOM 3432 OE1 GLU J 59 -22.915 70.622 38.767 1.00165.54 O +ATOM 3433 OE2 GLU J 59 -24.505 71.991 38.124 1.00158.27 O +ATOM 3434 N VAL J 60 -27.148 68.008 39.782 1.00173.38 N +ATOM 3435 CA VAL J 60 -28.542 68.356 40.019 1.00171.85 C +ATOM 3436 C VAL J 60 -28.803 68.409 41.525 1.00170.40 C +ATOM 3437 O VAL J 60 -28.176 67.694 42.316 1.00170.10 O +ATOM 3438 CB VAL J 60 -29.466 67.350 39.310 1.00172.30 C +ATOM 3439 CG1 VAL J 60 -30.930 67.722 39.490 1.00171.66 C +ATOM 3440 CG2 VAL J 60 -29.111 67.257 37.830 1.00167.32 C +ATOM 3441 N LYS J 61 -29.739 69.273 41.926 1.00168.93 N +ATOM 3442 CA LYS J 61 -30.039 69.439 43.346 1.00169.06 C +ATOM 3443 C LYS J 61 -30.872 68.283 43.891 1.00174.27 C +ATOM 3444 O LYS J 61 -30.532 67.694 44.924 1.00176.12 O +ATOM 3445 CB LYS J 61 -30.754 70.773 43.569 1.00158.97 C +ATOM 3446 CG LYS J 61 -29.921 71.997 43.210 1.00145.21 C +ATOM 3447 CD LYS J 61 -30.701 73.284 43.445 1.00131.35 C +ATOM 3448 CE LYS J 61 -29.846 74.512 43.173 1.00123.48 C +ATOM 3449 NZ LYS J 61 -30.600 75.779 43.391 1.00119.18 N +ATOM 3450 N CYS J 62 -31.970 67.946 43.218 1.00177.69 N +ATOM 3451 CA CYS J 62 -32.809 66.822 43.607 1.00181.54 C +ATOM 3452 C CYS J 62 -33.160 65.992 42.383 1.00183.95 C +ATOM 3453 O CYS J 62 -33.293 66.519 41.276 1.00185.66 O +ATOM 3454 CB CYS J 62 -34.104 67.283 44.291 1.00186.92 C +ATOM 3455 SG CYS J 62 -33.891 68.311 45.760 1.00200.15 S +ATOM 3456 N LEU J 63 -33.308 64.683 42.590 1.00184.12 N +ATOM 3457 CA LEU J 63 -33.620 63.771 41.502 1.00184.05 C +ATOM 3458 C LEU J 63 -34.842 62.932 41.850 1.00183.08 C +ATOM 3459 O LEU J 63 -35.147 62.672 43.025 1.00182.88 O +ATOM 3460 CB LEU J 63 -32.440 62.838 41.165 1.00183.49 C +ATOM 3461 CG LEU J 63 -31.378 63.373 40.199 1.00182.09 C +ATOM 3462 CD1 LEU J 63 -30.375 64.245 40.933 1.00180.05 C +ATOM 3463 CD2 LEU J 63 -30.676 62.241 39.455 1.00181.64 C +ATOM 3464 N ASN J 64 -35.544 62.520 40.799 1.00182.10 N +ATOM 3465 CA ASN J 64 -36.761 61.733 40.899 1.00183.16 C +ATOM 3466 C ASN J 64 -36.490 60.272 40.562 1.00182.80 C +ATOM 3467 O ASN J 64 -35.554 59.943 39.830 1.00179.54 O +ATOM 3468 CB ASN J 64 -37.843 62.288 39.969 1.00179.91 C +ATOM 3469 N PHE J 65 -37.330 59.402 41.108 1.00184.14 N +ATOM 3470 CA PHE J 65 -37.245 57.966 40.900 1.00176.96 C +ATOM 3471 C PHE J 65 -38.167 57.540 39.759 1.00172.98 C +ATOM 3472 O PHE J 65 -39.087 58.261 39.367 1.00174.70 O +ATOM 3473 CB PHE J 65 -37.605 57.222 42.187 1.00175.07 C +ATOM 3474 CG PHE J 65 -36.490 57.186 43.196 1.00173.53 C +ATOM 3475 CD1 PHE J 65 -35.178 57.395 42.805 1.00171.74 C +ATOM 3476 CD2 PHE J 65 -36.757 56.965 44.537 1.00173.67 C +ATOM 3477 CE1 PHE J 65 -34.150 57.365 43.729 1.00169.50 C +ATOM 3478 CE2 PHE J 65 -35.733 56.938 45.467 1.00169.82 C +ATOM 3479 CZ PHE J 65 -34.428 57.138 45.061 1.00169.50 C +ATOM 3480 N ARG J 66 -37.903 56.353 39.221 1.00168.57 N +ATOM 3481 CA ARG J 66 -38.792 55.727 38.254 1.00165.10 C +ATOM 3482 C ARG J 66 -39.684 54.716 38.963 1.00167.32 C +ATOM 3483 O ARG J 66 -39.280 54.083 39.940 1.00167.79 O +ATOM 3484 CB ARG J 66 -38.000 55.043 37.136 1.00156.86 C +ATOM 3485 CG ARG J 66 -37.171 55.997 36.293 1.00149.74 C +ATOM 3486 CD ARG J 66 -36.315 55.248 35.285 1.00142.10 C +ATOM 3487 NE ARG J 66 -37.089 54.258 34.541 1.00143.24 N +ATOM 3488 CZ ARG J 66 -37.851 54.540 33.490 1.00140.49 C +ATOM 3489 NH1 ARG J 66 -37.951 55.789 33.055 1.00138.19 N +ATOM 3490 NH2 ARG J 66 -38.519 53.574 32.876 1.00135.66 N +ATOM 3491 N LYS J 67 -40.901 54.561 38.450 1.00167.00 N +ATOM 3492 CA LYS J 67 -41.946 53.783 39.103 1.00164.80 C +ATOM 3493 C LYS J 67 -42.281 52.553 38.272 1.00161.02 C +ATOM 3494 O LYS J 67 -42.564 52.664 37.075 1.00159.40 O +ATOM 3495 CB LYS J 67 -43.202 54.630 39.316 1.00160.84 C +ATOM 3496 N LEU J 68 -42.257 51.387 38.917 1.00158.76 N +ATOM 3497 CA LEU J 68 -42.612 50.122 38.284 1.00154.38 C +ATOM 3498 C LEU J 68 -43.341 49.274 39.313 1.00155.38 C +ATOM 3499 O LEU J 68 -42.795 48.998 40.386 1.00156.34 O +ATOM 3500 CB LEU J 68 -41.369 49.391 37.764 1.00150.67 C +ATOM 3501 CG LEU J 68 -40.507 50.110 36.724 1.00150.75 C +ATOM 3502 CD1 LEU J 68 -39.184 49.389 36.539 1.00145.29 C +ATOM 3503 CD2 LEU J 68 -41.244 50.228 35.398 1.00147.03 C +ATOM 3504 N GLN J 69 -44.574 48.876 38.987 1.00157.18 N +ATOM 3505 CA GLN J 69 -45.432 48.116 39.892 1.00155.97 C +ATOM 3506 C GLN J 69 -45.617 48.905 41.185 1.00157.16 C +ATOM 3507 O GLN J 69 -46.238 49.974 41.182 1.00159.34 O +ATOM 3508 CB GLN J 69 -44.852 46.727 40.167 1.00149.19 C +ATOM 3509 N GLU J 70 -45.089 48.385 42.290 1.00157.06 N +ATOM 3510 CA GLU J 70 -45.109 49.050 43.586 1.00157.50 C +ATOM 3511 C GLU J 70 -43.683 49.216 44.085 1.00160.15 C +ATOM 3512 O GLU J 70 -43.376 49.003 45.262 1.00160.33 O +ATOM 3513 CB GLU J 70 -45.940 48.278 44.600 1.00153.60 C +ATOM 3514 CG GLU J 70 -47.207 47.666 44.038 1.00150.54 C +ATOM 3515 CD GLU J 70 -48.446 48.099 44.793 1.00152.67 C +ATOM 3516 OE1 GLU J 70 -49.265 48.840 44.210 1.00153.14 O +ATOM 3517 OE2 GLU J 70 -48.601 47.704 45.968 1.00155.16 O +ATOM 3518 N ILE J 71 -42.794 49.623 43.181 1.00159.63 N +ATOM 3519 CA ILE J 71 -41.371 49.761 43.462 1.00161.69 C +ATOM 3520 C ILE J 71 -40.871 51.013 42.759 1.00164.72 C +ATOM 3521 O ILE J 71 -41.254 51.286 41.616 1.00163.77 O +ATOM 3522 CB ILE J 71 -40.610 48.511 42.966 1.00157.96 C +ATOM 3523 CG1 ILE J 71 -40.997 47.272 43.777 1.00160.94 C +ATOM 3524 CG2 ILE J 71 -39.118 48.735 42.983 1.00157.62 C +ATOM 3525 CD1 ILE J 71 -40.574 45.971 43.136 1.00157.11 C +ATOM 3526 N TYR J 72 -40.009 51.774 43.433 1.00168.51 N +ATOM 3527 CA TYR J 72 -39.488 53.013 42.871 1.00169.89 C +ATOM 3528 C TYR J 72 -37.969 52.973 42.885 1.00170.04 C +ATOM 3529 O TYR J 72 -37.359 52.928 43.957 1.00169.48 O +ATOM 3530 CB TYR J 72 -40.003 54.223 43.655 1.00172.40 C +ATOM 3531 CG TYR J 72 -41.492 54.441 43.521 1.00174.62 C +ATOM 3532 CD1 TYR J 72 -42.398 53.638 44.202 1.00174.56 C +ATOM 3533 CD2 TYR J 72 -41.993 55.463 42.727 1.00176.12 C +ATOM 3534 CE1 TYR J 72 -43.757 53.834 44.080 1.00173.79 C +ATOM 3535 CE2 TYR J 72 -43.352 55.670 42.606 1.00175.67 C +ATOM 3536 CZ TYR J 72 -44.228 54.853 43.283 1.00174.20 C +ATOM 3537 OH TYR J 72 -45.580 55.061 43.159 1.00172.76 O +ATOM 3538 N PHE J 73 -37.361 53.002 41.703 1.00168.28 N +ATOM 3539 CA PHE J 73 -35.911 53.014 41.588 1.00162.82 C +ATOM 3540 C PHE J 73 -35.508 53.937 40.449 1.00162.72 C +ATOM 3541 O PHE J 73 -36.251 54.112 39.482 1.00163.84 O +ATOM 3542 CB PHE J 73 -35.348 51.604 41.359 1.00160.41 C +ATOM 3543 N ILE J 74 -34.310 54.501 40.561 1.00161.45 N +ATOM 3544 CA ILE J 74 -33.664 55.229 39.477 1.00157.93 C +ATOM 3545 C ILE J 74 -32.228 54.738 39.396 1.00156.98 C +ATOM 3546 O ILE J 74 -31.570 54.550 40.425 1.00155.87 O +ATOM 3547 CB ILE J 74 -33.718 56.757 39.681 1.00158.50 C +ATOM 3548 N GLU J 75 -31.734 54.547 38.177 1.00158.57 N +ATOM 3549 CA GLU J 75 -30.377 54.064 37.945 1.00158.03 C +ATOM 3550 C GLU J 75 -29.539 55.166 37.310 1.00162.33 C +ATOM 3551 O GLU J 75 -29.728 55.503 36.136 1.00162.67 O +ATOM 3552 CB GLU J 75 -30.393 52.816 37.064 1.00152.89 C +ATOM 3553 N THR J 76 -28.618 55.725 38.092 1.00165.26 N +ATOM 3554 CA THR J 76 -27.777 56.816 37.620 1.00167.59 C +ATOM 3555 C THR J 76 -26.401 56.691 38.258 1.00170.63 C +ATOM 3556 O THR J 76 -26.245 56.122 39.341 1.00172.05 O +ATOM 3557 CB THR J 76 -28.387 58.193 37.920 1.00165.31 C +ATOM 3558 OG1 THR J 76 -27.656 59.203 37.212 1.00162.32 O +ATOM 3559 CG2 THR J 76 -28.336 58.494 39.410 1.00165.03 C +ATOM 3560 N LYS J 77 -25.403 57.252 37.577 1.00172.97 N +ATOM 3561 CA LYS J 77 -24.023 57.186 38.041 1.00175.76 C +ATOM 3562 C LYS J 77 -23.634 58.364 38.922 1.00173.36 C +ATOM 3563 O LYS J 77 -22.726 58.231 39.752 1.00170.13 O +ATOM 3564 CB LYS J 77 -23.068 57.107 36.846 1.00175.65 C +ATOM 3565 N LYS J 78 -24.292 59.510 38.765 1.00173.27 N +ATOM 3566 CA LYS J 78 -23.945 60.714 39.518 1.00169.36 C +ATOM 3567 C LYS J 78 -24.465 60.553 40.941 1.00164.87 C +ATOM 3568 O LYS J 78 -25.595 60.919 41.265 1.00161.59 O +ATOM 3569 CB LYS J 78 -24.522 61.955 38.847 1.00166.37 C +ATOM 3570 N PHE J 79 -23.619 59.989 41.801 1.00165.81 N +ATOM 3571 CA PHE J 79 -23.941 59.766 43.203 1.00163.63 C +ATOM 3572 C PHE J 79 -22.731 60.103 44.060 1.00164.04 C +ATOM 3573 O PHE J 79 -21.591 59.839 43.668 1.00166.03 O +ATOM 3574 CB PHE J 79 -24.378 58.317 43.456 1.00161.32 C +ATOM 3575 N LEU J 80 -22.984 60.691 45.226 1.00161.41 N +ATOM 3576 CA LEU J 80 -21.938 61.007 46.191 1.00161.47 C +ATOM 3577 C LEU J 80 -21.862 59.881 47.215 1.00160.84 C +ATOM 3578 O LEU J 80 -22.866 59.550 47.856 1.00159.38 O +ATOM 3579 CB LEU J 80 -22.214 62.345 46.877 1.00160.79 C +ATOM 3580 N LEU J 81 -20.672 59.298 47.366 1.00162.78 N +ATOM 3581 CA LEU J 81 -20.429 58.213 48.309 1.00164.14 C +ATOM 3582 C LEU J 81 -20.244 58.689 49.747 1.00163.65 C +ATOM 3583 O LEU J 81 -19.720 57.930 50.572 1.00161.45 O +ATOM 3584 CB LEU J 81 -19.206 57.403 47.869 1.00162.05 C +ATOM 3585 N ILE J 82 -20.661 59.909 50.072 1.00161.14 N +ATOM 3586 CA ILE J 82 -20.504 60.456 51.417 1.00155.94 C +ATOM 3587 C ILE J 82 -21.566 61.524 51.630 1.00157.31 C +ATOM 3588 O ILE J 82 -21.725 62.426 50.802 1.00155.20 O +ATOM 3589 CB ILE J 82 -19.093 61.035 51.642 1.00147.62 C +ATOM 3590 N GLY J 83 -22.284 61.426 52.736 1.00158.73 N +ATOM 3591 CA GLY J 83 -23.316 62.394 53.070 1.00159.76 C +ATOM 3592 C GLY J 83 -24.706 61.787 53.007 1.00163.40 C +ATOM 3593 O GLY J 83 -25.001 60.936 52.159 1.00165.12 O +ATOM 3594 N LYS J 84 -25.570 62.230 53.917 1.00164.33 N +ATOM 3595 CA LYS J 84 -26.945 61.760 53.987 1.00167.48 C +ATOM 3596 C LYS J 84 -27.812 62.439 52.928 1.00168.16 C +ATOM 3597 O LYS J 84 -27.446 63.465 52.347 1.00169.59 O +ATOM 3598 CB LYS J 84 -27.526 62.011 55.379 1.00164.05 C +ATOM 3599 N SER J 85 -28.978 61.843 52.680 1.00165.03 N +ATOM 3600 CA SER J 85 -29.928 62.318 51.689 1.00164.93 C +ATOM 3601 C SER J 85 -31.326 62.296 52.282 1.00164.37 C +ATOM 3602 O SER J 85 -31.688 61.364 53.007 1.00165.22 O +ATOM 3603 CB SER J 85 -29.910 61.447 50.430 1.00162.07 C +ATOM 3604 OG SER J 85 -28.628 61.428 49.846 1.00156.91 O +ATOM 3605 N ASN J 86 -32.107 63.322 51.963 1.00165.97 N +ATOM 3606 CA ASN J 86 -33.503 63.383 52.367 1.00167.09 C +ATOM 3607 C ASN J 86 -34.360 62.721 51.293 1.00178.90 C +ATOM 3608 O ASN J 86 -34.408 63.189 50.148 1.00181.35 O +ATOM 3609 CB ASN J 86 -33.938 64.831 52.592 1.00160.46 C +ATOM 3610 N ILE J 87 -35.011 61.622 51.662 1.00184.82 N +ATOM 3611 CA ILE J 87 -35.975 60.935 50.812 1.00191.60 C +ATOM 3612 C ILE J 87 -37.361 61.307 51.315 1.00200.55 C +ATOM 3613 O ILE J 87 -37.722 60.981 52.453 1.00201.14 O +ATOM 3614 CB ILE J 87 -35.764 59.413 50.832 1.00192.45 C +ATOM 3615 N CYS J 88 -38.129 62.012 50.488 1.00202.31 N +ATOM 3616 CA CYS J 88 -39.444 62.499 50.877 1.00204.41 C +ATOM 3617 C CYS J 88 -40.516 61.914 49.971 1.00203.17 C +ATOM 3618 O CYS J 88 -40.376 61.928 48.740 1.00200.98 O +ATOM 3619 CB CYS J 88 -39.505 64.029 50.823 1.00206.65 C +ATOM 3620 SG CYS J 88 -38.408 64.897 51.968 1.00214.51 S +ATOM 3621 N VAL J 89 -41.570 61.379 50.581 1.00201.92 N +ATOM 3622 CA VAL J 89 -42.716 60.893 49.822 1.00198.30 C +ATOM 3623 C VAL J 89 -43.614 62.088 49.529 1.00199.39 C +ATOM 3624 O VAL J 89 -44.041 62.795 50.448 1.00199.21 O +ATOM 3625 CB VAL J 89 -43.473 59.802 50.591 1.00188.68 C +ATOM 3626 N LYS J 90 -43.903 62.316 48.251 1.00198.73 N +ATOM 3627 CA LYS J 90 -44.696 63.455 47.811 1.00198.06 C +ATOM 3628 C LYS J 90 -45.915 62.969 47.042 1.00196.61 C +ATOM 3629 O LYS J 90 -45.790 62.133 46.138 1.00200.85 O +ATOM 3630 CB LYS J 90 -43.860 64.398 46.939 1.00198.79 C +ATOM 3631 N VAL J 91 -47.084 63.491 47.402 1.00190.12 N +ATOM 3632 CA VAL J 91 -48.295 63.275 46.615 1.00182.60 C +ATOM 3633 C VAL J 91 -48.379 64.265 45.463 1.00180.51 C +ATOM 3634 O VAL J 91 -48.595 63.883 44.310 1.00177.09 O +ATOM 3635 CB VAL J 91 -49.540 63.361 47.524 1.00176.19 C +ATOM 3636 N GLY J 92 -48.215 65.551 45.762 1.00178.23 N +ATOM 3637 CA GLY J 92 -48.036 66.558 44.736 1.00170.09 C +ATOM 3638 C GLY J 92 -46.582 66.976 44.674 1.00170.79 C +ATOM 3639 O GLY J 92 -45.692 66.123 44.623 1.00174.95 O +ATOM 3640 N GLU J 93 -46.323 68.283 44.682 1.00166.17 N +ATOM 3641 CA GLU J 93 -44.955 68.764 44.817 1.00163.61 C +ATOM 3642 C GLU J 93 -44.517 68.847 46.272 1.00170.05 C +ATOM 3643 O GLU J 93 -43.316 68.960 46.540 1.00169.72 O +ATOM 3644 CB GLU J 93 -44.805 70.134 44.152 1.00151.03 C +ATOM 3645 N LYS J 94 -45.458 68.779 47.208 1.00173.83 N +ATOM 3646 CA LYS J 94 -45.175 68.924 48.627 1.00178.70 C +ATOM 3647 C LYS J 94 -44.903 67.570 49.278 1.00186.03 C +ATOM 3648 O LYS J 94 -45.312 66.518 48.785 1.00186.54 O +ATOM 3649 CB LYS J 94 -46.335 69.620 49.339 1.00178.91 C +ATOM 3650 N SER J 95 -44.228 67.624 50.423 1.00191.95 N +ATOM 3651 CA SER J 95 -43.683 66.454 51.101 1.00197.43 C +ATOM 3652 C SER J 95 -44.587 66.034 52.254 1.00198.65 C +ATOM 3653 O SER J 95 -44.933 66.856 53.109 1.00200.64 O +ATOM 3654 CB SER J 95 -42.271 66.736 51.617 1.00201.30 C +ATOM 3655 OG SER J 95 -42.297 67.662 52.690 1.00203.42 O +ATOM 3656 N LEU J 96 -44.970 64.757 52.271 1.00197.43 N +ATOM 3657 CA LEU J 96 -45.765 64.210 53.367 1.00195.02 C +ATOM 3658 C LEU J 96 -44.865 63.759 54.516 1.00196.67 C +ATOM 3659 O LEU J 96 -44.962 64.283 55.631 1.00194.85 O +ATOM 3660 CB LEU J 96 -46.626 63.048 52.862 1.00185.98 C +ATOM 3661 N THR J 97 -43.986 62.792 54.258 1.00197.89 N +ATOM 3662 CA THR J 97 -43.057 62.294 55.263 1.00197.83 C +ATOM 3663 C THR J 97 -41.677 62.166 54.635 1.00198.06 C +ATOM 3664 O THR J 97 -41.540 61.694 53.501 1.00197.95 O +ATOM 3665 CB THR J 97 -43.517 60.945 55.840 1.00192.73 C +ATOM 3666 OG1 THR J 97 -44.722 61.134 56.592 1.00186.80 O +ATOM 3667 CG2 THR J 97 -42.450 60.349 56.751 1.00189.75 C +ATOM 3668 N CYS J 98 -40.659 62.582 55.387 1.00197.19 N +ATOM 3669 CA CYS J 98 -39.277 62.590 54.936 1.00193.56 C +ATOM 3670 C CYS J 98 -38.415 61.757 55.874 1.00185.04 C +ATOM 3671 O CYS J 98 -38.729 61.594 57.057 1.00182.14 O +ATOM 3672 CB CYS J 98 -38.719 64.017 54.869 1.00197.65 C +ATOM 3673 SG CYS J 98 -39.507 65.111 53.663 1.00209.87 S +ATOM 3674 N LYS J 99 -37.320 61.231 55.329 1.00180.19 N +ATOM 3675 CA LYS J 99 -36.348 60.474 56.108 1.00170.90 C +ATOM 3676 C LYS J 99 -34.950 60.785 55.598 1.00167.15 C +ATOM 3677 O LYS J 99 -34.691 60.692 54.394 1.00167.44 O +ATOM 3678 CB LYS J 99 -36.620 58.967 56.026 1.00162.85 C +ATOM 3679 N LYS J 100 -34.062 61.178 56.508 1.00162.50 N +ATOM 3680 CA LYS J 100 -32.673 61.477 56.163 1.00162.07 C +ATOM 3681 C LYS J 100 -31.852 60.208 56.354 1.00165.68 C +ATOM 3682 O LYS J 100 -31.464 59.864 57.473 1.00166.01 O +ATOM 3683 CB LYS J 100 -32.140 62.624 57.015 1.00156.27 C +ATOM 3684 N ILE J 101 -31.587 59.511 55.252 1.00167.38 N +ATOM 3685 CA ILE J 101 -30.881 58.237 55.265 1.00165.15 C +ATOM 3686 C ILE J 101 -29.663 58.353 54.362 1.00165.29 C +ATOM 3687 O ILE J 101 -29.638 59.158 53.428 1.00164.99 O +ATOM 3688 CB ILE J 101 -31.786 57.068 54.818 1.00160.18 C +ATOM 3689 N ASP J 102 -28.635 57.564 54.655 1.00163.87 N +ATOM 3690 CA ASP J 102 -27.440 57.560 53.824 1.00162.87 C +ATOM 3691 C ASP J 102 -27.528 56.458 52.777 1.00159.72 C +ATOM 3692 O ASP J 102 -27.916 55.326 53.077 1.00161.11 O +ATOM 3693 CB ASP J 102 -26.183 57.376 54.675 1.00164.39 C +ATOM 3694 CG ASP J 102 -24.906 57.605 53.886 1.00166.59 C +ATOM 3695 OD1 ASP J 102 -24.993 58.011 52.707 1.00165.32 O +ATOM 3696 OD2 ASP J 102 -23.813 57.381 54.446 1.00170.09 O +ATOM 3697 N LEU J 103 -27.166 56.803 51.539 1.00155.78 N +ATOM 3698 CA LEU J 103 -27.190 55.833 50.451 1.00152.11 C +ATOM 3699 C LEU J 103 -26.114 54.764 50.599 1.00156.10 C +ATOM 3700 O LEU J 103 -26.264 53.673 50.040 1.00156.71 O +ATOM 3701 CB LEU J 103 -27.031 56.547 49.107 1.00142.44 C +ATOM 3702 N THR J 104 -25.040 55.050 51.332 1.00158.62 N +ATOM 3703 CA THR J 104 -23.927 54.123 51.486 1.00158.75 C +ATOM 3704 C THR J 104 -24.060 53.207 52.697 1.00157.53 C +ATOM 3705 O THR J 104 -23.169 52.384 52.930 1.00157.26 O +ATOM 3706 CB THR J 104 -22.607 54.897 51.579 1.00156.87 C +ATOM 3707 OG1 THR J 104 -22.658 55.799 52.692 1.00162.12 O +ATOM 3708 CG2 THR J 104 -22.366 55.691 50.304 1.00155.57 C +ATOM 3709 N THR J 105 -25.137 53.326 53.472 1.00157.22 N +ATOM 3710 CA THR J 105 -25.344 52.496 54.652 1.00157.02 C +ATOM 3711 C THR J 105 -26.521 51.541 54.500 1.00158.29 C +ATOM 3712 O THR J 105 -26.972 50.963 55.494 1.00156.10 O +ATOM 3713 CB THR J 105 -25.541 53.374 55.891 1.00156.96 C +ATOM 3714 OG1 THR J 105 -26.649 54.258 55.682 1.00157.71 O +ATOM 3715 CG2 THR J 105 -24.288 54.193 56.166 1.00156.94 C +ATOM 3716 N ILE J 106 -27.026 51.359 53.282 1.00167.93 N +ATOM 3717 CA ILE J 106 -28.181 50.502 53.036 1.00160.28 C +ATOM 3718 C ILE J 106 -27.901 49.665 51.790 1.00160.63 C +ATOM 3719 O ILE J 106 -28.790 49.407 50.970 1.00160.58 O +ATOM 3720 CB ILE J 106 -29.467 51.350 52.925 1.00157.74 C +ATOM 3721 CG1 ILE J 106 -30.725 50.474 52.955 1.00158.58 C +ATOM 3722 CG2 ILE J 106 -29.422 52.280 51.708 1.00155.98 C +ATOM 3723 CD1 ILE J 106 -30.834 49.596 54.180 1.00159.64 C +ATOM 3724 N VAL J 107 -26.657 49.215 51.653 1.00159.19 N +ATOM 3725 CA VAL J 107 -26.216 48.530 50.444 1.00155.27 C +ATOM 3726 C VAL J 107 -26.627 47.066 50.505 1.00151.28 C +ATOM 3727 O VAL J 107 -26.502 46.405 51.543 1.00152.98 O +ATOM 3728 CB VAL J 107 -24.693 48.676 50.268 1.00154.97 C +ATOM 3729 CG1 VAL J 107 -24.226 47.965 49.003 1.00149.93 C +ATOM 3730 CG2 VAL J 107 -24.302 50.145 50.234 1.00156.48 C +ATOM 3731 N LYS J 108 -27.129 46.558 49.381 1.00147.22 N +ATOM 3732 CA LYS J 108 -27.486 45.151 49.244 1.00143.32 C +ATOM 3733 C LYS J 108 -26.570 44.525 48.204 1.00143.02 C +ATOM 3734 O LYS J 108 -26.661 44.873 47.016 1.00142.43 O +ATOM 3735 CB LYS J 108 -28.951 44.996 48.832 1.00141.79 C +ATOM 3736 N PRO J 109 -25.676 43.619 48.595 1.00141.37 N +ATOM 3737 CA PRO J 109 -24.727 43.047 47.634 1.00137.77 C +ATOM 3738 C PRO J 109 -25.418 42.233 46.550 1.00134.88 C +ATOM 3739 O PRO J 109 -26.576 41.829 46.668 1.00131.90 O +ATOM 3740 CB PRO J 109 -23.828 42.157 48.503 1.00134.91 C +ATOM 3741 CG PRO J 109 -24.042 42.630 49.908 1.00136.95 C +ATOM 3742 CD PRO J 109 -25.450 43.125 49.963 1.00139.52 C +ATOM 3743 N GLU J 110 -24.675 42.006 45.470 1.00134.78 N +ATOM 3744 CA GLU J 110 -25.126 41.135 44.396 1.00130.29 C +ATOM 3745 C GLU J 110 -24.963 39.678 44.807 1.00122.32 C +ATOM 3746 O GLU J 110 -24.021 39.322 45.520 1.00122.68 O +ATOM 3747 CB GLU J 110 -24.338 41.418 43.117 1.00132.47 C +ATOM 3748 CG GLU J 110 -24.550 42.817 42.561 1.00140.14 C +ATOM 3749 CD GLU J 110 -23.786 43.056 41.274 1.00147.63 C +ATOM 3750 OE1 GLU J 110 -24.322 42.732 40.194 1.00150.61 O +ATOM 3751 OE2 GLU J 110 -22.650 43.571 41.343 1.00146.31 O +ATOM 3752 N ALA J 111 -25.896 38.841 44.366 1.00117.23 N +ATOM 3753 CA ALA J 111 -25.881 37.439 44.757 1.00112.44 C +ATOM 3754 C ALA J 111 -24.614 36.759 44.246 1.00109.18 C +ATOM 3755 O ALA J 111 -24.240 36.951 43.080 1.00110.36 O +ATOM 3756 CB ALA J 111 -27.117 36.722 44.217 1.00108.94 C +ATOM 3757 N PRO J 112 -23.924 35.980 45.078 1.00104.79 N +ATOM 3758 CA PRO J 112 -22.769 35.210 44.599 1.00104.28 C +ATOM 3759 C PRO J 112 -23.164 34.219 43.514 1.00101.79 C +ATOM 3760 O PRO J 112 -24.342 33.963 43.252 1.00101.48 O +ATOM 3761 CB PRO J 112 -22.272 34.494 45.860 1.00102.64 C +ATOM 3762 CG PRO J 112 -22.767 35.337 46.992 1.00103.81 C +ATOM 3763 CD PRO J 112 -24.091 35.879 46.538 1.00108.19 C +ATOM 3764 N PHE J 113 -22.146 33.645 42.877 1.00 98.19 N +ATOM 3765 CA PHE J 113 -22.361 32.730 41.766 1.00 96.11 C +ATOM 3766 C PHE J 113 -21.200 31.749 41.696 1.00 93.92 C +ATOM 3767 O PHE J 113 -20.215 31.864 42.431 1.00 92.17 O +ATOM 3768 CB PHE J 113 -22.514 33.482 40.438 1.00 95.82 C +ATOM 3769 CG PHE J 113 -21.369 34.405 40.124 1.00 96.45 C +ATOM 3770 CD1 PHE J 113 -21.328 35.690 40.641 1.00102.92 C +ATOM 3771 CD2 PHE J 113 -20.333 33.986 39.305 1.00 94.73 C +ATOM 3772 CE1 PHE J 113 -20.274 36.537 40.351 1.00109.16 C +ATOM 3773 CE2 PHE J 113 -19.277 34.828 39.011 1.00 97.10 C +ATOM 3774 CZ PHE J 113 -19.248 36.105 39.534 1.00105.38 C +ATOM 3775 N ASP J 114 -21.333 30.774 40.793 1.00 90.49 N +ATOM 3776 CA ASP J 114 -20.311 29.752 40.560 1.00 86.39 C +ATOM 3777 C ASP J 114 -19.972 28.996 41.845 1.00 83.56 C +ATOM 3778 O ASP J 114 -18.806 28.771 42.174 1.00 84.51 O +ATOM 3779 CB ASP J 114 -19.055 30.359 39.930 1.00 86.97 C +ATOM 3780 CG ASP J 114 -19.292 30.847 38.514 1.00 86.60 C +ATOM 3781 OD1 ASP J 114 -20.269 30.392 37.883 1.00 82.43 O +ATOM 3782 OD2 ASP J 114 -18.498 31.681 38.030 1.00 87.60 O +ATOM 3783 N LEU J 115 -21.011 28.605 42.577 1.00 83.64 N +ATOM 3784 CA LEU J 115 -20.814 27.818 43.785 1.00 83.49 C +ATOM 3785 C LEU J 115 -20.401 26.397 43.421 1.00 80.11 C +ATOM 3786 O LEU J 115 -20.933 25.800 42.482 1.00 80.20 O +ATOM 3787 CB LEU J 115 -22.092 27.801 44.622 1.00 86.01 C +ATOM 3788 CG LEU J 115 -22.024 27.048 45.951 1.00 82.40 C +ATOM 3789 CD1 LEU J 115 -21.015 27.693 46.886 1.00 80.56 C +ATOM 3790 CD2 LEU J 115 -23.393 26.994 46.591 1.00 83.55 C +ATOM 3791 N SER J 116 -19.449 25.853 44.176 1.00 77.79 N +ATOM 3792 CA SER J 116 -18.881 24.552 43.860 1.00 77.95 C +ATOM 3793 C SER J 116 -18.391 23.890 45.139 1.00 75.34 C +ATOM 3794 O SER J 116 -17.924 24.560 46.063 1.00 74.90 O +ATOM 3795 CB SER J 116 -17.731 24.674 42.852 1.00 77.63 C +ATOM 3796 OG SER J 116 -17.029 23.450 42.723 1.00 79.91 O +ATOM 3797 N VAL J 117 -18.505 22.564 45.178 1.00 74.18 N +ATOM 3798 CA VAL J 117 -18.014 21.749 46.283 1.00 76.05 C +ATOM 3799 C VAL J 117 -17.159 20.634 45.701 1.00 77.65 C +ATOM 3800 O VAL J 117 -17.566 19.973 44.740 1.00 83.45 O +ATOM 3801 CB VAL J 117 -19.166 21.161 47.122 1.00 76.66 C +ATOM 3802 CG1 VAL J 117 -18.618 20.311 48.258 1.00 75.49 C +ATOM 3803 CG2 VAL J 117 -20.056 22.270 47.663 1.00 76.75 C +ATOM 3804 N VAL J 118 -15.976 20.428 46.276 1.00 74.41 N +ATOM 3805 CA VAL J 118 -15.031 19.432 45.786 1.00 78.11 C +ATOM 3806 C VAL J 118 -14.555 18.588 46.959 1.00 73.34 C +ATOM 3807 O VAL J 118 -14.074 19.126 47.961 1.00 72.60 O +ATOM 3808 CB VAL J 118 -13.831 20.080 45.073 1.00 79.97 C +ATOM 3809 CG1 VAL J 118 -12.867 19.009 44.606 1.00 76.86 C +ATOM 3810 CG2 VAL J 118 -14.306 20.927 43.906 1.00 82.23 C +ATOM 3811 N TYR J 119 -14.674 17.271 46.827 1.00 73.07 N +ATOM 3812 CA TYR J 119 -14.244 16.344 47.865 1.00 67.58 C +ATOM 3813 C TYR J 119 -12.767 16.009 47.692 1.00 70.41 C +ATOM 3814 O TYR J 119 -12.339 15.604 46.606 1.00 73.66 O +ATOM 3815 CB TYR J 119 -15.088 15.071 47.820 1.00 65.39 C +ATOM 3816 CG TYR J 119 -14.605 13.980 48.746 1.00 68.89 C +ATOM 3817 CD1 TYR J 119 -14.651 14.144 50.123 1.00 71.40 C +ATOM 3818 CD2 TYR J 119 -14.112 12.783 48.243 1.00 67.90 C +ATOM 3819 CE1 TYR J 119 -14.213 13.151 50.973 1.00 71.92 C +ATOM 3820 CE2 TYR J 119 -13.672 11.782 49.088 1.00 69.85 C +ATOM 3821 CZ TYR J 119 -13.726 11.971 50.452 1.00 72.53 C +ATOM 3822 OH TYR J 119 -13.289 10.978 51.300 1.00 75.38 O +ATOM 3823 N ARG J 120 -11.992 16.176 48.763 1.00 70.95 N +ATOM 3824 CA ARG J 120 -10.572 15.837 48.769 1.00 67.65 C +ATOM 3825 C ARG J 120 -10.403 14.505 49.490 1.00 69.43 C +ATOM 3826 O ARG J 120 -10.524 14.435 50.717 1.00 72.59 O +ATOM 3827 CB ARG J 120 -9.746 16.936 49.434 1.00 67.44 C +ATOM 3828 CG ARG J 120 -9.835 18.284 48.740 1.00 67.95 C +ATOM 3829 CD ARG J 120 -8.771 19.243 49.248 1.00 72.14 C +ATOM 3830 NE ARG J 120 -9.020 19.662 50.624 1.00 75.05 N +ATOM 3831 CZ ARG J 120 -8.161 20.360 51.360 1.00 80.81 C +ATOM 3832 NH1 ARG J 120 -6.991 20.722 50.853 1.00 83.58 N +ATOM 3833 NH2 ARG J 120 -8.473 20.697 52.604 1.00 83.86 N +ATOM 3834 N GLU J 121 -10.127 13.449 48.719 1.00 66.55 N +ATOM 3835 CA GLU J 121 -10.040 12.106 49.287 1.00 66.24 C +ATOM 3836 C GLU J 121 -8.942 12.008 50.341 1.00 71.12 C +ATOM 3837 O GLU J 121 -9.094 11.295 51.341 1.00 67.65 O +ATOM 3838 CB GLU J 121 -9.804 11.089 48.168 1.00 62.59 C +ATOM 3839 CG GLU J 121 -9.846 9.638 48.614 1.00 64.36 C +ATOM 3840 CD GLU J 121 -9.794 8.671 47.447 1.00 65.22 C +ATOM 3841 OE1 GLU J 121 -10.604 8.824 46.508 1.00 64.44 O +ATOM 3842 OE2 GLU J 121 -8.943 7.756 47.467 1.00 66.36 O +ATOM 3843 N GLY J 122 -7.830 12.715 50.137 1.00 72.85 N +ATOM 3844 CA GLY J 122 -6.716 12.607 51.068 1.00 68.85 C +ATOM 3845 C GLY J 122 -7.013 13.219 52.424 1.00 69.87 C +ATOM 3846 O GLY J 122 -6.740 12.614 53.465 1.00 72.38 O +ATOM 3847 N ALA J 123 -7.576 14.424 52.432 1.00 69.26 N +ATOM 3848 CA ALA J 123 -7.817 15.147 53.672 1.00 70.78 C +ATOM 3849 C ALA J 123 -9.159 14.816 54.308 1.00 76.90 C +ATOM 3850 O ALA J 123 -9.413 15.257 55.435 1.00 77.75 O +ATOM 3851 CB ALA J 123 -7.728 16.657 53.429 1.00 70.05 C +ATOM 3852 N ASN J 124 -10.014 14.055 53.621 1.00 77.68 N +ATOM 3853 CA ASN J 124 -11.349 13.714 54.110 1.00 73.39 C +ATOM 3854 C ASN J 124 -12.140 14.979 54.447 1.00 76.97 C +ATOM 3855 O ASN J 124 -12.554 15.206 55.585 1.00 84.31 O +ATOM 3856 CB ASN J 124 -11.274 12.771 55.317 1.00 74.90 C +ATOM 3857 CG ASN J 124 -10.603 11.454 54.989 1.00 78.68 C +ATOM 3858 OD1 ASN J 124 -9.393 11.302 55.158 1.00 84.56 O +ATOM 3859 ND2 ASN J 124 -11.388 10.490 54.522 1.00 83.90 N +ATOM 3860 N ASP J 125 -12.325 15.818 53.432 1.00 74.91 N +ATOM 3861 CA ASP J 125 -13.063 17.059 53.615 1.00 76.24 C +ATOM 3862 C ASP J 125 -13.633 17.510 52.278 1.00 74.45 C +ATOM 3863 O ASP J 125 -13.381 16.910 51.229 1.00 73.66 O +ATOM 3864 CB ASP J 125 -12.181 18.152 54.233 1.00 77.17 C +ATOM 3865 CG ASP J 125 -10.981 18.501 53.370 1.00 77.67 C +ATOM 3866 OD1 ASP J 125 -10.747 17.817 52.352 1.00 77.19 O +ATOM 3867 OD2 ASP J 125 -10.271 19.471 53.710 1.00 87.51 O +ATOM 3868 N PHE J 126 -14.418 18.582 52.342 1.00 73.24 N +ATOM 3869 CA PHE J 126 -15.050 19.182 51.176 1.00 72.30 C +ATOM 3870 C PHE J 126 -14.678 20.655 51.146 1.00 73.73 C +ATOM 3871 O PHE J 126 -14.935 21.382 52.112 1.00 76.30 O +ATOM 3872 CB PHE J 126 -16.573 19.016 51.217 1.00 73.80 C +ATOM 3873 CG PHE J 126 -17.033 17.584 51.219 1.00 72.92 C +ATOM 3874 CD1 PHE J 126 -17.027 16.840 52.389 1.00 76.37 C +ATOM 3875 CD2 PHE J 126 -17.485 16.986 50.054 1.00 69.44 C +ATOM 3876 CE1 PHE J 126 -17.453 15.524 52.393 1.00 77.87 C +ATOM 3877 CE2 PHE J 126 -17.913 15.672 50.052 1.00 69.86 C +ATOM 3878 CZ PHE J 126 -17.897 14.940 51.223 1.00 74.90 C +ATOM 3879 N VAL J 127 -14.073 21.088 50.047 1.00 74.57 N +ATOM 3880 CA VAL J 127 -13.736 22.490 49.843 1.00 76.00 C +ATOM 3881 C VAL J 127 -14.868 23.137 49.060 1.00 76.68 C +ATOM 3882 O VAL J 127 -15.224 22.679 47.968 1.00 77.14 O +ATOM 3883 CB VAL J 127 -12.395 22.644 49.111 1.00 75.71 C +ATOM 3884 CG1 VAL J 127 -12.048 24.116 48.948 1.00 78.16 C +ATOM 3885 CG2 VAL J 127 -11.296 21.919 49.868 1.00 73.75 C +ATOM 3886 N VAL J 128 -15.440 24.193 49.627 1.00 77.01 N +ATOM 3887 CA VAL J 128 -16.517 24.951 49.007 1.00 77.34 C +ATOM 3888 C VAL J 128 -15.940 26.262 48.499 1.00 79.11 C +ATOM 3889 O VAL J 128 -15.250 26.975 49.239 1.00 82.95 O +ATOM 3890 CB VAL J 128 -17.664 25.202 50.001 1.00 74.50 C +ATOM 3891 CG1 VAL J 128 -18.830 25.886 49.306 1.00 77.89 C +ATOM 3892 CG2 VAL J 128 -18.106 23.895 50.640 1.00 73.34 C +ATOM 3893 N THR J 129 -16.221 26.580 47.238 1.00 78.49 N +ATOM 3894 CA THR J 129 -15.693 27.767 46.587 1.00 82.63 C +ATOM 3895 C THR J 129 -16.821 28.497 45.874 1.00 84.53 C +ATOM 3896 O THR J 129 -17.758 27.880 45.361 1.00 81.80 O +ATOM 3897 CB THR J 129 -14.584 27.421 45.578 1.00 80.74 C +ATOM 3898 OG1 THR J 129 -15.106 26.545 44.570 1.00 80.78 O +ATOM 3899 CG2 THR J 129 -13.407 26.750 46.274 1.00 76.99 C +ATOM 3900 N PHE J 130 -16.717 29.822 45.846 1.00 87.63 N +ATOM 3901 CA PHE J 130 -17.690 30.659 45.160 1.00 90.36 C +ATOM 3902 C PHE J 130 -17.002 31.942 44.719 1.00 93.42 C +ATOM 3903 O PHE J 130 -15.857 32.218 45.085 1.00 96.18 O +ATOM 3904 CB PHE J 130 -18.908 30.948 46.047 1.00 93.46 C +ATOM 3905 CG PHE J 130 -18.559 31.466 47.413 1.00 92.43 C +ATOM 3906 CD1 PHE J 130 -18.295 32.811 47.617 1.00 96.09 C +ATOM 3907 CD2 PHE J 130 -18.503 30.607 48.498 1.00 88.95 C +ATOM 3908 CE1 PHE J 130 -17.976 33.286 48.873 1.00 97.09 C +ATOM 3909 CE2 PHE J 130 -18.185 31.077 49.757 1.00 93.44 C +ATOM 3910 CZ PHE J 130 -17.921 32.418 49.945 1.00 98.03 C +ATOM 3911 N ASN J 131 -17.720 32.730 43.926 1.00 94.64 N +ATOM 3912 CA ASN J 131 -17.185 33.958 43.363 1.00101.37 C +ATOM 3913 C ASN J 131 -18.151 35.102 43.640 1.00105.96 C +ATOM 3914 O ASN J 131 -19.342 34.889 43.881 1.00104.55 O +ATOM 3915 CB ASN J 131 -16.948 33.804 41.856 1.00102.96 C +ATOM 3916 CG ASN J 131 -15.851 34.705 41.341 1.00107.74 C +ATOM 3917 OD1 ASN J 131 -15.516 35.719 41.953 1.00110.92 O +ATOM 3918 ND2 ASN J 131 -15.272 34.327 40.208 1.00108.52 N +ATOM 3919 N THR J 132 -17.627 36.325 43.583 1.00111.81 N +ATOM 3920 CA THR J 132 -18.422 37.523 43.829 1.00118.24 C +ATOM 3921 C THR J 132 -17.884 38.657 42.972 1.00129.99 C +ATOM 3922 O THR J 132 -16.681 38.936 42.994 1.00135.11 O +ATOM 3923 CB THR J 132 -18.383 37.944 45.308 1.00121.88 C +ATOM 3924 OG1 THR J 132 -17.023 37.999 45.759 1.00122.01 O +ATOM 3925 CG2 THR J 132 -19.178 36.986 46.188 1.00114.39 C +ATOM 3926 N SER J 133 -18.778 39.300 42.216 1.00138.37 N +ATOM 3927 CA SER J 133 -18.387 40.422 41.369 1.00145.79 C +ATOM 3928 C SER J 133 -17.881 41.617 42.167 1.00152.07 C +ATOM 3929 O SER J 133 -17.357 42.562 41.568 1.00157.27 O +ATOM 3930 CB SER J 133 -19.565 40.847 40.487 1.00146.65 C +ATOM 3931 OG SER J 133 -20.674 41.247 41.273 1.00148.56 O +ATOM 3932 N HIS J 134 -18.025 41.600 43.494 1.00146.22 N +ATOM 3933 CA HIS J 134 -17.589 42.714 44.325 1.00147.46 C +ATOM 3934 C HIS J 134 -16.080 42.741 44.522 1.00149.57 C +ATOM 3935 O HIS J 134 -15.535 43.794 44.870 1.00153.79 O +ATOM 3936 CB HIS J 134 -18.283 42.654 45.688 1.00145.97 C +ATOM 3937 CG HIS J 134 -19.681 43.191 45.680 1.00146.03 C +ATOM 3938 ND1 HIS J 134 -20.095 44.200 46.523 1.00144.06 N +ATOM 3939 CD2 HIS J 134 -20.760 42.860 44.933 1.00145.07 C +ATOM 3940 CE1 HIS J 134 -21.368 44.467 46.295 1.00143.44 C +ATOM 3941 NE2 HIS J 134 -21.796 43.667 45.335 1.00142.87 N +ATOM 3942 N LEU J 135 -15.402 41.606 44.324 1.00146.39 N +ATOM 3943 CA LEU J 135 -13.949 41.568 44.471 1.00145.82 C +ATOM 3944 C LEU J 135 -13.269 42.550 43.526 1.00150.62 C +ATOM 3945 O LEU J 135 -12.293 43.210 43.900 1.00154.20 O +ATOM 3946 CB LEU J 135 -13.432 40.149 44.232 1.00140.50 C +ATOM 3947 CG LEU J 135 -13.618 39.144 45.370 1.00133.74 C +ATOM 3948 CD1 LEU J 135 -13.337 37.731 44.885 1.00126.64 C +ATOM 3949 CD2 LEU J 135 -12.723 39.497 46.548 1.00128.68 C +ATOM 3950 N GLN J 136 -13.770 42.661 42.298 1.00148.82 N +ATOM 3951 CA GLN J 136 -13.194 43.549 41.299 1.00149.18 C +ATOM 3952 C GLN J 136 -13.807 44.943 41.329 1.00154.36 C +ATOM 3953 O GLN J 136 -13.557 45.737 40.417 1.00159.00 O +ATOM 3954 CB GLN J 136 -13.352 42.943 39.902 1.00147.08 C +ATOM 3955 N LYS J 137 -14.601 45.255 42.348 1.00156.59 N +ATOM 3956 CA LYS J 137 -15.229 46.560 42.466 1.00163.38 C +ATOM 3957 C LYS J 137 -14.307 47.524 43.201 1.00167.28 C +ATOM 3958 O LYS J 137 -13.461 47.119 44.003 1.00166.21 O +ATOM 3959 CB LYS J 137 -16.568 46.454 43.199 1.00165.02 C +ATOM 3960 N LYS J 138 -14.480 48.816 42.918 1.00170.46 N +ATOM 3961 CA LYS J 138 -13.612 49.829 43.508 1.00174.25 C +ATOM 3962 C LYS J 138 -14.006 50.123 44.951 1.00173.87 C +ATOM 3963 O LYS J 138 -13.167 50.066 45.856 1.00173.97 O +ATOM 3964 CB LYS J 138 -13.651 51.107 42.668 1.00175.78 C +ATOM 3965 N TYR J 139 -15.280 50.440 45.180 1.00171.74 N +ATOM 3966 CA TYR J 139 -15.730 50.856 46.509 1.00167.90 C +ATOM 3967 C TYR J 139 -15.985 49.652 47.414 1.00165.89 C +ATOM 3968 O TYR J 139 -15.276 49.444 48.403 1.00165.00 O +ATOM 3969 CB TYR J 139 -16.976 51.738 46.383 1.00165.90 C +ATOM 3970 CG TYR J 139 -16.709 53.057 45.688 1.00168.71 C +ATOM 3971 CD1 TYR J 139 -16.141 54.123 46.375 1.00168.54 C +ATOM 3972 CD2 TYR J 139 -17.017 53.233 44.345 1.00169.50 C +ATOM 3973 CE1 TYR J 139 -15.891 55.328 45.745 1.00168.75 C +ATOM 3974 CE2 TYR J 139 -16.770 54.436 43.706 1.00167.90 C +ATOM 3975 CZ TYR J 139 -16.208 55.480 44.411 1.00166.33 C +ATOM 3976 OH TYR J 139 -15.960 56.678 43.782 1.00159.78 O +ATOM 3977 N VAL J 140 -16.998 48.849 47.092 1.00165.40 N +ATOM 3978 CA VAL J 140 -17.377 47.701 47.913 1.00162.13 C +ATOM 3979 C VAL J 140 -16.501 46.520 47.500 1.00162.92 C +ATOM 3980 O VAL J 140 -16.778 45.829 46.517 1.00163.14 O +ATOM 3981 CB VAL J 140 -18.868 47.380 47.788 1.00155.49 C +ATOM 3982 CG1 VAL J 140 -19.692 48.368 48.595 1.00153.68 C +ATOM 3983 CG2 VAL J 140 -19.313 47.397 46.332 1.00154.97 C +ATOM 3984 N LYS J 141 -15.425 46.289 48.254 1.00161.06 N +ATOM 3985 CA LYS J 141 -14.525 45.178 47.986 1.00158.05 C +ATOM 3986 C LYS J 141 -14.354 44.217 49.155 1.00154.08 C +ATOM 3987 O LYS J 141 -13.751 43.153 48.968 1.00155.07 O +ATOM 3988 CB LYS J 141 -13.140 45.700 47.568 1.00157.51 C +ATOM 3989 N VAL J 142 -14.858 44.549 50.341 1.00151.14 N +ATOM 3990 CA VAL J 142 -14.757 43.690 51.517 1.00147.48 C +ATOM 3991 C VAL J 142 -16.159 43.235 51.900 1.00142.90 C +ATOM 3992 O VAL J 142 -17.040 44.064 52.159 1.00143.03 O +ATOM 3993 CB VAL J 142 -14.072 44.413 52.686 1.00151.22 C +ATOM 3994 CG1 VAL J 142 -14.072 43.534 53.928 1.00151.38 C +ATOM 3995 CG2 VAL J 142 -12.653 44.811 52.306 1.00152.74 C +ATOM 3996 N LEU J 143 -16.365 41.920 51.937 1.00137.70 N +ATOM 3997 CA LEU J 143 -17.654 41.336 52.275 1.00131.40 C +ATOM 3998 C LEU J 143 -17.466 40.221 53.297 1.00128.60 C +ATOM 3999 O LEU J 143 -16.352 39.754 53.550 1.00130.07 O +ATOM 4000 CB LEU J 143 -18.367 40.795 51.027 1.00123.94 C +ATOM 4001 CG LEU J 143 -18.834 41.821 49.993 1.00127.63 C +ATOM 4002 CD1 LEU J 143 -19.497 41.125 48.816 1.00125.32 C +ATOM 4003 CD2 LEU J 143 -19.777 42.831 50.621 1.00132.09 C +ATOM 4004 N MET J 144 -18.584 39.807 53.892 1.00123.94 N +ATOM 4005 CA MET J 144 -18.669 38.639 54.760 1.00119.34 C +ATOM 4006 C MET J 144 -19.747 37.715 54.216 1.00115.63 C +ATOM 4007 O MET J 144 -20.878 38.150 53.981 1.00114.81 O +ATOM 4008 CB MET J 144 -18.991 39.034 56.205 1.00123.61 C +ATOM 4009 CG MET J 144 -18.880 37.883 57.197 1.00120.13 C +ATOM 4010 SD MET J 144 -19.553 38.265 58.825 1.00133.76 S +ATOM 4011 CE MET J 144 -18.302 39.387 59.445 1.00144.71 C +ATOM 4012 N HIS J 145 -19.403 36.448 54.027 1.00113.42 N +ATOM 4013 CA HIS J 145 -20.290 35.486 53.392 1.00109.54 C +ATOM 4014 C HIS J 145 -20.876 34.525 54.417 1.00108.86 C +ATOM 4015 O HIS J 145 -20.194 34.098 55.357 1.00108.78 O +ATOM 4016 CB HIS J 145 -19.554 34.702 52.303 1.00107.13 C +ATOM 4017 CG HIS J 145 -18.841 35.569 51.313 1.00108.89 C +ATOM 4018 ND1 HIS J 145 -19.506 36.357 50.398 1.00108.73 N +ATOM 4019 CD2 HIS J 145 -17.521 35.779 51.100 1.00108.90 C +ATOM 4020 CE1 HIS J 145 -18.625 37.010 49.660 1.00108.70 C +ATOM 4021 NE2 HIS J 145 -17.414 36.676 50.066 1.00109.38 N +ATOM 4022 N ASP J 146 -22.150 34.198 54.220 1.00107.07 N +ATOM 4023 CA ASP J 146 -22.889 33.245 55.040 1.00105.87 C +ATOM 4024 C ASP J 146 -23.206 32.048 54.153 1.00102.85 C +ATOM 4025 O ASP J 146 -23.984 32.165 53.200 1.00101.10 O +ATOM 4026 CB ASP J 146 -24.161 33.882 55.597 1.00111.16 C +ATOM 4027 CG ASP J 146 -24.987 32.920 56.435 1.00113.51 C +ATOM 4028 OD1 ASP J 146 -24.487 31.828 56.777 1.00111.00 O +ATOM 4029 OD2 ASP J 146 -26.149 33.258 56.747 1.00120.12 O +ATOM 4030 N VAL J 147 -22.590 30.910 54.457 1.00101.49 N +ATOM 4031 CA VAL J 147 -22.808 29.663 53.734 1.00 99.74 C +ATOM 4032 C VAL J 147 -23.771 28.803 54.540 1.00 95.99 C +ATOM 4033 O VAL J 147 -23.463 28.409 55.670 1.00 94.00 O +ATOM 4034 CB VAL J 147 -21.485 28.922 53.489 1.00 94.97 C +ATOM 4035 CG1 VAL J 147 -21.746 27.559 52.878 1.00 87.78 C +ATOM 4036 CG2 VAL J 147 -20.566 29.748 52.602 1.00 94.11 C +ATOM 4037 N ALA J 148 -24.932 28.508 53.967 1.00 94.20 N +ATOM 4038 CA ALA J 148 -25.934 27.672 54.612 1.00 94.05 C +ATOM 4039 C ALA J 148 -26.076 26.371 53.837 1.00 90.05 C +ATOM 4040 O ALA J 148 -26.259 26.386 52.614 1.00 89.56 O +ATOM 4041 CB ALA J 148 -27.282 28.388 54.697 1.00 98.74 C +ATOM 4042 N TYR J 149 -25.989 25.251 54.552 1.00 89.19 N +ATOM 4043 CA TYR J 149 -26.140 23.934 53.952 1.00 88.39 C +ATOM 4044 C TYR J 149 -27.085 23.082 54.787 1.00 90.41 C +ATOM 4045 O TYR J 149 -27.108 23.174 56.019 1.00 90.90 O +ATOM 4046 CB TYR J 149 -24.784 23.228 53.786 1.00 82.10 C +ATOM 4047 CG TYR J 149 -24.059 22.920 55.076 1.00 80.15 C +ATOM 4048 CD1 TYR J 149 -23.257 23.873 55.689 1.00 84.62 C +ATOM 4049 CD2 TYR J 149 -24.154 21.666 55.665 1.00 79.74 C +ATOM 4050 CE1 TYR J 149 -22.585 23.592 56.864 1.00 84.51 C +ATOM 4051 CE2 TYR J 149 -23.486 21.375 56.838 1.00 80.47 C +ATOM 4052 CZ TYR J 149 -22.702 22.341 57.433 1.00 83.53 C +ATOM 4053 OH TYR J 149 -22.034 22.055 58.602 1.00 82.87 O +ATOM 4054 N ARG J 150 -27.877 22.271 54.090 1.00 87.40 N +ATOM 4055 CA ARG J 150 -28.893 21.414 54.684 1.00 88.24 C +ATOM 4056 C ARG J 150 -28.854 20.054 54.003 1.00 86.24 C +ATOM 4057 O ARG J 150 -28.248 19.888 52.942 1.00 87.69 O +ATOM 4058 CB ARG J 150 -30.296 22.026 54.570 1.00 95.79 C +ATOM 4059 N GLN J 151 -29.480 19.070 54.637 1.00 90.92 N +ATOM 4060 CA GLN J 151 -29.611 17.755 54.030 1.00 92.04 C +ATOM 4061 C GLN J 151 -30.862 17.703 53.162 1.00102.34 C +ATOM 4062 O GLN J 151 -31.789 18.502 53.317 1.00108.67 O +ATOM 4063 CB GLN J 151 -29.681 16.658 55.091 1.00 93.63 C +ATOM 4064 CG GLN J 151 -28.375 16.369 55.792 1.00 84.98 C +ATOM 4065 CD GLN J 151 -28.467 15.163 56.703 1.00 84.88 C +ATOM 4066 OE1 GLN J 151 -28.127 15.236 57.883 1.00 88.99 O +ATOM 4067 NE2 GLN J 151 -28.928 14.043 56.157 1.00 79.30 N +ATOM 4068 N GLU J 152 -30.866 16.758 52.222 1.00 99.90 N +ATOM 4069 CA GLU J 152 -31.988 16.607 51.304 1.00108.02 C +ATOM 4070 C GLU J 152 -33.277 16.322 52.067 1.00116.96 C +ATOM 4071 O GLU J 152 -34.135 17.202 52.189 1.00118.96 O +ATOM 4072 CB GLU J 152 -31.709 15.493 50.293 1.00104.58 C +ATOM 4073 N LYS J 153 -33.434 15.094 52.567 1.00117.52 N +ATOM 4074 CA LYS J 153 -34.665 14.742 53.269 1.00124.83 C +ATOM 4075 C LYS J 153 -34.734 15.407 54.642 1.00128.12 C +ATOM 4076 O LYS J 153 -35.701 16.109 54.959 1.00126.69 O +ATOM 4077 CB LYS J 153 -34.772 13.222 53.398 1.00127.20 C +ATOM 4078 N ASP J 154 -33.707 15.202 55.470 1.00128.74 N +ATOM 4079 CA ASP J 154 -33.672 15.733 56.832 1.00134.25 C +ATOM 4080 C ASP J 154 -33.490 17.252 56.862 1.00136.16 C +ATOM 4081 O ASP J 154 -32.713 17.765 57.674 1.00134.54 O +ATOM 4082 CB ASP J 154 -32.563 15.047 57.635 1.00130.67 C +ATOM 4083 CG ASP J 154 -32.756 15.184 59.135 1.00133.19 C +ATOM 4084 N GLU J 155 -34.182 17.978 55.982 1.00133.23 N +ATOM 4085 CA GLU J 155 -34.047 19.429 55.894 1.00138.28 C +ATOM 4086 C GLU J 155 -34.875 20.198 56.920 1.00153.75 C +ATOM 4087 O GLU J 155 -35.683 21.056 56.544 1.00158.18 O +ATOM 4088 CB GLU J 155 -34.426 19.896 54.487 1.00132.10 C +ATOM 4089 N ASN J 156 -34.678 19.937 58.212 1.00156.02 N +ATOM 4090 CA ASN J 156 -35.490 20.642 59.199 1.00158.96 C +ATOM 4091 C ASN J 156 -34.905 22.010 59.543 1.00156.49 C +ATOM 4092 O ASN J 156 -35.655 22.982 59.694 1.00161.32 O +ATOM 4093 CB ASN J 156 -35.646 19.795 60.464 1.00163.23 C +ATOM 4094 CG ASN J 156 -37.099 19.638 60.891 1.00169.88 C +ATOM 4095 OD1 ASN J 156 -37.708 18.587 60.686 1.00171.15 O +ATOM 4096 ND2 ASN J 156 -37.661 20.687 61.481 1.00173.43 N +ATOM 4097 N LYS J 157 -33.580 22.114 59.666 1.00147.69 N +ATOM 4098 CA LYS J 157 -32.935 23.402 59.898 1.00137.22 C +ATOM 4099 C LYS J 157 -31.595 23.484 59.174 1.00126.89 C +ATOM 4100 O LYS J 157 -30.854 22.501 59.086 1.00121.82 O +ATOM 4101 CB LYS J 157 -32.736 23.657 61.398 1.00136.16 C +ATOM 4102 N TRP J 158 -31.301 24.677 58.656 1.00119.78 N +ATOM 4103 CA TRP J 158 -30.081 24.943 57.899 1.00109.23 C +ATOM 4104 C TRP J 158 -28.898 25.188 58.832 1.00104.97 C +ATOM 4105 O TRP J 158 -29.025 25.875 59.849 1.00106.00 O +ATOM 4106 CB TRP J 158 -30.278 26.169 57.006 1.00106.71 C +ATOM 4107 CG TRP J 158 -31.330 25.992 55.966 1.00108.60 C +ATOM 4108 CD1 TRP J 158 -32.672 26.160 56.132 1.00112.35 C +ATOM 4109 CD2 TRP J 158 -31.134 25.659 54.587 1.00105.38 C +ATOM 4110 NE1 TRP J 158 -33.329 25.926 54.950 1.00110.88 N +ATOM 4111 CE2 TRP J 158 -32.407 25.620 53.984 1.00106.38 C +ATOM 4112 CE3 TRP J 158 -30.008 25.382 53.805 1.00100.09 C +ATOM 4113 CZ2 TRP J 158 -32.586 25.314 52.638 1.00103.58 C +ATOM 4114 CZ3 TRP J 158 -30.189 25.076 52.469 1.00 99.13 C +ATOM 4115 CH2 TRP J 158 -31.468 25.045 51.899 1.00101.98 C +ATOM 4116 N THR J 159 -27.742 24.617 58.488 1.00 97.86 N +ATOM 4117 CA THR J 159 -26.493 24.920 59.185 1.00 93.22 C +ATOM 4118 C THR J 159 -25.782 26.080 58.493 1.00 93.25 C +ATOM 4119 O THR J 159 -25.467 25.995 57.302 1.00 94.90 O +ATOM 4120 CB THR J 159 -25.578 23.696 59.236 1.00 85.68 C +ATOM 4121 OG1 THR J 159 -26.280 22.588 59.814 1.00 84.90 O +ATOM 4122 CG2 THR J 159 -24.338 23.996 60.070 1.00 83.71 C +ATOM 4123 N HIS J 160 -25.526 27.155 59.240 1.00 93.97 N +ATOM 4124 CA HIS J 160 -24.916 28.368 58.712 1.00 95.54 C +ATOM 4125 C HIS J 160 -23.470 28.501 59.182 1.00 94.85 C +ATOM 4126 O HIS J 160 -23.119 28.088 60.291 1.00 96.63 O +ATOM 4127 CB HIS J 160 -25.709 29.608 59.137 1.00 99.32 C +ATOM 4128 CG HIS J 160 -27.086 29.676 58.553 1.00102.18 C +ATOM 4129 ND1 HIS J 160 -27.422 30.544 57.537 1.00100.89 N +ATOM 4130 CD2 HIS J 160 -28.213 28.983 58.843 1.00102.33 C +ATOM 4131 CE1 HIS J 160 -28.696 30.384 57.226 1.00104.62 C +ATOM 4132 NE2 HIS J 160 -29.199 29.442 58.004 1.00105.71 N +ATOM 4133 N VAL J 161 -22.635 29.091 58.324 1.00 96.24 N +ATOM 4134 CA VAL J 161 -21.218 29.317 58.605 1.00 99.20 C +ATOM 4135 C VAL J 161 -20.831 30.695 58.079 1.00103.63 C +ATOM 4136 O VAL J 161 -21.033 30.991 56.896 1.00102.89 O +ATOM 4137 CB VAL J 161 -20.310 28.242 57.979 1.00 95.67 C +ATOM 4138 CG1 VAL J 161 -18.849 28.562 58.256 1.00 94.68 C +ATOM 4139 CG2 VAL J 161 -20.656 26.862 58.516 1.00 89.96 C +ATOM 4140 N ASN J 162 -20.282 31.536 58.955 1.00104.54 N +ATOM 4141 CA ASN J 162 -19.801 32.861 58.584 1.00106.17 C +ATOM 4142 C ASN J 162 -18.322 32.811 58.212 1.00106.80 C +ATOM 4143 O ASN J 162 -17.529 32.126 58.865 1.00107.92 O +ATOM 4144 CB ASN J 162 -20.016 33.840 59.740 1.00108.41 C +ATOM 4145 CG ASN J 162 -21.460 34.281 59.872 1.00112.07 C +ATOM 4146 OD1 ASN J 162 -22.350 33.741 59.213 1.00112.48 O +ATOM 4147 ND2 ASN J 162 -21.704 35.260 60.740 1.00108.31 N +ATOM 4148 N LEU J 163 -17.951 33.546 57.163 1.00109.77 N +ATOM 4149 CA LEU J 163 -16.565 33.570 56.710 1.00111.39 C +ATOM 4150 C LEU J 163 -16.280 34.889 56.000 1.00114.06 C +ATOM 4151 O LEU J 163 -17.190 35.654 55.680 1.00114.56 O +ATOM 4152 CB LEU J 163 -16.248 32.363 55.815 1.00110.26 C +ATOM 4153 CG LEU J 163 -17.082 32.101 54.557 1.00108.10 C +ATOM 4154 CD1 LEU J 163 -16.568 32.883 53.365 1.00108.21 C +ATOM 4155 CD2 LEU J 163 -17.098 30.614 54.247 1.00 97.63 C +ATOM 4156 N SER J 164 -14.993 35.148 55.754 1.00117.21 N +ATOM 4157 CA SER J 164 -14.561 36.366 55.076 1.00119.70 C +ATOM 4158 C SER J 164 -13.920 36.131 53.716 1.00116.84 C +ATOM 4159 O SER J 164 -14.001 37.008 52.854 1.00116.27 O +ATOM 4160 CB SER J 164 -13.569 37.140 55.955 1.00125.70 C +ATOM 4161 OG SER J 164 -12.460 36.330 56.305 1.00126.11 O +ATOM 4162 N SER J 165 -13.285 34.979 53.502 1.00113.62 N +ATOM 4163 CA SER J 165 -12.647 34.676 52.225 1.00109.68 C +ATOM 4164 C SER J 165 -13.675 34.186 51.214 1.00105.90 C +ATOM 4165 O SER J 165 -14.865 34.489 51.335 1.00107.03 O +ATOM 4166 CB SER J 165 -11.541 33.636 52.411 1.00106.26 C +ATOM 4167 OG SER J 165 -12.075 32.396 52.843 1.00101.92 O +ATOM 4168 N THR J 166 -13.224 33.458 50.193 1.00102.47 N +ATOM 4169 CA THR J 166 -14.123 32.850 49.219 1.00 98.41 C +ATOM 4170 C THR J 166 -14.027 31.330 49.217 1.00 95.56 C +ATOM 4171 O THR J 166 -14.564 30.685 48.307 1.00 91.28 O +ATOM 4172 CB THR J 166 -13.848 33.395 47.814 1.00 96.47 C +ATOM 4173 OG1 THR J 166 -12.463 33.223 47.491 1.00100.44 O +ATOM 4174 CG2 THR J 166 -14.207 34.871 47.734 1.00 98.25 C +ATOM 4175 N LYS J 167 -13.358 30.742 50.207 1.00 92.84 N +ATOM 4176 CA LYS J 167 -13.198 29.300 50.303 1.00 87.93 C +ATOM 4177 C LYS J 167 -13.515 28.842 51.720 1.00 88.04 C +ATOM 4178 O LYS J 167 -13.251 29.552 52.695 1.00 92.03 O +ATOM 4179 CB LYS J 167 -11.778 28.863 49.918 1.00 87.80 C +ATOM 4180 N LEU J 168 -14.086 27.644 51.821 1.00 85.09 N +ATOM 4181 CA LEU J 168 -14.449 27.057 53.103 1.00 83.47 C +ATOM 4182 C LEU J 168 -14.113 25.572 53.074 1.00 79.98 C +ATOM 4183 O LEU J 168 -14.044 24.956 52.010 1.00 83.29 O +ATOM 4184 CB LEU J 168 -15.939 27.275 53.415 1.00 83.02 C +ATOM 4185 CG LEU J 168 -16.520 26.709 54.714 1.00 85.65 C +ATOM 4186 CD1 LEU J 168 -15.838 27.329 55.923 1.00 85.23 C +ATOM 4187 CD2 LEU J 168 -18.024 26.923 54.771 1.00 85.67 C +ATOM 4188 N THR J 169 -13.906 24.996 54.257 1.00 79.21 N +ATOM 4189 CA THR J 169 -13.563 23.584 54.386 1.00 80.19 C +ATOM 4190 C THR J 169 -14.497 22.933 55.394 1.00 83.17 C +ATOM 4191 O THR J 169 -14.578 23.376 56.544 1.00 93.81 O +ATOM 4192 CB THR J 169 -12.105 23.406 54.817 1.00 80.16 C +ATOM 4193 OG1 THR J 169 -11.242 24.049 53.871 1.00 84.45 O +ATOM 4194 CG2 THR J 169 -11.751 21.929 54.897 1.00 80.26 C +ATOM 4195 N LEU J 170 -15.199 21.888 54.962 1.00 82.61 N +ATOM 4196 CA LEU J 170 -16.101 21.123 55.815 1.00 81.98 C +ATOM 4197 C LEU J 170 -15.499 19.744 56.045 1.00 81.42 C +ATOM 4198 O LEU J 170 -15.200 19.028 55.083 1.00 83.15 O +ATOM 4199 CB LEU J 170 -17.488 21.003 55.183 1.00 81.83 C +ATOM 4200 CG LEU J 170 -18.183 22.304 54.778 1.00 83.67 C +ATOM 4201 CD1 LEU J 170 -19.535 22.010 54.145 1.00 83.28 C +ATOM 4202 CD2 LEU J 170 -18.337 23.228 55.975 1.00 84.79 C +ATOM 4203 N LEU J 171 -15.329 19.371 57.310 1.00 79.83 N +ATOM 4204 CA LEU J 171 -14.734 18.080 57.628 1.00 82.39 C +ATOM 4205 C LEU J 171 -15.722 16.950 57.364 1.00 83.39 C +ATOM 4206 O LEU J 171 -16.919 17.070 57.642 1.00 83.86 O +ATOM 4207 CB LEU J 171 -14.281 18.052 59.087 1.00 87.85 C +ATOM 4208 CG LEU J 171 -13.146 19.006 59.463 1.00 89.89 C +ATOM 4209 CD1 LEU J 171 -12.953 19.048 60.973 1.00 92.67 C +ATOM 4210 CD2 LEU J 171 -11.855 18.608 58.765 1.00 88.02 C +ATOM 4211 N GLN J 172 -15.210 15.845 56.815 1.00 82.34 N +ATOM 4212 CA GLN J 172 -16.063 14.697 56.516 1.00 83.94 C +ATOM 4213 C GLN J 172 -16.628 14.079 57.788 1.00 85.01 C +ATOM 4214 O GLN J 172 -17.775 13.617 57.804 1.00 84.84 O +ATOM 4215 CB GLN J 172 -15.281 13.651 55.721 1.00 85.08 C +ATOM 4216 CG GLN J 172 -16.134 12.538 55.136 1.00 83.37 C +ATOM 4217 CD GLN J 172 -15.300 11.422 54.535 1.00 82.73 C +ATOM 4218 OE1 GLN J 172 -14.553 11.635 53.582 1.00 80.34 O +ATOM 4219 NE2 GLN J 172 -15.427 10.223 55.090 1.00 86.86 N +ATOM 4220 N ARG J 173 -15.833 14.054 58.861 1.00 86.95 N +ATOM 4221 CA ARG J 173 -16.292 13.462 60.114 1.00 85.68 C +ATOM 4222 C ARG J 173 -17.456 14.239 60.715 1.00 87.00 C +ATOM 4223 O ARG J 173 -18.274 13.665 61.442 1.00 86.47 O +ATOM 4224 CB ARG J 173 -15.134 13.381 61.108 1.00 83.08 C +ATOM 4225 CG ARG J 173 -14.503 14.725 61.429 1.00 85.71 C +ATOM 4226 CD ARG J 173 -13.523 14.622 62.585 1.00 89.38 C +ATOM 4227 NE ARG J 173 -13.091 15.940 63.042 1.00 99.19 N +ATOM 4228 CZ ARG J 173 -12.349 16.151 64.124 1.00108.19 C +ATOM 4229 NH1 ARG J 173 -11.954 15.127 64.869 1.00114.89 N +ATOM 4230 NH2 ARG J 173 -12.003 17.385 64.463 1.00110.67 N +ATOM 4231 N LYS J 174 -17.549 15.537 60.428 1.00 87.73 N +ATOM 4232 CA LYS J 174 -18.630 16.375 60.926 1.00 88.03 C +ATOM 4233 C LYS J 174 -19.823 16.418 59.975 1.00 87.34 C +ATOM 4234 O LYS J 174 -20.589 17.388 60.000 1.00 86.36 O +ATOM 4235 CB LYS J 174 -18.117 17.791 61.200 1.00 89.31 C +ATOM 4236 CG LYS J 174 -17.074 17.865 62.307 1.00 90.95 C +ATOM 4237 CD LYS J 174 -16.496 19.266 62.442 1.00 92.54 C +ATOM 4238 CE LYS J 174 -17.499 20.220 63.069 1.00100.40 C +ATOM 4239 NZ LYS J 174 -17.637 19.999 64.536 1.00 96.21 N +ATOM 4240 N LEU J 175 -19.993 15.393 59.142 1.00 87.05 N +ATOM 4241 CA LEU J 175 -21.106 15.316 58.208 1.00 86.99 C +ATOM 4242 C LEU J 175 -21.664 13.900 58.205 1.00 88.06 C +ATOM 4243 O LEU J 175 -20.934 12.929 58.421 1.00 88.48 O +ATOM 4244 CB LEU J 175 -20.685 15.720 56.788 1.00 84.47 C +ATOM 4245 CG LEU J 175 -20.304 17.187 56.584 1.00 83.85 C +ATOM 4246 CD1 LEU J 175 -19.702 17.403 55.204 1.00 85.11 C +ATOM 4247 CD2 LEU J 175 -21.511 18.089 56.792 1.00 83.87 C +ATOM 4248 N GLN J 176 -22.965 13.795 57.962 1.00 88.47 N +ATOM 4249 CA GLN J 176 -23.624 12.494 57.963 1.00 87.86 C +ATOM 4250 C GLN J 176 -23.163 11.670 56.765 1.00 85.98 C +ATOM 4251 O GLN J 176 -23.128 12.185 55.641 1.00 87.22 O +ATOM 4252 CB GLN J 176 -25.142 12.663 57.933 1.00 88.11 C +ATOM 4253 CG GLN J 176 -25.700 13.491 59.081 1.00 86.57 C +ATOM 4254 CD GLN J 176 -25.392 12.892 60.439 1.00 83.64 C +ATOM 4255 OE1 GLN J 176 -25.506 11.682 60.636 1.00 82.06 O +ATOM 4256 NE2 GLN J 176 -25.000 13.738 61.383 1.00 81.22 N +ATOM 4257 N PRO J 177 -22.797 10.405 56.959 1.00 84.13 N +ATOM 4258 CA PRO J 177 -22.353 9.584 55.828 1.00 88.28 C +ATOM 4259 C PRO J 177 -23.502 9.227 54.900 1.00 89.07 C +ATOM 4260 O PRO J 177 -24.659 9.119 55.315 1.00 87.97 O +ATOM 4261 CB PRO J 177 -21.782 8.328 56.502 1.00 88.48 C +ATOM 4262 CG PRO J 177 -21.599 8.696 57.946 1.00 88.39 C +ATOM 4263 CD PRO J 177 -22.658 9.702 58.243 1.00 86.48 C +ATOM 4264 N ALA J 178 -23.159 9.036 53.623 1.00 89.83 N +ATOM 4265 CA ALA J 178 -24.103 8.574 52.602 1.00 93.31 C +ATOM 4266 C ALA J 178 -25.337 9.469 52.527 1.00 92.79 C +ATOM 4267 O ALA J 178 -26.470 8.996 52.409 1.00101.07 O +ATOM 4268 CB ALA J 178 -24.500 7.117 52.844 1.00 94.85 C +ATOM 4269 N ALA J 179 -25.117 10.779 52.593 1.00 88.13 N +ATOM 4270 CA ALA J 179 -26.197 11.752 52.584 1.00 89.09 C +ATOM 4271 C ALA J 179 -25.924 12.815 51.532 1.00 83.94 C +ATOM 4272 O ALA J 179 -24.771 13.167 51.267 1.00 83.90 O +ATOM 4273 CB ALA J 179 -26.373 12.411 53.959 1.00 92.10 C +ATOM 4274 N MET J 180 -26.996 13.325 50.934 1.00 84.04 N +ATOM 4275 CA MET J 180 -26.903 14.409 49.967 1.00 85.18 C +ATOM 4276 C MET J 180 -27.151 15.734 50.673 1.00 85.21 C +ATOM 4277 O MET J 180 -28.094 15.859 51.461 1.00 89.89 O +ATOM 4278 CB MET J 180 -27.906 14.230 48.825 1.00 85.68 C +ATOM 4279 CG MET J 180 -27.753 15.274 47.723 1.00 90.19 C +ATOM 4280 SD MET J 180 -28.851 15.037 46.312 1.00115.70 S +ATOM 4281 CE MET J 180 -30.344 15.831 46.903 1.00102.27 C +ATOM 4282 N TYR J 181 -26.301 16.713 50.387 1.00 80.74 N +ATOM 4283 CA TYR J 181 -26.372 18.036 50.980 1.00 80.05 C +ATOM 4284 C TYR J 181 -26.580 19.078 49.893 1.00 81.33 C +ATOM 4285 O TYR J 181 -25.928 19.036 48.839 1.00 84.57 O +ATOM 4286 CB TYR J 181 -25.095 18.363 51.762 1.00 80.79 C +ATOM 4287 CG TYR J 181 -24.960 17.656 53.092 1.00 81.05 C +ATOM 4288 CD1 TYR J 181 -24.423 16.378 53.172 1.00 81.32 C +ATOM 4289 CD2 TYR J 181 -25.338 18.283 54.272 1.00 80.72 C +ATOM 4290 CE1 TYR J 181 -24.290 15.734 54.390 1.00 83.20 C +ATOM 4291 CE2 TYR J 181 -25.204 17.651 55.493 1.00 82.27 C +ATOM 4292 CZ TYR J 181 -24.682 16.376 55.546 1.00 84.65 C +ATOM 4293 OH TYR J 181 -24.550 15.743 56.761 1.00 84.39 O +ATOM 4294 N GLU J 182 -27.497 20.001 50.166 1.00 81.73 N +ATOM 4295 CA GLU J 182 -27.680 21.223 49.400 1.00 83.26 C +ATOM 4296 C GLU J 182 -26.962 22.355 50.122 1.00 84.34 C +ATOM 4297 O GLU J 182 -26.925 22.387 51.356 1.00 85.49 O +ATOM 4298 CB GLU J 182 -29.170 21.543 49.249 1.00 86.97 C +ATOM 4299 CG GLU J 182 -29.482 22.868 48.576 1.00 92.28 C +ATOM 4300 CD GLU J 182 -30.971 23.145 48.513 1.00 96.76 C +ATOM 4301 OE1 GLU J 182 -31.760 22.238 48.853 1.00 95.81 O +ATOM 4302 OE2 GLU J 182 -31.353 24.269 48.126 1.00101.25 O +ATOM 4303 N ILE J 183 -26.390 23.279 49.356 1.00 83.64 N +ATOM 4304 CA ILE J 183 -25.561 24.333 49.932 1.00 83.91 C +ATOM 4305 C ILE J 183 -25.722 25.597 49.098 1.00 85.98 C +ATOM 4306 O ILE J 183 -25.898 25.532 47.878 1.00 88.02 O +ATOM 4307 CB ILE J 183 -24.085 23.881 50.019 1.00 80.49 C +ATOM 4308 CG1 ILE J 183 -23.220 24.934 50.712 1.00 79.82 C +ATOM 4309 CG2 ILE J 183 -23.538 23.550 48.637 1.00 81.83 C +ATOM 4310 CD1 ILE J 183 -21.836 24.433 51.066 1.00 73.20 C +ATOM 4311 N LYS J 184 -25.690 26.750 49.768 1.00 86.94 N +ATOM 4312 CA LYS J 184 -25.793 28.039 49.093 1.00 91.22 C +ATOM 4313 C LYS J 184 -25.147 29.102 49.972 1.00 94.35 C +ATOM 4314 O LYS J 184 -24.768 28.840 51.115 1.00 94.33 O +ATOM 4315 CB LYS J 184 -27.250 28.378 48.764 1.00 94.43 C +ATOM 4316 CG LYS J 184 -28.240 28.000 49.850 1.00 97.60 C +ATOM 4317 CD LYS J 184 -29.658 28.362 49.443 1.00102.68 C +ATOM 4318 CE LYS J 184 -30.622 28.202 50.605 1.00103.02 C +ATOM 4319 NZ LYS J 184 -32.039 28.342 50.171 1.00100.85 N +ATOM 4320 N VAL J 185 -25.004 30.308 49.417 1.00 96.89 N +ATOM 4321 CA VAL J 185 -24.237 31.365 50.066 1.00 99.58 C +ATOM 4322 C VAL J 185 -24.874 32.726 49.802 1.00103.67 C +ATOM 4323 O VAL J 185 -25.432 32.980 48.730 1.00103.13 O +ATOM 4324 CB VAL J 185 -22.756 31.347 49.607 1.00 95.98 C +ATOM 4325 CG1 VAL J 185 -22.645 31.619 48.115 1.00 94.56 C +ATOM 4326 CG2 VAL J 185 -21.922 32.340 50.409 1.00 99.24 C +ATOM 4327 N ARG J 186 -24.793 33.599 50.806 1.00107.14 N +ATOM 4328 CA ARG J 186 -25.167 35.004 50.696 1.00109.31 C +ATOM 4329 C ARG J 186 -23.998 35.863 51.161 1.00110.63 C +ATOM 4330 O ARG J 186 -23.026 35.365 51.734 1.00110.07 O +ATOM 4331 CB ARG J 186 -26.427 35.331 51.509 1.00113.86 C +ATOM 4332 CG ARG J 186 -27.697 34.725 50.943 1.00114.92 C +ATOM 4333 CD ARG J 186 -28.930 35.150 51.725 1.00120.27 C +ATOM 4334 NE ARG J 186 -28.868 34.751 53.127 1.00123.61 N +ATOM 4335 CZ ARG J 186 -29.790 35.062 54.033 1.00126.42 C +ATOM 4336 NH1 ARG J 186 -30.850 35.778 53.684 1.00126.52 N +ATOM 4337 NH2 ARG J 186 -29.652 34.659 55.288 1.00128.57 N +ATOM 4338 N SER J 187 -24.104 37.171 50.934 1.00114.43 N +ATOM 4339 CA SER J 187 -23.031 38.091 51.278 1.00120.09 C +ATOM 4340 C SER J 187 -23.596 39.323 51.964 1.00126.62 C +ATOM 4341 O SER J 187 -24.752 39.697 51.756 1.00127.84 O +ATOM 4342 CB SER J 187 -22.233 38.515 50.039 1.00121.95 C +ATOM 4343 OG SER J 187 -21.640 37.393 49.418 1.00118.52 O +ATOM 4344 N ILE J 188 -22.758 39.955 52.783 1.00129.80 N +ATOM 4345 CA ILE J 188 -23.146 41.159 53.514 1.00134.68 C +ATOM 4346 C ILE J 188 -21.930 42.085 53.567 1.00135.27 C +ATOM 4347 O ILE J 188 -20.794 41.602 53.632 1.00136.10 O +ATOM 4348 CB ILE J 188 -23.679 40.778 54.909 1.00133.08 C +ATOM 4349 CG1 ILE J 188 -25.208 40.729 54.908 1.00132.81 C +ATOM 4350 CG2 ILE J 188 -23.241 41.771 55.964 1.00131.51 C +ATOM 4351 CD1 ILE J 188 -25.820 40.191 56.200 1.00131.52 C +ATOM 4352 N PRO J 189 -22.104 43.408 53.536 1.00138.34 N +ATOM 4353 CA PRO J 189 -20.959 44.319 53.730 1.00144.34 C +ATOM 4354 C PRO J 189 -20.302 44.202 55.104 1.00150.30 C +ATOM 4355 O PRO J 189 -20.971 44.039 56.127 1.00149.37 O +ATOM 4356 CB PRO J 189 -21.578 45.709 53.532 1.00146.01 C +ATOM 4357 CG PRO J 189 -22.806 45.473 52.732 1.00144.55 C +ATOM 4358 CD PRO J 189 -23.331 44.140 53.167 1.00140.78 C +ATOM 4359 N ASP J 190 -18.975 44.326 55.115 1.00154.68 N +ATOM 4360 CA ASP J 190 -18.173 44.230 56.335 1.00160.76 C +ATOM 4361 C ASP J 190 -16.972 45.179 56.266 1.00165.61 C +ATOM 4362 O ASP J 190 -15.817 44.777 56.423 1.00165.43 O +ATOM 4363 CB ASP J 190 -17.748 42.779 56.570 1.00155.78 C +ATOM 4364 CG ASP J 190 -17.030 42.562 57.899 1.00164.43 C +ATOM 4365 OD1 ASP J 190 -16.995 43.460 58.765 1.00171.68 O +ATOM 4366 OD2 ASP J 190 -16.482 41.441 58.062 1.00160.92 O +ATOM 4367 N HIS J 191 -17.236 46.449 55.949 1.00170.49 N +ATOM 4368 CA HIS J 191 -16.230 47.502 56.055 1.00177.02 C +ATOM 4369 C HIS J 191 -16.877 48.878 56.175 1.00177.70 C +ATOM 4370 O HIS J 191 -17.769 49.098 57.002 1.00177.01 O +ATOM 4371 CB HIS J 191 -15.241 47.491 54.891 1.00177.76 C +ATOM 4372 CG HIS J 191 -13.911 48.090 55.244 1.00182.57 C +ATOM 4373 ND1 HIS J 191 -12.762 47.863 54.517 1.00183.01 N +ATOM 4374 CD2 HIS J 191 -13.552 48.900 56.269 1.00185.78 C +ATOM 4375 CE1 HIS J 191 -11.755 48.512 55.076 1.00185.11 C +ATOM 4376 NE2 HIS J 191 -12.208 49.149 56.140 1.00187.78 N +ATOM 4377 N TYR J 192 -16.390 49.813 55.358 1.00177.46 N +ATOM 4378 CA TYR J 192 -16.961 51.152 55.296 1.00174.93 C +ATOM 4379 C TYR J 192 -18.455 51.097 54.992 1.00173.19 C +ATOM 4380 O TYR J 192 -19.236 51.900 55.517 1.00172.50 O +ATOM 4381 CB TYR J 192 -16.206 51.945 54.226 1.00171.18 C +ATOM 4382 CG TYR J 192 -16.645 53.368 54.019 1.00167.95 C +ATOM 4383 CD1 TYR J 192 -17.123 54.133 55.071 1.00166.09 C +ATOM 4384 CD2 TYR J 192 -16.574 53.949 52.761 1.00166.99 C +ATOM 4385 CE1 TYR J 192 -17.520 55.437 54.877 1.00164.77 C +ATOM 4386 CE2 TYR J 192 -16.969 55.250 52.555 1.00165.61 C +ATOM 4387 CZ TYR J 192 -17.441 55.991 53.616 1.00163.19 C +ATOM 4388 OH TYR J 192 -17.838 57.292 53.416 1.00153.33 O +ATOM 4389 N PHE J 193 -18.869 50.153 54.152 1.00170.56 N +ATOM 4390 CA PHE J 193 -20.267 49.995 53.774 1.00165.25 C +ATOM 4391 C PHE J 193 -20.946 48.978 54.685 1.00162.71 C +ATOM 4392 O PHE J 193 -20.326 47.999 55.110 1.00162.91 O +ATOM 4393 CB PHE J 193 -20.377 49.563 52.312 1.00161.24 C +ATOM 4394 CG PHE J 193 -19.748 50.532 51.349 1.00160.33 C +ATOM 4395 CD1 PHE J 193 -18.393 50.465 51.064 1.00161.84 C +ATOM 4396 CD2 PHE J 193 -20.506 51.518 50.740 1.00158.52 C +ATOM 4397 CE1 PHE J 193 -17.809 51.355 50.183 1.00161.03 C +ATOM 4398 CE2 PHE J 193 -19.927 52.413 49.858 1.00158.12 C +ATOM 4399 CZ PHE J 193 -18.577 52.330 49.580 1.00159.43 C +ATOM 4400 N LYS J 194 -22.211 49.236 55.017 1.00160.10 N +ATOM 4401 CA LYS J 194 -23.025 48.298 55.778 1.00158.74 C +ATOM 4402 C LYS J 194 -24.394 48.129 55.131 1.00158.58 C +ATOM 4403 O LYS J 194 -24.845 48.970 54.349 1.00156.74 O +ATOM 4404 CB LYS J 194 -23.193 48.756 57.233 1.00157.28 C +ATOM 4405 N GLY J 195 -25.058 47.023 55.474 1.00158.78 N +ATOM 4406 CA GLY J 195 -26.401 46.770 54.983 1.00160.44 C +ATOM 4407 C GLY J 195 -27.051 45.486 55.463 1.00166.36 C +ATOM 4408 O GLY J 195 -27.059 45.208 56.668 1.00171.58 O +ATOM 4409 N PHE J 196 -27.569 44.681 54.537 1.00163.68 N +ATOM 4410 CA PHE J 196 -28.363 43.496 54.876 1.00160.75 C +ATOM 4411 C PHE J 196 -27.963 42.356 53.937 1.00149.07 C +ATOM 4412 O PHE J 196 -27.011 42.471 53.156 1.00143.58 O +ATOM 4413 CB PHE J 196 -29.858 43.844 54.855 1.00162.24 C +ATOM 4414 CG PHE J 196 -30.250 44.837 55.926 1.00167.08 C +ATOM 4415 CD1 PHE J 196 -30.061 44.539 57.266 1.00169.21 C +ATOM 4416 CD2 PHE J 196 -30.779 46.076 55.587 1.00168.63 C +ATOM 4417 CE1 PHE J 196 -30.404 45.450 58.249 1.00171.11 C +ATOM 4418 CE2 PHE J 196 -31.126 46.987 56.570 1.00172.00 C +ATOM 4419 CZ PHE J 196 -30.939 46.674 57.898 1.00173.80 C +ATOM 4420 N TRP J 197 -28.714 41.253 53.996 1.00143.90 N +ATOM 4421 CA TRP J 197 -28.409 40.075 53.191 1.00134.43 C +ATOM 4422 C TRP J 197 -28.695 40.304 51.713 1.00131.51 C +ATOM 4423 O TRP J 197 -29.648 40.997 51.343 1.00132.57 O +ATOM 4424 CB TRP J 197 -29.267 38.887 53.629 1.00133.43 C +ATOM 4425 CG TRP J 197 -28.977 38.309 54.961 1.00135.18 C +ATOM 4426 CD1 TRP J 197 -27.939 37.495 55.295 1.00133.08 C +ATOM 4427 CD2 TRP J 197 -29.770 38.461 56.145 1.00137.99 C +ATOM 4428 NE1 TRP J 197 -28.026 37.141 56.620 1.00133.54 N +ATOM 4429 CE2 TRP J 197 -29.140 37.723 57.164 1.00138.81 C +ATOM 4430 CE3 TRP J 197 -30.945 39.161 56.443 1.00137.26 C +ATOM 4431 CZ2 TRP J 197 -29.644 37.663 58.461 1.00142.13 C +ATOM 4432 CZ3 TRP J 197 -31.444 39.099 57.734 1.00134.54 C +ATOM 4433 CH2 TRP J 197 -30.794 38.356 58.726 1.00134.93 C +ATOM 4434 N SER J 198 -27.850 39.714 50.867 1.00127.31 N +ATOM 4435 CA SER J 198 -28.074 39.614 49.432 1.00124.80 C +ATOM 4436 C SER J 198 -29.077 38.494 49.151 1.00118.06 C +ATOM 4437 O SER J 198 -29.571 37.825 50.063 1.00117.97 O +ATOM 4438 CB SER J 198 -26.756 39.375 48.701 1.00124.28 C +ATOM 4439 OG SER J 198 -26.239 38.086 48.983 1.00120.11 O +ATOM 4440 N GLU J 199 -29.389 38.278 47.876 1.00112.30 N +ATOM 4441 CA GLU J 199 -30.229 37.148 47.504 1.00109.39 C +ATOM 4442 C GLU J 199 -29.424 35.853 47.555 1.00110.80 C +ATOM 4443 O GLU J 199 -28.200 35.851 47.395 1.00111.39 O +ATOM 4444 CB GLU J 199 -30.817 37.347 46.106 1.00106.43 C +ATOM 4445 CG GLU J 199 -31.882 38.433 46.022 1.00107.51 C +ATOM 4446 CD GLU J 199 -33.140 38.094 46.802 1.00111.37 C +ATOM 4447 OE1 GLU J 199 -33.375 36.898 47.079 1.00111.55 O +ATOM 4448 OE2 GLU J 199 -33.896 39.028 47.144 1.00110.44 O +ATOM 4449 N TRP J 200 -30.126 34.744 47.785 1.00111.47 N +ATOM 4450 CA TRP J 200 -29.472 33.441 47.840 1.00109.98 C +ATOM 4451 C TRP J 200 -28.879 33.063 46.488 1.00109.16 C +ATOM 4452 O TRP J 200 -29.533 33.189 45.449 1.00107.48 O +ATOM 4453 CB TRP J 200 -30.460 32.366 48.297 1.00109.49 C +ATOM 4454 CG TRP J 200 -30.695 32.340 49.777 1.00110.19 C +ATOM 4455 CD1 TRP J 200 -31.822 32.736 50.436 1.00112.36 C +ATOM 4456 CD2 TRP J 200 -29.778 31.893 50.783 1.00110.47 C +ATOM 4457 NE1 TRP J 200 -31.664 32.562 51.790 1.00114.14 N +ATOM 4458 CE2 TRP J 200 -30.418 32.046 52.028 1.00112.27 C +ATOM 4459 CE3 TRP J 200 -28.478 31.379 50.751 1.00107.98 C +ATOM 4460 CZ2 TRP J 200 -29.802 31.703 53.230 1.00113.70 C +ATOM 4461 CZ3 TRP J 200 -27.869 31.040 51.945 1.00106.29 C +ATOM 4462 CH2 TRP J 200 -28.531 31.206 53.167 1.00110.24 C +ATOM 4463 N SER J 201 -27.632 32.597 46.511 1.00105.76 N +ATOM 4464 CA SER J 201 -26.991 32.078 45.317 1.00102.96 C +ATOM 4465 C SER J 201 -27.652 30.770 44.886 1.00 99.49 C +ATOM 4466 O SER J 201 -28.299 30.096 45.692 1.00101.24 O +ATOM 4467 CB SER J 201 -25.502 31.856 45.574 1.00100.68 C +ATOM 4468 OG SER J 201 -25.295 30.730 46.409 1.00 98.65 O +ATOM 4469 N PRO J 202 -27.521 30.400 43.610 1.00 95.86 N +ATOM 4470 CA PRO J 202 -28.017 29.089 43.172 1.00 93.94 C +ATOM 4471 C PRO J 202 -27.396 27.960 43.983 1.00 93.94 C +ATOM 4472 O PRO J 202 -26.195 27.955 44.261 1.00 95.67 O +ATOM 4473 CB PRO J 202 -27.600 29.022 41.697 1.00 94.67 C +ATOM 4474 CG PRO J 202 -26.579 30.108 41.519 1.00 97.02 C +ATOM 4475 CD PRO J 202 -26.956 31.173 42.493 1.00 96.74 C +ATOM 4476 N SER J 203 -28.235 27.002 44.367 1.00 92.30 N +ATOM 4477 CA SER J 203 -27.799 25.929 45.247 1.00 91.98 C +ATOM 4478 C SER J 203 -26.873 24.960 44.515 1.00 91.02 C +ATOM 4479 O SER J 203 -26.841 24.889 43.283 1.00 94.44 O +ATOM 4480 CB SER J 203 -29.004 25.173 45.806 1.00 92.98 C +ATOM 4481 OG SER J 203 -29.783 26.005 46.648 1.00 96.24 O +ATOM 4482 N TYR J 204 -26.109 24.207 45.303 1.00 88.24 N +ATOM 4483 CA TYR J 204 -25.252 23.144 44.801 1.00 86.27 C +ATOM 4484 C TYR J 204 -25.477 21.898 45.646 1.00 85.04 C +ATOM 4485 O TYR J 204 -25.844 21.987 46.820 1.00 91.82 O +ATOM 4486 CB TYR J 204 -23.770 23.546 44.826 1.00 85.28 C +ATOM 4487 CG TYR J 204 -22.889 22.698 43.935 1.00 83.42 C +ATOM 4488 CD1 TYR J 204 -22.820 22.934 42.568 1.00 83.36 C +ATOM 4489 CD2 TYR J 204 -22.125 21.664 44.461 1.00 81.63 C +ATOM 4490 CE1 TYR J 204 -22.016 22.163 41.749 1.00 81.38 C +ATOM 4491 CE2 TYR J 204 -21.318 20.887 43.649 1.00 82.13 C +ATOM 4492 CZ TYR J 204 -21.268 21.141 42.294 1.00 82.47 C +ATOM 4493 OH TYR J 204 -20.467 20.372 41.481 1.00 78.88 O +ATOM 4494 N TYR J 205 -25.250 20.733 45.043 1.00 83.32 N +ATOM 4495 CA TYR J 205 -25.565 19.459 45.673 1.00 83.35 C +ATOM 4496 C TYR J 205 -24.336 18.564 45.673 1.00 81.41 C +ATOM 4497 O TYR J 205 -23.601 18.505 44.682 1.00 81.53 O +ATOM 4498 CB TYR J 205 -26.714 18.743 44.946 1.00 86.24 C +ATOM 4499 CG TYR J 205 -27.949 19.589 44.736 1.00 90.54 C +ATOM 4500 CD1 TYR J 205 -28.951 19.641 45.696 1.00 91.06 C +ATOM 4501 CD2 TYR J 205 -28.119 20.327 43.571 1.00 88.31 C +ATOM 4502 CE1 TYR J 205 -30.084 20.410 45.506 1.00 93.41 C +ATOM 4503 CE2 TYR J 205 -29.248 21.099 43.372 1.00 91.44 C +ATOM 4504 CZ TYR J 205 -30.227 21.136 44.342 1.00 95.57 C +ATOM 4505 OH TYR J 205 -31.354 21.903 44.148 1.00 99.63 O +ATOM 4506 N PHE J 206 -24.114 17.868 46.787 1.00 78.96 N +ATOM 4507 CA PHE J 206 -22.978 16.958 46.872 1.00 77.27 C +ATOM 4508 C PHE J 206 -23.293 15.823 47.836 1.00 77.75 C +ATOM 4509 O PHE J 206 -24.075 15.985 48.772 1.00 81.40 O +ATOM 4510 CB PHE J 206 -21.693 17.682 47.297 1.00 76.25 C +ATOM 4511 CG PHE J 206 -21.750 18.276 48.675 1.00 74.74 C +ATOM 4512 CD1 PHE J 206 -22.315 19.524 48.884 1.00 77.08 C +ATOM 4513 CD2 PHE J 206 -21.224 17.594 49.760 1.00 73.22 C +ATOM 4514 CE1 PHE J 206 -22.363 20.076 50.151 1.00 75.69 C +ATOM 4515 CE2 PHE J 206 -21.269 18.140 51.028 1.00 75.99 C +ATOM 4516 CZ PHE J 206 -21.838 19.383 51.224 1.00 76.41 C +ATOM 4517 N ARG J 207 -22.656 14.679 47.612 1.00 78.55 N +ATOM 4518 CA ARG J 207 -22.907 13.475 48.391 1.00 80.62 C +ATOM 4519 C ARG J 207 -21.708 13.151 49.276 1.00 80.83 C +ATOM 4520 O ARG J 207 -20.618 13.708 49.120 1.00 79.96 O +ATOM 4521 CB ARG J 207 -23.234 12.300 47.462 1.00 80.84 C +ATOM 4522 CG ARG J 207 -24.268 12.651 46.400 1.00 84.34 C +ATOM 4523 CD ARG J 207 -24.707 11.439 45.596 1.00 85.00 C +ATOM 4524 NE ARG J 207 -25.793 10.708 46.242 1.00 90.13 N +ATOM 4525 CZ ARG J 207 -27.066 10.773 45.863 1.00 91.97 C +ATOM 4526 NH1 ARG J 207 -27.415 11.529 44.831 1.00 86.72 N +ATOM 4527 NH2 ARG J 207 -27.989 10.073 46.509 1.00 96.93 N +ATOM 4528 N THR J 208 -21.923 12.229 50.218 1.00 84.47 N +ATOM 4529 CA THR J 208 -20.909 11.877 51.199 1.00 85.58 C +ATOM 4530 C THR J 208 -20.564 10.393 51.124 1.00 88.10 C +ATOM 4531 O THR J 208 -21.460 9.554 50.981 1.00 88.99 O +ATOM 4532 CB THR J 208 -21.396 12.219 52.620 1.00 85.76 C +ATOM 4533 OG1 THR J 208 -21.746 13.607 52.684 1.00 88.88 O +ATOM 4534 CG2 THR J 208 -20.323 11.926 53.658 1.00 87.69 C +ATOM 4535 N PRO J 209 -19.280 10.042 51.204 1.00 87.95 N +ATOM 4536 CA PRO J 209 -18.892 8.626 51.183 1.00 88.70 C +ATOM 4537 C PRO J 209 -19.420 7.860 52.388 1.00 93.60 C +ATOM 4538 O PRO J 209 -19.754 8.429 53.430 1.00 92.80 O +ATOM 4539 CB PRO J 209 -17.359 8.677 51.198 1.00 85.34 C +ATOM 4540 CG PRO J 209 -17.017 10.016 50.650 1.00 83.22 C +ATOM 4541 CD PRO J 209 -18.115 10.937 51.093 1.00 83.58 C +ATOM 4542 N GLU J 210 -19.492 6.541 52.226 1.00 98.31 N +ATOM 4543 CA GLU J 210 -19.947 5.650 53.283 1.00102.33 C +ATOM 4544 C GLU J 210 -18.765 5.267 54.163 1.00107.46 C +ATOM 4545 O GLU J 210 -17.652 5.057 53.671 1.00108.56 O +ATOM 4546 CB GLU J 210 -20.588 4.389 52.700 1.00104.83 C +ATOM 4547 CG GLU J 210 -21.900 4.614 51.971 1.00107.68 C +ATOM 4548 CD GLU J 210 -22.419 3.349 51.313 1.00119.38 C +ATOM 4549 OE1 GLU J 210 -21.597 2.461 51.000 1.00138.54 O +ATOM 4550 OE2 GLU J 210 -23.647 3.238 51.112 1.00110.73 O +ATOM 4551 N ILE J 211 -19.007 5.181 55.467 1.00109.04 N +ATOM 4552 CA ILE J 211 -17.951 4.811 56.403 1.00111.97 C +ATOM 4553 C ILE J 211 -18.418 3.664 57.291 1.00117.22 C +ATOM 4554 O ILE J 211 -18.444 2.509 56.864 1.00122.64 O +ATOM 4555 CB ILE J 211 -17.503 6.014 57.256 1.00110.73 C +ATOM 4556 CG1 ILE J 211 -18.671 6.551 58.085 1.00109.36 C +ATOM 4557 CG2 ILE J 211 -16.915 7.109 56.377 1.00105.61 C +ATOM 4558 CD1 ILE J 211 -18.290 7.700 58.994 1.00101.01 C +HETATM 4559 C1 NAG J 303 -24.816 52.026 33.028 1.00164.44 C +HETATM 4560 C2 NAG J 303 -26.180 52.695 32.837 1.00159.45 C +HETATM 4561 C3 NAG J 303 -26.052 53.937 31.963 1.00157.96 C +HETATM 4562 C4 NAG J 303 -25.015 54.883 32.550 1.00161.99 C +HETATM 4563 C5 NAG J 303 -23.687 54.153 32.713 1.00165.82 C +HETATM 4564 C6 NAG J 303 -22.627 55.001 33.377 1.00165.87 C +HETATM 4565 C7 NAG J 303 -28.225 51.343 32.940 1.00147.60 C +HETATM 4566 C8 NAG J 303 -29.119 50.389 32.208 1.00131.33 C +HETATM 4567 N2 NAG J 303 -27.147 51.767 32.271 1.00153.03 N +HETATM 4568 O3 NAG J 303 -27.315 54.588 31.886 1.00153.19 O +HETATM 4569 O4 NAG J 303 -24.842 56.012 31.701 1.00155.62 O +HETATM 4570 O5 NAG J 303 -23.868 52.991 33.539 1.00169.50 O +HETATM 4571 O6 NAG J 303 -22.700 56.353 32.944 1.00153.97 O +HETATM 4572 O7 NAG J 303 -28.465 51.713 34.085 1.00146.97 O +ATOM 4573 N ASP K 17 1.795 -75.358 -20.525 1.00158.52 N +ATOM 4574 CA ASP K 17 2.364 -74.658 -19.381 1.00177.80 C +ATOM 4575 C ASP K 17 1.601 -73.368 -19.098 1.00189.84 C +ATOM 4576 O ASP K 17 1.447 -72.523 -19.979 1.00187.93 O +ATOM 4577 CB ASP K 17 3.846 -74.359 -19.614 1.00167.38 C +ATOM 4578 N TYR K 18 1.160 -73.203 -17.854 1.00197.80 N +ATOM 4579 CA TYR K 18 0.396 -72.024 -17.483 1.00201.94 C +ATOM 4580 C TYR K 18 1.391 -70.947 -17.069 1.00206.71 C +ATOM 4581 O TYR K 18 2.497 -71.246 -16.612 1.00205.22 O +ATOM 4582 CB TYR K 18 -0.557 -72.345 -16.328 1.00200.47 C +ATOM 4583 CG TYR K 18 -1.613 -73.390 -16.651 1.00199.22 C +ATOM 4584 CD1 TYR K 18 -1.299 -74.744 -16.613 1.00199.14 C +ATOM 4585 CD2 TYR K 18 -2.917 -73.032 -16.972 1.00198.61 C +ATOM 4586 CE1 TYR K 18 -2.244 -75.712 -16.899 1.00198.29 C +ATOM 4587 CE2 TYR K 18 -3.874 -73.998 -17.260 1.00196.20 C +ATOM 4588 CZ TYR K 18 -3.530 -75.335 -17.221 1.00194.47 C +ATOM 4589 OH TYR K 18 -4.468 -76.302 -17.504 1.00188.29 O +ATOM 4590 N SER K 19 1.000 -69.686 -17.219 1.00210.82 N +ATOM 4591 CA SER K 19 1.946 -68.599 -17.015 1.00204.02 C +ATOM 4592 C SER K 19 1.618 -67.817 -15.750 1.00196.50 C +ATOM 4593 O SER K 19 0.459 -67.719 -15.337 1.00194.67 O +ATOM 4594 CB SER K 19 1.963 -67.654 -18.223 1.00206.19 C +ATOM 4595 OG SER K 19 2.416 -68.324 -19.388 1.00205.84 O +ATOM 4596 N PHE K 20 2.662 -67.248 -15.150 1.00193.04 N +ATOM 4597 CA PHE K 20 2.545 -66.568 -13.870 1.00187.67 C +ATOM 4598 C PHE K 20 3.627 -65.504 -13.738 1.00184.11 C +ATOM 4599 O PHE K 20 4.578 -65.446 -14.523 1.00182.59 O +ATOM 4600 CB PHE K 20 2.636 -67.576 -12.716 1.00184.86 C +ATOM 4601 CG PHE K 20 3.859 -68.456 -12.776 1.00186.39 C +ATOM 4602 CD1 PHE K 20 5.107 -67.970 -12.414 1.00183.16 C +ATOM 4603 CD2 PHE K 20 3.757 -69.771 -13.199 1.00189.85 C +ATOM 4604 CE1 PHE K 20 6.227 -68.777 -12.478 1.00180.71 C +ATOM 4605 CE2 PHE K 20 4.875 -70.584 -13.261 1.00191.91 C +ATOM 4606 CZ PHE K 20 6.111 -70.085 -12.900 1.00187.40 C +ATOM 4607 N SER K 21 3.457 -64.652 -12.727 1.00179.88 N +ATOM 4608 CA SER K 21 4.388 -63.585 -12.392 1.00176.47 C +ATOM 4609 C SER K 21 4.533 -63.514 -10.878 1.00177.64 C +ATOM 4610 O SER K 21 3.538 -63.582 -10.151 1.00178.66 O +ATOM 4611 CB SER K 21 3.910 -62.233 -12.937 1.00172.21 C +ATOM 4612 OG SER K 21 2.635 -61.898 -12.416 1.00171.26 O +ATOM 4613 N CYS K 22 5.769 -63.363 -10.404 1.00178.23 N +ATOM 4614 CA CYS K 22 6.046 -63.287 -8.976 1.00185.81 C +ATOM 4615 C CYS K 22 6.869 -62.043 -8.669 1.00188.15 C +ATOM 4616 O CYS K 22 7.530 -61.475 -9.543 1.00184.77 O +ATOM 4617 CB CYS K 22 6.788 -64.533 -8.470 1.00189.16 C +ATOM 4618 SG CYS K 22 5.908 -66.106 -8.653 1.00198.09 S +ATOM 4619 N TYR K 23 6.821 -61.627 -7.403 1.00192.79 N +ATOM 4620 CA TYR K 23 7.674 -60.557 -6.902 1.00192.57 C +ATOM 4621 C TYR K 23 7.894 -60.753 -5.408 1.00191.75 C +ATOM 4622 O TYR K 23 6.999 -61.199 -4.686 1.00192.97 O +ATOM 4623 CB TYR K 23 7.088 -59.169 -7.204 1.00195.29 C +ATOM 4624 CG TYR K 23 5.825 -58.815 -6.448 1.00203.58 C +ATOM 4625 CD1 TYR K 23 5.885 -58.185 -5.211 1.00201.64 C +ATOM 4626 CD2 TYR K 23 4.573 -59.092 -6.982 1.00207.21 C +ATOM 4627 CE1 TYR K 23 4.734 -57.853 -4.522 1.00206.56 C +ATOM 4628 CE2 TYR K 23 3.417 -58.764 -6.300 1.00210.32 C +ATOM 4629 CZ TYR K 23 3.503 -58.144 -5.071 1.00213.16 C +ATOM 4630 OH TYR K 23 2.355 -57.815 -4.388 1.00213.73 O +ATOM 4631 N SER K 24 9.094 -60.404 -4.949 1.00189.23 N +ATOM 4632 CA SER K 24 9.523 -60.643 -3.575 1.00186.63 C +ATOM 4633 C SER K 24 9.866 -59.319 -2.905 1.00184.68 C +ATOM 4634 O SER K 24 10.797 -58.629 -3.330 1.00184.93 O +ATOM 4635 CB SER K 24 10.725 -61.588 -3.535 1.00185.23 C +ATOM 4636 OG SER K 24 11.825 -61.042 -4.243 1.00186.84 O +ATOM 4637 N GLN K 25 9.121 -58.972 -1.859 1.00181.29 N +ATOM 4638 CA GLN K 25 9.437 -57.812 -1.036 1.00177.49 C +ATOM 4639 C GLN K 25 10.355 -58.248 0.102 1.00175.91 C +ATOM 4640 O GLN K 25 9.983 -59.096 0.926 1.00175.29 O +ATOM 4641 CB GLN K 25 8.161 -57.174 -0.489 1.00176.71 C +ATOM 4642 CG GLN K 25 7.304 -56.479 -1.535 1.00178.96 C +ATOM 4643 CD GLN K 25 6.057 -55.852 -0.941 1.00171.58 C +ATOM 4644 OE1 GLN K 25 5.622 -56.219 0.151 1.00163.16 O +ATOM 4645 NE2 GLN K 25 5.478 -54.895 -1.657 1.00172.43 N +ATOM 4646 N LEU K 26 11.559 -57.680 0.123 1.00175.69 N +ATOM 4647 CA LEU K 26 12.616 -58.020 1.063 1.00174.52 C +ATOM 4648 C LEU K 26 12.766 -56.939 2.130 1.00171.84 C +ATOM 4649 O LEU K 26 12.521 -55.755 1.878 1.00173.93 O +ATOM 4650 CB LEU K 26 13.945 -58.237 0.334 1.00177.08 C +ATOM 4651 CG LEU K 26 13.886 -59.296 -0.773 1.00178.92 C +ATOM 4652 CD1 LEU K 26 15.182 -59.329 -1.565 1.00183.45 C +ATOM 4653 CD2 LEU K 26 13.548 -60.673 -0.226 1.00175.90 C +ATOM 4654 N GLU K 27 13.172 -57.370 3.328 1.00168.02 N +ATOM 4655 CA GLU K 27 13.402 -56.489 4.478 1.00162.24 C +ATOM 4656 C GLU K 27 12.146 -55.699 4.839 1.00161.26 C +ATOM 4657 O GLU K 27 12.205 -54.511 5.163 1.00162.08 O +ATOM 4658 CB GLU K 27 14.581 -55.546 4.223 1.00156.67 C +ATOM 4659 N VAL K 28 10.996 -56.368 4.758 1.00161.39 N +ATOM 4660 CA VAL K 28 9.704 -55.786 5.110 1.00160.68 C +ATOM 4661 C VAL K 28 9.523 -55.789 6.626 1.00163.50 C +ATOM 4662 O VAL K 28 10.054 -54.919 7.327 1.00162.95 O +ATOM 4663 CB VAL K 28 8.563 -56.529 4.394 1.00159.70 C +ATOM 4664 CG1 VAL K 28 7.247 -55.774 4.554 1.00154.89 C +ATOM 4665 CG2 VAL K 28 8.908 -56.709 2.931 1.00161.72 C +ATOM 4666 N ASN K 29 8.773 -56.767 7.144 1.00165.14 N +ATOM 4667 CA ASN K 29 8.571 -56.913 8.586 1.00164.33 C +ATOM 4668 C ASN K 29 9.866 -57.420 9.205 1.00166.19 C +ATOM 4669 O ASN K 29 10.151 -58.620 9.189 1.00168.66 O +ATOM 4670 CB ASN K 29 7.409 -57.855 8.890 1.00160.88 C +ATOM 4671 CG ASN K 29 6.934 -58.625 7.671 1.00159.19 C +ATOM 4672 OD1 ASN K 29 6.677 -58.047 6.618 1.00158.68 O +ATOM 4673 ND2 ASN K 29 6.806 -59.940 7.815 1.00155.92 N +ATOM 4674 N GLY K 30 10.644 -56.503 9.773 1.00164.40 N +ATOM 4675 CA GLY K 30 11.964 -56.823 10.277 1.00168.88 C +ATOM 4676 C GLY K 30 12.837 -57.342 9.155 1.00174.03 C +ATOM 4677 O GLY K 30 13.229 -56.584 8.262 1.00172.61 O +ATOM 4678 N SER K 31 13.142 -58.637 9.184 1.00179.64 N +ATOM 4679 CA SER K 31 13.852 -59.300 8.101 1.00180.84 C +ATOM 4680 C SER K 31 12.998 -60.350 7.405 1.00180.25 C +ATOM 4681 O SER K 31 13.495 -61.037 6.507 1.00182.72 O +ATOM 4682 CB SER K 31 15.150 -59.937 8.613 1.00184.44 C +ATOM 4683 OG SER K 31 14.894 -60.867 9.649 1.00184.14 O +ATOM 4684 N GLN K 32 11.735 -60.498 7.798 1.00174.57 N +ATOM 4685 CA GLN K 32 10.879 -61.516 7.202 1.00171.67 C +ATOM 4686 C GLN K 32 10.490 -61.090 5.793 1.00170.87 C +ATOM 4687 O GLN K 32 9.797 -60.084 5.606 1.00167.66 O +ATOM 4688 CB GLN K 32 9.637 -61.735 8.064 1.00166.78 C +ATOM 4689 N HIS K 33 10.932 -61.862 4.806 1.00172.89 N +ATOM 4690 CA HIS K 33 10.647 -61.578 3.411 1.00173.92 C +ATOM 4691 C HIS K 33 9.283 -62.134 3.015 1.00174.23 C +ATOM 4692 O HIS K 33 8.739 -63.036 3.657 1.00171.86 O +ATOM 4693 CB HIS K 33 11.735 -62.174 2.518 1.00175.87 C +ATOM 4694 CG HIS K 33 13.126 -61.799 2.929 1.00176.92 C +ATOM 4695 ND1 HIS K 33 13.409 -60.661 3.653 1.00174.99 N +ATOM 4696 CD2 HIS K 33 14.313 -62.417 2.721 1.00177.32 C +ATOM 4697 CE1 HIS K 33 14.711 -60.589 3.866 1.00173.49 C +ATOM 4698 NE2 HIS K 33 15.282 -61.644 3.314 1.00172.95 N +ATOM 4699 N SER K 34 8.729 -61.580 1.936 1.00174.37 N +ATOM 4700 CA SER K 34 7.414 -61.992 1.455 1.00174.27 C +ATOM 4701 C SER K 34 7.465 -62.153 -0.056 1.00181.98 C +ATOM 4702 O SER K 34 7.653 -61.170 -0.776 1.00182.89 O +ATOM 4703 CB SER K 34 6.339 -60.975 1.851 1.00168.66 C +ATOM 4704 OG SER K 34 6.556 -59.729 1.214 1.00169.47 O +ATOM 4705 N LEU K 35 7.272 -63.379 -0.536 1.00186.98 N +ATOM 4706 CA LEU K 35 7.278 -63.678 -1.965 1.00189.00 C +ATOM 4707 C LEU K 35 5.843 -63.937 -2.411 1.00192.90 C +ATOM 4708 O LEU K 35 5.242 -64.947 -2.032 1.00194.09 O +ATOM 4709 CB LEU K 35 8.174 -64.877 -2.268 1.00184.10 C +ATOM 4710 N THR K 36 5.303 -63.028 -3.219 1.00193.30 N +ATOM 4711 CA THR K 36 3.940 -63.105 -3.719 1.00194.65 C +ATOM 4712 C THR K 36 3.954 -63.514 -5.187 1.00193.60 C +ATOM 4713 O THR K 36 4.898 -63.211 -5.923 1.00193.04 O +ATOM 4714 CB THR K 36 3.222 -61.760 -3.548 1.00199.10 C +ATOM 4715 OG1 THR K 36 3.388 -61.300 -2.201 1.00198.29 O +ATOM 4716 CG2 THR K 36 1.733 -61.897 -3.835 1.00196.16 C +ATOM 4717 N CYS K 37 2.906 -64.224 -5.605 1.00191.26 N +ATOM 4718 CA CYS K 37 2.779 -64.693 -6.976 1.00184.74 C +ATOM 4719 C CYS K 37 1.327 -64.593 -7.422 1.00180.37 C +ATOM 4720 O CYS K 37 0.402 -64.644 -6.606 1.00183.21 O +ATOM 4721 CB CYS K 37 3.265 -66.141 -7.134 1.00184.54 C +ATOM 4722 SG CYS K 37 5.031 -66.410 -6.843 1.00186.97 S +ATOM 4723 N ALA K 38 1.142 -64.452 -8.734 1.00174.51 N +ATOM 4724 CA ALA K 38 -0.173 -64.323 -9.344 1.00170.89 C +ATOM 4725 C ALA K 38 -0.080 -64.865 -10.761 1.00175.40 C +ATOM 4726 O ALA K 38 1.014 -65.038 -11.300 1.00175.28 O +ATOM 4727 CB ALA K 38 -0.663 -62.870 -9.343 1.00164.30 C +ATOM 4728 N PHE K 39 -1.229 -65.181 -11.353 1.00178.52 N +ATOM 4729 CA PHE K 39 -1.231 -65.737 -12.699 1.00179.99 C +ATOM 4730 C PHE K 39 -1.318 -64.651 -13.764 1.00184.36 C +ATOM 4731 O PHE K 39 -2.046 -63.666 -13.613 1.00183.29 O +ATOM 4732 CB PHE K 39 -2.397 -66.714 -12.866 1.00174.33 C +ATOM 4733 N GLU K 40 -0.561 -64.846 -14.847 1.00187.30 N +ATOM 4734 CA GLU K 40 -0.634 -63.970 -16.012 1.00188.91 C +ATOM 4735 C GLU K 40 -1.891 -64.258 -16.824 1.00196.32 C +ATOM 4736 O GLU K 40 -2.604 -63.336 -17.236 1.00197.88 O +ATOM 4737 CB GLU K 40 0.619 -64.128 -16.875 1.00183.85 C +ATOM 4738 N ASP K 41 -2.142 -65.540 -17.083 1.00200.17 N +ATOM 4739 CA ASP K 41 -3.319 -65.988 -17.813 1.00208.76 C +ATOM 4740 C ASP K 41 -4.581 -65.357 -17.229 1.00215.92 C +ATOM 4741 O ASP K 41 -4.674 -65.171 -16.008 1.00214.65 O +ATOM 4742 CB ASP K 41 -3.420 -67.516 -17.764 1.00209.11 C +ATOM 4743 N PRO K 42 -5.567 -65.017 -18.058 1.00219.69 N +ATOM 4744 CA PRO K 42 -6.770 -64.356 -17.536 1.00220.66 C +ATOM 4745 C PRO K 42 -7.684 -65.265 -16.723 1.00221.77 C +ATOM 4746 O PRO K 42 -8.008 -64.934 -15.579 1.00221.16 O +ATOM 4747 CB PRO K 42 -7.467 -63.858 -18.810 1.00220.31 C +ATOM 4748 CG PRO K 42 -7.021 -64.806 -19.877 1.00218.51 C +ATOM 4749 CD PRO K 42 -5.614 -65.199 -19.521 1.00217.99 C +ATOM 4750 N ASP K 43 -8.115 -66.393 -17.283 1.00220.06 N +ATOM 4751 CA ASP K 43 -9.025 -67.314 -16.606 1.00215.17 C +ATOM 4752 C ASP K 43 -8.292 -68.581 -16.175 1.00214.26 C +ATOM 4753 O ASP K 43 -7.721 -69.287 -17.013 1.00213.26 O +ATOM 4754 CB ASP K 43 -10.207 -67.664 -17.510 1.00208.00 C +ATOM 4755 N VAL K 44 -8.321 -68.867 -14.869 1.00212.88 N +ATOM 4756 CA VAL K 44 -7.646 -70.014 -14.258 1.00211.36 C +ATOM 4757 C VAL K 44 -8.516 -70.520 -13.108 1.00207.91 C +ATOM 4758 O VAL K 44 -8.118 -70.461 -11.939 1.00207.89 O +ATOM 4759 CB VAL K 44 -6.217 -69.694 -13.768 1.00214.17 C +ATOM 4760 CG1 VAL K 44 -5.502 -70.980 -13.342 1.00213.93 C +ATOM 4761 CG2 VAL K 44 -5.395 -68.995 -14.841 1.00214.87 C +ATOM 4762 N ASN K 45 -9.747 -70.925 -13.418 1.00200.93 N +ATOM 4763 CA ASN K 45 -10.682 -71.435 -12.411 1.00188.95 C +ATOM 4764 C ASN K 45 -10.273 -72.844 -11.989 1.00185.37 C +ATOM 4765 O ASN K 45 -10.688 -73.842 -12.581 1.00179.94 O +ATOM 4766 CB ASN K 45 -12.107 -71.415 -12.950 1.00179.87 C +ATOM 4767 N THR K 46 -9.462 -72.928 -10.935 1.00186.95 N +ATOM 4768 CA THR K 46 -9.012 -74.201 -10.383 1.00185.34 C +ATOM 4769 C THR K 46 -9.833 -74.527 -9.141 1.00183.61 C +ATOM 4770 O THR K 46 -9.806 -73.776 -8.160 1.00184.62 O +ATOM 4771 CB THR K 46 -7.523 -74.158 -10.039 1.00184.75 C +ATOM 4772 OG1 THR K 46 -7.277 -73.109 -9.095 1.00186.67 O +ATOM 4773 CG2 THR K 46 -6.690 -73.916 -11.290 1.00184.86 C +ATOM 4774 N THR K 47 -10.553 -75.644 -9.183 1.00182.14 N +ATOM 4775 CA THR K 47 -11.376 -76.071 -8.055 1.00181.41 C +ATOM 4776 C THR K 47 -10.511 -76.497 -6.873 1.00183.41 C +ATOM 4777 O THR K 47 -10.542 -75.873 -5.812 1.00186.06 O +ATOM 4778 CB THR K 47 -12.307 -77.236 -8.441 1.00173.93 C +ATOM 4779 N PHE K 51 -0.360 -73.361 -5.231 1.00226.80 N +ATOM 4780 CA PHE K 51 0.865 -73.032 -5.946 1.00216.23 C +ATOM 4781 C PHE K 51 2.064 -73.274 -5.028 1.00215.94 C +ATOM 4782 O PHE K 51 2.024 -72.940 -3.844 1.00214.39 O +ATOM 4783 CB PHE K 51 0.818 -71.581 -6.434 1.00209.76 C +ATOM 4784 CG PHE K 51 -0.125 -71.361 -7.589 1.00205.72 C +ATOM 4785 CD1 PHE K 51 0.349 -71.281 -8.887 1.00199.49 C +ATOM 4786 CD2 PHE K 51 -1.489 -71.237 -7.374 1.00203.58 C +ATOM 4787 CE1 PHE K 51 -0.518 -71.081 -9.949 1.00191.18 C +ATOM 4788 CE2 PHE K 51 -2.361 -71.036 -8.430 1.00193.96 C +ATOM 4789 CZ PHE K 51 -1.874 -70.959 -9.719 1.00185.01 C +ATOM 4790 N GLU K 52 3.126 -73.867 -5.576 1.00213.27 N +ATOM 4791 CA GLU K 52 4.278 -74.295 -4.793 1.00210.82 C +ATOM 4792 C GLU K 52 5.579 -73.777 -5.392 1.00208.81 C +ATOM 4793 O GLU K 52 5.739 -73.745 -6.612 1.00208.68 O +ATOM 4794 CB GLU K 52 4.321 -75.824 -4.689 1.00211.31 C +ATOM 4795 CG GLU K 52 5.408 -76.347 -3.778 1.00210.34 C +ATOM 4796 CD GLU K 52 5.358 -75.729 -2.397 1.00209.43 C +ATOM 4797 OE1 GLU K 52 4.255 -75.395 -1.913 1.00207.56 O +ATOM 4798 OE2 GLU K 52 6.433 -75.574 -1.794 1.00210.19 O +ATOM 4799 N ILE K 53 6.466 -73.272 -4.537 1.00209.26 N +ATOM 4800 CA ILE K 53 7.793 -72.817 -4.944 1.00209.37 C +ATOM 4801 C ILE K 53 8.846 -73.458 -4.046 1.00209.32 C +ATOM 4802 O ILE K 53 8.779 -73.328 -2.818 1.00208.60 O +ATOM 4803 CB ILE K 53 7.915 -71.284 -4.933 1.00209.13 C +ATOM 4804 CG1 ILE K 53 7.029 -70.694 -6.033 1.00210.62 C +ATOM 4805 CG2 ILE K 53 9.361 -70.869 -5.146 1.00208.40 C +ATOM 4806 CD1 ILE K 53 7.254 -69.219 -6.285 1.00213.87 C +ATOM 4807 N CYS K 54 9.815 -74.144 -4.653 1.00208.22 N +ATOM 4808 CA CYS K 54 10.957 -74.723 -3.957 1.00208.33 C +ATOM 4809 C CYS K 54 12.217 -73.948 -4.363 1.00203.00 C +ATOM 4810 O CYS K 54 12.123 -72.764 -4.732 1.00200.70 O +ATOM 4811 CB CYS K 54 11.038 -76.218 -4.270 1.00211.58 C +ATOM 4812 SG CYS K 54 9.588 -77.232 -3.871 1.00220.29 S +ATOM 4813 N GLY K 55 13.376 -74.592 -4.287 1.00202.71 N +ATOM 4814 CA GLY K 55 14.633 -73.966 -4.655 1.00204.71 C +ATOM 4815 C GLY K 55 15.539 -73.728 -3.459 1.00210.83 C +ATOM 4816 O GLY K 55 15.288 -74.184 -2.340 1.00211.15 O +ATOM 4817 N ALA K 56 16.622 -72.995 -3.723 1.00214.15 N +ATOM 4818 CA ALA K 56 17.628 -72.714 -2.704 1.00217.74 C +ATOM 4819 C ALA K 56 17.051 -71.811 -1.622 1.00215.21 C +ATOM 4820 O ALA K 56 16.560 -70.715 -1.913 1.00211.49 O +ATOM 4821 CB ALA K 56 18.857 -72.069 -3.341 1.00220.54 C +ATOM 4822 N LEU K 57 17.118 -72.266 -0.376 1.00215.90 N +ATOM 4823 CA LEU K 57 16.647 -71.492 0.766 1.00214.75 C +ATOM 4824 C LEU K 57 17.635 -71.693 1.911 1.00214.66 C +ATOM 4825 O LEU K 57 18.776 -72.125 1.713 1.00213.13 O +ATOM 4826 CB LEU K 57 15.214 -71.902 1.143 1.00210.74 C +ATOM 4827 CG LEU K 57 14.114 -71.709 0.096 1.00205.88 C +ATOM 4828 CD1 LEU K 57 12.857 -72.461 0.499 1.00201.08 C +ATOM 4829 CD2 LEU K 57 13.815 -70.232 -0.104 1.00198.91 C +ATOM 4830 N VAL K 58 17.198 -71.367 3.126 1.00214.16 N +ATOM 4831 CA VAL K 58 18.019 -71.474 4.328 1.00216.12 C +ATOM 4832 C VAL K 58 17.127 -72.024 5.431 1.00212.61 C +ATOM 4833 O VAL K 58 16.096 -71.421 5.751 1.00210.48 O +ATOM 4834 CB VAL K 58 18.626 -70.124 4.748 1.00217.89 C +ATOM 4835 N GLU K 59 17.510 -73.169 5.997 1.00210.46 N +ATOM 4836 CA GLU K 59 16.845 -73.894 7.074 1.00203.84 C +ATOM 4837 C GLU K 59 15.615 -74.642 6.562 1.00203.99 C +ATOM 4838 O GLU K 59 15.070 -75.475 7.289 1.00199.23 O +ATOM 4839 CB GLU K 59 16.431 -72.995 8.256 1.00198.28 C +ATOM 4840 N VAL K 60 15.156 -74.369 5.342 1.00206.88 N +ATOM 4841 CA VAL K 60 13.990 -75.005 4.747 1.00202.56 C +ATOM 4842 C VAL K 60 14.376 -75.456 3.344 1.00199.63 C +ATOM 4843 O VAL K 60 15.261 -74.875 2.709 1.00199.55 O +ATOM 4844 CB VAL K 60 12.767 -74.051 4.715 1.00198.23 C +ATOM 4845 CG1 VAL K 60 11.533 -74.733 4.122 1.00194.78 C +ATOM 4846 CG2 VAL K 60 12.463 -73.522 6.106 1.00194.14 C +ATOM 4847 N LYS K 61 13.712 -76.506 2.863 1.00198.11 N +ATOM 4848 CA LYS K 61 13.946 -77.026 1.521 1.00194.53 C +ATOM 4849 C LYS K 61 12.830 -76.635 0.565 1.00199.08 C +ATOM 4850 O LYS K 61 13.092 -76.206 -0.562 1.00198.60 O +ATOM 4851 CB LYS K 61 14.078 -78.552 1.560 1.00184.25 C +ATOM 4852 N CYS K 62 11.588 -76.712 1.023 1.00204.93 N +ATOM 4853 CA CYS K 62 10.460 -76.240 0.247 1.00207.85 C +ATOM 4854 C CYS K 62 9.331 -75.942 1.219 1.00207.68 C +ATOM 4855 O CYS K 62 9.143 -76.639 2.220 1.00208.71 O +ATOM 4856 CB CYS K 62 10.031 -77.256 -0.830 1.00210.81 C +ATOM 4857 SG CYS K 62 8.946 -76.529 -2.079 1.00215.10 S +ATOM 4858 N LEU K 63 8.595 -74.879 0.917 1.00205.55 N +ATOM 4859 CA LEU K 63 7.556 -74.380 1.800 1.00201.26 C +ATOM 4860 C LEU K 63 6.264 -74.220 1.019 1.00204.08 C +ATOM 4861 O LEU K 63 6.275 -73.933 -0.180 1.00204.02 O +ATOM 4862 CB LEU K 63 7.962 -73.040 2.427 1.00185.34 C +ATOM 4863 N ASN K 64 5.151 -74.324 1.731 1.00205.20 N +ATOM 4864 CA ASN K 64 3.831 -74.311 1.121 1.00206.27 C +ATOM 4865 C ASN K 64 3.227 -72.919 1.234 1.00205.50 C +ATOM 4866 O ASN K 64 3.119 -72.369 2.336 1.00200.22 O +ATOM 4867 CB ASN K 64 2.933 -75.349 1.792 1.00204.30 C +ATOM 4868 CG ASN K 64 1.661 -75.617 1.016 1.00197.51 C +ATOM 4869 OD1 ASN K 64 1.227 -74.800 0.203 1.00199.72 O +ATOM 4870 ND2 ASN K 64 1.050 -76.767 1.269 1.00189.41 N +ATOM 4871 N PHE K 65 2.821 -72.366 0.094 1.00206.51 N +ATOM 4872 CA PHE K 65 2.226 -71.041 0.054 1.00204.91 C +ATOM 4873 C PHE K 65 0.888 -71.049 0.785 1.00202.08 C +ATOM 4874 O PHE K 65 0.284 -72.099 1.020 1.00202.24 O +ATOM 4875 CB PHE K 65 2.019 -70.587 -1.392 1.00207.11 C +ATOM 4876 CG PHE K 65 3.271 -70.112 -2.066 1.00204.20 C +ATOM 4877 CD1 PHE K 65 4.379 -69.754 -1.322 1.00198.91 C +ATOM 4878 CD2 PHE K 65 3.333 -70.001 -3.443 1.00206.62 C +ATOM 4879 CE1 PHE K 65 5.531 -69.313 -1.936 1.00198.73 C +ATOM 4880 CE2 PHE K 65 4.479 -69.554 -4.061 1.00203.79 C +ATOM 4881 CZ PHE K 65 5.580 -69.209 -3.302 1.00200.75 C +ATOM 4882 N ARG K 66 0.418 -69.859 1.144 1.00199.37 N +ATOM 4883 CA ARG K 66 -0.922 -69.705 1.687 1.00195.45 C +ATOM 4884 C ARG K 66 -1.858 -69.300 0.558 1.00197.67 C +ATOM 4885 O ARG K 66 -1.470 -68.545 -0.338 1.00200.79 O +ATOM 4886 CB ARG K 66 -0.952 -68.646 2.792 1.00185.11 C +ATOM 4887 CG ARG K 66 0.254 -68.647 3.721 1.00176.59 C +ATOM 4888 CD ARG K 66 0.305 -69.887 4.595 1.00171.18 C +ATOM 4889 NE ARG K 66 1.161 -69.683 5.762 1.00165.14 N +ATOM 4890 CZ ARG K 66 1.434 -70.619 6.664 1.00154.40 C +ATOM 4891 NH1 ARG K 66 0.924 -71.836 6.537 1.00151.99 N +ATOM 4892 NH2 ARG K 66 2.221 -70.340 7.695 1.00140.74 N +ATOM 4893 N LYS K 67 -3.096 -69.787 0.610 1.00194.88 N +ATOM 4894 CA LYS K 67 -4.031 -69.608 -0.493 1.00197.67 C +ATOM 4895 C LYS K 67 -5.219 -68.770 -0.048 1.00194.11 C +ATOM 4896 O LYS K 67 -5.959 -69.163 0.861 1.00188.12 O +ATOM 4897 CB LYS K 67 -4.508 -70.963 -1.022 1.00198.35 C +ATOM 4898 N LEU K 68 -5.392 -67.620 -0.694 1.00193.99 N +ATOM 4899 CA LEU K 68 -6.563 -66.766 -0.518 1.00189.81 C +ATOM 4900 C LEU K 68 -6.729 -65.981 -1.808 1.00193.83 C +ATOM 4901 O LEU K 68 -5.810 -65.254 -2.199 1.00192.12 O +ATOM 4902 CB LEU K 68 -6.403 -65.834 0.682 1.00181.51 C +ATOM 4903 N GLN K 69 -7.880 -66.117 -2.460 1.00197.19 N +ATOM 4904 CA GLN K 69 -8.160 -65.445 -3.740 1.00194.10 C +ATOM 4905 C GLN K 69 -7.091 -65.873 -4.745 1.00193.13 C +ATOM 4906 O GLN K 69 -6.937 -67.082 -4.982 1.00195.51 O +ATOM 4907 CB GLN K 69 -8.285 -63.943 -3.506 1.00194.52 C +ATOM 4908 N GLU K 70 -6.329 -64.953 -5.339 1.00185.99 N +ATOM 4909 CA GLU K 70 -5.325 -65.299 -6.346 1.00181.96 C +ATOM 4910 C GLU K 70 -3.958 -64.698 -6.014 1.00181.65 C +ATOM 4911 O GLU K 70 -3.274 -64.146 -6.878 1.00176.40 O +ATOM 4912 CB GLU K 70 -5.777 -64.845 -7.733 1.00173.59 C +ATOM 4913 CG GLU K 70 -7.231 -65.163 -8.070 1.00172.07 C +ATOM 4914 CD GLU K 70 -7.457 -66.623 -8.413 1.00168.18 C +ATOM 4915 OE1 GLU K 70 -6.996 -67.064 -9.487 1.00161.57 O +ATOM 4916 OE2 GLU K 70 -8.098 -67.332 -7.608 1.00170.63 O +ATOM 4917 N ILE K 71 -3.537 -64.793 -4.752 1.00185.94 N +ATOM 4918 CA ILE K 71 -2.221 -64.315 -4.334 1.00188.00 C +ATOM 4919 C ILE K 71 -1.667 -65.287 -3.300 1.00195.46 C +ATOM 4920 O ILE K 71 -2.393 -65.738 -2.409 1.00196.06 O +ATOM 4921 CB ILE K 71 -2.289 -62.883 -3.762 1.00183.49 C +ATOM 4922 N TYR K 72 -0.376 -65.610 -3.416 1.00198.65 N +ATOM 4923 CA TYR K 72 0.261 -66.590 -2.539 1.00203.49 C +ATOM 4924 C TYR K 72 1.547 -66.020 -1.952 1.00204.32 C +ATOM 4925 O TYR K 72 2.486 -65.723 -2.697 1.00203.87 O +ATOM 4926 CB TYR K 72 0.544 -67.877 -3.322 1.00206.97 C +ATOM 4927 CG TYR K 72 -0.713 -68.580 -3.800 1.00209.10 C +ATOM 4928 CD1 TYR K 72 -1.426 -68.103 -4.896 1.00208.78 C +ATOM 4929 CD2 TYR K 72 -1.183 -69.717 -3.162 1.00210.03 C +ATOM 4930 CE1 TYR K 72 -2.576 -68.732 -5.333 1.00211.33 C +ATOM 4931 CE2 TYR K 72 -2.329 -70.357 -3.596 1.00212.62 C +ATOM 4932 CZ TYR K 72 -3.022 -69.860 -4.680 1.00214.28 C +ATOM 4933 OH TYR K 72 -4.163 -70.496 -5.112 1.00216.72 O +ATOM 4934 N PHE K 73 1.600 -65.881 -0.625 1.00195.85 N +ATOM 4935 CA PHE K 73 2.796 -65.385 0.051 1.00191.12 C +ATOM 4936 C PHE K 73 2.967 -66.093 1.393 1.00187.53 C +ATOM 4937 O PHE K 73 2.009 -66.624 1.961 1.00189.01 O +ATOM 4938 CB PHE K 73 2.765 -63.862 0.230 1.00190.91 C +ATOM 4939 CG PHE K 73 1.837 -63.392 1.305 1.00192.14 C +ATOM 4940 CD1 PHE K 73 0.485 -63.242 1.053 1.00193.84 C +ATOM 4941 CD2 PHE K 73 2.319 -63.084 2.567 1.00187.02 C +ATOM 4942 CE1 PHE K 73 -0.372 -62.804 2.041 1.00191.24 C +ATOM 4943 CE2 PHE K 73 1.468 -62.647 3.560 1.00186.17 C +ATOM 4944 CZ PHE K 73 0.120 -62.505 3.297 1.00189.79 C +ATOM 4945 N ILE K 74 4.207 -66.098 1.894 1.00182.29 N +ATOM 4946 CA ILE K 74 4.525 -66.542 3.249 1.00177.47 C +ATOM 4947 C ILE K 74 5.414 -65.506 3.921 1.00172.63 C +ATOM 4948 O ILE K 74 6.264 -64.878 3.281 1.00170.34 O +ATOM 4949 CB ILE K 74 5.232 -67.914 3.312 1.00174.36 C +ATOM 4950 CG1 ILE K 74 4.930 -68.763 2.083 1.00183.25 C +ATOM 4951 CG2 ILE K 74 4.867 -68.644 4.604 1.00167.69 C +ATOM 4952 CD1 ILE K 74 6.189 -69.332 1.476 1.00182.33 C +ATOM 4953 N GLU K 75 5.208 -65.324 5.224 1.00169.94 N +ATOM 4954 CA GLU K 75 6.031 -64.435 6.038 1.00164.93 C +ATOM 4955 C GLU K 75 6.840 -65.288 7.011 1.00164.26 C +ATOM 4956 O GLU K 75 6.298 -65.812 7.990 1.00160.85 O +ATOM 4957 CB GLU K 75 5.169 -63.419 6.782 1.00161.39 C +ATOM 4958 N THR K 76 8.136 -65.423 6.731 1.00165.13 N +ATOM 4959 CA THR K 76 9.051 -66.241 7.516 1.00164.51 C +ATOM 4960 C THR K 76 10.413 -65.559 7.497 1.00165.70 C +ATOM 4961 O THR K 76 10.730 -64.811 6.568 1.00166.58 O +ATOM 4962 CB THR K 76 9.140 -67.676 6.970 1.00162.51 C +ATOM 4963 OG1 THR K 76 7.819 -68.200 6.781 1.00162.21 O +ATOM 4964 CG2 THR K 76 9.890 -68.588 7.936 1.00159.08 C +ATOM 4965 N LYS K 77 11.220 -65.824 8.525 1.00167.25 N +ATOM 4966 CA LYS K 77 12.530 -65.193 8.634 1.00170.07 C +ATOM 4967 C LYS K 77 13.648 -66.009 7.997 1.00178.84 C +ATOM 4968 O LYS K 77 14.641 -65.430 7.542 1.00180.53 O +ATOM 4969 CB LYS K 77 12.867 -64.944 10.106 1.00162.95 C +ATOM 4970 CG LYS K 77 11.695 -64.435 10.929 1.00153.97 C +ATOM 4971 CD LYS K 77 11.500 -65.278 12.178 1.00140.10 C +ATOM 4972 CE LYS K 77 10.254 -64.862 12.942 1.00134.63 C +ATOM 4973 NZ LYS K 77 10.038 -65.708 14.148 1.00136.96 N +ATOM 4974 N LYS K 78 13.514 -67.332 7.952 1.00184.82 N +ATOM 4975 CA LYS K 78 14.556 -68.205 7.411 1.00191.84 C +ATOM 4976 C LYS K 78 14.492 -68.147 5.890 1.00196.37 C +ATOM 4977 O LYS K 78 13.777 -68.916 5.245 1.00197.61 O +ATOM 4978 CB LYS K 78 14.386 -69.630 7.925 1.00194.86 C +ATOM 4979 N PHE K 79 15.251 -67.222 5.304 1.00195.79 N +ATOM 4980 CA PHE K 79 15.285 -67.063 3.857 1.00192.54 C +ATOM 4981 C PHE K 79 16.715 -66.853 3.386 1.00192.58 C +ATOM 4982 O PHE K 79 17.491 -66.139 4.026 1.00188.76 O +ATOM 4983 CB PHE K 79 14.418 -65.882 3.407 1.00185.49 C +ATOM 4984 CG PHE K 79 13.297 -66.268 2.490 1.00179.64 C +ATOM 4985 CD1 PHE K 79 13.529 -66.472 1.141 1.00176.14 C +ATOM 4986 CD2 PHE K 79 12.011 -66.426 2.977 1.00175.68 C +ATOM 4987 CE1 PHE K 79 12.498 -66.827 0.293 1.00171.03 C +ATOM 4988 CE2 PHE K 79 10.976 -66.781 2.135 1.00169.62 C +ATOM 4989 CZ PHE K 79 11.220 -66.982 0.791 1.00168.05 C +ATOM 4990 N LEU K 80 17.055 -67.482 2.263 1.00195.80 N +ATOM 4991 CA LEU K 80 18.358 -67.325 1.633 1.00193.21 C +ATOM 4992 C LEU K 80 18.258 -66.326 0.487 1.00187.16 C +ATOM 4993 O LEU K 80 17.431 -66.490 -0.418 1.00185.97 O +ATOM 4994 CB LEU K 80 18.890 -68.664 1.125 1.00197.06 C +ATOM 4995 N LEU K 81 19.102 -65.299 0.530 1.00186.07 N +ATOM 4996 CA LEU K 81 19.189 -64.302 -0.527 1.00185.60 C +ATOM 4997 C LEU K 81 20.133 -64.719 -1.646 1.00189.17 C +ATOM 4998 O LEU K 81 20.084 -64.131 -2.732 1.00186.00 O +ATOM 4999 CB LEU K 81 19.640 -62.954 0.046 1.00178.23 C +ATOM 5000 N ILE K 82 20.979 -65.717 -1.407 1.00190.55 N +ATOM 5001 CA ILE K 82 21.994 -66.153 -2.359 1.00187.83 C +ATOM 5002 C ILE K 82 21.556 -67.460 -3.001 1.00188.53 C +ATOM 5003 O ILE K 82 21.190 -68.415 -2.304 1.00190.21 O +ATOM 5004 CB ILE K 82 23.355 -66.333 -1.664 1.00184.08 C +ATOM 5005 CG1 ILE K 82 23.780 -65.046 -0.955 1.00179.24 C +ATOM 5006 CG2 ILE K 82 24.411 -66.792 -2.659 1.00182.22 C +ATOM 5007 CD1 ILE K 82 24.978 -65.225 -0.046 1.00175.69 C +ATOM 5008 N GLY K 83 21.585 -67.500 -4.323 1.00186.19 N +ATOM 5009 CA GLY K 83 21.262 -68.701 -5.072 1.00187.65 C +ATOM 5010 C GLY K 83 19.938 -68.585 -5.805 1.00189.53 C +ATOM 5011 O GLY K 83 18.981 -67.976 -5.312 1.00189.42 O +ATOM 5012 N LYS K 84 19.884 -69.169 -6.998 1.00189.30 N +ATOM 5013 CA LYS K 84 18.646 -69.189 -7.757 1.00185.82 C +ATOM 5014 C LYS K 84 17.731 -70.283 -7.216 1.00189.98 C +ATOM 5015 O LYS K 84 18.166 -71.204 -6.520 1.00192.80 O +ATOM 5016 CB LYS K 84 18.924 -69.415 -9.244 1.00180.03 C +ATOM 5017 N SER K 85 16.446 -70.175 -7.543 1.00190.93 N +ATOM 5018 CA SER K 85 15.451 -71.121 -7.070 1.00192.57 C +ATOM 5019 C SER K 85 14.524 -71.504 -8.212 1.00192.63 C +ATOM 5020 O SER K 85 14.145 -70.660 -9.032 1.00190.65 O +ATOM 5021 CB SER K 85 14.638 -70.536 -5.907 1.00193.26 C +ATOM 5022 OG SER K 85 15.480 -70.194 -4.820 1.00194.79 O +ATOM 5023 N ASN K 86 14.175 -72.787 -8.263 1.00195.15 N +ATOM 5024 CA ASN K 86 13.203 -73.299 -9.218 1.00195.26 C +ATOM 5025 C ASN K 86 11.816 -73.210 -8.595 1.00198.65 C +ATOM 5026 O ASN K 86 11.549 -73.844 -7.568 1.00199.78 O +ATOM 5027 CB ASN K 86 13.529 -74.738 -9.615 1.00190.82 C +ATOM 5028 CG ASN K 86 14.674 -74.824 -10.605 1.00185.88 C +ATOM 5029 OD1 ASN K 86 14.473 -74.701 -11.814 1.00186.57 O +ATOM 5030 ND2 ASN K 86 15.882 -75.041 -10.098 1.00177.96 N +ATOM 5031 N ILE K 87 10.941 -72.423 -9.208 1.00201.32 N +ATOM 5032 CA ILE K 87 9.555 -72.289 -8.785 1.00206.22 C +ATOM 5033 C ILE K 87 8.704 -73.142 -9.713 1.00211.01 C +ATOM 5034 O ILE K 87 8.590 -72.842 -10.906 1.00209.26 O +ATOM 5035 CB ILE K 87 9.108 -70.823 -8.820 1.00204.12 C +ATOM 5036 N CYS K 88 8.114 -74.214 -9.183 1.00213.73 N +ATOM 5037 CA CYS K 88 7.291 -75.116 -9.978 1.00216.57 C +ATOM 5038 C CYS K 88 5.886 -75.179 -9.386 1.00214.99 C +ATOM 5039 O CYS K 88 5.705 -75.602 -8.242 1.00215.32 O +ATOM 5040 CB CYS K 88 7.918 -76.512 -10.046 1.00217.86 C +ATOM 5041 SG CYS K 88 9.556 -76.589 -10.846 1.00213.94 S +ATOM 5042 N VAL K 89 4.906 -74.898 -10.227 1.00214.89 N +ATOM 5043 CA VAL K 89 3.487 -74.847 -9.894 1.00215.41 C +ATOM 5044 C VAL K 89 2.895 -76.248 -9.857 1.00219.55 C +ATOM 5045 O VAL K 89 3.182 -77.088 -10.718 1.00220.22 O +ATOM 5046 CB VAL K 89 2.744 -73.958 -10.908 1.00209.65 C +ATOM 5047 CG1 VAL K 89 1.236 -74.103 -10.758 1.00205.72 C +ATOM 5048 CG2 VAL K 89 3.167 -72.505 -10.752 1.00205.00 C +ATOM 5049 N LYS K 90 2.093 -76.514 -8.830 1.00222.66 N +ATOM 5050 CA LYS K 90 1.468 -77.818 -8.656 1.00226.65 C +ATOM 5051 C LYS K 90 -0.049 -77.675 -8.746 1.00229.75 C +ATOM 5052 O LYS K 90 -0.786 -78.132 -7.873 1.00231.44 O +ATOM 5053 CB LYS K 90 1.863 -78.435 -7.313 1.00229.59 C +ATOM 5054 N SER K 95 3.275 -81.480 -10.683 1.00210.65 N +ATOM 5055 CA SER K 95 4.080 -80.385 -11.214 1.00211.83 C +ATOM 5056 C SER K 95 3.496 -79.880 -12.533 1.00215.77 C +ATOM 5057 O SER K 95 3.366 -80.639 -13.494 1.00217.08 O +ATOM 5058 CB SER K 95 5.527 -80.845 -11.412 1.00206.08 C +ATOM 5059 OG SER K 95 6.067 -81.350 -10.204 1.00203.29 O +ATOM 5060 N LEU K 96 3.130 -78.598 -12.568 1.00217.58 N +ATOM 5061 CA LEU K 96 2.608 -77.961 -13.776 1.00215.68 C +ATOM 5062 C LEU K 96 3.663 -77.217 -14.593 1.00214.98 C +ATOM 5063 O LEU K 96 3.959 -77.603 -15.727 1.00212.11 O +ATOM 5064 CB LEU K 96 1.467 -77.006 -13.399 1.00213.14 C +ATOM 5065 N THR K 97 4.240 -76.153 -14.027 1.00215.15 N +ATOM 5066 CA THR K 97 5.155 -75.255 -14.727 1.00215.20 C +ATOM 5067 C THR K 97 6.350 -74.886 -13.861 1.00213.84 C +ATOM 5068 O THR K 97 6.219 -74.726 -12.652 1.00213.85 O +ATOM 5069 CB THR K 97 4.453 -73.956 -15.136 1.00211.13 C +ATOM 5070 OG1 THR K 97 3.039 -74.176 -15.240 1.00210.86 O +ATOM 5071 CG2 THR K 97 5.005 -73.429 -16.445 1.00212.09 C +ATOM 5072 N CYS K 98 7.523 -74.750 -14.475 1.00213.31 N +ATOM 5073 CA CYS K 98 8.708 -74.372 -13.718 1.00211.04 C +ATOM 5074 C CYS K 98 9.331 -73.099 -14.283 1.00204.85 C +ATOM 5075 O CYS K 98 9.219 -72.802 -15.476 1.00202.73 O +ATOM 5076 CB CYS K 98 9.744 -75.499 -13.696 1.00215.30 C +ATOM 5077 SG CYS K 98 9.204 -76.987 -12.811 1.00224.04 S +ATOM 5078 N LYS K 99 9.971 -72.341 -13.391 1.00201.21 N +ATOM 5079 CA LYS K 99 10.714 -71.135 -13.743 1.00193.55 C +ATOM 5080 C LYS K 99 11.909 -71.005 -12.809 1.00194.80 C +ATOM 5081 O LYS K 99 11.741 -71.028 -11.587 1.00195.72 O +ATOM 5082 CB LYS K 99 9.826 -69.888 -13.651 1.00186.57 C +ATOM 5083 N LYS K 100 13.107 -70.869 -13.374 1.00193.53 N +ATOM 5084 CA LYS K 100 14.327 -70.712 -12.578 1.00190.64 C +ATOM 5085 C LYS K 100 14.601 -69.224 -12.390 1.00192.33 C +ATOM 5086 O LYS K 100 15.126 -68.561 -13.287 1.00189.06 O +ATOM 5087 CB LYS K 100 15.500 -71.416 -13.250 1.00179.93 C +ATOM 5088 N ILE K 101 14.253 -68.695 -11.216 1.00193.47 N +ATOM 5089 CA ILE K 101 14.364 -67.264 -10.956 1.00190.25 C +ATOM 5090 C ILE K 101 15.252 -67.027 -9.743 1.00191.29 C +ATOM 5091 O ILE K 101 15.352 -67.866 -8.844 1.00190.48 O +ATOM 5092 CB ILE K 101 12.979 -66.612 -10.748 1.00183.42 C +ATOM 5093 N ASP K 102 15.899 -65.866 -9.724 1.00192.22 N +ATOM 5094 CA ASP K 102 16.742 -65.464 -8.606 1.00188.43 C +ATOM 5095 C ASP K 102 15.940 -64.620 -7.625 1.00188.02 C +ATOM 5096 O ASP K 102 15.146 -63.764 -8.027 1.00188.32 O +ATOM 5097 CB ASP K 102 17.962 -64.685 -9.098 1.00182.52 C +ATOM 5098 N LEU K 103 16.147 -64.870 -6.329 1.00186.43 N +ATOM 5099 CA LEU K 103 15.423 -64.124 -5.306 1.00184.23 C +ATOM 5100 C LEU K 103 15.804 -62.650 -5.287 1.00186.52 C +ATOM 5101 O LEU K 103 15.015 -61.825 -4.814 1.00187.03 O +ATOM 5102 CB LEU K 103 15.669 -64.743 -3.929 1.00176.05 C +ATOM 5103 N THR K 104 16.989 -62.303 -5.783 1.00187.28 N +ATOM 5104 CA THR K 104 17.452 -60.923 -5.815 1.00185.02 C +ATOM 5105 C THR K 104 17.107 -60.212 -7.118 1.00187.57 C +ATOM 5106 O THR K 104 17.469 -59.043 -7.281 1.00187.49 O +ATOM 5107 CB THR K 104 18.967 -60.862 -5.587 1.00179.07 C +ATOM 5108 OG1 THR K 104 19.636 -61.635 -6.590 1.00175.66 O +ATOM 5109 CG2 THR K 104 19.320 -61.401 -4.211 1.00174.49 C +ATOM 5110 N THR K 105 16.429 -60.888 -8.046 1.00189.50 N +ATOM 5111 CA THR K 105 16.054 -60.304 -9.329 1.00191.94 C +ATOM 5112 C THR K 105 14.544 -60.116 -9.459 1.00192.23 C +ATOM 5113 O THR K 105 14.048 -59.861 -10.562 1.00195.18 O +ATOM 5114 CB THR K 105 16.594 -61.166 -10.475 1.00194.22 C +ATOM 5115 OG1 THR K 105 17.863 -61.712 -10.098 1.00194.51 O +ATOM 5116 CG2 THR K 105 16.793 -60.332 -11.738 1.00195.11 C +ATOM 5117 N ILE K 106 13.802 -60.228 -8.359 1.00189.39 N +ATOM 5118 CA ILE K 106 12.352 -60.068 -8.382 1.00185.88 C +ATOM 5119 C ILE K 106 11.931 -59.225 -7.186 1.00186.62 C +ATOM 5120 O ILE K 106 10.880 -59.463 -6.581 1.00185.92 O +ATOM 5121 CB ILE K 106 11.636 -61.431 -8.381 1.00179.83 C +ATOM 5122 N VAL K 107 12.750 -58.236 -6.841 1.00187.69 N +ATOM 5123 CA VAL K 107 12.554 -57.428 -5.643 1.00186.56 C +ATOM 5124 C VAL K 107 11.584 -56.294 -5.946 1.00185.40 C +ATOM 5125 O VAL K 107 11.692 -55.621 -6.977 1.00182.92 O +ATOM 5126 CB VAL K 107 13.901 -56.883 -5.132 1.00186.98 C +ATOM 5127 CG1 VAL K 107 13.702 -56.053 -3.872 1.00184.05 C +ATOM 5128 CG2 VAL K 107 14.877 -58.023 -4.893 1.00187.96 C +ATOM 5129 N LYS K 108 10.634 -56.076 -5.045 1.00186.06 N +ATOM 5130 CA LYS K 108 9.702 -54.953 -5.155 1.00182.59 C +ATOM 5131 C LYS K 108 9.874 -54.028 -3.959 1.00182.03 C +ATOM 5132 O LYS K 108 9.528 -54.417 -2.826 1.00180.82 O +ATOM 5133 CB LYS K 108 8.260 -55.451 -5.242 1.00180.08 C +ATOM 5134 N PRO K 109 10.402 -52.820 -4.139 1.00181.74 N +ATOM 5135 CA PRO K 109 10.585 -51.916 -3.000 1.00177.39 C +ATOM 5136 C PRO K 109 9.253 -51.480 -2.414 1.00172.99 C +ATOM 5137 O PRO K 109 8.197 -51.579 -3.043 1.00169.23 O +ATOM 5138 CB PRO K 109 11.335 -50.721 -3.599 1.00172.41 C +ATOM 5139 CG PRO K 109 11.893 -51.211 -4.882 1.00175.15 C +ATOM 5140 CD PRO K 109 10.942 -52.251 -5.383 1.00178.10 C +ATOM 5141 N GLU K 110 9.319 -50.985 -1.183 1.00168.73 N +ATOM 5142 CA GLU K 110 8.151 -50.392 -0.553 1.00159.72 C +ATOM 5143 C GLU K 110 7.929 -48.988 -1.098 1.00153.00 C +ATOM 5144 O GLU K 110 8.884 -48.252 -1.367 1.00150.26 O +ATOM 5145 CB GLU K 110 8.323 -50.356 0.964 1.00158.99 C +ATOM 5146 CG GLU K 110 8.414 -51.735 1.598 1.00159.33 C +ATOM 5147 CD GLU K 110 8.542 -51.678 3.106 1.00156.99 C +ATOM 5148 OE1 GLU K 110 9.687 -51.652 3.606 1.00158.86 O +ATOM 5149 OE2 GLU K 110 7.499 -51.643 3.791 1.00150.59 O +ATOM 5150 N ALA K 111 6.663 -48.627 -1.272 1.00148.83 N +ATOM 5151 CA ALA K 111 6.331 -47.329 -1.839 1.00142.13 C +ATOM 5152 C ALA K 111 6.807 -46.214 -0.910 1.00139.06 C +ATOM 5153 O ALA K 111 6.626 -46.304 0.310 1.00140.21 O +ATOM 5154 CB ALA K 111 4.824 -47.214 -2.070 1.00138.69 C +ATOM 5155 N PRO K 112 7.431 -45.165 -1.444 1.00134.09 N +ATOM 5156 CA PRO K 112 7.795 -44.016 -0.606 1.00132.08 C +ATOM 5157 C PRO K 112 6.566 -43.382 0.030 1.00129.05 C +ATOM 5158 O PRO K 112 5.419 -43.667 -0.321 1.00127.24 O +ATOM 5159 CB PRO K 112 8.479 -43.059 -1.588 1.00128.95 C +ATOM 5160 CG PRO K 112 8.970 -43.940 -2.690 1.00133.09 C +ATOM 5161 CD PRO K 112 7.945 -45.032 -2.818 1.00134.84 C +ATOM 5162 N PHE K 113 6.823 -42.490 0.983 1.00125.84 N +ATOM 5163 CA PHE K 113 5.755 -41.865 1.748 1.00119.12 C +ATOM 5164 C PHE K 113 6.218 -40.496 2.221 1.00113.55 C +ATOM 5165 O PHE K 113 7.374 -40.107 2.033 1.00113.93 O +ATOM 5166 CB PHE K 113 5.329 -42.745 2.932 1.00118.26 C +ATOM 5167 CG PHE K 113 6.466 -43.146 3.833 1.00119.09 C +ATOM 5168 CD1 PHE K 113 7.258 -44.243 3.531 1.00124.17 C +ATOM 5169 CD2 PHE K 113 6.739 -42.428 4.985 1.00119.78 C +ATOM 5170 CE1 PHE K 113 8.302 -44.612 4.358 1.00128.33 C +ATOM 5171 CE2 PHE K 113 7.782 -42.793 5.817 1.00122.28 C +ATOM 5172 CZ PHE K 113 8.564 -43.886 5.503 1.00126.39 C +ATOM 5173 N ASP K 114 5.290 -39.764 2.842 1.00109.75 N +ATOM 5174 CA ASP K 114 5.554 -38.430 3.383 1.00105.96 C +ATOM 5175 C ASP K 114 6.068 -37.482 2.298 1.00102.24 C +ATOM 5176 O ASP K 114 7.036 -36.743 2.490 1.00 99.09 O +ATOM 5177 CB ASP K 114 6.530 -38.500 4.560 1.00106.12 C +ATOM 5178 CG ASP K 114 5.935 -39.196 5.768 1.00107.37 C +ATOM 5179 OD1 ASP K 114 4.691 -39.280 5.855 1.00104.18 O +ATOM 5180 OD2 ASP K 114 6.710 -39.660 6.630 1.00112.50 O +ATOM 5181 N LEU K 115 5.406 -37.512 1.145 1.00100.32 N +ATOM 5182 CA LEU K 115 5.762 -36.614 0.056 1.00 97.67 C +ATOM 5183 C LEU K 115 5.322 -35.191 0.377 1.00 92.69 C +ATOM 5184 O LEU K 115 4.227 -34.965 0.901 1.00 92.22 O +ATOM 5185 CB LEU K 115 5.118 -37.083 -1.248 1.00 98.77 C +ATOM 5186 CG LEU K 115 5.431 -36.263 -2.500 1.00 95.72 C +ATOM 5187 CD1 LEU K 115 6.917 -36.316 -2.813 1.00 96.57 C +ATOM 5188 CD2 LEU K 115 4.613 -36.756 -3.678 1.00103.58 C +ATOM 5189 N SER K 116 6.180 -34.225 0.054 1.00 88.73 N +ATOM 5190 CA SER K 116 5.922 -32.836 0.405 1.00 87.80 C +ATOM 5191 C SER K 116 6.611 -31.920 -0.596 1.00 85.60 C +ATOM 5192 O SER K 116 7.686 -32.236 -1.111 1.00 85.61 O +ATOM 5193 CB SER K 116 6.404 -32.519 1.826 1.00 86.52 C +ATOM 5194 OG SER K 116 6.367 -31.125 2.078 1.00 83.38 O +ATOM 5195 N VAL K 117 5.974 -30.782 -0.866 1.00 83.44 N +ATOM 5196 CA VAL K 117 6.523 -29.741 -1.729 1.00 84.04 C +ATOM 5197 C VAL K 117 6.427 -28.415 -0.987 1.00 80.81 C +ATOM 5198 O VAL K 117 5.373 -28.085 -0.434 1.00 81.79 O +ATOM 5199 CB VAL K 117 5.786 -29.661 -3.080 1.00 87.41 C +ATOM 5200 CG1 VAL K 117 6.380 -28.561 -3.947 1.00 85.54 C +ATOM 5201 CG2 VAL K 117 5.843 -31.000 -3.802 1.00 86.99 C +ATOM 5202 N VAL K 118 7.523 -27.658 -0.976 1.00 77.83 N +ATOM 5203 CA VAL K 118 7.599 -26.394 -0.252 1.00 77.23 C +ATOM 5204 C VAL K 118 8.159 -25.323 -1.176 1.00 75.46 C +ATOM 5205 O VAL K 118 9.229 -25.505 -1.766 1.00 75.01 O +ATOM 5206 CB VAL K 118 8.467 -26.510 1.015 1.00 76.48 C +ATOM 5207 CG1 VAL K 118 8.552 -25.165 1.719 1.00 73.15 C +ATOM 5208 CG2 VAL K 118 7.908 -27.575 1.946 1.00 86.71 C +ATOM 5209 N TYR K 119 7.444 -24.207 -1.293 1.00 75.05 N +ATOM 5210 CA TYR K 119 7.877 -23.087 -2.118 1.00 73.56 C +ATOM 5211 C TYR K 119 8.773 -22.157 -1.309 1.00 73.96 C +ATOM 5212 O TYR K 119 8.397 -21.717 -0.218 1.00 78.36 O +ATOM 5213 CB TYR K 119 6.668 -22.320 -2.656 1.00 74.34 C +ATOM 5214 CG TYR K 119 7.020 -21.040 -3.378 1.00 75.92 C +ATOM 5215 CD1 TYR K 119 7.727 -21.067 -4.572 1.00 79.42 C +ATOM 5216 CD2 TYR K 119 6.638 -19.805 -2.870 1.00 75.96 C +ATOM 5217 CE1 TYR K 119 8.050 -19.901 -5.237 1.00 81.26 C +ATOM 5218 CE2 TYR K 119 6.956 -18.632 -3.529 1.00 77.15 C +ATOM 5219 CZ TYR K 119 7.662 -18.686 -4.712 1.00 80.61 C +ATOM 5220 OH TYR K 119 7.981 -17.522 -5.372 1.00 84.81 O +ATOM 5221 N ARG K 120 9.956 -21.857 -1.847 1.00 72.63 N +ATOM 5222 CA ARG K 120 10.890 -20.926 -1.219 1.00 72.09 C +ATOM 5223 C ARG K 120 10.798 -19.589 -1.944 1.00 75.76 C +ATOM 5224 O ARG K 120 11.261 -19.459 -3.082 1.00 82.87 O +ATOM 5225 CB ARG K 120 12.319 -21.464 -1.235 1.00 73.12 C +ATOM 5226 CG ARG K 120 12.508 -22.767 -0.479 1.00 71.78 C +ATOM 5227 CD ARG K 120 13.984 -23.056 -0.249 1.00 71.88 C +ATOM 5228 NE ARG K 120 14.691 -23.384 -1.482 1.00 76.83 N +ATOM 5229 CZ ARG K 120 16.012 -23.500 -1.573 1.00 79.77 C +ATOM 5230 NH1 ARG K 120 16.771 -23.315 -0.501 1.00 77.43 N +ATOM 5231 NH2 ARG K 120 16.576 -23.800 -2.735 1.00 83.52 N +ATOM 5232 N GLU K 121 10.192 -18.599 -1.281 1.00 74.13 N +ATOM 5233 CA GLU K 121 9.961 -17.301 -1.910 1.00 76.53 C +ATOM 5234 C GLU K 121 11.267 -16.638 -2.334 1.00 77.43 C +ATOM 5235 O GLU K 121 11.319 -15.961 -3.367 1.00 78.75 O +ATOM 5236 CB GLU K 121 9.187 -16.393 -0.953 1.00 73.33 C +ATOM 5237 CG GLU K 121 8.762 -15.065 -1.558 1.00 76.70 C +ATOM 5238 CD GLU K 121 7.845 -14.277 -0.643 1.00 77.81 C +ATOM 5239 OE1 GLU K 121 8.154 -13.099 -0.362 1.00 78.70 O +ATOM 5240 OE2 GLU K 121 6.825 -14.838 -0.192 1.00 74.94 O +ATOM 5241 N GLY K 122 12.331 -16.819 -1.550 1.00 75.69 N +ATOM 5242 CA GLY K 122 13.585 -16.152 -1.866 1.00 79.36 C +ATOM 5243 C GLY K 122 14.238 -16.688 -3.126 1.00 80.64 C +ATOM 5244 O GLY K 122 14.671 -15.920 -3.990 1.00 80.58 O +ATOM 5245 N ALA K 123 14.314 -18.010 -3.251 1.00 80.84 N +ATOM 5246 CA ALA K 123 14.996 -18.633 -4.376 1.00 82.10 C +ATOM 5247 C ALA K 123 14.090 -18.863 -5.577 1.00 87.56 C +ATOM 5248 O ALA K 123 14.593 -19.237 -6.643 1.00 87.22 O +ATOM 5249 CB ALA K 123 15.615 -19.967 -3.946 1.00 80.25 C +ATOM 5250 N ASN K 124 12.781 -18.644 -5.435 1.00 86.57 N +ATOM 5251 CA ASN K 124 11.816 -18.880 -6.509 1.00 86.90 C +ATOM 5252 C ASN K 124 11.923 -20.316 -7.025 1.00 88.90 C +ATOM 5253 O ASN K 124 12.253 -20.569 -8.185 1.00 95.58 O +ATOM 5254 CB ASN K 124 11.992 -17.866 -7.646 1.00 87.60 C +ATOM 5255 CG ASN K 124 11.761 -16.437 -7.196 1.00 88.47 C +ATOM 5256 OD1 ASN K 124 10.854 -16.159 -6.412 1.00 89.82 O +ATOM 5257 ND2 ASN K 124 12.584 -15.520 -7.694 1.00 85.21 N +ATOM 5258 N ASP K 125 11.679 -21.263 -6.122 1.00 86.92 N +ATOM 5259 CA ASP K 125 11.737 -22.673 -6.479 1.00 86.68 C +ATOM 5260 C ASP K 125 10.880 -23.476 -5.509 1.00 82.22 C +ATOM 5261 O ASP K 125 10.337 -22.946 -4.535 1.00 83.15 O +ATOM 5262 CB ASP K 125 13.184 -23.184 -6.502 1.00 84.67 C +ATOM 5263 CG ASP K 125 13.880 -23.049 -5.159 1.00 85.35 C +ATOM 5264 OD1 ASP K 125 13.297 -22.447 -4.232 1.00 82.93 O +ATOM 5265 OD2 ASP K 125 15.018 -23.547 -5.031 1.00 86.73 O +ATOM 5266 N PHE K 126 10.761 -24.770 -5.802 1.00 79.90 N +ATOM 5267 CA PHE K 126 9.985 -25.704 -4.996 1.00 79.79 C +ATOM 5268 C PHE K 126 10.871 -26.882 -4.623 1.00 80.77 C +ATOM 5269 O PHE K 126 11.431 -27.543 -5.504 1.00 80.39 O +ATOM 5270 CB PHE K 126 8.740 -26.190 -5.747 1.00 78.43 C +ATOM 5271 CG PHE K 126 7.774 -25.094 -6.105 1.00 79.22 C +ATOM 5272 CD1 PHE K 126 7.994 -24.286 -7.209 1.00 84.80 C +ATOM 5273 CD2 PHE K 126 6.636 -24.883 -5.344 1.00 79.06 C +ATOM 5274 CE1 PHE K 126 7.103 -23.282 -7.541 1.00 85.06 C +ATOM 5275 CE2 PHE K 126 5.741 -23.882 -5.672 1.00 83.13 C +ATOM 5276 CZ PHE K 126 5.975 -23.080 -6.772 1.00 84.72 C +ATOM 5277 N VAL K 127 11.000 -27.138 -3.326 1.00 80.57 N +ATOM 5278 CA VAL K 127 11.750 -28.283 -2.821 1.00 79.97 C +ATOM 5279 C VAL K 127 10.775 -29.429 -2.580 1.00 81.87 C +ATOM 5280 O VAL K 127 9.789 -29.275 -1.850 1.00 83.35 O +ATOM 5281 CB VAL K 127 12.514 -27.927 -1.537 1.00 79.35 C +ATOM 5282 CG1 VAL K 127 13.325 -29.121 -1.055 1.00 77.16 C +ATOM 5283 CG2 VAL K 127 13.415 -26.724 -1.774 1.00 77.12 C +ATOM 5284 N VAL K 128 11.042 -30.569 -3.213 1.00 83.28 N +ATOM 5285 CA VAL K 128 10.242 -31.781 -3.074 1.00 85.68 C +ATOM 5286 C VAL K 128 11.022 -32.775 -2.226 1.00 89.34 C +ATOM 5287 O VAL K 128 12.201 -33.041 -2.497 1.00 89.57 O +ATOM 5288 CB VAL K 128 9.893 -32.383 -4.446 1.00 84.24 C +ATOM 5289 CG1 VAL K 128 8.957 -33.571 -4.282 1.00 85.15 C +ATOM 5290 CG2 VAL K 128 9.277 -31.325 -5.348 1.00 85.00 C +ATOM 5291 N THR K 129 10.364 -33.324 -1.204 1.00 88.68 N +ATOM 5292 CA THR K 129 10.984 -34.242 -0.257 1.00 92.30 C +ATOM 5293 C THR K 129 10.089 -35.453 -0.027 1.00 96.42 C +ATOM 5294 O THR K 129 8.858 -35.354 -0.064 1.00 94.26 O +ATOM 5295 CB THR K 129 11.267 -33.562 1.093 1.00 89.91 C +ATOM 5296 OG1 THR K 129 10.040 -33.084 1.659 1.00 89.04 O +ATOM 5297 CG2 THR K 129 12.235 -32.399 0.923 1.00 81.88 C +ATOM 5298 N PHE K 130 10.724 -36.600 0.213 1.00101.50 N +ATOM 5299 CA PHE K 130 10.012 -37.831 0.527 1.00106.18 C +ATOM 5300 C PHE K 130 10.910 -38.725 1.375 1.00111.08 C +ATOM 5301 O PHE K 130 12.103 -38.462 1.548 1.00110.16 O +ATOM 5302 CB PHE K 130 9.556 -38.559 -0.744 1.00111.15 C +ATOM 5303 CG PHE K 130 10.653 -38.783 -1.747 1.00114.64 C +ATOM 5304 CD1 PHE K 130 10.857 -37.884 -2.782 1.00111.62 C +ATOM 5305 CD2 PHE K 130 11.479 -39.893 -1.659 1.00118.80 C +ATOM 5306 CE1 PHE K 130 11.864 -38.086 -3.706 1.00117.40 C +ATOM 5307 CE2 PHE K 130 12.488 -40.099 -2.580 1.00120.45 C +ATOM 5308 CZ PHE K 130 12.680 -39.195 -3.605 1.00123.00 C +ATOM 5309 N ASN K 131 10.316 -39.795 1.901 1.00114.76 N +ATOM 5310 CA ASN K 131 10.998 -40.749 2.765 1.00121.92 C +ATOM 5311 C ASN K 131 10.739 -42.160 2.252 1.00128.75 C +ATOM 5312 O ASN K 131 9.768 -42.411 1.533 1.00127.38 O +ATOM 5313 CB ASN K 131 10.516 -40.621 4.224 1.00120.80 C +ATOM 5314 CG ASN K 131 11.545 -41.100 5.240 1.00121.61 C +ATOM 5315 OD1 ASN K 131 12.452 -41.867 4.915 1.00125.32 O +ATOM 5316 ND2 ASN K 131 11.396 -40.648 6.486 1.00118.57 N +ATOM 5317 N THR K 132 11.619 -43.086 2.628 1.00140.18 N +ATOM 5318 CA THR K 132 11.461 -44.484 2.244 1.00146.59 C +ATOM 5319 C THR K 132 12.082 -45.357 3.326 1.00154.86 C +ATOM 5320 O THR K 132 13.216 -45.116 3.754 1.00157.61 O +ATOM 5321 CB THR K 132 12.078 -44.773 0.863 1.00151.91 C +ATOM 5322 OG1 THR K 132 11.841 -46.141 0.505 1.00157.51 O +ATOM 5323 CG2 THR K 132 13.578 -44.490 0.838 1.00155.44 C +ATOM 5324 N SER K 133 11.316 -46.344 3.798 1.00156.36 N +ATOM 5325 CA SER K 133 11.781 -47.235 4.858 1.00159.87 C +ATOM 5326 C SER K 133 12.979 -48.088 4.456 1.00169.09 C +ATOM 5327 O SER K 133 13.570 -48.735 5.328 1.00170.30 O +ATOM 5328 CB SER K 133 10.634 -48.143 5.311 1.00153.66 C +ATOM 5329 OG SER K 133 10.153 -48.933 4.238 1.00155.74 O +ATOM 5330 N HIS K 134 13.354 -48.109 3.176 1.00173.23 N +ATOM 5331 CA HIS K 134 14.475 -48.929 2.731 1.00180.65 C +ATOM 5332 C HIS K 134 15.830 -48.321 3.069 1.00182.44 C +ATOM 5333 O HIS K 134 16.833 -49.043 3.054 1.00187.95 O +ATOM 5334 CB HIS K 134 14.382 -49.190 1.227 1.00183.39 C +ATOM 5335 CG HIS K 134 13.452 -50.307 0.869 1.00186.75 C +ATOM 5336 ND1 HIS K 134 12.716 -50.993 1.812 1.00183.32 N +ATOM 5337 CD2 HIS K 134 13.146 -50.867 -0.325 1.00187.85 C +ATOM 5338 CE1 HIS K 134 11.993 -51.922 1.214 1.00185.98 C +ATOM 5339 NE2 HIS K 134 12.236 -51.867 -0.083 1.00185.71 N +ATOM 5340 N LEU K 135 15.886 -47.015 3.347 1.00177.26 N +ATOM 5341 CA LEU K 135 17.157 -46.384 3.693 1.00175.58 C +ATOM 5342 C LEU K 135 17.801 -47.060 4.897 1.00179.74 C +ATOM 5343 O LEU K 135 19.026 -47.225 4.945 1.00178.08 O +ATOM 5344 CB LEU K 135 16.951 -44.892 3.955 1.00170.64 C +ATOM 5345 CG LEU K 135 16.792 -44.021 2.708 1.00162.80 C +ATOM 5346 CD1 LEU K 135 16.300 -42.630 3.076 1.00153.47 C +ATOM 5347 CD2 LEU K 135 18.104 -43.945 1.941 1.00159.46 C +ATOM 5348 N GLN K 136 16.996 -47.455 5.880 1.00183.11 N +ATOM 5349 CA GLN K 136 17.495 -48.111 7.079 1.00187.20 C +ATOM 5350 C GLN K 136 17.540 -49.630 6.943 1.00194.44 C +ATOM 5351 O GLN K 136 17.755 -50.323 7.942 1.00199.44 O +ATOM 5352 CB GLN K 136 16.638 -47.724 8.287 1.00179.81 C +ATOM 5353 N LYS K 137 17.344 -50.157 5.737 1.00195.02 N +ATOM 5354 CA LYS K 137 17.359 -51.593 5.505 1.00196.69 C +ATOM 5355 C LYS K 137 18.775 -52.076 5.213 1.00201.36 C +ATOM 5356 O LYS K 137 19.624 -51.322 4.728 1.00201.32 O +ATOM 5357 CB LYS K 137 16.432 -51.966 4.347 1.00194.08 C +ATOM 5358 N LYS K 138 19.021 -53.352 5.516 1.00202.12 N +ATOM 5359 CA LYS K 138 20.357 -53.920 5.362 1.00198.70 C +ATOM 5360 C LYS K 138 20.662 -54.264 3.908 1.00200.48 C +ATOM 5361 O LYS K 138 21.684 -53.834 3.362 1.00197.20 O +ATOM 5362 CB LYS K 138 20.503 -55.160 6.246 1.00189.94 C +ATOM 5363 N TYR K 139 19.787 -55.038 3.265 1.00204.15 N +ATOM 5364 CA TYR K 139 20.072 -55.528 1.915 1.00206.37 C +ATOM 5365 C TYR K 139 19.771 -54.470 0.858 1.00209.71 C +ATOM 5366 O TYR K 139 20.684 -53.948 0.211 1.00211.03 O +ATOM 5367 CB TYR K 139 19.290 -56.818 1.650 1.00203.91 C +ATOM 5368 CG TYR K 139 19.741 -57.978 2.507 1.00199.96 C +ATOM 5369 CD1 TYR K 139 20.872 -58.711 2.171 1.00194.79 C +ATOM 5370 CD2 TYR K 139 19.047 -58.334 3.656 1.00196.60 C +ATOM 5371 CE1 TYR K 139 21.295 -59.770 2.950 1.00192.07 C +ATOM 5372 CE2 TYR K 139 19.463 -59.393 4.442 1.00192.02 C +ATOM 5373 CZ TYR K 139 20.588 -60.107 4.083 1.00191.74 C +ATOM 5374 OH TYR K 139 21.008 -61.161 4.861 1.00190.78 O +ATOM 5375 N VAL K 140 18.496 -54.141 0.664 1.00212.11 N +ATOM 5376 CA VAL K 140 18.108 -53.166 -0.349 1.00210.92 C +ATOM 5377 C VAL K 140 18.218 -51.784 0.292 1.00208.27 C +ATOM 5378 O VAL K 140 17.304 -51.312 0.971 1.00206.10 O +ATOM 5379 CB VAL K 140 16.712 -53.451 -0.913 1.00210.08 C +ATOM 5380 CG1 VAL K 140 16.762 -54.682 -1.812 1.00208.82 C +ATOM 5381 CG2 VAL K 140 15.688 -53.669 0.199 1.00205.50 C +ATOM 5382 N LYS K 141 19.362 -51.131 0.078 1.00201.89 N +ATOM 5383 CA LYS K 141 19.612 -49.800 0.610 1.00194.64 C +ATOM 5384 C LYS K 141 19.935 -48.769 -0.459 1.00185.41 C +ATOM 5385 O LYS K 141 19.998 -47.576 -0.141 1.00183.72 O +ATOM 5386 CB LYS K 141 20.760 -49.836 1.631 1.00194.98 C +ATOM 5387 N VAL K 142 20.136 -49.185 -1.706 1.00179.59 N +ATOM 5388 CA VAL K 142 20.414 -48.280 -2.814 1.00171.56 C +ATOM 5389 C VAL K 142 19.219 -48.333 -3.752 1.00168.45 C +ATOM 5390 O VAL K 142 18.871 -49.404 -4.265 1.00168.07 O +ATOM 5391 CB VAL K 142 21.709 -48.659 -3.547 1.00169.00 C +ATOM 5392 CG1 VAL K 142 21.915 -47.766 -4.762 1.00162.32 C +ATOM 5393 CG2 VAL K 142 22.900 -48.572 -2.605 1.00167.78 C +ATOM 5394 N LEU K 143 18.591 -47.183 -3.976 1.00166.48 N +ATOM 5395 CA LEU K 143 17.422 -47.106 -4.833 1.00164.30 C +ATOM 5396 C LEU K 143 17.584 -45.944 -5.803 1.00158.11 C +ATOM 5397 O LEU K 143 18.429 -45.065 -5.620 1.00154.59 O +ATOM 5398 CB LEU K 143 16.137 -46.914 -4.009 1.00161.31 C +ATOM 5399 CG LEU K 143 15.669 -48.015 -3.050 1.00165.20 C +ATOM 5400 CD1 LEU K 143 14.380 -47.588 -2.353 1.00161.98 C +ATOM 5401 CD2 LEU K 143 15.505 -49.365 -3.733 1.00169.97 C +ATOM 5402 N MET K 144 16.758 -45.955 -6.844 1.00155.64 N +ATOM 5403 CA MET K 144 16.611 -44.828 -7.759 1.00153.06 C +ATOM 5404 C MET K 144 15.136 -44.470 -7.827 1.00150.08 C +ATOM 5405 O MET K 144 14.297 -45.346 -8.064 1.00151.65 O +ATOM 5406 CB MET K 144 17.155 -45.142 -9.157 1.00157.10 C +ATOM 5407 CG MET K 144 18.669 -45.030 -9.286 1.00161.34 C +ATOM 5408 SD MET K 144 19.340 -43.374 -9.052 1.00161.44 S +ATOM 5409 CE MET K 144 21.091 -43.691 -9.269 1.00152.68 C +ATOM 5410 N HIS K 145 14.817 -43.199 -7.602 1.00145.18 N +ATOM 5411 CA HIS K 145 13.433 -42.759 -7.508 1.00140.62 C +ATOM 5412 C HIS K 145 13.035 -41.965 -8.746 1.00136.78 C +ATOM 5413 O HIS K 145 13.833 -41.201 -9.296 1.00136.72 O +ATOM 5414 CB HIS K 145 13.199 -41.917 -6.251 1.00136.67 C +ATOM 5415 CG HIS K 145 13.713 -42.547 -4.992 1.00135.55 C +ATOM 5416 ND1 HIS K 145 13.153 -43.679 -4.440 1.00138.07 N +ATOM 5417 CD2 HIS K 145 14.729 -42.192 -4.170 1.00135.38 C +ATOM 5418 CE1 HIS K 145 13.807 -43.999 -3.337 1.00142.06 C +ATOM 5419 NE2 HIS K 145 14.768 -43.112 -3.151 1.00139.28 N +ATOM 5420 N ASP K 146 11.796 -42.161 -9.181 1.00134.19 N +ATOM 5421 CA ASP K 146 11.214 -41.451 -10.315 1.00134.34 C +ATOM 5422 C ASP K 146 10.094 -40.563 -9.788 1.00129.08 C +ATOM 5423 O ASP K 146 9.075 -41.065 -9.305 1.00128.23 O +ATOM 5424 CB ASP K 146 10.689 -42.431 -11.362 1.00141.30 C +ATOM 5425 CG ASP K 146 10.043 -41.736 -12.552 1.00139.55 C +ATOM 5426 OD1 ASP K 146 10.189 -40.503 -12.689 1.00139.39 O +ATOM 5427 OD2 ASP K 146 9.377 -42.428 -13.351 1.00140.86 O +ATOM 5428 N VAL K 147 10.288 -39.251 -9.874 1.00126.80 N +ATOM 5429 CA VAL K 147 9.283 -38.273 -9.478 1.00123.15 C +ATOM 5430 C VAL K 147 8.562 -37.792 -10.727 1.00121.41 C +ATOM 5431 O VAL K 147 9.180 -37.216 -11.630 1.00121.59 O +ATOM 5432 CB VAL K 147 9.907 -37.094 -8.717 1.00119.31 C +ATOM 5433 CG1 VAL K 147 8.878 -36.006 -8.517 1.00113.87 C +ATOM 5434 CG2 VAL K 147 10.413 -37.558 -7.370 1.00118.26 C +ATOM 5435 N ALA K 148 7.260 -38.042 -10.786 1.00118.90 N +ATOM 5436 CA ALA K 148 6.425 -37.613 -11.896 1.00117.78 C +ATOM 5437 C ALA K 148 5.445 -36.564 -11.395 1.00115.91 C +ATOM 5438 O ALA K 148 4.751 -36.782 -10.394 1.00115.84 O +ATOM 5439 CB ALA K 148 5.674 -38.792 -12.514 1.00120.36 C +ATOM 5440 N TYR K 149 5.397 -35.429 -12.086 1.00116.22 N +ATOM 5441 CA TYR K 149 4.469 -34.363 -11.744 1.00117.20 C +ATOM 5442 C TYR K 149 3.770 -33.881 -13.004 1.00121.64 C +ATOM 5443 O TYR K 149 4.375 -33.814 -14.079 1.00120.77 O +ATOM 5444 CB TYR K 149 5.173 -33.184 -11.051 1.00112.99 C +ATOM 5445 CG TYR K 149 6.177 -32.449 -11.909 1.00109.34 C +ATOM 5446 CD1 TYR K 149 7.486 -32.895 -12.022 1.00110.07 C +ATOM 5447 CD2 TYR K 149 5.816 -31.294 -12.594 1.00108.71 C +ATOM 5448 CE1 TYR K 149 8.406 -32.218 -12.802 1.00110.05 C +ATOM 5449 CE2 TYR K 149 6.727 -30.612 -13.375 1.00106.16 C +ATOM 5450 CZ TYR K 149 8.020 -31.077 -13.475 1.00107.17 C +ATOM 5451 OH TYR K 149 8.931 -30.399 -14.253 1.00104.27 O +ATOM 5452 N ARG K 150 2.490 -33.555 -12.860 1.00126.61 N +ATOM 5453 CA ARG K 150 1.668 -33.126 -13.979 1.00133.23 C +ATOM 5454 C ARG K 150 0.803 -31.950 -13.555 1.00133.33 C +ATOM 5455 O ARG K 150 0.589 -31.701 -12.365 1.00129.72 O +ATOM 5456 CB ARG K 150 0.796 -34.272 -14.510 1.00141.28 C +ATOM 5457 CG ARG K 150 -0.635 -34.299 -14.002 1.00145.64 C +ATOM 5458 CD ARG K 150 -1.527 -35.024 -15.002 1.00153.57 C +ATOM 5459 NE ARG K 150 -2.949 -34.872 -14.704 1.00161.70 N +ATOM 5460 CZ ARG K 150 -3.751 -35.871 -14.349 1.00165.62 C +ATOM 5461 NH1 ARG K 150 -3.277 -37.105 -14.253 1.00163.42 N +ATOM 5462 NH2 ARG K 150 -5.032 -35.636 -14.098 1.00168.71 N +ATOM 5463 N GLN K 151 0.322 -31.212 -14.546 1.00136.19 N +ATOM 5464 CA GLN K 151 -0.612 -30.129 -14.294 1.00136.97 C +ATOM 5465 C GLN K 151 -2.043 -30.659 -14.353 1.00148.79 C +ATOM 5466 O GLN K 151 -2.325 -31.700 -14.951 1.00158.49 O +ATOM 5467 CB GLN K 151 -0.411 -28.995 -15.303 1.00134.97 C +ATOM 5468 CG GLN K 151 -1.109 -27.689 -14.938 1.00130.90 C +ATOM 5469 CD GLN K 151 -0.733 -26.544 -15.858 1.00125.72 C +ATOM 5470 OE1 GLN K 151 0.304 -26.579 -16.519 1.00121.39 O +ATOM 5471 NE2 GLN K 151 -1.579 -25.521 -15.905 1.00124.80 N +ATOM 5472 N GLU K 152 -2.949 -29.924 -13.705 1.00147.93 N +ATOM 5473 CA GLU K 152 -4.353 -30.319 -13.661 1.00154.23 C +ATOM 5474 C GLU K 152 -4.942 -30.439 -15.063 1.00163.01 C +ATOM 5475 O GLU K 152 -5.712 -31.365 -15.345 1.00165.82 O +ATOM 5476 CB GLU K 152 -5.151 -29.320 -12.824 1.00145.95 C +ATOM 5477 N LYS K 153 -4.598 -29.503 -15.950 1.00164.04 N +ATOM 5478 CA LYS K 153 -5.201 -29.449 -17.280 1.00166.30 C +ATOM 5479 C LYS K 153 -4.817 -30.650 -18.145 1.00167.96 C +ATOM 5480 O LYS K 153 -5.678 -31.246 -18.803 1.00170.25 O +ATOM 5481 CB LYS K 153 -4.804 -28.143 -17.970 1.00158.83 C +ATOM 5482 N ASP K 154 -3.535 -31.018 -18.165 1.00164.95 N +ATOM 5483 CA ASP K 154 -3.057 -32.061 -19.073 1.00168.76 C +ATOM 5484 C ASP K 154 -3.705 -33.417 -18.820 1.00172.32 C +ATOM 5485 O ASP K 154 -3.719 -33.922 -17.693 1.00169.96 O +ATOM 5486 CB ASP K 154 -1.538 -32.200 -18.983 1.00161.93 C +ATOM 5487 CG ASP K 154 -0.810 -31.096 -19.713 1.00155.09 C +ATOM 5488 OD1 ASP K 154 -1.159 -29.914 -19.517 1.00150.84 O +ATOM 5489 OD2 ASP K 154 0.113 -31.417 -20.492 1.00149.45 O +ATOM 5490 N GLU K 155 -4.264 -33.988 -19.886 1.00178.76 N +ATOM 5491 CA GLU K 155 -4.911 -35.299 -19.863 1.00181.68 C +ATOM 5492 C GLU K 155 -3.847 -36.389 -19.946 1.00183.08 C +ATOM 5493 O GLU K 155 -3.427 -36.805 -21.029 1.00186.02 O +ATOM 5494 CB GLU K 155 -5.913 -35.421 -21.005 1.00186.03 C +ATOM 5495 N ASN K 156 -3.401 -36.848 -18.776 1.00179.73 N +ATOM 5496 CA ASN K 156 -2.402 -37.913 -18.645 1.00172.49 C +ATOM 5497 C ASN K 156 -1.093 -37.598 -19.375 1.00164.01 C +ATOM 5498 O ASN K 156 -0.612 -38.383 -20.195 1.00163.29 O +ATOM 5499 CB ASN K 156 -2.973 -39.256 -19.113 1.00177.05 C +ATOM 5500 CG ASN K 156 -2.185 -40.455 -18.580 1.00173.46 C +ATOM 5501 OD1 ASN K 156 -2.754 -41.352 -17.959 1.00170.83 O +ATOM 5502 ND2 ASN K 156 -0.878 -40.474 -18.826 1.00171.96 N +ATOM 5503 N LYS K 157 -0.515 -36.436 -19.082 1.00158.42 N +ATOM 5504 CA LYS K 157 0.853 -36.144 -19.489 1.00149.32 C +ATOM 5505 C LYS K 157 1.645 -35.854 -18.224 1.00142.89 C +ATOM 5506 O LYS K 157 1.220 -35.039 -17.399 1.00146.00 O +ATOM 5507 CB LYS K 157 0.924 -34.964 -20.463 1.00143.86 C +ATOM 5508 CG LYS K 157 2.324 -34.719 -21.002 1.00134.54 C +ATOM 5509 CD LYS K 157 2.935 -36.015 -21.518 1.00128.30 C +ATOM 5510 CE LYS K 157 4.423 -35.870 -21.792 1.00120.96 C +ATOM 5511 NZ LYS K 157 5.057 -37.192 -22.058 1.00120.39 N +ATOM 5512 N TRP K 158 2.797 -36.503 -18.081 1.00137.00 N +ATOM 5513 CA TRP K 158 3.599 -36.397 -16.872 1.00131.14 C +ATOM 5514 C TRP K 158 5.030 -35.998 -17.196 1.00126.20 C +ATOM 5515 O TRP K 158 5.634 -36.525 -18.136 1.00126.30 O +ATOM 5516 CB TRP K 158 3.567 -37.718 -16.097 1.00129.95 C +ATOM 5517 CG TRP K 158 2.192 -38.043 -15.599 1.00134.31 C +ATOM 5518 CD1 TRP K 158 1.193 -38.656 -16.298 1.00140.75 C +ATOM 5519 CD2 TRP K 158 1.660 -37.769 -14.297 1.00135.20 C +ATOM 5520 NE1 TRP K 158 0.072 -38.778 -15.514 1.00142.91 N +ATOM 5521 CE2 TRP K 158 0.333 -38.243 -14.280 1.00139.65 C +ATOM 5522 CE3 TRP K 158 2.177 -37.171 -13.143 1.00131.01 C +ATOM 5523 CZ2 TRP K 158 -0.483 -38.137 -13.156 1.00139.09 C +ATOM 5524 CZ3 TRP K 158 1.363 -37.065 -12.028 1.00128.72 C +ATOM 5525 CH2 TRP K 158 0.048 -37.546 -12.044 1.00133.48 C +ATOM 5526 N THR K 159 5.570 -35.062 -16.418 1.00124.66 N +ATOM 5527 CA THR K 159 6.993 -34.753 -16.462 1.00121.40 C +ATOM 5528 C THR K 159 7.701 -35.620 -15.426 1.00119.43 C +ATOM 5529 O THR K 159 7.383 -35.552 -14.232 1.00119.09 O +ATOM 5530 CB THR K 159 7.246 -33.271 -16.192 1.00121.34 C +ATOM 5531 OG1 THR K 159 6.473 -32.477 -17.102 1.00119.72 O +ATOM 5532 CG2 THR K 159 8.723 -32.943 -16.372 1.00117.89 C +ATOM 5533 N HIS K 160 8.647 -36.438 -15.884 1.00119.92 N +ATOM 5534 CA HIS K 160 9.359 -37.382 -15.036 1.00121.44 C +ATOM 5535 C HIS K 160 10.790 -36.922 -14.793 1.00123.20 C +ATOM 5536 O HIS K 160 11.420 -36.306 -15.657 1.00120.04 O +ATOM 5537 CB HIS K 160 9.378 -38.780 -15.662 1.00121.93 C +ATOM 5538 CG HIS K 160 8.030 -39.424 -15.755 1.00122.70 C +ATOM 5539 ND1 HIS K 160 7.640 -40.453 -14.925 1.00121.58 N +ATOM 5540 CD2 HIS K 160 6.984 -39.189 -16.581 1.00120.04 C +ATOM 5541 CE1 HIS K 160 6.410 -40.824 -15.236 1.00121.15 C +ATOM 5542 NE2 HIS K 160 5.989 -40.072 -16.237 1.00119.04 N +ATOM 5543 N VAL K 161 11.296 -37.236 -13.600 1.00126.57 N +ATOM 5544 CA VAL K 161 12.663 -36.911 -13.200 1.00128.55 C +ATOM 5545 C VAL K 161 13.220 -38.087 -12.408 1.00131.54 C +ATOM 5546 O VAL K 161 12.624 -38.501 -11.407 1.00130.88 O +ATOM 5547 CB VAL K 161 12.743 -35.623 -12.357 1.00127.62 C +ATOM 5548 CG1 VAL K 161 14.180 -35.361 -11.930 1.00125.02 C +ATOM 5549 CG2 VAL K 161 12.192 -34.427 -13.123 1.00126.03 C +ATOM 5550 N ASN K 162 14.353 -38.628 -12.850 1.00134.97 N +ATOM 5551 CA ASN K 162 15.047 -39.680 -12.116 1.00139.57 C +ATOM 5552 C ASN K 162 16.039 -39.057 -11.146 1.00139.63 C +ATOM 5553 O ASN K 162 16.667 -38.039 -11.450 1.00137.34 O +ATOM 5554 CB ASN K 162 15.775 -40.648 -13.051 1.00145.66 C +ATOM 5555 CG ASN K 162 14.848 -41.675 -13.670 1.00146.16 C +ATOM 5556 OD1 ASN K 162 13.737 -41.356 -14.091 1.00146.72 O +ATOM 5557 ND2 ASN K 162 15.295 -42.926 -13.704 1.00143.75 N +ATOM 5558 N LEU K 163 16.170 -39.669 -9.972 1.00141.27 N +ATOM 5559 CA LEU K 163 17.040 -39.124 -8.946 1.00140.90 C +ATOM 5560 C LEU K 163 17.587 -40.248 -8.078 1.00140.80 C +ATOM 5561 O LEU K 163 17.061 -41.366 -8.062 1.00143.26 O +ATOM 5562 CB LEU K 163 16.273 -38.108 -8.089 1.00141.47 C +ATOM 5563 CG LEU K 163 15.008 -38.648 -7.405 1.00138.41 C +ATOM 5564 CD1 LEU K 163 15.307 -39.272 -6.050 1.00136.33 C +ATOM 5565 CD2 LEU K 163 13.937 -37.582 -7.285 1.00133.32 C +ATOM 5566 N SER K 164 18.630 -39.910 -7.323 1.00137.34 N +ATOM 5567 CA SER K 164 19.282 -40.819 -6.392 1.00137.44 C +ATOM 5568 C SER K 164 19.164 -40.389 -4.939 1.00135.43 C +ATOM 5569 O SER K 164 19.161 -41.250 -4.057 1.00136.37 O +ATOM 5570 CB SER K 164 20.770 -40.965 -6.746 1.00138.99 C +ATOM 5571 OG SER K 164 21.412 -39.702 -6.767 1.00138.05 O +ATOM 5572 N SER K 165 19.064 -39.088 -4.667 1.00132.41 N +ATOM 5573 CA SER K 165 18.937 -38.592 -3.302 1.00125.69 C +ATOM 5574 C SER K 165 17.491 -38.703 -2.835 1.00123.57 C +ATOM 5575 O SER K 165 16.730 -39.525 -3.354 1.00126.21 O +ATOM 5576 CB SER K 165 19.428 -37.145 -3.210 1.00120.35 C +ATOM 5577 OG SER K 165 18.620 -36.274 -3.983 1.00118.23 O +ATOM 5578 N THR K 166 17.113 -37.925 -1.820 1.00118.89 N +ATOM 5579 CA THR K 166 15.729 -37.875 -1.364 1.00114.47 C +ATOM 5580 C THR K 166 15.125 -36.479 -1.471 1.00109.32 C +ATOM 5581 O THR K 166 14.022 -36.252 -0.959 1.00107.35 O +ATOM 5582 CB THR K 166 15.622 -38.381 0.078 1.00113.86 C +ATOM 5583 OG1 THR K 166 16.521 -37.645 0.915 1.00113.59 O +ATOM 5584 CG2 THR K 166 15.967 -39.863 0.150 1.00118.29 C +ATOM 5585 N LYS K 167 15.812 -35.541 -2.122 1.00105.37 N +ATOM 5586 CA LYS K 167 15.333 -34.176 -2.276 1.00 98.40 C +ATOM 5587 C LYS K 167 15.510 -33.728 -3.720 1.00 96.89 C +ATOM 5588 O LYS K 167 16.459 -34.127 -4.399 1.00 99.26 O +ATOM 5589 CB LYS K 167 16.070 -33.208 -1.338 1.00 92.46 C +ATOM 5590 N LEU K 168 14.585 -32.890 -4.181 1.00 93.06 N +ATOM 5591 CA LEU K 168 14.630 -32.365 -5.539 1.00 91.86 C +ATOM 5592 C LEU K 168 14.246 -30.892 -5.511 1.00 88.88 C +ATOM 5593 O LEU K 168 13.547 -30.432 -4.607 1.00 91.88 O +ATOM 5594 CB LEU K 168 13.700 -33.155 -6.477 1.00 93.15 C +ATOM 5595 CG LEU K 168 13.596 -32.733 -7.946 1.00 97.06 C +ATOM 5596 CD1 LEU K 168 14.946 -32.853 -8.637 1.00 94.98 C +ATOM 5597 CD2 LEU K 168 12.542 -33.553 -8.675 1.00106.68 C +ATOM 5598 N THR K 169 14.707 -30.152 -6.517 1.00 89.89 N +ATOM 5599 CA THR K 169 14.438 -28.723 -6.628 1.00 84.92 C +ATOM 5600 C THR K 169 13.902 -28.431 -8.021 1.00 84.15 C +ATOM 5601 O THR K 169 14.559 -28.745 -9.019 1.00 85.03 O +ATOM 5602 CB THR K 169 15.698 -27.896 -6.354 1.00 83.19 C +ATOM 5603 OG1 THR K 169 16.206 -28.210 -5.052 1.00 83.47 O +ATOM 5604 CG2 THR K 169 15.387 -26.409 -6.426 1.00 83.14 C +ATOM 5605 N LEU K 170 12.715 -27.834 -8.085 1.00 84.02 N +ATOM 5606 CA LEU K 170 12.082 -27.450 -9.340 1.00 82.24 C +ATOM 5607 C LEU K 170 12.093 -25.931 -9.439 1.00 87.18 C +ATOM 5608 O LEU K 170 11.592 -25.245 -8.541 1.00 90.21 O +ATOM 5609 CB LEU K 170 10.652 -27.984 -9.422 1.00 80.89 C +ATOM 5610 CG LEU K 170 10.460 -29.488 -9.214 1.00 83.36 C +ATOM 5611 CD1 LEU K 170 8.987 -29.853 -9.301 1.00 85.33 C +ATOM 5612 CD2 LEU K 170 11.275 -30.284 -10.222 1.00 83.96 C +ATOM 5613 N LEU K 171 12.661 -25.412 -10.524 1.00 88.14 N +ATOM 5614 CA LEU K 171 12.756 -23.970 -10.699 1.00 91.07 C +ATOM 5615 C LEU K 171 11.401 -23.375 -11.060 1.00 94.98 C +ATOM 5616 O LEU K 171 10.630 -23.958 -11.827 1.00 97.79 O +ATOM 5617 CB LEU K 171 13.785 -23.633 -11.777 1.00 99.40 C +ATOM 5618 CG LEU K 171 15.235 -23.991 -11.450 1.00104.53 C +ATOM 5619 CD1 LEU K 171 16.124 -23.824 -12.672 1.00122.56 C +ATOM 5620 CD2 LEU K 171 15.746 -23.149 -10.291 1.00103.46 C +ATOM 5621 N GLN K 172 11.115 -22.201 -10.490 1.00 96.52 N +ATOM 5622 CA GLN K 172 9.847 -21.527 -10.756 1.00 97.47 C +ATOM 5623 C GLN K 172 9.736 -21.110 -12.216 1.00101.45 C +ATOM 5624 O GLN K 172 8.650 -21.166 -12.804 1.00 99.24 O +ATOM 5625 CB GLN K 172 9.709 -20.311 -9.841 1.00 93.49 C +ATOM 5626 CG GLN K 172 8.345 -19.656 -9.833 1.00 93.18 C +ATOM 5627 CD GLN K 172 8.352 -18.353 -9.059 1.00 94.60 C +ATOM 5628 OE1 GLN K 172 7.980 -18.310 -7.888 1.00 95.07 O +ATOM 5629 NE2 GLN K 172 8.793 -17.282 -9.709 1.00 97.72 N +ATOM 5630 N ARG K 173 10.850 -20.681 -12.816 1.00104.35 N +ATOM 5631 CA ARG K 173 10.822 -20.264 -14.214 1.00106.57 C +ATOM 5632 C ARG K 173 10.506 -21.430 -15.141 1.00104.41 C +ATOM 5633 O ARG K 173 9.947 -21.225 -16.225 1.00107.01 O +ATOM 5634 CB ARG K 173 12.156 -19.627 -14.600 1.00106.31 C +ATOM 5635 CG ARG K 173 13.349 -20.548 -14.421 1.00109.72 C +ATOM 5636 CD ARG K 173 14.606 -19.959 -15.034 1.00114.59 C +ATOM 5637 NE ARG K 173 15.692 -20.934 -15.073 1.00116.10 N +ATOM 5638 CZ ARG K 173 16.855 -20.732 -15.682 1.00122.80 C +ATOM 5639 NH1 ARG K 173 17.088 -19.587 -16.308 1.00130.03 N +ATOM 5640 NH2 ARG K 173 17.785 -21.677 -15.667 1.00125.40 N +ATOM 5641 N LYS K 174 10.851 -22.653 -14.738 1.00101.76 N +ATOM 5642 CA LYS K 174 10.569 -23.847 -15.521 1.00102.14 C +ATOM 5643 C LYS K 174 9.226 -24.473 -15.163 1.00105.64 C +ATOM 5644 O LYS K 174 9.034 -25.676 -15.373 1.00107.41 O +ATOM 5645 CB LYS K 174 11.697 -24.867 -15.352 1.00100.57 C +ATOM 5646 CG LYS K 174 13.035 -24.395 -15.904 1.00107.26 C +ATOM 5647 CD LYS K 174 14.151 -25.377 -15.590 1.00107.28 C +ATOM 5648 CE LYS K 174 15.471 -24.916 -16.188 1.00111.87 C +ATOM 5649 NZ LYS K 174 15.388 -24.760 -17.667 1.00111.11 N +ATOM 5650 N LEU K 175 8.300 -23.682 -14.624 1.00104.23 N +ATOM 5651 CA LEU K 175 6.965 -24.142 -14.278 1.00105.33 C +ATOM 5652 C LEU K 175 5.962 -23.082 -14.706 1.00105.52 C +ATOM 5653 O LEU K 175 6.263 -21.885 -14.701 1.00104.76 O +ATOM 5654 CB LEU K 175 6.828 -24.425 -12.775 1.00105.59 C +ATOM 5655 CG LEU K 175 7.626 -25.605 -12.217 1.00104.27 C +ATOM 5656 CD1 LEU K 175 7.567 -25.625 -10.698 1.00 96.59 C +ATOM 5657 CD2 LEU K 175 7.113 -26.917 -12.792 1.00108.03 C +ATOM 5658 N GLN K 176 4.773 -23.530 -15.082 1.00105.42 N +ATOM 5659 CA GLN K 176 3.748 -22.605 -15.548 1.00105.07 C +ATOM 5660 C GLN K 176 3.243 -21.752 -14.389 1.00103.37 C +ATOM 5661 O GLN K 176 2.932 -22.291 -13.320 1.00105.44 O +ATOM 5662 CB GLN K 176 2.593 -23.370 -16.189 1.00105.42 C +ATOM 5663 CG GLN K 176 3.024 -24.264 -17.338 1.00103.78 C +ATOM 5664 CD GLN K 176 3.691 -23.487 -18.455 1.00 97.08 C +ATOM 5665 OE1 GLN K 176 3.230 -22.414 -18.844 1.00 92.70 O +ATOM 5666 NE2 GLN K 176 4.791 -24.022 -18.971 1.00 95.81 N +ATOM 5667 N PRO K 177 3.151 -20.435 -14.554 1.00102.69 N +ATOM 5668 CA PRO K 177 2.655 -19.591 -13.462 1.00103.21 C +ATOM 5669 C PRO K 177 1.166 -19.792 -13.231 1.00102.68 C +ATOM 5670 O PRO K 177 0.411 -20.126 -14.148 1.00105.14 O +ATOM 5671 CB PRO K 177 2.953 -18.165 -13.947 1.00104.68 C +ATOM 5672 CG PRO K 177 3.936 -18.322 -15.074 1.00104.26 C +ATOM 5673 CD PRO K 177 3.621 -19.641 -15.699 1.00104.35 C +ATOM 5674 N ALA K 178 0.753 -19.576 -11.980 1.00101.01 N +ATOM 5675 CA ALA K 178 -0.656 -19.638 -11.582 1.00 98.65 C +ATOM 5676 C ALA K 178 -1.283 -20.978 -11.958 1.00 98.62 C +ATOM 5677 O ALA K 178 -2.419 -21.043 -12.433 1.00 99.33 O +ATOM 5678 CB ALA K 178 -1.451 -18.476 -12.183 1.00 93.08 C +ATOM 5679 N ALA K 179 -0.538 -22.059 -11.740 1.00100.04 N +ATOM 5680 CA ALA K 179 -0.978 -23.399 -12.095 1.00108.39 C +ATOM 5681 C ALA K 179 -0.799 -24.340 -10.913 1.00105.71 C +ATOM 5682 O ALA K 179 0.129 -24.191 -10.113 1.00103.70 O +ATOM 5683 CB ALA K 179 -0.208 -23.938 -13.308 1.00115.13 C +ATOM 5684 N MET K 180 -1.703 -25.311 -10.809 1.00103.68 N +ATOM 5685 CA MET K 180 -1.627 -26.352 -9.793 1.00104.37 C +ATOM 5686 C MET K 180 -0.985 -27.608 -10.364 1.00110.90 C +ATOM 5687 O MET K 180 -1.324 -28.039 -11.471 1.00123.80 O +ATOM 5688 CB MET K 180 -3.008 -26.689 -9.235 1.00108.69 C +ATOM 5689 CG MET K 180 -2.952 -27.719 -8.120 1.00112.24 C +ATOM 5690 SD MET K 180 -4.549 -28.014 -7.361 1.00124.72 S +ATOM 5691 CE MET K 180 -4.718 -26.466 -6.495 1.00112.59 C +ATOM 5692 N TYR K 181 -0.063 -28.190 -9.602 1.00107.11 N +ATOM 5693 CA TYR K 181 0.657 -29.392 -9.987 1.00108.57 C +ATOM 5694 C TYR K 181 0.387 -30.501 -8.979 1.00108.70 C +ATOM 5695 O TYR K 181 0.401 -30.267 -7.762 1.00108.24 O +ATOM 5696 CB TYR K 181 2.165 -29.133 -10.063 1.00107.45 C +ATOM 5697 CG TYR K 181 2.617 -28.311 -11.249 1.00113.60 C +ATOM 5698 CD1 TYR K 181 2.615 -26.923 -11.198 1.00111.16 C +ATOM 5699 CD2 TYR K 181 3.065 -28.923 -12.413 1.00117.44 C +ATOM 5700 CE1 TYR K 181 3.035 -26.168 -12.277 1.00111.54 C +ATOM 5701 CE2 TYR K 181 3.488 -28.176 -13.496 1.00116.74 C +ATOM 5702 CZ TYR K 181 3.470 -26.799 -13.422 1.00112.50 C +ATOM 5703 OH TYR K 181 3.890 -26.050 -14.498 1.00108.66 O +ATOM 5704 N GLU K 182 0.129 -31.699 -9.501 1.00111.07 N +ATOM 5705 CA GLU K 182 0.104 -32.940 -8.742 1.00111.40 C +ATOM 5706 C GLU K 182 1.433 -33.661 -8.940 1.00111.04 C +ATOM 5707 O GLU K 182 2.036 -33.589 -10.012 1.00114.31 O +ATOM 5708 CB GLU K 182 -1.064 -33.825 -9.190 1.00119.95 C +ATOM 5709 CG GLU K 182 -1.114 -35.200 -8.545 1.00121.93 C +ATOM 5710 CD GLU K 182 -2.265 -36.044 -9.059 1.00127.99 C +ATOM 5711 OE1 GLU K 182 -3.114 -35.508 -9.802 1.00134.12 O +ATOM 5712 OE2 GLU K 182 -2.323 -37.244 -8.717 1.00124.81 O +ATOM 5713 N ILE K 183 1.898 -34.351 -7.896 1.00108.80 N +ATOM 5714 CA ILE K 183 3.231 -34.946 -7.919 1.00107.10 C +ATOM 5715 C ILE K 183 3.236 -36.242 -7.112 1.00110.29 C +ATOM 5716 O ILE K 183 2.528 -36.370 -6.107 1.00111.65 O +ATOM 5717 CB ILE K 183 4.275 -33.930 -7.391 1.00101.90 C +ATOM 5718 CG1 ILE K 183 5.698 -34.476 -7.501 1.00101.54 C +ATOM 5719 CG2 ILE K 183 3.959 -33.521 -5.958 1.00106.51 C +ATOM 5720 CD1 ILE K 183 6.756 -33.421 -7.258 1.00 94.18 C +ATOM 5721 N LYS K 184 4.033 -37.213 -7.574 1.00109.15 N +ATOM 5722 CA LYS K 184 4.179 -38.504 -6.903 1.00111.78 C +ATOM 5723 C LYS K 184 5.527 -39.119 -7.280 1.00115.82 C +ATOM 5724 O LYS K 184 6.243 -38.601 -8.140 1.00118.08 O +ATOM 5725 CB LYS K 184 3.017 -39.442 -7.246 1.00115.84 C +ATOM 5726 CG LYS K 184 2.568 -39.382 -8.696 1.00119.81 C +ATOM 5727 CD LYS K 184 1.417 -40.345 -8.949 1.00122.65 C +ATOM 5728 CE LYS K 184 1.118 -40.472 -10.433 1.00124.38 C +ATOM 5729 NZ LYS K 184 -0.132 -41.242 -10.685 1.00121.99 N +ATOM 5730 N VAL K 185 5.874 -40.233 -6.615 1.00120.08 N +ATOM 5731 CA VAL K 185 7.214 -40.816 -6.703 1.00123.67 C +ATOM 5732 C VAL K 185 7.164 -42.347 -6.660 1.00129.17 C +ATOM 5733 O VAL K 185 6.317 -42.942 -5.986 1.00127.65 O +ATOM 5734 CB VAL K 185 8.125 -40.260 -5.580 1.00118.93 C +ATOM 5735 CG1 VAL K 185 7.598 -40.653 -4.208 1.00117.77 C +ATOM 5736 CG2 VAL K 185 9.569 -40.712 -5.763 1.00123.60 C +ATOM 5737 N ARG K 186 8.085 -42.981 -7.400 1.00132.39 N +ATOM 5738 CA ARG K 186 8.322 -44.428 -7.400 1.00137.68 C +ATOM 5739 C ARG K 186 9.799 -44.727 -7.143 1.00140.51 C +ATOM 5740 O ARG K 186 10.642 -43.830 -7.165 1.00139.99 O +ATOM 5741 CB ARG K 186 7.910 -45.072 -8.730 1.00139.78 C +ATOM 5742 CG ARG K 186 6.427 -45.086 -9.012 1.00133.75 C +ATOM 5743 CD ARG K 186 6.171 -45.830 -10.308 1.00135.92 C +ATOM 5744 NE ARG K 186 6.875 -45.209 -11.426 1.00139.45 N +ATOM 5745 CZ ARG K 186 6.898 -45.700 -12.661 1.00140.24 C +ATOM 5746 NH1 ARG K 186 6.256 -46.826 -12.939 1.00139.14 N +ATOM 5747 NH2 ARG K 186 7.567 -45.070 -13.616 1.00136.37 N +ATOM 5748 N SER K 187 10.116 -46.009 -6.916 1.00145.49 N +ATOM 5749 CA SER K 187 11.478 -46.434 -6.598 1.00150.86 C +ATOM 5750 C SER K 187 11.842 -47.752 -7.279 1.00158.03 C +ATOM 5751 O SER K 187 10.977 -48.552 -7.643 1.00158.48 O +ATOM 5752 CB SER K 187 11.672 -46.585 -5.087 1.00149.85 C +ATOM 5753 OG SER K 187 11.432 -45.358 -4.427 1.00143.76 O +ATOM 5754 N ILE K 188 13.146 -47.962 -7.450 1.00160.48 N +ATOM 5755 CA ILE K 188 13.687 -49.224 -7.978 1.00164.20 C +ATOM 5756 C ILE K 188 14.965 -49.565 -7.275 1.00167.25 C +ATOM 5757 O ILE K 188 15.737 -48.667 -6.848 1.00166.46 O +ATOM 5758 CB ILE K 188 13.984 -49.167 -9.496 1.00162.27 C +ATOM 5759 CG1 ILE K 188 14.177 -47.750 -10.016 1.00159.78 C +ATOM 5760 CG2 ILE K 188 12.993 -49.961 -10.342 1.00161.26 C +ATOM 5761 CD1 ILE K 188 14.721 -47.835 -11.375 1.00158.90 C +ATOM 5762 N PRO K 189 15.269 -50.851 -7.106 1.00170.41 N +ATOM 5763 CA PRO K 189 16.642 -51.234 -6.799 1.00171.97 C +ATOM 5764 C PRO K 189 17.500 -50.832 -7.990 1.00168.98 C +ATOM 5765 O PRO K 189 17.084 -50.968 -9.143 1.00168.46 O +ATOM 5766 CB PRO K 189 16.577 -52.756 -6.622 1.00176.96 C +ATOM 5767 CG PRO K 189 15.140 -53.053 -6.361 1.00176.32 C +ATOM 5768 CD PRO K 189 14.378 -52.030 -7.150 1.00171.76 C +ATOM 5769 N ASP K 190 18.680 -50.297 -7.713 1.00166.55 N +ATOM 5770 CA ASP K 190 19.578 -49.850 -8.771 1.00164.81 C +ATOM 5771 C ASP K 190 21.008 -50.079 -8.302 1.00164.89 C +ATOM 5772 O ASP K 190 21.858 -49.188 -8.332 1.00160.50 O +ATOM 5773 CB ASP K 190 19.314 -48.389 -9.133 1.00163.69 C +ATOM 5774 CG ASP K 190 20.116 -47.930 -10.335 1.00165.52 C +ATOM 5775 OD1 ASP K 190 19.799 -48.347 -11.467 1.00162.73 O +ATOM 5776 OD2 ASP K 190 21.066 -47.143 -10.138 1.00165.16 O +ATOM 5777 N HIS K 191 21.268 -51.300 -7.851 1.00168.45 N +ATOM 5778 CA HIS K 191 22.584 -51.732 -7.415 1.00167.32 C +ATOM 5779 C HIS K 191 22.705 -53.230 -7.643 1.00175.09 C +ATOM 5780 O HIS K 191 22.386 -53.732 -8.726 1.00179.11 O +ATOM 5781 CB HIS K 191 22.803 -51.379 -5.944 1.00160.86 C +ATOM 5782 N TYR K 192 23.181 -53.945 -6.623 1.00175.33 N +ATOM 5783 CA TYR K 192 23.247 -55.400 -6.693 1.00178.40 C +ATOM 5784 C TYR K 192 21.881 -56.013 -6.986 1.00181.25 C +ATOM 5785 O TYR K 192 21.778 -56.987 -7.740 1.00186.08 O +ATOM 5786 CB TYR K 192 23.795 -55.943 -5.373 1.00176.08 C +ATOM 5787 CG TYR K 192 23.860 -57.450 -5.290 1.00173.96 C +ATOM 5788 CD1 TYR K 192 24.163 -58.223 -6.404 1.00170.22 C +ATOM 5789 CD2 TYR K 192 23.568 -58.103 -4.100 1.00171.34 C +ATOM 5790 CE1 TYR K 192 24.202 -59.600 -6.326 1.00165.86 C +ATOM 5791 CE2 TYR K 192 23.603 -59.478 -4.013 1.00165.77 C +ATOM 5792 CZ TYR K 192 23.921 -60.222 -5.128 1.00164.50 C +ATOM 5793 OH TYR K 192 23.957 -61.594 -5.047 1.00162.56 O +ATOM 5794 N PHE K 193 20.820 -55.442 -6.428 1.00181.15 N +ATOM 5795 CA PHE K 193 19.486 -56.008 -6.569 1.00182.89 C +ATOM 5796 C PHE K 193 18.754 -55.436 -7.776 1.00182.35 C +ATOM 5797 O PHE K 193 18.919 -54.264 -8.126 1.00179.44 O +ATOM 5798 CB PHE K 193 18.665 -55.774 -5.299 1.00185.40 C +ATOM 5799 CG PHE K 193 19.270 -56.387 -4.065 1.00182.98 C +ATOM 5800 CD1 PHE K 193 20.229 -55.706 -3.334 1.00184.29 C +ATOM 5801 CD2 PHE K 193 18.885 -57.650 -3.642 1.00181.75 C +ATOM 5802 CE1 PHE K 193 20.788 -56.269 -2.203 1.00184.49 C +ATOM 5803 CE2 PHE K 193 19.442 -58.218 -2.511 1.00180.03 C +ATOM 5804 CZ PHE K 193 20.394 -57.526 -1.791 1.00184.42 C +ATOM 5805 N LYS K 194 17.964 -56.291 -8.422 1.00185.86 N +ATOM 5806 CA LYS K 194 17.067 -55.906 -9.500 1.00185.78 C +ATOM 5807 C LYS K 194 15.683 -56.458 -9.183 1.00187.31 C +ATOM 5808 O LYS K 194 15.534 -57.378 -8.377 1.00188.11 O +ATOM 5809 CB LYS K 194 17.556 -56.417 -10.863 1.00184.41 C +ATOM 5810 N GLY K 195 14.664 -55.872 -9.805 1.00185.70 N +ATOM 5811 CA GLY K 195 13.305 -56.300 -9.535 1.00183.38 C +ATOM 5812 C GLY K 195 12.247 -55.525 -10.294 1.00178.90 C +ATOM 5813 O GLY K 195 12.234 -55.515 -11.528 1.00173.77 O +ATOM 5814 N PHE K 196 11.344 -54.879 -9.560 1.00179.45 N +ATOM 5815 CA PHE K 196 10.228 -54.164 -10.153 1.00176.20 C +ATOM 5816 C PHE K 196 10.144 -52.771 -9.544 1.00171.20 C +ATOM 5817 O PHE K 196 10.791 -52.465 -8.540 1.00170.00 O +ATOM 5818 CB PHE K 196 8.882 -54.874 -9.915 1.00174.97 C +ATOM 5819 CG PHE K 196 8.732 -56.197 -10.612 1.00173.51 C +ATOM 5820 CD1 PHE K 196 8.033 -56.284 -11.805 1.00169.55 C +ATOM 5821 CD2 PHE K 196 9.252 -57.359 -10.061 1.00175.09 C +ATOM 5822 CE1 PHE K 196 7.871 -57.493 -12.447 1.00170.48 C +ATOM 5823 CE2 PHE K 196 9.093 -58.576 -10.701 1.00174.82 C +ATOM 5824 CZ PHE K 196 8.401 -58.640 -11.897 1.00175.32 C +ATOM 5825 N TRP K 197 9.326 -51.931 -10.170 1.00167.98 N +ATOM 5826 CA TRP K 197 9.027 -50.612 -9.636 1.00163.47 C +ATOM 5827 C TRP K 197 7.979 -50.730 -8.536 1.00160.71 C +ATOM 5828 O TRP K 197 7.083 -51.576 -8.602 1.00157.92 O +ATOM 5829 CB TRP K 197 8.557 -49.689 -10.756 1.00158.64 C +ATOM 5830 CG TRP K 197 9.653 -49.181 -11.667 1.00164.92 C +ATOM 5831 CD1 TRP K 197 10.092 -49.749 -12.826 1.00169.79 C +ATOM 5832 CD2 TRP K 197 10.343 -47.931 -11.548 1.00174.43 C +ATOM 5833 NE1 TRP K 197 11.065 -48.960 -13.403 1.00172.95 N +ATOM 5834 CE2 TRP K 197 11.228 -47.834 -12.637 1.00176.57 C +ATOM 5835 CE3 TRP K 197 10.318 -46.897 -10.606 1.00163.09 C +ATOM 5836 CZ2 TRP K 197 12.076 -46.738 -12.811 1.00164.14 C +ATOM 5837 CZ3 TRP K 197 11.161 -45.823 -10.776 1.00157.93 C +ATOM 5838 CH2 TRP K 197 12.030 -45.749 -11.874 1.00158.49 C +ATOM 5839 N SER K 198 8.092 -49.875 -7.522 1.00158.06 N +ATOM 5840 CA SER K 198 7.111 -49.836 -6.445 1.00152.35 C +ATOM 5841 C SER K 198 5.811 -49.168 -6.899 1.00144.93 C +ATOM 5842 O SER K 198 5.670 -48.699 -8.033 1.00144.13 O +ATOM 5843 CB SER K 198 7.694 -49.114 -5.232 1.00153.39 C +ATOM 5844 OG SER K 198 7.876 -47.734 -5.499 1.00147.97 O +ATOM 5845 N GLU K 199 4.847 -49.133 -5.981 1.00142.31 N +ATOM 5846 CA GLU K 199 3.585 -48.443 -6.194 1.00141.16 C +ATOM 5847 C GLU K 199 3.767 -46.937 -6.054 1.00138.26 C +ATOM 5848 O GLU K 199 4.682 -46.459 -5.377 1.00138.74 O +ATOM 5849 CB GLU K 199 2.533 -48.926 -5.193 1.00138.80 C +ATOM 5850 CG GLU K 199 2.019 -50.338 -5.431 1.00139.05 C +ATOM 5851 CD GLU K 199 1.219 -50.467 -6.714 1.00144.50 C +ATOM 5852 OE1 GLU K 199 0.720 -49.437 -7.217 1.00141.16 O +ATOM 5853 OE2 GLU K 199 1.088 -51.600 -7.221 1.00152.81 O +ATOM 5854 N TRP K 200 2.888 -46.189 -6.716 1.00133.91 N +ATOM 5855 CA TRP K 200 2.923 -44.737 -6.621 1.00129.30 C +ATOM 5856 C TRP K 200 2.603 -44.294 -5.198 1.00126.53 C +ATOM 5857 O TRP K 200 1.644 -44.776 -4.587 1.00125.94 O +ATOM 5858 CB TRP K 200 1.931 -44.114 -7.601 1.00127.89 C +ATOM 5859 CG TRP K 200 2.412 -44.091 -9.017 1.00125.24 C +ATOM 5860 CD1 TRP K 200 1.951 -44.852 -10.051 1.00125.98 C +ATOM 5861 CD2 TRP K 200 3.461 -43.277 -9.554 1.00126.62 C +ATOM 5862 NE1 TRP K 200 2.640 -44.554 -11.201 1.00129.00 N +ATOM 5863 CE2 TRP K 200 3.574 -43.592 -10.922 1.00128.32 C +ATOM 5864 CE3 TRP K 200 4.315 -42.313 -9.010 1.00127.28 C +ATOM 5865 CZ2 TRP K 200 4.505 -42.975 -11.755 1.00128.90 C +ATOM 5866 CZ3 TRP K 200 5.236 -41.700 -9.839 1.00126.10 C +ATOM 5867 CH2 TRP K 200 5.325 -42.035 -11.195 1.00127.92 C +ATOM 5868 N SER K 201 3.409 -43.375 -4.674 1.00124.23 N +ATOM 5869 CA SER K 201 3.133 -42.784 -3.378 1.00119.98 C +ATOM 5870 C SER K 201 1.878 -41.918 -3.455 1.00117.34 C +ATOM 5871 O SER K 201 1.474 -41.495 -4.541 1.00117.65 O +ATOM 5872 CB SER K 201 4.323 -41.947 -2.915 1.00118.70 C +ATOM 5873 OG SER K 201 4.413 -40.742 -3.655 1.00115.56 O +ATOM 5874 N PRO K 202 1.226 -41.662 -2.319 1.00115.59 N +ATOM 5875 CA PRO K 202 0.097 -40.723 -2.326 1.00115.47 C +ATOM 5876 C PRO K 202 0.520 -39.378 -2.896 1.00114.87 C +ATOM 5877 O PRO K 202 1.586 -38.850 -2.571 1.00112.40 O +ATOM 5878 CB PRO K 202 -0.295 -40.619 -0.846 1.00114.27 C +ATOM 5879 CG PRO K 202 0.863 -41.193 -0.083 1.00116.44 C +ATOM 5880 CD PRO K 202 1.458 -42.227 -0.980 1.00115.24 C +ATOM 5881 N SER K 203 -0.330 -38.827 -3.756 1.00115.52 N +ATOM 5882 CA SER K 203 0.020 -37.619 -4.484 1.00115.32 C +ATOM 5883 C SER K 203 0.044 -36.408 -3.558 1.00111.42 C +ATOM 5884 O SER K 203 -0.534 -36.407 -2.467 1.00109.72 O +ATOM 5885 CB SER K 203 -0.966 -37.379 -5.627 1.00116.58 C +ATOM 5886 OG SER K 203 -0.876 -38.402 -6.604 1.00120.02 O +ATOM 5887 N TYR K 204 0.730 -35.363 -4.014 1.00107.64 N +ATOM 5888 CA TYR K 204 0.755 -34.083 -3.323 1.00103.10 C +ATOM 5889 C TYR K 204 0.466 -32.987 -4.336 1.00102.01 C +ATOM 5890 O TYR K 204 0.761 -33.128 -5.526 1.00106.37 O +ATOM 5891 CB TYR K 204 2.105 -33.838 -2.629 1.00 99.04 C +ATOM 5892 CG TYR K 204 2.063 -32.781 -1.545 1.00 93.72 C +ATOM 5893 CD1 TYR K 204 1.588 -33.081 -0.274 1.00 90.36 C +ATOM 5894 CD2 TYR K 204 2.504 -31.487 -1.789 1.00 90.62 C +ATOM 5895 CE1 TYR K 204 1.550 -32.122 0.722 1.00 87.43 C +ATOM 5896 CE2 TYR K 204 2.470 -30.521 -0.799 1.00 89.18 C +ATOM 5897 CZ TYR K 204 1.992 -30.843 0.454 1.00 86.94 C +ATOM 5898 OH TYR K 204 1.957 -29.885 1.441 1.00 77.92 O +ATOM 5899 N TYR K 205 -0.120 -31.891 -3.860 1.00 97.42 N +ATOM 5900 CA TYR K 205 -0.607 -30.832 -4.732 1.00 98.82 C +ATOM 5901 C TYR K 205 -0.044 -29.493 -4.284 1.00 93.10 C +ATOM 5902 O TYR K 205 0.025 -29.212 -3.083 1.00 91.49 O +ATOM 5903 CB TYR K 205 -2.141 -30.789 -4.732 1.00102.95 C +ATOM 5904 CG TYR K 205 -2.782 -32.131 -5.012 1.00108.62 C +ATOM 5905 CD1 TYR K 205 -3.054 -32.534 -6.313 1.00114.25 C +ATOM 5906 CD2 TYR K 205 -3.106 -32.998 -3.976 1.00106.36 C +ATOM 5907 CE1 TYR K 205 -3.637 -33.760 -6.573 1.00117.91 C +ATOM 5908 CE2 TYR K 205 -3.687 -34.227 -4.227 1.00111.71 C +ATOM 5909 CZ TYR K 205 -3.950 -34.603 -5.528 1.00118.69 C +ATOM 5910 OH TYR K 205 -4.529 -35.824 -5.785 1.00125.90 O +ATOM 5911 N PHE K 206 0.361 -28.669 -5.249 1.00 91.58 N +ATOM 5912 CA PHE K 206 0.903 -27.359 -4.907 1.00 88.39 C +ATOM 5913 C PHE K 206 0.657 -26.372 -6.039 1.00 88.90 C +ATOM 5914 O PHE K 206 0.556 -26.754 -7.205 1.00 96.19 O +ATOM 5915 CB PHE K 206 2.402 -27.431 -4.587 1.00 88.57 C +ATOM 5916 CG PHE K 206 3.256 -27.854 -5.748 1.00 88.07 C +ATOM 5917 CD1 PHE K 206 3.428 -29.195 -6.048 1.00 90.32 C +ATOM 5918 CD2 PHE K 206 3.898 -26.909 -6.532 1.00 87.94 C +ATOM 5919 CE1 PHE K 206 4.217 -29.586 -7.113 1.00 92.54 C +ATOM 5920 CE2 PHE K 206 4.689 -27.293 -7.599 1.00 89.01 C +ATOM 5921 CZ PHE K 206 4.850 -28.633 -7.889 1.00 92.61 C +ATOM 5922 N ARG K 207 0.586 -25.092 -5.685 1.00 85.82 N +ATOM 5923 CA ARG K 207 0.312 -24.027 -6.637 1.00 88.06 C +ATOM 5924 C ARG K 207 1.562 -23.181 -6.858 1.00 87.56 C +ATOM 5925 O ARG K 207 2.545 -23.267 -6.119 1.00 88.34 O +ATOM 5926 CB ARG K 207 -0.840 -23.137 -6.153 1.00 88.13 C +ATOM 5927 CG ARG K 207 -2.090 -23.866 -5.675 1.00 90.36 C +ATOM 5928 CD ARG K 207 -3.185 -22.848 -5.386 1.00 93.32 C +ATOM 5929 NE ARG K 207 -3.973 -22.501 -6.566 1.00 98.04 N +ATOM 5930 CZ ARG K 207 -5.222 -22.906 -6.780 1.00 99.34 C +ATOM 5931 NH1 ARG K 207 -5.847 -23.646 -5.876 1.00 98.60 N +ATOM 5932 NH2 ARG K 207 -5.858 -22.545 -7.886 1.00103.82 N +ATOM 5933 N THR K 208 1.504 -22.351 -7.900 1.00 90.89 N +ATOM 5934 CA THR K 208 2.577 -21.484 -8.360 1.00 90.66 C +ATOM 5935 C THR K 208 2.106 -20.033 -8.349 1.00 92.10 C +ATOM 5936 O THR K 208 0.954 -19.763 -8.707 1.00 92.36 O +ATOM 5937 CB THR K 208 3.017 -21.886 -9.782 1.00 95.42 C +ATOM 5938 OG1 THR K 208 3.395 -23.269 -9.789 1.00 95.58 O +ATOM 5939 CG2 THR K 208 4.195 -21.050 -10.263 1.00 96.19 C +ATOM 5940 N PRO K 209 2.948 -19.083 -7.935 1.00 90.42 N +ATOM 5941 CA PRO K 209 2.515 -17.679 -7.919 1.00 92.24 C +ATOM 5942 C PRO K 209 2.156 -17.171 -9.310 1.00 93.87 C +ATOM 5943 O PRO K 209 2.626 -17.674 -10.333 1.00 93.01 O +ATOM 5944 CB PRO K 209 3.734 -16.937 -7.351 1.00 88.92 C +ATOM 5945 CG PRO K 209 4.881 -17.879 -7.540 1.00 85.45 C +ATOM 5946 CD PRO K 209 4.289 -19.238 -7.345 1.00 84.82 C +ATOM 5947 N GLU K 210 1.308 -16.143 -9.328 1.00 94.13 N +ATOM 5948 CA GLU K 210 0.790 -15.564 -10.570 1.00 95.26 C +ATOM 5949 C GLU K 210 1.704 -14.455 -11.098 1.00102.49 C +ATOM 5950 O GLU K 210 1.324 -13.286 -11.180 1.00104.72 O +ATOM 5951 CB GLU K 210 -0.629 -15.052 -10.352 1.00 83.83 C +ATOM 5952 N ILE K 211 2.919 -14.848 -11.474 1.00101.63 N +ATOM 5953 CA ILE K 211 3.915 -13.925 -12.022 1.00107.46 C +ATOM 5954 C ILE K 211 4.105 -12.692 -11.142 1.00110.58 C +ATOM 5955 O ILE K 211 3.730 -11.581 -11.523 1.00112.00 O +ATOM 5956 CB ILE K 211 3.543 -13.502 -13.456 1.00107.16 C +HETATM 5957 C1 NAG K 301 12.272 -40.998 7.581 1.00116.65 C +HETATM 5958 C2 NAG K 301 12.384 -39.840 8.573 1.00115.27 C +HETATM 5959 C3 NAG K 301 13.284 -40.228 9.743 1.00114.86 C +HETATM 5960 C4 NAG K 301 12.803 -41.527 10.376 1.00113.76 C +HETATM 5961 C5 NAG K 301 12.676 -42.616 9.313 1.00115.06 C +HETATM 5962 C6 NAG K 301 12.091 -43.902 9.850 1.00107.83 C +HETATM 5963 C7 NAG K 301 12.065 -37.681 7.457 1.00115.87 C +HETATM 5964 C8 NAG K 301 12.735 -36.499 6.827 1.00108.71 C +HETATM 5965 N2 NAG K 301 12.876 -38.634 7.928 1.00116.08 N +HETATM 5966 O3 NAG K 301 13.273 -39.183 10.708 1.00109.88 O +HETATM 5967 O4 NAG K 301 13.723 -41.950 11.375 1.00106.11 O +HETATM 5968 O5 NAG K 301 11.804 -42.172 8.262 1.00131.77 O +HETATM 5969 O6 NAG K 301 11.452 -43.704 11.104 1.00101.35 O +HETATM 5970 O7 NAG K 301 10.844 -37.773 7.533 1.00113.04 O +HETATM 5971 C1 NAG M 1 36.666 -27.795 -13.958 1.00 80.92 C +HETATM 5972 C2 NAG M 1 36.433 -27.056 -15.277 1.00 81.11 C +HETATM 5973 C3 NAG M 1 35.495 -27.857 -16.178 1.00 86.06 C +HETATM 5974 C4 NAG M 1 36.013 -29.278 -16.354 1.00 89.16 C +HETATM 5975 C5 NAG M 1 36.240 -29.920 -14.988 1.00 86.01 C +HETATM 5976 C6 NAG M 1 36.864 -31.290 -15.073 1.00 90.95 C +HETATM 5977 C7 NAG M 1 36.434 -24.614 -15.544 1.00 72.61 C +HETATM 5978 C8 NAG M 1 35.745 -23.330 -15.193 1.00 67.99 C +HETATM 5979 N2 NAG M 1 35.893 -25.727 -15.037 1.00 76.19 N +HETATM 5980 O3 NAG M 1 35.391 -27.217 -17.445 1.00 85.51 O +HETATM 5981 O4 NAG M 1 35.096 -30.058 -17.114 1.00 92.68 O +HETATM 5982 O5 NAG M 1 37.144 -29.110 -14.223 1.00 81.99 O +HETATM 5983 O6 NAG M 1 38.255 -31.184 -15.335 1.00 93.32 O +HETATM 5984 O7 NAG M 1 37.435 -24.642 -16.252 1.00 70.70 O +HETATM 5985 C1 NAG M 2 35.556 -30.725 -18.224 1.00 98.91 C +HETATM 5986 C2 NAG M 2 34.556 -31.766 -18.748 1.00101.86 C +HETATM 5987 C3 NAG M 2 35.122 -32.508 -19.963 1.00105.31 C +HETATM 5988 C4 NAG M 2 35.700 -31.545 -20.991 1.00107.84 C +HETATM 5989 C5 NAG M 2 36.664 -30.580 -20.317 1.00105.86 C +HETATM 5990 C6 NAG M 2 37.227 -29.541 -21.258 1.00 98.24 C +HETATM 5991 C7 NAG M 2 33.195 -32.563 -16.856 1.00 99.73 C +HETATM 5992 C8 NAG M 2 33.018 -33.649 -15.837 1.00 98.01 C +HETATM 5993 N2 NAG M 2 34.222 -32.716 -17.697 1.00103.34 N +HETATM 5994 O3 NAG M 2 34.086 -33.280 -20.560 1.00103.73 O +HETATM 5995 O4 NAG M 2 36.404 -32.279 -21.985 1.00108.06 O +HETATM 5996 O5 NAG M 2 35.966 -29.876 -19.284 1.00102.80 O +HETATM 5997 O6 NAG M 2 36.242 -28.584 -21.621 1.00 95.35 O +HETATM 5998 O7 NAG M 2 32.443 -31.596 -16.914 1.00 97.13 O +HETATM 5999 C1 BMA M 3 36.254 -32.352 -23.349 1.00108.93 C +HETATM 6000 C2 BMA M 3 37.427 -32.910 -24.157 1.00110.79 C +HETATM 6001 C3 BMA M 3 37.197 -32.628 -25.638 1.00110.00 C +HETATM 6002 C4 BMA M 3 35.799 -33.092 -26.082 1.00109.89 C +HETATM 6003 C5 BMA M 3 34.718 -32.485 -25.166 1.00110.00 C +HETATM 6004 C6 BMA M 3 33.326 -32.995 -25.481 1.00110.96 C +HETATM 6005 O2 BMA M 3 37.500 -34.321 -24.017 1.00108.70 O +HETATM 6006 O3 BMA M 3 38.193 -33.238 -26.449 1.00102.92 O +HETATM 6007 O4 BMA M 3 35.566 -32.692 -27.422 1.00 99.49 O +HETATM 6008 O5 BMA M 3 35.016 -32.841 -23.808 1.00107.77 O +HETATM 6009 O6 BMA M 3 33.218 -34.322 -24.980 1.00112.32 O +HETATM 6010 C1 NAG N 1 0.258 32.162 70.787 1.00102.08 C +HETATM 6011 C2 NAG N 1 -0.283 31.140 71.782 1.00101.87 C +HETATM 6012 C3 NAG N 1 -1.763 31.398 72.047 1.00107.02 C +HETATM 6013 C4 NAG N 1 -1.974 32.836 72.502 1.00112.09 C +HETATM 6014 C5 NAG N 1 -1.361 33.804 71.491 1.00108.44 C +HETATM 6015 C6 NAG N 1 -1.420 35.246 71.941 1.00108.37 C +HETATM 6016 C7 NAG N 1 0.572 28.855 72.019 1.00 94.70 C +HETATM 6017 C8 NAG N 1 0.696 27.504 71.381 1.00 95.49 C +HETATM 6018 N2 NAG N 1 -0.077 29.782 71.307 1.00100.11 N +HETATM 6019 O3 NAG N 1 -2.229 30.493 73.042 1.00105.44 O +HETATM 6020 O4 NAG N 1 -3.364 33.107 72.641 1.00118.89 O +HETATM 6021 O5 NAG N 1 0.026 33.491 71.287 1.00104.38 O +HETATM 6022 O6 NAG N 1 -0.135 35.732 72.304 1.00100.63 O +HETATM 6023 O7 NAG N 1 1.039 29.097 73.127 1.00 88.68 O +HETATM 6024 C1 NAG N 2 -4.137 33.003 73.773 1.00124.92 C +HETATM 6025 C2 NAG N 2 -4.326 34.384 74.405 1.00130.35 C +HETATM 6026 C3 NAG N 2 -5.443 34.349 75.446 1.00130.79 C +HETATM 6027 C4 NAG N 2 -6.715 33.760 74.851 1.00130.21 C +HETATM 6028 C5 NAG N 2 -6.418 32.404 74.217 1.00129.02 C +HETATM 6029 C6 NAG N 2 -7.611 31.809 73.506 1.00131.22 C +HETATM 6030 C7 NAG N 2 -2.454 34.285 76.015 1.00122.80 C +HETATM 6031 C8 NAG N 2 -1.192 34.953 76.470 1.00117.85 C +HETATM 6032 N2 NAG N 2 -3.088 34.874 74.992 1.00134.75 N +HETATM 6033 O3 NAG N 2 -5.685 35.668 75.923 1.00132.55 O +HETATM 6034 O4 NAG N 2 -7.698 33.599 75.868 1.00130.77 O +HETATM 6035 O5 NAG N 2 -5.380 32.543 73.236 1.00127.43 O +HETATM 6036 O6 NAG N 2 -7.338 30.494 73.044 1.00132.51 O +HETATM 6037 O7 NAG N 2 -2.875 33.261 76.550 1.00119.51 O +HETATM 6038 C1 BMA N 3 -8.399 34.330 76.796 1.00128.17 C +HETATM 6039 C2 BMA N 3 -9.781 33.742 77.100 1.00124.40 C +HETATM 6040 C3 BMA N 3 -10.332 34.366 78.381 1.00123.66 C +HETATM 6041 C4 BMA N 3 -9.308 34.277 79.522 1.00124.48 C +HETATM 6042 C5 BMA N 3 -7.998 34.945 79.084 1.00124.95 C +HETATM 6043 C6 BMA N 3 -6.911 34.872 80.142 1.00120.57 C +HETATM 6044 O2 BMA N 3 -9.685 32.345 77.337 1.00122.83 O +HETATM 6045 O3 BMA N 3 -11.556 33.762 78.774 1.00120.54 O +HETATM 6046 O4 BMA N 3 -9.811 34.919 80.683 1.00120.52 O +HETATM 6047 O5 BMA N 3 -7.524 34.261 77.911 1.00128.30 O +HETATM 6048 O6 BMA N 3 -7.490 35.167 81.408 1.00118.77 O +HETATM 6049 C1 NAG O 1 -14.207 35.078 39.604 1.00110.51 C +HETATM 6050 C2 NAG O 1 -13.187 34.143 38.955 1.00110.09 C +HETATM 6051 C3 NAG O 1 -12.061 34.950 38.317 1.00111.83 C +HETATM 6052 C4 NAG O 1 -12.632 35.989 37.360 1.00116.51 C +HETATM 6053 C5 NAG O 1 -13.677 36.845 38.073 1.00113.41 C +HETATM 6054 C6 NAG O 1 -14.375 37.818 37.151 1.00112.70 C +HETATM 6055 C7 NAG O 1 -12.686 31.871 39.735 1.00 99.53 C +HETATM 6056 C8 NAG O 1 -12.101 31.039 40.837 1.00 96.24 C +HETATM 6057 N2 NAG O 1 -12.657 33.195 39.922 1.00106.46 N +HETATM 6058 O3 NAG O 1 -11.186 34.073 37.618 1.00108.91 O +HETATM 6059 O4 NAG O 1 -11.591 36.827 36.878 1.00122.98 O +HETATM 6060 O5 NAG O 1 -14.697 36.004 38.631 1.00111.07 O +HETATM 6061 O6 NAG O 1 -15.246 37.147 36.251 1.00110.93 O +HETATM 6062 O7 NAG O 1 -13.161 31.367 38.722 1.00 93.58 O +HETATM 6063 C1 NAG O 2 -11.293 36.894 35.531 1.00121.76 C +HETATM 6064 C2 NAG O 2 -10.533 38.207 35.403 1.00122.45 C +HETATM 6065 C3 NAG O 2 -10.708 38.770 33.994 1.00121.58 C +HETATM 6066 C4 NAG O 2 -10.309 37.732 32.954 1.00122.28 C +HETATM 6067 C5 NAG O 2 -11.060 36.424 33.192 1.00122.10 C +HETATM 6068 C6 NAG O 2 -10.594 35.306 32.290 1.00120.63 C +HETATM 6069 C7 NAG O 2 -10.213 39.508 37.454 1.00122.19 C +HETATM 6070 C8 NAG O 2 -10.811 40.516 38.388 1.00122.43 C +HETATM 6071 N2 NAG O 2 -10.961 39.168 36.397 1.00121.05 N +HETATM 6072 O3 NAG O 2 -9.906 39.938 33.848 1.00120.93 O +HETATM 6073 O4 NAG O 2 -10.603 38.212 31.647 1.00124.58 O +HETATM 6074 O5 NAG O 2 -10.853 35.972 34.541 1.00119.02 O +HETATM 6075 O6 NAG O 2 -9.269 34.905 32.610 1.00112.32 O +HETATM 6076 O7 NAG O 2 -9.103 39.021 37.645 1.00121.13 O +ATOM 6077 N GLU A 1 -14.072 -11.803 6.683 1.00 90.66 N +ATOM 6078 CA GLU A 1 -12.757 -12.385 6.922 1.00 90.55 C +ATOM 6079 C GLU A 1 -12.834 -13.907 7.006 1.00 84.36 C +ATOM 6080 O GLU A 1 -13.922 -14.483 7.027 1.00 85.46 O +ATOM 6081 CB GLU A 1 -12.145 -11.818 8.205 1.00 89.68 C +ATOM 6082 N VAL A 2 -11.667 -14.551 7.054 1.00 80.34 N +ATOM 6083 CA VAL A 2 -11.613 -16.004 7.154 1.00 77.07 C +ATOM 6084 C VAL A 2 -12.018 -16.437 8.557 1.00 79.73 C +ATOM 6085 O VAL A 2 -11.653 -15.800 9.556 1.00 80.58 O +ATOM 6086 CB VAL A 2 -10.205 -16.509 6.795 1.00 70.63 C +ATOM 6087 CG1 VAL A 2 -10.142 -18.028 6.863 1.00 68.92 C +ATOM 6088 CG2 VAL A 2 -9.803 -16.015 5.414 1.00 72.75 C +ATOM 6089 N GLN A 3 -12.778 -17.528 8.639 1.00 79.23 N +ATOM 6090 CA GLN A 3 -13.259 -18.055 9.907 1.00 79.55 C +ATOM 6091 C GLN A 3 -13.187 -19.574 9.892 1.00 75.19 C +ATOM 6092 O GLN A 3 -13.577 -20.214 8.910 1.00 76.53 O +ATOM 6093 CB GLN A 3 -14.703 -17.622 10.197 1.00 83.69 C +ATOM 6094 CG GLN A 3 -14.899 -16.130 10.383 1.00 89.92 C +ATOM 6095 CD GLN A 3 -16.348 -15.770 10.649 1.00106.33 C +ATOM 6096 OE1 GLN A 3 -16.829 -15.876 11.777 1.00108.00 O +ATOM 6097 NE2 GLN A 3 -17.053 -15.347 9.606 1.00112.70 N +ATOM 6098 N LEU A 4 -12.689 -20.138 10.991 1.00 71.32 N +ATOM 6099 CA LEU A 4 -12.639 -21.584 11.207 1.00 68.78 C +ATOM 6100 C LEU A 4 -13.310 -21.863 12.548 1.00 72.82 C +ATOM 6101 O LEU A 4 -12.666 -21.774 13.598 1.00 74.37 O +ATOM 6102 CB LEU A 4 -11.203 -22.100 11.190 1.00 63.87 C +ATOM 6103 CG LEU A 4 -10.412 -21.978 9.888 1.00 67.27 C +ATOM 6104 CD1 LEU A 4 -9.021 -22.569 10.052 1.00 63.77 C +ATOM 6105 CD2 LEU A 4 -11.150 -22.668 8.761 1.00 70.20 C +ATOM 6106 N GLN A 5 -14.596 -22.199 12.517 1.00 74.01 N +ATOM 6107 CA GLN A 5 -15.358 -22.446 13.736 1.00 72.82 C +ATOM 6108 C GLN A 5 -15.344 -23.937 14.048 1.00 72.91 C +ATOM 6109 O GLN A 5 -15.826 -24.747 13.251 1.00 74.12 O +ATOM 6110 CB GLN A 5 -16.792 -21.939 13.593 1.00 73.96 C +ATOM 6111 CG GLN A 5 -17.009 -20.538 14.139 1.00 83.03 C +ATOM 6112 CD GLN A 5 -16.933 -20.491 15.654 1.00 91.25 C +ATOM 6113 OE1 GLN A 5 -17.434 -21.383 16.340 1.00 86.23 O +ATOM 6114 NE2 GLN A 5 -16.303 -19.449 16.184 1.00108.01 N +ATOM 6115 N GLN A 6 -14.794 -24.295 15.201 1.00 71.37 N +ATOM 6116 CA GLN A 6 -14.707 -25.686 15.613 1.00 67.94 C +ATOM 6117 C GLN A 6 -15.842 -26.041 16.565 1.00 67.47 C +ATOM 6118 O GLN A 6 -16.477 -25.174 17.171 1.00 65.99 O +ATOM 6119 CB GLN A 6 -13.356 -25.974 16.272 1.00 66.33 C +ATOM 6120 CG GLN A 6 -12.166 -25.608 15.411 1.00 67.55 C +ATOM 6121 CD GLN A 6 -10.845 -26.060 16.003 1.00 67.47 C +ATOM 6122 OE1 GLN A 6 -9.902 -25.278 16.115 1.00 66.59 O +ATOM 6123 NE2 GLN A 6 -10.769 -27.332 16.378 1.00 66.79 N +ATOM 6124 N SER A 7 -16.095 -27.343 16.682 1.00 67.68 N +ATOM 6125 CA SER A 7 -17.133 -27.835 17.571 1.00 67.49 C +ATOM 6126 C SER A 7 -16.792 -27.512 19.027 1.00 66.57 C +ATOM 6127 O SER A 7 -15.683 -27.090 19.362 1.00 64.02 O +ATOM 6128 CB SER A 7 -17.318 -29.341 17.391 1.00 70.60 C +ATOM 6129 OG SER A 7 -16.111 -30.038 17.651 1.00 69.35 O +ATOM 6130 N GLY A 8 -17.777 -27.713 19.898 1.00 72.76 N +ATOM 6131 CA GLY A 8 -17.605 -27.438 21.302 1.00 69.03 C +ATOM 6132 C GLY A 8 -16.776 -28.497 21.994 1.00 68.52 C +ATOM 6133 O GLY A 8 -16.322 -29.481 21.393 1.00 73.75 O +ATOM 6134 N PRO A 9 -16.563 -28.297 23.292 1.00 66.80 N +ATOM 6135 CA PRO A 9 -15.783 -29.263 24.072 1.00 68.46 C +ATOM 6136 C PRO A 9 -16.491 -30.605 24.153 1.00 69.10 C +ATOM 6137 O PRO A 9 -17.711 -30.706 24.007 1.00 70.93 O +ATOM 6138 CB PRO A 9 -15.681 -28.605 25.450 1.00 68.54 C +ATOM 6139 CG PRO A 9 -16.873 -27.710 25.525 1.00 66.12 C +ATOM 6140 CD PRO A 9 -17.089 -27.204 24.127 1.00 67.20 C +ATOM 6141 N GLU A 11 -15.705 -31.654 24.392 1.00 70.76 N +ATOM 6142 CA GLU A 11 -16.245 -33.007 24.396 1.00 76.62 C +ATOM 6143 C GLU A 11 -15.761 -33.788 25.610 1.00 77.15 C +ATOM 6144 O GLU A 11 -14.611 -33.644 26.037 1.00 74.70 O +ATOM 6145 CB GLU A 11 -15.857 -33.759 23.113 1.00 81.60 C +ATOM 6146 CG GLU A 11 -16.527 -33.236 21.849 1.00 85.25 C +ATOM 6147 CD GLU A 11 -17.965 -33.700 21.706 1.00 92.64 C +ATOM 6148 OE1 GLU A 11 -18.443 -34.454 22.579 1.00101.04 O +ATOM 6149 OE2 GLU A 11 -18.619 -33.309 20.716 1.00 94.78 O +ATOM 6150 N LEU A 12 -16.658 -34.603 26.166 1.00 78.26 N +ATOM 6151 CA LEU A 12 -16.335 -35.586 27.193 1.00 77.70 C +ATOM 6152 C LEU A 12 -16.689 -36.969 26.664 1.00 79.90 C +ATOM 6153 O LEU A 12 -17.799 -37.180 26.162 1.00 83.23 O +ATOM 6154 CB LEU A 12 -17.080 -35.297 28.500 1.00 74.36 C +ATOM 6155 CG LEU A 12 -16.942 -36.325 29.627 1.00 75.89 C +ATOM 6156 CD1 LEU A 12 -15.487 -36.525 30.017 1.00 78.37 C +ATOM 6157 CD2 LEU A 12 -17.761 -35.904 30.836 1.00 78.02 C +ATOM 6158 N VAL A 13 -15.747 -37.906 26.778 1.00 80.55 N +ATOM 6159 CA VAL A 13 -15.864 -39.230 26.175 1.00 82.26 C +ATOM 6160 C VAL A 13 -15.304 -40.266 27.145 1.00 85.88 C +ATOM 6161 O VAL A 13 -14.440 -39.962 27.971 1.00 84.97 O +ATOM 6162 CB VAL A 13 -15.133 -39.284 24.806 1.00 79.08 C +ATOM 6163 CG1 VAL A 13 -15.124 -40.690 24.223 1.00 83.18 C +ATOM 6164 CG2 VAL A 13 -15.767 -38.316 23.816 1.00 79.28 C +ATOM 6165 N LYS A 14 -15.851 -41.491 27.090 1.00 87.18 N +ATOM 6166 CA LYS A 14 -15.325 -42.574 27.909 1.00 88.79 C +ATOM 6167 C LYS A 14 -14.079 -43.181 27.260 1.00 88.75 C +ATOM 6168 O LYS A 14 -13.929 -43.143 26.036 1.00 88.13 O +ATOM 6169 CB LYS A 14 -16.382 -43.656 28.105 1.00 90.59 C +ATOM 6170 N PRO A 15 -13.163 -43.733 28.060 1.00 88.25 N +ATOM 6171 CA PRO A 15 -11.982 -44.387 27.480 1.00 88.15 C +ATOM 6172 C PRO A 15 -12.374 -45.534 26.562 1.00 90.06 C +ATOM 6173 O PRO A 15 -13.308 -46.288 26.841 1.00 90.28 O +ATOM 6174 CB PRO A 15 -11.209 -44.882 28.708 1.00 89.52 C +ATOM 6175 CG PRO A 15 -11.646 -43.982 29.812 1.00 89.61 C +ATOM 6176 CD PRO A 15 -13.085 -43.653 29.529 1.00 88.96 C +ATOM 6177 N GLY A 16 -11.638 -45.664 25.460 1.00 95.96 N +ATOM 6178 CA GLY A 16 -11.911 -46.671 24.463 1.00 94.94 C +ATOM 6179 C GLY A 16 -12.930 -46.268 23.418 1.00 93.06 C +ATOM 6180 O GLY A 16 -12.922 -46.831 22.317 1.00 94.35 O +ATOM 6181 N ALA A 17 -13.802 -45.311 23.726 1.00 92.08 N +ATOM 6182 CA ALA A 17 -14.812 -44.857 22.780 1.00 94.51 C +ATOM 6183 C ALA A 17 -14.163 -43.941 21.745 1.00 95.19 C +ATOM 6184 O ALA A 17 -12.949 -43.722 21.749 1.00102.42 O +ATOM 6185 CB ALA A 17 -15.958 -44.172 23.520 1.00 94.72 C +ATOM 6186 N SER A 18 -14.978 -43.339 20.883 1.00 91.61 N +ATOM 6187 CA SER A 18 -14.496 -42.545 19.764 1.00 90.26 C +ATOM 6188 C SER A 18 -15.067 -41.135 19.835 1.00 88.39 C +ATOM 6189 O SER A 18 -16.077 -40.883 20.498 1.00 89.07 O +ATOM 6190 CB SER A 18 -14.877 -43.197 18.427 1.00 90.00 C +ATOM 6191 OG SER A 18 -14.359 -44.513 18.339 1.00 93.75 O +ATOM 6192 N VAL A 19 -14.407 -40.207 19.136 1.00 88.63 N +ATOM 6193 CA VAL A 19 -14.817 -38.808 19.123 1.00 86.29 C +ATOM 6194 C VAL A 19 -14.822 -38.317 17.681 1.00 85.83 C +ATOM 6195 O VAL A 19 -14.121 -38.849 16.820 1.00 86.89 O +ATOM 6196 CB VAL A 19 -13.892 -37.909 19.981 1.00 85.06 C +ATOM 6197 CG1 VAL A 19 -14.610 -36.625 20.393 1.00 80.69 C +ATOM 6198 CG2 VAL A 19 -13.358 -38.658 21.195 1.00 84.38 C +ATOM 6199 N LYS A 20 -15.621 -37.282 17.426 1.00 83.57 N +ATOM 6200 CA LYS A 20 -15.694 -36.670 16.101 1.00 86.23 C +ATOM 6201 C LYS A 20 -15.838 -35.163 16.268 1.00 85.49 C +ATOM 6202 O LYS A 20 -16.888 -34.684 16.707 1.00 85.95 O +ATOM 6203 CB LYS A 20 -16.857 -37.246 15.293 1.00 90.28 C +ATOM 6204 CG LYS A 20 -16.543 -37.478 13.824 1.00 87.28 C +ATOM 6205 CD LYS A 20 -17.804 -37.776 13.025 1.00 89.75 C +ATOM 6206 CE LYS A 20 -17.471 -38.239 11.615 1.00 91.75 C +ATOM 6207 NZ LYS A 20 -18.686 -38.338 10.759 1.00 89.91 N +ATOM 6208 N MET A 21 -14.790 -34.420 15.923 1.00 81.02 N +ATOM 6209 CA MET A 21 -14.792 -32.967 15.993 1.00 79.24 C +ATOM 6210 C MET A 21 -14.956 -32.367 14.602 1.00 76.48 C +ATOM 6211 O MET A 21 -14.554 -32.959 13.596 1.00 77.87 O +ATOM 6212 CB MET A 21 -13.508 -32.446 16.642 1.00 76.79 C +ATOM 6213 CG MET A 21 -13.270 -32.981 18.044 1.00 78.21 C +ATOM 6214 SD MET A 21 -11.625 -32.601 18.672 1.00 83.62 S +ATOM 6215 CE MET A 21 -10.999 -34.247 18.998 1.00 80.43 C +ATOM 6216 N SER A 22 -15.555 -31.180 14.553 1.00 71.44 N +ATOM 6217 CA SER A 22 -15.832 -30.494 13.302 1.00 70.58 C +ATOM 6218 C SER A 22 -15.053 -29.188 13.226 1.00 71.83 C +ATOM 6219 O SER A 22 -14.641 -28.620 14.242 1.00 70.40 O +ATOM 6220 CB SER A 22 -17.332 -30.216 13.140 1.00 71.95 C +ATOM 6221 OG SER A 22 -17.776 -29.244 14.071 1.00 76.03 O +ATOM 6222 N CYS A 23 -14.854 -28.721 11.993 1.00 75.09 N +ATOM 6223 CA CYS A 23 -14.189 -27.446 11.732 1.00 73.57 C +ATOM 6224 C CYS A 23 -14.827 -26.873 10.469 1.00 74.47 C +ATOM 6225 O CYS A 23 -14.493 -27.294 9.358 1.00 76.45 O +ATOM 6226 CB CYS A 23 -12.687 -27.641 11.570 1.00 73.15 C +ATOM 6227 SG CYS A 23 -11.740 -26.191 11.040 1.00 78.57 S +ATOM 6228 N LYS A 24 -15.765 -25.948 10.650 1.00 73.60 N +ATOM 6229 CA LYS A 24 -16.475 -25.324 9.542 1.00 76.68 C +ATOM 6230 C LYS A 24 -15.721 -24.076 9.103 1.00 75.54 C +ATOM 6231 O LYS A 24 -15.481 -23.172 9.912 1.00 73.19 O +ATOM 6232 CB LYS A 24 -17.908 -24.976 9.940 1.00 79.70 C +ATOM 6233 CG LYS A 24 -18.837 -24.759 8.756 1.00 82.99 C +ATOM 6234 CD LYS A 24 -20.044 -23.919 9.138 1.00 84.25 C +ATOM 6235 CE LYS A 24 -21.016 -23.803 7.975 1.00 89.27 C +ATOM 6236 NZ LYS A 24 -20.354 -23.273 6.749 1.00 87.17 N +ATOM 6237 N ALA A 25 -15.341 -24.037 7.831 1.00 76.59 N +ATOM 6238 CA ALA A 25 -14.627 -22.909 7.256 1.00 77.13 C +ATOM 6239 C ALA A 25 -15.599 -21.968 6.559 1.00 81.41 C +ATOM 6240 O ALA A 25 -16.635 -22.388 6.038 1.00 88.06 O +ATOM 6241 CB ALA A 25 -13.566 -23.384 6.262 1.00 76.54 C +ATOM 6242 N SER A 26 -15.252 -20.683 6.556 1.00 79.60 N +ATOM 6243 CA SER A 26 -16.075 -19.689 5.883 1.00 78.49 C +ATOM 6244 C SER A 26 -15.224 -18.469 5.569 1.00 77.63 C +ATOM 6245 O SER A 26 -14.217 -18.211 6.233 1.00 82.05 O +ATOM 6246 CB SER A 26 -17.288 -19.292 6.732 1.00 79.00 C +ATOM 6247 OG SER A 26 -16.885 -18.783 7.991 1.00 79.18 O +ATOM 6248 N GLY A 27 -15.636 -17.727 4.547 1.00 76.91 N +ATOM 6249 CA GLY A 27 -14.953 -16.515 4.155 1.00 76.30 C +ATOM 6250 C GLY A 27 -13.938 -16.655 3.043 1.00 74.64 C +ATOM 6251 O GLY A 27 -13.234 -15.681 2.751 1.00 77.94 O +ATOM 6252 N TYR A 28 -13.837 -17.823 2.413 1.00 75.61 N +ATOM 6253 CA TYR A 28 -12.888 -18.028 1.327 1.00 75.54 C +ATOM 6254 C TYR A 28 -13.299 -19.275 0.556 1.00 76.35 C +ATOM 6255 O TYR A 28 -14.191 -20.019 0.970 1.00 79.43 O +ATOM 6256 CB TYR A 28 -11.455 -18.161 1.850 1.00 73.27 C +ATOM 6257 CG TYR A 28 -11.198 -19.455 2.588 1.00 73.93 C +ATOM 6258 CD1 TYR A 28 -11.583 -19.615 3.912 1.00 75.00 C +ATOM 6259 CD2 TYR A 28 -10.562 -20.515 1.958 1.00 73.64 C +ATOM 6260 CE1 TYR A 28 -11.348 -20.800 4.583 1.00 74.69 C +ATOM 6261 CE2 TYR A 28 -10.323 -21.700 2.619 1.00 74.31 C +ATOM 6262 CZ TYR A 28 -10.717 -21.837 3.930 1.00 73.43 C +ATOM 6263 OH TYR A 28 -10.476 -23.018 4.587 1.00 70.38 O +ATOM 6264 N THR A 29 -12.633 -19.495 -0.575 1.00 74.05 N +ATOM 6265 CA THR A 29 -12.871 -20.687 -1.388 1.00 76.89 C +ATOM 6266 C THR A 29 -12.338 -21.902 -0.638 1.00 78.22 C +ATOM 6267 O THR A 29 -11.130 -22.138 -0.584 1.00 79.27 O +ATOM 6268 CB THR A 29 -12.212 -20.545 -2.756 1.00 79.49 C +ATOM 6269 OG1 THR A 29 -10.810 -20.302 -2.592 1.00 84.02 O +ATOM 6270 CG2 THR A 29 -12.835 -19.390 -3.527 1.00 74.93 C +ATOM 6271 N PHE A 30 -13.256 -22.686 -0.065 1.00 78.74 N +ATOM 6272 CA PHE A 30 -12.879 -23.775 0.832 1.00 79.79 C +ATOM 6273 C PHE A 30 -12.044 -24.846 0.139 1.00 84.48 C +ATOM 6274 O PHE A 30 -11.233 -25.515 0.791 1.00 84.70 O +ATOM 6275 CB PHE A 30 -14.140 -24.393 1.440 1.00 79.99 C +ATOM 6276 CG PHE A 30 -13.881 -25.617 2.269 1.00 83.29 C +ATOM 6277 CD1 PHE A 30 -13.281 -25.516 3.511 1.00 83.01 C +ATOM 6278 CD2 PHE A 30 -14.247 -26.870 1.807 1.00 87.65 C +ATOM 6279 CE1 PHE A 30 -13.046 -26.641 4.276 1.00 82.19 C +ATOM 6280 CE2 PHE A 30 -14.015 -28.000 2.568 1.00 89.23 C +ATOM 6281 CZ PHE A 30 -13.412 -27.885 3.804 1.00 85.03 C +ATOM 6282 N SER A 35 -12.214 -25.023 -1.170 1.00 86.59 N +ATOM 6283 CA SER A 35 -11.614 -26.155 -1.866 1.00 89.17 C +ATOM 6284 C SER A 35 -10.171 -25.921 -2.299 1.00 89.97 C +ATOM 6285 O SER A 35 -9.533 -26.863 -2.781 1.00 93.18 O +ATOM 6286 CB SER A 35 -12.457 -26.517 -3.092 1.00 90.01 C +ATOM 6287 OG SER A 35 -12.602 -25.404 -3.956 1.00 95.78 O +ATOM 6288 N ASP A 36 -9.639 -24.711 -2.145 1.00 87.11 N +ATOM 6289 CA ASP A 36 -8.324 -24.376 -2.678 1.00 88.12 C +ATOM 6290 C ASP A 36 -7.208 -24.421 -1.639 1.00 86.72 C +ATOM 6291 O ASP A 36 -6.047 -24.193 -1.994 1.00 87.57 O +ATOM 6292 CB ASP A 36 -8.360 -22.990 -3.330 1.00 87.72 C +ATOM 6293 CG ASP A 36 -9.253 -22.946 -4.555 1.00 89.72 C +ATOM 6294 OD1 ASP A 36 -9.789 -24.007 -4.940 1.00 88.68 O +ATOM 6295 OD2 ASP A 36 -9.416 -21.852 -5.134 1.00 88.59 O +ATOM 6296 N TYR A 37 -7.518 -24.710 -0.376 1.00 85.12 N +ATOM 6297 CA TYR A 37 -6.528 -24.677 0.693 1.00 78.02 C +ATOM 6298 C TYR A 37 -6.505 -26.001 1.442 1.00 76.83 C +ATOM 6299 O TYR A 37 -7.556 -26.588 1.717 1.00 76.03 O +ATOM 6300 CB TYR A 37 -6.816 -23.545 1.688 1.00 76.63 C +ATOM 6301 CG TYR A 37 -6.611 -22.145 1.153 1.00 75.20 C +ATOM 6302 CD1 TYR A 37 -7.617 -21.493 0.451 1.00 74.99 C +ATOM 6303 CD2 TYR A 37 -5.418 -21.467 1.367 1.00 75.14 C +ATOM 6304 CE1 TYR A 37 -7.437 -20.210 -0.030 1.00 73.33 C +ATOM 6305 CE2 TYR A 37 -5.229 -20.183 0.888 1.00 75.33 C +ATOM 6306 CZ TYR A 37 -6.241 -19.560 0.190 1.00 73.29 C +ATOM 6307 OH TYR A 37 -6.057 -18.283 -0.287 1.00 73.67 O +ATOM 6308 N TYR A 38 -5.300 -26.464 1.774 1.00 76.73 N +ATOM 6309 CA TYR A 38 -5.149 -27.622 2.643 1.00 77.42 C +ATOM 6310 C TYR A 38 -5.749 -27.337 4.018 1.00 74.75 C +ATOM 6311 O TYR A 38 -5.877 -26.185 4.444 1.00 71.62 O +ATOM 6312 CB TYR A 38 -3.674 -27.996 2.802 1.00 76.77 C +ATOM 6313 CG TYR A 38 -3.104 -28.862 1.701 1.00 76.42 C +ATOM 6314 CD1 TYR A 38 -3.196 -30.246 1.765 1.00 80.35 C +ATOM 6315 CD2 TYR A 38 -2.450 -28.300 0.613 1.00 78.91 C +ATOM 6316 CE1 TYR A 38 -2.669 -31.045 0.768 1.00 82.74 C +ATOM 6317 CE2 TYR A 38 -1.918 -29.092 -0.390 1.00 81.54 C +ATOM 6318 CZ TYR A 38 -2.031 -30.464 -0.306 1.00 82.82 C +ATOM 6319 OH TYR A 38 -1.506 -31.259 -1.298 1.00 90.24 O +ATOM 6320 N MET A 39 -6.109 -28.406 4.727 1.00 74.00 N +ATOM 6321 CA MET A 39 -6.607 -28.296 6.092 1.00 71.10 C +ATOM 6322 C MET A 39 -5.819 -29.245 6.979 1.00 73.30 C +ATOM 6323 O MET A 39 -5.818 -30.455 6.741 1.00 73.92 O +ATOM 6324 CB MET A 39 -8.102 -28.613 6.161 1.00 73.07 C +ATOM 6325 CG MET A 39 -8.823 -27.838 7.240 1.00 76.54 C +ATOM 6326 SD MET A 39 -8.647 -26.059 7.008 1.00 78.87 S +ATOM 6327 CE MET A 39 -10.201 -25.669 6.218 1.00 77.96 C +ATOM 6328 N HIS A 40 -5.159 -28.702 8.000 1.00 68.79 N +ATOM 6329 CA HIS A 40 -4.339 -29.480 8.915 1.00 68.92 C +ATOM 6330 C HIS A 40 -4.977 -29.511 10.297 1.00 68.06 C +ATOM 6331 O HIS A 40 -5.738 -28.614 10.671 1.00 68.07 O +ATOM 6332 CB HIS A 40 -2.926 -28.898 9.022 1.00 67.49 C +ATOM 6333 CG HIS A 40 -2.260 -28.671 7.701 1.00 67.24 C +ATOM 6334 ND1 HIS A 40 -1.323 -29.537 7.179 1.00 67.25 N +ATOM 6335 CD2 HIS A 40 -2.396 -27.674 6.795 1.00 67.35 C +ATOM 6336 CE1 HIS A 40 -0.910 -29.083 6.010 1.00 69.51 C +ATOM 6337 NE2 HIS A 40 -1.546 -27.954 5.753 1.00 69.07 N +ATOM 6338 N TRP A 41 -4.656 -30.554 11.054 1.00 68.81 N +ATOM 6339 CA TRP A 41 -5.079 -30.666 12.444 1.00 67.64 C +ATOM 6340 C TRP A 41 -3.852 -30.699 13.345 1.00 69.18 C +ATOM 6341 O TRP A 41 -2.830 -31.298 12.996 1.00 71.08 O +ATOM 6342 CB TRP A 41 -5.955 -31.904 12.667 1.00 72.42 C +ATOM 6343 CG TRP A 41 -7.362 -31.714 12.178 1.00 72.87 C +ATOM 6344 CD1 TRP A 41 -7.843 -31.993 10.931 1.00 72.84 C +ATOM 6345 CD2 TRP A 41 -8.468 -31.189 12.925 1.00 73.13 C +ATOM 6346 NE1 TRP A 41 -9.179 -31.680 10.857 1.00 74.72 N +ATOM 6347 CE2 TRP A 41 -9.586 -31.183 12.067 1.00 73.73 C +ATOM 6348 CE3 TRP A 41 -8.621 -30.725 14.235 1.00 73.56 C +ATOM 6349 CZ2 TRP A 41 -10.841 -30.734 12.479 1.00 74.98 C +ATOM 6350 CZ3 TRP A 41 -9.868 -30.279 14.642 1.00 73.70 C +ATOM 6351 CH2 TRP A 41 -10.960 -30.287 13.766 1.00 73.81 C +ATOM 6352 N VAL A 42 -3.948 -30.027 14.494 1.00 68.21 N +ATOM 6353 CA VAL A 42 -2.827 -29.876 15.415 1.00 67.88 C +ATOM 6354 C VAL A 42 -3.295 -30.197 16.829 1.00 64.85 C +ATOM 6355 O VAL A 42 -4.434 -29.909 17.209 1.00 66.32 O +ATOM 6356 CB VAL A 42 -2.219 -28.452 15.350 1.00 66.59 C +ATOM 6357 CG1 VAL A 42 -0.983 -28.345 16.233 1.00 65.65 C +ATOM 6358 CG2 VAL A 42 -1.876 -28.073 13.914 1.00 61.30 C +ATOM 6359 N LYS A 43 -2.398 -30.793 17.610 1.00 65.91 N +ATOM 6360 CA LYS A 43 -2.656 -31.178 18.992 1.00 68.98 C +ATOM 6361 C LYS A 43 -1.767 -30.361 19.920 1.00 70.15 C +ATOM 6362 O LYS A 43 -0.562 -30.234 19.677 1.00 71.55 O +ATOM 6363 CB LYS A 43 -2.406 -32.677 19.180 1.00 70.09 C +ATOM 6364 CG LYS A 43 -2.561 -33.196 20.597 1.00 75.71 C +ATOM 6365 CD LYS A 43 -2.109 -34.649 20.674 1.00 80.24 C +ATOM 6366 CE LYS A 43 -2.337 -35.248 22.050 1.00 87.70 C +ATOM 6367 NZ LYS A 43 -1.892 -36.668 22.111 1.00 86.58 N +ATOM 6368 N GLN A 44 -2.360 -29.807 20.978 1.00 70.38 N +ATOM 6369 CA GLN A 44 -1.635 -29.054 22.001 1.00 75.66 C +ATOM 6370 C GLN A 44 -1.807 -29.775 23.334 1.00 87.88 C +ATOM 6371 O GLN A 44 -2.869 -29.696 23.954 1.00 90.75 O +ATOM 6372 CB GLN A 44 -2.126 -27.612 22.082 1.00 71.43 C +ATOM 6373 CG GLN A 44 -1.184 -26.687 22.840 1.00 71.15 C +ATOM 6374 CD GLN A 44 -1.575 -25.228 22.721 1.00 66.23 C +ATOM 6375 OE1 GLN A 44 -0.747 -24.377 22.397 1.00 63.45 O +ATOM 6376 NE2 GLN A 44 -2.842 -24.931 22.986 1.00 64.41 N +ATOM 6377 N SER A 45 -0.765 -30.473 23.769 1.00 94.20 N +ATOM 6378 CA SER A 45 -0.787 -31.218 25.016 1.00108.24 C +ATOM 6379 C SER A 45 -0.595 -30.287 26.210 1.00115.04 C +ATOM 6380 O SER A 45 -0.288 -29.100 26.065 1.00107.95 O +ATOM 6381 CB SER A 45 0.302 -32.290 25.014 1.00107.49 C +ATOM 6382 OG SER A 45 1.590 -31.700 25.092 1.00105.35 O +ATOM 6383 N HIS A 46 -0.850 -30.838 27.403 1.00131.01 N +ATOM 6384 CA HIS A 46 -0.650 -30.098 28.648 1.00130.18 C +ATOM 6385 C HIS A 46 0.664 -29.333 28.645 1.00121.73 C +ATOM 6386 O HIS A 46 0.726 -28.186 29.098 1.00123.58 O +ATOM 6387 CB HIS A 46 -0.693 -31.055 29.838 1.00133.73 C +ATOM 6388 N GLY A 47 1.732 -29.946 28.145 1.00117.41 N +ATOM 6389 CA GLY A 47 3.025 -29.303 28.283 1.00113.52 C +ATOM 6390 C GLY A 47 3.221 -28.119 27.358 1.00108.43 C +ATOM 6391 O GLY A 47 4.338 -27.595 27.286 1.00111.34 O +ATOM 6392 N LYS A 48 2.165 -27.715 26.638 1.00106.70 N +ATOM 6393 CA LYS A 48 2.091 -26.601 25.687 1.00 98.11 C +ATOM 6394 C LYS A 48 2.817 -26.903 24.378 1.00 90.14 C +ATOM 6395 O LYS A 48 3.078 -25.993 23.586 1.00 88.31 O +ATOM 6396 CB LYS A 48 2.549 -25.264 26.302 1.00100.30 C +ATOM 6397 CG LYS A 48 4.018 -24.873 26.208 1.00105.37 C +ATOM 6398 CD LYS A 48 4.372 -23.992 27.400 1.00100.88 C +ATOM 6399 CE LYS A 48 5.530 -23.050 27.110 1.00 84.52 C +ATOM 6400 NZ LYS A 48 6.845 -23.741 27.016 1.00 79.83 N +ATOM 6401 N SER A 49 3.100 -28.175 24.103 1.00 90.43 N +ATOM 6402 CA SER A 49 3.812 -28.573 22.898 1.00 86.84 C +ATOM 6403 C SER A 49 2.818 -28.729 21.753 1.00 78.25 C +ATOM 6404 O SER A 49 1.658 -29.095 21.962 1.00 79.54 O +ATOM 6405 CB SER A 49 4.561 -29.887 23.120 1.00 89.84 C +ATOM 6406 OG SER A 49 3.646 -30.954 23.308 1.00 91.02 O +ATOM 6407 N LEU A 50 3.278 -28.457 20.534 1.00 70.46 N +ATOM 6408 CA LEU A 50 2.431 -28.544 19.351 1.00 68.44 C +ATOM 6409 C LEU A 50 2.826 -29.763 18.531 1.00 68.98 C +ATOM 6410 O LEU A 50 3.978 -29.882 18.101 1.00 66.91 O +ATOM 6411 CB LEU A 50 2.534 -27.270 18.513 1.00 63.83 C +ATOM 6412 CG LEU A 50 1.995 -26.016 19.203 1.00 61.96 C +ATOM 6413 CD1 LEU A 50 2.260 -24.781 18.360 1.00 58.70 C +ATOM 6414 CD2 LEU A 50 0.509 -26.163 19.496 1.00 61.83 C +ATOM 6415 N GLU A 51 1.870 -30.664 18.321 1.00 67.67 N +ATOM 6416 CA GLU A 51 2.066 -31.852 17.502 1.00 68.55 C +ATOM 6417 C GLU A 51 1.120 -31.789 16.314 1.00 71.22 C +ATOM 6418 O GLU A 51 -0.103 -31.757 16.489 1.00 70.20 O +ATOM 6419 CB GLU A 51 1.840 -33.138 18.299 1.00 74.78 C +ATOM 6420 CG GLU A 51 2.902 -33.422 19.346 1.00 82.12 C +ATOM 6421 CD GLU A 51 2.708 -34.769 20.012 1.00 91.21 C +ATOM 6422 OE1 GLU A 51 1.790 -35.508 19.599 1.00 92.07 O +ATOM 6423 OE2 GLU A 51 3.474 -35.091 20.944 1.00105.32 O +ATOM 6424 N TRP A 52 1.691 -31.748 15.114 1.00 72.41 N +ATOM 6425 CA TRP A 52 0.913 -31.915 13.897 1.00 73.67 C +ATOM 6426 C TRP A 52 0.167 -33.244 13.949 1.00 76.28 C +ATOM 6427 O TRP A 52 0.560 -34.173 14.657 1.00 80.75 O +ATOM 6428 CB TRP A 52 1.843 -31.848 12.680 1.00 76.11 C +ATOM 6429 CG TRP A 52 1.169 -31.846 11.337 1.00 76.07 C +ATOM 6430 CD1 TRP A 52 0.298 -30.912 10.858 1.00 72.89 C +ATOM 6431 CD2 TRP A 52 1.359 -32.796 10.279 1.00 76.87 C +ATOM 6432 NE1 TRP A 52 -0.089 -31.236 9.580 1.00 76.27 N +ATOM 6433 CE2 TRP A 52 0.549 -32.388 9.201 1.00 77.44 C +ATOM 6434 CE3 TRP A 52 2.124 -33.959 10.144 1.00 77.77 C +ATOM 6435 CZ2 TRP A 52 0.483 -33.100 8.004 1.00 77.90 C +ATOM 6436 CZ3 TRP A 52 2.056 -34.665 8.956 1.00 79.10 C +ATOM 6437 CH2 TRP A 52 1.242 -34.233 7.902 1.00 78.91 C +ATOM 6438 N ILE A 53 -0.975 -33.306 13.269 1.00 74.54 N +ATOM 6439 CA ILE A 53 -1.784 -34.517 13.206 1.00 75.45 C +ATOM 6440 C ILE A 53 -1.876 -35.048 11.782 1.00 79.18 C +ATOM 6441 O ILE A 53 -1.583 -36.219 11.522 1.00 82.83 O +ATOM 6442 CB ILE A 53 -3.193 -34.286 13.796 1.00 74.31 C +ATOM 6443 CG1 ILE A 53 -3.101 -34.023 15.300 1.00 72.11 C +ATOM 6444 CG2 ILE A 53 -4.089 -35.477 13.506 1.00 75.52 C +ATOM 6445 CD1 ILE A 53 -4.356 -33.429 15.895 1.00 70.95 C +ATOM 6446 N GLY A 54 -2.271 -34.197 10.847 1.00 74.89 N +ATOM 6447 CA GLY A 54 -2.396 -34.611 9.466 1.00 73.38 C +ATOM 6448 C GLY A 54 -3.006 -33.503 8.645 1.00 74.83 C +ATOM 6449 O GLY A 54 -3.506 -32.500 9.168 1.00 72.43 O +ATOM 6450 N TYR A 55 -2.954 -33.703 7.331 1.00 80.31 N +ATOM 6451 CA TYR A 55 -3.510 -32.767 6.370 1.00 77.09 C +ATOM 6452 C TYR A 55 -4.578 -33.461 5.538 1.00 80.66 C +ATOM 6453 O TYR A 55 -4.636 -34.691 5.457 1.00 82.59 O +ATOM 6454 CB TYR A 55 -2.423 -32.194 5.447 1.00 76.73 C +ATOM 6455 CG TYR A 55 -1.821 -33.198 4.484 1.00 82.12 C +ATOM 6456 CD1 TYR A 55 -0.718 -33.961 4.843 1.00 85.78 C +ATOM 6457 CD2 TYR A 55 -2.350 -33.375 3.210 1.00 81.10 C +ATOM 6458 CE1 TYR A 55 -0.164 -34.876 3.966 1.00 86.42 C +ATOM 6459 CE2 TYR A 55 -1.804 -34.287 2.327 1.00 82.88 C +ATOM 6460 CZ TYR A 55 -0.711 -35.035 2.710 1.00 87.38 C +ATOM 6461 OH TYR A 55 -0.163 -35.944 1.833 1.00 90.97 O +ATOM 6462 N ILE A 56 -5.429 -32.649 4.921 1.00 79.39 N +ATOM 6463 CA ILE A 56 -6.430 -33.141 3.982 1.00 82.92 C +ATOM 6464 C ILE A 56 -6.704 -32.052 2.955 1.00 84.85 C +ATOM 6465 O ILE A 56 -6.814 -30.869 3.297 1.00 83.21 O +ATOM 6466 CB ILE A 56 -7.728 -33.589 4.687 1.00 81.70 C +ATOM 6467 CG1 ILE A 56 -8.710 -34.165 3.665 1.00 85.14 C +ATOM 6468 CG2 ILE A 56 -8.353 -32.443 5.473 1.00 81.29 C +ATOM 6469 CD1 ILE A 56 -9.902 -34.843 4.277 1.00 85.40 C +ATOM 6470 N TYR A 57 -6.763 -32.452 1.686 1.00 87.61 N +ATOM 6471 CA TYR A 57 -7.112 -31.548 0.605 1.00 88.63 C +ATOM 6472 C TYR A 57 -8.591 -31.700 0.287 1.00 90.74 C +ATOM 6473 O TYR A 57 -9.010 -32.789 -0.135 1.00 93.56 O +ATOM 6474 CB TYR A 57 -6.268 -31.832 -0.630 1.00 90.28 C +ATOM 6475 CG TYR A 57 -6.362 -30.740 -1.662 1.00 92.51 C +ATOM 6476 CD1 TYR A 57 -6.037 -29.430 -1.338 1.00 88.52 C +ATOM 6477 CD2 TYR A 57 -6.779 -31.012 -2.956 1.00 99.60 C +ATOM 6478 CE1 TYR A 57 -6.125 -28.423 -2.271 1.00 91.07 C +ATOM 6479 CE2 TYR A 57 -6.868 -30.011 -3.898 1.00102.60 C +ATOM 6480 CZ TYR A 57 -6.541 -28.719 -3.549 1.00101.09 C +ATOM 6481 OH TYR A 57 -6.633 -27.719 -4.483 1.00103.65 O +ATOM 6482 N PRO A 58 -9.410 -30.663 0.487 1.00 88.96 N +ATOM 6483 CA PRO A 58 -10.869 -30.834 0.362 1.00 92.32 C +ATOM 6484 C PRO A 58 -11.336 -31.378 -0.979 1.00 96.69 C +ATOM 6485 O PRO A 58 -12.382 -32.038 -1.028 1.00 95.27 O +ATOM 6486 CB PRO A 58 -11.402 -29.415 0.604 1.00 87.18 C +ATOM 6487 CG PRO A 58 -10.357 -28.761 1.442 1.00 85.09 C +ATOM 6488 CD PRO A 58 -9.047 -29.315 0.958 1.00 86.29 C +ATOM 6489 N ASP A 59 -10.612 -31.114 -2.071 1.00 96.15 N +ATOM 6490 CA ASP A 59 -11.028 -31.649 -3.364 1.00 97.85 C +ATOM 6491 C ASP A 59 -11.044 -33.173 -3.366 1.00 99.69 C +ATOM 6492 O ASP A 59 -11.882 -33.781 -4.042 1.00105.75 O +ATOM 6493 CB ASP A 59 -10.131 -31.117 -4.482 1.00102.44 C +ATOM 6494 CG ASP A 59 -10.643 -29.812 -5.068 1.00104.46 C +ATOM 6495 OD1 ASP A 59 -11.865 -29.560 -4.987 1.00 99.19 O +ATOM 6496 OD2 ASP A 59 -9.827 -29.043 -5.618 1.00105.90 O +ATOM 6497 N ASN A 62 -10.140 -33.810 -2.622 1.00 98.60 N +ATOM 6498 CA ASN A 62 -10.181 -35.263 -2.522 1.00 98.29 C +ATOM 6499 C ASN A 62 -9.864 -35.709 -1.099 1.00 98.53 C +ATOM 6500 O ASN A 62 -10.776 -35.804 -0.271 1.00 97.38 O +ATOM 6501 CB ASN A 62 -9.225 -35.868 -3.555 1.00100.36 C +ATOM 6502 CG ASN A 62 -7.906 -35.120 -3.635 1.00103.20 C +ATOM 6503 OD1 ASN A 62 -7.683 -34.158 -2.899 1.00106.38 O +ATOM 6504 ND2 ASN A 62 -7.080 -35.482 -4.611 1.00 97.57 N +ATOM 6505 N GLY A 63 -8.601 -35.977 -0.785 1.00 94.53 N +ATOM 6506 CA GLY A 63 -8.296 -36.386 0.574 1.00 93.31 C +ATOM 6507 C GLY A 63 -6.807 -36.451 0.830 1.00 92.77 C +ATOM 6508 O GLY A 63 -5.985 -36.137 -0.035 1.00 94.37 O +ATOM 6509 N GLY A 64 -6.475 -36.864 2.048 1.00 88.89 N +ATOM 6510 CA GLY A 64 -5.092 -37.053 2.444 1.00 87.03 C +ATOM 6511 C GLY A 64 -5.025 -37.508 3.885 1.00 90.00 C +ATOM 6512 O GLY A 64 -6.049 -37.744 4.536 1.00 90.14 O +ATOM 6513 N ASN A 65 -3.792 -37.627 4.375 1.00 91.34 N +ATOM 6514 CA ASN A 65 -3.510 -37.925 5.776 1.00102.51 C +ATOM 6515 C ASN A 65 -2.006 -37.794 5.975 1.00 93.30 C +ATOM 6516 O ASN A 65 -1.243 -37.684 5.010 1.00 94.30 O +ATOM 6517 CB ASN A 65 -3.998 -39.321 6.180 1.00109.38 C +ATOM 6518 CG ASN A 65 -4.155 -39.472 7.683 1.00 93.37 C +ATOM 6519 OD1 ASN A 65 -3.174 -39.649 8.406 1.00 89.42 O +ATOM 6520 ND2 ASN A 65 -5.393 -39.402 8.160 1.00 88.47 N +ATOM 6521 N GLY A 66 -1.583 -37.811 7.234 1.00 88.03 N +ATOM 6522 CA GLY A 66 -0.170 -37.736 7.521 1.00 87.81 C +ATOM 6523 C GLY A 66 0.176 -38.243 8.903 1.00 88.50 C +ATOM 6524 O GLY A 66 -0.656 -38.827 9.600 1.00 88.06 O +ATOM 6525 N TYR A 67 1.423 -37.964 9.290 1.00 91.23 N +ATOM 6526 CA TYR A 67 2.048 -38.254 10.579 1.00 93.94 C +ATOM 6527 C TYR A 67 1.904 -39.719 10.993 1.00 97.22 C +ATOM 6528 O TYR A 67 0.792 -40.231 11.154 1.00 96.69 O +ATOM 6529 CB TYR A 67 1.445 -37.325 11.636 1.00 92.45 C +ATOM 6530 CG TYR A 67 2.397 -36.881 12.724 1.00 95.84 C +ATOM 6531 CD1 TYR A 67 3.227 -37.777 13.381 1.00100.41 C +ATOM 6532 CD2 TYR A 67 2.484 -35.541 13.068 1.00 93.41 C +ATOM 6533 CE1 TYR A 67 4.099 -37.345 14.371 1.00118.37 C +ATOM 6534 CE2 TYR A 67 3.343 -35.102 14.052 1.00101.66 C +ATOM 6535 CZ TYR A 67 4.150 -36.004 14.700 1.00121.94 C +ATOM 6536 OH TYR A 67 5.009 -35.556 15.678 1.00108.41 O +ATOM 6537 N ASN A 68 3.040 -40.380 11.237 1.00103.67 N +ATOM 6538 CA ASN A 68 3.025 -41.789 11.624 1.00107.14 C +ATOM 6539 C ASN A 68 2.380 -42.010 12.987 1.00106.47 C +ATOM 6540 O ASN A 68 1.628 -42.974 13.175 1.00108.40 O +ATOM 6541 CB ASN A 68 4.450 -42.343 11.616 1.00111.50 C +ATOM 6542 CG ASN A 68 4.517 -43.785 12.082 1.00118.48 C +ATOM 6543 OD1 ASN A 68 4.736 -44.056 13.263 1.00120.04 O +ATOM 6544 ND2 ASN A 68 4.327 -44.718 11.156 1.00123.72 N +ATOM 6545 N GLN A 69 2.673 -41.139 13.954 1.00105.12 N +ATOM 6546 CA GLN A 69 2.193 -41.350 15.317 1.00100.66 C +ATOM 6547 C GLN A 69 0.671 -41.345 15.409 1.00 97.96 C +ATOM 6548 O GLN A 69 0.105 -42.000 16.292 1.00101.57 O +ATOM 6549 CB GLN A 69 2.788 -40.290 16.244 1.00100.48 C +ATOM 6550 CG GLN A 69 4.304 -40.358 16.356 1.00109.08 C +ATOM 6551 CD GLN A 69 4.878 -39.259 17.227 1.00118.31 C +ATOM 6552 OE1 GLN A 69 4.214 -38.261 17.506 1.00125.82 O +ATOM 6553 NE2 GLN A 69 6.119 -39.439 17.666 1.00112.68 N +ATOM 6554 N LYS A 70 -0.008 -40.626 14.518 1.00 96.46 N +ATOM 6555 CA LYS A 70 -1.461 -40.530 14.539 1.00 95.59 C +ATOM 6556 C LYS A 70 -2.138 -41.411 13.494 1.00100.95 C +ATOM 6557 O LYS A 70 -3.325 -41.215 13.214 1.00100.84 O +ATOM 6558 CB LYS A 70 -1.889 -39.074 14.347 1.00 90.79 C +ATOM 6559 CG LYS A 70 -1.246 -38.111 15.332 1.00 85.29 C +ATOM 6560 CD LYS A 70 -1.898 -38.185 16.701 1.00 80.14 C +ATOM 6561 CE LYS A 70 -1.364 -37.092 17.613 1.00 74.76 C +ATOM 6562 NZ LYS A 70 0.124 -37.090 17.658 1.00 79.99 N +ATOM 6563 N PHE A 71 -1.413 -42.366 12.908 1.00102.86 N +ATOM 6564 CA PHE A 71 -1.993 -43.225 11.876 1.00110.05 C +ATOM 6565 C PHE A 71 -3.202 -43.998 12.394 1.00112.61 C +ATOM 6566 O PHE A 71 -4.248 -44.047 11.736 1.00114.03 O +ATOM 6567 CB PHE A 71 -0.933 -44.185 11.334 1.00113.24 C +ATOM 6568 CG PHE A 71 -1.385 -44.967 10.132 1.00130.05 C +ATOM 6569 CD1 PHE A 71 -1.430 -44.373 8.881 1.00127.50 C +ATOM 6570 CD2 PHE A 71 -1.764 -46.295 10.251 1.00138.19 C +ATOM 6571 CE1 PHE A 71 -1.846 -45.086 7.771 1.00122.67 C +ATOM 6572 CE2 PHE A 71 -2.180 -47.015 9.144 1.00136.45 C +ATOM 6573 CZ PHE A 71 -2.221 -46.409 7.903 1.00126.46 C +ATOM 6574 N LYS A 72 -3.080 -44.609 13.570 1.00108.68 N +ATOM 6575 CA LYS A 72 -4.155 -45.429 14.114 1.00110.97 C +ATOM 6576 C LYS A 72 -5.136 -44.655 14.986 1.00109.46 C +ATOM 6577 O LYS A 72 -6.195 -45.194 15.324 1.00112.03 O +ATOM 6578 CB LYS A 72 -3.566 -46.589 14.925 1.00116.08 C +ATOM 6579 N GLY A 74 -4.822 -43.416 15.349 1.00105.67 N +ATOM 6580 CA GLY A 74 -5.722 -42.616 16.153 1.00101.08 C +ATOM 6581 C GLY A 74 -6.588 -41.680 15.336 1.00101.59 C +ATOM 6582 O GLY A 74 -7.810 -41.633 15.508 1.00 98.81 O +ATOM 6583 N LYS A 75 -5.957 -40.933 14.436 1.00 98.06 N +ATOM 6584 CA LYS A 75 -6.617 -39.866 13.698 1.00 90.69 C +ATOM 6585 C LYS A 75 -7.219 -40.370 12.393 1.00 94.15 C +ATOM 6586 O LYS A 75 -6.637 -41.217 11.710 1.00 98.94 O +ATOM 6587 CB LYS A 75 -5.618 -38.748 13.402 1.00 89.67 C +ATOM 6588 N ALA A 76 -8.393 -39.837 12.051 1.00 91.28 N +ATOM 6589 CA ALA A 76 -9.015 -40.090 10.752 1.00 90.96 C +ATOM 6590 C ALA A 76 -9.686 -38.803 10.290 1.00 92.20 C +ATOM 6591 O ALA A 76 -10.689 -38.383 10.871 1.00 89.25 O +ATOM 6592 CB ALA A 76 -10.021 -41.238 10.828 1.00 85.60 C +ATOM 6593 N THR A 77 -9.139 -38.177 9.253 1.00 93.73 N +ATOM 6594 CA THR A 77 -9.624 -36.891 8.770 1.00 93.91 C +ATOM 6595 C THR A 77 -10.448 -37.058 7.498 1.00 93.17 C +ATOM 6596 O THR A 77 -10.083 -37.831 6.607 1.00 94.43 O +ATOM 6597 CB THR A 77 -8.457 -35.935 8.510 1.00 93.66 C +ATOM 6598 OG1 THR A 77 -7.468 -36.593 7.709 1.00 97.69 O +ATOM 6599 CG2 THR A 77 -7.827 -35.497 9.825 1.00 86.62 C +ATOM 6600 N LEU A 78 -11.559 -36.325 7.419 1.00 93.41 N +ATOM 6601 CA LEU A 78 -12.442 -36.353 6.260 1.00 91.66 C +ATOM 6602 C LEU A 78 -12.973 -34.944 6.021 1.00 89.80 C +ATOM 6603 O LEU A 78 -12.770 -34.038 6.832 1.00 90.26 O +ATOM 6604 CB LEU A 78 -13.586 -37.360 6.450 1.00 89.54 C +ATOM 6605 CG LEU A 78 -14.601 -37.099 7.565 1.00 91.09 C +ATOM 6606 CD1 LEU A 78 -15.865 -36.448 7.018 1.00 91.14 C +ATOM 6607 CD2 LEU A 78 -14.931 -38.389 8.302 1.00 94.55 C +ATOM 6608 N THR A 79 -13.672 -34.759 4.901 1.00 85.57 N +ATOM 6609 CA THR A 79 -14.143 -33.437 4.511 1.00 83.69 C +ATOM 6610 C THR A 79 -15.501 -33.537 3.829 1.00 87.02 C +ATOM 6611 O THR A 79 -15.877 -34.583 3.294 1.00 88.89 O +ATOM 6612 CB THR A 79 -13.149 -32.740 3.571 1.00 86.46 C +ATOM 6613 OG1 THR A 79 -13.684 -31.478 3.153 1.00 85.77 O +ATOM 6614 CG2 THR A 79 -12.880 -33.602 2.347 1.00 87.45 C +ATOM 6615 N VAL A 80 -16.231 -32.420 3.849 1.00 89.58 N +ATOM 6616 CA VAL A 80 -17.505 -32.277 3.147 1.00 89.65 C +ATOM 6617 C VAL A 80 -17.541 -30.876 2.545 1.00 94.03 C +ATOM 6618 O VAL A 80 -17.602 -29.884 3.282 1.00 95.06 O +ATOM 6619 CB VAL A 80 -18.721 -32.497 4.060 1.00 88.34 C +ATOM 6620 CG1 VAL A 80 -20.009 -32.236 3.292 1.00 91.38 C +ATOM 6621 CG2 VAL A 80 -18.727 -33.910 4.623 1.00 91.16 C +ATOM 6622 N ASP A 81 -17.492 -30.792 1.211 1.00 95.89 N +ATOM 6623 CA ASP A 81 -17.532 -29.493 0.546 1.00 96.91 C +ATOM 6624 C ASP A 81 -18.907 -28.851 0.657 1.00 98.15 C +ATOM 6625 O ASP A 81 -19.010 -27.620 0.724 1.00101.62 O +ATOM 6626 CB ASP A 81 -17.149 -29.626 -0.929 1.00 98.87 C +ATOM 6627 CG ASP A 81 -16.271 -30.828 -1.204 1.00100.07 C +ATOM 6628 OD1 ASP A 81 -15.996 -31.602 -0.264 1.00 99.59 O +ATOM 6629 OD2 ASP A 81 -15.854 -30.998 -2.370 1.00 94.46 O +ATOM 6630 N LYS A 82 -19.968 -29.666 0.651 1.00 97.26 N +ATOM 6631 CA LYS A 82 -21.330 -29.141 0.692 1.00101.52 C +ATOM 6632 C LYS A 82 -21.533 -28.202 1.875 1.00103.48 C +ATOM 6633 O LYS A 82 -22.169 -27.150 1.742 1.00102.72 O +ATOM 6634 CB LYS A 82 -22.322 -30.308 0.738 1.00104.06 C +ATOM 6635 CG LYS A 82 -23.622 -30.040 1.483 1.00104.55 C +ATOM 6636 CD LYS A 82 -23.572 -30.581 2.908 1.00104.49 C +ATOM 6637 CE LYS A 82 -24.781 -30.127 3.707 1.00111.24 C +ATOM 6638 NZ LYS A 82 -25.069 -28.682 3.494 1.00107.69 N +ATOM 6639 N SER A 83 -20.994 -28.562 3.037 1.00104.77 N +ATOM 6640 CA SER A 83 -21.051 -27.720 4.221 1.00 99.80 C +ATOM 6641 C SER A 83 -19.730 -27.017 4.499 1.00 94.83 C +ATOM 6642 O SER A 83 -19.640 -26.261 5.473 1.00 91.90 O +ATOM 6643 CB SER A 83 -21.471 -28.547 5.440 1.00 99.55 C +ATOM 6644 OG SER A 83 -20.621 -29.667 5.613 1.00 99.43 O +ATOM 6645 N SER A 84 -18.715 -27.242 3.663 1.00 94.84 N +ATOM 6646 CA SER A 84 -17.382 -26.664 3.842 1.00 91.54 C +ATOM 6647 C SER A 84 -16.828 -26.977 5.230 1.00 87.23 C +ATOM 6648 O SER A 84 -16.325 -26.104 5.941 1.00 84.52 O +ATOM 6649 CB SER A 84 -17.399 -25.156 3.584 1.00 89.48 C +ATOM 6650 OG SER A 84 -17.811 -24.866 2.259 1.00 91.82 O +ATOM 6651 N SER A 85 -16.927 -28.247 5.621 1.00 86.55 N +ATOM 6652 CA SER A 85 -16.575 -28.668 6.971 1.00 82.97 C +ATOM 6653 C SER A 85 -15.568 -29.807 6.923 1.00 86.72 C +ATOM 6654 O SER A 85 -15.787 -30.808 6.233 1.00 88.30 O +ATOM 6655 CB SER A 85 -17.819 -29.098 7.757 1.00 80.70 C +ATOM 6656 OG SER A 85 -18.689 -28.001 7.974 1.00 80.79 O +ATOM 6657 N THR A 86 -14.468 -29.649 7.657 1.00 85.99 N +ATOM 6658 CA THR A 86 -13.480 -30.704 7.844 1.00 83.54 C +ATOM 6659 C THR A 86 -13.762 -31.408 9.166 1.00 80.65 C +ATOM 6660 O THR A 86 -13.823 -30.762 10.217 1.00 77.89 O +ATOM 6661 CB THR A 86 -12.061 -30.136 7.830 1.00 81.58 C +ATOM 6662 OG1 THR A 86 -11.841 -29.422 6.607 1.00 82.05 O +ATOM 6663 CG2 THR A 86 -11.038 -31.258 7.945 1.00 81.29 C +ATOM 6664 N VAL A 87 -13.942 -32.724 9.112 1.00 84.57 N +ATOM 6665 CA VAL A 87 -14.265 -33.522 10.288 1.00 85.25 C +ATOM 6666 C VAL A 87 -13.056 -34.380 10.641 1.00 84.92 C +ATOM 6667 O VAL A 87 -12.256 -34.755 9.775 1.00 86.11 O +ATOM 6668 CB VAL A 87 -15.523 -34.384 10.049 1.00 86.71 C +ATOM 6669 CG1 VAL A 87 -16.050 -34.936 11.359 1.00 85.97 C +ATOM 6670 CG2 VAL A 87 -16.597 -33.568 9.340 1.00 82.38 C +ATOM 6671 N TYR A 88 -12.935 -34.704 11.928 1.00 84.81 N +ATOM 6672 CA TYR A 88 -11.726 -35.327 12.458 1.00 84.80 C +ATOM 6673 C TYR A 88 -12.121 -36.298 13.561 1.00 84.08 C +ATOM 6674 O TYR A 88 -12.711 -35.885 14.564 1.00 84.24 O +ATOM 6675 CB TYR A 88 -10.778 -34.244 12.978 1.00 82.80 C +ATOM 6676 CG TYR A 88 -9.573 -34.729 13.740 1.00 83.17 C +ATOM 6677 CD1 TYR A 88 -8.867 -35.846 13.327 1.00 86.81 C +ATOM 6678 CD2 TYR A 88 -9.128 -34.050 14.866 1.00 79.55 C +ATOM 6679 CE1 TYR A 88 -7.764 -36.281 14.022 1.00 85.41 C +ATOM 6680 CE2 TYR A 88 -8.023 -34.477 15.566 1.00 79.48 C +ATOM 6681 CZ TYR A 88 -7.344 -35.595 15.139 1.00 83.43 C +ATOM 6682 OH TYR A 88 -6.240 -36.032 15.833 1.00100.58 O +ATOM 6683 N MET A 89 -11.796 -37.578 13.382 1.00 83.61 N +ATOM 6684 CA MET A 89 -12.274 -38.646 14.250 1.00 86.43 C +ATOM 6685 C MET A 89 -11.127 -39.294 15.019 1.00 89.70 C +ATOM 6686 O MET A 89 -10.037 -39.513 14.476 1.00 89.09 O +ATOM 6687 CB MET A 89 -13.033 -39.705 13.444 1.00 89.80 C +ATOM 6688 CG MET A 89 -13.623 -40.822 14.292 1.00 93.01 C +ATOM 6689 SD MET A 89 -14.665 -41.956 13.358 1.00115.70 S +ATOM 6690 CE MET A 89 -16.232 -41.729 14.198 1.00 93.34 C +ATOM 6691 N GLU A 90 -11.412 -39.610 16.281 1.00 93.27 N +ATOM 6692 CA GLU A 90 -10.509 -40.259 17.222 1.00 92.59 C +ATOM 6693 C GLU A 90 -11.064 -41.642 17.539 1.00 95.83 C +ATOM 6694 O GLU A 90 -12.254 -41.772 17.847 1.00 93.90 O +ATOM 6695 CB GLU A 90 -10.389 -39.440 18.508 1.00 91.05 C +ATOM 6696 CG GLU A 90 -9.966 -37.992 18.303 1.00 89.36 C +ATOM 6697 CD GLU A 90 -8.496 -37.830 17.981 1.00 91.62 C +ATOM 6698 OE1 GLU A 90 -7.780 -38.849 17.886 1.00 92.87 O +ATOM 6699 OE2 GLU A 90 -8.056 -36.673 17.823 1.00 91.55 O +ATOM 6700 N LEU A 91 -10.205 -42.665 17.493 1.00100.58 N +ATOM 6701 CA LEU A 91 -10.666 -44.044 17.644 1.00105.56 C +ATOM 6702 C LEU A 91 -10.474 -44.601 19.051 1.00110.62 C +ATOM 6703 O LEU A 91 -11.402 -44.563 19.862 1.00113.46 O +ATOM 6704 CB LEU A 91 -9.939 -44.952 16.648 1.00109.38 C +ATOM 6705 CG LEU A 91 -10.178 -44.719 15.157 1.00114.01 C +ATOM 6706 CD1 LEU A 91 -9.273 -45.619 14.329 1.00111.43 C +ATOM 6707 CD2 LEU A 91 -11.637 -44.960 14.808 1.00109.01 C +ATOM 6708 N ARG A 92 -9.296 -45.147 19.347 1.00109.41 N +ATOM 6709 CA ARG A 92 -9.037 -45.783 20.642 1.00110.31 C +ATOM 6710 C ARG A 92 -8.544 -44.735 21.642 1.00106.43 C +ATOM 6711 O ARG A 92 -7.363 -44.653 21.985 1.00105.01 O +ATOM 6712 CB ARG A 92 -8.047 -46.930 20.478 1.00117.95 C +ATOM 6713 CG ARG A 92 -8.508 -47.976 19.473 1.00121.01 C +ATOM 6714 CD ARG A 92 -7.563 -49.168 19.389 1.00123.60 C +ATOM 6715 NE ARG A 92 -6.428 -48.932 18.500 1.00123.65 N +ATOM 6716 CZ ARG A 92 -6.499 -48.965 17.173 1.00128.30 C +ATOM 6717 NH1 ARG A 92 -7.656 -49.208 16.570 1.00127.08 N +ATOM 6718 NH2 ARG A 92 -5.413 -48.748 16.445 1.00126.19 N +ATOM 6719 N SER A 93 -9.493 -43.922 22.111 1.00102.87 N +ATOM 6720 CA SER A 93 -9.158 -42.819 23.003 1.00 99.51 C +ATOM 6721 C SER A 93 -8.473 -43.322 24.268 1.00101.05 C +ATOM 6722 O SER A 93 -8.814 -44.378 24.808 1.00 99.56 O +ATOM 6723 CB SER A 93 -10.420 -42.035 23.366 1.00 94.03 C +ATOM 6724 OG SER A 93 -10.860 -41.248 22.273 1.00 89.28 O +ATOM 6725 N LEU A 94 -7.511 -42.538 24.747 1.00104.50 N +ATOM 6726 CA LEU A 94 -6.713 -42.858 25.919 1.00103.01 C +ATOM 6727 C LEU A 94 -6.709 -41.664 26.863 1.00106.32 C +ATOM 6728 O LEU A 94 -7.301 -40.617 26.585 1.00110.94 O +ATOM 6729 CB LEU A 94 -5.278 -43.228 25.525 1.00105.17 C +ATOM 6730 CG LEU A 94 -5.099 -44.383 24.541 1.00108.47 C +ATOM 6731 CD1 LEU A 94 -3.668 -44.419 24.033 1.00108.75 C +ATOM 6732 CD2 LEU A 94 -5.470 -45.701 25.197 1.00107.13 C +ATOM 6733 N THR A 95 -6.037 -41.834 27.997 1.00109.62 N +ATOM 6734 CA THR A 95 -5.801 -40.732 28.918 1.00116.63 C +ATOM 6735 C THR A 95 -4.715 -39.782 28.430 1.00122.57 C +ATOM 6736 O THR A 95 -4.359 -38.856 29.165 1.00128.68 O +ATOM 6737 CB THR A 95 -5.408 -41.261 30.296 1.00119.43 C +ATOM 6738 OG1 THR A 95 -4.115 -41.871 30.216 1.00125.88 O +ATOM 6739 CG2 THR A 95 -6.418 -42.287 30.784 1.00112.83 C +ATOM 6740 N SER A 96 -4.142 -40.017 27.247 1.00119.52 N +ATOM 6741 CA SER A 96 -3.155 -39.123 26.650 1.00121.58 C +ATOM 6742 C SER A 96 -3.737 -38.186 25.598 1.00123.14 C +ATOM 6743 O SER A 96 -3.287 -37.036 25.490 1.00129.56 O +ATOM 6744 CB SER A 96 -2.013 -39.932 26.030 1.00121.02 C +ATOM 6745 OG SER A 96 -1.271 -40.621 27.022 1.00124.21 O +ATOM 6746 N GLU A 97 -4.709 -38.648 24.804 1.00115.14 N +ATOM 6747 CA GLU A 97 -5.392 -37.765 23.864 1.00114.89 C +ATOM 6748 C GLU A 97 -6.287 -36.740 24.556 1.00123.41 C +ATOM 6749 O GLU A 97 -6.791 -35.838 23.879 1.00120.59 O +ATOM 6750 CB GLU A 97 -6.215 -38.594 22.855 1.00109.25 C +ATOM 6751 CG GLU A 97 -5.361 -39.486 21.940 1.00108.84 C +ATOM 6752 CD GLU A 97 -5.186 -40.893 22.478 1.00106.29 C +ATOM 6753 OE1 GLU A 97 -6.185 -41.483 22.932 1.00102.59 O +ATOM 6754 OE2 GLU A 97 -4.044 -41.404 22.452 1.00109.43 O +ATOM 6755 N ASP A 98 -6.476 -36.832 25.881 1.00138.14 N +ATOM 6756 CA ASP A 98 -7.380 -35.937 26.601 1.00145.45 C +ATOM 6757 C ASP A 98 -6.812 -34.534 26.745 1.00189.87 C +ATOM 6758 O ASP A 98 -7.223 -33.632 26.016 1.00209.12 O +ATOM 6759 CB ASP A 98 -7.786 -36.524 27.981 1.00138.98 C +ATOM 6760 CG ASP A 98 -6.616 -36.735 28.961 1.00156.40 C +ATOM 6761 OD1 ASP A 98 -5.446 -36.613 28.530 1.00185.40 O +ATOM 6762 OD2 ASP A 98 -6.858 -36.977 30.157 1.00155.75 O +ATOM 6763 N SER A 99 -5.845 -34.360 27.646 1.00249.24 N +ATOM 6764 CA SER A 99 -5.215 -33.090 27.990 1.00246.26 C +ATOM 6765 C SER A 99 -4.536 -32.493 26.768 1.00241.40 C +ATOM 6766 O SER A 99 -3.324 -32.240 26.743 1.00242.89 O +ATOM 6767 CB SER A 99 -4.228 -33.313 29.139 1.00249.03 C +ATOM 6768 OG SER A 99 -3.635 -32.109 29.565 1.00245.20 O +ATOM 6769 N ALA A 100 -5.343 -32.316 25.738 1.00162.00 N +ATOM 6770 CA ALA A 100 -4.933 -31.835 24.439 1.00125.01 C +ATOM 6771 C ALA A 100 -6.046 -30.926 23.954 1.00103.82 C +ATOM 6772 O ALA A 100 -7.230 -31.242 24.095 1.00 96.71 O +ATOM 6773 CB ALA A 100 -4.710 -32.992 23.454 1.00114.37 C +ATOM 6774 N LEU A 101 -5.656 -29.787 23.422 1.00 91.69 N +ATOM 6775 CA LEU A 101 -6.561 -28.894 22.728 1.00 75.22 C +ATOM 6776 C LEU A 101 -6.328 -29.118 21.246 1.00 74.84 C +ATOM 6777 O LEU A 101 -5.181 -29.083 20.786 1.00 74.36 O +ATOM 6778 CB LEU A 101 -6.308 -27.443 23.130 1.00 68.59 C +ATOM 6779 CG LEU A 101 -7.111 -26.359 22.430 1.00 64.95 C +ATOM 6780 CD1 LEU A 101 -8.569 -26.475 22.786 1.00 67.00 C +ATOM 6781 CD2 LEU A 101 -6.567 -25.032 22.892 1.00 62.57 C +ATOM 6782 N TYR A 102 -7.392 -29.410 20.510 1.00 71.41 N +ATOM 6783 CA TYR A 102 -7.251 -29.782 19.113 1.00 66.71 C +ATOM 6784 C TYR A 102 -7.650 -28.595 18.251 1.00 66.06 C +ATOM 6785 O TYR A 102 -8.789 -28.119 18.321 1.00 66.90 O +ATOM 6786 CB TYR A 102 -8.086 -31.019 18.791 1.00 67.64 C +ATOM 6787 CG TYR A 102 -7.542 -32.271 19.441 1.00 72.97 C +ATOM 6788 CD1 TYR A 102 -6.533 -33.008 18.835 1.00 73.31 C +ATOM 6789 CD2 TYR A 102 -8.022 -32.705 20.670 1.00 78.59 C +ATOM 6790 CE1 TYR A 102 -6.025 -34.148 19.428 1.00 78.36 C +ATOM 6791 CE2 TYR A 102 -7.520 -33.845 21.271 1.00 85.01 C +ATOM 6792 CZ TYR A 102 -6.522 -34.562 20.645 1.00 84.19 C +ATOM 6793 OH TYR A 102 -6.018 -35.697 21.237 1.00 86.68 O +ATOM 6794 N TYR A 103 -6.698 -28.115 17.461 1.00 65.91 N +ATOM 6795 CA TYR A 103 -6.887 -27.005 16.545 1.00 64.27 C +ATOM 6796 C TYR A 103 -7.032 -27.529 15.125 1.00 64.95 C +ATOM 6797 O TYR A 103 -6.428 -28.538 14.751 1.00 65.99 O +ATOM 6798 CB TYR A 103 -5.699 -26.038 16.594 1.00 63.37 C +ATOM 6799 CG TYR A 103 -5.595 -25.169 17.828 1.00 59.71 C +ATOM 6800 CD1 TYR A 103 -6.416 -24.062 17.992 1.00 61.04 C +ATOM 6801 CD2 TYR A 103 -4.648 -25.432 18.810 1.00 58.81 C +ATOM 6802 CE1 TYR A 103 -6.314 -23.255 19.108 1.00 61.52 C +ATOM 6803 CE2 TYR A 103 -4.538 -24.630 19.930 1.00 57.62 C +ATOM 6804 CZ TYR A 103 -5.373 -23.542 20.073 1.00 59.91 C +ATOM 6805 OH TYR A 103 -5.271 -22.737 21.184 1.00 63.01 O +ATOM 6806 N CYS A 104 -7.824 -26.820 14.330 1.00 63.43 N +ATOM 6807 CA CYS A 104 -7.788 -26.959 12.884 1.00 65.78 C +ATOM 6808 C CYS A 104 -7.189 -25.690 12.302 1.00 67.03 C +ATOM 6809 O CYS A 104 -7.531 -24.580 12.721 1.00 67.31 O +ATOM 6810 CB CYS A 104 -9.179 -27.212 12.292 1.00 70.47 C +ATOM 6811 SG CYS A 104 -10.391 -25.893 12.529 1.00 78.90 S +ATOM 6812 N ALA A 105 -6.283 -25.859 11.347 1.00 66.47 N +ATOM 6813 CA ALA A 105 -5.580 -24.740 10.748 1.00 63.26 C +ATOM 6814 C ALA A 105 -5.600 -24.883 9.235 1.00 64.37 C +ATOM 6815 O ALA A 105 -5.793 -25.972 8.689 1.00 65.63 O +ATOM 6816 CB ALA A 105 -4.134 -24.648 11.254 1.00 60.61 C +ATOM 6817 N ARG A 106 -5.409 -23.756 8.564 1.00 62.66 N +ATOM 6818 CA ARG A 106 -5.406 -23.692 7.112 1.00 66.89 C +ATOM 6819 C ARG A 106 -3.980 -23.488 6.627 1.00 68.27 C +ATOM 6820 O ARG A 106 -3.292 -22.570 7.085 1.00 65.73 O +ATOM 6821 CB ARG A 106 -6.301 -22.559 6.608 1.00 65.51 C +ATOM 6822 CG ARG A 106 -6.564 -22.609 5.115 1.00 68.72 C +ATOM 6823 CD ARG A 106 -7.225 -21.337 4.612 1.00 67.97 C +ATOM 6824 NE ARG A 106 -6.274 -20.233 4.520 1.00 70.58 N +ATOM 6825 CZ ARG A 106 -6.541 -19.061 3.952 1.00 69.17 C +ATOM 6826 NH1 ARG A 106 -7.735 -18.835 3.421 1.00 69.46 N +ATOM 6827 NH2 ARG A 106 -5.612 -18.115 3.912 1.00 65.91 N +ATOM 6828 N GLY A 107 -3.538 -24.338 5.705 1.00 69.44 N +ATOM 6829 CA GLY A 107 -2.247 -24.136 5.086 1.00 67.29 C +ATOM 6830 C GLY A 107 -2.291 -23.002 4.081 1.00 69.53 C +ATOM 6831 O GLY A 107 -3.337 -22.675 3.522 1.00 72.83 O +ATOM 6832 N THR A 108 -1.134 -22.382 3.861 1.00 68.93 N +ATOM 6833 CA THR A 108 -1.076 -21.244 2.957 1.00 73.42 C +ATOM 6834 C THR A 108 -1.368 -21.688 1.521 1.00 75.99 C +ATOM 6835 O THR A 108 -1.483 -22.877 1.213 1.00 75.97 O +ATOM 6836 CB THR A 108 0.273 -20.524 3.064 1.00 70.63 C +ATOM 6837 OG1 THR A 108 0.372 -19.533 2.034 1.00 88.69 O +ATOM 6838 CG2 THR A 108 1.429 -21.490 2.948 1.00 68.84 C +ATOM 6839 N TYR A 109 -1.542 -20.696 0.647 1.00 78.35 N +ATOM 6840 CA TYR A 109 -2.051 -20.946 -0.699 1.00 82.30 C +ATOM 6841 C TYR A 109 -1.147 -21.894 -1.488 1.00 82.22 C +ATOM 6842 O TYR A 109 -1.569 -22.986 -1.888 1.00 81.56 O +ATOM 6843 CB TYR A 109 -2.224 -19.619 -1.439 1.00 84.72 C +ATOM 6844 CG TYR A 109 -3.110 -19.710 -2.662 1.00 86.29 C +ATOM 6845 CD1 TYR A 109 -4.284 -20.453 -2.636 1.00 86.43 C +ATOM 6846 CD2 TYR A 109 -2.780 -19.050 -3.838 1.00 88.22 C +ATOM 6847 CE1 TYR A 109 -5.105 -20.536 -3.744 1.00 89.07 C +ATOM 6848 CE2 TYR A 109 -3.593 -19.129 -4.955 1.00 91.59 C +ATOM 6849 CZ TYR A 109 -4.754 -19.873 -4.902 1.00 93.64 C +ATOM 6850 OH TYR A 109 -5.565 -19.956 -6.011 1.00 94.04 O +ATOM 6851 N TYR A 110 0.103 -21.483 -1.735 1.00 79.19 N +ATOM 6852 CA TYR A 110 1.009 -22.286 -2.560 1.00 79.18 C +ATOM 6853 C TYR A 110 1.267 -23.679 -1.991 1.00 77.80 C +ATOM 6854 O TYR A 110 1.533 -24.612 -2.758 1.00 79.03 O +ATOM 6855 CB TYR A 110 2.334 -21.546 -2.773 1.00 79.93 C +ATOM 6856 CG TYR A 110 2.192 -20.106 -3.228 1.00 80.64 C +ATOM 6857 CD1 TYR A 110 1.126 -19.710 -4.029 1.00 81.80 C +ATOM 6858 CD2 TYR A 110 3.134 -19.148 -2.875 1.00 79.97 C +ATOM 6859 CE1 TYR A 110 0.996 -18.401 -4.454 1.00 79.38 C +ATOM 6860 CE2 TYR A 110 3.012 -17.834 -3.297 1.00 82.03 C +ATOM 6861 CZ TYR A 110 1.941 -17.467 -4.086 1.00 81.10 C +ATOM 6862 OH TYR A 110 1.810 -16.164 -4.510 1.00 81.99 O +ATOM 6863 N ASP A 111 1.202 -23.852 -0.674 1.00 77.10 N +ATOM 6864 CA ASP A 111 1.491 -25.159 -0.094 1.00 76.24 C +ATOM 6865 C ASP A 111 0.866 -25.234 1.290 1.00 77.87 C +ATOM 6866 O ASP A 111 0.640 -24.217 1.945 1.00 79.44 O +ATOM 6867 CB ASP A 111 3.000 -25.449 -0.047 1.00 74.85 C +ATOM 6868 CG ASP A 111 3.814 -24.290 0.507 1.00 78.61 C +ATOM 6869 OD1 ASP A 111 3.273 -23.486 1.291 1.00 88.78 O +ATOM 6870 OD2 ASP A 111 5.007 -24.183 0.150 1.00 72.29 O +ATOM 6871 N GLY A 112 0.613 -26.457 1.740 1.00 77.25 N +ATOM 6872 CA GLY A 112 0.180 -26.656 3.108 1.00 75.34 C +ATOM 6873 C GLY A 112 1.253 -26.569 4.166 1.00 72.80 C +ATOM 6874 O GLY A 112 0.943 -26.727 5.349 1.00 73.26 O +ATOM 6875 N SER A 113 2.504 -26.330 3.765 1.00 72.62 N +ATOM 6876 CA SER A 113 3.661 -26.217 4.651 1.00 71.38 C +ATOM 6877 C SER A 113 3.370 -25.544 5.990 1.00 71.81 C +ATOM 6878 O SER A 113 3.240 -26.226 7.011 1.00 75.77 O +ATOM 6879 CB SER A 113 4.783 -25.467 3.930 1.00 70.18 C +ATOM 6880 OG SER A 113 4.368 -24.163 3.567 1.00 72.49 O +ATOM 6881 N TYR A 114 3.270 -24.219 6.007 1.00 70.27 N +ATOM 6882 CA TYR A 114 2.910 -23.492 7.216 1.00 66.17 C +ATOM 6883 C TYR A 114 1.452 -23.044 7.182 1.00 63.75 C +ATOM 6884 O TYR A 114 0.816 -22.981 6.127 1.00 68.50 O +ATOM 6885 CB TYR A 114 3.839 -22.290 7.424 1.00 65.53 C +ATOM 6886 CG TYR A 114 3.852 -21.283 6.295 1.00 62.75 C +ATOM 6887 CD1 TYR A 114 4.674 -21.461 5.191 1.00 61.53 C +ATOM 6888 CD2 TYR A 114 3.060 -20.144 6.345 1.00 62.83 C +ATOM 6889 CE1 TYR A 114 4.697 -20.540 4.160 1.00 64.34 C +ATOM 6890 CE2 TYR A 114 3.076 -19.217 5.319 1.00 62.64 C +ATOM 6891 CZ TYR A 114 3.897 -19.419 4.230 1.00 65.43 C +ATOM 6892 OH TYR A 114 3.916 -18.500 3.206 1.00 63.28 O +ATOM 6893 N PHE A 115 0.928 -22.732 8.367 1.00 62.18 N +ATOM 6894 CA PHE A 115 -0.500 -22.529 8.586 1.00 62.31 C +ATOM 6895 C PHE A 115 -0.744 -21.070 8.952 1.00 61.86 C +ATOM 6896 O PHE A 115 -0.153 -20.562 9.911 1.00 63.40 O +ATOM 6897 CB PHE A 115 -1.018 -23.452 9.691 1.00 60.47 C +ATOM 6898 CG PHE A 115 -0.407 -24.831 9.678 1.00 63.50 C +ATOM 6899 CD1 PHE A 115 -0.258 -25.537 8.493 1.00 66.88 C +ATOM 6900 CD2 PHE A 115 0.020 -25.420 10.856 1.00 62.69 C +ATOM 6901 CE1 PHE A 115 0.311 -26.797 8.487 1.00 66.32 C +ATOM 6902 CE2 PHE A 115 0.584 -26.683 10.855 1.00 64.20 C +ATOM 6903 CZ PHE A 115 0.728 -27.372 9.669 1.00 63.55 C +ATOM 6904 N ASP A 116 -1.622 -20.402 8.198 1.00 58.86 N +ATOM 6905 CA ASP A 116 -1.834 -18.967 8.360 1.00 59.68 C +ATOM 6906 C ASP A 116 -3.115 -18.609 9.106 1.00 60.65 C +ATOM 6907 O ASP A 116 -3.253 -17.462 9.544 1.00 58.58 O +ATOM 6908 CB ASP A 116 -1.843 -18.272 6.991 1.00 61.92 C +ATOM 6909 CG ASP A 116 -2.896 -18.834 6.053 1.00 64.63 C +ATOM 6910 OD1 ASP A 116 -3.551 -19.835 6.412 1.00 65.38 O +ATOM 6911 OD2 ASP A 116 -3.072 -18.269 4.953 1.00 64.65 O +ATOM 6912 N TYR A 117 -4.046 -19.547 9.263 1.00 59.87 N +ATOM 6913 CA TYR A 117 -5.280 -19.305 9.998 1.00 60.54 C +ATOM 6914 C TYR A 117 -5.561 -20.490 10.907 1.00 60.42 C +ATOM 6915 O TYR A 117 -5.338 -21.641 10.523 1.00 61.30 O +ATOM 6916 CB TYR A 117 -6.472 -19.075 9.058 1.00 62.20 C +ATOM 6917 CG TYR A 117 -6.507 -17.705 8.416 1.00 64.13 C +ATOM 6918 CD1 TYR A 117 -7.104 -16.630 9.063 1.00 64.41 C +ATOM 6919 CD2 TYR A 117 -5.953 -17.488 7.162 1.00 62.57 C +ATOM 6920 CE1 TYR A 117 -7.142 -15.377 8.482 1.00 64.80 C +ATOM 6921 CE2 TYR A 117 -5.987 -16.238 6.572 1.00 65.53 C +ATOM 6922 CZ TYR A 117 -6.583 -15.186 7.237 1.00 66.57 C +ATOM 6923 OH TYR A 117 -6.619 -13.940 6.653 1.00 68.11 O +ATOM 6924 N TRP A 118 -6.052 -20.203 12.111 1.00 56.88 N +ATOM 6925 CA TRP A 118 -6.282 -21.221 13.124 1.00 57.22 C +ATOM 6926 C TRP A 118 -7.695 -21.096 13.673 1.00 61.45 C +ATOM 6927 O TRP A 118 -8.253 -19.998 13.755 1.00 63.62 O +ATOM 6928 CB TRP A 118 -5.277 -21.103 14.280 1.00 56.63 C +ATOM 6929 CG TRP A 118 -3.851 -21.335 13.884 1.00 56.43 C +ATOM 6930 CD1 TRP A 118 -3.086 -20.544 13.077 1.00 55.76 C +ATOM 6931 CD2 TRP A 118 -3.012 -22.423 14.291 1.00 55.28 C +ATOM 6932 NE1 TRP A 118 -1.826 -21.076 12.949 1.00 55.39 N +ATOM 6933 CE2 TRP A 118 -1.755 -22.229 13.685 1.00 53.93 C +ATOM 6934 CE3 TRP A 118 -3.204 -23.544 15.104 1.00 55.13 C +ATOM 6935 CZ2 TRP A 118 -0.695 -23.114 13.867 1.00 54.78 C +ATOM 6936 CZ3 TRP A 118 -2.149 -24.421 15.284 1.00 54.53 C +ATOM 6937 CH2 TRP A 118 -0.911 -24.201 14.668 1.00 54.69 C +ATOM 6938 N GLY A 119 -8.270 -22.236 14.049 1.00 62.07 N +ATOM 6939 CA GLY A 119 -9.532 -22.248 14.753 1.00 60.32 C +ATOM 6940 C GLY A 119 -9.350 -21.910 16.219 1.00 61.56 C +ATOM 6941 O GLY A 119 -8.244 -21.680 16.707 1.00 61.73 O +ATOM 6942 N GLN A 120 -10.472 -21.879 16.939 1.00 63.39 N +ATOM 6943 CA GLN A 120 -10.411 -21.584 18.364 1.00 58.75 C +ATOM 6944 C GLN A 120 -10.031 -22.802 19.197 1.00 58.64 C +ATOM 6945 O GLN A 120 -9.605 -22.639 20.345 1.00 65.22 O +ATOM 6946 CB GLN A 120 -11.747 -21.013 18.851 1.00 62.69 C +ATOM 6947 CG GLN A 120 -12.844 -22.044 19.073 1.00 63.34 C +ATOM 6948 CD GLN A 120 -13.565 -22.432 17.796 1.00 66.04 C +ATOM 6949 OE1 GLN A 120 -13.016 -22.328 16.699 1.00 69.20 O +ATOM 6950 NE2 GLN A 120 -14.807 -22.878 17.934 1.00 65.66 N +ATOM 6951 N GLY A 121 -10.169 -24.000 18.655 1.00 56.63 N +ATOM 6952 CA GLY A 121 -9.754 -25.198 19.355 1.00 60.16 C +ATOM 6953 C GLY A 121 -10.894 -25.865 20.100 1.00 63.66 C +ATOM 6954 O GLY A 121 -11.821 -25.214 20.595 1.00 64.87 O +ATOM 6955 N THR A 122 -10.828 -27.192 20.182 1.00 63.93 N +ATOM 6956 CA THR A 122 -11.786 -27.990 20.937 1.00 64.65 C +ATOM 6957 C THR A 122 -11.054 -28.712 22.057 1.00 66.06 C +ATOM 6958 O THR A 122 -10.014 -29.338 21.820 1.00 69.36 O +ATOM 6959 CB THR A 122 -12.504 -29.015 20.052 1.00 67.43 C +ATOM 6960 OG1 THR A 122 -11.641 -30.134 19.817 1.00 79.32 O +ATOM 6961 CG2 THR A 122 -12.882 -28.403 18.726 1.00 68.98 C +ATOM 6962 N THR A 123 -11.573 -28.590 23.275 1.00 65.26 N +ATOM 6963 CA THR A 123 -11.009 -29.286 24.423 1.00 67.70 C +ATOM 6964 C THR A 123 -11.660 -30.661 24.522 1.00 71.84 C +ATOM 6965 O THR A 123 -12.890 -30.773 24.611 1.00 74.61 O +ATOM 6966 CB THR A 123 -11.216 -28.498 25.716 1.00 66.84 C +ATOM 6967 OG1 THR A 123 -12.616 -28.335 25.961 1.00 77.61 O +ATOM 6968 CG2 THR A 123 -10.564 -27.129 25.626 1.00 59.55 C +ATOM 6969 N LEU A 124 -10.835 -31.701 24.493 1.00 76.52 N +ATOM 6970 CA LEU A 124 -11.291 -33.074 24.631 1.00 80.59 C +ATOM 6971 C LEU A 124 -10.917 -33.591 26.010 1.00 87.72 C +ATOM 6972 O LEU A 124 -9.805 -33.353 26.490 1.00 97.65 O +ATOM 6973 CB LEU A 124 -10.675 -33.969 23.553 1.00 81.90 C +ATOM 6974 CG LEU A 124 -11.005 -35.460 23.643 1.00 81.15 C +ATOM 6975 CD1 LEU A 124 -12.501 -35.690 23.509 1.00 78.68 C +ATOM 6976 CD2 LEU A 124 -10.237 -36.246 22.592 1.00 82.90 C +ATOM 6977 N THR A 125 -11.848 -34.293 26.649 1.00 85.97 N +ATOM 6978 CA THR A 125 -11.594 -34.910 27.943 1.00 85.22 C +ATOM 6979 C THR A 125 -12.162 -36.315 27.901 1.00 85.09 C +ATOM 6980 O THR A 125 -13.362 -36.494 27.673 1.00 84.11 O +ATOM 6981 CB THR A 125 -12.221 -34.111 29.089 1.00 76.66 C +ATOM 6982 OG1 THR A 125 -11.960 -32.715 28.905 1.00 74.14 O +ATOM 6983 CG2 THR A 125 -11.649 -34.562 30.425 1.00 75.96 C +ATOM 6984 N VAL A 126 -11.305 -37.307 28.097 1.00 87.54 N +ATOM 6985 CA VAL A 126 -11.728 -38.698 28.101 1.00 93.06 C +ATOM 6986 C VAL A 126 -11.504 -39.253 29.500 1.00 90.37 C +ATOM 6987 O VAL A 126 -10.360 -39.474 29.917 1.00 90.97 O +ATOM 6988 CB VAL A 126 -11.004 -39.519 27.031 1.00 94.14 C +ATOM 6989 CG1 VAL A 126 -11.390 -40.969 27.154 1.00 91.35 C +ATOM 6990 CG2 VAL A 126 -11.392 -39.005 25.656 1.00 91.10 C +ATOM 6991 N SER A 127 -12.599 -39.473 30.226 1.00 89.50 N +ATOM 6992 CA SER A 127 -12.537 -39.960 31.594 1.00 89.08 C +ATOM 6993 C SER A 127 -13.788 -40.768 31.905 1.00 91.46 C +ATOM 6994 O SER A 127 -14.883 -40.452 31.431 1.00 92.94 O +ATOM 6995 CB SER A 127 -12.394 -38.802 32.590 1.00 88.96 C +ATOM 6996 OG SER A 127 -12.416 -39.274 33.925 1.00 88.85 O +ATOM 6997 N SER A 128 -13.614 -41.813 32.719 1.00 93.01 N +ATOM 6998 CA SER A 128 -14.744 -42.617 33.169 1.00 91.77 C +ATOM 6999 C SER A 128 -15.692 -41.839 34.071 1.00 91.51 C +ATOM 7000 O SER A 128 -16.808 -42.310 34.318 1.00 92.92 O +ATOM 7001 CB SER A 128 -14.244 -43.862 33.904 1.00100.94 C +ATOM 7002 OG SER A 128 -13.517 -44.715 33.036 1.00107.31 O +ATOM 7003 N ALA A 129 -15.281 -40.673 34.564 1.00 89.48 N +ATOM 7004 CA ALA A 129 -16.158 -39.849 35.379 1.00 86.07 C +ATOM 7005 C ALA A 129 -17.301 -39.294 34.534 1.00 84.38 C +ATOM 7006 O ALA A 129 -17.236 -39.245 33.302 1.00 82.81 O +ATOM 7007 CB ALA A 129 -15.376 -38.706 36.026 1.00 85.68 C +ATOM 7008 N SER A 130 -18.358 -38.869 35.215 1.00 84.22 N +ATOM 7009 CA SER A 130 -19.538 -38.326 34.561 1.00 85.16 C +ATOM 7010 C SER A 130 -19.536 -36.803 34.625 1.00 80.99 C +ATOM 7011 O SER A 130 -18.791 -36.187 35.392 1.00 78.99 O +ATOM 7012 CB SER A 130 -20.814 -38.878 35.201 1.00 89.60 C +ATOM 7013 OG SER A 130 -20.839 -38.617 36.593 1.00102.87 O +ATOM 7014 N THR A 131 -20.385 -36.201 33.797 1.00 80.25 N +ATOM 7015 CA THR A 131 -20.485 -34.752 33.737 1.00 77.17 C +ATOM 7016 C THR A 131 -21.087 -34.209 35.031 1.00 73.99 C +ATOM 7017 O THR A 131 -21.932 -34.846 35.666 1.00 77.91 O +ATOM 7018 CB THR A 131 -21.337 -34.333 32.536 1.00 74.60 C +ATOM 7019 OG1 THR A 131 -20.798 -34.915 31.343 1.00 76.35 O +ATOM 7020 CG2 THR A 131 -21.336 -32.824 32.372 1.00 70.35 C +ATOM 7021 N LYS A 132 -20.643 -33.015 35.419 1.00 70.27 N +ATOM 7022 CA LYS A 132 -21.138 -32.352 36.620 1.00 72.65 C +ATOM 7023 C LYS A 132 -21.225 -30.860 36.344 1.00 72.43 C +ATOM 7024 O LYS A 132 -20.222 -30.234 35.990 1.00 71.45 O +ATOM 7025 CB LYS A 132 -20.226 -32.628 37.820 1.00 75.21 C +ATOM 7026 CG LYS A 132 -20.563 -31.833 39.075 1.00 76.27 C +ATOM 7027 CD LYS A 132 -21.984 -32.098 39.546 1.00 84.71 C +ATOM 7028 CE LYS A 132 -22.238 -31.481 40.914 1.00 83.05 C +ATOM 7029 NZ LYS A 132 -22.033 -30.006 40.917 1.00 81.83 N +ATOM 7030 N GLY A 133 -22.420 -30.298 36.502 1.00 74.46 N +ATOM 7031 CA GLY A 133 -22.625 -28.883 36.320 1.00 70.95 C +ATOM 7032 C GLY A 133 -22.043 -28.094 37.472 1.00 72.70 C +ATOM 7033 O GLY A 133 -21.836 -28.618 38.571 1.00 77.73 O +ATOM 7034 N PRO A 134 -21.767 -26.813 37.247 1.00 69.55 N +ATOM 7035 CA PRO A 134 -21.132 -25.998 38.282 1.00 71.37 C +ATOM 7036 C PRO A 134 -22.130 -25.297 39.188 1.00 72.78 C +ATOM 7037 O PRO A 134 -23.235 -24.925 38.788 1.00 77.90 O +ATOM 7038 CB PRO A 134 -20.336 -24.975 37.460 1.00 66.30 C +ATOM 7039 CG PRO A 134 -21.046 -24.898 36.121 1.00 66.90 C +ATOM 7040 CD PRO A 134 -22.038 -26.032 36.031 1.00 67.38 C +ATOM 7041 N SER A 135 -21.713 -25.122 40.438 1.00 69.91 N +ATOM 7042 CA SER A 135 -22.448 -24.316 41.404 1.00 70.10 C +ATOM 7043 C SER A 135 -21.807 -22.935 41.451 1.00 67.32 C +ATOM 7044 O SER A 135 -20.601 -22.816 41.694 1.00 67.52 O +ATOM 7045 CB SER A 135 -22.449 -24.969 42.786 1.00 70.55 C +ATOM 7046 OG SER A 135 -23.081 -26.237 42.750 1.00 73.66 O +ATOM 7047 N VAL A 136 -22.604 -21.901 41.208 1.00 63.80 N +ATOM 7048 CA VAL A 136 -22.111 -20.534 41.109 1.00 58.52 C +ATOM 7049 C VAL A 136 -22.530 -19.796 42.371 1.00 60.40 C +ATOM 7050 O VAL A 136 -23.722 -19.551 42.594 1.00 61.14 O +ATOM 7051 CB VAL A 136 -22.634 -19.828 39.852 1.00 53.15 C +ATOM 7052 CG1 VAL A 136 -22.136 -18.391 39.805 1.00 53.94 C +ATOM 7053 CG2 VAL A 136 -22.210 -20.589 38.608 1.00 56.32 C +ATOM 7054 N PHE A 137 -21.549 -19.439 43.196 1.00 58.48 N +ATOM 7055 CA PHE A 137 -21.793 -18.667 44.400 1.00 58.74 C +ATOM 7056 C PHE A 137 -21.200 -17.267 44.257 1.00 56.35 C +ATOM 7057 O PHE A 137 -20.265 -17.064 43.480 1.00 57.15 O +ATOM 7058 CB PHE A 137 -21.185 -19.361 45.624 1.00 59.94 C +ATOM 7059 CG PHE A 137 -21.605 -20.796 45.776 1.00 63.66 C +ATOM 7060 CD1 PHE A 137 -22.901 -21.119 46.139 1.00 64.13 C +ATOM 7061 CD2 PHE A 137 -20.703 -21.823 45.549 1.00 62.28 C +ATOM 7062 CE1 PHE A 137 -23.290 -22.440 46.277 1.00 67.20 C +ATOM 7063 CE2 PHE A 137 -21.085 -23.145 45.685 1.00 67.26 C +ATOM 7064 CZ PHE A 137 -22.381 -23.454 46.050 1.00 67.39 C +ATOM 7065 N PRO A 138 -21.725 -16.278 44.973 1.00 54.28 N +ATOM 7066 CA PRO A 138 -21.176 -14.924 44.872 1.00 53.76 C +ATOM 7067 C PRO A 138 -20.040 -14.667 45.850 1.00 54.54 C +ATOM 7068 O PRO A 138 -19.934 -15.282 46.913 1.00 57.64 O +ATOM 7069 CB PRO A 138 -22.389 -14.043 45.202 1.00 52.58 C +ATOM 7070 CG PRO A 138 -23.176 -14.867 46.162 1.00 57.11 C +ATOM 7071 CD PRO A 138 -22.967 -16.312 45.767 1.00 58.07 C +ATOM 7072 N LEU A 139 -19.172 -13.736 45.459 1.00 52.35 N +ATOM 7073 CA LEU A 139 -18.113 -13.192 46.301 1.00 53.03 C +ATOM 7074 C LEU A 139 -18.449 -11.713 46.437 1.00 54.70 C +ATOM 7075 O LEU A 139 -18.052 -10.903 45.593 1.00 55.57 O +ATOM 7076 CB LEU A 139 -16.729 -13.407 45.683 1.00 51.56 C +ATOM 7077 CG LEU A 139 -16.325 -14.841 45.337 1.00 51.08 C +ATOM 7078 CD1 LEU A 139 -14.978 -14.859 44.634 1.00 49.01 C +ATOM 7079 CD2 LEU A 139 -16.292 -15.704 46.586 1.00 58.43 C +ATOM 7080 N ALA A 140 -19.202 -11.377 47.489 1.00 55.35 N +ATOM 7081 CA ALA A 140 -19.794 -10.057 47.647 1.00 57.14 C +ATOM 7082 C ALA A 140 -18.744 -9.043 48.094 1.00 59.96 C +ATOM 7083 O ALA A 140 -17.854 -9.375 48.883 1.00 59.43 O +ATOM 7084 CB ALA A 140 -20.934 -10.100 48.663 1.00 62.57 C +ATOM 7085 N PRO A 141 -18.827 -7.804 47.611 1.00 62.95 N +ATOM 7086 CA PRO A 141 -17.878 -6.760 48.020 1.00 69.90 C +ATOM 7087 C PRO A 141 -18.193 -6.240 49.411 1.00 80.19 C +ATOM 7088 O PRO A 141 -19.164 -5.494 49.610 1.00 82.44 O +ATOM 7089 CB PRO A 141 -18.064 -5.683 46.944 1.00 67.81 C +ATOM 7090 CG PRO A 141 -19.478 -5.851 46.498 1.00 64.89 C +ATOM 7091 CD PRO A 141 -19.770 -7.326 46.582 1.00 60.90 C +ATOM 7092 N SER A 142 -17.382 -6.631 50.388 1.00 90.84 N +ATOM 7093 CA SER A 142 -17.544 -6.131 51.747 1.00102.19 C +ATOM 7094 C SER A 142 -17.204 -4.646 51.780 1.00118.12 C +ATOM 7095 O SER A 142 -16.108 -4.246 51.374 1.00120.23 O +ATOM 7096 CB SER A 142 -16.653 -6.910 52.711 1.00108.46 C +ATOM 7097 OG SER A 142 -16.882 -8.304 52.603 1.00102.69 O +ATOM 7098 N SER A 143 -18.145 -3.829 52.262 1.00129.98 N +ATOM 7099 CA SER A 143 -17.924 -2.386 52.313 1.00134.74 C +ATOM 7100 C SER A 143 -16.704 -2.026 53.153 1.00136.24 C +ATOM 7101 O SER A 143 -16.078 -0.986 52.922 1.00137.07 O +ATOM 7102 CB SER A 143 -19.169 -1.683 52.856 1.00138.92 C +ATOM 7103 OG SER A 143 -20.278 -1.872 51.995 1.00137.33 O +ATOM 7104 N LYS A 144 -16.354 -2.866 54.128 1.00133.47 N +ATOM 7105 CA LYS A 144 -15.155 -2.625 54.922 1.00135.96 C +ATOM 7106 C LYS A 144 -13.885 -3.068 54.204 1.00136.56 C +ATOM 7107 O LYS A 144 -12.813 -2.504 54.452 1.00143.62 O +ATOM 7108 CB LYS A 144 -15.267 -3.339 56.270 1.00135.14 C +ATOM 7109 N SER A 145 -13.978 -4.057 53.320 1.00131.55 N +ATOM 7110 CA SER A 145 -12.810 -4.647 52.674 1.00134.45 C +ATOM 7111 C SER A 145 -12.737 -4.188 51.219 1.00144.33 C +ATOM 7112 O SER A 145 -12.914 -4.970 50.282 1.00132.95 O +ATOM 7113 CB SER A 145 -12.864 -6.177 52.781 1.00123.40 C +ATOM 7114 OG SER A 145 -12.941 -6.590 54.134 1.00114.64 O +ATOM 7115 N THR A 146 -12.470 -2.895 51.037 1.00147.58 N +ATOM 7116 CA THR A 146 -12.287 -2.306 49.715 1.00128.60 C +ATOM 7117 C THR A 146 -11.123 -1.329 49.771 1.00127.63 C +ATOM 7118 O THR A 146 -11.089 -0.452 50.639 1.00128.27 O +ATOM 7119 CB THR A 146 -13.551 -1.582 49.232 1.00126.11 C +ATOM 7120 OG1 THR A 146 -13.889 -0.538 50.152 1.00131.32 O +ATOM 7121 CG2 THR A 146 -14.719 -2.546 49.119 1.00122.19 C +ATOM 7122 N SER A 147 -10.178 -1.478 48.843 1.00117.98 N +ATOM 7123 CA SER A 147 -8.990 -0.631 48.823 1.00107.76 C +ATOM 7124 C SER A 147 -9.311 0.767 48.310 1.00100.13 C +ATOM 7125 O SER A 147 -9.272 1.012 47.100 1.00 91.58 O +ATOM 7126 CB SER A 147 -7.896 -1.266 47.962 1.00 94.97 C +ATOM 7127 OG SER A 147 -7.514 -2.532 48.470 1.00100.89 O +ATOM 7128 N GLY A 148 -9.621 1.691 49.218 1.00110.61 N +ATOM 7129 CA GLY A 148 -9.878 3.062 48.826 1.00 96.78 C +ATOM 7130 C GLY A 148 -11.130 3.219 47.990 1.00 87.82 C +ATOM 7131 O GLY A 148 -12.237 2.912 48.443 1.00 89.75 O +ATOM 7132 N GLY A 149 -10.962 3.701 46.763 1.00 76.54 N +ATOM 7133 CA GLY A 149 -12.045 3.912 45.829 1.00 72.03 C +ATOM 7134 C GLY A 149 -12.352 2.737 44.933 1.00 66.65 C +ATOM 7135 O GLY A 149 -13.210 2.848 44.051 1.00 62.55 O +ATOM 7136 N THR A 150 -11.671 1.610 45.124 1.00 68.07 N +ATOM 7137 CA THR A 150 -11.862 0.417 44.314 1.00 64.28 C +ATOM 7138 C THR A 150 -12.342 -0.734 45.187 1.00 68.44 C +ATOM 7139 O THR A 150 -11.817 -0.959 46.283 1.00 75.78 O +ATOM 7140 CB THR A 150 -10.561 0.028 43.599 1.00 62.60 C +ATOM 7141 OG1 THR A 150 -10.158 1.089 42.724 1.00 62.65 O +ATOM 7142 CG2 THR A 150 -10.746 -1.246 42.792 1.00 55.33 C +ATOM 7143 N ALA A 151 -13.345 -1.457 44.693 1.00 60.69 N +ATOM 7144 CA ALA A 151 -13.941 -2.596 45.372 1.00 59.78 C +ATOM 7145 C ALA A 151 -13.835 -3.827 44.485 1.00 53.53 C +ATOM 7146 O ALA A 151 -13.999 -3.738 43.264 1.00 53.43 O +ATOM 7147 CB ALA A 151 -15.411 -2.326 45.709 1.00 60.62 C +ATOM 7148 N ALA A 152 -13.571 -4.974 45.101 1.00 51.31 N +ATOM 7149 CA ALA A 152 -13.452 -6.238 44.389 1.00 49.05 C +ATOM 7150 C ALA A 152 -14.675 -7.104 44.658 1.00 51.40 C +ATOM 7151 O ALA A 152 -15.153 -7.184 45.794 1.00 56.12 O +ATOM 7152 CB ALA A 152 -12.182 -6.985 44.802 1.00 49.80 C +ATOM 7153 N LEU A 153 -15.182 -7.746 43.607 1.00 52.87 N +ATOM 7154 CA LEU A 153 -16.334 -8.629 43.731 1.00 54.75 C +ATOM 7155 C LEU A 153 -16.240 -9.697 42.653 1.00 54.62 C +ATOM 7156 O LEU A 153 -15.686 -9.457 41.579 1.00 52.94 O +ATOM 7157 CB LEU A 153 -17.653 -7.855 43.614 1.00 53.94 C +ATOM 7158 CG LEU A 153 -17.919 -7.123 42.296 1.00 49.53 C +ATOM 7159 CD1 LEU A 153 -18.828 -7.937 41.384 1.00 51.18 C +ATOM 7160 CD2 LEU A 153 -18.507 -5.746 42.556 1.00 53.02 C +ATOM 7161 N GLY A 154 -16.793 -10.873 42.930 1.00 54.52 N +ATOM 7162 CA GLY A 154 -16.602 -11.946 41.980 1.00 51.42 C +ATOM 7163 C GLY A 154 -17.604 -13.072 42.098 1.00 51.14 C +ATOM 7164 O GLY A 154 -18.639 -12.953 42.756 1.00 52.09 O +ATOM 7165 N CYS A 155 -17.268 -14.179 41.440 1.00 52.42 N +ATOM 7166 CA CYS A 155 -18.106 -15.369 41.401 1.00 54.03 C +ATOM 7167 C CYS A 155 -17.232 -16.608 41.529 1.00 55.14 C +ATOM 7168 O CYS A 155 -16.200 -16.720 40.860 1.00 54.75 O +ATOM 7169 CB CYS A 155 -18.932 -15.428 40.108 1.00 56.55 C +ATOM 7170 SG CYS A 155 -20.406 -14.377 40.138 1.00 86.26 S +ATOM 7171 N LEU A 156 -17.650 -17.525 42.398 1.00 54.59 N +ATOM 7172 CA LEU A 156 -16.978 -18.799 42.610 1.00 53.29 C +ATOM 7173 C LEU A 156 -17.739 -19.890 41.867 1.00 57.61 C +ATOM 7174 O LEU A 156 -18.901 -20.169 42.185 1.00 60.73 O +ATOM 7175 CB LEU A 156 -16.891 -19.125 44.101 1.00 54.15 C +ATOM 7176 CG LEU A 156 -16.288 -20.479 44.479 1.00 58.87 C +ATOM 7177 CD1 LEU A 156 -14.813 -20.537 44.115 1.00 60.30 C +ATOM 7178 CD2 LEU A 156 -16.489 -20.760 45.960 1.00 59.19 C +ATOM 7179 N VAL A 157 -17.088 -20.489 40.875 1.00 60.00 N +ATOM 7180 CA VAL A 157 -17.657 -21.562 40.069 1.00 60.30 C +ATOM 7181 C VAL A 157 -17.058 -22.858 40.603 1.00 61.18 C +ATOM 7182 O VAL A 157 -15.935 -23.227 40.250 1.00 61.34 O +ATOM 7183 CB VAL A 157 -17.351 -21.362 38.582 1.00 59.98 C +ATOM 7184 CG1 VAL A 157 -17.984 -22.453 37.748 1.00 62.67 C +ATOM 7185 CG2 VAL A 157 -17.818 -19.989 38.124 1.00 55.44 C +ATOM 7186 N LYS A 158 -17.799 -23.552 41.463 1.00 63.29 N +ATOM 7187 CA LYS A 158 -17.255 -24.674 42.210 1.00 67.67 C +ATOM 7188 C LYS A 158 -17.903 -25.981 41.759 1.00 67.23 C +ATOM 7189 O LYS A 158 -19.061 -26.004 41.327 1.00 68.45 O +ATOM 7190 CB LYS A 158 -17.462 -24.443 43.712 1.00 68.67 C +ATOM 7191 CG LYS A 158 -16.489 -25.162 44.633 1.00 71.60 C +ATOM 7192 CD LYS A 158 -16.918 -25.011 46.088 1.00 73.26 C +ATOM 7193 CE LYS A 158 -16.227 -26.014 47.007 1.00 76.62 C +ATOM 7194 NZ LYS A 158 -16.638 -27.427 46.776 1.00 78.23 N +ATOM 7195 N ASP A 159 -17.136 -27.070 41.882 1.00 67.91 N +ATOM 7196 CA ASP A 159 -17.602 -28.436 41.653 1.00 71.95 C +ATOM 7197 C ASP A 159 -18.228 -28.637 40.277 1.00 71.50 C +ATOM 7198 O ASP A 159 -19.455 -28.706 40.152 1.00 74.66 O +ATOM 7199 CB ASP A 159 -18.595 -28.849 42.742 1.00 74.08 C +ATOM 7200 CG ASP A 159 -17.973 -28.850 44.123 1.00 77.47 C +ATOM 7201 OD1 ASP A 159 -16.803 -29.273 44.246 1.00 75.71 O +ATOM 7202 OD2 ASP A 159 -18.652 -28.433 45.086 1.00 85.45 O +ATOM 7203 N TYR A 160 -17.394 -28.738 39.243 1.00 67.60 N +ATOM 7204 CA TYR A 160 -17.857 -29.049 37.899 1.00 67.92 C +ATOM 7205 C TYR A 160 -16.836 -29.944 37.211 1.00 67.17 C +ATOM 7206 O TYR A 160 -15.679 -30.040 37.629 1.00 66.58 O +ATOM 7207 CB TYR A 160 -18.097 -27.779 37.067 1.00 65.84 C +ATOM 7208 CG TYR A 160 -16.839 -27.019 36.705 1.00 66.76 C +ATOM 7209 CD1 TYR A 160 -16.110 -27.341 35.564 1.00 68.08 C +ATOM 7210 CD2 TYR A 160 -16.382 -25.977 37.500 1.00 67.37 C +ATOM 7211 CE1 TYR A 160 -14.960 -26.654 35.232 1.00 67.07 C +ATOM 7212 CE2 TYR A 160 -15.234 -25.281 37.173 1.00 67.58 C +ATOM 7213 CZ TYR A 160 -14.529 -25.623 36.037 1.00 65.80 C +ATOM 7214 OH TYR A 160 -13.385 -24.936 35.705 1.00 62.41 O +ATOM 7215 N PHE A 161 -17.282 -30.600 36.134 1.00 67.15 N +ATOM 7216 CA PHE A 161 -16.430 -31.493 35.361 1.00 67.89 C +ATOM 7217 C PHE A 161 -17.097 -31.775 34.028 1.00 69.87 C +ATOM 7218 O PHE A 161 -18.318 -31.983 33.998 1.00 70.96 O +ATOM 7219 CB PHE A 161 -16.175 -32.806 36.112 1.00 67.32 C +ATOM 7220 CG PHE A 161 -15.210 -33.727 35.418 1.00 69.28 C +ATOM 7221 CD1 PHE A 161 -13.844 -33.567 35.577 1.00 69.61 C +ATOM 7222 CD2 PHE A 161 -15.670 -34.755 34.611 1.00 70.40 C +ATOM 7223 CE1 PHE A 161 -12.953 -34.412 34.942 1.00 68.59 C +ATOM 7224 CE2 PHE A 161 -14.784 -35.604 33.973 1.00 73.64 C +ATOM 7225 CZ PHE A 161 -13.424 -35.432 34.139 1.00 70.67 C +ATOM 7226 N PRO A 162 -16.350 -31.791 32.912 1.00 70.35 N +ATOM 7227 CA PRO A 162 -14.922 -31.473 32.848 1.00 68.76 C +ATOM 7228 C PRO A 162 -14.666 -30.017 32.475 1.00 69.34 C +ATOM 7229 O PRO A 162 -15.579 -29.193 32.535 1.00 67.90 O +ATOM 7230 CB PRO A 162 -14.420 -32.406 31.751 1.00 70.06 C +ATOM 7231 CG PRO A 162 -15.571 -32.456 30.794 1.00 67.39 C +ATOM 7232 CD PRO A 162 -16.836 -32.330 31.628 1.00 70.05 C +ATOM 7233 N GLU A 163 -13.428 -29.711 32.097 1.00 68.38 N +ATOM 7234 CA GLU A 163 -13.117 -28.410 31.536 1.00 65.46 C +ATOM 7235 C GLU A 163 -13.696 -28.302 30.126 1.00 65.95 C +ATOM 7236 O GLU A 163 -13.930 -29.316 29.463 1.00 63.73 O +ATOM 7237 CB GLU A 163 -11.605 -28.197 31.512 1.00 68.00 C +ATOM 7238 CG GLU A 163 -11.001 -27.871 32.869 1.00 70.39 C +ATOM 7239 CD GLU A 163 -11.149 -26.405 33.232 1.00 72.43 C +ATOM 7240 OE1 GLU A 163 -10.213 -25.625 32.954 1.00 72.52 O +ATOM 7241 OE2 GLU A 163 -12.205 -26.031 33.785 1.00 74.86 O +ATOM 7242 N PRO A 164 -13.939 -27.074 29.638 1.00 67.91 N +ATOM 7243 CA PRO A 164 -13.748 -25.779 30.292 1.00 67.14 C +ATOM 7244 C PRO A 164 -15.050 -25.130 30.757 1.00 67.64 C +ATOM 7245 O PRO A 164 -16.120 -25.731 30.666 1.00 67.86 O +ATOM 7246 CB PRO A 164 -13.102 -24.944 29.187 1.00 67.85 C +ATOM 7247 CG PRO A 164 -13.628 -25.566 27.882 1.00 65.09 C +ATOM 7248 CD PRO A 164 -14.301 -26.882 28.227 1.00 65.01 C +ATOM 7249 N VAL A 165 -14.936 -23.902 31.257 1.00 68.25 N +ATOM 7250 CA VAL A 165 -16.078 -23.083 31.645 1.00 66.37 C +ATOM 7251 C VAL A 165 -15.838 -21.671 31.130 1.00 66.95 C +ATOM 7252 O VAL A 165 -14.719 -21.155 31.209 1.00 73.49 O +ATOM 7253 CB VAL A 165 -16.291 -23.090 33.175 1.00 65.40 C +ATOM 7254 CG1 VAL A 165 -17.152 -21.918 33.608 1.00 65.68 C +ATOM 7255 CG2 VAL A 165 -16.939 -24.387 33.606 1.00 66.10 C +ATOM 7256 N THR A 166 -16.886 -21.047 30.598 1.00 64.63 N +ATOM 7257 CA THR A 166 -16.805 -19.692 30.067 1.00 63.56 C +ATOM 7258 C THR A 166 -17.489 -18.741 31.039 1.00 58.85 C +ATOM 7259 O THR A 166 -18.694 -18.858 31.281 1.00 58.80 O +ATOM 7260 CB THR A 166 -17.452 -19.601 28.684 1.00 63.43 C +ATOM 7261 OG1 THR A 166 -16.791 -20.499 27.785 1.00 62.05 O +ATOM 7262 CG2 THR A 166 -17.348 -18.182 28.143 1.00 60.00 C +ATOM 7263 N VAL A 167 -16.725 -17.804 31.593 1.00 53.65 N +ATOM 7264 CA VAL A 167 -17.244 -16.823 32.538 1.00 52.86 C +ATOM 7265 C VAL A 167 -17.146 -15.442 31.905 1.00 50.87 C +ATOM 7266 O VAL A 167 -16.093 -15.064 31.378 1.00 52.52 O +ATOM 7267 CB VAL A 167 -16.489 -16.868 33.878 1.00 53.28 C +ATOM 7268 CG1 VAL A 167 -17.032 -15.808 34.822 1.00 47.53 C +ATOM 7269 CG2 VAL A 167 -16.602 -18.250 34.503 1.00 54.56 C +ATOM 7270 N SER A 168 -18.243 -14.695 31.962 1.00 53.78 N +ATOM 7271 CA SER A 168 -18.313 -13.329 31.469 1.00 53.37 C +ATOM 7272 C SER A 168 -18.984 -12.464 32.526 1.00 54.09 C +ATOM 7273 O SER A 168 -19.546 -12.966 33.501 1.00 54.30 O +ATOM 7274 CB SER A 168 -19.077 -13.249 30.141 1.00 54.38 C +ATOM 7275 OG SER A 168 -19.288 -11.902 29.757 1.00 68.20 O +ATOM 7276 N TRP A 169 -18.932 -11.150 32.330 1.00 52.09 N +ATOM 7277 CA TRP A 169 -19.550 -10.207 33.254 1.00 51.53 C +ATOM 7278 C TRP A 169 -20.420 -9.237 32.472 1.00 56.21 C +ATOM 7279 O TRP A 169 -19.933 -8.561 31.560 1.00 57.84 O +ATOM 7280 CB TRP A 169 -18.487 -9.460 34.063 1.00 51.04 C +ATOM 7281 CG TRP A 169 -17.888 -10.303 35.144 1.00 51.39 C +ATOM 7282 CD1 TRP A 169 -16.801 -11.121 35.041 1.00 47.69 C +ATOM 7283 CD2 TRP A 169 -18.346 -10.412 36.497 1.00 53.92 C +ATOM 7284 NE1 TRP A 169 -16.555 -11.735 36.245 1.00 48.34 N +ATOM 7285 CE2 TRP A 169 -17.489 -11.316 37.156 1.00 52.09 C +ATOM 7286 CE3 TRP A 169 -19.397 -9.833 37.215 1.00 52.25 C +ATOM 7287 CZ2 TRP A 169 -17.650 -11.653 38.498 1.00 51.93 C +ATOM 7288 CZ3 TRP A 169 -19.555 -10.169 38.546 1.00 51.80 C +ATOM 7289 CH2 TRP A 169 -18.686 -11.070 39.174 1.00 51.72 C +ATOM 7290 N ASN A 170 -21.704 -9.174 32.835 1.00 57.19 N +ATOM 7291 CA ASN A 170 -22.682 -8.321 32.159 1.00 57.26 C +ATOM 7292 C ASN A 170 -22.760 -8.641 30.667 1.00 58.67 C +ATOM 7293 O ASN A 170 -22.834 -7.745 29.823 1.00 57.27 O +ATOM 7294 CB ASN A 170 -22.385 -6.839 32.396 1.00 56.32 C +ATOM 7295 CG ASN A 170 -22.624 -6.424 33.837 1.00 57.02 C +ATOM 7296 OD1 ASN A 170 -22.856 -7.265 34.705 1.00 54.85 O +ATOM 7297 ND2 ASN A 170 -22.575 -5.122 34.097 1.00 58.93 N +ATOM 7298 N SER A 171 -22.732 -9.938 30.346 1.00 59.75 N +ATOM 7299 CA SER A 171 -22.841 -10.436 28.972 1.00 60.22 C +ATOM 7300 C SER A 171 -21.727 -9.903 28.073 1.00 60.46 C +ATOM 7301 O SER A 171 -21.907 -9.767 26.861 1.00 65.94 O +ATOM 7302 CB SER A 171 -24.212 -10.112 28.370 1.00 63.84 C +ATOM 7303 OG SER A 171 -25.252 -10.754 29.087 1.00 68.22 O +ATOM 7304 N GLY A 172 -20.569 -9.598 28.655 1.00 58.09 N +ATOM 7305 CA GLY A 172 -19.430 -9.118 27.903 1.00 54.69 C +ATOM 7306 C GLY A 172 -19.202 -7.624 27.976 1.00 54.02 C +ATOM 7307 O GLY A 172 -18.137 -7.156 27.554 1.00 56.66 O +ATOM 7308 N ALA A 173 -20.164 -6.864 28.500 1.00 53.55 N +ATOM 7309 CA ALA A 173 -20.016 -5.417 28.578 1.00 57.67 C +ATOM 7310 C ALA A 173 -18.963 -4.995 29.593 1.00 57.81 C +ATOM 7311 O ALA A 173 -18.455 -3.872 29.508 1.00 60.77 O +ATOM 7312 CB ALA A 173 -21.358 -4.773 28.923 1.00 63.15 C +ATOM 7313 N LEU A 174 -18.630 -5.859 30.547 1.00 54.93 N +ATOM 7314 CA LEU A 174 -17.641 -5.566 31.578 1.00 55.03 C +ATOM 7315 C LEU A 174 -16.400 -6.404 31.296 1.00 55.01 C +ATOM 7316 O LEU A 174 -16.434 -7.634 31.414 1.00 53.36 O +ATOM 7317 CB LEU A 174 -18.202 -5.855 32.969 1.00 54.59 C +ATOM 7318 CG LEU A 174 -17.321 -5.476 34.160 1.00 49.46 C +ATOM 7319 CD1 LEU A 174 -17.053 -3.980 34.176 1.00 44.65 C +ATOM 7320 CD2 LEU A 174 -17.974 -5.920 35.460 1.00 49.94 C +ATOM 7321 N THR A 175 -15.310 -5.737 30.919 1.00 54.66 N +ATOM 7322 CA THR A 175 -14.063 -6.420 30.597 1.00 52.86 C +ATOM 7323 C THR A 175 -12.905 -5.825 31.387 1.00 52.57 C +ATOM 7324 O THR A 175 -11.935 -6.522 31.699 1.00 57.09 O +ATOM 7325 CB THR A 175 -13.771 -6.341 29.095 1.00 56.31 C +ATOM 7326 OG1 THR A 175 -13.740 -4.968 28.684 1.00 62.15 O +ATOM 7327 CG2 THR A 175 -14.835 -7.083 28.300 1.00 54.57 C +ATOM 7328 N SER A 176 -12.998 -4.537 31.708 1.00 51.26 N +ATOM 7329 CA SER A 176 -11.935 -3.857 32.438 1.00 51.48 C +ATOM 7330 C SER A 176 -11.845 -4.394 33.861 1.00 50.55 C +ATOM 7331 O SER A 176 -12.835 -4.391 34.600 1.00 54.16 O +ATOM 7332 CB SER A 176 -12.185 -2.351 32.448 1.00 54.38 C +ATOM 7333 OG SER A 176 -11.297 -1.691 33.333 1.00 50.86 O +ATOM 7334 N GLY A 177 -10.657 -4.855 34.246 1.00 52.91 N +ATOM 7335 CA GLY A 177 -10.424 -5.310 35.600 1.00 53.34 C +ATOM 7336 C GLY A 177 -10.867 -6.722 35.899 1.00 51.59 C +ATOM 7337 O GLY A 177 -10.873 -7.114 37.072 1.00 54.90 O +ATOM 7338 N VAL A 178 -11.232 -7.502 34.889 1.00 47.55 N +ATOM 7339 CA VAL A 178 -11.696 -8.867 35.104 1.00 50.09 C +ATOM 7340 C VAL A 178 -10.494 -9.797 35.171 1.00 50.39 C +ATOM 7341 O VAL A 178 -9.522 -9.640 34.422 1.00 51.82 O +ATOM 7342 CB VAL A 178 -12.672 -9.292 33.989 1.00 49.44 C +ATOM 7343 CG1 VAL A 178 -13.239 -10.678 34.266 1.00 42.66 C +ATOM 7344 CG2 VAL A 178 -13.790 -8.270 33.844 1.00 49.27 C +ATOM 7345 N HIS A 179 -10.563 -10.777 36.070 1.00 48.51 N +ATOM 7346 CA HIS A 179 -9.530 -11.798 36.214 1.00 50.15 C +ATOM 7347 C HIS A 179 -10.225 -13.121 36.504 1.00 48.07 C +ATOM 7348 O HIS A 179 -10.782 -13.302 37.590 1.00 50.61 O +ATOM 7349 CB HIS A 179 -8.542 -11.452 37.331 1.00 52.49 C +ATOM 7350 CG HIS A 179 -7.709 -10.239 37.053 1.00 52.93 C +ATOM 7351 ND1 HIS A 179 -6.631 -10.257 36.194 1.00 55.89 N +ATOM 7352 CD2 HIS A 179 -7.784 -8.976 37.536 1.00 52.97 C +ATOM 7353 CE1 HIS A 179 -6.085 -9.055 36.151 1.00 59.45 C +ATOM 7354 NE2 HIS A 179 -6.765 -8.260 36.956 1.00 63.41 N +ATOM 7355 N THR A 180 -10.209 -14.031 35.535 1.00 46.35 N +ATOM 7356 CA THR A 180 -10.728 -15.380 35.722 1.00 47.46 C +ATOM 7357 C THR A 180 -9.551 -16.325 35.917 1.00 46.90 C +ATOM 7358 O THR A 180 -8.723 -16.489 35.015 1.00 47.20 O +ATOM 7359 CB THR A 180 -11.585 -15.817 34.534 1.00 45.01 C +ATOM 7360 OG1 THR A 180 -12.637 -14.866 34.328 1.00 46.46 O +ATOM 7361 CG2 THR A 180 -12.194 -17.186 34.798 1.00 45.58 C +ATOM 7362 N PHE A 181 -9.481 -16.942 37.087 1.00 45.53 N +ATOM 7363 CA PHE A 181 -8.324 -17.738 37.453 1.00 49.04 C +ATOM 7364 C PHE A 181 -8.415 -19.138 36.852 1.00 50.09 C +ATOM 7365 O PHE A 181 -9.512 -19.663 36.644 1.00 50.20 O +ATOM 7366 CB PHE A 181 -8.207 -17.829 38.970 1.00 51.32 C +ATOM 7367 CG PHE A 181 -7.971 -16.503 39.634 1.00 49.24 C +ATOM 7368 CD1 PHE A 181 -9.030 -15.661 39.930 1.00 48.94 C +ATOM 7369 CD2 PHE A 181 -6.689 -16.092 39.944 1.00 47.90 C +ATOM 7370 CE1 PHE A 181 -8.813 -14.438 40.531 1.00 48.70 C +ATOM 7371 CE2 PHE A 181 -6.467 -14.870 40.542 1.00 48.01 C +ATOM 7372 CZ PHE A 181 -7.528 -14.044 40.837 1.00 49.85 C +ATOM 7373 N PRO A 182 -7.272 -19.751 36.543 1.00 52.09 N +ATOM 7374 CA PRO A 182 -7.287 -21.128 36.037 1.00 52.25 C +ATOM 7375 C PRO A 182 -7.946 -22.077 37.028 1.00 52.84 C +ATOM 7376 O PRO A 182 -7.822 -21.922 38.244 1.00 52.28 O +ATOM 7377 CB PRO A 182 -5.801 -21.453 35.849 1.00 50.89 C +ATOM 7378 CG PRO A 182 -5.140 -20.125 35.686 1.00 48.49 C +ATOM 7379 CD PRO A 182 -5.916 -19.176 36.549 1.00 49.57 C +ATOM 7380 N ALA A 183 -8.659 -23.062 36.490 1.00 56.63 N +ATOM 7381 CA ALA A 183 -9.347 -24.034 37.323 1.00 59.56 C +ATOM 7382 C ALA A 183 -8.348 -24.902 38.079 1.00 61.18 C +ATOM 7383 O ALA A 183 -7.261 -25.215 37.586 1.00 61.29 O +ATOM 7384 CB ALA A 183 -10.264 -24.913 36.473 1.00 60.63 C +ATOM 7385 N VAL A 184 -8.728 -25.289 39.294 1.00 60.64 N +ATOM 7386 CA VAL A 184 -7.929 -26.170 40.137 1.00 63.64 C +ATOM 7387 C VAL A 184 -8.689 -27.475 40.321 1.00 67.54 C +ATOM 7388 O VAL A 184 -9.883 -27.464 40.644 1.00 66.32 O +ATOM 7389 CB VAL A 184 -7.616 -25.519 41.495 1.00 62.79 C +ATOM 7390 CG1 VAL A 184 -6.710 -26.419 42.316 1.00 61.95 C +ATOM 7391 CG2 VAL A 184 -6.982 -24.153 41.292 1.00 59.19 C +ATOM 7392 N LEU A 185 -8.002 -28.595 40.111 1.00 68.77 N +ATOM 7393 CA LEU A 185 -8.611 -29.911 40.274 1.00 70.60 C +ATOM 7394 C LEU A 185 -8.627 -30.264 41.757 1.00 72.52 C +ATOM 7395 O LEU A 185 -7.577 -30.522 42.355 1.00 71.30 O +ATOM 7396 CB LEU A 185 -7.851 -30.953 39.457 1.00 68.44 C +ATOM 7397 CG LEU A 185 -8.487 -32.337 39.298 1.00 71.85 C +ATOM 7398 CD1 LEU A 185 -8.188 -32.898 37.918 1.00 78.19 C +ATOM 7399 CD2 LEU A 185 -7.994 -33.293 40.372 1.00 74.64 C +ATOM 7400 N GLN A 186 -9.817 -30.276 42.351 1.00 73.48 N +ATOM 7401 CA GLN A 186 -9.965 -30.594 43.762 1.00 74.83 C +ATOM 7402 C GLN A 186 -9.772 -32.092 44.001 1.00 76.04 C +ATOM 7403 O GLN A 186 -9.741 -32.903 43.071 1.00 75.62 O +ATOM 7404 CB GLN A 186 -11.334 -30.140 44.266 1.00 74.51 C +ATOM 7405 CG GLN A 186 -11.596 -28.656 44.066 1.00 73.55 C +ATOM 7406 CD GLN A 186 -13.032 -28.272 44.358 1.00 75.42 C +ATOM 7407 OE1 GLN A 186 -13.295 -27.349 45.129 1.00 81.51 O +ATOM 7408 NE2 GLN A 186 -13.970 -28.977 43.738 1.00 73.22 N +ATOM 7409 N SER A 187 -9.625 -32.451 45.280 1.00 75.71 N +ATOM 7410 CA SER A 187 -9.479 -33.857 45.650 1.00 74.83 C +ATOM 7411 C SER A 187 -10.674 -34.689 45.199 1.00 72.76 C +ATOM 7412 O SER A 187 -10.537 -35.896 44.970 1.00 69.66 O +ATOM 7413 CB SER A 187 -9.285 -33.985 47.161 1.00 74.73 C +ATOM 7414 OG SER A 187 -10.389 -33.445 47.866 1.00 77.72 O +ATOM 7415 N SER A 188 -11.845 -34.069 45.070 1.00 71.71 N +ATOM 7416 CA SER A 188 -13.063 -34.764 44.677 1.00 69.93 C +ATOM 7417 C SER A 188 -13.122 -35.063 43.184 1.00 74.10 C +ATOM 7418 O SER A 188 -14.155 -35.544 42.706 1.00 75.33 O +ATOM 7419 CB SER A 188 -14.289 -33.944 45.086 1.00 70.87 C +ATOM 7420 OG SER A 188 -14.292 -32.681 44.444 1.00 69.66 O +ATOM 7421 N GLY A 189 -12.050 -34.790 42.442 1.00 74.33 N +ATOM 7422 CA GLY A 189 -12.053 -34.957 41.006 1.00 71.54 C +ATOM 7423 C GLY A 189 -12.799 -33.891 40.236 1.00 72.19 C +ATOM 7424 O GLY A 189 -12.813 -33.941 39.000 1.00 75.28 O +ATOM 7425 N LEU A 190 -13.419 -32.934 40.919 1.00 70.29 N +ATOM 7426 CA LEU A 190 -14.148 -31.850 40.280 1.00 70.19 C +ATOM 7427 C LEU A 190 -13.294 -30.588 40.229 1.00 70.10 C +ATOM 7428 O LEU A 190 -12.362 -30.405 41.016 1.00 71.85 O +ATOM 7429 CB LEU A 190 -15.456 -31.570 41.025 1.00 71.11 C +ATOM 7430 CG LEU A 190 -16.412 -32.759 41.156 1.00 73.21 C +ATOM 7431 CD1 LEU A 190 -17.628 -32.387 41.990 1.00 73.06 C +ATOM 7432 CD2 LEU A 190 -16.830 -33.266 39.784 1.00 74.77 C +ATOM 7433 N TYR A 191 -13.629 -29.713 39.287 1.00 68.28 N +ATOM 7434 CA TYR A 191 -12.909 -28.466 39.080 1.00 65.90 C +ATOM 7435 C TYR A 191 -13.601 -27.315 39.800 1.00 65.94 C +ATOM 7436 O TYR A 191 -14.782 -27.384 40.151 1.00 66.94 O +ATOM 7437 CB TYR A 191 -12.786 -28.146 37.588 1.00 65.26 C +ATOM 7438 CG TYR A 191 -11.820 -29.035 36.840 1.00 67.77 C +ATOM 7439 CD1 TYR A 191 -10.460 -28.753 36.825 1.00 68.69 C +ATOM 7440 CD2 TYR A 191 -12.266 -30.149 36.144 1.00 70.06 C +ATOM 7441 CE1 TYR A 191 -9.571 -29.559 36.142 1.00 69.94 C +ATOM 7442 CE2 TYR A 191 -11.384 -30.962 35.456 1.00 69.52 C +ATOM 7443 CZ TYR A 191 -10.038 -30.662 35.459 1.00 68.27 C +ATOM 7444 OH TYR A 191 -9.155 -31.467 34.778 1.00 69.87 O +ATOM 7445 N SER A 192 -12.839 -26.245 40.016 1.00 63.65 N +ATOM 7446 CA SER A 192 -13.346 -25.055 40.682 1.00 62.27 C +ATOM 7447 C SER A 192 -12.459 -23.876 40.316 1.00 60.99 C +ATOM 7448 O SER A 192 -11.242 -24.028 40.181 1.00 61.88 O +ATOM 7449 CB SER A 192 -13.382 -25.242 42.203 1.00 60.94 C +ATOM 7450 OG SER A 192 -13.713 -24.030 42.856 1.00 63.30 O +ATOM 7451 N LEU A 193 -13.074 -22.706 40.158 1.00 57.10 N +ATOM 7452 CA LEU A 193 -12.331 -21.500 39.823 1.00 55.27 C +ATOM 7453 C LEU A 193 -13.076 -20.291 40.369 1.00 52.10 C +ATOM 7454 O LEU A 193 -14.195 -20.398 40.877 1.00 55.65 O +ATOM 7455 CB LEU A 193 -12.095 -21.390 38.306 1.00 57.35 C +ATOM 7456 CG LEU A 193 -13.250 -21.187 37.316 1.00 53.87 C +ATOM 7457 CD1 LEU A 193 -13.671 -19.726 37.193 1.00 52.01 C +ATOM 7458 CD2 LEU A 193 -12.878 -21.746 35.951 1.00 55.15 C +ATOM 7459 N SER A 194 -12.430 -19.134 40.272 1.00 49.99 N +ATOM 7460 CA SER A 194 -13.018 -17.870 40.684 1.00 50.29 C +ATOM 7461 C SER A 194 -12.790 -16.830 39.599 1.00 50.85 C +ATOM 7462 O SER A 194 -11.765 -16.839 38.912 1.00 54.49 O +ATOM 7463 CB SER A 194 -12.427 -17.376 42.012 1.00 53.55 C +ATOM 7464 OG SER A 194 -12.626 -18.324 43.046 1.00 60.23 O +ATOM 7465 N SER A 195 -13.763 -15.937 39.443 1.00 48.47 N +ATOM 7466 CA SER A 195 -13.658 -14.824 38.507 1.00 48.53 C +ATOM 7467 C SER A 195 -13.970 -13.541 39.259 1.00 50.09 C +ATOM 7468 O SER A 195 -15.095 -13.360 39.734 1.00 53.54 O +ATOM 7469 CB SER A 195 -14.607 -15.002 37.320 1.00 51.53 C +ATOM 7470 OG SER A 195 -14.517 -13.905 36.429 1.00 52.92 O +ATOM 7471 N VAL A 196 -12.980 -12.661 39.372 1.00 48.38 N +ATOM 7472 CA VAL A 196 -13.117 -11.432 40.140 1.00 48.98 C +ATOM 7473 C VAL A 196 -13.075 -10.238 39.196 1.00 50.52 C +ATOM 7474 O VAL A 196 -12.602 -10.321 38.059 1.00 51.16 O +ATOM 7475 CB VAL A 196 -12.028 -11.311 41.224 1.00 50.36 C +ATOM 7476 CG1 VAL A 196 -12.129 -12.465 42.208 1.00 50.98 C +ATOM 7477 CG2 VAL A 196 -10.648 -11.271 40.584 1.00 48.23 C +ATOM 7478 N VAL A 197 -13.568 -9.104 39.693 1.00 50.58 N +ATOM 7479 CA VAL A 197 -13.594 -7.841 38.961 1.00 50.32 C +ATOM 7480 C VAL A 197 -13.477 -6.712 39.975 1.00 52.13 C +ATOM 7481 O VAL A 197 -14.071 -6.766 41.058 1.00 55.42 O +ATOM 7482 CB VAL A 197 -14.885 -7.658 38.123 1.00 52.24 C +ATOM 7483 CG1 VAL A 197 -14.837 -6.345 37.350 1.00 51.29 C +ATOM 7484 CG2 VAL A 197 -15.121 -8.813 37.165 1.00 54.48 C +ATOM 7485 N THR A 198 -12.706 -5.689 39.619 1.00 51.33 N +ATOM 7486 CA THR A 198 -12.583 -4.478 40.416 1.00 52.98 C +ATOM 7487 C THR A 198 -13.386 -3.355 39.771 1.00 53.36 C +ATOM 7488 O THR A 198 -13.342 -3.166 38.552 1.00 58.86 O +ATOM 7489 CB THR A 198 -11.118 -4.059 40.560 1.00 54.20 C +ATOM 7490 OG1 THR A 198 -10.550 -3.843 39.262 1.00 60.64 O +ATOM 7491 CG2 THR A 198 -10.325 -5.136 41.285 1.00 52.45 C +ATOM 7492 N VAL A 199 -14.118 -2.615 40.598 1.00 53.22 N +ATOM 7493 CA VAL A 199 -15.002 -1.547 40.131 1.00 52.31 C +ATOM 7494 C VAL A 199 -14.903 -0.373 41.092 1.00 53.78 C +ATOM 7495 O VAL A 199 -14.479 -0.526 42.244 1.00 52.73 O +ATOM 7496 CB VAL A 199 -16.470 -2.015 40.024 1.00 50.03 C +ATOM 7497 CG1 VAL A 199 -16.613 -3.150 39.020 1.00 49.56 C +ATOM 7498 CG2 VAL A 199 -16.995 -2.434 41.388 1.00 53.79 C +ATOM 7499 N PRO A 200 -15.274 0.824 40.638 1.00 53.84 N +ATOM 7500 CA PRO A 200 -15.364 1.953 41.575 1.00 54.93 C +ATOM 7501 C PRO A 200 -16.375 1.658 42.674 1.00 55.15 C +ATOM 7502 O PRO A 200 -17.507 1.249 42.407 1.00 57.54 O +ATOM 7503 CB PRO A 200 -15.804 3.124 40.685 1.00 54.73 C +ATOM 7504 CG PRO A 200 -16.324 2.495 39.429 1.00 52.38 C +ATOM 7505 CD PRO A 200 -15.533 1.241 39.251 1.00 47.73 C +ATOM 7506 N SER A 201 -15.944 1.852 43.925 1.00 56.71 N +ATOM 7507 CA SER A 201 -16.787 1.504 45.066 1.00 56.73 C +ATOM 7508 C SER A 201 -18.096 2.285 45.051 1.00 58.66 C +ATOM 7509 O SER A 201 -19.155 1.742 45.388 1.00 57.08 O +ATOM 7510 CB SER A 201 -16.029 1.750 46.370 1.00 58.12 C +ATOM 7511 OG SER A 201 -15.603 3.098 46.467 1.00 61.01 O +ATOM 7512 N SER A 202 -18.044 3.558 44.650 1.00 59.89 N +ATOM 7513 CA SER A 202 -19.246 4.382 44.602 1.00 61.62 C +ATOM 7514 C SER A 202 -20.309 3.802 43.677 1.00 64.10 C +ATOM 7515 O SER A 202 -21.490 4.137 43.822 1.00 68.56 O +ATOM 7516 CB SER A 202 -18.891 5.803 44.163 1.00 64.49 C +ATOM 7517 OG SER A 202 -18.361 5.813 42.850 1.00 66.14 O +ATOM 7518 N SER A 203 -19.920 2.945 42.735 1.00 59.17 N +ATOM 7519 CA SER A 203 -20.865 2.340 41.806 1.00 59.52 C +ATOM 7520 C SER A 203 -21.550 1.102 42.372 1.00 60.80 C +ATOM 7521 O SER A 203 -22.420 0.540 41.697 1.00 59.41 O +ATOM 7522 CB SER A 203 -20.155 1.978 40.499 1.00 59.75 C +ATOM 7523 OG SER A 203 -19.203 0.948 40.706 1.00 56.97 O +ATOM 7524 N LEU A 204 -21.177 0.658 43.577 1.00 61.15 N +ATOM 7525 CA LEU A 204 -21.792 -0.541 44.142 1.00 58.06 C +ATOM 7526 C LEU A 204 -23.287 -0.362 44.376 1.00 57.18 C +ATOM 7527 O LEU A 204 -24.049 -1.331 44.278 1.00 56.44 O +ATOM 7528 CB LEU A 204 -21.094 -0.930 45.445 1.00 54.78 C +ATOM 7529 CG LEU A 204 -19.677 -1.482 45.294 1.00 55.04 C +ATOM 7530 CD1 LEU A 204 -19.069 -1.788 46.652 1.00 52.25 C +ATOM 7531 CD2 LEU A 204 -19.687 -2.724 44.416 1.00 58.71 C +ATOM 7532 N GLY A 205 -23.727 0.858 44.683 1.00 55.26 N +ATOM 7533 CA GLY A 205 -25.134 1.117 44.912 1.00 55.93 C +ATOM 7534 C GLY A 205 -25.925 1.583 43.713 1.00 59.48 C +ATOM 7535 O GLY A 205 -27.158 1.591 43.762 1.00 66.05 O +ATOM 7536 N THR A 206 -25.252 1.972 42.631 1.00 60.24 N +ATOM 7537 CA THR A 206 -25.920 2.497 41.448 1.00 61.16 C +ATOM 7538 C THR A 206 -25.895 1.551 40.258 1.00 62.60 C +ATOM 7539 O THR A 206 -26.841 1.551 39.468 1.00 67.86 O +ATOM 7540 CB THR A 206 -25.288 3.830 41.027 1.00 61.56 C +ATOM 7541 OG1 THR A 206 -23.911 3.622 40.693 1.00 65.02 O +ATOM 7542 CG2 THR A 206 -25.376 4.839 42.161 1.00 66.72 C +ATOM 7543 N GLN A 207 -24.842 0.756 40.107 1.00 60.49 N +ATOM 7544 CA GLN A 207 -24.673 -0.128 38.964 1.00 61.11 C +ATOM 7545 C GLN A 207 -24.833 -1.582 39.395 1.00 59.13 C +ATOM 7546 O GLN A 207 -24.455 -1.964 40.506 1.00 60.11 O +ATOM 7547 CB GLN A 207 -23.302 0.098 38.315 1.00 63.45 C +ATOM 7548 CG GLN A 207 -23.027 -0.730 37.074 1.00 65.39 C +ATOM 7549 CD GLN A 207 -21.811 -0.234 36.317 1.00 68.76 C +ATOM 7550 OE1 GLN A 207 -21.183 0.751 36.707 1.00 67.85 O +ATOM 7551 NE2 GLN A 207 -21.473 -0.913 35.228 1.00 78.59 N +ATOM 7552 N THR A 208 -25.405 -2.389 38.505 1.00 56.02 N +ATOM 7553 CA THR A 208 -25.654 -3.802 38.761 1.00 57.84 C +ATOM 7554 C THR A 208 -24.622 -4.660 38.036 1.00 55.55 C +ATOM 7555 O THR A 208 -24.278 -4.393 36.881 1.00 58.94 O +ATOM 7556 CB THR A 208 -27.067 -4.189 38.316 1.00 58.64 C +ATOM 7557 OG1 THR A 208 -28.028 -3.449 39.080 1.00 64.10 O +ATOM 7558 CG2 THR A 208 -27.315 -5.675 38.517 1.00 56.44 C +ATOM 7559 N TYR A 209 -24.131 -5.692 38.722 1.00 54.77 N +ATOM 7560 CA TYR A 209 -23.112 -6.588 38.187 1.00 55.53 C +ATOM 7561 C TYR A 209 -23.630 -8.019 38.231 1.00 55.24 C +ATOM 7562 O TYR A 209 -23.980 -8.522 39.304 1.00 55.71 O +ATOM 7563 CB TYR A 209 -21.807 -6.466 38.978 1.00 55.75 C +ATOM 7564 CG TYR A 209 -21.216 -5.075 38.964 1.00 55.35 C +ATOM 7565 CD1 TYR A 209 -20.500 -4.615 37.868 1.00 55.50 C +ATOM 7566 CD2 TYR A 209 -21.370 -4.224 40.051 1.00 52.46 C +ATOM 7567 CE1 TYR A 209 -19.960 -3.344 37.850 1.00 56.41 C +ATOM 7568 CE2 TYR A 209 -20.832 -2.952 40.044 1.00 54.08 C +ATOM 7569 CZ TYR A 209 -20.128 -2.517 38.942 1.00 58.16 C +ATOM 7570 OH TYR A 209 -19.589 -1.250 38.930 1.00 59.09 O +ATOM 7571 N ILE A 210 -23.672 -8.670 37.071 1.00 54.06 N +ATOM 7572 CA ILE A 210 -24.091 -10.063 36.950 1.00 54.06 C +ATOM 7573 C ILE A 210 -22.971 -10.838 36.272 1.00 54.41 C +ATOM 7574 O ILE A 210 -22.430 -10.392 35.253 1.00 55.14 O +ATOM 7575 CB ILE A 210 -25.401 -10.205 36.151 1.00 53.83 C +ATOM 7576 CG1 ILE A 210 -26.496 -9.306 36.728 1.00 56.39 C +ATOM 7577 CG2 ILE A 210 -25.855 -11.659 36.118 1.00 52.18 C +ATOM 7578 CD1 ILE A 210 -26.743 -8.060 35.908 1.00 61.34 C +ATOM 7579 N CYS A 211 -22.626 -11.994 36.832 1.00 54.55 N +ATOM 7580 CA CYS A 211 -21.660 -12.895 36.219 1.00 54.65 C +ATOM 7581 C CYS A 211 -22.399 -14.011 35.490 1.00 55.14 C +ATOM 7582 O CYS A 211 -23.340 -14.604 36.034 1.00 54.34 O +ATOM 7583 CB CYS A 211 -20.691 -13.462 37.261 1.00 55.12 C +ATOM 7584 SG CYS A 211 -21.355 -14.723 38.374 1.00 66.83 S +ATOM 7585 N ASN A 212 -21.985 -14.273 34.253 1.00 56.34 N +ATOM 7586 CA ASN A 212 -22.605 -15.265 33.381 1.00 54.90 C +ATOM 7587 C ASN A 212 -21.642 -16.435 33.234 1.00 52.36 C +ATOM 7588 O ASN A 212 -20.569 -16.290 32.639 1.00 52.21 O +ATOM 7589 CB ASN A 212 -22.939 -14.661 32.019 1.00 55.25 C +ATOM 7590 CG ASN A 212 -23.439 -13.234 32.120 1.00 59.99 C +ATOM 7591 OD1 ASN A 212 -22.758 -12.295 31.705 1.00 56.57 O +ATOM 7592 ND2 ASN A 212 -24.637 -13.063 32.665 1.00 68.23 N +ATOM 7593 N VAL A 213 -22.020 -17.583 33.782 1.00 52.14 N +ATOM 7594 CA VAL A 213 -21.234 -18.807 33.695 1.00 54.26 C +ATOM 7595 C VAL A 213 -21.881 -19.720 32.666 1.00 59.40 C +ATOM 7596 O VAL A 213 -23.112 -19.819 32.591 1.00 64.13 O +ATOM 7597 CB VAL A 213 -21.134 -19.492 35.072 1.00 51.87 C +ATOM 7598 CG1 VAL A 213 -20.285 -20.749 34.991 1.00 56.03 C +ATOM 7599 CG2 VAL A 213 -20.563 -18.524 36.097 1.00 53.21 C +ATOM 7600 N ASN A 214 -21.055 -20.384 31.862 1.00 58.84 N +ATOM 7601 CA ASN A 214 -21.543 -21.282 30.823 1.00 61.91 C +ATOM 7602 C ASN A 214 -20.665 -22.521 30.809 1.00 62.12 C +ATOM 7603 O ASN A 214 -19.463 -22.431 30.536 1.00 63.53 O +ATOM 7604 CB ASN A 214 -21.535 -20.595 29.452 1.00 67.86 C +ATOM 7605 CG ASN A 214 -22.216 -21.423 28.379 1.00 71.26 C +ATOM 7606 OD1 ASN A 214 -23.117 -22.211 28.664 1.00 74.26 O +ATOM 7607 ND2 ASN A 214 -21.786 -21.247 27.135 1.00 67.98 N +ATOM 7608 N HIS A 215 -21.264 -23.670 31.115 1.00 63.51 N +ATOM 7609 CA HIS A 215 -20.590 -24.965 31.084 1.00 63.97 C +ATOM 7610 C HIS A 215 -21.315 -25.820 30.051 1.00 68.01 C +ATOM 7611 O HIS A 215 -22.400 -26.348 30.318 1.00 70.59 O +ATOM 7612 CB HIS A 215 -20.581 -25.620 32.463 1.00 63.25 C +ATOM 7613 CG HIS A 215 -19.783 -26.885 32.526 1.00 64.65 C +ATOM 7614 ND1 HIS A 215 -20.349 -28.108 32.811 1.00 67.23 N +ATOM 7615 CD2 HIS A 215 -18.463 -27.118 32.331 1.00 65.64 C +ATOM 7616 CE1 HIS A 215 -19.412 -29.040 32.796 1.00 66.27 C +ATOM 7617 NE2 HIS A 215 -18.259 -28.465 32.508 1.00 66.37 N +ATOM 7618 N LYS A 216 -20.718 -25.939 28.869 1.00 67.06 N +ATOM 7619 CA LYS A 216 -21.320 -26.633 27.737 1.00 69.33 C +ATOM 7620 C LYS A 216 -21.384 -28.149 27.922 1.00 69.29 C +ATOM 7621 O LYS A 216 -22.383 -28.758 27.519 1.00 72.90 O +ATOM 7622 CB LYS A 216 -20.572 -26.287 26.447 1.00 69.68 C +ATOM 7623 CG LYS A 216 -20.789 -24.857 25.980 1.00 71.85 C +ATOM 7624 CD LYS A 216 -20.305 -24.657 24.554 1.00 79.59 C +ATOM 7625 CE LYS A 216 -20.685 -23.280 24.033 1.00 85.12 C +ATOM 7626 NZ LYS A 216 -20.272 -23.089 22.615 1.00 87.44 N +ATOM 7627 N PRO A 217 -20.359 -28.808 28.488 1.00 67.00 N +ATOM 7628 CA PRO A 217 -20.491 -30.256 28.735 1.00 68.82 C +ATOM 7629 C PRO A 217 -21.726 -30.637 29.534 1.00 69.62 C +ATOM 7630 O PRO A 217 -22.306 -31.702 29.287 1.00 72.84 O +ATOM 7631 CB PRO A 217 -19.201 -30.595 29.493 1.00 67.89 C +ATOM 7632 CG PRO A 217 -18.220 -29.618 28.989 1.00 67.53 C +ATOM 7633 CD PRO A 217 -18.983 -28.345 28.756 1.00 67.83 C +ATOM 7634 N SER A 218 -22.148 -29.804 30.483 1.00 68.38 N +ATOM 7635 CA SER A 218 -23.367 -30.051 31.241 1.00 69.73 C +ATOM 7636 C SER A 218 -24.557 -29.258 30.723 1.00 68.83 C +ATOM 7637 O SER A 218 -25.670 -29.447 31.226 1.00 70.97 O +ATOM 7638 CB SER A 218 -23.149 -29.727 32.725 1.00 68.90 C +ATOM 7639 OG SER A 218 -22.952 -28.337 32.922 1.00 67.06 O +ATOM 7640 N ASN A 219 -24.347 -28.380 29.741 1.00 69.71 N +ATOM 7641 CA ASN A 219 -25.407 -27.541 29.183 1.00 73.17 C +ATOM 7642 C ASN A 219 -26.042 -26.668 30.262 1.00 69.90 C +ATOM 7643 O ASN A 219 -27.265 -26.543 30.356 1.00 74.21 O +ATOM 7644 CB ASN A 219 -26.459 -28.380 28.452 1.00 76.12 C +ATOM 7645 CG ASN A 219 -27.435 -27.529 27.670 1.00 79.09 C +ATOM 7646 OD1 ASN A 219 -28.608 -27.418 28.028 1.00 77.35 O +ATOM 7647 ND2 ASN A 219 -26.940 -26.871 26.633 1.00 81.51 N +ATOM 7648 N THR A 220 -25.202 -26.070 31.098 1.00 68.21 N +ATOM 7649 CA THR A 220 -25.654 -25.208 32.181 1.00 70.39 C +ATOM 7650 C THR A 220 -25.284 -23.769 31.848 1.00 69.90 C +ATOM 7651 O THR A 220 -24.101 -23.448 31.686 1.00 69.45 O +ATOM 7652 CB THR A 220 -25.044 -25.631 33.515 1.00 69.07 C +ATOM 7653 OG1 THR A 220 -23.631 -25.802 33.358 1.00 71.44 O +ATOM 7654 CG2 THR A 220 -25.661 -26.938 33.992 1.00 66.83 C +ATOM 7655 N LYS A 221 -26.292 -22.909 31.751 1.00 67.71 N +ATOM 7656 CA LYS A 221 -26.110 -21.493 31.446 1.00 64.89 C +ATOM 7657 C LYS A 221 -26.654 -20.730 32.650 1.00 64.66 C +ATOM 7658 O LYS A 221 -27.850 -20.442 32.734 1.00 66.80 O +ATOM 7659 CB LYS A 221 -26.818 -21.113 30.145 1.00 69.19 C +ATOM 7660 CG LYS A 221 -26.196 -19.935 29.413 1.00 73.15 C +ATOM 7661 CD LYS A 221 -26.767 -19.797 28.007 1.00 74.25 C +ATOM 7662 CE LYS A 221 -26.466 -21.028 27.162 1.00 72.35 C +ATOM 7663 NZ LYS A 221 -27.016 -20.908 25.782 1.00 73.20 N +ATOM 7664 N VAL A 222 -25.763 -20.403 33.581 1.00 58.79 N +ATOM 7665 CA VAL A 222 -26.130 -19.812 34.860 1.00 55.39 C +ATOM 7666 C VAL A 222 -25.815 -18.324 34.831 1.00 54.78 C +ATOM 7667 O VAL A 222 -24.844 -17.881 34.211 1.00 59.87 O +ATOM 7668 CB VAL A 222 -25.387 -20.526 36.013 1.00 52.25 C +ATOM 7669 CG1 VAL A 222 -25.663 -19.856 37.352 1.00 49.03 C +ATOM 7670 CG2 VAL A 222 -25.765 -22.001 36.055 1.00 55.11 C +ATOM 7671 N ASP A 223 -26.657 -17.541 35.499 1.00 53.07 N +ATOM 7672 CA ASP A 223 -26.409 -16.127 35.732 1.00 53.09 C +ATOM 7673 C ASP A 223 -26.559 -15.857 37.221 1.00 52.55 C +ATOM 7674 O ASP A 223 -27.475 -16.378 37.863 1.00 55.93 O +ATOM 7675 CB ASP A 223 -27.371 -15.245 34.930 1.00 56.54 C +ATOM 7676 CG ASP A 223 -27.264 -15.475 33.437 1.00 62.58 C +ATOM 7677 OD1 ASP A 223 -26.130 -15.615 32.933 1.00 67.63 O +ATOM 7678 OD2 ASP A 223 -28.318 -15.521 32.766 1.00 66.83 O +ATOM 7679 N LYS A 224 -25.644 -15.069 37.780 1.00 51.13 N +ATOM 7680 CA LYS A 224 -25.642 -14.804 39.213 1.00 53.36 C +ATOM 7681 C LYS A 224 -25.425 -13.319 39.448 1.00 53.31 C +ATOM 7682 O LYS A 224 -24.427 -12.755 38.986 1.00 51.32 O +ATOM 7683 CB LYS A 224 -24.565 -15.627 39.926 1.00 55.68 C +ATOM 7684 CG LYS A 224 -24.763 -15.737 41.430 1.00 54.28 C +ATOM 7685 CD LYS A 224 -25.803 -16.800 41.760 1.00 56.79 C +ATOM 7686 CE LYS A 224 -26.113 -16.844 43.248 1.00 65.51 C +ATOM 7687 NZ LYS A 224 -26.972 -18.010 43.600 1.00 69.89 N +ATOM 7688 N LYS A 225 -26.361 -12.688 40.151 1.00 53.81 N +ATOM 7689 CA LYS A 225 -26.195 -11.299 40.550 1.00 53.57 C +ATOM 7690 C LYS A 225 -25.347 -11.217 41.810 1.00 54.62 C +ATOM 7691 O LYS A 225 -25.542 -11.982 42.759 1.00 51.95 O +ATOM 7692 CB LYS A 225 -27.550 -10.633 40.797 1.00 50.95 C +ATOM 7693 CG LYS A 225 -27.434 -9.156 41.148 1.00 54.24 C +ATOM 7694 CD LYS A 225 -28.783 -8.518 41.422 1.00 59.37 C +ATOM 7695 CE LYS A 225 -28.631 -7.022 41.659 1.00 65.72 C +ATOM 7696 NZ LYS A 225 -29.706 -6.473 42.529 1.00 70.58 N +ATOM 7697 N VAL A 226 -24.401 -10.285 41.813 1.00 54.57 N +ATOM 7698 CA VAL A 226 -23.495 -10.078 42.936 1.00 54.12 C +ATOM 7699 C VAL A 226 -23.853 -8.738 43.563 1.00 55.90 C +ATOM 7700 O VAL A 226 -23.674 -7.682 42.944 1.00 56.64 O +ATOM 7701 CB VAL A 226 -22.025 -10.119 42.498 1.00 52.11 C +ATOM 7702 CG1 VAL A 226 -21.111 -9.960 43.701 1.00 54.95 C +ATOM 7703 CG2 VAL A 226 -21.731 -11.419 41.768 1.00 49.03 C +ATOM 7704 N GLU A 227 -24.361 -8.779 44.792 1.00 59.94 N +ATOM 7705 CA GLU A 227 -24.820 -7.595 45.495 1.00 66.26 C +ATOM 7706 C GLU A 227 -23.957 -7.335 46.722 1.00 66.90 C +ATOM 7707 O GLU A 227 -23.403 -8.272 47.305 1.00 66.73 O +ATOM 7708 CB GLU A 227 -26.281 -7.747 45.940 1.00 73.50 C +ATOM 7709 CG GLU A 227 -27.263 -8.008 44.816 1.00 72.49 C +ATOM 7710 CD GLU A 227 -28.662 -8.286 45.330 1.00 88.38 C +ATOM 7711 OE1 GLU A 227 -28.900 -9.405 45.831 1.00 93.23 O +ATOM 7712 OE2 GLU A 227 -29.521 -7.385 45.238 1.00109.68 O +ATOM 7713 N PRO A 228 -23.818 -6.076 47.136 1.00 68.06 N +ATOM 7714 CA PRO A 228 -23.160 -5.795 48.420 1.00 71.66 C +ATOM 7715 C PRO A 228 -23.993 -6.357 49.562 1.00 77.11 C +ATOM 7716 O PRO A 228 -25.149 -5.974 49.758 1.00 80.11 O +ATOM 7717 CB PRO A 228 -23.088 -4.264 48.454 1.00 66.98 C +ATOM 7718 CG PRO A 228 -24.177 -3.813 47.536 1.00 68.65 C +ATOM 7719 CD PRO A 228 -24.232 -4.842 46.445 1.00 70.03 C +ATOM 7720 N LYS A 229 -23.399 -7.286 50.308 1.00 84.71 N +ATOM 7721 CA LYS A 229 -24.122 -7.971 51.372 1.00 89.90 C +ATOM 7722 C LYS A 229 -24.457 -6.979 52.483 1.00 97.41 C +ATOM 7723 O LYS A 229 -23.560 -6.369 53.075 1.00 96.50 O +ATOM 7724 CB LYS A 229 -23.287 -9.135 51.904 1.00 87.28 C +ATOM 7725 CG LYS A 229 -24.089 -10.322 52.453 1.00 89.18 C +ATOM 7726 CD LYS A 229 -24.946 -9.967 53.653 1.00100.50 C +ATOM 7727 CE LYS A 229 -25.758 -11.158 54.133 1.00100.53 C +ATOM 7728 NZ LYS A 229 -24.893 -12.245 54.665 1.00 96.27 N +ATOM 7729 N SER A 230 -25.749 -6.819 52.756 1.00106.17 N +ATOM 7730 CA SER A 230 -26.238 -5.854 53.728 1.00116.51 C +ATOM 7731 C SER A 230 -26.140 -6.410 55.148 1.00123.15 C +ATOM 7732 O SER A 230 -26.016 -7.617 55.368 1.00119.24 O +ATOM 7733 CB SER A 230 -27.683 -5.464 53.417 1.00112.42 C +ATOM 7734 OG SER A 230 -28.203 -4.601 54.413 1.00112.38 O +ATOM 7735 N CYS A 231 -26.205 -5.505 56.120 1.00130.20 N +ATOM 7736 CA CYS A 231 -26.115 -5.889 57.524 1.00139.76 C +ATOM 7737 C CYS A 231 -27.506 -6.117 58.107 1.00139.09 C +ATOM 7738 O CYS A 231 -27.682 -6.159 59.324 1.00139.53 O +ATOM 7739 CB CYS A 231 -25.379 -4.818 58.332 1.00145.41 C +ATOM 7740 SG CYS A 231 -23.708 -4.449 57.752 1.00149.54 S +ATOM 7741 N ASP B 1 11.398 -38.267 11.973 1.00108.03 N +ATOM 7742 CA ASP B 1 10.930 -36.903 12.191 1.00100.47 C +ATOM 7743 C ASP B 1 12.104 -35.940 12.338 1.00 93.25 C +ATOM 7744 O ASP B 1 13.184 -36.328 12.781 1.00 91.61 O +ATOM 7745 CB ASP B 1 10.041 -36.828 13.436 1.00 97.19 C +ATOM 7746 CG ASP B 1 8.809 -37.704 13.329 1.00103.76 C +ATOM 7747 OD1 ASP B 1 8.679 -38.432 12.322 1.00103.57 O +ATOM 7748 OD2 ASP B 1 7.968 -37.662 14.251 1.00106.31 O +ATOM 7749 N ILE B 2 11.885 -34.685 11.961 1.00 86.69 N +ATOM 7750 CA ILE B 2 12.875 -33.630 12.150 1.00 80.75 C +ATOM 7751 C ILE B 2 12.562 -32.935 13.467 1.00 77.53 C +ATOM 7752 O ILE B 2 11.474 -32.375 13.639 1.00 76.69 O +ATOM 7753 CB ILE B 2 12.865 -32.635 10.981 1.00 78.28 C +ATOM 7754 CG1 ILE B 2 13.405 -33.294 9.711 1.00 78.83 C +ATOM 7755 CG2 ILE B 2 13.678 -31.396 11.328 1.00 72.95 C +ATOM 7756 CD1 ILE B 2 13.330 -32.407 8.487 1.00 77.13 C +ATOM 7757 N VAL B 3 13.509 -32.962 14.396 1.00 73.92 N +ATOM 7758 CA VAL B 3 13.287 -32.437 15.738 1.00 74.92 C +ATOM 7759 C VAL B 3 13.712 -30.977 15.785 1.00 69.31 C +ATOM 7760 O VAL B 3 14.849 -30.635 15.437 1.00 67.75 O +ATOM 7761 CB VAL B 3 14.047 -33.267 16.786 1.00 75.36 C +ATOM 7762 CG1 VAL B 3 13.973 -32.596 18.149 1.00 67.79 C +ATOM 7763 CG2 VAL B 3 13.486 -34.679 16.850 1.00 88.49 C +ATOM 7764 N MET B 4 12.795 -30.115 16.215 1.00 67.74 N +ATOM 7765 CA MET B 4 13.073 -28.704 16.434 1.00 66.37 C +ATOM 7766 C MET B 4 13.250 -28.470 17.928 1.00 65.69 C +ATOM 7767 O MET B 4 12.390 -28.860 18.725 1.00 64.70 O +ATOM 7768 CB MET B 4 11.940 -27.830 15.892 1.00 67.57 C +ATOM 7769 CG MET B 4 11.566 -28.118 14.448 1.00 63.82 C +ATOM 7770 SD MET B 4 12.954 -27.929 13.318 1.00 65.19 S +ATOM 7771 CE MET B 4 13.098 -26.146 13.247 1.00 64.56 C +ATOM 7772 N THR B 5 14.359 -27.839 18.305 1.00 63.17 N +ATOM 7773 CA THR B 5 14.695 -27.637 19.709 1.00 61.65 C +ATOM 7774 C THR B 5 14.927 -26.155 19.950 1.00 61.76 C +ATOM 7775 O THR B 5 15.785 -25.544 19.303 1.00 60.51 O +ATOM 7776 CB THR B 5 15.933 -28.445 20.107 1.00 59.53 C +ATOM 7777 OG1 THR B 5 15.740 -29.820 19.755 1.00 63.36 O +ATOM 7778 CG2 THR B 5 16.174 -28.343 21.605 1.00 57.17 C +ATOM 7779 N GLN B 6 14.155 -25.579 20.865 1.00 61.80 N +ATOM 7780 CA GLN B 6 14.331 -24.196 21.287 1.00 62.86 C +ATOM 7781 C GLN B 6 15.131 -24.192 22.585 1.00 65.82 C +ATOM 7782 O GLN B 6 14.741 -24.843 23.560 1.00 67.12 O +ATOM 7783 CB GLN B 6 12.978 -23.507 21.458 1.00 58.31 C +ATOM 7784 CG GLN B 6 12.213 -23.371 20.149 1.00 55.60 C +ATOM 7785 CD GLN B 6 10.884 -22.662 20.305 1.00 52.96 C +ATOM 7786 OE1 GLN B 6 9.851 -23.153 19.852 1.00 53.48 O +ATOM 7787 NE2 GLN B 6 10.905 -21.497 20.942 1.00 52.64 N +ATOM 7788 N SER B 7 16.254 -23.469 22.582 1.00 71.67 N +ATOM 7789 CA SER B 7 17.224 -23.570 23.671 1.00 75.43 C +ATOM 7790 C SER B 7 16.601 -23.217 25.016 1.00 71.89 C +ATOM 7791 O SER B 7 16.747 -23.959 25.994 1.00 78.05 O +ATOM 7792 CB SER B 7 18.426 -22.670 23.383 1.00 74.79 C +ATOM 7793 OG SER B 7 18.028 -21.318 23.238 1.00 75.28 O +ATOM 7794 N HIS B 8 15.904 -22.088 25.088 1.00 69.72 N +ATOM 7795 CA HIS B 8 15.366 -21.579 26.342 1.00 69.07 C +ATOM 7796 C HIS B 8 13.855 -21.751 26.374 1.00 65.50 C +ATOM 7797 O HIS B 8 13.165 -21.403 25.410 1.00 64.07 O +ATOM 7798 CB HIS B 8 15.738 -20.109 26.535 1.00 66.86 C +ATOM 7799 CG HIS B 8 17.211 -19.873 26.635 1.00 69.63 C +ATOM 7800 ND1 HIS B 8 17.958 -19.377 25.589 1.00 82.63 N +ATOM 7801 CD2 HIS B 8 18.079 -20.075 27.654 1.00 71.35 C +ATOM 7802 CE1 HIS B 8 19.221 -19.278 25.961 1.00 80.74 C +ATOM 7803 NE2 HIS B 8 19.322 -19.696 27.210 1.00 73.11 N +ATOM 7804 N LYS B 9 13.351 -22.292 27.484 1.00 65.35 N +ATOM 7805 CA LYS B 9 11.915 -22.457 27.673 1.00 59.12 C +ATOM 7806 C LYS B 9 11.248 -21.182 28.177 1.00 57.09 C +ATOM 7807 O LYS B 9 10.068 -20.953 27.890 1.00 56.41 O +ATOM 7808 CB LYS B 9 11.611 -23.607 28.647 1.00 59.74 C +ATOM 7809 CG LYS B 9 12.437 -23.669 29.954 1.00 83.91 C +ATOM 7810 CD LYS B 9 13.900 -24.081 29.758 1.00 83.26 C +ATOM 7811 CE LYS B 9 14.821 -23.431 30.775 1.00 67.86 C +ATOM 7812 NZ LYS B 9 15.176 -22.048 30.348 1.00 60.11 N +ATOM 7813 N PHE B 10 11.970 -20.350 28.928 1.00 58.53 N +ATOM 7814 CA PHE B 10 11.444 -19.086 29.426 1.00 56.27 C +ATOM 7815 C PHE B 10 12.448 -17.972 29.172 1.00 51.83 C +ATOM 7816 O PHE B 10 13.660 -18.179 29.283 1.00 52.47 O +ATOM 7817 CB PHE B 10 11.123 -19.150 30.928 1.00 55.81 C +ATOM 7818 CG PHE B 10 10.088 -20.177 31.287 1.00 63.41 C +ATOM 7819 CD1 PHE B 10 8.737 -19.895 31.158 1.00 69.38 C +ATOM 7820 CD2 PHE B 10 10.464 -21.420 31.767 1.00 67.76 C +ATOM 7821 CE1 PHE B 10 7.783 -20.838 31.490 1.00 65.36 C +ATOM 7822 CE2 PHE B 10 9.515 -22.366 32.101 1.00 66.69 C +ATOM 7823 CZ PHE B 10 8.173 -22.075 31.962 1.00 65.30 C +ATOM 7824 N MET B 11 11.935 -16.791 28.832 1.00 46.26 N +ATOM 7825 CA MET B 11 12.761 -15.609 28.643 1.00 46.47 C +ATOM 7826 C MET B 11 12.056 -14.399 29.235 1.00 44.59 C +ATOM 7827 O MET B 11 10.853 -14.211 29.034 1.00 44.67 O +ATOM 7828 CB MET B 11 13.063 -15.363 27.159 1.00 48.85 C +ATOM 7829 CG MET B 11 14.182 -16.226 26.597 1.00 50.63 C +ATOM 7830 SD MET B 11 14.844 -15.578 25.051 1.00 65.08 S +ATOM 7831 CE MET B 11 15.990 -16.878 24.602 1.00 61.85 C +ATOM 7832 N SER B 12 12.811 -13.582 29.961 1.00 47.32 N +ATOM 7833 CA SER B 12 12.302 -12.363 30.570 1.00 47.62 C +ATOM 7834 C SER B 12 12.959 -11.151 29.924 1.00 45.14 C +ATOM 7835 O SER B 12 14.153 -11.176 29.611 1.00 49.39 O +ATOM 7836 CB SER B 12 12.553 -12.354 32.078 1.00 50.35 C +ATOM 7837 OG SER B 12 12.259 -11.084 32.624 1.00 54.47 O +ATOM 7838 N THR B 13 12.178 -10.092 29.722 1.00 45.32 N +ATOM 7839 CA THR B 13 12.696 -8.894 29.078 1.00 47.24 C +ATOM 7840 C THR B 13 11.937 -7.666 29.554 1.00 47.44 C +ATOM 7841 O THR B 13 10.800 -7.752 30.026 1.00 50.32 O +ATOM 7842 CB THR B 13 12.610 -8.994 27.554 1.00 51.69 C +ATOM 7843 OG1 THR B 13 13.347 -7.919 26.959 1.00 56.03 O +ATOM 7844 CG2 THR B 13 11.161 -8.924 27.094 1.00 49.57 C +ATOM 7845 N LEU B 14 12.590 -6.517 29.422 1.00 47.62 N +ATOM 7846 CA LEU B 14 11.983 -5.229 29.711 1.00 47.89 C +ATOM 7847 C LEU B 14 11.288 -4.688 28.466 1.00 49.08 C +ATOM 7848 O LEU B 14 11.625 -5.040 27.333 1.00 50.26 O +ATOM 7849 CB LEU B 14 13.039 -4.235 30.200 1.00 48.01 C +ATOM 7850 CG LEU B 14 13.830 -4.637 31.447 1.00 48.33 C +ATOM 7851 CD1 LEU B 14 15.035 -3.732 31.632 1.00 45.87 C +ATOM 7852 CD2 LEU B 14 12.942 -4.600 32.679 1.00 51.32 C +ATOM 7853 N VAL B 15 10.298 -3.822 28.691 1.00 50.53 N +ATOM 7854 CA VAL B 15 9.589 -3.200 27.580 1.00 48.69 C +ATOM 7855 C VAL B 15 10.520 -2.236 26.858 1.00 48.29 C +ATOM 7856 O VAL B 15 11.249 -1.457 27.486 1.00 50.58 O +ATOM 7857 CB VAL B 15 8.321 -2.494 28.091 1.00 40.41 C +ATOM 7858 CG1 VAL B 15 7.735 -1.587 27.023 1.00 43.01 C +ATOM 7859 CG2 VAL B 15 7.294 -3.523 28.539 1.00 43.77 C +ATOM 7860 N GLY B 16 10.494 -2.280 25.526 1.00 47.12 N +ATOM 7861 CA GLY B 16 11.401 -1.501 24.710 1.00 49.51 C +ATOM 7862 C GLY B 16 12.749 -2.140 24.457 1.00 48.51 C +ATOM 7863 O GLY B 16 13.571 -1.549 23.745 1.00 52.26 O +ATOM 7864 N ASP B 17 12.999 -3.324 25.009 1.00 46.68 N +ATOM 7865 CA ASP B 17 14.274 -4.013 24.883 1.00 48.06 C +ATOM 7866 C ASP B 17 14.239 -5.007 23.722 1.00 51.09 C +ATOM 7867 O ASP B 17 13.201 -5.255 23.107 1.00 52.73 O +ATOM 7868 CB ASP B 17 14.617 -4.726 26.188 1.00 51.99 C +ATOM 7869 CG ASP B 17 16.099 -4.747 26.466 1.00 52.61 C +ATOM 7870 OD1 ASP B 17 16.874 -4.312 25.588 1.00 48.02 O +ATOM 7871 OD2 ASP B 17 16.488 -5.204 27.561 1.00 55.07 O +ATOM 7872 N ARG B 18 15.401 -5.561 23.403 1.00 49.94 N +ATOM 7873 CA ARG B 18 15.496 -6.567 22.359 1.00 49.55 C +ATOM 7874 C ARG B 18 15.411 -7.975 22.949 1.00 51.15 C +ATOM 7875 O ARG B 18 15.762 -8.206 24.112 1.00 53.07 O +ATOM 7876 CB ARG B 18 16.787 -6.346 21.569 1.00 53.01 C +ATOM 7877 CG ARG B 18 17.656 -7.549 21.287 1.00 55.83 C +ATOM 7878 CD ARG B 18 18.788 -7.142 20.347 1.00 62.78 C +ATOM 7879 NE ARG B 18 19.500 -5.963 20.844 1.00 63.12 N +ATOM 7880 CZ ARG B 18 20.593 -6.023 21.599 1.00 60.19 C +ATOM 7881 NH1 ARG B 18 21.106 -7.208 21.900 1.00 65.65 N +ATOM 7882 NH2 ARG B 18 21.194 -4.914 22.021 1.00 60.80 N +ATOM 7883 N VAL B 19 14.955 -8.919 22.124 1.00 46.53 N +ATOM 7884 CA VAL B 19 14.873 -10.335 22.483 1.00 47.30 C +ATOM 7885 C VAL B 19 15.153 -11.155 21.234 1.00 47.66 C +ATOM 7886 O VAL B 19 14.677 -10.825 20.144 1.00 49.62 O +ATOM 7887 CB VAL B 19 13.483 -10.710 23.050 1.00 49.08 C +ATOM 7888 CG1 VAL B 19 13.348 -12.221 23.223 1.00 49.70 C +ATOM 7889 CG2 VAL B 19 13.233 -10.025 24.355 1.00 51.14 C +ATOM 7890 N SER B 20 15.928 -12.226 21.395 1.00 45.60 N +ATOM 7891 CA SER B 20 16.245 -13.128 20.291 1.00 48.35 C +ATOM 7892 C SER B 20 16.112 -14.557 20.798 1.00 50.41 C +ATOM 7893 O SER B 20 16.917 -15.008 21.619 1.00 51.43 O +ATOM 7894 CB SER B 20 17.647 -12.864 19.739 1.00 50.85 C +ATOM 7895 OG SER B 20 17.735 -11.566 19.174 1.00 46.32 O +ATOM 7896 N ILE B 21 15.098 -15.259 20.310 1.00 50.77 N +ATOM 7897 CA ILE B 21 14.870 -16.665 20.619 1.00 52.19 C +ATOM 7898 C ILE B 21 15.506 -17.501 19.522 1.00 51.64 C +ATOM 7899 O ILE B 21 15.385 -17.186 18.333 1.00 55.29 O +ATOM 7900 CB ILE B 21 13.363 -16.960 20.742 1.00 50.39 C +ATOM 7901 CG1 ILE B 21 12.705 -15.994 21.728 1.00 54.03 C +ATOM 7902 CG2 ILE B 21 13.129 -18.404 21.160 1.00 50.42 C +ATOM 7903 CD1 ILE B 21 11.195 -16.076 21.739 1.00 52.04 C +ATOM 7904 N THR B 22 16.190 -18.569 19.912 1.00 51.82 N +ATOM 7905 CA THR B 22 16.881 -19.425 18.963 1.00 53.47 C +ATOM 7906 C THR B 22 16.173 -20.765 18.830 1.00 57.20 C +ATOM 7907 O THR B 22 15.499 -21.231 19.753 1.00 60.82 O +ATOM 7908 CB THR B 22 18.334 -19.637 19.380 1.00 52.58 C +ATOM 7909 OG1 THR B 22 18.381 -20.433 20.571 1.00 58.52 O +ATOM 7910 CG2 THR B 22 18.972 -18.297 19.652 1.00 55.67 C +ATOM 7911 N CYS B 23 16.340 -21.379 17.662 1.00 58.13 N +ATOM 7912 CA CYS B 23 15.704 -22.651 17.353 1.00 59.14 C +ATOM 7913 C CYS B 23 16.615 -23.426 16.414 1.00 62.33 C +ATOM 7914 O CYS B 23 17.035 -22.904 15.375 1.00 65.99 O +ATOM 7915 CB CYS B 23 14.321 -22.429 16.732 1.00 58.46 C +ATOM 7916 SG CYS B 23 13.533 -23.869 15.986 1.00 64.51 S +ATOM 7917 N LYS B 24 16.931 -24.661 16.792 1.00 61.52 N +ATOM 7918 CA LYS B 24 17.865 -25.492 16.051 1.00 62.00 C +ATOM 7919 C LYS B 24 17.152 -26.729 15.527 1.00 64.51 C +ATOM 7920 O LYS B 24 16.353 -27.350 16.237 1.00 65.74 O +ATOM 7921 CB LYS B 24 19.057 -25.895 16.926 1.00 64.89 C +ATOM 7922 CG LYS B 24 20.257 -26.404 16.144 1.00 72.48 C +ATOM 7923 CD LYS B 24 21.419 -26.740 17.066 1.00 79.84 C +ATOM 7924 CE LYS B 24 22.639 -27.192 16.278 1.00 84.90 C +ATOM 7925 NZ LYS B 24 23.255 -26.070 15.515 1.00 76.75 N +ATOM 7926 N ALA B 25 17.442 -27.078 14.278 1.00 64.83 N +ATOM 7927 CA ALA B 25 16.857 -28.241 13.630 1.00 63.97 C +ATOM 7928 C ALA B 25 17.868 -29.378 13.598 1.00 65.69 C +ATOM 7929 O ALA B 25 19.070 -29.150 13.431 1.00 66.24 O +ATOM 7930 CB ALA B 25 16.402 -27.904 12.209 1.00 64.53 C +ATOM 7931 N SER B 26 17.372 -30.606 13.762 1.00 65.19 N +ATOM 7932 CA SER B 26 18.246 -31.772 13.741 1.00 67.48 C +ATOM 7933 C SER B 26 18.839 -32.029 12.362 1.00 72.73 C +ATOM 7934 O SER B 26 19.897 -32.659 12.264 1.00 75.04 O +ATOM 7935 CB SER B 26 17.483 -33.008 14.218 1.00 70.66 C +ATOM 7936 OG SER B 26 16.399 -33.304 13.354 1.00 77.24 O +ATOM 7937 N GLN B 27 18.186 -31.561 11.302 1.00 73.72 N +ATOM 7938 CA GLN B 27 18.662 -31.736 9.939 1.00 73.32 C +ATOM 7939 C GLN B 27 18.569 -30.410 9.197 1.00 70.98 C +ATOM 7940 O GLN B 27 17.979 -29.440 9.680 1.00 70.09 O +ATOM 7941 CB GLN B 27 17.857 -32.815 9.202 1.00 75.26 C +ATOM 7942 CG GLN B 27 18.038 -34.216 9.760 1.00 80.30 C +ATOM 7943 CD GLN B 27 16.973 -35.176 9.274 1.00 86.44 C +ATOM 7944 OE1 GLN B 27 16.669 -35.232 8.082 1.00 91.89 O +ATOM 7945 NE2 GLN B 27 16.396 -35.937 10.196 1.00 89.19 N +ATOM 7946 N ASP B 28 19.167 -30.375 8.009 1.00 73.56 N +ATOM 7947 CA ASP B 28 19.090 -29.186 7.173 1.00 72.95 C +ATOM 7948 C ASP B 28 17.661 -28.997 6.680 1.00 72.06 C +ATOM 7949 O ASP B 28 17.066 -29.910 6.098 1.00 73.56 O +ATOM 7950 CB ASP B 28 20.056 -29.304 5.993 1.00 70.75 C +ATOM 7951 CG ASP B 28 20.233 -27.994 5.238 1.00 74.14 C +ATOM 7952 OD1 ASP B 28 19.224 -27.331 4.919 1.00 76.70 O +ATOM 7953 OD2 ASP B 28 21.394 -27.625 4.962 1.00 80.57 O +ATOM 7954 N VAL B 29 17.110 -27.809 6.918 1.00 68.20 N +ATOM 7955 CA VAL B 29 15.756 -27.488 6.483 1.00 68.41 C +ATOM 7956 C VAL B 29 15.790 -26.212 5.655 1.00 67.18 C +ATOM 7957 O VAL B 29 14.782 -25.504 5.545 1.00 65.03 O +ATOM 7958 CB VAL B 29 14.798 -27.351 7.682 1.00 66.85 C +ATOM 7959 CG1 VAL B 29 14.670 -28.678 8.412 1.00 71.10 C +ATOM 7960 CG2 VAL B 29 15.287 -26.273 8.631 1.00 65.57 C +ATOM 7961 N SER B 36 16.951 -25.921 5.061 1.00 67.25 N +ATOM 7962 CA SER B 36 17.138 -24.736 4.229 1.00 66.32 C +ATOM 7963 C SER B 36 16.728 -23.477 4.981 1.00 63.13 C +ATOM 7964 O SER B 36 17.079 -23.301 6.152 1.00 60.32 O +ATOM 7965 CB SER B 36 16.345 -24.863 2.925 1.00 66.57 C +ATOM 7966 OG SER B 36 16.504 -23.711 2.115 1.00 67.66 O +ATOM 7967 N THR B 37 15.994 -22.591 4.310 1.00 62.57 N +ATOM 7968 CA THR B 37 15.468 -21.382 4.923 1.00 59.77 C +ATOM 7969 C THR B 37 13.973 -21.479 5.207 1.00 59.16 C +ATOM 7970 O THR B 37 13.316 -20.450 5.376 1.00 58.22 O +ATOM 7971 CB THR B 37 15.751 -20.169 4.036 1.00 56.80 C +ATOM 7972 OG1 THR B 37 15.156 -20.368 2.748 1.00 57.67 O +ATOM 7973 CG2 THR B 37 17.249 -19.966 3.873 1.00 60.11 C +ATOM 7974 N THR B 38 13.420 -22.691 5.260 1.00 58.59 N +ATOM 7975 CA THR B 38 11.976 -22.880 5.410 1.00 59.44 C +ATOM 7976 C THR B 38 11.653 -23.194 6.870 1.00 62.42 C +ATOM 7977 O THR B 38 11.448 -24.343 7.264 1.00 63.42 O +ATOM 7978 CB THR B 38 11.478 -23.975 4.471 1.00 61.53 C +ATOM 7979 OG1 THR B 38 12.225 -25.176 4.693 1.00 65.71 O +ATOM 7980 CG2 THR B 38 11.643 -23.544 3.024 1.00 63.07 C +ATOM 7981 N VAL B 39 11.604 -22.139 7.680 1.00 58.56 N +ATOM 7982 CA VAL B 39 11.202 -22.225 9.081 1.00 56.05 C +ATOM 7983 C VAL B 39 10.243 -21.080 9.373 1.00 55.65 C +ATOM 7984 O VAL B 39 10.497 -19.936 8.983 1.00 53.91 O +ATOM 7985 CB VAL B 39 12.412 -22.180 10.036 1.00 59.21 C +ATOM 7986 CG1 VAL B 39 11.953 -22.019 11.476 1.00 60.45 C +ATOM 7987 CG2 VAL B 39 13.227 -23.448 9.899 1.00 62.73 C +ATOM 7988 N ALA B 40 9.143 -21.388 10.053 1.00 53.81 N +ATOM 7989 CA ALA B 40 8.130 -20.413 10.416 1.00 52.65 C +ATOM 7990 C ALA B 40 8.121 -20.198 11.925 1.00 54.83 C +ATOM 7991 O ALA B 40 8.544 -21.056 12.703 1.00 56.43 O +ATOM 7992 CB ALA B 40 6.744 -20.861 9.942 1.00 55.16 C +ATOM 7993 N TRP B 41 7.628 -19.030 12.323 1.00 52.44 N +ATOM 7994 CA TRP B 41 7.524 -18.632 13.719 1.00 49.64 C +ATOM 7995 C TRP B 41 6.103 -18.175 14.007 1.00 50.87 C +ATOM 7996 O TRP B 41 5.581 -17.281 13.324 1.00 52.08 O +ATOM 7997 CB TRP B 41 8.520 -17.519 14.053 1.00 47.88 C +ATOM 7998 CG TRP B 41 9.939 -17.986 14.092 1.00 50.73 C +ATOM 7999 CD1 TRP B 41 10.817 -18.034 13.049 1.00 50.67 C +ATOM 8000 CD2 TRP B 41 10.649 -18.472 15.237 1.00 51.59 C +ATOM 8001 NE1 TRP B 41 12.030 -18.520 13.473 1.00 49.87 N +ATOM 8002 CE2 TRP B 41 11.953 -18.795 14.813 1.00 52.48 C +ATOM 8003 CE3 TRP B 41 10.309 -18.661 16.580 1.00 46.99 C +ATOM 8004 CZ2 TRP B 41 12.916 -19.298 15.684 1.00 55.42 C +ATOM 8005 CZ3 TRP B 41 11.265 -19.160 17.441 1.00 48.91 C +ATOM 8006 CH2 TRP B 41 12.553 -19.472 16.992 1.00 53.72 C +ATOM 8007 N TYR B 42 5.498 -18.790 15.024 1.00 51.76 N +ATOM 8008 CA TYR B 42 4.143 -18.515 15.476 1.00 54.29 C +ATOM 8009 C TYR B 42 4.164 -17.890 16.865 1.00 50.83 C +ATOM 8010 O TYR B 42 5.065 -18.151 17.669 1.00 52.30 O +ATOM 8011 CB TYR B 42 3.301 -19.795 15.530 1.00 53.60 C +ATOM 8012 CG TYR B 42 3.202 -20.556 14.230 1.00 57.22 C +ATOM 8013 CD1 TYR B 42 2.212 -20.261 13.304 1.00 55.87 C +ATOM 8014 CD2 TYR B 42 4.091 -21.581 13.937 1.00 59.54 C +ATOM 8015 CE1 TYR B 42 2.114 -20.962 12.117 1.00 57.24 C +ATOM 8016 CE2 TYR B 42 4.002 -22.286 12.753 1.00 58.86 C +ATOM 8017 CZ TYR B 42 3.012 -21.973 11.847 1.00 59.32 C +ATOM 8018 OH TYR B 42 2.920 -22.673 10.666 1.00 63.32 O +ATOM 8019 N GLN B 43 3.135 -17.093 17.148 1.00 47.11 N +ATOM 8020 CA GLN B 43 2.961 -16.409 18.425 1.00 49.82 C +ATOM 8021 C GLN B 43 1.620 -16.816 19.019 1.00 50.89 C +ATOM 8022 O GLN B 43 0.580 -16.650 18.372 1.00 52.92 O +ATOM 8023 CB GLN B 43 3.020 -14.892 18.239 1.00 47.19 C +ATOM 8024 CG GLN B 43 2.639 -14.087 19.468 1.00 48.27 C +ATOM 8025 CD GLN B 43 2.376 -12.627 19.148 1.00 51.87 C +ATOM 8026 OE1 GLN B 43 2.978 -11.731 19.741 1.00 53.95 O +ATOM 8027 NE2 GLN B 43 1.467 -12.381 18.212 1.00 50.72 N +ATOM 8028 N GLN B 44 1.637 -17.341 20.245 1.00 43.78 N +ATOM 8029 CA GLN B 44 0.412 -17.739 20.932 1.00 49.37 C +ATOM 8030 C GLN B 44 0.287 -16.933 22.218 1.00 47.60 C +ATOM 8031 O GLN B 44 0.994 -17.198 23.195 1.00 43.02 O +ATOM 8032 CB GLN B 44 0.400 -19.239 21.223 1.00 51.24 C +ATOM 8033 CG GLN B 44 -0.877 -19.709 21.901 1.00 50.93 C +ATOM 8034 CD GLN B 44 -0.924 -21.209 22.094 1.00 53.68 C +ATOM 8035 OE1 GLN B 44 -1.978 -21.830 21.959 1.00 56.53 O +ATOM 8036 NE2 GLN B 44 0.222 -21.802 22.410 1.00 54.94 N +ATOM 8037 N LYS B 45 -0.636 -15.977 22.225 1.00 49.24 N +ATOM 8038 CA LYS B 45 -0.896 -15.153 23.391 1.00 48.22 C +ATOM 8039 C LYS B 45 -1.755 -15.924 24.390 1.00 50.07 C +ATOM 8040 O LYS B 45 -2.363 -16.939 24.041 1.00 50.54 O +ATOM 8041 CB LYS B 45 -1.601 -13.866 22.967 1.00 47.97 C +ATOM 8042 CG LYS B 45 -0.796 -12.983 22.024 1.00 46.49 C +ATOM 8043 CD LYS B 45 -1.505 -11.658 21.782 1.00 48.89 C +ATOM 8044 CE LYS B 45 -0.719 -10.761 20.839 1.00 50.12 C +ATOM 8045 NZ LYS B 45 0.615 -10.399 21.385 1.00 56.16 N +ATOM 8046 N PRO B 46 -1.800 -15.483 25.649 1.00 47.82 N +ATOM 8047 CA PRO B 46 -2.603 -16.203 26.647 1.00 48.37 C +ATOM 8048 C PRO B 46 -4.066 -16.285 26.234 1.00 53.22 C +ATOM 8049 O PRO B 46 -4.702 -15.275 25.925 1.00 52.10 O +ATOM 8050 CB PRO B 46 -2.420 -15.368 27.919 1.00 49.03 C +ATOM 8051 CG PRO B 46 -1.118 -14.683 27.732 1.00 53.67 C +ATOM 8052 CD PRO B 46 -1.006 -14.402 26.263 1.00 47.08 C +ATOM 8053 N GLY B 47 -4.596 -17.507 26.227 1.00 54.05 N +ATOM 8054 CA GLY B 47 -5.989 -17.726 25.897 1.00 54.02 C +ATOM 8055 C GLY B 47 -6.341 -17.596 24.434 1.00 53.41 C +ATOM 8056 O GLY B 47 -7.530 -17.544 24.104 1.00 57.79 O +ATOM 8057 N GLN B 48 -5.355 -17.544 23.545 1.00 52.35 N +ATOM 8058 CA GLN B 48 -5.590 -17.391 22.117 1.00 52.66 C +ATOM 8059 C GLN B 48 -4.961 -18.549 21.352 1.00 55.19 C +ATOM 8060 O GLN B 48 -4.224 -19.370 21.904 1.00 58.36 O +ATOM 8061 CB GLN B 48 -5.031 -16.059 21.602 1.00 51.07 C +ATOM 8062 CG GLN B 48 -5.708 -14.826 22.175 1.00 52.36 C +ATOM 8063 CD GLN B 48 -5.164 -13.540 21.583 1.00 57.82 C +ATOM 8064 OE1 GLN B 48 -4.379 -13.564 20.635 1.00 62.00 O +ATOM 8065 NE2 GLN B 48 -5.580 -12.409 22.141 1.00 55.42 N +ATOM 8066 N SER B 49 -5.268 -18.602 20.062 1.00 56.78 N +ATOM 8067 CA SER B 49 -4.691 -19.569 19.145 1.00 56.32 C +ATOM 8068 C SER B 49 -3.371 -19.047 18.596 1.00 55.29 C +ATOM 8069 O SER B 49 -3.108 -17.840 18.630 1.00 57.24 O +ATOM 8070 CB SER B 49 -5.663 -19.847 18.000 1.00 58.79 C +ATOM 8071 OG SER B 49 -6.929 -20.246 18.494 1.00 67.25 O +ATOM 8072 N PRO B 50 -2.505 -19.931 18.100 1.00 51.75 N +ATOM 8073 CA PRO B 50 -1.250 -19.462 17.502 1.00 52.62 C +ATOM 8074 C PRO B 50 -1.512 -18.543 16.318 1.00 53.66 C +ATOM 8075 O PRO B 50 -2.399 -18.788 15.498 1.00 56.26 O +ATOM 8076 CB PRO B 50 -0.559 -20.759 17.067 1.00 53.19 C +ATOM 8077 CG PRO B 50 -1.132 -21.807 17.953 1.00 51.35 C +ATOM 8078 CD PRO B 50 -2.555 -21.400 18.198 1.00 51.84 C +ATOM 8079 N LYS B 51 -0.727 -17.473 16.238 1.00 51.81 N +ATOM 8080 CA LYS B 51 -0.802 -16.509 15.148 1.00 52.77 C +ATOM 8081 C LYS B 51 0.490 -16.587 14.349 1.00 53.74 C +ATOM 8082 O LYS B 51 1.579 -16.416 14.908 1.00 56.21 O +ATOM 8083 CB LYS B 51 -1.023 -15.091 15.676 1.00 56.29 C +ATOM 8084 CG LYS B 51 -2.412 -14.835 16.241 1.00 63.59 C +ATOM 8085 CD LYS B 51 -2.506 -13.436 16.832 1.00 82.51 C +ATOM 8086 CE LYS B 51 -3.887 -13.159 17.403 1.00 82.59 C +ATOM 8087 NZ LYS B 51 -3.966 -11.802 18.015 1.00 74.72 N +ATOM 8088 N LEU B 52 0.369 -16.845 13.050 1.00 55.63 N +ATOM 8089 CA LEU B 52 1.540 -16.896 12.185 1.00 53.89 C +ATOM 8090 C LEU B 52 2.173 -15.515 12.087 1.00 54.30 C +ATOM 8091 O LEU B 52 1.537 -14.564 11.622 1.00 56.45 O +ATOM 8092 CB LEU B 52 1.155 -17.406 10.799 1.00 53.63 C +ATOM 8093 CG LEU B 52 2.267 -17.338 9.749 1.00 53.85 C +ATOM 8094 CD1 LEU B 52 3.382 -18.324 10.067 1.00 54.46 C +ATOM 8095 CD2 LEU B 52 1.712 -17.580 8.356 1.00 56.73 C +ATOM 8096 N LEU B 53 3.425 -15.406 12.525 1.00 51.95 N +ATOM 8097 CA LEU B 53 4.169 -14.158 12.417 1.00 52.64 C +ATOM 8098 C LEU B 53 5.194 -14.172 11.295 1.00 49.73 C +ATOM 8099 O LEU B 53 5.292 -13.196 10.545 1.00 48.63 O +ATOM 8100 CB LEU B 53 4.882 -13.832 13.733 1.00 51.05 C +ATOM 8101 CG LEU B 53 4.028 -13.397 14.921 1.00 52.09 C +ATOM 8102 CD1 LEU B 53 4.928 -12.885 16.036 1.00 52.19 C +ATOM 8103 CD2 LEU B 53 3.021 -12.338 14.501 1.00 52.17 C +ATOM 8104 N ILE B 54 5.961 -15.249 11.151 1.00 47.48 N +ATOM 8105 CA ILE B 54 7.052 -15.278 10.182 1.00 51.14 C +ATOM 8106 C ILE B 54 7.036 -16.610 9.448 1.00 52.89 C +ATOM 8107 O ILE B 54 6.715 -17.646 10.032 1.00 52.51 O +ATOM 8108 CB ILE B 54 8.411 -15.023 10.874 1.00 45.79 C +ATOM 8109 CG1 ILE B 54 8.565 -13.534 11.191 1.00 46.70 C +ATOM 8110 CG2 ILE B 54 9.580 -15.514 10.031 1.00 47.75 C +ATOM 8111 CD1 ILE B 54 9.724 -13.221 12.091 1.00 51.05 C +ATOM 8112 N TYR B 55 7.368 -16.576 8.159 1.00 52.03 N +ATOM 8113 CA TYR B 55 7.555 -17.779 7.365 1.00 53.47 C +ATOM 8114 C TYR B 55 8.852 -17.656 6.579 1.00 55.01 C +ATOM 8115 O TYR B 55 9.376 -16.557 6.378 1.00 54.20 O +ATOM 8116 CB TYR B 55 6.374 -18.020 6.413 1.00 56.60 C +ATOM 8117 CG TYR B 55 6.229 -16.967 5.337 1.00 57.34 C +ATOM 8118 CD1 TYR B 55 5.532 -15.792 5.582 1.00 59.82 C +ATOM 8119 CD2 TYR B 55 6.782 -17.151 4.076 1.00 56.10 C +ATOM 8120 CE1 TYR B 55 5.394 -14.826 4.605 1.00 59.05 C +ATOM 8121 CE2 TYR B 55 6.649 -16.190 3.092 1.00 59.83 C +ATOM 8122 CZ TYR B 55 5.954 -15.031 3.362 1.00 62.31 C +ATOM 8123 OH TYR B 55 5.819 -14.071 2.386 1.00 71.71 O +ATOM 8124 N SER B 56 9.365 -18.805 6.137 1.00 56.05 N +ATOM 8125 CA SER B 56 10.606 -18.867 5.363 1.00 54.58 C +ATOM 8126 C SER B 56 11.744 -18.140 6.077 1.00 55.62 C +ATOM 8127 O SER B 56 12.494 -17.370 5.472 1.00 55.48 O +ATOM 8128 CB SER B 56 10.404 -18.314 3.951 1.00 55.96 C +ATOM 8129 OG SER B 56 9.690 -19.232 3.141 1.00 56.33 O +ATOM 8130 N ALA B 57 11.843 -18.367 7.389 1.00 54.47 N +ATOM 8131 CA ALA B 57 12.957 -17.921 8.222 1.00 48.98 C +ATOM 8132 C ALA B 57 12.970 -16.411 8.432 1.00 48.12 C +ATOM 8133 O ALA B 57 13.122 -15.948 9.565 1.00 51.10 O +ATOM 8134 CB ALA B 57 14.297 -18.381 7.638 1.00 50.15 C +ATOM 8135 N SER B 65 12.809 -15.629 7.361 1.00 50.28 N +ATOM 8136 CA SER B 65 12.954 -14.183 7.453 1.00 51.21 C +ATOM 8137 C SER B 65 11.795 -13.391 6.863 1.00 52.35 C +ATOM 8138 O SER B 65 11.794 -12.161 6.978 1.00 50.41 O +ATOM 8139 CB SER B 65 14.255 -13.736 6.768 1.00 53.04 C +ATOM 8140 OG SER B 65 14.184 -13.923 5.364 1.00 58.71 O +ATOM 8141 N TYR B 66 10.815 -14.044 6.246 1.00 55.31 N +ATOM 8142 CA TYR B 66 9.705 -13.344 5.612 1.00 58.85 C +ATOM 8143 C TYR B 66 8.563 -13.132 6.598 1.00 54.71 C +ATOM 8144 O TYR B 66 8.111 -14.076 7.255 1.00 50.59 O +ATOM 8145 CB TYR B 66 9.218 -14.105 4.380 1.00 58.95 C +ATOM 8146 CG TYR B 66 10.198 -14.046 3.234 1.00 62.89 C +ATOM 8147 CD1 TYR B 66 11.212 -14.987 3.110 1.00 62.16 C +ATOM 8148 CD2 TYR B 66 10.121 -13.035 2.287 1.00 65.59 C +ATOM 8149 CE1 TYR B 66 12.114 -14.927 2.067 1.00 66.73 C +ATOM 8150 CE2 TYR B 66 11.016 -12.967 1.243 1.00 70.78 C +ATOM 8151 CZ TYR B 66 12.010 -13.914 1.137 1.00 73.64 C +ATOM 8152 OH TYR B 66 12.903 -13.842 0.094 1.00 78.51 O +ATOM 8153 N ARG B 67 8.105 -11.887 6.694 1.00 53.51 N +ATOM 8154 CA ARG B 67 7.025 -11.511 7.594 1.00 56.65 C +ATOM 8155 C ARG B 67 5.678 -11.720 6.915 1.00 56.26 C +ATOM 8156 O ARG B 67 5.486 -11.312 5.766 1.00 56.27 O +ATOM 8157 CB ARG B 67 7.164 -10.048 8.013 1.00 57.62 C +ATOM 8158 CG ARG B 67 8.012 -9.811 9.242 1.00 56.41 C +ATOM 8159 CD ARG B 67 7.735 -8.430 9.806 1.00 57.86 C +ATOM 8160 NE ARG B 67 8.050 -7.381 8.841 1.00 60.40 N +ATOM 8161 CZ ARG B 67 9.250 -6.824 8.708 1.00 65.26 C +ATOM 8162 NH1 ARG B 67 10.255 -7.217 9.479 1.00 61.55 N +ATOM 8163 NH2 ARG B 67 9.445 -5.876 7.802 1.00 76.26 N +ATOM 8164 N TYR B 68 4.753 -12.358 7.625 1.00 57.44 N +ATOM 8165 CA TYR B 68 3.403 -12.506 7.110 1.00 57.10 C +ATOM 8166 C TYR B 68 2.725 -11.140 7.031 1.00 57.45 C +ATOM 8167 O TYR B 68 3.122 -10.180 7.698 1.00 60.02 O +ATOM 8168 CB TYR B 68 2.593 -13.457 7.994 1.00 58.56 C +ATOM 8169 CG TYR B 68 1.218 -13.782 7.455 1.00 63.71 C +ATOM 8170 CD1 TYR B 68 1.058 -14.624 6.362 1.00 65.36 C +ATOM 8171 CD2 TYR B 68 0.078 -13.250 8.044 1.00 65.83 C +ATOM 8172 CE1 TYR B 68 -0.198 -14.923 5.868 1.00 65.66 C +ATOM 8173 CE2 TYR B 68 -1.181 -13.543 7.558 1.00 67.01 C +ATOM 8174 CZ TYR B 68 -1.314 -14.380 6.470 1.00 72.44 C +ATOM 8175 OH TYR B 68 -2.567 -14.675 5.983 1.00 75.88 O +ATOM 8176 N THR B 69 1.701 -11.054 6.184 1.00 57.21 N +ATOM 8177 CA THR B 69 1.001 -9.793 5.988 1.00 57.35 C +ATOM 8178 C THR B 69 0.374 -9.326 7.297 1.00 59.23 C +ATOM 8179 O THR B 69 -0.181 -10.121 8.059 1.00 63.03 O +ATOM 8180 CB THR B 69 -0.074 -9.948 4.910 1.00 62.38 C +ATOM 8181 OG1 THR B 69 0.528 -10.434 3.703 1.00 63.62 O +ATOM 8182 CG2 THR B 69 -0.747 -8.614 4.625 1.00 60.62 C +ATOM 8183 N GLY B 70 0.462 -8.023 7.555 1.00 58.32 N +ATOM 8184 CA GLY B 70 -0.105 -7.439 8.750 1.00 60.10 C +ATOM 8185 C GLY B 70 0.716 -7.618 10.007 1.00 56.30 C +ATOM 8186 O GLY B 70 0.322 -7.102 11.062 1.00 56.29 O +ATOM 8187 N VAL B 71 1.836 -8.323 9.937 1.00 54.20 N +ATOM 8188 CA VAL B 71 2.686 -8.518 11.112 1.00 55.16 C +ATOM 8189 C VAL B 71 3.540 -7.266 11.308 1.00 57.02 C +ATOM 8190 O VAL B 71 4.088 -6.745 10.324 1.00 58.86 O +ATOM 8191 CB VAL B 71 3.558 -9.760 10.942 1.00 54.15 C +ATOM 8192 CG1 VAL B 71 4.527 -9.903 12.103 1.00 54.99 C +ATOM 8193 CG2 VAL B 71 2.686 -11.000 10.824 1.00 54.22 C +ATOM 8194 N PRO B 72 3.664 -6.752 12.533 1.00 55.63 N +ATOM 8195 CA PRO B 72 4.488 -5.556 12.744 1.00 54.98 C +ATOM 8196 C PRO B 72 5.933 -5.782 12.326 1.00 55.81 C +ATOM 8197 O PRO B 72 6.434 -6.907 12.317 1.00 55.81 O +ATOM 8198 CB PRO B 72 4.376 -5.307 14.253 1.00 55.87 C +ATOM 8199 CG PRO B 72 3.099 -5.962 14.647 1.00 54.52 C +ATOM 8200 CD PRO B 72 2.964 -7.165 13.760 1.00 53.55 C +ATOM 8201 N ASP B 74 6.604 -4.680 11.980 1.00 56.80 N +ATOM 8202 CA ASP B 74 7.976 -4.756 11.492 1.00 59.36 C +ATOM 8203 C ASP B 74 8.978 -5.120 12.580 1.00 58.82 C +ATOM 8204 O ASP B 74 10.081 -5.571 12.254 1.00 60.55 O +ATOM 8205 CB ASP B 74 8.380 -3.434 10.832 1.00 59.14 C +ATOM 8206 CG ASP B 74 8.194 -2.237 11.746 1.00 67.61 C +ATOM 8207 OD1 ASP B 74 7.787 -2.423 12.913 1.00 70.80 O +ATOM 8208 OD2 ASP B 74 8.459 -1.104 11.294 1.00 81.40 O +ATOM 8209 N ARG B 75 8.635 -4.933 13.859 1.00 58.74 N +ATOM 8210 CA ARG B 75 9.601 -5.222 14.915 1.00 56.14 C +ATOM 8211 C ARG B 75 9.901 -6.707 15.040 1.00 53.14 C +ATOM 8212 O ARG B 75 10.879 -7.071 15.702 1.00 51.16 O +ATOM 8213 CB ARG B 75 9.108 -4.719 16.273 1.00 56.70 C +ATOM 8214 CG ARG B 75 7.799 -5.336 16.736 1.00 55.98 C +ATOM 8215 CD ARG B 75 7.366 -4.758 18.074 1.00 59.01 C +ATOM 8216 NE ARG B 75 6.103 -5.324 18.537 1.00 57.67 N +ATOM 8217 CZ ARG B 75 4.908 -4.798 18.294 1.00 59.07 C +ATOM 8218 NH1 ARG B 75 4.804 -3.682 17.587 1.00 63.41 N +ATOM 8219 NH2 ARG B 75 3.818 -5.390 18.760 1.00 61.95 N +ATOM 8220 N PHE B 76 9.094 -7.566 14.424 1.00 53.57 N +ATOM 8221 CA PHE B 76 9.352 -8.996 14.410 1.00 51.81 C +ATOM 8222 C PHE B 76 10.191 -9.332 13.186 1.00 52.00 C +ATOM 8223 O PHE B 76 9.809 -9.009 12.058 1.00 54.84 O +ATOM 8224 CB PHE B 76 8.039 -9.780 14.388 1.00 53.26 C +ATOM 8225 CG PHE B 76 7.134 -9.486 15.552 1.00 52.87 C +ATOM 8226 CD1 PHE B 76 7.347 -10.081 16.783 1.00 49.97 C +ATOM 8227 CD2 PHE B 76 6.067 -8.614 15.412 1.00 52.73 C +ATOM 8228 CE1 PHE B 76 6.515 -9.812 17.854 1.00 49.85 C +ATOM 8229 CE2 PHE B 76 5.231 -8.341 16.480 1.00 55.43 C +ATOM 8230 CZ PHE B 76 5.456 -8.941 17.702 1.00 51.34 C +ATOM 8231 N THR B 77 11.330 -9.980 13.410 1.00 51.42 N +ATOM 8232 CA THR B 77 12.229 -10.347 12.328 1.00 49.78 C +ATOM 8233 C THR B 77 12.721 -11.766 12.556 1.00 49.44 C +ATOM 8234 O THR B 77 12.593 -12.324 13.647 1.00 45.71 O +ATOM 8235 CB THR B 77 13.432 -9.396 12.225 1.00 47.78 C +ATOM 8236 OG1 THR B 77 14.120 -9.359 13.481 1.00 52.02 O +ATOM 8237 CG2 THR B 77 12.987 -7.991 11.846 1.00 49.29 C +ATOM 8238 N GLY B 78 13.282 -12.346 11.509 1.00 51.71 N +ATOM 8239 CA GLY B 78 13.808 -13.695 11.592 1.00 50.67 C +ATOM 8240 C GLY B 78 15.038 -13.838 10.731 1.00 49.66 C +ATOM 8241 O GLY B 78 15.210 -13.126 9.736 1.00 51.58 O +ATOM 8242 N SER B 79 15.910 -14.758 11.127 1.00 49.06 N +ATOM 8243 CA SER B 79 17.111 -15.044 10.360 1.00 49.40 C +ATOM 8244 C SER B 79 17.484 -16.501 10.577 1.00 50.86 C +ATOM 8245 O SER B 79 16.934 -17.182 11.444 1.00 56.08 O +ATOM 8246 CB SER B 79 18.266 -14.118 10.754 1.00 49.52 C +ATOM 8247 OG SER B 79 18.759 -14.439 12.043 1.00 52.74 O +ATOM 8248 N GLY B 80 18.428 -16.974 9.779 1.00 51.51 N +ATOM 8249 CA GLY B 80 18.958 -18.314 9.915 1.00 57.39 C +ATOM 8250 C GLY B 80 18.763 -19.136 8.654 1.00 61.89 C +ATOM 8251 O GLY B 80 18.076 -18.743 7.712 1.00 59.95 O +ATOM 8252 N SER B 83 19.380 -20.313 8.677 1.00 63.35 N +ATOM 8253 CA SER B 83 19.353 -21.218 7.535 1.00 61.25 C +ATOM 8254 C SER B 83 20.009 -22.528 7.939 1.00 62.82 C +ATOM 8255 O SER B 83 20.825 -22.575 8.864 1.00 64.41 O +ATOM 8256 CB SER B 83 20.062 -20.621 6.312 1.00 62.91 C +ATOM 8257 OG SER B 83 21.441 -20.421 6.566 1.00 68.17 O +ATOM 8258 N GLY B 84 19.645 -23.590 7.227 1.00 62.66 N +ATOM 8259 CA GLY B 84 20.182 -24.904 7.511 1.00 67.10 C +ATOM 8260 C GLY B 84 19.644 -25.480 8.803 1.00 67.06 C +ATOM 8261 O GLY B 84 18.587 -26.118 8.815 1.00 68.74 O +ATOM 8262 N THR B 85 20.364 -25.262 9.899 1.00 67.38 N +ATOM 8263 CA THR B 85 19.990 -25.807 11.196 1.00 67.32 C +ATOM 8264 C THR B 85 19.702 -24.753 12.253 1.00 66.61 C +ATOM 8265 O THR B 85 18.917 -25.022 13.162 1.00 67.74 O +ATOM 8266 CB THR B 85 21.088 -26.743 11.725 1.00 67.04 C +ATOM 8267 OG1 THR B 85 22.326 -26.027 11.822 1.00 72.82 O +ATOM 8268 CG2 THR B 85 21.264 -27.936 10.798 1.00 64.97 C +ATOM 8269 N ASP B 86 20.293 -23.565 12.157 1.00 66.33 N +ATOM 8270 CA ASP B 86 20.165 -22.538 13.182 1.00 65.85 C +ATOM 8271 C ASP B 86 19.256 -21.423 12.686 1.00 65.14 C +ATOM 8272 O ASP B 86 19.408 -20.949 11.552 1.00 65.50 O +ATOM 8273 CB ASP B 86 21.536 -21.969 13.557 1.00 67.94 C +ATOM 8274 CG ASP B 86 22.521 -23.045 13.970 1.00 75.10 C +ATOM 8275 OD1 ASP B 86 22.083 -24.069 14.536 1.00 73.64 O +ATOM 8276 OD2 ASP B 86 23.733 -22.869 13.724 1.00 79.59 O +ATOM 8277 N PHE B 87 18.319 -21.001 13.540 1.00 62.97 N +ATOM 8278 CA PHE B 87 17.389 -19.932 13.213 1.00 58.83 C +ATOM 8279 C PHE B 87 17.143 -19.090 14.457 1.00 55.26 C +ATOM 8280 O PHE B 87 17.238 -19.581 15.584 1.00 56.06 O +ATOM 8281 CB PHE B 87 16.066 -20.496 12.673 1.00 58.40 C +ATOM 8282 CG PHE B 87 16.241 -21.416 11.499 1.00 63.26 C +ATOM 8283 CD1 PHE B 87 16.492 -22.766 11.690 1.00 66.19 C +ATOM 8284 CD2 PHE B 87 16.171 -20.929 10.205 1.00 62.58 C +ATOM 8285 CE1 PHE B 87 16.667 -23.611 10.613 1.00 65.60 C +ATOM 8286 CE2 PHE B 87 16.338 -21.772 9.125 1.00 62.63 C +ATOM 8287 CZ PHE B 87 16.591 -23.113 9.329 1.00 63.08 C +ATOM 8288 N THR B 88 16.819 -17.816 14.244 1.00 51.25 N +ATOM 8289 CA THR B 88 16.661 -16.868 15.341 1.00 51.02 C +ATOM 8290 C THR B 88 15.529 -15.905 15.022 1.00 50.88 C +ATOM 8291 O THR B 88 15.554 -15.230 13.987 1.00 52.82 O +ATOM 8292 CB THR B 88 17.959 -16.097 15.601 1.00 53.43 C +ATOM 8293 OG1 THR B 88 19.012 -17.019 15.910 1.00 53.79 O +ATOM 8294 CG2 THR B 88 17.779 -15.140 16.769 1.00 53.05 C +ATOM 8295 N PHE B 89 14.545 -15.852 15.916 1.00 46.99 N +ATOM 8296 CA PHE B 89 13.431 -14.915 15.852 1.00 49.97 C +ATOM 8297 C PHE B 89 13.699 -13.771 16.819 1.00 46.19 C +ATOM 8298 O PHE B 89 14.068 -14.005 17.971 1.00 48.77 O +ATOM 8299 CB PHE B 89 12.125 -15.632 16.201 1.00 49.61 C +ATOM 8300 CG PHE B 89 10.979 -14.715 16.516 1.00 48.92 C +ATOM 8301 CD1 PHE B 89 10.158 -14.239 15.508 1.00 50.69 C +ATOM 8302 CD2 PHE B 89 10.694 -14.365 17.828 1.00 49.89 C +ATOM 8303 CE1 PHE B 89 9.094 -13.406 15.799 1.00 51.37 C +ATOM 8304 CE2 PHE B 89 9.633 -13.534 18.124 1.00 48.35 C +ATOM 8305 CZ PHE B 89 8.831 -13.055 17.109 1.00 50.03 C +ATOM 8306 N THR B 90 13.498 -12.538 16.365 1.00 45.15 N +ATOM 8307 CA THR B 90 13.926 -11.377 17.130 1.00 46.43 C +ATOM 8308 C THR B 90 12.818 -10.338 17.199 1.00 50.89 C +ATOM 8309 O THR B 90 12.202 -10.005 16.181 1.00 54.15 O +ATOM 8310 CB THR B 90 15.188 -10.754 16.520 1.00 43.72 C +ATOM 8311 OG1 THR B 90 16.272 -11.685 16.613 1.00 49.63 O +ATOM 8312 CG2 THR B 90 15.565 -9.474 17.251 1.00 43.17 C +ATOM 8313 N ILE B 91 12.569 -9.837 18.405 1.00 44.65 N +ATOM 8314 CA ILE B 91 11.744 -8.656 18.622 1.00 44.15 C +ATOM 8315 C ILE B 91 12.688 -7.523 19.000 1.00 46.25 C +ATOM 8316 O ILE B 91 13.419 -7.620 19.995 1.00 50.98 O +ATOM 8317 CB ILE B 91 10.680 -8.887 19.705 1.00 47.94 C +ATOM 8318 CG1 ILE B 91 9.867 -10.146 19.395 1.00 45.21 C +ATOM 8319 CG2 ILE B 91 9.758 -7.681 19.807 1.00 48.70 C +ATOM 8320 CD1 ILE B 91 8.869 -10.508 20.474 1.00 44.09 C +ATOM 8321 N SER B 92 12.676 -6.454 18.200 1.00 47.23 N +ATOM 8322 CA SER B 92 13.627 -5.363 18.384 1.00 50.69 C +ATOM 8323 C SER B 92 13.243 -4.452 19.540 1.00 52.19 C +ATOM 8324 O SER B 92 14.127 -3.905 20.211 1.00 49.73 O +ATOM 8325 CB SER B 92 13.746 -4.549 17.094 1.00 51.39 C +ATOM 8326 OG SER B 92 12.545 -3.849 16.818 1.00 64.74 O +ATOM 8327 N SER B 93 11.946 -4.273 19.786 1.00 53.54 N +ATOM 8328 CA SER B 93 11.458 -3.421 20.874 1.00 53.13 C +ATOM 8329 C SER B 93 10.206 -4.095 21.431 1.00 53.00 C +ATOM 8330 O SER B 93 9.094 -3.851 20.955 1.00 60.52 O +ATOM 8331 CB SER B 93 11.176 -2.005 20.390 1.00 54.69 C +ATOM 8332 OG SER B 93 10.776 -1.168 21.461 1.00 62.22 O +ATOM 8333 N VAL B 94 10.401 -4.951 22.437 1.00 49.51 N +ATOM 8334 CA VAL B 94 9.286 -5.695 23.007 1.00 50.06 C +ATOM 8335 C VAL B 94 8.279 -4.736 23.624 1.00 52.80 C +ATOM 8336 O VAL B 94 8.644 -3.742 24.266 1.00 52.30 O +ATOM 8337 CB VAL B 94 9.802 -6.715 24.036 1.00 49.51 C +ATOM 8338 CG1 VAL B 94 8.647 -7.426 24.722 1.00 50.15 C +ATOM 8339 CG2 VAL B 94 10.708 -7.723 23.358 1.00 51.63 C +ATOM 8340 N GLN B 95 6.999 -5.038 23.432 1.00 55.70 N +ATOM 8341 CA GLN B 95 5.897 -4.269 23.986 1.00 56.33 C +ATOM 8342 C GLN B 95 5.030 -5.157 24.869 1.00 56.81 C +ATOM 8343 O GLN B 95 5.147 -6.386 24.857 1.00 56.32 O +ATOM 8344 CB GLN B 95 5.071 -3.615 22.872 1.00 60.77 C +ATOM 8345 CG GLN B 95 5.847 -2.530 22.137 1.00 64.23 C +ATOM 8346 CD GLN B 95 5.113 -1.980 20.936 1.00 78.06 C +ATOM 8347 OE1 GLN B 95 3.947 -2.301 20.703 1.00 96.11 O +ATOM 8348 NE2 GLN B 95 5.791 -1.127 20.170 1.00 92.29 N +ATOM 8349 N ALA B 96 4.171 -4.504 25.657 1.00 60.70 N +ATOM 8350 CA ALA B 96 3.381 -5.205 26.665 1.00 63.22 C +ATOM 8351 C ALA B 96 2.559 -6.341 26.067 1.00 61.80 C +ATOM 8352 O ALA B 96 2.500 -7.437 26.639 1.00 59.92 O +ATOM 8353 CB ALA B 96 2.474 -4.216 27.395 1.00 70.67 C +ATOM 8354 N GLU B 97 1.920 -6.108 24.919 1.00 61.10 N +ATOM 8355 CA GLU B 97 1.064 -7.135 24.337 1.00 62.57 C +ATOM 8356 C GLU B 97 1.849 -8.292 23.736 1.00 58.90 C +ATOM 8357 O GLU B 97 1.238 -9.289 23.336 1.00 58.80 O +ATOM 8358 CB GLU B 97 0.134 -6.531 23.280 1.00 64.40 C +ATOM 8359 CG GLU B 97 0.836 -5.826 22.136 1.00 67.09 C +ATOM 8360 CD GLU B 97 1.037 -4.347 22.404 1.00 83.74 C +ATOM 8361 OE1 GLU B 97 1.027 -3.946 23.587 1.00 85.84 O +ATOM 8362 OE2 GLU B 97 1.199 -3.584 21.428 1.00 78.91 O +ATOM 8363 N ASP B 98 3.177 -8.196 23.676 1.00 56.35 N +ATOM 8364 CA ASP B 98 3.989 -9.254 23.088 1.00 53.12 C +ATOM 8365 C ASP B 98 4.093 -10.478 23.984 1.00 52.10 C +ATOM 8366 O ASP B 98 4.770 -11.440 23.602 1.00 50.61 O +ATOM 8367 CB ASP B 98 5.387 -8.734 22.745 1.00 51.23 C +ATOM 8368 CG ASP B 98 5.375 -7.760 21.583 1.00 55.22 C +ATOM 8369 OD1 ASP B 98 4.450 -7.844 20.747 1.00 55.36 O +ATOM 8370 OD2 ASP B 98 6.290 -6.914 21.501 1.00 56.42 O +ATOM 8371 N LEU B 99 3.465 -10.459 25.161 1.00 53.38 N +ATOM 8372 CA LEU B 99 3.461 -11.625 26.034 1.00 48.76 C +ATOM 8373 C LEU B 99 2.830 -12.800 25.308 1.00 44.72 C +ATOM 8374 O LEU B 99 1.673 -12.723 24.881 1.00 48.56 O +ATOM 8375 CB LEU B 99 2.661 -11.332 27.303 1.00 51.32 C +ATOM 8376 CG LEU B 99 3.080 -10.266 28.303 1.00 55.66 C +ATOM 8377 CD1 LEU B 99 1.862 -9.844 29.099 1.00 58.03 C +ATOM 8378 CD2 LEU B 99 4.132 -10.840 29.218 1.00 57.86 C +ATOM 8379 N ALA B 100 3.581 -13.896 25.198 1.00 37.00 N +ATOM 8380 CA ALA B 100 3.128 -15.061 24.451 1.00 45.57 C +ATOM 8381 C ALA B 100 4.146 -16.189 24.499 1.00 48.18 C +ATOM 8382 O ALA B 100 5.245 -16.026 25.040 1.00 50.00 O +ATOM 8383 CB ALA B 100 2.868 -14.692 22.988 1.00 48.00 C +ATOM 8384 N VAL B 101 3.785 -17.339 23.936 1.00 46.26 N +ATOM 8385 CA VAL B 101 4.720 -18.427 23.691 1.00 47.10 C +ATOM 8386 C VAL B 101 5.035 -18.408 22.203 1.00 52.57 C +ATOM 8387 O VAL B 101 4.122 -18.392 21.366 1.00 56.11 O +ATOM 8388 CB VAL B 101 4.143 -19.782 24.130 1.00 52.45 C +ATOM 8389 CG1 VAL B 101 5.198 -20.872 24.008 1.00 55.05 C +ATOM 8390 CG2 VAL B 101 3.624 -19.699 25.559 1.00 55.55 C +ATOM 8391 N TYR B 102 6.318 -18.375 21.869 1.00 51.97 N +ATOM 8392 CA TYR B 102 6.753 -18.294 20.485 1.00 49.12 C +ATOM 8393 C TYR B 102 7.286 -19.651 20.055 1.00 50.70 C +ATOM 8394 O TYR B 102 8.168 -20.216 20.711 1.00 52.92 O +ATOM 8395 CB TYR B 102 7.809 -17.201 20.310 1.00 47.83 C +ATOM 8396 CG TYR B 102 7.257 -15.812 20.548 1.00 47.37 C +ATOM 8397 CD1 TYR B 102 6.667 -15.090 19.517 1.00 45.91 C +ATOM 8398 CD2 TYR B 102 7.310 -15.229 21.808 1.00 47.56 C +ATOM 8399 CE1 TYR B 102 6.156 -13.823 19.733 1.00 45.27 C +ATOM 8400 CE2 TYR B 102 6.801 -13.963 22.033 1.00 45.86 C +ATOM 8401 CZ TYR B 102 6.225 -13.266 20.992 1.00 47.19 C +ATOM 8402 OH TYR B 102 5.717 -12.006 21.213 1.00 47.47 O +ATOM 8403 N TYR B 103 6.742 -20.169 18.960 1.00 50.45 N +ATOM 8404 CA TYR B 103 7.088 -21.490 18.457 1.00 51.56 C +ATOM 8405 C TYR B 103 7.787 -21.373 17.112 1.00 51.79 C +ATOM 8406 O TYR B 103 7.444 -20.512 16.297 1.00 53.51 O +ATOM 8407 CB TYR B 103 5.842 -22.368 18.294 1.00 53.45 C +ATOM 8408 CG TYR B 103 5.088 -22.663 19.570 1.00 51.78 C +ATOM 8409 CD1 TYR B 103 4.119 -21.789 20.046 1.00 54.05 C +ATOM 8410 CD2 TYR B 103 5.328 -23.828 20.287 1.00 55.79 C +ATOM 8411 CE1 TYR B 103 3.421 -22.061 21.208 1.00 55.63 C +ATOM 8412 CE2 TYR B 103 4.636 -24.108 21.450 1.00 59.49 C +ATOM 8413 CZ TYR B 103 3.683 -23.221 21.906 1.00 59.12 C +ATOM 8414 OH TYR B 103 2.992 -23.496 23.063 1.00 66.07 O +ATOM 8415 N CYS B 104 8.762 -22.247 16.884 1.00 50.84 N +ATOM 8416 CA CYS B 104 9.338 -22.444 15.564 1.00 54.83 C +ATOM 8417 C CYS B 104 8.826 -23.759 14.994 1.00 57.65 C +ATOM 8418 O CYS B 104 8.647 -24.738 15.725 1.00 55.79 O +ATOM 8419 CB CYS B 104 10.869 -22.449 15.605 1.00 53.95 C +ATOM 8420 SG CYS B 104 11.605 -23.747 16.623 1.00 67.73 S +ATOM 8421 N GLN B 105 8.578 -23.765 13.689 1.00 58.81 N +ATOM 8422 CA GLN B 105 8.088 -24.943 12.990 1.00 59.26 C +ATOM 8423 C GLN B 105 8.846 -25.081 11.683 1.00 61.70 C +ATOM 8424 O GLN B 105 8.929 -24.122 10.911 1.00 60.36 O +ATOM 8425 CB GLN B 105 6.583 -24.843 12.715 1.00 58.85 C +ATOM 8426 CG GLN B 105 6.008 -26.035 11.966 1.00 61.18 C +ATOM 8427 CD GLN B 105 5.308 -25.633 10.682 1.00 63.36 C +ATOM 8428 OE1 GLN B 105 4.685 -24.574 10.606 1.00 61.64 O +ATOM 8429 NE2 GLN B 105 5.409 -26.478 9.662 1.00 65.87 N +ATOM 8430 N GLN B 106 9.393 -26.264 11.431 1.00 65.34 N +ATOM 8431 CA GLN B 106 10.008 -26.527 10.137 1.00 65.31 C +ATOM 8432 C GLN B 106 8.895 -26.866 9.151 1.00 65.33 C +ATOM 8433 O GLN B 106 8.174 -27.855 9.321 1.00 66.61 O +ATOM 8434 CB GLN B 106 11.065 -27.627 10.246 1.00 65.20 C +ATOM 8435 CG GLN B 106 10.582 -29.009 10.665 1.00 68.77 C +ATOM 8436 CD GLN B 106 10.246 -29.899 9.482 1.00 73.66 C +ATOM 8437 OE1 GLN B 106 10.468 -29.528 8.329 1.00 74.14 O +ATOM 8438 NE2 GLN B 106 9.703 -31.078 9.763 1.00 75.41 N +ATOM 8439 N HIS B 107 8.706 -26.007 8.158 1.00 65.90 N +ATOM 8440 CA HIS B 107 7.781 -26.284 7.061 1.00 70.58 C +ATOM 8441 C HIS B 107 8.552 -26.702 5.817 1.00 72.90 C +ATOM 8442 O HIS B 107 8.386 -26.166 4.724 1.00 70.39 O +ATOM 8443 CB HIS B 107 6.888 -25.074 6.797 1.00 67.17 C +ATOM 8444 CG HIS B 107 7.626 -23.852 6.344 1.00 63.50 C +ATOM 8445 ND1 HIS B 107 7.693 -23.474 5.021 1.00 63.83 N +ATOM 8446 CD2 HIS B 107 8.319 -22.920 7.038 1.00 60.77 C +ATOM 8447 CE1 HIS B 107 8.399 -22.362 4.918 1.00 63.20 C +ATOM 8448 NE2 HIS B 107 8.791 -22.005 6.128 1.00 59.24 N +ATOM 8449 N TYR B 108 9.420 -27.694 6.008 1.00 74.31 N +ATOM 8450 CA TYR B 108 10.329 -28.195 4.987 1.00 73.90 C +ATOM 8451 C TYR B 108 9.932 -29.568 4.467 1.00 78.16 C +ATOM 8452 O TYR B 108 9.942 -29.795 3.254 1.00 80.93 O +ATOM 8453 CB TYR B 108 11.755 -28.240 5.557 1.00 73.83 C +ATOM 8454 CG TYR B 108 12.802 -28.786 4.613 1.00 74.60 C +ATOM 8455 CD1 TYR B 108 13.375 -27.981 3.637 1.00 70.70 C +ATOM 8456 CD2 TYR B 108 13.233 -30.103 4.712 1.00 74.82 C +ATOM 8457 CE1 TYR B 108 14.337 -28.477 2.778 1.00 72.68 C +ATOM 8458 CE2 TYR B 108 14.195 -30.606 3.859 1.00 75.28 C +ATOM 8459 CZ TYR B 108 14.744 -29.790 2.894 1.00 74.51 C +ATOM 8460 OH TYR B 108 15.702 -30.289 2.042 1.00 74.39 O +ATOM 8461 N SER B 109 9.582 -30.495 5.356 1.00 77.84 N +ATOM 8462 CA SER B 109 9.240 -31.851 4.954 1.00 81.29 C +ATOM 8463 C SER B 109 8.144 -32.380 5.871 1.00 82.26 C +ATOM 8464 O SER B 109 7.712 -31.710 6.813 1.00 83.50 O +ATOM 8465 CB SER B 109 10.473 -32.759 4.979 1.00 82.14 C +ATOM 8466 OG SER B 109 10.971 -32.905 6.297 1.00 81.84 O +ATOM 8467 N ILE B 114 7.698 -33.599 5.583 1.00 83.37 N +ATOM 8468 CA ILE B 114 6.649 -34.269 6.349 1.00 83.61 C +ATOM 8469 C ILE B 114 7.298 -35.381 7.166 1.00 88.15 C +ATOM 8470 O ILE B 114 8.186 -36.079 6.654 1.00 91.47 O +ATOM 8471 CB ILE B 114 5.545 -34.796 5.415 1.00 86.50 C +ATOM 8472 CG1 ILE B 114 4.696 -33.634 4.894 1.00 83.24 C +ATOM 8473 CG2 ILE B 114 4.666 -35.837 6.097 1.00 90.87 C +ATOM 8474 CD1 ILE B 114 3.587 -34.060 3.959 1.00 85.97 C +ATOM 8475 N PRO B 115 6.901 -35.590 8.434 1.00 88.83 N +ATOM 8476 CA PRO B 115 5.860 -34.862 9.172 1.00 83.47 C +ATOM 8477 C PRO B 115 6.258 -33.453 9.607 1.00 80.57 C +ATOM 8478 O PRO B 115 7.431 -33.184 9.863 1.00 77.47 O +ATOM 8479 CB PRO B 115 5.623 -35.747 10.397 1.00 88.01 C +ATOM 8480 CG PRO B 115 6.920 -36.423 10.614 1.00 90.24 C +ATOM 8481 CD PRO B 115 7.493 -36.667 9.248 1.00 91.74 C +ATOM 8482 N ARG B 116 5.267 -32.568 9.684 1.00 78.69 N +ATOM 8483 CA ARG B 116 5.497 -31.219 10.178 1.00 76.24 C +ATOM 8484 C ARG B 116 5.746 -31.264 11.679 1.00 74.24 C +ATOM 8485 O ARG B 116 4.978 -31.876 12.428 1.00 76.08 O +ATOM 8486 CB ARG B 116 4.296 -30.328 9.869 1.00 75.69 C +ATOM 8487 CG ARG B 116 3.746 -30.468 8.458 1.00 75.18 C +ATOM 8488 CD ARG B 116 4.116 -29.268 7.603 1.00 76.48 C +ATOM 8489 NE ARG B 116 3.809 -29.478 6.191 1.00 78.94 N +ATOM 8490 CZ ARG B 116 4.670 -29.960 5.301 1.00 79.55 C +ATOM 8491 NH1 ARG B 116 5.902 -30.277 5.673 1.00 80.56 N +ATOM 8492 NH2 ARG B 116 4.302 -30.118 4.038 1.00 81.92 N +ATOM 8493 N THR B 117 6.825 -30.627 12.123 1.00 68.01 N +ATOM 8494 CA THR B 117 7.208 -30.660 13.526 1.00 68.24 C +ATOM 8495 C THR B 117 7.415 -29.245 14.043 1.00 66.45 C +ATOM 8496 O THR B 117 7.996 -28.399 13.355 1.00 65.66 O +ATOM 8497 CB THR B 117 8.483 -31.482 13.737 1.00 70.64 C +ATOM 8498 OG1 THR B 117 9.525 -30.978 12.893 1.00 69.37 O +ATOM 8499 CG2 THR B 117 8.236 -32.946 13.404 1.00 75.00 C +ATOM 8500 N PHE B 118 6.935 -28.998 15.256 1.00 63.50 N +ATOM 8501 CA PHE B 118 7.081 -27.715 15.925 1.00 59.70 C +ATOM 8502 C PHE B 118 8.201 -27.778 16.958 1.00 61.61 C +ATOM 8503 O PHE B 118 8.734 -28.842 17.278 1.00 65.60 O +ATOM 8504 CB PHE B 118 5.768 -27.306 16.601 1.00 59.42 C +ATOM 8505 CG PHE B 118 4.666 -26.966 15.640 1.00 59.97 C +ATOM 8506 CD1 PHE B 118 3.901 -27.965 15.061 1.00 61.56 C +ATOM 8507 CD2 PHE B 118 4.386 -25.647 15.327 1.00 58.33 C +ATOM 8508 CE1 PHE B 118 2.884 -27.653 14.180 1.00 61.60 C +ATOM 8509 CE2 PHE B 118 3.371 -25.329 14.447 1.00 56.19 C +ATOM 8510 CZ PHE B 118 2.618 -26.333 13.873 1.00 58.62 C +ATOM 8511 N GLY B 119 8.556 -26.604 17.481 1.00 60.88 N +ATOM 8512 CA GLY B 119 9.458 -26.531 18.609 1.00 56.41 C +ATOM 8513 C GLY B 119 8.720 -26.628 19.932 1.00 54.56 C +ATOM 8514 O GLY B 119 7.493 -26.658 19.989 1.00 55.49 O +ATOM 8515 N GLY B 120 9.499 -26.682 21.014 1.00 55.71 N +ATOM 8516 CA GLY B 120 8.910 -26.752 22.339 1.00 50.63 C +ATOM 8517 C GLY B 120 8.219 -25.478 22.774 1.00 48.33 C +ATOM 8518 O GLY B 120 7.326 -25.529 23.626 1.00 55.42 O +ATOM 8519 N GLY B 121 8.605 -24.342 22.207 1.00 48.39 N +ATOM 8520 CA GLY B 121 8.038 -23.065 22.578 1.00 50.75 C +ATOM 8521 C GLY B 121 8.899 -22.331 23.593 1.00 52.70 C +ATOM 8522 O GLY B 121 9.679 -22.922 24.345 1.00 53.81 O +ATOM 8523 N THR B 122 8.750 -21.009 23.610 1.00 50.82 N +ATOM 8524 CA THR B 122 9.480 -20.153 24.542 1.00 50.40 C +ATOM 8525 C THR B 122 8.517 -19.098 25.069 1.00 51.29 C +ATOM 8526 O THR B 122 8.066 -18.233 24.312 1.00 50.33 O +ATOM 8527 CB THR B 122 10.689 -19.500 23.870 1.00 51.42 C +ATOM 8528 OG1 THR B 122 11.569 -20.516 23.374 1.00 52.99 O +ATOM 8529 CG2 THR B 122 11.442 -18.625 24.861 1.00 51.69 C +ATOM 8530 N LYS B 123 8.204 -19.169 26.360 1.00 52.63 N +ATOM 8531 CA LYS B 123 7.341 -18.178 26.989 1.00 50.57 C +ATOM 8532 C LYS B 123 8.145 -16.914 27.262 1.00 47.54 C +ATOM 8533 O LYS B 123 9.186 -16.965 27.925 1.00 48.46 O +ATOM 8534 CB LYS B 123 6.742 -18.731 28.281 1.00 56.75 C +ATOM 8535 CG LYS B 123 5.789 -17.774 28.985 1.00 57.56 C +ATOM 8536 CD LYS B 123 5.412 -18.280 30.371 1.00 64.60 C +ATOM 8537 CE LYS B 123 4.362 -19.380 30.301 1.00 73.57 C +ATOM 8538 NZ LYS B 123 3.051 -18.872 29.808 1.00 80.95 N +ATOM 8539 N LEU B 124 7.666 -15.784 26.751 1.00 47.76 N +ATOM 8540 CA LEU B 124 8.341 -14.498 26.906 1.00 46.56 C +ATOM 8541 C LEU B 124 7.656 -13.735 28.032 1.00 45.25 C +ATOM 8542 O LEU B 124 6.568 -13.182 27.852 1.00 50.75 O +ATOM 8543 CB LEU B 124 8.319 -13.707 25.603 1.00 45.45 C +ATOM 8544 CG LEU B 124 8.997 -12.337 25.664 1.00 44.36 C +ATOM 8545 CD1 LEU B 124 10.474 -12.490 25.986 1.00 43.65 C +ATOM 8546 CD2 LEU B 124 8.805 -11.584 24.357 1.00 48.10 C +ATOM 8547 N GLU B 125 8.294 -13.710 29.196 1.00 46.98 N +ATOM 8548 CA GLU B 125 7.805 -12.940 30.327 1.00 51.52 C +ATOM 8549 C GLU B 125 8.364 -11.524 30.251 1.00 48.64 C +ATOM 8550 O GLU B 125 9.449 -11.293 29.711 1.00 49.97 O +ATOM 8551 CB GLU B 125 8.211 -13.605 31.646 1.00 59.40 C +ATOM 8552 CG GLU B 125 7.667 -12.932 32.901 1.00 75.39 C +ATOM 8553 CD GLU B 125 8.255 -13.505 34.180 1.00106.80 C +ATOM 8554 OE1 GLU B 125 8.542 -14.721 34.219 1.00 94.92 O +ATOM 8555 OE2 GLU B 125 8.413 -12.735 35.152 1.00122.25 O +ATOM 8556 N ILE B 126 7.603 -10.569 30.778 1.00 49.17 N +ATOM 8557 CA ILE B 126 7.994 -9.164 30.790 1.00 49.35 C +ATOM 8558 C ILE B 126 8.393 -8.782 32.208 1.00 54.53 C +ATOM 8559 O ILE B 126 7.654 -9.050 33.164 1.00 55.76 O +ATOM 8560 CB ILE B 126 6.869 -8.255 30.264 1.00 49.63 C +ATOM 8561 CG1 ILE B 126 6.678 -8.461 28.761 1.00 51.14 C +ATOM 8562 CG2 ILE B 126 7.163 -6.794 30.569 1.00 48.10 C +ATOM 8563 CD1 ILE B 126 5.579 -7.617 28.170 1.00 52.59 C +ATOM 8564 N LYS B 127 9.558 -8.152 32.339 1.00 51.25 N +ATOM 8565 CA LYS B 127 10.043 -7.666 33.621 1.00 51.84 C +ATOM 8566 C LYS B 127 9.633 -6.214 33.809 1.00 51.29 C +ATOM 8567 O LYS B 127 9.736 -5.400 32.887 1.00 52.82 O +ATOM 8568 CB LYS B 127 11.566 -7.788 33.711 1.00 49.40 C +ATOM 8569 CG LYS B 127 12.072 -8.829 34.693 1.00 54.38 C +ATOM 8570 CD LYS B 127 11.778 -8.426 36.129 1.00 56.98 C +ATOM 8571 CE LYS B 127 12.192 -9.517 37.104 1.00 60.49 C +ATOM 8572 NZ LYS B 127 11.874 -9.150 38.513 1.00 56.58 N +ATOM 8573 N ARG B 128 9.168 -5.896 35.012 1.00 50.01 N +ATOM 8574 CA ARG B 128 8.714 -4.554 35.332 1.00 48.07 C +ATOM 8575 C ARG B 128 9.045 -4.268 36.789 1.00 47.39 C +ATOM 8576 O ARG B 128 9.573 -5.122 37.507 1.00 45.65 O +ATOM 8577 CB ARG B 128 7.215 -4.402 35.062 1.00 46.84 C +ATOM 8578 CG ARG B 128 6.363 -5.470 35.730 1.00 49.39 C +ATOM 8579 CD ARG B 128 5.009 -4.918 36.127 1.00 47.70 C +ATOM 8580 NE ARG B 128 5.141 -3.871 37.135 1.00 44.90 N +ATOM 8581 CZ ARG B 128 4.162 -3.047 37.490 1.00 49.07 C +ATOM 8582 NH1 ARG B 128 2.972 -3.142 36.914 1.00 51.03 N +ATOM 8583 NH2 ARG B 128 4.374 -2.123 38.417 1.00 51.41 N +ATOM 8584 N THR B 129 8.727 -3.053 37.221 1.00 47.28 N +ATOM 8585 CA THR B 129 8.973 -2.655 38.595 1.00 44.98 C +ATOM 8586 C THR B 129 8.086 -3.449 39.549 1.00 48.24 C +ATOM 8587 O THR B 129 7.068 -4.031 39.163 1.00 50.15 O +ATOM 8588 CB THR B 129 8.730 -1.158 38.776 1.00 46.02 C +ATOM 8589 OG1 THR B 129 7.385 -0.842 38.397 1.00 45.50 O +ATOM 8590 CG2 THR B 129 9.698 -0.358 37.919 1.00 47.47 C +ATOM 8591 N VAL B 130 8.498 -3.472 40.818 1.00 47.70 N +ATOM 8592 CA VAL B 130 7.741 -4.194 41.830 1.00 48.79 C +ATOM 8593 C VAL B 130 6.368 -3.557 41.999 1.00 47.60 C +ATOM 8594 O VAL B 130 6.214 -2.330 41.937 1.00 46.20 O +ATOM 8595 CB VAL B 130 8.517 -4.217 43.157 1.00 47.24 C +ATOM 8596 CG1 VAL B 130 7.775 -5.033 44.189 1.00 47.57 C +ATOM 8597 CG2 VAL B 130 9.915 -4.774 42.945 1.00 54.47 C +ATOM 8598 N ALA B 131 5.357 -4.399 42.205 1.00 45.91 N +ATOM 8599 CA ALA B 131 3.990 -3.948 42.431 1.00 48.57 C +ATOM 8600 C ALA B 131 3.406 -4.768 43.569 1.00 46.97 C +ATOM 8601 O ALA B 131 3.265 -5.988 43.444 1.00 47.98 O +ATOM 8602 CB ALA B 131 3.137 -4.093 41.167 1.00 46.70 C +ATOM 8603 N ALA B 132 3.091 -4.106 44.678 1.00 43.63 N +ATOM 8604 CA ALA B 132 2.510 -4.805 45.815 1.00 47.50 C +ATOM 8605 C ALA B 132 1.094 -5.268 45.480 1.00 49.32 C +ATOM 8606 O ALA B 132 0.367 -4.575 44.761 1.00 47.52 O +ATOM 8607 CB ALA B 132 2.488 -3.900 47.045 1.00 46.00 C +ATOM 8608 N PRO B 133 0.675 -6.428 45.979 1.00 50.09 N +ATOM 8609 CA PRO B 133 -0.683 -6.898 45.700 1.00 50.81 C +ATOM 8610 C PRO B 133 -1.721 -6.159 46.528 1.00 48.41 C +ATOM 8611 O PRO B 133 -1.470 -5.740 47.660 1.00 48.18 O +ATOM 8612 CB PRO B 133 -0.629 -8.380 46.089 1.00 50.87 C +ATOM 8613 CG PRO B 133 0.420 -8.440 47.144 1.00 50.31 C +ATOM 8614 CD PRO B 133 1.448 -7.403 46.769 1.00 48.28 C +ATOM 8615 N SER B 134 -2.903 -5.998 45.939 1.00 50.79 N +ATOM 8616 CA SER B 134 -4.069 -5.525 46.675 1.00 50.87 C +ATOM 8617 C SER B 134 -4.826 -6.738 47.204 1.00 50.58 C +ATOM 8618 O SER B 134 -5.223 -7.609 46.425 1.00 52.76 O +ATOM 8619 CB SER B 134 -4.964 -4.663 45.787 1.00 54.31 C +ATOM 8620 OG SER B 134 -4.321 -3.445 45.451 1.00 55.10 O +ATOM 8621 N VAL B 135 -5.006 -6.807 48.519 1.00 52.08 N +ATOM 8622 CA VAL B 135 -5.556 -7.992 49.166 1.00 52.57 C +ATOM 8623 C VAL B 135 -7.021 -7.750 49.503 1.00 53.45 C +ATOM 8624 O VAL B 135 -7.379 -6.706 50.063 1.00 52.98 O +ATOM 8625 CB VAL B 135 -4.757 -8.361 50.427 1.00 50.52 C +ATOM 8626 CG1 VAL B 135 -5.163 -9.741 50.922 1.00 49.87 C +ATOM 8627 CG2 VAL B 135 -3.266 -8.311 50.139 1.00 51.22 C +ATOM 8628 N PHE B 136 -7.863 -8.722 49.163 1.00 50.95 N +ATOM 8629 CA PHE B 136 -9.276 -8.716 49.511 1.00 51.26 C +ATOM 8630 C PHE B 136 -9.638 -10.085 50.064 1.00 54.44 C +ATOM 8631 O PHE B 136 -9.008 -11.089 49.727 1.00 52.72 O +ATOM 8632 CB PHE B 136 -10.174 -8.399 48.304 1.00 46.61 C +ATOM 8633 CG PHE B 136 -9.806 -7.136 47.582 1.00 50.88 C +ATOM 8634 CD1 PHE B 136 -10.277 -5.909 48.019 1.00 59.26 C +ATOM 8635 CD2 PHE B 136 -9.001 -7.177 46.455 1.00 55.37 C +ATOM 8636 CE1 PHE B 136 -9.944 -4.746 47.352 1.00 65.73 C +ATOM 8637 CE2 PHE B 136 -8.665 -6.017 45.783 1.00 54.92 C +ATOM 8638 CZ PHE B 136 -9.137 -4.800 46.233 1.00 62.16 C +ATOM 8639 N ILE B 137 -10.657 -10.126 50.917 1.00 55.27 N +ATOM 8640 CA ILE B 137 -11.122 -11.379 51.498 1.00 53.17 C +ATOM 8641 C ILE B 137 -12.640 -11.439 51.381 1.00 56.49 C +ATOM 8642 O ILE B 137 -13.333 -10.449 51.647 1.00 59.74 O +ATOM 8643 CB ILE B 137 -10.657 -11.545 52.960 1.00 52.63 C +ATOM 8644 CG1 ILE B 137 -10.982 -12.952 53.469 1.00 53.06 C +ATOM 8645 CG2 ILE B 137 -11.244 -10.463 53.864 1.00 57.57 C +ATOM 8646 CD1 ILE B 137 -10.286 -13.307 54.764 1.00 55.24 C +ATOM 8647 N PHE B 138 -13.147 -12.589 50.947 1.00 56.94 N +ATOM 8648 CA PHE B 138 -14.570 -12.820 50.755 1.00 57.02 C +ATOM 8649 C PHE B 138 -15.002 -14.003 51.610 1.00 56.16 C +ATOM 8650 O PHE B 138 -14.456 -15.111 51.449 1.00 54.57 O +ATOM 8651 CB PHE B 138 -14.885 -13.083 49.281 1.00 54.93 C +ATOM 8652 CG PHE B 138 -14.395 -12.008 48.356 1.00 51.26 C +ATOM 8653 CD1 PHE B 138 -15.099 -10.824 48.212 1.00 51.49 C +ATOM 8654 CD2 PHE B 138 -13.232 -12.183 47.625 1.00 51.56 C +ATOM 8655 CE1 PHE B 138 -14.649 -9.833 47.361 1.00 51.36 C +ATOM 8656 CE2 PHE B 138 -12.777 -11.196 46.771 1.00 50.45 C +ATOM 8657 CZ PHE B 138 -13.487 -10.019 46.638 1.00 51.09 C +ATOM 8658 N PRO B 139 -15.956 -13.820 52.519 1.00 61.27 N +ATOM 8659 CA PRO B 139 -16.473 -14.942 53.302 1.00 63.42 C +ATOM 8660 C PRO B 139 -17.396 -15.801 52.459 1.00 62.61 C +ATOM 8661 O PRO B 139 -17.827 -15.380 51.374 1.00 60.80 O +ATOM 8662 CB PRO B 139 -17.237 -14.248 54.439 1.00 57.46 C +ATOM 8663 CG PRO B 139 -17.676 -12.956 53.847 1.00 58.04 C +ATOM 8664 CD PRO B 139 -16.578 -12.540 52.902 1.00 62.88 C +ATOM 8665 N PRO B 140 -17.726 -17.009 52.913 1.00 61.02 N +ATOM 8666 CA PRO B 140 -18.631 -17.856 52.131 1.00 61.40 C +ATOM 8667 C PRO B 140 -20.047 -17.306 52.136 1.00 65.12 C +ATOM 8668 O PRO B 140 -20.507 -16.704 53.110 1.00 67.97 O +ATOM 8669 CB PRO B 140 -18.555 -19.211 52.842 1.00 59.83 C +ATOM 8670 CG PRO B 140 -18.169 -18.878 54.237 1.00 62.38 C +ATOM 8671 CD PRO B 140 -17.264 -17.683 54.140 1.00 59.80 C +ATOM 8672 N SER B 141 -20.739 -17.518 51.021 1.00 66.37 N +ATOM 8673 CA SER B 141 -22.123 -17.090 50.906 1.00 69.60 C +ATOM 8674 C SER B 141 -23.032 -17.975 51.750 1.00 73.28 C +ATOM 8675 O SER B 141 -22.733 -19.144 52.011 1.00 70.86 O +ATOM 8676 CB SER B 141 -22.570 -17.124 49.445 1.00 70.15 C +ATOM 8677 OG SER B 141 -22.555 -18.448 48.939 1.00 68.25 O +ATOM 8678 N ASP B 142 -24.152 -17.395 52.191 1.00 74.89 N +ATOM 8679 CA ASP B 142 -25.124 -18.163 52.962 1.00 76.38 C +ATOM 8680 C ASP B 142 -25.675 -19.330 52.156 1.00 75.07 C +ATOM 8681 O ASP B 142 -26.038 -20.364 52.728 1.00 75.64 O +ATOM 8682 CB ASP B 142 -26.262 -17.255 53.430 1.00 77.82 C +ATOM 8683 CG ASP B 142 -25.798 -16.197 54.411 1.00 87.37 C +ATOM 8684 OD1 ASP B 142 -24.828 -16.457 55.154 1.00 88.96 O +ATOM 8685 OD2 ASP B 142 -26.405 -15.105 54.440 1.00 92.47 O +ATOM 8686 N GLU B 143 -25.741 -19.185 50.830 1.00 75.63 N +ATOM 8687 CA GLU B 143 -26.207 -20.274 49.978 1.00 75.11 C +ATOM 8688 C GLU B 143 -25.291 -21.488 50.090 1.00 75.38 C +ATOM 8689 O GLU B 143 -25.749 -22.606 50.357 1.00 74.73 O +ATOM 8690 CB GLU B 143 -26.290 -19.798 48.527 1.00 80.34 C +ATOM 8691 CG GLU B 143 -27.192 -18.589 48.294 1.00 91.17 C +ATOM 8692 CD GLU B 143 -26.503 -17.260 48.570 1.00 80.24 C +ATOM 8693 OE1 GLU B 143 -25.784 -17.152 49.586 1.00 76.33 O +ATOM 8694 OE2 GLU B 143 -26.677 -16.322 47.764 1.00 80.25 O +ATOM 8695 N GLN B 144 -23.987 -21.283 49.888 1.00 74.32 N +ATOM 8696 CA GLN B 144 -23.038 -22.387 49.995 1.00 71.21 C +ATOM 8697 C GLN B 144 -23.006 -22.960 51.406 1.00 72.33 C +ATOM 8698 O GLN B 144 -22.881 -24.177 51.586 1.00 70.87 O +ATOM 8699 CB GLN B 144 -21.642 -21.923 49.581 1.00 66.90 C +ATOM 8700 CG GLN B 144 -20.633 -23.052 49.481 1.00 67.01 C +ATOM 8701 CD GLN B 144 -19.209 -22.553 49.373 1.00 65.08 C +ATOM 8702 OE1 GLN B 144 -18.963 -21.349 49.304 1.00 65.48 O +ATOM 8703 NE2 GLN B 144 -18.258 -23.479 49.367 1.00 65.69 N +ATOM 8704 N LEU B 145 -23.111 -22.098 52.420 1.00 72.05 N +ATOM 8705 CA LEU B 145 -23.147 -22.574 53.800 1.00 71.83 C +ATOM 8706 C LEU B 145 -24.329 -23.506 54.031 1.00 74.94 C +ATOM 8707 O LEU B 145 -24.168 -24.614 54.556 1.00 73.50 O +ATOM 8708 CB LEU B 145 -23.203 -21.388 54.761 1.00 70.31 C +ATOM 8709 CG LEU B 145 -21.871 -20.676 54.975 1.00 67.02 C +ATOM 8710 CD1 LEU B 145 -22.068 -19.367 55.723 1.00 66.69 C +ATOM 8711 CD2 LEU B 145 -20.924 -21.595 55.719 1.00 64.97 C +ATOM 8712 N LYS B 146 -25.529 -23.067 53.646 1.00 74.36 N +ATOM 8713 CA LYS B 146 -26.702 -23.928 53.744 1.00 74.12 C +ATOM 8714 C LYS B 146 -26.531 -25.199 52.922 1.00 74.03 C +ATOM 8715 O LYS B 146 -27.094 -26.243 53.272 1.00 74.15 O +ATOM 8716 CB LYS B 146 -27.945 -23.147 53.321 1.00 73.22 C +ATOM 8717 CG LYS B 146 -28.284 -22.024 54.294 1.00 78.85 C +ATOM 8718 CD LYS B 146 -29.532 -21.258 53.895 1.00 82.52 C +ATOM 8719 CE LYS B 146 -29.800 -20.118 54.869 1.00 88.31 C +ATOM 8720 NZ LYS B 146 -28.587 -19.282 55.104 1.00 85.90 N +ATOM 8721 N SER B 147 -25.775 -25.131 51.822 1.00 73.49 N +ATOM 8722 CA SER B 147 -25.473 -26.342 51.065 1.00 73.07 C +ATOM 8723 C SER B 147 -24.632 -27.317 51.882 1.00 73.46 C +ATOM 8724 O SER B 147 -24.690 -28.530 51.647 1.00 70.96 O +ATOM 8725 CB SER B 147 -24.764 -25.989 49.756 1.00 72.78 C +ATOM 8726 OG SER B 147 -23.381 -25.769 49.966 1.00 70.97 O +ATOM 8727 N GLY B 148 -23.852 -26.815 52.840 1.00 75.65 N +ATOM 8728 CA GLY B 148 -23.060 -27.673 53.702 1.00 75.56 C +ATOM 8729 C GLY B 148 -21.553 -27.524 53.602 1.00 76.39 C +ATOM 8730 O GLY B 148 -20.814 -28.338 54.164 1.00 75.08 O +ATOM 8731 N THR B 149 -21.081 -26.496 52.899 1.00 75.75 N +ATOM 8732 CA THR B 149 -19.653 -26.274 52.712 1.00 70.90 C +ATOM 8733 C THR B 149 -19.382 -24.775 52.785 1.00 69.38 C +ATOM 8734 O THR B 149 -20.266 -23.957 52.523 1.00 72.55 O +ATOM 8735 CB THR B 149 -19.177 -26.867 51.372 1.00 71.36 C +ATOM 8736 OG1 THR B 149 -19.484 -28.266 51.338 1.00 76.43 O +ATOM 8737 CG2 THR B 149 -17.673 -26.706 51.189 1.00 71.97 C +ATOM 8738 N ALA B 150 -18.152 -24.413 53.154 1.00 68.02 N +ATOM 8739 CA ALA B 150 -17.743 -23.018 53.248 1.00 66.44 C +ATOM 8740 C ALA B 150 -16.442 -22.820 52.485 1.00 69.10 C +ATOM 8741 O ALA B 150 -15.455 -23.520 52.737 1.00 67.65 O +ATOM 8742 CB ALA B 150 -17.569 -22.588 54.707 1.00 64.55 C +ATOM 8743 N SER B 151 -16.443 -21.871 51.553 1.00 64.61 N +ATOM 8744 CA SER B 151 -15.256 -21.517 50.782 1.00 62.21 C +ATOM 8745 C SER B 151 -14.944 -20.047 51.030 1.00 61.96 C +ATOM 8746 O SER B 151 -15.711 -19.167 50.625 1.00 61.35 O +ATOM 8747 CB SER B 151 -15.459 -21.793 49.293 1.00 67.62 C +ATOM 8748 OG SER B 151 -15.508 -23.185 49.032 1.00 69.68 O +ATOM 8749 N VAL B 152 -13.822 -19.786 51.696 1.00 60.40 N +ATOM 8750 CA VAL B 152 -13.345 -18.431 51.946 1.00 58.26 C +ATOM 8751 C VAL B 152 -12.306 -18.101 50.886 1.00 57.33 C +ATOM 8752 O VAL B 152 -11.410 -18.909 50.615 1.00 58.35 O +ATOM 8753 CB VAL B 152 -12.750 -18.301 53.358 1.00 56.12 C +ATOM 8754 CG1 VAL B 152 -12.528 -16.840 53.710 1.00 55.89 C +ATOM 8755 CG2 VAL B 152 -13.649 -18.981 54.380 1.00 59.06 C +ATOM 8756 N VAL B 153 -12.419 -16.924 50.277 1.00 56.33 N +ATOM 8757 CA VAL B 153 -11.568 -16.566 49.149 1.00 55.91 C +ATOM 8758 C VAL B 153 -10.672 -15.400 49.540 1.00 54.51 C +ATOM 8759 O VAL B 153 -11.126 -14.438 50.167 1.00 54.98 O +ATOM 8760 CB VAL B 153 -12.408 -16.223 47.899 1.00 55.42 C +ATOM 8761 CG1 VAL B 153 -11.519 -15.728 46.769 1.00 53.50 C +ATOM 8762 CG2 VAL B 153 -13.199 -17.442 47.452 1.00 55.87 C +ATOM 8763 N CYS B 154 -9.395 -15.493 49.178 1.00 57.09 N +ATOM 8764 CA CYS B 154 -8.432 -14.416 49.363 1.00 52.98 C +ATOM 8765 C CYS B 154 -7.888 -14.044 47.992 1.00 53.00 C +ATOM 8766 O CYS B 154 -7.349 -14.901 47.281 1.00 48.12 O +ATOM 8767 CB CYS B 154 -7.304 -14.836 50.310 1.00 50.04 C +ATOM 8768 SG CYS B 154 -6.156 -13.515 50.799 1.00 53.24 S +ATOM 8769 N LEU B 155 -8.040 -12.779 47.618 1.00 50.79 N +ATOM 8770 CA LEU B 155 -7.677 -12.289 46.296 1.00 47.79 C +ATOM 8771 C LEU B 155 -6.485 -11.350 46.417 1.00 51.66 C +ATOM 8772 O LEU B 155 -6.556 -10.340 47.127 1.00 55.68 O +ATOM 8773 CB LEU B 155 -8.858 -11.572 45.641 1.00 48.43 C +ATOM 8774 CG LEU B 155 -8.556 -10.736 44.395 1.00 48.36 C +ATOM 8775 CD1 LEU B 155 -8.051 -11.611 43.263 1.00 47.91 C +ATOM 8776 CD2 LEU B 155 -9.784 -9.950 43.963 1.00 49.20 C +ATOM 8777 N LEU B 156 -5.396 -11.689 45.731 1.00 48.63 N +ATOM 8778 CA LEU B 156 -4.244 -10.813 45.569 1.00 48.46 C +ATOM 8779 C LEU B 156 -4.294 -10.261 44.151 1.00 49.57 C +ATOM 8780 O LEU B 156 -4.262 -11.028 43.183 1.00 50.92 O +ATOM 8781 CB LEU B 156 -2.934 -11.564 45.810 1.00 51.98 C +ATOM 8782 CG LEU B 156 -2.538 -12.078 47.200 1.00 51.44 C +ATOM 8783 CD1 LEU B 156 -3.526 -13.085 47.779 1.00 52.24 C +ATOM 8784 CD2 LEU B 156 -1.150 -12.690 47.120 1.00 51.63 C +ATOM 8785 N ASN B 157 -4.365 -8.940 44.026 1.00 47.09 N +ATOM 8786 CA ASN B 157 -4.681 -8.300 42.758 1.00 50.35 C +ATOM 8787 C ASN B 157 -3.522 -7.436 42.284 1.00 52.58 C +ATOM 8788 O ASN B 157 -2.989 -6.625 43.052 1.00 52.27 O +ATOM 8789 CB ASN B 157 -5.948 -7.453 42.892 1.00 51.48 C +ATOM 8790 CG ASN B 157 -6.682 -7.292 41.580 1.00 55.17 C +ATOM 8791 OD1 ASN B 157 -6.987 -6.176 41.159 1.00 59.24 O +ATOM 8792 ND2 ASN B 157 -6.973 -8.410 40.924 1.00 53.50 N +ATOM 8793 N ASN B 158 -3.147 -7.624 41.016 1.00 52.13 N +ATOM 8794 CA ASN B 158 -2.223 -6.764 40.275 1.00 51.45 C +ATOM 8795 C ASN B 158 -0.902 -6.566 41.023 1.00 49.61 C +ATOM 8796 O ASN B 158 -0.585 -5.487 41.521 1.00 49.39 O +ATOM 8797 CB ASN B 158 -2.885 -5.420 39.958 1.00 50.11 C +ATOM 8798 CG ASN B 158 -4.135 -5.573 39.115 1.00 52.12 C +ATOM 8799 OD1 ASN B 158 -4.306 -6.572 38.414 1.00 54.73 O +ATOM 8800 ND2 ASN B 158 -5.015 -4.581 39.174 1.00 52.79 N +ATOM 8801 N PHE B 159 -0.127 -7.648 41.074 1.00 50.04 N +ATOM 8802 CA PHE B 159 1.180 -7.626 41.711 1.00 51.72 C +ATOM 8803 C PHE B 159 2.245 -8.157 40.760 1.00 49.74 C +ATOM 8804 O PHE B 159 1.956 -8.881 39.803 1.00 52.19 O +ATOM 8805 CB PHE B 159 1.191 -8.439 43.016 1.00 51.35 C +ATOM 8806 CG PHE B 159 0.879 -9.898 42.834 1.00 49.71 C +ATOM 8807 CD1 PHE B 159 -0.431 -10.345 42.845 1.00 50.02 C +ATOM 8808 CD2 PHE B 159 1.896 -10.823 42.668 1.00 49.45 C +ATOM 8809 CE1 PHE B 159 -0.721 -11.687 42.683 1.00 51.39 C +ATOM 8810 CE2 PHE B 159 1.612 -12.166 42.504 1.00 50.61 C +ATOM 8811 CZ PHE B 159 0.302 -12.598 42.512 1.00 52.33 C +ATOM 8812 N TYR B 160 3.493 -7.781 41.046 1.00 47.54 N +ATOM 8813 CA TYR B 160 4.668 -8.248 40.329 1.00 48.87 C +ATOM 8814 C TYR B 160 5.843 -8.132 41.289 1.00 49.70 C +ATOM 8815 O TYR B 160 5.951 -7.117 41.994 1.00 49.07 O +ATOM 8816 CB TYR B 160 4.944 -7.439 39.056 1.00 48.34 C +ATOM 8817 CG TYR B 160 5.984 -8.067 38.156 1.00 50.16 C +ATOM 8818 CD1 TYR B 160 5.624 -9.008 37.202 1.00 49.97 C +ATOM 8819 CD2 TYR B 160 7.327 -7.729 38.268 1.00 50.61 C +ATOM 8820 CE1 TYR B 160 6.568 -9.592 36.382 1.00 55.37 C +ATOM 8821 CE2 TYR B 160 8.280 -8.308 37.452 1.00 50.54 C +ATOM 8822 CZ TYR B 160 7.894 -9.238 36.510 1.00 54.78 C +ATOM 8823 OH TYR B 160 8.834 -9.820 35.692 1.00 60.15 O +ATOM 8824 N PRO B 161 6.741 -9.130 41.339 1.00 48.54 N +ATOM 8825 CA PRO B 161 6.768 -10.350 40.524 1.00 48.94 C +ATOM 8826 C PRO B 161 5.716 -11.397 40.894 1.00 52.02 C +ATOM 8827 O PRO B 161 4.869 -11.173 41.758 1.00 49.97 O +ATOM 8828 CB PRO B 161 8.176 -10.900 40.773 1.00 49.56 C +ATOM 8829 CG PRO B 161 8.528 -10.411 42.120 1.00 49.14 C +ATOM 8830 CD PRO B 161 7.909 -9.048 42.233 1.00 49.08 C +ATOM 8831 N ARG B 162 5.805 -12.546 40.223 1.00 53.90 N +ATOM 8832 CA ARG B 162 4.786 -13.584 40.332 1.00 51.62 C +ATOM 8833 C ARG B 162 4.756 -14.223 41.715 1.00 54.36 C +ATOM 8834 O ARG B 162 3.702 -14.699 42.152 1.00 55.66 O +ATOM 8835 CB ARG B 162 5.041 -14.641 39.256 1.00 57.30 C +ATOM 8836 CG ARG B 162 3.966 -15.698 39.066 1.00 59.67 C +ATOM 8837 CD ARG B 162 4.428 -16.667 37.985 1.00 69.36 C +ATOM 8838 NE ARG B 162 3.413 -17.632 37.575 1.00 82.42 N +ATOM 8839 CZ ARG B 162 3.198 -18.795 38.181 1.00 84.05 C +ATOM 8840 NH1 ARG B 162 3.923 -19.141 39.236 1.00 83.71 N +ATOM 8841 NH2 ARG B 162 2.260 -19.615 37.728 1.00 84.63 N +ATOM 8842 N GLU B 163 5.886 -14.240 42.418 1.00 56.98 N +ATOM 8843 CA GLU B 163 5.999 -14.991 43.664 1.00 58.67 C +ATOM 8844 C GLU B 163 5.421 -14.187 44.823 1.00 56.69 C +ATOM 8845 O GLU B 163 5.947 -13.126 45.175 1.00 54.21 O +ATOM 8846 CB GLU B 163 7.458 -15.353 43.941 1.00 60.47 C +ATOM 8847 CG GLU B 163 8.067 -16.345 42.957 1.00 62.60 C +ATOM 8848 CD GLU B 163 8.333 -15.737 41.593 1.00 60.47 C +ATOM 8849 OE1 GLU B 163 8.523 -14.504 41.518 1.00 57.20 O +ATOM 8850 OE2 GLU B 163 8.347 -16.491 40.598 1.00 65.13 O +ATOM 8851 N ALA B 164 4.348 -14.701 45.422 1.00 60.12 N +ATOM 8852 CA ALA B 164 3.741 -14.100 46.604 1.00 58.43 C +ATOM 8853 C ALA B 164 3.189 -15.222 47.468 1.00 60.93 C +ATOM 8854 O ALA B 164 2.494 -16.107 46.960 1.00 60.67 O +ATOM 8855 CB ALA B 164 2.631 -13.115 46.226 1.00 53.03 C +ATOM 8856 N LYS B 165 3.498 -15.189 48.762 1.00 62.95 N +ATOM 8857 CA LYS B 165 3.099 -16.251 49.676 1.00 61.57 C +ATOM 8858 C LYS B 165 1.875 -15.837 50.485 1.00 59.67 C +ATOM 8859 O LYS B 165 1.769 -14.691 50.934 1.00 58.51 O +ATOM 8860 CB LYS B 165 4.257 -16.629 50.601 1.00 68.10 C +ATOM 8861 CG LYS B 165 5.472 -17.140 49.838 1.00 82.62 C +ATOM 8862 CD LYS B 165 5.221 -18.528 49.262 1.00 93.60 C +ATOM 8863 CE LYS B 165 6.490 -19.131 48.677 1.00 88.25 C +ATOM 8864 NZ LYS B 165 7.043 -18.300 47.571 1.00 86.67 N +ATOM 8865 N VAL B 166 0.950 -16.782 50.663 1.00 61.43 N +ATOM 8866 CA VAL B 166 -0.309 -16.554 51.364 1.00 58.48 C +ATOM 8867 C VAL B 166 -0.483 -17.638 52.418 1.00 59.24 C +ATOM 8868 O VAL B 166 -0.378 -18.831 52.110 1.00 59.02 O +ATOM 8869 CB VAL B 166 -1.512 -16.557 50.400 1.00 62.39 C +ATOM 8870 CG1 VAL B 166 -2.793 -16.206 51.145 1.00 61.05 C +ATOM 8871 CG2 VAL B 166 -1.277 -15.602 49.244 1.00 62.89 C +ATOM 8872 N GLN B 167 -0.749 -17.227 53.657 1.00 60.85 N +ATOM 8873 CA GLN B 167 -1.017 -18.146 54.754 1.00 62.07 C +ATOM 8874 C GLN B 167 -2.417 -17.899 55.302 1.00 61.32 C +ATOM 8875 O GLN B 167 -2.884 -16.758 55.343 1.00 60.22 O +ATOM 8876 CB GLN B 167 0.022 -17.992 55.871 1.00 63.28 C +ATOM 8877 CG GLN B 167 1.366 -18.630 55.556 1.00 65.97 C +ATOM 8878 CD GLN B 167 2.369 -18.462 56.681 1.00 74.27 C +ATOM 8879 OE1 GLN B 167 2.314 -17.494 57.439 1.00 77.01 O +ATOM 8880 NE2 GLN B 167 3.292 -19.411 56.796 1.00 76.73 N +ATOM 8881 N TRP B 168 -3.084 -18.972 55.723 1.00 61.66 N +ATOM 8882 CA TRP B 168 -4.431 -18.892 56.274 1.00 63.97 C +ATOM 8883 C TRP B 168 -4.401 -19.049 57.788 1.00 66.55 C +ATOM 8884 O TRP B 168 -3.721 -19.933 58.319 1.00 67.18 O +ATOM 8885 CB TRP B 168 -5.338 -19.961 55.662 1.00 60.96 C +ATOM 8886 CG TRP B 168 -5.837 -19.617 54.296 1.00 62.14 C +ATOM 8887 CD1 TRP B 168 -5.342 -20.061 53.106 1.00 61.83 C +ATOM 8888 CD2 TRP B 168 -6.929 -18.747 53.978 1.00 60.29 C +ATOM 8889 NE1 TRP B 168 -6.062 -19.525 52.065 1.00 62.05 N +ATOM 8890 CE2 TRP B 168 -7.042 -18.714 52.575 1.00 61.36 C +ATOM 8891 CE3 TRP B 168 -7.824 -17.994 54.745 1.00 61.09 C +ATOM 8892 CZ2 TRP B 168 -8.012 -17.958 51.921 1.00 60.67 C +ATOM 8893 CZ3 TRP B 168 -8.788 -17.243 54.094 1.00 59.94 C +ATOM 8894 CH2 TRP B 168 -8.874 -17.231 52.696 1.00 60.56 C +ATOM 8895 N LYS B 169 -5.144 -18.186 58.481 1.00 64.50 N +ATOM 8896 CA LYS B 169 -5.244 -18.220 59.935 1.00 69.53 C +ATOM 8897 C LYS B 169 -6.711 -18.213 60.337 1.00 70.64 C +ATOM 8898 O LYS B 169 -7.455 -17.294 59.977 1.00 71.53 O +ATOM 8899 CB LYS B 169 -4.503 -17.037 60.566 1.00 70.88 C +ATOM 8900 CG LYS B 169 -2.990 -17.176 60.535 1.00 73.24 C +ATOM 8901 CD LYS B 169 -2.304 -15.890 60.960 1.00 74.44 C +ATOM 8902 CE LYS B 169 -0.800 -16.083 61.067 1.00 80.88 C +ATOM 8903 NZ LYS B 169 -0.434 -16.999 62.183 1.00 91.00 N +ATOM 8904 N VAL B 170 -7.123 -19.234 61.082 1.00 69.31 N +ATOM 8905 CA VAL B 170 -8.469 -19.333 61.636 1.00 71.82 C +ATOM 8906 C VAL B 170 -8.319 -19.262 63.147 1.00 71.90 C +ATOM 8907 O VAL B 170 -7.868 -20.228 63.776 1.00 72.76 O +ATOM 8908 CB VAL B 170 -9.174 -20.628 61.212 1.00 71.83 C +ATOM 8909 CG1 VAL B 170 -10.573 -20.682 61.790 1.00 73.63 C +ATOM 8910 CG2 VAL B 170 -9.209 -20.746 59.696 1.00 70.22 C +ATOM 8911 N ASP B 171 -8.694 -18.123 63.733 1.00 70.63 N +ATOM 8912 CA ASP B 171 -8.485 -17.875 65.162 1.00 72.02 C +ATOM 8913 C ASP B 171 -7.004 -17.991 65.514 1.00 72.54 C +ATOM 8914 O ASP B 171 -6.630 -18.596 66.520 1.00 75.81 O +ATOM 8915 CB ASP B 171 -9.339 -18.799 66.034 1.00 71.82 C +ATOM 8916 CG ASP B 171 -10.822 -18.532 65.878 1.00 71.80 C +ATOM 8917 OD1 ASP B 171 -11.170 -17.502 65.261 1.00 74.47 O +ATOM 8918 OD2 ASP B 171 -11.636 -19.340 66.377 1.00 72.41 O +ATOM 8919 N ASN B 172 -6.159 -17.404 64.665 1.00 72.80 N +ATOM 8920 CA ASN B 172 -4.701 -17.393 64.753 1.00 74.62 C +ATOM 8921 C ASN B 172 -4.079 -18.778 64.601 1.00 72.38 C +ATOM 8922 O ASN B 172 -2.854 -18.907 64.731 1.00 72.03 O +ATOM 8923 CB ASN B 172 -4.197 -16.752 66.054 1.00 79.89 C +ATOM 8924 CG ASN B 172 -4.523 -15.273 66.133 1.00 86.84 C +ATOM 8925 OD1 ASN B 172 -5.609 -14.887 66.565 1.00 83.08 O +ATOM 8926 ND2 ASN B 172 -3.583 -14.436 65.705 1.00 93.96 N +ATOM 8927 N ALA B 173 -4.868 -19.813 64.329 1.00 70.87 N +ATOM 8928 CA ALA B 173 -4.341 -21.152 64.104 1.00 70.55 C +ATOM 8929 C ALA B 173 -3.966 -21.294 62.633 1.00 71.67 C +ATOM 8930 O ALA B 173 -4.811 -21.102 61.751 1.00 74.13 O +ATOM 8931 CB ALA B 173 -5.362 -22.213 64.510 1.00 69.75 C +ATOM 8932 N LEU B 174 -2.705 -21.629 62.373 1.00 71.35 N +ATOM 8933 CA LEU B 174 -2.227 -21.753 61.003 1.00 71.39 C +ATOM 8934 C LEU B 174 -2.849 -22.970 60.329 1.00 73.60 C +ATOM 8935 O LEU B 174 -2.898 -24.059 60.908 1.00 75.50 O +ATOM 8936 CB LEU B 174 -0.702 -21.852 60.984 1.00 71.92 C +ATOM 8937 CG LEU B 174 -0.041 -21.991 59.611 1.00 73.47 C +ATOM 8938 CD1 LEU B 174 -0.372 -20.793 58.735 1.00 73.10 C +ATOM 8939 CD2 LEU B 174 1.464 -22.154 59.755 1.00 79.86 C +ATOM 8940 N GLN B 175 -3.323 -22.780 59.101 1.00 70.96 N +ATOM 8941 CA GLN B 175 -3.954 -23.836 58.325 1.00 71.48 C +ATOM 8942 C GLN B 175 -2.946 -24.477 57.378 1.00 71.74 C +ATOM 8943 O GLN B 175 -1.979 -23.843 56.947 1.00 73.10 O +ATOM 8944 CB GLN B 175 -5.139 -23.290 57.525 1.00 71.04 C +ATOM 8945 CG GLN B 175 -6.186 -22.583 58.367 1.00 70.82 C +ATOM 8946 CD GLN B 175 -6.882 -23.518 59.334 1.00 70.54 C +ATOM 8947 OE1 GLN B 175 -7.435 -24.543 58.934 1.00 69.16 O +ATOM 8948 NE2 GLN B 175 -6.859 -23.170 60.615 1.00 71.14 N +ATOM 8949 N SER B 176 -3.186 -25.746 57.058 1.00 70.24 N +ATOM 8950 CA SER B 176 -2.315 -26.483 56.154 1.00 69.65 C +ATOM 8951 C SER B 176 -3.099 -27.636 55.545 1.00 71.32 C +ATOM 8952 O SER B 176 -3.820 -28.345 56.251 1.00 70.91 O +ATOM 8953 CB SER B 176 -1.072 -27.012 56.880 1.00 65.69 C +ATOM 8954 OG SER B 176 -0.282 -25.950 57.385 1.00 73.99 O +ATOM 8955 N GLY B 177 -2.951 -27.813 54.234 1.00 74.26 N +ATOM 8956 CA GLY B 177 -3.589 -28.909 53.536 1.00 75.64 C +ATOM 8957 C GLY B 177 -5.065 -28.737 53.263 1.00 71.88 C +ATOM 8958 O GLY B 177 -5.726 -29.715 52.895 1.00 73.56 O +ATOM 8959 N ASN B 178 -5.609 -27.528 53.426 1.00 69.66 N +ATOM 8960 CA ASN B 178 -7.027 -27.286 53.188 1.00 69.76 C +ATOM 8961 C ASN B 178 -7.262 -26.028 52.356 1.00 70.92 C +ATOM 8962 O ASN B 178 -8.350 -25.445 52.419 1.00 68.02 O +ATOM 8963 CB ASN B 178 -7.791 -27.197 54.512 1.00 69.17 C +ATOM 8964 CG ASN B 178 -7.236 -26.130 55.436 1.00 72.43 C +ATOM 8965 OD1 ASN B 178 -6.113 -25.658 55.254 1.00 74.55 O +ATOM 8966 ND2 ASN B 178 -8.022 -25.745 56.435 1.00 69.66 N +ATOM 8967 N SER B 179 -6.269 -25.598 51.581 1.00 71.18 N +ATOM 8968 CA SER B 179 -6.401 -24.423 50.733 1.00 64.87 C +ATOM 8969 C SER B 179 -5.714 -24.686 49.402 1.00 67.53 C +ATOM 8970 O SER B 179 -4.769 -25.474 49.318 1.00 70.72 O +ATOM 8971 CB SER B 179 -5.805 -23.175 51.398 1.00 64.55 C +ATOM 8972 OG SER B 179 -4.436 -23.367 51.708 1.00 68.75 O +ATOM 8973 N GLN B 180 -6.202 -24.016 48.360 1.00 64.16 N +ATOM 8974 CA GLN B 180 -5.646 -24.161 47.020 1.00 62.30 C +ATOM 8975 C GLN B 180 -5.487 -22.800 46.360 1.00 62.18 C +ATOM 8976 O GLN B 180 -6.369 -21.945 46.464 1.00 61.74 O +ATOM 8977 CB GLN B 180 -6.517 -25.069 46.143 1.00 61.81 C +ATOM 8978 CG GLN B 180 -6.445 -26.538 46.519 1.00 66.51 C +ATOM 8979 CD GLN B 180 -7.237 -27.420 45.577 1.00 73.87 C +ATOM 8980 OE1 GLN B 180 -8.350 -27.078 45.177 1.00 76.97 O +ATOM 8981 NE2 GLN B 180 -6.662 -28.559 45.208 1.00 73.32 N +ATOM 8982 N GLU B 181 -4.363 -22.610 45.674 1.00 61.22 N +ATOM 8983 CA GLU B 181 -4.043 -21.353 45.014 1.00 60.70 C +ATOM 8984 C GLU B 181 -4.137 -21.498 43.501 1.00 60.29 C +ATOM 8985 O GLU B 181 -3.912 -22.577 42.945 1.00 61.19 O +ATOM 8986 CB GLU B 181 -2.638 -20.870 45.387 1.00 65.39 C +ATOM 8987 CG GLU B 181 -2.495 -20.358 46.807 1.00 72.57 C +ATOM 8988 CD GLU B 181 -1.134 -19.740 47.059 1.00 88.33 C +ATOM 8989 OE1 GLU B 181 -0.309 -19.718 46.120 1.00 78.59 O +ATOM 8990 OE2 GLU B 181 -0.889 -19.273 48.192 1.00 98.31 O +ATOM 8991 N SER B 182 -4.474 -20.392 42.842 1.00 59.97 N +ATOM 8992 CA SER B 182 -4.508 -20.335 41.386 1.00 55.81 C +ATOM 8993 C SER B 182 -4.080 -18.944 40.948 1.00 54.90 C +ATOM 8994 O SER B 182 -4.652 -17.949 41.402 1.00 55.15 O +ATOM 8995 CB SER B 182 -5.906 -20.659 40.850 1.00 55.84 C +ATOM 8996 OG SER B 182 -5.930 -20.618 39.434 1.00 56.84 O +ATOM 8997 N VAL B 183 -3.086 -18.877 40.065 1.00 51.92 N +ATOM 8998 CA VAL B 183 -2.501 -17.618 39.621 1.00 51.17 C +ATOM 8999 C VAL B 183 -2.762 -17.449 38.129 1.00 51.50 C +ATOM 9000 O VAL B 183 -2.698 -18.416 37.362 1.00 52.63 O +ATOM 9001 CB VAL B 183 -0.991 -17.563 39.940 1.00 54.64 C +ATOM 9002 CG1 VAL B 183 -0.297 -18.809 39.425 1.00 57.42 C +ATOM 9003 CG2 VAL B 183 -0.351 -16.302 39.372 1.00 54.18 C +ATOM 9004 N THR B 184 -3.062 -16.217 37.723 1.00 50.54 N +ATOM 9005 CA THR B 184 -3.350 -15.901 36.333 1.00 48.54 C +ATOM 9006 C THR B 184 -2.066 -15.764 35.518 1.00 52.98 C +ATOM 9007 O THR B 184 -0.953 -15.724 36.048 1.00 55.06 O +ATOM 9008 CB THR B 184 -4.151 -14.604 36.228 1.00 49.65 C +ATOM 9009 OG1 THR B 184 -3.333 -13.501 36.642 1.00 45.77 O +ATOM 9010 CG2 THR B 184 -5.391 -14.663 37.099 1.00 48.29 C +ATOM 9011 N GLU B 185 -2.243 -15.691 34.201 1.00 56.06 N +ATOM 9012 CA GLU B 185 -1.163 -15.335 33.299 1.00 54.50 C +ATOM 9013 C GLU B 185 -0.915 -13.830 33.360 1.00 53.17 C +ATOM 9014 O GLU B 185 -1.774 -13.051 33.782 1.00 51.27 O +ATOM 9015 CB GLU B 185 -1.490 -15.759 31.866 1.00 59.52 C +ATOM 9016 CG GLU B 185 -1.276 -17.237 31.579 1.00 63.17 C +ATOM 9017 CD GLU B 185 0.194 -17.612 31.521 1.00 75.51 C +ATOM 9018 OE1 GLU B 185 0.499 -18.822 31.478 1.00 83.79 O +ATOM 9019 OE2 GLU B 185 1.044 -16.696 31.519 1.00 70.23 O +ATOM 9020 N GLN B 186 0.285 -13.429 32.946 1.00 53.73 N +ATOM 9021 CA GLN B 186 0.660 -12.022 33.003 1.00 53.71 C +ATOM 9022 C GLN B 186 -0.281 -11.173 32.154 1.00 53.74 C +ATOM 9023 O GLN B 186 -0.538 -11.479 30.987 1.00 58.10 O +ATOM 9024 CB GLN B 186 2.108 -11.851 32.544 1.00 52.07 C +ATOM 9025 CG GLN B 186 2.762 -10.564 33.014 1.00 54.22 C +ATOM 9026 CD GLN B 186 4.263 -10.566 32.806 1.00 53.45 C +ATOM 9027 OE1 GLN B 186 4.816 -11.486 32.204 1.00 57.62 O +ATOM 9028 NE2 GLN B 186 4.932 -9.532 33.301 1.00 49.72 N +ATOM 9029 N ASP B 187 -0.800 -10.105 32.756 1.00 52.19 N +ATOM 9030 CA ASP B 187 -1.741 -9.228 32.073 1.00 57.41 C +ATOM 9031 C ASP B 187 -1.031 -8.452 30.969 1.00 61.42 C +ATOM 9032 O ASP B 187 0.100 -7.991 31.140 1.00 62.68 O +ATOM 9033 CB ASP B 187 -2.386 -8.272 33.078 1.00 57.08 C +ATOM 9034 CG ASP B 187 -3.589 -7.531 32.511 1.00 63.77 C +ATOM 9035 OD1 ASP B 187 -3.613 -7.232 31.298 1.00 66.32 O +ATOM 9036 OD2 ASP B 187 -4.522 -7.247 33.292 1.00 66.06 O +ATOM 9037 N SER B 188 -1.705 -8.308 29.827 1.00 64.41 N +ATOM 9038 CA SER B 188 -1.123 -7.620 28.681 1.00 64.24 C +ATOM 9039 C SER B 188 -1.140 -6.102 28.813 1.00 65.48 C +ATOM 9040 O SER B 188 -0.588 -5.419 27.945 1.00 69.58 O +ATOM 9041 CB SER B 188 -1.854 -8.027 27.399 1.00 72.59 C +ATOM 9042 OG SER B 188 -1.614 -9.388 27.085 1.00 78.90 O +ATOM 9043 N LYS B 189 -1.751 -5.559 29.865 1.00 64.82 N +ATOM 9044 CA LYS B 189 -1.870 -4.116 30.050 1.00 67.10 C +ATOM 9045 C LYS B 189 -0.915 -3.572 31.107 1.00 68.24 C +ATOM 9046 O LYS B 189 -0.177 -2.621 30.835 1.00 73.45 O +ATOM 9047 CB LYS B 189 -3.319 -3.728 30.391 1.00 69.88 C +ATOM 9048 CG LYS B 189 -4.278 -3.615 29.191 1.00 81.27 C +ATOM 9049 CD LYS B 189 -4.196 -4.769 28.202 1.00 84.78 C +ATOM 9050 CE LYS B 189 -5.013 -4.478 26.951 1.00 85.69 C +ATOM 9051 NZ LYS B 189 -4.778 -5.489 25.882 1.00 90.92 N +ATOM 9052 N ASP B 190 -0.913 -4.144 32.309 1.00 60.77 N +ATOM 9053 CA ASP B 190 -0.032 -3.678 33.372 1.00 60.23 C +ATOM 9054 C ASP B 190 1.083 -4.662 33.699 1.00 58.30 C +ATOM 9055 O ASP B 190 1.884 -4.389 34.600 1.00 55.22 O +ATOM 9056 CB ASP B 190 -0.841 -3.363 34.639 1.00 58.91 C +ATOM 9057 CG ASP B 190 -1.635 -4.555 35.147 1.00 59.52 C +ATOM 9058 OD1 ASP B 190 -1.478 -5.667 34.602 1.00 60.66 O +ATOM 9059 OD2 ASP B 190 -2.417 -4.380 36.106 1.00 55.13 O +ATOM 9060 N SER B 191 1.149 -5.799 33.001 1.00 57.13 N +ATOM 9061 CA SER B 191 2.231 -6.775 33.152 1.00 56.48 C +ATOM 9062 C SER B 191 2.277 -7.358 34.561 1.00 52.17 C +ATOM 9063 O SER B 191 3.341 -7.746 35.050 1.00 54.68 O +ATOM 9064 CB SER B 191 3.588 -6.169 32.778 1.00 55.24 C +ATOM 9065 OG SER B 191 3.553 -5.598 31.481 1.00 58.80 O +ATOM 9066 N THR B 192 1.128 -7.428 35.223 1.00 51.33 N +ATOM 9067 CA THR B 192 1.022 -7.922 36.587 1.00 53.16 C +ATOM 9068 C THR B 192 0.412 -9.320 36.603 1.00 51.76 C +ATOM 9069 O THR B 192 0.044 -9.884 35.568 1.00 53.14 O +ATOM 9070 CB THR B 192 0.191 -6.969 37.449 1.00 51.92 C +ATOM 9071 OG1 THR B 192 -1.150 -6.919 36.948 1.00 54.83 O +ATOM 9072 CG2 THR B 192 0.789 -5.573 37.433 1.00 51.65 C +ATOM 9073 N TYR B 193 0.308 -9.873 37.808 1.00 49.77 N +ATOM 9074 CA TYR B 193 -0.315 -11.164 38.042 1.00 49.52 C +ATOM 9075 C TYR B 193 -1.404 -10.994 39.091 1.00 51.00 C +ATOM 9076 O TYR B 193 -1.465 -9.983 39.795 1.00 51.20 O +ATOM 9077 CB TYR B 193 0.697 -12.217 38.523 1.00 49.54 C +ATOM 9078 CG TYR B 193 1.820 -12.516 37.556 1.00 52.48 C +ATOM 9079 CD1 TYR B 193 2.969 -11.737 37.535 1.00 52.65 C +ATOM 9080 CD2 TYR B 193 1.741 -13.591 36.681 1.00 53.91 C +ATOM 9081 CE1 TYR B 193 4.002 -12.011 36.660 1.00 53.91 C +ATOM 9082 CE2 TYR B 193 2.771 -13.873 35.802 1.00 55.24 C +ATOM 9083 CZ TYR B 193 3.898 -13.079 35.797 1.00 55.70 C +ATOM 9084 OH TYR B 193 4.927 -13.354 34.925 1.00 60.82 O +ATOM 9085 N SER B 194 -2.269 -12.000 39.189 1.00 50.44 N +ATOM 9086 CA SER B 194 -3.277 -12.052 40.235 1.00 48.89 C +ATOM 9087 C SER B 194 -3.390 -13.482 40.739 1.00 51.78 C +ATOM 9088 O SER B 194 -3.227 -14.440 39.978 1.00 51.48 O +ATOM 9089 CB SER B 194 -4.638 -11.544 39.744 1.00 51.04 C +ATOM 9090 OG SER B 194 -4.592 -10.151 39.486 1.00 54.47 O +ATOM 9091 N LEU B 195 -3.674 -13.616 42.031 1.00 52.59 N +ATOM 9092 CA LEU B 195 -3.711 -14.907 42.701 1.00 52.95 C +ATOM 9093 C LEU B 195 -4.999 -15.023 43.502 1.00 51.19 C +ATOM 9094 O LEU B 195 -5.484 -14.037 44.062 1.00 51.29 O +ATOM 9095 CB LEU B 195 -2.492 -15.080 43.621 1.00 56.56 C +ATOM 9096 CG LEU B 195 -2.427 -16.288 44.558 1.00 61.17 C +ATOM 9097 CD1 LEU B 195 -2.532 -17.587 43.778 1.00 64.37 C +ATOM 9098 CD2 LEU B 195 -1.149 -16.258 45.380 1.00 60.54 C +ATOM 9099 N SER B 196 -5.558 -16.230 43.540 1.00 50.19 N +ATOM 9100 CA SER B 196 -6.748 -16.520 44.329 1.00 53.73 C +ATOM 9101 C SER B 196 -6.465 -17.745 45.182 1.00 58.98 C +ATOM 9102 O SER B 196 -6.110 -18.803 44.651 1.00 59.59 O +ATOM 9103 CB SER B 196 -7.969 -16.754 43.435 1.00 50.30 C +ATOM 9104 OG SER B 196 -7.969 -18.067 42.903 1.00 58.81 O +ATOM 9105 N SER B 197 -6.608 -17.596 46.496 1.00 59.16 N +ATOM 9106 CA SER B 197 -6.424 -18.685 47.446 1.00 60.84 C +ATOM 9107 C SER B 197 -7.772 -19.021 48.070 1.00 61.27 C +ATOM 9108 O SER B 197 -8.396 -18.165 48.705 1.00 63.28 O +ATOM 9109 CB SER B 197 -5.408 -18.307 48.524 1.00 59.63 C +ATOM 9110 OG SER B 197 -5.008 -19.444 49.270 1.00 61.86 O +ATOM 9111 N THR B 198 -8.217 -20.258 47.885 1.00 61.06 N +ATOM 9112 CA THR B 198 -9.506 -20.720 48.380 1.00 59.39 C +ATOM 9113 C THR B 198 -9.275 -21.669 49.547 1.00 61.62 C +ATOM 9114 O THR B 198 -8.609 -22.699 49.391 1.00 63.93 O +ATOM 9115 CB THR B 198 -10.305 -21.413 47.276 1.00 58.89 C +ATOM 9116 OG1 THR B 198 -10.429 -20.534 46.150 1.00 65.46 O +ATOM 9117 CG2 THR B 198 -11.692 -21.784 47.778 1.00 60.72 C +ATOM 9118 N LEU B 199 -9.804 -21.302 50.713 1.00 60.53 N +ATOM 9119 CA LEU B 199 -9.798 -22.143 51.903 1.00 62.70 C +ATOM 9120 C LEU B 199 -11.153 -22.830 52.009 1.00 61.01 C +ATOM 9121 O LEU B 199 -12.190 -22.159 52.051 1.00 60.84 O +ATOM 9122 CB LEU B 199 -9.513 -21.312 53.154 1.00 63.05 C +ATOM 9123 CG LEU B 199 -9.551 -22.042 54.498 1.00 63.34 C +ATOM 9124 CD1 LEU B 199 -8.303 -22.887 54.680 1.00 66.32 C +ATOM 9125 CD2 LEU B 199 -9.710 -21.054 55.644 1.00 59.95 C +ATOM 9126 N THR B 200 -11.145 -24.159 52.050 1.00 63.18 N +ATOM 9127 CA THR B 200 -12.365 -24.954 52.031 1.00 67.81 C +ATOM 9128 C THR B 200 -12.548 -25.662 53.366 1.00 67.83 C +ATOM 9129 O THR B 200 -11.643 -26.362 53.833 1.00 64.20 O +ATOM 9130 CB THR B 200 -12.330 -25.977 50.893 1.00 69.87 C +ATOM 9131 OG1 THR B 200 -12.260 -25.293 49.637 1.00 69.20 O +ATOM 9132 CG2 THR B 200 -13.580 -26.844 50.918 1.00 72.86 C +ATOM 9133 N LEU B 201 -13.719 -25.476 53.976 1.00 69.65 N +ATOM 9134 CA LEU B 201 -14.061 -26.117 55.236 1.00 70.72 C +ATOM 9135 C LEU B 201 -15.491 -26.633 55.160 1.00 71.49 C +ATOM 9136 O LEU B 201 -16.246 -26.316 54.236 1.00 73.53 O +ATOM 9137 CB LEU B 201 -13.911 -25.155 56.423 1.00 69.07 C +ATOM 9138 CG LEU B 201 -12.550 -24.499 56.658 1.00 67.83 C +ATOM 9139 CD1 LEU B 201 -12.660 -23.417 57.721 1.00 67.67 C +ATOM 9140 CD2 LEU B 201 -11.517 -25.541 57.056 1.00 71.82 C +ATOM 9141 N SER B 202 -15.863 -27.430 56.153 1.00 73.15 N +ATOM 9142 CA SER B 202 -17.242 -27.857 56.320 1.00 73.80 C +ATOM 9143 C SER B 202 -18.018 -26.810 57.113 1.00 78.61 C +ATOM 9144 O SER B 202 -17.442 -25.995 57.838 1.00 80.32 O +ATOM 9145 CB SER B 202 -17.309 -29.213 57.023 1.00 75.83 C +ATOM 9146 OG SER B 202 -16.763 -29.139 58.328 1.00 82.19 O +ATOM 9147 N LYS B 203 -19.344 -26.827 56.946 1.00 78.07 N +ATOM 9148 CA LYS B 203 -20.197 -25.909 57.696 1.00 79.56 C +ATOM 9149 C LYS B 203 -19.966 -26.038 59.197 1.00 80.44 C +ATOM 9150 O LYS B 203 -19.971 -25.037 59.924 1.00 81.66 O +ATOM 9151 CB LYS B 203 -21.668 -26.165 57.363 1.00 79.97 C +ATOM 9152 CG LYS B 203 -22.632 -25.238 58.086 1.00 79.06 C +ATOM 9153 CD LYS B 203 -24.072 -25.500 57.682 1.00 78.92 C +ATOM 9154 CE LYS B 203 -25.026 -24.562 58.405 1.00 82.58 C +ATOM 9155 NZ LYS B 203 -26.439 -24.771 57.985 1.00 84.13 N +ATOM 9156 N ALA B 204 -19.751 -27.265 59.676 1.00 78.09 N +ATOM 9157 CA ALA B 204 -19.456 -27.479 61.089 1.00 87.46 C +ATOM 9158 C ALA B 204 -18.175 -26.760 61.495 1.00 88.78 C +ATOM 9159 O ALA B 204 -18.172 -25.933 62.415 1.00 86.95 O +ATOM 9160 CB ALA B 204 -19.355 -28.978 61.379 1.00100.32 C +ATOM 9161 N ASP B 205 -17.069 -27.068 60.811 1.00 86.07 N +ATOM 9162 CA ASP B 205 -15.795 -26.436 61.139 1.00 85.88 C +ATOM 9163 C ASP B 205 -15.842 -24.929 60.928 1.00 82.04 C +ATOM 9164 O ASP B 205 -15.171 -24.182 61.648 1.00 81.02 O +ATOM 9165 CB ASP B 205 -14.672 -27.048 60.302 1.00 83.20 C +ATOM 9166 CG ASP B 205 -14.408 -28.499 60.649 1.00 89.81 C +ATOM 9167 OD1 ASP B 205 -15.176 -29.070 61.451 1.00 95.90 O +ATOM 9168 OD2 ASP B 205 -13.429 -29.069 60.121 1.00 94.44 O +ATOM 9169 N TYR B 206 -16.625 -24.462 59.951 1.00 80.30 N +ATOM 9170 CA TYR B 206 -16.708 -23.027 59.706 1.00 77.31 C +ATOM 9171 C TYR B 206 -17.436 -22.312 60.838 1.00 78.96 C +ATOM 9172 O TYR B 206 -16.932 -21.327 61.389 1.00 76.20 O +ATOM 9173 CB TYR B 206 -17.400 -22.749 58.373 1.00 70.46 C +ATOM 9174 CG TYR B 206 -17.586 -21.272 58.111 1.00 66.32 C +ATOM 9175 CD1 TYR B 206 -16.512 -20.470 57.751 1.00 65.93 C +ATOM 9176 CD2 TYR B 206 -18.831 -20.674 58.252 1.00 67.25 C +ATOM 9177 CE1 TYR B 206 -16.675 -19.118 57.519 1.00 64.25 C +ATOM 9178 CE2 TYR B 206 -19.005 -19.324 58.021 1.00 65.74 C +ATOM 9179 CZ TYR B 206 -17.924 -18.550 57.657 1.00 63.74 C +ATOM 9180 OH TYR B 206 -18.094 -17.204 57.429 1.00 63.36 O +ATOM 9181 N GLU B 207 -18.628 -22.794 61.201 1.00 82.68 N +ATOM 9182 CA GLU B 207 -19.370 -22.181 62.295 1.00 82.90 C +ATOM 9183 C GLU B 207 -18.737 -22.448 63.652 1.00 84.40 C +ATOM 9184 O GLU B 207 -19.139 -21.821 64.639 1.00 80.37 O +ATOM 9185 CB GLU B 207 -20.817 -22.680 62.291 1.00 84.41 C +ATOM 9186 CG GLU B 207 -21.605 -22.291 61.050 1.00 86.47 C +ATOM 9187 CD GLU B 207 -23.015 -22.851 61.053 1.00 91.22 C +ATOM 9188 OE1 GLU B 207 -23.279 -23.798 61.824 1.00 92.06 O +ATOM 9189 OE2 GLU B 207 -23.858 -22.346 60.283 1.00 90.55 O +ATOM 9190 N LYS B 208 -17.763 -23.354 63.724 1.00 88.78 N +ATOM 9191 CA LYS B 208 -17.076 -23.640 64.976 1.00 86.35 C +ATOM 9192 C LYS B 208 -16.095 -22.546 65.384 1.00 86.81 C +ATOM 9193 O LYS B 208 -15.761 -22.447 66.570 1.00 91.90 O +ATOM 9194 CB LYS B 208 -16.349 -24.982 64.860 1.00 90.96 C +ATOM 9195 CG LYS B 208 -16.443 -25.858 66.095 1.00 98.75 C +ATOM 9196 CD LYS B 208 -15.852 -27.233 65.830 1.00102.66 C +ATOM 9197 CE LYS B 208 -16.726 -28.021 64.862 1.00103.02 C +ATOM 9198 NZ LYS B 208 -16.187 -29.382 64.591 1.00104.79 N +ATOM 9199 N HIS B 209 -15.630 -21.727 64.443 1.00 84.37 N +ATOM 9200 CA HIS B 209 -14.641 -20.691 64.713 1.00 78.82 C +ATOM 9201 C HIS B 209 -15.181 -19.318 64.322 1.00 77.80 C +ATOM 9202 O HIS B 209 -16.263 -19.190 63.742 1.00 79.45 O +ATOM 9203 CB HIS B 209 -13.330 -20.988 63.979 1.00 77.72 C +ATOM 9204 CG HIS B 209 -12.710 -22.296 64.365 1.00 82.61 C +ATOM 9205 ND1 HIS B 209 -13.157 -23.504 63.875 1.00 85.55 N +ATOM 9206 CD2 HIS B 209 -11.686 -22.586 65.202 1.00 83.09 C +ATOM 9207 CE1 HIS B 209 -12.432 -24.481 64.389 1.00 85.82 C +ATOM 9208 NE2 HIS B 209 -11.532 -23.951 65.197 1.00 86.51 N +ATOM 9209 N LYS B 210 -14.401 -18.280 64.643 1.00 72.43 N +ATOM 9210 CA LYS B 210 -14.849 -16.895 64.510 1.00 73.36 C +ATOM 9211 C LYS B 210 -14.044 -16.087 63.501 1.00 74.72 C +ATOM 9212 O LYS B 210 -14.625 -15.541 62.556 1.00 71.80 O +ATOM 9213 CB LYS B 210 -14.789 -16.202 65.877 1.00 72.46 C +ATOM 9214 CG LYS B 210 -15.194 -14.736 65.837 1.00 75.64 C +ATOM 9215 CD LYS B 210 -15.003 -14.070 67.188 1.00 78.60 C +ATOM 9216 CE LYS B 210 -15.340 -12.589 67.131 1.00 81.26 C +ATOM 9217 NZ LYS B 210 -15.116 -11.920 68.443 1.00 86.98 N +ATOM 9218 N VAL B 211 -12.727 -15.986 63.669 1.00 78.14 N +ATOM 9219 CA VAL B 211 -11.892 -15.083 62.881 1.00 71.42 C +ATOM 9220 C VAL B 211 -11.270 -15.852 61.728 1.00 67.68 C +ATOM 9221 O VAL B 211 -10.714 -16.940 61.927 1.00 65.71 O +ATOM 9222 CB VAL B 211 -10.802 -14.434 63.752 1.00 68.45 C +ATOM 9223 CG1 VAL B 211 -10.012 -13.414 62.946 1.00 66.39 C +ATOM 9224 CG2 VAL B 211 -11.416 -13.789 64.986 1.00 69.43 C +ATOM 9225 N TYR B 212 -11.354 -15.287 60.524 1.00 67.49 N +ATOM 9226 CA TYR B 212 -10.743 -15.878 59.338 1.00 63.97 C +ATOM 9227 C TYR B 212 -9.894 -14.819 58.656 1.00 61.13 C +ATOM 9228 O TYR B 212 -10.397 -13.741 58.324 1.00 59.18 O +ATOM 9229 CB TYR B 212 -11.805 -16.422 58.381 1.00 61.11 C +ATOM 9230 CG TYR B 212 -12.546 -17.617 58.929 1.00 67.27 C +ATOM 9231 CD1 TYR B 212 -13.592 -17.457 59.829 1.00 67.94 C +ATOM 9232 CD2 TYR B 212 -12.191 -18.906 58.557 1.00 68.36 C +ATOM 9233 CE1 TYR B 212 -14.267 -18.547 60.337 1.00 66.07 C +ATOM 9234 CE2 TYR B 212 -12.861 -20.002 59.059 1.00 69.65 C +ATOM 9235 CZ TYR B 212 -13.897 -19.815 59.948 1.00 70.57 C +ATOM 9236 OH TYR B 212 -14.565 -20.903 60.452 1.00 73.85 O +ATOM 9237 N ALA B 213 -8.615 -15.125 58.440 1.00 59.96 N +ATOM 9238 CA ALA B 213 -7.679 -14.156 57.893 1.00 56.52 C +ATOM 9239 C ALA B 213 -6.743 -14.827 56.901 1.00 58.23 C +ATOM 9240 O ALA B 213 -6.402 -16.005 57.037 1.00 58.48 O +ATOM 9241 CB ALA B 213 -6.849 -13.493 58.999 1.00 56.79 C +ATOM 9242 N CYS B 214 -6.329 -14.058 55.898 1.00 59.48 N +ATOM 9243 CA CYS B 214 -5.214 -14.430 55.040 1.00 56.77 C +ATOM 9244 C CYS B 214 -4.114 -13.390 55.189 1.00 55.36 C +ATOM 9245 O CYS B 214 -4.373 -12.181 55.114 1.00 51.87 O +ATOM 9246 CB CYS B 214 -5.633 -14.589 53.571 1.00 52.76 C +ATOM 9247 SG CYS B 214 -6.506 -13.218 52.784 1.00 65.08 S +ATOM 9248 N GLU B 215 -2.898 -13.872 55.430 1.00 58.93 N +ATOM 9249 CA GLU B 215 -1.708 -13.048 55.582 1.00 59.86 C +ATOM 9250 C GLU B 215 -0.854 -13.218 54.334 1.00 58.72 C +ATOM 9251 O GLU B 215 -0.496 -14.345 53.971 1.00 60.53 O +ATOM 9252 CB GLU B 215 -0.933 -13.445 56.839 1.00 66.28 C +ATOM 9253 CG GLU B 215 0.191 -12.499 57.224 1.00 67.31 C +ATOM 9254 CD GLU B 215 0.853 -12.894 58.531 1.00 80.70 C +ATOM 9255 OE1 GLU B 215 0.887 -14.104 58.837 1.00 78.23 O +ATOM 9256 OE2 GLU B 215 1.332 -11.995 59.254 1.00103.41 O +ATOM 9257 N VAL B 216 -0.533 -12.105 53.684 1.00 56.55 N +ATOM 9258 CA VAL B 216 0.156 -12.093 52.402 1.00 55.85 C +ATOM 9259 C VAL B 216 1.525 -11.458 52.591 1.00 52.97 C +ATOM 9260 O VAL B 216 1.644 -10.388 53.204 1.00 52.19 O +ATOM 9261 CB VAL B 216 -0.656 -11.331 51.341 1.00 53.70 C +ATOM 9262 CG1 VAL B 216 0.147 -11.179 50.061 1.00 51.72 C +ATOM 9263 CG2 VAL B 216 -1.974 -12.041 51.073 1.00 56.35 C +ATOM 9264 N THR B 217 2.554 -12.122 52.070 1.00 50.70 N +ATOM 9265 CA THR B 217 3.895 -11.566 51.987 1.00 49.36 C +ATOM 9266 C THR B 217 4.343 -11.554 50.532 1.00 53.39 C +ATOM 9267 O THR B 217 4.078 -12.499 49.777 1.00 53.89 O +ATOM 9268 CB THR B 217 4.894 -12.359 52.846 1.00 50.46 C +ATOM 9269 OG1 THR B 217 5.537 -13.357 52.044 1.00 55.30 O +ATOM 9270 CG2 THR B 217 4.193 -13.024 54.022 1.00 55.17 C +ATOM 9271 N HIS B 218 5.020 -10.475 50.144 1.00 52.36 N +ATOM 9272 CA HIS B 218 5.430 -10.269 48.764 1.00 48.94 C +ATOM 9273 C HIS B 218 6.674 -9.394 48.749 1.00 49.34 C +ATOM 9274 O HIS B 218 6.969 -8.683 49.714 1.00 50.57 O +ATOM 9275 CB HIS B 218 4.307 -9.636 47.931 1.00 49.30 C +ATOM 9276 CG HIS B 218 4.641 -9.485 46.479 1.00 48.57 C +ATOM 9277 ND1 HIS B 218 4.850 -8.257 45.887 1.00 45.68 N +ATOM 9278 CD2 HIS B 218 4.808 -10.406 45.501 1.00 46.93 C +ATOM 9279 CE1 HIS B 218 5.130 -8.430 44.608 1.00 47.79 C +ATOM 9280 NE2 HIS B 218 5.111 -9.724 44.348 1.00 47.27 N +ATOM 9281 N GLN B 219 7.408 -9.462 47.634 1.00 48.97 N +ATOM 9282 CA GLN B 219 8.624 -8.670 47.479 1.00 49.31 C +ATOM 9283 C GLN B 219 8.363 -7.177 47.657 1.00 49.91 C +ATOM 9284 O GLN B 219 9.263 -6.435 48.068 1.00 52.18 O +ATOM 9285 CB GLN B 219 9.242 -8.947 46.106 1.00 51.64 C +ATOM 9286 CG GLN B 219 10.527 -8.192 45.816 1.00 51.21 C +ATOM 9287 CD GLN B 219 11.140 -8.581 44.484 1.00 48.95 C +ATOM 9288 OE1 GLN B 219 11.031 -9.727 44.048 1.00 43.57 O +ATOM 9289 NE2 GLN B 219 11.783 -7.622 43.827 1.00 46.78 N +ATOM 9290 N GLY B 220 7.148 -6.720 47.371 1.00 50.02 N +ATOM 9291 CA GLY B 220 6.798 -5.320 47.487 1.00 50.34 C +ATOM 9292 C GLY B 220 6.114 -4.911 48.772 1.00 51.55 C +ATOM 9293 O GLY B 220 5.589 -3.794 48.844 1.00 61.76 O +ATOM 9294 N LEU B 221 6.103 -5.768 49.789 1.00 49.57 N +ATOM 9295 CA LEU B 221 5.471 -5.467 51.070 1.00 50.32 C +ATOM 9296 C LEU B 221 6.550 -5.439 52.144 1.00 51.10 C +ATOM 9297 O LEU B 221 7.127 -6.480 52.475 1.00 53.59 O +ATOM 9298 CB LEU B 221 4.389 -6.493 51.402 1.00 52.87 C +ATOM 9299 CG LEU B 221 3.183 -6.534 50.460 1.00 50.96 C +ATOM 9300 CD1 LEU B 221 2.240 -7.666 50.837 1.00 49.47 C +ATOM 9301 CD2 LEU B 221 2.455 -5.201 50.474 1.00 43.93 C +ATOM 9302 N SER B 222 6.811 -4.251 52.695 1.00 50.95 N +ATOM 9303 CA SER B 222 7.790 -4.111 53.767 1.00 50.28 C +ATOM 9304 C SER B 222 7.377 -4.844 55.035 1.00 50.25 C +ATOM 9305 O SER B 222 8.208 -5.010 55.934 1.00 51.00 O +ATOM 9306 CB SER B 222 8.018 -2.631 54.079 1.00 52.22 C +ATOM 9307 OG SER B 222 6.834 -2.026 54.566 1.00 58.54 O +ATOM 9308 N SER B 223 6.122 -5.269 55.130 1.00 47.90 N +ATOM 9309 CA SER B 223 5.631 -6.067 56.243 1.00 52.12 C +ATOM 9310 C SER B 223 4.402 -6.826 55.767 1.00 49.47 C +ATOM 9311 O SER B 223 3.749 -6.406 54.803 1.00 47.92 O +ATOM 9312 CB SER B 223 5.297 -5.185 57.458 1.00 51.60 C +ATOM 9313 OG SER B 223 4.379 -4.162 57.114 1.00 55.41 O +ATOM 9314 N PRO B 224 4.071 -7.952 56.402 1.00 46.61 N +ATOM 9315 CA PRO B 224 2.933 -8.750 55.929 1.00 48.28 C +ATOM 9316 C PRO B 224 1.634 -7.959 55.969 1.00 50.58 C +ATOM 9317 O PRO B 224 1.421 -7.109 56.837 1.00 49.51 O +ATOM 9318 CB PRO B 224 2.897 -9.933 56.904 1.00 51.11 C +ATOM 9319 CG PRO B 224 4.279 -10.018 57.450 1.00 53.69 C +ATOM 9320 CD PRO B 224 4.783 -8.609 57.511 1.00 47.36 C +ATOM 9321 N VAL B 225 0.763 -8.243 55.004 1.00 52.63 N +ATOM 9322 CA VAL B 225 -0.545 -7.604 54.903 1.00 51.98 C +ATOM 9323 C VAL B 225 -1.597 -8.645 55.254 1.00 53.60 C +ATOM 9324 O VAL B 225 -1.726 -9.662 54.565 1.00 56.07 O +ATOM 9325 CB VAL B 225 -0.789 -7.020 53.504 1.00 49.17 C +ATOM 9326 CG1 VAL B 225 -2.253 -6.642 53.335 1.00 50.17 C +ATOM 9327 CG2 VAL B 225 0.104 -5.813 53.273 1.00 44.19 C +ATOM 9328 N THR B 226 -2.345 -8.398 56.321 1.00 54.17 N +ATOM 9329 CA THR B 226 -3.349 -9.336 56.801 1.00 57.41 C +ATOM 9330 C THR B 226 -4.740 -8.786 56.526 1.00 54.80 C +ATOM 9331 O THR B 226 -5.047 -7.647 56.897 1.00 54.20 O +ATOM 9332 CB THR B 226 -3.180 -9.604 58.299 1.00 63.45 C +ATOM 9333 OG1 THR B 226 -1.836 -10.027 58.563 1.00 63.87 O +ATOM 9334 CG2 THR B 226 -4.147 -10.686 58.757 1.00 57.82 C +ATOM 9335 N LYS B 227 -5.576 -9.591 55.876 1.00 56.15 N +ATOM 9336 CA LYS B 227 -6.981 -9.260 55.678 1.00 55.52 C +ATOM 9337 C LYS B 227 -7.834 -10.308 56.372 1.00 55.41 C +ATOM 9338 O LYS B 227 -7.686 -11.507 56.113 1.00 54.89 O +ATOM 9339 CB LYS B 227 -7.343 -9.168 54.193 1.00 50.96 C +ATOM 9340 CG LYS B 227 -6.863 -7.894 53.522 1.00 52.34 C +ATOM 9341 CD LYS B 227 -7.713 -6.710 53.966 1.00 50.33 C +ATOM 9342 CE LYS B 227 -7.401 -5.456 53.167 1.00 55.02 C +ATOM 9343 NZ LYS B 227 -6.088 -4.866 53.541 1.00 66.64 N +ATOM 9344 N SER B 228 -8.732 -9.850 57.240 1.00 56.51 N +ATOM 9345 CA SER B 228 -9.467 -10.736 58.125 1.00 57.45 C +ATOM 9346 C SER B 228 -10.927 -10.316 58.177 1.00 57.68 C +ATOM 9347 O SER B 228 -11.305 -9.222 57.749 1.00 59.71 O +ATOM 9348 CB SER B 228 -8.874 -10.733 59.539 1.00 61.07 C +ATOM 9349 OG SER B 228 -9.027 -9.468 60.157 1.00 67.37 O +ATOM 9350 N PHE B 229 -11.745 -11.214 58.715 1.00 61.30 N +ATOM 9351 CA PHE B 229 -13.139 -10.918 58.993 1.00 63.01 C +ATOM 9352 C PHE B 229 -13.613 -11.801 60.134 1.00 68.06 C +ATOM 9353 O PHE B 229 -13.127 -12.921 60.331 1.00 65.92 O +ATOM 9354 CB PHE B 229 -14.035 -11.096 57.757 1.00 59.52 C +ATOM 9355 CG PHE B 229 -14.240 -12.525 57.342 1.00 60.41 C +ATOM 9356 CD1 PHE B 229 -15.272 -13.284 57.878 1.00 61.73 C +ATOM 9357 CD2 PHE B 229 -13.413 -13.103 56.398 1.00 61.26 C +ATOM 9358 CE1 PHE B 229 -15.458 -14.597 57.488 1.00 61.91 C +ATOM 9359 CE2 PHE B 229 -13.596 -14.411 56.002 1.00 62.13 C +ATOM 9360 CZ PHE B 229 -14.619 -15.161 56.548 1.00 63.59 C +ATOM 9361 N ASN B 230 -14.577 -11.277 60.881 1.00 74.21 N +ATOM 9362 CA ASN B 230 -15.231 -12.025 61.941 1.00 76.86 C +ATOM 9363 C ASN B 230 -16.490 -12.673 61.385 1.00 74.23 C +ATOM 9364 O ASN B 230 -17.280 -12.017 60.699 1.00 73.98 O +ATOM 9365 CB ASN B 230 -15.585 -11.103 63.109 1.00 80.47 C +ATOM 9366 CG ASN B 230 -14.365 -10.662 63.885 1.00 80.79 C +ATOM 9367 OD1 ASN B 230 -13.720 -11.468 64.555 1.00 80.18 O +ATOM 9368 ND2 ASN B 230 -14.053 -9.375 63.819 1.00 84.86 N +ATOM 9369 N ARG B 231 -16.659 -13.964 61.667 1.00 73.09 N +ATOM 9370 CA ARG B 231 -17.826 -14.691 61.183 1.00 73.33 C +ATOM 9371 C ARG B 231 -19.103 -14.014 61.672 1.00 80.04 C +ATOM 9372 O ARG B 231 -19.372 -13.957 62.877 1.00 80.70 O +ATOM 9373 CB ARG B 231 -17.763 -16.151 61.624 1.00 72.28 C +ATOM 9374 CG ARG B 231 -18.968 -16.978 61.220 1.00 73.02 C +ATOM 9375 CD ARG B 231 -18.695 -18.455 61.452 1.00 76.17 C +ATOM 9376 NE ARG B 231 -18.544 -18.758 62.871 1.00 81.89 N +ATOM 9377 CZ ARG B 231 -19.545 -18.833 63.742 1.00 80.51 C +ATOM 9378 NH1 ARG B 231 -20.794 -18.629 63.347 1.00 80.32 N +ATOM 9379 NH2 ARG B 231 -19.290 -19.111 65.013 1.00 83.27 N +ATOM 9380 N GLY B 232 -19.876 -13.484 60.731 1.00 85.35 N +ATOM 9381 CA GLY B 232 -21.117 -12.803 61.036 1.00 87.00 C +ATOM 9382 C GLY B 232 -21.054 -11.366 60.567 1.00 99.76 C +ATOM 9383 O GLY B 232 -20.846 -11.112 59.376 1.00109.75 O +ATOM 9384 N GLU B 233 -21.209 -10.428 61.498 1.00102.81 N +ATOM 9385 CA GLU B 233 -21.181 -8.995 61.208 1.00108.85 C +ATOM 9386 C GLU B 233 -21.947 -8.617 59.943 1.00109.55 C +ATOM 9387 O GLU B 233 -21.345 -8.253 58.934 1.00110.03 O +ATOM 9388 CB GLU B 233 -19.735 -8.510 61.100 1.00108.90 C +ATOM 9389 CG GLU B 233 -19.003 -8.483 62.431 1.00114.04 C +ATOM 9390 CD GLU B 233 -17.650 -7.807 62.337 1.00128.66 C +ATOM 9391 OE1 GLU B 233 -16.733 -8.386 61.716 1.00117.98 O +ATOM 9392 OE2 GLU B 233 -17.511 -6.687 62.871 1.00147.28 O +ATOM 9393 N GLU C 1 -23.221 -2.154 31.758 1.00 75.89 N +ATOM 9394 CA GLU C 1 -22.209 -1.129 31.980 1.00 74.22 C +ATOM 9395 C GLU C 1 -22.787 0.252 31.694 1.00 70.90 C +ATOM 9396 O GLU C 1 -23.896 0.371 31.172 1.00 70.33 O +ATOM 9397 CB GLU C 1 -20.984 -1.390 31.096 1.00 84.50 C +ATOM 9398 CG GLU C 1 -21.003 -0.698 29.728 1.00 77.68 C +ATOM 9399 CD GLU C 1 -22.074 -1.223 28.779 1.00 86.03 C +ATOM 9400 OE1 GLU C 1 -22.914 -2.052 29.188 1.00 98.42 O +ATOM 9401 OE2 GLU C 1 -22.073 -0.798 27.604 1.00 90.55 O +ATOM 9402 N VAL C 2 -22.032 1.298 32.032 1.00 67.34 N +ATOM 9403 CA VAL C 2 -22.486 2.656 31.769 1.00 62.05 C +ATOM 9404 C VAL C 2 -22.385 2.947 30.278 1.00 65.19 C +ATOM 9405 O VAL C 2 -21.413 2.563 29.612 1.00 67.69 O +ATOM 9406 CB VAL C 2 -21.670 3.665 32.595 1.00 59.64 C +ATOM 9407 CG1 VAL C 2 -22.156 5.085 32.344 1.00 55.69 C +ATOM 9408 CG2 VAL C 2 -21.753 3.324 34.077 1.00 61.11 C +ATOM 9409 N GLN C 3 -23.394 3.634 29.747 1.00 62.95 N +ATOM 9410 CA GLN C 3 -23.459 3.987 28.336 1.00 62.61 C +ATOM 9411 C GLN C 3 -24.004 5.399 28.220 1.00 60.13 C +ATOM 9412 O GLN C 3 -24.996 5.737 28.875 1.00 61.04 O +ATOM 9413 CB GLN C 3 -24.357 3.026 27.548 1.00 67.60 C +ATOM 9414 CG GLN C 3 -23.883 1.590 27.495 1.00 75.37 C +ATOM 9415 CD GLN C 3 -24.837 0.703 26.718 1.00 89.21 C +ATOM 9416 OE1 GLN C 3 -24.799 0.659 25.488 1.00 88.12 O +ATOM 9417 NE2 GLN C 3 -25.706 -0.002 27.433 1.00 85.36 N +ATOM 9418 N LEU C 4 -23.361 6.208 27.380 1.00 58.75 N +ATOM 9419 CA LEU C 4 -23.809 7.567 27.085 1.00 61.19 C +ATOM 9420 C LEU C 4 -23.905 7.690 25.567 1.00 63.74 C +ATOM 9421 O LEU C 4 -22.908 7.981 24.900 1.00 66.74 O +ATOM 9422 CB LEU C 4 -22.846 8.598 27.665 1.00 59.30 C +ATOM 9423 CG LEU C 4 -22.691 8.587 29.187 1.00 58.82 C +ATOM 9424 CD1 LEU C 4 -21.759 9.698 29.655 1.00 56.69 C +ATOM 9425 CD2 LEU C 4 -24.036 8.669 29.877 1.00 62.18 C +ATOM 9426 N GLN C 5 -25.099 7.471 25.021 1.00 62.37 N +ATOM 9427 CA GLN C 5 -25.315 7.503 23.579 1.00 61.87 C +ATOM 9428 C GLN C 5 -25.805 8.884 23.164 1.00 64.72 C +ATOM 9429 O GLN C 5 -26.869 9.327 23.605 1.00 67.67 O +ATOM 9430 CB GLN C 5 -26.317 6.429 23.155 1.00 63.11 C +ATOM 9431 CG GLN C 5 -25.676 5.133 22.692 1.00 67.81 C +ATOM 9432 CD GLN C 5 -24.973 5.280 21.354 1.00 74.66 C +ATOM 9433 OE1 GLN C 5 -25.472 5.947 20.448 1.00 76.23 O +ATOM 9434 NE2 GLN C 5 -23.807 4.656 21.226 1.00 78.19 N +ATOM 9435 N GLN C 6 -25.035 9.559 22.319 1.00 63.90 N +ATOM 9436 CA GLN C 6 -25.400 10.881 21.836 1.00 64.02 C +ATOM 9437 C GLN C 6 -26.038 10.788 20.455 1.00 65.74 C +ATOM 9438 O GLN C 6 -25.877 9.800 19.734 1.00 63.93 O +ATOM 9439 CB GLN C 6 -24.179 11.804 21.792 1.00 63.66 C +ATOM 9440 CG GLN C 6 -23.452 11.909 23.117 1.00 63.90 C +ATOM 9441 CD GLN C 6 -22.350 12.950 23.106 1.00 65.69 C +ATOM 9442 OE1 GLN C 6 -21.216 12.675 23.497 1.00 64.75 O +ATOM 9443 NE2 GLN C 6 -22.682 14.158 22.665 1.00 67.63 N +ATOM 9444 N SER C 7 -26.777 11.835 20.099 1.00 67.21 N +ATOM 9445 CA SER C 7 -27.410 11.891 18.792 1.00 65.45 C +ATOM 9446 C SER C 7 -26.350 11.954 17.691 1.00 64.45 C +ATOM 9447 O SER C 7 -25.162 12.177 17.939 1.00 64.37 O +ATOM 9448 CB SER C 7 -28.350 13.093 18.704 1.00 65.82 C +ATOM 9449 OG SER C 7 -27.656 14.306 18.938 1.00 69.52 O +ATOM 9450 N GLY C 8 -26.802 11.766 16.452 1.00 64.34 N +ATOM 9451 CA GLY C 8 -25.907 11.768 15.321 1.00 63.61 C +ATOM 9452 C GLY C 8 -25.457 13.163 14.949 1.00 66.70 C +ATOM 9453 O GLY C 8 -25.862 14.171 15.545 1.00 69.20 O +ATOM 9454 N PRO C 9 -24.600 13.234 13.934 1.00 66.29 N +ATOM 9455 CA PRO C 9 -24.091 14.534 13.485 1.00 68.84 C +ATOM 9456 C PRO C 9 -25.198 15.395 12.899 1.00 68.82 C +ATOM 9457 O PRO C 9 -26.232 14.906 12.438 1.00 69.51 O +ATOM 9458 CB PRO C 9 -23.055 14.162 12.421 1.00 66.61 C +ATOM 9459 CG PRO C 9 -23.502 12.832 11.918 1.00 66.06 C +ATOM 9460 CD PRO C 9 -24.098 12.125 13.104 1.00 63.67 C +ATOM 9461 N GLU C 11 -24.964 16.704 12.924 1.00 69.87 N +ATOM 9462 CA GLU C 11 -25.959 17.669 12.481 1.00 74.49 C +ATOM 9463 C GLU C 11 -25.327 18.707 11.565 1.00 79.72 C +ATOM 9464 O GLU C 11 -24.185 19.132 11.778 1.00 80.06 O +ATOM 9465 CB GLU C 11 -26.626 18.372 13.673 1.00 76.95 C +ATOM 9466 CG GLU C 11 -27.538 17.487 14.515 1.00 76.10 C +ATOM 9467 CD GLU C 11 -28.900 17.264 13.881 1.00 82.96 C +ATOM 9468 OE1 GLU C 11 -29.151 17.811 12.786 1.00 85.60 O +ATOM 9469 OE2 GLU C 11 -29.728 16.553 14.487 1.00 88.41 O +ATOM 9470 N LEU C 12 -26.085 19.102 10.544 1.00 80.29 N +ATOM 9471 CA LEU C 12 -25.763 20.226 9.678 1.00 77.62 C +ATOM 9472 C LEU C 12 -26.865 21.263 9.821 1.00 78.84 C +ATOM 9473 O LEU C 12 -28.050 20.934 9.694 1.00 80.67 O +ATOM 9474 CB LEU C 12 -25.636 19.787 8.216 1.00 72.02 C +ATOM 9475 CG LEU C 12 -25.465 20.907 7.185 1.00 75.37 C +ATOM 9476 CD1 LEU C 12 -24.233 21.749 7.484 1.00 79.82 C +ATOM 9477 CD2 LEU C 12 -25.411 20.345 5.772 1.00 73.72 C +ATOM 9478 N VAL C 13 -26.478 22.510 10.083 1.00 80.02 N +ATOM 9479 CA VAL C 13 -27.434 23.568 10.390 1.00 80.19 C +ATOM 9480 C VAL C 13 -26.973 24.861 9.730 1.00 84.85 C +ATOM 9481 O VAL C 13 -25.774 25.108 9.573 1.00 88.32 O +ATOM 9482 CB VAL C 13 -27.603 23.745 11.923 1.00 77.86 C +ATOM 9483 CG1 VAL C 13 -28.480 24.938 12.256 1.00 81.11 C +ATOM 9484 CG2 VAL C 13 -28.194 22.489 12.547 1.00 77.82 C +ATOM 9485 N LYS C 14 -27.943 25.690 9.331 1.00 82.89 N +ATOM 9486 CA LYS C 14 -27.650 26.989 8.750 1.00 85.07 C +ATOM 9487 C LYS C 14 -27.316 27.995 9.852 1.00 85.32 C +ATOM 9488 O LYS C 14 -27.777 27.857 10.988 1.00 85.12 O +ATOM 9489 CB LYS C 14 -28.838 27.489 7.934 1.00 89.39 C +ATOM 9490 CG LYS C 14 -29.211 26.598 6.758 1.00 93.75 C +ATOM 9491 CD LYS C 14 -28.091 26.533 5.730 1.00 98.90 C +ATOM 9492 CE LYS C 14 -28.480 25.672 4.538 1.00 99.10 C +ATOM 9493 NZ LYS C 14 -29.661 26.219 3.813 1.00 99.66 N +ATOM 9494 N PRO C 15 -26.504 29.007 9.544 1.00 84.66 N +ATOM 9495 CA PRO C 15 -26.174 30.022 10.554 1.00 84.61 C +ATOM 9496 C PRO C 15 -27.417 30.724 11.082 1.00 86.46 C +ATOM 9497 O PRO C 15 -28.368 30.990 10.344 1.00 89.03 O +ATOM 9498 CB PRO C 15 -25.261 30.992 9.797 1.00 83.55 C +ATOM 9499 CG PRO C 15 -24.680 30.179 8.691 1.00 88.43 C +ATOM 9500 CD PRO C 15 -25.752 29.207 8.293 1.00 87.99 C +ATOM 9501 N GLY C 16 -27.400 31.023 12.382 1.00 88.39 N +ATOM 9502 CA GLY C 16 -28.506 31.672 13.046 1.00 89.35 C +ATOM 9503 C GLY C 16 -29.582 30.744 13.570 1.00 89.03 C +ATOM 9504 O GLY C 16 -30.318 31.131 14.486 1.00 88.02 O +ATOM 9505 N ALA C 17 -29.699 29.538 13.024 1.00 87.54 N +ATOM 9506 CA ALA C 17 -30.713 28.591 13.470 1.00 87.55 C +ATOM 9507 C ALA C 17 -30.285 27.954 14.792 1.00 87.72 C +ATOM 9508 O ALA C 17 -29.285 28.340 15.404 1.00 90.45 O +ATOM 9509 CB ALA C 17 -30.973 27.548 12.386 1.00 84.11 C +ATOM 9510 N SER C 18 -31.045 26.961 15.248 1.00 86.76 N +ATOM 9511 CA SER C 18 -30.809 26.321 16.532 1.00 86.57 C +ATOM 9512 C SER C 18 -30.661 24.818 16.340 1.00 84.93 C +ATOM 9513 O SER C 18 -31.098 24.251 15.336 1.00 85.59 O +ATOM 9514 CB SER C 18 -31.949 26.615 17.519 1.00 91.56 C +ATOM 9515 OG SER C 18 -32.107 28.011 17.707 1.00 95.41 O +ATOM 9516 N VAL C 19 -30.035 24.172 17.327 1.00 85.23 N +ATOM 9517 CA VAL C 19 -29.804 22.733 17.302 1.00 80.70 C +ATOM 9518 C VAL C 19 -30.182 22.169 18.664 1.00 83.07 C +ATOM 9519 O VAL C 19 -30.196 22.878 19.671 1.00 86.23 O +ATOM 9520 CB VAL C 19 -28.340 22.365 16.962 1.00 80.90 C +ATOM 9521 CG1 VAL C 19 -28.251 20.941 16.421 1.00 78.59 C +ATOM 9522 CG2 VAL C 19 -27.731 23.360 15.985 1.00 81.36 C +ATOM 9523 N LYS C 20 -30.494 20.875 18.689 1.00 82.17 N +ATOM 9524 CA LYS C 20 -30.820 20.185 19.935 1.00 82.68 C +ATOM 9525 C LYS C 20 -30.205 18.793 19.885 1.00 81.99 C +ATOM 9526 O LYS C 20 -30.659 17.938 19.119 1.00 83.48 O +ATOM 9527 CB LYS C 20 -32.333 20.108 20.150 1.00 86.99 C +ATOM 9528 CG LYS C 20 -32.766 20.324 21.594 1.00 85.53 C +ATOM 9529 CD LYS C 20 -34.229 19.956 21.802 1.00 87.71 C +ATOM 9530 CE LYS C 20 -34.720 20.392 23.175 1.00 90.34 C +ATOM 9531 NZ LYS C 20 -36.079 19.863 23.477 1.00 93.95 N +ATOM 9532 N MET C 21 -29.178 18.569 20.699 1.00 82.09 N +ATOM 9533 CA MET C 21 -28.499 17.286 20.785 1.00 78.79 C +ATOM 9534 C MET C 21 -28.949 16.536 22.032 1.00 75.61 C +ATOM 9535 O MET C 21 -29.328 17.136 23.042 1.00 76.53 O +ATOM 9536 CB MET C 21 -26.979 17.467 20.800 1.00 77.05 C +ATOM 9537 CG MET C 21 -26.431 18.197 19.583 1.00 76.96 C +ATOM 9538 SD MET C 21 -24.696 18.658 19.752 1.00 82.23 S +ATOM 9539 CE MET C 21 -24.795 19.885 21.049 1.00 73.04 C +ATOM 9540 N SER C 22 -28.909 15.211 21.949 1.00 72.70 N +ATOM 9541 CA SER C 22 -29.356 14.349 23.029 1.00 71.35 C +ATOM 9542 C SER C 22 -28.188 13.539 23.575 1.00 70.64 C +ATOM 9543 O SER C 22 -27.171 13.339 22.906 1.00 69.72 O +ATOM 9544 CB SER C 22 -30.471 13.404 22.562 1.00 70.11 C +ATOM 9545 OG SER C 22 -29.975 12.441 21.649 1.00 71.56 O +ATOM 9546 N CYS C 23 -28.353 13.080 24.815 1.00 70.61 N +ATOM 9547 CA CYS C 23 -27.368 12.221 25.465 1.00 66.10 C +ATOM 9548 C CYS C 23 -28.159 11.287 26.376 1.00 70.23 C +ATOM 9549 O CYS C 23 -28.560 11.682 27.475 1.00 71.97 O +ATOM 9550 CB CYS C 23 -26.350 13.048 26.238 1.00 67.82 C +ATOM 9551 SG CYS C 23 -25.169 12.121 27.249 1.00 74.63 S +ATOM 9552 N LYS C 24 -28.407 10.072 25.899 1.00 68.07 N +ATOM 9553 CA LYS C 24 -29.168 9.081 26.645 1.00 67.97 C +ATOM 9554 C LYS C 24 -28.211 8.262 27.500 1.00 65.20 C +ATOM 9555 O LYS C 24 -27.270 7.651 26.979 1.00 64.81 O +ATOM 9556 CB LYS C 24 -29.953 8.176 25.696 1.00 68.60 C +ATOM 9557 CG LYS C 24 -31.102 7.434 26.359 1.00 74.64 C +ATOM 9558 CD LYS C 24 -31.492 6.195 25.569 1.00 76.83 C +ATOM 9559 CE LYS C 24 -32.710 5.518 26.174 1.00 83.23 C +ATOM 9560 NZ LYS C 24 -32.506 5.193 27.613 1.00 86.49 N +ATOM 9561 N ALA C 25 -28.443 8.271 28.808 1.00 62.80 N +ATOM 9562 CA ALA C 25 -27.635 7.522 29.755 1.00 61.18 C +ATOM 9563 C ALA C 25 -28.304 6.193 30.073 1.00 60.66 C +ATOM 9564 O ALA C 25 -29.532 6.077 30.066 1.00 65.91 O +ATOM 9565 CB ALA C 25 -27.422 8.319 31.043 1.00 59.06 C +ATOM 9566 N SER C 26 -27.482 5.188 30.357 1.00 56.96 N +ATOM 9567 CA SER C 26 -28.010 3.878 30.714 1.00 57.70 C +ATOM 9568 C SER C 26 -26.950 3.109 31.486 1.00 61.35 C +ATOM 9569 O SER C 26 -25.753 3.379 31.369 1.00 64.13 O +ATOM 9570 CB SER C 26 -28.458 3.094 29.475 1.00 59.96 C +ATOM 9571 OG SER C 26 -27.393 2.929 28.557 1.00 60.61 O +ATOM 9572 N GLY C 27 -27.409 2.158 32.292 1.00 59.21 N +ATOM 9573 CA GLY C 27 -26.522 1.321 33.069 1.00 58.25 C +ATOM 9574 C GLY C 27 -26.280 1.769 34.491 1.00 63.35 C +ATOM 9575 O GLY C 27 -25.432 1.178 35.169 1.00 66.91 O +ATOM 9576 N TYR C 28 -26.993 2.787 34.965 1.00 62.34 N +ATOM 9577 CA TYR C 28 -26.824 3.285 36.323 1.00 60.29 C +ATOM 9578 C TYR C 28 -28.044 4.121 36.681 1.00 61.92 C +ATOM 9579 O TYR C 28 -28.885 4.423 35.830 1.00 63.21 O +ATOM 9580 CB TYR C 28 -25.537 4.106 36.458 1.00 60.59 C +ATOM 9581 CG TYR C 28 -25.580 5.431 35.728 1.00 59.88 C +ATOM 9582 CD1 TYR C 28 -25.346 5.503 34.361 1.00 57.37 C +ATOM 9583 CD2 TYR C 28 -25.850 6.610 36.408 1.00 61.63 C +ATOM 9584 CE1 TYR C 28 -25.387 6.714 33.692 1.00 57.74 C +ATOM 9585 CE2 TYR C 28 -25.893 7.824 35.750 1.00 60.62 C +ATOM 9586 CZ TYR C 28 -25.660 7.871 34.393 1.00 59.80 C +ATOM 9587 OH TYR C 28 -25.701 9.080 33.738 1.00 62.01 O +ATOM 9588 N THR C 29 -28.131 4.494 37.955 1.00 61.96 N +ATOM 9589 CA THR C 29 -29.214 5.354 38.429 1.00 64.75 C +ATOM 9590 C THR C 29 -29.008 6.747 37.849 1.00 64.95 C +ATOM 9591 O THR C 29 -28.141 7.500 38.299 1.00 65.03 O +ATOM 9592 CB THR C 29 -29.256 5.387 39.952 1.00 64.83 C +ATOM 9593 OG1 THR C 29 -27.991 5.828 40.458 1.00 72.34 O +ATOM 9594 CG2 THR C 29 -29.561 4.002 40.504 1.00 63.24 C +ATOM 9595 N PHE C 30 -29.818 7.093 36.845 1.00 65.35 N +ATOM 9596 CA PHE C 30 -29.600 8.322 36.087 1.00 67.06 C +ATOM 9597 C PHE C 30 -29.709 9.570 36.953 1.00 72.24 C +ATOM 9598 O PHE C 30 -29.054 10.577 36.665 1.00 73.54 O +ATOM 9599 CB PHE C 30 -30.593 8.397 34.925 1.00 67.56 C +ATOM 9600 CG PHE C 30 -30.550 9.696 34.172 1.00 71.62 C +ATOM 9601 CD1 PHE C 30 -29.487 9.998 33.339 1.00 69.82 C +ATOM 9602 CD2 PHE C 30 -31.580 10.615 34.295 1.00 74.28 C +ATOM 9603 CE1 PHE C 30 -29.449 11.193 32.645 1.00 71.01 C +ATOM 9604 CE2 PHE C 30 -31.548 11.810 33.603 1.00 75.31 C +ATOM 9605 CZ PHE C 30 -30.481 12.100 32.778 1.00 73.71 C +ATOM 9606 N SER C 35 -30.503 9.524 38.022 1.00 74.13 N +ATOM 9607 CA SER C 35 -30.817 10.729 38.781 1.00 74.96 C +ATOM 9608 C SER C 35 -29.771 11.084 39.831 1.00 73.53 C +ATOM 9609 O SER C 35 -29.872 12.158 40.435 1.00 77.53 O +ATOM 9610 CB SER C 35 -32.182 10.578 39.457 1.00 77.41 C +ATOM 9611 OG SER C 35 -32.217 9.429 40.287 1.00 78.09 O +ATOM 9612 N ASP C 36 -28.777 10.230 40.064 1.00 70.96 N +ATOM 9613 CA ASP C 36 -27.827 10.426 41.152 1.00 74.27 C +ATOM 9614 C ASP C 36 -26.498 11.027 40.709 1.00 72.70 C +ATOM 9615 O ASP C 36 -25.632 11.263 41.557 1.00 74.04 O +ATOM 9616 CB ASP C 36 -27.573 9.097 41.873 1.00 76.27 C +ATOM 9617 CG ASP C 36 -28.806 8.576 42.586 1.00 78.23 C +ATOM 9618 OD1 ASP C 36 -29.839 9.279 42.581 1.00 78.37 O +ATOM 9619 OD2 ASP C 36 -28.742 7.465 43.153 1.00 76.88 O +ATOM 9620 N TYR C 37 -26.308 11.281 39.416 1.00 71.36 N +ATOM 9621 CA TYR C 37 -25.036 11.764 38.897 1.00 67.59 C +ATOM 9622 C TYR C 37 -25.235 13.044 38.101 1.00 66.46 C +ATOM 9623 O TYR C 37 -26.181 13.153 37.317 1.00 65.61 O +ATOM 9624 CB TYR C 37 -24.366 10.714 38.005 1.00 65.93 C +ATOM 9625 CG TYR C 37 -23.856 9.493 38.735 1.00 63.86 C +ATOM 9626 CD1 TYR C 37 -24.698 8.427 39.019 1.00 65.15 C +ATOM 9627 CD2 TYR C 37 -22.526 9.398 39.120 1.00 66.79 C +ATOM 9628 CE1 TYR C 37 -24.232 7.305 39.679 1.00 66.81 C +ATOM 9629 CE2 TYR C 37 -22.050 8.281 39.778 1.00 67.43 C +ATOM 9630 CZ TYR C 37 -22.907 7.238 40.056 1.00 68.38 C +ATOM 9631 OH TYR C 37 -22.437 6.124 40.713 1.00 70.32 O +ATOM 9632 N TYR C 38 -24.324 13.999 38.286 1.00 66.11 N +ATOM 9633 CA TYR C 38 -24.316 15.204 37.469 1.00 66.40 C +ATOM 9634 C TYR C 38 -24.103 14.854 35.999 1.00 65.01 C +ATOM 9635 O TYR C 38 -23.557 13.801 35.655 1.00 63.13 O +ATOM 9636 CB TYR C 38 -23.216 16.162 37.928 1.00 66.59 C +ATOM 9637 CG TYR C 38 -23.594 17.053 39.088 1.00 69.68 C +ATOM 9638 CD1 TYR C 38 -24.214 18.277 38.872 1.00 70.38 C +ATOM 9639 CD2 TYR C 38 -23.317 16.681 40.396 1.00 75.54 C +ATOM 9640 CE1 TYR C 38 -24.556 19.101 39.927 1.00 72.65 C +ATOM 9641 CE2 TYR C 38 -23.655 17.499 41.459 1.00 76.73 C +ATOM 9642 CZ TYR C 38 -24.274 18.708 41.218 1.00 76.09 C +ATOM 9643 OH TYR C 38 -24.613 19.525 42.271 1.00 80.77 O +ATOM 9644 N MET C 39 -24.537 15.757 35.122 1.00 64.47 N +ATOM 9645 CA MET C 39 -24.332 15.601 33.687 1.00 60.86 C +ATOM 9646 C MET C 39 -23.715 16.882 33.147 1.00 64.54 C +ATOM 9647 O MET C 39 -24.315 17.953 33.267 1.00 65.10 O +ATOM 9648 CB MET C 39 -25.659 15.304 32.984 1.00 64.42 C +ATOM 9649 CG MET C 39 -25.539 14.394 31.786 1.00 64.81 C +ATOM 9650 SD MET C 39 -24.815 12.813 32.257 1.00 65.81 S +ATOM 9651 CE MET C 39 -25.214 11.835 30.816 1.00 66.03 C +ATOM 9652 N HIS C 40 -22.527 16.777 32.556 1.00 62.31 N +ATOM 9653 CA HIS C 40 -21.819 17.928 32.018 1.00 63.86 C +ATOM 9654 C HIS C 40 -21.749 17.853 30.499 1.00 61.88 C +ATOM 9655 O HIS C 40 -21.782 16.770 29.909 1.00 61.81 O +ATOM 9656 CB HIS C 40 -20.398 18.023 32.581 1.00 60.59 C +ATOM 9657 CG HIS C 40 -20.330 17.970 34.074 1.00 60.27 C +ATOM 9658 ND1 HIS C 40 -20.182 19.098 34.852 1.00 61.94 N +ATOM 9659 CD2 HIS C 40 -20.383 16.924 34.933 1.00 64.20 C +ATOM 9660 CE1 HIS C 40 -20.149 18.750 36.126 1.00 68.03 C +ATOM 9661 NE2 HIS C 40 -20.269 17.437 36.203 1.00 65.98 N +ATOM 9662 N TRP C 41 -21.641 19.021 29.874 1.00 62.70 N +ATOM 9663 CA TRP C 41 -21.428 19.128 28.438 1.00 64.11 C +ATOM 9664 C TRP C 41 -20.104 19.831 28.171 1.00 64.35 C +ATOM 9665 O TRP C 41 -19.738 20.776 28.876 1.00 67.74 O +ATOM 9666 CB TRP C 41 -22.581 19.870 27.754 1.00 69.30 C +ATOM 9667 CG TRP C 41 -23.801 19.015 27.575 1.00 69.28 C +ATOM 9668 CD1 TRP C 41 -24.837 18.870 28.451 1.00 67.11 C +ATOM 9669 CD2 TRP C 41 -24.106 18.180 26.451 1.00 69.10 C +ATOM 9670 NE1 TRP C 41 -25.769 17.999 27.941 1.00 68.47 N +ATOM 9671 CE2 TRP C 41 -25.343 17.560 26.715 1.00 68.79 C +ATOM 9672 CE3 TRP C 41 -23.453 17.897 25.247 1.00 68.94 C +ATOM 9673 CZ2 TRP C 41 -25.942 16.677 25.818 1.00 69.81 C +ATOM 9674 CZ3 TRP C 41 -24.049 17.020 24.358 1.00 68.80 C +ATOM 9675 CH2 TRP C 41 -25.281 16.420 24.648 1.00 69.90 C +ATOM 9676 N VAL C 42 -19.379 19.347 27.164 1.00 65.61 N +ATOM 9677 CA VAL C 42 -18.052 19.844 26.825 1.00 67.15 C +ATOM 9678 C VAL C 42 -17.993 20.067 25.320 1.00 66.23 C +ATOM 9679 O VAL C 42 -18.601 19.327 24.540 1.00 65.85 O +ATOM 9680 CB VAL C 42 -16.936 18.871 27.280 1.00 65.42 C +ATOM 9681 CG1 VAL C 42 -15.556 19.457 27.012 1.00 67.94 C +ATOM 9682 CG2 VAL C 42 -17.086 18.525 28.755 1.00 64.40 C +ATOM 9683 N LYS C 43 -17.253 21.093 24.914 1.00 67.97 N +ATOM 9684 CA LYS C 43 -17.073 21.438 23.510 1.00 69.40 C +ATOM 9685 C LYS C 43 -15.620 21.217 23.118 1.00 71.67 C +ATOM 9686 O LYS C 43 -14.710 21.654 23.830 1.00 72.00 O +ATOM 9687 CB LYS C 43 -17.461 22.895 23.248 1.00 70.66 C +ATOM 9688 CG LYS C 43 -17.195 23.359 21.823 1.00 74.33 C +ATOM 9689 CD LYS C 43 -17.404 24.858 21.683 1.00 77.76 C +ATOM 9690 CE LYS C 43 -17.224 25.311 20.243 1.00 82.74 C +ATOM 9691 NZ LYS C 43 -17.420 26.780 20.097 1.00 88.76 N +ATOM 9692 N GLN C 44 -15.402 20.543 21.991 1.00 72.53 N +ATOM 9693 CA GLN C 44 -14.067 20.360 21.439 1.00 74.25 C +ATOM 9694 C GLN C 44 -14.051 20.999 20.054 1.00 80.30 C +ATOM 9695 O GLN C 44 -14.563 20.427 19.082 1.00 84.22 O +ATOM 9696 CB GLN C 44 -13.680 18.884 21.392 1.00 70.26 C +ATOM 9697 CG GLN C 44 -12.187 18.641 21.199 1.00 72.55 C +ATOM 9698 CD GLN C 44 -11.796 17.185 21.385 1.00 66.47 C +ATOM 9699 OE1 GLN C 44 -10.861 16.872 22.123 1.00 66.37 O +ATOM 9700 NE2 GLN C 44 -12.511 16.289 20.716 1.00 62.77 N +ATOM 9701 N SER C 45 -13.543 22.226 20.016 1.00 84.65 N +ATOM 9702 CA SER C 45 -13.260 23.011 18.828 1.00 97.17 C +ATOM 9703 C SER C 45 -11.867 22.647 18.334 1.00105.90 C +ATOM 9704 O SER C 45 -11.063 22.074 19.072 1.00104.82 O +ATOM 9705 CB SER C 45 -13.346 24.510 19.119 1.00100.22 C +ATOM 9706 OG SER C 45 -12.270 24.931 19.938 1.00108.47 O +ATOM 9707 N HIS C 46 -11.606 22.913 17.057 1.00116.36 N +ATOM 9708 CA HIS C 46 -10.270 22.637 16.548 1.00123.40 C +ATOM 9709 C HIS C 46 -9.222 23.395 17.355 1.00126.55 C +ATOM 9710 O HIS C 46 -9.484 24.457 17.928 1.00125.95 O +ATOM 9711 CB HIS C 46 -10.170 22.951 15.064 1.00128.59 C +ATOM 9712 CG HIS C 46 -10.196 21.718 14.222 1.00134.49 C +ATOM 9713 ND1 HIS C 46 -10.084 20.459 14.770 1.00133.26 N +ATOM 9714 CD2 HIS C 46 -10.334 21.539 12.888 1.00139.75 C +ATOM 9715 CE1 HIS C 46 -10.145 19.556 13.808 1.00139.83 C +ATOM 9716 NE2 HIS C 46 -10.296 20.185 12.657 1.00140.18 N +ATOM 9717 N GLY C 47 -8.018 22.834 17.385 1.00139.57 N +ATOM 9718 CA GLY C 47 -7.061 23.151 18.415 1.00139.58 C +ATOM 9719 C GLY C 47 -6.950 22.033 19.425 1.00136.58 C +ATOM 9720 O GLY C 47 -6.053 22.064 20.279 1.00141.62 O +ATOM 9721 N LYS C 48 -7.905 21.098 19.390 1.00113.14 N +ATOM 9722 CA LYS C 48 -7.995 19.932 20.261 1.00 99.23 C +ATOM 9723 C LYS C 48 -8.322 20.328 21.689 1.00 91.64 C +ATOM 9724 O LYS C 48 -8.149 19.530 22.614 1.00 83.79 O +ATOM 9725 CB LYS C 48 -6.719 19.081 20.220 1.00101.62 C +ATOM 9726 N SER C 49 -8.819 21.544 21.878 1.00 95.90 N +ATOM 9727 CA SER C 49 -9.059 22.082 23.204 1.00 87.41 C +ATOM 9728 C SER C 49 -10.421 21.636 23.711 1.00 77.32 C +ATOM 9729 O SER C 49 -11.365 21.444 22.941 1.00 77.09 O +ATOM 9730 CB SER C 49 -8.984 23.609 23.185 1.00 90.15 C +ATOM 9731 OG SER C 49 -10.059 24.159 22.441 1.00 96.67 O +ATOM 9732 N LEU C 50 -10.514 21.477 25.025 1.00 71.96 N +ATOM 9733 CA LEU C 50 -11.741 21.059 25.685 1.00 71.01 C +ATOM 9734 C LEU C 50 -12.317 22.261 26.417 1.00 70.96 C +ATOM 9735 O LEU C 50 -11.650 22.844 27.279 1.00 69.13 O +ATOM 9736 CB LEU C 50 -11.472 19.906 26.650 1.00 65.99 C +ATOM 9737 CG LEU C 50 -10.994 18.611 25.990 1.00 62.77 C +ATOM 9738 CD1 LEU C 50 -10.625 17.572 27.036 1.00 58.21 C +ATOM 9739 CD2 LEU C 50 -12.050 18.068 25.038 1.00 63.71 C +ATOM 9740 N GLU C 51 -13.546 22.631 26.073 1.00 73.63 N +ATOM 9741 CA GLU C 51 -14.238 23.736 26.723 1.00 74.18 C +ATOM 9742 C GLU C 51 -15.463 23.171 27.425 1.00 72.09 C +ATOM 9743 O GLU C 51 -16.380 22.663 26.771 1.00 69.69 O +ATOM 9744 CB GLU C 51 -14.630 24.815 25.713 1.00 81.11 C +ATOM 9745 CG GLU C 51 -13.452 25.574 25.123 1.00 93.12 C +ATOM 9746 CD GLU C 51 -13.884 26.706 24.211 1.00103.68 C +ATOM 9747 OE1 GLU C 51 -15.105 26.949 24.100 1.00100.30 O +ATOM 9748 OE2 GLU C 51 -13.004 27.351 23.604 1.00120.21 O +ATOM 9749 N TRP C 52 -15.468 23.255 28.752 1.00 71.21 N +ATOM 9750 CA TRP C 52 -16.665 22.943 29.516 1.00 70.22 C +ATOM 9751 C TRP C 52 -17.803 23.856 29.075 1.00 73.57 C +ATOM 9752 O TRP C 52 -17.585 24.987 28.637 1.00 78.39 O +ATOM 9753 CB TRP C 52 -16.377 23.097 31.011 1.00 70.70 C +ATOM 9754 CG TRP C 52 -17.474 22.642 31.921 1.00 68.49 C +ATOM 9755 CD1 TRP C 52 -17.982 21.380 32.027 1.00 68.58 C +ATOM 9756 CD2 TRP C 52 -18.165 23.435 32.891 1.00 68.42 C +ATOM 9757 NE1 TRP C 52 -18.965 21.345 32.987 1.00 70.65 N +ATOM 9758 CE2 TRP C 52 -19.095 22.594 33.534 1.00 71.28 C +ATOM 9759 CE3 TRP C 52 -18.095 24.779 33.272 1.00 72.21 C +ATOM 9760 CZ2 TRP C 52 -19.948 23.052 34.535 1.00 69.92 C +ATOM 9761 CZ3 TRP C 52 -18.943 25.232 34.265 1.00 75.50 C +ATOM 9762 CH2 TRP C 52 -19.857 24.371 34.886 1.00 73.72 C +ATOM 9763 N ILE C 53 -19.030 23.347 29.161 1.00 71.59 N +ATOM 9764 CA ILE C 53 -20.221 24.089 28.769 1.00 72.68 C +ATOM 9765 C ILE C 53 -21.131 24.349 29.963 1.00 74.81 C +ATOM 9766 O ILE C 53 -21.527 25.490 30.220 1.00 78.77 O +ATOM 9767 CB ILE C 53 -20.994 23.364 27.645 1.00 72.18 C +ATOM 9768 CG1 ILE C 53 -20.178 23.355 26.351 1.00 72.39 C +ATOM 9769 CG2 ILE C 53 -22.353 24.010 27.434 1.00 74.53 C +ATOM 9770 CD1 ILE C 53 -20.684 22.371 25.319 1.00 70.35 C +ATOM 9771 N GLY C 54 -21.471 23.303 30.700 1.00 71.23 N +ATOM 9772 CA GLY C 54 -22.335 23.457 31.851 1.00 71.99 C +ATOM 9773 C GLY C 54 -22.686 22.108 32.426 1.00 70.76 C +ATOM 9774 O GLY C 54 -22.439 21.055 31.826 1.00 68.85 O +ATOM 9775 N TYR C 55 -23.280 22.158 33.613 1.00 73.10 N +ATOM 9776 CA TYR C 55 -23.711 20.969 34.326 1.00 72.70 C +ATOM 9777 C TYR C 55 -25.213 21.029 34.562 1.00 77.96 C +ATOM 9778 O TYR C 55 -25.839 22.089 34.487 1.00 80.44 O +ATOM 9779 CB TYR C 55 -22.978 20.818 35.667 1.00 72.69 C +ATOM 9780 CG TYR C 55 -23.349 21.863 36.699 1.00 76.33 C +ATOM 9781 CD1 TYR C 55 -22.664 23.068 36.774 1.00 78.06 C +ATOM 9782 CD2 TYR C 55 -24.378 21.637 37.607 1.00 75.85 C +ATOM 9783 CE1 TYR C 55 -22.998 24.022 37.716 1.00 76.38 C +ATOM 9784 CE2 TYR C 55 -24.720 22.585 38.551 1.00 74.14 C +ATOM 9785 CZ TYR C 55 -24.027 23.775 38.602 1.00 77.35 C +ATOM 9786 OH TYR C 55 -24.363 24.721 39.542 1.00 82.29 O +ATOM 9787 N ILE C 56 -25.781 19.864 34.846 1.00 75.10 N +ATOM 9788 CA ILE C 56 -27.185 19.755 35.221 1.00 78.00 C +ATOM 9789 C ILE C 56 -27.340 18.561 36.150 1.00 77.80 C +ATOM 9790 O ILE C 56 -26.752 17.497 35.927 1.00 75.10 O +ATOM 9791 CB ILE C 56 -28.107 19.644 33.986 1.00 77.31 C +ATOM 9792 CG1 ILE C 56 -29.572 19.607 34.426 1.00 82.90 C +ATOM 9793 CG2 ILE C 56 -27.752 18.429 33.141 1.00 73.95 C +ATOM 9794 CD1 ILE C 56 -30.551 19.735 33.294 1.00 85.39 C +ATOM 9795 N TYR C 57 -28.110 18.756 37.219 1.00 79.93 N +ATOM 9796 CA TYR C 57 -28.421 17.668 38.128 1.00 80.60 C +ATOM 9797 C TYR C 57 -29.761 17.080 37.719 1.00 84.60 C +ATOM 9798 O TYR C 57 -30.788 17.769 37.823 1.00 87.91 O +ATOM 9799 CB TYR C 57 -28.463 18.162 39.573 1.00 80.59 C +ATOM 9800 CG TYR C 57 -28.480 17.057 40.606 1.00 83.59 C +ATOM 9801 CD1 TYR C 57 -27.482 16.091 40.635 1.00 80.59 C +ATOM 9802 CD2 TYR C 57 -29.476 16.997 41.571 1.00 89.31 C +ATOM 9803 CE1 TYR C 57 -27.489 15.083 41.582 1.00 81.42 C +ATOM 9804 CE2 TYR C 57 -29.487 15.995 42.525 1.00 91.81 C +ATOM 9805 CZ TYR C 57 -28.494 15.040 42.524 1.00 87.47 C +ATOM 9806 OH TYR C 57 -28.507 14.042 43.472 1.00 87.93 O +ATOM 9807 N PRO C 58 -29.800 15.837 37.236 1.00 82.79 N +ATOM 9808 CA PRO C 58 -31.049 15.286 36.683 1.00 83.84 C +ATOM 9809 C PRO C 58 -32.217 15.294 37.651 1.00 88.56 C +ATOM 9810 O PRO C 58 -33.370 15.333 37.205 1.00 95.42 O +ATOM 9811 CB PRO C 58 -30.652 13.856 36.286 1.00 77.47 C +ATOM 9812 CG PRO C 58 -29.391 13.580 37.039 1.00 78.08 C +ATOM 9813 CD PRO C 58 -28.688 14.883 37.149 1.00 79.02 C +ATOM 9814 N ASP C 59 -31.960 15.236 38.961 1.00 88.43 N +ATOM 9815 CA ASP C 59 -33.058 15.261 39.923 1.00 89.39 C +ATOM 9816 C ASP C 59 -33.877 16.540 39.792 1.00 89.25 C +ATOM 9817 O ASP C 59 -35.091 16.524 40.022 1.00 92.45 O +ATOM 9818 CB ASP C 59 -32.522 15.094 41.343 1.00 91.46 C +ATOM 9819 CG ASP C 59 -33.493 14.361 42.248 1.00 93.71 C +ATOM 9820 OD1 ASP C 59 -34.537 13.895 41.744 1.00 93.46 O +ATOM 9821 OD2 ASP C 59 -33.207 14.239 43.458 1.00 94.55 O +ATOM 9822 N ASN C 62 -33.237 17.654 39.429 1.00 88.50 N +ATOM 9823 CA ASN C 62 -33.970 18.879 39.130 1.00 85.92 C +ATOM 9824 C ASN C 62 -33.342 19.568 37.923 1.00 88.48 C +ATOM 9825 O ASN C 62 -33.694 19.255 36.781 1.00 89.62 O +ATOM 9826 CB ASN C 62 -33.993 19.816 40.342 1.00 85.05 C +ATOM 9827 CG ASN C 62 -32.660 19.876 41.067 1.00 88.81 C +ATOM 9828 OD1 ASN C 62 -31.602 19.713 40.458 1.00 93.27 O +ATOM 9829 ND2 ASN C 62 -32.705 20.118 42.371 1.00 84.30 N +ATOM 9830 N GLY C 63 -32.416 20.493 38.149 1.00 89.05 N +ATOM 9831 CA GLY C 63 -31.769 21.153 37.031 1.00 89.09 C +ATOM 9832 C GLY C 63 -30.629 22.036 37.489 1.00 91.02 C +ATOM 9833 O GLY C 63 -30.310 22.117 38.678 1.00 85.39 O +ATOM 9834 N GLY C 64 -30.021 22.702 36.515 1.00 92.73 N +ATOM 9835 CA GLY C 64 -28.965 23.660 36.786 1.00 91.75 C +ATOM 9836 C GLY C 64 -28.462 24.249 35.487 1.00 94.89 C +ATOM 9837 O GLY C 64 -28.966 23.942 34.401 1.00 93.86 O +ATOM 9838 N ASN C 65 -27.455 25.111 35.612 1.00 98.88 N +ATOM 9839 CA ASN C 65 -26.783 25.684 34.454 1.00115.31 C +ATOM 9840 C ASN C 65 -25.331 25.960 34.828 1.00 96.50 C +ATOM 9841 O ASN C 65 -24.922 25.781 35.979 1.00 90.03 O +ATOM 9842 CB ASN C 65 -27.492 26.943 33.948 1.00118.51 C +ATOM 9843 CG ASN C 65 -27.218 27.208 32.477 1.00109.80 C +ATOM 9844 OD1 ASN C 65 -26.244 27.875 32.125 1.00100.46 O +ATOM 9845 ND2 ASN C 65 -28.069 26.672 31.609 1.00 99.74 N +ATOM 9846 N GLY C 66 -24.550 26.406 33.846 1.00 92.97 N +ATOM 9847 CA GLY C 66 -23.160 26.731 34.095 1.00 89.32 C +ATOM 9848 C GLY C 66 -22.569 27.763 33.155 1.00 90.33 C +ATOM 9849 O GLY C 66 -23.298 28.420 32.409 1.00 93.50 O +ATOM 9850 N TYR C 67 -21.237 27.882 33.205 1.00 90.13 N +ATOM 9851 CA TYR C 67 -20.339 28.760 32.445 1.00 95.54 C +ATOM 9852 C TYR C 67 -20.935 30.076 31.947 1.00101.75 C +ATOM 9853 O TYR C 67 -21.923 30.089 31.207 1.00107.00 O +ATOM 9854 CB TYR C 67 -19.797 27.993 31.237 1.00 93.81 C +ATOM 9855 CG TYR C 67 -18.394 28.375 30.815 1.00 99.30 C +ATOM 9856 CD1 TYR C 67 -17.736 29.458 31.382 1.00105.20 C +ATOM 9857 CD2 TYR C 67 -17.730 27.646 29.842 1.00 97.21 C +ATOM 9858 CE1 TYR C 67 -16.449 29.794 30.995 1.00111.42 C +ATOM 9859 CE2 TYR C 67 -16.450 27.973 29.447 1.00111.72 C +ATOM 9860 CZ TYR C 67 -15.813 29.047 30.024 1.00123.60 C +ATOM 9861 OH TYR C 67 -14.536 29.369 29.626 1.00136.66 O +ATOM 9862 N ASN C 68 -20.264 31.187 32.260 1.00102.52 N +ATOM 9863 CA ASN C 68 -20.723 32.491 31.793 1.00106.30 C +ATOM 9864 C ASN C 68 -20.590 32.605 30.276 1.00105.50 C +ATOM 9865 O ASN C 68 -21.491 33.122 29.605 1.00106.88 O +ATOM 9866 CB ASN C 68 -19.939 33.598 32.510 1.00109.85 C +ATOM 9867 CG ASN C 68 -20.383 35.013 32.123 1.00118.76 C +ATOM 9868 OD1 ASN C 68 -20.936 35.255 31.052 1.00129.93 O +ATOM 9869 ND2 ASN C 68 -20.130 35.959 33.019 1.00116.90 N +ATOM 9870 N GLN C 69 -19.484 32.105 29.718 1.00104.70 N +ATOM 9871 CA GLN C 69 -19.229 32.266 28.288 1.00104.10 C +ATOM 9872 C GLN C 69 -20.308 31.614 27.432 1.00100.36 C +ATOM 9873 O GLN C 69 -20.544 32.049 26.300 1.00 99.01 O +ATOM 9874 CB GLN C 69 -17.851 31.701 27.939 1.00106.14 C +ATOM 9875 CG GLN C 69 -16.700 32.425 28.624 1.00116.22 C +ATOM 9876 CD GLN C 69 -15.341 31.880 28.226 1.00122.83 C +ATOM 9877 OE1 GLN C 69 -15.243 30.951 27.425 1.00132.65 O +ATOM 9878 NE2 GLN C 69 -14.284 32.455 28.790 1.00117.85 N +ATOM 9879 N LYS C 70 -20.965 30.574 27.941 1.00 98.32 N +ATOM 9880 CA LYS C 70 -22.024 29.888 27.213 1.00 95.94 C +ATOM 9881 C LYS C 70 -23.417 30.292 27.684 1.00100.39 C +ATOM 9882 O LYS C 70 -24.392 29.609 27.354 1.00 99.11 O +ATOM 9883 CB LYS C 70 -21.856 28.373 27.342 1.00 90.92 C +ATOM 9884 CG LYS C 70 -20.491 27.849 26.922 1.00 86.45 C +ATOM 9885 CD LYS C 70 -20.359 27.778 25.410 1.00 81.58 C +ATOM 9886 CE LYS C 70 -19.071 27.077 25.008 1.00 79.89 C +ATOM 9887 NZ LYS C 70 -17.884 27.671 25.679 1.00 88.90 N +ATOM 9888 N PHE C 71 -23.529 31.380 28.450 1.00103.24 N +ATOM 9889 CA PHE C 71 -24.829 31.813 28.959 1.00106.92 C +ATOM 9890 C PHE C 71 -25.808 32.123 27.830 1.00109.13 C +ATOM 9891 O PHE C 71 -26.938 31.622 27.818 1.00109.66 O +ATOM 9892 CB PHE C 71 -24.646 33.037 29.859 1.00107.61 C +ATOM 9893 CG PHE C 71 -25.312 32.918 31.200 1.00110.68 C +ATOM 9894 CD1 PHE C 71 -26.508 32.235 31.340 1.00112.07 C +ATOM 9895 CD2 PHE C 71 -24.737 33.490 32.324 1.00111.70 C +ATOM 9896 CE1 PHE C 71 -27.120 32.127 32.575 1.00111.22 C +ATOM 9897 CE2 PHE C 71 -25.343 33.385 33.562 1.00114.59 C +ATOM 9898 CZ PHE C 71 -26.537 32.702 33.688 1.00109.98 C +ATOM 9899 N LYS C 72 -25.387 32.939 26.867 1.00108.76 N +ATOM 9900 CA LYS C 72 -26.241 33.360 25.755 1.00113.83 C +ATOM 9901 C LYS C 72 -26.089 32.457 24.533 1.00113.03 C +ATOM 9902 O LYS C 72 -25.865 32.921 23.416 1.00117.09 O +ATOM 9903 CB LYS C 72 -25.943 34.812 25.404 1.00116.69 C +ATOM 9904 N GLY C 74 -26.211 31.149 24.740 1.00107.07 N +ATOM 9905 CA GLY C 74 -26.117 30.200 23.648 1.00101.95 C +ATOM 9906 C GLY C 74 -26.613 28.823 24.031 1.00101.19 C +ATOM 9907 O GLY C 74 -27.413 28.211 23.319 1.00100.05 O +ATOM 9908 N LYS C 75 -26.118 28.324 25.159 1.00 99.17 N +ATOM 9909 CA LYS C 75 -26.377 26.964 25.602 1.00 93.39 C +ATOM 9910 C LYS C 75 -27.605 26.912 26.503 1.00 93.91 C +ATOM 9911 O LYS C 75 -27.849 27.828 27.293 1.00 94.12 O +ATOM 9912 CB LYS C 75 -25.160 26.414 26.347 1.00 90.58 C +ATOM 9913 N ALA C 76 -28.383 25.837 26.370 1.00 93.08 N +ATOM 9914 CA ALA C 76 -29.509 25.580 27.267 1.00 88.06 C +ATOM 9915 C ALA C 76 -29.589 24.083 27.531 1.00 88.21 C +ATOM 9916 O ALA C 76 -29.918 23.310 26.628 1.00 87.75 O +ATOM 9917 CB ALA C 76 -30.820 26.100 26.677 1.00 84.95 C +ATOM 9918 N THR C 77 -29.292 23.672 28.761 1.00 88.85 N +ATOM 9919 CA THR C 77 -29.268 22.263 29.128 1.00 90.86 C +ATOM 9920 C THR C 77 -30.528 21.900 29.904 1.00 91.22 C +ATOM 9921 O THR C 77 -30.965 22.648 30.784 1.00 95.09 O +ATOM 9922 CB THR C 77 -28.028 21.934 29.964 1.00 92.37 C +ATOM 9923 OG1 THR C 77 -27.905 22.879 31.034 1.00105.71 O +ATOM 9924 CG2 THR C 77 -26.775 21.983 29.104 1.00 87.97 C +ATOM 9925 N LEU C 78 -31.106 20.746 29.575 1.00 89.95 N +ATOM 9926 CA LEU C 78 -32.313 20.256 30.223 1.00 90.49 C +ATOM 9927 C LEU C 78 -32.214 18.742 30.350 1.00 90.44 C +ATOM 9928 O LEU C 78 -31.300 18.112 29.812 1.00 88.61 O +ATOM 9929 CB LEU C 78 -33.569 20.671 29.445 1.00 89.20 C +ATOM 9930 CG LEU C 78 -33.743 20.097 28.036 1.00 92.38 C +ATOM 9931 CD1 LEU C 78 -34.690 18.902 28.040 1.00 94.19 C +ATOM 9932 CD2 LEU C 78 -34.223 21.170 27.068 1.00 95.58 C +ATOM 9933 N THR C 79 -33.177 18.148 31.052 1.00 88.37 N +ATOM 9934 CA THR C 79 -33.140 16.718 31.320 1.00 86.81 C +ATOM 9935 C THR C 79 -34.551 16.148 31.294 1.00 85.81 C +ATOM 9936 O THR C 79 -35.540 16.863 31.473 1.00 87.75 O +ATOM 9937 CB THR C 79 -32.484 16.411 32.673 1.00 89.44 C +ATOM 9938 OG1 THR C 79 -32.533 15.000 32.920 1.00 93.49 O +ATOM 9939 CG2 THR C 79 -33.209 17.142 33.793 1.00 89.45 C +ATOM 9940 N VAL C 80 -34.625 14.836 31.070 1.00 83.66 N +ATOM 9941 CA VAL C 80 -35.873 14.080 31.120 1.00 82.89 C +ATOM 9942 C VAL C 80 -35.568 12.759 31.812 1.00 83.81 C +ATOM 9943 O VAL C 80 -34.846 11.918 31.260 1.00 84.75 O +ATOM 9944 CB VAL C 80 -36.476 13.828 29.729 1.00 83.20 C +ATOM 9945 CG1 VAL C 80 -37.717 12.955 29.845 1.00 80.75 C +ATOM 9946 CG2 VAL C 80 -36.819 15.139 29.037 1.00 90.01 C +ATOM 9947 N ASP C 81 -36.103 12.579 33.023 1.00 83.60 N +ATOM 9948 CA ASP C 81 -35.891 11.334 33.752 1.00 82.07 C +ATOM 9949 C ASP C 81 -36.639 10.181 33.101 1.00 86.22 C +ATOM 9950 O ASP C 81 -36.169 9.037 33.143 1.00 85.97 O +ATOM 9951 CB ASP C 81 -36.330 11.484 35.209 1.00 80.00 C +ATOM 9952 CG ASP C 81 -35.699 12.680 35.892 1.00 86.09 C +ATOM 9953 OD1 ASP C 81 -34.951 13.424 35.224 1.00 94.70 O +ATOM 9954 OD2 ASP C 81 -35.951 12.874 37.100 1.00 81.26 O +ATOM 9955 N LYS C 82 -37.811 10.460 32.522 1.00 87.49 N +ATOM 9956 CA LYS C 82 -38.624 9.411 31.917 1.00 87.90 C +ATOM 9957 C LYS C 82 -37.836 8.631 30.872 1.00 88.96 C +ATOM 9958 O LYS C 82 -37.963 7.406 30.772 1.00 90.86 O +ATOM 9959 CB LYS C 82 -39.885 10.020 31.300 1.00 89.50 C +ATOM 9960 CG LYS C 82 -40.897 8.994 30.824 1.00 98.52 C +ATOM 9961 CD LYS C 82 -42.117 9.654 30.203 1.00 99.68 C +ATOM 9962 CE LYS C 82 -42.912 8.659 29.377 1.00 96.86 C +ATOM 9963 NZ LYS C 82 -44.101 8.190 30.148 1.00 89.84 N +ATOM 9964 N SER C 83 -37.024 9.326 30.077 1.00 87.07 N +ATOM 9965 CA SER C 83 -36.176 8.686 29.081 1.00 87.34 C +ATOM 9966 C SER C 83 -34.720 8.591 29.514 1.00 85.49 C +ATOM 9967 O SER C 83 -33.902 8.051 28.761 1.00 82.30 O +ATOM 9968 CB SER C 83 -36.261 9.441 27.750 1.00 87.73 C +ATOM 9969 OG SER C 83 -35.939 10.811 27.923 1.00 86.44 O +ATOM 9970 N SER C 84 -34.383 9.086 30.707 1.00 87.39 N +ATOM 9971 CA SER C 84 -33.004 9.120 31.196 1.00 79.13 C +ATOM 9972 C SER C 84 -32.097 9.808 30.180 1.00 76.26 C +ATOM 9973 O SER C 84 -31.009 9.331 29.851 1.00 75.89 O +ATOM 9974 CB SER C 84 -32.496 7.713 31.523 1.00 75.61 C +ATOM 9975 OG SER C 84 -33.281 7.102 32.532 1.00 83.98 O +ATOM 9976 N SER C 85 -32.561 10.950 29.675 1.00 76.24 N +ATOM 9977 CA SER C 85 -31.888 11.637 28.581 1.00 76.39 C +ATOM 9978 C SER C 85 -31.624 13.088 28.951 1.00 78.63 C +ATOM 9979 O SER C 85 -32.543 13.807 29.354 1.00 79.22 O +ATOM 9980 CB SER C 85 -32.721 11.568 27.296 1.00 76.02 C +ATOM 9981 OG SER C 85 -32.833 10.235 26.832 1.00 75.60 O +ATOM 9982 N THR C 86 -30.374 13.518 28.799 1.00 78.82 N +ATOM 9983 CA THR C 86 -30.003 14.918 28.958 1.00 79.93 C +ATOM 9984 C THR C 86 -29.967 15.563 27.578 1.00 79.29 C +ATOM 9985 O THR C 86 -29.256 15.090 26.685 1.00 77.24 O +ATOM 9986 CB THR C 86 -28.648 15.055 29.652 1.00 76.01 C +ATOM 9987 OG1 THR C 86 -28.685 14.380 30.915 1.00 76.90 O +ATOM 9988 CG2 THR C 86 -28.314 16.522 29.877 1.00 77.52 C +ATOM 9989 N VAL C 87 -30.735 16.631 27.403 1.00 82.20 N +ATOM 9990 CA VAL C 87 -30.831 17.316 26.122 1.00 82.62 C +ATOM 9991 C VAL C 87 -30.126 18.660 26.245 1.00 82.66 C +ATOM 9992 O VAL C 87 -30.049 19.250 27.329 1.00 85.59 O +ATOM 9993 CB VAL C 87 -32.302 17.486 25.683 1.00 84.40 C +ATOM 9994 CG1 VAL C 87 -32.383 17.875 24.219 1.00 86.21 C +ATOM 9995 CG2 VAL C 87 -33.088 16.208 25.946 1.00 77.66 C +ATOM 9996 N TYR C 88 -29.602 19.142 25.122 1.00 81.12 N +ATOM 9997 CA TYR C 88 -28.733 20.313 25.122 1.00 80.91 C +ATOM 9998 C TYR C 88 -28.973 21.091 23.839 1.00 80.95 C +ATOM 9999 O TYR C 88 -28.776 20.558 22.744 1.00 78.51 O +ATOM 10000 CB TYR C 88 -27.272 19.886 25.252 1.00 79.27 C +ATOM 10001 CG TYR C 88 -26.264 20.987 25.045 1.00 81.98 C +ATOM 10002 CD1 TYR C 88 -26.478 22.259 25.549 1.00 85.33 C +ATOM 10003 CD2 TYR C 88 -25.085 20.743 24.357 1.00 78.49 C +ATOM 10004 CE1 TYR C 88 -25.555 23.259 25.357 1.00 87.75 C +ATOM 10005 CE2 TYR C 88 -24.155 21.737 24.162 1.00 78.48 C +ATOM 10006 CZ TYR C 88 -24.393 22.995 24.665 1.00 86.50 C +ATOM 10007 OH TYR C 88 -23.467 23.992 24.472 1.00112.06 O +ATOM 10008 N MET C 89 -29.388 22.346 23.976 1.00 83.59 N +ATOM 10009 CA MET C 89 -29.840 23.156 22.857 1.00 86.53 C +ATOM 10010 C MET C 89 -28.879 24.313 22.619 1.00 88.60 C +ATOM 10011 O MET C 89 -28.401 24.946 23.569 1.00 87.54 O +ATOM 10012 CB MET C 89 -31.252 23.689 23.125 1.00 90.06 C +ATOM 10013 CG MET C 89 -31.866 24.498 21.997 1.00 94.59 C +ATOM 10014 SD MET C 89 -33.578 24.935 22.363 1.00107.69 S +ATOM 10015 CE MET C 89 -34.193 25.329 20.728 1.00104.41 C +ATOM 10016 N GLU C 90 -28.619 24.588 21.342 1.00 91.23 N +ATOM 10017 CA GLU C 90 -27.780 25.695 20.903 1.00 92.20 C +ATOM 10018 C GLU C 90 -28.663 26.693 20.170 1.00 93.59 C +ATOM 10019 O GLU C 90 -29.328 26.335 19.190 1.00 91.96 O +ATOM 10020 CB GLU C 90 -26.660 25.208 19.982 1.00 91.07 C +ATOM 10021 CG GLU C 90 -25.725 24.168 20.579 1.00 92.62 C +ATOM 10022 CD GLU C 90 -24.724 24.765 21.549 1.00 95.94 C +ATOM 10023 OE1 GLU C 90 -24.769 25.992 21.782 1.00 99.65 O +ATOM 10024 OE2 GLU C 90 -23.882 24.006 22.072 1.00104.35 O +ATOM 10025 N LEU C 91 -28.654 27.938 20.638 1.00 97.03 N +ATOM 10026 CA LEU C 91 -29.486 29.005 20.098 1.00 98.01 C +ATOM 10027 C LEU C 91 -28.633 29.994 19.317 1.00 95.17 C +ATOM 10028 O LEU C 91 -27.558 30.393 19.780 1.00 97.59 O +ATOM 10029 CB LEU C 91 -30.234 29.723 21.223 1.00108.90 C +ATOM 10030 CG LEU C 91 -31.246 28.866 21.987 1.00107.95 C +ATOM 10031 CD1 LEU C 91 -31.826 29.631 23.165 1.00109.04 C +ATOM 10032 CD2 LEU C 91 -32.349 28.408 21.050 1.00107.68 C +ATOM 10033 N ARG C 92 -29.120 30.394 18.143 1.00 90.05 N +ATOM 10034 CA ARG C 92 -28.433 31.332 17.253 1.00 89.21 C +ATOM 10035 C ARG C 92 -26.996 30.886 16.963 1.00 90.20 C +ATOM 10036 O ARG C 92 -26.019 31.438 17.471 1.00 90.90 O +ATOM 10037 CB ARG C 92 -28.463 32.748 17.837 1.00 90.89 C +ATOM 10038 N SER C 93 -26.904 29.851 16.132 1.00 91.38 N +ATOM 10039 CA SER C 93 -25.613 29.290 15.756 1.00 90.25 C +ATOM 10040 C SER C 93 -24.749 30.334 15.054 1.00 94.02 C +ATOM 10041 O SER C 93 -25.247 31.234 14.373 1.00 92.76 O +ATOM 10042 CB SER C 93 -25.802 28.071 14.853 1.00 88.92 C +ATOM 10043 OG SER C 93 -26.256 26.956 15.599 1.00 83.61 O +ATOM 10044 N LEU C 94 -23.436 30.206 15.231 1.00101.13 N +ATOM 10045 CA LEU C 94 -22.466 31.120 14.649 1.00103.54 C +ATOM 10046 C LEU C 94 -21.445 30.309 13.860 1.00112.86 C +ATOM 10047 O LEU C 94 -21.452 29.075 13.877 1.00112.34 O +ATOM 10048 CB LEU C 94 -21.786 31.953 15.754 1.00106.51 C +ATOM 10049 CG LEU C 94 -20.650 32.955 15.512 1.00112.26 C +ATOM 10050 CD1 LEU C 94 -21.121 34.145 14.690 1.00114.29 C +ATOM 10051 CD2 LEU C 94 -20.043 33.406 16.834 1.00106.81 C +ATOM 10052 N THR C 95 -20.558 31.014 13.159 1.00125.26 N +ATOM 10053 CA THR C 95 -19.443 30.389 12.460 1.00132.59 C +ATOM 10054 C THR C 95 -18.312 29.977 13.395 1.00131.81 C +ATOM 10055 O THR C 95 -17.284 29.483 12.919 1.00137.58 O +ATOM 10056 CB THR C 95 -18.908 31.322 11.369 1.00145.40 C +ATOM 10057 OG1 THR C 95 -18.103 30.570 10.452 1.00149.69 O +ATOM 10058 CG2 THR C 95 -18.071 32.437 11.978 1.00148.70 C +ATOM 10059 N SER C 96 -18.477 30.155 14.706 1.00122.15 N +ATOM 10060 CA SER C 96 -17.474 29.726 15.671 1.00115.13 C +ATOM 10061 C SER C 96 -17.758 28.332 16.216 1.00115.44 C +ATOM 10062 O SER C 96 -16.817 27.582 16.497 1.00118.07 O +ATOM 10063 CB SER C 96 -17.393 30.729 16.825 1.00111.86 C +ATOM 10064 OG SER C 96 -16.917 31.986 16.371 1.00117.36 O +ATOM 10065 N GLU C 97 -19.032 27.973 16.380 1.00114.71 N +ATOM 10066 CA GLU C 97 -19.437 26.611 16.719 1.00111.68 C +ATOM 10067 C GLU C 97 -19.191 25.621 15.583 1.00122.53 C +ATOM 10068 O GLU C 97 -19.532 24.442 15.737 1.00118.45 O +ATOM 10069 CB GLU C 97 -20.911 26.556 17.135 1.00100.61 C +ATOM 10070 CG GLU C 97 -21.248 27.320 18.409 1.00 95.73 C +ATOM 10071 CD GLU C 97 -21.727 28.726 18.132 1.00 96.64 C +ATOM 10072 OE1 GLU C 97 -22.137 28.984 16.983 1.00101.21 O +ATOM 10073 OE2 GLU C 97 -21.704 29.567 19.055 1.00 94.36 O +ATOM 10074 N ASP C 98 -18.616 26.066 14.466 1.00137.14 N +ATOM 10075 CA ASP C 98 -18.492 25.250 13.267 1.00154.27 C +ATOM 10076 C ASP C 98 -17.589 24.047 13.501 1.00173.15 C +ATOM 10077 O ASP C 98 -16.685 24.072 14.341 1.00183.47 O +ATOM 10078 CB ASP C 98 -17.887 26.059 12.119 1.00156.25 C +ATOM 10079 CG ASP C 98 -18.796 27.146 11.631 1.00163.10 C +ATOM 10080 OD1 ASP C 98 -19.990 27.099 11.971 1.00161.82 O +ATOM 10081 OD2 ASP C 98 -18.325 28.033 10.888 1.00167.55 O +ATOM 10082 N SER C 99 -17.844 22.995 12.710 1.00219.77 N +ATOM 10083 CA SER C 99 -17.167 21.701 12.772 1.00214.01 C +ATOM 10084 C SER C 99 -16.591 21.440 14.153 1.00205.56 C +ATOM 10085 O SER C 99 -15.372 21.487 14.345 1.00206.56 O +ATOM 10086 CB SER C 99 -16.064 21.626 11.714 1.00219.35 C +ATOM 10087 OG SER C 99 -16.600 21.784 10.412 1.00216.59 O +ATOM 10088 N ALA C 100 -17.455 21.121 15.107 1.00137.59 N +ATOM 10089 CA ALA C 100 -17.051 21.008 16.499 1.00109.51 C +ATOM 10090 C ALA C 100 -17.697 19.770 17.085 1.00 88.79 C +ATOM 10091 O ALA C 100 -18.861 19.471 16.799 1.00 87.07 O +ATOM 10092 CB ALA C 100 -17.450 22.253 17.301 1.00102.82 C +ATOM 10093 N LEU C 101 -16.942 19.048 17.904 1.00 81.05 N +ATOM 10094 CA LEU C 101 -17.452 17.831 18.514 1.00 70.71 C +ATOM 10095 C LEU C 101 -17.873 18.107 19.951 1.00 68.73 C +ATOM 10096 O LEU C 101 -17.070 18.572 20.764 1.00 68.48 O +ATOM 10097 CB LEU C 101 -16.390 16.735 18.445 1.00 67.42 C +ATOM 10098 CG LEU C 101 -16.720 15.376 19.046 1.00 63.38 C +ATOM 10099 CD1 LEU C 101 -17.811 14.729 18.224 1.00 63.86 C +ATOM 10100 CD2 LEU C 101 -15.478 14.517 19.036 1.00 62.91 C +ATOM 10101 N TYR C 102 -19.129 17.813 20.259 1.00 67.26 N +ATOM 10102 CA TYR C 102 -19.712 18.102 21.561 1.00 63.20 C +ATOM 10103 C TYR C 102 -19.864 16.793 22.322 1.00 62.97 C +ATOM 10104 O TYR C 102 -20.534 15.868 21.850 1.00 62.97 O +ATOM 10105 CB TYR C 102 -21.054 18.818 21.414 1.00 64.23 C +ATOM 10106 CG TYR C 102 -20.926 20.236 20.896 1.00 67.08 C +ATOM 10107 CD1 TYR C 102 -20.926 20.504 19.533 1.00 69.55 C +ATOM 10108 CD2 TYR C 102 -20.798 21.305 21.773 1.00 68.40 C +ATOM 10109 CE1 TYR C 102 -20.806 21.798 19.059 1.00 71.72 C +ATOM 10110 CE2 TYR C 102 -20.678 22.602 21.308 1.00 69.13 C +ATOM 10111 CZ TYR C 102 -20.682 22.843 19.951 1.00 73.25 C +ATOM 10112 OH TYR C 102 -20.563 24.132 19.485 1.00 79.22 O +ATOM 10113 N TYR C 103 -19.229 16.717 23.486 1.00 61.47 N +ATOM 10114 CA TYR C 103 -19.291 15.553 24.353 1.00 61.03 C +ATOM 10115 C TYR C 103 -20.259 15.798 25.501 1.00 62.16 C +ATOM 10116 O TYR C 103 -20.415 16.924 25.978 1.00 62.23 O +ATOM 10117 CB TYR C 103 -17.915 15.219 24.935 1.00 61.82 C +ATOM 10118 CG TYR C 103 -16.922 14.601 23.977 1.00 59.73 C +ATOM 10119 CD1 TYR C 103 -17.025 13.266 23.610 1.00 59.98 C +ATOM 10120 CD2 TYR C 103 -15.860 15.340 23.473 1.00 56.62 C +ATOM 10121 CE1 TYR C 103 -16.114 12.690 22.748 1.00 59.50 C +ATOM 10122 CE2 TYR C 103 -14.942 14.772 22.610 1.00 58.51 C +ATOM 10123 CZ TYR C 103 -15.074 13.445 22.253 1.00 59.23 C +ATOM 10124 OH TYR C 103 -14.165 12.870 21.394 1.00 58.50 O +ATOM 10125 N CYS C 104 -20.912 14.728 25.939 1.00 62.47 N +ATOM 10126 CA CYS C 104 -21.582 14.698 27.228 1.00 61.29 C +ATOM 10127 C CYS C 104 -20.830 13.744 28.143 1.00 59.73 C +ATOM 10128 O CYS C 104 -20.426 12.654 27.724 1.00 57.59 O +ATOM 10129 CB CYS C 104 -23.050 14.275 27.107 1.00 65.15 C +ATOM 10130 SG CYS C 104 -23.355 12.611 26.474 1.00 81.23 S +ATOM 10131 N ALA C 105 -20.629 14.165 29.386 1.00 59.77 N +ATOM 10132 CA ALA C 105 -19.874 13.387 30.351 1.00 55.46 C +ATOM 10133 C ALA C 105 -20.641 13.325 31.662 1.00 57.53 C +ATOM 10134 O ALA C 105 -21.517 14.148 31.938 1.00 58.52 O +ATOM 10135 CB ALA C 105 -18.477 13.978 30.584 1.00 54.77 C +ATOM 10136 N ARG C 106 -20.308 12.322 32.463 1.00 55.01 N +ATOM 10137 CA ARG C 106 -20.940 12.111 33.755 1.00 56.84 C +ATOM 10138 C ARG C 106 -19.962 12.499 34.853 1.00 59.13 C +ATOM 10139 O ARG C 106 -18.821 12.026 34.869 1.00 57.72 O +ATOM 10140 CB ARG C 106 -21.381 10.656 33.927 1.00 57.87 C +ATOM 10141 CG ARG C 106 -22.291 10.433 35.124 1.00 57.04 C +ATOM 10142 CD ARG C 106 -22.506 8.956 35.416 1.00 56.59 C +ATOM 10143 NE ARG C 106 -21.350 8.342 36.061 1.00 59.49 N +ATOM 10144 CZ ARG C 106 -21.346 7.114 36.572 1.00 61.81 C +ATOM 10145 NH1 ARG C 106 -22.439 6.366 36.513 1.00 61.05 N +ATOM 10146 NH2 ARG C 106 -20.249 6.635 37.143 1.00 69.41 N +ATOM 10147 N GLY C 107 -20.408 13.359 35.763 1.00 61.58 N +ATOM 10148 CA GLY C 107 -19.598 13.682 36.917 1.00 61.57 C +ATOM 10149 C GLY C 107 -19.599 12.545 37.920 1.00 63.25 C +ATOM 10150 O GLY C 107 -20.519 11.728 37.971 1.00 62.13 O +ATOM 10151 N THR C 108 -18.539 12.485 38.721 1.00 66.37 N +ATOM 10152 CA THR C 108 -18.413 11.395 39.673 1.00 69.37 C +ATOM 10153 C THR C 108 -19.510 11.496 40.734 1.00 73.63 C +ATOM 10154 O THR C 108 -20.200 12.512 40.863 1.00 75.19 O +ATOM 10155 CB THR C 108 -17.025 11.403 40.315 1.00 69.85 C +ATOM 10156 OG1 THR C 108 -17.052 10.657 41.537 1.00 85.86 O +ATOM 10157 CG2 THR C 108 -16.590 12.823 40.607 1.00 71.78 C +ATOM 10158 N TYR C 109 -19.666 10.416 41.502 1.00 74.43 N +ATOM 10159 CA TYR C 109 -20.792 10.267 42.419 1.00 74.96 C +ATOM 10160 C TYR C 109 -20.849 11.392 43.445 1.00 76.92 C +ATOM 10161 O TYR C 109 -21.794 12.187 43.452 1.00 79.54 O +ATOM 10162 CB TYR C 109 -20.712 8.912 43.122 1.00 74.95 C +ATOM 10163 CG TYR C 109 -21.978 8.519 43.841 1.00 77.47 C +ATOM 10164 CD1 TYR C 109 -23.224 8.755 43.276 1.00 77.52 C +ATOM 10165 CD2 TYR C 109 -21.926 7.906 45.085 1.00 78.49 C +ATOM 10166 CE1 TYR C 109 -24.384 8.394 43.934 1.00 81.17 C +ATOM 10167 CE2 TYR C 109 -23.078 7.543 45.750 1.00 80.13 C +ATOM 10168 CZ TYR C 109 -24.304 7.789 45.171 1.00 82.92 C +ATOM 10169 OH TYR C 109 -25.452 7.426 45.836 1.00 84.65 O +ATOM 10170 N TYR C 110 -19.842 11.458 44.320 1.00 75.21 N +ATOM 10171 CA TYR C 110 -19.785 12.524 45.316 1.00 78.02 C +ATOM 10172 C TYR C 110 -19.702 13.877 44.631 1.00 81.36 C +ATOM 10173 O TYR C 110 -20.100 14.900 45.200 1.00 78.95 O +ATOM 10174 CB TYR C 110 -18.570 12.329 46.222 1.00 76.22 C +ATOM 10175 CG TYR C 110 -18.338 10.901 46.666 1.00 78.05 C +ATOM 10176 CD1 TYR C 110 -19.399 10.025 46.875 1.00 80.69 C +ATOM 10177 CD2 TYR C 110 -17.049 10.416 46.830 1.00 72.53 C +ATOM 10178 CE1 TYR C 110 -19.178 8.717 47.259 1.00 79.28 C +ATOM 10179 CE2 TYR C 110 -16.818 9.112 47.213 1.00 73.51 C +ATOM 10180 CZ TYR C 110 -17.885 8.266 47.427 1.00 78.44 C +ATOM 10181 OH TYR C 110 -17.657 6.964 47.810 1.00 83.08 O +ATOM 10182 N ASP C 111 -19.168 13.878 43.410 1.00 89.44 N +ATOM 10183 CA ASP C 111 -18.861 15.017 42.558 1.00 94.21 C +ATOM 10184 C ASP C 111 -17.659 15.774 43.095 1.00112.62 C +ATOM 10185 O ASP C 111 -17.796 16.751 43.837 1.00115.90 O +ATOM 10186 CB ASP C 111 -20.059 15.959 42.407 1.00 89.32 C +ATOM 10187 CG ASP C 111 -19.878 16.948 41.269 1.00 91.47 C +ATOM 10188 OD1 ASP C 111 -19.511 16.515 40.155 1.00 86.21 O +ATOM 10189 OD2 ASP C 111 -20.097 18.159 41.486 1.00 86.86 O +ATOM 10190 N GLY C 112 -16.475 15.320 42.704 1.00145.17 N +ATOM 10191 CA GLY C 112 -15.257 16.081 42.808 1.00144.29 C +ATOM 10192 C GLY C 112 -15.130 17.057 41.676 1.00141.25 C +ATOM 10193 O GLY C 112 -14.145 17.794 41.586 1.00143.34 O +ATOM 10194 N SER C 113 -16.122 17.027 40.781 1.00109.23 N +ATOM 10195 CA SER C 113 -16.306 17.854 39.592 1.00 93.37 C +ATOM 10196 C SER C 113 -15.490 17.333 38.416 1.00 83.47 C +ATOM 10197 O SER C 113 -15.371 18.033 37.398 1.00 77.87 O +ATOM 10198 CB SER C 113 -16.020 19.337 39.846 1.00 92.90 C +ATOM 10199 OG SER C 113 -14.700 19.571 40.284 1.00 94.96 O +ATOM 10200 N TYR C 114 -14.925 16.133 38.516 1.00 76.78 N +ATOM 10201 CA TYR C 114 -14.270 15.485 37.391 1.00 66.12 C +ATOM 10202 C TYR C 114 -15.204 14.437 36.792 1.00 62.93 C +ATOM 10203 O TYR C 114 -16.155 13.979 37.430 1.00 65.90 O +ATOM 10204 CB TYR C 114 -12.945 14.843 37.813 1.00 64.73 C +ATOM 10205 CG TYR C 114 -13.061 13.786 38.889 1.00 63.28 C +ATOM 10206 CD1 TYR C 114 -13.071 14.131 40.234 1.00 68.32 C +ATOM 10207 CD2 TYR C 114 -13.151 12.441 38.558 1.00 59.43 C +ATOM 10208 CE1 TYR C 114 -13.170 13.164 41.220 1.00 66.90 C +ATOM 10209 CE2 TYR C 114 -13.253 11.468 39.535 1.00 62.83 C +ATOM 10210 CZ TYR C 114 -13.262 11.835 40.864 1.00 60.97 C +ATOM 10211 OH TYR C 114 -13.363 10.867 41.837 1.00 60.40 O +ATOM 10212 N PHE C 115 -14.918 14.057 35.550 1.00 61.28 N +ATOM 10213 CA PHE C 115 -15.847 13.287 34.729 1.00 58.71 C +ATOM 10214 C PHE C 115 -15.272 11.899 34.476 1.00 56.36 C +ATOM 10215 O PHE C 115 -14.160 11.770 33.955 1.00 55.06 O +ATOM 10216 CB PHE C 115 -16.120 14.011 33.409 1.00 57.09 C +ATOM 10217 CG PHE C 115 -16.235 15.509 33.546 1.00 59.33 C +ATOM 10218 CD1 PHE C 115 -16.981 16.078 34.569 1.00 59.94 C +ATOM 10219 CD2 PHE C 115 -15.584 16.348 32.657 1.00 59.48 C +ATOM 10220 CE1 PHE C 115 -17.075 17.452 34.698 1.00 61.50 C +ATOM 10221 CE2 PHE C 115 -15.679 17.723 32.780 1.00 59.57 C +ATOM 10222 CZ PHE C 115 -16.425 18.274 33.801 1.00 60.68 C +ATOM 10223 N ASP C 116 -16.039 10.864 34.830 1.00 56.53 N +ATOM 10224 CA ASP C 116 -15.550 9.492 34.769 1.00 57.22 C +ATOM 10225 C ASP C 116 -16.071 8.703 33.575 1.00 57.29 C +ATOM 10226 O ASP C 116 -15.506 7.649 33.259 1.00 56.01 O +ATOM 10227 CB ASP C 116 -15.915 8.742 36.059 1.00 57.95 C +ATOM 10228 CG ASP C 116 -17.408 8.737 36.332 1.00 58.58 C +ATOM 10229 OD1 ASP C 116 -18.158 9.402 35.586 1.00 56.21 O +ATOM 10230 OD2 ASP C 116 -17.833 8.066 37.295 1.00 61.76 O +ATOM 10231 N TYR C 117 -17.122 9.175 32.908 1.00 56.32 N +ATOM 10232 CA TYR C 117 -17.652 8.513 31.725 1.00 53.02 C +ATOM 10233 C TYR C 117 -17.970 9.558 30.669 1.00 54.22 C +ATOM 10234 O TYR C 117 -18.475 10.637 30.988 1.00 54.53 O +ATOM 10235 CB TYR C 117 -18.910 7.695 32.044 1.00 53.31 C +ATOM 10236 CG TYR C 117 -18.638 6.393 32.761 1.00 55.59 C +ATOM 10237 CD1 TYR C 117 -18.338 5.237 32.052 1.00 52.48 C +ATOM 10238 CD2 TYR C 117 -18.693 6.315 34.147 1.00 57.40 C +ATOM 10239 CE1 TYR C 117 -18.093 4.042 32.702 1.00 52.49 C +ATOM 10240 CE2 TYR C 117 -18.451 5.125 34.806 1.00 58.64 C +ATOM 10241 CZ TYR C 117 -18.151 3.992 34.079 1.00 58.25 C +ATOM 10242 OH TYR C 117 -17.909 2.805 34.732 1.00 65.60 O +ATOM 10243 N TRP C 118 -17.675 9.231 29.413 1.00 53.76 N +ATOM 10244 CA TRP C 118 -17.845 10.154 28.303 1.00 54.42 C +ATOM 10245 C TRP C 118 -18.618 9.479 27.180 1.00 56.89 C +ATOM 10246 O TRP C 118 -18.504 8.269 26.964 1.00 58.03 O +ATOM 10247 CB TRP C 118 -16.492 10.649 27.765 1.00 53.87 C +ATOM 10248 CG TRP C 118 -15.706 11.464 28.744 1.00 52.25 C +ATOM 10249 CD1 TRP C 118 -15.140 11.031 29.907 1.00 51.85 C +ATOM 10250 CD2 TRP C 118 -15.385 12.856 28.636 1.00 50.80 C +ATOM 10251 NE1 TRP C 118 -14.494 12.068 30.534 1.00 53.70 N +ATOM 10252 CE2 TRP C 118 -14.629 13.199 29.774 1.00 51.00 C +ATOM 10253 CE3 TRP C 118 -15.667 13.845 27.689 1.00 53.03 C +ATOM 10254 CZ2 TRP C 118 -14.151 14.489 29.990 1.00 54.45 C +ATOM 10255 CZ3 TRP C 118 -15.191 15.126 27.906 1.00 54.48 C +ATOM 10256 CH2 TRP C 118 -14.442 15.436 29.047 1.00 56.33 C +ATOM 10257 N GLY C 119 -19.406 10.278 26.464 1.00 57.67 N +ATOM 10258 CA GLY C 119 -20.063 9.812 25.264 1.00 57.09 C +ATOM 10259 C GLY C 119 -19.114 9.778 24.085 1.00 60.26 C +ATOM 10260 O GLY C 119 -17.940 10.139 24.175 1.00 63.04 O +ATOM 10261 N GLN C 120 -19.644 9.334 22.944 1.00 62.84 N +ATOM 10262 CA GLN C 120 -18.835 9.275 21.734 1.00 60.69 C +ATOM 10263 C GLN C 120 -18.727 10.627 21.043 1.00 61.14 C +ATOM 10264 O GLN C 120 -17.830 10.815 20.215 1.00 64.62 O +ATOM 10265 CB GLN C 120 -19.402 8.240 20.757 1.00 62.07 C +ATOM 10266 CG GLN C 120 -20.612 8.707 19.958 1.00 61.53 C +ATOM 10267 CD GLN C 120 -21.915 8.591 20.726 1.00 65.03 C +ATOM 10268 OE1 GLN C 120 -21.933 8.611 21.957 1.00 65.54 O +ATOM 10269 NE2 GLN C 120 -23.018 8.465 19.997 1.00 65.60 N +ATOM 10270 N GLY C 121 -19.604 11.562 21.368 1.00 61.46 N +ATOM 10271 CA GLY C 121 -19.542 12.893 20.802 1.00 63.68 C +ATOM 10272 C GLY C 121 -20.471 13.060 19.614 1.00 65.35 C +ATOM 10273 O GLY C 121 -20.728 12.125 18.848 1.00 63.93 O +ATOM 10274 N THR C 122 -20.983 14.278 19.456 1.00 66.51 N +ATOM 10275 CA THR C 122 -21.831 14.648 18.332 1.00 68.28 C +ATOM 10276 C THR C 122 -21.121 15.720 17.521 1.00 66.10 C +ATOM 10277 O THR C 122 -20.678 16.729 18.077 1.00 66.81 O +ATOM 10278 CB THR C 122 -23.194 15.159 18.811 1.00 68.98 C +ATOM 10279 OG1 THR C 122 -23.906 14.097 19.459 1.00 66.65 O +ATOM 10280 CG2 THR C 122 -24.015 15.677 17.641 1.00 66.96 C +ATOM 10281 N THR C 123 -21.001 15.498 16.216 1.00 66.10 N +ATOM 10282 CA THR C 123 -20.345 16.452 15.331 1.00 69.16 C +ATOM 10283 C THR C 123 -21.363 17.468 14.827 1.00 71.83 C +ATOM 10284 O THR C 123 -22.368 17.096 14.210 1.00 74.35 O +ATOM 10285 CB THR C 123 -19.680 15.733 14.158 1.00 68.82 C +ATOM 10286 OG1 THR C 123 -18.794 14.723 14.656 1.00 66.73 O +ATOM 10287 CG2 THR C 123 -18.889 16.719 13.311 1.00 75.03 C +ATOM 10288 N LEU C 124 -21.104 18.746 15.092 1.00 74.70 N +ATOM 10289 CA LEU C 124 -21.940 19.835 14.615 1.00 77.48 C +ATOM 10290 C LEU C 124 -21.215 20.581 13.505 1.00 91.21 C +ATOM 10291 O LEU C 124 -20.010 20.851 13.608 1.00106.90 O +ATOM 10292 CB LEU C 124 -22.296 20.802 15.748 1.00 80.05 C +ATOM 10293 CG LEU C 124 -23.108 22.035 15.338 1.00 78.49 C +ATOM 10294 CD1 LEU C 124 -24.448 21.623 14.746 1.00 77.26 C +ATOM 10295 CD2 LEU C 124 -23.303 22.977 16.516 1.00 78.85 C +ATOM 10296 N THR C 125 -21.959 20.921 12.453 1.00 92.55 N +ATOM 10297 CA THR C 125 -21.440 21.692 11.331 1.00 95.13 C +ATOM 10298 C THR C 125 -22.454 22.771 10.985 1.00 91.72 C +ATOM 10299 O THR C 125 -23.606 22.463 10.660 1.00 89.95 O +ATOM 10300 CB THR C 125 -21.173 20.799 10.115 1.00 91.36 C +ATOM 10301 OG1 THR C 125 -20.522 19.594 10.537 1.00 90.37 O +ATOM 10302 CG2 THR C 125 -20.290 21.521 9.108 1.00 93.32 C +ATOM 10303 N VAL C 126 -22.026 24.027 11.056 1.00 95.98 N +ATOM 10304 CA VAL C 126 -22.870 25.169 10.735 1.00 94.95 C +ATOM 10305 C VAL C 126 -22.299 25.808 9.477 1.00 97.97 C +ATOM 10306 O VAL C 126 -21.250 26.462 9.519 1.00105.39 O +ATOM 10307 CB VAL C 126 -22.939 26.173 11.894 1.00 99.04 C +ATOM 10308 CG1 VAL C 126 -23.750 27.395 11.497 1.00 96.16 C +ATOM 10309 CG2 VAL C 126 -23.521 25.514 13.136 1.00 94.51 C +ATOM 10310 N SER C 127 -22.988 25.615 8.355 1.00 95.89 N +ATOM 10311 CA SER C 127 -22.547 26.147 7.075 1.00 93.10 C +ATOM 10312 C SER C 127 -23.763 26.401 6.200 1.00 95.43 C +ATOM 10313 O SER C 127 -24.743 25.652 6.253 1.00 92.72 O +ATOM 10314 CB SER C 127 -21.580 25.186 6.373 1.00 89.55 C +ATOM 10315 OG SER C 127 -21.213 25.672 5.093 1.00 88.78 O +ATOM 10316 N SER C 128 -23.695 27.466 5.399 1.00 98.65 N +ATOM 10317 CA SER C 128 -24.757 27.760 4.445 1.00 97.83 C +ATOM 10318 C SER C 128 -24.844 26.733 3.324 1.00 94.10 C +ATOM 10319 O SER C 128 -25.841 26.725 2.594 1.00 98.68 O +ATOM 10320 CB SER C 128 -24.555 29.155 3.850 1.00102.33 C +ATOM 10321 OG SER C 128 -24.669 30.155 4.847 1.00110.54 O +ATOM 10322 N ALA C 129 -23.837 25.876 3.171 1.00 92.14 N +ATOM 10323 CA ALA C 129 -23.865 24.848 2.144 1.00 87.64 C +ATOM 10324 C ALA C 129 -24.932 23.800 2.450 1.00 86.35 C +ATOM 10325 O ALA C 129 -25.400 23.656 3.583 1.00 86.88 O +ATOM 10326 CB ALA C 129 -22.497 24.179 2.017 1.00 82.54 C +ATOM 10327 N SER C 130 -25.314 23.062 1.415 1.00 83.48 N +ATOM 10328 CA SER C 130 -26.319 22.017 1.519 1.00 84.39 C +ATOM 10329 C SER C 130 -25.656 20.646 1.580 1.00 82.76 C +ATOM 10330 O SER C 130 -24.474 20.484 1.265 1.00 81.50 O +ATOM 10331 CB SER C 130 -27.292 22.079 0.339 1.00 88.73 C +ATOM 10332 OG SER C 130 -26.603 21.996 -0.896 1.00100.49 O +ATOM 10333 N THR C 131 -26.439 19.654 1.993 1.00 80.95 N +ATOM 10334 CA THR C 131 -25.932 18.296 2.120 1.00 75.17 C +ATOM 10335 C THR C 131 -25.617 17.711 0.745 1.00 77.86 C +ATOM 10336 O THR C 131 -26.285 18.005 -0.250 1.00 81.29 O +ATOM 10337 CB THR C 131 -26.950 17.420 2.853 1.00 71.60 C +ATOM 10338 OG1 THR C 131 -27.274 18.020 4.112 1.00 76.53 O +ATOM 10339 CG2 THR C 131 -26.388 16.034 3.112 1.00 70.34 C +ATOM 10340 N LYS C 132 -24.583 16.872 0.699 1.00 75.09 N +ATOM 10341 CA LYS C 132 -24.161 16.211 -0.531 1.00 75.12 C +ATOM 10342 C LYS C 132 -23.698 14.807 -0.183 1.00 73.73 C +ATOM 10343 O LYS C 132 -22.802 14.636 0.650 1.00 73.57 O +ATOM 10344 CB LYS C 132 -23.042 16.996 -1.223 1.00 78.36 C +ATOM 10345 CG LYS C 132 -22.411 16.294 -2.421 1.00 76.33 C +ATOM 10346 CD LYS C 132 -23.438 15.981 -3.497 1.00 77.75 C +ATOM 10347 CE LYS C 132 -22.771 15.487 -4.773 1.00 80.12 C +ATOM 10348 NZ LYS C 132 -21.964 14.255 -4.553 1.00 79.57 N +ATOM 10349 N GLY C 133 -24.313 13.805 -0.807 1.00 75.31 N +ATOM 10350 CA GLY C 133 -23.926 12.433 -0.594 1.00 74.43 C +ATOM 10351 C GLY C 133 -22.608 12.119 -1.272 1.00 75.75 C +ATOM 10352 O GLY C 133 -22.192 12.797 -2.215 1.00 75.21 O +ATOM 10353 N PRO C 134 -21.925 11.078 -0.805 1.00 75.31 N +ATOM 10354 CA PRO C 134 -20.608 10.748 -1.349 1.00 73.59 C +ATOM 10355 C PRO C 134 -20.662 9.771 -2.512 1.00 71.26 C +ATOM 10356 O PRO C 134 -21.531 8.903 -2.605 1.00 71.13 O +ATOM 10357 CB PRO C 134 -19.895 10.119 -0.143 1.00 73.32 C +ATOM 10358 CG PRO C 134 -21.003 9.597 0.751 1.00 73.49 C +ATOM 10359 CD PRO C 134 -22.323 10.143 0.259 1.00 76.17 C +ATOM 10360 N SER C 135 -19.695 9.932 -3.410 1.00 69.83 N +ATOM 10361 CA SER C 135 -19.467 8.997 -4.503 1.00 68.09 C +ATOM 10362 C SER C 135 -18.346 8.050 -4.094 1.00 67.68 C +ATOM 10363 O SER C 135 -17.249 8.496 -3.743 1.00 67.94 O +ATOM 10364 CB SER C 135 -19.113 9.737 -5.793 1.00 70.93 C +ATOM 10365 OG SER C 135 -20.168 10.595 -6.191 1.00 76.41 O +ATOM 10366 N VAL C 136 -18.625 6.751 -4.127 1.00 62.93 N +ATOM 10367 CA VAL C 136 -17.692 5.733 -3.660 1.00 63.66 C +ATOM 10368 C VAL C 136 -17.125 5.022 -4.880 1.00 64.08 C +ATOM 10369 O VAL C 136 -17.846 4.305 -5.586 1.00 66.30 O +ATOM 10370 CB VAL C 136 -18.363 4.741 -2.702 1.00 61.74 C +ATOM 10371 CG1 VAL C 136 -17.374 3.665 -2.274 1.00 62.43 C +ATOM 10372 CG2 VAL C 136 -18.924 5.475 -1.494 1.00 60.99 C +ATOM 10373 N PHE C 137 -15.830 5.215 -5.128 1.00 64.09 N +ATOM 10374 CA PHE C 137 -15.151 4.528 -6.214 1.00 64.37 C +ATOM 10375 C PHE C 137 -14.147 3.522 -5.659 1.00 64.23 C +ATOM 10376 O PHE C 137 -13.669 3.675 -4.532 1.00 64.48 O +ATOM 10377 CB PHE C 137 -14.420 5.520 -7.127 1.00 66.37 C +ATOM 10378 CG PHE C 137 -15.290 6.636 -7.627 1.00 70.57 C +ATOM 10379 CD1 PHE C 137 -16.293 6.389 -8.549 1.00 73.89 C +ATOM 10380 CD2 PHE C 137 -15.100 7.933 -7.182 1.00 73.30 C +ATOM 10381 CE1 PHE C 137 -17.096 7.413 -9.011 1.00 77.63 C +ATOM 10382 CE2 PHE C 137 -15.898 8.963 -7.643 1.00 76.10 C +ATOM 10383 CZ PHE C 137 -16.897 8.703 -8.560 1.00 77.48 C +ATOM 10384 N PRO C 138 -13.814 2.476 -6.409 1.00 64.11 N +ATOM 10385 CA PRO C 138 -12.831 1.506 -5.922 1.00 64.08 C +ATOM 10386 C PRO C 138 -11.405 1.882 -6.291 1.00 64.36 C +ATOM 10387 O PRO C 138 -11.139 2.565 -7.282 1.00 65.62 O +ATOM 10388 CB PRO C 138 -13.253 0.212 -6.632 1.00 62.58 C +ATOM 10389 CG PRO C 138 -13.817 0.685 -7.926 1.00 67.12 C +ATOM 10390 CD PRO C 138 -14.461 2.027 -7.655 1.00 68.00 C +ATOM 10391 N LEU C 139 -10.476 1.418 -5.459 1.00 62.71 N +ATOM 10392 CA LEU C 139 -9.041 1.489 -5.709 1.00 62.64 C +ATOM 10393 C LEU C 139 -8.603 0.032 -5.782 1.00 64.82 C +ATOM 10394 O LEU C 139 -8.286 -0.578 -4.757 1.00 67.33 O +ATOM 10395 CB LEU C 139 -8.305 2.254 -4.609 1.00 60.66 C +ATOM 10396 CG LEU C 139 -8.776 3.679 -4.316 1.00 60.25 C +ATOM 10397 CD1 LEU C 139 -8.023 4.259 -3.128 1.00 57.38 C +ATOM 10398 CD2 LEU C 139 -8.610 4.556 -5.543 1.00 61.32 C +ATOM 10399 N ALA C 140 -8.615 -0.518 -6.996 1.00 66.29 N +ATOM 10400 CA ALA C 140 -8.443 -1.946 -7.214 1.00 73.35 C +ATOM 10401 C ALA C 140 -6.977 -2.339 -7.061 1.00 74.85 C +ATOM 10402 O ALA C 140 -6.084 -1.578 -7.447 1.00 72.38 O +ATOM 10403 CB ALA C 140 -8.942 -2.339 -8.603 1.00 83.90 C +ATOM 10404 N PRO C 141 -6.700 -3.516 -6.508 1.00 77.64 N +ATOM 10405 CA PRO C 141 -5.318 -3.980 -6.361 1.00 84.54 C +ATOM 10406 C PRO C 141 -4.757 -4.442 -7.698 1.00 99.53 C +ATOM 10407 O PRO C 141 -5.105 -5.525 -8.193 1.00102.35 O +ATOM 10408 CB PRO C 141 -5.435 -5.127 -5.354 1.00 79.37 C +ATOM 10409 CG PRO C 141 -6.817 -5.653 -5.561 1.00 78.76 C +ATOM 10410 CD PRO C 141 -7.667 -4.465 -5.920 1.00 76.14 C +ATOM 10411 N SER C 142 -3.897 -3.627 -8.293 1.00109.20 N +ATOM 10412 CA SER C 142 -3.248 -3.996 -9.542 1.00126.54 C +ATOM 10413 C SER C 142 -2.285 -5.150 -9.291 1.00142.99 C +ATOM 10414 O SER C 142 -1.408 -5.057 -8.425 1.00144.92 O +ATOM 10415 CB SER C 142 -2.513 -2.797 -10.134 1.00132.31 C +ATOM 10416 OG SER C 142 -1.731 -3.179 -11.253 1.00140.62 O +ATOM 10417 N SER C 143 -2.460 -6.245 -10.038 1.00154.10 N +ATOM 10418 CA SER C 143 -1.590 -7.404 -9.867 1.00158.48 C +ATOM 10419 C SER C 143 -0.130 -7.050 -10.114 1.00161.27 C +ATOM 10420 O SER C 143 0.768 -7.692 -9.557 1.00164.33 O +ATOM 10421 CB SER C 143 -2.031 -8.535 -10.797 1.00167.02 C +ATOM 10422 OG SER C 143 -3.337 -8.981 -10.472 1.00160.99 O +ATOM 10423 N LYS C 144 0.128 -6.035 -10.940 1.00152.44 N +ATOM 10424 CA LYS C 144 1.496 -5.577 -11.152 1.00152.83 C +ATOM 10425 C LYS C 144 1.961 -4.677 -10.011 1.00154.77 C +ATOM 10426 O LYS C 144 3.047 -4.878 -9.457 1.00158.09 O +ATOM 10427 CB LYS C 144 1.601 -4.846 -12.492 1.00149.43 C +ATOM 10428 N SER C 145 1.148 -3.684 -9.645 1.00155.66 N +ATOM 10429 CA SER C 145 1.487 -2.740 -8.579 1.00157.16 C +ATOM 10430 C SER C 145 1.120 -3.366 -7.238 1.00157.91 C +ATOM 10431 O SER C 145 0.039 -3.152 -6.683 1.00156.27 O +ATOM 10432 CB SER C 145 0.776 -1.409 -8.787 1.00158.20 C +ATOM 10433 OG SER C 145 1.077 -0.860 -10.055 1.00161.05 O +ATOM 10434 N THR C 146 2.056 -4.151 -6.708 1.00158.89 N +ATOM 10435 CA THR C 146 1.845 -4.886 -5.468 1.00138.16 C +ATOM 10436 C THR C 146 3.198 -5.347 -4.948 1.00130.45 C +ATOM 10437 O THR C 146 3.977 -5.948 -5.694 1.00139.13 O +ATOM 10438 CB THR C 146 0.908 -6.080 -5.689 1.00138.07 C +ATOM 10439 OG1 THR C 146 -0.441 -5.614 -5.832 1.00137.84 O +ATOM 10440 CG2 THR C 146 0.984 -7.048 -4.525 1.00123.12 C +ATOM 10441 N SER C 147 3.469 -5.069 -3.674 1.00119.00 N +ATOM 10442 CA SER C 147 4.783 -5.298 -3.077 1.00117.30 C +ATOM 10443 C SER C 147 4.818 -6.693 -2.461 1.00109.69 C +ATOM 10444 O SER C 147 4.270 -6.922 -1.380 1.00101.91 O +ATOM 10445 CB SER C 147 5.085 -4.225 -2.037 1.00110.39 C +ATOM 10446 OG SER C 147 4.202 -4.331 -0.933 1.00107.18 O +ATOM 10447 N GLY C 148 5.467 -7.628 -3.153 1.00114.16 N +ATOM 10448 CA GLY C 148 5.680 -8.971 -2.642 1.00104.99 C +ATOM 10449 C GLY C 148 4.429 -9.774 -2.338 1.00 96.11 C +ATOM 10450 O GLY C 148 3.609 -10.029 -3.227 1.00 97.14 O +ATOM 10451 N GLY C 149 4.280 -10.191 -1.085 1.00 85.35 N +ATOM 10452 CA GLY C 149 3.146 -10.968 -0.644 1.00 77.76 C +ATOM 10453 C GLY C 149 1.985 -10.174 -0.100 1.00 73.77 C +ATOM 10454 O GLY C 149 0.990 -10.769 0.326 1.00 70.81 O +ATOM 10455 N THR C 150 2.071 -8.846 -0.100 1.00 75.59 N +ATOM 10456 CA THR C 150 1.016 -7.985 0.417 1.00 73.30 C +ATOM 10457 C THR C 150 0.506 -7.083 -0.696 1.00 74.94 C +ATOM 10458 O THR C 150 1.301 -6.492 -1.433 1.00 82.87 O +ATOM 10459 CB THR C 150 1.523 -7.143 1.593 1.00 71.64 C +ATOM 10460 OG1 THR C 150 1.937 -8.005 2.660 1.00 68.40 O +ATOM 10461 CG2 THR C 150 0.436 -6.208 2.094 1.00 67.19 C +ATOM 10462 N ALA C 151 -0.817 -6.969 -0.804 1.00 69.36 N +ATOM 10463 CA ALA C 151 -1.470 -6.141 -1.805 1.00 69.70 C +ATOM 10464 C ALA C 151 -2.355 -5.116 -1.112 1.00 61.53 C +ATOM 10465 O ALA C 151 -3.003 -5.420 -0.105 1.00 65.55 O +ATOM 10466 CB ALA C 151 -2.306 -6.988 -2.771 1.00 69.34 C +ATOM 10467 N ALA C 152 -2.388 -3.907 -1.663 1.00 61.34 N +ATOM 10468 CA ALA C 152 -3.177 -2.812 -1.118 1.00 58.43 C +ATOM 10469 C ALA C 152 -4.401 -2.568 -1.989 1.00 60.38 C +ATOM 10470 O ALA C 152 -4.317 -2.604 -3.221 1.00 64.63 O +ATOM 10471 CB ALA C 152 -2.344 -1.531 -1.019 1.00 59.17 C +ATOM 10472 N LEU C 153 -5.539 -2.328 -1.342 1.00 59.01 N +ATOM 10473 CA LEU C 153 -6.780 -2.058 -2.055 1.00 61.45 C +ATOM 10474 C LEU C 153 -7.641 -1.153 -1.190 1.00 61.35 C +ATOM 10475 O LEU C 153 -7.564 -1.203 0.038 1.00 60.88 O +ATOM 10476 CB LEU C 153 -7.520 -3.358 -2.396 1.00 63.97 C +ATOM 10477 CG LEU C 153 -7.975 -4.229 -1.219 1.00 64.98 C +ATOM 10478 CD1 LEU C 153 -9.447 -4.001 -0.895 1.00 61.82 C +ATOM 10479 CD2 LEU C 153 -7.701 -5.700 -1.491 1.00 65.13 C +ATOM 10480 N GLY C 154 -8.470 -0.333 -1.825 1.00 61.05 N +ATOM 10481 CA GLY C 154 -9.200 0.625 -1.026 1.00 59.70 C +ATOM 10482 C GLY C 154 -10.433 1.190 -1.695 1.00 58.25 C +ATOM 10483 O GLY C 154 -10.898 0.694 -2.722 1.00 60.87 O +ATOM 10484 N CYS C 155 -10.947 2.257 -1.089 1.00 57.90 N +ATOM 10485 CA CYS C 155 -12.154 2.931 -1.548 1.00 58.05 C +ATOM 10486 C CYS C 155 -11.973 4.436 -1.420 1.00 60.11 C +ATOM 10487 O CYS C 155 -11.522 4.926 -0.379 1.00 61.80 O +ATOM 10488 CB CYS C 155 -13.379 2.465 -0.752 1.00 59.81 C +ATOM 10489 SG CYS C 155 -14.020 0.863 -1.295 1.00 79.66 S +ATOM 10490 N LEU C 156 -12.325 5.158 -2.480 1.00 61.05 N +ATOM 10491 CA LEU C 156 -12.265 6.613 -2.519 1.00 60.70 C +ATOM 10492 C LEU C 156 -13.666 7.179 -2.313 1.00 62.47 C +ATOM 10493 O LEU C 156 -14.562 6.942 -3.132 1.00 63.85 O +ATOM 10494 CB LEU C 156 -11.681 7.095 -3.847 1.00 58.44 C +ATOM 10495 CG LEU C 156 -11.632 8.607 -4.074 1.00 61.16 C +ATOM 10496 CD1 LEU C 156 -10.660 9.267 -3.110 1.00 60.56 C +ATOM 10497 CD2 LEU C 156 -11.258 8.916 -5.515 1.00 66.07 C +ATOM 10498 N VAL C 157 -13.850 7.907 -1.215 1.00 61.83 N +ATOM 10499 CA VAL C 157 -15.120 8.533 -0.866 1.00 64.22 C +ATOM 10500 C VAL C 157 -14.994 10.011 -1.224 1.00 66.50 C +ATOM 10501 O VAL C 157 -14.414 10.797 -0.470 1.00 66.50 O +ATOM 10502 CB VAL C 157 -15.455 8.329 0.613 1.00 65.08 C +ATOM 10503 CG1 VAL C 157 -16.794 8.948 0.949 1.00 66.26 C +ATOM 10504 CG2 VAL C 157 -15.452 6.847 0.956 1.00 62.75 C +ATOM 10505 N LYS C 158 -15.533 10.394 -2.380 1.00 66.37 N +ATOM 10506 CA LYS C 158 -15.316 11.714 -2.953 1.00 71.27 C +ATOM 10507 C LYS C 158 -16.595 12.542 -2.927 1.00 70.65 C +ATOM 10508 O LYS C 158 -17.706 12.005 -2.985 1.00 69.31 O +ATOM 10509 CB LYS C 158 -14.813 11.591 -4.396 1.00 71.71 C +ATOM 10510 CG LYS C 158 -14.077 12.804 -4.936 1.00 71.17 C +ATOM 10511 CD LYS C 158 -13.841 12.657 -6.434 1.00 71.63 C +ATOM 10512 CE LYS C 158 -13.510 13.986 -7.090 1.00 75.64 C +ATOM 10513 NZ LYS C 158 -12.490 14.747 -6.318 1.00 78.87 N +ATOM 10514 N ASP C 159 -16.417 13.864 -2.853 1.00 71.55 N +ATOM 10515 CA ASP C 159 -17.496 14.838 -2.994 1.00 71.75 C +ATOM 10516 C ASP C 159 -18.661 14.601 -2.040 1.00 74.18 C +ATOM 10517 O ASP C 159 -19.714 14.108 -2.455 1.00 77.38 O +ATOM 10518 CB ASP C 159 -18.014 14.857 -4.434 1.00 74.73 C +ATOM 10519 CG ASP C 159 -16.955 15.282 -5.428 1.00 76.50 C +ATOM 10520 OD1 ASP C 159 -16.177 16.204 -5.104 1.00 77.34 O +ATOM 10521 OD2 ASP C 159 -16.908 14.707 -6.536 1.00 81.92 O +ATOM 10522 N TYR C 160 -18.488 14.955 -0.769 1.00 73.20 N +ATOM 10523 CA TYR C 160 -19.574 14.898 0.197 1.00 70.94 C +ATOM 10524 C TYR C 160 -19.453 16.068 1.162 1.00 69.97 C +ATOM 10525 O TYR C 160 -18.397 16.692 1.287 1.00 72.58 O +ATOM 10526 CB TYR C 160 -19.594 13.568 0.967 1.00 70.28 C +ATOM 10527 CG TYR C 160 -18.422 13.361 1.902 1.00 70.80 C +ATOM 10528 CD1 TYR C 160 -18.442 13.859 3.200 1.00 69.76 C +ATOM 10529 CD2 TYR C 160 -17.306 12.645 1.493 1.00 72.88 C +ATOM 10530 CE1 TYR C 160 -17.374 13.671 4.054 1.00 70.17 C +ATOM 10531 CE2 TYR C 160 -16.235 12.445 2.343 1.00 72.12 C +ATOM 10532 CZ TYR C 160 -16.276 12.959 3.622 1.00 71.27 C +ATOM 10533 OH TYR C 160 -15.213 12.763 4.472 1.00 71.21 O +ATOM 10534 N PHE C 161 -20.561 16.353 1.853 1.00 70.00 N +ATOM 10535 CA PHE C 161 -20.614 17.437 2.823 1.00 69.52 C +ATOM 10536 C PHE C 161 -21.856 17.245 3.675 1.00 71.87 C +ATOM 10537 O PHE C 161 -22.912 16.900 3.129 1.00 74.48 O +ATOM 10538 CB PHE C 161 -20.647 18.807 2.133 1.00 70.52 C +ATOM 10539 CG PHE C 161 -20.571 19.971 3.083 1.00 68.73 C +ATOM 10540 CD1 PHE C 161 -21.721 20.511 3.637 1.00 70.34 C +ATOM 10541 CD2 PHE C 161 -19.348 20.528 3.417 1.00 70.98 C +ATOM 10542 CE1 PHE C 161 -21.651 21.581 4.509 1.00 74.10 C +ATOM 10543 CE2 PHE C 161 -19.273 21.599 4.288 1.00 72.56 C +ATOM 10544 CZ PHE C 161 -20.425 22.126 4.834 1.00 73.88 C +ATOM 10545 N PRO C 162 -21.779 17.452 4.998 1.00 71.77 N +ATOM 10546 CA PRO C 162 -20.543 17.778 5.712 1.00 72.07 C +ATOM 10547 C PRO C 162 -19.863 16.544 6.291 1.00 73.09 C +ATOM 10548 O PRO C 162 -20.200 15.420 5.918 1.00 71.87 O +ATOM 10549 CB PRO C 162 -21.034 18.695 6.827 1.00 72.72 C +ATOM 10550 CG PRO C 162 -22.376 18.120 7.171 1.00 71.87 C +ATOM 10551 CD PRO C 162 -22.954 17.560 5.881 1.00 68.52 C +ATOM 10552 N GLU C 163 -18.911 16.760 7.194 1.00 72.06 N +ATOM 10553 CA GLU C 163 -18.341 15.664 7.953 1.00 71.99 C +ATOM 10554 C GLU C 163 -19.356 15.166 8.980 1.00 74.53 C +ATOM 10555 O GLU C 163 -20.262 15.902 9.377 1.00 76.97 O +ATOM 10556 CB GLU C 163 -17.055 16.117 8.642 1.00 75.56 C +ATOM 10557 CG GLU C 163 -15.863 16.235 7.707 1.00 74.78 C +ATOM 10558 CD GLU C 163 -15.197 14.898 7.444 1.00 73.66 C +ATOM 10559 OE1 GLU C 163 -14.563 14.356 8.374 1.00 73.92 O +ATOM 10560 OE2 GLU C 163 -15.316 14.385 6.312 1.00 73.46 O +ATOM 10561 N PRO C 164 -19.230 13.907 9.430 1.00 72.56 N +ATOM 10562 CA PRO C 164 -18.239 12.897 9.055 1.00 73.01 C +ATOM 10563 C PRO C 164 -18.786 11.814 8.127 1.00 73.36 C +ATOM 10564 O PRO C 164 -19.923 11.895 7.665 1.00 74.67 O +ATOM 10565 CB PRO C 164 -17.849 12.298 10.406 1.00 75.84 C +ATOM 10566 CG PRO C 164 -19.094 12.494 11.285 1.00 73.75 C +ATOM 10567 CD PRO C 164 -20.042 13.430 10.560 1.00 71.25 C +ATOM 10568 N VAL C 165 -17.956 10.808 7.864 1.00 72.80 N +ATOM 10569 CA VAL C 165 -18.331 9.635 7.083 1.00 69.12 C +ATOM 10570 C VAL C 165 -17.806 8.403 7.804 1.00 68.39 C +ATOM 10571 O VAL C 165 -16.682 8.405 8.318 1.00 73.80 O +ATOM 10572 CB VAL C 165 -17.786 9.714 5.641 1.00 71.08 C +ATOM 10573 CG1 VAL C 165 -17.756 8.342 4.994 1.00 71.90 C +ATOM 10574 CG2 VAL C 165 -18.649 10.638 4.814 1.00 74.93 C +ATOM 10575 N THR C 166 -18.615 7.347 7.840 1.00 66.70 N +ATOM 10576 CA THR C 166 -18.248 6.104 8.507 1.00 68.32 C +ATOM 10577 C THR C 166 -17.885 5.068 7.453 1.00 65.26 C +ATOM 10578 O THR C 166 -18.734 4.672 6.650 1.00 67.13 O +ATOM 10579 CB THR C 166 -19.392 5.595 9.385 1.00 70.46 C +ATOM 10580 OG1 THR C 166 -19.719 6.582 10.370 1.00 73.77 O +ATOM 10581 CG2 THR C 166 -18.993 4.300 10.080 1.00 65.54 C +ATOM 10582 N VAL C 167 -16.630 4.629 7.459 1.00 60.93 N +ATOM 10583 CA VAL C 167 -16.139 3.637 6.511 1.00 60.20 C +ATOM 10584 C VAL C 167 -15.760 2.379 7.280 1.00 58.05 C +ATOM 10585 O VAL C 167 -15.055 2.452 8.293 1.00 61.29 O +ATOM 10586 CB VAL C 167 -14.942 4.164 5.699 1.00 59.85 C +ATOM 10587 CG1 VAL C 167 -14.439 3.091 4.749 1.00 56.23 C +ATOM 10588 CG2 VAL C 167 -15.331 5.418 4.934 1.00 60.90 C +ATOM 10589 N SER C 168 -16.232 1.234 6.797 1.00 57.40 N +ATOM 10590 CA SER C 168 -15.914 -0.067 7.361 1.00 58.57 C +ATOM 10591 C SER C 168 -15.530 -1.009 6.229 1.00 63.95 C +ATOM 10592 O SER C 168 -15.716 -0.703 5.051 1.00 64.39 O +ATOM 10593 CB SER C 168 -17.098 -0.635 8.157 1.00 64.22 C +ATOM 10594 OG SER C 168 -16.851 -1.971 8.556 1.00 69.69 O +ATOM 10595 N TRP C 169 -14.995 -2.172 6.591 1.00 65.22 N +ATOM 10596 CA TRP C 169 -14.611 -3.185 5.615 1.00 64.84 C +ATOM 10597 C TRP C 169 -15.209 -4.520 6.030 1.00 68.31 C +ATOM 10598 O TRP C 169 -14.968 -4.987 7.148 1.00 68.69 O +ATOM 10599 CB TRP C 169 -13.089 -3.281 5.485 1.00 62.18 C +ATOM 10600 CG TRP C 169 -12.499 -2.152 4.695 1.00 60.88 C +ATOM 10601 CD1 TRP C 169 -12.067 -0.950 5.176 1.00 58.55 C +ATOM 10602 CD2 TRP C 169 -12.283 -2.118 3.279 1.00 60.22 C +ATOM 10603 NE1 TRP C 169 -11.594 -0.171 4.147 1.00 58.06 N +ATOM 10604 CE2 TRP C 169 -11.715 -0.866 2.972 1.00 57.99 C +ATOM 10605 CE3 TRP C 169 -12.514 -3.027 2.242 1.00 61.60 C +ATOM 10606 CZ2 TRP C 169 -11.375 -0.500 1.672 1.00 58.94 C +ATOM 10607 CZ3 TRP C 169 -12.176 -2.661 0.952 1.00 62.05 C +ATOM 10608 CH2 TRP C 169 -11.612 -1.409 0.678 1.00 59.71 C +ATOM 10609 N ASN C 170 -15.985 -5.125 5.127 1.00 70.52 N +ATOM 10610 CA ASN C 170 -16.680 -6.386 5.393 1.00 72.33 C +ATOM 10611 C ASN C 170 -17.593 -6.265 6.611 1.00 72.25 C +ATOM 10612 O ASN C 170 -17.671 -7.170 7.445 1.00 71.31 O +ATOM 10613 CB ASN C 170 -15.693 -7.545 5.554 1.00 72.22 C +ATOM 10614 CG ASN C 170 -15.001 -7.905 4.252 1.00 73.70 C +ATOM 10615 OD1 ASN C 170 -15.128 -7.196 3.253 1.00 70.80 O +ATOM 10616 ND2 ASN C 170 -14.267 -9.011 4.256 1.00 80.21 N +ATOM 10617 N SER C 171 -18.285 -5.127 6.711 1.00 71.18 N +ATOM 10618 CA SER C 171 -19.237 -4.848 7.789 1.00 74.64 C +ATOM 10619 C SER C 171 -18.579 -4.906 9.165 1.00 71.12 C +ATOM 10620 O SER C 171 -19.234 -5.207 10.165 1.00 69.49 O +ATOM 10621 CB SER C 171 -20.437 -5.798 7.730 1.00 78.61 C +ATOM 10622 OG SER C 171 -21.166 -5.624 6.526 1.00 80.40 O +ATOM 10623 N GLY C 172 -17.280 -4.615 9.228 1.00 71.32 N +ATOM 10624 CA GLY C 172 -16.548 -4.602 10.475 1.00 67.71 C +ATOM 10625 C GLY C 172 -15.694 -5.825 10.728 1.00 66.11 C +ATOM 10626 O GLY C 172 -14.872 -5.803 11.652 1.00 65.91 O +ATOM 10627 N ALA C 173 -15.862 -6.890 9.940 1.00 66.18 N +ATOM 10628 CA ALA C 173 -15.085 -8.105 10.154 1.00 68.88 C +ATOM 10629 C ALA C 173 -13.616 -7.931 9.793 1.00 69.03 C +ATOM 10630 O ALA C 173 -12.778 -8.697 10.280 1.00 73.39 O +ATOM 10631 CB ALA C 173 -15.683 -9.260 9.350 1.00 71.58 C +ATOM 10632 N LEU C 174 -13.284 -6.949 8.959 1.00 67.73 N +ATOM 10633 CA LEU C 174 -11.909 -6.694 8.540 1.00 63.56 C +ATOM 10634 C LEU C 174 -11.447 -5.396 9.193 1.00 62.08 C +ATOM 10635 O LEU C 174 -11.948 -4.316 8.862 1.00 60.32 O +ATOM 10636 CB LEU C 174 -11.805 -6.616 7.019 1.00 63.22 C +ATOM 10637 CG LEU C 174 -10.393 -6.485 6.444 1.00 63.80 C +ATOM 10638 CD1 LEU C 174 -9.547 -7.695 6.813 1.00 62.62 C +ATOM 10639 CD2 LEU C 174 -10.438 -6.299 4.935 1.00 64.12 C +ATOM 10640 N THR C 175 -10.495 -5.506 10.119 1.00 59.82 N +ATOM 10641 CA THR C 175 -9.980 -4.344 10.833 1.00 58.52 C +ATOM 10642 C THR C 175 -8.460 -4.290 10.747 1.00 59.08 C +ATOM 10643 O THR C 175 -7.867 -3.206 10.782 1.00 58.55 O +ATOM 10644 CB THR C 175 -10.422 -4.367 12.299 1.00 58.63 C +ATOM 10645 OG1 THR C 175 -9.994 -5.589 12.912 1.00 66.51 O +ATOM 10646 CG2 THR C 175 -11.936 -4.251 12.408 1.00 56.12 C +ATOM 10647 N SER C 176 -7.824 -5.454 10.641 1.00 57.22 N +ATOM 10648 CA SER C 176 -6.370 -5.517 10.583 1.00 53.90 C +ATOM 10649 C SER C 176 -5.859 -4.907 9.284 1.00 56.66 C +ATOM 10650 O SER C 176 -6.273 -5.306 8.191 1.00 61.48 O +ATOM 10651 CB SER C 176 -5.901 -6.966 10.710 1.00 56.34 C +ATOM 10652 OG SER C 176 -4.515 -7.079 10.438 1.00 61.59 O +ATOM 10653 N GLY C 177 -4.955 -3.937 9.405 1.00 54.18 N +ATOM 10654 CA GLY C 177 -4.340 -3.325 8.246 1.00 56.76 C +ATOM 10655 C GLY C 177 -5.145 -2.229 7.587 1.00 57.57 C +ATOM 10656 O GLY C 177 -4.787 -1.798 6.485 1.00 58.10 O +ATOM 10657 N VAL C 178 -6.217 -1.767 8.216 1.00 55.88 N +ATOM 10658 CA VAL C 178 -7.067 -0.725 7.652 1.00 55.32 C +ATOM 10659 C VAL C 178 -6.491 0.639 8.004 1.00 53.99 C +ATOM 10660 O VAL C 178 -5.968 0.848 9.105 1.00 55.79 O +ATOM 10661 CB VAL C 178 -8.515 -0.870 8.160 1.00 52.38 C +ATOM 10662 CG1 VAL C 178 -9.424 0.162 7.508 1.00 48.88 C +ATOM 10663 CG2 VAL C 178 -9.030 -2.274 7.893 1.00 54.35 C +ATOM 10664 N HIS C 179 -6.588 1.574 7.060 1.00 51.75 N +ATOM 10665 CA HIS C 179 -6.166 2.956 7.265 1.00 53.39 C +ATOM 10666 C HIS C 179 -7.182 3.855 6.575 1.00 52.87 C +ATOM 10667 O HIS C 179 -7.241 3.893 5.342 1.00 57.64 O +ATOM 10668 CB HIS C 179 -4.760 3.207 6.717 1.00 52.72 C +ATOM 10669 CG HIS C 179 -3.679 2.482 7.455 1.00 56.16 C +ATOM 10670 ND1 HIS C 179 -3.201 2.904 8.677 1.00 57.22 N +ATOM 10671 CD2 HIS C 179 -2.972 1.371 7.139 1.00 57.22 C +ATOM 10672 CE1 HIS C 179 -2.252 2.081 9.085 1.00 57.98 C +ATOM 10673 NE2 HIS C 179 -2.094 1.142 8.170 1.00 56.91 N +ATOM 10674 N THR C 180 -7.989 4.557 7.363 1.00 46.77 N +ATOM 10675 CA THR C 180 -8.924 5.548 6.848 1.00 50.80 C +ATOM 10676 C THR C 180 -8.342 6.933 7.099 1.00 50.02 C +ATOM 10677 O THR C 180 -8.156 7.333 8.253 1.00 53.01 O +ATOM 10678 CB THR C 180 -10.298 5.412 7.503 1.00 50.84 C +ATOM 10679 OG1 THR C 180 -10.782 4.074 7.327 1.00 51.06 O +ATOM 10680 CG2 THR C 180 -11.282 6.387 6.874 1.00 50.16 C +ATOM 10681 N PHE C 181 -8.058 7.653 6.028 1.00 51.17 N +ATOM 10682 CA PHE C 181 -7.356 8.919 6.139 1.00 54.97 C +ATOM 10683 C PHE C 181 -8.322 10.050 6.483 1.00 54.56 C +ATOM 10684 O PHE C 181 -9.500 10.001 6.118 1.00 56.13 O +ATOM 10685 CB PHE C 181 -6.631 9.235 4.836 1.00 55.05 C +ATOM 10686 CG PHE C 181 -5.558 8.245 4.492 1.00 52.22 C +ATOM 10687 CD1 PHE C 181 -5.868 7.062 3.843 1.00 52.67 C +ATOM 10688 CD2 PHE C 181 -4.242 8.488 4.834 1.00 53.00 C +ATOM 10689 CE1 PHE C 181 -4.884 6.147 3.535 1.00 54.61 C +ATOM 10690 CE2 PHE C 181 -3.255 7.577 4.529 1.00 55.45 C +ATOM 10691 CZ PHE C 181 -3.575 6.406 3.879 1.00 56.98 C +ATOM 10692 N PRO C 182 -7.851 11.065 7.207 1.00 55.76 N +ATOM 10693 CA PRO C 182 -8.705 12.226 7.484 1.00 59.72 C +ATOM 10694 C PRO C 182 -9.166 12.881 6.191 1.00 62.07 C +ATOM 10695 O PRO C 182 -8.430 12.935 5.203 1.00 62.42 O +ATOM 10696 CB PRO C 182 -7.791 13.154 8.293 1.00 62.05 C +ATOM 10697 CG PRO C 182 -6.768 12.249 8.893 1.00 59.31 C +ATOM 10698 CD PRO C 182 -6.549 11.157 7.888 1.00 55.88 C +ATOM 10699 N ALA C 183 -10.400 13.376 6.204 1.00 64.44 N +ATOM 10700 CA ALA C 183 -10.958 14.009 5.020 1.00 66.50 C +ATOM 10701 C ALA C 183 -10.219 15.303 4.699 1.00 69.60 C +ATOM 10702 O ALA C 183 -9.776 16.032 5.590 1.00 71.73 O +ATOM 10703 CB ALA C 183 -12.447 14.292 5.215 1.00 68.91 C +ATOM 10704 N VAL C 184 -10.090 15.582 3.405 1.00 67.52 N +ATOM 10705 CA VAL C 184 -9.469 16.805 2.912 1.00 69.60 C +ATOM 10706 C VAL C 184 -10.537 17.620 2.199 1.00 69.56 C +ATOM 10707 O VAL C 184 -11.277 17.089 1.362 1.00 69.55 O +ATOM 10708 CB VAL C 184 -8.288 16.500 1.975 1.00 73.64 C +ATOM 10709 CG1 VAL C 184 -7.605 17.789 1.547 1.00 77.50 C +ATOM 10710 CG2 VAL C 184 -7.301 15.571 2.657 1.00 71.76 C +ATOM 10711 N LEU C 185 -10.619 18.905 2.532 1.00 69.68 N +ATOM 10712 CA LEU C 185 -11.599 19.796 1.920 1.00 70.48 C +ATOM 10713 C LEU C 185 -11.082 20.236 0.555 1.00 72.94 C +ATOM 10714 O LEU C 185 -10.101 20.982 0.461 1.00 69.48 O +ATOM 10715 CB LEU C 185 -11.874 20.989 2.832 1.00 69.87 C +ATOM 10716 CG LEU C 185 -13.063 21.886 2.478 1.00 72.59 C +ATOM 10717 CD1 LEU C 185 -13.740 22.380 3.745 1.00 76.36 C +ATOM 10718 CD2 LEU C 185 -12.626 23.066 1.627 1.00 76.47 C +ATOM 10719 N GLN C 186 -11.742 19.771 -0.503 1.00 74.86 N +ATOM 10720 CA GLN C 186 -11.354 20.099 -1.864 1.00 72.94 C +ATOM 10721 C GLN C 186 -11.702 21.553 -2.187 1.00 75.40 C +ATOM 10722 O GLN C 186 -12.416 22.233 -1.444 1.00 75.96 O +ATOM 10723 CB GLN C 186 -12.038 19.155 -2.850 1.00 73.78 C +ATOM 10724 CG GLN C 186 -11.746 17.685 -2.594 1.00 75.20 C +ATOM 10725 CD GLN C 186 -12.611 16.764 -3.430 1.00 82.56 C +ATOM 10726 OE1 GLN C 186 -12.109 15.873 -4.114 1.00 96.79 O +ATOM 10727 NE2 GLN C 186 -13.922 16.971 -3.373 1.00 77.33 N +ATOM 10728 N SER C 187 -11.171 22.032 -3.316 1.00 77.74 N +ATOM 10729 CA SER C 187 -11.451 23.397 -3.754 1.00 77.59 C +ATOM 10730 C SER C 187 -12.944 23.644 -3.932 1.00 77.37 C +ATOM 10731 O SER C 187 -13.402 24.786 -3.809 1.00 75.93 O +ATOM 10732 CB SER C 187 -10.707 23.693 -5.056 1.00 81.15 C +ATOM 10733 OG SER C 187 -9.306 23.584 -4.881 1.00 89.91 O +ATOM 10734 N SER C 188 -13.714 22.597 -4.221 1.00 76.88 N +ATOM 10735 CA SER C 188 -15.150 22.715 -4.440 1.00 75.86 C +ATOM 10736 C SER C 188 -15.940 22.863 -3.145 1.00 74.18 C +ATOM 10737 O SER C 188 -17.175 22.854 -3.187 1.00 74.69 O +ATOM 10738 CB SER C 188 -15.662 21.501 -5.219 1.00 78.04 C +ATOM 10739 OG SER C 188 -15.439 20.303 -4.496 1.00 79.04 O +ATOM 10740 N GLY C 189 -15.267 22.997 -2.003 1.00 75.77 N +ATOM 10741 CA GLY C 189 -15.940 23.044 -0.724 1.00 75.24 C +ATOM 10742 C GLY C 189 -16.439 21.711 -0.212 1.00 73.37 C +ATOM 10743 O GLY C 189 -16.989 21.661 0.895 1.00 74.55 O +ATOM 10744 N LEU C 190 -16.266 20.636 -0.973 1.00 71.58 N +ATOM 10745 CA LEU C 190 -16.686 19.301 -0.577 1.00 72.40 C +ATOM 10746 C LEU C 190 -15.504 18.512 -0.026 1.00 72.51 C +ATOM 10747 O LEU C 190 -14.340 18.806 -0.309 1.00 74.73 O +ATOM 10748 CB LEU C 190 -17.307 18.554 -1.760 1.00 74.68 C +ATOM 10749 CG LEU C 190 -18.516 19.214 -2.425 1.00 73.88 C +ATOM 10750 CD1 LEU C 190 -18.964 18.410 -3.635 1.00 72.52 C +ATOM 10751 CD2 LEU C 190 -19.654 19.368 -1.427 1.00 69.37 C +ATOM 10752 N TYR C 191 -15.822 17.497 0.769 1.00 71.49 N +ATOM 10753 CA TYR C 191 -14.819 16.656 1.403 1.00 70.49 C +ATOM 10754 C TYR C 191 -14.566 15.404 0.573 1.00 72.42 C +ATOM 10755 O TYR C 191 -15.382 15.000 -0.261 1.00 72.02 O +ATOM 10756 CB TYR C 191 -15.256 16.261 2.816 1.00 70.13 C +ATOM 10757 CG TYR C 191 -15.228 17.395 3.813 1.00 72.20 C +ATOM 10758 CD1 TYR C 191 -14.054 17.739 4.471 1.00 71.11 C +ATOM 10759 CD2 TYR C 191 -16.378 18.117 4.103 1.00 73.17 C +ATOM 10760 CE1 TYR C 191 -14.026 18.775 5.386 1.00 70.85 C +ATOM 10761 CE2 TYR C 191 -16.360 19.153 5.017 1.00 73.64 C +ATOM 10762 CZ TYR C 191 -15.182 19.478 5.655 1.00 73.32 C +ATOM 10763 OH TYR C 191 -15.160 20.510 6.565 1.00 74.81 O +ATOM 10764 N SER C 192 -13.411 14.790 0.817 1.00 71.43 N +ATOM 10765 CA SER C 192 -13.017 13.573 0.125 1.00 69.52 C +ATOM 10766 C SER C 192 -11.955 12.871 0.957 1.00 69.05 C +ATOM 10767 O SER C 192 -11.123 13.527 1.588 1.00 71.04 O +ATOM 10768 CB SER C 192 -12.485 13.873 -1.281 1.00 69.39 C +ATOM 10769 OG SER C 192 -11.951 12.707 -1.884 1.00 73.33 O +ATOM 10770 N LEU C 193 -11.993 11.541 0.958 1.00 65.89 N +ATOM 10771 CA LEU C 193 -11.018 10.761 1.704 1.00 64.15 C +ATOM 10772 C LEU C 193 -10.830 9.416 1.019 1.00 62.70 C +ATOM 10773 O LEU C 193 -11.532 9.072 0.065 1.00 63.98 O +ATOM 10774 CB LEU C 193 -11.436 10.592 3.176 1.00 64.57 C +ATOM 10775 CG LEU C 193 -12.675 9.784 3.584 1.00 64.08 C +ATOM 10776 CD1 LEU C 193 -12.406 8.284 3.653 1.00 60.24 C +ATOM 10777 CD2 LEU C 193 -13.205 10.283 4.918 1.00 61.64 C +ATOM 10778 N SER C 194 -9.856 8.660 1.515 1.00 61.80 N +ATOM 10779 CA SER C 194 -9.578 7.321 1.028 1.00 60.14 C +ATOM 10780 C SER C 194 -9.441 6.381 2.214 1.00 60.57 C +ATOM 10781 O SER C 194 -8.956 6.767 3.280 1.00 62.95 O +ATOM 10782 CB SER C 194 -8.301 7.281 0.177 1.00 63.09 C +ATOM 10783 OG SER C 194 -8.398 8.157 -0.933 1.00 72.81 O +ATOM 10784 N SER C 195 -9.883 5.143 2.021 1.00 59.25 N +ATOM 10785 CA SER C 195 -9.753 4.099 3.032 1.00 57.73 C +ATOM 10786 C SER C 195 -9.075 2.908 2.376 1.00 60.45 C +ATOM 10787 O SER C 195 -9.646 2.289 1.474 1.00 61.10 O +ATOM 10788 CB SER C 195 -11.114 3.710 3.607 1.00 55.59 C +ATOM 10789 OG SER C 195 -10.986 2.676 4.567 1.00 57.58 O +ATOM 10790 N VAL C 196 -7.867 2.588 2.824 1.00 57.83 N +ATOM 10791 CA VAL C 196 -7.074 1.528 2.223 1.00 60.16 C +ATOM 10792 C VAL C 196 -6.930 0.384 3.217 1.00 58.59 C +ATOM 10793 O VAL C 196 -7.149 0.533 4.423 1.00 58.62 O +ATOM 10794 CB VAL C 196 -5.689 2.031 1.766 1.00 60.68 C +ATOM 10795 CG1 VAL C 196 -5.841 3.122 0.719 1.00 59.96 C +ATOM 10796 CG2 VAL C 196 -4.890 2.534 2.960 1.00 57.20 C +ATOM 10797 N VAL C 197 -6.566 -0.779 2.688 1.00 57.43 N +ATOM 10798 CA VAL C 197 -6.335 -1.969 3.496 1.00 58.08 C +ATOM 10799 C VAL C 197 -5.321 -2.840 2.769 1.00 57.22 C +ATOM 10800 O VAL C 197 -5.344 -2.957 1.538 1.00 57.56 O +ATOM 10801 CB VAL C 197 -7.652 -2.728 3.785 1.00 56.15 C +ATOM 10802 CG1 VAL C 197 -8.333 -3.151 2.495 1.00 56.38 C +ATOM 10803 CG2 VAL C 197 -7.397 -3.931 4.683 1.00 57.84 C +ATOM 10804 N THR C 198 -4.415 -3.434 3.540 1.00 58.03 N +ATOM 10805 CA THR C 198 -3.432 -4.373 3.026 1.00 58.33 C +ATOM 10806 C THR C 198 -3.848 -5.794 3.380 1.00 59.66 C +ATOM 10807 O THR C 198 -4.276 -6.067 4.506 1.00 62.64 O +ATOM 10808 CB THR C 198 -2.042 -4.076 3.594 1.00 59.41 C +ATOM 10809 OG1 THR C 198 -2.081 -4.149 5.025 1.00 64.64 O +ATOM 10810 CG2 THR C 198 -1.583 -2.688 3.175 1.00 55.16 C +ATOM 10811 N VAL C 199 -3.724 -6.694 2.410 1.00 57.93 N +ATOM 10812 CA VAL C 199 -4.159 -8.083 2.561 1.00 59.19 C +ATOM 10813 C VAL C 199 -3.139 -8.992 1.896 1.00 62.74 C +ATOM 10814 O VAL C 199 -2.333 -8.549 1.067 1.00 63.06 O +ATOM 10815 CB VAL C 199 -5.556 -8.322 1.947 1.00 63.34 C +ATOM 10816 CG1 VAL C 199 -6.615 -7.474 2.640 1.00 62.15 C +ATOM 10817 CG2 VAL C 199 -5.536 -8.044 0.451 1.00 61.98 C +ATOM 10818 N PRO C 200 -3.126 -10.272 2.267 1.00 62.63 N +ATOM 10819 CA PRO C 200 -2.292 -11.227 1.526 1.00 65.14 C +ATOM 10820 C PRO C 200 -2.713 -11.274 0.064 1.00 66.72 C +ATOM 10821 O PRO C 200 -3.894 -11.429 -0.256 1.00 64.86 O +ATOM 10822 CB PRO C 200 -2.547 -12.560 2.243 1.00 63.23 C +ATOM 10823 CG PRO C 200 -3.797 -12.349 3.042 1.00 60.44 C +ATOM 10824 CD PRO C 200 -3.791 -10.904 3.419 1.00 58.89 C +ATOM 10825 N SER C 201 -1.729 -11.118 -0.827 1.00 69.22 N +ATOM 10826 CA SER C 201 -2.024 -11.033 -2.255 1.00 67.50 C +ATOM 10827 C SER C 201 -2.709 -12.295 -2.763 1.00 67.88 C +ATOM 10828 O SER C 201 -3.628 -12.223 -3.588 1.00 68.45 O +ATOM 10829 CB SER C 201 -0.738 -10.765 -3.037 1.00 68.88 C +ATOM 10830 OG SER C 201 0.228 -11.771 -2.791 1.00 69.70 O +ATOM 10831 N SER C 202 -2.288 -13.462 -2.267 1.00 67.65 N +ATOM 10832 CA SER C 202 -2.879 -14.723 -2.703 1.00 71.29 C +ATOM 10833 C SER C 202 -4.376 -14.789 -2.431 1.00 73.35 C +ATOM 10834 O SER C 202 -5.078 -15.577 -3.075 1.00 76.63 O +ATOM 10835 CB SER C 202 -2.175 -15.897 -2.022 1.00 72.42 C +ATOM 10836 OG SER C 202 -2.352 -15.853 -0.617 1.00 78.91 O +ATOM 10837 N SER C 203 -4.881 -13.981 -1.501 1.00 70.41 N +ATOM 10838 CA SER C 203 -6.300 -13.984 -1.175 1.00 70.14 C +ATOM 10839 C SER C 203 -7.128 -13.114 -2.110 1.00 68.84 C +ATOM 10840 O SER C 203 -8.356 -13.089 -1.971 1.00 70.04 O +ATOM 10841 CB SER C 203 -6.509 -13.519 0.269 1.00 70.58 C +ATOM 10842 OG SER C 203 -6.151 -12.157 0.423 1.00 65.98 O +ATOM 10843 N LEU C 204 -6.499 -12.395 -3.046 1.00 68.67 N +ATOM 10844 CA LEU C 204 -7.269 -11.536 -3.940 1.00 69.65 C +ATOM 10845 C LEU C 204 -8.230 -12.340 -4.806 1.00 71.08 C +ATOM 10846 O LEU C 204 -9.318 -11.856 -5.138 1.00 68.27 O +ATOM 10847 CB LEU C 204 -6.330 -10.706 -4.816 1.00 68.03 C +ATOM 10848 CG LEU C 204 -5.544 -9.611 -4.094 1.00 65.44 C +ATOM 10849 CD1 LEU C 204 -4.619 -8.886 -5.059 1.00 68.96 C +ATOM 10850 CD2 LEU C 204 -6.488 -8.636 -3.409 1.00 65.72 C +ATOM 10851 N GLY C 205 -7.853 -13.563 -5.180 1.00 69.81 N +ATOM 10852 CA GLY C 205 -8.719 -14.414 -5.968 1.00 71.28 C +ATOM 10853 C GLY C 205 -9.560 -15.391 -5.182 1.00 74.14 C +ATOM 10854 O GLY C 205 -10.504 -15.966 -5.731 1.00 82.68 O +ATOM 10855 N THR C 206 -9.241 -15.600 -3.905 1.00 74.58 N +ATOM 10856 CA THR C 206 -9.945 -16.558 -3.065 1.00 74.04 C +ATOM 10857 C THR C 206 -10.790 -15.892 -1.986 1.00 73.57 C +ATOM 10858 O THR C 206 -11.324 -16.589 -1.117 1.00 74.44 O +ATOM 10859 CB THR C 206 -8.951 -17.525 -2.418 1.00 75.58 C +ATOM 10860 OG1 THR C 206 -8.046 -16.794 -1.581 1.00 75.96 O +ATOM 10861 CG2 THR C 206 -8.158 -18.266 -3.486 1.00 80.38 C +ATOM 10862 N GLN C 207 -10.926 -14.568 -2.014 1.00 71.05 N +ATOM 10863 CA GLN C 207 -11.642 -13.863 -0.960 1.00 72.24 C +ATOM 10864 C GLN C 207 -12.199 -12.557 -1.510 1.00 71.84 C +ATOM 10865 O GLN C 207 -11.579 -11.909 -2.358 1.00 72.64 O +ATOM 10866 CB GLN C 207 -10.724 -13.603 0.241 1.00 74.62 C +ATOM 10867 CG GLN C 207 -11.386 -12.913 1.418 1.00 74.85 C +ATOM 10868 CD GLN C 207 -10.529 -12.959 2.666 1.00 75.29 C +ATOM 10869 OE1 GLN C 207 -9.438 -13.529 2.661 1.00 72.85 O +ATOM 10870 NE2 GLN C 207 -11.020 -12.359 3.744 1.00 81.01 N +ATOM 10871 N THR C 208 -13.378 -12.182 -1.020 1.00 71.97 N +ATOM 10872 CA THR C 208 -14.068 -10.971 -1.442 1.00 74.68 C +ATOM 10873 C THR C 208 -13.943 -9.877 -0.387 1.00 74.48 C +ATOM 10874 O THR C 208 -14.048 -10.141 0.814 1.00 74.86 O +ATOM 10875 CB THR C 208 -15.546 -11.254 -1.719 1.00 78.57 C +ATOM 10876 OG1 THR C 208 -16.264 -10.016 -1.806 1.00 83.82 O +ATOM 10877 CG2 THR C 208 -16.144 -12.111 -0.611 1.00 80.21 C +ATOM 10878 N TYR C 209 -13.715 -8.648 -0.848 1.00 72.94 N +ATOM 10879 CA TYR C 209 -13.558 -7.482 0.015 1.00 72.49 C +ATOM 10880 C TYR C 209 -14.570 -6.423 -0.399 1.00 73.96 C +ATOM 10881 O TYR C 209 -14.615 -6.029 -1.569 1.00 74.56 O +ATOM 10882 CB TYR C 209 -12.133 -6.929 -0.057 1.00 68.83 C +ATOM 10883 CG TYR C 209 -11.076 -7.908 0.401 1.00 68.91 C +ATOM 10884 CD1 TYR C 209 -10.829 -8.109 1.753 1.00 70.58 C +ATOM 10885 CD2 TYR C 209 -10.327 -8.633 -0.516 1.00 68.41 C +ATOM 10886 CE1 TYR C 209 -9.865 -9.002 2.179 1.00 68.41 C +ATOM 10887 CE2 TYR C 209 -9.360 -9.530 -0.099 1.00 68.65 C +ATOM 10888 CZ TYR C 209 -9.134 -9.710 1.249 1.00 69.34 C +ATOM 10889 OH TYR C 209 -8.173 -10.600 1.671 1.00 71.11 O +ATOM 10890 N ILE C 210 -15.405 -5.997 0.547 1.00 74.12 N +ATOM 10891 CA ILE C 210 -16.396 -4.950 0.322 1.00 71.53 C +ATOM 10892 C ILE C 210 -16.189 -3.854 1.359 1.00 72.18 C +ATOM 10893 O ILE C 210 -16.055 -4.142 2.554 1.00 74.60 O +ATOM 10894 CB ILE C 210 -17.833 -5.499 0.392 1.00 77.67 C +ATOM 10895 CG1 ILE C 210 -18.002 -6.693 -0.550 1.00 82.28 C +ATOM 10896 CG2 ILE C 210 -18.840 -4.408 0.057 1.00 84.10 C +ATOM 10897 CD1 ILE C 210 -18.006 -8.033 0.155 1.00 85.24 C +ATOM 10898 N CYS C 211 -16.168 -2.604 0.903 1.00 68.73 N +ATOM 10899 CA CYS C 211 -16.106 -1.442 1.781 1.00 67.81 C +ATOM 10900 C CYS C 211 -17.503 -0.850 1.938 1.00 69.35 C +ATOM 10901 O CYS C 211 -18.229 -0.677 0.953 1.00 69.20 O +ATOM 10902 CB CYS C 211 -15.127 -0.395 1.242 1.00 63.42 C +ATOM 10903 SG CYS C 211 -15.697 0.554 -0.189 1.00 78.28 S +ATOM 10904 N ASN C 212 -17.879 -0.562 3.180 1.00 67.39 N +ATOM 10905 CA ASN C 212 -19.199 -0.044 3.524 1.00 69.05 C +ATOM 10906 C ASN C 212 -19.050 1.410 3.956 1.00 67.41 C +ATOM 10907 O ASN C 212 -18.458 1.694 5.002 1.00 67.59 O +ATOM 10908 CB ASN C 212 -19.832 -0.883 4.631 1.00 69.91 C +ATOM 10909 CG ASN C 212 -19.534 -2.361 4.479 1.00 75.31 C +ATOM 10910 OD1 ASN C 212 -18.797 -2.940 5.275 1.00 74.12 O +ATOM 10911 ND2 ASN C 212 -20.106 -2.979 3.452 1.00 86.66 N +ATOM 10912 N VAL C 213 -19.581 2.324 3.150 1.00 68.64 N +ATOM 10913 CA VAL C 213 -19.559 3.752 3.439 1.00 68.91 C +ATOM 10914 C VAL C 213 -20.943 4.169 3.913 1.00 69.00 C +ATOM 10915 O VAL C 213 -21.961 3.702 3.389 1.00 70.36 O +ATOM 10916 CB VAL C 213 -19.124 4.557 2.199 1.00 66.49 C +ATOM 10917 CG1 VAL C 213 -19.062 6.043 2.513 1.00 65.65 C +ATOM 10918 CG2 VAL C 213 -17.780 4.056 1.693 1.00 65.11 C +ATOM 10919 N ASN C 214 -20.983 5.041 4.918 1.00 68.37 N +ATOM 10920 CA ASN C 214 -22.236 5.519 5.487 1.00 71.06 C +ATOM 10921 C ASN C 214 -22.105 7.008 5.756 1.00 72.76 C +ATOM 10922 O ASN C 214 -21.251 7.425 6.547 1.00 74.96 O +ATOM 10923 CB ASN C 214 -22.586 4.767 6.775 1.00 73.99 C +ATOM 10924 CG ASN C 214 -23.975 5.102 7.286 1.00 80.87 C +ATOM 10925 OD1 ASN C 214 -24.868 5.446 6.512 1.00 81.68 O +ATOM 10926 ND2 ASN C 214 -24.163 5.004 8.598 1.00 82.57 N +ATOM 10927 N HIS C 215 -22.937 7.803 5.087 1.00 75.11 N +ATOM 10928 CA HIS C 215 -22.994 9.250 5.276 1.00 75.15 C +ATOM 10929 C HIS C 215 -24.395 9.565 5.791 1.00 78.90 C +ATOM 10930 O HIS C 215 -25.362 9.585 5.021 1.00 81.05 O +ATOM 10931 CB HIS C 215 -22.677 9.990 3.979 1.00 73.42 C +ATOM 10932 CG HIS C 215 -22.560 11.473 4.141 1.00 73.91 C +ATOM 10933 ND1 HIS C 215 -23.413 12.360 3.521 1.00 76.87 N +ATOM 10934 CD2 HIS C 215 -21.687 12.226 4.852 1.00 73.76 C +ATOM 10935 CE1 HIS C 215 -23.071 13.595 3.842 1.00 75.56 C +ATOM 10936 NE2 HIS C 215 -22.026 13.541 4.649 1.00 73.13 N +ATOM 10937 N LYS C 216 -24.497 9.792 7.099 1.00 78.21 N +ATOM 10938 CA LYS C 216 -25.764 9.997 7.791 1.00 79.69 C +ATOM 10939 C LYS C 216 -26.426 11.336 7.464 1.00 82.63 C +ATOM 10940 O LYS C 216 -27.657 11.378 7.337 1.00 86.19 O +ATOM 10941 CB LYS C 216 -25.562 9.865 9.304 1.00 77.89 C +ATOM 10942 CG LYS C 216 -25.121 8.479 9.746 1.00 76.97 C +ATOM 10943 CD LYS C 216 -25.043 8.378 11.259 1.00 73.34 C +ATOM 10944 CE LYS C 216 -24.669 6.972 11.699 1.00 79.90 C +ATOM 10945 NZ LYS C 216 -24.600 6.853 13.181 1.00 80.50 N +ATOM 10946 N PRO C 217 -25.684 12.449 7.347 1.00 80.90 N +ATOM 10947 CA PRO C 217 -26.340 13.705 6.936 1.00 80.75 C +ATOM 10948 C PRO C 217 -27.132 13.590 5.645 1.00 78.89 C +ATOM 10949 O PRO C 217 -28.174 14.244 5.507 1.00 77.25 O +ATOM 10950 CB PRO C 217 -25.163 14.679 6.797 1.00 78.10 C +ATOM 10951 CG PRO C 217 -24.169 14.185 7.770 1.00 77.73 C +ATOM 10952 CD PRO C 217 -24.285 12.687 7.756 1.00 80.00 C +ATOM 10953 N SER C 218 -26.672 12.779 4.693 1.00 77.13 N +ATOM 10954 CA SER C 218 -27.407 12.538 3.459 1.00 79.59 C +ATOM 10955 C SER C 218 -28.193 11.235 3.483 1.00 81.89 C +ATOM 10956 O SER C 218 -28.937 10.963 2.534 1.00 86.35 O +ATOM 10957 CB SER C 218 -26.448 12.533 2.262 1.00 76.30 C +ATOM 10958 OG SER C 218 -25.573 11.420 2.315 1.00 77.42 O +ATOM 10959 N ASN C 219 -28.041 10.430 4.537 1.00 81.77 N +ATOM 10960 CA ASN C 219 -28.728 9.144 4.670 1.00 85.81 C +ATOM 10961 C ASN C 219 -28.384 8.217 3.505 1.00 86.67 C +ATOM 10962 O ASN C 219 -29.252 7.559 2.927 1.00 88.34 O +ATOM 10963 CB ASN C 219 -30.243 9.337 4.802 1.00 91.53 C +ATOM 10964 CG ASN C 219 -30.964 8.067 5.214 1.00104.13 C +ATOM 10965 OD1 ASN C 219 -31.664 7.447 4.413 1.00119.55 O +ATOM 10966 ND2 ASN C 219 -30.797 7.673 6.471 1.00107.44 N +ATOM 10967 N THR C 220 -27.104 8.175 3.144 1.00 83.99 N +ATOM 10968 CA THR C 220 -26.620 7.343 2.049 1.00 83.13 C +ATOM 10969 C THR C 220 -25.783 6.209 2.624 1.00 80.05 C +ATOM 10970 O THR C 220 -24.765 6.453 3.281 1.00 80.23 O +ATOM 10971 CB THR C 220 -25.807 8.162 1.046 1.00 79.13 C +ATOM 10972 OG1 THR C 220 -24.781 8.882 1.738 1.00 83.39 O +ATOM 10973 CG2 THR C 220 -26.705 9.147 0.310 1.00 80.61 C +ATOM 10974 N LYS C 221 -26.205 4.974 2.368 1.00 79.07 N +ATOM 10975 CA LYS C 221 -25.525 3.778 2.860 1.00 74.90 C +ATOM 10976 C LYS C 221 -25.072 2.964 1.652 1.00 73.79 C +ATOM 10977 O LYS C 221 -25.842 2.169 1.104 1.00 75.39 O +ATOM 10978 CB LYS C 221 -26.441 2.970 3.776 1.00 77.80 C +ATOM 10979 CG LYS C 221 -25.734 1.880 4.560 1.00 84.35 C +ATOM 10980 CD LYS C 221 -26.689 1.172 5.511 1.00 98.48 C +ATOM 10981 CE LYS C 221 -27.294 2.141 6.517 1.00 98.68 C +ATOM 10982 NZ LYS C 221 -28.154 1.442 7.513 1.00 91.34 N +ATOM 10983 N VAL C 222 -23.821 3.163 1.241 1.00 74.09 N +ATOM 10984 CA VAL C 222 -23.276 2.566 0.029 1.00 71.03 C +ATOM 10985 C VAL C 222 -22.375 1.401 0.413 1.00 71.05 C +ATOM 10986 O VAL C 222 -21.704 1.421 1.449 1.00 71.11 O +ATOM 10987 CB VAL C 222 -22.508 3.624 -0.796 1.00 68.77 C +ATOM 10988 CG1 VAL C 222 -21.832 2.999 -2.010 1.00 69.64 C +ATOM 10989 CG2 VAL C 222 -23.439 4.752 -1.214 1.00 76.37 C +ATOM 10990 N ASP C 223 -22.377 0.362 -0.418 1.00 69.55 N +ATOM 10991 CA ASP C 223 -21.431 -0.739 -0.300 1.00 70.24 C +ATOM 10992 C ASP C 223 -20.773 -0.952 -1.654 1.00 74.67 C +ATOM 10993 O ASP C 223 -21.450 -0.951 -2.686 1.00 82.41 O +ATOM 10994 CB ASP C 223 -22.119 -2.027 0.171 1.00 72.66 C +ATOM 10995 CG ASP C 223 -22.783 -1.871 1.528 1.00 82.48 C +ATOM 10996 OD1 ASP C 223 -22.182 -1.231 2.415 1.00 81.05 O +ATOM 10997 OD2 ASP C 223 -23.906 -2.388 1.709 1.00 95.58 O +ATOM 10998 N LYS C 224 -19.454 -1.137 -1.651 1.00 73.65 N +ATOM 10999 CA LYS C 224 -18.701 -1.261 -2.894 1.00 68.17 C +ATOM 11000 C LYS C 224 -17.737 -2.429 -2.771 1.00 69.38 C +ATOM 11001 O LYS C 224 -16.881 -2.437 -1.882 1.00 72.65 O +ATOM 11002 CB LYS C 224 -17.942 0.034 -3.203 1.00 64.81 C +ATOM 11003 CG LYS C 224 -17.477 0.163 -4.643 1.00 71.40 C +ATOM 11004 CD LYS C 224 -18.614 0.622 -5.544 1.00 79.67 C +ATOM 11005 CE LYS C 224 -18.197 0.635 -7.006 1.00 75.37 C +ATOM 11006 NZ LYS C 224 -19.231 1.275 -7.866 1.00 77.86 N +ATOM 11007 N LYS C 225 -17.875 -3.408 -3.660 1.00 70.52 N +ATOM 11008 CA LYS C 225 -16.944 -4.526 -3.715 1.00 73.01 C +ATOM 11009 C LYS C 225 -15.718 -4.139 -4.533 1.00 69.92 C +ATOM 11010 O LYS C 225 -15.834 -3.544 -5.608 1.00 70.65 O +ATOM 11011 CB LYS C 225 -17.641 -5.750 -4.313 1.00 74.44 C +ATOM 11012 CG LYS C 225 -16.828 -7.037 -4.369 1.00 81.89 C +ATOM 11013 CD LYS C 225 -17.678 -8.142 -4.997 1.00 89.67 C +ATOM 11014 CE LYS C 225 -16.981 -9.495 -5.006 1.00106.53 C +ATOM 11015 NZ LYS C 225 -15.501 -9.374 -4.947 1.00104.64 N +ATOM 11016 N VAL C 226 -14.540 -4.480 -4.017 1.00 67.95 N +ATOM 11017 CA VAL C 226 -13.265 -4.154 -4.647 1.00 67.51 C +ATOM 11018 C VAL C 226 -12.648 -5.448 -5.155 1.00 72.93 C +ATOM 11019 O VAL C 226 -12.304 -6.335 -4.363 1.00 72.39 O +ATOM 11020 CB VAL C 226 -12.318 -3.431 -3.679 1.00 61.88 C +ATOM 11021 CG1 VAL C 226 -11.026 -3.055 -4.388 1.00 67.83 C +ATOM 11022 CG2 VAL C 226 -12.993 -2.198 -3.100 1.00 58.34 C +ATOM 11023 N GLU C 227 -12.502 -5.552 -6.472 1.00 78.97 N +ATOM 11024 CA GLU C 227 -12.021 -6.752 -7.130 1.00 83.32 C +ATOM 11025 C GLU C 227 -10.659 -6.511 -7.772 1.00 83.80 C +ATOM 11026 O GLU C 227 -10.328 -5.378 -8.138 1.00 82.28 O +ATOM 11027 CB GLU C 227 -13.005 -7.221 -8.209 1.00 84.80 C +ATOM 11028 CG GLU C 227 -14.404 -7.519 -7.697 1.00 88.71 C +ATOM 11029 CD GLU C 227 -15.372 -7.853 -8.815 1.00 98.82 C +ATOM 11030 OE1 GLU C 227 -15.808 -6.923 -9.526 1.00101.12 O +ATOM 11031 OE2 GLU C 227 -15.694 -9.048 -8.985 1.00100.90 O +ATOM 11032 N PRO C 228 -9.844 -7.556 -7.917 1.00 85.41 N +ATOM 11033 CA PRO C 228 -8.587 -7.414 -8.665 1.00 89.68 C +ATOM 11034 C PRO C 228 -8.870 -7.047 -10.112 1.00 98.22 C +ATOM 11035 O PRO C 228 -9.561 -7.770 -10.833 1.00100.17 O +ATOM 11036 CB PRO C 228 -7.940 -8.798 -8.537 1.00 87.02 C +ATOM 11037 CG PRO C 228 -9.079 -9.725 -8.255 1.00 82.81 C +ATOM 11038 CD PRO C 228 -10.041 -8.930 -7.424 1.00 81.58 C +ATOM 11039 N LYS C 229 -8.334 -5.903 -10.527 1.00103.74 N +ATOM 11040 CA LYS C 229 -8.602 -5.378 -11.859 1.00110.64 C +ATOM 11041 C LYS C 229 -8.044 -6.348 -12.894 1.00119.03 C +ATOM 11042 O LYS C 229 -6.855 -6.681 -12.873 1.00120.31 O +ATOM 11043 CB LYS C 229 -7.995 -3.981 -11.992 1.00111.50 C +ATOM 11044 CG LYS C 229 -8.748 -3.054 -12.937 1.00117.37 C +ATOM 11045 CD LYS C 229 -7.828 -2.138 -13.722 1.00123.44 C +ATOM 11046 CE LYS C 229 -8.636 -1.245 -14.653 1.00122.11 C +ATOM 11047 NZ LYS C 229 -8.090 0.141 -14.714 1.00117.32 N +ATOM 11048 N SER C 230 -8.910 -6.795 -13.800 1.00122.53 N +ATOM 11049 CA SER C 230 -8.604 -7.904 -14.692 1.00127.67 C +ATOM 11050 C SER C 230 -7.649 -7.496 -15.810 1.00130.16 C +ATOM 11051 O SER C 230 -7.428 -6.314 -16.091 1.00125.36 O +ATOM 11052 CB SER C 230 -9.892 -8.464 -15.298 1.00126.75 C +ATOM 11053 OG SER C 230 -9.610 -9.477 -16.248 1.00133.73 O +ATOM 11054 N CYS C 231 -7.073 -8.514 -16.445 1.00133.96 N +ATOM 11055 CA CYS C 231 -6.087 -8.334 -17.500 1.00138.21 C +ATOM 11056 C CYS C 231 -6.759 -8.270 -18.865 1.00136.68 C +ATOM 11057 O CYS C 231 -7.496 -7.329 -19.157 1.00134.71 O +ATOM 11058 CB CYS C 231 -5.074 -9.483 -17.481 1.00141.92 C +ATOM 11059 SG CYS C 231 -4.205 -9.709 -15.913 1.00160.91 S +ATOM 11060 N ASP D 1 -11.909 33.196 35.424 1.00104.20 N +ATOM 11061 CA ASP D 1 -11.609 31.795 35.156 1.00 96.35 C +ATOM 11062 C ASP D 1 -10.203 31.434 35.625 1.00 91.65 C +ATOM 11063 O ASP D 1 -9.311 32.283 35.656 1.00 90.12 O +ATOM 11064 CB ASP D 1 -11.752 31.490 33.663 1.00 99.91 C +ATOM 11065 CG ASP D 1 -13.154 31.746 33.146 1.00111.23 C +ATOM 11066 OD1 ASP D 1 -14.000 32.228 33.928 1.00113.46 O +ATOM 11067 OD2 ASP D 1 -13.410 31.464 31.957 1.00119.63 O +ATOM 11068 N ILE D 2 -10.012 30.171 35.990 1.00 83.41 N +ATOM 11069 CA ILE D 2 -8.698 29.655 36.358 1.00 77.83 C +ATOM 11070 C ILE D 2 -8.080 29.031 35.114 1.00 76.64 C +ATOM 11071 O ILE D 2 -8.635 28.087 34.543 1.00 72.51 O +ATOM 11072 CB ILE D 2 -8.798 28.634 37.502 1.00 75.17 C +ATOM 11073 CG1 ILE D 2 -9.195 29.331 38.805 1.00 77.43 C +ATOM 11074 CG2 ILE D 2 -7.481 27.893 37.672 1.00 73.57 C +ATOM 11075 CD1 ILE D 2 -9.417 28.380 39.961 1.00 75.86 C +ATOM 11076 N VAL D 3 -6.931 29.550 34.696 1.00 73.11 N +ATOM 11077 CA VAL D 3 -6.299 29.130 33.451 1.00 70.81 C +ATOM 11078 C VAL D 3 -5.317 28.002 33.734 1.00 69.45 C +ATOM 11079 O VAL D 3 -4.423 28.136 34.578 1.00 69.57 O +ATOM 11080 CB VAL D 3 -5.594 30.314 32.769 1.00 69.76 C +ATOM 11081 CG1 VAL D 3 -4.772 29.831 31.583 1.00 68.72 C +ATOM 11082 CG2 VAL D 3 -6.613 31.355 32.333 1.00 72.37 C +ATOM 11083 N MET D 4 -5.486 26.886 33.028 1.00 68.05 N +ATOM 11084 CA MET D 4 -4.562 25.762 33.085 1.00 67.89 C +ATOM 11085 C MET D 4 -3.677 25.790 31.845 1.00 72.14 C +ATOM 11086 O MET D 4 -4.183 25.859 30.719 1.00 73.45 O +ATOM 11087 CB MET D 4 -5.318 24.435 33.170 1.00 66.09 C +ATOM 11088 CG MET D 4 -6.357 24.379 34.282 1.00 67.77 C +ATOM 11089 SD MET D 4 -5.671 24.684 35.921 1.00 66.52 S +ATOM 11090 CE MET D 4 -4.819 23.140 36.229 1.00 63.43 C +ATOM 11091 N THR D 5 -2.362 25.737 32.050 1.00 69.61 N +ATOM 11092 CA THR D 5 -1.393 25.862 30.968 1.00 67.19 C +ATOM 11093 C THR D 5 -0.460 24.662 30.994 1.00 68.57 C +ATOM 11094 O THR D 5 0.207 24.415 32.003 1.00 69.12 O +ATOM 11095 CB THR D 5 -0.591 27.162 31.097 1.00 66.47 C +ATOM 11096 OG1 THR D 5 -1.490 28.273 31.198 1.00 73.26 O +ATOM 11097 CG2 THR D 5 0.311 27.355 29.889 1.00 69.46 C +ATOM 11098 N GLN D 6 -0.416 23.920 29.893 1.00 70.71 N +ATOM 11099 CA GLN D 6 0.516 22.812 29.730 1.00 70.38 C +ATOM 11100 C GLN D 6 1.711 23.295 28.917 1.00 72.54 C +ATOM 11101 O GLN D 6 1.543 23.822 27.812 1.00 74.57 O +ATOM 11102 CB GLN D 6 -0.164 21.616 29.065 1.00 64.78 C +ATOM 11103 CG GLN D 6 -1.252 20.995 29.928 1.00 61.22 C +ATOM 11104 CD GLN D 6 -1.900 19.787 29.288 1.00 58.06 C +ATOM 11105 OE1 GLN D 6 -3.125 19.694 29.212 1.00 58.30 O +ATOM 11106 NE2 GLN D 6 -1.081 18.850 28.825 1.00 54.93 N +ATOM 11107 N SER D 7 2.912 23.127 29.479 1.00 77.59 N +ATOM 11108 CA SER D 7 4.107 23.749 28.913 1.00 80.43 C +ATOM 11109 C SER D 7 4.348 23.308 27.473 1.00 75.99 C +ATOM 11110 O SER D 7 4.563 24.141 26.585 1.00 73.75 O +ATOM 11111 CB SER D 7 5.322 23.428 29.785 1.00 79.73 C +ATOM 11112 OG SER D 7 5.525 22.029 29.886 1.00 80.96 O +ATOM 11113 N HIS D 8 4.321 22.003 27.221 1.00 73.44 N +ATOM 11114 CA HIS D 8 4.658 21.453 25.916 1.00 70.15 C +ATOM 11115 C HIS D 8 3.404 20.936 25.224 1.00 67.30 C +ATOM 11116 O HIS D 8 2.625 20.185 25.821 1.00 65.96 O +ATOM 11117 CB HIS D 8 5.686 20.329 26.057 1.00 69.37 C +ATOM 11118 CG HIS D 8 6.989 20.775 26.643 1.00 78.38 C +ATOM 11119 ND1 HIS D 8 7.334 20.537 27.956 1.00 94.11 N +ATOM 11120 CD2 HIS D 8 8.032 21.444 26.096 1.00 79.50 C +ATOM 11121 CE1 HIS D 8 8.532 21.040 28.193 1.00 88.14 C +ATOM 11122 NE2 HIS D 8 8.978 21.596 27.081 1.00 87.10 N +ATOM 11123 N LYS D 9 3.213 21.341 23.966 1.00 64.23 N +ATOM 11124 CA LYS D 9 2.090 20.839 23.182 1.00 61.39 C +ATOM 11125 C LYS D 9 2.412 19.497 22.535 1.00 62.32 C +ATOM 11126 O LYS D 9 1.506 18.685 22.316 1.00 60.77 O +ATOM 11127 CB LYS D 9 1.686 21.863 22.117 1.00 61.78 C +ATOM 11128 CG LYS D 9 0.176 22.062 21.974 1.00 69.02 C +ATOM 11129 CD LYS D 9 -0.513 20.827 21.409 1.00 73.90 C +ATOM 11130 CE LYS D 9 -2.025 20.980 21.391 1.00 71.82 C +ATOM 11131 NZ LYS D 9 -2.696 19.737 20.914 1.00 70.03 N +ATOM 11132 N PHE D 10 3.684 19.235 22.247 1.00 61.44 N +ATOM 11133 CA PHE D 10 4.104 17.968 21.668 1.00 59.07 C +ATOM 11134 C PHE D 10 5.263 17.405 22.473 1.00 58.06 C +ATOM 11135 O PHE D 10 6.152 18.144 22.905 1.00 60.23 O +ATOM 11136 CB PHE D 10 4.538 18.127 20.203 1.00 63.49 C +ATOM 11137 CG PHE D 10 3.457 18.637 19.295 1.00 70.79 C +ATOM 11138 CD1 PHE D 10 2.519 17.770 18.760 1.00 74.81 C +ATOM 11139 CD2 PHE D 10 3.385 19.981 18.967 1.00 72.15 C +ATOM 11140 CE1 PHE D 10 1.525 18.234 17.919 1.00 73.45 C +ATOM 11141 CE2 PHE D 10 2.393 20.451 18.128 1.00 77.90 C +ATOM 11142 CZ PHE D 10 1.462 19.576 17.603 1.00 82.42 C +ATOM 11143 N MET D 11 5.245 16.089 22.667 1.00 52.76 N +ATOM 11144 CA MET D 11 6.318 15.381 23.345 1.00 49.81 C +ATOM 11145 C MET D 11 6.563 14.059 22.639 1.00 50.50 C +ATOM 11146 O MET D 11 5.617 13.346 22.294 1.00 49.31 O +ATOM 11147 CB MET D 11 5.987 15.129 24.822 1.00 51.78 C +ATOM 11148 CG MET D 11 6.211 16.322 25.734 1.00 53.40 C +ATOM 11149 SD MET D 11 6.294 15.827 27.465 1.00 65.30 S +ATOM 11150 CE MET D 11 6.395 17.418 28.277 1.00 64.95 C +ATOM 11151 N SER D 12 7.834 13.734 22.432 1.00 49.60 N +ATOM 11152 CA SER D 12 8.235 12.478 21.820 1.00 49.53 C +ATOM 11153 C SER D 12 8.965 11.636 22.856 1.00 48.79 C +ATOM 11154 O SER D 12 9.732 12.162 23.667 1.00 49.41 O +ATOM 11155 CB SER D 12 9.130 12.711 20.601 1.00 55.42 C +ATOM 11156 OG SER D 12 9.691 11.492 20.145 1.00 73.51 O +ATOM 11157 N THR D 13 8.722 10.328 22.830 1.00 48.56 N +ATOM 11158 CA THR D 13 9.337 9.434 23.797 1.00 48.72 C +ATOM 11159 C THR D 13 9.519 8.063 23.168 1.00 50.20 C +ATOM 11160 O THR D 13 8.823 7.692 22.219 1.00 52.74 O +ATOM 11161 CB THR D 13 8.501 9.328 25.082 1.00 51.28 C +ATOM 11162 OG1 THR D 13 9.252 8.643 26.092 1.00 55.71 O +ATOM 11163 CG2 THR D 13 7.207 8.572 24.822 1.00 49.64 C +ATOM 11164 N LEU D 14 10.476 7.318 23.707 1.00 51.44 N +ATOM 11165 CA LEU D 14 10.729 5.949 23.291 1.00 51.26 C +ATOM 11166 C LEU D 14 9.873 4.981 24.100 1.00 51.49 C +ATOM 11167 O LEU D 14 9.442 5.276 25.217 1.00 52.13 O +ATOM 11168 CB LEU D 14 12.209 5.601 23.458 1.00 52.68 C +ATOM 11169 CG LEU D 14 13.222 6.465 22.705 1.00 53.08 C +ATOM 11170 CD1 LEU D 14 14.628 6.201 23.217 1.00 54.14 C +ATOM 11171 CD2 LEU D 14 13.140 6.203 21.212 1.00 52.14 C +ATOM 11172 N VAL D 15 9.622 3.810 23.513 1.00 50.20 N +ATOM 11173 CA VAL D 15 8.878 2.774 24.215 1.00 50.07 C +ATOM 11174 C VAL D 15 9.728 2.237 25.359 1.00 49.90 C +ATOM 11175 O VAL D 15 10.927 1.974 25.198 1.00 57.46 O +ATOM 11176 CB VAL D 15 8.468 1.658 23.239 1.00 49.40 C +ATOM 11177 CG1 VAL D 15 7.972 0.436 23.990 1.00 51.40 C +ATOM 11178 CG2 VAL D 15 7.399 2.162 22.282 1.00 53.85 C +ATOM 11179 N GLY D 16 9.106 2.063 26.524 1.00 48.48 N +ATOM 11180 CA GLY D 16 9.816 1.665 27.719 1.00 47.87 C +ATOM 11181 C GLY D 16 10.450 2.800 28.491 1.00 48.71 C +ATOM 11182 O GLY D 16 11.045 2.553 29.548 1.00 52.49 O +ATOM 11183 N ASP D 17 10.342 4.028 28.001 1.00 47.68 N +ATOM 11184 CA ASP D 17 10.942 5.193 28.629 1.00 52.10 C +ATOM 11185 C ASP D 17 9.933 5.909 29.521 1.00 51.78 C +ATOM 11186 O ASP D 17 8.744 5.581 29.565 1.00 51.06 O +ATOM 11187 CB ASP D 17 11.489 6.156 27.570 1.00 53.66 C +ATOM 11188 CG ASP D 17 12.755 6.869 28.020 1.00 52.88 C +ATOM 11189 OD1 ASP D 17 13.157 6.710 29.193 1.00 56.98 O +ATOM 11190 OD2 ASP D 17 13.349 7.595 27.195 1.00 60.79 O +ATOM 11191 N ARG D 18 10.441 6.898 30.241 1.00 51.75 N +ATOM 11192 CA ARG D 18 9.682 7.785 31.106 1.00 50.52 C +ATOM 11193 C ARG D 18 9.214 9.015 30.337 1.00 53.64 C +ATOM 11194 O ARG D 18 9.827 9.433 29.351 1.00 56.52 O +ATOM 11195 CB ARG D 18 10.567 8.227 32.266 1.00 54.74 C +ATOM 11196 CG ARG D 18 10.978 7.156 33.254 1.00 60.42 C +ATOM 11197 CD ARG D 18 12.371 7.511 33.703 1.00 60.04 C +ATOM 11198 NE ARG D 18 12.471 8.885 34.176 1.00 56.05 N +ATOM 11199 CZ ARG D 18 13.632 9.498 34.376 1.00 58.84 C +ATOM 11200 NH1 ARG D 18 14.762 8.850 34.127 1.00 57.66 N +ATOM 11201 NH2 ARG D 18 13.668 10.755 34.793 1.00 63.76 N +ATOM 11202 N VAL D 19 8.113 9.599 30.801 1.00 51.52 N +ATOM 11203 CA VAL D 19 7.645 10.879 30.274 1.00 51.60 C +ATOM 11204 C VAL D 19 6.900 11.604 31.386 1.00 49.13 C +ATOM 11205 O VAL D 19 6.164 10.988 32.162 1.00 47.87 O +ATOM 11206 CB VAL D 19 6.780 10.707 29.003 1.00 46.99 C +ATOM 11207 CG1 VAL D 19 5.533 9.907 29.293 1.00 49.12 C +ATOM 11208 CG2 VAL D 19 6.424 12.064 28.412 1.00 49.80 C +ATOM 11209 N SER D 20 7.114 12.915 31.478 1.00 47.35 N +ATOM 11210 CA SER D 20 6.476 13.733 32.507 1.00 49.81 C +ATOM 11211 C SER D 20 5.953 15.013 31.871 1.00 54.36 C +ATOM 11212 O SER D 20 6.737 15.862 31.434 1.00 54.77 O +ATOM 11213 CB SER D 20 7.447 14.044 33.645 1.00 51.03 C +ATOM 11214 OG SER D 20 7.832 12.862 34.326 1.00 47.00 O +ATOM 11215 N ILE D 21 4.632 15.145 31.827 1.00 56.79 N +ATOM 11216 CA ILE D 21 3.952 16.335 31.332 1.00 56.39 C +ATOM 11217 C ILE D 21 3.636 17.240 32.514 1.00 53.37 C +ATOM 11218 O ILE D 21 3.193 16.773 33.569 1.00 53.67 O +ATOM 11219 CB ILE D 21 2.669 15.946 30.573 1.00 51.77 C +ATOM 11220 CG1 ILE D 21 2.979 14.895 29.506 1.00 53.37 C +ATOM 11221 CG2 ILE D 21 2.028 17.171 29.945 1.00 55.89 C +ATOM 11222 CD1 ILE D 21 1.746 14.294 28.869 1.00 51.87 C +ATOM 11223 N THR D 22 3.862 18.539 32.346 1.00 56.66 N +ATOM 11224 CA THR D 22 3.632 19.509 33.405 1.00 57.09 C +ATOM 11225 C THR D 22 2.405 20.356 33.096 1.00 59.87 C +ATOM 11226 O THR D 22 2.041 20.556 31.933 1.00 60.88 O +ATOM 11227 CB THR D 22 4.851 20.417 33.603 1.00 53.63 C +ATOM 11228 OG1 THR D 22 5.010 21.267 32.461 1.00 65.38 O +ATOM 11229 CG2 THR D 22 6.109 19.585 33.792 1.00 52.97 C +ATOM 11230 N CYS D 23 1.769 20.852 34.156 1.00 58.99 N +ATOM 11231 CA CYS D 23 0.562 21.657 34.032 1.00 60.31 C +ATOM 11232 C CYS D 23 0.531 22.656 35.179 1.00 60.54 C +ATOM 11233 O CYS D 23 0.649 22.274 36.348 1.00 62.22 O +ATOM 11234 CB CYS D 23 -0.688 20.768 34.029 1.00 60.96 C +ATOM 11235 SG CYS D 23 -2.281 21.601 34.207 1.00 71.58 S +ATOM 11236 N LYS D 24 0.377 23.932 34.836 1.00 62.21 N +ATOM 11237 CA LYS D 24 0.439 25.026 35.791 1.00 64.99 C +ATOM 11238 C LYS D 24 -0.904 25.743 35.836 1.00 65.45 C +ATOM 11239 O LYS D 24 -1.516 26.002 34.796 1.00 63.66 O +ATOM 11240 CB LYS D 24 1.560 26.001 35.407 1.00 66.13 C +ATOM 11241 CG LYS D 24 1.996 26.938 36.512 1.00 73.11 C +ATOM 11242 CD LYS D 24 3.143 27.829 36.061 1.00 80.48 C +ATOM 11243 CE LYS D 24 3.622 28.729 37.190 1.00 84.40 C +ATOM 11244 NZ LYS D 24 4.320 27.956 38.256 1.00 81.78 N +ATOM 11245 N ALA D 25 -1.358 26.064 37.043 1.00 66.47 N +ATOM 11246 CA ALA D 25 -2.629 26.747 37.242 1.00 68.20 C +ATOM 11247 C ALA D 25 -2.397 28.219 37.553 1.00 68.91 C +ATOM 11248 O ALA D 25 -1.435 28.576 38.239 1.00 67.19 O +ATOM 11249 CB ALA D 25 -3.427 26.093 38.371 1.00 67.53 C +ATOM 11250 N SER D 26 -3.288 29.074 37.045 1.00 69.41 N +ATOM 11251 CA SER D 26 -3.166 30.505 37.297 1.00 69.61 C +ATOM 11252 C SER D 26 -3.426 30.857 38.755 1.00 73.18 C +ATOM 11253 O SER D 26 -2.933 31.886 39.229 1.00 74.65 O +ATOM 11254 CB SER D 26 -4.126 31.281 36.394 1.00 69.95 C +ATOM 11255 OG SER D 26 -5.474 30.940 36.669 1.00 74.96 O +ATOM 11256 N GLN D 27 -4.182 30.030 39.472 1.00 71.24 N +ATOM 11257 CA GLN D 27 -4.478 30.237 40.880 1.00 72.44 C +ATOM 11258 C GLN D 27 -4.283 28.923 41.626 1.00 71.80 C +ATOM 11259 O GLN D 27 -4.108 27.861 41.024 1.00 74.32 O +ATOM 11260 CB GLN D 27 -5.906 30.763 41.084 1.00 76.76 C +ATOM 11261 CG GLN D 27 -6.140 32.162 40.537 1.00 81.22 C +ATOM 11262 CD GLN D 27 -7.613 32.500 40.416 1.00 86.38 C +ATOM 11263 OE1 GLN D 27 -8.393 32.271 41.340 1.00 86.95 O +ATOM 11264 NE2 GLN D 27 -8.002 33.052 39.272 1.00 91.24 N +ATOM 11265 N ASP D 28 -4.311 29.002 42.953 1.00 71.74 N +ATOM 11266 CA ASP D 28 -4.203 27.801 43.769 1.00 69.48 C +ATOM 11267 C ASP D 28 -5.453 26.947 43.591 1.00 70.99 C +ATOM 11268 O ASP D 28 -6.578 27.428 43.759 1.00 73.08 O +ATOM 11269 CB ASP D 28 -4.008 28.172 45.239 1.00 69.10 C +ATOM 11270 CG ASP D 28 -3.610 26.981 46.101 1.00 72.50 C +ATOM 11271 OD1 ASP D 28 -4.243 25.909 45.995 1.00 69.46 O +ATOM 11272 OD2 ASP D 28 -2.652 27.120 46.891 1.00 79.07 O +ATOM 11273 N VAL D 29 -5.253 25.676 43.250 1.00 67.32 N +ATOM 11274 CA VAL D 29 -6.360 24.747 43.061 1.00 67.69 C +ATOM 11275 C VAL D 29 -6.145 23.531 43.951 1.00 66.64 C +ATOM 11276 O VAL D 29 -6.672 22.446 43.678 1.00 65.43 O +ATOM 11277 CB VAL D 29 -6.504 24.341 41.583 1.00 67.78 C +ATOM 11278 CG1 VAL D 29 -6.859 25.551 40.732 1.00 70.40 C +ATOM 11279 CG2 VAL D 29 -5.221 23.705 41.083 1.00 68.31 C +ATOM 11280 N SER D 36 -5.376 23.715 45.028 1.00 66.29 N +ATOM 11281 CA SER D 36 -5.086 22.660 45.993 1.00 67.56 C +ATOM 11282 C SER D 36 -4.531 21.418 45.308 1.00 66.13 C +ATOM 11283 O SER D 36 -3.671 21.515 44.428 1.00 66.63 O +ATOM 11284 CB SER D 36 -6.341 22.307 46.795 1.00 68.58 C +ATOM 11285 OG SER D 36 -6.076 21.273 47.728 1.00 70.64 O +ATOM 11286 N THR D 37 -5.017 20.245 45.713 1.00 64.51 N +ATOM 11287 CA THR D 37 -4.634 18.982 45.101 1.00 61.99 C +ATOM 11288 C THR D 37 -5.724 18.435 44.191 1.00 61.53 C +ATOM 11289 O THR D 37 -5.725 17.240 43.889 1.00 59.16 O +ATOM 11290 CB THR D 37 -4.291 17.950 46.176 1.00 62.61 C +ATOM 11291 OG1 THR D 37 -5.423 17.756 47.033 1.00 63.07 O +ATOM 11292 CG2 THR D 37 -3.107 18.419 47.007 1.00 65.50 C +ATOM 11293 N THR D 38 -6.657 19.280 43.758 1.00 62.89 N +ATOM 11294 CA THR D 38 -7.808 18.835 42.975 1.00 62.12 C +ATOM 11295 C THR D 38 -7.552 19.133 41.500 1.00 61.09 C +ATOM 11296 O THR D 38 -8.043 20.111 40.934 1.00 62.81 O +ATOM 11297 CB THR D 38 -9.081 19.499 43.483 1.00 63.70 C +ATOM 11298 OG1 THR D 38 -8.917 20.921 43.462 1.00 65.28 O +ATOM 11299 CG2 THR D 38 -9.356 19.058 44.909 1.00 65.79 C +ATOM 11300 N VAL D 39 -6.769 18.258 40.872 1.00 60.69 N +ATOM 11301 CA VAL D 39 -6.495 18.317 39.440 1.00 59.26 C +ATOM 11302 C VAL D 39 -6.617 16.911 38.870 1.00 55.62 C +ATOM 11303 O VAL D 39 -6.098 15.953 39.452 1.00 55.12 O +ATOM 11304 CB VAL D 39 -5.102 18.905 39.140 1.00 55.86 C +ATOM 11305 CG1 VAL D 39 -4.751 18.732 37.672 1.00 56.82 C +ATOM 11306 CG2 VAL D 39 -5.067 20.374 39.505 1.00 56.54 C +ATOM 11307 N ALA D 40 -7.304 16.788 37.740 1.00 55.53 N +ATOM 11308 CA ALA D 40 -7.498 15.516 37.067 1.00 56.10 C +ATOM 11309 C ALA D 40 -6.731 15.497 35.752 1.00 55.45 C +ATOM 11310 O ALA D 40 -6.444 16.536 35.154 1.00 56.28 O +ATOM 11311 CB ALA D 40 -8.987 15.252 36.810 1.00 56.83 C +ATOM 11312 N TRP D 41 -6.408 14.287 35.309 1.00 54.21 N +ATOM 11313 CA TRP D 41 -5.687 14.053 34.066 1.00 51.52 C +ATOM 11314 C TRP D 41 -6.458 13.047 33.228 1.00 52.45 C +ATOM 11315 O TRP D 41 -6.756 11.939 33.696 1.00 54.29 O +ATOM 11316 CB TRP D 41 -4.265 13.546 34.326 1.00 49.54 C +ATOM 11317 CG TRP D 41 -3.346 14.590 34.868 1.00 49.17 C +ATOM 11318 CD1 TRP D 41 -3.129 14.895 36.179 1.00 49.09 C +ATOM 11319 CD2 TRP D 41 -2.518 15.476 34.107 1.00 50.60 C +ATOM 11320 NE1 TRP D 41 -2.213 15.914 36.283 1.00 45.79 N +ATOM 11321 CE2 TRP D 41 -1.823 16.288 35.024 1.00 49.85 C +ATOM 11322 CE3 TRP D 41 -2.294 15.658 32.739 1.00 50.26 C +ATOM 11323 CZ2 TRP D 41 -0.921 17.268 34.617 1.00 54.37 C +ATOM 11324 CZ3 TRP D 41 -1.399 16.631 32.337 1.00 51.00 C +ATOM 11325 CH2 TRP D 41 -0.723 17.422 33.272 1.00 54.82 C +ATOM 11326 N TYR D 42 -6.762 13.445 31.993 1.00 53.21 N +ATOM 11327 CA TYR D 42 -7.492 12.643 31.023 1.00 52.63 C +ATOM 11328 C TYR D 42 -6.596 12.270 29.849 1.00 51.90 C +ATOM 11329 O TYR D 42 -5.670 13.006 29.490 1.00 50.27 O +ATOM 11330 CB TYR D 42 -8.719 13.391 30.489 1.00 52.55 C +ATOM 11331 CG TYR D 42 -9.712 13.820 31.541 1.00 57.09 C +ATOM 11332 CD1 TYR D 42 -10.734 12.971 31.944 1.00 52.68 C +ATOM 11333 CD2 TYR D 42 -9.638 15.079 32.124 1.00 58.02 C +ATOM 11334 CE1 TYR D 42 -11.648 13.359 32.901 1.00 54.95 C +ATOM 11335 CE2 TYR D 42 -10.549 15.476 33.084 1.00 57.01 C +ATOM 11336 CZ TYR D 42 -11.551 14.612 33.468 1.00 57.56 C +ATOM 11337 OH TYR D 42 -12.462 15.000 34.424 1.00 57.35 O +ATOM 11338 N GLN D 43 -6.917 11.134 29.234 1.00 51.52 N +ATOM 11339 CA GLN D 43 -6.204 10.597 28.081 1.00 48.95 C +ATOM 11340 C GLN D 43 -7.194 10.430 26.938 1.00 50.42 C +ATOM 11341 O GLN D 43 -8.203 9.733 27.088 1.00 54.25 O +ATOM 11342 CB GLN D 43 -5.559 9.253 28.424 1.00 47.90 C +ATOM 11343 CG GLN D 43 -4.972 8.501 27.243 1.00 47.30 C +ATOM 11344 CD GLN D 43 -4.677 7.050 27.576 1.00 48.14 C +ATOM 11345 OE1 GLN D 43 -5.572 6.295 27.956 1.00 51.12 O +ATOM 11346 NE2 GLN D 43 -3.416 6.655 27.441 1.00 49.35 N +ATOM 11347 N GLN D 44 -6.907 11.060 25.799 1.00 48.23 N +ATOM 11348 CA GLN D 44 -7.757 10.966 24.616 1.00 48.87 C +ATOM 11349 C GLN D 44 -6.936 10.368 23.482 1.00 46.12 C +ATOM 11350 O GLN D 44 -6.033 11.023 22.949 1.00 45.70 O +ATOM 11351 CB GLN D 44 -8.325 12.331 24.230 1.00 48.65 C +ATOM 11352 CG GLN D 44 -9.254 12.289 23.029 1.00 48.00 C +ATOM 11353 CD GLN D 44 -9.888 13.632 22.734 1.00 50.58 C +ATOM 11354 OE1 GLN D 44 -11.053 13.707 22.343 1.00 52.59 O +ATOM 11355 NE2 GLN D 44 -9.128 14.703 22.930 1.00 49.83 N +ATOM 11356 N LYS D 45 -7.235 9.121 23.139 1.00 47.84 N +ATOM 11357 CA LYS D 45 -6.571 8.426 22.051 1.00 51.70 C +ATOM 11358 C LYS D 45 -7.169 8.849 20.711 1.00 55.34 C +ATOM 11359 O LYS D 45 -8.263 9.417 20.664 1.00 58.09 O +ATOM 11360 CB LYS D 45 -6.707 6.919 22.253 1.00 48.73 C +ATOM 11361 CG LYS D 45 -6.055 6.416 23.532 1.00 52.34 C +ATOM 11362 CD LYS D 45 -6.077 4.899 23.620 1.00 53.48 C +ATOM 11363 CE LYS D 45 -5.419 4.418 24.902 1.00 53.52 C +ATOM 11364 NZ LYS D 45 -5.298 2.935 24.946 1.00 61.95 N +ATOM 11365 N PRO D 46 -6.461 8.605 19.606 1.00 52.89 N +ATOM 11366 CA PRO D 46 -6.986 9.011 18.295 1.00 55.34 C +ATOM 11367 C PRO D 46 -8.336 8.372 18.002 1.00 53.52 C +ATOM 11368 O PRO D 46 -8.501 7.152 18.088 1.00 52.42 O +ATOM 11369 CB PRO D 46 -5.908 8.530 17.317 1.00 58.08 C +ATOM 11370 CG PRO D 46 -4.662 8.494 18.125 1.00 58.46 C +ATOM 11371 CD PRO D 46 -5.080 8.098 19.510 1.00 51.47 C +ATOM 11372 N GLY D 47 -9.309 9.214 17.658 1.00 54.56 N +ATOM 11373 CA GLY D 47 -10.632 8.745 17.303 1.00 55.16 C +ATOM 11374 C GLY D 47 -11.480 8.267 18.457 1.00 56.91 C +ATOM 11375 O GLY D 47 -12.534 7.667 18.223 1.00 57.37 O +ATOM 11376 N GLN D 48 -11.064 8.516 19.694 1.00 58.17 N +ATOM 11377 CA GLN D 48 -11.792 8.076 20.873 1.00 53.09 C +ATOM 11378 C GLN D 48 -12.135 9.272 21.752 1.00 54.58 C +ATOM 11379 O GLN D 48 -11.672 10.394 21.534 1.00 53.00 O +ATOM 11380 CB GLN D 48 -10.984 7.049 21.676 1.00 53.96 C +ATOM 11381 CG GLN D 48 -10.726 5.743 20.947 1.00 57.85 C +ATOM 11382 CD GLN D 48 -9.990 4.737 21.810 1.00 64.63 C +ATOM 11383 OE1 GLN D 48 -9.798 4.953 23.007 1.00 75.27 O +ATOM 11384 NE2 GLN D 48 -9.570 3.632 21.206 1.00 67.88 N +ATOM 11385 N SER D 49 -12.956 9.010 22.760 1.00 56.64 N +ATOM 11386 CA SER D 49 -13.327 10.003 23.753 1.00 52.07 C +ATOM 11387 C SER D 49 -12.299 10.041 24.875 1.00 52.10 C +ATOM 11388 O SER D 49 -11.545 9.084 25.077 1.00 53.79 O +ATOM 11389 CB SER D 49 -14.711 9.685 24.313 1.00 54.70 C +ATOM 11390 OG SER D 49 -15.665 9.569 23.271 1.00 59.13 O +ATOM 11391 N PRO D 50 -12.232 11.147 25.617 1.00 50.76 N +ATOM 11392 CA PRO D 50 -11.301 11.219 26.750 1.00 51.36 C +ATOM 11393 C PRO D 50 -11.587 10.149 27.795 1.00 51.91 C +ATOM 11394 O PRO D 50 -12.741 9.835 28.095 1.00 52.24 O +ATOM 11395 CB PRO D 50 -11.534 12.627 27.310 1.00 51.14 C +ATOM 11396 CG PRO D 50 -12.059 13.407 26.155 1.00 48.69 C +ATOM 11397 CD PRO D 50 -12.879 12.444 25.350 1.00 50.45 C +ATOM 11398 N LYS D 51 -10.513 9.580 28.339 1.00 52.65 N +ATOM 11399 CA LYS D 51 -10.583 8.576 29.393 1.00 52.67 C +ATOM 11400 C LYS D 51 -9.991 9.170 30.663 1.00 55.53 C +ATOM 11401 O LYS D 51 -8.845 9.634 30.657 1.00 56.74 O +ATOM 11402 CB LYS D 51 -9.821 7.308 29.010 1.00 58.11 C +ATOM 11403 CG LYS D 51 -10.457 6.464 27.922 1.00 76.10 C +ATOM 11404 CD LYS D 51 -9.554 5.286 27.582 1.00 87.50 C +ATOM 11405 CE LYS D 51 -10.145 4.412 26.489 1.00 77.74 C +ATOM 11406 NZ LYS D 51 -9.238 3.278 26.149 1.00 60.75 N +ATOM 11407 N LEU D 52 -10.769 9.167 31.743 1.00 55.53 N +ATOM 11408 CA LEU D 52 -10.266 9.644 33.025 1.00 51.73 C +ATOM 11409 C LEU D 52 -9.171 8.712 33.525 1.00 51.96 C +ATOM 11410 O LEU D 52 -9.418 7.525 33.766 1.00 52.32 O +ATOM 11411 CB LEU D 52 -11.398 9.733 34.044 1.00 53.38 C +ATOM 11412 CG LEU D 52 -10.975 10.045 35.484 1.00 54.16 C +ATOM 11413 CD1 LEU D 52 -10.439 11.464 35.615 1.00 52.54 C +ATOM 11414 CD2 LEU D 52 -12.130 9.814 36.444 1.00 55.90 C +ATOM 11415 N LEU D 53 -7.963 9.247 33.688 1.00 53.27 N +ATOM 11416 CA LEU D 53 -6.849 8.477 34.225 1.00 52.50 C +ATOM 11417 C LEU D 53 -6.546 8.807 35.676 1.00 52.73 C +ATOM 11418 O LEU D 53 -6.334 7.893 36.480 1.00 50.83 O +ATOM 11419 CB LEU D 53 -5.580 8.702 33.396 1.00 48.85 C +ATOM 11420 CG LEU D 53 -5.500 8.101 31.995 1.00 50.00 C +ATOM 11421 CD1 LEU D 53 -4.081 8.242 31.467 1.00 51.17 C +ATOM 11422 CD2 LEU D 53 -5.931 6.645 32.008 1.00 50.17 C +ATOM 11423 N ILE D 54 -6.517 10.086 36.039 1.00 51.68 N +ATOM 11424 CA ILE D 54 -6.108 10.481 37.382 1.00 50.53 C +ATOM 11425 C ILE D 54 -7.053 11.556 37.895 1.00 51.25 C +ATOM 11426 O ILE D 54 -7.510 12.409 37.131 1.00 52.01 O +ATOM 11427 CB ILE D 54 -4.641 10.964 37.389 1.00 50.63 C +ATOM 11428 CG1 ILE D 54 -3.696 9.766 37.289 1.00 50.13 C +ATOM 11429 CG2 ILE D 54 -4.319 11.775 38.637 1.00 50.60 C +ATOM 11430 CD1 ILE D 54 -2.272 10.146 37.017 1.00 51.62 C +ATOM 11431 N TYR D 55 -7.353 11.507 39.190 1.00 49.95 N +ATOM 11432 CA TYR D 55 -8.106 12.550 39.865 1.00 51.63 C +ATOM 11433 C TYR D 55 -7.393 12.908 41.161 1.00 53.46 C +ATOM 11434 O TYR D 55 -6.576 12.139 41.674 1.00 51.59 O +ATOM 11435 CB TYR D 55 -9.555 12.120 40.145 1.00 53.41 C +ATOM 11436 CG TYR D 55 -9.679 10.971 41.118 1.00 53.07 C +ATOM 11437 CD1 TYR D 55 -9.596 9.657 40.679 1.00 53.67 C +ATOM 11438 CD2 TYR D 55 -9.878 11.198 42.474 1.00 50.99 C +ATOM 11439 CE1 TYR D 55 -9.707 8.599 41.560 1.00 55.10 C +ATOM 11440 CE2 TYR D 55 -9.989 10.146 43.365 1.00 52.93 C +ATOM 11441 CZ TYR D 55 -9.904 8.850 42.902 1.00 54.35 C +ATOM 11442 OH TYR D 55 -10.014 7.799 43.783 1.00 53.37 O +ATOM 11443 N SER D 56 -7.714 14.091 41.683 1.00 55.74 N +ATOM 11444 CA SER D 56 -7.120 14.592 42.923 1.00 54.20 C +ATOM 11445 C SER D 56 -5.594 14.562 42.860 1.00 55.54 C +ATOM 11446 O SER D 56 -4.919 14.138 43.801 1.00 57.51 O +ATOM 11447 CB SER D 56 -7.633 13.810 44.134 1.00 54.91 C +ATOM 11448 OG SER D 56 -8.962 14.182 44.456 1.00 59.95 O +ATOM 11449 N ALA D 57 -5.054 14.988 41.714 1.00 54.59 N +ATOM 11450 CA ALA D 57 -3.626 15.217 41.503 1.00 53.66 C +ATOM 11451 C ALA D 57 -2.816 13.926 41.462 1.00 51.41 C +ATOM 11452 O ALA D 57 -1.998 13.737 40.556 1.00 53.66 O +ATOM 11453 CB ALA D 57 -3.058 16.153 42.575 1.00 53.99 C +ATOM 11454 N SER D 65 -3.029 13.030 42.428 1.00 49.14 N +ATOM 11455 CA SER D 65 -2.206 11.837 42.550 1.00 47.23 C +ATOM 11456 C SER D 65 -2.995 10.540 42.668 1.00 49.21 C +ATOM 11457 O SER D 65 -2.381 9.468 42.691 1.00 46.22 O +ATOM 11458 CB SER D 65 -1.270 11.959 43.763 1.00 50.41 C +ATOM 11459 OG SER D 65 -1.998 11.925 44.978 1.00 55.74 O +ATOM 11460 N TYR D 66 -4.322 10.596 42.737 1.00 51.81 N +ATOM 11461 CA TYR D 66 -5.131 9.395 42.901 1.00 52.06 C +ATOM 11462 C TYR D 66 -5.482 8.802 41.544 1.00 51.50 C +ATOM 11463 O TYR D 66 -5.995 9.498 40.662 1.00 52.70 O +ATOM 11464 CB TYR D 66 -6.396 9.696 43.705 1.00 51.34 C +ATOM 11465 CG TYR D 66 -6.109 9.951 45.164 1.00 55.40 C +ATOM 11466 CD1 TYR D 66 -5.807 11.225 45.624 1.00 55.23 C +ATOM 11467 CD2 TYR D 66 -6.123 8.909 46.080 1.00 56.93 C +ATOM 11468 CE1 TYR D 66 -5.536 11.454 46.958 1.00 61.59 C +ATOM 11469 CE2 TYR D 66 -5.855 9.127 47.413 1.00 59.46 C +ATOM 11470 CZ TYR D 66 -5.562 10.401 47.847 1.00 65.34 C +ATOM 11471 OH TYR D 66 -5.293 10.615 49.178 1.00 70.48 O +ATOM 11472 N ARG D 67 -5.205 7.511 41.390 1.00 51.76 N +ATOM 11473 CA ARG D 67 -5.447 6.793 40.149 1.00 52.55 C +ATOM 11474 C ARG D 67 -6.874 6.261 40.124 1.00 54.62 C +ATOM 11475 O ARG D 67 -7.332 5.648 41.093 1.00 56.24 O +ATOM 11476 CB ARG D 67 -4.446 5.645 40.015 1.00 52.90 C +ATOM 11477 CG ARG D 67 -4.504 4.891 38.709 1.00 52.96 C +ATOM 11478 CD ARG D 67 -3.541 3.712 38.718 1.00 51.95 C +ATOM 11479 NE ARG D 67 -2.169 4.113 39.021 1.00 55.64 N +ATOM 11480 CZ ARG D 67 -1.578 3.932 40.199 1.00 59.15 C +ATOM 11481 NH1 ARG D 67 -2.238 3.351 41.192 1.00 60.41 N +ATOM 11482 NH2 ARG D 67 -0.327 4.330 40.385 1.00 57.42 N +ATOM 11483 N TYR D 68 -7.571 6.500 39.016 1.00 57.16 N +ATOM 11484 CA TYR D 68 -8.920 5.982 38.853 1.00 55.90 C +ATOM 11485 C TYR D 68 -8.898 4.458 38.742 1.00 54.12 C +ATOM 11486 O TYR D 68 -7.880 3.846 38.406 1.00 55.66 O +ATOM 11487 CB TYR D 68 -9.585 6.605 37.624 1.00 58.23 C +ATOM 11488 CG TYR D 68 -11.050 6.257 37.469 1.00 62.25 C +ATOM 11489 CD1 TYR D 68 -12.007 6.817 38.306 1.00 60.71 C +ATOM 11490 CD2 TYR D 68 -11.477 5.381 36.480 1.00 60.97 C +ATOM 11491 CE1 TYR D 68 -13.346 6.507 38.169 1.00 65.62 C +ATOM 11492 CE2 TYR D 68 -12.815 5.065 36.334 1.00 63.30 C +ATOM 11493 CZ TYR D 68 -13.745 5.632 37.181 1.00 68.80 C +ATOM 11494 OH TYR D 68 -15.079 5.322 37.043 1.00 67.08 O +ATOM 11495 N THR D 69 -10.043 3.847 39.042 1.00 55.84 N +ATOM 11496 CA THR D 69 -10.149 2.394 39.029 1.00 55.48 C +ATOM 11497 C THR D 69 -9.868 1.837 37.637 1.00 58.22 C +ATOM 11498 O THR D 69 -10.304 2.393 36.625 1.00 60.95 O +ATOM 11499 CB THR D 69 -11.543 1.967 39.496 1.00 55.83 C +ATOM 11500 OG1 THR D 69 -11.805 2.525 40.790 1.00 57.36 O +ATOM 11501 CG2 THR D 69 -11.645 0.450 39.579 1.00 50.72 C +ATOM 11502 N GLY D 70 -9.134 0.726 37.593 1.00 56.01 N +ATOM 11503 CA GLY D 70 -8.814 0.048 36.354 1.00 53.78 C +ATOM 11504 C GLY D 70 -7.690 0.657 35.545 1.00 53.78 C +ATOM 11505 O GLY D 70 -7.323 0.091 34.507 1.00 57.15 O +ATOM 11506 N VAL D 71 -7.131 1.781 35.978 1.00 53.38 N +ATOM 11507 CA VAL D 71 -6.033 2.436 35.270 1.00 53.50 C +ATOM 11508 C VAL D 71 -4.732 1.726 35.629 1.00 55.10 C +ATOM 11509 O VAL D 71 -4.514 1.401 36.805 1.00 55.33 O +ATOM 11510 CB VAL D 71 -5.975 3.934 35.608 1.00 52.73 C +ATOM 11511 CG1 VAL D 71 -4.765 4.591 34.959 1.00 51.23 C +ATOM 11512 CG2 VAL D 71 -7.260 4.625 35.176 1.00 53.03 C +ATOM 11513 N PRO D 72 -3.860 1.436 34.661 1.00 54.98 N +ATOM 11514 CA PRO D 72 -2.584 0.790 34.988 1.00 53.76 C +ATOM 11515 C PRO D 72 -1.744 1.641 35.931 1.00 52.83 C +ATOM 11516 O PRO D 72 -1.872 2.866 35.993 1.00 53.00 O +ATOM 11517 CB PRO D 72 -1.903 0.633 33.623 1.00 59.25 C +ATOM 11518 CG PRO D 72 -3.026 0.632 32.641 1.00 60.31 C +ATOM 11519 CD PRO D 72 -4.064 1.557 33.207 1.00 55.78 C +ATOM 11520 N ASP D 74 -0.860 0.964 36.668 1.00 56.10 N +ATOM 11521 CA ASP D 74 -0.043 1.636 37.672 1.00 54.05 C +ATOM 11522 C ASP D 74 1.019 2.549 37.068 1.00 53.67 C +ATOM 11523 O ASP D 74 1.537 3.419 37.776 1.00 53.38 O +ATOM 11524 CB ASP D 74 0.614 0.610 38.601 1.00 50.58 C +ATOM 11525 CG ASP D 74 1.424 -0.431 37.853 1.00 55.57 C +ATOM 11526 OD1 ASP D 74 1.521 -0.345 36.611 1.00 72.21 O +ATOM 11527 OD2 ASP D 74 1.969 -1.340 38.515 1.00 48.57 O +ATOM 11528 N ARG D 75 1.363 2.374 35.788 1.00 52.04 N +ATOM 11529 CA ARG D 75 2.416 3.195 35.201 1.00 50.17 C +ATOM 11530 C ARG D 75 2.019 4.660 35.076 1.00 48.45 C +ATOM 11531 O ARG D 75 2.893 5.500 34.836 1.00 46.83 O +ATOM 11532 CB ARG D 75 2.808 2.677 33.815 1.00 51.78 C +ATOM 11533 CG ARG D 75 1.673 2.652 32.802 1.00 54.00 C +ATOM 11534 CD ARG D 75 2.140 2.083 31.470 1.00 56.82 C +ATOM 11535 NE ARG D 75 1.065 2.024 30.483 1.00 61.19 N +ATOM 11536 CZ ARG D 75 0.281 0.970 30.284 1.00 67.32 C +ATOM 11537 NH1 ARG D 75 0.445 -0.129 31.007 1.00 75.90 N +ATOM 11538 NH2 ARG D 75 -0.669 1.016 29.360 1.00 66.15 N +ATOM 11539 N PHE D 76 0.737 4.984 35.223 1.00 47.13 N +ATOM 11540 CA PHE D 76 0.279 6.365 35.221 1.00 45.15 C +ATOM 11541 C PHE D 76 0.252 6.892 36.650 1.00 45.85 C +ATOM 11542 O PHE D 76 -0.390 6.299 37.522 1.00 49.04 O +ATOM 11543 CB PHE D 76 -1.111 6.467 34.594 1.00 47.34 C +ATOM 11544 CG PHE D 76 -1.181 5.950 33.186 1.00 47.33 C +ATOM 11545 CD1 PHE D 76 -0.762 6.731 32.124 1.00 45.56 C +ATOM 11546 CD2 PHE D 76 -1.667 4.680 32.926 1.00 49.22 C +ATOM 11547 CE1 PHE D 76 -0.826 6.257 30.829 1.00 48.47 C +ATOM 11548 CE2 PHE D 76 -1.734 4.200 31.635 1.00 52.59 C +ATOM 11549 CZ PHE D 76 -1.313 4.989 30.584 1.00 53.22 C +ATOM 11550 N THR D 77 0.947 8.003 36.888 1.00 44.42 N +ATOM 11551 CA THR D 77 0.996 8.607 38.212 1.00 46.55 C +ATOM 11552 C THR D 77 0.877 10.117 38.077 1.00 46.29 C +ATOM 11553 O THR D 77 1.034 10.680 36.992 1.00 48.14 O +ATOM 11554 CB THR D 77 2.287 8.259 38.970 1.00 44.63 C +ATOM 11555 OG1 THR D 77 3.425 8.640 38.188 1.00 45.88 O +ATOM 11556 CG2 THR D 77 2.350 6.770 39.281 1.00 44.86 C +ATOM 11557 N GLY D 78 0.594 10.765 39.196 1.00 46.79 N +ATOM 11558 CA GLY D 78 0.469 12.208 39.221 1.00 48.51 C +ATOM 11559 C GLY D 78 0.984 12.765 40.529 1.00 48.39 C +ATOM 11560 O GLY D 78 0.981 12.091 41.561 1.00 47.98 O +ATOM 11561 N SER D 79 1.447 14.010 40.469 1.00 47.45 N +ATOM 11562 CA SER D 79 1.923 14.698 41.658 1.00 49.37 C +ATOM 11563 C SER D 79 1.685 16.190 41.486 1.00 53.37 C +ATOM 11564 O SER D 79 1.352 16.665 40.400 1.00 54.81 O +ATOM 11565 CB SER D 79 3.403 14.407 41.919 1.00 50.56 C +ATOM 11566 OG SER D 79 4.223 15.048 40.958 1.00 50.03 O +ATOM 11567 N GLY D 80 1.863 16.925 42.571 1.00 54.29 N +ATOM 11568 CA GLY D 80 1.758 18.372 42.551 1.00 57.54 C +ATOM 11569 C GLY D 80 0.684 18.875 43.495 1.00 61.99 C +ATOM 11570 O GLY D 80 -0.097 18.121 44.071 1.00 62.38 O +ATOM 11571 N SER D 83 0.656 20.200 43.624 1.00 64.38 N +ATOM 11572 CA SER D 83 -0.280 20.858 44.528 1.00 65.16 C +ATOM 11573 C SER D 83 -0.180 22.360 44.325 1.00 65.07 C +ATOM 11574 O SER D 83 0.843 22.877 43.867 1.00 65.18 O +ATOM 11575 CB SER D 83 -0.008 20.503 45.996 1.00 65.36 C +ATOM 11576 OG SER D 83 1.261 20.975 46.412 1.00 66.69 O +ATOM 11577 N GLY D 84 -1.258 23.054 44.679 1.00 65.52 N +ATOM 11578 CA GLY D 84 -1.291 24.494 44.541 1.00 67.74 C +ATOM 11579 C GLY D 84 -1.370 24.952 43.101 1.00 69.73 C +ATOM 11580 O GLY D 84 -2.460 25.095 42.540 1.00 71.06 O +ATOM 11581 N THR D 85 -0.210 25.187 42.496 1.00 67.28 N +ATOM 11582 CA THR D 85 -0.126 25.716 41.144 1.00 68.64 C +ATOM 11583 C THR D 85 0.555 24.777 40.154 1.00 68.80 C +ATOM 11584 O THR D 85 0.184 24.775 38.977 1.00 67.14 O +ATOM 11585 CB THR D 85 0.613 27.070 41.179 1.00 70.65 C +ATOM 11586 OG1 THR D 85 -0.253 28.071 41.730 1.00 63.64 O +ATOM 11587 CG2 THR D 85 1.069 27.511 39.806 1.00 73.76 C +ATOM 11588 N ASP D 86 1.484 23.937 40.601 1.00 66.52 N +ATOM 11589 CA ASP D 86 2.257 23.073 39.718 1.00 64.76 C +ATOM 11590 C ASP D 86 1.819 21.623 39.883 1.00 63.52 C +ATOM 11591 O ASP D 86 1.658 21.143 41.013 1.00 65.57 O +ATOM 11592 CB ASP D 86 3.756 23.207 39.996 1.00 74.05 C +ATOM 11593 CG ASP D 86 4.238 24.642 39.911 1.00 78.40 C +ATOM 11594 OD1 ASP D 86 3.669 25.416 39.112 1.00 75.44 O +ATOM 11595 OD2 ASP D 86 5.188 24.995 40.640 1.00 84.93 O +ATOM 11596 N PHE D 87 1.638 20.929 38.754 1.00 60.60 N +ATOM 11597 CA PHE D 87 1.249 19.526 38.744 1.00 59.70 C +ATOM 11598 C PHE D 87 1.974 18.814 37.610 1.00 53.90 C +ATOM 11599 O PHE D 87 2.329 19.427 36.601 1.00 51.65 O +ATOM 11600 CB PHE D 87 -0.270 19.364 38.585 1.00 56.85 C +ATOM 11601 CG PHE D 87 -1.066 20.100 39.621 1.00 59.13 C +ATOM 11602 CD1 PHE D 87 -1.404 21.432 39.439 1.00 60.33 C +ATOM 11603 CD2 PHE D 87 -1.468 19.465 40.782 1.00 59.79 C +ATOM 11604 CE1 PHE D 87 -2.126 22.113 40.394 1.00 62.49 C +ATOM 11605 CE2 PHE D 87 -2.196 20.140 41.739 1.00 61.71 C +ATOM 11606 CZ PHE D 87 -2.522 21.467 41.547 1.00 63.84 C +ATOM 11607 N THR D 88 2.189 17.512 37.784 1.00 50.49 N +ATOM 11608 CA THR D 88 2.967 16.723 36.835 1.00 49.43 C +ATOM 11609 C THR D 88 2.370 15.329 36.716 1.00 50.44 C +ATOM 11610 O THR D 88 2.219 14.623 37.719 1.00 49.39 O +ATOM 11611 CB THR D 88 4.437 16.636 37.255 1.00 52.44 C +ATOM 11612 OG1 THR D 88 4.987 17.956 37.347 1.00 54.89 O +ATOM 11613 CG2 THR D 88 5.230 15.838 36.232 1.00 53.07 C +ATOM 11614 N PHE D 89 2.034 14.947 35.486 1.00 50.30 N +ATOM 11615 CA PHE D 89 1.561 13.612 35.146 1.00 48.24 C +ATOM 11616 C PHE D 89 2.718 12.822 34.547 1.00 50.10 C +ATOM 11617 O PHE D 89 3.434 13.330 33.681 1.00 49.66 O +ATOM 11618 CB PHE D 89 0.393 13.710 34.161 1.00 47.76 C +ATOM 11619 CG PHE D 89 0.056 12.422 33.466 1.00 49.62 C +ATOM 11620 CD1 PHE D 89 -0.831 11.525 34.034 1.00 49.43 C +ATOM 11621 CD2 PHE D 89 0.595 12.127 32.223 1.00 48.95 C +ATOM 11622 CE1 PHE D 89 -1.153 10.346 33.389 1.00 48.85 C +ATOM 11623 CE2 PHE D 89 0.279 10.952 31.575 1.00 45.22 C +ATOM 11624 CZ PHE D 89 -0.597 10.062 32.157 1.00 45.76 C +ATOM 11625 N THR D 90 2.902 11.584 35.000 1.00 46.66 N +ATOM 11626 CA THR D 90 4.095 10.822 34.651 1.00 46.23 C +ATOM 11627 C THR D 90 3.724 9.413 34.213 1.00 47.89 C +ATOM 11628 O THR D 90 2.944 8.729 34.885 1.00 45.85 O +ATOM 11629 CB THR D 90 5.074 10.766 35.831 1.00 47.69 C +ATOM 11630 OG1 THR D 90 5.543 12.088 36.127 1.00 50.06 O +ATOM 11631 CG2 THR D 90 6.266 9.879 35.502 1.00 46.88 C +ATOM 11632 N ILE D 91 4.293 8.988 33.086 1.00 48.92 N +ATOM 11633 CA ILE D 91 4.259 7.601 32.639 1.00 46.02 C +ATOM 11634 C ILE D 91 5.651 7.021 32.845 1.00 47.76 C +ATOM 11635 O ILE D 91 6.634 7.534 32.293 1.00 49.70 O +ATOM 11636 CB ILE D 91 3.826 7.482 31.170 1.00 43.56 C +ATOM 11637 CG1 ILE D 91 2.512 8.226 30.933 1.00 45.83 C +ATOM 11638 CG2 ILE D 91 3.700 6.019 30.770 1.00 44.76 C +ATOM 11639 CD1 ILE D 91 2.085 8.252 29.478 1.00 45.18 C +ATOM 11640 N SER D 92 5.734 5.959 33.649 1.00 48.30 N +ATOM 11641 CA SER D 92 7.023 5.379 34.006 1.00 48.63 C +ATOM 11642 C SER D 92 7.594 4.506 32.896 1.00 50.96 C +ATOM 11643 O SER D 92 8.817 4.445 32.731 1.00 51.75 O +ATOM 11644 CB SER D 92 6.891 4.562 35.292 1.00 46.49 C +ATOM 11645 OG SER D 92 6.094 3.410 35.079 1.00 50.18 O +ATOM 11646 N SER D 93 6.735 3.829 32.131 1.00 52.24 N +ATOM 11647 CA SER D 93 7.167 2.938 31.050 1.00 51.53 C +ATOM 11648 C SER D 93 6.154 3.067 29.914 1.00 51.49 C +ATOM 11649 O SER D 93 5.135 2.370 29.898 1.00 58.23 O +ATOM 11650 CB SER D 93 7.291 1.500 31.538 1.00 49.23 C +ATOM 11651 OG SER D 93 7.775 0.653 30.512 1.00 48.66 O +ATOM 11652 N VAL D 94 6.436 3.974 28.976 1.00 48.98 N +ATOM 11653 CA VAL D 94 5.515 4.221 27.873 1.00 50.00 C +ATOM 11654 C VAL D 94 5.349 2.958 27.040 1.00 52.03 C +ATOM 11655 O VAL D 94 6.311 2.222 26.785 1.00 52.24 O +ATOM 11656 CB VAL D 94 6.019 5.394 27.016 1.00 48.85 C +ATOM 11657 CG1 VAL D 94 5.128 5.606 25.799 1.00 49.73 C +ATOM 11658 CG2 VAL D 94 6.097 6.660 27.848 1.00 49.62 C +ATOM 11659 N GLN D 95 4.117 2.702 26.612 1.00 54.11 N +ATOM 11660 CA GLN D 95 3.782 1.574 25.756 1.00 60.44 C +ATOM 11661 C GLN D 95 3.144 2.080 24.468 1.00 61.20 C +ATOM 11662 O GLN D 95 2.764 3.248 24.353 1.00 58.36 O +ATOM 11663 CB GLN D 95 2.852 0.591 26.478 1.00 63.85 C +ATOM 11664 CG GLN D 95 3.508 -0.093 27.664 1.00 62.89 C +ATOM 11665 CD GLN D 95 2.548 -0.965 28.445 1.00 75.95 C +ATOM 11666 OE1 GLN D 95 1.419 -1.208 28.017 1.00 76.61 O +ATOM 11667 NE2 GLN D 95 3.002 -1.463 29.590 1.00 91.48 N +ATOM 11668 N ALA D 96 3.061 1.180 23.484 1.00 64.54 N +ATOM 11669 CA ALA D 96 2.576 1.562 22.160 1.00 69.23 C +ATOM 11670 C ALA D 96 1.191 2.194 22.225 1.00 68.99 C +ATOM 11671 O ALA D 96 0.929 3.198 21.553 1.00 66.44 O +ATOM 11672 CB ALA D 96 2.560 0.348 21.236 1.00 76.06 C +ATOM 11673 N GLU D 97 0.289 1.618 23.020 1.00 69.14 N +ATOM 11674 CA GLU D 97 -1.072 2.132 23.085 1.00 68.50 C +ATOM 11675 C GLU D 97 -1.182 3.440 23.858 1.00 65.16 C +ATOM 11676 O GLU D 97 -2.252 4.057 23.839 1.00 68.64 O +ATOM 11677 CB GLU D 97 -1.999 1.086 23.711 1.00 75.01 C +ATOM 11678 CG GLU D 97 -1.601 0.652 25.114 1.00 72.47 C +ATOM 11679 CD GLU D 97 -0.675 -0.551 25.117 1.00 89.29 C +ATOM 11680 OE1 GLU D 97 -0.014 -0.799 24.087 1.00 82.26 O +ATOM 11681 OE2 GLU D 97 -0.610 -1.247 26.152 1.00105.53 O +ATOM 11682 N ASP D 98 -0.116 3.880 24.529 1.00 62.17 N +ATOM 11683 CA ASP D 98 -0.190 5.092 25.335 1.00 59.44 C +ATOM 11684 C ASP D 98 -0.131 6.374 24.513 1.00 56.85 C +ATOM 11685 O ASP D 98 -0.296 7.457 25.087 1.00 52.08 O +ATOM 11686 CB ASP D 98 0.932 5.107 26.377 1.00 56.67 C +ATOM 11687 CG ASP D 98 0.727 4.074 27.469 1.00 55.37 C +ATOM 11688 OD1 ASP D 98 -0.437 3.702 27.728 1.00 57.04 O +ATOM 11689 OD2 ASP D 98 1.729 3.637 28.071 1.00 57.99 O +ATOM 11690 N LEU D 99 0.102 6.293 23.203 1.00 58.26 N +ATOM 11691 CA LEU D 99 0.095 7.498 22.383 1.00 56.87 C +ATOM 11692 C LEU D 99 -1.299 8.114 22.375 1.00 55.06 C +ATOM 11693 O LEU D 99 -2.284 7.451 22.036 1.00 55.66 O +ATOM 11694 CB LEU D 99 0.575 7.189 20.960 1.00 56.93 C +ATOM 11695 CG LEU D 99 -0.214 6.292 20.004 1.00 62.87 C +ATOM 11696 CD1 LEU D 99 -1.103 7.126 19.091 1.00 67.60 C +ATOM 11697 CD2 LEU D 99 0.734 5.432 19.185 1.00 61.71 C +ATOM 11698 N ALA D 100 -1.373 9.393 22.749 1.00 48.40 N +ATOM 11699 CA ALA D 100 -2.642 10.093 22.914 1.00 47.83 C +ATOM 11700 C ALA D 100 -2.403 11.549 23.285 1.00 45.71 C +ATOM 11701 O ALA D 100 -1.255 11.973 23.453 1.00 47.43 O +ATOM 11702 CB ALA D 100 -3.500 9.418 23.988 1.00 48.63 C +ATOM 11703 N VAL D 101 -3.474 12.324 23.426 1.00 45.28 N +ATOM 11704 CA VAL D 101 -3.389 13.682 23.945 1.00 48.20 C +ATOM 11705 C VAL D 101 -3.806 13.658 25.407 1.00 49.74 C +ATOM 11706 O VAL D 101 -4.877 13.141 25.752 1.00 49.83 O +ATOM 11707 CB VAL D 101 -4.265 14.652 23.134 1.00 51.22 C +ATOM 11708 CG1 VAL D 101 -4.043 16.080 23.609 1.00 51.21 C +ATOM 11709 CG2 VAL D 101 -3.956 14.526 21.650 1.00 48.79 C +ATOM 11710 N TYR D 102 -2.953 14.200 26.268 1.00 47.10 N +ATOM 11711 CA TYR D 102 -3.179 14.208 27.706 1.00 47.86 C +ATOM 11712 C TYR D 102 -3.565 15.608 28.157 1.00 50.18 C +ATOM 11713 O TYR D 102 -2.872 16.584 27.839 1.00 50.98 O +ATOM 11714 CB TYR D 102 -1.941 13.712 28.455 1.00 45.95 C +ATOM 11715 CG TYR D 102 -1.657 12.248 28.213 1.00 44.54 C +ATOM 11716 CD1 TYR D 102 -0.956 11.830 27.090 1.00 46.29 C +ATOM 11717 CD2 TYR D 102 -2.106 11.280 29.102 1.00 45.52 C +ATOM 11718 CE1 TYR D 102 -0.702 10.490 26.863 1.00 46.06 C +ATOM 11719 CE2 TYR D 102 -1.856 9.939 28.884 1.00 45.58 C +ATOM 11720 CZ TYR D 102 -1.154 9.550 27.764 1.00 44.71 C +ATOM 11721 OH TYR D 102 -0.905 8.215 27.545 1.00 46.48 O +ATOM 11722 N TYR D 103 -4.685 15.701 28.871 1.00 53.90 N +ATOM 11723 CA TYR D 103 -5.226 16.967 29.346 1.00 55.15 C +ATOM 11724 C TYR D 103 -5.201 17.010 30.867 1.00 55.71 C +ATOM 11725 O TYR D 103 -5.440 15.994 31.529 1.00 55.13 O +ATOM 11726 CB TYR D 103 -6.671 17.177 28.873 1.00 54.79 C +ATOM 11727 CG TYR D 103 -6.851 17.249 27.376 1.00 52.75 C +ATOM 11728 CD1 TYR D 103 -7.023 16.097 26.622 1.00 52.68 C +ATOM 11729 CD2 TYR D 103 -6.862 18.471 26.718 1.00 54.11 C +ATOM 11730 CE1 TYR D 103 -7.193 16.158 25.253 1.00 56.95 C +ATOM 11731 CE2 TYR D 103 -7.031 18.543 25.350 1.00 58.10 C +ATOM 11732 CZ TYR D 103 -7.196 17.384 24.622 1.00 59.16 C +ATOM 11733 OH TYR D 103 -7.366 17.449 23.258 1.00 64.05 O +ATOM 11734 N CYS D 104 -4.925 18.191 31.415 1.00 57.19 N +ATOM 11735 CA CYS D 104 -5.134 18.467 32.828 1.00 56.55 C +ATOM 11736 C CYS D 104 -6.358 19.357 32.984 1.00 59.09 C +ATOM 11737 O CYS D 104 -6.607 20.241 32.158 1.00 60.28 O +ATOM 11738 CB CYS D 104 -3.913 19.138 33.470 1.00 58.18 C +ATOM 11739 SG CYS D 104 -3.443 20.741 32.774 1.00 68.90 S +ATOM 11740 N GLN D 105 -7.123 19.111 34.042 1.00 59.29 N +ATOM 11741 CA GLN D 105 -8.329 19.872 34.333 1.00 60.79 C +ATOM 11742 C GLN D 105 -8.365 20.188 35.817 1.00 61.49 C +ATOM 11743 O GLN D 105 -8.198 19.289 36.645 1.00 59.88 O +ATOM 11744 CB GLN D 105 -9.591 19.097 33.936 1.00 58.67 C +ATOM 11745 CG GLN D 105 -10.888 19.834 34.239 1.00 61.13 C +ATOM 11746 CD GLN D 105 -11.819 19.034 35.130 1.00 63.20 C +ATOM 11747 OE1 GLN D 105 -11.888 17.808 35.034 1.00 61.77 O +ATOM 11748 NE2 GLN D 105 -12.539 19.725 36.007 1.00 66.91 N +ATOM 11749 N GLN D 106 -8.584 21.453 36.157 1.00 64.39 N +ATOM 11750 CA GLN D 106 -8.782 21.810 37.555 1.00 65.02 C +ATOM 11751 C GLN D 106 -10.224 21.472 37.918 1.00 67.38 C +ATOM 11752 O GLN D 106 -11.170 22.026 37.347 1.00 68.90 O +ATOM 11753 CB GLN D 106 -8.439 23.279 37.807 1.00 66.57 C +ATOM 11754 CG GLN D 106 -9.294 24.323 37.094 1.00 68.75 C +ATOM 11755 CD GLN D 106 -10.474 24.791 37.931 1.00 71.12 C +ATOM 11756 OE1 GLN D 106 -10.612 24.414 39.095 1.00 72.61 O +ATOM 11757 NE2 GLN D 106 -11.333 25.612 37.338 1.00 67.68 N +ATOM 11758 N HIS D 107 -10.398 20.510 38.813 1.00 68.67 N +ATOM 11759 CA HIS D 107 -11.724 20.211 39.348 1.00 71.99 C +ATOM 11760 C HIS D 107 -11.863 20.786 40.751 1.00 72.60 C +ATOM 11761 O HIS D 107 -12.227 20.109 41.709 1.00 74.97 O +ATOM 11762 CB HIS D 107 -11.996 18.708 39.311 1.00 72.96 C +ATOM 11763 CG HIS D 107 -11.096 17.888 40.183 1.00 67.68 C +ATOM 11764 ND1 HIS D 107 -11.480 17.437 41.427 1.00 71.03 N +ATOM 11765 CD2 HIS D 107 -9.849 17.405 39.976 1.00 64.27 C +ATOM 11766 CE1 HIS D 107 -10.500 16.727 41.958 1.00 65.67 C +ATOM 11767 NE2 HIS D 107 -9.499 16.693 41.098 1.00 63.71 N +ATOM 11768 N TYR D 108 -11.554 22.078 40.858 1.00 70.19 N +ATOM 11769 CA TYR D 108 -11.527 22.814 42.114 1.00 70.15 C +ATOM 11770 C TYR D 108 -12.675 23.803 42.249 1.00 73.03 C +ATOM 11771 O TYR D 108 -13.304 23.877 43.309 1.00 75.38 O +ATOM 11772 CB TYR D 108 -10.184 23.552 42.242 1.00 69.02 C +ATOM 11773 CG TYR D 108 -10.035 24.391 43.492 1.00 70.93 C +ATOM 11774 CD1 TYR D 108 -9.666 23.814 44.700 1.00 72.22 C +ATOM 11775 CD2 TYR D 108 -10.247 25.764 43.459 1.00 71.13 C +ATOM 11776 CE1 TYR D 108 -9.522 24.578 45.843 1.00 72.29 C +ATOM 11777 CE2 TYR D 108 -10.105 26.536 44.596 1.00 71.99 C +ATOM 11778 CZ TYR D 108 -9.743 25.938 45.785 1.00 73.69 C +ATOM 11779 OH TYR D 108 -9.601 26.703 46.920 1.00 75.48 O +ATOM 11780 N SER D 109 -12.961 24.578 41.205 1.00 72.48 N +ATOM 11781 CA SER D 109 -14.006 25.589 41.270 1.00 74.60 C +ATOM 11782 C SER D 109 -14.683 25.702 39.909 1.00 74.79 C +ATOM 11783 O SER D 109 -14.306 25.030 38.944 1.00 74.39 O +ATOM 11784 CB SER D 109 -13.437 26.938 41.723 1.00 73.22 C +ATOM 11785 OG SER D 109 -12.520 27.450 40.774 1.00 70.81 O +ATOM 11786 N ILE D 114 -15.692 26.565 39.844 1.00 75.02 N +ATOM 11787 CA ILE D 114 -16.464 26.813 38.628 1.00 76.42 C +ATOM 11788 C ILE D 114 -16.076 28.188 38.094 1.00 76.69 C +ATOM 11789 O ILE D 114 -15.917 29.129 38.885 1.00 77.38 O +ATOM 11790 CB ILE D 114 -17.975 26.706 38.910 1.00 77.64 C +ATOM 11791 CG1 ILE D 114 -18.376 25.243 39.100 1.00 76.48 C +ATOM 11792 CG2 ILE D 114 -18.809 27.349 37.808 1.00 75.68 C +ATOM 11793 CD1 ILE D 114 -19.844 25.038 39.393 1.00 79.50 C +ATOM 11794 N PRO D 115 -15.909 28.365 36.770 1.00 75.97 N +ATOM 11795 CA PRO D 115 -16.071 27.365 35.706 1.00 72.51 C +ATOM 11796 C PRO D 115 -14.947 26.336 35.637 1.00 71.37 C +ATOM 11797 O PRO D 115 -13.800 26.635 35.971 1.00 71.99 O +ATOM 11798 CB PRO D 115 -16.093 28.215 34.434 1.00 80.21 C +ATOM 11799 CG PRO D 115 -15.281 29.403 34.775 1.00 82.63 C +ATOM 11800 CD PRO D 115 -15.556 29.688 36.224 1.00 81.48 C +ATOM 11801 N ARG D 116 -15.294 25.127 35.203 1.00 70.12 N +ATOM 11802 CA ARG D 116 -14.303 24.079 35.011 1.00 68.22 C +ATOM 11803 C ARG D 116 -13.454 24.392 33.786 1.00 67.65 C +ATOM 11804 O ARG D 116 -13.984 24.681 32.709 1.00 67.94 O +ATOM 11805 CB ARG D 116 -14.990 22.726 34.847 1.00 68.76 C +ATOM 11806 CG ARG D 116 -16.124 22.485 35.827 1.00 70.24 C +ATOM 11807 CD ARG D 116 -15.718 21.519 36.922 1.00 77.09 C +ATOM 11808 NE ARG D 116 -15.547 22.191 38.206 1.00 79.40 N +ATOM 11809 CZ ARG D 116 -16.531 22.400 39.075 1.00 79.87 C +ATOM 11810 NH1 ARG D 116 -17.761 21.988 38.796 1.00 78.71 N +ATOM 11811 NH2 ARG D 116 -16.285 23.011 40.225 1.00 80.00 N +ATOM 11812 N THR D 117 -12.134 24.342 33.947 1.00 66.41 N +ATOM 11813 CA THR D 117 -11.215 24.685 32.872 1.00 66.31 C +ATOM 11814 C THR D 117 -10.205 23.565 32.672 1.00 64.57 C +ATOM 11815 O THR D 117 -9.702 22.986 33.639 1.00 63.61 O +ATOM 11816 CB THR D 117 -10.483 25.999 33.157 1.00 67.39 C +ATOM 11817 OG1 THR D 117 -9.831 25.922 34.431 1.00 66.63 O +ATOM 11818 CG2 THR D 117 -11.461 27.165 33.165 1.00 71.33 C +ATOM 11819 N PHE D 118 -9.917 23.270 31.409 1.00 62.75 N +ATOM 11820 CA PHE D 118 -8.944 22.261 31.023 1.00 60.66 C +ATOM 11821 C PHE D 118 -7.627 22.914 30.618 1.00 62.49 C +ATOM 11822 O PHE D 118 -7.520 24.134 30.473 1.00 64.10 O +ATOM 11823 CB PHE D 118 -9.479 21.410 29.866 1.00 58.98 C +ATOM 11824 CG PHE D 118 -10.621 20.514 30.243 1.00 58.91 C +ATOM 11825 CD1 PHE D 118 -11.914 21.004 30.311 1.00 60.59 C +ATOM 11826 CD2 PHE D 118 -10.403 19.172 30.506 1.00 57.02 C +ATOM 11827 CE1 PHE D 118 -12.965 20.176 30.652 1.00 61.29 C +ATOM 11828 CE2 PHE D 118 -11.450 18.339 30.845 1.00 55.86 C +ATOM 11829 CZ PHE D 118 -12.733 18.841 30.918 1.00 58.49 C +ATOM 11830 N GLY D 119 -6.610 22.071 30.437 1.00 62.37 N +ATOM 11831 CA GLY D 119 -5.364 22.516 29.854 1.00 62.22 C +ATOM 11832 C GLY D 119 -5.394 22.441 28.339 1.00 62.86 C +ATOM 11833 O GLY D 119 -6.347 21.951 27.735 1.00 62.56 O +ATOM 11834 N GLY D 120 -4.322 22.941 27.722 1.00 63.25 N +ATOM 11835 CA GLY D 120 -4.232 22.909 26.273 1.00 59.34 C +ATOM 11836 C GLY D 120 -4.057 21.521 25.696 1.00 57.31 C +ATOM 11837 O GLY D 120 -4.416 21.294 24.536 1.00 63.32 O +ATOM 11838 N GLY D 121 -3.524 20.590 26.477 1.00 55.34 N +ATOM 11839 CA GLY D 121 -3.284 19.243 26.012 1.00 55.15 C +ATOM 11840 C GLY D 121 -1.851 19.045 25.546 1.00 56.74 C +ATOM 11841 O GLY D 121 -1.150 19.984 25.160 1.00 60.13 O +ATOM 11842 N THR D 122 -1.410 17.790 25.587 1.00 54.36 N +ATOM 11843 CA THR D 122 -0.065 17.425 25.145 1.00 53.31 C +ATOM 11844 C THR D 122 -0.158 16.132 24.348 1.00 52.49 C +ATOM 11845 O THR D 122 -0.548 15.096 24.896 1.00 49.25 O +ATOM 11846 CB THR D 122 0.893 17.268 26.328 1.00 54.98 C +ATOM 11847 OG1 THR D 122 0.962 18.500 27.058 1.00 58.35 O +ATOM 11848 CG2 THR D 122 2.286 16.898 25.839 1.00 53.27 C +ATOM 11849 N LYS D 123 0.147 16.204 23.053 1.00 53.86 N +ATOM 11850 CA LYS D 123 0.180 15.020 22.203 1.00 53.07 C +ATOM 11851 C LYS D 123 1.481 14.264 22.440 1.00 53.83 C +ATOM 11852 O LYS D 123 2.569 14.834 22.308 1.00 56.03 O +ATOM 11853 CB LYS D 123 0.046 15.404 20.731 1.00 52.83 C +ATOM 11854 CG LYS D 123 0.047 14.207 19.788 1.00 54.68 C +ATOM 11855 CD LYS D 123 0.155 14.635 18.333 1.00 67.30 C +ATOM 11856 CE LYS D 123 -1.177 15.126 17.796 1.00 69.24 C +ATOM 11857 NZ LYS D 123 -2.174 14.024 17.709 1.00 73.17 N +ATOM 11858 N LEU D 124 1.372 12.984 22.787 1.00 50.95 N +ATOM 11859 CA LEU D 124 2.529 12.143 23.078 1.00 48.80 C +ATOM 11860 C LEU D 124 2.822 11.276 21.859 1.00 48.99 C +ATOM 11861 O LEU D 124 2.116 10.301 21.592 1.00 48.21 O +ATOM 11862 CB LEU D 124 2.285 11.293 24.319 1.00 45.60 C +ATOM 11863 CG LEU D 124 3.447 10.377 24.705 1.00 45.63 C +ATOM 11864 CD1 LEU D 124 4.678 11.201 25.048 1.00 45.52 C +ATOM 11865 CD2 LEU D 124 3.062 9.471 25.861 1.00 50.01 C +ATOM 11866 N GLU D 125 3.860 11.640 21.114 1.00 50.59 N +ATOM 11867 CA GLU D 125 4.320 10.829 19.999 1.00 55.39 C +ATOM 11868 C GLU D 125 5.316 9.788 20.492 1.00 53.46 C +ATOM 11869 O GLU D 125 6.041 10.004 21.467 1.00 50.68 O +ATOM 11870 CB GLU D 125 4.970 11.695 18.916 1.00 58.84 C +ATOM 11871 CG GLU D 125 5.466 10.907 17.705 1.00 65.13 C +ATOM 11872 CD GLU D 125 6.274 11.743 16.735 1.00 76.66 C +ATOM 11873 OE1 GLU D 125 5.950 12.936 16.552 1.00 98.88 O +ATOM 11874 OE2 GLU D 125 7.251 11.207 16.169 1.00 78.33 O +ATOM 11875 N ILE D 126 5.346 8.651 19.805 1.00 53.82 N +ATOM 11876 CA ILE D 126 6.251 7.559 20.131 1.00 54.00 C +ATOM 11877 C ILE D 126 7.360 7.552 19.091 1.00 57.98 C +ATOM 11878 O ILE D 126 7.091 7.570 17.883 1.00 59.28 O +ATOM 11879 CB ILE D 126 5.512 6.211 20.163 1.00 53.28 C +ATOM 11880 CG1 ILE D 126 4.553 6.160 21.353 1.00 57.01 C +ATOM 11881 CG2 ILE D 126 6.500 5.058 20.213 1.00 51.85 C +ATOM 11882 CD1 ILE D 126 3.767 4.876 21.443 1.00 66.09 C +ATOM 11883 N LYS D 127 8.604 7.529 19.555 1.00 56.16 N +ATOM 11884 CA LYS D 127 9.761 7.488 18.676 1.00 56.20 C +ATOM 11885 C LYS D 127 10.198 6.044 18.479 1.00 54.84 C +ATOM 11886 O LYS D 127 10.235 5.259 19.431 1.00 53.70 O +ATOM 11887 CB LYS D 127 10.914 8.316 19.246 1.00 51.50 C +ATOM 11888 CG LYS D 127 12.143 8.370 18.355 1.00 55.07 C +ATOM 11889 CD LYS D 127 11.913 9.275 17.155 1.00 62.49 C +ATOM 11890 CE LYS D 127 13.164 9.392 16.297 1.00 65.21 C +ATOM 11891 NZ LYS D 127 12.938 10.254 15.101 1.00 64.81 N +ATOM 11892 N ARG D 128 10.519 5.700 17.236 1.00 50.09 N +ATOM 11893 CA ARG D 128 10.929 4.349 16.890 1.00 50.26 C +ATOM 11894 C ARG D 128 11.958 4.431 15.771 1.00 53.03 C +ATOM 11895 O ARG D 128 12.302 5.516 15.295 1.00 52.28 O +ATOM 11896 CB ARG D 128 9.717 3.496 16.498 1.00 48.63 C +ATOM 11897 CG ARG D 128 8.834 4.117 15.426 1.00 51.36 C +ATOM 11898 CD ARG D 128 8.185 3.046 14.566 1.00 52.66 C +ATOM 11899 NE ARG D 128 9.172 2.281 13.811 1.00 51.06 N +ATOM 11900 CZ ARG D 128 8.912 1.138 13.184 1.00 50.48 C +ATOM 11901 NH1 ARG D 128 7.692 0.620 13.228 1.00 52.91 N +ATOM 11902 NH2 ARG D 128 9.872 0.511 12.519 1.00 55.06 N +ATOM 11903 N THR D 129 12.456 3.269 15.357 1.00 51.34 N +ATOM 11904 CA THR D 129 13.442 3.221 14.291 1.00 51.74 C +ATOM 11905 C THR D 129 12.825 3.675 12.971 1.00 52.74 C +ATOM 11906 O THR D 129 11.604 3.680 12.790 1.00 52.26 O +ATOM 11907 CB THR D 129 14.011 1.809 14.143 1.00 52.25 C +ATOM 11908 OG1 THR D 129 12.947 0.888 13.872 1.00 53.45 O +ATOM 11909 CG2 THR D 129 14.726 1.389 15.417 1.00 52.15 C +ATOM 11910 N VAL D 130 13.697 4.074 12.042 1.00 50.88 N +ATOM 11911 CA VAL D 130 13.236 4.523 10.736 1.00 52.50 C +ATOM 11912 C VAL D 130 12.570 3.362 10.010 1.00 52.45 C +ATOM 11913 O VAL D 130 13.012 2.209 10.097 1.00 52.12 O +ATOM 11914 CB VAL D 130 14.410 5.099 9.927 1.00 54.72 C +ATOM 11915 CG1 VAL D 130 13.930 5.641 8.593 1.00 55.77 C +ATOM 11916 CG2 VAL D 130 15.121 6.182 10.725 1.00 60.35 C +ATOM 11917 N ALA D 131 11.490 3.664 9.293 1.00 51.71 N +ATOM 11918 CA ALA D 131 10.758 2.664 8.524 1.00 53.27 C +ATOM 11919 C ALA D 131 10.402 3.257 7.172 1.00 51.92 C +ATOM 11920 O ALA D 131 9.665 4.245 7.102 1.00 50.90 O +ATOM 11921 CB ALA D 131 9.495 2.210 9.263 1.00 51.63 C +ATOM 11922 N ALA D 132 10.942 2.673 6.108 1.00 51.55 N +ATOM 11923 CA ALA D 132 10.629 3.150 4.770 1.00 50.51 C +ATOM 11924 C ALA D 132 9.173 2.842 4.430 1.00 52.27 C +ATOM 11925 O ALA D 132 8.650 1.795 4.824 1.00 51.58 O +ATOM 11926 CB ALA D 132 11.546 2.497 3.741 1.00 51.46 C +ATOM 11927 N PRO D 133 8.500 3.721 3.695 1.00 50.57 N +ATOM 11928 CA PRO D 133 7.106 3.464 3.328 1.00 52.33 C +ATOM 11929 C PRO D 133 6.986 2.440 2.213 1.00 52.87 C +ATOM 11930 O PRO D 133 7.860 2.310 1.352 1.00 53.77 O +ATOM 11931 CB PRO D 133 6.608 4.837 2.862 1.00 50.87 C +ATOM 11932 CG PRO D 133 7.831 5.513 2.352 1.00 49.35 C +ATOM 11933 CD PRO D 133 8.965 5.037 3.221 1.00 51.60 C +ATOM 11934 N SER D 134 5.880 1.702 2.242 1.00 55.49 N +ATOM 11935 CA SER D 134 5.497 0.855 1.119 1.00 54.48 C +ATOM 11936 C SER D 134 4.624 1.685 0.188 1.00 57.58 C +ATOM 11937 O SER D 134 3.593 2.217 0.612 1.00 59.23 O +ATOM 11938 CB SER D 134 4.757 -0.394 1.597 1.00 54.64 C +ATOM 11939 OG SER D 134 5.621 -1.253 2.319 1.00 59.45 O +ATOM 11940 N VAL D 135 5.047 1.818 -1.066 1.00 57.56 N +ATOM 11941 CA VAL D 135 4.411 2.726 -2.012 1.00 58.10 C +ATOM 11942 C VAL D 135 3.516 1.926 -2.947 1.00 59.88 C +ATOM 11943 O VAL D 135 3.930 0.894 -3.490 1.00 62.12 O +ATOM 11944 CB VAL D 135 5.457 3.528 -2.804 1.00 58.74 C +ATOM 11945 CG1 VAL D 135 4.788 4.663 -3.564 1.00 60.94 C +ATOM 11946 CG2 VAL D 135 6.534 4.062 -1.873 1.00 57.06 C +ATOM 11947 N PHE D 136 2.289 2.403 -3.131 1.00 58.71 N +ATOM 11948 CA PHE D 136 1.338 1.821 -4.065 1.00 62.08 C +ATOM 11949 C PHE D 136 0.696 2.936 -4.873 1.00 63.84 C +ATOM 11950 O PHE D 136 0.599 4.075 -4.412 1.00 61.57 O +ATOM 11951 CB PHE D 136 0.250 1.014 -3.345 1.00 60.99 C +ATOM 11952 CG PHE D 136 0.786 -0.022 -2.403 1.00 66.39 C +ATOM 11953 CD1 PHE D 136 1.188 -1.261 -2.871 1.00 76.71 C +ATOM 11954 CD2 PHE D 136 0.884 0.242 -1.047 1.00 64.71 C +ATOM 11955 CE1 PHE D 136 1.681 -2.217 -2.005 1.00 78.41 C +ATOM 11956 CE2 PHE D 136 1.376 -0.711 -0.176 1.00 64.06 C +ATOM 11957 CZ PHE D 136 1.775 -1.942 -0.656 1.00 69.42 C +ATOM 11958 N ILE D 137 0.253 2.605 -6.083 1.00 63.97 N +ATOM 11959 CA ILE D 137 -0.410 3.568 -6.953 1.00 64.14 C +ATOM 11960 C ILE D 137 -1.675 2.931 -7.515 1.00 64.51 C +ATOM 11961 O ILE D 137 -1.663 1.768 -7.933 1.00 66.64 O +ATOM 11962 CB ILE D 137 0.522 4.068 -8.077 1.00 65.14 C +ATOM 11963 CG1 ILE D 137 -0.127 5.226 -8.839 1.00 61.01 C +ATOM 11964 CG2 ILE D 137 0.931 2.934 -9.014 1.00 69.19 C +ATOM 11965 CD1 ILE D 137 0.836 5.980 -9.731 1.00 61.25 C +ATOM 11966 N PHE D 138 -2.770 3.686 -7.487 1.00 65.93 N +ATOM 11967 CA PHE D 138 -4.072 3.249 -7.970 1.00 65.21 C +ATOM 11968 C PHE D 138 -4.546 4.197 -9.062 1.00 65.76 C +ATOM 11969 O PHE D 138 -4.664 5.412 -8.814 1.00 65.85 O +ATOM 11970 CB PHE D 138 -5.097 3.200 -6.833 1.00 61.72 C +ATOM 11971 CG PHE D 138 -4.684 2.340 -5.673 1.00 60.65 C +ATOM 11972 CD1 PHE D 138 -4.818 0.963 -5.735 1.00 61.87 C +ATOM 11973 CD2 PHE D 138 -4.176 2.908 -4.517 1.00 61.80 C +ATOM 11974 CE1 PHE D 138 -4.445 0.168 -4.668 1.00 61.33 C +ATOM 11975 CE2 PHE D 138 -3.802 2.117 -3.446 1.00 59.24 C +ATOM 11976 CZ PHE D 138 -3.937 0.746 -3.522 1.00 59.31 C +ATOM 11977 N PRO D 139 -4.818 3.700 -10.266 1.00 65.89 N +ATOM 11978 CA PRO D 139 -5.375 4.546 -11.324 1.00 68.48 C +ATOM 11979 C PRO D 139 -6.844 4.824 -11.065 1.00 69.51 C +ATOM 11980 O PRO D 139 -7.463 4.166 -10.214 1.00 64.95 O +ATOM 11981 CB PRO D 139 -5.176 3.694 -12.587 1.00 66.18 C +ATOM 11982 CG PRO D 139 -5.212 2.292 -12.091 1.00 66.46 C +ATOM 11983 CD PRO D 139 -4.579 2.319 -10.724 1.00 66.64 C +ATOM 11984 N PRO D 140 -7.443 5.786 -11.767 1.00 67.96 N +ATOM 11985 CA PRO D 140 -8.859 6.080 -11.532 1.00 67.47 C +ATOM 11986 C PRO D 140 -9.747 4.954 -12.033 1.00 71.33 C +ATOM 11987 O PRO D 140 -9.447 4.283 -13.023 1.00 76.39 O +ATOM 11988 CB PRO D 140 -9.094 7.367 -12.330 1.00 66.63 C +ATOM 11989 CG PRO D 140 -8.080 7.316 -13.411 1.00 68.05 C +ATOM 11990 CD PRO D 140 -6.875 6.646 -12.821 1.00 65.45 C +ATOM 11991 N SER D 141 -10.854 4.751 -11.327 1.00 74.66 N +ATOM 11992 CA SER D 141 -11.821 3.743 -11.731 1.00 80.86 C +ATOM 11993 C SER D 141 -12.584 4.199 -12.969 1.00 86.09 C +ATOM 11994 O SER D 141 -12.755 5.396 -13.217 1.00 86.12 O +ATOM 11995 CB SER D 141 -12.794 3.453 -10.589 1.00 79.82 C +ATOM 11996 OG SER D 141 -13.566 4.599 -10.275 1.00 78.95 O +ATOM 11997 N ASP D 142 -13.036 3.222 -13.760 1.00 86.57 N +ATOM 11998 CA ASP D 142 -13.820 3.535 -14.950 1.00 90.64 C +ATOM 11999 C ASP D 142 -15.121 4.246 -14.596 1.00 93.06 C +ATOM 12000 O ASP D 142 -15.622 5.056 -15.387 1.00 99.86 O +ATOM 12001 CB ASP D 142 -14.104 2.256 -15.739 1.00 95.00 C +ATOM 12002 CG ASP D 142 -12.842 1.628 -16.302 1.00 98.76 C +ATOM 12003 OD1 ASP D 142 -11.885 2.375 -16.597 1.00 99.40 O +ATOM 12004 OD2 ASP D 142 -12.807 0.388 -16.447 1.00105.17 O +ATOM 12005 N GLU D 143 -15.679 3.962 -13.416 1.00 91.21 N +ATOM 12006 CA GLU D 143 -16.893 4.646 -12.978 1.00 90.43 C +ATOM 12007 C GLU D 143 -16.651 6.145 -12.838 1.00 89.82 C +ATOM 12008 O GLU D 143 -17.401 6.964 -13.386 1.00 92.57 O +ATOM 12009 CB GLU D 143 -17.384 4.052 -11.656 1.00 89.72 C +ATOM 12010 CG GLU D 143 -17.679 2.553 -11.688 1.00 95.26 C +ATOM 12011 CD GLU D 143 -16.445 1.692 -11.468 1.00 98.74 C +ATOM 12012 OE1 GLU D 143 -15.380 2.003 -12.042 1.00 94.18 O +ATOM 12013 OE2 GLU D 143 -16.541 0.700 -10.714 1.00106.54 O +ATOM 12014 N GLN D 144 -15.603 6.522 -12.102 1.00 87.88 N +ATOM 12015 CA GLN D 144 -15.278 7.936 -11.951 1.00 85.00 C +ATOM 12016 C GLN D 144 -14.946 8.563 -13.298 1.00 87.79 C +ATOM 12017 O GLN D 144 -15.256 9.735 -13.539 1.00 87.73 O +ATOM 12018 CB GLN D 144 -14.119 8.115 -10.971 1.00 80.91 C +ATOM 12019 CG GLN D 144 -13.864 9.565 -10.599 1.00 80.33 C +ATOM 12020 CD GLN D 144 -12.553 9.766 -9.871 1.00 75.89 C +ATOM 12021 OE1 GLN D 144 -11.841 8.807 -9.575 1.00 75.95 O +ATOM 12022 NE2 GLN D 144 -12.225 11.020 -9.581 1.00 75.27 N +ATOM 12023 N LEU D 145 -14.299 7.800 -14.182 1.00 89.25 N +ATOM 12024 CA LEU D 145 -14.022 8.294 -15.527 1.00 90.09 C +ATOM 12025 C LEU D 145 -15.313 8.666 -16.248 1.00 93.74 C +ATOM 12026 O LEU D 145 -15.420 9.755 -16.826 1.00 92.54 O +ATOM 12027 CB LEU D 145 -13.231 7.253 -16.318 1.00 88.93 C +ATOM 12028 CG LEU D 145 -11.744 7.186 -15.962 1.00 82.07 C +ATOM 12029 CD1 LEU D 145 -11.082 5.964 -16.584 1.00 80.96 C +ATOM 12030 CD2 LEU D 145 -11.037 8.464 -16.389 1.00 81.30 C +ATOM 12031 N LYS D 146 -16.302 7.765 -16.242 1.00 95.32 N +ATOM 12032 CA LYS D 146 -17.601 8.116 -16.811 1.00 94.09 C +ATOM 12033 C LYS D 146 -18.223 9.311 -16.100 1.00 90.35 C +ATOM 12034 O LYS D 146 -18.959 10.086 -16.722 1.00 93.61 O +ATOM 12035 CB LYS D 146 -18.568 6.930 -16.768 1.00 96.37 C +ATOM 12036 CG LYS D 146 -18.208 5.773 -17.685 1.00101.20 C +ATOM 12037 CD LYS D 146 -19.283 4.689 -17.646 1.00104.07 C +ATOM 12038 CE LYS D 146 -19.447 4.087 -16.261 1.00101.90 C +ATOM 12039 NZ LYS D 146 -18.393 3.077 -15.973 1.00101.20 N +ATOM 12040 N SER D 147 -17.949 9.474 -14.803 1.00 89.20 N +ATOM 12041 CA SER D 147 -18.458 10.640 -14.086 1.00 87.26 C +ATOM 12042 C SER D 147 -17.872 11.939 -14.627 1.00 84.90 C +ATOM 12043 O SER D 147 -18.511 12.994 -14.531 1.00 82.30 O +ATOM 12044 CB SER D 147 -18.165 10.508 -12.591 1.00 88.50 C +ATOM 12045 OG SER D 147 -18.841 9.391 -12.040 1.00 89.53 O +ATOM 12046 N GLY D 148 -16.668 11.890 -15.192 1.00 84.97 N +ATOM 12047 CA GLY D 148 -16.042 13.058 -15.778 1.00 83.40 C +ATOM 12048 C GLY D 148 -14.788 13.549 -15.085 1.00 85.46 C +ATOM 12049 O GLY D 148 -14.308 14.640 -15.415 1.00 81.82 O +ATOM 12050 N THR D 149 -14.244 12.788 -14.138 1.00 90.16 N +ATOM 12051 CA THR D 149 -13.071 13.191 -13.378 1.00 81.30 C +ATOM 12052 C THR D 149 -12.194 11.962 -13.172 1.00 80.05 C +ATOM 12053 O THR D 149 -12.670 10.826 -13.220 1.00 81.68 O +ATOM 12054 CB THR D 149 -13.483 13.823 -12.034 1.00 81.56 C +ATOM 12055 OG1 THR D 149 -14.341 14.944 -12.280 1.00 80.37 O +ATOM 12056 CG2 THR D 149 -12.275 14.312 -11.244 1.00 80.31 C +ATOM 12057 N ALA D 150 -10.898 12.192 -12.963 1.00 80.81 N +ATOM 12058 CA ALA D 150 -9.944 11.120 -12.721 1.00 78.39 C +ATOM 12059 C ALA D 150 -9.152 11.442 -11.464 1.00 74.86 C +ATOM 12060 O ALA D 150 -8.547 12.515 -11.363 1.00 76.57 O +ATOM 12061 CB ALA D 150 -9.000 10.935 -13.915 1.00 72.75 C +ATOM 12062 N SER D 151 -9.159 10.516 -10.509 1.00 71.39 N +ATOM 12063 CA SER D 151 -8.408 10.654 -9.266 1.00 68.06 C +ATOM 12064 C SER D 151 -7.420 9.500 -9.180 1.00 66.86 C +ATOM 12065 O SER D 151 -7.823 8.340 -9.038 1.00 64.74 O +ATOM 12066 CB SER D 151 -9.339 10.670 -8.055 1.00 66.01 C +ATOM 12067 OG SER D 151 -10.102 11.863 -8.012 1.00 67.95 O +ATOM 12068 N VAL D 152 -6.132 9.815 -9.273 1.00 66.20 N +ATOM 12069 CA VAL D 152 -5.071 8.824 -9.137 1.00 65.59 C +ATOM 12070 C VAL D 152 -4.546 8.914 -7.710 1.00 65.42 C +ATOM 12071 O VAL D 152 -4.274 10.014 -7.212 1.00 64.96 O +ATOM 12072 CB VAL D 152 -3.949 9.067 -10.163 1.00 63.63 C +ATOM 12073 CG1 VAL D 152 -2.648 8.472 -9.684 1.00 66.88 C +ATOM 12074 CG2 VAL D 152 -4.327 8.537 -11.529 1.00 64.98 C +ATOM 12075 N VAL D 153 -4.399 7.770 -7.043 1.00 63.85 N +ATOM 12076 CA VAL D 153 -4.042 7.735 -5.626 1.00 61.27 C +ATOM 12077 C VAL D 153 -2.665 7.116 -5.441 1.00 59.52 C +ATOM 12078 O VAL D 153 -2.332 6.111 -6.074 1.00 60.86 O +ATOM 12079 CB VAL D 153 -5.096 6.981 -4.792 1.00 60.23 C +ATOM 12080 CG1 VAL D 153 -4.901 7.267 -3.316 1.00 57.94 C +ATOM 12081 CG2 VAL D 153 -6.488 7.438 -5.195 1.00 62.06 C +ATOM 12082 N CYS D 154 -1.862 7.728 -4.572 1.00 58.88 N +ATOM 12083 CA CYS D 154 -0.558 7.203 -4.183 1.00 60.00 C +ATOM 12084 C CYS D 154 -0.566 6.984 -2.676 1.00 60.85 C +ATOM 12085 O CYS D 154 -0.815 7.922 -1.910 1.00 58.99 O +ATOM 12086 CB CYS D 154 0.565 8.159 -4.592 1.00 59.47 C +ATOM 12087 SG CYS D 154 2.251 7.531 -4.372 1.00 69.22 S +ATOM 12088 N LEU D 155 -0.302 5.749 -2.256 1.00 59.12 N +ATOM 12089 CA LEU D 155 -0.378 5.344 -0.858 1.00 55.93 C +ATOM 12090 C LEU D 155 1.016 5.019 -0.336 1.00 57.99 C +ATOM 12091 O LEU D 155 1.700 4.149 -0.885 1.00 60.52 O +ATOM 12092 CB LEU D 155 -1.296 4.134 -0.689 1.00 56.88 C +ATOM 12093 CG LEU D 155 -1.208 3.427 0.667 1.00 58.47 C +ATOM 12094 CD1 LEU D 155 -1.654 4.346 1.795 1.00 54.31 C +ATOM 12095 CD2 LEU D 155 -2.017 2.137 0.665 1.00 58.76 C +ATOM 12096 N LEU D 156 1.428 5.718 0.720 1.00 56.11 N +ATOM 12097 CA LEU D 156 2.635 5.400 1.472 1.00 55.74 C +ATOM 12098 C LEU D 156 2.204 4.747 2.779 1.00 54.73 C +ATOM 12099 O LEU D 156 1.494 5.366 3.577 1.00 55.71 O +ATOM 12100 CB LEU D 156 3.461 6.657 1.749 1.00 54.84 C +ATOM 12101 CG LEU D 156 4.179 7.439 0.641 1.00 54.32 C +ATOM 12102 CD1 LEU D 156 3.233 7.980 -0.420 1.00 54.03 C +ATOM 12103 CD2 LEU D 156 4.951 8.582 1.276 1.00 56.03 C +ATOM 12104 N ASN D 157 2.634 3.510 3.007 1.00 53.29 N +ATOM 12105 CA ASN D 157 2.101 2.697 4.093 1.00 58.05 C +ATOM 12106 C ASN D 157 3.190 2.341 5.095 1.00 58.07 C +ATOM 12107 O ASN D 157 4.289 1.925 4.707 1.00 54.92 O +ATOM 12108 CB ASN D 157 1.442 1.425 3.556 1.00 56.08 C +ATOM 12109 CG ASN D 157 0.372 0.893 4.488 1.00 60.40 C +ATOM 12110 OD1 ASN D 157 -0.640 1.553 4.730 1.00 62.82 O +ATOM 12111 ND2 ASN D 157 0.587 -0.306 5.013 1.00 66.28 N +ATOM 12112 N ASN D 158 2.867 2.516 6.378 1.00 54.22 N +ATOM 12113 CA ASN D 158 3.663 2.055 7.517 1.00 53.89 C +ATOM 12114 C ASN D 158 5.105 2.564 7.445 1.00 53.30 C +ATOM 12115 O ASN D 158 6.059 1.812 7.242 1.00 53.00 O +ATOM 12116 CB ASN D 158 3.627 0.526 7.615 1.00 55.48 C +ATOM 12117 CG ASN D 158 2.225 -0.013 7.816 1.00 58.16 C +ATOM 12118 OD1 ASN D 158 1.339 0.693 8.296 1.00 61.58 O +ATOM 12119 ND2 ASN D 158 2.019 -1.276 7.457 1.00 57.72 N +ATOM 12120 N PHE D 159 5.236 3.875 7.629 1.00 50.85 N +ATOM 12121 CA PHE D 159 6.538 4.520 7.652 1.00 50.52 C +ATOM 12122 C PHE D 159 6.676 5.381 8.900 1.00 52.58 C +ATOM 12123 O PHE D 159 5.690 5.786 9.520 1.00 53.83 O +ATOM 12124 CB PHE D 159 6.778 5.367 6.389 1.00 48.78 C +ATOM 12125 CG PHE D 159 5.801 6.493 6.206 1.00 47.93 C +ATOM 12126 CD1 PHE D 159 4.598 6.286 5.553 1.00 51.08 C +ATOM 12127 CD2 PHE D 159 6.098 7.766 6.662 1.00 50.63 C +ATOM 12128 CE1 PHE D 159 3.701 7.323 5.376 1.00 52.05 C +ATOM 12129 CE2 PHE D 159 5.206 8.807 6.487 1.00 51.20 C +ATOM 12130 CZ PHE D 159 4.007 8.585 5.843 1.00 51.15 C +ATOM 12131 N TYR D 160 7.932 5.651 9.260 1.00 51.91 N +ATOM 12132 CA TYR D 160 8.310 6.530 10.352 1.00 51.73 C +ATOM 12133 C TYR D 160 9.703 7.049 10.032 1.00 51.35 C +ATOM 12134 O TYR D 160 10.554 6.265 9.585 1.00 52.95 O +ATOM 12135 CB TYR D 160 8.308 5.824 11.713 1.00 54.54 C +ATOM 12136 CG TYR D 160 8.460 6.774 12.881 1.00 53.44 C +ATOM 12137 CD1 TYR D 160 7.353 7.390 13.449 1.00 55.26 C +ATOM 12138 CD2 TYR D 160 9.712 7.062 13.409 1.00 53.66 C +ATOM 12139 CE1 TYR D 160 7.488 8.265 14.510 1.00 57.65 C +ATOM 12140 CE2 TYR D 160 9.857 7.936 14.471 1.00 54.75 C +ATOM 12141 CZ TYR D 160 8.742 8.534 15.017 1.00 58.56 C +ATOM 12142 OH TYR D 160 8.878 9.403 16.075 1.00 64.85 O +ATOM 12143 N PRO D 161 9.978 8.345 10.251 1.00 49.69 N +ATOM 12144 CA PRO D 161 9.092 9.367 10.825 1.00 52.78 C +ATOM 12145 C PRO D 161 7.979 9.864 9.899 1.00 58.14 C +ATOM 12146 O PRO D 161 7.800 9.371 8.786 1.00 58.59 O +ATOM 12147 CB PRO D 161 10.056 10.510 11.154 1.00 53.64 C +ATOM 12148 CG PRO D 161 11.153 10.358 10.177 1.00 56.73 C +ATOM 12149 CD PRO D 161 11.324 8.880 9.982 1.00 56.69 C +ATOM 12150 N ARG D 162 7.243 10.860 10.397 1.00 61.89 N +ATOM 12151 CA ARG D 162 6.044 11.355 9.727 1.00 63.42 C +ATOM 12152 C ARG D 162 6.363 12.076 8.421 1.00 64.60 C +ATOM 12153 O ARG D 162 5.528 12.097 7.509 1.00 64.94 O +ATOM 12154 CB ARG D 162 5.291 12.280 10.684 1.00 66.00 C +ATOM 12155 CG ARG D 162 3.908 12.735 10.250 1.00 71.23 C +ATOM 12156 CD ARG D 162 3.350 13.672 11.314 1.00 79.70 C +ATOM 12157 NE ARG D 162 1.956 14.052 11.105 1.00 89.13 N +ATOM 12158 CZ ARG D 162 1.565 15.074 10.351 1.00 95.07 C +ATOM 12159 NH1 ARG D 162 2.465 15.818 9.722 1.00 91.90 N +ATOM 12160 NH2 ARG D 162 0.276 15.355 10.228 1.00 93.36 N +ATOM 12161 N GLU D 163 7.552 12.662 8.306 1.00 63.90 N +ATOM 12162 CA GLU D 163 7.872 13.546 7.190 1.00 64.89 C +ATOM 12163 C GLU D 163 8.267 12.736 5.959 1.00 66.17 C +ATOM 12164 O GLU D 163 9.277 12.024 5.974 1.00 70.88 O +ATOM 12165 CB GLU D 163 8.995 14.506 7.582 1.00 66.51 C +ATOM 12166 CG GLU D 163 8.625 15.524 8.658 1.00 70.82 C +ATOM 12167 CD GLU D 163 8.488 14.907 10.040 1.00 72.85 C +ATOM 12168 OE1 GLU D 163 9.122 13.860 10.291 1.00 70.23 O +ATOM 12169 OE2 GLU D 163 7.746 15.468 10.873 1.00 77.61 O +ATOM 12170 N ALA D 164 7.475 12.851 4.893 1.00 61.38 N +ATOM 12171 CA ALA D 164 7.773 12.195 3.625 1.00 59.70 C +ATOM 12172 C ALA D 164 7.276 13.065 2.480 1.00 61.93 C +ATOM 12173 O ALA D 164 6.148 13.562 2.528 1.00 63.01 O +ATOM 12174 CB ALA D 164 7.131 10.806 3.555 1.00 56.01 C +ATOM 12175 N LYS D 165 8.114 13.253 1.461 1.00 60.91 N +ATOM 12176 CA LYS D 165 7.779 14.101 0.324 1.00 58.81 C +ATOM 12177 C LYS D 165 7.293 13.257 -0.848 1.00 59.67 C +ATOM 12178 O LYS D 165 7.857 12.198 -1.143 1.00 58.86 O +ATOM 12179 CB LYS D 165 8.980 14.943 -0.112 1.00 63.99 C +ATOM 12180 CG LYS D 165 9.486 15.927 0.930 1.00 78.37 C +ATOM 12181 CD LYS D 165 8.529 17.103 1.072 1.00 78.71 C +ATOM 12182 CE LYS D 165 9.127 18.214 1.921 1.00 74.09 C +ATOM 12183 NZ LYS D 165 9.454 17.757 3.297 1.00 75.19 N +ATOM 12184 N VAL D 166 6.241 13.736 -1.513 1.00 61.02 N +ATOM 12185 CA VAL D 166 5.623 13.047 -2.641 1.00 63.45 C +ATOM 12186 C VAL D 166 5.474 14.033 -3.793 1.00 64.56 C +ATOM 12187 O VAL D 166 4.907 15.118 -3.616 1.00 63.84 O +ATOM 12188 CB VAL D 166 4.251 12.450 -2.269 1.00 61.84 C +ATOM 12189 CG1 VAL D 166 3.683 11.657 -3.436 1.00 60.47 C +ATOM 12190 CG2 VAL D 166 4.363 11.576 -1.027 1.00 58.34 C +ATOM 12191 N GLN D 167 5.980 13.659 -4.966 1.00 66.09 N +ATOM 12192 CA GLN D 167 5.844 14.452 -6.180 1.00 68.35 C +ATOM 12193 C GLN D 167 5.108 13.653 -7.247 1.00 65.23 C +ATOM 12194 O GLN D 167 5.246 12.431 -7.333 1.00 64.64 O +ATOM 12195 CB GLN D 167 7.207 14.902 -6.721 1.00 72.85 C +ATOM 12196 CG GLN D 167 7.830 16.059 -5.959 1.00 77.02 C +ATOM 12197 CD GLN D 167 9.167 16.482 -6.537 1.00 89.84 C +ATOM 12198 OE1 GLN D 167 9.887 15.673 -7.123 1.00 87.31 O +ATOM 12199 NE2 GLN D 167 9.501 17.758 -6.383 1.00 92.12 N +ATOM 12200 N TRP D 168 4.317 14.350 -8.058 1.00 65.05 N +ATOM 12201 CA TRP D 168 3.567 13.721 -9.136 1.00 66.50 C +ATOM 12202 C TRP D 168 4.221 14.022 -10.479 1.00 69.39 C +ATOM 12203 O TRP D 168 4.596 15.166 -10.757 1.00 71.78 O +ATOM 12204 CB TRP D 168 2.114 14.197 -9.149 1.00 64.18 C +ATOM 12205 CG TRP D 168 1.284 13.548 -8.100 1.00 63.15 C +ATOM 12206 CD1 TRP D 168 0.906 14.081 -6.903 1.00 60.86 C +ATOM 12207 CD2 TRP D 168 0.780 12.211 -8.122 1.00 63.67 C +ATOM 12208 NE1 TRP D 168 0.164 13.169 -6.193 1.00 59.51 N +ATOM 12209 CE2 TRP D 168 0.077 12.011 -6.918 1.00 62.88 C +ATOM 12210 CE3 TRP D 168 0.843 11.168 -9.049 1.00 62.62 C +ATOM 12211 CZ2 TRP D 168 -0.558 10.811 -6.618 1.00 63.02 C +ATOM 12212 CZ3 TRP D 168 0.218 9.980 -8.749 1.00 63.86 C +ATOM 12213 CH2 TRP D 168 -0.474 9.809 -7.542 1.00 63.27 C +ATOM 12214 N LYS D 169 4.356 12.989 -11.312 1.00 66.76 N +ATOM 12215 CA LYS D 169 4.937 13.125 -12.642 1.00 70.28 C +ATOM 12216 C LYS D 169 3.997 12.507 -13.666 1.00 70.57 C +ATOM 12217 O LYS D 169 3.668 11.319 -13.580 1.00 67.00 O +ATOM 12218 CB LYS D 169 6.319 12.471 -12.718 1.00 74.72 C +ATOM 12219 CG LYS D 169 7.417 13.268 -12.036 1.00 77.45 C +ATOM 12220 CD LYS D 169 8.707 12.470 -11.951 1.00 82.58 C +ATOM 12221 CE LYS D 169 9.842 13.325 -11.413 1.00 87.06 C +ATOM 12222 NZ LYS D 169 10.222 14.407 -12.364 1.00 91.36 N +ATOM 12223 N VAL D 170 3.568 13.316 -14.630 1.00 70.98 N +ATOM 12224 CA VAL D 170 2.742 12.873 -15.745 1.00 71.07 C +ATOM 12225 C VAL D 170 3.566 13.077 -17.008 1.00 73.65 C +ATOM 12226 O VAL D 170 3.751 14.217 -17.454 1.00 74.89 O +ATOM 12227 CB VAL D 170 1.419 13.643 -15.816 1.00 73.25 C +ATOM 12228 CG1 VAL D 170 0.579 13.144 -16.964 1.00 72.43 C +ATOM 12229 CG2 VAL D 170 0.662 13.528 -14.500 1.00 69.52 C +ATOM 12230 N ASP D 171 4.060 11.981 -17.589 1.00 73.52 N +ATOM 12231 CA ASP D 171 4.963 12.047 -18.743 1.00 74.15 C +ATOM 12232 C ASP D 171 6.210 12.863 -18.411 1.00 75.36 C +ATOM 12233 O ASP D 171 6.651 13.703 -19.198 1.00 76.75 O +ATOM 12234 CB ASP D 171 4.261 12.597 -19.987 1.00 72.94 C +ATOM 12235 CG ASP D 171 3.166 11.681 -20.487 1.00 77.03 C +ATOM 12236 OD1 ASP D 171 3.092 10.532 -19.997 1.00 78.12 O +ATOM 12237 OD2 ASP D 171 2.392 12.097 -21.378 1.00 79.52 O +ATOM 12238 N ASN D 172 6.776 12.611 -17.230 1.00 73.87 N +ATOM 12239 CA ASN D 172 7.947 13.283 -16.672 1.00 74.64 C +ATOM 12240 C ASN D 172 7.704 14.761 -16.388 1.00 75.08 C +ATOM 12241 O ASN D 172 8.640 15.461 -15.980 1.00 79.77 O +ATOM 12242 CB ASN D 172 9.189 13.141 -17.565 1.00 70.92 C +ATOM 12243 CG ASN D 172 9.675 11.709 -17.660 1.00 71.47 C +ATOM 12244 OD1 ASN D 172 9.200 10.934 -18.491 1.00 71.69 O +ATOM 12245 ND2 ASN D 172 10.626 11.348 -16.805 1.00 71.76 N +ATOM 12246 N ALA D 173 6.487 15.261 -16.581 1.00 71.22 N +ATOM 12247 CA ALA D 173 6.160 16.649 -16.284 1.00 73.35 C +ATOM 12248 C ALA D 173 5.768 16.767 -14.816 1.00 76.07 C +ATOM 12249 O ALA D 173 4.846 16.084 -14.356 1.00 75.58 O +ATOM 12250 CB ALA D 173 5.032 17.144 -17.188 1.00 71.56 C +ATOM 12251 N LEU D 174 6.470 17.629 -14.086 1.00 76.86 N +ATOM 12252 CA LEU D 174 6.202 17.805 -12.666 1.00 75.78 C +ATOM 12253 C LEU D 174 4.856 18.491 -12.465 1.00 77.57 C +ATOM 12254 O LEU D 174 4.548 19.487 -13.126 1.00 79.27 O +ATOM 12255 CB LEU D 174 7.319 18.621 -12.017 1.00 78.10 C +ATOM 12256 CG LEU D 174 7.190 18.908 -10.521 1.00 80.78 C +ATOM 12257 CD1 LEU D 174 7.146 17.611 -9.728 1.00 79.92 C +ATOM 12258 CD2 LEU D 174 8.332 19.794 -10.045 1.00 84.58 C +ATOM 12259 N GLN D 175 4.055 17.954 -11.551 1.00 76.88 N +ATOM 12260 CA GLN D 175 2.736 18.488 -11.249 1.00 75.64 C +ATOM 12261 C GLN D 175 2.806 19.403 -10.032 1.00 78.51 C +ATOM 12262 O GLN D 175 3.657 19.236 -9.155 1.00 78.08 O +ATOM 12263 CB GLN D 175 1.739 17.357 -10.990 1.00 71.81 C +ATOM 12264 CG GLN D 175 1.645 16.334 -12.113 1.00 72.89 C +ATOM 12265 CD GLN D 175 1.097 16.919 -13.399 1.00 73.70 C +ATOM 12266 OE1 GLN D 175 0.014 17.503 -13.417 1.00 75.06 O +ATOM 12267 NE2 GLN D 175 1.844 16.761 -14.486 1.00 71.66 N +ATOM 12268 N SER D 176 1.898 20.376 -9.987 1.00 79.88 N +ATOM 12269 CA SER D 176 1.847 21.310 -8.871 1.00 83.06 C +ATOM 12270 C SER D 176 0.457 21.926 -8.792 1.00 83.24 C +ATOM 12271 O SER D 176 -0.112 22.317 -9.814 1.00 85.40 O +ATOM 12272 CB SER D 176 2.906 22.409 -9.015 1.00 87.90 C +ATOM 12273 OG SER D 176 2.671 23.197 -10.170 1.00 96.99 O +ATOM 12274 N GLY D 177 -0.078 22.005 -7.576 1.00 78.63 N +ATOM 12275 CA GLY D 177 -1.361 22.638 -7.346 1.00 76.73 C +ATOM 12276 C GLY D 177 -2.573 21.825 -7.736 1.00 78.94 C +ATOM 12277 O GLY D 177 -3.674 22.382 -7.801 1.00 82.37 O +ATOM 12278 N ASN D 178 -2.414 20.524 -7.994 1.00 77.50 N +ATOM 12279 CA ASN D 178 -3.534 19.676 -8.386 1.00 75.13 C +ATOM 12280 C ASN D 178 -3.554 18.363 -7.611 1.00 73.92 C +ATOM 12281 O ASN D 178 -4.120 17.375 -8.091 1.00 72.27 O +ATOM 12282 CB ASN D 178 -3.503 19.404 -9.893 1.00 77.07 C +ATOM 12283 CG ASN D 178 -2.199 18.778 -10.346 1.00 77.93 C +ATOM 12284 OD1 ASN D 178 -1.198 18.812 -9.630 1.00 75.57 O +ATOM 12285 ND2 ASN D 178 -2.203 18.207 -11.545 1.00 76.64 N +ATOM 12286 N SER D 179 -2.947 18.331 -6.426 1.00 72.59 N +ATOM 12287 CA SER D 179 -2.918 17.135 -5.598 1.00 67.67 C +ATOM 12288 C SER D 179 -3.119 17.528 -4.143 1.00 68.12 C +ATOM 12289 O SER D 179 -2.790 18.645 -3.733 1.00 70.30 O +ATOM 12290 CB SER D 179 -1.600 16.366 -5.758 1.00 64.60 C +ATOM 12291 OG SER D 179 -0.491 17.182 -5.423 1.00 63.33 O +ATOM 12292 N GLN D 180 -3.667 16.597 -3.366 1.00 63.47 N +ATOM 12293 CA GLN D 180 -3.924 16.818 -1.949 1.00 61.48 C +ATOM 12294 C GLN D 180 -3.468 15.612 -1.140 1.00 62.25 C +ATOM 12295 O GLN D 180 -3.706 14.467 -1.531 1.00 62.49 O +ATOM 12296 CB GLN D 180 -5.410 17.094 -1.691 1.00 63.12 C +ATOM 12297 CG GLN D 180 -5.874 18.457 -2.177 1.00 64.47 C +ATOM 12298 CD GLN D 180 -7.323 18.739 -1.834 1.00 63.63 C +ATOM 12299 OE1 GLN D 180 -7.683 19.864 -1.488 1.00 62.22 O +ATOM 12300 NE2 GLN D 180 -8.165 17.717 -1.935 1.00 65.82 N +ATOM 12301 N GLU D 181 -2.822 15.875 -0.007 1.00 63.48 N +ATOM 12302 CA GLU D 181 -2.284 14.829 0.851 1.00 62.17 C +ATOM 12303 C GLU D 181 -3.080 14.725 2.146 1.00 64.05 C +ATOM 12304 O GLU D 181 -3.632 15.711 2.641 1.00 64.41 O +ATOM 12305 CB GLU D 181 -0.810 15.089 1.178 1.00 66.12 C +ATOM 12306 CG GLU D 181 0.136 14.882 0.008 1.00 69.99 C +ATOM 12307 CD GLU D 181 1.593 14.988 0.415 1.00 78.14 C +ATOM 12308 OE1 GLU D 181 1.859 15.221 1.613 1.00 77.67 O +ATOM 12309 OE2 GLU D 181 2.470 14.838 -0.461 1.00 83.30 O +ATOM 12310 N SER D 182 -3.128 13.510 2.690 1.00 65.09 N +ATOM 12311 CA SER D 182 -3.763 13.260 3.978 1.00 61.00 C +ATOM 12312 C SER D 182 -3.000 12.155 4.691 1.00 60.54 C +ATOM 12313 O SER D 182 -2.805 11.076 4.126 1.00 62.42 O +ATOM 12314 CB SER D 182 -5.233 12.865 3.805 1.00 58.14 C +ATOM 12315 OG SER D 182 -5.851 12.637 5.059 1.00 62.53 O +ATOM 12316 N VAL D 183 -2.579 12.418 5.926 1.00 57.60 N +ATOM 12317 CA VAL D 183 -1.763 11.489 6.698 1.00 55.82 C +ATOM 12318 C VAL D 183 -2.544 11.049 7.930 1.00 56.23 C +ATOM 12319 O VAL D 183 -3.272 11.845 8.533 1.00 58.65 O +ATOM 12320 CB VAL D 183 -0.406 12.118 7.086 1.00 57.98 C +ATOM 12321 CG1 VAL D 183 -0.614 13.357 7.933 1.00 62.19 C +ATOM 12322 CG2 VAL D 183 0.482 11.106 7.800 1.00 55.94 C +ATOM 12323 N THR D 184 -2.408 9.774 8.287 1.00 53.63 N +ATOM 12324 CA THR D 184 -3.097 9.230 9.446 1.00 50.31 C +ATOM 12325 C THR D 184 -2.368 9.597 10.736 1.00 56.64 C +ATOM 12326 O THR D 184 -1.240 10.097 10.733 1.00 55.67 O +ATOM 12327 CB THR D 184 -3.208 7.708 9.348 1.00 50.82 C +ATOM 12328 OG1 THR D 184 -1.902 7.125 9.449 1.00 51.29 O +ATOM 12329 CG2 THR D 184 -3.844 7.294 8.037 1.00 51.36 C +ATOM 12330 N GLU D 185 -3.038 9.338 11.855 1.00 63.39 N +ATOM 12331 CA GLU D 185 -2.405 9.417 13.159 1.00 60.56 C +ATOM 12332 C GLU D 185 -1.531 8.188 13.382 1.00 57.13 C +ATOM 12333 O GLU D 185 -1.694 7.153 12.730 1.00 55.97 O +ATOM 12334 CB GLU D 185 -3.454 9.536 14.265 1.00 65.30 C +ATOM 12335 CG GLU D 185 -4.030 10.934 14.423 1.00 69.99 C +ATOM 12336 CD GLU D 185 -3.033 11.906 15.026 1.00 86.01 C +ATOM 12337 OE1 GLU D 185 -3.313 13.124 15.028 1.00 93.26 O +ATOM 12338 OE2 GLU D 185 -1.966 11.453 15.492 1.00 84.52 O +ATOM 12339 N GLN D 186 -0.582 8.319 14.307 1.00 56.81 N +ATOM 12340 CA GLN D 186 0.352 7.233 14.570 1.00 56.89 C +ATOM 12341 C GLN D 186 -0.393 5.978 15.004 1.00 56.09 C +ATOM 12342 O GLN D 186 -1.250 6.022 15.892 1.00 60.30 O +ATOM 12343 CB GLN D 186 1.360 7.649 15.641 1.00 58.27 C +ATOM 12344 CG GLN D 186 2.644 6.836 15.621 1.00 59.82 C +ATOM 12345 CD GLN D 186 3.724 7.432 16.500 1.00 60.66 C +ATOM 12346 OE1 GLN D 186 3.482 8.385 17.240 1.00 62.96 O +ATOM 12347 NE2 GLN D 186 4.928 6.878 16.415 1.00 57.94 N +ATOM 12348 N ASP D 187 -0.066 4.859 14.366 1.00 55.19 N +ATOM 12349 CA ASP D 187 -0.737 3.602 14.658 1.00 57.34 C +ATOM 12350 C ASP D 187 -0.371 3.120 16.056 1.00 62.09 C +ATOM 12351 O ASP D 187 0.781 3.215 16.485 1.00 62.78 O +ATOM 12352 CB ASP D 187 -0.355 2.548 13.616 1.00 60.79 C +ATOM 12353 CG ASP D 187 -1.227 1.299 13.682 1.00 69.73 C +ATOM 12354 OD1 ASP D 187 -1.678 0.919 14.782 1.00 67.45 O +ATOM 12355 OD2 ASP D 187 -1.457 0.689 12.616 1.00 76.87 O +ATOM 12356 N SER D 188 -1.367 2.603 16.769 1.00 68.48 N +ATOM 12357 CA SER D 188 -1.171 2.095 18.119 1.00 68.94 C +ATOM 12358 C SER D 188 -0.511 0.725 18.133 1.00 68.53 C +ATOM 12359 O SER D 188 -0.235 0.196 19.215 1.00 72.45 O +ATOM 12360 CB SER D 188 -2.509 2.029 18.860 1.00 66.16 C +ATOM 12361 OG SER D 188 -3.024 3.326 19.102 1.00 69.17 O +ATOM 12362 N LYS D 189 -0.250 0.143 16.961 1.00 70.36 N +ATOM 12363 CA LYS D 189 0.282 -1.210 16.859 1.00 72.54 C +ATOM 12364 C LYS D 189 1.771 -1.208 16.527 1.00 71.22 C +ATOM 12365 O LYS D 189 2.576 -1.793 17.257 1.00 70.21 O +ATOM 12366 CB LYS D 189 -0.498 -1.972 15.779 1.00 75.74 C +ATOM 12367 CG LYS D 189 -1.927 -2.334 16.161 1.00 84.29 C +ATOM 12368 CD LYS D 189 -2.014 -3.352 17.278 1.00 87.78 C +ATOM 12369 CE LYS D 189 -3.471 -3.599 17.640 1.00 91.97 C +ATOM 12370 NZ LYS D 189 -4.249 -4.126 16.482 1.00 95.24 N +ATOM 12371 N ASP D 190 2.152 -0.552 15.430 1.00 67.16 N +ATOM 12372 CA ASP D 190 3.541 -0.482 14.996 1.00 62.65 C +ATOM 12373 C ASP D 190 4.135 0.919 15.079 1.00 61.55 C +ATOM 12374 O ASP D 190 5.297 1.104 14.700 1.00 59.60 O +ATOM 12375 CB ASP D 190 3.677 -1.027 13.567 1.00 61.91 C +ATOM 12376 CG ASP D 190 2.796 -0.297 12.570 1.00 65.59 C +ATOM 12377 OD1 ASP D 190 2.163 0.713 12.945 1.00 65.21 O +ATOM 12378 OD2 ASP D 190 2.737 -0.735 11.402 1.00 62.82 O +ATOM 12379 N SER D 191 3.367 1.908 15.543 1.00 60.95 N +ATOM 12380 CA SER D 191 3.850 3.276 15.747 1.00 57.94 C +ATOM 12381 C SER D 191 4.279 3.934 14.437 1.00 57.38 C +ATOM 12382 O SER D 191 5.164 4.792 14.423 1.00 56.58 O +ATOM 12383 CB SER D 191 4.994 3.321 16.766 1.00 56.65 C +ATOM 12384 OG SER D 191 4.620 2.695 17.980 1.00 62.47 O +ATOM 12385 N THR D 192 3.655 3.541 13.330 1.00 58.42 N +ATOM 12386 CA THR D 192 3.972 4.057 12.006 1.00 56.83 C +ATOM 12387 C THR D 192 2.888 5.026 11.541 1.00 56.05 C +ATOM 12388 O THR D 192 1.893 5.269 12.230 1.00 54.93 O +ATOM 12389 CB THR D 192 4.138 2.913 11.004 1.00 58.06 C +ATOM 12390 OG1 THR D 192 2.894 2.216 10.860 1.00 57.71 O +ATOM 12391 CG2 THR D 192 5.212 1.945 11.474 1.00 57.17 C +ATOM 12392 N TYR D 193 3.096 5.584 10.350 1.00 55.95 N +ATOM 12393 CA TYR D 193 2.144 6.487 9.724 1.00 54.77 C +ATOM 12394 C TYR D 193 1.798 5.980 8.332 1.00 54.27 C +ATOM 12395 O TYR D 193 2.481 5.119 7.772 1.00 56.41 O +ATOM 12396 CB TYR D 193 2.690 7.918 9.613 1.00 55.23 C +ATOM 12397 CG TYR D 193 3.006 8.581 10.933 1.00 58.78 C +ATOM 12398 CD1 TYR D 193 2.014 9.217 11.667 1.00 58.97 C +ATOM 12399 CD2 TYR D 193 4.299 8.586 11.435 1.00 59.70 C +ATOM 12400 CE1 TYR D 193 2.300 9.830 12.871 1.00 62.77 C +ATOM 12401 CE2 TYR D 193 4.595 9.196 12.638 1.00 61.68 C +ATOM 12402 CZ TYR D 193 3.593 9.817 13.352 1.00 62.12 C +ATOM 12403 OH TYR D 193 3.886 10.425 14.550 1.00 61.41 O +ATOM 12404 N SER D 194 0.722 6.533 7.778 1.00 53.29 N +ATOM 12405 CA SER D 194 0.337 6.279 6.400 1.00 53.70 C +ATOM 12406 C SER D 194 -0.136 7.582 5.775 1.00 55.54 C +ATOM 12407 O SER D 194 -0.752 8.419 6.439 1.00 56.17 O +ATOM 12408 CB SER D 194 -0.762 5.212 6.300 1.00 54.39 C +ATOM 12409 OG SER D 194 -0.273 3.937 6.680 1.00 56.50 O +ATOM 12410 N LEU D 195 0.154 7.741 4.487 1.00 57.90 N +ATOM 12411 CA LEU D 195 -0.142 8.959 3.751 1.00 58.34 C +ATOM 12412 C LEU D 195 -0.814 8.594 2.436 1.00 59.10 C +ATOM 12413 O LEU D 195 -0.475 7.582 1.817 1.00 56.79 O +ATOM 12414 CB LEU D 195 1.141 9.769 3.502 1.00 58.71 C +ATOM 12415 CG LEU D 195 1.100 10.996 2.590 1.00 62.92 C +ATOM 12416 CD1 LEU D 195 0.076 12.003 3.081 1.00 67.01 C +ATOM 12417 CD2 LEU D 195 2.477 11.634 2.509 1.00 61.21 C +ATOM 12418 N SER D 196 -1.773 9.415 2.017 1.00 60.15 N +ATOM 12419 CA SER D 196 -2.458 9.239 0.743 1.00 61.36 C +ATOM 12420 C SER D 196 -2.423 10.560 -0.006 1.00 62.03 C +ATOM 12421 O SER D 196 -2.873 11.585 0.518 1.00 61.61 O +ATOM 12422 CB SER D 196 -3.903 8.770 0.943 1.00 58.86 C +ATOM 12423 OG SER D 196 -4.750 9.855 1.277 1.00 67.80 O +ATOM 12424 N SER D 197 -1.878 10.535 -1.219 1.00 61.96 N +ATOM 12425 CA SER D 197 -1.819 11.702 -2.090 1.00 61.58 C +ATOM 12426 C SER D 197 -2.731 11.461 -3.284 1.00 60.83 C +ATOM 12427 O SER D 197 -2.533 10.501 -4.038 1.00 58.55 O +ATOM 12428 CB SER D 197 -0.386 11.975 -2.547 1.00 58.95 C +ATOM 12429 OG SER D 197 -0.276 13.258 -3.139 1.00 61.51 O +ATOM 12430 N THR D 198 -3.728 12.324 -3.449 1.00 60.79 N +ATOM 12431 CA THR D 198 -4.720 12.205 -4.510 1.00 64.07 C +ATOM 12432 C THR D 198 -4.463 13.288 -5.548 1.00 65.58 C +ATOM 12433 O THR D 198 -4.488 14.482 -5.223 1.00 65.96 O +ATOM 12434 CB THR D 198 -6.139 12.323 -3.952 1.00 65.10 C +ATOM 12435 OG1 THR D 198 -6.326 11.360 -2.908 1.00 67.07 O +ATOM 12436 CG2 THR D 198 -7.163 12.080 -5.050 1.00 63.08 C +ATOM 12437 N LEU D 199 -4.193 12.865 -6.782 1.00 67.13 N +ATOM 12438 CA LEU D 199 -4.042 13.754 -7.926 1.00 69.59 C +ATOM 12439 C LEU D 199 -5.352 13.767 -8.703 1.00 69.30 C +ATOM 12440 O LEU D 199 -5.826 12.713 -9.143 1.00 67.65 O +ATOM 12441 CB LEU D 199 -2.892 13.292 -8.821 1.00 69.34 C +ATOM 12442 CG LEU D 199 -2.656 14.085 -10.107 1.00 66.57 C +ATOM 12443 CD1 LEU D 199 -1.981 15.406 -9.792 1.00 68.71 C +ATOM 12444 CD2 LEU D 199 -1.835 13.277 -11.099 1.00 64.33 C +ATOM 12445 N THR D 200 -5.929 14.953 -8.875 1.00 70.33 N +ATOM 12446 CA THR D 200 -7.237 15.112 -9.496 1.00 75.14 C +ATOM 12447 C THR D 200 -7.093 15.823 -10.835 1.00 75.71 C +ATOM 12448 O THR D 200 -6.507 16.909 -10.906 1.00 75.63 O +ATOM 12449 CB THR D 200 -8.183 15.897 -8.584 1.00 76.13 C +ATOM 12450 OG1 THR D 200 -8.176 15.316 -7.274 1.00 71.09 O +ATOM 12451 CG2 THR D 200 -9.601 15.867 -9.135 1.00 75.96 C +ATOM 12452 N LEU D 201 -7.628 15.208 -11.888 1.00 75.89 N +ATOM 12453 CA LEU D 201 -7.606 15.769 -13.230 1.00 79.83 C +ATOM 12454 C LEU D 201 -8.969 15.563 -13.874 1.00 81.72 C +ATOM 12455 O LEU D 201 -9.826 14.846 -13.352 1.00 81.48 O +ATOM 12456 CB LEU D 201 -6.513 15.126 -14.096 1.00 78.52 C +ATOM 12457 CG LEU D 201 -5.066 15.182 -13.604 1.00 75.03 C +ATOM 12458 CD1 LEU D 201 -4.180 14.299 -14.469 1.00 74.91 C +ATOM 12459 CD2 LEU D 201 -4.557 16.615 -13.599 1.00 74.07 C +ATOM 12460 N SER D 202 -9.166 16.199 -15.022 1.00 84.91 N +ATOM 12461 CA SER D 202 -10.340 15.929 -15.836 1.00 83.15 C +ATOM 12462 C SER D 202 -10.070 14.731 -16.740 1.00 83.06 C +ATOM 12463 O SER D 202 -8.920 14.393 -17.032 1.00 85.68 O +ATOM 12464 CB SER D 202 -10.718 17.151 -16.673 1.00 83.65 C +ATOM 12465 OG SER D 202 -9.686 17.487 -17.582 1.00 85.65 O +ATOM 12466 N LYS D 203 -11.152 14.071 -17.164 1.00 82.37 N +ATOM 12467 CA LYS D 203 -11.013 12.937 -18.074 1.00 84.73 C +ATOM 12468 C LYS D 203 -10.261 13.331 -19.340 1.00 89.15 C +ATOM 12469 O LYS D 203 -9.473 12.542 -19.874 1.00 87.67 O +ATOM 12470 CB LYS D 203 -12.385 12.358 -18.420 1.00 86.02 C +ATOM 12471 CG LYS D 203 -12.313 11.142 -19.333 1.00 92.54 C +ATOM 12472 CD LYS D 203 -13.685 10.547 -19.601 1.00100.55 C +ATOM 12473 CE LYS D 203 -13.581 9.325 -20.501 1.00105.20 C +ATOM 12474 NZ LYS D 203 -14.905 8.687 -20.738 1.00110.02 N +ATOM 12475 N ALA D 204 -10.491 14.550 -19.833 1.00 86.25 N +ATOM 12476 CA ALA D 204 -9.764 15.035 -21.002 1.00 88.52 C +ATOM 12477 C ALA D 204 -8.264 15.080 -20.733 1.00 88.92 C +ATOM 12478 O ALA D 204 -7.468 14.464 -21.453 1.00 91.08 O +ATOM 12479 CB ALA D 204 -10.286 16.415 -21.404 1.00 90.76 C +ATOM 12480 N ASP D 205 -7.860 15.812 -19.691 1.00 88.66 N +ATOM 12481 CA ASP D 205 -6.442 15.911 -19.360 1.00 90.94 C +ATOM 12482 C ASP D 205 -5.856 14.555 -18.989 1.00 87.64 C +ATOM 12483 O ASP D 205 -4.670 14.306 -19.236 1.00 87.26 O +ATOM 12484 CB ASP D 205 -6.232 16.909 -18.221 1.00 90.93 C +ATOM 12485 CG ASP D 205 -6.558 18.333 -18.627 1.00 97.02 C +ATOM 12486 OD1 ASP D 205 -7.064 18.532 -19.752 1.00102.43 O +ATOM 12487 OD2 ASP D 205 -6.304 19.255 -17.823 1.00100.48 O +ATOM 12488 N TYR D 206 -6.661 13.670 -18.397 1.00 85.09 N +ATOM 12489 CA TYR D 206 -6.156 12.352 -18.030 1.00 83.77 C +ATOM 12490 C TYR D 206 -5.861 11.512 -19.267 1.00 83.51 C +ATOM 12491 O TYR D 206 -4.770 10.945 -19.400 1.00 80.67 O +ATOM 12492 CB TYR D 206 -7.148 11.633 -17.116 1.00 79.09 C +ATOM 12493 CG TYR D 206 -6.718 10.225 -16.775 1.00 73.79 C +ATOM 12494 CD1 TYR D 206 -5.672 9.993 -15.892 1.00 70.00 C +ATOM 12495 CD2 TYR D 206 -7.351 9.127 -17.343 1.00 73.86 C +ATOM 12496 CE1 TYR D 206 -5.270 8.709 -15.581 1.00 69.24 C +ATOM 12497 CE2 TYR D 206 -6.958 7.838 -17.037 1.00 73.33 C +ATOM 12498 CZ TYR D 206 -5.917 7.635 -16.156 1.00 70.87 C +ATOM 12499 OH TYR D 206 -5.521 6.354 -15.848 1.00 67.82 O +ATOM 12500 N GLU D 207 -6.824 11.419 -20.186 1.00 85.92 N +ATOM 12501 CA GLU D 207 -6.606 10.675 -21.420 1.00 86.88 C +ATOM 12502 C GLU D 207 -5.641 11.376 -22.365 1.00 85.26 C +ATOM 12503 O GLU D 207 -5.220 10.769 -23.355 1.00 82.82 O +ATOM 12504 CB GLU D 207 -7.938 10.426 -22.130 1.00 87.74 C +ATOM 12505 CG GLU D 207 -8.900 9.547 -21.349 1.00 91.92 C +ATOM 12506 CD GLU D 207 -10.229 9.364 -22.055 1.00101.61 C +ATOM 12507 OE1 GLU D 207 -10.539 10.167 -22.960 1.00102.61 O +ATOM 12508 OE2 GLU D 207 -10.961 8.414 -21.706 1.00106.32 O +ATOM 12509 N LYS D 208 -5.281 12.631 -22.086 1.00 86.64 N +ATOM 12510 CA LYS D 208 -4.320 13.331 -22.928 1.00 86.71 C +ATOM 12511 C LYS D 208 -2.896 12.825 -22.732 1.00 85.86 C +ATOM 12512 O LYS D 208 -2.060 13.010 -23.623 1.00 95.08 O +ATOM 12513 CB LYS D 208 -4.387 14.835 -22.651 1.00 91.93 C +ATOM 12514 CG LYS D 208 -4.288 15.703 -23.894 1.00100.67 C +ATOM 12515 CD LYS D 208 -4.528 17.167 -23.562 1.00105.10 C +ATOM 12516 CE LYS D 208 -5.981 17.411 -23.179 1.00108.07 C +ATOM 12517 NZ LYS D 208 -6.246 18.843 -22.867 1.00111.71 N +ATOM 12518 N HIS D 209 -2.601 12.196 -21.598 1.00 86.11 N +ATOM 12519 CA HIS D 209 -1.266 11.705 -21.289 1.00 81.84 C +ATOM 12520 C HIS D 209 -1.303 10.204 -21.018 1.00 79.62 C +ATOM 12521 O HIS D 209 -2.370 9.587 -20.944 1.00 77.46 O +ATOM 12522 CB HIS D 209 -0.671 12.451 -20.092 1.00 80.63 C +ATOM 12523 CG HIS D 209 -0.542 13.928 -20.301 1.00 84.29 C +ATOM 12524 ND1 HIS D 209 -1.611 14.791 -20.193 1.00 86.45 N +ATOM 12525 CD2 HIS D 209 0.531 14.695 -20.609 1.00 87.55 C +ATOM 12526 CE1 HIS D 209 -1.203 16.026 -20.427 1.00 91.03 C +ATOM 12527 NE2 HIS D 209 0.093 15.995 -20.682 1.00 96.59 N +ATOM 12528 N LYS D 210 -0.112 9.620 -20.856 1.00 77.16 N +ATOM 12529 CA LYS D 210 0.039 8.170 -20.753 1.00 76.92 C +ATOM 12530 C LYS D 210 0.597 7.722 -19.410 1.00 75.56 C +ATOM 12531 O LYS D 210 -0.028 6.898 -18.734 1.00 75.66 O +ATOM 12532 CB LYS D 210 0.941 7.648 -21.878 1.00 76.36 C +ATOM 12533 CG LYS D 210 1.164 6.143 -21.811 1.00 77.02 C +ATOM 12534 CD LYS D 210 2.144 5.665 -22.865 1.00 81.00 C +ATOM 12535 CE LYS D 210 2.401 4.172 -22.735 1.00 87.29 C +ATOM 12536 NZ LYS D 210 3.389 3.686 -23.736 1.00 89.19 N +ATOM 12537 N VAL D 211 1.754 8.231 -18.999 1.00 74.56 N +ATOM 12538 CA VAL D 211 2.453 7.720 -17.826 1.00 74.28 C +ATOM 12539 C VAL D 211 2.082 8.565 -16.619 1.00 69.54 C +ATOM 12540 O VAL D 211 2.133 9.800 -16.674 1.00 68.70 O +ATOM 12541 CB VAL D 211 3.975 7.727 -18.047 1.00 74.37 C +ATOM 12542 CG1 VAL D 211 4.689 7.078 -16.869 1.00 68.30 C +ATOM 12543 CG2 VAL D 211 4.335 7.038 -19.355 1.00 68.67 C +ATOM 12544 N TYR D 212 1.717 7.901 -15.525 1.00 68.61 N +ATOM 12545 CA TYR D 212 1.389 8.574 -14.275 1.00 67.77 C +ATOM 12546 C TYR D 212 2.202 7.928 -13.167 1.00 66.48 C +ATOM 12547 O TYR D 212 2.128 6.710 -12.972 1.00 66.38 O +ATOM 12548 CB TYR D 212 -0.112 8.492 -13.984 1.00 64.30 C +ATOM 12549 CG TYR D 212 -0.938 9.287 -14.965 1.00 68.95 C +ATOM 12550 CD1 TYR D 212 -1.251 8.771 -16.216 1.00 70.54 C +ATOM 12551 CD2 TYR D 212 -1.390 10.560 -14.649 1.00 69.90 C +ATOM 12552 CE1 TYR D 212 -1.995 9.498 -17.121 1.00 73.07 C +ATOM 12553 CE2 TYR D 212 -2.138 11.295 -15.548 1.00 71.25 C +ATOM 12554 CZ TYR D 212 -2.436 10.758 -16.782 1.00 73.92 C +ATOM 12555 OH TYR D 212 -3.177 11.483 -17.682 1.00 79.01 O +ATOM 12556 N ALA D 213 2.969 8.740 -12.441 1.00 63.50 N +ATOM 12557 CA ALA D 213 3.883 8.231 -11.435 1.00 63.70 C +ATOM 12558 C ALA D 213 3.869 9.132 -10.212 1.00 64.96 C +ATOM 12559 O ALA D 213 3.668 10.346 -10.315 1.00 63.87 O +ATOM 12560 CB ALA D 213 5.315 8.137 -11.975 1.00 63.23 C +ATOM 12561 N CYS D 214 4.095 8.524 -9.052 1.00 66.95 N +ATOM 12562 CA CYS D 214 4.403 9.264 -7.838 1.00 64.85 C +ATOM 12563 C CYS D 214 5.800 8.881 -7.371 1.00 65.61 C +ATOM 12564 O CYS D 214 6.138 7.692 -7.293 1.00 62.90 O +ATOM 12565 CB CYS D 214 3.365 9.033 -6.731 1.00 62.76 C +ATOM 12566 SG CYS D 214 2.981 7.332 -6.262 1.00 74.47 S +ATOM 12567 N GLU D 215 6.608 9.902 -7.096 1.00 66.44 N +ATOM 12568 CA GLU D 215 7.975 9.760 -6.617 1.00 69.67 C +ATOM 12569 C GLU D 215 7.997 10.134 -5.142 1.00 66.04 C +ATOM 12570 O GLU D 215 7.576 11.236 -4.770 1.00 64.06 O +ATOM 12571 CB GLU D 215 8.921 10.650 -7.424 1.00 73.49 C +ATOM 12572 CG GLU D 215 10.397 10.414 -7.170 1.00 78.98 C +ATOM 12573 CD GLU D 215 11.276 11.263 -8.068 1.00 93.81 C +ATOM 12574 OE1 GLU D 215 10.848 12.377 -8.438 1.00 91.34 O +ATOM 12575 OE2 GLU D 215 12.392 10.818 -8.409 1.00104.34 O +ATOM 12576 N VAL D 216 8.482 9.216 -4.310 1.00 64.01 N +ATOM 12577 CA VAL D 216 8.454 9.349 -2.861 1.00 62.33 C +ATOM 12578 C VAL D 216 9.883 9.438 -2.352 1.00 59.71 C +ATOM 12579 O VAL D 216 10.740 8.633 -2.740 1.00 58.58 O +ATOM 12580 CB VAL D 216 7.718 8.168 -2.202 1.00 60.20 C +ATOM 12581 CG1 VAL D 216 7.855 8.237 -0.693 1.00 57.65 C +ATOM 12582 CG2 VAL D 216 6.256 8.162 -2.618 1.00 63.57 C +ATOM 12583 N THR D 217 10.139 10.425 -1.497 1.00 56.85 N +ATOM 12584 CA THR D 217 11.392 10.531 -0.766 1.00 57.73 C +ATOM 12585 C THR D 217 11.098 10.553 0.724 1.00 58.29 C +ATOM 12586 O THR D 217 10.108 11.143 1.166 1.00 58.19 O +ATOM 12587 CB THR D 217 12.177 11.784 -1.149 1.00 55.07 C +ATOM 12588 OG1 THR D 217 11.387 12.946 -0.874 1.00 57.22 O +ATOM 12589 CG2 THR D 217 12.552 11.752 -2.614 1.00 59.32 C +ATOM 12590 N HIS D 218 11.946 9.886 1.493 1.00 58.19 N +ATOM 12591 CA HIS D 218 11.713 9.745 2.918 1.00 57.60 C +ATOM 12592 C HIS D 218 13.057 9.582 3.588 1.00 58.60 C +ATOM 12593 O HIS D 218 14.029 9.150 2.965 1.00 61.45 O +ATOM 12594 CB HIS D 218 10.808 8.534 3.203 1.00 56.94 C +ATOM 12595 CG HIS D 218 10.454 8.334 4.646 1.00 56.24 C +ATOM 12596 ND1 HIS D 218 10.899 7.254 5.382 1.00 56.49 N +ATOM 12597 CD2 HIS D 218 9.686 9.067 5.485 1.00 56.26 C +ATOM 12598 CE1 HIS D 218 10.410 7.326 6.607 1.00 54.72 C +ATOM 12599 NE2 HIS D 218 9.675 8.419 6.696 1.00 53.65 N +ATOM 12600 N GLN D 219 13.097 9.906 4.877 1.00 57.57 N +ATOM 12601 CA GLN D 219 14.308 9.652 5.638 1.00 58.15 C +ATOM 12602 C GLN D 219 14.678 8.167 5.526 1.00 58.29 C +ATOM 12603 O GLN D 219 15.837 7.801 5.700 1.00 57.80 O +ATOM 12604 CB GLN D 219 14.126 10.047 7.102 1.00 56.83 C +ATOM 12605 CG GLN D 219 15.327 9.816 8.001 1.00 54.94 C +ATOM 12606 CD GLN D 219 15.072 10.262 9.447 1.00 56.89 C +ATOM 12607 OE1 GLN D 219 14.303 11.192 9.693 1.00 55.13 O +ATOM 12608 NE2 GLN D 219 15.725 9.598 10.406 1.00 55.36 N +ATOM 12609 N GLY D 220 13.724 7.291 5.194 1.00 61.34 N +ATOM 12610 CA GLY D 220 13.963 5.867 5.058 1.00 63.15 C +ATOM 12611 C GLY D 220 14.238 5.378 3.656 1.00 69.71 C +ATOM 12612 O GLY D 220 14.051 4.183 3.415 1.00 68.26 O +ATOM 12613 N LEU D 221 14.542 6.258 2.692 1.00 63.81 N +ATOM 12614 CA LEU D 221 14.823 5.846 1.311 1.00 60.64 C +ATOM 12615 C LEU D 221 16.221 6.301 0.913 1.00 63.29 C +ATOM 12616 O LEU D 221 16.471 7.505 0.799 1.00 61.99 O +ATOM 12617 CB LEU D 221 13.775 6.392 0.338 1.00 60.91 C +ATOM 12618 CG LEU D 221 12.427 5.755 0.684 1.00 55.07 C +ATOM 12619 CD1 LEU D 221 11.292 6.297 -0.162 1.00 56.67 C +ATOM 12620 CD2 LEU D 221 12.467 4.214 0.608 1.00 47.72 C +ATOM 12621 N SER D 222 17.132 5.344 0.706 1.00 61.36 N +ATOM 12622 CA SER D 222 18.481 5.687 0.266 1.00 63.98 C +ATOM 12623 C SER D 222 18.471 6.313 -1.119 1.00 63.13 C +ATOM 12624 O SER D 222 19.489 6.870 -1.542 1.00 62.80 O +ATOM 12625 CB SER D 222 19.385 4.447 0.267 1.00 62.16 C +ATOM 12626 OG SER D 222 18.961 3.484 -0.688 1.00 67.13 O +ATOM 12627 N SER D 223 17.355 6.207 -1.833 1.00 62.40 N +ATOM 12628 CA SER D 223 17.138 6.863 -3.113 1.00 63.21 C +ATOM 12629 C SER D 223 15.636 6.969 -3.329 1.00 63.87 C +ATOM 12630 O SER D 223 14.869 6.198 -2.737 1.00 61.30 O +ATOM 12631 CB SER D 223 17.804 6.086 -4.261 1.00 65.22 C +ATOM 12632 OG SER D 223 17.359 4.742 -4.298 1.00 73.58 O +ATOM 12633 N PRO D 224 15.178 7.922 -4.144 1.00 61.29 N +ATOM 12634 CA PRO D 224 13.731 8.086 -4.326 1.00 59.46 C +ATOM 12635 C PRO D 224 13.101 6.822 -4.891 1.00 59.46 C +ATOM 12636 O PRO D 224 13.705 6.101 -5.687 1.00 61.84 O +ATOM 12637 CB PRO D 224 13.623 9.256 -5.312 1.00 61.24 C +ATOM 12638 CG PRO D 224 14.904 9.998 -5.160 1.00 63.55 C +ATOM 12639 CD PRO D 224 15.944 8.965 -4.849 1.00 61.09 C +ATOM 12640 N VAL D 225 11.870 6.556 -4.463 1.00 61.57 N +ATOM 12641 CA VAL D 225 11.110 5.392 -4.907 1.00 60.26 C +ATOM 12642 C VAL D 225 9.981 5.879 -5.800 1.00 64.50 C +ATOM 12643 O VAL D 225 9.108 6.633 -5.354 1.00 65.26 O +ATOM 12644 CB VAL D 225 10.564 4.582 -3.721 1.00 58.17 C +ATOM 12645 CG1 VAL D 225 9.537 3.568 -4.203 1.00 58.60 C +ATOM 12646 CG2 VAL D 225 11.699 3.886 -2.989 1.00 57.04 C +ATOM 12647 N THR D 226 9.993 5.455 -7.057 1.00 64.36 N +ATOM 12648 CA THR D 226 8.998 5.876 -8.031 1.00 64.11 C +ATOM 12649 C THR D 226 8.067 4.712 -8.331 1.00 63.83 C +ATOM 12650 O THR D 226 8.527 3.615 -8.667 1.00 64.61 O +ATOM 12651 CB THR D 226 9.661 6.368 -9.320 1.00 68.14 C +ATOM 12652 OG1 THR D 226 10.616 7.391 -9.009 1.00 72.10 O +ATOM 12653 CG2 THR D 226 8.619 6.927 -10.276 1.00 64.93 C +ATOM 12654 N LYS D 227 6.764 4.948 -8.202 1.00 66.11 N +ATOM 12655 CA LYS D 227 5.753 3.972 -8.589 1.00 66.78 C +ATOM 12656 C LYS D 227 4.905 4.575 -9.696 1.00 65.50 C +ATOM 12657 O LYS D 227 4.355 5.669 -9.533 1.00 63.84 O +ATOM 12658 CB LYS D 227 4.879 3.565 -7.398 1.00 66.15 C +ATOM 12659 CG LYS D 227 5.563 2.644 -6.394 1.00 67.03 C +ATOM 12660 CD LYS D 227 5.722 1.229 -6.931 1.00 68.87 C +ATOM 12661 CE LYS D 227 6.206 0.276 -5.844 1.00 69.65 C +ATOM 12662 NZ LYS D 227 7.637 0.489 -5.491 1.00 75.43 N +ATOM 12663 N SER D 228 4.792 3.858 -10.812 1.00 65.07 N +ATOM 12664 CA SER D 228 4.196 4.414 -12.017 1.00 65.85 C +ATOM 12665 C SER D 228 3.268 3.397 -12.664 1.00 64.98 C +ATOM 12666 O SER D 228 3.279 2.206 -12.340 1.00 64.83 O +ATOM 12667 CB SER D 228 5.271 4.843 -13.024 1.00 65.57 C +ATOM 12668 OG SER D 228 5.991 3.726 -13.515 1.00 71.31 O +ATOM 12669 N PHE D 229 2.460 3.896 -13.595 1.00 68.51 N +ATOM 12670 CA PHE D 229 1.629 3.048 -14.432 1.00 70.37 C +ATOM 12671 C PHE D 229 1.370 3.765 -15.746 1.00 72.54 C +ATOM 12672 O PHE D 229 1.318 4.998 -15.808 1.00 70.38 O +ATOM 12673 CB PHE D 229 0.304 2.665 -13.753 1.00 67.96 C +ATOM 12674 CG PHE D 229 -0.688 3.792 -13.649 1.00 68.10 C +ATOM 12675 CD1 PHE D 229 -1.596 4.038 -14.669 1.00 68.31 C +ATOM 12676 CD2 PHE D 229 -0.724 4.592 -12.524 1.00 69.28 C +ATOM 12677 CE1 PHE D 229 -2.511 5.071 -14.569 1.00 67.28 C +ATOM 12678 CE2 PHE D 229 -1.637 5.624 -12.417 1.00 68.61 C +ATOM 12679 CZ PHE D 229 -2.531 5.864 -13.441 1.00 66.33 C +ATOM 12680 N ASN D 230 1.192 2.972 -16.794 1.00 76.81 N +ATOM 12681 CA ASN D 230 0.825 3.493 -18.100 1.00 76.80 C +ATOM 12682 C ASN D 230 -0.688 3.446 -18.255 1.00 78.77 C +ATOM 12683 O ASN D 230 -1.316 2.423 -17.961 1.00 80.93 O +ATOM 12684 CB ASN D 230 1.505 2.686 -19.206 1.00 80.19 C +ATOM 12685 CG ASN D 230 2.994 2.956 -19.280 1.00 81.68 C +ATOM 12686 OD1 ASN D 230 3.415 4.052 -19.647 1.00 80.35 O +ATOM 12687 ND2 ASN D 230 3.798 1.955 -18.951 1.00 85.65 N +ATOM 12688 N ARG D 231 -1.266 4.559 -18.702 1.00 77.76 N +ATOM 12689 CA ARG D 231 -2.711 4.645 -18.866 1.00 80.60 C +ATOM 12690 C ARG D 231 -3.223 3.553 -19.800 1.00 85.99 C +ATOM 12691 O ARG D 231 -2.649 3.294 -20.862 1.00 85.70 O +ATOM 12692 CB ARG D 231 -3.105 6.023 -19.401 1.00 79.10 C +ATOM 12693 CG ARG D 231 -4.598 6.186 -19.647 1.00 80.16 C +ATOM 12694 CD ARG D 231 -4.952 7.629 -19.967 1.00 80.83 C +ATOM 12695 NE ARG D 231 -4.400 8.036 -21.256 1.00 85.48 N +ATOM 12696 CZ ARG D 231 -4.893 7.672 -22.436 1.00 85.00 C +ATOM 12697 NH1 ARG D 231 -5.961 6.890 -22.503 1.00 84.60 N +ATOM 12698 NH2 ARG D 231 -4.312 8.093 -23.552 1.00 86.68 N +ATOM 12699 N GLY D 232 -4.312 2.905 -19.393 1.00 87.20 N +ATOM 12700 CA GLY D 232 -4.936 1.882 -20.206 1.00 92.08 C +ATOM 12701 C GLY D 232 -4.107 0.630 -20.395 1.00 98.99 C +ATOM 12702 O GLY D 232 -3.971 0.135 -21.518 1.00112.08 O +ATOM 12703 N GLU D 233 -3.548 0.106 -19.308 1.00100.77 N +ATOM 12704 CA GLU D 233 -2.736 -1.105 -19.368 1.00102.17 C +ATOM 12705 C GLU D 233 -2.949 -1.957 -18.121 1.00101.29 C +ATOM 12706 O GLU D 233 -2.473 -3.089 -18.043 1.00101.71 O +ATOM 12707 CB GLU D 233 -1.252 -0.763 -19.526 1.00101.71 C +ATOM 12708 CG GLU D 233 -0.865 -0.282 -20.916 1.00101.23 C +ATOM 12709 CD GLU D 233 0.632 -0.119 -21.081 1.00100.43 C +ATOM 12710 OE1 GLU D 233 1.377 -0.484 -20.147 1.00 99.95 O +ATOM 12711 OE2 GLU D 233 1.063 0.375 -22.144 1.00102.14 O +ATOM 12712 N GLU E 1 50.875 18.159 6.910 1.00119.90 N +ATOM 12713 CA GLU E 1 49.564 18.133 6.272 1.00112.39 C +ATOM 12714 C GLU E 1 49.226 19.487 5.658 1.00106.80 C +ATOM 12715 O GLU E 1 49.942 20.468 5.861 1.00108.35 O +ATOM 12716 CB GLU E 1 48.486 17.728 7.280 1.00108.13 C +ATOM 12717 N VAL E 2 48.127 19.533 4.903 1.00104.49 N +ATOM 12718 CA VAL E 2 47.695 20.781 4.288 1.00103.88 C +ATOM 12719 C VAL E 2 47.122 21.700 5.357 1.00104.96 C +ATOM 12720 O VAL E 2 46.403 21.260 6.264 1.00107.37 O +ATOM 12721 CB VAL E 2 46.667 20.501 3.178 1.00 98.42 C +ATOM 12722 CG1 VAL E 2 46.231 21.795 2.508 1.00 96.90 C +ATOM 12723 CG2 VAL E 2 47.244 19.532 2.156 1.00 98.10 C +ATOM 12724 N GLN E 3 47.438 22.990 5.255 1.00102.44 N +ATOM 12725 CA GLN E 3 46.980 23.982 6.215 1.00103.34 C +ATOM 12726 C GLN E 3 46.607 25.265 5.491 1.00100.01 C +ATOM 12727 O GLN E 3 47.332 25.721 4.603 1.00102.83 O +ATOM 12728 CB GLN E 3 48.051 24.287 7.272 1.00107.63 C +ATOM 12729 CG GLN E 3 48.416 23.116 8.168 1.00110.73 C +ATOM 12730 CD GLN E 3 49.492 23.472 9.175 1.00114.76 C +ATOM 12731 OE1 GLN E 3 49.212 24.059 10.220 1.00118.48 O +ATOM 12732 NE2 GLN E 3 50.734 23.121 8.862 1.00117.64 N +ATOM 12733 N LEU E 4 45.465 25.834 5.869 1.00 97.53 N +ATOM 12734 CA LEU E 4 45.017 27.134 5.372 1.00 98.62 C +ATOM 12735 C LEU E 4 44.715 27.986 6.600 1.00102.68 C +ATOM 12736 O LEU E 4 43.620 27.907 7.165 1.00110.09 O +ATOM 12737 CB LEU E 4 43.798 27.018 4.456 1.00 93.24 C +ATOM 12738 CG LEU E 4 43.909 26.296 3.107 1.00 96.36 C +ATOM 12739 CD1 LEU E 4 44.034 24.783 3.249 1.00 94.62 C +ATOM 12740 CD2 LEU E 4 42.730 26.659 2.212 1.00 91.03 C +ATOM 12741 N GLN E 5 45.684 28.800 7.009 1.00102.57 N +ATOM 12742 CA GLN E 5 45.551 29.621 8.206 1.00 98.91 C +ATOM 12743 C GLN E 5 45.022 30.997 7.826 1.00 98.98 C +ATOM 12744 O GLN E 5 45.644 31.713 7.035 1.00101.24 O +ATOM 12745 CB GLN E 5 46.886 29.739 8.938 1.00105.25 C +ATOM 12746 CG GLN E 5 47.061 28.722 10.052 1.00108.98 C +ATOM 12747 CD GLN E 5 46.147 28.997 11.232 1.00110.38 C +ATOM 12748 OE1 GLN E 5 45.950 30.148 11.624 1.00107.41 O +ATOM 12749 NE2 GLN E 5 45.578 27.940 11.801 1.00113.16 N +ATOM 12750 N GLN E 6 43.865 31.349 8.372 1.00 96.08 N +ATOM 12751 CA GLN E 6 43.222 32.625 8.111 1.00 92.99 C +ATOM 12752 C GLN E 6 43.519 33.614 9.232 1.00 91.89 C +ATOM 12753 O GLN E 6 43.893 33.236 10.346 1.00 94.44 O +ATOM 12754 CB GLN E 6 41.711 32.437 7.962 1.00 90.95 C +ATOM 12755 CG GLN E 6 41.321 31.408 6.920 1.00 89.12 C +ATOM 12756 CD GLN E 6 39.826 31.347 6.680 1.00 84.79 C +ATOM 12757 OE1 GLN E 6 39.224 30.273 6.708 1.00 82.28 O +ATOM 12758 NE2 GLN E 6 39.218 32.502 6.433 1.00 81.76 N +ATOM 12759 N SER E 7 43.352 34.896 8.918 1.00 87.45 N +ATOM 12760 CA SER E 7 43.551 35.946 9.904 1.00 90.32 C +ATOM 12761 C SER E 7 42.506 35.839 11.015 1.00 92.56 C +ATOM 12762 O SER E 7 41.531 35.089 10.925 1.00 92.58 O +ATOM 12763 CB SER E 7 43.492 37.322 9.240 1.00 89.23 C +ATOM 12764 OG SER E 7 42.249 37.521 8.589 1.00 92.25 O +ATOM 12765 N GLY E 8 42.724 36.600 12.085 1.00 93.29 N +ATOM 12766 CA GLY E 8 41.818 36.581 13.207 1.00 95.48 C +ATOM 12767 C GLY E 8 40.543 37.346 12.926 1.00 95.81 C +ATOM 12768 O GLY E 8 40.348 37.937 11.854 1.00 93.68 O +ATOM 12769 N PRO E 9 39.642 37.337 13.905 1.00 93.19 N +ATOM 12770 CA PRO E 9 38.377 38.063 13.752 1.00 92.18 C +ATOM 12771 C PRO E 9 38.617 39.562 13.680 1.00 90.69 C +ATOM 12772 O PRO E 9 39.618 40.085 14.176 1.00 92.69 O +ATOM 12773 CB PRO E 9 37.594 37.684 15.011 1.00 94.07 C +ATOM 12774 CG PRO E 9 38.651 37.341 16.013 1.00 96.20 C +ATOM 12775 CD PRO E 9 39.764 36.706 15.230 1.00 92.24 C +ATOM 12776 N GLU E 11 37.674 40.264 13.054 1.00 91.08 N +ATOM 12777 CA GLU E 11 37.844 41.693 12.828 1.00 95.58 C +ATOM 12778 C GLU E 11 36.578 42.461 13.181 1.00 97.05 C +ATOM 12779 O GLU E 11 35.463 41.968 12.981 1.00 95.92 O +ATOM 12780 CB GLU E 11 38.240 41.982 11.373 1.00 98.13 C +ATOM 12781 CG GLU E 11 39.266 43.102 11.220 1.00 98.51 C +ATOM 12782 CD GLU E 11 40.653 42.697 11.691 1.00102.66 C +ATOM 12783 OE1 GLU E 11 40.925 41.481 11.779 1.00105.46 O +ATOM 12784 OE2 GLU E 11 41.474 43.597 11.973 1.00 99.66 O +ATOM 12785 N LEU E 12 36.770 43.663 13.726 1.00 98.25 N +ATOM 12786 CA LEU E 12 35.708 44.636 13.949 1.00 99.33 C +ATOM 12787 C LEU E 12 36.008 45.882 13.126 1.00100.79 C +ATOM 12788 O LEU E 12 37.118 46.420 13.190 1.00100.51 O +ATOM 12789 CB LEU E 12 35.585 45.002 15.432 1.00103.21 C +ATOM 12790 CG LEU E 12 34.613 46.137 15.774 1.00108.16 C +ATOM 12791 CD1 LEU E 12 33.200 45.822 15.302 1.00107.68 C +ATOM 12792 CD2 LEU E 12 34.631 46.445 17.264 1.00112.83 C +ATOM 12793 N VAL E 13 35.015 46.338 12.362 1.00102.85 N +ATOM 12794 CA VAL E 13 35.187 47.430 11.410 1.00106.64 C +ATOM 12795 C VAL E 13 33.941 48.308 11.448 1.00110.95 C +ATOM 12796 O VAL E 13 32.837 47.836 11.731 1.00111.89 O +ATOM 12797 CB VAL E 13 35.463 46.896 9.977 1.00105.47 C +ATOM 12798 CG1 VAL E 13 35.505 48.024 8.955 1.00105.32 C +ATOM 12799 CG2 VAL E 13 36.771 46.115 9.935 1.00 98.94 C +ATOM 12800 N LYS E 14 34.125 49.607 11.177 1.00113.82 N +ATOM 12801 CA LYS E 14 33.003 50.532 11.142 1.00117.34 C +ATOM 12802 C LYS E 14 32.234 50.407 9.826 1.00116.94 C +ATOM 12803 O LYS E 14 32.804 50.026 8.799 1.00115.86 O +ATOM 12804 CB LYS E 14 33.493 51.967 11.311 1.00122.11 C +ATOM 12805 CG LYS E 14 34.238 52.231 12.610 1.00125.31 C +ATOM 12806 CD LYS E 14 33.338 52.037 13.819 1.00127.36 C +ATOM 12807 CE LYS E 14 34.037 52.467 15.098 1.00128.73 C +ATOM 12808 NZ LYS E 14 34.395 53.913 15.073 1.00124.64 N +ATOM 12809 N PRO E 15 30.933 50.706 9.838 1.00118.53 N +ATOM 12810 CA PRO E 15 30.149 50.654 8.596 1.00120.72 C +ATOM 12811 C PRO E 15 30.695 51.600 7.536 1.00123.11 C +ATOM 12812 O PRO E 15 31.149 52.706 7.835 1.00128.96 O +ATOM 12813 CB PRO E 15 28.743 51.066 9.047 1.00117.54 C +ATOM 12814 CG PRO E 15 28.699 50.728 10.497 1.00122.91 C +ATOM 12815 CD PRO E 15 30.088 50.967 11.015 1.00119.99 C +ATOM 12816 N GLY E 16 30.643 51.148 6.283 1.00120.55 N +ATOM 12817 CA GLY E 16 31.145 51.905 5.161 1.00118.59 C +ATOM 12818 C GLY E 16 32.620 51.722 4.875 1.00120.79 C +ATOM 12819 O GLY E 16 33.050 51.953 3.739 1.00121.49 O +ATOM 12820 N ALA E 17 33.404 51.315 5.868 1.00120.69 N +ATOM 12821 CA ALA E 17 34.834 51.101 5.691 1.00115.89 C +ATOM 12822 C ALA E 17 35.071 49.776 4.969 1.00110.64 C +ATOM 12823 O ALA E 17 34.141 49.120 4.491 1.00111.84 O +ATOM 12824 CB ALA E 17 35.548 51.159 7.039 1.00113.80 C +ATOM 12825 N SER E 18 36.332 49.365 4.884 1.00108.73 N +ATOM 12826 CA SER E 18 36.726 48.171 4.155 1.00107.32 C +ATOM 12827 C SER E 18 37.492 47.231 5.076 1.00101.34 C +ATOM 12828 O SER E 18 38.017 47.635 6.117 1.00101.04 O +ATOM 12829 CB SER E 18 37.586 48.527 2.934 1.00109.63 C +ATOM 12830 OG SER E 18 36.896 49.411 2.068 1.00110.48 O +ATOM 12831 N VAL E 19 37.553 45.958 4.678 1.00100.14 N +ATOM 12832 CA VAL E 19 38.242 44.930 5.446 1.00 98.75 C +ATOM 12833 C VAL E 19 39.119 44.137 4.489 1.00 97.61 C +ATOM 12834 O VAL E 19 38.863 44.074 3.286 1.00 99.62 O +ATOM 12835 CB VAL E 19 37.266 43.982 6.187 1.00 99.64 C +ATOM 12836 CG1 VAL E 19 37.964 43.291 7.354 1.00 93.83 C +ATOM 12837 CG2 VAL E 19 36.023 44.726 6.658 1.00 99.85 C +ATOM 12838 N LYS E 20 40.162 43.516 5.039 1.00 95.72 N +ATOM 12839 CA LYS E 20 41.076 42.695 4.249 1.00 98.53 C +ATOM 12840 C LYS E 20 41.462 41.470 5.067 1.00 94.59 C +ATOM 12841 O LYS E 20 42.177 41.588 6.067 1.00 97.60 O +ATOM 12842 CB LYS E 20 42.315 43.490 3.833 1.00106.36 C +ATOM 12843 CG LYS E 20 42.782 43.201 2.416 1.00106.92 C +ATOM 12844 CD LYS E 20 44.163 43.780 2.146 1.00125.26 C +ATOM 12845 CE LYS E 20 44.518 43.688 0.668 1.00118.54 C +ATOM 12846 NZ LYS E 20 45.935 44.053 0.408 1.00116.38 N +ATOM 12847 N MET E 21 40.993 40.302 4.640 1.00 94.27 N +ATOM 12848 CA MET E 21 41.283 39.036 5.293 1.00 94.58 C +ATOM 12849 C MET E 21 42.356 38.283 4.518 1.00 89.44 C +ATOM 12850 O MET E 21 42.479 38.419 3.298 1.00 90.56 O +ATOM 12851 CB MET E 21 40.022 38.174 5.391 1.00 96.70 C +ATOM 12852 CG MET E 21 38.863 38.835 6.114 1.00 96.38 C +ATOM 12853 SD MET E 21 37.329 37.906 5.924 1.00101.79 S +ATOM 12854 CE MET E 21 36.280 39.136 5.152 1.00 91.95 C +ATOM 12855 N SER E 22 43.133 37.481 5.240 1.00 86.54 N +ATOM 12856 CA SER E 22 44.225 36.720 4.658 1.00 89.42 C +ATOM 12857 C SER E 22 43.957 35.227 4.795 1.00 92.05 C +ATOM 12858 O SER E 22 43.195 34.785 5.659 1.00 98.81 O +ATOM 12859 CB SER E 22 45.564 37.072 5.320 1.00 94.23 C +ATOM 12860 OG SER E 22 45.609 36.609 6.658 1.00 96.34 O +ATOM 12861 N CYS E 23 44.596 34.453 3.918 1.00 95.99 N +ATOM 12862 CA CYS E 23 44.507 32.995 3.962 1.00 97.02 C +ATOM 12863 C CYS E 23 45.842 32.458 3.451 1.00 98.58 C +ATOM 12864 O CYS E 23 46.072 32.426 2.238 1.00101.62 O +ATOM 12865 CB CYS E 23 43.338 32.498 3.123 1.00 98.45 C +ATOM 12866 SG CYS E 23 43.203 30.706 2.918 1.00 99.07 S +ATOM 12867 N LYS E 24 46.726 32.086 4.373 1.00100.72 N +ATOM 12868 CA LYS E 24 48.039 31.566 4.015 1.00105.57 C +ATOM 12869 C LYS E 24 47.962 30.048 3.903 1.00104.30 C +ATOM 12870 O LYS E 24 47.570 29.368 4.858 1.00101.11 O +ATOM 12871 CB LYS E 24 49.095 31.981 5.038 1.00110.72 C +ATOM 12872 CG LYS E 24 50.515 31.897 4.499 1.00113.74 C +ATOM 12873 CD LYS E 24 51.544 31.781 5.608 1.00120.42 C +ATOM 12874 CE LYS E 24 52.955 31.814 5.040 1.00124.08 C +ATOM 12875 NZ LYS E 24 53.160 30.771 3.996 1.00119.33 N +ATOM 12876 N ALA E 25 48.320 29.525 2.735 1.00105.33 N +ATOM 12877 CA ALA E 25 48.314 28.095 2.473 1.00103.15 C +ATOM 12878 C ALA E 25 49.707 27.509 2.673 1.00102.57 C +ATOM 12879 O ALA E 25 50.721 28.180 2.464 1.00106.54 O +ATOM 12880 CB ALA E 25 47.825 27.804 1.054 1.00102.67 C +ATOM 12881 N SER E 26 49.743 26.243 3.082 1.00 97.76 N +ATOM 12882 CA SER E 26 51.002 25.541 3.285 1.00 98.28 C +ATOM 12883 C SER E 26 50.749 24.043 3.219 1.00 99.78 C +ATOM 12884 O SER E 26 49.635 23.571 3.464 1.00101.56 O +ATOM 12885 CB SER E 26 51.649 25.921 4.621 1.00102.55 C +ATOM 12886 OG SER E 26 50.781 25.641 5.706 1.00101.46 O +ATOM 12887 N GLY E 27 51.799 23.301 2.879 1.00 98.94 N +ATOM 12888 CA GLY E 27 51.728 21.858 2.808 1.00 96.93 C +ATOM 12889 C GLY E 27 51.467 21.276 1.436 1.00 94.03 C +ATOM 12890 O GLY E 27 51.257 20.062 1.332 1.00 92.66 O +ATOM 12891 N TYR E 28 51.475 22.094 0.387 1.00 92.71 N +ATOM 12892 CA TYR E 28 51.225 21.619 -0.967 1.00 96.60 C +ATOM 12893 C TYR E 28 51.718 22.672 -1.949 1.00 95.64 C +ATOM 12894 O TYR E 28 52.099 23.780 -1.565 1.00 98.62 O +ATOM 12895 CB TYR E 28 49.739 21.319 -1.187 1.00 96.61 C +ATOM 12896 CG TYR E 28 48.878 22.560 -1.205 1.00 92.87 C +ATOM 12897 CD1 TYR E 28 48.466 23.160 -0.023 1.00 92.17 C +ATOM 12898 CD2 TYR E 28 48.486 23.138 -2.404 1.00 91.02 C +ATOM 12899 CE1 TYR E 28 47.687 24.297 -0.036 1.00 92.48 C +ATOM 12900 CE2 TYR E 28 47.709 24.275 -2.427 1.00 90.28 C +ATOM 12901 CZ TYR E 28 47.311 24.849 -1.241 1.00 90.49 C +ATOM 12902 OH TYR E 28 46.535 25.980 -1.259 1.00 90.78 O +ATOM 12903 N THR E 29 51.706 22.309 -3.231 1.00 91.66 N +ATOM 12904 CA THR E 29 52.091 23.235 -4.293 1.00 94.69 C +ATOM 12905 C THR E 29 51.036 24.329 -4.412 1.00 95.94 C +ATOM 12906 O THR E 29 49.946 24.097 -4.945 1.00 98.81 O +ATOM 12907 CB THR E 29 52.257 22.488 -5.613 1.00101.81 C +ATOM 12908 OG1 THR E 29 51.041 21.803 -5.935 1.00104.08 O +ATOM 12909 CG2 THR E 29 53.389 21.476 -5.511 1.00100.08 C +ATOM 12910 N PHE E 30 51.366 25.526 -3.920 1.00 96.15 N +ATOM 12911 CA PHE E 30 50.380 26.598 -3.808 1.00 96.38 C +ATOM 12912 C PHE E 30 49.823 27.019 -5.163 1.00 96.90 C +ATOM 12913 O PHE E 30 48.674 27.468 -5.247 1.00 95.92 O +ATOM 12914 CB PHE E 30 51.009 27.798 -3.096 1.00 99.07 C +ATOM 12915 CG PHE E 30 50.121 29.009 -3.036 1.00101.96 C +ATOM 12916 CD1 PHE E 30 49.026 29.042 -2.190 1.00101.60 C +ATOM 12917 CD2 PHE E 30 50.387 30.118 -3.824 1.00105.10 C +ATOM 12918 CE1 PHE E 30 48.210 30.156 -2.132 1.00101.39 C +ATOM 12919 CE2 PHE E 30 49.574 31.235 -3.771 1.00105.53 C +ATOM 12920 CZ PHE E 30 48.484 31.254 -2.924 1.00102.30 C +ATOM 12921 N SER E 35 50.607 26.881 -6.230 1.00102.82 N +ATOM 12922 CA SER E 35 50.230 27.415 -7.532 1.00106.85 C +ATOM 12923 C SER E 35 49.356 26.473 -8.352 1.00106.75 C +ATOM 12924 O SER E 35 48.861 26.881 -9.409 1.00107.35 O +ATOM 12925 CB SER E 35 51.484 27.767 -8.340 1.00111.64 C +ATOM 12926 OG SER E 35 52.332 26.640 -8.480 1.00120.69 O +ATOM 12927 N ASP E 36 49.148 25.237 -7.902 1.00103.74 N +ATOM 12928 CA ASP E 36 48.454 24.231 -8.695 1.00104.17 C +ATOM 12929 C ASP E 36 46.992 24.053 -8.309 1.00103.53 C +ATOM 12930 O ASP E 36 46.291 23.264 -8.951 1.00106.69 O +ATOM 12931 CB ASP E 36 49.177 22.884 -8.581 1.00106.46 C +ATOM 12932 CG ASP E 36 50.565 22.913 -9.188 1.00112.47 C +ATOM 12933 OD1 ASP E 36 50.945 23.956 -9.761 1.00117.10 O +ATOM 12934 OD2 ASP E 36 51.277 21.892 -9.089 1.00110.91 O +ATOM 12935 N TYR E 37 46.511 24.758 -7.287 1.00 99.93 N +ATOM 12936 CA TYR E 37 45.155 24.576 -6.789 1.00 88.29 C +ATOM 12937 C TYR E 37 44.418 25.906 -6.746 1.00 86.84 C +ATOM 12938 O TYR E 37 44.986 26.929 -6.351 1.00 91.23 O +ATOM 12939 CB TYR E 37 45.162 23.948 -5.393 1.00 86.66 C +ATOM 12940 CG TYR E 37 45.618 22.505 -5.350 1.00 87.08 C +ATOM 12941 CD1 TYR E 37 46.967 22.184 -5.285 1.00 87.95 C +ATOM 12942 CD2 TYR E 37 44.698 21.466 -5.352 1.00 88.14 C +ATOM 12943 CE1 TYR E 37 47.387 20.867 -5.236 1.00 90.08 C +ATOM 12944 CE2 TYR E 37 45.107 20.147 -5.302 1.00 88.09 C +ATOM 12945 CZ TYR E 37 46.452 19.853 -5.245 1.00 88.62 C +ATOM 12946 OH TYR E 37 46.864 18.540 -5.195 1.00 90.13 O +ATOM 12947 N TYR E 38 43.151 25.883 -7.153 1.00 82.60 N +ATOM 12948 CA TYR E 38 42.280 27.039 -7.004 1.00 84.76 C +ATOM 12949 C TYR E 38 42.088 27.384 -5.529 1.00 89.22 C +ATOM 12950 O TYR E 38 42.258 26.546 -4.638 1.00 86.28 O +ATOM 12951 CB TYR E 38 40.917 26.773 -7.643 1.00 82.21 C +ATOM 12952 CG TYR E 38 40.858 27.012 -9.133 1.00 81.97 C +ATOM 12953 CD1 TYR E 38 40.565 28.270 -9.640 1.00 83.83 C +ATOM 12954 CD2 TYR E 38 41.081 25.978 -10.031 1.00 83.76 C +ATOM 12955 CE1 TYR E 38 40.504 28.495 -11.001 1.00 85.32 C +ATOM 12956 CE2 TYR E 38 41.021 26.193 -11.396 1.00 84.58 C +ATOM 12957 CZ TYR E 38 40.732 27.454 -11.874 1.00 85.54 C +ATOM 12958 OH TYR E 38 40.672 27.675 -13.231 1.00 87.01 O +ATOM 12959 N MET E 39 41.725 28.640 -5.273 1.00 89.46 N +ATOM 12960 CA MET E 39 41.379 29.091 -3.930 1.00 85.63 C +ATOM 12961 C MET E 39 40.029 29.784 -3.992 1.00 85.87 C +ATOM 12962 O MET E 39 39.874 30.778 -4.706 1.00 86.72 O +ATOM 12963 CB MET E 39 42.446 30.030 -3.361 1.00 87.51 C +ATOM 12964 CG MET E 39 42.584 29.972 -1.846 1.00 90.46 C +ATOM 12965 SD MET E 39 42.959 28.319 -1.231 1.00 89.24 S +ATOM 12966 CE MET E 39 44.326 27.874 -2.295 1.00 91.64 C +ATOM 12967 N HIS E 40 39.060 29.267 -3.244 1.00 86.47 N +ATOM 12968 CA HIS E 40 37.707 29.794 -3.232 1.00 84.12 C +ATOM 12969 C HIS E 40 37.413 30.440 -1.886 1.00 82.93 C +ATOM 12970 O HIS E 40 38.006 30.085 -0.863 1.00 81.67 O +ATOM 12971 CB HIS E 40 36.686 28.686 -3.502 1.00 81.14 C +ATOM 12972 CG HIS E 40 36.989 27.867 -4.718 1.00 81.62 C +ATOM 12973 ND1 HIS E 40 36.357 28.063 -5.926 1.00 79.41 N +ATOM 12974 CD2 HIS E 40 37.859 26.847 -4.909 1.00 81.57 C +ATOM 12975 CE1 HIS E 40 36.823 27.198 -6.810 1.00 83.33 C +ATOM 12976 NE2 HIS E 40 37.735 26.449 -6.218 1.00 82.74 N +ATOM 12977 N TRP E 41 36.486 31.391 -1.896 1.00 83.51 N +ATOM 12978 CA TRP E 41 36.012 32.027 -0.676 1.00 84.86 C +ATOM 12979 C TRP E 41 34.526 31.754 -0.500 1.00 85.37 C +ATOM 12980 O TRP E 41 33.760 31.775 -1.469 1.00 83.65 O +ATOM 12981 CB TRP E 41 36.283 33.534 -0.691 1.00 86.89 C +ATOM 12982 CG TRP E 41 37.714 33.862 -0.404 1.00 89.87 C +ATOM 12983 CD1 TRP E 41 38.723 33.999 -1.311 1.00 89.36 C +ATOM 12984 CD2 TRP E 41 38.302 34.068 0.886 1.00 92.76 C +ATOM 12985 NE1 TRP E 41 39.901 34.291 -0.667 1.00 91.75 N +ATOM 12986 CE2 TRP E 41 39.670 34.338 0.683 1.00 93.61 C +ATOM 12987 CE3 TRP E 41 37.804 34.057 2.193 1.00 88.89 C +ATOM 12988 CZ2 TRP E 41 40.545 34.594 1.737 1.00 93.81 C +ATOM 12989 CZ3 TRP E 41 38.673 34.312 3.237 1.00 90.40 C +ATOM 12990 CH2 TRP E 41 40.028 34.577 3.003 1.00 91.40 C +ATOM 12991 N VAL E 42 34.127 31.491 0.743 1.00 83.71 N +ATOM 12992 CA VAL E 42 32.756 31.125 1.071 1.00 81.50 C +ATOM 12993 C VAL E 42 32.309 31.961 2.261 1.00 80.02 C +ATOM 12994 O VAL E 42 33.097 32.269 3.159 1.00 80.36 O +ATOM 12995 CB VAL E 42 32.617 29.614 1.380 1.00 79.77 C +ATOM 12996 CG1 VAL E 42 31.160 29.236 1.609 1.00 76.62 C +ATOM 12997 CG2 VAL E 42 33.212 28.774 0.258 1.00 79.66 C +ATOM 12998 N LYS E 43 31.031 32.329 2.260 1.00 80.08 N +ATOM 12999 CA LYS E 43 30.430 33.119 3.324 1.00 81.85 C +ATOM 13000 C LYS E 43 29.378 32.284 4.037 1.00 82.95 C +ATOM 13001 O LYS E 43 28.539 31.652 3.387 1.00 82.23 O +ATOM 13002 CB LYS E 43 29.803 34.399 2.761 1.00 82.25 C +ATOM 13003 CG LYS E 43 29.067 35.254 3.779 1.00 84.64 C +ATOM 13004 CD LYS E 43 28.323 36.385 3.083 1.00 87.79 C +ATOM 13005 CE LYS E 43 27.650 37.318 4.075 1.00 94.08 C +ATOM 13006 NZ LYS E 43 26.922 38.418 3.384 1.00 92.79 N +ATOM 13007 N GLN E 44 29.423 32.282 5.367 1.00 85.91 N +ATOM 13008 CA GLN E 44 28.412 31.631 6.193 1.00 88.72 C +ATOM 13009 C GLN E 44 27.771 32.736 7.023 1.00 97.91 C +ATOM 13010 O GLN E 44 28.352 33.193 8.015 1.00100.66 O +ATOM 13011 CB GLN E 44 29.018 30.542 7.076 1.00 81.86 C +ATOM 13012 CG GLN E 44 27.992 29.591 7.676 1.00 82.33 C +ATOM 13013 CD GLN E 44 28.628 28.399 8.366 1.00 73.12 C +ATOM 13014 OE1 GLN E 44 28.256 27.252 8.117 1.00 69.08 O +ATOM 13015 NE2 GLN E 44 29.587 28.665 9.245 1.00 72.29 N +ATOM 13016 N SER E 45 26.606 33.199 6.582 1.00104.94 N +ATOM 13017 CA SER E 45 25.882 34.219 7.317 1.00118.96 C +ATOM 13018 C SER E 45 25.055 33.581 8.424 1.00126.13 C +ATOM 13019 O SER E 45 24.523 32.477 8.270 1.00116.88 O +ATOM 13020 CB SER E 45 24.978 35.019 6.378 1.00118.85 C +ATOM 13021 OG SER E 45 23.898 34.229 5.913 1.00119.66 O +ATOM 13022 N HIS E 46 24.941 34.302 9.544 1.00137.49 N +ATOM 13023 CA HIS E 46 24.151 33.867 10.702 1.00135.76 C +ATOM 13024 C HIS E 46 24.465 32.421 11.095 1.00127.86 C +ATOM 13025 O HIS E 46 23.622 31.713 11.650 1.00124.75 O +ATOM 13026 CB HIS E 46 22.654 34.050 10.432 1.00137.41 C +ATOM 13027 CG HIS E 46 21.800 33.986 11.661 1.00144.89 C +ATOM 13028 ND1 HIS E 46 20.449 33.718 11.611 1.00138.32 N +ATOM 13029 CD2 HIS E 46 22.102 34.156 12.970 1.00145.38 C +ATOM 13030 CE1 HIS E 46 19.956 33.724 12.836 1.00138.89 C +ATOM 13031 NE2 HIS E 46 20.937 33.987 13.679 1.00140.54 N +ATOM 13032 N GLY E 47 25.698 31.992 10.835 1.00124.37 N +ATOM 13033 CA GLY E 47 26.103 30.601 10.929 1.00114.19 C +ATOM 13034 C GLY E 47 25.085 29.574 10.473 1.00114.87 C +ATOM 13035 O GLY E 47 24.794 28.621 11.202 1.00114.98 O +ATOM 13036 N LYS E 48 24.528 29.756 9.273 1.00111.95 N +ATOM 13037 CA LYS E 48 23.580 28.796 8.715 1.00104.81 C +ATOM 13038 C LYS E 48 23.940 28.429 7.279 1.00 95.03 C +ATOM 13039 O LYS E 48 24.573 27.396 7.038 1.00 90.53 O +ATOM 13040 CB LYS E 48 22.146 29.339 8.768 1.00108.50 C +ATOM 13041 CG LYS E 48 22.033 30.823 9.066 1.00114.59 C +ATOM 13042 CD LYS E 48 20.746 31.416 8.509 1.00114.63 C +ATOM 13043 CE LYS E 48 21.013 32.201 7.232 1.00108.49 C +ATOM 13044 NZ LYS E 48 19.759 32.731 6.629 1.00 99.56 N +ATOM 13045 N SER E 49 23.552 29.270 6.324 1.00 95.11 N +ATOM 13046 CA SER E 49 23.705 28.969 4.908 1.00 88.65 C +ATOM 13047 C SER E 49 25.090 29.362 4.405 1.00 86.58 C +ATOM 13048 O SER E 49 25.718 30.295 4.912 1.00 87.99 O +ATOM 13049 CB SER E 49 22.634 29.687 4.087 1.00 88.60 C +ATOM 13050 OG SER E 49 22.827 31.091 4.113 1.00 92.80 O +ATOM 13051 N LEU E 50 25.556 28.637 3.390 1.00 81.39 N +ATOM 13052 CA LEU E 50 26.858 28.857 2.772 1.00 76.29 C +ATOM 13053 C LEU E 50 26.662 29.509 1.410 1.00 75.91 C +ATOM 13054 O LEU E 50 25.949 28.969 0.556 1.00 74.30 O +ATOM 13055 CB LEU E 50 27.630 27.545 2.627 1.00 68.21 C +ATOM 13056 CG LEU E 50 28.059 26.850 3.919 1.00 70.94 C +ATOM 13057 CD1 LEU E 50 28.685 25.500 3.616 1.00 66.72 C +ATOM 13058 CD2 LEU E 50 29.033 27.729 4.683 1.00 73.04 C +ATOM 13059 N GLU E 51 27.289 30.665 1.213 1.00 77.17 N +ATOM 13060 CA GLU E 51 27.237 31.394 -0.048 1.00 79.79 C +ATOM 13061 C GLU E 51 28.636 31.440 -0.641 1.00 81.84 C +ATOM 13062 O GLU E 51 29.550 32.012 -0.035 1.00 82.25 O +ATOM 13063 CB GLU E 51 26.699 32.813 0.154 1.00 81.67 C +ATOM 13064 CG GLU E 51 25.229 32.888 0.521 1.00 86.92 C +ATOM 13065 CD GLU E 51 24.729 34.318 0.610 1.00 94.28 C +ATOM 13066 OE1 GLU E 51 25.251 35.080 1.452 1.00 93.33 O +ATOM 13067 OE2 GLU E 51 23.824 34.683 -0.168 1.00101.50 O +ATOM 13068 N TRP E 52 28.805 30.824 -1.809 1.00 80.09 N +ATOM 13069 CA TRP E 52 30.044 30.980 -2.558 1.00 80.86 C +ATOM 13070 C TRP E 52 30.281 32.454 -2.869 1.00 84.61 C +ATOM 13071 O TRP E 52 29.342 33.230 -3.069 1.00 88.78 O +ATOM 13072 CB TRP E 52 29.983 30.161 -3.847 1.00 80.41 C +ATOM 13073 CG TRP E 52 31.263 30.107 -4.625 1.00 80.01 C +ATOM 13074 CD1 TRP E 52 32.451 29.574 -4.217 1.00 79.42 C +ATOM 13075 CD2 TRP E 52 31.475 30.586 -5.959 1.00 78.70 C +ATOM 13076 NE1 TRP E 52 33.393 29.700 -5.211 1.00 79.66 N +ATOM 13077 CE2 TRP E 52 32.818 30.318 -6.290 1.00 78.85 C +ATOM 13078 CE3 TRP E 52 30.661 31.219 -6.902 1.00 80.10 C +ATOM 13079 CZ2 TRP E 52 33.365 30.662 -7.525 1.00 82.01 C +ATOM 13080 CZ3 TRP E 52 31.205 31.560 -8.127 1.00 82.19 C +ATOM 13081 CH2 TRP E 52 32.544 31.281 -8.427 1.00 84.94 C +ATOM 13082 N ILE E 53 31.554 32.839 -2.920 1.00 83.92 N +ATOM 13083 CA ILE E 53 31.956 34.214 -3.179 1.00 87.45 C +ATOM 13084 C ILE E 53 32.735 34.330 -4.485 1.00 86.07 C +ATOM 13085 O ILE E 53 32.405 35.149 -5.348 1.00 86.20 O +ATOM 13086 CB ILE E 53 32.775 34.792 -2.004 1.00 89.92 C +ATOM 13087 CG1 ILE E 53 31.894 34.924 -0.760 1.00 87.03 C +ATOM 13088 CG2 ILE E 53 33.377 36.136 -2.381 1.00 91.14 C +ATOM 13089 CD1 ILE E 53 32.673 35.123 0.519 1.00 86.54 C +ATOM 13090 N GLY E 54 33.768 33.517 -4.645 1.00 85.36 N +ATOM 13091 CA GLY E 54 34.567 33.577 -5.850 1.00 86.63 C +ATOM 13092 C GLY E 54 35.761 32.659 -5.752 1.00 87.21 C +ATOM 13093 O GLY E 54 36.081 32.113 -4.691 1.00 84.02 O +ATOM 13094 N TYR E 55 36.417 32.495 -6.896 1.00 88.98 N +ATOM 13095 CA TYR E 55 37.605 31.670 -7.019 1.00 90.52 C +ATOM 13096 C TYR E 55 38.769 32.526 -7.495 1.00 91.82 C +ATOM 13097 O TYR E 55 38.586 33.623 -8.030 1.00 93.77 O +ATOM 13098 CB TYR E 55 37.380 30.505 -7.995 1.00 90.14 C +ATOM 13099 CG TYR E 55 37.226 30.933 -9.440 1.00 91.43 C +ATOM 13100 CD1 TYR E 55 35.980 31.254 -9.959 1.00 93.85 C +ATOM 13101 CD2 TYR E 55 38.327 31.008 -10.285 1.00 90.79 C +ATOM 13102 CE1 TYR E 55 35.835 31.646 -11.277 1.00 96.52 C +ATOM 13103 CE2 TYR E 55 38.192 31.399 -11.602 1.00 93.47 C +ATOM 13104 CZ TYR E 55 36.944 31.716 -12.094 1.00 98.24 C +ATOM 13105 OH TYR E 55 36.805 32.104 -13.406 1.00105.63 O +ATOM 13106 N ILE E 56 39.975 32.008 -7.293 1.00 89.94 N +ATOM 13107 CA ILE E 56 41.179 32.654 -7.800 1.00 95.55 C +ATOM 13108 C ILE E 56 42.220 31.584 -8.097 1.00 97.74 C +ATOM 13109 O ILE E 56 42.411 30.645 -7.315 1.00 94.34 O +ATOM 13110 CB ILE E 56 41.723 33.715 -6.819 1.00 97.30 C +ATOM 13111 CG1 ILE E 56 42.936 34.429 -7.420 1.00101.09 C +ATOM 13112 CG2 ILE E 56 42.063 33.097 -5.468 1.00 96.54 C +ATOM 13113 CD1 ILE E 56 43.380 35.637 -6.633 1.00104.23 C +ATOM 13114 N TYR E 57 42.860 31.711 -9.259 1.00 99.61 N +ATOM 13115 CA TYR E 57 43.965 30.853 -9.652 1.00102.47 C +ATOM 13116 C TYR E 57 45.263 31.563 -9.302 1.00105.16 C +ATOM 13117 O TYR E 57 45.540 32.634 -9.863 1.00105.53 O +ATOM 13118 CB TYR E 57 43.905 30.539 -11.146 1.00101.71 C +ATOM 13119 CG TYR E 57 44.868 29.459 -11.580 1.00106.13 C +ATOM 13120 CD1 TYR E 57 44.845 28.198 -10.999 1.00102.90 C +ATOM 13121 CD2 TYR E 57 45.801 29.703 -12.576 1.00111.88 C +ATOM 13122 CE1 TYR E 57 45.733 27.213 -11.397 1.00112.71 C +ATOM 13123 CE2 TYR E 57 46.685 28.729 -12.982 1.00114.55 C +ATOM 13124 CZ TYR E 57 46.651 27.489 -12.391 1.00122.77 C +ATOM 13125 OH TYR E 57 47.545 26.529 -12.804 1.00125.37 O +ATOM 13126 N PRO E 58 46.070 31.029 -8.380 1.00103.27 N +ATOM 13127 CA PRO E 58 47.234 31.787 -7.885 1.00107.29 C +ATOM 13128 C PRO E 58 48.199 32.242 -8.967 1.00112.49 C +ATOM 13129 O PRO E 58 48.872 33.264 -8.783 1.00116.03 O +ATOM 13130 CB PRO E 58 47.902 30.797 -6.921 1.00106.06 C +ATOM 13131 CG PRO E 58 46.791 29.907 -6.471 1.00101.86 C +ATOM 13132 CD PRO E 58 45.889 29.756 -7.663 1.00101.16 C +ATOM 13133 N ASP E 59 48.306 31.513 -10.080 1.00111.49 N +ATOM 13134 CA ASP E 59 49.209 31.937 -11.146 1.00109.50 C +ATOM 13135 C ASP E 59 48.817 33.297 -11.715 1.00108.43 C +ATOM 13136 O ASP E 59 49.692 34.076 -12.108 1.00110.33 O +ATOM 13137 CB ASP E 59 49.252 30.883 -12.252 1.00111.07 C +ATOM 13138 CG ASP E 59 50.299 29.813 -11.996 1.00115.66 C +ATOM 13139 OD1 ASP E 59 51.283 30.100 -11.282 1.00112.94 O +ATOM 13140 OD2 ASP E 59 50.138 28.684 -12.507 1.00118.56 O +ATOM 13141 N ASN E 62 47.519 33.601 -11.772 1.00108.10 N +ATOM 13142 CA ASN E 62 47.071 34.914 -12.227 1.00107.56 C +ATOM 13143 C ASN E 62 45.870 35.447 -11.446 1.00108.34 C +ATOM 13144 O ASN E 62 46.045 36.151 -10.447 1.00108.11 O +ATOM 13145 CB ASN E 62 46.759 34.871 -13.728 1.00103.39 C +ATOM 13146 CG ASN E 62 46.073 33.589 -14.149 1.00104.07 C +ATOM 13147 OD1 ASN E 62 46.023 32.622 -13.390 1.00107.29 O +ATOM 13148 ND2 ASN E 62 45.545 33.571 -15.369 1.00 98.97 N +ATOM 13149 N GLY E 63 44.656 35.119 -11.874 1.00106.44 N +ATOM 13150 CA GLY E 63 43.477 35.675 -11.239 1.00104.67 C +ATOM 13151 C GLY E 63 42.214 34.960 -11.668 1.00104.49 C +ATOM 13152 O GLY E 63 42.258 33.917 -12.323 1.00104.31 O +ATOM 13153 N GLY E 64 41.081 35.538 -11.283 1.00102.50 N +ATOM 13154 CA GLY E 64 39.802 34.954 -11.637 1.00100.84 C +ATOM 13155 C GLY E 64 38.639 35.852 -11.271 1.00101.16 C +ATOM 13156 O GLY E 64 38.819 36.987 -10.826 1.00 98.51 O +ATOM 13157 N ASN E 65 37.434 35.317 -11.471 1.00104.78 N +ATOM 13158 CA ASN E 65 36.160 35.988 -11.227 1.00112.14 C +ATOM 13159 C ASN E 65 35.406 35.324 -10.074 1.00101.25 C +ATOM 13160 O ASN E 65 35.870 34.352 -9.471 1.00 99.09 O +ATOM 13161 CB ASN E 65 35.313 36.000 -12.502 1.00109.21 C +ATOM 13162 N GLY E 66 34.226 35.870 -9.763 1.00 97.14 N +ATOM 13163 CA GLY E 66 33.412 35.343 -8.681 1.00 95.37 C +ATOM 13164 C GLY E 66 31.907 35.526 -8.795 1.00 94.58 C +ATOM 13165 O GLY E 66 31.385 35.837 -9.870 1.00 92.52 O +ATOM 13166 N TYR E 67 31.209 35.316 -7.674 1.00 92.97 N +ATOM 13167 CA TYR E 67 29.753 35.422 -7.609 1.00 95.10 C +ATOM 13168 C TYR E 67 29.235 36.742 -8.165 1.00 97.61 C +ATOM 13169 O TYR E 67 29.807 37.808 -7.922 1.00100.68 O +ATOM 13170 CB TYR E 67 29.291 35.276 -6.156 1.00 99.04 C +ATOM 13171 CG TYR E 67 27.876 34.769 -5.979 1.00101.80 C +ATOM 13172 CD1 TYR E 67 27.221 34.091 -6.999 1.00101.99 C +ATOM 13173 CD2 TYR E 67 27.180 35.009 -4.800 1.00106.97 C +ATOM 13174 CE1 TYR E 67 25.921 33.640 -6.835 1.00109.36 C +ATOM 13175 CE2 TYR E 67 25.883 34.566 -4.630 1.00119.01 C +ATOM 13176 CZ TYR E 67 25.257 33.883 -5.650 1.00123.51 C +ATOM 13177 OH TYR E 67 23.965 33.442 -5.481 1.00127.58 O +ATOM 13178 N ASN E 68 28.138 36.656 -8.924 1.00101.24 N +ATOM 13179 CA ASN E 68 27.494 37.856 -9.450 1.00105.17 C +ATOM 13180 C ASN E 68 26.934 38.715 -8.323 1.00105.52 C +ATOM 13181 O ASN E 68 27.059 39.946 -8.347 1.00108.01 O +ATOM 13182 CB ASN E 68 26.385 37.464 -10.428 1.00108.19 C +ATOM 13183 CG ASN E 68 26.493 38.187 -11.756 1.00115.13 C +ATOM 13184 OD1 ASN E 68 26.650 37.560 -12.805 1.00117.34 O +ATOM 13185 ND2 ASN E 68 26.407 39.511 -11.719 1.00112.08 N +ATOM 13186 N GLN E 69 26.300 38.079 -7.333 1.00106.60 N +ATOM 13187 CA GLN E 69 25.711 38.809 -6.214 1.00106.92 C +ATOM 13188 C GLN E 69 26.772 39.536 -5.398 1.00105.13 C +ATOM 13189 O GLN E 69 26.475 40.548 -4.752 1.00103.88 O +ATOM 13190 CB GLN E 69 24.912 37.857 -5.324 1.00103.85 C +ATOM 13191 N LYS E 70 28.011 39.045 -5.425 1.00103.86 N +ATOM 13192 CA LYS E 70 29.113 39.627 -4.673 1.00104.55 C +ATOM 13193 C LYS E 70 29.949 40.577 -5.520 1.00110.83 C +ATOM 13194 O LYS E 70 31.077 40.909 -5.140 1.00112.83 O +ATOM 13195 CB LYS E 70 30.003 38.527 -4.089 1.00100.59 C +ATOM 13196 CG LYS E 70 29.286 37.511 -3.212 1.00 97.55 C +ATOM 13197 CD LYS E 70 29.021 38.078 -1.826 1.00 95.09 C +ATOM 13198 CE LYS E 70 28.487 37.016 -0.876 1.00 89.48 C +ATOM 13199 NZ LYS E 70 27.313 36.300 -1.440 1.00 93.97 N +ATOM 13200 N PHE E 71 29.421 41.002 -6.671 1.00110.10 N +ATOM 13201 CA PHE E 71 30.132 41.958 -7.514 1.00115.91 C +ATOM 13202 C PHE E 71 30.422 43.245 -6.749 1.00119.96 C +ATOM 13203 O PHE E 71 31.547 43.759 -6.776 1.00114.66 O +ATOM 13204 CB PHE E 71 29.316 42.249 -8.775 1.00116.56 C +ATOM 13205 CG PHE E 71 30.015 41.884 -10.056 1.00116.42 C +ATOM 13206 CD1 PHE E 71 30.100 40.562 -10.463 1.00115.28 C +ATOM 13207 CD2 PHE E 71 30.573 42.864 -10.862 1.00119.70 C +ATOM 13208 CE1 PHE E 71 30.739 40.223 -11.642 1.00115.59 C +ATOM 13209 CE2 PHE E 71 31.212 42.532 -12.043 1.00122.93 C +ATOM 13210 CZ PHE E 71 31.295 41.209 -12.433 1.00119.47 C +ATOM 13211 N LYS E 72 29.418 43.776 -6.055 1.00127.27 N +ATOM 13212 CA LYS E 72 29.550 45.018 -5.293 1.00143.28 C +ATOM 13213 C LYS E 72 29.965 44.761 -3.846 1.00144.76 C +ATOM 13214 O LYS E 72 29.329 45.234 -2.904 1.00139.49 O +ATOM 13215 CB LYS E 72 28.246 45.805 -5.348 1.00138.43 C +ATOM 13216 CG LYS E 72 27.960 46.454 -6.689 1.00136.36 C +ATOM 13217 CD LYS E 72 27.135 47.723 -6.523 1.00137.30 C +ATOM 13218 CE LYS E 72 27.913 48.800 -5.776 1.00138.40 C +ATOM 13219 NZ LYS E 72 27.262 50.137 -5.889 1.00138.08 N +ATOM 13220 N GLY E 74 31.035 43.991 -3.656 1.00129.12 N +ATOM 13221 CA GLY E 74 31.535 43.738 -2.318 1.00118.27 C +ATOM 13222 C GLY E 74 32.919 43.124 -2.256 1.00108.48 C +ATOM 13223 O GLY E 74 33.799 43.621 -1.549 1.00109.51 O +ATOM 13224 N LYS E 75 33.116 42.039 -2.998 1.00106.73 N +ATOM 13225 CA LYS E 75 34.323 41.230 -2.904 1.00106.11 C +ATOM 13226 C LYS E 75 35.394 41.669 -3.894 1.00105.42 C +ATOM 13227 O LYS E 75 35.092 42.064 -5.024 1.00106.17 O +ATOM 13228 CB LYS E 75 33.985 39.757 -3.140 1.00104.31 C +ATOM 13229 N ALA E 76 36.651 41.601 -3.453 1.00 99.83 N +ATOM 13230 CA ALA E 76 37.805 41.798 -4.329 1.00 99.17 C +ATOM 13231 C ALA E 76 38.885 40.821 -3.883 1.00101.32 C +ATOM 13232 O ALA E 76 39.470 40.989 -2.810 1.00101.84 O +ATOM 13233 CB ALA E 76 38.310 43.240 -4.278 1.00 95.87 C +ATOM 13234 N THR E 77 39.155 39.806 -4.698 1.00103.06 N +ATOM 13235 CA THR E 77 40.094 38.750 -4.344 1.00105.28 C +ATOM 13236 C THR E 77 41.422 38.943 -5.065 1.00107.26 C +ATOM 13237 O THR E 77 41.453 39.271 -6.255 1.00110.75 O +ATOM 13238 CB THR E 77 39.514 37.374 -4.681 1.00105.65 C +ATOM 13239 OG1 THR E 77 39.023 37.377 -6.027 1.00106.21 O +ATOM 13240 CG2 THR E 77 38.374 37.031 -3.734 1.00100.99 C +ATOM 13241 N LEU E 78 42.521 38.733 -4.338 1.00107.72 N +ATOM 13242 CA LEU E 78 43.861 38.871 -4.889 1.00106.61 C +ATOM 13243 C LEU E 78 44.757 37.804 -4.274 1.00105.98 C +ATOM 13244 O LEU E 78 44.363 37.088 -3.350 1.00107.21 O +ATOM 13245 CB LEU E 78 44.423 40.278 -4.643 1.00111.65 C +ATOM 13246 CG LEU E 78 44.674 40.699 -3.192 1.00119.53 C +ATOM 13247 CD1 LEU E 78 46.144 40.537 -2.823 1.00126.53 C +ATOM 13248 CD2 LEU E 78 44.204 42.125 -2.948 1.00123.52 C +ATOM 13249 N THR E 79 45.984 37.706 -4.784 1.00106.76 N +ATOM 13250 CA THR E 79 46.905 36.665 -4.353 1.00109.45 C +ATOM 13251 C THR E 79 48.332 37.196 -4.343 1.00112.48 C +ATOM 13252 O THR E 79 48.658 38.183 -5.007 1.00113.04 O +ATOM 13253 CB THR E 79 46.820 35.427 -5.259 1.00111.11 C +ATOM 13254 OG1 THR E 79 47.788 34.457 -4.840 1.00112.98 O +ATOM 13255 CG2 THR E 79 47.087 35.810 -6.708 1.00110.24 C +ATOM 13256 N VAL E 80 49.184 36.517 -3.573 1.00112.17 N +ATOM 13257 CA VAL E 80 50.621 36.777 -3.525 1.00115.79 C +ATOM 13258 C VAL E 80 51.292 35.410 -3.482 1.00119.38 C +ATOM 13259 O VAL E 80 51.168 34.685 -2.485 1.00119.34 O +ATOM 13260 CB VAL E 80 51.040 37.627 -2.315 1.00117.09 C +ATOM 13261 CG1 VAL E 80 52.550 37.800 -2.293 1.00122.42 C +ATOM 13262 CG2 VAL E 80 50.346 38.983 -2.336 1.00112.70 C +ATOM 13263 N ASP E 81 51.987 35.048 -4.566 1.00120.64 N +ATOM 13264 CA ASP E 81 52.601 33.725 -4.652 1.00123.10 C +ATOM 13265 C ASP E 81 53.814 33.586 -3.741 1.00125.01 C +ATOM 13266 O ASP E 81 54.011 32.531 -3.126 1.00122.63 O +ATOM 13267 CB ASP E 81 53.012 33.439 -6.097 1.00125.28 C +ATOM 13268 CG ASP E 81 51.887 33.664 -7.084 1.00128.02 C +ATOM 13269 OD1 ASP E 81 50.791 34.083 -6.657 1.00137.48 O +ATOM 13270 OD2 ASP E 81 52.103 33.429 -8.292 1.00118.33 O +ATOM 13271 N LYS E 82 54.646 34.629 -3.652 1.00130.70 N +ATOM 13272 CA LYS E 82 55.876 34.526 -2.867 1.00136.11 C +ATOM 13273 C LYS E 82 55.583 34.181 -1.412 1.00132.52 C +ATOM 13274 O LYS E 82 56.336 33.429 -0.781 1.00133.29 O +ATOM 13275 CB LYS E 82 56.708 35.803 -2.983 1.00145.31 C +ATOM 13276 CG LYS E 82 58.093 35.643 -2.365 1.00153.30 C +ATOM 13277 CD LYS E 82 58.942 36.893 -2.485 1.00159.16 C +ATOM 13278 CE LYS E 82 60.398 36.580 -2.166 1.00161.62 C +ATOM 13279 NZ LYS E 82 60.884 35.385 -2.916 1.00162.57 N +ATOM 13280 N SER E 83 54.497 34.718 -0.860 1.00130.79 N +ATOM 13281 CA SER E 83 54.101 34.416 0.507 1.00130.14 C +ATOM 13282 C SER E 83 53.020 33.348 0.571 1.00124.19 C +ATOM 13283 O SER E 83 52.584 32.991 1.671 1.00123.72 O +ATOM 13284 CB SER E 83 53.613 35.685 1.216 1.00127.33 C +ATOM 13285 OG SER E 83 52.562 36.304 0.495 1.00122.44 O +ATOM 13286 N SER E 84 52.588 32.832 -0.581 1.00119.49 N +ATOM 13287 CA SER E 84 51.555 31.801 -0.668 1.00115.56 C +ATOM 13288 C SER E 84 50.289 32.213 0.080 1.00110.79 C +ATOM 13289 O SER E 84 49.718 31.445 0.857 1.00105.44 O +ATOM 13290 CB SER E 84 52.082 30.461 -0.151 1.00113.47 C +ATOM 13291 OG SER E 84 53.195 30.021 -0.910 1.00121.05 O +ATOM 13292 N SER E 85 49.848 33.447 -0.156 1.00109.69 N +ATOM 13293 CA SER E 85 48.737 34.009 0.601 1.00107.43 C +ATOM 13294 C SER E 85 47.662 34.528 -0.341 1.00106.62 C +ATOM 13295 O SER E 85 47.949 35.330 -1.236 1.00107.57 O +ATOM 13296 CB SER E 85 49.216 35.134 1.524 1.00110.42 C +ATOM 13297 OG SER E 85 50.081 34.634 2.529 1.00108.89 O +ATOM 13298 N THR E 86 46.426 34.083 -0.128 1.00105.80 N +ATOM 13299 CA THR E 86 45.267 34.610 -0.837 1.00101.67 C +ATOM 13300 C THR E 86 44.601 35.657 0.047 1.00 98.45 C +ATOM 13301 O THR E 86 44.234 35.366 1.191 1.00 98.34 O +ATOM 13302 CB THR E 86 44.281 33.497 -1.189 1.00 97.43 C +ATOM 13303 OG1 THR E 86 44.949 32.488 -1.958 1.00100.76 O +ATOM 13304 CG2 THR E 86 43.118 34.054 -1.995 1.00 97.12 C +ATOM 13305 N VAL E 87 44.458 36.871 -0.473 1.00 99.27 N +ATOM 13306 CA VAL E 87 43.883 37.976 0.280 1.00 98.53 C +ATOM 13307 C VAL E 87 42.517 38.306 -0.308 1.00 98.88 C +ATOM 13308 O VAL E 87 42.263 38.104 -1.502 1.00101.99 O +ATOM 13309 CB VAL E 87 44.818 39.203 0.274 1.00102.93 C +ATOM 13310 CG1 VAL E 87 44.392 40.204 1.327 1.00103.29 C +ATOM 13311 CG2 VAL E 87 46.260 38.770 0.500 1.00 99.91 C +ATOM 13312 N TYR E 88 41.637 38.833 0.540 1.00 97.58 N +ATOM 13313 CA TYR E 88 40.232 38.998 0.185 1.00 95.14 C +ATOM 13314 C TYR E 88 39.711 40.266 0.842 1.00 94.13 C +ATOM 13315 O TYR E 88 39.728 40.377 2.070 1.00 97.74 O +ATOM 13316 CB TYR E 88 39.438 37.769 0.637 1.00 94.90 C +ATOM 13317 CG TYR E 88 37.939 37.874 0.518 1.00 97.96 C +ATOM 13318 CD1 TYR E 88 37.347 38.469 -0.584 1.00 99.88 C +ATOM 13319 CD2 TYR E 88 37.113 37.356 1.507 1.00 96.89 C +ATOM 13320 CE1 TYR E 88 35.977 38.556 -0.692 1.00100.60 C +ATOM 13321 CE2 TYR E 88 35.742 37.438 1.407 1.00 97.33 C +ATOM 13322 CZ TYR E 88 35.179 38.039 0.304 1.00100.97 C +ATOM 13323 OH TYR E 88 33.810 38.127 0.197 1.00118.50 O +ATOM 13324 N MET E 89 39.241 41.214 0.035 1.00 95.25 N +ATOM 13325 CA MET E 89 38.878 42.543 0.500 1.00 97.83 C +ATOM 13326 C MET E 89 37.376 42.764 0.375 1.00101.25 C +ATOM 13327 O MET E 89 36.759 42.373 -0.623 1.00102.60 O +ATOM 13328 CB MET E 89 39.622 43.622 -0.296 1.00101.99 C +ATOM 13329 CG MET E 89 39.318 45.047 0.147 1.00108.62 C +ATOM 13330 SD MET E 89 40.307 46.294 -0.700 1.00116.47 S +ATOM 13331 CE MET E 89 41.893 46.078 0.100 1.00108.10 C +ATOM 13332 N GLU E 90 36.808 43.409 1.391 1.00101.84 N +ATOM 13333 CA GLU E 90 35.398 43.773 1.435 1.00103.39 C +ATOM 13334 C GLU E 90 35.301 45.292 1.402 1.00103.27 C +ATOM 13335 O GLU E 90 35.887 45.971 2.255 1.00103.75 O +ATOM 13336 CB GLU E 90 34.735 43.230 2.701 1.00105.49 C +ATOM 13337 CG GLU E 90 34.846 41.724 2.894 1.00106.33 C +ATOM 13338 CD GLU E 90 33.913 40.937 1.997 1.00107.06 C +ATOM 13339 OE1 GLU E 90 33.184 41.554 1.193 1.00108.03 O +ATOM 13340 OE2 GLU E 90 33.907 39.693 2.102 1.00110.22 O +ATOM 13341 N LEU E 91 34.556 45.817 0.432 1.00107.11 N +ATOM 13342 CA LEU E 91 34.404 47.249 0.228 1.00110.70 C +ATOM 13343 C LEU E 91 33.015 47.713 0.650 1.00106.65 C +ATOM 13344 O LEU E 91 32.028 46.990 0.485 1.00106.61 O +ATOM 13345 CB LEU E 91 34.649 47.623 -1.237 1.00111.81 C +ATOM 13346 CG LEU E 91 36.063 47.368 -1.763 1.00114.53 C +ATOM 13347 CD1 LEU E 91 36.141 47.657 -3.255 1.00120.65 C +ATOM 13348 CD2 LEU E 91 37.079 48.200 -0.996 1.00111.76 C +ATOM 13349 N ARG E 92 32.954 48.942 1.172 1.00107.48 N +ATOM 13350 CA ARG E 92 31.724 49.554 1.669 1.00112.75 C +ATOM 13351 C ARG E 92 30.875 48.577 2.474 1.00114.15 C +ATOM 13352 O ARG E 92 29.830 48.119 2.000 1.00109.55 O +ATOM 13353 CB ARG E 92 30.906 50.121 0.506 1.00108.34 C +ATOM 13354 N SER E 93 31.325 48.248 3.682 1.00115.22 N +ATOM 13355 CA SER E 93 30.618 47.287 4.518 1.00113.99 C +ATOM 13356 C SER E 93 29.206 47.769 4.837 1.00117.53 C +ATOM 13357 O SER E 93 28.944 48.969 4.962 1.00116.48 O +ATOM 13358 CB SER E 93 31.398 47.034 5.808 1.00112.02 C +ATOM 13359 OG SER E 93 32.543 46.238 5.553 1.00103.38 O +ATOM 13360 N LEU E 94 28.291 46.812 4.969 1.00121.13 N +ATOM 13361 CA LEU E 94 26.887 47.065 5.258 1.00122.97 C +ATOM 13362 C LEU E 94 26.489 46.222 6.467 1.00128.78 C +ATOM 13363 O LEU E 94 27.282 45.429 6.981 1.00126.74 O +ATOM 13364 CB LEU E 94 26.023 46.745 4.025 1.00125.54 C +ATOM 13365 CG LEU E 94 24.492 46.819 4.008 1.00129.06 C +ATOM 13366 CD1 LEU E 94 24.005 48.250 4.181 1.00132.81 C +ATOM 13367 CD2 LEU E 94 23.938 46.197 2.735 1.00126.57 C +ATOM 13368 N THR E 95 25.248 46.391 6.924 1.00133.99 N +ATOM 13369 CA THR E 95 24.713 45.553 7.989 1.00138.91 C +ATOM 13370 C THR E 95 24.351 44.152 7.514 1.00139.44 C +ATOM 13371 O THR E 95 23.858 43.355 8.321 1.00147.75 O +ATOM 13372 CB THR E 95 23.485 46.213 8.618 1.00139.69 C +ATOM 13373 OG1 THR E 95 23.031 45.424 9.725 1.00140.44 O +ATOM 13374 CG2 THR E 95 22.365 46.334 7.596 1.00138.62 C +ATOM 13375 N SER E 96 24.581 43.832 6.241 1.00135.16 N +ATOM 13376 CA SER E 96 24.361 42.490 5.716 1.00131.92 C +ATOM 13377 C SER E 96 25.634 41.657 5.705 1.00128.42 C +ATOM 13378 O SER E 96 25.580 40.446 5.941 1.00131.99 O +ATOM 13379 CB SER E 96 23.784 42.563 4.298 1.00129.07 C +ATOM 13380 OG SER E 96 22.485 43.134 4.307 1.00128.82 O +ATOM 13381 N GLU E 97 26.782 42.276 5.431 1.00126.91 N +ATOM 13382 CA GLU E 97 28.066 41.600 5.582 1.00126.28 C +ATOM 13383 C GLU E 97 28.431 41.345 7.042 1.00131.65 C +ATOM 13384 O GLU E 97 29.490 40.761 7.292 1.00127.59 O +ATOM 13385 CB GLU E 97 29.195 42.381 4.897 1.00120.57 C +ATOM 13386 CG GLU E 97 29.070 42.491 3.380 1.00116.65 C +ATOM 13387 CD GLU E 97 28.392 43.770 2.945 1.00122.20 C +ATOM 13388 OE1 GLU E 97 28.360 44.713 3.758 1.00129.95 O +ATOM 13389 OE2 GLU E 97 27.899 43.837 1.798 1.00120.89 O +ATOM 13390 N ASP E 98 27.604 41.771 8.002 1.00141.88 N +ATOM 13391 CA ASP E 98 27.956 41.689 9.415 1.00150.71 C +ATOM 13392 C ASP E 98 28.034 40.240 9.868 1.00167.89 C +ATOM 13393 O ASP E 98 29.108 39.630 9.847 1.00170.36 O +ATOM 13394 CB ASP E 98 26.925 42.405 10.291 1.00151.16 C +ATOM 13395 CG ASP E 98 26.913 43.897 10.087 1.00143.56 C +ATOM 13396 OD1 ASP E 98 27.864 44.423 9.487 1.00139.87 O +ATOM 13397 OD2 ASP E 98 25.956 44.549 10.554 1.00149.41 O +ATOM 13398 N SER E 99 26.899 39.693 10.299 1.00206.67 N +ATOM 13399 CA SER E 99 26.841 38.341 10.840 1.00206.09 C +ATOM 13400 C SER E 99 27.384 37.318 9.851 1.00204.62 C +ATOM 13401 O SER E 99 26.615 36.530 9.293 1.00203.46 O +ATOM 13402 CB SER E 99 25.400 37.990 11.218 1.00208.15 C +ATOM 13403 OG SER E 99 25.321 36.707 11.813 1.00204.02 O +ATOM 13404 N ALA E 100 28.699 37.315 9.619 1.00149.20 N +ATOM 13405 CA ALA E 100 29.271 36.410 8.635 1.00121.52 C +ATOM 13406 C ALA E 100 30.627 35.877 9.078 1.00103.23 C +ATOM 13407 O ALA E 100 31.489 36.625 9.567 1.00 99.90 O +ATOM 13408 CB ALA E 100 29.414 37.096 7.271 1.00115.74 C +ATOM 13409 N LEU E 101 30.793 34.569 8.890 1.00 93.97 N +ATOM 13410 CA LEU E 101 32.066 33.877 9.016 1.00 84.70 C +ATOM 13411 C LEU E 101 32.562 33.545 7.613 1.00 85.69 C +ATOM 13412 O LEU E 101 31.846 32.908 6.834 1.00 84.58 O +ATOM 13413 CB LEU E 101 31.910 32.609 9.860 1.00 77.04 C +ATOM 13414 CG LEU E 101 33.117 31.698 10.080 1.00 77.12 C +ATOM 13415 CD1 LEU E 101 34.155 32.391 10.938 1.00 82.81 C +ATOM 13416 CD2 LEU E 101 32.671 30.403 10.734 1.00 72.43 C +ATOM 13417 N TYR E 102 33.774 33.980 7.287 1.00 82.94 N +ATOM 13418 CA TYR E 102 34.316 33.839 5.941 1.00 78.65 C +ATOM 13419 C TYR E 102 35.385 32.754 5.925 1.00 78.96 C +ATOM 13420 O TYR E 102 36.384 32.847 6.647 1.00 79.18 O +ATOM 13421 CB TYR E 102 34.876 35.170 5.440 1.00 79.90 C +ATOM 13422 CG TYR E 102 33.799 36.194 5.163 1.00 80.11 C +ATOM 13423 CD1 TYR E 102 33.146 36.227 3.938 1.00 82.21 C +ATOM 13424 CD2 TYR E 102 33.424 37.118 6.129 1.00 86.60 C +ATOM 13425 CE1 TYR E 102 32.156 37.156 3.679 1.00 85.70 C +ATOM 13426 CE2 TYR E 102 32.437 38.053 5.878 1.00 88.46 C +ATOM 13427 CZ TYR E 102 31.805 38.066 4.653 1.00 85.85 C +ATOM 13428 OH TYR E 102 30.820 38.993 4.399 1.00 88.31 O +ATOM 13429 N TYR E 103 35.165 31.730 5.105 1.00 79.24 N +ATOM 13430 CA TYR E 103 36.095 30.627 4.925 1.00 79.98 C +ATOM 13431 C TYR E 103 36.864 30.784 3.620 1.00 81.04 C +ATOM 13432 O TYR E 103 36.339 31.292 2.625 1.00 81.45 O +ATOM 13433 CB TYR E 103 35.361 29.284 4.902 1.00 77.63 C +ATOM 13434 CG TYR E 103 34.839 28.799 6.233 1.00 77.48 C +ATOM 13435 CD1 TYR E 103 35.694 28.246 7.176 1.00 77.01 C +ATOM 13436 CD2 TYR E 103 33.485 28.867 6.536 1.00 73.86 C +ATOM 13437 CE1 TYR E 103 35.220 27.789 8.389 1.00 76.32 C +ATOM 13438 CE2 TYR E 103 33.000 28.412 7.747 1.00 71.42 C +ATOM 13439 CZ TYR E 103 33.873 27.874 8.669 1.00 76.52 C +ATOM 13440 OH TYR E 103 33.398 27.419 9.878 1.00 79.26 O +ATOM 13441 N CYS E 104 38.111 30.323 3.628 1.00 80.00 N +ATOM 13442 CA CYS E 104 38.858 30.067 2.406 1.00 85.57 C +ATOM 13443 C CYS E 104 39.045 28.564 2.255 1.00 85.11 C +ATOM 13444 O CYS E 104 39.368 27.867 3.222 1.00 81.98 O +ATOM 13445 CB CYS E 104 40.219 30.773 2.405 1.00 87.36 C +ATOM 13446 SG CYS E 104 41.379 30.253 3.690 1.00 94.65 S +ATOM 13447 N ALA E 105 38.833 28.069 1.040 1.00 82.86 N +ATOM 13448 CA ALA E 105 38.907 26.646 0.760 1.00 78.47 C +ATOM 13449 C ALA E 105 39.737 26.415 -0.493 1.00 81.96 C +ATOM 13450 O ALA E 105 39.923 27.311 -1.319 1.00 82.47 O +ATOM 13451 CB ALA E 105 37.511 26.032 0.588 1.00 74.15 C +ATOM 13452 N ARG E 106 40.243 25.194 -0.618 1.00 82.54 N +ATOM 13453 CA ARG E 106 41.073 24.794 -1.744 1.00 83.94 C +ATOM 13454 C ARG E 106 40.269 23.884 -2.661 1.00 82.84 C +ATOM 13455 O ARG E 106 39.691 22.892 -2.205 1.00 82.61 O +ATOM 13456 CB ARG E 106 42.337 24.075 -1.270 1.00 85.76 C +ATOM 13457 CG ARG E 106 43.367 23.881 -2.365 1.00 84.08 C +ATOM 13458 CD ARG E 106 44.483 22.943 -1.941 1.00 84.80 C +ATOM 13459 NE ARG E 106 44.059 21.546 -1.954 1.00 84.72 N +ATOM 13460 CZ ARG E 106 44.882 20.515 -1.795 1.00 86.62 C +ATOM 13461 NH1 ARG E 106 46.179 20.721 -1.610 1.00 89.98 N +ATOM 13462 NH2 ARG E 106 44.409 19.277 -1.823 1.00 87.56 N +ATOM 13463 N GLY E 107 40.239 24.220 -3.948 1.00 79.74 N +ATOM 13464 CA GLY E 107 39.609 23.349 -4.918 1.00 80.32 C +ATOM 13465 C GLY E 107 40.469 22.137 -5.222 1.00 86.47 C +ATOM 13466 O GLY E 107 41.689 22.154 -5.067 1.00 88.80 O +ATOM 13467 N THR E 108 39.813 21.062 -5.651 1.00 87.68 N +ATOM 13468 CA THR E 108 40.521 19.821 -5.921 1.00 91.74 C +ATOM 13469 C THR E 108 41.464 19.994 -7.114 1.00 96.46 C +ATOM 13470 O THR E 108 41.404 20.980 -7.854 1.00 93.06 O +ATOM 13471 CB THR E 108 39.532 18.681 -6.166 1.00 87.52 C +ATOM 13472 OG1 THR E 108 40.249 17.473 -6.448 1.00 96.51 O +ATOM 13473 CG2 THR E 108 38.616 19.010 -7.330 1.00 86.85 C +ATOM 13474 N TYR E 109 42.347 19.009 -7.291 1.00 97.23 N +ATOM 13475 CA TYR E 109 43.447 19.105 -8.247 1.00 94.18 C +ATOM 13476 C TYR E 109 42.957 19.329 -9.673 1.00 92.37 C +ATOM 13477 O TYR E 109 43.222 20.381 -10.267 1.00 92.93 O +ATOM 13478 CB TYR E 109 44.311 17.845 -8.189 1.00 94.51 C +ATOM 13479 CG TYR E 109 45.651 17.995 -8.872 1.00 97.91 C +ATOM 13480 CD1 TYR E 109 46.398 19.157 -8.724 1.00 99.73 C +ATOM 13481 CD2 TYR E 109 46.164 16.983 -9.671 1.00 98.49 C +ATOM 13482 CE1 TYR E 109 47.623 19.301 -9.345 1.00104.65 C +ATOM 13483 CE2 TYR E 109 47.387 17.120 -10.299 1.00101.42 C +ATOM 13484 CZ TYR E 109 48.112 18.281 -10.133 1.00105.85 C +ATOM 13485 OH TYR E 109 49.331 18.423 -10.755 1.00108.68 O +ATOM 13486 N TYR E 110 42.250 18.343 -10.234 1.00 89.62 N +ATOM 13487 CA TYR E 110 41.728 18.478 -11.591 1.00 88.29 C +ATOM 13488 C TYR E 110 40.760 19.646 -11.688 1.00 88.87 C +ATOM 13489 O TYR E 110 40.566 20.207 -12.773 1.00 84.29 O +ATOM 13490 CB TYR E 110 41.019 17.194 -12.028 1.00 83.59 C +ATOM 13491 CG TYR E 110 41.747 15.907 -11.711 1.00 81.64 C +ATOM 13492 CD1 TYR E 110 43.135 15.844 -11.692 1.00 87.19 C +ATOM 13493 CD2 TYR E 110 41.036 14.752 -11.420 1.00 77.52 C +ATOM 13494 CE1 TYR E 110 43.790 14.663 -11.395 1.00 87.74 C +ATOM 13495 CE2 TYR E 110 41.680 13.570 -11.124 1.00 78.72 C +ATOM 13496 CZ TYR E 110 43.056 13.529 -11.112 1.00 86.55 C +ATOM 13497 OH TYR E 110 43.697 12.348 -10.815 1.00 99.53 O +ATOM 13498 N ASP E 111 40.131 19.992 -10.564 1.00 97.13 N +ATOM 13499 CA ASP E 111 39.085 20.998 -10.423 1.00 99.14 C +ATOM 13500 C ASP E 111 37.772 20.462 -10.971 1.00105.04 C +ATOM 13501 O ASP E 111 37.333 20.839 -12.062 1.00102.84 O +ATOM 13502 CB ASP E 111 39.451 22.322 -11.096 1.00 96.76 C +ATOM 13503 CG ASP E 111 38.536 23.454 -10.675 1.00 96.01 C +ATOM 13504 OD1 ASP E 111 38.311 23.613 -9.456 1.00 95.51 O +ATOM 13505 OD2 ASP E 111 38.037 24.180 -11.559 1.00103.09 O +ATOM 13506 N GLY E 112 37.150 19.572 -10.205 1.00119.34 N +ATOM 13507 CA GLY E 112 35.776 19.173 -10.382 1.00117.98 C +ATOM 13508 C GLY E 112 34.814 20.187 -9.830 1.00116.87 C +ATOM 13509 O GLY E 112 33.598 19.982 -9.877 1.00116.37 O +ATOM 13510 N SER E 113 35.367 21.270 -9.274 1.00 95.37 N +ATOM 13511 CA SER E 113 34.707 22.438 -8.695 1.00 90.67 C +ATOM 13512 C SER E 113 34.276 22.238 -7.247 1.00 84.44 C +ATOM 13513 O SER E 113 33.576 23.105 -6.702 1.00 80.28 O +ATOM 13514 CB SER E 113 33.498 22.877 -9.525 1.00 89.08 C +ATOM 13515 OG SER E 113 33.907 23.284 -10.820 1.00 98.80 O +ATOM 13516 N TYR E 114 34.669 21.146 -6.601 1.00 80.76 N +ATOM 13517 CA TYR E 114 34.420 20.963 -5.179 1.00 75.73 C +ATOM 13518 C TYR E 114 35.697 21.209 -4.380 1.00 73.12 C +ATOM 13519 O TYR E 114 36.809 21.175 -4.912 1.00 78.73 O +ATOM 13520 CB TYR E 114 33.869 19.565 -4.889 1.00 73.66 C +ATOM 13521 CG TYR E 114 34.778 18.432 -5.297 1.00 74.26 C +ATOM 13522 CD1 TYR E 114 34.768 17.938 -6.595 1.00 75.88 C +ATOM 13523 CD2 TYR E 114 35.640 17.848 -4.380 1.00 71.40 C +ATOM 13524 CE1 TYR E 114 35.596 16.898 -6.968 1.00 77.29 C +ATOM 13525 CE2 TYR E 114 36.471 16.809 -4.743 1.00 74.36 C +ATOM 13526 CZ TYR E 114 36.445 16.338 -6.037 1.00 73.37 C +ATOM 13527 OH TYR E 114 37.272 15.301 -6.400 1.00 77.12 O +ATOM 13528 N PHE E 115 35.520 21.455 -3.085 1.00 71.26 N +ATOM 13529 CA PHE E 115 36.579 21.955 -2.215 1.00 71.42 C +ATOM 13530 C PHE E 115 36.918 20.888 -1.181 1.00 71.89 C +ATOM 13531 O PHE E 115 36.034 20.424 -0.452 1.00 70.03 O +ATOM 13532 CB PHE E 115 36.149 23.253 -1.531 1.00 70.21 C +ATOM 13533 CG PHE E 115 35.345 24.173 -2.414 1.00 70.45 C +ATOM 13534 CD1 PHE E 115 35.728 24.423 -3.723 1.00 73.43 C +ATOM 13535 CD2 PHE E 115 34.198 24.783 -1.933 1.00 71.07 C +ATOM 13536 CE1 PHE E 115 34.980 25.259 -4.532 1.00 75.88 C +ATOM 13537 CE2 PHE E 115 33.451 25.625 -2.737 1.00 70.62 C +ATOM 13538 CZ PHE E 115 33.844 25.864 -4.037 1.00 71.47 C +ATOM 13539 N ASP E 116 38.195 20.504 -1.113 1.00 74.05 N +ATOM 13540 CA ASP E 116 38.615 19.395 -0.263 1.00 77.69 C +ATOM 13541 C ASP E 116 39.313 19.820 1.024 1.00 79.75 C +ATOM 13542 O ASP E 116 39.453 18.992 1.931 1.00 80.79 O +ATOM 13543 CB ASP E 116 39.537 18.448 -1.045 1.00 82.08 C +ATOM 13544 CG ASP E 116 40.759 19.150 -1.607 1.00 84.24 C +ATOM 13545 OD1 ASP E 116 40.846 20.391 -1.493 1.00 82.61 O +ATOM 13546 OD2 ASP E 116 41.637 18.458 -2.163 1.00 85.90 O +ATOM 13547 N TYR E 117 39.750 21.073 1.134 1.00 78.46 N +ATOM 13548 CA TYR E 117 40.394 21.564 2.345 1.00 75.69 C +ATOM 13549 C TYR E 117 39.837 22.937 2.686 1.00 76.43 C +ATOM 13550 O TYR E 117 39.601 23.755 1.794 1.00 73.31 O +ATOM 13551 CB TYR E 117 41.919 21.641 2.185 1.00 82.71 C +ATOM 13552 CG TYR E 117 42.620 20.301 2.255 1.00 84.91 C +ATOM 13553 CD1 TYR E 117 43.004 19.760 3.475 1.00 87.44 C +ATOM 13554 CD2 TYR E 117 42.903 19.581 1.102 1.00 86.12 C +ATOM 13555 CE1 TYR E 117 43.646 18.537 3.546 1.00 86.65 C +ATOM 13556 CE2 TYR E 117 43.545 18.357 1.163 1.00 87.01 C +ATOM 13557 CZ TYR E 117 43.914 17.840 2.387 1.00 84.12 C +ATOM 13558 OH TYR E 117 44.553 16.623 2.451 1.00 80.48 O +ATOM 13559 N TRP E 118 39.632 23.183 3.979 1.00 76.82 N +ATOM 13560 CA TRP E 118 39.006 24.409 4.453 1.00 73.97 C +ATOM 13561 C TRP E 118 39.841 25.045 5.555 1.00 73.94 C +ATOM 13562 O TRP E 118 40.508 24.356 6.330 1.00 73.79 O +ATOM 13563 CB TRP E 118 37.589 24.146 4.986 1.00 70.68 C +ATOM 13564 CG TRP E 118 36.622 23.663 3.951 1.00 67.69 C +ATOM 13565 CD1 TRP E 118 36.649 22.466 3.297 1.00 68.14 C +ATOM 13566 CD2 TRP E 118 35.470 24.361 3.463 1.00 66.33 C +ATOM 13567 NE1 TRP E 118 35.591 22.379 2.425 1.00 68.32 N +ATOM 13568 CE2 TRP E 118 34.851 23.529 2.509 1.00 65.99 C +ATOM 13569 CE3 TRP E 118 34.904 25.609 3.738 1.00 66.56 C +ATOM 13570 CZ2 TRP E 118 33.696 23.905 1.828 1.00 67.07 C +ATOM 13571 CZ3 TRP E 118 33.756 25.981 3.061 1.00 65.66 C +ATOM 13572 CH2 TRP E 118 33.165 25.132 2.117 1.00 66.91 C +ATOM 13573 N GLY E 119 39.796 26.376 5.611 1.00 75.78 N +ATOM 13574 CA GLY E 119 40.381 27.114 6.709 1.00 81.85 C +ATOM 13575 C GLY E 119 39.492 27.101 7.939 1.00 82.87 C +ATOM 13576 O GLY E 119 38.399 26.534 7.955 1.00 82.53 O +ATOM 13577 N GLN E 120 39.980 27.748 8.999 1.00 85.58 N +ATOM 13578 CA GLN E 120 39.213 27.819 10.237 1.00 83.44 C +ATOM 13579 C GLN E 120 38.149 28.909 10.211 1.00 81.68 C +ATOM 13580 O GLN E 120 37.220 28.865 11.024 1.00 82.65 O +ATOM 13581 CB GLN E 120 40.147 28.042 11.431 1.00 85.94 C +ATOM 13582 CG GLN E 120 40.625 29.477 11.611 1.00 86.82 C +ATOM 13583 CD GLN E 120 41.798 29.832 10.715 1.00 94.14 C +ATOM 13584 OE1 GLN E 120 41.994 29.236 9.656 1.00 95.89 O +ATOM 13585 NE2 GLN E 120 42.587 30.812 11.141 1.00 97.13 N +ATOM 13586 N GLY E 121 38.258 29.871 9.308 1.00 81.59 N +ATOM 13587 CA GLY E 121 37.253 30.907 9.180 1.00 80.87 C +ATOM 13588 C GLY E 121 37.616 32.169 9.940 1.00 83.01 C +ATOM 13589 O GLY E 121 38.268 32.136 10.990 1.00 86.66 O +ATOM 13590 N THR E 122 37.188 33.308 9.399 1.00 82.63 N +ATOM 13591 CA THR E 122 37.366 34.609 10.031 1.00 84.54 C +ATOM 13592 C THR E 122 35.998 35.192 10.343 1.00 86.69 C +ATOM 13593 O THR E 122 35.139 35.268 9.460 1.00 86.99 O +ATOM 13594 CB THR E 122 38.135 35.581 9.131 1.00 87.89 C +ATOM 13595 OG1 THR E 122 37.319 35.941 8.009 1.00 92.52 O +ATOM 13596 CG2 THR E 122 39.410 34.952 8.627 1.00 89.47 C +ATOM 13597 N THR E 123 35.797 35.604 11.589 1.00 87.02 N +ATOM 13598 CA THR E 123 34.541 36.213 12.002 1.00 87.97 C +ATOM 13599 C THR E 123 34.614 37.709 11.726 1.00 89.16 C +ATOM 13600 O THR E 123 35.527 38.391 12.214 1.00 91.24 O +ATOM 13601 CB THR E 123 34.266 35.948 13.482 1.00 88.47 C +ATOM 13602 OG1 THR E 123 34.224 34.535 13.718 1.00 81.73 O +ATOM 13603 CG2 THR E 123 32.938 36.566 13.895 1.00 91.13 C +ATOM 13604 N LEU E 124 33.668 38.221 10.940 1.00 91.17 N +ATOM 13605 CA LEU E 124 33.627 39.645 10.645 1.00 95.48 C +ATOM 13606 C LEU E 124 32.492 40.293 11.423 1.00 99.56 C +ATOM 13607 O LEU E 124 31.390 39.742 11.506 1.00107.14 O +ATOM 13608 CB LEU E 124 33.449 39.893 9.144 1.00 99.13 C +ATOM 13609 CG LEU E 124 33.322 41.352 8.699 1.00 97.19 C +ATOM 13610 CD1 LEU E 124 34.577 42.132 9.061 1.00 93.00 C +ATOM 13611 CD2 LEU E 124 33.046 41.440 7.207 1.00 96.05 C +ATOM 13612 N THR E 125 32.767 41.462 11.999 1.00101.77 N +ATOM 13613 CA THR E 125 31.756 42.226 12.717 1.00105.00 C +ATOM 13614 C THR E 125 31.887 43.681 12.304 1.00104.87 C +ATOM 13615 O THR E 125 32.943 44.291 12.499 1.00105.20 O +ATOM 13616 CB THR E 125 31.919 42.080 14.234 1.00102.20 C +ATOM 13617 OG1 THR E 125 32.169 40.707 14.561 1.00 96.61 O +ATOM 13618 CG2 THR E 125 30.660 42.544 14.950 1.00100.55 C +ATOM 13619 N VAL E 126 30.827 44.229 11.723 1.00108.04 N +ATOM 13620 CA VAL E 126 30.796 45.621 11.298 1.00114.94 C +ATOM 13621 C VAL E 126 29.739 46.333 12.131 1.00117.74 C +ATOM 13622 O VAL E 126 28.535 46.116 11.938 1.00119.93 O +ATOM 13623 CB VAL E 126 30.519 45.762 9.797 1.00120.92 C +ATOM 13624 CG1 VAL E 126 30.406 47.221 9.415 1.00120.50 C +ATOM 13625 CG2 VAL E 126 31.609 45.073 8.987 1.00115.94 C +ATOM 13626 N SER E 127 30.186 47.175 13.060 1.00115.72 N +ATOM 13627 CA SER E 127 29.291 47.914 13.936 1.00117.11 C +ATOM 13628 C SER E 127 29.953 49.228 14.318 1.00120.39 C +ATOM 13629 O SER E 127 31.174 49.289 14.484 1.00119.74 O +ATOM 13630 CB SER E 127 28.943 47.110 15.195 1.00117.08 C +ATOM 13631 OG SER E 127 28.136 47.869 16.079 1.00115.35 O +ATOM 13632 N SER E 128 29.140 50.278 14.453 1.00121.30 N +ATOM 13633 CA SER E 128 29.648 51.568 14.901 1.00121.42 C +ATOM 13634 C SER E 128 30.122 51.544 16.348 1.00123.48 C +ATOM 13635 O SER E 128 30.796 52.488 16.775 1.00125.26 O +ATOM 13636 CB SER E 128 28.573 52.643 14.729 1.00118.65 C +ATOM 13637 OG SER E 128 28.253 52.830 13.361 1.00113.34 O +ATOM 13638 N ALA E 129 29.790 50.501 17.103 1.00125.61 N +ATOM 13639 CA ALA E 129 30.244 50.385 18.479 1.00127.30 C +ATOM 13640 C ALA E 129 31.753 50.160 18.532 1.00127.08 C +ATOM 13641 O ALA E 129 32.387 49.757 17.552 1.00124.69 O +ATOM 13642 CB ALA E 129 29.517 49.243 19.190 1.00124.70 C +ATOM 13643 N SER E 130 32.326 50.425 19.699 1.00127.07 N +ATOM 13644 CA SER E 130 33.755 50.272 19.922 1.00126.39 C +ATOM 13645 C SER E 130 34.044 48.971 20.662 1.00119.64 C +ATOM 13646 O SER E 130 33.153 48.342 21.239 1.00120.71 O +ATOM 13647 CB SER E 130 34.311 51.460 20.712 1.00130.17 C +ATOM 13648 OG SER E 130 33.623 51.622 21.940 1.00129.18 O +ATOM 13649 N THR E 131 35.312 48.573 20.633 1.00116.40 N +ATOM 13650 CA THR E 131 35.729 47.340 21.282 1.00114.17 C +ATOM 13651 C THR E 131 35.630 47.478 22.800 1.00119.00 C +ATOM 13652 O THR E 131 35.854 48.552 23.366 1.00121.32 O +ATOM 13653 CB THR E 131 37.160 46.989 20.868 1.00112.81 C +ATOM 13654 OG1 THR E 131 37.241 46.939 19.438 1.00117.21 O +ATOM 13655 CG2 THR E 131 37.557 45.634 21.412 1.00110.30 C +ATOM 13656 N LYS E 132 35.291 46.371 23.462 1.00119.96 N +ATOM 13657 CA LYS E 132 35.168 46.332 24.915 1.00116.90 C +ATOM 13658 C LYS E 132 35.652 44.982 25.419 1.00115.55 C +ATOM 13659 O LYS E 132 35.153 43.941 24.982 1.00116.36 O +ATOM 13660 CB LYS E 132 33.725 46.582 25.361 1.00115.45 C +ATOM 13661 CG LYS E 132 33.493 46.369 26.851 1.00120.53 C +ATOM 13662 CD LYS E 132 34.387 47.270 27.690 1.00121.54 C +ATOM 13663 CE LYS E 132 34.009 47.208 29.161 1.00124.27 C +ATOM 13664 NZ LYS E 132 34.121 45.827 29.706 1.00122.47 N +ATOM 13665 N GLY E 133 36.620 45.002 26.332 1.00114.42 N +ATOM 13666 CA GLY E 133 37.129 43.791 26.928 1.00115.59 C +ATOM 13667 C GLY E 133 36.137 43.188 27.902 1.00117.81 C +ATOM 13668 O GLY E 133 35.237 43.866 28.408 1.00116.70 O +ATOM 13669 N PRO E 134 36.281 41.896 28.184 1.00117.55 N +ATOM 13670 CA PRO E 134 35.320 41.206 29.045 1.00115.63 C +ATOM 13671 C PRO E 134 35.688 41.236 30.520 1.00116.55 C +ATOM 13672 O PRO E 134 36.858 41.261 30.907 1.00114.79 O +ATOM 13673 CB PRO E 134 35.360 39.769 28.506 1.00113.24 C +ATOM 13674 CG PRO E 134 36.721 39.627 27.844 1.00113.97 C +ATOM 13675 CD PRO E 134 37.351 40.994 27.729 1.00116.11 C +ATOM 13676 N SER E 135 34.647 41.230 31.351 1.00115.17 N +ATOM 13677 CA SER E 135 34.788 41.097 32.795 1.00109.77 C +ATOM 13678 C SER E 135 34.551 39.641 33.176 1.00106.94 C +ATOM 13679 O SER E 135 33.494 39.080 32.868 1.00107.64 O +ATOM 13680 CB SER E 135 33.808 42.014 33.526 1.00106.69 C +ATOM 13681 OG SER E 135 34.045 43.374 33.206 1.00106.62 O +ATOM 13682 N VAL E 136 35.529 39.032 33.838 1.00104.25 N +ATOM 13683 CA VAL E 136 35.493 37.614 34.178 1.00105.12 C +ATOM 13684 C VAL E 136 35.254 37.490 35.677 1.00109.17 C +ATOM 13685 O VAL E 136 36.110 37.869 36.486 1.00111.30 O +ATOM 13686 CB VAL E 136 36.783 36.896 33.760 1.00102.84 C +ATOM 13687 CG1 VAL E 136 36.732 35.433 34.174 1.00100.88 C +ATOM 13688 CG2 VAL E 136 36.995 37.026 32.260 1.00107.85 C +ATOM 13689 N PHE E 137 34.094 36.961 36.050 1.00110.26 N +ATOM 13690 CA PHE E 137 33.754 36.696 37.438 1.00106.04 C +ATOM 13691 C PHE E 137 33.690 35.194 37.692 1.00105.02 C +ATOM 13692 O PHE E 137 33.470 34.407 36.767 1.00105.07 O +ATOM 13693 CB PHE E 137 32.409 37.340 37.803 1.00107.52 C +ATOM 13694 CG PHE E 137 32.331 38.805 37.483 1.00109.81 C +ATOM 13695 CD1 PHE E 137 33.065 39.727 38.210 1.00111.47 C +ATOM 13696 CD2 PHE E 137 31.516 39.262 36.459 1.00106.96 C +ATOM 13697 CE1 PHE E 137 32.994 41.077 37.919 1.00112.86 C +ATOM 13698 CE2 PHE E 137 31.440 40.610 36.164 1.00107.48 C +ATOM 13699 CZ PHE E 137 32.180 41.519 36.894 1.00110.57 C +ATOM 13700 N PRO E 138 33.893 34.755 38.932 1.00103.09 N +ATOM 13701 CA PRO E 138 33.831 33.321 39.226 1.00102.37 C +ATOM 13702 C PRO E 138 32.429 32.842 39.570 1.00 99.49 C +ATOM 13703 O PRO E 138 31.577 33.591 40.053 1.00 98.51 O +ATOM 13704 CB PRO E 138 34.762 33.185 40.439 1.00105.66 C +ATOM 13705 CG PRO E 138 34.608 34.484 41.152 1.00110.33 C +ATOM 13706 CD PRO E 138 34.363 35.535 40.092 1.00109.09 C +ATOM 13707 N LEU E 139 32.200 31.559 39.300 1.00 97.78 N +ATOM 13708 CA LEU E 139 30.999 30.831 39.697 1.00 94.47 C +ATOM 13709 C LEU E 139 31.491 29.727 40.626 1.00 94.88 C +ATOM 13710 O LEU E 139 31.877 28.650 40.162 1.00 93.19 O +ATOM 13711 CB LEU E 139 30.255 30.265 38.487 1.00 86.74 C +ATOM 13712 CG LEU E 139 29.850 31.253 37.392 1.00 87.75 C +ATOM 13713 CD1 LEU E 139 29.213 30.521 36.217 1.00 83.54 C +ATOM 13714 CD2 LEU E 139 28.920 32.324 37.938 1.00 86.01 C +ATOM 13715 N ALA E 140 31.491 30.013 41.933 1.00 93.71 N +ATOM 13716 CA ALA E 140 32.132 29.165 42.928 1.00 97.31 C +ATOM 13717 C ALA E 140 31.296 27.916 43.194 1.00 98.57 C +ATOM 13718 O ALA E 140 30.063 27.982 43.206 1.00 97.37 O +ATOM 13719 CB ALA E 140 32.341 29.934 44.231 1.00102.25 C +ATOM 13720 N PRO E 141 31.937 26.772 43.428 1.00100.60 N +ATOM 13721 CA PRO E 141 31.218 25.525 43.704 1.00105.53 C +ATOM 13722 C PRO E 141 30.640 25.513 45.114 1.00113.87 C +ATOM 13723 O PRO E 141 31.378 25.375 46.100 1.00119.92 O +ATOM 13724 CB PRO E 141 32.288 24.448 43.511 1.00107.13 C +ATOM 13725 CG PRO E 141 33.568 25.143 43.841 1.00105.08 C +ATOM 13726 CD PRO E 141 33.400 26.567 43.382 1.00103.15 C +ATOM 13727 N SER E 142 29.325 25.665 45.217 1.00114.09 N +ATOM 13728 CA SER E 142 28.663 25.610 46.513 1.00122.26 C +ATOM 13729 C SER E 142 28.758 24.198 47.081 1.00132.84 C +ATOM 13730 O SER E 142 28.331 23.232 46.439 1.00134.34 O +ATOM 13731 CB SER E 142 27.204 26.039 46.379 1.00120.87 C +ATOM 13732 OG SER E 142 26.492 25.821 47.584 1.00123.85 O +ATOM 13733 N SER E 143 29.332 24.082 48.282 1.00138.91 N +ATOM 13734 CA SER E 143 29.483 22.777 48.920 1.00141.12 C +ATOM 13735 C SER E 143 28.139 22.104 49.172 1.00140.16 C +ATOM 13736 O SER E 143 28.062 20.870 49.212 1.00139.78 O +ATOM 13737 CB SER E 143 30.259 22.921 50.229 1.00144.69 C +ATOM 13738 OG SER E 143 31.574 23.392 49.989 1.00149.32 O +ATOM 13739 N LYS E 144 27.078 22.886 49.344 1.00138.22 N +ATOM 13740 CA LYS E 144 25.743 22.332 49.532 1.00135.34 C +ATOM 13741 C LYS E 144 25.131 21.904 48.202 1.00140.76 C +ATOM 13742 O LYS E 144 25.075 20.714 47.890 1.00145.63 O +ATOM 13743 CB LYS E 144 24.834 23.349 50.225 1.00124.47 C +ATOM 13744 N GLY E 145 26.809 16.532 46.585 1.00123.88 N +ATOM 13745 CA GLY E 145 27.237 15.162 46.795 1.00124.79 C +ATOM 13746 C GLY E 145 28.643 14.894 46.294 1.00125.09 C +ATOM 13747 O GLY E 145 29.597 15.530 46.742 1.00123.96 O +ATOM 13748 N GLY E 146 28.776 13.950 45.364 1.00125.25 N +ATOM 13749 CA GLY E 146 30.075 13.627 44.818 1.00119.39 C +ATOM 13750 C GLY E 146 30.463 14.368 43.560 1.00115.60 C +ATOM 13751 O GLY E 146 31.567 14.160 43.047 1.00118.83 O +ATOM 13752 N THR E 147 29.589 15.224 43.038 1.00113.55 N +ATOM 13753 CA THR E 147 29.867 16.026 41.854 1.00111.24 C +ATOM 13754 C THR E 147 29.705 17.498 42.199 1.00107.41 C +ATOM 13755 O THR E 147 28.723 17.882 42.842 1.00104.71 O +ATOM 13756 CB THR E 147 28.945 15.649 40.688 1.00109.03 C +ATOM 13757 OG1 THR E 147 28.965 14.228 40.494 1.00109.14 O +ATOM 13758 CG2 THR E 147 29.370 16.357 39.409 1.00100.83 C +ATOM 13759 N ALA E 148 30.664 18.316 41.775 1.00108.75 N +ATOM 13760 CA ALA E 148 30.620 19.751 42.002 1.00104.28 C +ATOM 13761 C ALA E 148 30.719 20.481 40.672 1.00 98.94 C +ATOM 13762 O ALA E 148 31.489 20.087 39.791 1.00 97.47 O +ATOM 13763 CB ALA E 148 31.751 20.200 42.932 1.00119.96 C +ATOM 13764 N ALA E 149 29.941 21.547 40.534 1.00 92.03 N +ATOM 13765 CA ALA E 149 29.947 22.376 39.339 1.00 84.88 C +ATOM 13766 C ALA E 149 30.614 23.705 39.660 1.00 88.57 C +ATOM 13767 O ALA E 149 30.389 24.277 40.730 1.00 90.80 O +ATOM 13768 CB ALA E 149 28.526 22.603 38.816 1.00 76.52 C +ATOM 13769 N LEU E 150 31.452 24.185 38.743 1.00 87.45 N +ATOM 13770 CA LEU E 150 32.117 25.466 38.946 1.00 86.51 C +ATOM 13771 C LEU E 150 32.397 26.091 37.590 1.00 84.42 C +ATOM 13772 O LEU E 150 32.602 25.383 36.603 1.00 83.60 O +ATOM 13773 CB LEU E 150 33.413 25.303 39.751 1.00 89.84 C +ATOM 13774 CG LEU E 150 34.520 24.440 39.140 1.00 88.08 C +ATOM 13775 CD1 LEU E 150 35.576 25.304 38.464 1.00 91.83 C +ATOM 13776 CD2 LEU E 150 35.147 23.539 40.193 1.00 91.56 C +ATOM 13777 N GLY E 151 32.421 27.418 37.542 1.00 86.26 N +ATOM 13778 CA GLY E 151 32.559 28.039 36.244 1.00 87.13 C +ATOM 13779 C GLY E 151 33.036 29.474 36.284 1.00 90.76 C +ATOM 13780 O GLY E 151 33.506 29.973 37.307 1.00 94.43 O +ATOM 13781 N CYS E 152 32.898 30.130 35.135 1.00 86.73 N +ATOM 13782 CA CYS E 152 33.321 31.511 34.947 1.00 93.09 C +ATOM 13783 C CYS E 152 32.284 32.243 34.111 1.00 90.91 C +ATOM 13784 O CYS E 152 31.836 31.730 33.081 1.00 91.41 O +ATOM 13785 CB CYS E 152 34.697 31.585 34.272 1.00100.35 C +ATOM 13786 SG CYS E 152 36.085 31.297 35.396 1.00124.97 S +ATOM 13787 N LEU E 153 31.904 33.437 34.562 1.00 92.60 N +ATOM 13788 CA LEU E 153 30.971 34.301 33.850 1.00 92.96 C +ATOM 13789 C LEU E 153 31.777 35.378 33.132 1.00101.06 C +ATOM 13790 O LEU E 153 32.421 36.214 33.776 1.00107.25 O +ATOM 13791 CB LEU E 153 29.961 34.918 34.817 1.00 89.77 C +ATOM 13792 CG LEU E 153 28.954 35.922 34.253 1.00 89.96 C +ATOM 13793 CD1 LEU E 153 27.994 35.240 33.294 1.00 89.24 C +ATOM 13794 CD2 LEU E 153 28.197 36.609 35.380 1.00 94.87 C +ATOM 13795 N VAL E 154 31.751 35.347 31.804 1.00 98.24 N +ATOM 13796 CA VAL E 154 32.457 36.308 30.966 1.00 99.83 C +ATOM 13797 C VAL E 154 31.410 37.289 30.450 1.00103.84 C +ATOM 13798 O VAL E 154 30.718 37.018 29.465 1.00105.94 O +ATOM 13799 CB VAL E 154 33.206 35.609 29.829 1.00101.79 C +ATOM 13800 CG1 VAL E 154 33.977 36.609 28.997 1.00107.54 C +ATOM 13801 CG2 VAL E 154 34.139 34.549 30.392 1.00100.19 C +ATOM 13802 N LYS E 155 31.294 38.437 31.111 1.00104.63 N +ATOM 13803 CA LYS E 155 30.216 39.388 30.887 1.00111.42 C +ATOM 13804 C LYS E 155 30.726 40.679 30.257 1.00113.34 C +ATOM 13805 O LYS E 155 31.886 41.064 30.432 1.00113.58 O +ATOM 13806 CB LYS E 155 29.507 39.718 32.203 1.00111.33 C +ATOM 13807 CG LYS E 155 28.132 40.343 32.050 1.00115.24 C +ATOM 13808 CD LYS E 155 27.640 40.866 33.392 1.00106.64 C +ATOM 13809 CE LYS E 155 26.553 41.922 33.226 1.00108.09 C +ATOM 13810 NZ LYS E 155 25.494 41.571 32.242 1.00110.88 N +ATOM 13811 N ASP E 156 29.825 41.346 29.530 1.00115.27 N +ATOM 13812 CA ASP E 156 30.035 42.686 28.993 1.00119.81 C +ATOM 13813 C ASP E 156 31.284 42.798 28.129 1.00119.90 C +ATOM 13814 O ASP E 156 32.294 43.361 28.561 1.00119.47 O +ATOM 13815 CB ASP E 156 30.108 43.694 30.140 1.00122.11 C +ATOM 13816 CG ASP E 156 28.835 43.727 30.962 1.00123.90 C +ATOM 13817 OD1 ASP E 156 27.739 43.645 30.367 1.00118.62 O +ATOM 13818 OD2 ASP E 156 28.931 43.825 32.203 1.00132.64 O +ATOM 13819 N TYR E 157 31.219 42.275 26.904 1.00116.54 N +ATOM 13820 CA TYR E 157 32.294 42.419 25.934 1.00114.13 C +ATOM 13821 C TYR E 157 31.697 42.563 24.541 1.00112.91 C +ATOM 13822 O TYR E 157 30.533 42.233 24.303 1.00114.01 O +ATOM 13823 CB TYR E 157 33.268 41.232 25.981 1.00113.16 C +ATOM 13824 CG TYR E 157 32.686 39.916 25.510 1.00111.96 C +ATOM 13825 CD1 TYR E 157 32.697 39.566 24.163 1.00111.40 C +ATOM 13826 CD2 TYR E 157 32.133 39.020 26.413 1.00111.50 C +ATOM 13827 CE1 TYR E 157 32.163 38.365 23.731 1.00110.85 C +ATOM 13828 CE2 TYR E 157 31.602 37.816 25.991 1.00109.77 C +ATOM 13829 CZ TYR E 157 31.621 37.493 24.650 1.00109.51 C +ATOM 13830 OH TYR E 157 31.092 36.294 24.228 1.00105.55 O +ATOM 13831 N PHE E 158 32.519 43.062 23.619 1.00112.45 N +ATOM 13832 CA PHE E 158 32.117 43.248 22.231 1.00110.97 C +ATOM 13833 C PHE E 158 33.358 43.471 21.375 1.00110.41 C +ATOM 13834 O PHE E 158 34.271 44.195 21.790 1.00110.40 O +ATOM 13835 CB PHE E 158 31.147 44.427 22.102 1.00111.61 C +ATOM 13836 CG PHE E 158 30.573 44.605 20.718 1.00110.98 C +ATOM 13837 CD1 PHE E 158 31.223 45.386 19.775 1.00112.39 C +ATOM 13838 CD2 PHE E 158 29.373 44.005 20.369 1.00112.30 C +ATOM 13839 CE1 PHE E 158 30.692 45.554 18.508 1.00114.88 C +ATOM 13840 CE2 PHE E 158 28.838 44.171 19.104 1.00111.76 C +ATOM 13841 CZ PHE E 158 29.499 44.947 18.173 1.00111.25 C +ATOM 13842 N PRO E 159 33.439 42.868 20.178 1.00111.59 N +ATOM 13843 CA PRO E 159 32.460 41.920 19.642 1.00110.23 C +ATOM 13844 C PRO E 159 32.838 40.463 19.903 1.00109.12 C +ATOM 13845 O PRO E 159 33.720 40.183 20.714 1.00106.50 O +ATOM 13846 CB PRO E 159 32.488 42.223 18.147 1.00107.77 C +ATOM 13847 CG PRO E 159 33.923 42.568 17.894 1.00109.00 C +ATOM 13848 CD PRO E 159 34.434 43.245 19.157 1.00110.03 C +ATOM 13849 N GLU E 160 32.166 39.550 19.207 1.00108.80 N +ATOM 13850 CA GLU E 160 32.548 38.149 19.222 1.00107.45 C +ATOM 13851 C GLU E 160 33.833 37.945 18.420 1.00105.65 C +ATOM 13852 O GLU E 160 34.173 38.761 17.561 1.00106.76 O +ATOM 13853 CB GLU E 160 31.417 37.291 18.658 1.00111.95 C +ATOM 13854 CG GLU E 160 30.258 37.109 19.622 1.00109.73 C +ATOM 13855 CD GLU E 160 30.529 36.032 20.654 1.00106.71 C +ATOM 13856 OE1 GLU E 160 30.854 34.893 20.259 1.00101.06 O +ATOM 13857 OE2 GLU E 160 30.429 36.329 21.863 1.00109.60 O +ATOM 13858 N PRO E 161 34.573 36.852 18.681 1.00106.36 N +ATOM 13859 CA PRO E 161 34.330 35.795 19.664 1.00110.00 C +ATOM 13860 C PRO E 161 35.219 35.871 20.904 1.00111.22 C +ATOM 13861 O PRO E 161 35.994 36.813 21.067 1.00111.30 O +ATOM 13862 CB PRO E 161 34.639 34.527 18.867 1.00111.65 C +ATOM 13863 CG PRO E 161 35.661 34.976 17.813 1.00106.96 C +ATOM 13864 CD PRO E 161 35.705 36.493 17.815 1.00105.73 C +ATOM 13865 N VAL E 162 35.090 34.865 21.767 1.00113.60 N +ATOM 13866 CA VAL E 162 35.918 34.717 22.958 1.00116.23 C +ATOM 13867 C VAL E 162 36.334 33.257 23.074 1.00116.72 C +ATOM 13868 O VAL E 162 35.527 32.352 22.839 1.00124.00 O +ATOM 13869 CB VAL E 162 35.168 35.182 24.226 1.00114.66 C +ATOM 13870 CG1 VAL E 162 35.817 34.626 25.478 1.00114.19 C +ATOM 13871 CG2 VAL E 162 35.131 36.696 24.291 1.00113.59 C +ATOM 13872 N THR E 163 37.594 33.028 23.435 1.00115.72 N +ATOM 13873 CA THR E 163 38.134 31.684 23.607 1.00118.44 C +ATOM 13874 C THR E 163 38.283 31.407 25.096 1.00117.41 C +ATOM 13875 O THR E 163 39.052 32.087 25.782 1.00117.24 O +ATOM 13876 CB THR E 163 39.480 31.532 22.897 1.00120.84 C +ATOM 13877 OG1 THR E 163 39.318 31.796 21.498 1.00119.47 O +ATOM 13878 CG2 THR E 163 40.024 30.123 23.085 1.00115.64 C +ATOM 13879 N VAL E 164 37.547 30.416 25.594 1.00114.81 N +ATOM 13880 CA VAL E 164 37.582 30.036 27.002 1.00106.92 C +ATOM 13881 C VAL E 164 38.149 28.628 27.111 1.00102.07 C +ATOM 13882 O VAL E 164 37.716 27.718 26.393 1.00101.89 O +ATOM 13883 CB VAL E 164 36.187 30.116 27.646 1.00 99.70 C +ATOM 13884 CG1 VAL E 164 36.257 29.685 29.100 1.00 94.83 C +ATOM 13885 CG2 VAL E 164 35.626 31.525 27.527 1.00102.90 C +ATOM 13886 N SER E 165 39.116 28.453 28.007 1.00101.17 N +ATOM 13887 CA SER E 165 39.718 27.157 28.280 1.00102.12 C +ATOM 13888 C SER E 165 39.793 26.949 29.787 1.00103.08 C +ATOM 13889 O SER E 165 39.581 27.873 30.575 1.00105.39 O +ATOM 13890 CB SER E 165 41.113 27.042 27.653 1.00107.51 C +ATOM 13891 OG SER E 165 41.761 25.851 28.064 1.00110.84 O +ATOM 13892 N TRP E 166 40.109 25.720 30.187 1.00102.36 N +ATOM 13893 CA TRP E 166 40.252 25.368 31.594 1.00104.36 C +ATOM 13894 C TRP E 166 41.575 24.647 31.796 1.00106.22 C +ATOM 13895 O TRP E 166 41.850 23.649 31.121 1.00106.70 O +ATOM 13896 CB TRP E 166 39.083 24.503 32.080 1.00104.79 C +ATOM 13897 CG TRP E 166 37.824 25.288 32.300 1.00 99.92 C +ATOM 13898 CD1 TRP E 166 36.839 25.532 31.388 1.00 94.67 C +ATOM 13899 CD2 TRP E 166 37.423 25.947 33.508 1.00 99.54 C +ATOM 13900 NE1 TRP E 166 35.846 26.295 31.955 1.00 92.68 N +ATOM 13901 CE2 TRP E 166 36.182 26.563 33.256 1.00 95.92 C +ATOM 13902 CE3 TRP E 166 37.993 26.072 34.779 1.00102.22 C +ATOM 13903 CZ2 TRP E 166 35.499 27.294 34.228 1.00 93.42 C +ATOM 13904 CZ3 TRP E 166 37.314 26.798 35.742 1.00 99.26 C +ATOM 13905 CH2 TRP E 166 36.081 27.399 35.461 1.00 94.38 C +ATOM 13906 N ASN E 167 42.388 25.162 32.722 1.00106.15 N +ATOM 13907 CA ASN E 167 43.726 24.634 32.998 1.00107.17 C +ATOM 13908 C ASN E 167 44.603 24.666 31.748 1.00109.45 C +ATOM 13909 O ASN E 167 45.372 23.740 31.484 1.00107.15 O +ATOM 13910 CB ASN E 167 43.660 23.219 33.580 1.00103.29 C +ATOM 13911 CG ASN E 167 43.079 23.189 34.979 1.00102.07 C +ATOM 13912 OD1 ASN E 167 42.571 24.194 35.476 1.00103.72 O +ATOM 13913 ND2 ASN E 167 43.150 22.030 35.624 1.00100.60 N +ATOM 13914 N SER E 168 44.478 25.746 30.972 1.00109.92 N +ATOM 13915 CA SER E 168 45.278 25.964 29.764 1.00111.02 C +ATOM 13916 C SER E 168 45.117 24.825 28.760 1.00112.11 C +ATOM 13917 O SER E 168 46.025 24.544 27.974 1.00117.84 O +ATOM 13918 CB SER E 168 46.756 26.174 30.106 1.00112.38 C +ATOM 13919 OG SER E 168 46.933 27.340 30.892 1.00109.06 O +ATOM 13920 N GLY E 169 43.962 24.162 28.779 1.00107.99 N +ATOM 13921 CA GLY E 169 43.676 23.071 27.873 1.00107.30 C +ATOM 13922 C GLY E 169 43.803 21.691 28.481 1.00106.36 C +ATOM 13923 O GLY E 169 43.370 20.716 27.855 1.00107.73 O +ATOM 13924 N ALA E 170 44.387 21.576 29.677 1.00103.58 N +ATOM 13925 CA ALA E 170 44.545 20.272 30.308 1.00105.03 C +ATOM 13926 C ALA E 170 43.221 19.693 30.790 1.00106.37 C +ATOM 13927 O ALA E 170 43.120 18.474 30.963 1.00105.22 O +ATOM 13928 CB ALA E 170 45.525 20.367 31.478 1.00106.33 C +ATOM 13929 N LEU E 171 42.211 20.532 31.008 1.00106.63 N +ATOM 13930 CA LEU E 171 40.901 20.098 31.485 1.00105.37 C +ATOM 13931 C LEU E 171 39.896 20.252 30.350 1.00104.02 C +ATOM 13932 O LEU E 171 39.578 21.375 29.943 1.00103.78 O +ATOM 13933 CB LEU E 171 40.473 20.903 32.710 1.00105.03 C +ATOM 13934 CG LEU E 171 39.173 20.465 33.386 1.00103.40 C +ATOM 13935 CD1 LEU E 171 39.289 19.038 33.902 1.00103.09 C +ATOM 13936 CD2 LEU E 171 38.806 21.420 34.511 1.00 99.87 C +ATOM 13937 N THR E 172 39.397 19.125 29.843 1.00102.10 N +ATOM 13938 CA THR E 172 38.437 19.145 28.746 1.00101.53 C +ATOM 13939 C THR E 172 37.200 18.324 29.088 1.00 99.79 C +ATOM 13940 O THR E 172 36.097 18.628 28.620 1.00 98.65 O +ATOM 13941 CB THR E 172 39.075 18.616 27.458 1.00101.33 C +ATOM 13942 OG1 THR E 172 39.586 17.296 27.682 1.00101.42 O +ATOM 13943 CG2 THR E 172 40.208 19.527 27.004 1.00101.94 C +ATOM 13944 N SER E 173 37.372 17.284 29.900 1.00100.25 N +ATOM 13945 CA SER E 173 36.261 16.414 30.264 1.00 96.74 C +ATOM 13946 C SER E 173 35.270 17.166 31.145 1.00 96.66 C +ATOM 13947 O SER E 173 35.645 17.716 32.186 1.00 96.11 O +ATOM 13948 CB SER E 173 36.779 15.169 30.980 1.00 98.33 C +ATOM 13949 OG SER E 173 35.713 14.418 31.534 1.00 96.60 O +ATOM 13950 N GLY E 174 34.007 17.189 30.726 1.00 92.61 N +ATOM 13951 CA GLY E 174 32.954 17.806 31.505 1.00 87.27 C +ATOM 13952 C GLY E 174 32.839 19.305 31.365 1.00 83.95 C +ATOM 13953 O GLY E 174 32.087 19.925 32.126 1.00 87.02 O +ATOM 13954 N VAL E 175 33.556 19.909 30.428 1.00 79.92 N +ATOM 13955 CA VAL E 175 33.519 21.351 30.220 1.00 76.30 C +ATOM 13956 C VAL E 175 32.365 21.685 29.285 1.00 73.54 C +ATOM 13957 O VAL E 175 32.078 20.944 28.338 1.00 75.54 O +ATOM 13958 CB VAL E 175 34.863 21.857 29.662 1.00 78.59 C +ATOM 13959 CG1 VAL E 175 34.858 23.374 29.537 1.00 72.84 C +ATOM 13960 CG2 VAL E 175 36.010 21.396 30.548 1.00 85.48 C +ATOM 13961 N HIS E 176 31.701 22.809 29.549 1.00 69.74 N +ATOM 13962 CA HIS E 176 30.612 23.304 28.711 1.00 69.37 C +ATOM 13963 C HIS E 176 30.740 24.817 28.623 1.00 69.06 C +ATOM 13964 O HIS E 176 30.518 25.517 29.616 1.00 71.93 O +ATOM 13965 CB HIS E 176 29.246 22.910 29.275 1.00 71.99 C +ATOM 13966 CG HIS E 176 28.977 21.438 29.247 1.00 73.62 C +ATOM 13967 ND1 HIS E 176 28.545 20.740 30.354 1.00 71.96 N +ATOM 13968 CD2 HIS E 176 29.064 20.534 28.243 1.00 74.97 C +ATOM 13969 CE1 HIS E 176 28.387 19.468 30.036 1.00 75.31 C +ATOM 13970 NE2 HIS E 176 28.695 19.316 28.760 1.00 77.58 N +ATOM 13971 N THR E 177 31.108 25.320 27.449 1.00 69.18 N +ATOM 13972 CA THR E 177 31.153 26.753 27.192 1.00 71.79 C +ATOM 13973 C THR E 177 29.909 27.133 26.399 1.00 69.79 C +ATOM 13974 O THR E 177 29.728 26.679 25.264 1.00 74.81 O +ATOM 13975 CB THR E 177 32.420 27.140 26.430 1.00 70.70 C +ATOM 13976 OG1 THR E 177 33.572 26.688 27.153 1.00 68.07 O +ATOM 13977 CG2 THR E 177 32.495 28.651 26.260 1.00 72.48 C +ATOM 13978 N PHE E 178 29.059 27.961 26.996 1.00 70.24 N +ATOM 13979 CA PHE E 178 27.766 28.264 26.407 1.00 74.53 C +ATOM 13980 C PHE E 178 27.886 29.357 25.348 1.00 75.04 C +ATOM 13981 O PHE E 178 28.753 30.231 25.440 1.00 77.75 O +ATOM 13982 CB PHE E 178 26.779 28.703 27.484 1.00 76.58 C +ATOM 13983 CG PHE E 178 26.465 27.635 28.491 1.00 74.30 C +ATOM 13984 CD1 PHE E 178 27.299 27.414 29.573 1.00 73.61 C +ATOM 13985 CD2 PHE E 178 25.333 26.850 28.353 1.00 72.69 C +ATOM 13986 CE1 PHE E 178 27.012 26.432 30.497 1.00 71.56 C +ATOM 13987 CE2 PHE E 178 25.042 25.865 29.275 1.00 71.71 C +ATOM 13988 CZ PHE E 178 25.883 25.656 30.347 1.00 71.60 C +ATOM 13989 N PRO E 179 27.037 29.314 24.321 1.00 76.18 N +ATOM 13990 CA PRO E 179 27.028 30.392 23.326 1.00 78.66 C +ATOM 13991 C PRO E 179 26.721 31.735 23.971 1.00 82.03 C +ATOM 13992 O PRO E 179 25.938 31.827 24.919 1.00 83.03 O +ATOM 13993 CB PRO E 179 25.922 29.967 22.353 1.00 78.81 C +ATOM 13994 CG PRO E 179 25.818 28.488 22.518 1.00 79.67 C +ATOM 13995 CD PRO E 179 26.121 28.218 23.962 1.00 77.58 C +ATOM 13996 N ALA E 180 27.353 32.781 23.448 1.00 86.11 N +ATOM 13997 CA ALA E 180 27.151 34.122 23.975 1.00 89.71 C +ATOM 13998 C ALA E 180 25.727 34.599 23.711 1.00 89.73 C +ATOM 13999 O ALA E 180 25.110 34.265 22.696 1.00 87.34 O +ATOM 14000 CB ALA E 180 28.151 35.096 23.355 1.00 95.68 C +ATOM 14001 N VAL E 181 25.205 35.390 24.646 1.00 91.45 N +ATOM 14002 CA VAL E 181 23.881 35.990 24.537 1.00 91.85 C +ATOM 14003 C VAL E 181 24.051 37.498 24.429 1.00 95.20 C +ATOM 14004 O VAL E 181 24.783 38.104 25.220 1.00 97.31 O +ATOM 14005 CB VAL E 181 22.994 35.621 25.739 1.00 94.73 C +ATOM 14006 CG1 VAL E 181 21.592 36.185 25.558 1.00 95.81 C +ATOM 14007 CG2 VAL E 181 22.950 34.111 25.923 1.00 89.57 C +ATOM 14008 N LEU E 182 23.378 38.101 23.451 1.00 97.99 N +ATOM 14009 CA LEU E 182 23.450 39.544 23.249 1.00104.84 C +ATOM 14010 C LEU E 182 22.522 40.227 24.247 1.00107.08 C +ATOM 14011 O LEU E 182 21.295 40.123 24.140 1.00109.04 O +ATOM 14012 CB LEU E 182 23.088 39.901 21.810 1.00105.15 C +ATOM 14013 CG LEU E 182 23.357 41.336 21.346 1.00104.97 C +ATOM 14014 CD1 LEU E 182 23.797 41.346 19.893 1.00104.44 C +ATOM 14015 CD2 LEU E 182 22.130 42.216 21.527 1.00103.25 C +ATOM 14016 N GLN E 183 23.108 40.924 25.216 1.00109.13 N +ATOM 14017 CA GLN E 183 22.340 41.617 26.236 1.00113.22 C +ATOM 14018 C GLN E 183 21.671 42.861 25.651 1.00118.18 C +ATOM 14019 O GLN E 183 21.976 43.303 24.539 1.00123.02 O +ATOM 14020 CB GLN E 183 23.244 41.995 27.408 1.00113.01 C +ATOM 14021 CG GLN E 183 23.955 40.806 28.031 1.00110.77 C +ATOM 14022 CD GLN E 183 25.018 41.216 29.028 1.00113.63 C +ATOM 14023 OE1 GLN E 183 25.036 40.741 30.162 1.00115.29 O +ATOM 14024 NE2 GLN E 183 25.915 42.100 28.607 1.00116.38 N +ATOM 14025 N SER E 184 20.734 43.425 26.420 1.00120.63 N +ATOM 14026 CA SER E 184 20.058 44.646 25.992 1.00125.62 C +ATOM 14027 C SER E 184 21.044 45.782 25.751 1.00126.32 C +ATOM 14028 O SER E 184 20.769 46.684 24.952 1.00127.83 O +ATOM 14029 CB SER E 184 19.012 45.059 27.028 1.00130.31 C +ATOM 14030 OG SER E 184 18.019 44.060 27.178 1.00132.10 O +ATOM 14031 N SER E 185 22.191 45.756 26.428 1.00123.60 N +ATOM 14032 CA SER E 185 23.203 46.796 26.305 1.00123.70 C +ATOM 14033 C SER E 185 24.025 46.676 25.027 1.00128.56 C +ATOM 14034 O SER E 185 24.991 47.429 24.859 1.00132.20 O +ATOM 14035 CB SER E 185 24.135 46.765 27.520 1.00123.80 C +ATOM 14036 OG SER E 185 24.807 45.520 27.610 1.00118.39 O +ATOM 14037 N GLY E 186 23.673 45.757 24.130 1.00127.37 N +ATOM 14038 CA GLY E 186 24.454 45.520 22.936 1.00125.02 C +ATOM 14039 C GLY E 186 25.739 44.752 23.148 1.00124.91 C +ATOM 14040 O GLY E 186 26.442 44.475 22.168 1.00126.92 O +ATOM 14041 N LEU E 187 26.070 44.398 24.385 1.00118.31 N +ATOM 14042 CA LEU E 187 27.274 43.645 24.700 1.00115.67 C +ATOM 14043 C LEU E 187 26.947 42.166 24.878 1.00113.64 C +ATOM 14044 O LEU E 187 25.810 41.785 25.168 1.00113.99 O +ATOM 14045 CB LEU E 187 27.937 44.190 25.968 1.00116.90 C +ATOM 14046 CG LEU E 187 28.320 45.671 25.948 1.00120.87 C +ATOM 14047 CD1 LEU E 187 28.884 46.097 27.295 1.00125.21 C +ATOM 14048 CD2 LEU E 187 29.311 45.959 24.833 1.00119.66 C +ATOM 14049 N TYR E 188 27.966 41.333 24.699 1.00112.85 N +ATOM 14050 CA TYR E 188 27.823 39.890 24.807 1.00110.80 C +ATOM 14051 C TYR E 188 28.217 39.411 26.200 1.00109.42 C +ATOM 14052 O TYR E 188 28.930 40.091 26.942 1.00112.04 O +ATOM 14053 CB TYR E 188 28.675 39.178 23.753 1.00110.65 C +ATOM 14054 CG TYR E 188 28.160 39.322 22.339 1.00111.59 C +ATOM 14055 CD1 TYR E 188 27.173 38.477 21.849 1.00107.91 C +ATOM 14056 CD2 TYR E 188 28.669 40.296 21.490 1.00114.88 C +ATOM 14057 CE1 TYR E 188 26.701 38.604 20.556 1.00112.98 C +ATOM 14058 CE2 TYR E 188 28.204 40.430 20.195 1.00115.44 C +ATOM 14059 CZ TYR E 188 27.220 39.581 19.734 1.00114.48 C +ATOM 14060 OH TYR E 188 26.755 39.710 18.445 1.00111.37 O +ATOM 14061 N SER E 189 27.739 38.217 26.543 1.00106.70 N +ATOM 14062 CA SER E 189 28.030 37.602 27.829 1.00106.88 C +ATOM 14063 C SER E 189 27.793 36.104 27.711 1.00 97.25 C +ATOM 14064 O SER E 189 26.876 35.671 27.009 1.00 95.30 O +ATOM 14065 CB SER E 189 27.165 38.198 28.947 1.00108.30 C +ATOM 14066 OG SER E 189 25.786 38.080 28.644 1.00115.74 O +ATOM 14067 N LEU E 190 28.619 35.321 28.401 1.00 92.13 N +ATOM 14068 CA LEU E 190 28.495 33.872 28.367 1.00 87.81 C +ATOM 14069 C LEU E 190 29.005 33.297 29.680 1.00 86.88 C +ATOM 14070 O LEU E 190 29.534 34.010 30.536 1.00 90.67 O +ATOM 14071 CB LEU E 190 29.243 33.276 27.162 1.00 87.93 C +ATOM 14072 CG LEU E 190 30.773 33.356 27.053 1.00 86.29 C +ATOM 14073 CD1 LEU E 190 31.488 32.258 27.838 1.00 77.75 C +ATOM 14074 CD2 LEU E 190 31.197 33.325 25.592 1.00 82.37 C +ATOM 14075 N SER E 191 28.817 31.990 29.838 1.00 82.27 N +ATOM 14076 CA SER E 191 29.307 31.259 30.995 1.00 83.30 C +ATOM 14077 C SER E 191 30.003 29.990 30.527 1.00 77.94 C +ATOM 14078 O SER E 191 29.623 29.391 29.518 1.00 78.35 O +ATOM 14079 CB SER E 191 28.172 30.909 31.967 1.00 85.85 C +ATOM 14080 OG SER E 191 27.508 32.076 32.421 1.00 84.40 O +ATOM 14081 N SER E 192 31.040 29.597 31.261 1.00 75.76 N +ATOM 14082 CA SER E 192 31.760 28.355 30.995 1.00 74.29 C +ATOM 14083 C SER E 192 31.813 27.558 32.289 1.00 77.33 C +ATOM 14084 O SER E 192 32.441 27.992 33.259 1.00 83.12 O +ATOM 14085 CB SER E 192 33.165 28.629 30.463 1.00 79.03 C +ATOM 14086 OG SER E 192 33.866 27.420 30.231 1.00 81.55 O +ATOM 14087 N VAL E 193 31.155 26.403 32.304 1.00 75.27 N +ATOM 14088 CA VAL E 193 31.040 25.585 33.502 1.00 76.35 C +ATOM 14089 C VAL E 193 31.797 24.278 33.303 1.00 75.41 C +ATOM 14090 O VAL E 193 32.138 23.883 32.185 1.00 72.72 O +ATOM 14091 CB VAL E 193 29.568 25.309 33.869 1.00 74.45 C +ATOM 14092 CG1 VAL E 193 28.834 26.614 34.138 1.00 72.88 C +ATOM 14093 CG2 VAL E 193 28.888 24.516 32.765 1.00 71.57 C +ATOM 14094 N VAL E 194 32.075 23.610 34.419 1.00 78.69 N +ATOM 14095 CA VAL E 194 32.746 22.316 34.412 1.00 82.06 C +ATOM 14096 C VAL E 194 32.305 21.545 35.649 1.00 84.55 C +ATOM 14097 O VAL E 194 32.138 22.118 36.733 1.00 85.98 O +ATOM 14098 CB VAL E 194 34.283 22.471 34.345 1.00 85.43 C +ATOM 14099 CG1 VAL E 194 34.796 23.304 35.506 1.00 87.66 C +ATOM 14100 CG2 VAL E 194 34.964 21.107 34.313 1.00 84.90 C +ATOM 14101 N THR E 195 32.098 20.241 35.471 1.00 86.43 N +ATOM 14102 CA THR E 195 31.772 19.331 36.558 1.00 94.11 C +ATOM 14103 C THR E 195 33.007 18.523 36.933 1.00100.26 C +ATOM 14104 O THR E 195 33.731 18.033 36.061 1.00 98.77 O +ATOM 14105 CB THR E 195 30.634 18.386 36.165 1.00 95.25 C +ATOM 14106 OG1 THR E 195 31.016 17.631 35.007 1.00 94.59 O +ATOM 14107 CG2 THR E 195 29.370 19.173 35.854 1.00 89.33 C +ATOM 14108 N VAL E 196 33.240 18.387 38.234 1.00106.64 N +ATOM 14109 CA VAL E 196 34.433 17.719 38.755 1.00113.31 C +ATOM 14110 C VAL E 196 34.048 16.881 39.964 1.00118.51 C +ATOM 14111 O VAL E 196 32.988 17.082 40.571 1.00114.30 O +ATOM 14112 CB VAL E 196 35.535 18.728 39.145 1.00111.76 C +ATOM 14113 CG1 VAL E 196 36.000 19.531 37.937 1.00105.47 C +ATOM 14114 CG2 VAL E 196 35.041 19.653 40.248 1.00110.16 C +ATOM 14115 N PRO E 197 34.875 15.895 40.309 1.00123.80 N +ATOM 14116 CA PRO E 197 34.670 15.181 41.576 1.00127.15 C +ATOM 14117 C PRO E 197 34.773 16.140 42.754 1.00135.89 C +ATOM 14118 O PRO E 197 35.719 16.924 42.856 1.00145.16 O +ATOM 14119 CB PRO E 197 35.792 14.135 41.586 1.00130.58 C +ATOM 14120 CG PRO E 197 36.780 14.601 40.561 1.00138.02 C +ATOM 14121 CD PRO E 197 35.974 15.309 39.522 1.00128.35 C +ATOM 14122 N SER E 198 33.772 16.082 43.638 1.00135.38 N +ATOM 14123 CA SER E 198 33.706 17.021 44.755 1.00129.91 C +ATOM 14124 C SER E 198 34.935 16.917 45.650 1.00135.62 C +ATOM 14125 O SER E 198 35.427 17.931 46.161 1.00135.80 O +ATOM 14126 CB SER E 198 32.433 16.780 45.567 1.00127.33 C +ATOM 14127 OG SER E 198 32.382 15.449 46.047 1.00128.93 O +ATOM 14128 N SER E 199 35.448 15.700 45.850 1.00137.37 N +ATOM 14129 CA SER E 199 36.613 15.505 46.707 1.00138.92 C +ATOM 14130 C SER E 199 37.827 16.294 46.235 1.00138.88 C +ATOM 14131 O SER E 199 38.731 16.556 47.036 1.00138.44 O +ATOM 14132 CB SER E 199 36.959 14.017 46.786 1.00135.92 C +ATOM 14133 OG SER E 199 37.321 13.510 45.513 1.00136.41 O +ATOM 14134 N SER E 200 37.870 16.678 44.960 1.00137.18 N +ATOM 14135 CA SER E 200 38.986 17.436 44.410 1.00136.80 C +ATOM 14136 C SER E 200 38.862 18.939 44.633 1.00134.98 C +ATOM 14137 O SER E 200 39.774 19.677 44.245 1.00136.29 O +ATOM 14138 CB SER E 200 39.127 17.151 42.912 1.00134.60 C +ATOM 14139 OG SER E 200 38.014 17.650 42.191 1.00131.89 O +ATOM 14140 N LEU E 201 37.764 19.411 45.234 1.00133.21 N +ATOM 14141 CA LEU E 201 37.587 20.850 45.426 1.00132.13 C +ATOM 14142 C LEU E 201 38.681 21.448 46.301 1.00133.14 C +ATOM 14143 O LEU E 201 39.050 22.615 46.122 1.00128.29 O +ATOM 14144 CB LEU E 201 36.215 21.140 46.033 1.00129.70 C +ATOM 14145 CG LEU E 201 34.992 20.916 45.143 1.00127.77 C +ATOM 14146 CD1 LEU E 201 33.713 21.206 45.915 1.00130.58 C +ATOM 14147 CD2 LEU E 201 35.075 21.773 43.890 1.00123.61 C +ATOM 14148 N GLY E 202 39.211 20.674 47.246 1.00137.94 N +ATOM 14149 CA GLY E 202 40.264 21.148 48.119 1.00139.63 C +ATOM 14150 C GLY E 202 41.673 20.857 47.662 1.00138.10 C +ATOM 14151 O GLY E 202 42.622 21.415 48.220 1.00140.04 O +ATOM 14152 N THR E 203 41.841 20.000 46.655 1.00133.55 N +ATOM 14153 CA THR E 203 43.162 19.596 46.186 1.00133.78 C +ATOM 14154 C THR E 203 43.478 20.218 44.830 1.00135.77 C +ATOM 14155 O THR E 203 44.295 21.139 44.752 1.00138.36 O +ATOM 14156 CB THR E 203 43.259 18.070 46.119 1.00136.47 C +ATOM 14157 OG1 THR E 203 42.293 17.570 45.185 1.00138.67 O +ATOM 14158 CG2 THR E 203 42.995 17.460 47.487 1.00134.38 C +ATOM 14159 N GLN E 204 42.856 19.738 43.757 1.00133.20 N +ATOM 14160 CA GLN E 204 43.175 20.230 42.423 1.00126.68 C +ATOM 14161 C GLN E 204 42.749 21.684 42.264 1.00123.15 C +ATOM 14162 O GLN E 204 41.735 22.119 42.817 1.00121.94 O +ATOM 14163 CB GLN E 204 42.497 19.365 41.360 1.00124.46 C +ATOM 14164 CG GLN E 204 43.462 18.666 40.407 1.00121.03 C +ATOM 14165 CD GLN E 204 44.133 19.620 39.433 1.00121.48 C +ATOM 14166 OE1 GLN E 204 43.833 20.812 39.406 1.00119.44 O +ATOM 14167 NE2 GLN E 204 45.044 19.093 38.623 1.00122.12 N +ATOM 14168 N THR E 205 43.535 22.435 41.500 1.00120.76 N +ATOM 14169 CA THR E 205 43.283 23.847 41.255 1.00119.97 C +ATOM 14170 C THR E 205 42.691 24.025 39.862 1.00116.58 C +ATOM 14171 O THR E 205 43.149 23.404 38.898 1.00116.62 O +ATOM 14172 CB THR E 205 44.577 24.653 41.393 1.00121.94 C +ATOM 14173 OG1 THR E 205 45.006 24.636 42.761 1.00124.70 O +ATOM 14174 CG2 THR E 205 44.369 26.091 40.959 1.00117.39 C +ATOM 14175 N TYR E 206 41.681 24.886 39.755 1.00113.72 N +ATOM 14176 CA TYR E 206 40.976 25.111 38.499 1.00111.21 C +ATOM 14177 C TYR E 206 41.050 26.586 38.134 1.00111.77 C +ATOM 14178 O TYR E 206 40.616 27.444 38.911 1.00112.00 O +ATOM 14179 CB TYR E 206 39.521 24.652 38.606 1.00108.90 C +ATOM 14180 CG TYR E 206 39.378 23.183 38.937 1.00107.41 C +ATOM 14181 CD1 TYR E 206 39.514 22.211 37.954 1.00107.86 C +ATOM 14182 CD2 TYR E 206 39.119 22.769 40.236 1.00104.32 C +ATOM 14183 CE1 TYR E 206 39.388 20.867 38.256 1.00106.30 C +ATOM 14184 CE2 TYR E 206 38.991 21.430 40.548 1.00107.14 C +ATOM 14185 CZ TYR E 206 39.127 20.483 39.555 1.00107.81 C +ATOM 14186 OH TYR E 206 39.000 19.148 39.865 1.00110.12 O +ATOM 14187 N ILE E 207 41.600 26.875 36.957 1.00110.71 N +ATOM 14188 CA ILE E 207 41.699 28.231 36.431 1.00111.43 C +ATOM 14189 C ILE E 207 41.034 28.259 35.064 1.00109.32 C +ATOM 14190 O ILE E 207 41.285 27.382 34.228 1.00108.27 O +ATOM 14191 CB ILE E 207 43.162 28.702 36.322 1.00112.96 C +ATOM 14192 CG1 ILE E 207 43.901 28.512 37.647 1.00114.07 C +ATOM 14193 CG2 ILE E 207 43.223 30.159 35.884 1.00111.52 C +ATOM 14194 CD1 ILE E 207 44.835 27.321 37.647 1.00109.05 C +ATOM 14195 N CYS E 208 40.192 29.262 34.835 1.00108.19 N +ATOM 14196 CA CYS E 208 39.594 29.489 33.528 1.00108.16 C +ATOM 14197 C CYS E 208 40.380 30.580 32.811 1.00112.37 C +ATOM 14198 O CYS E 208 40.677 31.629 33.393 1.00115.42 O +ATOM 14199 CB CYS E 208 38.113 29.862 33.653 1.00107.20 C +ATOM 14200 SG CYS E 208 37.752 31.530 34.257 1.00113.51 S +ATOM 14201 N ASN E 209 40.734 30.312 31.558 1.00111.47 N +ATOM 14202 CA ASN E 209 41.543 31.205 30.737 1.00112.01 C +ATOM 14203 C ASN E 209 40.650 31.782 29.647 1.00110.00 C +ATOM 14204 O ASN E 209 40.190 31.051 28.763 1.00108.01 O +ATOM 14205 CB ASN E 209 42.735 30.462 30.137 1.00113.02 C +ATOM 14206 CG ASN E 209 43.341 29.460 31.099 1.00114.70 C +ATOM 14207 OD1 ASN E 209 43.246 28.251 30.894 1.00112.18 O +ATOM 14208 ND2 ASN E 209 43.967 29.960 32.158 1.00116.89 N +ATOM 14209 N VAL E 210 40.396 33.083 29.723 1.00111.76 N +ATOM 14210 CA VAL E 210 39.589 33.799 28.745 1.00112.49 C +ATOM 14211 C VAL E 210 40.515 34.602 27.845 1.00118.69 C +ATOM 14212 O VAL E 210 41.491 35.203 28.312 1.00120.21 O +ATOM 14213 CB VAL E 210 38.564 34.710 29.447 1.00111.05 C +ATOM 14214 CG1 VAL E 210 37.692 35.429 28.433 1.00113.29 C +ATOM 14215 CG2 VAL E 210 37.715 33.896 30.411 1.00112.43 C +ATOM 14216 N ASN E 211 40.212 34.613 26.549 1.00119.61 N +ATOM 14217 CA ASN E 211 41.013 35.333 25.567 1.00120.37 C +ATOM 14218 C ASN E 211 40.069 36.013 24.590 1.00121.31 C +ATOM 14219 O ASN E 211 39.308 35.339 23.889 1.00123.46 O +ATOM 14220 CB ASN E 211 41.972 34.392 24.831 1.00121.65 C +ATOM 14221 CG ASN E 211 42.958 35.136 23.952 1.00124.50 C +ATOM 14222 OD1 ASN E 211 43.310 36.283 24.228 1.00123.50 O +ATOM 14223 ND2 ASN E 211 43.409 34.485 22.886 1.00127.89 N +ATOM 14224 N HIS E 212 40.117 37.342 24.552 1.00120.78 N +ATOM 14225 CA HIS E 212 39.311 38.150 23.640 1.00118.40 C +ATOM 14226 C HIS E 212 40.276 38.896 22.724 1.00125.74 C +ATOM 14227 O HIS E 212 40.885 39.893 23.127 1.00132.36 O +ATOM 14228 CB HIS E 212 38.401 39.103 24.412 1.00112.56 C +ATOM 14229 CG HIS E 212 37.438 39.855 23.548 1.00111.13 C +ATOM 14230 ND1 HIS E 212 37.461 41.228 23.429 1.00112.86 N +ATOM 14231 CD2 HIS E 212 36.425 39.427 22.758 1.00112.32 C +ATOM 14232 CE1 HIS E 212 36.502 41.614 22.606 1.00111.91 C +ATOM 14233 NE2 HIS E 212 35.858 40.540 22.185 1.00110.27 N +ATOM 14234 N LYS E 213 40.416 38.401 21.496 1.00122.11 N +ATOM 14235 CA LYS E 213 41.374 38.923 20.528 1.00118.09 C +ATOM 14236 C LYS E 213 40.996 40.309 20.007 1.00119.52 C +ATOM 14237 O LYS E 213 41.891 41.144 19.822 1.00123.43 O +ATOM 14238 CB LYS E 213 41.531 37.945 19.359 1.00111.46 C +ATOM 14239 N PRO E 214 39.713 40.602 19.727 1.00115.39 N +ATOM 14240 CA PRO E 214 39.369 41.978 19.323 1.00116.19 C +ATOM 14241 C PRO E 214 39.831 43.044 20.305 1.00118.71 C +ATOM 14242 O PRO E 214 40.207 44.143 19.880 1.00119.82 O +ATOM 14243 CB PRO E 214 37.840 41.930 19.207 1.00112.03 C +ATOM 14244 CG PRO E 214 37.550 40.532 18.832 1.00110.97 C +ATOM 14245 CD PRO E 214 38.563 39.691 19.555 1.00112.38 C +ATOM 14246 N SER E 215 39.811 42.756 21.607 1.00119.69 N +ATOM 14247 CA SER E 215 40.316 43.686 22.607 1.00120.47 C +ATOM 14248 C SER E 215 41.721 43.346 23.084 1.00121.79 C +ATOM 14249 O SER E 215 42.295 44.121 23.857 1.00122.27 O +ATOM 14250 CB SER E 215 39.374 43.739 23.817 1.00119.90 C +ATOM 14251 OG SER E 215 39.382 42.512 24.526 1.00121.53 O +ATOM 14252 N ASN E 216 42.277 42.213 22.650 1.00120.92 N +ATOM 14253 CA ASN E 216 43.612 41.776 23.062 1.00123.12 C +ATOM 14254 C ASN E 216 43.684 41.622 24.582 1.00123.01 C +ATOM 14255 O ASN E 216 44.636 42.063 25.230 1.00122.32 O +ATOM 14256 CB ASN E 216 44.691 42.733 22.543 1.00124.89 C +ATOM 14257 CG ASN E 216 46.094 42.180 22.704 1.00123.61 C +ATOM 14258 OD1 ASN E 216 46.863 42.641 23.548 1.00127.69 O +ATOM 14259 ND2 ASN E 216 46.436 41.188 21.890 1.00117.29 N +ATOM 14260 N THR E 217 42.657 41.001 25.157 1.00120.90 N +ATOM 14261 CA THR E 217 42.549 40.804 26.599 1.00120.67 C +ATOM 14262 C THR E 217 42.750 39.328 26.918 1.00118.63 C +ATOM 14263 O THR E 217 41.996 38.477 26.436 1.00117.92 O +ATOM 14264 CB THR E 217 41.193 41.286 27.115 1.00121.63 C +ATOM 14265 OG1 THR E 217 40.884 42.560 26.534 1.00120.42 O +ATOM 14266 CG2 THR E 217 41.222 41.428 28.628 1.00118.20 C +ATOM 14267 N LYS E 218 43.760 39.028 27.733 1.00115.97 N +ATOM 14268 CA LYS E 218 44.095 37.658 28.125 1.00114.28 C +ATOM 14269 C LYS E 218 43.965 37.535 29.642 1.00113.75 C +ATOM 14270 O LYS E 218 44.900 37.857 30.381 1.00113.66 O +ATOM 14271 CB LYS E 218 45.499 37.285 27.657 1.00111.12 C +ATOM 14272 N VAL E 219 42.803 37.072 30.103 1.00114.31 N +ATOM 14273 CA VAL E 219 42.484 37.007 31.524 1.00114.07 C +ATOM 14274 C VAL E 219 42.582 35.562 31.998 1.00114.94 C +ATOM 14275 O VAL E 219 42.272 34.621 31.262 1.00115.47 O +ATOM 14276 CB VAL E 219 41.079 37.593 31.791 1.00112.32 C +ATOM 14277 CG1 VAL E 219 40.674 37.424 33.250 1.00107.97 C +ATOM 14278 CG2 VAL E 219 41.032 39.058 31.389 1.00115.20 C +ATOM 14279 N ASP E 220 43.034 35.383 33.238 1.00114.88 N +ATOM 14280 CA ASP E 220 42.989 34.095 33.916 1.00116.41 C +ATOM 14281 C ASP E 220 42.322 34.287 35.269 1.00118.29 C +ATOM 14282 O ASP E 220 42.622 35.248 35.985 1.00120.47 O +ATOM 14283 CB ASP E 220 44.388 33.493 34.095 1.00117.63 C +ATOM 14284 CG ASP E 220 45.093 33.251 32.774 1.00122.62 C +ATOM 14285 OD1 ASP E 220 44.430 32.787 31.822 1.00119.27 O +ATOM 14286 OD2 ASP E 220 46.309 33.522 32.688 1.00129.76 O +ATOM 14287 N LYS E 221 41.416 33.375 35.618 1.00118.51 N +ATOM 14288 CA LYS E 221 40.642 33.499 36.849 1.00113.67 C +ATOM 14289 C LYS E 221 40.597 32.160 37.565 1.00112.21 C +ATOM 14290 O LYS E 221 40.125 31.169 37.000 1.00112.80 O +ATOM 14291 CB LYS E 221 39.221 33.990 36.550 1.00110.81 C +ATOM 14292 CG LYS E 221 38.463 34.521 37.758 1.00109.94 C +ATOM 14293 CD LYS E 221 38.868 35.948 38.088 1.00110.54 C +ATOM 14294 CE LYS E 221 38.199 36.430 39.366 1.00115.25 C +ATOM 14295 NZ LYS E 221 38.418 37.885 39.596 1.00118.04 N +ATOM 14296 N LYS E 222 41.089 32.130 38.801 1.00113.67 N +ATOM 14297 CA LYS E 222 40.963 30.948 39.640 1.00114.38 C +ATOM 14298 C LYS E 222 39.606 30.946 40.330 1.00117.50 C +ATOM 14299 O LYS E 222 39.154 31.972 40.845 1.00116.60 O +ATOM 14300 CB LYS E 222 42.077 30.900 40.686 1.00116.24 C +ATOM 14301 CG LYS E 222 42.040 29.651 41.558 1.00119.09 C +ATOM 14302 CD LYS E 222 43.145 29.654 42.603 1.00125.06 C +ATOM 14303 CE LYS E 222 43.156 28.354 43.394 1.00124.58 C +ATOM 14304 NZ LYS E 222 43.716 28.525 44.762 1.00122.56 N +ATOM 14305 N VAL E 223 38.956 29.787 40.340 1.00118.80 N +ATOM 14306 CA VAL E 223 37.642 29.630 40.951 1.00115.14 C +ATOM 14307 C VAL E 223 37.812 28.758 42.187 1.00114.33 C +ATOM 14308 O VAL E 223 38.124 27.565 42.080 1.00111.40 O +ATOM 14309 CB VAL E 223 36.626 29.022 39.975 1.00108.90 C +ATOM 14310 CG1 VAL E 223 35.256 28.929 40.627 1.00107.87 C +ATOM 14311 CG2 VAL E 223 36.559 29.847 38.699 1.00103.82 C +ATOM 14312 N GLU E 224 37.608 29.350 43.362 1.00116.95 N +ATOM 14313 CA GLU E 224 37.782 28.653 44.623 1.00117.16 C +ATOM 14314 C GLU E 224 36.454 28.559 45.363 1.00115.04 C +ATOM 14315 O GLU E 224 35.600 29.441 45.227 1.00113.58 O +ATOM 14316 CB GLU E 224 38.800 29.371 45.518 1.00121.54 C +ATOM 14317 CG GLU E 224 40.172 29.535 44.900 1.00124.46 C +ATOM 14318 CD GLU E 224 41.099 30.369 45.762 1.00127.97 C +ATOM 14319 OE1 GLU E 224 41.961 29.782 46.449 1.00129.11 O +ATOM 14320 OE2 GLU E 224 40.952 31.609 45.768 1.00128.15 O +ATOM 14321 N PRO E 225 36.247 27.502 46.150 1.00115.21 N +ATOM 14322 CA PRO E 225 35.068 27.456 47.028 1.00116.25 C +ATOM 14323 C PRO E 225 35.179 28.508 48.122 1.00124.60 C +ATOM 14324 O PRO E 225 36.099 28.471 48.942 1.00130.65 O +ATOM 14325 CB PRO E 225 35.105 26.033 47.600 1.00111.15 C +ATOM 14326 CG PRO E 225 36.538 25.622 47.488 1.00111.50 C +ATOM 14327 CD PRO E 225 37.046 26.268 46.232 1.00113.74 C +ATOM 14328 N LYS E 226 34.243 29.454 48.126 1.00125.71 N +ATOM 14329 CA LYS E 226 34.265 30.520 49.120 1.00133.15 C +ATOM 14330 C LYS E 226 33.984 29.943 50.500 1.00145.12 C +ATOM 14331 O LYS E 226 32.930 29.338 50.722 1.00153.10 O +ATOM 14332 CB LYS E 226 33.243 31.600 48.771 1.00132.44 C +ATOM 14333 CG LYS E 226 33.565 32.959 49.373 1.00136.72 C +ATOM 14334 CD LYS E 226 32.874 33.116 50.722 1.00141.34 C +ATOM 14335 CE LYS E 226 33.223 34.430 51.396 1.00143.33 C +ATOM 14336 NZ LYS E 226 34.586 34.388 51.996 1.00140.78 N +ATOM 14337 N SER E 227 34.918 30.125 51.429 1.00152.02 N +ATOM 14338 CA SER E 227 34.738 29.540 52.745 1.00150.82 C +ATOM 14339 C SER E 227 33.808 30.415 53.576 1.00151.50 C +ATOM 14340 O SER E 227 33.720 31.631 53.379 1.00149.02 O +ATOM 14341 CB SER E 227 36.085 29.381 53.451 1.00147.57 C +ATOM 14342 OG SER E 227 35.919 28.905 54.775 1.00144.51 O +ATOM 14343 N CYS E 228 33.130 29.788 54.528 1.00152.07 N +ATOM 14344 CA CYS E 228 32.184 30.501 55.375 1.00152.19 C +ATOM 14345 C CYS E 228 32.810 30.897 56.708 1.00151.01 C +ATOM 14346 O CYS E 228 32.268 31.729 57.436 1.00146.42 O +ATOM 14347 CB CYS E 228 30.928 29.656 55.588 1.00146.72 C +ATOM 14348 SG CYS E 228 30.103 29.206 54.039 1.00142.00 S +ATOM 14349 N ASP F 1 21.272 31.096 -11.953 1.00 98.73 N +ATOM 14350 CA ASP F 1 21.888 30.232 -10.952 1.00 90.20 C +ATOM 14351 C ASP F 1 21.139 28.914 -10.804 1.00 80.94 C +ATOM 14352 O ASP F 1 19.931 28.842 -11.033 1.00 81.15 O +ATOM 14353 CB ASP F 1 21.954 30.939 -9.596 1.00 93.46 C +ATOM 14354 CG ASP F 1 22.792 32.199 -9.636 1.00101.92 C +ATOM 14355 OD1 ASP F 1 23.269 32.563 -10.732 1.00101.40 O +ATOM 14356 OD2 ASP F 1 22.978 32.823 -8.571 1.00104.62 O +ATOM 14357 N ILE F 2 21.869 27.873 -10.418 1.00 72.04 N +ATOM 14358 CA ILE F 2 21.281 26.571 -10.131 1.00 68.54 C +ATOM 14359 C ILE F 2 21.014 26.496 -8.634 1.00 70.65 C +ATOM 14360 O ILE F 2 21.940 26.598 -7.823 1.00 69.53 O +ATOM 14361 CB ILE F 2 22.203 25.431 -10.588 1.00 68.84 C +ATOM 14362 CG1 ILE F 2 22.259 25.374 -12.116 1.00 71.35 C +ATOM 14363 CG2 ILE F 2 21.735 24.102 -10.012 1.00 66.80 C +ATOM 14364 CD1 ILE F 2 23.228 24.346 -12.654 1.00 65.65 C +ATOM 14365 N VAL F 3 19.749 26.324 -8.268 1.00 67.65 N +ATOM 14366 CA VAL F 3 19.336 26.331 -6.870 1.00 66.34 C +ATOM 14367 C VAL F 3 19.336 24.903 -6.343 1.00 64.92 C +ATOM 14368 O VAL F 3 18.701 24.015 -6.925 1.00 65.18 O +ATOM 14369 CB VAL F 3 17.951 26.979 -6.711 1.00 67.00 C +ATOM 14370 CG1 VAL F 3 17.442 26.802 -5.288 1.00 66.15 C +ATOM 14371 CG2 VAL F 3 18.010 28.453 -7.082 1.00 70.35 C +ATOM 14372 N MET F 4 20.047 24.682 -5.242 1.00 64.27 N +ATOM 14373 CA MET F 4 20.049 23.399 -4.555 1.00 64.76 C +ATOM 14374 C MET F 4 19.131 23.496 -3.344 1.00 62.86 C +ATOM 14375 O MET F 4 19.274 24.408 -2.524 1.00 61.63 O +ATOM 14376 CB MET F 4 21.463 23.007 -4.123 1.00 64.94 C +ATOM 14377 CG MET F 4 22.489 23.052 -5.243 1.00 62.87 C +ATOM 14378 SD MET F 4 22.047 21.998 -6.636 1.00 62.59 S +ATOM 14379 CE MET F 4 22.393 20.375 -5.964 1.00 59.89 C +ATOM 14380 N THR F 5 18.194 22.557 -3.234 1.00 62.13 N +ATOM 14381 CA THR F 5 17.177 22.588 -2.191 1.00 61.83 C +ATOM 14382 C THR F 5 17.210 21.277 -1.425 1.00 63.50 C +ATOM 14383 O THR F 5 17.056 20.204 -2.018 1.00 62.19 O +ATOM 14384 CB THR F 5 15.784 22.824 -2.782 1.00 60.49 C +ATOM 14385 OG1 THR F 5 15.801 24.003 -3.597 1.00 64.11 O +ATOM 14386 CG2 THR F 5 14.756 22.991 -1.673 1.00 61.63 C +ATOM 14387 N GLN F 6 17.418 21.366 -0.117 1.00 63.39 N +ATOM 14388 CA GLN F 6 17.355 20.215 0.771 1.00 63.77 C +ATOM 14389 C GLN F 6 15.974 20.193 1.412 1.00 66.26 C +ATOM 14390 O GLN F 6 15.552 21.183 2.020 1.00 66.65 O +ATOM 14391 CB GLN F 6 18.467 20.273 1.817 1.00 60.17 C +ATOM 14392 CG GLN F 6 19.855 20.148 1.202 1.00 61.17 C +ATOM 14393 CD GLN F 6 20.972 20.175 2.225 1.00 62.08 C +ATOM 14394 OE1 GLN F 6 21.936 20.928 2.086 1.00 62.53 O +ATOM 14395 NE2 GLN F 6 20.851 19.349 3.258 1.00 63.40 N +ATOM 14396 N SER F 7 15.270 19.068 1.257 1.00 67.18 N +ATOM 14397 CA SER F 7 13.851 19.006 1.601 1.00 74.34 C +ATOM 14398 C SER F 7 13.609 19.373 3.060 1.00 76.48 C +ATOM 14399 O SER F 7 12.747 20.205 3.369 1.00 78.61 O +ATOM 14400 CB SER F 7 13.305 17.610 1.300 1.00 76.37 C +ATOM 14401 OG SER F 7 14.010 16.620 2.028 1.00 75.15 O +ATOM 14402 N HIS F 8 14.358 18.765 3.973 1.00 72.22 N +ATOM 14403 CA HIS F 8 14.153 18.948 5.402 1.00 68.90 C +ATOM 14404 C HIS F 8 15.284 19.787 5.980 1.00 66.14 C +ATOM 14405 O HIS F 8 16.460 19.528 5.705 1.00 66.07 O +ATOM 14406 CB HIS F 8 14.060 17.601 6.120 1.00 68.27 C +ATOM 14407 CG HIS F 8 12.893 16.770 5.685 1.00 72.76 C +ATOM 14408 ND1 HIS F 8 13.021 15.695 4.832 1.00 88.18 N +ATOM 14409 CD2 HIS F 8 11.574 16.866 5.975 1.00 72.99 C +ATOM 14410 CE1 HIS F 8 11.831 15.160 4.621 1.00 78.28 C +ATOM 14411 NE2 HIS F 8 10.936 15.853 5.302 1.00 76.41 N +ATOM 14412 N LYS F 9 14.918 20.792 6.777 1.00 65.99 N +ATOM 14413 CA LYS F 9 15.907 21.639 7.433 1.00 60.72 C +ATOM 14414 C LYS F 9 16.469 20.981 8.685 1.00 59.53 C +ATOM 14415 O LYS F 9 17.612 21.253 9.066 1.00 59.75 O +ATOM 14416 CB LYS F 9 15.313 23.009 7.798 1.00 57.52 C +ATOM 14417 CG LYS F 9 13.927 23.025 8.485 1.00 70.20 C +ATOM 14418 CD LYS F 9 12.758 22.638 7.573 1.00 66.87 C +ATOM 14419 CE LYS F 9 11.697 21.844 8.315 1.00 54.27 C +ATOM 14420 NZ LYS F 9 12.131 20.435 8.534 1.00 52.22 N +ATOM 14421 N PHE F 10 15.689 20.125 9.335 1.00 61.24 N +ATOM 14422 CA PHE F 10 16.142 19.387 10.502 1.00 58.82 C +ATOM 14423 C PHE F 10 15.775 17.924 10.328 1.00 56.33 C +ATOM 14424 O PHE F 10 14.709 17.602 9.795 1.00 59.58 O +ATOM 14425 CB PHE F 10 15.530 19.941 11.796 1.00 60.75 C +ATOM 14426 CG PHE F 10 15.878 21.376 12.060 1.00 59.89 C +ATOM 14427 CD1 PHE F 10 17.085 21.713 12.651 1.00 64.39 C +ATOM 14428 CD2 PHE F 10 14.999 22.389 11.718 1.00 59.10 C +ATOM 14429 CE1 PHE F 10 17.410 23.035 12.891 1.00 64.18 C +ATOM 14430 CE2 PHE F 10 15.317 23.711 11.956 1.00 59.49 C +ATOM 14431 CZ PHE F 10 16.523 24.036 12.544 1.00 58.58 C +ATOM 14432 N MET F 11 16.653 17.041 10.790 1.00 53.54 N +ATOM 14433 CA MET F 11 16.392 15.611 10.747 1.00 55.15 C +ATOM 14434 C MET F 11 16.806 14.961 12.055 1.00 57.01 C +ATOM 14435 O MET F 11 17.852 15.282 12.626 1.00 58.09 O +ATOM 14436 CB MET F 11 17.100 14.911 9.586 1.00 52.33 C +ATOM 14437 CG MET F 11 16.365 15.023 8.273 1.00 60.09 C +ATOM 14438 SD MET F 11 16.916 13.761 7.117 1.00 65.95 S +ATOM 14439 CE MET F 11 16.011 14.248 5.653 1.00 72.43 C +ATOM 14440 N SER F 12 15.952 14.049 12.511 1.00 57.25 N +ATOM 14441 CA SER F 12 16.118 13.286 13.738 1.00 60.24 C +ATOM 14442 C SER F 12 16.348 11.808 13.458 1.00 58.27 C +ATOM 14443 O SER F 12 15.671 11.216 12.611 1.00 56.53 O +ATOM 14444 CB SER F 12 14.871 13.425 14.604 1.00 70.32 C +ATOM 14445 OG SER F 12 14.876 12.457 15.621 1.00 76.56 O +ATOM 14446 N THR F 13 17.263 11.202 14.214 1.00 56.67 N +ATOM 14447 CA THR F 13 17.557 9.789 14.035 1.00 57.07 C +ATOM 14448 C THR F 13 18.084 9.184 15.331 1.00 56.08 C +ATOM 14449 O THR F 13 18.602 9.882 16.207 1.00 56.14 O +ATOM 14450 CB THR F 13 18.563 9.562 12.907 1.00 56.83 C +ATOM 14451 OG1 THR F 13 18.613 8.164 12.607 1.00 58.24 O +ATOM 14452 CG2 THR F 13 19.944 10.033 13.325 1.00 53.94 C +ATOM 14453 N LEU F 14 17.926 7.867 15.441 1.00 55.03 N +ATOM 14454 CA LEU F 14 18.485 7.088 16.536 1.00 53.65 C +ATOM 14455 C LEU F 14 19.889 6.605 16.185 1.00 55.25 C +ATOM 14456 O LEU F 14 20.245 6.470 15.011 1.00 56.95 O +ATOM 14457 CB LEU F 14 17.595 5.886 16.859 1.00 49.70 C +ATOM 14458 CG LEU F 14 16.147 6.172 17.257 1.00 51.19 C +ATOM 14459 CD1 LEU F 14 15.332 4.893 17.226 1.00 54.08 C +ATOM 14460 CD2 LEU F 14 16.086 6.808 18.637 1.00 55.01 C +ATOM 14461 N VAL F 15 20.689 6.348 17.221 1.00 54.01 N +ATOM 14462 CA VAL F 15 22.027 5.805 17.015 1.00 54.48 C +ATOM 14463 C VAL F 15 21.922 4.365 16.531 1.00 57.37 C +ATOM 14464 O VAL F 15 21.125 3.571 17.049 1.00 59.29 O +ATOM 14465 CB VAL F 15 22.855 5.905 18.308 1.00 51.16 C +ATOM 14466 CG1 VAL F 15 24.124 5.070 18.204 1.00 52.48 C +ATOM 14467 CG2 VAL F 15 23.199 7.355 18.601 1.00 54.61 C +ATOM 14468 N GLY F 16 22.731 4.020 15.530 1.00 57.21 N +ATOM 14469 CA GLY F 16 22.662 2.715 14.909 1.00 61.38 C +ATOM 14470 C GLY F 16 21.619 2.583 13.823 1.00 60.61 C +ATOM 14471 O GLY F 16 21.517 1.511 13.214 1.00 61.24 O +ATOM 14472 N ASP F 17 20.843 3.631 13.563 1.00 59.26 N +ATOM 14473 CA ASP F 17 19.777 3.602 12.574 1.00 57.04 C +ATOM 14474 C ASP F 17 20.266 4.148 11.236 1.00 60.88 C +ATOM 14475 O ASP F 17 21.370 4.668 11.116 1.00 61.12 O +ATOM 14476 CB ASP F 17 18.580 4.414 13.064 1.00 57.42 C +ATOM 14477 CG ASP F 17 17.263 3.839 12.604 1.00 60.09 C +ATOM 14478 OD1 ASP F 17 17.271 2.878 11.805 1.00 65.51 O +ATOM 14479 OD2 ASP F 17 16.213 4.344 13.050 1.00 57.86 O +ATOM 14480 N ARG F 18 19.452 4.007 10.204 1.00 62.61 N +ATOM 14481 CA ARG F 18 19.876 4.630 8.958 1.00 58.79 C +ATOM 14482 C ARG F 18 19.239 6.015 8.826 1.00 61.77 C +ATOM 14483 O ARG F 18 18.235 6.334 9.473 1.00 62.49 O +ATOM 14484 CB ARG F 18 19.525 3.757 7.748 1.00 63.03 C +ATOM 14485 CG ARG F 18 19.816 4.340 6.355 1.00 74.37 C +ATOM 14486 CD ARG F 18 19.407 3.382 5.312 1.00 91.89 C +ATOM 14487 NE ARG F 18 18.064 2.936 5.546 1.00103.31 N +ATOM 14488 CZ ARG F 18 16.999 3.567 5.122 1.00109.94 C +ATOM 14489 NH1 ARG F 18 15.810 2.978 5.380 1.00 97.88 N +ATOM 14490 NH2 ARG F 18 17.146 4.751 4.494 1.00115.85 N +ATOM 14491 N VAL F 19 19.850 6.839 7.980 1.00 59.65 N +ATOM 14492 CA VAL F 19 19.308 8.151 7.649 1.00 56.39 C +ATOM 14493 C VAL F 19 19.686 8.496 6.214 1.00 57.66 C +ATOM 14494 O VAL F 19 20.787 8.181 5.752 1.00 55.03 O +ATOM 14495 CB VAL F 19 19.800 9.218 8.649 1.00 52.12 C +ATOM 14496 CG1 VAL F 19 21.302 9.436 8.525 1.00 53.76 C +ATOM 14497 CG2 VAL F 19 19.049 10.513 8.459 1.00 52.21 C +ATOM 14498 N SER F 20 18.749 9.118 5.500 1.00 57.06 N +ATOM 14499 CA SER F 20 18.952 9.515 4.109 1.00 56.59 C +ATOM 14500 C SER F 20 18.418 10.927 3.904 1.00 57.40 C +ATOM 14501 O SER F 20 17.206 11.153 3.980 1.00 58.25 O +ATOM 14502 CB SER F 20 18.274 8.532 3.157 1.00 60.08 C +ATOM 14503 OG SER F 20 18.859 7.244 3.244 1.00 62.91 O +ATOM 14504 N ILE F 21 19.321 11.867 3.640 1.00 56.48 N +ATOM 14505 CA ILE F 21 18.977 13.249 3.328 1.00 56.24 C +ATOM 14506 C ILE F 21 18.904 13.409 1.816 1.00 57.30 C +ATOM 14507 O ILE F 21 19.755 12.894 1.081 1.00 57.27 O +ATOM 14508 CB ILE F 21 20.009 14.215 3.940 1.00 54.51 C +ATOM 14509 CG1 ILE F 21 20.196 13.927 5.429 1.00 53.36 C +ATOM 14510 CG2 ILE F 21 19.583 15.659 3.730 1.00 56.05 C +ATOM 14511 CD1 ILE F 21 21.350 14.684 6.053 1.00 51.98 C +ATOM 14512 N THR F 22 17.887 14.123 1.341 1.00 57.86 N +ATOM 14513 CA THR F 22 17.676 14.329 -0.084 1.00 55.90 C +ATOM 14514 C THR F 22 18.002 15.765 -0.474 1.00 58.60 C +ATOM 14515 O THR F 22 17.911 16.687 0.342 1.00 58.55 O +ATOM 14516 CB THR F 22 16.233 14.002 -0.483 1.00 58.85 C +ATOM 14517 OG1 THR F 22 15.344 14.972 0.085 1.00 61.55 O +ATOM 14518 CG2 THR F 22 15.847 12.612 0.004 1.00 59.83 C +ATOM 14519 N CYS F 23 18.388 15.942 -1.736 1.00 61.44 N +ATOM 14520 CA CYS F 23 18.765 17.247 -2.264 1.00 60.67 C +ATOM 14521 C CYS F 23 18.409 17.294 -3.743 1.00 59.73 C +ATOM 14522 O CYS F 23 18.798 16.405 -4.510 1.00 63.26 O +ATOM 14523 CB CYS F 23 20.260 17.515 -2.041 1.00 64.52 C +ATOM 14524 SG CYS F 23 20.985 18.925 -2.919 1.00 70.44 S +ATOM 14525 N LYS F 24 17.658 18.321 -4.134 1.00 59.90 N +ATOM 14526 CA LYS F 24 17.162 18.463 -5.495 1.00 62.13 C +ATOM 14527 C LYS F 24 17.727 19.723 -6.135 1.00 64.97 C +ATOM 14528 O LYS F 24 17.807 20.778 -5.496 1.00 64.70 O +ATOM 14529 CB LYS F 24 15.630 18.503 -5.532 1.00 63.03 C +ATOM 14530 CG LYS F 24 15.047 18.260 -6.918 1.00 66.51 C +ATOM 14531 CD LYS F 24 13.527 18.267 -6.901 1.00 77.26 C +ATOM 14532 CE LYS F 24 12.957 17.975 -8.282 1.00 75.52 C +ATOM 14533 NZ LYS F 24 13.185 16.563 -8.699 1.00 73.77 N +ATOM 14534 N ALA F 25 18.121 19.604 -7.399 1.00 64.66 N +ATOM 14535 CA ALA F 25 18.665 20.716 -8.162 1.00 61.47 C +ATOM 14536 C ALA F 25 17.607 21.254 -9.117 1.00 62.66 C +ATOM 14537 O ALA F 25 16.803 20.493 -9.663 1.00 61.16 O +ATOM 14538 CB ALA F 25 19.907 20.287 -8.945 1.00 62.15 C +ATOM 14539 N SER F 26 17.610 22.575 -9.309 1.00 62.61 N +ATOM 14540 CA SER F 26 16.650 23.201 -10.209 1.00 60.87 C +ATOM 14541 C SER F 26 16.897 22.833 -11.666 1.00 64.56 C +ATOM 14542 O SER F 26 15.965 22.899 -12.475 1.00 70.09 O +ATOM 14543 CB SER F 26 16.686 24.721 -10.042 1.00 62.62 C +ATOM 14544 OG SER F 26 17.957 25.244 -10.386 1.00 68.08 O +ATOM 14545 N GLN F 27 18.121 22.449 -12.016 1.00 62.60 N +ATOM 14546 CA GLN F 27 18.473 22.061 -13.373 1.00 64.17 C +ATOM 14547 C GLN F 27 19.270 20.765 -13.332 1.00 64.72 C +ATOM 14548 O GLN F 27 19.692 20.300 -12.270 1.00 62.91 O +ATOM 14549 CB GLN F 27 19.287 23.157 -14.073 1.00 68.03 C +ATOM 14550 CG GLN F 27 18.524 24.444 -14.324 1.00 71.65 C +ATOM 14551 CD GLN F 27 19.442 25.602 -14.659 1.00 79.09 C +ATOM 14552 OE1 GLN F 27 20.344 25.473 -15.486 1.00 82.13 O +ATOM 14553 NE2 GLN F 27 19.219 26.740 -14.013 1.00 86.90 N +ATOM 14554 N ASP F 28 19.473 20.176 -14.509 1.00 64.98 N +ATOM 14555 CA ASP F 28 20.288 18.974 -14.603 1.00 64.47 C +ATOM 14556 C ASP F 28 21.740 19.323 -14.302 1.00 64.26 C +ATOM 14557 O ASP F 28 22.316 20.222 -14.923 1.00 64.94 O +ATOM 14558 CB ASP F 28 20.159 18.350 -15.993 1.00 67.17 C +ATOM 14559 CG ASP F 28 20.751 16.950 -16.071 1.00 70.81 C +ATOM 14560 OD1 ASP F 28 21.885 16.738 -15.591 1.00 67.78 O +ATOM 14561 OD2 ASP F 28 20.075 16.054 -16.620 1.00 84.41 O +ATOM 14562 N VAL F 29 22.333 18.611 -13.346 1.00 63.67 N +ATOM 14563 CA VAL F 29 23.721 18.844 -12.965 1.00 61.97 C +ATOM 14564 C VAL F 29 24.495 17.536 -13.056 1.00 63.18 C +ATOM 14565 O VAL F 29 25.528 17.367 -12.396 1.00 63.33 O +ATOM 14566 CB VAL F 29 23.819 19.452 -11.554 1.00 61.14 C +ATOM 14567 CG1 VAL F 29 23.164 20.824 -11.522 1.00 62.38 C +ATOM 14568 CG2 VAL F 29 23.174 18.533 -10.532 1.00 61.03 C +ATOM 14569 N SER F 36 24.004 16.612 -13.885 1.00 61.60 N +ATOM 14570 CA SER F 36 24.634 15.312 -14.093 1.00 59.80 C +ATOM 14571 C SER F 36 24.860 14.587 -12.772 1.00 59.71 C +ATOM 14572 O SER F 36 23.979 14.569 -11.906 1.00 64.33 O +ATOM 14573 CB SER F 36 25.958 15.471 -14.844 1.00 62.67 C +ATOM 14574 OG SER F 36 26.587 14.217 -15.042 1.00 66.90 O +ATOM 14575 N THR F 37 26.038 13.986 -12.611 1.00 56.29 N +ATOM 14576 CA THR F 37 26.417 13.308 -11.380 1.00 57.39 C +ATOM 14577 C THR F 37 27.411 14.117 -10.556 1.00 58.17 C +ATOM 14578 O THR F 37 28.104 13.554 -9.704 1.00 56.18 O +ATOM 14579 CB THR F 37 27.002 11.929 -11.691 1.00 55.61 C +ATOM 14580 OG1 THR F 37 28.140 12.073 -12.550 1.00 56.39 O +ATOM 14581 CG2 THR F 37 25.967 11.052 -12.374 1.00 58.44 C +ATOM 14582 N THR F 38 27.506 15.423 -10.799 1.00 58.69 N +ATOM 14583 CA THR F 38 28.508 16.262 -10.145 1.00 62.15 C +ATOM 14584 C THR F 38 27.857 17.022 -8.992 1.00 60.94 C +ATOM 14585 O THR F 38 27.515 18.201 -9.093 1.00 60.01 O +ATOM 14586 CB THR F 38 29.153 17.200 -11.158 1.00 62.54 C +ATOM 14587 OG1 THR F 38 28.133 17.953 -11.823 1.00 62.39 O +ATOM 14588 CG2 THR F 38 29.932 16.399 -12.189 1.00 61.55 C +ATOM 14589 N VAL F 39 27.692 16.320 -7.873 1.00 60.37 N +ATOM 14590 CA VAL F 39 27.201 16.902 -6.628 1.00 59.93 C +ATOM 14591 C VAL F 39 28.065 16.383 -5.487 1.00 57.27 C +ATOM 14592 O VAL F 39 28.347 15.183 -5.410 1.00 57.93 O +ATOM 14593 CB VAL F 39 25.714 16.578 -6.379 1.00 56.93 C +ATOM 14594 CG1 VAL F 39 25.304 16.988 -4.974 1.00 56.57 C +ATOM 14595 CG2 VAL F 39 24.849 17.298 -7.393 1.00 58.44 C +ATOM 14596 N ALA F 40 28.484 17.284 -4.605 1.00 55.95 N +ATOM 14597 CA ALA F 40 29.310 16.954 -3.457 1.00 58.94 C +ATOM 14598 C ALA F 40 28.512 17.130 -2.172 1.00 61.48 C +ATOM 14599 O ALA F 40 27.540 17.888 -2.111 1.00 61.63 O +ATOM 14600 CB ALA F 40 30.569 17.827 -3.419 1.00 59.60 C +ATOM 14601 N TRP F 41 28.945 16.417 -1.138 1.00 59.19 N +ATOM 14602 CA TRP F 41 28.315 16.454 0.173 1.00 60.39 C +ATOM 14603 C TRP F 41 29.370 16.748 1.227 1.00 61.65 C +ATOM 14604 O TRP F 41 30.375 16.030 1.323 1.00 63.58 O +ATOM 14605 CB TRP F 41 27.607 15.135 0.492 1.00 60.05 C +ATOM 14606 CG TRP F 41 26.366 14.909 -0.309 1.00 58.49 C +ATOM 14607 CD1 TRP F 41 26.272 14.289 -1.519 1.00 57.31 C +ATOM 14608 CD2 TRP F 41 25.038 15.310 0.043 1.00 59.43 C +ATOM 14609 NE1 TRP F 41 24.965 14.272 -1.941 1.00 57.34 N +ATOM 14610 CE2 TRP F 41 24.187 14.894 -1.000 1.00 59.08 C +ATOM 14611 CE3 TRP F 41 24.484 15.977 1.140 1.00 59.96 C +ATOM 14612 CZ2 TRP F 41 22.813 15.124 -0.978 1.00 59.22 C +ATOM 14613 CZ3 TRP F 41 23.121 16.204 1.160 1.00 61.51 C +ATOM 14614 CH2 TRP F 41 22.301 15.778 0.109 1.00 60.76 C +ATOM 14615 N TYR F 42 29.119 17.796 2.013 1.00 59.12 N +ATOM 14616 CA TYR F 42 29.992 18.252 3.084 1.00 59.64 C +ATOM 14617 C TYR F 42 29.321 18.059 4.439 1.00 59.85 C +ATOM 14618 O TYR F 42 28.091 18.104 4.557 1.00 60.47 O +ATOM 14619 CB TYR F 42 30.352 19.733 2.922 1.00 60.82 C +ATOM 14620 CG TYR F 42 31.019 20.092 1.615 1.00 63.94 C +ATOM 14621 CD1 TYR F 42 32.397 20.013 1.472 1.00 61.73 C +ATOM 14622 CD2 TYR F 42 30.272 20.529 0.530 1.00 64.59 C +ATOM 14623 CE1 TYR F 42 33.012 20.348 0.281 1.00 63.92 C +ATOM 14624 CE2 TYR F 42 30.877 20.866 -0.665 1.00 65.83 C +ATOM 14625 CZ TYR F 42 32.247 20.773 -0.784 1.00 67.54 C +ATOM 14626 OH TYR F 42 32.855 21.107 -1.973 1.00 66.23 O +ATOM 14627 N GLN F 43 30.152 17.880 5.464 1.00 59.27 N +ATOM 14628 CA GLN F 43 29.717 17.692 6.843 1.00 57.79 C +ATOM 14629 C GLN F 43 30.361 18.766 7.708 1.00 57.99 C +ATOM 14630 O GLN F 43 31.591 18.881 7.739 1.00 59.99 O +ATOM 14631 CB GLN F 43 30.105 16.299 7.343 1.00 56.97 C +ATOM 14632 CG GLN F 43 29.895 16.061 8.825 1.00 55.98 C +ATOM 14633 CD GLN F 43 30.617 14.817 9.309 1.00 54.85 C +ATOM 14634 OE1 GLN F 43 31.832 14.693 9.157 1.00 58.45 O +ATOM 14635 NE2 GLN F 43 29.869 13.883 9.886 1.00 55.67 N +ATOM 14636 N GLN F 44 29.541 19.546 8.412 1.00 56.82 N +ATOM 14637 CA GLN F 44 30.029 20.597 9.300 1.00 60.12 C +ATOM 14638 C GLN F 44 29.542 20.308 10.714 1.00 59.50 C +ATOM 14639 O GLN F 44 28.352 20.460 11.009 1.00 56.25 O +ATOM 14640 CB GLN F 44 29.560 21.974 8.831 1.00 58.52 C +ATOM 14641 CG GLN F 44 30.068 23.124 9.688 1.00 60.66 C +ATOM 14642 CD GLN F 44 29.660 24.481 9.148 1.00 60.72 C +ATOM 14643 OE1 GLN F 44 30.426 25.443 9.207 1.00 57.69 O +ATOM 14644 NE2 GLN F 44 28.444 24.566 8.619 1.00 58.56 N +ATOM 14645 N LYS F 45 30.453 19.872 11.576 1.00 59.01 N +ATOM 14646 CA LYS F 45 30.129 19.632 12.971 1.00 57.82 C +ATOM 14647 C LYS F 45 30.158 20.944 13.752 1.00 62.66 C +ATOM 14648 O LYS F 45 30.705 21.944 13.279 1.00 61.50 O +ATOM 14649 CB LYS F 45 31.099 18.612 13.564 1.00 54.13 C +ATOM 14650 CG LYS F 45 31.008 17.245 12.903 1.00 52.60 C +ATOM 14651 CD LYS F 45 31.848 16.206 13.626 1.00 52.75 C +ATOM 14652 CE LYS F 45 31.725 14.846 12.955 1.00 51.00 C +ATOM 14653 NZ LYS F 45 32.413 13.775 13.728 1.00 49.23 N +ATOM 14654 N PRO F 46 29.552 20.976 14.941 1.00 65.47 N +ATOM 14655 CA PRO F 46 29.524 22.223 15.720 1.00 64.88 C +ATOM 14656 C PRO F 46 30.925 22.743 16.010 1.00 63.76 C +ATOM 14657 O PRO F 46 31.785 22.018 16.516 1.00 62.56 O +ATOM 14658 CB PRO F 46 28.794 21.820 17.005 1.00 71.55 C +ATOM 14659 CG PRO F 46 27.958 20.660 16.609 1.00 70.97 C +ATOM 14660 CD PRO F 46 28.737 19.921 15.570 1.00 63.52 C +ATOM 14661 N GLY F 47 31.147 24.014 15.682 1.00 64.14 N +ATOM 14662 CA GLY F 47 32.419 24.657 15.936 1.00 68.92 C +ATOM 14663 C GLY F 47 33.542 24.264 15.005 1.00 70.41 C +ATOM 14664 O GLY F 47 34.701 24.582 15.294 1.00 74.68 O +ATOM 14665 N GLN F 48 33.244 23.586 13.901 1.00 66.71 N +ATOM 14666 CA GLN F 48 34.252 23.140 12.953 1.00 63.36 C +ATOM 14667 C GLN F 48 33.957 23.701 11.569 1.00 66.08 C +ATOM 14668 O GLN F 48 32.902 24.291 11.316 1.00 66.65 O +ATOM 14669 CB GLN F 48 34.314 21.608 12.889 1.00 59.32 C +ATOM 14670 CG GLN F 48 34.761 20.935 14.172 1.00 60.56 C +ATOM 14671 CD GLN F 48 34.867 19.429 14.025 1.00 60.66 C +ATOM 14672 OE1 GLN F 48 34.749 18.893 12.923 1.00 67.33 O +ATOM 14673 NE2 GLN F 48 35.093 18.739 15.137 1.00 59.11 N +ATOM 14674 N SER F 49 34.912 23.509 10.670 1.00 68.22 N +ATOM 14675 CA SER F 49 34.761 23.872 9.272 1.00 66.58 C +ATOM 14676 C SER F 49 34.103 22.732 8.512 1.00 63.20 C +ATOM 14677 O SER F 49 34.120 21.582 8.963 1.00 63.72 O +ATOM 14678 CB SER F 49 36.126 24.193 8.665 1.00 70.65 C +ATOM 14679 OG SER F 49 36.798 25.188 9.416 1.00 82.99 O +ATOM 14680 N PRO F 50 33.494 23.013 7.360 1.00 60.61 N +ATOM 14681 CA PRO F 50 32.909 21.927 6.565 1.00 60.10 C +ATOM 14682 C PRO F 50 33.970 20.916 6.159 1.00 60.95 C +ATOM 14683 O PRO F 50 35.084 21.275 5.774 1.00 66.24 O +ATOM 14684 CB PRO F 50 32.323 22.652 5.349 1.00 61.34 C +ATOM 14685 CG PRO F 50 32.076 24.041 5.823 1.00 60.47 C +ATOM 14686 CD PRO F 50 33.172 24.339 6.803 1.00 63.38 C +ATOM 14687 N LYS F 51 33.610 19.640 6.245 1.00 57.68 N +ATOM 14688 CA LYS F 51 34.492 18.544 5.866 1.00 57.68 C +ATOM 14689 C LYS F 51 33.907 17.854 4.644 1.00 60.18 C +ATOM 14690 O LYS F 51 32.760 17.395 4.675 1.00 61.69 O +ATOM 14691 CB LYS F 51 34.666 17.550 7.016 1.00 55.83 C +ATOM 14692 CG LYS F 51 35.644 16.426 6.708 1.00 61.42 C +ATOM 14693 CD LYS F 51 35.543 15.293 7.717 1.00 59.12 C +ATOM 14694 CE LYS F 51 36.394 14.107 7.288 1.00 62.97 C +ATOM 14695 NZ LYS F 51 36.211 12.927 8.177 1.00 67.95 N +ATOM 14696 N LEU F 52 34.693 17.786 3.573 1.00 61.89 N +ATOM 14697 CA LEU F 52 34.257 17.109 2.360 1.00 59.41 C +ATOM 14698 C LEU F 52 34.105 15.618 2.625 1.00 59.77 C +ATOM 14699 O LEU F 52 35.074 14.940 2.984 1.00 63.64 O +ATOM 14700 CB LEU F 52 35.252 17.353 1.229 1.00 64.31 C +ATOM 14701 CG LEU F 52 35.004 16.561 -0.057 1.00 65.86 C +ATOM 14702 CD1 LEU F 52 33.738 17.035 -0.752 1.00 64.28 C +ATOM 14703 CD2 LEU F 52 36.198 16.659 -0.991 1.00 71.92 C +ATOM 14704 N LEU F 53 32.890 15.108 2.452 1.00 60.85 N +ATOM 14705 CA LEU F 53 32.628 13.683 2.596 1.00 62.04 C +ATOM 14706 C LEU F 53 32.482 12.974 1.260 1.00 64.46 C +ATOM 14707 O LEU F 53 33.038 11.886 1.082 1.00 65.61 O +ATOM 14708 CB LEU F 53 31.364 13.441 3.427 1.00 60.96 C +ATOM 14709 CG LEU F 53 31.426 13.736 4.924 1.00 61.68 C +ATOM 14710 CD1 LEU F 53 30.172 13.210 5.606 1.00 60.83 C +ATOM 14711 CD2 LEU F 53 32.674 13.125 5.539 1.00 63.83 C +ATOM 14712 N ILE F 54 31.750 13.556 0.314 1.00 61.51 N +ATOM 14713 CA ILE F 54 31.464 12.874 -0.944 1.00 61.82 C +ATOM 14714 C ILE F 54 31.628 13.852 -2.098 1.00 64.11 C +ATOM 14715 O ILE F 54 31.295 15.033 -1.973 1.00 62.45 O +ATOM 14716 CB ILE F 54 30.049 12.256 -0.922 1.00 59.17 C +ATOM 14717 CG1 ILE F 54 30.048 10.990 -0.068 1.00 59.38 C +ATOM 14718 CG2 ILE F 54 29.547 11.940 -2.326 1.00 60.52 C +ATOM 14719 CD1 ILE F 54 28.678 10.475 0.231 1.00 63.46 C +ATOM 14720 N TYR F 55 32.140 13.355 -3.224 1.00 64.67 N +ATOM 14721 CA TYR F 55 32.206 14.116 -4.460 1.00 62.30 C +ATOM 14722 C TYR F 55 31.669 13.252 -5.592 1.00 64.09 C +ATOM 14723 O TYR F 55 31.622 12.023 -5.490 1.00 63.59 O +ATOM 14724 CB TYR F 55 33.639 14.573 -4.779 1.00 68.33 C +ATOM 14725 CG TYR F 55 34.589 13.442 -5.113 1.00 71.46 C +ATOM 14726 CD1 TYR F 55 35.250 12.745 -4.110 1.00 70.86 C +ATOM 14727 CD2 TYR F 55 34.832 13.079 -6.433 1.00 69.60 C +ATOM 14728 CE1 TYR F 55 36.120 11.711 -4.413 1.00 73.19 C +ATOM 14729 CE2 TYR F 55 35.698 12.049 -6.744 1.00 70.15 C +ATOM 14730 CZ TYR F 55 36.340 11.369 -5.731 1.00 74.67 C +ATOM 14731 OH TYR F 55 37.204 10.344 -6.038 1.00 76.14 O +ATOM 14732 N SER F 56 31.273 13.913 -6.680 1.00 64.68 N +ATOM 14733 CA SER F 56 30.729 13.235 -7.858 1.00 64.51 C +ATOM 14734 C SER F 56 29.574 12.307 -7.484 1.00 62.99 C +ATOM 14735 O SER F 56 29.497 11.162 -7.934 1.00 64.91 O +ATOM 14736 CB SER F 56 31.824 12.473 -8.608 1.00 63.94 C +ATOM 14737 OG SER F 56 32.659 13.362 -9.327 1.00 68.84 O +ATOM 14738 N ALA F 57 28.689 12.805 -6.616 1.00 62.38 N +ATOM 14739 CA ALA F 57 27.423 12.166 -6.263 1.00 60.13 C +ATOM 14740 C ALA F 57 27.597 10.908 -5.420 1.00 59.48 C +ATOM 14741 O ALA F 57 26.910 10.744 -4.407 1.00 59.47 O +ATOM 14742 CB ALA F 57 26.607 11.837 -7.519 1.00 59.39 C +ATOM 14743 N SER F 65 28.504 10.011 -5.814 1.00 61.85 N +ATOM 14744 CA SER F 65 28.618 8.722 -5.146 1.00 60.85 C +ATOM 14745 C SER F 65 30.027 8.356 -4.703 1.00 63.14 C +ATOM 14746 O SER F 65 30.192 7.327 -4.038 1.00 66.53 O +ATOM 14747 CB SER F 65 28.084 7.605 -6.057 1.00 63.37 C +ATOM 14748 OG SER F 65 28.927 7.418 -7.180 1.00 66.58 O +ATOM 14749 N TYR F 66 31.040 9.150 -5.035 1.00 63.94 N +ATOM 14750 CA TYR F 66 32.409 8.826 -4.658 1.00 68.09 C +ATOM 14751 C TYR F 66 32.722 9.436 -3.299 1.00 66.29 C +ATOM 14752 O TYR F 66 32.559 10.644 -3.101 1.00 63.60 O +ATOM 14753 CB TYR F 66 33.397 9.335 -5.707 1.00 70.20 C +ATOM 14754 CG TYR F 66 33.333 8.592 -7.021 1.00 71.46 C +ATOM 14755 CD1 TYR F 66 32.467 8.997 -8.027 1.00 72.67 C +ATOM 14756 CD2 TYR F 66 34.134 7.482 -7.253 1.00 78.12 C +ATOM 14757 CE1 TYR F 66 32.403 8.321 -9.231 1.00 81.05 C +ATOM 14758 CE2 TYR F 66 34.077 6.799 -8.453 1.00 85.18 C +ATOM 14759 CZ TYR F 66 33.210 7.222 -9.438 1.00 83.97 C +ATOM 14760 OH TYR F 66 33.150 6.544 -10.633 1.00 84.92 O +ATOM 14761 N ARG F 67 33.179 8.601 -2.369 1.00 66.78 N +ATOM 14762 CA ARG F 67 33.521 9.057 -1.029 1.00 71.75 C +ATOM 14763 C ARG F 67 34.975 9.513 -1.005 1.00 72.21 C +ATOM 14764 O ARG F 67 35.857 8.834 -1.542 1.00 72.48 O +ATOM 14765 CB ARG F 67 33.261 7.965 0.012 1.00 73.16 C +ATOM 14766 CG ARG F 67 34.068 6.689 -0.147 1.00 78.49 C +ATOM 14767 CD ARG F 67 33.439 5.561 0.657 1.00 76.22 C +ATOM 14768 NE ARG F 67 32.517 4.769 -0.153 1.00 80.40 N +ATOM 14769 CZ ARG F 67 31.586 3.961 0.342 1.00 80.03 C +ATOM 14770 NH1 ARG F 67 31.438 3.839 1.652 1.00 75.25 N +ATOM 14771 NH2 ARG F 67 30.797 3.277 -0.475 1.00 84.68 N +ATOM 14772 N TYR F 68 35.214 10.672 -0.400 1.00 73.32 N +ATOM 14773 CA TYR F 68 36.562 11.206 -0.284 1.00 77.58 C +ATOM 14774 C TYR F 68 37.423 10.296 0.591 1.00 84.58 C +ATOM 14775 O TYR F 68 36.924 9.472 1.362 1.00 85.28 O +ATOM 14776 CB TYR F 68 36.513 12.625 0.285 1.00 77.07 C +ATOM 14777 CG TYR F 68 37.836 13.357 0.275 1.00 85.13 C +ATOM 14778 CD1 TYR F 68 38.377 13.834 -0.912 1.00 88.00 C +ATOM 14779 CD2 TYR F 68 38.534 13.590 1.453 1.00 89.11 C +ATOM 14780 CE1 TYR F 68 39.581 14.510 -0.928 1.00 91.45 C +ATOM 14781 CE2 TYR F 68 39.740 14.266 1.447 1.00 93.33 C +ATOM 14782 CZ TYR F 68 40.258 14.724 0.253 1.00 94.69 C +ATOM 14783 OH TYR F 68 41.458 15.398 0.240 1.00100.07 O +ATOM 14784 N THR F 69 38.739 10.437 0.437 1.00 90.43 N +ATOM 14785 CA THR F 69 39.684 9.588 1.152 1.00 98.24 C +ATOM 14786 C THR F 69 39.515 9.733 2.661 1.00 98.59 C +ATOM 14787 O THR F 69 39.295 10.831 3.178 1.00100.58 O +ATOM 14788 CB THR F 69 41.116 9.942 0.744 1.00107.04 C +ATOM 14789 OG1 THR F 69 41.249 9.834 -0.679 1.00109.09 O +ATOM 14790 CG2 THR F 69 42.116 9.005 1.406 1.00118.97 C +ATOM 14791 N GLY F 70 39.622 8.608 3.369 1.00 94.56 N +ATOM 14792 CA GLY F 70 39.512 8.586 4.812 1.00 90.09 C +ATOM 14793 C GLY F 70 38.102 8.610 5.359 1.00 86.60 C +ATOM 14794 O GLY F 70 37.933 8.557 6.583 1.00 86.27 O +ATOM 14795 N VAL F 71 37.092 8.683 4.503 1.00 84.38 N +ATOM 14796 CA VAL F 71 35.701 8.706 4.966 1.00 81.08 C +ATOM 14797 C VAL F 71 35.270 7.286 5.304 1.00 79.49 C +ATOM 14798 O VAL F 71 35.557 6.357 4.530 1.00 84.36 O +ATOM 14799 CB VAL F 71 34.797 9.322 3.900 1.00 76.48 C +ATOM 14800 CG1 VAL F 71 33.338 9.231 4.314 1.00 72.48 C +ATOM 14801 CG2 VAL F 71 35.183 10.774 3.658 1.00 75.83 C +ATOM 14802 N PRO F 72 34.602 7.068 6.439 1.00 72.42 N +ATOM 14803 CA PRO F 72 34.132 5.721 6.783 1.00 74.00 C +ATOM 14804 C PRO F 72 33.176 5.172 5.733 1.00 76.24 C +ATOM 14805 O PRO F 72 32.556 5.911 4.966 1.00 73.92 O +ATOM 14806 CB PRO F 72 33.425 5.923 8.128 1.00 73.04 C +ATOM 14807 CG PRO F 72 34.043 7.157 8.696 1.00 71.46 C +ATOM 14808 CD PRO F 72 34.355 8.036 7.522 1.00 68.02 C +ATOM 14809 N ASP F 74 33.063 3.841 5.708 1.00 78.20 N +ATOM 14810 CA ASP F 74 32.239 3.186 4.698 1.00 78.25 C +ATOM 14811 C ASP F 74 30.755 3.467 4.888 1.00 74.27 C +ATOM 14812 O ASP F 74 29.984 3.337 3.931 1.00 77.57 O +ATOM 14813 CB ASP F 74 32.473 1.674 4.724 1.00 82.22 C +ATOM 14814 CG ASP F 74 33.941 1.308 4.650 1.00 90.94 C +ATOM 14815 OD1 ASP F 74 34.700 1.708 5.558 1.00 88.99 O +ATOM 14816 OD2 ASP F 74 34.334 0.615 3.689 1.00116.94 O +ATOM 14817 N ARG F 75 30.343 3.851 6.095 1.00 69.84 N +ATOM 14818 CA ARG F 75 28.940 4.111 6.393 1.00 69.73 C +ATOM 14819 C ARG F 75 28.394 5.369 5.724 1.00 67.05 C +ATOM 14820 O ARG F 75 27.171 5.544 5.695 1.00 66.46 O +ATOM 14821 CB ARG F 75 28.760 4.151 7.912 1.00 66.14 C +ATOM 14822 CG ARG F 75 29.688 5.110 8.630 1.00 68.07 C +ATOM 14823 CD ARG F 75 29.517 4.996 10.137 1.00 69.37 C +ATOM 14824 NE ARG F 75 30.469 5.831 10.862 1.00 68.92 N +ATOM 14825 CZ ARG F 75 30.295 7.124 11.099 1.00 70.36 C +ATOM 14826 NH1 ARG F 75 29.201 7.729 10.666 1.00 71.02 N +ATOM 14827 NH2 ARG F 75 31.213 7.810 11.767 1.00 73.88 N +ATOM 14828 N PHE F 76 29.246 6.242 5.189 1.00 62.99 N +ATOM 14829 CA PHE F 76 28.787 7.392 4.417 1.00 61.76 C +ATOM 14830 C PHE F 76 28.739 7.019 2.938 1.00 63.22 C +ATOM 14831 O PHE F 76 29.752 6.596 2.370 1.00 67.63 O +ATOM 14832 CB PHE F 76 29.699 8.600 4.624 1.00 61.68 C +ATOM 14833 CG PHE F 76 29.778 9.076 6.047 1.00 62.56 C +ATOM 14834 CD1 PHE F 76 28.780 9.876 6.576 1.00 60.85 C +ATOM 14835 CD2 PHE F 76 30.856 8.742 6.847 1.00 66.53 C +ATOM 14836 CE1 PHE F 76 28.848 10.325 7.879 1.00 60.67 C +ATOM 14837 CE2 PHE F 76 30.931 9.189 8.153 1.00 68.92 C +ATOM 14838 CZ PHE F 76 29.925 9.984 8.668 1.00 65.24 C +ATOM 14839 N THR F 77 27.572 7.184 2.313 1.00 57.97 N +ATOM 14840 CA THR F 77 27.407 6.879 0.899 1.00 53.87 C +ATOM 14841 C THR F 77 26.555 7.956 0.245 1.00 55.20 C +ATOM 14842 O THR F 77 25.889 8.746 0.917 1.00 55.39 O +ATOM 14843 CB THR F 77 26.763 5.502 0.667 1.00 55.39 C +ATOM 14844 OG1 THR F 77 25.511 5.431 1.362 1.00 60.09 O +ATOM 14845 CG2 THR F 77 27.679 4.381 1.139 1.00 60.64 C +ATOM 14846 N GLY F 78 26.588 7.982 -1.079 1.00 54.88 N +ATOM 14847 CA GLY F 78 25.807 8.945 -1.837 1.00 54.06 C +ATOM 14848 C GLY F 78 25.328 8.334 -3.132 1.00 57.14 C +ATOM 14849 O GLY F 78 25.956 7.422 -3.679 1.00 60.95 O +ATOM 14850 N SER F 79 24.196 8.834 -3.621 1.00 55.67 N +ATOM 14851 CA SER F 79 23.650 8.372 -4.888 1.00 56.17 C +ATOM 14852 C SER F 79 22.865 9.506 -5.530 1.00 57.47 C +ATOM 14853 O SER F 79 22.606 10.538 -4.911 1.00 59.61 O +ATOM 14854 CB SER F 79 22.765 7.135 -4.700 1.00 59.95 C +ATOM 14855 OG SER F 79 21.550 7.473 -4.054 1.00 64.36 O +ATOM 14856 N GLY F 80 22.485 9.302 -6.783 1.00 57.12 N +ATOM 14857 CA GLY F 80 21.656 10.242 -7.507 1.00 59.31 C +ATOM 14858 C GLY F 80 22.332 10.750 -8.768 1.00 59.77 C +ATOM 14859 O GLY F 80 23.512 10.514 -9.022 1.00 57.00 O +ATOM 14860 N SER F 83 21.543 11.485 -9.548 1.00 59.42 N +ATOM 14861 CA SER F 83 22.005 12.006 -10.830 1.00 60.03 C +ATOM 14862 C SER F 83 20.940 12.931 -11.396 1.00 61.72 C +ATOM 14863 O SER F 83 19.758 12.829 -11.055 1.00 65.24 O +ATOM 14864 CB SER F 83 22.316 10.884 -11.828 1.00 60.12 C +ATOM 14865 OG SER F 83 21.150 10.150 -12.155 1.00 65.53 O +ATOM 14866 N GLY F 84 21.378 13.834 -12.270 1.00 60.34 N +ATOM 14867 CA GLY F 84 20.475 14.782 -12.890 1.00 64.95 C +ATOM 14868 C GLY F 84 19.980 15.841 -11.929 1.00 66.24 C +ATOM 14869 O GLY F 84 20.624 16.879 -11.748 1.00 64.42 O +ATOM 14870 N THR F 85 18.831 15.590 -11.309 1.00 66.37 N +ATOM 14871 CA THR F 85 18.210 16.547 -10.405 1.00 63.82 C +ATOM 14872 C THR F 85 18.072 16.049 -8.976 1.00 62.69 C +ATOM 14873 O THR F 85 18.067 16.869 -8.057 1.00 63.59 O +ATOM 14874 CB THR F 85 16.819 16.949 -10.922 1.00 64.33 C +ATOM 14875 OG1 THR F 85 16.143 15.792 -11.431 1.00 66.74 O +ATOM 14876 CG2 THR F 85 16.938 17.990 -12.024 1.00 65.35 C +ATOM 14877 N ASP F 86 17.970 14.741 -8.759 1.00 62.02 N +ATOM 14878 CA ASP F 86 17.733 14.175 -7.437 1.00 61.30 C +ATOM 14879 C ASP F 86 18.998 13.496 -6.930 1.00 61.08 C +ATOM 14880 O ASP F 86 19.642 12.740 -7.670 1.00 63.90 O +ATOM 14881 CB ASP F 86 16.573 13.178 -7.475 1.00 65.33 C +ATOM 14882 CG ASP F 86 15.308 13.780 -8.055 1.00 70.62 C +ATOM 14883 OD1 ASP F 86 15.092 14.998 -7.878 1.00 68.88 O +ATOM 14884 OD2 ASP F 86 14.532 13.038 -8.693 1.00 75.74 O +ATOM 14885 N PHE F 87 19.344 13.758 -5.666 1.00 59.26 N +ATOM 14886 CA PHE F 87 20.515 13.167 -5.035 1.00 59.64 C +ATOM 14887 C PHE F 87 20.192 12.857 -3.580 1.00 57.90 C +ATOM 14888 O PHE F 87 19.346 13.512 -2.967 1.00 55.96 O +ATOM 14889 CB PHE F 87 21.730 14.105 -5.127 1.00 58.83 C +ATOM 14890 CG PHE F 87 22.057 14.532 -6.531 1.00 58.28 C +ATOM 14891 CD1 PHE F 87 21.432 15.632 -7.099 1.00 58.18 C +ATOM 14892 CD2 PHE F 87 22.982 13.831 -7.283 1.00 58.31 C +ATOM 14893 CE1 PHE F 87 21.721 16.020 -8.392 1.00 60.95 C +ATOM 14894 CE2 PHE F 87 23.282 14.220 -8.573 1.00 59.42 C +ATOM 14895 CZ PHE F 87 22.647 15.312 -9.130 1.00 61.58 C +ATOM 14896 N THR F 88 20.872 11.852 -3.031 1.00 56.90 N +ATOM 14897 CA THR F 88 20.589 11.375 -1.681 1.00 56.50 C +ATOM 14898 C THR F 88 21.885 10.957 -1.001 1.00 55.44 C +ATOM 14899 O THR F 88 22.621 10.114 -1.523 1.00 55.40 O +ATOM 14900 CB THR F 88 19.599 10.206 -1.700 1.00 60.46 C +ATOM 14901 OG1 THR F 88 18.383 10.619 -2.335 1.00 63.28 O +ATOM 14902 CG2 THR F 88 19.287 9.761 -0.279 1.00 60.50 C +ATOM 14903 N PHE F 89 22.152 11.553 0.158 1.00 57.29 N +ATOM 14904 CA PHE F 89 23.282 11.200 1.010 1.00 56.03 C +ATOM 14905 C PHE F 89 22.778 10.321 2.148 1.00 54.29 C +ATOM 14906 O PHE F 89 21.767 10.642 2.779 1.00 55.23 O +ATOM 14907 CB PHE F 89 23.948 12.469 1.547 1.00 54.76 C +ATOM 14908 CG PHE F 89 24.907 12.234 2.679 1.00 55.97 C +ATOM 14909 CD1 PHE F 89 26.237 11.950 2.426 1.00 54.89 C +ATOM 14910 CD2 PHE F 89 24.487 12.332 3.997 1.00 57.62 C +ATOM 14911 CE1 PHE F 89 27.127 11.745 3.462 1.00 55.01 C +ATOM 14912 CE2 PHE F 89 25.371 12.125 5.037 1.00 56.34 C +ATOM 14913 CZ PHE F 89 26.693 11.834 4.769 1.00 54.73 C +ATOM 14914 N THR F 90 23.483 9.225 2.425 1.00 54.59 N +ATOM 14915 CA THR F 90 22.978 8.207 3.338 1.00 54.25 C +ATOM 14916 C THR F 90 24.042 7.796 4.345 1.00 56.85 C +ATOM 14917 O THR F 90 25.193 7.534 3.978 1.00 56.08 O +ATOM 14918 CB THR F 90 22.487 6.976 2.565 1.00 53.23 C +ATOM 14919 OG1 THR F 90 21.364 7.337 1.752 1.00 56.25 O +ATOM 14920 CG2 THR F 90 22.075 5.865 3.520 1.00 55.95 C +ATOM 14921 N ILE F 91 23.644 7.744 5.614 1.00 56.17 N +ATOM 14922 CA ILE F 91 24.427 7.135 6.683 1.00 53.25 C +ATOM 14923 C ILE F 91 23.753 5.817 7.037 1.00 57.81 C +ATOM 14924 O ILE F 91 22.570 5.795 7.410 1.00 60.54 O +ATOM 14925 CB ILE F 91 24.530 8.050 7.912 1.00 51.92 C +ATOM 14926 CG1 ILE F 91 25.032 9.438 7.510 1.00 51.81 C +ATOM 14927 CG2 ILE F 91 25.440 7.430 8.963 1.00 56.71 C +ATOM 14928 CD1 ILE F 91 25.050 10.432 8.653 1.00 51.73 C +ATOM 14929 N SER F 92 24.504 4.720 6.908 1.00 56.43 N +ATOM 14930 CA SER F 92 23.939 3.389 7.101 1.00 60.06 C +ATOM 14931 C SER F 92 23.766 3.036 8.573 1.00 56.89 C +ATOM 14932 O SER F 92 22.819 2.323 8.924 1.00 55.94 O +ATOM 14933 CB SER F 92 24.821 2.344 6.414 1.00 58.00 C +ATOM 14934 OG SER F 92 26.078 2.232 7.059 1.00 63.20 O +ATOM 14935 N SER F 93 24.656 3.514 9.442 1.00 56.31 N +ATOM 14936 CA SER F 93 24.586 3.229 10.879 1.00 60.60 C +ATOM 14937 C SER F 93 25.057 4.484 11.611 1.00 61.70 C +ATOM 14938 O SER F 93 26.256 4.669 11.837 1.00 64.50 O +ATOM 14939 CB SER F 93 25.417 2.008 11.251 1.00 61.09 C +ATOM 14940 OG SER F 93 25.273 1.700 12.627 1.00 55.08 O +ATOM 14941 N VAL F 94 24.102 5.347 11.964 1.00 60.85 N +ATOM 14942 CA VAL F 94 24.434 6.612 12.608 1.00 60.65 C +ATOM 14943 C VAL F 94 25.128 6.357 13.939 1.00 61.06 C +ATOM 14944 O VAL F 94 24.772 5.437 14.688 1.00 59.48 O +ATOM 14945 CB VAL F 94 23.164 7.459 12.794 1.00 58.32 C +ATOM 14946 CG1 VAL F 94 23.470 8.742 13.554 1.00 55.65 C +ATOM 14947 CG2 VAL F 94 22.538 7.772 11.448 1.00 56.65 C +ATOM 14948 N GLN F 95 26.132 7.179 14.237 1.00 61.20 N +ATOM 14949 CA GLN F 95 26.867 7.120 15.489 1.00 62.26 C +ATOM 14950 C GLN F 95 26.737 8.452 16.215 1.00 62.75 C +ATOM 14951 O GLN F 95 26.309 9.457 15.639 1.00 62.06 O +ATOM 14952 CB GLN F 95 28.346 6.782 15.248 1.00 66.88 C +ATOM 14953 CG GLN F 95 28.565 5.389 14.672 1.00 68.56 C +ATOM 14954 CD GLN F 95 30.015 5.118 14.313 1.00 71.83 C +ATOM 14955 OE1 GLN F 95 30.910 5.892 14.654 1.00 69.61 O +ATOM 14956 NE2 GLN F 95 30.252 4.011 13.618 1.00 70.74 N +ATOM 14957 N ALA F 96 27.093 8.437 17.502 1.00 63.91 N +ATOM 14958 CA ALA F 96 26.909 9.612 18.350 1.00 64.92 C +ATOM 14959 C ALA F 96 27.607 10.842 17.776 1.00 66.34 C +ATOM 14960 O ALA F 96 27.055 11.948 17.805 1.00 65.48 O +ATOM 14961 CB ALA F 96 27.410 9.319 19.764 1.00 66.41 C +ATOM 14962 N GLU F 97 28.827 10.674 17.267 1.00 64.62 N +ATOM 14963 CA GLU F 97 29.589 11.806 16.756 1.00 63.24 C +ATOM 14964 C GLU F 97 29.076 12.325 15.418 1.00 61.49 C +ATOM 14965 O GLU F 97 29.551 13.370 14.961 1.00 59.40 O +ATOM 14966 CB GLU F 97 31.065 11.425 16.619 1.00 64.87 C +ATOM 14967 CG GLU F 97 31.321 10.245 15.693 1.00 69.40 C +ATOM 14968 CD GLU F 97 31.311 8.913 16.418 1.00 73.91 C +ATOM 14969 OE1 GLU F 97 30.715 8.831 17.514 1.00 69.74 O +ATOM 14970 OE2 GLU F 97 31.901 7.947 15.890 1.00 74.88 O +ATOM 14971 N ASP F 98 28.120 11.639 14.787 1.00 62.66 N +ATOM 14972 CA ASP F 98 27.664 12.027 13.457 1.00 58.86 C +ATOM 14973 C ASP F 98 26.753 13.247 13.451 1.00 56.81 C +ATOM 14974 O ASP F 98 26.389 13.712 12.365 1.00 56.07 O +ATOM 14975 CB ASP F 98 26.932 10.860 12.792 1.00 58.68 C +ATOM 14976 CG ASP F 98 27.858 9.720 12.440 1.00 64.50 C +ATOM 14977 OD1 ASP F 98 29.066 9.972 12.243 1.00 65.54 O +ATOM 14978 OD2 ASP F 98 27.380 8.569 12.357 1.00 67.69 O +ATOM 14979 N LEU F 99 26.369 13.771 14.612 1.00 58.09 N +ATOM 14980 CA LEU F 99 25.542 14.970 14.638 1.00 57.71 C +ATOM 14981 C LEU F 99 26.301 16.150 14.039 1.00 53.47 C +ATOM 14982 O LEU F 99 27.416 16.471 14.463 1.00 53.93 O +ATOM 14983 CB LEU F 99 25.081 15.270 16.069 1.00 58.61 C +ATOM 14984 CG LEU F 99 26.074 15.657 17.166 1.00 57.93 C +ATOM 14985 CD1 LEU F 99 26.161 17.170 17.314 1.00 54.45 C +ATOM 14986 CD2 LEU F 99 25.686 15.004 18.482 1.00 63.04 C +ATOM 14987 N ALA F 100 25.687 16.788 13.043 1.00 52.83 N +ATOM 14988 CA ALA F 100 26.302 17.869 12.281 1.00 54.82 C +ATOM 14989 C ALA F 100 25.303 18.414 11.270 1.00 55.05 C +ATOM 14990 O ALA F 100 24.192 17.890 11.149 1.00 57.87 O +ATOM 14991 CB ALA F 100 27.563 17.385 11.560 1.00 56.94 C +ATOM 14992 N VAL F 101 25.679 19.451 10.530 1.00 54.58 N +ATOM 14993 CA VAL F 101 24.873 19.945 9.422 1.00 57.58 C +ATOM 14994 C VAL F 101 25.484 19.431 8.128 1.00 57.07 C +ATOM 14995 O VAL F 101 26.684 19.610 7.880 1.00 59.28 O +ATOM 14996 CB VAL F 101 24.787 21.480 9.427 1.00 57.41 C +ATOM 14997 CG1 VAL F 101 23.804 21.953 8.368 1.00 57.90 C +ATOM 14998 CG2 VAL F 101 24.380 21.983 10.802 1.00 61.35 C +ATOM 14999 N TYR F 102 24.665 18.783 7.309 1.00 53.96 N +ATOM 15000 CA TYR F 102 25.107 18.185 6.059 1.00 56.23 C +ATOM 15001 C TYR F 102 24.608 19.029 4.894 1.00 58.93 C +ATOM 15002 O TYR F 102 23.413 19.336 4.810 1.00 59.41 O +ATOM 15003 CB TYR F 102 24.613 16.741 5.946 1.00 53.93 C +ATOM 15004 CG TYR F 102 25.244 15.818 6.966 1.00 53.64 C +ATOM 15005 CD1 TYR F 102 24.798 15.793 8.282 1.00 54.62 C +ATOM 15006 CD2 TYR F 102 26.293 14.978 6.616 1.00 54.14 C +ATOM 15007 CE1 TYR F 102 25.375 14.954 9.217 1.00 53.43 C +ATOM 15008 CE2 TYR F 102 26.874 14.134 7.543 1.00 52.93 C +ATOM 15009 CZ TYR F 102 26.412 14.127 8.842 1.00 52.43 C +ATOM 15010 OH TYR F 102 26.990 13.290 9.769 1.00 53.55 O +ATOM 15011 N TYR F 103 25.533 19.423 4.020 1.00 56.60 N +ATOM 15012 CA TYR F 103 25.239 20.283 2.883 1.00 58.72 C +ATOM 15013 C TYR F 103 25.482 19.543 1.576 1.00 63.18 C +ATOM 15014 O TYR F 103 26.418 18.744 1.469 1.00 63.57 O +ATOM 15015 CB TYR F 103 26.102 21.552 2.900 1.00 61.59 C +ATOM 15016 CG TYR F 103 25.890 22.453 4.094 1.00 62.73 C +ATOM 15017 CD1 TYR F 103 26.588 22.248 5.276 1.00 60.45 C +ATOM 15018 CD2 TYR F 103 25.001 23.518 4.033 1.00 66.34 C +ATOM 15019 CE1 TYR F 103 26.402 23.075 6.366 1.00 63.10 C +ATOM 15020 CE2 TYR F 103 24.806 24.349 5.120 1.00 68.31 C +ATOM 15021 CZ TYR F 103 25.509 24.123 6.283 1.00 66.96 C +ATOM 15022 OH TYR F 103 25.318 24.948 7.368 1.00 73.48 O +ATOM 15023 N CYS F 104 24.642 19.825 0.582 1.00 62.21 N +ATOM 15024 CA CYS F 104 24.889 19.426 -0.796 1.00 61.33 C +ATOM 15025 C CYS F 104 25.315 20.647 -1.600 1.00 61.84 C +ATOM 15026 O CYS F 104 24.826 21.757 -1.371 1.00 61.65 O +ATOM 15027 CB CYS F 104 23.653 18.779 -1.436 1.00 63.21 C +ATOM 15028 SG CYS F 104 22.175 19.823 -1.532 1.00 76.09 S +ATOM 15029 N GLN F 105 26.240 20.433 -2.532 1.00 61.42 N +ATOM 15030 CA GLN F 105 26.761 21.489 -3.389 1.00 62.63 C +ATOM 15031 C GLN F 105 26.845 20.967 -4.811 1.00 60.75 C +ATOM 15032 O GLN F 105 27.404 19.893 -5.042 1.00 61.53 O +ATOM 15033 CB GLN F 105 28.148 21.952 -2.927 1.00 62.13 C +ATOM 15034 CG GLN F 105 28.756 23.039 -3.801 1.00 64.27 C +ATOM 15035 CD GLN F 105 30.107 22.642 -4.368 1.00 67.28 C +ATOM 15036 OE1 GLN F 105 30.890 21.952 -3.714 1.00 67.10 O +ATOM 15037 NE2 GLN F 105 30.384 23.074 -5.593 1.00 67.28 N +ATOM 15038 N GLN F 106 26.303 21.717 -5.764 1.00 60.58 N +ATOM 15039 CA GLN F 106 26.474 21.350 -7.164 1.00 62.79 C +ATOM 15040 C GLN F 106 27.852 21.824 -7.614 1.00 67.27 C +ATOM 15041 O GLN F 106 28.149 23.024 -7.595 1.00 68.02 O +ATOM 15042 CB GLN F 106 25.348 21.920 -8.027 1.00 62.04 C +ATOM 15043 CG GLN F 106 25.247 23.437 -8.110 1.00 65.18 C +ATOM 15044 CD GLN F 106 26.015 24.017 -9.286 1.00 69.44 C +ATOM 15045 OE1 GLN F 106 26.552 23.282 -10.116 1.00 69.19 O +ATOM 15046 NE2 GLN F 106 26.078 25.342 -9.357 1.00 69.95 N +ATOM 15047 N HIS F 107 28.724 20.882 -7.947 1.00 66.99 N +ATOM 15048 CA HIS F 107 30.006 21.220 -8.562 1.00 70.59 C +ATOM 15049 C HIS F 107 29.965 20.928 -10.055 1.00 72.28 C +ATOM 15050 O HIS F 107 30.816 20.246 -10.623 1.00 73.75 O +ATOM 15051 CB HIS F 107 31.154 20.492 -7.864 1.00 70.84 C +ATOM 15052 CG HIS F 107 31.095 18.999 -7.962 1.00 67.48 C +ATOM 15053 ND1 HIS F 107 31.839 18.283 -8.874 1.00 72.12 N +ATOM 15054 CD2 HIS F 107 30.409 18.084 -7.237 1.00 65.38 C +ATOM 15055 CE1 HIS F 107 31.601 16.993 -8.719 1.00 67.77 C +ATOM 15056 NE2 HIS F 107 30.736 16.846 -7.733 1.00 64.47 N +ATOM 15057 N TYR F 108 28.930 21.469 -10.697 1.00 68.32 N +ATOM 15058 CA TYR F 108 28.646 21.263 -12.110 1.00 66.11 C +ATOM 15059 C TYR F 108 28.917 22.499 -12.952 1.00 67.91 C +ATOM 15060 O TYR F 108 29.529 22.398 -14.019 1.00 70.46 O +ATOM 15061 CB TYR F 108 27.182 20.831 -12.287 1.00 66.14 C +ATOM 15062 CG TYR F 108 26.762 20.635 -13.727 1.00 67.57 C +ATOM 15063 CD1 TYR F 108 27.051 19.456 -14.402 1.00 67.35 C +ATOM 15064 CD2 TYR F 108 26.066 21.627 -14.409 1.00 66.33 C +ATOM 15065 CE1 TYR F 108 26.667 19.273 -15.717 1.00 65.94 C +ATOM 15066 CE2 TYR F 108 25.678 21.453 -15.723 1.00 65.30 C +ATOM 15067 CZ TYR F 108 25.980 20.274 -16.372 1.00 66.88 C +ATOM 15068 OH TYR F 108 25.595 20.096 -17.681 1.00 69.73 O +ATOM 15069 N SER F 109 28.471 23.670 -12.502 1.00 68.76 N +ATOM 15070 CA SER F 109 28.628 24.894 -13.271 1.00 70.34 C +ATOM 15071 C SER F 109 28.844 26.062 -12.317 1.00 72.10 C +ATOM 15072 O SER F 109 28.835 25.906 -11.093 1.00 70.04 O +ATOM 15073 CB SER F 109 27.416 25.131 -14.178 1.00 66.76 C +ATOM 15074 OG SER F 109 26.244 25.351 -13.414 1.00 70.88 O +ATOM 15075 N ILE F 114 29.041 27.242 -12.898 1.00 76.74 N +ATOM 15076 CA ILE F 114 29.270 28.481 -12.159 1.00 75.19 C +ATOM 15077 C ILE F 114 28.006 29.328 -12.270 1.00 75.83 C +ATOM 15078 O ILE F 114 27.398 29.380 -13.349 1.00 76.24 O +ATOM 15079 CB ILE F 114 30.513 29.215 -12.695 1.00 76.27 C +ATOM 15080 CG1 ILE F 114 31.782 28.487 -12.258 1.00 76.12 C +ATOM 15081 CG2 ILE F 114 30.558 30.668 -12.243 1.00 77.03 C +ATOM 15082 CD1 ILE F 114 33.061 29.129 -12.743 1.00 86.10 C +ATOM 15083 N PRO F 115 27.563 30.005 -11.196 1.00 75.60 N +ATOM 15084 CA PRO F 115 28.167 30.071 -9.859 1.00 73.84 C +ATOM 15085 C PRO F 115 28.010 28.798 -9.039 1.00 74.11 C +ATOM 15086 O PRO F 115 27.034 28.065 -9.201 1.00 74.49 O +ATOM 15087 CB PRO F 115 27.412 31.224 -9.196 1.00 80.97 C +ATOM 15088 CG PRO F 115 26.088 31.214 -9.851 1.00 82.37 C +ATOM 15089 CD PRO F 115 26.335 30.816 -11.278 1.00 82.84 C +ATOM 15090 N ARG F 116 28.978 28.545 -8.164 1.00 74.09 N +ATOM 15091 CA ARG F 116 28.889 27.406 -7.265 1.00 71.44 C +ATOM 15092 C ARG F 116 27.816 27.683 -6.223 1.00 71.42 C +ATOM 15093 O ARG F 116 27.822 28.735 -5.577 1.00 73.62 O +ATOM 15094 CB ARG F 116 30.236 27.164 -6.588 1.00 74.10 C +ATOM 15095 CG ARG F 116 31.414 27.276 -7.534 1.00 76.10 C +ATOM 15096 CD ARG F 116 31.981 25.923 -7.892 1.00 79.04 C +ATOM 15097 NE ARG F 116 32.929 26.027 -8.995 1.00 85.51 N +ATOM 15098 CZ ARG F 116 32.595 25.891 -10.274 1.00 86.96 C +ATOM 15099 NH1 ARG F 116 31.338 25.634 -10.606 1.00 79.01 N +ATOM 15100 NH2 ARG F 116 33.520 25.993 -11.218 1.00 83.22 N +ATOM 15101 N THR F 117 26.883 26.751 -6.066 1.00 67.02 N +ATOM 15102 CA THR F 117 25.771 26.946 -5.150 1.00 64.70 C +ATOM 15103 C THR F 117 25.657 25.756 -4.212 1.00 63.36 C +ATOM 15104 O THR F 117 25.805 24.603 -4.629 1.00 61.32 O +ATOM 15105 CB THR F 117 24.450 27.150 -5.902 1.00 62.91 C +ATOM 15106 OG1 THR F 117 24.232 26.058 -6.802 1.00 62.04 O +ATOM 15107 CG2 THR F 117 24.480 28.450 -6.692 1.00 62.12 C +ATOM 15108 N PHE F 118 25.395 26.050 -2.944 1.00 65.34 N +ATOM 15109 CA PHE F 118 25.198 25.043 -1.915 1.00 62.88 C +ATOM 15110 C PHE F 118 23.710 24.866 -1.635 1.00 62.49 C +ATOM 15111 O PHE F 118 22.863 25.630 -2.103 1.00 60.36 O +ATOM 15112 CB PHE F 118 25.933 25.434 -0.629 1.00 62.88 C +ATOM 15113 CG PHE F 118 27.429 25.390 -0.742 1.00 64.93 C +ATOM 15114 CD1 PHE F 118 28.127 26.446 -1.306 1.00 66.80 C +ATOM 15115 CD2 PHE F 118 28.140 24.300 -0.268 1.00 65.52 C +ATOM 15116 CE1 PHE F 118 29.505 26.409 -1.406 1.00 66.98 C +ATOM 15117 CE2 PHE F 118 29.518 24.258 -0.364 1.00 62.98 C +ATOM 15118 CZ PHE F 118 30.201 25.313 -0.934 1.00 65.90 C +ATOM 15119 N GLY F 119 23.399 23.833 -0.859 1.00 63.06 N +ATOM 15120 CA GLY F 119 22.059 23.664 -0.345 1.00 60.89 C +ATOM 15121 C GLY F 119 21.859 24.412 0.960 1.00 64.92 C +ATOM 15122 O GLY F 119 22.786 24.993 1.523 1.00 64.04 O +ATOM 15123 N GLY F 120 20.616 24.391 1.442 1.00 69.64 N +ATOM 15124 CA GLY F 120 20.310 25.050 2.698 1.00 63.43 C +ATOM 15125 C GLY F 120 20.925 24.378 3.906 1.00 59.34 C +ATOM 15126 O GLY F 120 21.120 25.032 4.936 1.00 60.56 O +ATOM 15127 N GLY F 121 21.239 23.093 3.803 1.00 56.19 N +ATOM 15128 CA GLY F 121 21.794 22.342 4.906 1.00 58.00 C +ATOM 15129 C GLY F 121 20.729 21.557 5.652 1.00 59.05 C +ATOM 15130 O GLY F 121 19.540 21.884 5.638 1.00 59.90 O +ATOM 15131 N THR F 122 21.172 20.494 6.319 1.00 56.75 N +ATOM 15132 CA THR F 122 20.275 19.657 7.113 1.00 55.84 C +ATOM 15133 C THR F 122 20.977 19.329 8.422 1.00 57.45 C +ATOM 15134 O THR F 122 21.998 18.636 8.422 1.00 56.08 O +ATOM 15135 CB THR F 122 19.891 18.380 6.365 1.00 57.24 C +ATOM 15136 OG1 THR F 122 19.251 18.722 5.130 1.00 59.51 O +ATOM 15137 CG2 THR F 122 18.940 17.539 7.206 1.00 55.30 C +ATOM 15138 N LYS F 123 20.450 19.855 9.525 1.00 60.28 N +ATOM 15139 CA LYS F 123 20.986 19.557 10.846 1.00 58.98 C +ATOM 15140 C LYS F 123 20.488 18.193 11.305 1.00 58.76 C +ATOM 15141 O LYS F 123 19.280 17.941 11.331 1.00 59.06 O +ATOM 15142 CB LYS F 123 20.581 20.644 11.842 1.00 61.39 C +ATOM 15143 CG LYS F 123 21.140 20.449 13.242 1.00 68.10 C +ATOM 15144 CD LYS F 123 20.517 21.428 14.225 1.00 73.29 C +ATOM 15145 CE LYS F 123 21.132 22.813 14.088 1.00 72.47 C +ATOM 15146 NZ LYS F 123 22.561 22.836 14.506 1.00 69.99 N +ATOM 15147 N LEU F 124 21.421 17.312 11.662 1.00 55.78 N +ATOM 15148 CA LEU F 124 21.111 15.947 12.081 1.00 55.69 C +ATOM 15149 C LEU F 124 21.152 15.882 13.604 1.00 60.09 C +ATOM 15150 O LEU F 124 22.229 15.841 14.204 1.00 61.56 O +ATOM 15151 CB LEU F 124 22.103 14.968 11.463 1.00 55.00 C +ATOM 15152 CG LEU F 124 21.923 13.490 11.802 1.00 54.82 C +ATOM 15153 CD1 LEU F 124 20.589 12.984 11.281 1.00 52.85 C +ATOM 15154 CD2 LEU F 124 23.075 12.670 11.247 1.00 54.45 C +ATOM 15155 N GLU F 125 19.978 15.875 14.229 1.00 63.25 N +ATOM 15156 CA GLU F 125 19.880 15.696 15.669 1.00 63.45 C +ATOM 15157 C GLU F 125 19.768 14.212 16.002 1.00 59.42 C +ATOM 15158 O GLU F 125 19.226 13.420 15.229 1.00 61.61 O +ATOM 15159 CB GLU F 125 18.683 16.459 16.235 1.00 72.91 C +ATOM 15160 CG GLU F 125 18.715 17.948 15.945 1.00 86.62 C +ATOM 15161 CD GLU F 125 17.388 18.622 16.217 1.00105.58 C +ATOM 15162 OE1 GLU F 125 16.383 17.909 16.426 1.00119.16 O +ATOM 15163 OE2 GLU F 125 17.357 19.869 16.254 1.00104.30 O +ATOM 15164 N ILE F 126 20.287 13.841 17.169 1.00 60.89 N +ATOM 15165 CA ILE F 126 20.299 12.456 17.630 1.00 61.87 C +ATOM 15166 C ILE F 126 19.287 12.294 18.756 1.00 62.90 C +ATOM 15167 O ILE F 126 19.277 13.085 19.705 1.00 63.47 O +ATOM 15168 CB ILE F 126 21.711 12.033 18.071 1.00 58.17 C +ATOM 15169 CG1 ILE F 126 22.630 11.964 16.852 1.00 61.46 C +ATOM 15170 CG2 ILE F 126 21.669 10.693 18.784 1.00 54.88 C +ATOM 15171 CD1 ILE F 126 24.039 11.563 17.179 1.00 62.73 C +ATOM 15172 N LYS F 127 18.427 11.280 18.646 1.00 61.15 N +ATOM 15173 CA LYS F 127 17.448 10.982 19.684 1.00 60.71 C +ATOM 15174 C LYS F 127 17.981 9.888 20.600 1.00 61.67 C +ATOM 15175 O LYS F 127 18.595 8.918 20.142 1.00 57.91 O +ATOM 15176 CB LYS F 127 16.106 10.546 19.087 1.00 63.58 C +ATOM 15177 CG LYS F 127 15.403 11.651 18.327 1.00 71.47 C +ATOM 15178 CD LYS F 127 14.958 12.822 19.193 1.00 89.26 C +ATOM 15179 CE LYS F 127 14.418 13.947 18.311 1.00 88.73 C +ATOM 15180 NZ LYS F 127 14.054 15.187 19.043 1.00104.46 N +ATOM 15181 N ARG F 128 17.751 10.056 21.897 1.00 62.38 N +ATOM 15182 CA ARG F 128 18.222 9.114 22.896 1.00 58.76 C +ATOM 15183 C ARG F 128 17.193 9.051 24.014 1.00 58.67 C +ATOM 15184 O ARG F 128 16.170 9.741 23.985 1.00 55.53 O +ATOM 15185 CB ARG F 128 19.607 9.502 23.419 1.00 59.12 C +ATOM 15186 CG ARG F 128 19.696 10.930 23.912 1.00 59.46 C +ATOM 15187 CD ARG F 128 20.680 11.053 25.052 1.00 60.91 C +ATOM 15188 NE ARG F 128 20.241 10.296 26.220 1.00 59.29 N +ATOM 15189 CZ ARG F 128 21.012 10.027 27.269 1.00 62.25 C +ATOM 15190 NH1 ARG F 128 22.268 10.449 27.298 1.00 64.42 N +ATOM 15191 NH2 ARG F 128 20.530 9.331 28.290 1.00 62.98 N +ATOM 15192 N THR F 129 17.470 8.210 25.007 1.00 60.85 N +ATOM 15193 CA THR F 129 16.559 8.080 26.132 1.00 57.71 C +ATOM 15194 C THR F 129 16.510 9.382 26.922 1.00 56.96 C +ATOM 15195 O THR F 129 17.409 10.224 26.844 1.00 56.28 O +ATOM 15196 CB THR F 129 16.983 6.929 27.045 1.00 58.02 C +ATOM 15197 OG1 THR F 129 18.318 7.156 27.517 1.00 61.07 O +ATOM 15198 CG2 THR F 129 16.934 5.609 26.292 1.00 60.35 C +ATOM 15199 N VAL F 130 15.426 9.543 27.682 1.00 56.44 N +ATOM 15200 CA VAL F 130 15.258 10.746 28.482 1.00 55.20 C +ATOM 15201 C VAL F 130 16.343 10.805 29.547 1.00 58.38 C +ATOM 15202 O VAL F 130 16.726 9.785 30.135 1.00 59.70 O +ATOM 15203 CB VAL F 130 13.852 10.776 29.105 1.00 51.91 C +ATOM 15204 CG1 VAL F 130 13.644 12.062 29.869 1.00 52.46 C +ATOM 15205 CG2 VAL F 130 12.791 10.614 28.026 1.00 55.57 C +ATOM 15206 N ALA F 131 16.847 12.011 29.799 1.00 54.33 N +ATOM 15207 CA ALA F 131 17.869 12.237 30.814 1.00 53.49 C +ATOM 15208 C ALA F 131 17.505 13.492 31.588 1.00 52.68 C +ATOM 15209 O ALA F 131 17.451 14.582 31.012 1.00 53.55 O +ATOM 15210 CB ALA F 131 19.258 12.372 30.186 1.00 55.58 C +ATOM 15211 N ALA F 132 17.234 13.337 32.881 1.00 52.86 N +ATOM 15212 CA ALA F 132 16.903 14.482 33.710 1.00 51.31 C +ATOM 15213 C ALA F 132 18.129 15.376 33.897 1.00 53.43 C +ATOM 15214 O ALA F 132 19.259 14.887 33.982 1.00 53.39 O +ATOM 15215 CB ALA F 132 16.381 14.025 35.068 1.00 51.79 C +ATOM 15216 N PRO F 133 17.933 16.689 33.963 1.00 52.73 N +ATOM 15217 CA PRO F 133 19.069 17.595 34.153 1.00 56.18 C +ATOM 15218 C PRO F 133 19.576 17.587 35.584 1.00 55.96 C +ATOM 15219 O PRO F 133 18.821 17.395 36.540 1.00 54.90 O +ATOM 15220 CB PRO F 133 18.488 18.966 33.790 1.00 55.61 C +ATOM 15221 CG PRO F 133 17.041 18.845 34.111 1.00 52.59 C +ATOM 15222 CD PRO F 133 16.663 17.419 33.803 1.00 49.81 C +ATOM 15223 N SER F 134 20.881 17.804 35.721 1.00 58.24 N +ATOM 15224 CA SER F 134 21.479 18.070 37.024 1.00 55.88 C +ATOM 15225 C SER F 134 21.477 19.578 37.237 1.00 57.27 C +ATOM 15226 O SER F 134 22.045 20.319 36.431 1.00 59.88 O +ATOM 15227 CB SER F 134 22.895 17.504 37.105 1.00 56.02 C +ATOM 15228 OG SER F 134 22.878 16.088 37.080 1.00 58.66 O +ATOM 15229 N VAL F 135 20.827 20.031 38.304 1.00 59.90 N +ATOM 15230 CA VAL F 135 20.597 21.453 38.523 1.00 61.36 C +ATOM 15231 C VAL F 135 21.590 21.970 39.552 1.00 64.59 C +ATOM 15232 O VAL F 135 21.775 21.363 40.615 1.00 66.10 O +ATOM 15233 CB VAL F 135 19.151 21.722 38.971 1.00 62.33 C +ATOM 15234 CG1 VAL F 135 18.853 23.213 38.920 1.00 63.07 C +ATOM 15235 CG2 VAL F 135 18.174 20.949 38.099 1.00 63.42 C +ATOM 15236 N PHE F 136 22.227 23.092 39.232 1.00 64.77 N +ATOM 15237 CA PHE F 136 23.128 23.790 40.135 1.00 65.36 C +ATOM 15238 C PHE F 136 22.795 25.273 40.091 1.00 68.88 C +ATOM 15239 O PHE F 136 22.271 25.771 39.093 1.00 67.09 O +ATOM 15240 CB PHE F 136 24.603 23.568 39.759 1.00 63.53 C +ATOM 15241 CG PHE F 136 24.989 22.120 39.631 1.00 64.02 C +ATOM 15242 CD1 PHE F 136 24.817 21.445 38.433 1.00 64.98 C +ATOM 15243 CD2 PHE F 136 25.532 21.436 40.706 1.00 64.70 C +ATOM 15244 CE1 PHE F 136 25.173 20.115 38.311 1.00 63.62 C +ATOM 15245 CE2 PHE F 136 25.890 20.106 40.590 1.00 67.83 C +ATOM 15246 CZ PHE F 136 25.711 19.445 39.392 1.00 63.92 C +ATOM 15247 N ILE F 137 23.087 25.979 41.179 1.00 72.57 N +ATOM 15248 CA ILE F 137 22.838 27.413 41.252 1.00 71.96 C +ATOM 15249 C ILE F 137 24.074 28.102 41.813 1.00 72.26 C +ATOM 15250 O ILE F 137 24.670 27.628 42.788 1.00 71.64 O +ATOM 15251 CB ILE F 137 21.584 27.738 42.091 1.00 69.48 C +ATOM 15252 CG1 ILE F 137 21.242 29.227 41.987 1.00 71.79 C +ATOM 15253 CG2 ILE F 137 21.747 27.293 43.541 1.00 68.43 C +ATOM 15254 CD1 ILE F 137 19.867 29.576 42.510 1.00 72.97 C +ATOM 15255 N PHE F 138 24.479 29.195 41.172 1.00 75.68 N +ATOM 15256 CA PHE F 138 25.635 29.971 41.594 1.00 78.19 C +ATOM 15257 C PHE F 138 25.199 31.405 41.856 1.00 79.11 C +ATOM 15258 O PHE F 138 24.664 32.064 40.943 1.00 79.76 O +ATOM 15259 CB PHE F 138 26.746 29.933 40.545 1.00 77.12 C +ATOM 15260 CG PHE F 138 27.161 28.547 40.153 1.00 76.45 C +ATOM 15261 CD1 PHE F 138 28.006 27.811 40.962 1.00 81.10 C +ATOM 15262 CD2 PHE F 138 26.712 27.983 38.971 1.00 74.17 C +ATOM 15263 CE1 PHE F 138 28.391 26.538 40.605 1.00 82.75 C +ATOM 15264 CE2 PHE F 138 27.095 26.708 38.607 1.00 74.24 C +ATOM 15265 CZ PHE F 138 27.936 25.985 39.425 1.00 78.17 C +ATOM 15266 N PRO F 139 25.396 31.918 43.067 1.00 80.74 N +ATOM 15267 CA PRO F 139 25.077 33.317 43.355 1.00 85.69 C +ATOM 15268 C PRO F 139 26.127 34.241 42.765 1.00 89.27 C +ATOM 15269 O PRO F 139 27.211 33.786 42.370 1.00 88.92 O +ATOM 15270 CB PRO F 139 25.088 33.365 44.890 1.00 84.34 C +ATOM 15271 CG PRO F 139 26.047 32.296 45.280 1.00 81.81 C +ATOM 15272 CD PRO F 139 25.887 31.202 44.258 1.00 76.44 C +ATOM 15273 N PRO F 140 25.851 35.542 42.687 1.00 90.72 N +ATOM 15274 CA PRO F 140 26.844 36.464 42.131 1.00 94.45 C +ATOM 15275 C PRO F 140 28.040 36.629 43.054 1.00100.96 C +ATOM 15276 O PRO F 140 27.925 36.577 44.281 1.00104.09 O +ATOM 15277 CB PRO F 140 26.069 37.778 41.988 1.00 96.48 C +ATOM 15278 CG PRO F 140 24.992 37.688 43.010 1.00 93.32 C +ATOM 15279 CD PRO F 140 24.609 36.237 43.075 1.00 90.21 C +ATOM 15280 N SER F 141 29.202 36.826 42.440 1.00106.75 N +ATOM 15281 CA SER F 141 30.420 37.070 43.196 1.00112.27 C +ATOM 15282 C SER F 141 30.398 38.468 43.802 1.00117.25 C +ATOM 15283 O SER F 141 29.747 39.383 43.289 1.00118.64 O +ATOM 15284 CB SER F 141 31.648 36.903 42.301 1.00114.72 C +ATOM 15285 OG SER F 141 31.662 37.872 41.268 1.00115.42 O +ATOM 15286 N ASP F 142 31.112 38.624 44.920 1.00119.32 N +ATOM 15287 CA ASP F 142 31.196 39.930 45.566 1.00123.89 C +ATOM 15288 C ASP F 142 31.828 40.971 44.649 1.00123.26 C +ATOM 15289 O ASP F 142 31.512 42.163 44.753 1.00123.75 O +ATOM 15290 CB ASP F 142 31.983 39.818 46.872 1.00131.14 C +ATOM 15291 CG ASP F 142 31.277 38.960 47.905 1.00132.78 C +ATOM 15292 OD1 ASP F 142 30.028 38.919 47.892 1.00125.28 O +ATOM 15293 OD2 ASP F 142 31.969 38.324 48.727 1.00141.95 O +ATOM 15294 N GLU F 143 32.718 40.543 43.751 1.00123.21 N +ATOM 15295 CA GLU F 143 33.325 41.467 42.796 1.00120.68 C +ATOM 15296 C GLU F 143 32.271 42.087 41.886 1.00122.17 C +ATOM 15297 O GLU F 143 32.213 43.313 41.727 1.00124.49 O +ATOM 15298 CB GLU F 143 34.392 40.745 41.972 1.00117.50 C +ATOM 15299 CG GLU F 143 35.517 40.111 42.786 1.00123.21 C +ATOM 15300 CD GLU F 143 35.170 38.730 43.317 1.00122.88 C +ATOM 15301 OE1 GLU F 143 34.034 38.537 43.800 1.00123.21 O +ATOM 15302 OE2 GLU F 143 36.036 37.833 43.248 1.00124.08 O +ATOM 15303 N GLN F 144 31.433 41.250 41.267 1.00120.62 N +ATOM 15304 CA GLN F 144 30.385 41.770 40.395 1.00121.41 C +ATOM 15305 C GLN F 144 29.411 42.651 41.167 1.00125.28 C +ATOM 15306 O GLN F 144 28.924 43.659 40.642 1.00130.31 O +ATOM 15307 CB GLN F 144 29.642 40.620 39.716 1.00117.14 C +ATOM 15308 CG GLN F 144 28.674 41.083 38.644 1.00117.05 C +ATOM 15309 CD GLN F 144 27.736 39.989 38.188 1.00111.66 C +ATOM 15310 OE1 GLN F 144 26.725 40.259 37.541 1.00108.79 O +ATOM 15311 NE2 GLN F 144 28.062 38.746 38.523 1.00106.89 N +ATOM 15312 N LEU F 145 29.108 42.281 42.415 1.00128.60 N +ATOM 15313 CA LEU F 145 28.262 43.124 43.255 1.00127.31 C +ATOM 15314 C LEU F 145 28.881 44.504 43.431 1.00128.63 C +ATOM 15315 O LEU F 145 28.205 45.527 43.272 1.00126.91 O +ATOM 15316 CB LEU F 145 28.028 42.455 44.610 1.00124.37 C +ATOM 15317 CG LEU F 145 26.993 41.330 44.633 1.00118.13 C +ATOM 15318 CD1 LEU F 145 27.051 40.572 45.949 1.00117.54 C +ATOM 15319 CD2 LEU F 145 25.601 41.894 44.398 1.00114.44 C +ATOM 15320 N LYS F 146 30.171 44.547 43.776 1.00131.00 N +ATOM 15321 CA LYS F 146 30.875 45.821 43.864 1.00131.89 C +ATOM 15322 C LYS F 146 30.834 46.575 42.540 1.00130.42 C +ATOM 15323 O LYS F 146 30.806 47.811 42.532 1.00131.17 O +ATOM 15324 CB LYS F 146 32.323 45.584 44.300 1.00131.21 C +ATOM 15325 CG LYS F 146 33.165 46.843 44.395 1.00134.84 C +ATOM 15326 CD LYS F 146 32.649 47.770 45.481 1.00141.48 C +ATOM 15327 CE LYS F 146 32.379 49.163 44.939 1.00144.09 C +ATOM 15328 NZ LYS F 146 33.586 49.765 44.310 1.00146.27 N +ATOM 15329 N SER F 147 30.817 45.855 41.415 1.00128.89 N +ATOM 15330 CA SER F 147 30.686 46.524 40.124 1.00129.01 C +ATOM 15331 C SER F 147 29.343 47.233 39.990 1.00130.59 C +ATOM 15332 O SER F 147 29.233 48.219 39.251 1.00132.27 O +ATOM 15333 CB SER F 147 30.874 45.520 38.984 1.00127.21 C +ATOM 15334 OG SER F 147 32.182 44.975 38.986 1.00126.77 O +ATOM 15335 N GLY F 148 28.318 46.755 40.691 1.00128.12 N +ATOM 15336 CA GLY F 148 27.009 47.371 40.671 1.00126.42 C +ATOM 15337 C GLY F 148 25.903 46.531 40.069 1.00123.13 C +ATOM 15338 O GLY F 148 24.797 47.048 39.869 1.00118.92 O +ATOM 15339 N THR F 149 26.160 45.257 39.782 1.00124.34 N +ATOM 15340 CA THR F 149 25.184 44.371 39.169 1.00121.49 C +ATOM 15341 C THR F 149 25.336 42.992 39.799 1.00118.77 C +ATOM 15342 O THR F 149 26.404 42.638 40.303 1.00118.77 O +ATOM 15343 CB THR F 149 25.380 44.318 37.641 1.00117.09 C +ATOM 15344 OG1 THR F 149 25.277 45.641 37.103 1.00115.99 O +ATOM 15345 CG2 THR F 149 24.330 43.444 36.970 1.00109.85 C +ATOM 15346 N ALA F 150 24.258 42.209 39.777 1.00113.26 N +ATOM 15347 CA ALA F 150 24.272 40.856 40.319 1.00107.80 C +ATOM 15348 C ALA F 150 23.713 39.904 39.274 1.00104.00 C +ATOM 15349 O ALA F 150 22.591 40.094 38.795 1.00100.72 O +ATOM 15350 CB ALA F 150 23.458 40.771 41.613 1.00106.60 C +ATOM 15351 N SER F 151 24.490 38.882 38.925 1.00100.42 N +ATOM 15352 CA SER F 151 24.059 37.855 37.982 1.00 97.27 C +ATOM 15353 C SER F 151 24.105 36.506 38.686 1.00 90.71 C +ATOM 15354 O SER F 151 25.189 36.001 38.999 1.00 89.36 O +ATOM 15355 CB SER F 151 24.936 37.847 36.731 1.00100.81 C +ATOM 15356 OG SER F 151 24.721 39.008 35.947 1.00101.30 O +ATOM 15357 N VAL F 152 22.934 35.928 38.937 1.00 88.77 N +ATOM 15358 CA VAL F 152 22.828 34.591 39.511 1.00 86.02 C +ATOM 15359 C VAL F 152 22.547 33.615 38.377 1.00 81.58 C +ATOM 15360 O VAL F 152 21.680 33.867 37.531 1.00 79.25 O +ATOM 15361 CB VAL F 152 21.743 34.528 40.600 1.00 79.04 C +ATOM 15362 CG1 VAL F 152 20.433 35.115 40.101 1.00 74.58 C +ATOM 15363 CG2 VAL F 152 21.547 33.097 41.078 1.00 77.38 C +ATOM 15364 N VAL F 153 23.281 32.506 38.341 1.00 75.91 N +ATOM 15365 CA VAL F 153 23.197 31.579 37.218 1.00 76.84 C +ATOM 15366 C VAL F 153 22.637 30.245 37.692 1.00 76.96 C +ATOM 15367 O VAL F 153 22.961 29.770 38.786 1.00 76.39 O +ATOM 15368 CB VAL F 153 24.554 31.392 36.506 1.00 77.08 C +ATOM 15369 CG1 VAL F 153 24.966 32.682 35.812 1.00 77.43 C +ATOM 15370 CG2 VAL F 153 25.614 30.957 37.477 1.00 77.57 C +ATOM 15371 N CYS F 154 21.773 29.659 36.867 1.00 76.15 N +ATOM 15372 CA CYS F 154 21.199 28.339 37.096 1.00 73.34 C +ATOM 15373 C CYS F 154 21.645 27.441 35.951 1.00 71.72 C +ATOM 15374 O CYS F 154 21.395 27.751 34.780 1.00 72.12 O +ATOM 15375 CB CYS F 154 19.672 28.417 37.176 1.00 71.46 C +ATOM 15376 SG CYS F 154 18.810 26.903 37.674 1.00 73.46 S +ATOM 15377 N LEU F 155 22.310 26.341 36.290 1.00 67.22 N +ATOM 15378 CA LEU F 155 22.929 25.442 35.326 1.00 66.72 C +ATOM 15379 C LEU F 155 22.186 24.113 35.311 1.00 66.22 C +ATOM 15380 O LEU F 155 22.079 23.446 36.346 1.00 66.55 O +ATOM 15381 CB LEU F 155 24.403 25.223 35.666 1.00 64.96 C +ATOM 15382 CG LEU F 155 25.112 24.071 34.952 1.00 65.82 C +ATOM 15383 CD1 LEU F 155 25.163 24.307 33.455 1.00 64.41 C +ATOM 15384 CD2 LEU F 155 26.510 23.870 35.517 1.00 68.17 C +ATOM 15385 N LEU F 156 21.680 23.738 34.139 1.00 65.20 N +ATOM 15386 CA LEU F 156 21.108 22.422 33.890 1.00 64.00 C +ATOM 15387 C LEU F 156 22.116 21.623 33.075 1.00 62.37 C +ATOM 15388 O LEU F 156 22.499 22.041 31.978 1.00 64.36 O +ATOM 15389 CB LEU F 156 19.777 22.528 33.142 1.00 63.47 C +ATOM 15390 CG LEU F 156 18.522 23.126 33.790 1.00 65.15 C +ATOM 15391 CD1 LEU F 156 18.695 24.580 34.212 1.00 67.40 C +ATOM 15392 CD2 LEU F 156 17.352 22.996 32.829 1.00 65.56 C +ATOM 15393 N ASN F 157 22.547 20.482 33.603 1.00 60.28 N +ATOM 15394 CA ASN F 157 23.673 19.750 33.042 1.00 63.73 C +ATOM 15395 C ASN F 157 23.225 18.379 32.557 1.00 63.47 C +ATOM 15396 O ASN F 157 22.545 17.646 33.288 1.00 60.55 O +ATOM 15397 CB ASN F 157 24.793 19.607 34.076 1.00 67.61 C +ATOM 15398 CG ASN F 157 26.158 19.461 33.439 1.00 71.25 C +ATOM 15399 OD1 ASN F 157 26.901 18.528 33.741 1.00 80.12 O +ATOM 15400 ND2 ASN F 157 26.496 20.387 32.549 1.00 71.01 N +ATOM 15401 N ASN F 158 23.611 18.051 31.322 1.00 64.25 N +ATOM 15402 CA ASN F 158 23.484 16.719 30.724 1.00 61.88 C +ATOM 15403 C ASN F 158 22.051 16.188 30.820 1.00 60.17 C +ATOM 15404 O ASN F 158 21.746 15.247 31.552 1.00 61.05 O +ATOM 15405 CB ASN F 158 24.482 15.747 31.360 1.00 64.95 C +ATOM 15406 CG ASN F 158 25.922 16.179 31.162 1.00 67.81 C +ATOM 15407 OD1 ASN F 158 26.701 16.238 32.113 1.00 71.96 O +ATOM 15408 ND2 ASN F 158 26.283 16.486 29.921 1.00 69.31 N +ATOM 15409 N PHE F 159 21.176 16.821 30.042 1.00 58.64 N +ATOM 15410 CA PHE F 159 19.779 16.423 29.973 1.00 58.29 C +ATOM 15411 C PHE F 159 19.359 16.204 28.527 1.00 59.79 C +ATOM 15412 O PHE F 159 19.981 16.709 27.588 1.00 57.86 O +ATOM 15413 CB PHE F 159 18.856 17.458 30.631 1.00 55.70 C +ATOM 15414 CG PHE F 159 18.899 18.815 29.989 1.00 55.10 C +ATOM 15415 CD1 PHE F 159 19.839 19.752 30.385 1.00 58.10 C +ATOM 15416 CD2 PHE F 159 17.988 19.162 29.005 1.00 54.84 C +ATOM 15417 CE1 PHE F 159 19.877 21.005 29.802 1.00 60.19 C +ATOM 15418 CE2 PHE F 159 18.022 20.412 28.419 1.00 55.25 C +ATOM 15419 CZ PHE F 159 18.967 21.335 28.818 1.00 58.21 C +ATOM 15420 N TYR F 160 18.279 15.434 28.367 1.00 58.99 N +ATOM 15421 CA TYR F 160 17.678 15.187 27.068 1.00 56.54 C +ATOM 15422 C TYR F 160 16.219 14.837 27.295 1.00 57.71 C +ATOM 15423 O TYR F 160 15.926 14.074 28.226 1.00 58.37 O +ATOM 15424 CB TYR F 160 18.385 14.049 26.331 1.00 58.28 C +ATOM 15425 CG TYR F 160 18.006 13.992 24.879 1.00 61.88 C +ATOM 15426 CD1 TYR F 160 18.692 14.759 23.958 1.00 61.85 C +ATOM 15427 CD2 TYR F 160 16.961 13.194 24.428 1.00 59.70 C +ATOM 15428 CE1 TYR F 160 18.367 14.740 22.636 1.00 62.46 C +ATOM 15429 CE2 TYR F 160 16.623 13.168 23.086 1.00 58.74 C +ATOM 15430 CZ TYR F 160 17.341 13.950 22.201 1.00 66.59 C +ATOM 15431 OH TYR F 160 17.065 13.974 20.861 1.00 73.75 O +ATOM 15432 N PRO F 161 15.280 15.342 26.474 1.00 54.29 N +ATOM 15433 CA PRO F 161 15.457 16.189 25.288 1.00 55.34 C +ATOM 15434 C PRO F 161 15.832 17.641 25.579 1.00 59.11 C +ATOM 15435 O PRO F 161 16.043 18.022 26.729 1.00 60.72 O +ATOM 15436 CB PRO F 161 14.085 16.124 24.611 1.00 58.06 C +ATOM 15437 CG PRO F 161 13.140 15.883 25.721 1.00 56.90 C +ATOM 15438 CD PRO F 161 13.864 14.993 26.686 1.00 57.54 C +ATOM 15439 N ARG F 162 15.903 18.439 24.510 1.00 62.64 N +ATOM 15440 CA ARG F 162 16.404 19.805 24.616 1.00 63.30 C +ATOM 15441 C ARG F 162 15.459 20.704 25.404 1.00 64.31 C +ATOM 15442 O ARG F 162 15.906 21.673 26.027 1.00 64.19 O +ATOM 15443 CB ARG F 162 16.635 20.379 23.217 1.00 66.63 C +ATOM 15444 CG ARG F 162 17.367 21.710 23.192 1.00 70.73 C +ATOM 15445 CD ARG F 162 17.511 22.229 21.771 1.00 78.45 C +ATOM 15446 NE ARG F 162 18.371 23.407 21.703 1.00 87.24 N +ATOM 15447 CZ ARG F 162 17.951 24.653 21.893 1.00 93.17 C +ATOM 15448 NH1 ARG F 162 16.677 24.892 22.171 1.00100.76 N +ATOM 15449 NH2 ARG F 162 18.808 25.662 21.810 1.00 99.30 N +ATOM 15450 N GLU F 163 14.163 20.403 25.397 1.00 65.85 N +ATOM 15451 CA GLU F 163 13.173 21.310 25.966 1.00 67.02 C +ATOM 15452 C GLU F 163 13.125 21.140 27.479 1.00 68.96 C +ATOM 15453 O GLU F 163 12.755 20.074 27.981 1.00 76.20 O +ATOM 15454 CB GLU F 163 11.795 21.062 25.355 1.00 67.47 C +ATOM 15455 CG GLU F 163 11.675 21.422 23.880 1.00 69.62 C +ATOM 15456 CD GLU F 163 12.400 20.449 22.971 1.00 67.54 C +ATOM 15457 OE1 GLU F 163 12.571 19.278 23.369 1.00 65.50 O +ATOM 15458 OE2 GLU F 163 12.801 20.857 21.861 1.00 70.24 O +ATOM 15459 N ALA F 164 13.485 22.198 28.200 1.00 65.67 N +ATOM 15460 CA ALA F 164 13.413 22.214 29.653 1.00 66.85 C +ATOM 15461 C ALA F 164 13.040 23.623 30.080 1.00 67.97 C +ATOM 15462 O ALA F 164 13.638 24.592 29.604 1.00 69.65 O +ATOM 15463 CB ALA F 164 14.741 21.790 30.287 1.00 61.54 C +ATOM 15464 N LYS F 165 12.062 23.734 30.972 1.00 66.23 N +ATOM 15465 CA LYS F 165 11.561 25.030 31.394 1.00 66.81 C +ATOM 15466 C LYS F 165 12.209 25.422 32.712 1.00 65.43 C +ATOM 15467 O LYS F 165 12.338 24.601 33.625 1.00 64.79 O +ATOM 15468 CB LYS F 165 10.039 25.003 31.546 1.00 70.29 C +ATOM 15469 CG LYS F 165 9.301 24.655 30.265 1.00 76.04 C +ATOM 15470 CD LYS F 165 9.347 25.794 29.262 1.00 76.69 C +ATOM 15471 CE LYS F 165 8.426 25.521 28.083 1.00 77.89 C +ATOM 15472 NZ LYS F 165 8.290 26.702 27.188 1.00 75.37 N +ATOM 15473 N VAL F 166 12.606 26.687 32.803 1.00 67.63 N +ATOM 15474 CA VAL F 166 13.270 27.230 33.979 1.00 67.75 C +ATOM 15475 C VAL F 166 12.534 28.494 34.382 1.00 71.28 C +ATOM 15476 O VAL F 166 12.358 29.404 33.563 1.00 74.16 O +ATOM 15477 CB VAL F 166 14.758 27.537 33.718 1.00 66.45 C +ATOM 15478 CG1 VAL F 166 15.432 28.010 34.998 1.00 66.50 C +ATOM 15479 CG2 VAL F 166 15.468 26.317 33.157 1.00 68.51 C +ATOM 15480 N GLN F 167 12.114 28.555 35.636 1.00 76.80 N +ATOM 15481 CA GLN F 167 11.469 29.734 36.183 1.00 79.92 C +ATOM 15482 C GLN F 167 12.315 30.261 37.328 1.00 78.57 C +ATOM 15483 O GLN F 167 12.908 29.486 38.083 1.00 73.70 O +ATOM 15484 CB GLN F 167 10.054 29.419 36.675 1.00 82.26 C +ATOM 15485 CG GLN F 167 9.032 29.273 35.565 1.00 87.15 C +ATOM 15486 CD GLN F 167 7.643 28.968 36.088 1.00 94.75 C +ATOM 15487 OE1 GLN F 167 7.485 28.364 37.149 1.00 92.53 O +ATOM 15488 NE2 GLN F 167 6.627 29.391 35.345 1.00 97.52 N +ATOM 15489 N TRP F 168 12.370 31.578 37.453 1.00 81.61 N +ATOM 15490 CA TRP F 168 13.115 32.222 38.522 1.00 82.69 C +ATOM 15491 C TRP F 168 12.138 32.715 39.573 1.00 85.72 C +ATOM 15492 O TRP F 168 11.105 33.306 39.240 1.00 87.08 O +ATOM 15493 CB TRP F 168 13.958 33.383 37.997 1.00 81.36 C +ATOM 15494 CG TRP F 168 15.229 32.946 37.377 1.00 80.96 C +ATOM 15495 CD1 TRP F 168 15.482 32.785 36.049 1.00 79.70 C +ATOM 15496 CD2 TRP F 168 16.440 32.610 38.062 1.00 78.63 C +ATOM 15497 NE1 TRP F 168 16.777 32.368 35.863 1.00 78.16 N +ATOM 15498 CE2 TRP F 168 17.386 32.254 37.084 1.00 76.23 C +ATOM 15499 CE3 TRP F 168 16.815 32.577 39.409 1.00 78.69 C +ATOM 15500 CZ2 TRP F 168 18.684 31.868 37.408 1.00 76.35 C +ATOM 15501 CZ3 TRP F 168 18.104 32.194 39.729 1.00 76.12 C +ATOM 15502 CH2 TRP F 168 19.023 31.845 38.732 1.00 77.62 C +ATOM 15503 N LYS F 169 12.463 32.464 40.836 1.00 83.32 N +ATOM 15504 CA LYS F 169 11.653 32.907 41.958 1.00 83.21 C +ATOM 15505 C LYS F 169 12.551 33.685 42.905 1.00 84.93 C +ATOM 15506 O LYS F 169 13.534 33.147 43.429 1.00 82.62 O +ATOM 15507 CB LYS F 169 10.988 31.731 42.681 1.00 82.65 C +ATOM 15508 CG LYS F 169 9.804 31.118 41.944 1.00 86.17 C +ATOM 15509 CD LYS F 169 9.322 29.842 42.625 1.00 88.74 C +ATOM 15510 CE LYS F 169 8.041 29.333 41.980 1.00 91.30 C +ATOM 15511 NZ LYS F 169 6.906 30.271 42.217 1.00 89.13 N +ATOM 15512 N VAL F 170 12.200 34.943 43.124 1.00 87.87 N +ATOM 15513 CA VAL F 170 12.880 35.819 44.062 1.00 92.66 C +ATOM 15514 C VAL F 170 11.869 36.113 45.162 1.00 95.60 C +ATOM 15515 O VAL F 170 10.911 36.870 44.958 1.00 92.16 O +ATOM 15516 CB VAL F 170 13.397 37.089 43.369 1.00 93.52 C +ATOM 15517 CG1 VAL F 170 14.082 38.027 44.349 1.00 98.84 C +ATOM 15518 CG2 VAL F 170 14.361 36.699 42.244 1.00 93.26 C +ATOM 15519 N ASP F 171 12.082 35.483 46.321 1.00 95.55 N +ATOM 15520 CA ASP F 171 11.166 35.540 47.461 1.00 94.92 C +ATOM 15521 C ASP F 171 9.798 34.975 47.084 1.00 96.47 C +ATOM 15522 O ASP F 171 8.763 35.599 47.320 1.00101.44 O +ATOM 15523 CB ASP F 171 11.044 36.969 47.985 1.00101.41 C +ATOM 15524 CG ASP F 171 12.395 37.598 48.225 1.00110.21 C +ATOM 15525 OD1 ASP F 171 13.394 36.994 47.771 1.00121.70 O +ATOM 15526 OD2 ASP F 171 12.476 38.670 48.863 1.00107.76 O +ATOM 15527 N ASN F 172 9.798 33.820 46.413 1.00 94.77 N +ATOM 15528 CA ASN F 172 8.566 33.173 45.961 1.00 94.70 C +ATOM 15529 C ASN F 172 7.817 34.011 44.929 1.00 93.79 C +ATOM 15530 O ASN F 172 6.753 33.605 44.448 1.00 94.32 O +ATOM 15531 CB ASN F 172 7.651 32.858 47.153 1.00 97.95 C +ATOM 15532 CG ASN F 172 8.234 31.801 48.061 1.00 95.71 C +ATOM 15533 OD1 ASN F 172 9.014 32.095 48.961 1.00 92.00 O +ATOM 15534 ND2 ASN F 172 7.878 30.547 47.804 1.00101.15 N +ATOM 15535 N ALA F 173 8.365 35.168 44.564 1.00 94.84 N +ATOM 15536 CA ALA F 173 7.779 35.999 43.520 1.00 96.49 C +ATOM 15537 C ALA F 173 8.351 35.566 42.176 1.00 95.59 C +ATOM 15538 O ALA F 173 9.574 35.547 41.990 1.00 94.50 O +ATOM 15539 CB ALA F 173 8.037 37.484 43.776 1.00 92.82 C +ATOM 15540 N LEU F 174 7.469 35.202 41.251 1.00 92.76 N +ATOM 15541 CA LEU F 174 7.905 34.744 39.939 1.00 91.94 C +ATOM 15542 C LEU F 174 8.488 35.902 39.138 1.00 91.40 C +ATOM 15543 O LEU F 174 7.910 36.991 39.089 1.00 92.99 O +ATOM 15544 CB LEU F 174 6.737 34.112 39.184 1.00 94.30 C +ATOM 15545 CG LEU F 174 7.028 33.594 37.775 1.00 91.94 C +ATOM 15546 CD1 LEU F 174 8.100 32.521 37.816 1.00 89.67 C +ATOM 15547 CD2 LEU F 174 5.757 33.065 37.134 1.00 98.61 C +ATOM 15548 N GLN F 175 9.641 35.666 38.517 1.00 90.30 N +ATOM 15549 CA GLN F 175 10.317 36.668 37.708 1.00 89.75 C +ATOM 15550 C GLN F 175 9.979 36.470 36.236 1.00 90.62 C +ATOM 15551 O GLN F 175 9.685 35.357 35.791 1.00 90.70 O +ATOM 15552 CB GLN F 175 11.833 36.604 37.905 1.00 88.40 C +ATOM 15553 CG GLN F 175 12.275 36.746 39.347 1.00 88.08 C +ATOM 15554 CD GLN F 175 11.956 38.113 39.921 1.00 92.24 C +ATOM 15555 OE1 GLN F 175 12.352 39.139 39.368 1.00 92.00 O +ATOM 15556 NE2 GLN F 175 11.233 38.133 41.034 1.00 91.99 N +ATOM 15557 N SER F 176 10.022 37.566 35.483 1.00 90.30 N +ATOM 15558 CA SER F 176 9.733 37.524 34.057 1.00 91.85 C +ATOM 15559 C SER F 176 10.385 38.723 33.387 1.00 93.36 C +ATOM 15560 O SER F 176 10.312 39.843 33.900 1.00 92.04 O +ATOM 15561 CB SER F 176 8.222 37.519 33.793 1.00 90.32 C +ATOM 15562 OG SER F 176 7.618 38.714 34.256 1.00 93.36 O +ATOM 15563 N GLY F 177 11.021 38.479 32.244 1.00 95.85 N +ATOM 15564 CA GLY F 177 11.636 39.543 31.478 1.00 98.81 C +ATOM 15565 C GLY F 177 12.959 40.041 32.011 1.00 95.12 C +ATOM 15566 O GLY F 177 13.421 41.103 31.578 1.00 94.56 O +ATOM 15567 N ASN F 178 13.587 39.312 32.937 1.00 94.15 N +ATOM 15568 CA ASN F 178 14.860 39.725 33.516 1.00 95.11 C +ATOM 15569 C ASN F 178 15.868 38.580 33.557 1.00 94.13 C +ATOM 15570 O ASN F 178 16.795 38.607 34.374 1.00 92.61 O +ATOM 15571 CB ASN F 178 14.650 40.299 34.920 1.00 98.89 C +ATOM 15572 CG ASN F 178 13.942 39.330 35.846 1.00 97.04 C +ATOM 15573 OD1 ASN F 178 13.330 38.359 35.399 1.00 95.88 O +ATOM 15574 ND2 ASN F 178 14.019 39.591 37.146 1.00106.10 N +ATOM 15575 N SER F 179 15.711 37.581 32.692 1.00 94.18 N +ATOM 15576 CA SER F 179 16.615 36.442 32.639 1.00 93.57 C +ATOM 15577 C SER F 179 16.872 36.072 31.186 1.00 94.39 C +ATOM 15578 O SER F 179 16.043 36.328 30.309 1.00 94.88 O +ATOM 15579 CB SER F 179 16.050 35.235 33.400 1.00 89.91 C +ATOM 15580 OG SER F 179 14.791 34.849 32.877 1.00 90.83 O +ATOM 15581 N GLN F 180 18.031 35.464 30.940 1.00 91.23 N +ATOM 15582 CA GLN F 180 18.421 35.054 29.597 1.00 94.47 C +ATOM 15583 C GLN F 180 18.964 33.633 29.620 1.00 89.07 C +ATOM 15584 O GLN F 180 19.741 33.270 30.506 1.00 85.42 O +ATOM 15585 CB GLN F 180 19.471 36.006 29.008 1.00 99.86 C +ATOM 15586 CG GLN F 180 18.924 37.376 28.635 1.00107.77 C +ATOM 15587 CD GLN F 180 19.962 38.260 27.974 1.00106.54 C +ATOM 15588 OE1 GLN F 180 21.120 38.297 28.392 1.00104.23 O +ATOM 15589 NE2 GLN F 180 19.552 38.980 26.936 1.00106.84 N +ATOM 15590 N GLU F 181 18.568 32.837 28.630 1.00 85.30 N +ATOM 15591 CA GLU F 181 18.949 31.435 28.544 1.00 81.98 C +ATOM 15592 C GLU F 181 19.943 31.208 27.411 1.00 79.68 C +ATOM 15593 O GLU F 181 19.946 31.925 26.407 1.00 80.72 O +ATOM 15594 CB GLU F 181 17.723 30.541 28.332 1.00 81.20 C +ATOM 15595 CG GLU F 181 16.819 30.418 29.546 1.00 87.70 C +ATOM 15596 CD GLU F 181 15.716 29.397 29.345 1.00 96.35 C +ATOM 15597 OE1 GLU F 181 15.662 28.786 28.256 1.00 92.70 O +ATOM 15598 OE2 GLU F 181 14.904 29.205 30.274 1.00101.53 O +ATOM 15599 N SER F 182 20.791 30.195 27.589 1.00 74.47 N +ATOM 15600 CA SER F 182 21.743 29.791 26.561 1.00 73.25 C +ATOM 15601 C SER F 182 21.920 28.281 26.618 1.00 72.13 C +ATOM 15602 O SER F 182 22.230 27.733 27.680 1.00 73.25 O +ATOM 15603 CB SER F 182 23.091 30.494 26.749 1.00 77.06 C +ATOM 15604 OG SER F 182 24.012 30.109 25.743 1.00 78.45 O +ATOM 15605 N VAL F 183 21.749 27.618 25.476 1.00 70.97 N +ATOM 15606 CA VAL F 183 21.794 26.163 25.387 1.00 69.46 C +ATOM 15607 C VAL F 183 22.992 25.756 24.542 1.00 71.63 C +ATOM 15608 O VAL F 183 23.301 26.400 23.533 1.00 71.74 O +ATOM 15609 CB VAL F 183 20.494 25.592 24.784 1.00 70.73 C +ATOM 15610 CG1 VAL F 183 20.475 24.072 24.885 1.00 68.20 C +ATOM 15611 CG2 VAL F 183 19.275 26.195 25.458 1.00 78.11 C +ATOM 15612 N THR F 184 23.665 24.685 24.956 1.00 67.31 N +ATOM 15613 CA THR F 184 24.801 24.180 24.206 1.00 64.47 C +ATOM 15614 C THR F 184 24.319 23.350 23.019 1.00 64.31 C +ATOM 15615 O THR F 184 23.140 23.005 22.902 1.00 66.27 O +ATOM 15616 CB THR F 184 25.711 23.334 25.097 1.00 65.12 C +ATOM 15617 OG1 THR F 184 25.028 22.134 25.482 1.00 65.56 O +ATOM 15618 CG2 THR F 184 26.110 24.103 26.343 1.00 67.09 C +ATOM 15619 N GLU F 185 25.251 23.027 22.130 1.00 71.04 N +ATOM 15620 CA GLU F 185 24.954 22.086 21.065 1.00 69.48 C +ATOM 15621 C GLU F 185 24.960 20.660 21.607 1.00 66.00 C +ATOM 15622 O GLU F 185 25.535 20.370 22.660 1.00 63.32 O +ATOM 15623 CB GLU F 185 25.960 22.223 19.924 1.00 75.64 C +ATOM 15624 CG GLU F 185 25.356 22.000 18.548 1.00 83.91 C +ATOM 15625 CD GLU F 185 25.038 23.300 17.835 1.00 91.22 C +ATOM 15626 OE1 GLU F 185 25.757 24.295 18.063 1.00 90.15 O +ATOM 15627 OE2 GLU F 185 24.069 23.327 17.047 1.00 93.77 O +ATOM 15628 N GLN F 186 24.293 19.768 20.876 1.00 68.41 N +ATOM 15629 CA GLN F 186 24.195 18.378 21.302 1.00 66.01 C +ATOM 15630 C GLN F 186 25.584 17.763 21.416 1.00 65.45 C +ATOM 15631 O GLN F 186 26.404 17.872 20.500 1.00 66.33 O +ATOM 15632 CB GLN F 186 23.339 17.584 20.315 1.00 66.02 C +ATOM 15633 CG GLN F 186 22.755 16.303 20.888 1.00 64.40 C +ATOM 15634 CD GLN F 186 21.703 15.689 19.985 1.00 65.54 C +ATOM 15635 OE1 GLN F 186 21.488 16.146 18.861 1.00 65.90 O +ATOM 15636 NE2 GLN F 186 21.038 14.648 20.473 1.00 63.52 N +ATOM 15637 N ASP F 187 25.846 17.119 22.550 1.00 64.80 N +ATOM 15638 CA ASP F 187 27.158 16.540 22.796 1.00 66.36 C +ATOM 15639 C ASP F 187 27.414 15.365 21.860 1.00 70.12 C +ATOM 15640 O ASP F 187 26.529 14.544 21.608 1.00 69.93 O +ATOM 15641 CB ASP F 187 27.270 16.090 24.251 1.00 66.96 C +ATOM 15642 CG ASP F 187 28.686 15.719 24.641 1.00 72.50 C +ATOM 15643 OD1 ASP F 187 29.502 16.637 24.868 1.00 77.68 O +ATOM 15644 OD2 ASP F 187 28.981 14.509 24.726 1.00 70.77 O +ATOM 15645 N SER F 188 28.639 15.290 21.342 1.00 71.08 N +ATOM 15646 CA SER F 188 29.010 14.232 20.412 1.00 67.88 C +ATOM 15647 C SER F 188 29.286 12.903 21.101 1.00 71.55 C +ATOM 15648 O SER F 188 29.521 11.906 20.411 1.00 70.02 O +ATOM 15649 CB SER F 188 30.240 14.651 19.604 1.00 68.79 C +ATOM 15650 OG SER F 188 31.355 14.868 20.453 1.00 77.64 O +ATOM 15651 N LYS F 189 29.265 12.863 22.432 1.00 72.65 N +ATOM 15652 CA LYS F 189 29.585 11.658 23.185 1.00 75.51 C +ATOM 15653 C LYS F 189 28.353 10.989 23.775 1.00 76.42 C +ATOM 15654 O LYS F 189 28.114 9.803 23.527 1.00 78.45 O +ATOM 15655 CB LYS F 189 30.576 12.001 24.307 1.00 85.67 C +ATOM 15656 CG LYS F 189 31.997 12.273 23.830 1.00 92.82 C +ATOM 15657 CD LYS F 189 32.671 11.036 23.266 1.00 95.68 C +ATOM 15658 CE LYS F 189 34.059 11.378 22.744 1.00 95.22 C +ATOM 15659 NZ LYS F 189 34.942 11.911 23.818 1.00 92.43 N +ATOM 15660 N ASP F 190 27.555 11.724 24.550 1.00 73.91 N +ATOM 15661 CA ASP F 190 26.356 11.185 25.177 1.00 69.63 C +ATOM 15662 C ASP F 190 25.066 11.769 24.614 1.00 68.74 C +ATOM 15663 O ASP F 190 23.984 11.416 25.094 1.00 68.48 O +ATOM 15664 CB ASP F 190 26.408 11.398 26.697 1.00 70.55 C +ATOM 15665 CG ASP F 190 26.559 12.859 27.086 1.00 68.01 C +ATOM 15666 OD1 ASP F 190 26.500 13.733 26.197 1.00 70.29 O +ATOM 15667 OD2 ASP F 190 26.735 13.135 28.291 1.00 67.12 O +ATOM 15668 N SER F 191 25.155 12.663 23.626 1.00 66.91 N +ATOM 15669 CA SER F 191 23.988 13.216 22.934 1.00 64.69 C +ATOM 15670 C SER F 191 23.090 14.024 23.868 1.00 65.10 C +ATOM 15671 O SER F 191 21.874 14.088 23.672 1.00 65.64 O +ATOM 15672 CB SER F 191 23.181 12.118 22.235 1.00 60.38 C +ATOM 15673 OG SER F 191 24.004 11.350 21.374 1.00 63.69 O +ATOM 15674 N THR F 192 23.672 14.654 24.885 1.00 65.18 N +ATOM 15675 CA THR F 192 22.909 15.431 25.848 1.00 64.06 C +ATOM 15676 C THR F 192 23.079 16.924 25.576 1.00 61.08 C +ATOM 15677 O THR F 192 23.826 17.345 24.690 1.00 64.83 O +ATOM 15678 CB THR F 192 23.335 15.087 27.277 1.00 64.03 C +ATOM 15679 OG1 THR F 192 24.707 15.454 27.471 1.00 66.75 O +ATOM 15680 CG2 THR F 192 23.170 13.600 27.539 1.00 63.70 C +ATOM 15681 N TYR F 193 22.369 17.735 26.357 1.00 61.74 N +ATOM 15682 CA TYR F 193 22.439 19.185 26.269 1.00 61.91 C +ATOM 15683 C TYR F 193 22.747 19.771 27.640 1.00 63.28 C +ATOM 15684 O TYR F 193 22.637 19.102 28.671 1.00 62.85 O +ATOM 15685 CB TYR F 193 21.130 19.787 25.736 1.00 61.14 C +ATOM 15686 CG TYR F 193 20.754 19.350 24.339 1.00 64.12 C +ATOM 15687 CD1 TYR F 193 19.980 18.218 24.129 1.00 63.09 C +ATOM 15688 CD2 TYR F 193 21.160 20.081 23.230 1.00 66.21 C +ATOM 15689 CE1 TYR F 193 19.629 17.821 22.855 1.00 63.10 C +ATOM 15690 CE2 TYR F 193 20.814 19.690 21.950 1.00 66.31 C +ATOM 15691 CZ TYR F 193 20.048 18.558 21.769 1.00 66.09 C +ATOM 15692 OH TYR F 193 19.697 18.160 20.499 1.00 68.46 O +ATOM 15693 N SER F 194 23.135 21.044 27.638 1.00 62.05 N +ATOM 15694 CA SER F 194 23.314 21.808 28.862 1.00 63.48 C +ATOM 15695 C SER F 194 22.773 23.213 28.643 1.00 65.96 C +ATOM 15696 O SER F 194 22.866 23.768 27.545 1.00 67.97 O +ATOM 15697 CB SER F 194 24.785 21.859 29.296 1.00 67.72 C +ATOM 15698 OG SER F 194 25.237 20.581 29.710 1.00 68.71 O +ATOM 15699 N LEU F 195 22.208 23.781 29.703 1.00 64.76 N +ATOM 15700 CA LEU F 195 21.547 25.076 29.657 1.00 68.77 C +ATOM 15701 C LEU F 195 22.040 25.944 30.803 1.00 70.14 C +ATOM 15702 O LEU F 195 22.291 25.452 31.906 1.00 70.83 O +ATOM 15703 CB LEU F 195 20.019 24.914 29.736 1.00 71.26 C +ATOM 15704 CG LEU F 195 19.128 26.146 29.935 1.00 75.92 C +ATOM 15705 CD1 LEU F 195 19.346 27.197 28.863 1.00 79.59 C +ATOM 15706 CD2 LEU F 195 17.664 25.734 29.983 1.00 79.65 C +ATOM 15707 N SER F 196 22.181 27.238 30.534 1.00 69.64 N +ATOM 15708 CA SER F 196 22.546 28.213 31.551 1.00 71.04 C +ATOM 15709 C SER F 196 21.544 29.352 31.484 1.00 73.29 C +ATOM 15710 O SER F 196 21.383 29.977 30.430 1.00 75.07 O +ATOM 15711 CB SER F 196 23.973 28.731 31.345 1.00 72.13 C +ATOM 15712 OG SER F 196 24.015 29.728 30.339 1.00 77.62 O +ATOM 15713 N SER F 197 20.866 29.609 32.598 1.00 73.03 N +ATOM 15714 CA SER F 197 19.916 30.707 32.708 1.00 75.49 C +ATOM 15715 C SER F 197 20.489 31.731 33.676 1.00 75.31 C +ATOM 15716 O SER F 197 20.721 31.419 34.848 1.00 75.85 O +ATOM 15717 CB SER F 197 18.549 30.212 33.181 1.00 76.47 C +ATOM 15718 OG SER F 197 17.557 31.210 33.009 1.00 75.42 O +ATOM 15719 N THR F 198 20.710 32.944 33.189 1.00 77.85 N +ATOM 15720 CA THR F 198 21.312 34.013 33.972 1.00 79.44 C +ATOM 15721 C THR F 198 20.238 35.034 34.313 1.00 83.41 C +ATOM 15722 O THR F 198 19.611 35.605 33.412 1.00 84.40 O +ATOM 15723 CB THR F 198 22.460 34.675 33.210 1.00 76.72 C +ATOM 15724 OG1 THR F 198 23.410 33.679 32.812 1.00 77.37 O +ATOM 15725 CG2 THR F 198 23.154 35.706 34.087 1.00 80.13 C +ATOM 15726 N LEU F 199 20.009 35.231 35.609 1.00 82.95 N +ATOM 15727 CA LEU F 199 19.118 36.263 36.114 1.00 86.32 C +ATOM 15728 C LEU F 199 19.969 37.454 36.532 1.00 89.71 C +ATOM 15729 O LEU F 199 20.858 37.320 37.383 1.00 88.29 O +ATOM 15730 CB LEU F 199 18.294 35.744 37.292 1.00 85.37 C +ATOM 15731 CG LEU F 199 17.361 36.737 37.988 1.00 87.14 C +ATOM 15732 CD1 LEU F 199 16.126 36.987 37.144 1.00 89.76 C +ATOM 15733 CD2 LEU F 199 16.977 36.239 39.373 1.00 88.76 C +ATOM 15734 N THR F 200 19.700 38.609 35.930 1.00 93.75 N +ATOM 15735 CA THR F 200 20.483 39.817 36.141 1.00 99.85 C +ATOM 15736 C THR F 200 19.629 40.859 36.851 1.00101.01 C +ATOM 15737 O THR F 200 18.518 41.168 36.408 1.00 99.89 O +ATOM 15738 CB THR F 200 21.016 40.368 34.813 1.00 97.46 C +ATOM 15739 OG1 THR F 200 21.528 41.693 35.010 1.00 96.65 O +ATOM 15740 CG2 THR F 200 19.922 40.393 33.749 1.00 92.03 C +ATOM 15741 N LEU F 201 20.145 41.382 37.961 1.00103.77 N +ATOM 15742 CA LEU F 201 19.466 42.408 38.734 1.00108.44 C +ATOM 15743 C LEU F 201 20.477 43.471 39.135 1.00112.09 C +ATOM 15744 O LEU F 201 21.690 43.304 38.974 1.00111.99 O +ATOM 15745 CB LEU F 201 18.787 41.822 39.981 1.00111.05 C +ATOM 15746 CG LEU F 201 17.757 40.708 39.786 1.00108.44 C +ATOM 15747 CD1 LEU F 201 17.370 40.101 41.126 1.00106.18 C +ATOM 15748 CD2 LEU F 201 16.529 41.234 39.060 1.00105.89 C +ATOM 15749 N SER F 202 19.965 44.574 39.670 1.00115.67 N +ATOM 15750 CA SER F 202 20.835 45.577 40.255 1.00119.97 C +ATOM 15751 C SER F 202 21.157 45.202 41.697 1.00122.16 C +ATOM 15752 O SER F 202 20.426 44.449 42.346 1.00122.90 O +ATOM 15753 CB SER F 202 20.183 46.959 40.198 1.00121.97 C +ATOM 15754 OG SER F 202 18.985 46.989 40.955 1.00120.54 O +ATOM 15755 N LYS F 203 22.285 45.723 42.188 1.00122.10 N +ATOM 15756 CA LYS F 203 22.671 45.465 43.572 1.00125.53 C +ATOM 15757 C LYS F 203 21.568 45.883 44.538 1.00125.96 C +ATOM 15758 O LYS F 203 21.345 45.224 45.559 1.00121.10 O +ATOM 15759 CB LYS F 203 23.984 46.177 43.899 1.00124.50 C +ATOM 15760 CG LYS F 203 24.488 45.914 45.310 1.00124.88 C +ATOM 15761 CD LYS F 203 25.832 46.578 45.558 1.00124.66 C +ATOM 15762 CE LYS F 203 26.333 46.289 46.965 1.00122.41 C +ATOM 15763 NZ LYS F 203 27.676 46.880 47.216 1.00125.92 N +ATOM 15764 N ALA F 204 20.868 46.978 44.232 1.00133.69 N +ATOM 15765 CA ALA F 204 19.740 47.401 45.057 1.00138.70 C +ATOM 15766 C ALA F 204 18.649 46.336 45.081 1.00131.75 C +ATOM 15767 O ALA F 204 18.250 45.858 46.149 1.00138.07 O +ATOM 15768 CB ALA F 204 19.189 48.733 44.544 1.00144.11 C +ATOM 15769 N ASP F 205 18.146 45.957 43.902 1.00125.37 N +ATOM 15770 CA ASP F 205 17.100 44.941 43.834 1.00121.63 C +ATOM 15771 C ASP F 205 17.585 43.599 44.368 1.00118.71 C +ATOM 15772 O ASP F 205 16.789 42.824 44.910 1.00116.51 O +ATOM 15773 CB ASP F 205 16.596 44.791 42.398 1.00120.30 C +ATOM 15774 CG ASP F 205 15.857 46.020 41.909 1.00122.78 C +ATOM 15775 OD1 ASP F 205 15.840 47.034 42.638 1.00124.12 O +ATOM 15776 OD2 ASP F 205 15.289 45.972 40.798 1.00121.86 O +ATOM 15777 N TYR F 206 18.877 43.301 44.215 1.00116.73 N +ATOM 15778 CA TYR F 206 19.406 42.040 44.722 1.00113.01 C +ATOM 15779 C TYR F 206 19.415 42.020 46.247 1.00115.51 C +ATOM 15780 O TYR F 206 18.921 41.072 46.869 1.00118.51 O +ATOM 15781 CB TYR F 206 20.809 41.791 44.170 1.00109.93 C +ATOM 15782 CG TYR F 206 21.462 40.547 44.728 1.00103.15 C +ATOM 15783 CD1 TYR F 206 21.049 39.282 44.329 1.00100.31 C +ATOM 15784 CD2 TYR F 206 22.491 40.638 45.655 1.00104.72 C +ATOM 15785 CE1 TYR F 206 21.643 38.143 44.840 1.00 98.36 C +ATOM 15786 CE2 TYR F 206 23.092 39.506 46.170 1.00101.73 C +ATOM 15787 CZ TYR F 206 22.664 38.261 45.759 1.00 98.22 C +ATOM 15788 OH TYR F 206 23.261 37.132 46.271 1.00 95.42 O +ATOM 15789 N GLU F 207 19.975 43.059 46.869 1.00119.06 N +ATOM 15790 CA GLU F 207 20.004 43.152 48.323 1.00118.46 C +ATOM 15791 C GLU F 207 18.639 43.445 48.929 1.00117.87 C +ATOM 15792 O GLU F 207 18.492 43.335 50.152 1.00116.23 O +ATOM 15793 CB GLU F 207 20.993 44.229 48.760 1.00118.13 C +ATOM 15794 CG GLU F 207 22.432 43.932 48.393 1.00117.34 C +ATOM 15795 CD GLU F 207 23.370 45.049 48.791 1.00118.48 C +ATOM 15796 OE1 GLU F 207 22.886 46.175 49.032 1.00117.04 O +ATOM 15797 OE2 GLU F 207 24.591 44.799 48.869 1.00116.29 O +ATOM 15798 N LYS F 208 17.644 43.806 48.115 1.00117.95 N +ATOM 15799 CA LYS F 208 16.304 44.030 48.643 1.00118.84 C +ATOM 15800 C LYS F 208 15.620 42.735 49.045 1.00117.26 C +ATOM 15801 O LYS F 208 14.687 42.770 49.853 1.00120.04 O +ATOM 15802 CB LYS F 208 15.439 44.758 47.611 1.00122.34 C +ATOM 15803 CG LYS F 208 14.520 45.815 48.191 1.00127.82 C +ATOM 15804 CD LYS F 208 13.805 46.571 47.088 1.00128.88 C +ATOM 15805 CE LYS F 208 14.771 47.444 46.304 1.00133.91 C +ATOM 15806 NZ LYS F 208 14.085 48.209 45.226 1.00129.99 N +ATOM 15807 N HIS F 209 16.055 41.603 48.502 1.00113.46 N +ATOM 15808 CA HIS F 209 15.464 40.297 48.776 1.00109.01 C +ATOM 15809 C HIS F 209 16.518 39.341 49.326 1.00106.16 C +ATOM 15810 O HIS F 209 17.705 39.660 49.369 1.00107.89 O +ATOM 15811 CB HIS F 209 14.826 39.729 47.501 1.00108.55 C +ATOM 15812 CG HIS F 209 13.725 40.585 46.962 1.00111.92 C +ATOM 15813 ND1 HIS F 209 12.426 40.489 47.410 1.00110.40 N +ATOM 15814 CD2 HIS F 209 13.725 41.545 46.006 1.00114.27 C +ATOM 15815 CE1 HIS F 209 11.673 41.356 46.757 1.00110.68 C +ATOM 15816 NE2 HIS F 209 12.437 42.009 45.898 1.00114.29 N +ATOM 15817 N LYS F 210 16.077 38.171 49.786 1.00102.28 N +ATOM 15818 CA LYS F 210 16.970 37.224 50.442 1.00103.31 C +ATOM 15819 C LYS F 210 17.034 35.873 49.730 1.00100.30 C +ATOM 15820 O LYS F 210 18.136 35.368 49.473 1.00 99.49 O +ATOM 15821 CB LYS F 210 16.577 37.107 51.914 1.00107.09 C +ATOM 15822 CG LYS F 210 17.458 36.215 52.652 1.00110.61 C +ATOM 15823 CD LYS F 210 17.014 36.053 54.130 1.00116.60 C +ATOM 15824 CE LYS F 210 17.943 35.144 54.776 1.00114.46 C +ATOM 15825 NZ LYS F 210 17.551 35.118 56.204 1.00111.59 N +ATOM 15826 N VAL F 211 15.902 35.252 49.380 1.00 99.99 N +ATOM 15827 CA VAL F 211 15.915 33.898 48.818 1.00 97.89 C +ATOM 15828 C VAL F 211 15.902 34.009 47.303 1.00 94.41 C +ATOM 15829 O VAL F 211 15.106 34.771 46.741 1.00 92.83 O +ATOM 15830 CB VAL F 211 14.701 33.067 49.273 1.00 97.16 C +ATOM 15831 CG1 VAL F 211 14.916 31.551 49.017 1.00 93.17 C +ATOM 15832 CG2 VAL F 211 14.339 33.343 50.670 1.00103.16 C +ATOM 15833 N TYR F 212 16.771 33.253 46.635 1.00 91.20 N +ATOM 15834 CA TYR F 212 16.794 33.210 45.176 1.00 88.62 C +ATOM 15835 C TYR F 212 16.785 31.758 44.729 1.00 83.27 C +ATOM 15836 O TYR F 212 17.642 30.978 45.154 1.00 81.31 O +ATOM 15837 CB TYR F 212 18.016 33.939 44.606 1.00 88.87 C +ATOM 15838 CG TYR F 212 17.978 35.427 44.839 1.00 93.78 C +ATOM 15839 CD1 TYR F 212 18.369 35.961 46.056 1.00 95.17 C +ATOM 15840 CD2 TYR F 212 17.530 36.297 43.853 1.00 94.50 C +ATOM 15841 CE1 TYR F 212 18.327 37.314 46.287 1.00 98.21 C +ATOM 15842 CE2 TYR F 212 17.486 37.654 44.074 1.00100.61 C +ATOM 15843 CZ TYR F 212 17.884 38.156 45.294 1.00102.36 C +ATOM 15844 OH TYR F 212 17.839 39.506 45.526 1.00107.36 O +ATOM 15845 N ALA F 213 15.838 31.400 43.862 1.00 80.47 N +ATOM 15846 CA ALA F 213 15.662 30.014 43.460 1.00 77.22 C +ATOM 15847 C ALA F 213 15.376 29.924 41.969 1.00 75.84 C +ATOM 15848 O ALA F 213 14.778 30.827 41.378 1.00 76.28 O +ATOM 15849 CB ALA F 213 14.515 29.344 44.228 1.00 77.74 C +ATOM 15850 N CYS F 214 15.814 28.821 41.367 1.00 72.24 N +ATOM 15851 CA CYS F 214 15.380 28.436 40.031 1.00 74.99 C +ATOM 15852 C CYS F 214 14.659 27.098 40.107 1.00 71.04 C +ATOM 15853 O CYS F 214 15.165 26.140 40.706 1.00 66.85 O +ATOM 15854 CB CYS F 214 16.547 28.371 39.034 1.00 71.59 C +ATOM 15855 SG CYS F 214 17.978 27.356 39.475 1.00 79.92 S +ATOM 15856 N GLU F 215 13.470 27.052 39.510 1.00 71.96 N +ATOM 15857 CA GLU F 215 12.632 25.863 39.450 1.00 70.05 C +ATOM 15858 C GLU F 215 12.671 25.323 38.028 1.00 68.57 C +ATOM 15859 O GLU F 215 12.361 26.047 37.076 1.00 68.70 O +ATOM 15860 CB GLU F 215 11.198 26.191 39.869 1.00 75.47 C +ATOM 15861 CG GLU F 215 10.300 24.981 40.067 1.00 85.34 C +ATOM 15862 CD GLU F 215 8.920 25.361 40.569 1.00 95.22 C +ATOM 15863 OE1 GLU F 215 8.449 26.469 40.234 1.00 97.57 O +ATOM 15864 OE2 GLU F 215 8.307 24.556 41.302 1.00 95.24 O +ATOM 15865 N VAL F 216 13.045 24.056 37.888 1.00 65.57 N +ATOM 15866 CA VAL F 216 13.252 23.422 36.595 1.00 63.37 C +ATOM 15867 C VAL F 216 12.210 22.328 36.423 1.00 59.22 C +ATOM 15868 O VAL F 216 12.004 21.506 37.327 1.00 58.52 O +ATOM 15869 CB VAL F 216 14.675 22.848 36.473 1.00 62.44 C +ATOM 15870 CG1 VAL F 216 14.818 22.049 35.189 1.00 59.83 C +ATOM 15871 CG2 VAL F 216 15.704 23.966 36.529 1.00 64.16 C +ATOM 15872 N THR F 217 11.552 22.325 35.268 1.00 57.64 N +ATOM 15873 CA THR F 217 10.665 21.249 34.859 1.00 56.85 C +ATOM 15874 C THR F 217 11.165 20.677 33.541 1.00 58.49 C +ATOM 15875 O THR F 217 11.631 21.416 32.667 1.00 57.90 O +ATOM 15876 CB THR F 217 9.216 21.730 34.712 1.00 55.38 C +ATOM 15877 OG1 THR F 217 9.158 22.809 33.773 1.00 59.53 O +ATOM 15878 CG2 THR F 217 8.673 22.200 36.052 1.00 55.05 C +ATOM 15879 N HIS F 218 11.084 19.357 33.409 1.00 55.00 N +ATOM 15880 CA HIS F 218 11.632 18.678 32.247 1.00 53.23 C +ATOM 15881 C HIS F 218 10.857 17.389 32.025 1.00 52.49 C +ATOM 15882 O HIS F 218 10.193 16.878 32.930 1.00 54.81 O +ATOM 15883 CB HIS F 218 13.130 18.398 32.426 1.00 53.45 C +ATOM 15884 CG HIS F 218 13.786 17.795 31.223 1.00 55.53 C +ATOM 15885 ND1 HIS F 218 14.235 16.493 31.194 1.00 55.90 N +ATOM 15886 CD2 HIS F 218 14.077 18.321 30.010 1.00 53.48 C +ATOM 15887 CE1 HIS F 218 14.769 16.240 30.012 1.00 53.48 C +ATOM 15888 NE2 HIS F 218 14.685 17.333 29.275 1.00 53.24 N +ATOM 15889 N GLN F 219 10.938 16.876 30.794 1.00 52.33 N +ATOM 15890 CA GLN F 219 10.267 15.624 30.460 1.00 51.81 C +ATOM 15891 C GLN F 219 10.709 14.487 31.375 1.00 52.15 C +ATOM 15892 O GLN F 219 9.947 13.540 31.602 1.00 51.94 O +ATOM 15893 CB GLN F 219 10.532 15.271 28.994 1.00 53.64 C +ATOM 15894 CG GLN F 219 9.871 13.986 28.517 1.00 52.78 C +ATOM 15895 CD GLN F 219 10.082 13.732 27.037 1.00 51.22 C +ATOM 15896 OE1 GLN F 219 10.163 14.667 26.239 1.00 49.09 O +ATOM 15897 NE2 GLN F 219 10.177 12.461 26.662 1.00 48.61 N +ATOM 15898 N GLY F 220 11.923 14.564 31.914 1.00 54.68 N +ATOM 15899 CA GLY F 220 12.464 13.544 32.786 1.00 54.25 C +ATOM 15900 C GLY F 220 12.337 13.799 34.271 1.00 53.73 C +ATOM 15901 O GLY F 220 12.984 13.098 35.057 1.00 53.91 O +ATOM 15902 N LEU F 221 11.534 14.776 34.687 1.00 53.36 N +ATOM 15903 CA LEU F 221 11.345 15.095 36.099 1.00 51.66 C +ATOM 15904 C LEU F 221 9.892 14.829 36.470 1.00 53.23 C +ATOM 15905 O LEU F 221 8.990 15.533 36.004 1.00 53.43 O +ATOM 15906 CB LEU F 221 11.727 16.545 36.393 1.00 51.51 C +ATOM 15907 CG LEU F 221 13.195 16.928 36.192 1.00 47.43 C +ATOM 15908 CD1 LEU F 221 13.398 18.419 36.423 1.00 50.38 C +ATOM 15909 CD2 LEU F 221 14.093 16.113 37.107 1.00 41.84 C +ATOM 15910 N SER F 222 9.668 13.817 37.314 1.00 52.80 N +ATOM 15911 CA SER F 222 8.320 13.510 37.782 1.00 53.06 C +ATOM 15912 C SER F 222 7.729 14.626 38.631 1.00 51.47 C +ATOM 15913 O SER F 222 6.519 14.618 38.883 1.00 50.28 O +ATOM 15914 CB SER F 222 8.326 12.204 38.579 1.00 47.59 C +ATOM 15915 OG SER F 222 9.110 12.327 39.752 1.00 54.13 O +ATOM 15916 N SER F 223 8.548 15.572 39.079 1.00 52.59 N +ATOM 15917 CA SER F 223 8.092 16.744 39.811 1.00 56.06 C +ATOM 15918 C SER F 223 9.149 17.828 39.662 1.00 56.46 C +ATOM 15919 O SER F 223 10.318 17.522 39.399 1.00 51.85 O +ATOM 15920 CB SER F 223 7.845 16.414 41.293 1.00 53.71 C +ATOM 15921 OG SER F 223 8.997 15.847 41.890 1.00 60.29 O +ATOM 15922 N PRO F 224 8.771 19.100 39.807 1.00 56.76 N +ATOM 15923 CA PRO F 224 9.745 20.180 39.599 1.00 57.24 C +ATOM 15924 C PRO F 224 10.917 20.079 40.563 1.00 58.97 C +ATOM 15925 O PRO F 224 10.774 19.654 41.712 1.00 57.91 O +ATOM 15926 CB PRO F 224 8.926 21.452 39.848 1.00 59.74 C +ATOM 15927 CG PRO F 224 7.511 21.047 39.616 1.00 63.67 C +ATOM 15928 CD PRO F 224 7.416 19.620 40.061 1.00 56.46 C +ATOM 15929 N VAL F 225 12.090 20.475 40.077 1.00 59.41 N +ATOM 15930 CA VAL F 225 13.315 20.477 40.871 1.00 55.09 C +ATOM 15931 C VAL F 225 13.684 21.926 41.146 1.00 58.82 C +ATOM 15932 O VAL F 225 13.965 22.689 40.216 1.00 60.55 O +ATOM 15933 CB VAL F 225 14.459 19.743 40.157 1.00 52.68 C +ATOM 15934 CG1 VAL F 225 15.782 20.019 40.854 1.00 54.26 C +ATOM 15935 CG2 VAL F 225 14.181 18.250 40.106 1.00 52.59 C +ATOM 15936 N THR F 226 13.685 22.309 42.417 1.00 64.52 N +ATOM 15937 CA THR F 226 13.974 23.679 42.815 1.00 65.31 C +ATOM 15938 C THR F 226 15.335 23.732 43.492 1.00 64.11 C +ATOM 15939 O THR F 226 15.592 22.975 44.434 1.00 62.38 O +ATOM 15940 CB THR F 226 12.895 24.218 43.757 1.00 62.08 C +ATOM 15941 OG1 THR F 226 11.606 24.063 43.149 1.00 67.94 O +ATOM 15942 CG2 THR F 226 13.136 25.690 44.052 1.00 61.78 C +ATOM 15943 N LYS F 227 16.203 24.620 43.011 1.00 65.36 N +ATOM 15944 CA LYS F 227 17.491 24.874 43.642 1.00 68.74 C +ATOM 15945 C LYS F 227 17.533 26.329 44.079 1.00 73.83 C +ATOM 15946 O LYS F 227 17.309 27.231 43.264 1.00 75.07 O +ATOM 15947 CB LYS F 227 18.651 24.557 42.695 1.00 66.66 C +ATOM 15948 CG LYS F 227 18.876 23.069 42.483 1.00 66.89 C +ATOM 15949 CD LYS F 227 19.490 22.409 43.706 1.00 66.92 C +ATOM 15950 CE LYS F 227 19.889 20.972 43.405 1.00 71.38 C +ATOM 15951 NZ LYS F 227 20.419 20.268 44.605 1.00 82.50 N +ATOM 15952 N SER F 228 17.828 26.556 45.358 1.00 76.21 N +ATOM 15953 CA SER F 228 17.683 27.876 45.953 1.00 81.85 C +ATOM 15954 C SER F 228 18.877 28.194 46.840 1.00 84.96 C +ATOM 15955 O SER F 228 19.674 27.321 47.198 1.00 83.91 O +ATOM 15956 CB SER F 228 16.391 27.979 46.774 1.00 88.08 C +ATOM 15957 OG SER F 228 16.438 27.124 47.900 1.00 99.65 O +ATOM 15958 N PHE F 229 18.991 29.472 47.195 1.00 87.45 N +ATOM 15959 CA PHE F 229 19.992 29.885 48.164 1.00 89.42 C +ATOM 15960 C PHE F 229 19.551 31.153 48.869 1.00 93.66 C +ATOM 15961 O PHE F 229 18.844 31.995 48.306 1.00 91.69 O +ATOM 15962 CB PHE F 229 21.366 30.117 47.525 1.00 89.23 C +ATOM 15963 CG PHE F 229 21.447 31.363 46.683 1.00 90.05 C +ATOM 15964 CD1 PHE F 229 21.811 32.587 47.232 1.00 89.94 C +ATOM 15965 CD2 PHE F 229 21.156 31.299 45.337 1.00 86.71 C +ATOM 15966 CE1 PHE F 229 21.889 33.717 46.439 1.00 90.84 C +ATOM 15967 CE2 PHE F 229 21.232 32.423 44.544 1.00 84.80 C +ATOM 15968 CZ PHE F 229 21.598 33.633 45.093 1.00 86.82 C +ATOM 15969 N ASN F 230 19.986 31.274 50.110 1.00103.47 N +ATOM 15970 CA ASN F 230 19.794 32.485 50.881 1.00103.79 C +ATOM 15971 C ASN F 230 21.064 33.317 50.816 1.00104.60 C +ATOM 15972 O ASN F 230 22.172 32.773 50.890 1.00103.74 O +ATOM 15973 CB ASN F 230 19.399 32.154 52.317 1.00108.81 C +ATOM 15974 CG ASN F 230 17.945 31.655 52.418 1.00121.42 C +ATOM 15975 OD1 ASN F 230 17.081 32.038 51.598 1.00128.62 O +ATOM 15976 ND2 ASN F 230 17.670 30.813 53.407 1.00109.31 N +ATOM 15977 N ARG F 231 20.895 34.635 50.655 1.00105.56 N +ATOM 15978 CA ARG F 231 22.047 35.511 50.468 1.00108.71 C +ATOM 15979 C ARG F 231 23.108 35.275 51.539 1.00111.20 C +ATOM 15980 O ARG F 231 24.308 35.282 51.242 1.00111.02 O +ATOM 15981 CB ARG F 231 21.612 36.973 50.460 1.00112.20 C +ATOM 15982 CG ARG F 231 22.780 37.930 50.278 1.00116.55 C +ATOM 15983 CD ARG F 231 22.322 39.364 50.070 1.00120.72 C +ATOM 15984 NE ARG F 231 21.728 39.897 51.291 1.00129.73 N +ATOM 15985 CZ ARG F 231 22.417 40.297 52.357 1.00141.55 C +ATOM 15986 NH1 ARG F 231 23.742 40.241 52.362 1.00135.69 N +ATOM 15987 NH2 ARG F 231 21.774 40.753 53.425 1.00147.11 N +ATOM 15988 N GLY F 232 22.686 34.999 52.769 1.00113.74 N +ATOM 15989 CA GLY F 232 23.620 34.706 53.825 1.00113.34 C +ATOM 15990 C GLY F 232 24.001 33.238 53.887 1.00114.48 C +ATOM 15991 O GLY F 232 23.510 32.499 54.749 1.00119.71 O +ATOM 15992 N GLU F 233 24.875 32.798 52.984 1.00111.44 N +ATOM 15993 CA GLU F 233 25.290 31.399 52.936 1.00112.43 C +ATOM 15994 C GLU F 233 26.569 31.142 53.729 1.00111.08 C +ATOM 15995 O GLU F 233 27.096 30.028 53.718 1.00107.10 O +ATOM 15996 CB GLU F 233 25.487 30.950 51.488 1.00112.83 C +ATOM 15997 N GLU H 1 41.334 -0.524 63.486 1.00 78.71 N +ATOM 15998 CA GLU H 1 40.028 -1.173 63.467 1.00 75.19 C +ATOM 15999 C GLU H 1 40.119 -2.608 63.976 1.00 70.40 C +ATOM 16000 O GLU H 1 41.212 -3.129 64.200 1.00 71.32 O +ATOM 16001 CB GLU H 1 39.439 -1.152 62.055 1.00 72.52 C +ATOM 16002 N VAL H 2 38.959 -3.241 64.160 1.00 67.50 N +ATOM 16003 CA VAL H 2 38.926 -4.625 64.613 1.00 63.77 C +ATOM 16004 C VAL H 2 39.351 -5.542 63.474 1.00 60.57 C +ATOM 16005 O VAL H 2 38.973 -5.338 62.312 1.00 62.83 O +ATOM 16006 CB VAL H 2 37.521 -4.983 65.127 1.00 61.91 C +ATOM 16007 CG1 VAL H 2 37.481 -6.417 65.631 1.00 59.59 C +ATOM 16008 CG2 VAL H 2 37.094 -4.014 66.219 1.00 62.07 C +ATOM 16009 N GLN H 3 40.143 -6.561 63.802 1.00 58.09 N +ATOM 16010 CA GLN H 3 40.642 -7.510 62.818 1.00 57.19 C +ATOM 16011 C GLN H 3 40.633 -8.911 63.408 1.00 55.19 C +ATOM 16012 O GLN H 3 41.046 -9.116 64.553 1.00 56.02 O +ATOM 16013 CB GLN H 3 42.061 -7.148 62.354 1.00 63.31 C +ATOM 16014 CG GLN H 3 42.160 -5.822 61.615 1.00 65.62 C +ATOM 16015 CD GLN H 3 43.578 -5.491 61.196 1.00 74.07 C +ATOM 16016 OE1 GLN H 3 44.068 -5.979 60.178 1.00 81.72 O +ATOM 16017 NE2 GLN H 3 44.246 -4.654 61.982 1.00 77.16 N +ATOM 16018 N LEU H 4 40.151 -9.871 62.620 1.00 53.59 N +ATOM 16019 CA LEU H 4 40.156 -11.288 62.984 1.00 54.33 C +ATOM 16020 C LEU H 4 40.820 -12.057 61.846 1.00 56.78 C +ATOM 16021 O LEU H 4 40.171 -12.383 60.848 1.00 58.95 O +ATOM 16022 CB LEU H 4 38.748 -11.815 63.259 1.00 54.04 C +ATOM 16023 CG LEU H 4 37.934 -11.289 64.448 1.00 56.14 C +ATOM 16024 CD1 LEU H 4 37.434 -9.863 64.246 1.00 55.27 C +ATOM 16025 CD2 LEU H 4 36.773 -12.228 64.745 1.00 55.30 C +ATOM 16026 N GLN H 5 42.111 -12.342 61.995 1.00 59.11 N +ATOM 16027 CA GLN H 5 42.880 -13.025 60.962 1.00 57.74 C +ATOM 16028 C GLN H 5 42.874 -14.525 61.236 1.00 56.40 C +ATOM 16029 O GLN H 5 43.339 -14.969 62.290 1.00 56.27 O +ATOM 16030 CB GLN H 5 44.309 -12.488 60.913 1.00 59.09 C +ATOM 16031 CG GLN H 5 44.513 -11.374 59.901 1.00 66.40 C +ATOM 16032 CD GLN H 5 44.432 -11.866 58.468 1.00 80.42 C +ATOM 16033 OE1 GLN H 5 44.939 -12.938 58.139 1.00 83.70 O +ATOM 16034 NE2 GLN H 5 43.789 -11.084 57.609 1.00 79.21 N +ATOM 16035 N GLN H 6 42.344 -15.297 60.295 1.00 52.18 N +ATOM 16036 CA GLN H 6 42.253 -16.743 60.427 1.00 51.71 C +ATOM 16037 C GLN H 6 43.403 -17.434 59.703 1.00 55.18 C +ATOM 16038 O GLN H 6 44.052 -16.863 58.823 1.00 58.20 O +ATOM 16039 CB GLN H 6 40.915 -17.251 59.884 1.00 54.06 C +ATOM 16040 CG GLN H 6 39.709 -16.584 60.515 1.00 55.92 C +ATOM 16041 CD GLN H 6 38.397 -17.204 60.079 1.00 50.81 C +ATOM 16042 OE1 GLN H 6 37.474 -16.504 59.664 1.00 48.31 O +ATOM 16043 NE2 GLN H 6 38.309 -18.527 60.169 1.00 49.16 N +ATOM 16044 N SER H 7 43.650 -18.682 60.096 1.00 53.54 N +ATOM 16045 CA SER H 7 44.693 -19.480 59.474 1.00 53.34 C +ATOM 16046 C SER H 7 44.356 -19.758 58.008 1.00 56.06 C +ATOM 16047 O SER H 7 43.239 -19.527 57.538 1.00 56.67 O +ATOM 16048 CB SER H 7 44.887 -20.791 60.237 1.00 53.71 C +ATOM 16049 OG SER H 7 43.686 -21.542 60.277 1.00 52.73 O +ATOM 16050 N GLY H 8 45.348 -20.277 57.286 1.00 62.48 N +ATOM 16051 CA GLY H 8 45.189 -20.563 55.881 1.00 54.65 C +ATOM 16052 C GLY H 8 44.365 -21.808 55.633 1.00 54.42 C +ATOM 16053 O GLY H 8 43.911 -22.498 56.556 1.00 56.78 O +ATOM 16054 N PRO H 9 44.163 -22.111 54.353 1.00 55.65 N +ATOM 16055 CA PRO H 9 43.378 -23.293 53.986 1.00 58.33 C +ATOM 16056 C PRO H 9 44.072 -24.575 54.414 1.00 58.85 C +ATOM 16057 O PRO H 9 45.292 -24.628 54.579 1.00 58.01 O +ATOM 16058 CB PRO H 9 43.293 -23.200 52.461 1.00 52.63 C +ATOM 16059 CG PRO H 9 44.501 -22.417 52.069 1.00 51.66 C +ATOM 16060 CD PRO H 9 44.719 -21.424 53.174 1.00 53.97 C +ATOM 16061 N GLU H 11 43.274 -25.628 54.592 1.00 59.43 N +ATOM 16062 CA GLU H 11 43.825 -26.892 55.064 1.00 59.38 C +ATOM 16063 C GLU H 11 43.305 -28.060 54.240 1.00 60.48 C +ATOM 16064 O GLU H 11 42.136 -28.084 53.841 1.00 59.23 O +ATOM 16065 CB GLU H 11 43.509 -27.121 56.551 1.00 65.66 C +ATOM 16066 CG GLU H 11 44.261 -26.191 57.492 1.00 70.31 C +ATOM 16067 CD GLU H 11 45.705 -26.616 57.710 1.00 79.12 C +ATOM 16068 OE1 GLU H 11 46.114 -27.662 57.161 1.00 78.39 O +ATOM 16069 OE2 GLU H 11 46.435 -25.895 58.421 1.00 87.36 O +ATOM 16070 N LEU H 12 44.195 -29.019 53.983 1.00 62.51 N +ATOM 16071 CA LEU H 12 43.858 -30.310 53.397 1.00 59.67 C +ATOM 16072 C LEU H 12 44.246 -31.400 54.386 1.00 63.84 C +ATOM 16073 O LEU H 12 45.383 -31.428 54.868 1.00 66.32 O +ATOM 16074 CB LEU H 12 44.576 -30.520 52.061 1.00 60.73 C +ATOM 16075 CG LEU H 12 44.432 -31.898 51.408 1.00 59.70 C +ATOM 16076 CD1 LEU H 12 42.972 -32.235 51.154 1.00 61.61 C +ATOM 16077 CD2 LEU H 12 45.236 -31.970 50.120 1.00 58.65 C +ATOM 16078 N VAL H 13 43.306 -32.298 54.677 1.00 62.73 N +ATOM 16079 CA VAL H 13 43.473 -33.305 55.719 1.00 65.08 C +ATOM 16080 C VAL H 13 42.853 -34.612 55.240 1.00 67.45 C +ATOM 16081 O VAL H 13 41.893 -34.618 54.467 1.00 68.22 O +ATOM 16082 CB VAL H 13 42.847 -32.831 57.058 1.00 64.37 C +ATOM 16083 CG1 VAL H 13 42.881 -33.924 58.110 1.00 67.51 C +ATOM 16084 CG2 VAL H 13 43.575 -31.599 57.578 1.00 63.19 C +ATOM 16085 N LYS H 14 43.422 -35.732 55.694 1.00 70.24 N +ATOM 16086 CA LYS H 14 42.895 -37.042 55.348 1.00 70.14 C +ATOM 16087 C LYS H 14 41.665 -37.363 56.196 1.00 69.83 C +ATOM 16088 O LYS H 14 41.526 -36.860 57.314 1.00 72.03 O +ATOM 16089 CB LYS H 14 43.958 -38.114 55.565 1.00 75.05 C +ATOM 16090 CG LYS H 14 45.313 -37.779 54.967 1.00 75.07 C +ATOM 16091 CD LYS H 14 45.329 -37.982 53.462 1.00 80.50 C +ATOM 16092 CE LYS H 14 46.580 -37.378 52.847 1.00 84.13 C +ATOM 16093 NZ LYS H 14 47.809 -37.762 53.596 1.00 87.81 N +ATOM 16094 N PRO H 15 40.748 -38.181 55.677 1.00 70.70 N +ATOM 16095 CA PRO H 15 39.577 -38.569 56.473 1.00 75.07 C +ATOM 16096 C PRO H 15 39.989 -39.271 57.759 1.00 77.48 C +ATOM 16097 O PRO H 15 40.938 -40.058 57.784 1.00 81.96 O +ATOM 16098 CB PRO H 15 38.805 -39.507 55.538 1.00 71.37 C +ATOM 16099 CG PRO H 15 39.233 -39.105 54.167 1.00 72.20 C +ATOM 16100 CD PRO H 15 40.668 -38.683 54.294 1.00 72.74 C +ATOM 16101 N GLY H 16 39.260 -38.976 58.834 1.00 78.75 N +ATOM 16102 CA GLY H 16 39.546 -39.526 60.137 1.00 78.46 C +ATOM 16103 C GLY H 16 40.566 -38.751 60.946 1.00 76.76 C +ATOM 16104 O GLY H 16 40.569 -38.860 62.177 1.00 78.35 O +ATOM 16105 N ALA H 17 41.428 -37.975 60.295 1.00 73.60 N +ATOM 16106 CA ALA H 17 42.439 -37.192 60.992 1.00 68.84 C +ATOM 16107 C ALA H 17 41.795 -35.950 61.610 1.00 70.20 C +ATOM 16108 O ALA H 17 40.573 -35.780 61.599 1.00 71.29 O +ATOM 16109 CB ALA H 17 43.583 -36.842 60.044 1.00 69.95 C +ATOM 16110 N SER H 18 42.619 -35.059 62.158 1.00 67.77 N +ATOM 16111 CA SER H 18 42.136 -33.890 62.877 1.00 65.91 C +ATOM 16112 C SER H 18 42.748 -32.620 62.300 1.00 64.48 C +ATOM 16113 O SER H 18 43.781 -32.651 61.627 1.00 66.18 O +ATOM 16114 CB SER H 18 42.460 -34.000 64.371 1.00 68.84 C +ATOM 16115 OG SER H 18 41.910 -35.190 64.908 1.00 71.28 O +ATOM 16116 N VAL H 19 42.091 -31.491 62.579 1.00 63.76 N +ATOM 16117 CA VAL H 19 42.531 -30.181 62.116 1.00 64.52 C +ATOM 16118 C VAL H 19 42.452 -29.213 63.289 1.00 62.18 C +ATOM 16119 O VAL H 19 41.679 -29.405 64.228 1.00 65.81 O +ATOM 16120 CB VAL H 19 41.686 -29.647 60.934 1.00 66.31 C +ATOM 16121 CG1 VAL H 19 42.466 -28.604 60.136 1.00 64.17 C +ATOM 16122 CG2 VAL H 19 41.195 -30.779 60.044 1.00 68.41 C +ATOM 16123 N LYS H 20 43.250 -28.148 63.214 1.00 59.56 N +ATOM 16124 CA LYS H 20 43.252 -27.102 64.236 1.00 59.11 C +ATOM 16125 C LYS H 20 43.409 -25.757 63.537 1.00 60.12 C +ATOM 16126 O LYS H 20 44.475 -25.460 62.989 1.00 65.68 O +ATOM 16127 CB LYS H 20 44.365 -27.322 65.262 1.00 67.24 C +ATOM 16128 CG LYS H 20 43.954 -27.005 66.693 1.00 65.82 C +ATOM 16129 CD LYS H 20 45.153 -26.956 67.631 1.00 70.67 C +ATOM 16130 CE LYS H 20 44.713 -26.869 69.087 1.00 71.07 C +ATOM 16131 NZ LYS H 20 45.860 -26.613 70.001 1.00 69.82 N +ATOM 16132 N MET H 21 42.353 -24.949 63.562 1.00 59.36 N +ATOM 16133 CA MET H 21 42.327 -23.635 62.941 1.00 59.01 C +ATOM 16134 C MET H 21 42.514 -22.547 63.991 1.00 55.90 C +ATOM 16135 O MET H 21 42.137 -22.710 65.154 1.00 57.76 O +ATOM 16136 CB MET H 21 41.000 -23.412 62.213 1.00 55.80 C +ATOM 16137 CG MET H 21 40.678 -24.458 61.165 1.00 56.45 C +ATOM 16138 SD MET H 21 38.979 -24.325 60.579 1.00 63.03 S +ATOM 16139 CE MET H 21 38.886 -25.752 59.501 1.00 60.43 C +ATOM 16140 N SER H 22 43.096 -21.429 63.568 1.00 52.51 N +ATOM 16141 CA SER H 22 43.373 -20.311 64.455 1.00 52.34 C +ATOM 16142 C SER H 22 42.579 -19.084 64.024 1.00 53.84 C +ATOM 16143 O SER H 22 42.165 -18.956 62.869 1.00 57.48 O +ATOM 16144 CB SER H 22 44.871 -19.981 64.485 1.00 52.28 C +ATOM 16145 OG SER H 22 45.301 -19.441 63.248 1.00 59.16 O +ATOM 16146 N CYS H 23 42.371 -18.180 64.981 1.00 55.25 N +ATOM 16147 CA CYS H 23 41.690 -16.911 64.725 1.00 55.86 C +ATOM 16148 C CYS H 23 42.307 -15.888 65.675 1.00 56.41 C +ATOM 16149 O CYS H 23 41.961 -15.855 66.859 1.00 57.71 O +ATOM 16150 CB CYS H 23 40.187 -17.050 64.936 1.00 54.95 C +ATOM 16151 SG CYS H 23 39.211 -15.521 64.860 1.00 59.14 S +ATOM 16152 N LYS H 24 43.237 -15.085 65.163 1.00 52.96 N +ATOM 16153 CA LYS H 24 43.917 -14.078 65.965 1.00 54.12 C +ATOM 16154 C LYS H 24 43.132 -12.775 65.892 1.00 54.51 C +ATOM 16155 O LYS H 24 42.911 -12.237 64.801 1.00 55.03 O +ATOM 16156 CB LYS H 24 45.352 -13.875 65.481 1.00 59.43 C +ATOM 16157 CG LYS H 24 46.266 -13.223 66.509 1.00 62.60 C +ATOM 16158 CD LYS H 24 47.471 -12.565 65.855 1.00 64.05 C +ATOM 16159 CE LYS H 24 48.434 -12.022 66.900 1.00 68.45 C +ATOM 16160 NZ LYS H 24 47.762 -11.090 67.848 1.00 66.85 N +ATOM 16161 N ALA H 25 42.704 -12.282 67.049 1.00 55.87 N +ATOM 16162 CA ALA H 25 41.945 -11.046 67.156 1.00 54.62 C +ATOM 16163 C ALA H 25 42.860 -9.880 67.507 1.00 53.68 C +ATOM 16164 O ALA H 25 43.884 -10.047 68.174 1.00 56.77 O +ATOM 16165 CB ALA H 25 40.841 -11.174 68.208 1.00 53.25 C +ATOM 16166 N SER H 26 42.477 -8.692 67.045 1.00 52.88 N +ATOM 16167 CA SER H 26 43.234 -7.483 67.338 1.00 53.63 C +ATOM 16168 C SER H 26 42.322 -6.278 67.167 1.00 59.29 C +ATOM 16169 O SER H 26 41.333 -6.323 66.430 1.00 60.09 O +ATOM 16170 CB SER H 26 44.470 -7.361 66.439 1.00 57.29 C +ATOM 16171 OG SER H 26 44.109 -7.360 65.068 1.00 61.71 O +ATOM 16172 N GLY H 27 42.670 -5.199 67.862 1.00 64.28 N +ATOM 16173 CA GLY H 27 41.929 -3.958 67.784 1.00 61.19 C +ATOM 16174 C GLY H 27 40.897 -3.732 68.866 1.00 61.45 C +ATOM 16175 O GLY H 27 40.147 -2.752 68.780 1.00 61.09 O +ATOM 16176 N TYR H 28 40.833 -4.596 69.876 1.00 57.29 N +ATOM 16177 CA TYR H 28 39.873 -4.442 70.962 1.00 61.64 C +ATOM 16178 C TYR H 28 40.312 -5.314 72.130 1.00 62.49 C +ATOM 16179 O TYR H 28 41.233 -6.127 72.015 1.00 63.66 O +ATOM 16180 CB TYR H 28 38.455 -4.800 70.508 1.00 63.10 C +ATOM 16181 CG TYR H 28 38.271 -6.267 70.207 1.00 58.41 C +ATOM 16182 CD1 TYR H 28 38.667 -6.797 68.987 1.00 54.81 C +ATOM 16183 CD2 TYR H 28 37.711 -7.124 71.143 1.00 54.18 C +ATOM 16184 CE1 TYR H 28 38.507 -8.134 68.707 1.00 52.43 C +ATOM 16185 CE2 TYR H 28 37.547 -8.463 70.873 1.00 52.84 C +ATOM 16186 CZ TYR H 28 37.947 -8.961 69.653 1.00 51.26 C +ATOM 16187 OH TYR H 28 37.785 -10.292 69.377 1.00 48.55 O +ATOM 16188 N THR H 29 39.630 -5.139 73.260 1.00 61.88 N +ATOM 16189 CA THR H 29 39.898 -5.943 74.449 1.00 64.62 C +ATOM 16190 C THR H 29 39.447 -7.376 74.196 1.00 64.47 C +ATOM 16191 O THR H 29 38.247 -7.670 74.202 1.00 67.17 O +ATOM 16192 CB THR H 29 39.195 -5.349 75.665 1.00 71.05 C +ATOM 16193 OG1 THR H 29 37.788 -5.251 75.408 1.00 88.78 O +ATOM 16194 CG2 THR H 29 39.748 -3.965 75.974 1.00 67.74 C +ATOM 16195 N PHE H 30 40.415 -8.270 73.980 1.00 62.85 N +ATOM 16196 CA PHE H 30 40.112 -9.630 73.547 1.00 62.65 C +ATOM 16197 C PHE H 30 39.274 -10.390 74.570 1.00 64.29 C +ATOM 16198 O PHE H 30 38.502 -11.282 74.198 1.00 64.13 O +ATOM 16199 CB PHE H 30 41.420 -10.372 73.260 1.00 61.24 C +ATOM 16200 CG PHE H 30 41.242 -11.824 72.921 1.00 60.63 C +ATOM 16201 CD1 PHE H 30 40.719 -12.204 71.697 1.00 59.59 C +ATOM 16202 CD2 PHE H 30 41.615 -12.809 73.820 1.00 62.13 C +ATOM 16203 CE1 PHE H 30 40.561 -13.540 71.379 1.00 60.43 C +ATOM 16204 CE2 PHE H 30 41.461 -14.146 73.508 1.00 61.66 C +ATOM 16205 CZ PHE H 30 40.933 -14.512 72.287 1.00 61.14 C +ATOM 16206 N SER H 35 39.402 -10.055 75.853 1.00 69.97 N +ATOM 16207 CA SER H 35 38.778 -10.833 76.916 1.00 70.77 C +ATOM 16208 C SER H 35 37.335 -10.434 77.205 1.00 70.78 C +ATOM 16209 O SER H 35 36.669 -11.120 77.988 1.00 69.39 O +ATOM 16210 CB SER H 35 39.601 -10.713 78.204 1.00 75.11 C +ATOM 16211 OG SER H 35 39.755 -9.357 78.586 1.00 87.27 O +ATOM 16212 N ASP H 36 36.834 -9.357 76.602 1.00 70.60 N +ATOM 16213 CA ASP H 36 35.516 -8.827 76.931 1.00 70.80 C +ATOM 16214 C ASP H 36 34.431 -9.232 75.941 1.00 66.31 C +ATOM 16215 O ASP H 36 33.266 -8.876 76.146 1.00 67.84 O +ATOM 16216 CB ASP H 36 35.572 -7.298 77.027 1.00 74.35 C +ATOM 16217 CG ASP H 36 36.432 -6.816 78.180 1.00 81.44 C +ATOM 16218 OD1 ASP H 36 36.929 -7.665 78.950 1.00 84.32 O +ATOM 16219 OD2 ASP H 36 36.609 -5.587 78.316 1.00 81.15 O +ATOM 16220 N TYR H 37 34.773 -9.961 74.881 1.00 64.27 N +ATOM 16221 CA TYR H 37 33.823 -10.307 73.833 1.00 56.94 C +ATOM 16222 C TYR H 37 33.808 -11.811 73.604 1.00 55.77 C +ATOM 16223 O TYR H 37 34.860 -12.456 73.590 1.00 54.81 O +ATOM 16224 CB TYR H 37 34.169 -9.596 72.522 1.00 55.16 C +ATOM 16225 CG TYR H 37 33.962 -8.097 72.537 1.00 52.98 C +ATOM 16226 CD1 TYR H 37 34.942 -7.245 73.025 1.00 54.99 C +ATOM 16227 CD2 TYR H 37 32.795 -7.534 72.041 1.00 55.09 C +ATOM 16228 CE1 TYR H 37 34.760 -5.875 73.030 1.00 56.46 C +ATOM 16229 CE2 TYR H 37 32.603 -6.166 72.041 1.00 54.91 C +ATOM 16230 CZ TYR H 37 33.588 -5.341 72.537 1.00 53.80 C +ATOM 16231 OH TYR H 37 33.400 -3.978 72.539 1.00 65.76 O +ATOM 16232 N TYR H 38 32.609 -12.362 73.416 1.00 56.67 N +ATOM 16233 CA TYR H 38 32.468 -13.757 73.020 1.00 56.87 C +ATOM 16234 C TYR H 38 33.115 -13.998 71.659 1.00 55.41 C +ATOM 16235 O TYR H 38 33.297 -13.080 70.853 1.00 54.18 O +ATOM 16236 CB TYR H 38 30.995 -14.160 72.955 1.00 54.77 C +ATOM 16237 CG TYR H 38 30.384 -14.559 74.278 1.00 55.67 C +ATOM 16238 CD1 TYR H 38 30.468 -15.868 74.735 1.00 54.79 C +ATOM 16239 CD2 TYR H 38 29.700 -13.636 75.056 1.00 59.81 C +ATOM 16240 CE1 TYR H 38 29.904 -16.240 75.939 1.00 58.32 C +ATOM 16241 CE2 TYR H 38 29.130 -14.000 76.262 1.00 59.14 C +ATOM 16242 CZ TYR H 38 29.235 -15.304 76.697 1.00 59.70 C +ATOM 16243 OH TYR H 38 28.671 -15.674 77.896 1.00 60.84 O +ATOM 16244 N MET H 39 33.461 -15.258 71.401 1.00 52.34 N +ATOM 16245 CA MET H 39 33.991 -15.664 70.107 1.00 48.94 C +ATOM 16246 C MET H 39 33.189 -16.856 69.614 1.00 51.28 C +ATOM 16247 O MET H 39 33.168 -17.900 70.270 1.00 54.33 O +ATOM 16248 CB MET H 39 35.474 -16.020 70.210 1.00 51.20 C +ATOM 16249 CG MET H 39 36.232 -15.687 68.958 1.00 56.51 C +ATOM 16250 SD MET H 39 36.052 -13.927 68.626 1.00 58.11 S +ATOM 16251 CE MET H 39 37.601 -13.323 69.284 1.00 65.86 C +ATOM 16252 N HIS H 40 32.545 -16.713 68.460 1.00 50.17 N +ATOM 16253 CA HIS H 40 31.712 -17.765 67.903 1.00 47.67 C +ATOM 16254 C HIS H 40 32.354 -18.327 66.644 1.00 49.11 C +ATOM 16255 O HIS H 40 33.111 -17.640 65.951 1.00 49.02 O +ATOM 16256 CB HIS H 40 30.307 -17.245 67.582 1.00 48.37 C +ATOM 16257 CG HIS H 40 29.656 -16.522 68.721 1.00 50.87 C +ATOM 16258 ND1 HIS H 40 28.719 -17.113 69.541 1.00 50.01 N +ATOM 16259 CD2 HIS H 40 29.808 -15.256 69.175 1.00 51.48 C +ATOM 16260 CE1 HIS H 40 28.322 -16.241 70.452 1.00 53.63 C +ATOM 16261 NE2 HIS H 40 28.968 -15.107 70.251 1.00 51.52 N +ATOM 16262 N TRP H 41 32.037 -19.582 66.348 1.00 48.81 N +ATOM 16263 CA TRP H 41 32.485 -20.228 65.124 1.00 49.06 C +ATOM 16264 C TRP H 41 31.277 -20.610 64.282 1.00 50.32 C +ATOM 16265 O TRP H 41 30.255 -21.060 64.811 1.00 48.19 O +ATOM 16266 CB TRP H 41 33.346 -21.458 65.429 1.00 51.70 C +ATOM 16267 CG TRP H 41 34.734 -21.097 65.868 1.00 52.05 C +ATOM 16268 CD1 TRP H 41 35.159 -20.885 67.147 1.00 54.39 C +ATOM 16269 CD2 TRP H 41 35.874 -20.882 65.027 1.00 55.17 C +ATOM 16270 NE1 TRP H 41 36.494 -20.562 67.156 1.00 56.33 N +ATOM 16271 CE2 TRP H 41 36.957 -20.552 65.866 1.00 56.23 C +ATOM 16272 CE3 TRP H 41 36.086 -20.940 63.645 1.00 53.56 C +ATOM 16273 CZ2 TRP H 41 38.231 -20.283 65.371 1.00 55.83 C +ATOM 16274 CZ3 TRP H 41 37.351 -20.674 63.156 1.00 51.28 C +ATOM 16275 CH2 TRP H 41 38.407 -20.350 64.016 1.00 54.93 C +ATOM 16276 N VAL H 42 31.398 -20.421 62.969 1.00 51.40 N +ATOM 16277 CA VAL H 42 30.301 -20.641 62.035 1.00 50.42 C +ATOM 16278 C VAL H 42 30.813 -21.475 60.870 1.00 49.27 C +ATOM 16279 O VAL H 42 31.962 -21.341 60.442 1.00 51.10 O +ATOM 16280 CB VAL H 42 29.699 -19.306 61.528 1.00 45.74 C +ATOM 16281 CG1 VAL H 42 28.489 -19.556 60.641 1.00 48.81 C +ATOM 16282 CG2 VAL H 42 29.321 -18.403 62.694 1.00 47.64 C +ATOM 16283 N LYS H 43 29.946 -22.343 60.358 1.00 50.71 N +ATOM 16284 CA LYS H 43 30.260 -23.213 59.234 1.00 53.11 C +ATOM 16285 C LYS H 43 29.385 -22.835 58.049 1.00 56.34 C +ATOM 16286 O LYS H 43 28.168 -22.679 58.198 1.00 56.26 O +ATOM 16287 CB LYS H 43 30.046 -24.682 59.614 1.00 54.89 C +ATOM 16288 CG LYS H 43 30.259 -25.677 58.488 1.00 54.74 C +ATOM 16289 CD LYS H 43 29.843 -27.075 58.924 1.00 55.61 C +ATOM 16290 CE LYS H 43 30.138 -28.111 57.853 1.00 59.50 C +ATOM 16291 NZ LYS H 43 29.733 -29.478 58.279 1.00 62.73 N +ATOM 16292 N GLN H 44 30.001 -22.685 56.878 1.00 67.06 N +ATOM 16293 CA GLN H 44 29.290 -22.432 55.627 1.00 69.97 C +ATOM 16294 C GLN H 44 29.616 -23.616 54.723 1.00 86.44 C +ATOM 16295 O GLN H 44 30.711 -23.690 54.159 1.00 86.67 O +ATOM 16296 CB GLN H 44 29.703 -21.096 55.015 1.00 65.51 C +ATOM 16297 CG GLN H 44 28.753 -20.573 53.952 1.00 75.24 C +ATOM 16298 CD GLN H 44 29.062 -19.146 53.542 1.00 66.28 C +ATOM 16299 OE1 GLN H 44 28.176 -18.291 53.513 1.00 61.79 O +ATOM 16300 NE2 GLN H 44 30.323 -18.881 53.224 1.00 61.84 N +ATOM 16301 N SER H 45 28.675 -24.553 54.616 1.00 95.21 N +ATOM 16302 CA SER H 45 28.866 -25.769 53.831 1.00111.73 C +ATOM 16303 C SER H 45 28.611 -25.496 52.354 1.00136.94 C +ATOM 16304 O SER H 45 27.460 -25.320 51.940 1.00140.97 O +ATOM 16305 CB SER H 45 27.945 -26.872 54.345 1.00105.19 C +ATOM 16306 OG SER H 45 26.588 -26.584 54.052 1.00114.92 O +ATOM 16307 N HIS H 46 29.683 -25.497 51.557 1.00147.56 N +ATOM 16308 CA HIS H 46 29.596 -25.289 50.111 1.00162.05 C +ATOM 16309 C HIS H 46 28.796 -24.024 49.811 1.00184.31 C +ATOM 16310 O HIS H 46 27.811 -24.041 49.069 1.00192.34 O +ATOM 16311 CB HIS H 46 28.985 -26.517 49.428 1.00161.89 C +ATOM 16312 CG HIS H 46 29.270 -26.610 47.960 1.00168.40 C +ATOM 16313 ND1 HIS H 46 29.589 -25.513 47.189 1.00171.16 N +ATOM 16314 CD2 HIS H 46 29.285 -27.674 47.123 1.00168.81 C +ATOM 16315 CE1 HIS H 46 29.787 -25.897 45.940 1.00164.57 C +ATOM 16316 NE2 HIS H 46 29.609 -27.205 45.873 1.00164.74 N +ATOM 16317 N GLY H 47 29.278 -22.902 50.342 1.00226.48 N +ATOM 16318 CA GLY H 47 28.448 -21.710 50.419 1.00225.63 C +ATOM 16319 C GLY H 47 27.129 -22.054 51.084 1.00225.62 C +ATOM 16320 O GLY H 47 27.101 -22.609 52.188 1.00226.49 O +ATOM 16321 N LYS H 48 26.021 -21.705 50.431 1.00153.11 N +ATOM 16322 CA LYS H 48 24.690 -22.046 50.925 1.00133.16 C +ATOM 16323 C LYS H 48 24.409 -21.557 52.344 1.00111.71 C +ATOM 16324 O LYS H 48 24.446 -20.353 52.620 1.00 99.86 O +ATOM 16325 CB LYS H 48 24.484 -23.563 50.874 1.00132.94 C +ATOM 16326 CG LYS H 48 24.652 -24.186 49.503 1.00141.96 C +ATOM 16327 CD LYS H 48 25.055 -25.644 49.636 1.00136.33 C +ATOM 16328 CE LYS H 48 24.091 -26.400 50.535 1.00119.54 C +ATOM 16329 NZ LYS H 48 24.744 -27.575 51.173 1.00108.70 N +ATOM 16330 N SER H 49 24.142 -22.500 53.246 1.00105.09 N +ATOM 16331 CA SER H 49 23.663 -22.231 54.595 1.00 88.94 C +ATOM 16332 C SER H 49 24.787 -21.978 55.595 1.00 77.37 C +ATOM 16333 O SER H 49 25.913 -22.459 55.442 1.00 77.06 O +ATOM 16334 CB SER H 49 22.806 -23.397 55.092 1.00 85.76 C +ATOM 16335 OG SER H 49 23.592 -24.561 55.285 1.00 83.11 O +ATOM 16336 N LEU H 50 24.455 -21.204 56.628 1.00 67.83 N +ATOM 16337 CA LEU H 50 25.352 -20.868 57.729 1.00 59.43 C +ATOM 16338 C LEU H 50 24.911 -21.646 58.963 1.00 54.85 C +ATOM 16339 O LEU H 50 23.754 -21.540 59.383 1.00 55.03 O +ATOM 16340 CB LEU H 50 25.336 -19.366 58.015 1.00 54.16 C +ATOM 16341 CG LEU H 50 25.876 -18.419 56.945 1.00 54.52 C +ATOM 16342 CD1 LEU H 50 25.646 -16.971 57.350 1.00 49.59 C +ATOM 16343 CD2 LEU H 50 27.352 -18.678 56.718 1.00 56.14 C +ATOM 16344 N GLU H 51 25.825 -22.425 59.538 1.00 52.65 N +ATOM 16345 CA GLU H 51 25.553 -23.208 60.739 1.00 51.39 C +ATOM 16346 C GLU H 51 26.424 -22.709 61.881 1.00 52.96 C +ATOM 16347 O GLU H 51 27.656 -22.762 61.793 1.00 50.87 O +ATOM 16348 CB GLU H 51 25.815 -24.698 60.512 1.00 50.40 C +ATOM 16349 CG GLU H 51 24.853 -25.391 59.572 1.00 57.65 C +ATOM 16350 CD GLU H 51 25.107 -26.885 59.501 1.00 67.72 C +ATOM 16351 OE1 GLU H 51 24.849 -27.579 60.508 1.00 73.18 O +ATOM 16352 OE2 GLU H 51 25.578 -27.363 58.448 1.00 70.24 O +ATOM 16353 N TRP H 52 25.787 -22.211 62.940 1.00 51.21 N +ATOM 16354 CA TRP H 52 26.514 -21.933 64.170 1.00 53.34 C +ATOM 16355 C TRP H 52 27.173 -23.211 64.677 1.00 54.57 C +ATOM 16356 O TRP H 52 26.646 -24.315 64.518 1.00 55.70 O +ATOM 16357 CB TRP H 52 25.566 -21.364 65.227 1.00 53.70 C +ATOM 16358 CG TRP H 52 26.230 -20.894 66.489 1.00 53.02 C +ATOM 16359 CD1 TRP H 52 27.140 -19.885 66.612 1.00 52.47 C +ATOM 16360 CD2 TRP H 52 26.016 -21.403 67.812 1.00 53.90 C +ATOM 16361 NE1 TRP H 52 27.513 -19.740 67.928 1.00 50.81 N +ATOM 16362 CE2 TRP H 52 26.837 -20.661 68.684 1.00 52.81 C +ATOM 16363 CE3 TRP H 52 25.214 -22.419 68.342 1.00 56.67 C +ATOM 16364 CZ2 TRP H 52 26.878 -20.901 70.056 1.00 56.73 C +ATOM 16365 CZ3 TRP H 52 25.256 -22.656 69.704 1.00 57.69 C +ATOM 16366 CH2 TRP H 52 26.083 -21.901 70.545 1.00 57.88 C +ATOM 16367 N ILE H 53 28.333 -23.054 65.310 1.00 51.47 N +ATOM 16368 CA ILE H 53 29.101 -24.170 65.844 1.00 55.33 C +ATOM 16369 C ILE H 53 29.201 -24.095 67.362 1.00 55.21 C +ATOM 16370 O ILE H 53 28.890 -25.061 68.066 1.00 53.83 O +ATOM 16371 CB ILE H 53 30.508 -24.241 65.212 1.00 52.91 C +ATOM 16372 CG1 ILE H 53 30.411 -24.590 63.727 1.00 56.25 C +ATOM 16373 CG2 ILE H 53 31.372 -25.244 65.958 1.00 53.67 C +ATOM 16374 CD1 ILE H 53 31.687 -24.324 62.955 1.00 54.75 C +ATOM 16375 N GLY H 54 29.627 -22.954 67.881 1.00 52.03 N +ATOM 16376 CA GLY H 54 29.767 -22.799 69.311 1.00 55.71 C +ATOM 16377 C GLY H 54 30.389 -21.466 69.644 1.00 56.39 C +ATOM 16378 O GLY H 54 30.878 -20.735 68.775 1.00 53.43 O +ATOM 16379 N TYR H 55 30.351 -21.156 70.935 1.00 58.08 N +ATOM 16380 CA TYR H 55 30.914 -19.930 71.468 1.00 55.79 C +ATOM 16381 C TYR H 55 31.992 -20.264 72.488 1.00 59.69 C +ATOM 16382 O TYR H 55 32.072 -21.382 73.005 1.00 59.58 O +ATOM 16383 CB TYR H 55 29.838 -19.046 72.120 1.00 56.97 C +ATOM 16384 CG TYR H 55 29.250 -19.615 73.397 1.00 61.85 C +ATOM 16385 CD1 TYR H 55 28.136 -20.443 73.365 1.00 64.18 C +ATOM 16386 CD2 TYR H 55 29.811 -19.322 74.635 1.00 59.56 C +ATOM 16387 CE1 TYR H 55 27.600 -20.965 74.530 1.00 64.70 C +ATOM 16388 CE2 TYR H 55 29.284 -19.838 75.801 1.00 61.04 C +ATOM 16389 CZ TYR H 55 28.178 -20.658 75.744 1.00 65.51 C +ATOM 16390 OH TYR H 55 27.650 -21.173 76.905 1.00 73.90 O +ATOM 16391 N ILE H 56 32.827 -19.271 72.765 1.00 55.82 N +ATOM 16392 CA ILE H 56 33.829 -19.368 73.819 1.00 58.50 C +ATOM 16393 C ILE H 56 34.052 -17.976 74.389 1.00 60.29 C +ATOM 16394 O ILE H 56 34.147 -16.991 73.647 1.00 54.66 O +ATOM 16395 CB ILE H 56 35.152 -19.989 73.323 1.00 59.19 C +ATOM 16396 CG1 ILE H 56 36.134 -20.120 74.489 1.00 60.99 C +ATOM 16397 CG2 ILE H 56 35.746 -19.184 72.176 1.00 54.61 C +ATOM 16398 CD1 ILE H 56 37.356 -20.921 74.168 1.00 58.66 C +ATOM 16399 N TYR H 57 34.093 -17.893 75.716 1.00 62.94 N +ATOM 16400 CA TYR H 57 34.378 -16.645 76.398 1.00 62.28 C +ATOM 16401 C TYR H 57 35.858 -16.634 76.746 1.00 64.75 C +ATOM 16402 O TYR H 57 36.300 -17.473 77.547 1.00 70.14 O +ATOM 16403 CB TYR H 57 33.522 -16.519 77.656 1.00 62.29 C +ATOM 16404 CG TYR H 57 33.459 -15.130 78.248 1.00 65.67 C +ATOM 16405 CD1 TYR H 57 33.018 -14.054 77.488 1.00 63.22 C +ATOM 16406 CD2 TYR H 57 33.799 -14.900 79.573 1.00 73.18 C +ATOM 16407 CE1 TYR H 57 32.943 -12.783 78.023 1.00 65.47 C +ATOM 16408 CE2 TYR H 57 33.725 -13.631 80.119 1.00 74.09 C +ATOM 16409 CZ TYR H 57 33.298 -12.578 79.339 1.00 72.47 C +ATOM 16410 OH TYR H 57 33.224 -11.314 79.877 1.00 78.55 O +ATOM 16411 N PRO H 58 36.661 -15.740 76.162 1.00 64.68 N +ATOM 16412 CA PRO H 58 38.120 -15.812 76.358 1.00 67.52 C +ATOM 16413 C PRO H 58 38.555 -15.769 77.813 1.00 72.73 C +ATOM 16414 O PRO H 58 39.627 -16.291 78.144 1.00 74.20 O +ATOM 16415 CB PRO H 58 38.632 -14.592 75.581 1.00 65.76 C +ATOM 16416 CG PRO H 58 37.590 -14.351 74.541 1.00 63.42 C +ATOM 16417 CD PRO H 58 36.282 -14.701 75.192 1.00 62.86 C +ATOM 16418 N ASP H 59 37.764 -15.145 78.689 1.00 74.75 N +ATOM 16419 CA ASP H 59 38.124 -15.073 80.102 1.00 75.81 C +ATOM 16420 C ASP H 59 38.248 -16.459 80.728 1.00 77.92 C +ATOM 16421 O ASP H 59 39.099 -16.680 81.597 1.00 81.88 O +ATOM 16422 CB ASP H 59 37.081 -14.247 80.855 1.00 75.33 C +ATOM 16423 CG ASP H 59 37.659 -13.523 82.050 1.00 84.54 C +ATOM 16424 OD1 ASP H 59 38.892 -13.572 82.238 1.00 87.05 O +ATOM 16425 OD2 ASP H 59 36.877 -12.908 82.807 1.00 96.05 O +ATOM 16426 N ASN H 62 37.413 -17.404 80.300 1.00 76.59 N +ATOM 16427 CA ASN H 62 37.465 -18.770 80.811 1.00 74.51 C +ATOM 16428 C ASN H 62 37.182 -19.822 79.740 1.00 76.52 C +ATOM 16429 O ASN H 62 38.116 -20.431 79.209 1.00 78.43 O +ATOM 16430 CB ASN H 62 36.526 -18.914 82.014 1.00 70.52 C +ATOM 16431 CG ASN H 62 35.246 -18.123 81.858 1.00 73.78 C +ATOM 16432 OD1 ASN H 62 35.241 -16.901 82.022 1.00 73.38 O +ATOM 16433 ND2 ASN H 62 34.152 -18.810 81.564 1.00 73.70 N +ATOM 16434 N GLY H 63 35.913 -20.055 79.422 1.00 71.78 N +ATOM 16435 CA GLY H 63 35.559 -21.118 78.508 1.00 67.45 C +ATOM 16436 C GLY H 63 34.159 -20.949 77.957 1.00 68.64 C +ATOM 16437 O GLY H 63 33.540 -19.892 78.095 1.00 66.65 O +ATOM 16438 N GLY H 64 33.676 -22.002 77.307 1.00 67.72 N +ATOM 16439 CA GLY H 64 32.361 -21.947 76.700 1.00 65.75 C +ATOM 16440 C GLY H 64 31.901 -23.303 76.210 1.00 69.95 C +ATOM 16441 O GLY H 64 32.536 -24.328 76.462 1.00 68.45 O +ATOM 16442 N ASN H 65 30.770 -23.285 75.500 1.00 73.87 N +ATOM 16443 CA ASN H 65 30.114 -24.481 74.982 1.00 83.43 C +ATOM 16444 C ASN H 65 29.529 -24.158 73.609 1.00 76.62 C +ATOM 16445 O ASN H 65 29.630 -23.027 73.126 1.00 70.73 O +ATOM 16446 CB ASN H 65 29.042 -24.955 75.977 1.00100.02 C +ATOM 16447 CG ASN H 65 28.349 -26.230 75.543 1.00117.93 C +ATOM 16448 OD1 ASN H 65 28.897 -27.016 74.772 1.00133.27 O +ATOM 16449 ND2 ASN H 65 27.129 -26.435 76.029 1.00115.92 N +ATOM 16450 N GLY H 66 28.944 -25.162 72.950 1.00 76.99 N +ATOM 16451 CA GLY H 66 28.339 -24.917 71.655 1.00 70.64 C +ATOM 16452 C GLY H 66 27.199 -25.820 71.223 1.00 72.90 C +ATOM 16453 O GLY H 66 26.651 -26.589 72.019 1.00 83.97 O +ATOM 16454 N TYR H 67 26.841 -25.713 69.942 1.00 72.57 N +ATOM 16455 CA TYR H 67 25.763 -26.498 69.347 1.00 76.70 C +ATOM 16456 C TYR H 67 25.955 -27.993 69.570 1.00 81.85 C +ATOM 16457 O TYR H 67 27.069 -28.516 69.492 1.00 85.17 O +ATOM 16458 CB TYR H 67 25.675 -26.189 67.847 1.00 74.79 C +ATOM 16459 CG TYR H 67 24.311 -26.393 67.208 1.00 80.73 C +ATOM 16460 CD1 TYR H 67 23.292 -27.060 67.875 1.00 89.70 C +ATOM 16461 CD2 TYR H 67 24.038 -25.887 65.944 1.00 80.67 C +ATOM 16462 CE1 TYR H 67 22.054 -27.250 67.290 1.00101.38 C +ATOM 16463 CE2 TYR H 67 22.797 -26.060 65.354 1.00101.29 C +ATOM 16464 CZ TYR H 67 21.809 -26.740 66.034 1.00116.02 C +ATOM 16465 OH TYR H 67 20.574 -26.915 65.451 1.00117.81 O +ATOM 16466 N ASN H 68 24.841 -28.676 69.854 1.00 82.25 N +ATOM 16467 CA ASN H 68 24.863 -30.125 70.022 1.00 87.20 C +ATOM 16468 C ASN H 68 25.332 -30.814 68.748 1.00 85.94 C +ATOM 16469 O ASN H 68 26.026 -31.836 68.809 1.00 86.78 O +ATOM 16470 CB ASN H 68 23.480 -30.634 70.431 1.00 93.70 C +ATOM 16471 CG ASN H 68 23.348 -30.826 71.931 1.00102.79 C +ATOM 16472 OD1 ASN H 68 23.802 -31.829 72.481 1.00101.97 O +ATOM 16473 ND2 ASN H 68 22.714 -29.868 72.598 1.00 99.98 N +ATOM 16474 N GLN H 69 24.940 -30.288 67.582 1.00 86.16 N +ATOM 16475 CA GLN H 69 25.347 -30.914 66.328 1.00 87.31 C +ATOM 16476 C GLN H 69 26.862 -30.943 66.195 1.00 82.48 C +ATOM 16477 O GLN H 69 27.412 -31.848 65.558 1.00 80.29 O +ATOM 16478 CB GLN H 69 24.751 -30.168 65.134 1.00 93.97 C +ATOM 16479 CG GLN H 69 23.292 -30.451 64.837 1.00106.75 C +ATOM 16480 CD GLN H 69 22.894 -29.971 63.452 1.00128.57 C +ATOM 16481 OE1 GLN H 69 23.740 -29.821 62.569 1.00123.71 O +ATOM 16482 NE2 GLN H 69 21.604 -29.724 63.257 1.00120.14 N +ATOM 16483 N LYS H 70 27.549 -29.966 66.784 1.00 81.83 N +ATOM 16484 CA LYS H 70 29.001 -29.903 66.748 1.00 83.85 C +ATOM 16485 C LYS H 70 29.640 -30.350 68.057 1.00 87.71 C +ATOM 16486 O LYS H 70 30.836 -30.123 68.257 1.00 88.81 O +ATOM 16487 CB LYS H 70 29.458 -28.488 66.390 1.00 75.88 C +ATOM 16488 CG LYS H 70 28.857 -27.979 65.092 1.00 66.27 C +ATOM 16489 CD LYS H 70 29.556 -28.592 63.890 1.00 61.79 C +ATOM 16490 CE LYS H 70 29.075 -27.964 62.595 1.00 59.73 C +ATOM 16491 NZ LYS H 70 27.590 -27.994 62.493 1.00 70.71 N +ATOM 16492 N PHE H 71 28.870 -30.970 68.956 1.00 91.85 N +ATOM 16493 CA PHE H 71 29.444 -31.468 70.202 1.00 99.78 C +ATOM 16494 C PHE H 71 30.541 -32.483 69.912 1.00105.53 C +ATOM 16495 O PHE H 71 31.638 -32.414 70.479 1.00102.98 O +ATOM 16496 CB PHE H 71 28.352 -32.076 71.083 1.00102.67 C +ATOM 16497 CG PHE H 71 28.132 -31.338 72.374 1.00105.98 C +ATOM 16498 CD1 PHE H 71 29.199 -30.784 73.063 1.00114.51 C +ATOM 16499 CD2 PHE H 71 26.857 -31.194 72.895 1.00104.79 C +ATOM 16500 CE1 PHE H 71 28.997 -30.104 74.251 1.00118.85 C +ATOM 16501 CE2 PHE H 71 26.648 -30.515 74.081 1.00109.08 C +ATOM 16502 CZ PHE H 71 27.720 -29.970 74.760 1.00115.48 C +ATOM 16503 N LYS H 72 30.257 -33.435 69.029 1.00126.47 N +ATOM 16504 CA LYS H 72 31.224 -34.447 68.623 1.00130.47 C +ATOM 16505 C LYS H 72 31.948 -33.921 67.390 1.00124.33 C +ATOM 16506 O LYS H 72 31.363 -33.840 66.305 1.00126.48 O +ATOM 16507 CB LYS H 72 30.534 -35.776 68.334 1.00154.14 C +ATOM 16508 CG LYS H 72 29.739 -36.332 69.502 1.00163.85 C +ATOM 16509 CD LYS H 72 29.005 -37.604 69.109 1.00177.33 C +ATOM 16510 CE LYS H 72 29.971 -38.678 68.636 1.00181.66 C +ATOM 16511 NZ LYS H 72 29.265 -39.934 68.264 1.00181.20 N +ATOM 16512 N GLY H 74 33.213 -33.551 67.556 1.00105.89 N +ATOM 16513 CA GLY H 74 33.996 -33.048 66.447 1.00 96.59 C +ATOM 16514 C GLY H 74 34.636 -31.714 66.763 1.00 87.85 C +ATOM 16515 O GLY H 74 35.845 -31.541 66.581 1.00 83.48 O +ATOM 16516 N LYS H 75 33.840 -30.763 67.244 1.00 83.29 N +ATOM 16517 CA LYS H 75 34.325 -29.412 67.476 1.00 76.81 C +ATOM 16518 C LYS H 75 34.846 -29.285 68.901 1.00 76.79 C +ATOM 16519 O LYS H 75 34.245 -29.805 69.845 1.00 81.39 O +ATOM 16520 CB LYS H 75 33.212 -28.392 67.229 1.00 75.02 C +ATOM 16521 N ALA H 76 35.967 -28.582 69.049 1.00 70.09 N +ATOM 16522 CA ALA H 76 36.523 -28.265 70.363 1.00 64.44 C +ATOM 16523 C ALA H 76 37.146 -26.878 70.298 1.00 63.05 C +ATOM 16524 O ALA H 76 38.143 -26.680 69.599 1.00 63.13 O +ATOM 16525 CB ALA H 76 37.551 -29.309 70.799 1.00 57.97 C +ATOM 16526 N THR H 77 36.562 -25.919 71.008 1.00 60.09 N +ATOM 16527 CA THR H 77 37.029 -24.541 70.969 1.00 61.52 C +ATOM 16528 C THR H 77 37.851 -24.233 72.213 1.00 60.97 C +ATOM 16529 O THR H 77 37.477 -24.609 73.328 1.00 61.72 O +ATOM 16530 CB THR H 77 35.852 -23.567 70.867 1.00 64.75 C +ATOM 16531 OG1 THR H 77 34.878 -23.886 71.868 1.00 69.86 O +ATOM 16532 CG2 THR H 77 35.202 -23.654 69.493 1.00 59.61 C +ATOM 16533 N LEU H 78 38.973 -23.541 72.015 1.00 63.20 N +ATOM 16534 CA LEU H 78 39.865 -23.157 73.098 1.00 62.85 C +ATOM 16535 C LEU H 78 40.411 -21.770 72.792 1.00 61.10 C +ATOM 16536 O LEU H 78 40.200 -21.225 71.707 1.00 60.93 O +ATOM 16537 CB LEU H 78 40.996 -24.179 73.284 1.00 58.70 C +ATOM 16538 CG LEU H 78 42.008 -24.351 72.149 1.00 70.15 C +ATOM 16539 CD1 LEU H 78 43.283 -23.565 72.431 1.00 74.74 C +ATOM 16540 CD2 LEU H 78 42.317 -25.823 71.918 1.00 79.87 C +ATOM 16541 N THR H 79 41.128 -21.194 73.753 1.00 61.07 N +ATOM 16542 CA THR H 79 41.598 -19.826 73.596 1.00 62.04 C +ATOM 16543 C THR H 79 42.963 -19.662 74.246 1.00 64.04 C +ATOM 16544 O THR H 79 43.367 -20.450 75.105 1.00 65.84 O +ATOM 16545 CB THR H 79 40.609 -18.818 74.194 1.00 63.17 C +ATOM 16546 OG1 THR H 79 41.144 -17.494 74.076 1.00 70.38 O +ATOM 16547 CG2 THR H 79 40.354 -19.129 75.660 1.00 63.97 C +ATOM 16548 N VAL H 80 43.670 -18.619 73.814 1.00 62.93 N +ATOM 16549 CA VAL H 80 44.946 -18.212 74.393 1.00 65.53 C +ATOM 16550 C VAL H 80 44.928 -16.691 74.476 1.00 68.49 C +ATOM 16551 O VAL H 80 44.935 -16.008 73.442 1.00 67.98 O +ATOM 16552 CB VAL H 80 46.158 -18.691 73.578 1.00 66.33 C +ATOM 16553 CG1 VAL H 80 47.445 -18.148 74.184 1.00 67.15 C +ATOM 16554 CG2 VAL H 80 46.204 -20.211 73.521 1.00 69.22 C +ATOM 16555 N ASP H 81 44.883 -16.161 75.702 1.00 70.54 N +ATOM 16556 CA ASP H 81 44.879 -14.716 75.903 1.00 68.97 C +ATOM 16557 C ASP H 81 46.225 -14.104 75.541 1.00 72.01 C +ATOM 16558 O ASP H 81 46.280 -12.949 75.103 1.00 69.90 O +ATOM 16559 CB ASP H 81 44.511 -14.384 77.350 1.00 72.85 C +ATOM 16560 CG ASP H 81 43.222 -15.050 77.793 1.00 79.37 C +ATOM 16561 OD1 ASP H 81 42.635 -15.806 76.991 1.00 90.22 O +ATOM 16562 OD2 ASP H 81 42.793 -14.815 78.944 1.00 76.27 O +ATOM 16563 N LYS H 82 47.314 -14.853 75.749 1.00 73.88 N +ATOM 16564 CA LYS H 82 48.654 -14.348 75.465 1.00 75.29 C +ATOM 16565 C LYS H 82 48.774 -13.826 74.041 1.00 76.91 C +ATOM 16566 O LYS H 82 49.347 -12.756 73.806 1.00 79.03 O +ATOM 16567 CB LYS H 82 49.673 -15.469 75.656 1.00 79.27 C +ATOM 16568 CG LYS H 82 51.116 -15.035 75.500 1.00 89.94 C +ATOM 16569 CD LYS H 82 52.031 -16.242 75.551 1.00108.77 C +ATOM 16570 CE LYS H 82 51.696 -17.170 74.385 1.00102.47 C +ATOM 16571 NZ LYS H 82 52.795 -18.109 74.036 1.00101.59 N +ATOM 16572 N SER H 83 48.228 -14.565 73.081 1.00 73.71 N +ATOM 16573 CA SER H 83 48.256 -14.187 71.677 1.00 68.51 C +ATOM 16574 C SER H 83 46.930 -13.630 71.186 1.00 67.40 C +ATOM 16575 O SER H 83 46.822 -13.287 70.004 1.00 66.88 O +ATOM 16576 CB SER H 83 48.661 -15.391 70.820 1.00 67.28 C +ATOM 16577 OG SER H 83 47.814 -16.500 71.070 1.00 63.96 O +ATOM 16578 N SER H 84 45.929 -13.530 72.061 1.00 65.74 N +ATOM 16579 CA SER H 84 44.590 -13.085 71.682 1.00 64.00 C +ATOM 16580 C SER H 84 44.058 -13.938 70.534 1.00 61.21 C +ATOM 16581 O SER H 84 43.538 -13.435 69.536 1.00 60.12 O +ATOM 16582 CB SER H 84 44.584 -11.599 71.312 1.00 60.47 C +ATOM 16583 OG SER H 84 45.006 -10.795 72.398 1.00 67.33 O +ATOM 16584 N SER H 85 44.202 -15.255 70.680 1.00 59.03 N +ATOM 16585 CA SER H 85 43.900 -16.180 69.596 1.00 57.08 C +ATOM 16586 C SER H 85 42.917 -17.241 70.060 1.00 57.44 C +ATOM 16587 O SER H 85 43.150 -17.915 71.068 1.00 59.05 O +ATOM 16588 CB SER H 85 45.178 -16.845 69.074 1.00 56.60 C +ATOM 16589 OG SER H 85 46.034 -15.892 68.470 1.00 61.14 O +ATOM 16590 N THR H 86 41.833 -17.402 69.308 1.00 55.97 N +ATOM 16591 CA THR H 86 40.874 -18.476 69.527 1.00 57.47 C +ATOM 16592 C THR H 86 41.204 -19.622 68.578 1.00 56.94 C +ATOM 16593 O THR H 86 41.285 -19.422 67.361 1.00 55.87 O +ATOM 16594 CB THR H 86 39.441 -17.991 69.306 1.00 56.80 C +ATOM 16595 OG1 THR H 86 39.175 -16.870 70.160 1.00 56.10 O +ATOM 16596 CG2 THR H 86 38.451 -19.104 69.616 1.00 52.78 C +ATOM 16597 N VAL H 87 41.411 -20.810 69.134 1.00 58.96 N +ATOM 16598 CA VAL H 87 41.766 -21.987 68.355 1.00 58.50 C +ATOM 16599 C VAL H 87 40.573 -22.933 68.355 1.00 59.67 C +ATOM 16600 O VAL H 87 39.765 -22.951 69.291 1.00 62.53 O +ATOM 16601 CB VAL H 87 43.035 -22.669 68.913 1.00 62.25 C +ATOM 16602 CG1 VAL H 87 43.590 -23.666 67.917 1.00 63.42 C +ATOM 16603 CG2 VAL H 87 44.086 -21.626 69.266 1.00 60.70 C +ATOM 16604 N TYR H 88 40.459 -23.720 67.289 1.00 61.44 N +ATOM 16605 CA TYR H 88 39.259 -24.515 67.052 1.00 63.28 C +ATOM 16606 C TYR H 88 39.656 -25.815 66.370 1.00 60.62 C +ATOM 16607 O TYR H 88 40.214 -25.789 65.271 1.00 61.35 O +ATOM 16608 CB TYR H 88 38.275 -23.709 66.200 1.00 61.29 C +ATOM 16609 CG TYR H 88 37.074 -24.458 65.689 1.00 62.26 C +ATOM 16610 CD1 TYR H 88 36.409 -25.377 66.485 1.00 68.02 C +ATOM 16611 CD2 TYR H 88 36.584 -24.218 64.413 1.00 61.75 C +ATOM 16612 CE1 TYR H 88 35.308 -26.051 66.015 1.00 71.60 C +ATOM 16613 CE2 TYR H 88 35.481 -24.885 63.937 1.00 62.21 C +ATOM 16614 CZ TYR H 88 34.845 -25.799 64.743 1.00 67.02 C +ATOM 16615 OH TYR H 88 33.745 -26.473 64.268 1.00 91.17 O +ATOM 16616 N MET H 89 39.366 -26.946 67.009 1.00 62.22 N +ATOM 16617 CA MET H 89 39.845 -28.245 66.560 1.00 62.77 C +ATOM 16618 C MET H 89 38.692 -29.121 66.089 1.00 69.98 C +ATOM 16619 O MET H 89 37.627 -29.160 66.715 1.00 72.35 O +ATOM 16620 CB MET H 89 40.609 -28.963 67.679 1.00 65.09 C +ATOM 16621 CG MET H 89 41.173 -30.319 67.275 1.00 70.24 C +ATOM 16622 SD MET H 89 42.197 -31.084 68.545 1.00 94.92 S +ATOM 16623 CE MET H 89 43.761 -31.211 67.682 1.00 82.80 C +ATOM 16624 N GLU H 90 38.929 -29.825 64.984 1.00 70.91 N +ATOM 16625 CA GLU H 90 37.995 -30.779 64.402 1.00 73.00 C +ATOM 16626 C GLU H 90 38.589 -32.179 64.457 1.00 72.87 C +ATOM 16627 O GLU H 90 39.718 -32.395 64.002 1.00 70.92 O +ATOM 16628 CB GLU H 90 37.660 -30.429 62.949 1.00 73.46 C +ATOM 16629 CG GLU H 90 37.020 -29.074 62.733 1.00 75.03 C +ATOM 16630 CD GLU H 90 35.562 -29.064 63.142 1.00 85.27 C +ATOM 16631 OE1 GLU H 90 34.892 -28.035 62.931 1.00 97.88 O +ATOM 16632 OE2 GLU H 90 35.076 -30.102 63.641 1.00101.18 O +ATOM 16633 N LEU H 91 37.828 -33.123 65.003 1.00 76.68 N +ATOM 16634 CA LEU H 91 38.256 -34.507 65.112 1.00 77.50 C +ATOM 16635 C LEU H 91 37.536 -35.319 64.035 1.00 79.50 C +ATOM 16636 O LEU H 91 36.778 -34.769 63.232 1.00 82.28 O +ATOM 16637 CB LEU H 91 37.999 -35.051 66.520 1.00 83.41 C +ATOM 16638 CG LEU H 91 38.787 -34.384 67.655 1.00 86.60 C +ATOM 16639 CD1 LEU H 91 38.360 -34.929 69.010 1.00 82.06 C +ATOM 16640 CD2 LEU H 91 40.288 -34.542 67.465 1.00 83.61 C +ATOM 16641 N ARG H 92 37.735 -36.644 64.065 1.00 81.86 N +ATOM 16642 CA ARG H 92 37.277 -37.611 63.060 1.00 85.63 C +ATOM 16643 C ARG H 92 36.634 -36.993 61.821 1.00 87.86 C +ATOM 16644 O ARG H 92 35.419 -37.099 61.621 1.00 90.54 O +ATOM 16645 CB ARG H 92 36.274 -38.582 63.689 1.00 86.66 C +ATOM 16646 CG ARG H 92 36.779 -39.336 64.905 1.00 93.56 C +ATOM 16647 CD ARG H 92 37.939 -40.252 64.557 1.00 98.24 C +ATOM 16648 NE ARG H 92 38.096 -41.320 65.540 1.00104.31 N +ATOM 16649 CZ ARG H 92 38.702 -41.175 66.714 1.00107.68 C +ATOM 16650 NH1 ARG H 92 39.210 -40.000 67.062 1.00106.46 N +ATOM 16651 NH2 ARG H 92 38.796 -42.205 67.543 1.00109.96 N +ATOM 16652 N SER H 93 37.448 -36.338 60.996 1.00 83.88 N +ATOM 16653 CA SER H 93 36.959 -35.670 59.796 1.00 83.57 C +ATOM 16654 C SER H 93 36.382 -36.661 58.787 1.00 86.70 C +ATOM 16655 O SER H 93 36.853 -37.793 58.649 1.00 85.23 O +ATOM 16656 CB SER H 93 38.087 -34.863 59.151 1.00 77.54 C +ATOM 16657 OG SER H 93 38.372 -33.695 59.901 1.00 69.47 O +ATOM 16658 N LEU H 94 35.345 -36.214 58.079 1.00 88.53 N +ATOM 16659 CA LEU H 94 34.669 -36.953 57.018 1.00 90.68 C +ATOM 16660 C LEU H 94 34.540 -36.034 55.808 1.00 94.37 C +ATOM 16661 O LEU H 94 34.995 -34.886 55.822 1.00 91.32 O +ATOM 16662 CB LEU H 94 33.290 -37.467 57.455 1.00 92.69 C +ATOM 16663 CG LEU H 94 33.189 -38.370 58.682 1.00102.24 C +ATOM 16664 CD1 LEU H 94 31.733 -38.512 59.094 1.00105.78 C +ATOM 16665 CD2 LEU H 94 33.804 -39.730 58.401 1.00106.05 C +ATOM 16666 N THR H 95 33.914 -36.544 54.748 1.00 97.74 N +ATOM 16667 CA THR H 95 33.611 -35.716 53.585 1.00 93.59 C +ATOM 16668 C THR H 95 32.469 -34.736 53.830 1.00 95.01 C +ATOM 16669 O THR H 95 32.046 -34.067 52.882 1.00 99.75 O +ATOM 16670 CB THR H 95 33.273 -36.596 52.380 1.00 91.17 C +ATOM 16671 OG1 THR H 95 32.023 -37.257 52.605 1.00 95.49 O +ATOM 16672 CG2 THR H 95 34.358 -37.637 52.168 1.00 91.51 C +ATOM 16673 N SER H 96 31.914 -34.680 55.041 1.00 94.04 N +ATOM 16674 CA SER H 96 30.908 -33.681 55.382 1.00 92.71 C +ATOM 16675 C SER H 96 31.468 -32.493 56.157 1.00 90.44 C +ATOM 16676 O SER H 96 31.035 -31.359 55.930 1.00 91.36 O +ATOM 16677 CB SER H 96 29.775 -34.324 56.191 1.00 91.22 C +ATOM 16678 OG SER H 96 29.051 -35.255 55.405 1.00 94.71 O +ATOM 16679 N GLU H 97 32.419 -32.718 57.070 1.00 97.13 N +ATOM 16680 CA GLU H 97 33.061 -31.604 57.762 1.00 94.75 C +ATOM 16681 C GLU H 97 33.982 -30.809 56.852 1.00 92.53 C +ATOM 16682 O GLU H 97 34.390 -29.701 57.220 1.00 84.26 O +ATOM 16683 CB GLU H 97 33.866 -32.142 58.949 1.00 85.54 C +ATOM 16684 CG GLU H 97 33.028 -32.864 59.976 1.00 91.39 C +ATOM 16685 CD GLU H 97 32.931 -34.335 59.646 1.00104.16 C +ATOM 16686 OE1 GLU H 97 33.198 -34.666 58.476 1.00117.00 O +ATOM 16687 OE2 GLU H 97 32.586 -35.149 60.527 1.00112.87 O +ATOM 16688 N ASP H 98 34.323 -31.352 55.684 1.00100.07 N +ATOM 16689 CA ASP H 98 35.270 -30.693 54.792 1.00105.17 C +ATOM 16690 C ASP H 98 34.614 -29.562 54.009 1.00143.72 C +ATOM 16691 O ASP H 98 34.982 -28.395 54.166 1.00143.23 O +ATOM 16692 CB ASP H 98 35.924 -31.718 53.858 1.00 98.82 C +ATOM 16693 CG ASP H 98 34.950 -32.377 52.913 1.00103.41 C +ATOM 16694 OD1 ASP H 98 33.739 -32.143 53.052 1.00110.34 O +ATOM 16695 OD2 ASP H 98 35.409 -33.129 52.022 1.00102.78 O +ATOM 16696 N SER H 99 33.636 -29.898 53.159 1.00155.58 N +ATOM 16697 CA SER H 99 32.958 -28.969 52.259 1.00158.87 C +ATOM 16698 C SER H 99 32.454 -27.750 53.011 1.00150.58 C +ATOM 16699 O SER H 99 31.254 -27.460 52.996 1.00154.03 O +ATOM 16700 CB SER H 99 31.794 -29.675 51.559 1.00164.07 C +ATOM 16701 OG SER H 99 31.146 -28.819 50.631 1.00164.85 O +ATOM 16702 N ALA H 100 33.359 -27.056 53.697 1.00108.31 N +ATOM 16703 CA ALA H 100 32.983 -25.944 54.547 1.00 87.66 C +ATOM 16704 C ALA H 100 34.057 -24.865 54.595 1.00 67.86 C +ATOM 16705 O ALA H 100 35.268 -25.151 54.629 1.00 60.05 O +ATOM 16706 CB ALA H 100 32.676 -26.429 55.964 1.00 83.41 C +ATOM 16707 N LEU H 101 33.580 -23.626 54.596 1.00 63.77 N +ATOM 16708 CA LEU H 101 34.368 -22.456 54.946 1.00 53.27 C +ATOM 16709 C LEU H 101 33.992 -22.099 56.379 1.00 55.45 C +ATOM 16710 O LEU H 101 32.809 -21.917 56.689 1.00 57.28 O +ATOM 16711 CB LEU H 101 34.081 -21.288 54.001 1.00 47.21 C +ATOM 16712 CG LEU H 101 34.776 -19.959 54.300 1.00 46.18 C +ATOM 16713 CD1 LEU H 101 36.267 -20.070 54.081 1.00 48.54 C +ATOM 16714 CD2 LEU H 101 34.195 -18.855 53.437 1.00 45.17 C +ATOM 16715 N TYR H 102 34.988 -22.028 57.252 1.00 51.87 N +ATOM 16716 CA TYR H 102 34.767 -21.835 58.679 1.00 49.02 C +ATOM 16717 C TYR H 102 35.136 -20.407 59.054 1.00 48.21 C +ATOM 16718 O TYR H 102 36.274 -19.976 58.836 1.00 49.26 O +ATOM 16719 CB TYR H 102 35.572 -22.845 59.496 1.00 48.39 C +ATOM 16720 CG TYR H 102 35.066 -24.264 59.361 1.00 52.57 C +ATOM 16721 CD1 TYR H 102 35.572 -25.113 58.386 1.00 54.32 C +ATOM 16722 CD2 TYR H 102 34.075 -24.751 60.204 1.00 56.18 C +ATOM 16723 CE1 TYR H 102 35.114 -26.411 58.262 1.00 59.41 C +ATOM 16724 CE2 TYR H 102 33.607 -26.046 60.084 1.00 58.27 C +ATOM 16725 CZ TYR H 102 34.127 -26.871 59.110 1.00 59.95 C +ATOM 16726 OH TYR H 102 33.664 -28.161 58.987 1.00 61.29 O +ATOM 16727 N TYR H 103 34.167 -19.681 59.600 1.00 47.42 N +ATOM 16728 CA TYR H 103 34.344 -18.311 60.050 1.00 49.11 C +ATOM 16729 C TYR H 103 34.482 -18.263 61.566 1.00 48.80 C +ATOM 16730 O TYR H 103 33.881 -19.063 62.289 1.00 47.80 O +ATOM 16731 CB TYR H 103 33.152 -17.439 59.647 1.00 47.23 C +ATOM 16732 CG TYR H 103 33.046 -17.097 58.182 1.00 49.03 C +ATOM 16733 CD1 TYR H 103 33.870 -16.135 57.612 1.00 48.87 C +ATOM 16734 CD2 TYR H 103 32.091 -17.703 57.376 1.00 48.07 C +ATOM 16735 CE1 TYR H 103 33.763 -15.808 56.275 1.00 48.71 C +ATOM 16736 CE2 TYR H 103 31.976 -17.381 56.039 1.00 49.69 C +ATOM 16737 CZ TYR H 103 32.814 -16.431 55.493 1.00 49.89 C +ATOM 16738 OH TYR H 103 32.705 -16.104 54.161 1.00 50.28 O +ATOM 16739 N CYS H 104 35.270 -17.303 62.041 1.00 47.96 N +ATOM 16740 CA CYS H 104 35.231 -16.876 63.430 1.00 49.10 C +ATOM 16741 C CYS H 104 34.650 -15.470 63.487 1.00 50.72 C +ATOM 16742 O CYS H 104 35.021 -14.602 62.690 1.00 51.34 O +ATOM 16743 CB CYS H 104 36.621 -16.915 64.080 1.00 49.40 C +ATOM 16744 SG CYS H 104 37.878 -15.829 63.354 1.00 73.74 S +ATOM 16745 N ALA H 105 33.732 -15.254 64.424 1.00 49.45 N +ATOM 16746 CA ALA H 105 33.030 -13.987 64.550 1.00 47.30 C +ATOM 16747 C ALA H 105 33.015 -13.548 66.007 1.00 52.95 C +ATOM 16748 O ALA H 105 33.189 -14.352 66.926 1.00 52.50 O +ATOM 16749 CB ALA H 105 31.597 -14.081 64.009 1.00 45.39 C +ATOM 16750 N ARG H 106 32.806 -12.251 66.206 1.00 52.22 N +ATOM 16751 CA ARG H 106 32.796 -11.648 67.533 1.00 51.42 C +ATOM 16752 C ARG H 106 31.379 -11.273 67.946 1.00 55.62 C +ATOM 16753 O ARG H 106 30.665 -10.602 67.194 1.00 56.61 O +ATOM 16754 CB ARG H 106 33.689 -10.407 67.576 1.00 53.07 C +ATOM 16755 CG ARG H 106 33.929 -9.895 68.983 1.00 51.64 C +ATOM 16756 CD ARG H 106 34.595 -8.533 68.986 1.00 50.38 C +ATOM 16757 NE ARG H 106 33.668 -7.461 68.640 1.00 47.88 N +ATOM 16758 CZ ARG H 106 33.958 -6.169 68.738 1.00 50.08 C +ATOM 16759 NH1 ARG H 106 35.150 -5.787 69.176 1.00 51.48 N +ATOM 16760 NH2 ARG H 106 33.057 -5.257 68.402 1.00 52.64 N +ATOM 16761 N GLY H 107 30.977 -11.717 69.137 1.00 54.57 N +ATOM 16762 CA GLY H 107 29.713 -11.285 69.704 1.00 50.18 C +ATOM 16763 C GLY H 107 29.796 -9.877 70.268 1.00 55.71 C +ATOM 16764 O GLY H 107 30.862 -9.390 70.638 1.00 60.89 O +ATOM 16765 N THR H 108 28.643 -9.213 70.324 1.00 58.12 N +ATOM 16766 CA THR H 108 28.565 -7.830 70.777 1.00 60.47 C +ATOM 16767 C THR H 108 28.886 -7.703 72.269 1.00 64.87 C +ATOM 16768 O THR H 108 28.983 -8.688 73.007 1.00 65.54 O +ATOM 16769 CB THR H 108 27.183 -7.252 70.489 1.00 59.61 C +ATOM 16770 OG1 THR H 108 26.174 -8.115 71.027 1.00 62.55 O +ATOM 16771 CG2 THR H 108 26.991 -7.122 69.002 1.00 55.98 C +ATOM 16772 N TYR H 109 29.058 -6.447 72.699 1.00 64.34 N +ATOM 16773 CA TYR H 109 29.520 -6.149 74.053 1.00 62.34 C +ATOM 16774 C TYR H 109 28.568 -6.716 75.100 1.00 64.27 C +ATOM 16775 O TYR H 109 28.939 -7.600 75.881 1.00 66.70 O +ATOM 16776 CB TYR H 109 29.674 -4.637 74.225 1.00 61.69 C +ATOM 16777 CG TYR H 109 30.447 -4.229 75.460 1.00 71.87 C +ATOM 16778 CD1 TYR H 109 31.589 -4.916 75.850 1.00 75.93 C +ATOM 16779 CD2 TYR H 109 30.030 -3.156 76.237 1.00 73.59 C +ATOM 16780 CE1 TYR H 109 32.298 -4.542 76.978 1.00 77.07 C +ATOM 16781 CE2 TYR H 109 30.729 -2.777 77.366 1.00 74.16 C +ATOM 16782 CZ TYR H 109 31.861 -3.473 77.732 1.00 76.19 C +ATOM 16783 OH TYR H 109 32.558 -3.095 78.857 1.00 74.99 O +ATOM 16784 N TYR H 110 27.331 -6.206 75.137 1.00 65.64 N +ATOM 16785 CA TYR H 110 26.343 -6.725 76.080 1.00 64.49 C +ATOM 16786 C TYR H 110 26.098 -8.200 75.819 1.00 62.94 C +ATOM 16787 O TYR H 110 25.701 -8.944 76.723 1.00 61.11 O +ATOM 16788 CB TYR H 110 25.006 -5.991 75.944 1.00 58.37 C +ATOM 16789 CG TYR H 110 25.057 -4.488 75.786 1.00 58.36 C +ATOM 16790 CD1 TYR H 110 26.058 -3.723 76.371 1.00 61.14 C +ATOM 16791 CD2 TYR H 110 24.094 -3.837 75.027 1.00 57.55 C +ATOM 16792 CE1 TYR H 110 26.089 -2.347 76.206 1.00 61.37 C +ATOM 16793 CE2 TYR H 110 24.116 -2.470 74.857 1.00 61.83 C +ATOM 16794 CZ TYR H 110 25.114 -1.728 75.447 1.00 60.18 C +ATOM 16795 OH TYR H 110 25.133 -0.364 75.275 1.00 61.57 O +ATOM 16796 N ASP H 111 26.318 -8.612 74.569 1.00 71.67 N +ATOM 16797 CA ASP H 111 26.049 -9.918 73.985 1.00 76.64 C +ATOM 16798 C ASP H 111 24.553 -10.049 73.744 1.00 88.99 C +ATOM 16799 O ASP H 111 23.826 -10.626 74.557 1.00 75.09 O +ATOM 16800 CB ASP H 111 26.566 -11.063 74.857 1.00 75.07 C +ATOM 16801 CG ASP H 111 26.604 -12.384 74.114 1.00 76.01 C +ATOM 16802 OD1 ASP H 111 27.131 -12.414 72.981 1.00 72.72 O +ATOM 16803 OD2 ASP H 111 26.103 -13.391 74.657 1.00 81.12 O +ATOM 16804 N GLY H 112 24.097 -9.508 72.617 1.00112.19 N +ATOM 16805 CA GLY H 112 22.782 -9.759 72.078 1.00112.48 C +ATOM 16806 C GLY H 112 22.687 -11.055 71.323 1.00110.62 C +ATOM 16807 O GLY H 112 21.616 -11.395 70.813 1.00110.23 O +ATOM 16808 N SER H 113 23.817 -11.757 71.214 1.00 97.98 N +ATOM 16809 CA SER H 113 24.011 -13.056 70.576 1.00 80.78 C +ATOM 16810 C SER H 113 24.161 -12.939 69.065 1.00 70.57 C +ATOM 16811 O SER H 113 24.198 -13.969 68.376 1.00 66.94 O +ATOM 16812 CB SER H 113 22.883 -14.036 70.905 1.00 82.66 C +ATOM 16813 OG SER H 113 22.855 -14.314 72.294 1.00 94.87 O +ATOM 16814 N TYR H 114 24.249 -11.728 68.527 1.00 63.70 N +ATOM 16815 CA TYR H 114 24.538 -11.516 67.118 1.00 57.98 C +ATOM 16816 C TYR H 114 25.987 -11.066 66.951 1.00 57.15 C +ATOM 16817 O TYR H 114 26.631 -10.604 67.896 1.00 59.87 O +ATOM 16818 CB TYR H 114 23.564 -10.502 66.512 1.00 55.39 C +ATOM 16819 CG TYR H 114 23.583 -9.137 67.155 1.00 54.62 C +ATOM 16820 CD1 TYR H 114 22.858 -8.881 68.312 1.00 59.37 C +ATOM 16821 CD2 TYR H 114 24.282 -8.089 66.576 1.00 53.11 C +ATOM 16822 CE1 TYR H 114 22.863 -7.629 68.896 1.00 57.53 C +ATOM 16823 CE2 TYR H 114 24.285 -6.833 67.145 1.00 56.29 C +ATOM 16824 CZ TYR H 114 23.579 -6.608 68.308 1.00 56.65 C +ATOM 16825 OH TYR H 114 23.585 -5.358 68.880 1.00 56.30 O +ATOM 16826 N PHE H 115 26.497 -11.209 65.731 1.00 53.49 N +ATOM 16827 CA PHE H 115 27.925 -11.098 65.456 1.00 51.05 C +ATOM 16828 C PHE H 115 28.187 -9.863 64.602 1.00 51.85 C +ATOM 16829 O PHE H 115 27.616 -9.723 63.516 1.00 54.66 O +ATOM 16830 CB PHE H 115 28.433 -12.358 64.753 1.00 47.75 C +ATOM 16831 CG PHE H 115 27.823 -13.633 65.277 1.00 49.58 C +ATOM 16832 CD1 PHE H 115 27.709 -13.862 66.640 1.00 50.95 C +ATOM 16833 CD2 PHE H 115 27.342 -14.593 64.402 1.00 50.54 C +ATOM 16834 CE1 PHE H 115 27.139 -15.028 67.117 1.00 51.58 C +ATOM 16835 CE2 PHE H 115 26.772 -15.762 64.875 1.00 48.29 C +ATOM 16836 CZ PHE H 115 26.671 -15.979 66.233 1.00 48.70 C +ATOM 16837 N ASP H 116 29.058 -8.977 65.090 1.00 51.14 N +ATOM 16838 CA ASP H 116 29.309 -7.698 64.440 1.00 52.31 C +ATOM 16839 C ASP H 116 30.621 -7.653 63.665 1.00 50.86 C +ATOM 16840 O ASP H 116 30.807 -6.742 62.852 1.00 54.84 O +ATOM 16841 CB ASP H 116 29.283 -6.561 65.473 1.00 55.27 C +ATOM 16842 CG ASP H 116 30.283 -6.764 66.598 1.00 55.25 C +ATOM 16843 OD1 ASP H 116 30.928 -7.832 66.648 1.00 52.03 O +ATOM 16844 OD2 ASP H 116 30.421 -5.850 67.439 1.00 55.84 O +ATOM 16845 N TYR H 117 31.530 -8.598 63.895 1.00 50.38 N +ATOM 16846 CA TYR H 117 32.784 -8.664 63.158 1.00 50.38 C +ATOM 16847 C TYR H 117 33.059 -10.110 62.778 1.00 51.37 C +ATOM 16848 O TYR H 117 32.827 -11.023 63.575 1.00 49.94 O +ATOM 16849 CB TYR H 117 33.957 -8.097 63.971 1.00 53.47 C +ATOM 16850 CG TYR H 117 33.977 -6.587 64.043 1.00 56.92 C +ATOM 16851 CD1 TYR H 117 34.584 -5.833 63.048 1.00 58.44 C +ATOM 16852 CD2 TYR H 117 33.392 -5.915 65.109 1.00 57.05 C +ATOM 16853 CE1 TYR H 117 34.605 -4.452 63.108 1.00 61.22 C +ATOM 16854 CE2 TYR H 117 33.409 -4.534 65.178 1.00 58.13 C +ATOM 16855 CZ TYR H 117 34.016 -3.808 64.176 1.00 62.85 C +ATOM 16856 OH TYR H 117 34.035 -2.434 64.241 1.00 67.36 O +ATOM 16857 N TRP H 118 33.564 -10.308 61.561 1.00 49.31 N +ATOM 16858 CA TRP H 118 33.789 -11.633 61.004 1.00 44.60 C +ATOM 16859 C TRP H 118 35.204 -11.737 60.454 1.00 49.10 C +ATOM 16860 O TRP H 118 35.775 -10.754 59.975 1.00 53.03 O +ATOM 16861 CB TRP H 118 32.784 -11.948 59.885 1.00 46.33 C +ATOM 16862 CG TRP H 118 31.358 -12.018 60.338 1.00 46.10 C +ATOM 16863 CD1 TRP H 118 30.592 -10.988 60.803 1.00 47.13 C +ATOM 16864 CD2 TRP H 118 30.517 -13.178 60.348 1.00 42.80 C +ATOM 16865 NE1 TRP H 118 29.332 -11.438 61.115 1.00 45.82 N +ATOM 16866 CE2 TRP H 118 29.260 -12.779 60.843 1.00 44.62 C +ATOM 16867 CE3 TRP H 118 30.708 -14.516 59.992 1.00 42.51 C +ATOM 16868 CZ2 TRP H 118 28.199 -13.669 60.990 1.00 46.77 C +ATOM 16869 CZ3 TRP H 118 29.653 -15.399 60.139 1.00 44.49 C +ATOM 16870 CH2 TRP H 118 28.415 -14.972 60.633 1.00 45.80 C +ATOM 16871 N GLY H 119 35.763 -12.944 60.527 1.00 49.09 N +ATOM 16872 CA GLY H 119 37.029 -13.233 59.889 1.00 48.32 C +ATOM 16873 C GLY H 119 36.875 -13.455 58.396 1.00 47.96 C +ATOM 16874 O GLY H 119 35.780 -13.412 57.834 1.00 46.03 O +ATOM 16875 N GLN H 120 38.010 -13.704 57.738 1.00 52.26 N +ATOM 16876 CA GLN H 120 37.987 -13.943 56.300 1.00 47.79 C +ATOM 16877 C GLN H 120 37.593 -15.371 55.952 1.00 43.89 C +ATOM 16878 O GLN H 120 37.218 -15.634 54.805 1.00 47.49 O +ATOM 16879 CB GLN H 120 39.347 -13.619 55.673 1.00 44.25 C +ATOM 16880 CG GLN H 120 40.411 -14.698 55.839 1.00 45.42 C +ATOM 16881 CD GLN H 120 41.113 -14.655 57.182 1.00 54.15 C +ATOM 16882 OE1 GLN H 120 40.565 -14.171 58.174 1.00 54.90 O +ATOM 16883 NE2 GLN H 120 42.339 -15.161 57.219 1.00 55.22 N +ATOM 16884 N GLY H 121 37.671 -16.288 56.902 1.00 46.68 N +ATOM 16885 CA GLY H 121 37.256 -17.660 56.692 1.00 48.04 C +ATOM 16886 C GLY H 121 38.415 -18.568 56.326 1.00 45.42 C +ATOM 16887 O GLY H 121 39.379 -18.164 55.667 1.00 50.31 O +ATOM 16888 N THR H 122 38.322 -19.821 56.765 1.00 43.24 N +ATOM 16889 CA THR H 122 39.294 -20.856 56.439 1.00 48.81 C +ATOM 16890 C THR H 122 38.596 -21.967 55.668 1.00 49.61 C +ATOM 16891 O THR H 122 37.575 -22.489 56.121 1.00 50.80 O +ATOM 16892 CB THR H 122 39.945 -21.419 57.708 1.00 51.91 C +ATOM 16893 OG1 THR H 122 40.793 -20.425 58.297 1.00 52.12 O +ATOM 16894 CG2 THR H 122 40.764 -22.660 57.388 1.00 51.56 C +ATOM 16895 N THR H 123 39.142 -22.329 54.510 1.00 50.65 N +ATOM 16896 CA THR H 123 38.577 -23.398 53.695 1.00 52.22 C +ATOM 16897 C THR H 123 39.164 -24.732 54.142 1.00 52.93 C +ATOM 16898 O THR H 123 40.394 -24.899 54.171 1.00 53.30 O +ATOM 16899 CB THR H 123 38.848 -23.169 52.208 1.00 52.42 C +ATOM 16900 OG1 THR H 123 40.247 -22.947 52.002 1.00 70.97 O +ATOM 16901 CG2 THR H 123 38.071 -21.971 51.692 1.00 46.96 C +ATOM 16902 N LEU H 124 38.294 -25.676 54.505 1.00 56.47 N +ATOM 16903 CA LEU H 124 38.751 -27.003 54.892 1.00 59.59 C +ATOM 16904 C LEU H 124 38.432 -27.995 53.782 1.00 62.43 C +ATOM 16905 O LEU H 124 37.365 -27.927 53.166 1.00 71.94 O +ATOM 16906 CB LEU H 124 38.116 -27.453 56.210 1.00 63.06 C +ATOM 16907 CG LEU H 124 38.504 -28.863 56.662 1.00 64.32 C +ATOM 16908 CD1 LEU H 124 40.007 -28.946 56.878 1.00 57.26 C +ATOM 16909 CD2 LEU H 124 37.758 -29.259 57.924 1.00 66.97 C +ATOM 16910 N THR H 125 39.373 -28.896 53.505 1.00 61.09 N +ATOM 16911 CA THR H 125 39.174 -29.946 52.512 1.00 64.62 C +ATOM 16912 C THR H 125 39.690 -31.253 53.090 1.00 63.74 C +ATOM 16913 O THR H 125 40.868 -31.352 53.445 1.00 63.73 O +ATOM 16914 CB THR H 125 39.893 -29.617 51.199 1.00 59.48 C +ATOM 16915 OG1 THR H 125 39.673 -28.242 50.861 1.00 55.69 O +ATOM 16916 CG2 THR H 125 39.370 -30.497 50.074 1.00 53.11 C +ATOM 16917 N VAL H 126 38.811 -32.243 53.193 1.00 65.23 N +ATOM 16918 CA VAL H 126 39.145 -33.562 53.714 1.00 71.44 C +ATOM 16919 C VAL H 126 39.002 -34.558 52.574 1.00 72.06 C +ATOM 16920 O VAL H 126 37.885 -34.879 52.149 1.00 75.31 O +ATOM 16921 CB VAL H 126 38.263 -33.951 54.908 1.00 75.32 C +ATOM 16922 CG1 VAL H 126 38.563 -35.366 55.352 1.00 75.03 C +ATOM 16923 CG2 VAL H 126 38.465 -32.975 56.059 1.00 74.61 C +ATOM 16924 N SER H 127 40.135 -35.040 52.072 1.00 67.86 N +ATOM 16925 CA SER H 127 40.150 -35.998 50.979 1.00 73.40 C +ATOM 16926 C SER H 127 41.396 -36.858 51.102 1.00 74.49 C +ATOM 16927 O SER H 127 42.454 -36.374 51.513 1.00 72.62 O +ATOM 16928 CB SER H 127 40.123 -35.295 49.616 1.00 72.15 C +ATOM 16929 OG SER H 127 40.221 -36.230 48.556 1.00 71.01 O +ATOM 16930 N SER H 128 41.263 -38.138 50.748 1.00 76.34 N +ATOM 16931 CA SER H 128 42.424 -39.016 50.713 1.00 76.79 C +ATOM 16932 C SER H 128 43.403 -38.632 49.614 1.00 77.88 C +ATOM 16933 O SER H 128 44.536 -39.124 49.616 1.00 83.46 O +ATOM 16934 CB SER H 128 41.984 -40.470 50.534 1.00 76.71 C +ATOM 16935 OG SER H 128 41.229 -40.915 51.647 1.00 79.32 O +ATOM 16936 N ALA H 129 42.994 -37.771 48.685 1.00 77.14 N +ATOM 16937 CA ALA H 129 43.881 -37.314 47.630 1.00 76.09 C +ATOM 16938 C ALA H 129 44.993 -36.443 48.208 1.00 74.81 C +ATOM 16939 O ALA H 129 44.893 -35.908 49.315 1.00 76.21 O +ATOM 16940 CB ALA H 129 43.099 -36.537 46.571 1.00 74.17 C +ATOM 16941 N SER H 130 46.061 -36.301 47.434 1.00 72.11 N +ATOM 16942 CA SER H 130 47.219 -35.521 47.836 1.00 71.81 C +ATOM 16943 C SER H 130 47.198 -34.149 47.172 1.00 67.15 C +ATOM 16944 O SER H 130 46.455 -33.894 46.222 1.00 66.29 O +ATOM 16945 CB SER H 130 48.513 -36.264 47.492 1.00 75.13 C +ATOM 16946 OG SER H 130 48.567 -36.579 46.111 1.00 83.01 O +ATOM 16947 N THR H 131 48.029 -33.257 47.700 1.00 63.55 N +ATOM 16948 CA THR H 131 48.112 -31.901 47.184 1.00 61.49 C +ATOM 16949 C THR H 131 48.713 -31.903 45.781 1.00 63.55 C +ATOM 16950 O THR H 131 49.561 -32.735 45.445 1.00 68.91 O +ATOM 16951 CB THR H 131 48.953 -31.034 48.123 1.00 63.97 C +ATOM 16952 OG1 THR H 131 48.416 -31.109 49.449 1.00 74.35 O +ATOM 16953 CG2 THR H 131 48.932 -29.585 47.680 1.00 58.49 C +ATOM 16954 N LYS H 132 48.263 -30.958 44.957 1.00 63.13 N +ATOM 16955 CA LYS H 132 48.754 -30.814 43.591 1.00 64.07 C +ATOM 16956 C LYS H 132 48.842 -29.333 43.265 1.00 61.83 C +ATOM 16957 O LYS H 132 47.841 -28.615 43.350 1.00 60.77 O +ATOM 16958 CB LYS H 132 47.837 -31.532 42.594 1.00 63.42 C +ATOM 16959 CG LYS H 132 48.169 -31.272 41.130 1.00 67.42 C +ATOM 16960 CD LYS H 132 49.591 -31.688 40.790 1.00 73.86 C +ATOM 16961 CE LYS H 132 49.839 -31.627 39.290 1.00 73.27 C +ATOM 16962 NZ LYS H 132 49.626 -30.258 38.740 1.00 72.64 N +ATOM 16963 N GLY H 133 50.038 -28.880 42.898 1.00 57.78 N +ATOM 16964 CA GLY H 133 50.246 -27.506 42.516 1.00 56.83 C +ATOM 16965 C GLY H 133 49.668 -27.219 41.147 1.00 61.91 C +ATOM 16966 O GLY H 133 49.456 -28.124 40.334 1.00 63.02 O +ATOM 16967 N PRO H 134 49.402 -25.948 40.863 1.00 61.14 N +ATOM 16968 CA PRO H 134 48.780 -25.585 39.590 1.00 56.59 C +ATOM 16969 C PRO H 134 49.790 -25.284 38.495 1.00 51.85 C +ATOM 16970 O PRO H 134 50.895 -24.796 38.735 1.00 53.45 O +ATOM 16971 CB PRO H 134 47.982 -24.325 39.954 1.00 54.16 C +ATOM 16972 CG PRO H 134 48.679 -23.749 41.176 1.00 54.39 C +ATOM 16973 CD PRO H 134 49.664 -24.767 41.700 1.00 55.17 C +ATOM 16974 N SER H 135 49.382 -25.589 37.267 1.00 55.43 N +ATOM 16975 CA SER H 135 50.127 -25.217 36.072 1.00 51.93 C +ATOM 16976 C SER H 135 49.505 -23.948 35.506 1.00 53.73 C +ATOM 16977 O SER H 135 48.307 -23.921 35.207 1.00 56.86 O +ATOM 16978 CB SER H 135 50.104 -26.342 35.037 1.00 48.02 C +ATOM 16979 OG SER H 135 50.700 -27.521 35.549 1.00 48.63 O +ATOM 16980 N VAL H 136 50.309 -22.901 35.366 1.00 52.16 N +ATOM 16981 CA VAL H 136 49.825 -21.595 34.938 1.00 51.58 C +ATOM 16982 C VAL H 136 50.295 -21.366 33.509 1.00 52.99 C +ATOM 16983 O VAL H 136 51.495 -21.205 33.257 1.00 60.68 O +ATOM 16984 CB VAL H 136 50.307 -20.474 35.868 1.00 52.21 C +ATOM 16985 CG1 VAL H 136 49.819 -19.125 35.363 1.00 53.43 C +ATOM 16986 CG2 VAL H 136 49.827 -20.725 37.288 1.00 51.81 C +ATOM 16987 N PHE H 137 49.352 -21.345 32.577 1.00 54.10 N +ATOM 16988 CA PHE H 137 49.637 -21.050 31.183 1.00 50.34 C +ATOM 16989 C PHE H 137 49.032 -19.709 30.790 1.00 49.88 C +ATOM 16990 O PHE H 137 48.071 -19.244 31.410 1.00 51.26 O +ATOM 16991 CB PHE H 137 49.092 -22.152 30.265 1.00 50.12 C +ATOM 16992 CG PHE H 137 49.556 -23.531 30.632 1.00 51.06 C +ATOM 16993 CD1 PHE H 137 50.875 -23.904 30.437 1.00 49.63 C +ATOM 16994 CD2 PHE H 137 48.674 -24.458 31.160 1.00 52.03 C +ATOM 16995 CE1 PHE H 137 51.307 -25.174 30.770 1.00 52.89 C +ATOM 16996 CE2 PHE H 137 49.100 -25.730 31.494 1.00 52.96 C +ATOM 16997 CZ PHE H 137 50.418 -26.088 31.299 1.00 50.89 C +ATOM 16998 N PRO H 138 49.579 -19.046 29.776 1.00 50.14 N +ATOM 16999 CA PRO H 138 49.020 -17.761 29.354 1.00 49.60 C +ATOM 17000 C PRO H 138 47.915 -17.911 28.321 1.00 52.14 C +ATOM 17001 O PRO H 138 47.851 -18.878 27.560 1.00 59.04 O +ATOM 17002 CB PRO H 138 50.236 -17.046 28.750 1.00 50.03 C +ATOM 17003 CG PRO H 138 51.052 -18.154 28.181 1.00 51.57 C +ATOM 17004 CD PRO H 138 50.841 -19.354 29.078 1.00 53.55 C +ATOM 17005 N LEU H 139 47.029 -16.920 28.315 1.00 50.78 N +ATOM 17006 CA LEU H 139 46.001 -16.742 27.298 1.00 48.85 C +ATOM 17007 C LEU H 139 46.370 -15.419 26.647 1.00 53.39 C +ATOM 17008 O LEU H 139 45.962 -14.353 27.117 1.00 53.25 O +ATOM 17009 CB LEU H 139 44.595 -16.720 27.895 1.00 43.56 C +ATOM 17010 CG LEU H 139 44.180 -17.932 28.728 1.00 45.85 C +ATOM 17011 CD1 LEU H 139 42.810 -17.712 29.347 1.00 46.59 C +ATOM 17012 CD2 LEU H 139 44.190 -19.190 27.875 1.00 45.65 C +ATOM 17013 N ALA H 140 47.165 -15.501 25.586 1.00 51.11 N +ATOM 17014 CA ALA H 140 47.805 -14.346 24.978 1.00 53.19 C +ATOM 17015 C ALA H 140 46.797 -13.545 24.159 1.00 57.45 C +ATOM 17016 O ALA H 140 45.898 -14.121 23.542 1.00 58.29 O +ATOM 17017 CB ALA H 140 48.961 -14.788 24.085 1.00 57.91 C +ATOM 17018 N PRO H 141 46.922 -12.220 24.140 1.00 59.51 N +ATOM 17019 CA PRO H 141 46.005 -11.414 23.328 1.00 67.26 C +ATOM 17020 C PRO H 141 46.341 -11.508 21.849 1.00 81.26 C +ATOM 17021 O PRO H 141 47.317 -10.915 21.379 1.00 87.39 O +ATOM 17022 CB PRO H 141 46.212 -9.996 23.872 1.00 65.65 C +ATOM 17023 CG PRO H 141 47.616 -9.999 24.380 1.00 63.16 C +ATOM 17024 CD PRO H 141 47.864 -11.388 24.911 1.00 59.37 C +ATOM 17025 N SER H 142 45.534 -12.263 21.110 1.00 93.65 N +ATOM 17026 CA SER H 142 45.716 -12.376 19.671 1.00109.91 C +ATOM 17027 C SER H 142 45.408 -11.040 19.011 1.00134.96 C +ATOM 17028 O SER H 142 44.343 -10.458 19.238 1.00139.24 O +ATOM 17029 CB SER H 142 44.818 -13.473 19.103 1.00116.52 C +ATOM 17030 OG SER H 142 45.018 -14.700 19.782 1.00103.19 O +ATOM 17031 N SER H 143 46.353 -10.544 18.205 1.00164.24 N +ATOM 17032 CA SER H 143 46.159 -9.258 17.542 1.00167.25 C +ATOM 17033 C SER H 143 44.893 -9.249 16.698 1.00167.26 C +ATOM 17034 O SER H 143 44.295 -8.187 16.487 1.00170.38 O +ATOM 17035 CB SER H 143 47.377 -8.921 16.681 1.00170.35 C +ATOM 17036 OG SER H 143 48.540 -8.775 17.476 1.00169.67 O +ATOM 17037 N LYS H 144 44.469 -10.414 16.207 1.00164.14 N +ATOM 17038 CA LYS H 144 43.197 -10.504 15.503 1.00164.24 C +ATOM 17039 C LYS H 144 42.025 -10.572 16.474 1.00165.69 C +ATOM 17040 O LYS H 144 40.931 -10.094 16.154 1.00169.51 O +ATOM 17041 CB LYS H 144 43.187 -11.722 14.579 1.00157.48 C +ATOM 17042 N SER H 145 42.234 -11.149 17.657 1.00158.28 N +ATOM 17043 CA SER H 145 41.180 -11.279 18.663 1.00160.98 C +ATOM 17044 C SER H 145 41.204 -10.089 19.625 1.00167.44 C +ATOM 17045 O SER H 145 41.345 -10.225 20.840 1.00153.95 O +ATOM 17046 CB SER H 145 41.323 -12.599 19.411 1.00142.69 C +ATOM 17047 OG SER H 145 41.312 -13.699 18.517 1.00129.11 O +ATOM 17048 N THR H 146 41.071 -8.897 19.045 1.00179.24 N +ATOM 17049 CA THR H 146 40.966 -7.651 19.798 1.00175.09 C +ATOM 17050 C THR H 146 39.676 -6.961 19.375 1.00174.15 C +ATOM 17051 O THR H 146 39.546 -6.534 18.223 1.00177.81 O +ATOM 17052 CB THR H 146 42.174 -6.744 19.556 1.00180.69 C +ATOM 17053 OG1 THR H 146 42.203 -6.336 18.182 1.00182.75 O +ATOM 17054 CG2 THR H 146 43.470 -7.469 19.890 1.00181.39 C +ATOM 17055 N SER H 147 38.722 -6.861 20.298 1.00147.50 N +ATOM 17056 CA SER H 147 37.442 -6.222 20.012 1.00135.99 C +ATOM 17057 C SER H 147 37.630 -4.710 20.027 1.00132.72 C +ATOM 17058 O SER H 147 37.775 -4.106 21.095 1.00124.37 O +ATOM 17059 CB SER H 147 36.385 -6.656 21.023 1.00117.57 C +ATOM 17060 OG SER H 147 36.099 -8.038 20.898 1.00102.87 O +ATOM 17061 N GLY H 148 37.623 -4.099 18.844 1.00144.53 N +ATOM 17062 CA GLY H 148 37.836 -2.671 18.719 1.00137.23 C +ATOM 17063 C GLY H 148 39.150 -2.217 19.319 1.00134.65 C +ATOM 17064 O GLY H 148 40.221 -2.674 18.907 1.00136.07 O +ATOM 17065 N GLY H 149 39.080 -1.316 20.294 1.00108.28 N +ATOM 17066 CA GLY H 149 40.239 -0.795 20.984 1.00 98.95 C +ATOM 17067 C GLY H 149 40.621 -1.522 22.252 1.00 94.62 C +ATOM 17068 O GLY H 149 41.575 -1.118 22.923 1.00 85.70 O +ATOM 17069 N THR H 150 39.906 -2.588 22.604 1.00 98.52 N +ATOM 17070 CA THR H 150 40.154 -3.345 23.822 1.00 87.75 C +ATOM 17071 C THR H 150 40.521 -4.783 23.483 1.00 88.53 C +ATOM 17072 O THR H 150 39.902 -5.407 22.616 1.00100.56 O +ATOM 17073 CB THR H 150 38.931 -3.329 24.747 1.00 86.72 C +ATOM 17074 OG1 THR H 150 37.813 -3.924 24.076 1.00 92.82 O +ATOM 17075 CG2 THR H 150 38.581 -1.902 25.142 1.00 85.04 C +ATOM 17076 N ALA H 151 41.532 -5.298 24.176 1.00 76.91 N +ATOM 17077 CA ALA H 151 42.027 -6.653 23.994 1.00 77.43 C +ATOM 17078 C ALA H 151 41.926 -7.413 25.308 1.00 66.16 C +ATOM 17079 O ALA H 151 42.147 -6.848 26.385 1.00 63.11 O +ATOM 17080 CB ALA H 151 43.477 -6.654 23.500 1.00 78.40 C +ATOM 17081 N ALA H 152 41.594 -8.697 25.213 1.00 62.01 N +ATOM 17082 CA ALA H 152 41.452 -9.565 26.371 1.00 53.69 C +ATOM 17083 C ALA H 152 42.647 -10.504 26.464 1.00 55.14 C +ATOM 17084 O ALA H 152 43.114 -11.034 25.452 1.00 55.84 O +ATOM 17085 CB ALA H 152 40.155 -10.376 26.293 1.00 51.76 C +ATOM 17086 N LEU H 153 43.141 -10.696 27.685 1.00 55.15 N +ATOM 17087 CA LEU H 153 44.275 -11.575 27.934 1.00 53.23 C +ATOM 17088 C LEU H 153 44.136 -12.147 29.335 1.00 52.84 C +ATOM 17089 O LEU H 153 43.565 -11.508 30.219 1.00 51.38 O +ATOM 17090 CB LEU H 153 45.609 -10.833 27.786 1.00 53.75 C +ATOM 17091 CG LEU H 153 45.857 -9.666 28.748 1.00 51.40 C +ATOM 17092 CD1 LEU H 153 46.730 -10.090 29.924 1.00 53.78 C +ATOM 17093 CD2 LEU H 153 46.471 -8.483 28.016 1.00 56.16 C +ATOM 17094 N GLY H 154 44.669 -13.344 29.543 1.00 53.14 N +ATOM 17095 CA GLY H 154 44.435 -13.975 30.821 1.00 48.38 C +ATOM 17096 C GLY H 154 45.423 -15.067 31.160 1.00 50.48 C +ATOM 17097 O GLY H 154 46.475 -15.206 30.536 1.00 50.49 O +ATOM 17098 N CYS H 155 45.053 -15.847 32.171 1.00 52.69 N +ATOM 17099 CA CYS H 155 45.873 -16.938 32.676 1.00 52.29 C +ATOM 17100 C CYS H 155 44.991 -18.136 32.981 1.00 49.49 C +ATOM 17101 O CYS H 155 43.938 -17.997 33.612 1.00 48.10 O +ATOM 17102 CB CYS H 155 46.648 -16.521 33.932 1.00 52.42 C +ATOM 17103 SG CYS H 155 48.139 -15.569 33.584 1.00 84.90 S +ATOM 17104 N LEU H 156 45.429 -19.305 32.524 1.00 48.44 N +ATOM 17105 CA LEU H 156 44.755 -20.569 32.782 1.00 49.31 C +ATOM 17106 C LEU H 156 45.502 -21.275 33.906 1.00 50.45 C +ATOM 17107 O LEU H 156 46.674 -21.639 33.750 1.00 52.19 O +ATOM 17108 CB LEU H 156 44.717 -21.434 31.525 1.00 46.74 C +ATOM 17109 CG LEU H 156 44.115 -22.831 31.686 1.00 50.56 C +ATOM 17110 CD1 LEU H 156 42.628 -22.756 31.992 1.00 45.35 C +ATOM 17111 CD2 LEU H 156 44.373 -23.665 30.445 1.00 52.49 C +ATOM 17112 N VAL H 157 44.828 -21.448 35.038 1.00 47.87 N +ATOM 17113 CA VAL H 157 45.380 -22.122 36.205 1.00 46.86 C +ATOM 17114 C VAL H 157 44.780 -23.524 36.210 1.00 49.53 C +ATOM 17115 O VAL H 157 43.652 -23.724 36.670 1.00 54.17 O +ATOM 17116 CB VAL H 157 45.064 -21.357 37.494 1.00 47.43 C +ATOM 17117 CG1 VAL H 157 45.689 -22.037 38.695 1.00 50.78 C +ATOM 17118 CG2 VAL H 157 45.529 -19.910 37.387 1.00 45.04 C +ATOM 17119 N LYS H 158 45.530 -24.503 35.703 1.00 51.42 N +ATOM 17120 CA LYS H 158 45.012 -25.841 35.461 1.00 57.62 C +ATOM 17121 C LYS H 158 45.621 -26.864 36.412 1.00 55.01 C +ATOM 17122 O LYS H 158 46.740 -26.700 36.906 1.00 53.90 O +ATOM 17123 CB LYS H 158 45.266 -26.291 34.011 1.00 58.65 C +ATOM 17124 CG LYS H 158 44.323 -27.413 33.573 1.00 61.84 C +ATOM 17125 CD LYS H 158 44.657 -28.044 32.236 1.00 56.19 C +ATOM 17126 CE LYS H 158 43.931 -29.377 32.091 1.00 58.79 C +ATOM 17127 NZ LYS H 158 44.832 -30.531 31.831 1.00 61.37 N +ATOM 17128 N ASP H 159 44.844 -27.919 36.663 1.00 57.08 N +ATOM 17129 CA ASP H 159 45.293 -29.106 37.377 1.00 60.14 C +ATOM 17130 C ASP H 159 45.892 -28.776 38.736 1.00 62.34 C +ATOM 17131 O ASP H 159 47.116 -28.786 38.897 1.00 66.15 O +ATOM 17132 CB ASP H 159 46.308 -29.875 36.529 1.00 63.92 C +ATOM 17133 CG ASP H 159 45.723 -30.363 35.215 1.00 66.22 C +ATOM 17134 OD1 ASP H 159 44.553 -30.806 35.207 1.00 67.81 O +ATOM 17135 OD2 ASP H 159 46.437 -30.316 34.192 1.00 72.90 O +ATOM 17136 N TYR H 160 45.044 -28.475 39.714 1.00 58.01 N +ATOM 17137 CA TYR H 160 45.501 -28.266 41.077 1.00 57.20 C +ATOM 17138 C TYR H 160 44.465 -28.818 42.043 1.00 60.00 C +ATOM 17139 O TYR H 160 43.308 -29.050 41.683 1.00 60.26 O +ATOM 17140 CB TYR H 160 45.772 -26.784 41.373 1.00 55.54 C +ATOM 17141 CG TYR H 160 44.537 -25.913 41.415 1.00 55.88 C +ATOM 17142 CD1 TYR H 160 43.802 -25.773 42.586 1.00 53.89 C +ATOM 17143 CD2 TYR H 160 44.115 -25.219 40.290 1.00 56.15 C +ATOM 17144 CE1 TYR H 160 42.675 -24.980 42.632 1.00 52.54 C +ATOM 17145 CE2 TYR H 160 42.990 -24.418 40.327 1.00 55.89 C +ATOM 17146 CZ TYR H 160 42.276 -24.301 41.502 1.00 53.03 C +ATOM 17147 OH TYR H 160 41.154 -23.507 41.546 1.00 51.71 O +ATOM 17148 N PHE H 161 44.902 -29.023 43.287 1.00 58.82 N +ATOM 17149 CA PHE H 161 44.041 -29.542 44.337 1.00 55.69 C +ATOM 17150 C PHE H 161 44.719 -29.290 45.671 1.00 56.51 C +ATOM 17151 O PHE H 161 45.939 -29.483 45.771 1.00 59.99 O +ATOM 17152 CB PHE H 161 43.775 -31.040 44.152 1.00 56.79 C +ATOM 17153 CG PHE H 161 42.791 -31.609 45.134 1.00 59.37 C +ATOM 17154 CD1 PHE H 161 43.222 -32.158 46.331 1.00 59.05 C +ATOM 17155 CD2 PHE H 161 41.434 -31.596 44.859 1.00 59.75 C +ATOM 17156 CE1 PHE H 161 42.317 -32.681 47.235 1.00 59.56 C +ATOM 17157 CE2 PHE H 161 40.525 -32.118 45.758 1.00 61.94 C +ATOM 17158 CZ PHE H 161 40.968 -32.661 46.948 1.00 62.54 C +ATOM 17159 N PRO H 162 43.984 -28.865 46.708 1.00 57.52 N +ATOM 17160 CA PRO H 162 42.559 -28.528 46.657 1.00 57.35 C +ATOM 17161 C PRO H 162 42.314 -27.037 46.453 1.00 54.36 C +ATOM 17162 O PRO H 162 43.225 -26.301 46.074 1.00 52.84 O +ATOM 17163 CB PRO H 162 42.066 -28.967 48.031 1.00 56.30 C +ATOM 17164 CG PRO H 162 43.231 -28.653 48.924 1.00 54.92 C +ATOM 17165 CD PRO H 162 44.486 -28.866 48.093 1.00 55.82 C +ATOM 17166 N GLU H 163 41.081 -26.604 46.702 1.00 53.48 N +ATOM 17167 CA GLU H 163 40.780 -25.186 46.753 1.00 51.41 C +ATOM 17168 C GLU H 163 41.374 -24.582 48.025 1.00 52.82 C +ATOM 17169 O GLU H 163 41.620 -25.293 49.003 1.00 54.71 O +ATOM 17170 CB GLU H 163 39.268 -24.965 46.711 1.00 53.32 C +ATOM 17171 CG GLU H 163 38.630 -25.150 45.338 1.00 54.84 C +ATOM 17172 CD GLU H 163 38.764 -23.922 44.451 1.00 54.26 C +ATOM 17173 OE1 GLU H 163 39.894 -23.415 44.286 1.00 51.37 O +ATOM 17174 OE2 GLU H 163 37.732 -23.457 43.923 1.00 55.77 O +ATOM 17175 N PRO H 164 41.617 -23.261 48.042 1.00 49.97 N +ATOM 17176 CA PRO H 164 41.404 -22.284 46.977 1.00 50.73 C +ATOM 17177 C PRO H 164 42.689 -21.852 46.280 1.00 52.27 C +ATOM 17178 O PRO H 164 43.764 -22.385 46.553 1.00 51.69 O +ATOM 17179 CB PRO H 164 40.786 -21.105 47.729 1.00 51.44 C +ATOM 17180 CG PRO H 164 41.349 -21.226 49.154 1.00 47.45 C +ATOM 17181 CD PRO H 164 42.015 -22.582 49.283 1.00 46.17 C +ATOM 17182 N VAL H 165 42.557 -20.888 45.375 1.00 53.71 N +ATOM 17183 CA VAL H 165 43.685 -20.274 44.687 1.00 50.74 C +ATOM 17184 C VAL H 165 43.456 -18.771 44.653 1.00 53.67 C +ATOM 17185 O VAL H 165 42.336 -18.310 44.411 1.00 57.62 O +ATOM 17186 CB VAL H 165 43.861 -20.846 43.264 1.00 53.71 C +ATOM 17187 CG1 VAL H 165 44.698 -19.919 42.405 1.00 57.51 C +ATOM 17188 CG2 VAL H 165 44.517 -22.211 43.328 1.00 52.04 C +ATOM 17189 N THR H 166 44.516 -18.005 44.896 1.00 55.76 N +ATOM 17190 CA THR H 166 44.449 -16.549 44.884 1.00 57.77 C +ATOM 17191 C THR H 166 45.112 -16.046 43.610 1.00 54.55 C +ATOM 17192 O THR H 166 46.309 -16.265 43.403 1.00 56.32 O +ATOM 17193 CB THR H 166 45.128 -15.951 46.115 1.00 57.57 C +ATOM 17194 OG1 THR H 166 44.487 -16.438 47.300 1.00 69.58 O +ATOM 17195 CG2 THR H 166 45.040 -14.432 46.082 1.00 59.77 C +ATOM 17196 N VAL H 167 44.337 -15.380 42.758 1.00 47.37 N +ATOM 17197 CA VAL H 167 44.832 -14.839 41.499 1.00 48.95 C +ATOM 17198 C VAL H 167 44.759 -13.321 41.565 1.00 49.21 C +ATOM 17199 O VAL H 167 43.723 -12.756 41.937 1.00 50.86 O +ATOM 17200 CB VAL H 167 44.038 -15.378 40.297 1.00 47.60 C +ATOM 17201 CG1 VAL H 167 44.554 -14.762 39.005 1.00 44.61 C +ATOM 17202 CG2 VAL H 167 44.125 -16.896 40.242 1.00 44.62 C +ATOM 17203 N SER H 168 45.859 -12.666 41.206 1.00 49.68 N +ATOM 17204 CA SER H 168 45.947 -11.216 41.146 1.00 51.24 C +ATOM 17205 C SER H 168 46.604 -10.815 39.833 1.00 51.28 C +ATOM 17206 O SER H 168 47.155 -11.649 39.112 1.00 51.86 O +ATOM 17207 CB SER H 168 46.737 -10.654 42.336 1.00 53.85 C +ATOM 17208 OG SER H 168 46.971 -9.266 42.185 1.00 61.70 O +ATOM 17209 N TRP H 169 46.551 -9.522 39.524 1.00 50.51 N +ATOM 17210 CA TRP H 169 47.170 -8.985 38.318 1.00 51.85 C +ATOM 17211 C TRP H 169 48.022 -7.785 38.698 1.00 53.68 C +ATOM 17212 O TRP H 169 47.525 -6.843 39.325 1.00 54.96 O +ATOM 17213 CB TRP H 169 46.118 -8.599 37.273 1.00 55.10 C +ATOM 17214 CG TRP H 169 45.525 -9.784 36.575 1.00 50.79 C +ATOM 17215 CD1 TRP H 169 44.418 -10.487 36.949 1.00 51.46 C +ATOM 17216 CD2 TRP H 169 46.025 -10.422 35.393 1.00 51.54 C +ATOM 17217 NE1 TRP H 169 44.189 -11.515 36.067 1.00 50.21 N +ATOM 17218 CE2 TRP H 169 45.163 -11.498 35.104 1.00 50.17 C +ATOM 17219 CE3 TRP H 169 47.114 -10.185 34.549 1.00 53.08 C +ATOM 17220 CZ2 TRP H 169 45.355 -12.335 34.006 1.00 51.54 C +ATOM 17221 CZ3 TRP H 169 47.304 -11.017 33.460 1.00 56.36 C +ATOM 17222 CH2 TRP H 169 46.428 -12.078 33.198 1.00 54.16 C +ATOM 17223 N ASN H 170 49.303 -7.829 38.324 1.00 53.54 N +ATOM 17224 CA ASN H 170 50.267 -6.777 38.654 1.00 53.72 C +ATOM 17225 C ASN H 170 50.361 -6.571 40.164 1.00 55.16 C +ATOM 17226 O ASN H 170 50.446 -5.441 40.651 1.00 54.31 O +ATOM 17227 CB ASN H 170 49.923 -5.465 37.944 1.00 51.10 C +ATOM 17228 CG ASN H 170 50.123 -5.545 36.444 1.00 57.51 C +ATOM 17229 OD1 ASN H 170 50.365 -6.620 35.894 1.00 57.33 O +ATOM 17230 ND2 ASN H 170 50.018 -4.404 35.771 1.00 62.19 N +ATOM 17231 N SER H 171 50.338 -7.679 40.910 1.00 52.99 N +ATOM 17232 CA SER H 171 50.454 -7.664 42.369 1.00 55.11 C +ATOM 17233 C SER H 171 49.355 -6.826 43.017 1.00 56.18 C +ATOM 17234 O SER H 171 49.544 -6.264 44.098 1.00 61.75 O +ATOM 17235 CB SER H 171 51.836 -7.173 42.813 1.00 56.11 C +ATOM 17236 OG SER H 171 52.856 -8.047 42.363 1.00 56.49 O +ATOM 17237 N GLY H 172 48.199 -6.734 42.362 1.00 56.60 N +ATOM 17238 CA GLY H 172 47.073 -5.984 42.873 1.00 56.88 C +ATOM 17239 C GLY H 172 46.870 -4.628 42.233 1.00 57.39 C +ATOM 17240 O GLY H 172 45.818 -4.013 42.447 1.00 60.27 O +ATOM 17241 N ALA H 173 47.842 -4.143 41.457 1.00 56.01 N +ATOM 17242 CA ALA H 173 47.715 -2.834 40.827 1.00 57.48 C +ATOM 17243 C ALA H 173 46.672 -2.818 39.718 1.00 58.91 C +ATOM 17244 O ALA H 173 46.177 -1.741 39.367 1.00 61.80 O +ATOM 17245 CB ALA H 173 49.067 -2.382 40.274 1.00 54.91 C +ATOM 17246 N LEU H 174 46.333 -3.976 39.157 1.00 55.97 N +ATOM 17247 CA LEU H 174 45.357 -4.083 38.077 1.00 58.67 C +ATOM 17248 C LEU H 174 44.102 -4.750 38.629 1.00 61.71 C +ATOM 17249 O LEU H 174 44.124 -5.936 38.976 1.00 63.12 O +ATOM 17250 CB LEU H 174 45.933 -4.871 36.903 1.00 55.55 C +ATOM 17251 CG LEU H 174 45.078 -4.950 35.638 1.00 52.20 C +ATOM 17252 CD1 LEU H 174 44.846 -3.561 35.068 1.00 51.27 C +ATOM 17253 CD2 LEU H 174 45.731 -5.854 34.607 1.00 52.00 C +ATOM 17254 N THR H 175 43.012 -3.987 38.714 1.00 62.68 N +ATOM 17255 CA THR H 175 41.757 -4.509 39.244 1.00 62.74 C +ATOM 17256 C THR H 175 40.603 -4.247 38.283 1.00 65.49 C +ATOM 17257 O THR H 175 39.642 -5.021 38.232 1.00 68.49 O +ATOM 17258 CB THR H 175 41.449 -3.890 40.611 1.00 59.53 C +ATOM 17259 OG1 THR H 175 41.414 -2.462 40.495 1.00 63.65 O +ATOM 17260 CG2 THR H 175 42.507 -4.287 41.633 1.00 54.91 C +ATOM 17261 N SER H 176 40.688 -3.155 37.527 1.00 64.08 N +ATOM 17262 CA SER H 176 39.623 -2.793 36.600 1.00 60.32 C +ATOM 17263 C SER H 176 39.547 -3.786 35.445 1.00 63.35 C +ATOM 17264 O SER H 176 40.542 -4.033 34.756 1.00 63.13 O +ATOM 17265 CB SER H 176 39.848 -1.379 36.068 1.00 67.42 C +ATOM 17266 OG SER H 176 38.959 -1.087 35.005 1.00 91.04 O +ATOM 17267 N GLY H 177 38.362 -4.357 35.237 1.00 58.53 N +ATOM 17268 CA GLY H 177 38.135 -5.249 34.119 1.00 54.87 C +ATOM 17269 C GLY H 177 38.582 -6.677 34.322 1.00 53.69 C +ATOM 17270 O GLY H 177 38.594 -7.448 33.356 1.00 56.43 O +ATOM 17271 N VAL H 178 38.947 -7.057 35.537 1.00 50.59 N +ATOM 17272 CA VAL H 178 39.416 -8.407 35.825 1.00 50.30 C +ATOM 17273 C VAL H 178 38.214 -9.303 36.084 1.00 51.52 C +ATOM 17274 O VAL H 178 37.216 -8.877 36.677 1.00 52.30 O +ATOM 17275 CB VAL H 178 40.382 -8.404 37.026 1.00 49.93 C +ATOM 17276 CG1 VAL H 178 40.961 -9.795 37.260 1.00 43.95 C +ATOM 17277 CG2 VAL H 178 41.488 -7.383 36.817 1.00 53.06 C +ATOM 17278 N HIS H 179 38.305 -10.552 35.631 1.00 46.88 N +ATOM 17279 CA HIS H 179 37.268 -11.552 35.863 1.00 47.54 C +ATOM 17280 C HIS H 179 37.966 -12.871 36.154 1.00 46.68 C +ATOM 17281 O HIS H 179 38.555 -13.473 35.251 1.00 46.99 O +ATOM 17282 CB HIS H 179 36.340 -11.687 34.656 1.00 47.46 C +ATOM 17283 CG HIS H 179 35.532 -10.460 34.372 1.00 49.66 C +ATOM 17284 ND1 HIS H 179 34.419 -10.113 35.107 1.00 47.78 N +ATOM 17285 CD2 HIS H 179 35.669 -9.503 33.423 1.00 51.17 C +ATOM 17286 CE1 HIS H 179 33.910 -8.992 34.629 1.00 50.29 C +ATOM 17287 NE2 HIS H 179 34.649 -8.601 33.607 1.00 49.28 N +ATOM 17288 N THR H 180 37.911 -13.314 37.405 1.00 44.57 N +ATOM 17289 CA THR H 180 38.433 -14.617 37.794 1.00 45.15 C +ATOM 17290 C THR H 180 37.255 -15.570 37.935 1.00 43.35 C +ATOM 17291 O THR H 180 36.389 -15.371 38.794 1.00 48.38 O +ATOM 17292 CB THR H 180 39.226 -14.534 39.099 1.00 46.40 C +ATOM 17293 OG1 THR H 180 40.267 -13.559 38.967 1.00 45.19 O +ATOM 17294 CG2 THR H 180 39.846 -15.885 39.430 1.00 44.16 C +ATOM 17295 N PHE H 181 37.227 -16.594 37.101 1.00 42.29 N +ATOM 17296 CA PHE H 181 36.060 -17.455 37.061 1.00 43.85 C +ATOM 17297 C PHE H 181 36.111 -18.476 38.192 1.00 43.92 C +ATOM 17298 O PHE H 181 37.194 -18.884 38.621 1.00 43.71 O +ATOM 17299 CB PHE H 181 35.973 -18.171 35.717 1.00 45.33 C +ATOM 17300 CG PHE H 181 35.753 -17.246 34.557 1.00 45.41 C +ATOM 17301 CD1 PHE H 181 36.816 -16.588 33.961 1.00 45.95 C +ATOM 17302 CD2 PHE H 181 34.478 -17.030 34.065 1.00 45.45 C +ATOM 17303 CE1 PHE H 181 36.610 -15.733 32.897 1.00 46.79 C +ATOM 17304 CE2 PHE H 181 34.265 -16.176 33.002 1.00 45.75 C +ATOM 17305 CZ PHE H 181 35.331 -15.528 32.418 1.00 48.91 C +ATOM 17306 N PRO H 182 34.951 -18.887 38.702 1.00 45.57 N +ATOM 17307 CA PRO H 182 34.934 -19.924 39.738 1.00 45.92 C +ATOM 17308 C PRO H 182 35.606 -21.189 39.237 1.00 44.65 C +ATOM 17309 O PRO H 182 35.497 -21.551 38.063 1.00 44.83 O +ATOM 17310 CB PRO H 182 33.440 -20.143 39.998 1.00 45.15 C +ATOM 17311 CG PRO H 182 32.792 -18.874 39.568 1.00 44.37 C +ATOM 17312 CD PRO H 182 33.603 -18.371 38.411 1.00 44.05 C +ATOM 17313 N ALA H 183 36.311 -21.859 40.139 1.00 48.76 N +ATOM 17314 CA ALA H 183 37.009 -23.073 39.756 1.00 52.06 C +ATOM 17315 C ALA H 183 36.002 -24.148 39.382 1.00 49.58 C +ATOM 17316 O ALA H 183 34.925 -24.250 39.975 1.00 52.64 O +ATOM 17317 CB ALA H 183 37.905 -23.560 40.894 1.00 51.45 C +ATOM 17318 N VAL H 184 36.360 -24.953 38.392 1.00 48.25 N +ATOM 17319 CA VAL H 184 35.551 -26.081 37.961 1.00 49.76 C +ATOM 17320 C VAL H 184 36.329 -27.337 38.299 1.00 54.82 C +ATOM 17321 O VAL H 184 37.520 -27.441 37.980 1.00 55.35 O +ATOM 17322 CB VAL H 184 35.233 -26.019 36.457 1.00 55.38 C +ATOM 17323 CG1 VAL H 184 34.321 -27.172 36.060 1.00 57.63 C +ATOM 17324 CG2 VAL H 184 34.600 -24.684 36.104 1.00 51.62 C +ATOM 17325 N LEU H 185 35.666 -28.288 38.942 1.00 58.00 N +ATOM 17326 CA LEU H 185 36.333 -29.535 39.273 1.00 64.28 C +ATOM 17327 C LEU H 185 36.392 -30.338 37.987 1.00 65.30 C +ATOM 17328 O LEU H 185 35.363 -30.811 37.492 1.00 62.59 O +ATOM 17329 CB LEU H 185 35.589 -30.281 40.378 1.00 63.41 C +ATOM 17330 CG LEU H 185 36.274 -31.493 41.020 1.00 66.36 C +ATOM 17331 CD1 LEU H 185 35.947 -31.559 42.499 1.00 73.81 C +ATOM 17332 CD2 LEU H 185 35.846 -32.786 40.348 1.00 71.11 C +ATOM 17333 N GLN H 186 37.593 -30.484 37.436 1.00 70.07 N +ATOM 17334 CA GLN H 186 37.707 -31.243 36.210 1.00 74.73 C +ATOM 17335 C GLN H 186 37.419 -32.701 36.525 1.00 81.96 C +ATOM 17336 O GLN H 186 37.374 -33.113 37.688 1.00 80.79 O +ATOM 17337 CB GLN H 186 39.100 -31.095 35.597 1.00 67.66 C +ATOM 17338 CG GLN H 186 39.531 -29.666 35.309 1.00 62.49 C +ATOM 17339 CD GLN H 186 40.993 -29.576 34.908 1.00 63.22 C +ATOM 17340 OE1 GLN H 186 41.334 -28.979 33.888 1.00 67.00 O +ATOM 17341 NE2 GLN H 186 41.864 -30.183 35.707 1.00 65.88 N +ATOM 17342 N SER H 187 37.214 -33.494 35.479 1.00 87.29 N +ATOM 17343 CA SER H 187 36.946 -34.903 35.718 1.00 96.54 C +ATOM 17344 C SER H 187 38.065 -35.551 36.520 1.00102.65 C +ATOM 17345 O SER H 187 37.812 -36.491 37.280 1.00108.69 O +ATOM 17346 CB SER H 187 36.736 -35.635 34.393 1.00105.69 C +ATOM 17347 OG SER H 187 37.881 -35.533 33.566 1.00114.94 O +ATOM 17348 N SER H 188 39.292 -35.019 36.431 1.00 99.41 N +ATOM 17349 CA SER H 188 40.491 -35.596 37.058 1.00 99.30 C +ATOM 17350 C SER H 188 40.551 -35.413 38.536 1.00 92.41 C +ATOM 17351 O SER H 188 41.592 -35.744 39.121 1.00 91.38 O +ATOM 17352 CB SER H 188 41.745 -34.998 36.418 1.00100.38 C +ATOM 17353 OG SER H 188 41.797 -33.594 36.607 1.00 86.45 O +ATOM 17354 N GLY H 189 39.514 -34.904 39.190 1.00 86.76 N +ATOM 17355 CA GLY H 189 39.604 -34.625 40.603 1.00 81.81 C +ATOM 17356 C GLY H 189 40.435 -33.411 40.932 1.00 77.69 C +ATOM 17357 O GLY H 189 40.519 -33.035 42.107 1.00 76.66 O +ATOM 17358 N LEU H 190 41.057 -32.795 39.934 1.00 73.84 N +ATOM 17359 CA LEU H 190 41.832 -31.580 40.097 1.00 67.10 C +ATOM 17360 C LEU H 190 40.987 -30.393 39.658 1.00 64.74 C +ATOM 17361 O LEU H 190 40.061 -30.523 38.854 1.00 64.22 O +ATOM 17362 CB LEU H 190 43.123 -31.642 39.277 1.00 69.06 C +ATOM 17363 CG LEU H 190 44.070 -32.811 39.558 1.00 71.25 C +ATOM 17364 CD1 LEU H 190 45.255 -32.784 38.604 1.00 71.35 C +ATOM 17365 CD2 LEU H 190 44.539 -32.789 41.003 1.00 68.49 C +ATOM 17366 N TYR H 191 41.319 -29.228 40.192 1.00 62.97 N +ATOM 17367 CA TYR H 191 40.591 -28.012 39.876 1.00 60.32 C +ATOM 17368 C TYR H 191 41.308 -27.233 38.781 1.00 58.64 C +ATOM 17369 O TYR H 191 42.499 -27.425 38.522 1.00 57.65 O +ATOM 17370 CB TYR H 191 40.415 -27.147 41.126 1.00 57.46 C +ATOM 17371 CG TYR H 191 39.424 -27.714 42.117 1.00 60.03 C +ATOM 17372 CD1 TYR H 191 38.063 -27.472 41.982 1.00 59.59 C +ATOM 17373 CD2 TYR H 191 39.846 -28.501 43.180 1.00 61.21 C +ATOM 17374 CE1 TYR H 191 37.152 -27.989 42.884 1.00 61.53 C +ATOM 17375 CE2 TYR H 191 38.942 -29.024 44.086 1.00 60.84 C +ATOM 17376 CZ TYR H 191 37.596 -28.764 43.933 1.00 63.33 C +ATOM 17377 OH TYR H 191 36.692 -29.282 44.832 1.00 64.19 O +ATOM 17378 N SER H 192 40.557 -26.348 38.134 1.00 57.79 N +ATOM 17379 CA SER H 192 41.091 -25.522 37.062 1.00 53.77 C +ATOM 17380 C SER H 192 40.197 -24.304 36.903 1.00 50.60 C +ATOM 17381 O SER H 192 38.980 -24.395 37.078 1.00 54.41 O +ATOM 17382 CB SER H 192 41.176 -26.298 35.744 1.00 54.00 C +ATOM 17383 OG SER H 192 41.535 -25.446 34.672 1.00 52.60 O +ATOM 17384 N LEU H 193 40.809 -23.169 36.583 1.00 44.94 N +ATOM 17385 CA LEU H 193 40.061 -21.938 36.388 1.00 48.73 C +ATOM 17386 C LEU H 193 40.814 -21.054 35.406 1.00 48.71 C +ATOM 17387 O LEU H 193 41.936 -21.356 34.993 1.00 50.71 O +ATOM 17388 CB LEU H 193 39.808 -21.221 37.725 1.00 44.94 C +ATOM 17389 CG LEU H 193 40.961 -20.631 38.549 1.00 48.19 C +ATOM 17390 CD1 LEU H 193 41.387 -19.246 38.067 1.00 44.00 C +ATOM 17391 CD2 LEU H 193 40.584 -20.591 40.025 1.00 44.34 C +ATOM 17392 N SER H 194 40.169 -19.959 35.022 1.00 48.59 N +ATOM 17393 CA SER H 194 40.767 -18.963 34.150 1.00 45.76 C +ATOM 17394 C SER H 194 40.523 -17.584 34.741 1.00 45.73 C +ATOM 17395 O SER H 194 39.486 -17.330 35.359 1.00 47.96 O +ATOM 17396 CB SER H 194 40.193 -19.038 32.728 1.00 50.25 C +ATOM 17397 OG SER H 194 40.399 -20.320 32.162 1.00 49.79 O +ATOM 17398 N SER H 195 41.498 -16.699 34.561 1.00 42.60 N +ATOM 17399 CA SER H 195 41.382 -15.313 34.997 1.00 45.97 C +ATOM 17400 C SER H 195 41.719 -14.414 33.820 1.00 44.09 C +ATOM 17401 O SER H 195 42.857 -14.418 33.347 1.00 45.89 O +ATOM 17402 CB SER H 195 42.305 -15.023 36.183 1.00 44.66 C +ATOM 17403 OG SER H 195 42.207 -13.669 36.588 1.00 43.03 O +ATOM 17404 N VAL H 196 40.737 -13.649 33.354 1.00 39.11 N +ATOM 17405 CA VAL H 196 40.900 -12.808 32.178 1.00 43.21 C +ATOM 17406 C VAL H 196 40.850 -11.345 32.597 1.00 43.25 C +ATOM 17407 O VAL H 196 40.362 -10.991 33.673 1.00 43.36 O +ATOM 17408 CB VAL H 196 39.832 -13.108 31.107 1.00 44.88 C +ATOM 17409 CG1 VAL H 196 39.941 -14.550 30.639 1.00 43.44 C +ATOM 17410 CG2 VAL H 196 38.442 -12.828 31.657 1.00 43.30 C +ATOM 17411 N VAL H 197 41.361 -10.484 31.719 1.00 43.25 N +ATOM 17412 CA VAL H 197 41.385 -9.039 31.925 1.00 46.33 C +ATOM 17413 C VAL H 197 41.303 -8.374 30.559 1.00 53.07 C +ATOM 17414 O VAL H 197 41.933 -8.825 29.596 1.00 54.69 O +ATOM 17415 CB VAL H 197 42.662 -8.562 32.662 1.00 50.69 C +ATOM 17416 CG1 VAL H 197 42.658 -7.047 32.818 1.00 51.91 C +ATOM 17417 CG2 VAL H 197 42.822 -9.219 34.021 1.00 53.37 C +ATOM 17418 N THR H 198 40.528 -7.297 30.479 1.00 53.98 N +ATOM 17419 CA THR H 198 40.448 -6.480 29.278 1.00 57.64 C +ATOM 17420 C THR H 198 41.243 -5.197 29.487 1.00 58.28 C +ATOM 17421 O THR H 198 41.139 -4.556 30.538 1.00 57.13 O +ATOM 17422 CB THR H 198 38.996 -6.147 28.931 1.00 54.70 C +ATOM 17423 OG1 THR H 198 38.389 -5.446 30.024 1.00 56.42 O +ATOM 17424 CG2 THR H 198 38.213 -7.421 28.657 1.00 49.98 C +ATOM 17425 N VAL H 199 42.033 -4.831 28.485 1.00 61.49 N +ATOM 17426 CA VAL H 199 42.913 -3.663 28.569 1.00 64.00 C +ATOM 17427 C VAL H 199 42.909 -2.943 27.231 1.00 71.85 C +ATOM 17428 O VAL H 199 42.568 -3.525 26.192 1.00 71.22 O +ATOM 17429 CB VAL H 199 44.357 -4.051 28.955 1.00 59.92 C +ATOM 17430 CG1 VAL H 199 44.401 -4.699 30.330 1.00 59.48 C +ATOM 17431 CG2 VAL H 199 44.955 -4.978 27.910 1.00 61.82 C +ATOM 17432 N PRO H 200 43.277 -1.662 27.224 1.00 71.41 N +ATOM 17433 CA PRO H 200 43.454 -0.964 25.945 1.00 72.91 C +ATOM 17434 C PRO H 200 44.532 -1.635 25.104 1.00 77.02 C +ATOM 17435 O PRO H 200 45.642 -1.893 25.576 1.00 75.92 O +ATOM 17436 CB PRO H 200 43.855 0.457 26.363 1.00 75.07 C +ATOM 17437 CG PRO H 200 44.281 0.344 27.794 1.00 83.25 C +ATOM 17438 CD PRO H 200 43.457 -0.757 28.372 1.00 71.51 C +ATOM 17439 N SER H 201 44.184 -1.930 23.849 1.00 82.05 N +ATOM 17440 CA SER H 201 45.095 -2.658 22.969 1.00 80.26 C +ATOM 17441 C SER H 201 46.396 -1.894 22.755 1.00 82.81 C +ATOM 17442 O SER H 201 47.472 -2.498 22.670 1.00 82.37 O +ATOM 17443 CB SER H 201 44.412 -2.947 21.632 1.00 84.23 C +ATOM 17444 OG SER H 201 43.979 -1.750 21.011 1.00 96.11 O +ATOM 17445 N SER H 202 46.318 -0.564 22.664 1.00 85.68 N +ATOM 17446 CA SER H 202 47.510 0.246 22.438 1.00 87.74 C +ATOM 17447 C SER H 202 48.560 0.066 23.528 1.00 87.49 C +ATOM 17448 O SER H 202 49.740 0.341 23.286 1.00 94.08 O +ATOM 17449 CB SER H 202 47.123 1.722 22.327 1.00 93.30 C +ATOM 17450 OG SER H 202 46.552 2.191 23.537 1.00 92.37 O +ATOM 17451 N SER H 203 48.163 -0.384 24.716 1.00 84.18 N +ATOM 17452 CA SER H 203 49.090 -0.597 25.820 1.00 83.41 C +ATOM 17453 C SER H 203 49.766 -1.963 25.780 1.00 82.21 C +ATOM 17454 O SER H 203 50.612 -2.240 26.636 1.00 81.11 O +ATOM 17455 CB SER H 203 48.367 -0.422 27.160 1.00 78.61 C +ATOM 17456 OG SER H 203 47.403 -1.441 27.357 1.00 76.32 O +ATOM 17457 N LEU H 204 49.411 -2.822 24.818 1.00 80.01 N +ATOM 17458 CA LEU H 204 49.999 -4.159 24.765 1.00 80.53 C +ATOM 17459 C LEU H 204 51.508 -4.113 24.565 1.00 85.40 C +ATOM 17460 O LEU H 204 52.224 -4.997 25.049 1.00 87.22 O +ATOM 17461 CB LEU H 204 49.343 -4.982 23.656 1.00 78.69 C +ATOM 17462 CG LEU H 204 47.896 -5.417 23.886 1.00 75.06 C +ATOM 17463 CD1 LEU H 204 47.365 -6.179 22.681 1.00 77.52 C +ATOM 17464 CD2 LEU H 204 47.787 -6.259 25.148 1.00 71.34 C +ATOM 17465 N GLY H 205 52.011 -3.101 23.859 1.00 84.53 N +ATOM 17466 CA GLY H 205 53.437 -2.970 23.640 1.00 82.66 C +ATOM 17467 C GLY H 205 54.171 -2.105 24.636 1.00 83.29 C +ATOM 17468 O GLY H 205 55.404 -2.132 24.678 1.00 86.71 O +ATOM 17469 N THR H 206 53.444 -1.340 25.449 1.00 84.11 N +ATOM 17470 CA THR H 206 54.041 -0.420 26.409 1.00 86.94 C +ATOM 17471 C THR H 206 53.904 -0.870 27.853 1.00 85.90 C +ATOM 17472 O THR H 206 54.788 -0.580 28.662 1.00 82.21 O +ATOM 17473 CB THR H 206 53.419 0.975 26.269 1.00 90.68 C +ATOM 17474 OG1 THR H 206 52.015 0.904 26.551 1.00 95.94 O +ATOM 17475 CG2 THR H 206 53.618 1.507 24.859 1.00 92.22 C +ATOM 17476 N GLN H 207 52.827 -1.570 28.194 1.00 91.44 N +ATOM 17477 CA GLN H 207 52.548 -1.986 29.560 1.00 82.93 C +ATOM 17478 C GLN H 207 52.763 -3.487 29.696 1.00 78.37 C +ATOM 17479 O GLN H 207 52.480 -4.253 28.769 1.00 78.12 O +ATOM 17480 CB GLN H 207 51.111 -1.625 29.955 1.00 78.37 C +ATOM 17481 CG GLN H 207 50.718 -2.006 31.378 1.00 78.76 C +ATOM 17482 CD GLN H 207 51.444 -1.195 32.432 1.00 88.86 C +ATOM 17483 OE1 GLN H 207 52.241 -1.731 33.203 1.00 90.07 O +ATOM 17484 NE2 GLN H 207 51.164 0.102 32.479 1.00 89.71 N +ATOM 17485 N THR H 208 53.268 -3.899 30.854 1.00 74.91 N +ATOM 17486 CA THR H 208 53.526 -5.300 31.144 1.00 74.65 C +ATOM 17487 C THR H 208 52.434 -5.831 32.062 1.00 71.59 C +ATOM 17488 O THR H 208 52.036 -5.165 33.022 1.00 72.88 O +ATOM 17489 CB THR H 208 54.899 -5.479 31.799 1.00 72.99 C +ATOM 17490 OG1 THR H 208 55.918 -4.999 30.914 1.00 83.69 O +ATOM 17491 CG2 THR H 208 55.162 -6.941 32.108 1.00 68.27 C +ATOM 17492 N TYR H 209 51.955 -7.036 31.763 1.00 67.73 N +ATOM 17493 CA TYR H 209 50.888 -7.669 32.527 1.00 61.26 C +ATOM 17494 C TYR H 209 51.382 -9.014 33.032 1.00 60.53 C +ATOM 17495 O TYR H 209 51.758 -9.881 32.235 1.00 60.57 O +ATOM 17496 CB TYR H 209 49.627 -7.842 31.677 1.00 59.52 C +ATOM 17497 CG TYR H 209 49.047 -6.544 31.168 1.00 62.88 C +ATOM 17498 CD1 TYR H 209 48.274 -5.738 31.993 1.00 62.99 C +ATOM 17499 CD2 TYR H 209 49.264 -6.127 29.861 1.00 65.66 C +ATOM 17500 CE1 TYR H 209 47.740 -4.550 31.535 1.00 62.40 C +ATOM 17501 CE2 TYR H 209 48.731 -4.940 29.392 1.00 66.42 C +ATOM 17502 CZ TYR H 209 47.970 -4.156 30.234 1.00 65.88 C +ATOM 17503 OH TYR H 209 47.437 -2.974 29.775 1.00 70.77 O +ATOM 17504 N ILE H 210 51.378 -9.186 34.350 1.00 59.19 N +ATOM 17505 CA ILE H 210 51.756 -10.437 34.991 1.00 57.63 C +ATOM 17506 C ILE H 210 50.599 -10.872 35.874 1.00 55.96 C +ATOM 17507 O ILE H 210 50.051 -10.062 36.631 1.00 55.96 O +ATOM 17508 CB ILE H 210 53.042 -10.301 35.828 1.00 54.98 C +ATOM 17509 CG1 ILE H 210 54.173 -9.684 35.007 1.00 58.15 C +ATOM 17510 CG2 ILE H 210 53.467 -11.656 36.379 1.00 54.83 C +ATOM 17511 CD1 ILE H 210 54.428 -8.232 35.347 1.00 62.85 C +ATOM 17512 N CYS H 211 50.230 -12.142 35.778 1.00 54.27 N +ATOM 17513 CA CYS H 211 49.238 -12.723 36.667 1.00 55.05 C +ATOM 17514 C CYS H 211 49.968 -13.467 37.776 1.00 56.72 C +ATOM 17515 O CYS H 211 50.911 -14.222 37.513 1.00 58.15 O +ATOM 17516 CB CYS H 211 48.284 -13.649 35.908 1.00 53.63 C +ATOM 17517 SG CYS H 211 48.973 -15.237 35.404 1.00 64.14 S +ATOM 17518 N ASN H 212 49.552 -13.222 39.012 1.00 54.77 N +ATOM 17519 CA ASN H 212 50.177 -13.795 40.195 1.00 54.99 C +ATOM 17520 C ASN H 212 49.214 -14.823 40.770 1.00 54.20 C +ATOM 17521 O ASN H 212 48.139 -14.467 41.263 1.00 53.60 O +ATOM 17522 CB ASN H 212 50.505 -12.709 41.217 1.00 55.78 C +ATOM 17523 CG ASN H 212 50.991 -11.428 40.568 1.00 55.32 C +ATOM 17524 OD1 ASN H 212 50.305 -10.406 40.596 1.00 53.71 O +ATOM 17525 ND2 ASN H 212 52.177 -11.478 39.974 1.00 56.78 N +ATOM 17526 N VAL H 213 49.595 -16.090 40.688 1.00 54.82 N +ATOM 17527 CA VAL H 213 48.809 -17.196 41.216 1.00 53.39 C +ATOM 17528 C VAL H 213 49.454 -17.662 42.511 1.00 53.64 C +ATOM 17529 O VAL H 213 50.685 -17.729 42.619 1.00 54.62 O +ATOM 17530 CB VAL H 213 48.717 -18.340 40.188 1.00 51.35 C +ATOM 17531 CG1 VAL H 213 47.862 -19.478 40.718 1.00 50.82 C +ATOM 17532 CG2 VAL H 213 48.163 -17.817 38.873 1.00 47.96 C +ATOM 17533 N ASN H 214 48.626 -17.973 43.504 1.00 59.61 N +ATOM 17534 CA ASN H 214 49.118 -18.418 44.801 1.00 58.22 C +ATOM 17535 C ASN H 214 48.240 -19.558 45.286 1.00 55.01 C +ATOM 17536 O ASN H 214 47.039 -19.369 45.509 1.00 58.69 O +ATOM 17537 CB ASN H 214 49.124 -17.268 45.813 1.00 60.50 C +ATOM 17538 CG ASN H 214 49.818 -17.636 47.109 1.00 72.01 C +ATOM 17539 OD1 ASN H 214 50.714 -18.480 47.128 1.00 72.87 O +ATOM 17540 ND2 ASN H 214 49.406 -17.003 48.201 1.00 86.27 N +ATOM 17541 N HIS H 215 48.839 -20.737 45.429 1.00 51.59 N +ATOM 17542 CA HIS H 215 48.176 -21.929 45.950 1.00 53.85 C +ATOM 17543 C HIS H 215 48.926 -22.329 47.217 1.00 55.69 C +ATOM 17544 O HIS H 215 50.000 -22.935 47.148 1.00 56.72 O +ATOM 17545 CB HIS H 215 48.166 -23.047 44.910 1.00 51.12 C +ATOM 17546 CG HIS H 215 47.366 -24.245 45.314 1.00 51.55 C +ATOM 17547 ND1 HIS H 215 47.931 -25.487 45.505 1.00 54.28 N +ATOM 17548 CD2 HIS H 215 46.042 -24.394 45.558 1.00 49.98 C +ATOM 17549 CE1 HIS H 215 46.991 -26.349 45.851 1.00 52.75 C +ATOM 17550 NE2 HIS H 215 45.836 -25.711 45.890 1.00 50.69 N +ATOM 17551 N LYS H 216 48.359 -21.987 48.371 1.00 56.49 N +ATOM 17552 CA LYS H 216 49.006 -22.190 49.663 1.00 57.35 C +ATOM 17553 C LYS H 216 49.094 -23.658 50.086 1.00 54.97 C +ATOM 17554 O LYS H 216 50.114 -24.052 50.666 1.00 53.85 O +ATOM 17555 CB LYS H 216 48.293 -21.367 50.740 1.00 51.74 C +ATOM 17556 CG LYS H 216 48.435 -19.866 50.536 1.00 55.95 C +ATOM 17557 CD LYS H 216 47.976 -19.080 51.752 1.00 63.76 C +ATOM 17558 CE LYS H 216 48.240 -17.593 51.568 1.00 72.03 C +ATOM 17559 NZ LYS H 216 47.860 -16.801 52.769 1.00 80.19 N +ATOM 17560 N PRO H 217 48.070 -24.493 49.855 1.00 51.85 N +ATOM 17561 CA PRO H 217 48.220 -25.922 50.188 1.00 50.38 C +ATOM 17562 C PRO H 217 49.444 -26.580 49.568 1.00 53.75 C +ATOM 17563 O PRO H 217 50.030 -27.481 50.182 1.00 53.49 O +ATOM 17564 CB PRO H 217 46.920 -26.539 49.656 1.00 50.41 C +ATOM 17565 CG PRO H 217 45.934 -25.449 49.762 1.00 51.34 C +ATOM 17566 CD PRO H 217 46.681 -24.181 49.461 1.00 50.77 C +ATOM 17567 N SER H 218 49.848 -26.161 48.372 1.00 56.23 N +ATOM 17568 CA SER H 218 51.031 -26.692 47.711 1.00 55.65 C +ATOM 17569 C SER H 218 52.262 -25.814 47.883 1.00 54.32 C +ATOM 17570 O SER H 218 53.338 -26.190 47.406 1.00 53.93 O +ATOM 17571 CB SER H 218 50.755 -26.896 46.218 1.00 57.55 C +ATOM 17572 OG SER H 218 50.573 -25.654 45.560 1.00 55.90 O +ATOM 17573 N ASN H 219 52.130 -24.657 48.536 1.00 55.06 N +ATOM 17574 CA ASN H 219 53.241 -23.718 48.700 1.00 59.81 C +ATOM 17575 C ASN H 219 53.753 -23.266 47.336 1.00 62.76 C +ATOM 17576 O ASN H 219 54.958 -23.225 47.077 1.00 64.86 O +ATOM 17577 CB ASN H 219 54.366 -24.321 49.549 1.00 67.33 C +ATOM 17578 CG ASN H 219 55.421 -23.302 49.932 1.00 77.56 C +ATOM 17579 OD1 ASN H 219 56.543 -23.333 49.425 1.00 74.24 O +ATOM 17580 ND2 ASN H 219 55.058 -22.379 50.813 1.00 83.94 N +ATOM 17581 N THR H 220 52.820 -22.938 46.448 1.00 61.23 N +ATOM 17582 CA THR H 220 53.128 -22.533 45.085 1.00 55.54 C +ATOM 17583 C THR H 220 52.847 -21.045 44.923 1.00 57.56 C +ATOM 17584 O THR H 220 51.705 -20.604 45.086 1.00 59.39 O +ATOM 17585 CB THR H 220 52.301 -23.348 44.092 1.00 55.74 C +ATOM 17586 OG1 THR H 220 52.425 -24.742 44.399 1.00 56.23 O +ATOM 17587 CG2 THR H 220 52.782 -23.115 42.684 1.00 63.42 C +ATOM 17588 N LYS H 221 53.887 -20.276 44.611 1.00 59.44 N +ATOM 17589 CA LYS H 221 53.779 -18.837 44.384 1.00 61.34 C +ATOM 17590 C LYS H 221 54.295 -18.574 42.970 1.00 60.70 C +ATOM 17591 O LYS H 221 55.494 -18.370 42.765 1.00 61.95 O +ATOM 17592 CB LYS H 221 54.562 -18.055 45.447 1.00 66.68 C +ATOM 17593 CG LYS H 221 53.828 -16.844 46.006 1.00 68.35 C +ATOM 17594 CD LYS H 221 54.523 -16.287 47.244 1.00 70.55 C +ATOM 17595 CE LYS H 221 54.393 -17.231 48.433 1.00 76.83 C +ATOM 17596 NZ LYS H 221 55.096 -16.713 49.643 1.00 72.17 N +ATOM 17597 N VAL H 222 53.387 -18.573 41.995 1.00 58.73 N +ATOM 17598 CA VAL H 222 53.742 -18.469 40.585 1.00 58.32 C +ATOM 17599 C VAL H 222 53.423 -17.071 40.075 1.00 57.12 C +ATOM 17600 O VAL H 222 52.447 -16.438 40.488 1.00 57.93 O +ATOM 17601 CB VAL H 222 53.012 -19.543 39.746 1.00 56.33 C +ATOM 17602 CG1 VAL H 222 53.250 -19.343 38.258 1.00 57.59 C +ATOM 17603 CG2 VAL H 222 53.487 -20.917 40.143 1.00 59.35 C +ATOM 17604 N ASP H 223 54.266 -16.592 39.165 1.00 54.39 N +ATOM 17605 CA ASP H 223 54.017 -15.380 38.404 1.00 55.80 C +ATOM 17606 C ASP H 223 54.178 -15.718 36.930 1.00 56.23 C +ATOM 17607 O ASP H 223 55.100 -16.446 36.554 1.00 56.03 O +ATOM 17608 CB ASP H 223 54.974 -14.251 38.801 1.00 53.28 C +ATOM 17609 CG ASP H 223 54.861 -13.880 40.266 1.00 58.19 C +ATOM 17610 OD1 ASP H 223 53.724 -13.820 40.779 1.00 57.30 O +ATOM 17611 OD2 ASP H 223 55.910 -13.648 40.903 1.00 57.84 O +ATOM 17612 N LYS H 224 53.263 -15.226 36.100 1.00 57.90 N +ATOM 17613 CA LYS H 224 53.290 -15.543 34.676 1.00 57.95 C +ATOM 17614 C LYS H 224 53.060 -14.271 33.879 1.00 57.47 C +ATOM 17615 O LYS H 224 52.038 -13.603 34.055 1.00 58.21 O +ATOM 17616 CB LYS H 224 52.244 -16.602 34.317 1.00 55.69 C +ATOM 17617 CG LYS H 224 52.480 -17.251 32.961 1.00 57.34 C +ATOM 17618 CD LYS H 224 53.563 -18.315 33.039 1.00 60.83 C +ATOM 17619 CE LYS H 224 53.896 -18.870 31.663 1.00 64.73 C +ATOM 17620 NZ LYS H 224 54.805 -20.047 31.743 1.00 71.11 N +ATOM 17621 N LYS H 225 54.012 -13.938 33.014 1.00 58.30 N +ATOM 17622 CA LYS H 225 53.855 -12.807 32.114 1.00 57.80 C +ATOM 17623 C LYS H 225 53.059 -13.234 30.889 1.00 58.14 C +ATOM 17624 O LYS H 225 53.300 -14.300 30.316 1.00 59.24 O +ATOM 17625 CB LYS H 225 55.222 -12.268 31.692 1.00 59.02 C +ATOM 17626 CG LYS H 225 55.170 -11.007 30.846 1.00 62.22 C +ATOM 17627 CD LYS H 225 56.566 -10.564 30.432 1.00 69.97 C +ATOM 17628 CE LYS H 225 56.538 -9.224 29.714 1.00 68.08 C +ATOM 17629 NZ LYS H 225 55.206 -8.921 29.128 1.00 71.69 N +ATOM 17630 N VAL H 226 52.101 -12.402 30.495 1.00 57.60 N +ATOM 17631 CA VAL H 226 51.242 -12.674 29.348 1.00 58.35 C +ATOM 17632 C VAL H 226 51.594 -11.667 28.263 1.00 59.57 C +ATOM 17633 O VAL H 226 51.347 -10.464 28.414 1.00 58.65 O +ATOM 17634 CB VAL H 226 49.756 -12.601 29.720 1.00 56.44 C +ATOM 17635 CG1 VAL H 226 48.890 -12.948 28.518 1.00 55.48 C +ATOM 17636 CG2 VAL H 226 49.459 -13.529 30.889 1.00 52.78 C +ATOM 17637 N GLU H 227 52.169 -12.157 27.166 1.00 59.58 N +ATOM 17638 CA GLU H 227 52.626 -11.327 26.065 1.00 59.95 C +ATOM 17639 C GLU H 227 51.842 -11.638 24.796 1.00 62.79 C +ATOM 17640 O GLU H 227 51.378 -12.768 24.612 1.00 63.99 O +ATOM 17641 CB GLU H 227 54.119 -11.547 25.793 1.00 65.26 C +ATOM 17642 CG GLU H 227 55.017 -11.270 26.980 1.00 67.23 C +ATOM 17643 CD GLU H 227 56.463 -11.628 26.710 1.00 74.69 C +ATOM 17644 OE1 GLU H 227 57.264 -10.706 26.448 1.00 78.64 O +ATOM 17645 OE2 GLU H 227 56.793 -12.832 26.739 1.00 78.62 O +ATOM 17646 N PRO H 228 51.675 -10.661 23.904 1.00 65.22 N +ATOM 17647 CA PRO H 228 51.095 -10.955 22.583 1.00 67.75 C +ATOM 17648 C PRO H 228 52.032 -11.857 21.791 1.00 69.98 C +ATOM 17649 O PRO H 228 53.177 -11.492 21.517 1.00 72.99 O +ATOM 17650 CB PRO H 228 50.952 -9.571 21.940 1.00 65.61 C +ATOM 17651 CG PRO H 228 51.952 -8.718 22.655 1.00 65.02 C +ATOM 17652 CD PRO H 228 51.980 -9.230 24.066 1.00 64.70 C +ATOM 17653 N LYS H 229 51.545 -13.044 21.437 1.00 73.25 N +ATOM 17654 CA LYS H 229 52.379 -14.026 20.755 1.00 82.60 C +ATOM 17655 C LYS H 229 52.753 -13.546 19.356 1.00 91.71 C +ATOM 17656 O LYS H 229 51.879 -13.320 18.512 1.00 99.76 O +ATOM 17657 CB LYS H 229 51.655 -15.368 20.681 1.00 84.31 C +ATOM 17658 CG LYS H 229 52.582 -16.568 20.585 1.00 86.01 C +ATOM 17659 CD LYS H 229 51.800 -17.871 20.610 1.00 92.27 C +ATOM 17660 CE LYS H 229 52.720 -19.073 20.470 1.00 85.51 C +ATOM 17661 NZ LYS H 229 52.057 -20.196 19.751 1.00 83.42 N +ATOM 17662 N SER H 230 54.052 -13.393 19.119 1.00 92.72 N +ATOM 17663 CA SER H 230 54.576 -12.914 17.849 1.00103.52 C +ATOM 17664 C SER H 230 54.696 -14.067 16.853 1.00108.69 C +ATOM 17665 O SER H 230 54.687 -15.245 17.220 1.00107.17 O +ATOM 17666 CB SER H 230 55.933 -12.237 18.043 1.00105.81 C +ATOM 17667 OG SER H 230 56.490 -11.852 16.798 1.00110.40 O +ATOM 17668 N CYS H 231 54.811 -13.713 15.577 1.00110.57 N +ATOM 17669 CA CYS H 231 54.931 -14.713 14.522 1.00116.12 C +ATOM 17670 C CYS H 231 56.398 -15.003 14.215 1.00116.16 C +ATOM 17671 O CYS H 231 57.134 -14.126 13.763 1.00114.55 O +ATOM 17672 CB CYS H 231 54.214 -14.252 13.252 1.00116.44 C +ATOM 17673 SG CYS H 231 52.458 -13.890 13.468 1.00120.50 S +ATOM 17674 N ASP L 1 15.373 -26.939 68.731 1.00 81.60 N +ATOM 17675 CA ASP L 1 15.991 -25.855 67.978 1.00 77.10 C +ATOM 17676 C ASP L 1 14.927 -24.977 67.325 1.00 71.51 C +ATOM 17677 O ASP L 1 13.839 -25.449 66.996 1.00 75.98 O +ATOM 17678 CB ASP L 1 16.939 -26.414 66.916 1.00 83.19 C +ATOM 17679 CG ASP L 1 18.065 -27.234 67.514 1.00 96.49 C +ATOM 17680 OD1 ASP L 1 18.074 -27.425 68.749 1.00 91.18 O +ATOM 17681 OD2 ASP L 1 18.941 -27.689 66.750 1.00109.31 O +ATOM 17682 N ILE L 2 15.246 -23.700 67.141 1.00 61.79 N +ATOM 17683 CA ILE L 2 14.370 -22.757 66.455 1.00 58.10 C +ATOM 17684 C ILE L 2 14.792 -22.685 64.995 1.00 56.46 C +ATOM 17685 O ILE L 2 15.933 -22.318 64.688 1.00 53.61 O +ATOM 17686 CB ILE L 2 14.414 -21.370 67.114 1.00 55.87 C +ATOM 17687 CG1 ILE L 2 13.753 -21.417 68.492 1.00 59.12 C +ATOM 17688 CG2 ILE L 2 13.729 -20.338 66.229 1.00 51.77 C +ATOM 17689 CD1 ILE L 2 13.849 -20.119 69.261 1.00 53.45 C +ATOM 17690 N VAL L 3 13.879 -23.035 64.095 1.00 55.41 N +ATOM 17691 CA VAL L 3 14.170 -23.086 62.667 1.00 54.71 C +ATOM 17692 C VAL L 3 13.792 -21.754 62.033 1.00 53.57 C +ATOM 17693 O VAL L 3 12.653 -21.289 62.170 1.00 53.99 O +ATOM 17694 CB VAL L 3 13.423 -24.248 61.993 1.00 52.06 C +ATOM 17695 CG1 VAL L 3 13.563 -24.162 60.482 1.00 51.30 C +ATOM 17696 CG2 VAL L 3 13.951 -25.580 62.502 1.00 55.93 C +ATOM 17697 N MET L 4 14.745 -21.140 61.338 1.00 51.71 N +ATOM 17698 CA MET L 4 14.507 -19.918 60.583 1.00 54.25 C +ATOM 17699 C MET L 4 14.371 -20.268 59.107 1.00 55.34 C +ATOM 17700 O MET L 4 15.238 -20.945 58.543 1.00 61.63 O +ATOM 17701 CB MET L 4 15.645 -18.917 60.788 1.00 52.52 C +ATOM 17702 CG MET L 4 15.963 -18.621 62.245 1.00 50.46 C +ATOM 17703 SD MET L 4 14.547 -17.982 63.155 1.00 54.10 S +ATOM 17704 CE MET L 4 14.458 -16.312 62.518 1.00 45.02 C +ATOM 17705 N THR L 5 13.285 -19.810 58.487 1.00 54.50 N +ATOM 17706 CA THR L 5 12.974 -20.146 57.104 1.00 55.29 C +ATOM 17707 C THR L 5 12.779 -18.863 56.315 1.00 56.83 C +ATOM 17708 O THR L 5 11.924 -18.041 56.664 1.00 56.22 O +ATOM 17709 CB THR L 5 11.721 -21.022 57.015 1.00 53.60 C +ATOM 17710 OG1 THR L 5 11.876 -22.167 57.862 1.00 59.20 O +ATOM 17711 CG2 THR L 5 11.493 -21.484 55.584 1.00 55.05 C +ATOM 17712 N GLN L 6 13.571 -18.689 55.264 1.00 56.67 N +ATOM 17713 CA GLN L 6 13.416 -17.571 54.345 1.00 58.98 C +ATOM 17714 C GLN L 6 12.619 -18.059 53.142 1.00 65.75 C +ATOM 17715 O GLN L 6 13.001 -19.041 52.496 1.00 65.11 O +ATOM 17716 CB GLN L 6 14.776 -17.010 53.931 1.00 52.00 C +ATOM 17717 CG GLN L 6 15.531 -16.377 55.092 1.00 52.16 C +ATOM 17718 CD GLN L 6 16.866 -15.788 54.688 1.00 50.46 C +ATOM 17719 OE1 GLN L 6 17.891 -16.062 55.314 1.00 49.42 O +ATOM 17720 NE2 GLN L 6 16.862 -14.969 53.644 1.00 51.53 N +ATOM 17721 N SER L 7 11.504 -17.378 52.860 1.00 76.53 N +ATOM 17722 CA SER L 7 10.534 -17.883 51.892 1.00 82.04 C +ATOM 17723 C SER L 7 11.168 -18.099 50.524 1.00 79.98 C +ATOM 17724 O SER L 7 11.012 -19.164 49.915 1.00 83.58 O +ATOM 17725 CB SER L 7 9.351 -16.920 51.789 1.00 89.15 C +ATOM 17726 OG SER L 7 9.781 -15.630 51.390 1.00 91.16 O +ATOM 17727 N HIS L 8 11.890 -17.103 50.025 1.00 73.75 N +ATOM 17728 CA HIS L 8 12.450 -17.146 48.684 1.00 67.21 C +ATOM 17729 C HIS L 8 13.956 -17.343 48.760 1.00 61.07 C +ATOM 17730 O HIS L 8 14.646 -16.636 49.502 1.00 60.99 O +ATOM 17731 CB HIS L 8 12.114 -15.867 47.915 1.00 67.97 C +ATOM 17732 CG HIS L 8 10.646 -15.658 47.714 1.00 72.21 C +ATOM 17733 ND1 HIS L 8 9.912 -14.765 48.464 1.00 88.02 N +ATOM 17734 CD2 HIS L 8 9.773 -16.235 46.855 1.00 73.56 C +ATOM 17735 CE1 HIS L 8 8.651 -14.796 48.073 1.00 75.67 C +ATOM 17736 NE2 HIS L 8 8.540 -15.680 47.098 1.00 75.95 N +ATOM 17737 N LYS L 9 14.455 -18.308 47.988 1.00 59.90 N +ATOM 17738 CA LYS L 9 15.887 -18.565 47.897 1.00 54.43 C +ATOM 17739 C LYS L 9 16.568 -17.623 46.912 1.00 53.32 C +ATOM 17740 O LYS L 9 17.756 -17.321 47.068 1.00 49.26 O +ATOM 17741 CB LYS L 9 16.158 -20.020 47.484 1.00 53.87 C +ATOM 17742 CG LYS L 9 15.357 -20.555 46.269 1.00 82.77 C +ATOM 17743 CD LYS L 9 13.863 -20.783 46.532 1.00 74.87 C +ATOM 17744 CE LYS L 9 13.120 -21.175 45.269 1.00 57.14 C +ATOM 17745 NZ LYS L 9 12.805 -19.965 44.464 1.00 49.36 N +ATOM 17746 N PHE L 10 15.842 -17.170 45.892 1.00 54.78 N +ATOM 17747 CA PHE L 10 16.351 -16.221 44.913 1.00 50.52 C +ATOM 17748 C PHE L 10 15.328 -15.114 44.714 1.00 47.53 C +ATOM 17749 O PHE L 10 14.119 -15.364 44.733 1.00 53.63 O +ATOM 17750 CB PHE L 10 16.657 -16.895 43.569 1.00 50.87 C +ATOM 17751 CG PHE L 10 17.691 -17.979 43.654 1.00 51.24 C +ATOM 17752 CD1 PHE L 10 19.041 -17.670 43.644 1.00 54.73 C +ATOM 17753 CD2 PHE L 10 17.315 -19.309 43.732 1.00 50.21 C +ATOM 17754 CE1 PHE L 10 19.996 -18.667 43.721 1.00 55.65 C +ATOM 17755 CE2 PHE L 10 18.263 -20.310 43.809 1.00 50.44 C +ATOM 17756 CZ PHE L 10 19.605 -19.989 43.803 1.00 51.79 C +ATOM 17757 N MET L 11 15.818 -13.892 44.528 1.00 43.94 N +ATOM 17758 CA MET L 11 14.964 -12.747 44.253 1.00 45.04 C +ATOM 17759 C MET L 11 15.610 -11.883 43.182 1.00 48.62 C +ATOM 17760 O MET L 11 16.817 -11.629 43.222 1.00 49.23 O +ATOM 17761 CB MET L 11 14.711 -11.906 45.511 1.00 45.72 C +ATOM 17762 CG MET L 11 13.640 -12.457 46.438 1.00 51.38 C +ATOM 17763 SD MET L 11 13.041 -11.201 47.587 1.00 64.21 S +ATOM 17764 CE MET L 11 11.942 -12.169 48.616 1.00 62.15 C +ATOM 17765 N SER L 12 14.799 -11.430 42.232 1.00 50.24 N +ATOM 17766 CA SER L 12 15.251 -10.564 41.155 1.00 49.85 C +ATOM 17767 C SER L 12 14.631 -9.186 41.325 1.00 48.11 C +ATOM 17768 O SER L 12 13.459 -9.065 41.696 1.00 50.14 O +ATOM 17769 CB SER L 12 14.879 -11.145 39.789 1.00 53.16 C +ATOM 17770 OG SER L 12 15.114 -10.208 38.752 1.00 65.20 O +ATOM 17771 N THR L 13 15.421 -8.148 41.060 1.00 46.29 N +ATOM 17772 CA THR L 13 14.939 -6.786 41.225 1.00 46.46 C +ATOM 17773 C THR L 13 15.673 -5.853 40.276 1.00 45.27 C +ATOM 17774 O THR L 13 16.782 -6.140 39.816 1.00 47.02 O +ATOM 17775 CB THR L 13 15.112 -6.297 42.663 1.00 48.46 C +ATOM 17776 OG1 THR L 13 14.406 -5.061 42.835 1.00 51.70 O +ATOM 17777 CG2 THR L 13 16.584 -6.078 42.983 1.00 47.65 C +ATOM 17778 N LEU L 14 15.025 -4.733 39.981 1.00 45.03 N +ATOM 17779 CA LEU L 14 15.622 -3.671 39.191 1.00 46.43 C +ATOM 17780 C LEU L 14 16.348 -2.689 40.103 1.00 46.88 C +ATOM 17781 O LEU L 14 16.032 -2.563 41.289 1.00 46.11 O +ATOM 17782 CB LEU L 14 14.548 -2.945 38.379 1.00 43.24 C +ATOM 17783 CG LEU L 14 13.736 -3.838 37.437 1.00 39.87 C +ATOM 17784 CD1 LEU L 14 12.510 -3.107 36.916 1.00 40.26 C +ATOM 17785 CD2 LEU L 14 14.597 -4.333 36.288 1.00 48.66 C +ATOM 17786 N VAL L 15 17.336 -1.994 39.537 1.00 44.92 N +ATOM 17787 CA VAL L 15 18.054 -0.974 40.290 1.00 44.83 C +ATOM 17788 C VAL L 15 17.131 0.209 40.548 1.00 45.72 C +ATOM 17789 O VAL L 15 16.389 0.648 39.660 1.00 44.56 O +ATOM 17790 CB VAL L 15 19.325 -0.548 39.536 1.00 39.24 C +ATOM 17791 CG1 VAL L 15 19.915 0.717 40.139 1.00 39.90 C +ATOM 17792 CG2 VAL L 15 20.350 -1.675 39.554 1.00 41.67 C +ATOM 17793 N GLY L 16 17.170 0.732 41.773 1.00 46.39 N +ATOM 17794 CA GLY L 16 16.269 1.788 42.179 1.00 48.25 C +ATOM 17795 C GLY L 16 14.923 1.317 42.677 1.00 49.95 C +ATOM 17796 O GLY L 16 14.097 2.152 43.068 1.00 50.61 O +ATOM 17797 N ASP L 17 14.675 0.013 42.674 1.00 50.13 N +ATOM 17798 CA ASP L 17 13.404 -0.551 43.092 1.00 50.19 C +ATOM 17799 C ASP L 17 13.488 -0.959 44.564 1.00 53.89 C +ATOM 17800 O ASP L 17 14.561 -0.963 45.172 1.00 54.97 O +ATOM 17801 CB ASP L 17 13.062 -1.752 42.206 1.00 50.49 C +ATOM 17802 CG ASP L 17 11.581 -1.866 41.907 1.00 52.99 C +ATOM 17803 OD1 ASP L 17 10.785 -1.092 42.478 1.00 61.32 O +ATOM 17804 OD2 ASP L 17 11.218 -2.727 41.076 1.00 51.92 O +ATOM 17805 N ARG L 18 12.340 -1.300 45.140 1.00 53.35 N +ATOM 17806 CA ARG L 18 12.295 -1.793 46.509 1.00 52.40 C +ATOM 17807 C ARG L 18 12.375 -3.317 46.527 1.00 51.36 C +ATOM 17808 O ARG L 18 12.008 -3.993 45.564 1.00 51.93 O +ATOM 17809 CB ARG L 18 11.027 -1.321 47.224 1.00 65.52 C +ATOM 17810 CG ARG L 18 10.950 0.185 47.430 1.00 82.16 C +ATOM 17811 CD ARG L 18 9.728 0.574 48.242 1.00 94.55 C +ATOM 17812 NE ARG L 18 9.691 -0.076 49.550 1.00 97.52 N +ATOM 17813 CZ ARG L 18 8.637 -0.044 50.358 1.00110.63 C +ATOM 17814 NH1 ARG L 18 7.545 0.610 49.987 1.00108.23 N +ATOM 17815 NH2 ARG L 18 8.670 -0.660 51.531 1.00 98.39 N +ATOM 17816 N VAL L 19 12.839 -3.854 47.655 1.00 49.61 N +ATOM 17817 CA VAL L 19 12.897 -5.301 47.864 1.00 50.74 C +ATOM 17818 C VAL L 19 12.614 -5.582 49.330 1.00 49.39 C +ATOM 17819 O VAL L 19 13.093 -4.871 50.217 1.00 46.53 O +ATOM 17820 CB VAL L 19 14.266 -5.906 47.467 1.00 48.24 C +ATOM 17821 CG1 VAL L 19 14.317 -7.393 47.799 1.00 51.26 C +ATOM 17822 CG2 VAL L 19 14.542 -5.718 46.007 1.00 48.62 C +ATOM 17823 N SER L 20 11.828 -6.626 49.580 1.00 48.55 N +ATOM 17824 CA SER L 20 11.484 -7.033 50.938 1.00 51.28 C +ATOM 17825 C SER L 20 11.616 -8.547 51.028 1.00 55.01 C +ATOM 17826 O SER L 20 10.826 -9.281 50.427 1.00 55.24 O +ATOM 17827 CB SER L 20 10.073 -6.583 51.312 1.00 48.65 C +ATOM 17828 OG SER L 20 9.976 -5.170 51.332 1.00 49.55 O +ATOM 17829 N ILE L 21 12.610 -9.003 51.775 1.00 52.04 N +ATOM 17830 CA ILE L 21 12.822 -10.418 52.044 1.00 52.06 C +ATOM 17831 C ILE L 21 12.151 -10.754 53.365 1.00 52.29 C +ATOM 17832 O ILE L 21 12.263 -10.005 54.343 1.00 51.83 O +ATOM 17833 CB ILE L 21 14.326 -10.749 52.082 1.00 53.21 C +ATOM 17834 CG1 ILE L 21 15.018 -10.247 50.813 1.00 55.59 C +ATOM 17835 CG2 ILE L 21 14.544 -12.244 52.260 1.00 53.16 C +ATOM 17836 CD1 ILE L 21 16.528 -10.338 50.867 1.00 50.13 C +ATOM 17837 N THR L 22 11.454 -11.884 53.404 1.00 51.63 N +ATOM 17838 CA THR L 22 10.734 -12.303 54.595 1.00 52.99 C +ATOM 17839 C THR L 22 11.449 -13.474 55.252 1.00 54.32 C +ATOM 17840 O THR L 22 12.151 -14.248 54.595 1.00 54.89 O +ATOM 17841 CB THR L 22 9.288 -12.698 54.271 1.00 53.71 C +ATOM 17842 OG1 THR L 22 9.278 -13.905 53.501 1.00 54.14 O +ATOM 17843 CG2 THR L 22 8.596 -11.592 53.488 1.00 58.38 C +ATOM 17844 N CYS L 23 11.261 -13.590 56.563 1.00 55.00 N +ATOM 17845 CA CYS L 23 11.900 -14.635 57.347 1.00 52.28 C +ATOM 17846 C CYS L 23 10.965 -15.003 58.487 1.00 53.26 C +ATOM 17847 O CYS L 23 10.512 -14.129 59.237 1.00 58.68 O +ATOM 17848 CB CYS L 23 13.266 -14.168 57.867 1.00 53.07 C +ATOM 17849 SG CYS L 23 14.059 -15.192 59.131 1.00 60.82 S +ATOM 17850 N LYS L 24 10.661 -16.294 58.596 1.00 52.06 N +ATOM 17851 CA LYS L 24 9.710 -16.801 59.571 1.00 54.99 C +ATOM 17852 C LYS L 24 10.415 -17.747 60.531 1.00 56.67 C +ATOM 17853 O LYS L 24 11.230 -18.578 60.118 1.00 56.16 O +ATOM 17854 CB LYS L 24 8.543 -17.520 58.886 1.00 56.84 C +ATOM 17855 CG LYS L 24 7.335 -17.716 59.785 1.00 66.65 C +ATOM 17856 CD LYS L 24 6.193 -18.398 59.052 1.00 73.92 C +ATOM 17857 CE LYS L 24 4.975 -18.529 59.952 1.00 80.12 C +ATOM 17858 NZ LYS L 24 5.319 -19.159 61.258 1.00 77.97 N +ATOM 17859 N ALA L 25 10.093 -17.619 61.813 1.00 56.39 N +ATOM 17860 CA ALA L 25 10.674 -18.455 62.851 1.00 53.10 C +ATOM 17861 C ALA L 25 9.675 -19.526 63.263 1.00 53.64 C +ATOM 17862 O ALA L 25 8.465 -19.283 63.296 1.00 59.11 O +ATOM 17863 CB ALA L 25 11.078 -17.616 64.065 1.00 52.77 C +ATOM 17864 N SER L 26 10.190 -20.718 63.572 1.00 50.76 N +ATOM 17865 CA SER L 26 9.322 -21.813 63.987 1.00 52.87 C +ATOM 17866 C SER L 26 8.673 -21.549 65.337 1.00 57.95 C +ATOM 17867 O SER L 26 7.607 -22.105 65.619 1.00 64.05 O +ATOM 17868 CB SER L 26 10.114 -23.120 64.034 1.00 54.68 C +ATOM 17869 OG SER L 26 11.154 -23.046 64.992 1.00 58.38 O +ATOM 17870 N GLN L 27 9.289 -20.717 66.171 1.00 56.69 N +ATOM 17871 CA GLN L 27 8.757 -20.352 67.473 1.00 54.76 C +ATOM 17872 C GLN L 27 8.876 -18.845 67.649 1.00 53.97 C +ATOM 17873 O GLN L 27 9.512 -18.152 66.850 1.00 55.01 O +ATOM 17874 CB GLN L 27 9.489 -21.084 68.606 1.00 56.38 C +ATOM 17875 CG GLN L 27 9.263 -22.583 68.620 1.00 62.81 C +ATOM 17876 CD GLN L 27 10.266 -23.313 69.489 1.00 67.63 C +ATOM 17877 OE1 GLN L 27 10.530 -22.912 70.623 1.00 65.92 O +ATOM 17878 NE2 GLN L 27 10.830 -24.393 68.962 1.00 72.39 N +ATOM 17879 N ASP L 28 8.248 -18.335 68.703 1.00 56.53 N +ATOM 17880 CA ASP L 28 8.359 -16.917 69.009 1.00 56.97 C +ATOM 17881 C ASP L 28 9.783 -16.594 69.441 1.00 56.12 C +ATOM 17882 O ASP L 28 10.332 -17.234 70.342 1.00 59.65 O +ATOM 17883 CB ASP L 28 7.365 -16.526 70.104 1.00 58.76 C +ATOM 17884 CG ASP L 28 7.237 -15.017 70.273 1.00 62.40 C +ATOM 17885 OD1 ASP L 28 8.273 -14.321 70.338 1.00 60.62 O +ATOM 17886 OD2 ASP L 28 6.092 -14.524 70.340 1.00 76.91 O +ATOM 17887 N VAL L 29 10.378 -15.595 68.795 1.00 52.88 N +ATOM 17888 CA VAL L 29 11.723 -15.134 69.106 1.00 51.80 C +ATOM 17889 C VAL L 29 11.724 -13.643 69.434 1.00 51.49 C +ATOM 17890 O VAL L 29 12.748 -12.977 69.308 1.00 49.31 O +ATOM 17891 CB VAL L 29 12.704 -15.456 67.960 1.00 50.27 C +ATOM 17892 CG1 VAL L 29 12.833 -16.958 67.768 1.00 51.66 C +ATOM 17893 CG2 VAL L 29 12.254 -14.792 66.668 1.00 50.37 C +ATOM 17894 N SER L 36 10.573 -13.127 69.875 1.00 52.18 N +ATOM 17895 CA SER L 36 10.393 -11.724 70.228 1.00 49.51 C +ATOM 17896 C SER L 36 10.827 -10.821 69.081 1.00 49.80 C +ATOM 17897 O SER L 36 10.526 -11.095 67.915 1.00 51.58 O +ATOM 17898 CB SER L 36 11.161 -11.384 71.508 1.00 51.44 C +ATOM 17899 OG SER L 36 10.991 -10.021 71.855 1.00 53.08 O +ATOM 17900 N THR L 37 11.544 -9.747 69.402 1.00 46.32 N +ATOM 17901 CA THR L 37 12.068 -8.827 68.404 1.00 47.40 C +ATOM 17902 C THR L 37 13.566 -8.996 68.191 1.00 48.98 C +ATOM 17903 O THR L 37 14.217 -8.086 67.672 1.00 47.10 O +ATOM 17904 CB THR L 37 11.754 -7.383 68.801 1.00 45.22 C +ATOM 17905 OG1 THR L 37 12.327 -7.105 70.085 1.00 48.17 O +ATOM 17906 CG2 THR L 37 10.250 -7.169 68.869 1.00 43.62 C +ATOM 17907 N THR L 38 14.129 -10.137 68.586 1.00 46.83 N +ATOM 17908 CA THR L 38 15.573 -10.350 68.525 1.00 47.46 C +ATOM 17909 C THR L 38 15.908 -11.184 67.290 1.00 48.63 C +ATOM 17910 O THR L 38 16.130 -12.393 67.357 1.00 45.93 O +ATOM 17911 CB THR L 38 16.066 -11.005 69.810 1.00 48.29 C +ATOM 17912 OG1 THR L 38 15.337 -12.215 70.040 1.00 49.68 O +ATOM 17913 CG2 THR L 38 15.851 -10.067 70.986 1.00 48.45 C +ATOM 17914 N VAL L 39 15.949 -10.509 66.142 1.00 49.20 N +ATOM 17915 CA VAL L 39 16.357 -11.106 64.875 1.00 47.27 C +ATOM 17916 C VAL L 39 17.307 -10.143 64.176 1.00 48.90 C +ATOM 17917 O VAL L 39 17.032 -8.941 64.095 1.00 48.78 O +ATOM 17918 CB VAL L 39 15.148 -11.429 63.976 1.00 48.36 C +ATOM 17919 CG1 VAL L 39 15.606 -11.821 62.582 1.00 48.30 C +ATOM 17920 CG2 VAL L 39 14.328 -12.549 64.585 1.00 50.34 C +ATOM 17921 N ALA L 40 18.417 -10.672 63.672 1.00 48.05 N +ATOM 17922 CA ALA L 40 19.435 -9.904 62.976 1.00 46.96 C +ATOM 17923 C ALA L 40 19.464 -10.282 61.500 1.00 47.67 C +ATOM 17924 O ALA L 40 19.049 -11.372 61.104 1.00 47.70 O +ATOM 17925 CB ALA L 40 20.815 -10.133 63.603 1.00 48.92 C +ATOM 17926 N TRP L 41 19.970 -9.356 60.691 1.00 48.55 N +ATOM 17927 CA TRP L 41 20.090 -9.528 59.251 1.00 47.41 C +ATOM 17928 C TRP L 41 21.517 -9.230 58.819 1.00 49.34 C +ATOM 17929 O TRP L 41 22.045 -8.149 59.113 1.00 51.83 O +ATOM 17930 CB TRP L 41 19.116 -8.619 58.496 1.00 49.25 C +ATOM 17931 CG TRP L 41 17.687 -9.033 58.621 1.00 47.06 C +ATOM 17932 CD1 TRP L 41 16.796 -8.636 59.575 1.00 42.39 C +ATOM 17933 CD2 TRP L 41 16.984 -9.942 57.768 1.00 46.34 C +ATOM 17934 NE1 TRP L 41 15.578 -9.233 59.362 1.00 43.99 N +ATOM 17935 CE2 TRP L 41 15.667 -10.040 58.259 1.00 47.25 C +ATOM 17936 CE3 TRP L 41 17.337 -10.676 56.632 1.00 43.54 C +ATOM 17937 CZ2 TRP L 41 14.704 -10.844 57.654 1.00 48.25 C +ATOM 17938 CZ3 TRP L 41 16.381 -11.474 56.033 1.00 47.76 C +ATOM 17939 CH2 TRP L 41 15.080 -11.551 56.544 1.00 49.05 C +ATOM 17940 N TYR L 42 22.118 -10.192 58.117 1.00 48.16 N +ATOM 17941 CA TYR L 42 23.474 -10.115 57.593 1.00 55.15 C +ATOM 17942 C TYR L 42 23.456 -10.081 56.069 1.00 47.64 C +ATOM 17943 O TYR L 42 22.560 -10.640 55.428 1.00 48.14 O +ATOM 17944 CB TYR L 42 24.318 -11.314 58.041 1.00 47.75 C +ATOM 17945 CG TYR L 42 24.430 -11.506 59.533 1.00 50.98 C +ATOM 17946 CD1 TYR L 42 25.429 -10.874 60.260 1.00 48.33 C +ATOM 17947 CD2 TYR L 42 23.549 -12.334 60.214 1.00 50.79 C +ATOM 17948 CE1 TYR L 42 25.540 -11.052 61.623 1.00 49.21 C +ATOM 17949 CE2 TYR L 42 23.652 -12.518 61.579 1.00 49.01 C +ATOM 17950 CZ TYR L 42 24.650 -11.874 62.278 1.00 49.47 C +ATOM 17951 OH TYR L 42 24.759 -12.052 63.638 1.00 50.49 O +ATOM 17952 N GLN L 43 24.480 -9.448 55.499 1.00 49.73 N +ATOM 17953 CA GLN L 43 24.658 -9.324 54.056 1.00 57.04 C +ATOM 17954 C GLN L 43 26.016 -9.900 53.681 1.00 43.68 C +ATOM 17955 O GLN L 43 27.043 -9.462 54.211 1.00 45.11 O +ATOM 17956 CB GLN L 43 24.556 -7.860 53.622 1.00 42.01 C +ATOM 17957 CG GLN L 43 24.926 -7.595 52.174 1.00 43.79 C +ATOM 17958 CD GLN L 43 25.137 -6.118 51.891 1.00 44.17 C +ATOM 17959 OE1 GLN L 43 25.807 -5.419 52.651 1.00 43.94 O +ATOM 17960 NE2 GLN L 43 24.558 -5.636 50.797 1.00 44.50 N +ATOM 17961 N GLN L 44 26.028 -10.875 52.771 1.00 43.84 N +ATOM 17962 CA GLN L 44 27.261 -11.504 52.306 1.00 41.52 C +ATOM 17963 C GLN L 44 27.385 -11.289 50.804 1.00 42.16 C +ATOM 17964 O GLN L 44 26.648 -11.901 50.023 1.00 43.13 O +ATOM 17965 CB GLN L 44 27.279 -12.994 52.641 1.00 36.09 C +ATOM 17966 CG GLN L 44 28.557 -13.700 52.221 1.00 39.16 C +ATOM 17967 CD GLN L 44 28.584 -15.157 52.634 1.00 43.89 C +ATOM 17968 OE1 GLN L 44 29.625 -15.684 53.025 1.00 45.86 O +ATOM 17969 NE2 GLN L 44 27.437 -15.821 52.538 1.00 42.70 N +ATOM 17970 N LYS L 45 28.299 -10.410 50.404 1.00 39.92 N +ATOM 17971 CA LYS L 45 28.557 -10.167 48.995 1.00 41.60 C +ATOM 17972 C LYS L 45 29.489 -11.240 48.434 1.00 43.17 C +ATOM 17973 O LYS L 45 30.144 -11.960 49.192 1.00 40.93 O +ATOM 17974 CB LYS L 45 29.138 -8.767 48.812 1.00 36.21 C +ATOM 17975 CG LYS L 45 28.172 -7.671 49.241 1.00 35.77 C +ATOM 17976 CD LYS L 45 28.678 -6.282 48.896 1.00 32.25 C +ATOM 17977 CE LYS L 45 27.673 -5.223 49.324 1.00 32.25 C +ATOM 17978 NZ LYS L 45 28.059 -3.859 48.868 1.00 35.73 N +ATOM 17979 N PRO L 46 29.550 -11.384 47.108 1.00 43.77 N +ATOM 17980 CA PRO L 46 30.397 -12.432 46.517 1.00 45.84 C +ATOM 17981 C PRO L 46 31.855 -12.302 46.934 1.00 45.29 C +ATOM 17982 O PRO L 46 32.466 -11.238 46.809 1.00 44.69 O +ATOM 17983 CB PRO L 46 30.220 -12.221 45.009 1.00 48.16 C +ATOM 17984 CG PRO L 46 28.893 -11.571 44.877 1.00 49.96 C +ATOM 17985 CD PRO L 46 28.737 -10.699 46.086 1.00 44.95 C +ATOM 17986 N GLY L 47 32.409 -13.406 47.435 1.00 40.57 N +ATOM 17987 CA GLY L 47 33.799 -13.457 47.839 1.00 41.02 C +ATOM 17988 C GLY L 47 34.121 -12.759 49.139 1.00 44.16 C +ATOM 17989 O GLY L 47 35.302 -12.570 49.447 1.00 43.13 O +ATOM 17990 N GLN L 48 33.114 -12.377 49.916 1.00 43.24 N +ATOM 17991 CA GLN L 48 33.310 -11.672 51.172 1.00 40.63 C +ATOM 17992 C GLN L 48 32.664 -12.445 52.315 1.00 46.20 C +ATOM 17993 O GLN L 48 31.945 -13.427 52.112 1.00 47.27 O +ATOM 17994 CB GLN L 48 32.738 -10.251 51.100 1.00 38.05 C +ATOM 17995 CG GLN L 48 33.433 -9.351 50.093 1.00 37.26 C +ATOM 17996 CD GLN L 48 32.884 -7.938 50.103 1.00 38.15 C +ATOM 17997 OE1 GLN L 48 32.082 -7.579 50.965 1.00 35.69 O +ATOM 17998 NE2 GLN L 48 33.312 -7.129 49.140 1.00 36.81 N +ATOM 17999 N SER L 49 32.934 -11.984 53.530 1.00 47.89 N +ATOM 18000 CA SER L 49 32.340 -12.532 54.737 1.00 48.52 C +ATOM 18001 C SER L 49 30.995 -11.873 55.010 1.00 48.18 C +ATOM 18002 O SER L 49 30.713 -10.783 54.501 1.00 55.53 O +ATOM 18003 CB SER L 49 33.279 -12.318 55.922 1.00 50.57 C +ATOM 18004 OG SER L 49 34.566 -12.847 55.655 1.00 65.23 O +ATOM 18005 N PRO L 50 30.128 -12.519 55.791 1.00 47.43 N +ATOM 18006 CA PRO L 50 28.852 -11.885 56.141 1.00 43.89 C +ATOM 18007 C PRO L 50 29.076 -10.579 56.888 1.00 44.54 C +ATOM 18008 O PRO L 50 29.942 -10.479 57.759 1.00 46.32 O +ATOM 18009 CB PRO L 50 28.165 -12.931 57.025 1.00 44.83 C +ATOM 18010 CG PRO L 50 28.776 -14.227 56.617 1.00 45.18 C +ATOM 18011 CD PRO L 50 30.200 -13.913 56.263 1.00 45.59 C +ATOM 18012 N LYS L 51 28.281 -9.573 56.538 1.00 43.57 N +ATOM 18013 CA LYS L 51 28.342 -8.260 57.167 1.00 43.12 C +ATOM 18014 C LYS L 51 27.048 -8.015 57.929 1.00 47.75 C +ATOM 18015 O LYS L 51 25.961 -8.068 57.343 1.00 49.64 O +ATOM 18016 CB LYS L 51 28.569 -7.164 56.126 1.00 44.79 C +ATOM 18017 CG LYS L 51 28.720 -5.772 56.718 1.00 47.88 C +ATOM 18018 CD LYS L 51 28.608 -4.699 55.646 1.00 45.38 C +ATOM 18019 CE LYS L 51 28.576 -3.309 56.261 1.00 49.81 C +ATOM 18020 NZ LYS L 51 28.327 -2.254 55.240 1.00 45.65 N +ATOM 18021 N LEU L 52 27.168 -7.745 59.226 1.00 48.86 N +ATOM 18022 CA LEU L 52 26.002 -7.445 60.046 1.00 47.09 C +ATOM 18023 C LEU L 52 25.380 -6.127 59.605 1.00 48.10 C +ATOM 18024 O LEU L 52 26.026 -5.076 59.663 1.00 49.30 O +ATOM 18025 CB LEU L 52 26.391 -7.384 61.520 1.00 50.18 C +ATOM 18026 CG LEU L 52 25.290 -6.909 62.471 1.00 50.99 C +ATOM 18027 CD1 LEU L 52 24.168 -7.933 62.567 1.00 50.53 C +ATOM 18028 CD2 LEU L 52 25.863 -6.604 63.843 1.00 53.78 C +ATOM 18029 N LEU L 53 24.124 -6.182 59.168 1.00 49.34 N +ATOM 18030 CA LEU L 53 23.390 -4.983 58.785 1.00 50.72 C +ATOM 18031 C LEU L 53 22.382 -4.543 59.832 1.00 53.40 C +ATOM 18032 O LEU L 53 22.296 -3.349 60.134 1.00 55.45 O +ATOM 18033 CB LEU L 53 22.657 -5.197 57.457 1.00 51.12 C +ATOM 18034 CG LEU L 53 23.480 -5.283 56.174 1.00 49.33 C +ATOM 18035 CD1 LEU L 53 22.552 -5.251 54.969 1.00 49.05 C +ATOM 18036 CD2 LEU L 53 24.496 -4.155 56.107 1.00 50.88 C +ATOM 18037 N ILE L 54 21.612 -5.470 60.396 1.00 51.69 N +ATOM 18038 CA ILE L 54 20.529 -5.106 61.306 1.00 51.06 C +ATOM 18039 C ILE L 54 20.539 -6.047 62.501 1.00 49.58 C +ATOM 18040 O ILE L 54 20.841 -7.234 62.360 1.00 49.34 O +ATOM 18041 CB ILE L 54 19.170 -5.134 60.574 1.00 50.74 C +ATOM 18042 CG1 ILE L 54 19.036 -3.904 59.679 1.00 50.13 C +ATOM 18043 CG2 ILE L 54 18.003 -5.204 61.552 1.00 49.07 C +ATOM 18044 CD1 ILE L 54 17.882 -3.979 58.732 1.00 53.75 C +ATOM 18045 N TYR L 55 20.217 -5.516 63.680 1.00 51.06 N +ATOM 18046 CA TYR L 55 20.030 -6.328 64.871 1.00 49.78 C +ATOM 18047 C TYR L 55 18.740 -5.911 65.560 1.00 49.42 C +ATOM 18048 O TYR L 55 18.228 -4.809 65.346 1.00 47.23 O +ATOM 18049 CB TYR L 55 21.202 -6.194 65.851 1.00 48.14 C +ATOM 18050 CG TYR L 55 21.318 -4.829 66.493 1.00 50.60 C +ATOM 18051 CD1 TYR L 55 21.996 -3.796 65.861 1.00 51.68 C +ATOM 18052 CD2 TYR L 55 20.754 -4.577 67.739 1.00 50.15 C +ATOM 18053 CE1 TYR L 55 22.103 -2.547 66.449 1.00 53.53 C +ATOM 18054 CE2 TYR L 55 20.856 -3.335 68.334 1.00 49.17 C +ATOM 18055 CZ TYR L 55 21.531 -2.324 67.685 1.00 51.76 C +ATOM 18056 OH TYR L 55 21.634 -1.086 68.276 1.00 51.51 O +ATOM 18057 N SER L 56 18.226 -6.808 66.403 1.00 51.50 N +ATOM 18058 CA SER L 56 16.998 -6.562 67.162 1.00 50.75 C +ATOM 18059 C SER L 56 15.856 -6.126 66.246 1.00 51.33 C +ATOM 18060 O SER L 56 15.131 -5.169 66.532 1.00 55.12 O +ATOM 18061 CB SER L 56 17.237 -5.541 68.277 1.00 49.26 C +ATOM 18062 OG SER L 56 17.955 -6.122 69.353 1.00 49.36 O +ATOM 18063 N ALA L 57 15.728 -6.822 65.114 1.00 48.06 N +ATOM 18064 CA ALA L 57 14.615 -6.705 64.172 1.00 45.95 C +ATOM 18065 C ALA L 57 14.621 -5.404 63.376 1.00 49.04 C +ATOM 18066 O ALA L 57 14.468 -5.433 62.151 1.00 48.13 O +ATOM 18067 CB ALA L 57 13.272 -6.861 64.894 1.00 49.25 C +ATOM 18068 N SER L 65 14.798 -4.260 64.042 1.00 47.81 N +ATOM 18069 CA SER L 65 14.669 -2.974 63.370 1.00 47.21 C +ATOM 18070 C SER L 65 15.834 -2.021 63.598 1.00 48.24 C +ATOM 18071 O SER L 65 15.836 -0.930 63.018 1.00 48.53 O +ATOM 18072 CB SER L 65 13.369 -2.276 63.797 1.00 46.96 C +ATOM 18073 OG SER L 65 13.427 -1.878 65.156 1.00 56.05 O +ATOM 18074 N TYR L 66 16.816 -2.387 64.416 1.00 51.17 N +ATOM 18075 CA TYR L 66 17.927 -1.499 64.730 1.00 54.33 C +ATOM 18076 C TYR L 66 19.051 -1.675 63.717 1.00 54.02 C +ATOM 18077 O TYR L 66 19.491 -2.799 63.454 1.00 51.99 O +ATOM 18078 CB TYR L 66 18.435 -1.764 66.146 1.00 51.10 C +ATOM 18079 CG TYR L 66 17.456 -1.335 67.211 1.00 56.49 C +ATOM 18080 CD1 TYR L 66 16.472 -2.204 67.666 1.00 54.88 C +ATOM 18081 CD2 TYR L 66 17.505 -0.059 67.753 1.00 59.97 C +ATOM 18082 CE1 TYR L 66 15.570 -1.815 68.635 1.00 59.49 C +ATOM 18083 CE2 TYR L 66 16.608 0.338 68.721 1.00 63.73 C +ATOM 18084 CZ TYR L 66 15.644 -0.543 69.159 1.00 63.35 C +ATOM 18085 OH TYR L 66 14.750 -0.145 70.123 1.00 63.47 O +ATOM 18086 N ARG L 67 19.508 -0.560 63.150 1.00 53.60 N +ATOM 18087 CA ARG L 67 20.573 -0.574 62.157 1.00 54.52 C +ATOM 18088 C ARG L 67 21.932 -0.541 62.842 1.00 53.77 C +ATOM 18089 O ARG L 67 22.161 0.271 63.744 1.00 54.03 O +ATOM 18090 CB ARG L 67 20.455 0.618 61.207 1.00 58.06 C +ATOM 18091 CG ARG L 67 19.590 0.385 59.985 1.00 60.04 C +ATOM 18092 CD ARG L 67 19.914 1.409 58.906 1.00 64.82 C +ATOM 18093 NE ARG L 67 19.674 2.784 59.334 1.00 72.58 N +ATOM 18094 CZ ARG L 67 18.512 3.416 59.203 1.00 77.43 C +ATOM 18095 NH1 ARG L 67 17.475 2.799 58.654 1.00 66.39 N +ATOM 18096 NH2 ARG L 67 18.387 4.669 59.621 1.00 88.70 N +ATOM 18097 N TYR L 68 22.827 -1.424 62.410 1.00 52.39 N +ATOM 18098 CA TYR L 68 24.191 -1.409 62.908 1.00 54.45 C +ATOM 18099 C TYR L 68 24.898 -0.135 62.450 1.00 56.61 C +ATOM 18100 O TYR L 68 24.484 0.527 61.495 1.00 59.07 O +ATOM 18101 CB TYR L 68 24.948 -2.650 62.433 1.00 55.29 C +ATOM 18102 CG TYR L 68 26.332 -2.791 63.020 1.00 55.53 C +ATOM 18103 CD1 TYR L 68 26.512 -3.156 64.348 1.00 55.25 C +ATOM 18104 CD2 TYR L 68 27.461 -2.564 62.245 1.00 57.20 C +ATOM 18105 CE1 TYR L 68 27.777 -3.286 64.887 1.00 60.08 C +ATOM 18106 CE2 TYR L 68 28.730 -2.692 62.775 1.00 59.59 C +ATOM 18107 CZ TYR L 68 28.882 -3.054 64.096 1.00 58.92 C +ATOM 18108 OH TYR L 68 30.145 -3.182 64.625 1.00 62.85 O +ATOM 18109 N THR L 69 25.967 0.216 63.161 1.00 57.46 N +ATOM 18110 CA THR L 69 26.694 1.443 62.862 1.00 59.11 C +ATOM 18111 C THR L 69 27.238 1.415 61.438 1.00 60.73 C +ATOM 18112 O THR L 69 27.740 0.392 60.965 1.00 64.43 O +ATOM 18113 CB THR L 69 27.839 1.627 63.862 1.00 62.79 C +ATOM 18114 OG1 THR L 69 27.317 1.609 65.197 1.00 68.69 O +ATOM 18115 CG2 THR L 69 28.556 2.949 63.627 1.00 65.99 C +ATOM 18116 N GLY L 70 27.142 2.556 60.754 1.00 60.06 N +ATOM 18117 CA GLY L 70 27.648 2.690 59.403 1.00 61.67 C +ATOM 18118 C GLY L 70 26.768 2.126 58.310 1.00 61.94 C +ATOM 18119 O GLY L 70 27.127 2.239 57.131 1.00 65.05 O +ATOM 18120 N VAL L 71 25.634 1.530 58.649 1.00 61.96 N +ATOM 18121 CA VAL L 71 24.748 0.951 57.637 1.00 60.03 C +ATOM 18122 C VAL L 71 23.924 2.070 56.999 1.00 60.00 C +ATOM 18123 O VAL L 71 23.413 2.939 57.722 1.00 62.82 O +ATOM 18124 CB VAL L 71 23.846 -0.112 58.260 1.00 59.68 C +ATOM 18125 CG1 VAL L 71 22.842 -0.631 57.245 1.00 58.33 C +ATOM 18126 CG2 VAL L 71 24.686 -1.256 58.812 1.00 55.30 C +ATOM 18127 N PRO L 72 23.795 2.094 55.672 1.00 62.01 N +ATOM 18128 CA PRO L 72 22.981 3.129 55.022 1.00 61.48 C +ATOM 18129 C PRO L 72 21.530 3.084 55.476 1.00 64.60 C +ATOM 18130 O PRO L 72 21.023 2.059 55.937 1.00 63.25 O +ATOM 18131 CB PRO L 72 23.106 2.795 53.530 1.00 60.31 C +ATOM 18132 CG PRO L 72 24.377 2.030 53.420 1.00 59.16 C +ATOM 18133 CD PRO L 72 24.496 1.246 54.693 1.00 57.94 C +ATOM 18134 N ASP L 74 20.854 4.228 55.332 1.00 68.49 N +ATOM 18135 CA ASP L 74 19.474 4.350 55.790 1.00 68.89 C +ATOM 18136 C ASP L 74 18.502 3.531 54.951 1.00 65.16 C +ATOM 18137 O ASP L 74 17.409 3.211 55.430 1.00 69.64 O +ATOM 18138 CB ASP L 74 19.041 5.818 55.770 1.00 72.27 C +ATOM 18139 CG ASP L 74 20.011 6.725 56.500 1.00 80.33 C +ATOM 18140 OD1 ASP L 74 21.189 6.792 56.090 1.00 85.83 O +ATOM 18141 OD2 ASP L 74 19.594 7.375 57.481 1.00 88.66 O +ATOM 18142 N ARG L 75 18.868 3.190 53.716 1.00 61.66 N +ATOM 18143 CA ARG L 75 17.985 2.441 52.830 1.00 57.58 C +ATOM 18144 C ARG L 75 17.779 0.994 53.268 1.00 55.51 C +ATOM 18145 O ARG L 75 16.872 0.334 52.747 1.00 53.47 O +ATOM 18146 CB ARG L 75 18.522 2.524 51.399 1.00 57.14 C +ATOM 18147 CG ARG L 75 19.963 2.079 51.237 1.00 57.85 C +ATOM 18148 CD ARG L 75 20.438 2.308 49.811 1.00 58.85 C +ATOM 18149 NE ARG L 75 21.846 1.965 49.640 1.00 60.65 N +ATOM 18150 CZ ARG L 75 22.288 0.734 49.417 1.00 58.19 C +ATOM 18151 NH1 ARG L 75 21.425 -0.268 49.336 1.00 56.77 N +ATOM 18152 NH2 ARG L 75 23.586 0.505 49.275 1.00 54.82 N +ATOM 18153 N PHE L 76 18.587 0.487 54.196 1.00 53.72 N +ATOM 18154 CA PHE L 76 18.372 -0.833 54.775 1.00 51.98 C +ATOM 18155 C PHE L 76 17.524 -0.694 56.033 1.00 51.68 C +ATOM 18156 O PHE L 76 17.876 0.064 56.942 1.00 55.41 O +ATOM 18157 CB PHE L 76 19.702 -1.510 55.110 1.00 52.22 C +ATOM 18158 CG PHE L 76 20.605 -1.707 53.926 1.00 53.45 C +ATOM 18159 CD1 PHE L 76 20.407 -2.768 53.058 1.00 50.68 C +ATOM 18160 CD2 PHE L 76 21.659 -0.841 53.687 1.00 56.02 C +ATOM 18161 CE1 PHE L 76 21.237 -2.958 51.971 1.00 50.37 C +ATOM 18162 CE2 PHE L 76 22.494 -1.025 52.601 1.00 55.93 C +ATOM 18163 CZ PHE L 76 22.283 -2.087 51.743 1.00 53.29 C +ATOM 18164 N THR L 77 16.407 -1.419 56.086 1.00 48.23 N +ATOM 18165 CA THR L 77 15.508 -1.363 57.230 1.00 46.49 C +ATOM 18166 C THR L 77 15.037 -2.769 57.574 1.00 45.54 C +ATOM 18167 O THR L 77 15.178 -3.708 56.788 1.00 43.93 O +ATOM 18168 CB THR L 77 14.295 -0.459 56.963 1.00 47.24 C +ATOM 18169 OG1 THR L 77 13.614 -0.904 55.783 1.00 52.44 O +ATOM 18170 CG2 THR L 77 14.722 0.993 56.789 1.00 51.50 C +ATOM 18171 N GLY L 78 14.478 -2.905 58.767 1.00 48.90 N +ATOM 18172 CA GLY L 78 13.959 -4.184 59.218 1.00 47.56 C +ATOM 18173 C GLY L 78 12.728 -3.982 60.070 1.00 43.76 C +ATOM 18174 O GLY L 78 12.559 -2.940 60.711 1.00 44.37 O +ATOM 18175 N SER L 79 11.852 -4.983 60.061 1.00 43.85 N +ATOM 18176 CA SER L 79 10.647 -4.943 60.877 1.00 46.39 C +ATOM 18177 C SER L 79 10.247 -6.366 61.236 1.00 49.51 C +ATOM 18178 O SER L 79 10.791 -7.338 60.707 1.00 51.70 O +ATOM 18179 CB SER L 79 9.500 -4.227 60.157 1.00 42.81 C +ATOM 18180 OG SER L 79 8.997 -5.016 59.092 1.00 49.77 O +ATOM 18181 N GLY L 80 9.285 -6.478 62.138 1.00 47.77 N +ATOM 18182 CA GLY L 80 8.717 -7.759 62.513 1.00 50.30 C +ATOM 18183 C GLY L 80 8.862 -8.039 63.997 1.00 50.57 C +ATOM 18184 O GLY L 80 9.541 -7.333 64.740 1.00 49.62 O +ATOM 18185 N SER L 83 8.205 -9.123 64.407 1.00 53.79 N +ATOM 18186 CA SER L 83 8.172 -9.532 65.807 1.00 51.77 C +ATOM 18187 C SER L 83 7.474 -10.879 65.904 1.00 51.84 C +ATOM 18188 O SER L 83 6.680 -11.251 65.036 1.00 53.48 O +ATOM 18189 CB SER L 83 7.460 -8.501 66.692 1.00 49.19 C +ATOM 18190 OG SER L 83 6.095 -8.375 66.335 1.00 57.73 O +ATOM 18191 N GLY L 84 7.779 -11.603 66.977 1.00 49.27 N +ATOM 18192 CA GLY L 84 7.186 -12.907 67.188 1.00 56.40 C +ATOM 18193 C GLY L 84 7.708 -13.951 66.226 1.00 58.88 C +ATOM 18194 O GLY L 84 8.734 -14.587 66.485 1.00 60.34 O +ATOM 18195 N THR L 85 7.010 -14.137 65.107 1.00 56.33 N +ATOM 18196 CA THR L 85 7.367 -15.155 64.130 1.00 58.67 C +ATOM 18197 C THR L 85 7.720 -14.597 62.760 1.00 60.88 C +ATOM 18198 O THR L 85 8.489 -15.231 62.036 1.00 59.96 O +ATOM 18199 CB THR L 85 6.219 -16.163 63.960 1.00 61.85 C +ATOM 18200 OG1 THR L 85 4.966 -15.506 64.188 1.00 66.43 O +ATOM 18201 CG2 THR L 85 6.366 -17.301 64.958 1.00 58.09 C +ATOM 18202 N ASP L 86 7.186 -13.438 62.384 1.00 59.43 N +ATOM 18203 CA ASP L 86 7.370 -12.877 61.053 1.00 56.76 C +ATOM 18204 C ASP L 86 8.305 -11.677 61.116 1.00 54.87 C +ATOM 18205 O ASP L 86 8.146 -10.806 61.982 1.00 56.30 O +ATOM 18206 CB ASP L 86 6.024 -12.466 60.452 1.00 65.84 C +ATOM 18207 CG ASP L 86 5.017 -13.600 60.446 1.00 70.45 C +ATOM 18208 OD1 ASP L 86 5.438 -14.769 60.317 1.00 69.29 O +ATOM 18209 OD2 ASP L 86 3.806 -13.324 60.576 1.00 74.61 O +ATOM 18210 N PHE L 87 9.269 -11.630 60.191 1.00 53.44 N +ATOM 18211 CA PHE L 87 10.219 -10.531 60.103 1.00 52.24 C +ATOM 18212 C PHE L 87 10.503 -10.237 58.637 1.00 51.51 C +ATOM 18213 O PHE L 87 10.400 -11.121 57.783 1.00 50.17 O +ATOM 18214 CB PHE L 87 11.524 -10.852 60.846 1.00 51.16 C +ATOM 18215 CG PHE L 87 11.321 -11.231 62.286 1.00 52.94 C +ATOM 18216 CD1 PHE L 87 11.048 -12.542 62.642 1.00 52.29 C +ATOM 18217 CD2 PHE L 87 11.398 -10.274 63.283 1.00 51.85 C +ATOM 18218 CE1 PHE L 87 10.854 -12.890 63.962 1.00 51.94 C +ATOM 18219 CE2 PHE L 87 11.211 -10.617 64.605 1.00 49.97 C +ATOM 18220 CZ PHE L 87 10.934 -11.926 64.945 1.00 52.14 C +ATOM 18221 N THR L 88 10.862 -8.987 58.349 1.00 49.05 N +ATOM 18222 CA THR L 88 11.052 -8.536 56.974 1.00 47.80 C +ATOM 18223 C THR L 88 12.204 -7.545 56.904 1.00 47.54 C +ATOM 18224 O THR L 88 12.202 -6.532 57.612 1.00 44.60 O +ATOM 18225 CB THR L 88 9.774 -7.902 56.415 1.00 51.49 C +ATOM 18226 OG1 THR L 88 8.705 -8.855 56.463 1.00 59.17 O +ATOM 18227 CG2 THR L 88 9.988 -7.469 54.973 1.00 52.67 C +ATOM 18228 N PHE L 89 13.180 -7.849 56.052 1.00 48.45 N +ATOM 18229 CA PHE L 89 14.299 -6.965 55.749 1.00 47.01 C +ATOM 18230 C PHE L 89 14.021 -6.272 54.423 1.00 44.32 C +ATOM 18231 O PHE L 89 13.620 -6.922 53.454 1.00 48.61 O +ATOM 18232 CB PHE L 89 15.603 -7.764 55.685 1.00 45.14 C +ATOM 18233 CG PHE L 89 16.751 -7.028 55.056 1.00 45.10 C +ATOM 18234 CD1 PHE L 89 17.576 -6.221 55.823 1.00 46.08 C +ATOM 18235 CD2 PHE L 89 17.032 -7.175 53.706 1.00 46.34 C +ATOM 18236 CE1 PHE L 89 18.641 -5.553 55.250 1.00 46.25 C +ATOM 18237 CE2 PHE L 89 18.095 -6.509 53.128 1.00 44.91 C +ATOM 18238 CZ PHE L 89 18.901 -5.698 53.900 1.00 46.82 C +ATOM 18239 N THR L 90 14.235 -4.960 54.370 1.00 42.12 N +ATOM 18240 CA THR L 90 13.797 -4.171 53.226 1.00 46.50 C +ATOM 18241 C THR L 90 14.901 -3.239 52.750 1.00 50.22 C +ATOM 18242 O THR L 90 15.532 -2.545 53.555 1.00 49.80 O +ATOM 18243 CB THR L 90 12.538 -3.364 53.572 1.00 43.58 C +ATOM 18244 OG1 THR L 90 11.457 -4.263 53.847 1.00 50.63 O +ATOM 18245 CG2 THR L 90 12.143 -2.455 52.418 1.00 47.39 C +ATOM 18246 N ILE L 91 15.125 -3.231 51.439 1.00 46.88 N +ATOM 18247 CA ILE L 91 15.952 -2.236 50.767 1.00 48.11 C +ATOM 18248 C ILE L 91 15.014 -1.308 50.006 1.00 48.09 C +ATOM 18249 O ILE L 91 14.253 -1.757 49.138 1.00 52.60 O +ATOM 18250 CB ILE L 91 16.980 -2.884 49.827 1.00 48.02 C +ATOM 18251 CG1 ILE L 91 17.802 -3.933 50.578 1.00 45.65 C +ATOM 18252 CG2 ILE L 91 17.883 -1.825 49.211 1.00 45.29 C +ATOM 18253 CD1 ILE L 91 18.767 -4.698 49.697 1.00 44.73 C +ATOM 18254 N SER L 92 15.066 -0.015 50.338 1.00 46.85 N +ATOM 18255 CA SER L 92 14.135 0.953 49.767 1.00 52.28 C +ATOM 18256 C SER L 92 14.511 1.367 48.350 1.00 56.27 C +ATOM 18257 O SER L 92 13.626 1.677 47.547 1.00 60.68 O +ATOM 18258 CB SER L 92 14.049 2.188 50.665 1.00 49.72 C +ATOM 18259 OG SER L 92 15.269 2.907 50.655 1.00 52.86 O +ATOM 18260 N SER L 93 15.803 1.414 48.029 1.00 51.19 N +ATOM 18261 CA SER L 93 16.254 1.799 46.688 1.00 49.85 C +ATOM 18262 C SER L 93 17.494 0.963 46.376 1.00 51.51 C +ATOM 18263 O SER L 93 18.618 1.352 46.707 1.00 55.50 O +ATOM 18264 CB SER L 93 16.533 3.293 46.600 1.00 51.86 C +ATOM 18265 OG SER L 93 16.884 3.668 45.280 1.00 57.01 O +ATOM 18266 N VAL L 94 17.276 -0.192 45.742 1.00 46.16 N +ATOM 18267 CA VAL L 94 18.369 -1.112 45.455 1.00 45.87 C +ATOM 18268 C VAL L 94 19.389 -0.449 44.542 1.00 52.12 C +ATOM 18269 O VAL L 94 19.037 0.290 43.613 1.00 52.78 O +ATOM 18270 CB VAL L 94 17.815 -2.404 44.831 1.00 45.66 C +ATOM 18271 CG1 VAL L 94 18.942 -3.338 44.421 1.00 47.32 C +ATOM 18272 CG2 VAL L 94 16.890 -3.096 45.807 1.00 49.39 C +ATOM 18273 N GLN L 95 20.668 -0.709 44.804 1.00 52.04 N +ATOM 18274 CA GLN L 95 21.743 -0.195 43.973 1.00 51.35 C +ATOM 18275 C GLN L 95 22.524 -1.379 43.420 1.00 53.32 C +ATOM 18276 O GLN L 95 22.367 -2.516 43.874 1.00 52.47 O +ATOM 18277 CB GLN L 95 22.679 0.732 44.759 1.00 54.21 C +ATOM 18278 CG GLN L 95 21.969 1.925 45.385 1.00 55.88 C +ATOM 18279 CD GLN L 95 22.900 2.798 46.202 1.00 60.86 C +ATOM 18280 OE1 GLN L 95 24.122 2.655 46.134 1.00 69.49 O +ATOM 18281 NE2 GLN L 95 22.321 3.664 47.034 1.00 57.85 N +ATOM 18282 N ALA L 96 23.357 -1.098 42.415 1.00 53.09 N +ATOM 18283 CA ALA L 96 24.076 -2.159 41.716 1.00 53.03 C +ATOM 18284 C ALA L 96 24.899 -3.018 42.673 1.00 53.51 C +ATOM 18285 O ALA L 96 24.928 -4.248 42.545 1.00 52.14 O +ATOM 18286 CB ALA L 96 24.965 -1.553 40.630 1.00 55.12 C +ATOM 18287 N GLU L 97 25.580 -2.392 43.633 1.00 53.37 N +ATOM 18288 CA GLU L 97 26.441 -3.132 44.550 1.00 55.65 C +ATOM 18289 C GLU L 97 25.667 -3.942 45.582 1.00 54.16 C +ATOM 18290 O GLU L 97 26.286 -4.712 46.325 1.00 50.59 O +ATOM 18291 CB GLU L 97 27.392 -2.171 45.267 1.00 55.71 C +ATOM 18292 CG GLU L 97 26.692 -1.083 46.067 1.00 59.20 C +ATOM 18293 CD GLU L 97 26.443 0.174 45.255 1.00 66.80 C +ATOM 18294 OE1 GLU L 97 26.417 0.087 44.008 1.00 62.97 O +ATOM 18295 OE2 GLU L 97 26.274 1.251 45.864 1.00 78.18 O +ATOM 18296 N ASP L 98 24.343 -3.796 45.649 1.00 52.08 N +ATOM 18297 CA ASP L 98 23.557 -4.473 46.673 1.00 48.60 C +ATOM 18298 C ASP L 98 23.347 -5.957 46.405 1.00 47.91 C +ATOM 18299 O ASP L 98 22.774 -6.642 47.260 1.00 46.28 O +ATOM 18300 CB ASP L 98 22.193 -3.796 46.819 1.00 49.73 C +ATOM 18301 CG ASP L 98 22.292 -2.413 47.420 1.00 52.84 C +ATOM 18302 OD1 ASP L 98 23.267 -2.153 48.157 1.00 56.19 O +ATOM 18303 OD2 ASP L 98 21.395 -1.584 47.159 1.00 50.60 O +ATOM 18304 N LEU L 99 23.777 -6.472 45.254 1.00 46.32 N +ATOM 18305 CA LEU L 99 23.643 -7.900 44.996 1.00 45.93 C +ATOM 18306 C LEU L 99 24.483 -8.695 45.989 1.00 45.71 C +ATOM 18307 O LEU L 99 25.688 -8.462 46.133 1.00 45.50 O +ATOM 18308 CB LEU L 99 24.032 -8.228 43.550 1.00 44.83 C +ATOM 18309 CG LEU L 99 25.461 -8.056 43.032 1.00 49.86 C +ATOM 18310 CD1 LEU L 99 26.229 -9.369 43.111 1.00 45.30 C +ATOM 18311 CD2 LEU L 99 25.436 -7.532 41.606 1.00 54.38 C +ATOM 18312 N ALA L 100 23.833 -9.633 46.678 1.00 43.70 N +ATOM 18313 CA ALA L 100 24.450 -10.411 47.746 1.00 42.30 C +ATOM 18314 C ALA L 100 23.460 -11.438 48.274 1.00 42.14 C +ATOM 18315 O ALA L 100 22.300 -11.459 47.851 1.00 43.97 O +ATOM 18316 CB ALA L 100 24.917 -9.500 48.885 1.00 43.63 C +ATOM 18317 N VAL L 101 23.887 -12.277 49.211 1.00 41.89 N +ATOM 18318 CA VAL L 101 22.988 -13.190 49.903 1.00 43.29 C +ATOM 18319 C VAL L 101 22.670 -12.598 51.268 1.00 43.74 C +ATOM 18320 O VAL L 101 23.579 -12.249 52.032 1.00 42.03 O +ATOM 18321 CB VAL L 101 23.601 -14.594 50.035 1.00 44.05 C +ATOM 18322 CG1 VAL L 101 22.580 -15.560 50.615 1.00 45.69 C +ATOM 18323 CG2 VAL L 101 24.097 -15.084 48.686 1.00 43.73 C +ATOM 18324 N TYR L 102 21.383 -12.471 51.569 1.00 44.35 N +ATOM 18325 CA TYR L 102 20.921 -11.879 52.815 1.00 48.30 C +ATOM 18326 C TYR L 102 20.396 -12.976 53.730 1.00 47.59 C +ATOM 18327 O TYR L 102 19.553 -13.785 53.321 1.00 46.46 O +ATOM 18328 CB TYR L 102 19.844 -10.825 52.552 1.00 45.40 C +ATOM 18329 CG TYR L 102 20.370 -9.614 51.813 1.00 44.16 C +ATOM 18330 CD1 TYR L 102 20.867 -8.517 52.504 1.00 44.27 C +ATOM 18331 CD2 TYR L 102 20.381 -9.574 50.425 1.00 42.28 C +ATOM 18332 CE1 TYR L 102 21.353 -7.410 51.834 1.00 44.03 C +ATOM 18333 CE2 TYR L 102 20.866 -8.471 49.746 1.00 43.78 C +ATOM 18334 CZ TYR L 102 21.351 -7.392 50.455 1.00 44.00 C +ATOM 18335 OH TYR L 102 21.834 -6.292 49.784 1.00 47.49 O +ATOM 18336 N TYR L 103 20.915 -13.011 54.955 1.00 58.24 N +ATOM 18337 CA TYR L 103 20.563 -14.025 55.937 1.00 46.05 C +ATOM 18338 C TYR L 103 19.850 -13.388 57.122 1.00 50.52 C +ATOM 18339 O TYR L 103 20.184 -12.271 57.530 1.00 48.31 O +ATOM 18340 CB TYR L 103 21.805 -14.765 56.447 1.00 46.51 C +ATOM 18341 CG TYR L 103 22.574 -15.539 55.401 1.00 50.44 C +ATOM 18342 CD1 TYR L 103 23.553 -14.924 54.632 1.00 50.12 C +ATOM 18343 CD2 TYR L 103 22.336 -16.892 55.198 1.00 52.17 C +ATOM 18344 CE1 TYR L 103 24.266 -15.633 53.683 1.00 47.21 C +ATOM 18345 CE2 TYR L 103 23.043 -17.609 54.249 1.00 50.97 C +ATOM 18346 CZ TYR L 103 24.005 -16.974 53.495 1.00 48.75 C +ATOM 18347 OH TYR L 103 24.711 -17.682 52.551 1.00 59.05 O +ATOM 18348 N CYS L 104 18.876 -14.104 57.674 1.00 46.99 N +ATOM 18349 CA CYS L 104 18.297 -13.769 58.966 1.00 47.11 C +ATOM 18350 C CYS L 104 18.809 -14.755 60.006 1.00 47.73 C +ATOM 18351 O CYS L 104 18.998 -15.940 59.714 1.00 43.68 O +ATOM 18352 CB CYS L 104 16.762 -13.782 58.932 1.00 49.72 C +ATOM 18353 SG CYS L 104 15.991 -15.364 58.505 1.00 52.84 S +ATOM 18354 N GLN L 105 19.045 -14.253 61.214 1.00 49.18 N +ATOM 18355 CA GLN L 105 19.535 -15.061 62.320 1.00 49.43 C +ATOM 18356 C GLN L 105 18.751 -14.698 63.568 1.00 48.87 C +ATOM 18357 O GLN L 105 18.640 -13.518 63.909 1.00 49.40 O +ATOM 18358 CB GLN L 105 21.034 -14.834 62.557 1.00 50.22 C +ATOM 18359 CG GLN L 105 21.615 -15.636 63.715 1.00 49.32 C +ATOM 18360 CD GLN L 105 22.286 -14.758 64.757 1.00 51.24 C +ATOM 18361 OE1 GLN L 105 22.895 -13.740 64.430 1.00 51.33 O +ATOM 18362 NE2 GLN L 105 22.177 -15.152 66.022 1.00 52.19 N +ATOM 18363 N GLN L 106 18.210 -15.701 64.248 1.00 49.65 N +ATOM 18364 CA GLN L 106 17.559 -15.453 65.526 1.00 48.04 C +ATOM 18365 C GLN L 106 18.626 -15.356 66.611 1.00 50.90 C +ATOM 18366 O GLN L 106 19.378 -16.307 66.846 1.00 50.64 O +ATOM 18367 CB GLN L 106 16.521 -16.536 65.833 1.00 45.55 C +ATOM 18368 CG GLN L 106 17.042 -17.956 66.015 1.00 46.69 C +ATOM 18369 CD GLN L 106 17.352 -18.285 67.466 1.00 51.02 C +ATOM 18370 OE1 GLN L 106 17.083 -17.489 68.367 1.00 45.24 O +ATOM 18371 NE2 GLN L 106 17.929 -19.459 67.696 1.00 50.02 N +ATOM 18372 N HIS L 107 18.748 -14.182 67.214 1.00 53.04 N +ATOM 18373 CA HIS L 107 19.618 -14.017 68.377 1.00 54.31 C +ATOM 18374 C HIS L 107 18.796 -13.956 69.657 1.00 55.09 C +ATOM 18375 O HIS L 107 18.916 -13.044 70.469 1.00 55.50 O +ATOM 18376 CB HIS L 107 20.516 -12.792 68.210 1.00 57.43 C +ATOM 18377 CG HIS L 107 19.783 -11.489 68.116 1.00 53.23 C +ATOM 18378 ND1 HIS L 107 19.646 -10.633 69.187 1.00 57.30 N +ATOM 18379 CD2 HIS L 107 19.181 -10.879 67.068 1.00 51.77 C +ATOM 18380 CE1 HIS L 107 18.976 -9.559 68.807 1.00 53.85 C +ATOM 18381 NE2 HIS L 107 18.681 -9.684 67.526 1.00 51.08 N +ATOM 18382 N TYR L 108 17.934 -14.959 69.827 1.00 53.36 N +ATOM 18383 CA TYR L 108 17.005 -15.053 70.946 1.00 53.04 C +ATOM 18384 C TYR L 108 17.385 -16.141 71.939 1.00 50.93 C +ATOM 18385 O TYR L 108 17.345 -15.912 73.151 1.00 53.34 O +ATOM 18386 CB TYR L 108 15.582 -15.300 70.420 1.00 53.47 C +ATOM 18387 CG TYR L 108 14.523 -15.439 71.494 1.00 52.04 C +ATOM 18388 CD1 TYR L 108 13.958 -14.318 72.089 1.00 50.25 C +ATOM 18389 CD2 TYR L 108 14.074 -16.691 71.899 1.00 51.14 C +ATOM 18390 CE1 TYR L 108 12.986 -14.438 73.066 1.00 50.94 C +ATOM 18391 CE2 TYR L 108 13.102 -16.821 72.876 1.00 52.00 C +ATOM 18392 CZ TYR L 108 12.562 -15.691 73.455 1.00 53.32 C +ATOM 18393 OH TYR L 108 11.594 -15.815 74.427 1.00 49.51 O +ATOM 18394 N SER L 109 17.746 -17.330 71.459 1.00 52.40 N +ATOM 18395 CA SER L 109 18.069 -18.443 72.340 1.00 54.55 C +ATOM 18396 C SER L 109 19.171 -19.286 71.709 1.00 56.23 C +ATOM 18397 O SER L 109 19.629 -19.020 70.594 1.00 57.10 O +ATOM 18398 CB SER L 109 16.825 -19.288 72.633 1.00 54.55 C +ATOM 18399 OG SER L 109 16.344 -19.911 71.455 1.00 55.31 O +ATOM 18400 N ILE L 114 19.590 -20.315 72.441 1.00 55.82 N +ATOM 18401 CA ILE L 114 20.626 -21.250 72.006 1.00 54.70 C +ATOM 18402 C ILE L 114 19.944 -22.570 71.661 1.00 54.38 C +ATOM 18403 O ILE L 114 19.029 -22.994 72.381 1.00 58.21 O +ATOM 18404 CB ILE L 114 21.708 -21.422 73.088 1.00 56.69 C +ATOM 18405 CG1 ILE L 114 22.598 -20.182 73.151 1.00 56.51 C +ATOM 18406 CG2 ILE L 114 22.561 -22.662 72.855 1.00 56.75 C +ATOM 18407 CD1 ILE L 114 23.693 -20.263 74.186 1.00 58.03 C +ATOM 18408 N PRO L 115 20.341 -23.256 70.577 1.00 57.32 N +ATOM 18409 CA PRO L 115 21.412 -22.896 69.638 1.00 56.83 C +ATOM 18410 C PRO L 115 21.066 -21.746 68.701 1.00 54.44 C +ATOM 18411 O PRO L 115 19.906 -21.566 68.332 1.00 52.04 O +ATOM 18412 CB PRO L 115 21.614 -24.181 68.839 1.00 63.99 C +ATOM 18413 CG PRO L 115 20.284 -24.840 68.870 1.00 70.64 C +ATOM 18414 CD PRO L 115 19.705 -24.535 70.216 1.00 64.25 C +ATOM 18415 N ARG L 116 22.085 -20.980 68.321 1.00 54.42 N +ATOM 18416 CA ARG L 116 21.897 -19.905 67.359 1.00 52.65 C +ATOM 18417 C ARG L 116 21.672 -20.499 65.975 1.00 50.25 C +ATOM 18418 O ARG L 116 22.442 -21.350 65.521 1.00 51.99 O +ATOM 18419 CB ARG L 116 23.113 -18.984 67.352 1.00 51.99 C +ATOM 18420 CG ARG L 116 23.626 -18.639 68.738 1.00 58.09 C +ATOM 18421 CD ARG L 116 23.254 -17.224 69.131 1.00 62.66 C +ATOM 18422 NE ARG L 116 22.373 -17.193 70.294 1.00 66.19 N +ATOM 18423 CZ ARG L 116 22.798 -17.195 71.553 1.00 71.58 C +ATOM 18424 NH1 ARG L 116 24.098 -17.228 71.817 1.00 75.09 N +ATOM 18425 NH2 ARG L 116 21.924 -17.149 72.548 1.00 64.59 N +ATOM 18426 N THR L 117 20.610 -20.063 65.307 1.00 45.43 N +ATOM 18427 CA THR L 117 20.247 -20.608 64.008 1.00 47.31 C +ATOM 18428 C THR L 117 20.062 -19.482 63.003 1.00 48.29 C +ATOM 18429 O THR L 117 19.485 -18.438 63.322 1.00 44.79 O +ATOM 18430 CB THR L 117 18.971 -21.451 64.090 1.00 46.72 C +ATOM 18431 OG1 THR L 117 17.919 -20.678 64.679 1.00 50.32 O +ATOM 18432 CG2 THR L 117 19.209 -22.700 64.925 1.00 49.96 C +ATOM 18433 N PHE L 118 20.553 -19.708 61.789 1.00 50.64 N +ATOM 18434 CA PHE L 118 20.422 -18.766 60.689 1.00 48.84 C +ATOM 18435 C PHE L 118 19.292 -19.197 59.762 1.00 47.77 C +ATOM 18436 O PHE L 118 18.736 -20.292 59.876 1.00 51.05 O +ATOM 18437 CB PHE L 118 21.732 -18.666 59.899 1.00 47.90 C +ATOM 18438 CG PHE L 118 22.854 -18.012 60.651 1.00 50.14 C +ATOM 18439 CD1 PHE L 118 23.617 -18.734 61.553 1.00 49.58 C +ATOM 18440 CD2 PHE L 118 23.157 -16.676 60.442 1.00 50.52 C +ATOM 18441 CE1 PHE L 118 24.654 -18.133 62.241 1.00 48.45 C +ATOM 18442 CE2 PHE L 118 24.192 -16.070 61.128 1.00 47.24 C +ATOM 18443 CZ PHE L 118 24.941 -16.799 62.027 1.00 45.06 C +ATOM 18444 N GLY L 119 18.953 -18.309 58.832 1.00 50.20 N +ATOM 18445 CA GLY L 119 18.045 -18.663 57.764 1.00 52.39 C +ATOM 18446 C GLY L 119 18.775 -19.285 56.588 1.00 52.22 C +ATOM 18447 O GLY L 119 20.003 -19.357 56.552 1.00 56.13 O +ATOM 18448 N GLY L 120 17.993 -19.743 55.610 1.00 52.90 N +ATOM 18449 CA GLY L 120 18.582 -20.338 54.424 1.00 65.13 C +ATOM 18450 C GLY L 120 19.310 -19.349 53.539 1.00 50.42 C +ATOM 18451 O GLY L 120 20.200 -19.748 52.782 1.00 53.54 O +ATOM 18452 N GLY L 121 18.956 -18.074 53.621 1.00 46.94 N +ATOM 18453 CA GLY L 121 19.553 -17.047 52.798 1.00 44.99 C +ATOM 18454 C GLY L 121 18.713 -16.744 51.568 1.00 49.48 C +ATOM 18455 O GLY L 121 17.939 -17.571 51.080 1.00 50.05 O +ATOM 18456 N THR L 122 18.878 -15.527 51.057 1.00 48.49 N +ATOM 18457 CA THR L 122 18.170 -15.091 49.856 1.00 48.90 C +ATOM 18458 C THR L 122 19.152 -14.319 48.987 1.00 45.96 C +ATOM 18459 O THR L 122 19.636 -13.259 49.394 1.00 43.83 O +ATOM 18460 CB THR L 122 16.954 -14.230 50.202 1.00 47.23 C +ATOM 18461 OG1 THR L 122 16.056 -14.980 51.029 1.00 48.19 O +ATOM 18462 CG2 THR L 122 16.228 -13.800 48.935 1.00 47.48 C +ATOM 18463 N LYS L 123 19.478 -14.870 47.820 1.00 43.15 N +ATOM 18464 CA LYS L 123 20.347 -14.186 46.870 1.00 45.00 C +ATOM 18465 C LYS L 123 19.543 -13.133 46.119 1.00 46.08 C +ATOM 18466 O LYS L 123 18.513 -13.447 45.512 1.00 49.04 O +ATOM 18467 CB LYS L 123 20.975 -15.179 45.894 1.00 50.06 C +ATOM 18468 CG LYS L 123 21.919 -14.530 44.888 1.00 54.52 C +ATOM 18469 CD LYS L 123 22.337 -15.501 43.794 1.00 59.31 C +ATOM 18470 CE LYS L 123 23.421 -16.450 44.274 1.00 66.49 C +ATOM 18471 NZ LYS L 123 24.700 -15.734 44.539 1.00 70.44 N +ATOM 18472 N LEU L 124 20.012 -11.891 46.152 1.00 42.98 N +ATOM 18473 CA LEU L 124 19.333 -10.779 45.498 1.00 44.08 C +ATOM 18474 C LEU L 124 20.031 -10.545 44.164 1.00 47.92 C +ATOM 18475 O LEU L 124 21.103 -9.939 44.107 1.00 47.98 O +ATOM 18476 CB LEU L 124 19.361 -9.534 46.378 1.00 43.29 C +ATOM 18477 CG LEU L 124 18.682 -8.285 45.817 1.00 45.11 C +ATOM 18478 CD1 LEU L 124 17.202 -8.546 45.611 1.00 46.54 C +ATOM 18479 CD2 LEU L 124 18.898 -7.097 46.741 1.00 44.82 C +ATOM 18480 N GLU L 125 19.415 -11.032 43.092 1.00 51.07 N +ATOM 18481 CA GLU L 125 19.910 -10.824 41.740 1.00 51.45 C +ATOM 18482 C GLU L 125 19.329 -9.539 41.162 1.00 50.67 C +ATOM 18483 O GLU L 125 18.219 -9.126 41.507 1.00 51.48 O +ATOM 18484 CB GLU L 125 19.556 -12.025 40.863 1.00 56.02 C +ATOM 18485 CG GLU L 125 20.109 -13.334 41.413 1.00 65.49 C +ATOM 18486 CD GLU L 125 19.456 -14.560 40.804 1.00 86.81 C +ATOM 18487 OE1 GLU L 125 18.440 -14.404 40.095 1.00 95.79 O +ATOM 18488 OE2 GLU L 125 19.945 -15.682 41.057 1.00 94.73 O +ATOM 18489 N ILE L 126 20.097 -8.905 40.281 1.00 47.90 N +ATOM 18490 CA ILE L 126 19.715 -7.641 39.665 1.00 48.62 C +ATOM 18491 C ILE L 126 19.344 -7.877 38.208 1.00 50.17 C +ATOM 18492 O ILE L 126 20.101 -8.508 37.460 1.00 52.55 O +ATOM 18493 CB ILE L 126 20.841 -6.601 39.786 1.00 47.05 C +ATOM 18494 CG1 ILE L 126 21.007 -6.181 41.246 1.00 48.07 C +ATOM 18495 CG2 ILE L 126 20.562 -5.395 38.907 1.00 45.33 C +ATOM 18496 CD1 ILE L 126 22.101 -5.177 41.463 1.00 51.55 C +ATOM 18497 N LYS L 127 18.180 -7.370 37.812 1.00 48.18 N +ATOM 18498 CA LYS L 127 17.717 -7.425 36.435 1.00 50.96 C +ATOM 18499 C LYS L 127 18.066 -6.117 35.737 1.00 49.95 C +ATOM 18500 O LYS L 127 17.896 -5.034 36.306 1.00 46.61 O +ATOM 18501 CB LYS L 127 16.207 -7.671 36.375 1.00 51.47 C +ATOM 18502 CG LYS L 127 15.643 -7.794 34.969 1.00 57.18 C +ATOM 18503 CD LYS L 127 16.006 -9.129 34.337 1.00 58.42 C +ATOM 18504 CE LYS L 127 15.372 -9.282 32.962 1.00 56.81 C +ATOM 18505 NZ LYS L 127 15.745 -10.573 32.317 1.00 58.23 N +ATOM 18506 N ARG L 128 18.557 -6.220 34.505 1.00 51.59 N +ATOM 18507 CA ARG L 128 18.960 -5.047 33.744 1.00 50.42 C +ATOM 18508 C ARG L 128 18.673 -5.292 32.269 1.00 47.28 C +ATOM 18509 O ARG L 128 18.186 -6.357 31.878 1.00 49.01 O +ATOM 18510 CB ARG L 128 20.438 -4.719 33.969 1.00 47.74 C +ATOM 18511 CG ARG L 128 21.375 -5.888 33.725 1.00 50.56 C +ATOM 18512 CD ARG L 128 22.702 -5.397 33.181 1.00 50.22 C +ATOM 18513 NE ARG L 128 22.536 -4.773 31.872 1.00 47.10 N +ATOM 18514 CZ ARG L 128 23.464 -4.038 31.270 1.00 47.23 C +ATOM 18515 NH1 ARG L 128 24.629 -3.824 31.864 1.00 50.24 N +ATOM 18516 NH2 ARG L 128 23.224 -3.511 30.077 1.00 42.55 N +ATOM 18517 N THR L 129 18.979 -4.289 31.450 1.00 45.60 N +ATOM 18518 CA THR L 129 18.764 -4.399 30.017 1.00 46.40 C +ATOM 18519 C THR L 129 19.684 -5.456 29.414 1.00 47.44 C +ATOM 18520 O THR L 129 20.715 -5.826 29.985 1.00 50.22 O +ATOM 18521 CB THR L 129 19.001 -3.055 29.328 1.00 44.79 C +ATOM 18522 OG1 THR L 129 20.337 -2.611 29.592 1.00 44.95 O +ATOM 18523 CG2 THR L 129 18.015 -2.015 29.836 1.00 43.64 C +ATOM 18524 N VAL L 130 19.290 -5.947 28.238 1.00 46.78 N +ATOM 18525 CA VAL L 130 20.078 -6.965 27.557 1.00 45.01 C +ATOM 18526 C VAL L 130 21.428 -6.394 27.146 1.00 47.11 C +ATOM 18527 O VAL L 130 21.538 -5.234 26.728 1.00 47.82 O +ATOM 18528 CB VAL L 130 19.308 -7.507 26.342 1.00 48.12 C +ATOM 18529 CG1 VAL L 130 20.088 -8.618 25.679 1.00 49.04 C +ATOM 18530 CG2 VAL L 130 17.932 -7.997 26.763 1.00 55.70 C +ATOM 18531 N ALA L 131 22.467 -7.216 27.270 1.00 45.78 N +ATOM 18532 CA ALA L 131 23.816 -6.849 26.861 1.00 41.74 C +ATOM 18533 C ALA L 131 24.427 -8.045 26.151 1.00 42.34 C +ATOM 18534 O ALA L 131 24.598 -9.105 26.760 1.00 42.25 O +ATOM 18535 CB ALA L 131 24.675 -6.434 28.059 1.00 42.68 C +ATOM 18536 N ALA L 132 24.724 -7.889 24.865 1.00 40.10 N +ATOM 18537 CA ALA L 132 25.334 -8.972 24.115 1.00 40.97 C +ATOM 18538 C ALA L 132 26.763 -9.211 24.602 1.00 43.22 C +ATOM 18539 O ALA L 132 27.466 -8.269 24.979 1.00 40.92 O +ATOM 18540 CB ALA L 132 25.335 -8.656 22.623 1.00 44.93 C +ATOM 18541 N PRO L 133 27.216 -10.461 24.607 1.00 43.44 N +ATOM 18542 CA PRO L 133 28.580 -10.747 25.056 1.00 44.96 C +ATOM 18543 C PRO L 133 29.618 -10.359 24.018 1.00 45.54 C +ATOM 18544 O PRO L 133 29.378 -10.407 22.810 1.00 44.74 O +ATOM 18545 CB PRO L 133 28.569 -12.265 25.268 1.00 47.70 C +ATOM 18546 CG PRO L 133 27.541 -12.759 24.310 1.00 41.80 C +ATOM 18547 CD PRO L 133 26.481 -11.688 24.250 1.00 42.61 C +ATOM 18548 N SER L 134 30.787 -9.962 24.512 1.00 48.50 N +ATOM 18549 CA SER L 134 31.960 -9.797 23.662 1.00 43.57 C +ATOM 18550 C SER L 134 32.719 -11.117 23.659 1.00 46.46 C +ATOM 18551 O SER L 134 33.118 -11.605 24.720 1.00 49.57 O +ATOM 18552 CB SER L 134 32.844 -8.656 24.161 1.00 46.07 C +ATOM 18553 OG SER L 134 32.195 -7.406 24.007 1.00 48.05 O +ATOM 18554 N VAL L 135 32.905 -11.702 22.480 1.00 43.73 N +ATOM 18555 CA VAL L 135 33.455 -13.047 22.362 1.00 42.91 C +ATOM 18556 C VAL L 135 34.923 -12.957 21.971 1.00 48.39 C +ATOM 18557 O VAL L 135 35.291 -12.209 21.057 1.00 53.30 O +ATOM 18558 CB VAL L 135 32.662 -13.889 21.349 1.00 44.78 C +ATOM 18559 CG1 VAL L 135 33.070 -15.351 21.447 1.00 44.91 C +ATOM 18560 CG2 VAL L 135 31.171 -13.736 21.592 1.00 41.90 C +ATOM 18561 N PHE L 136 35.758 -13.719 22.673 1.00 49.63 N +ATOM 18562 CA PHE L 136 37.180 -13.838 22.387 1.00 47.34 C +ATOM 18563 C PHE L 136 37.552 -15.312 22.415 1.00 49.36 C +ATOM 18564 O PHE L 136 36.895 -16.113 23.082 1.00 51.18 O +ATOM 18565 CB PHE L 136 38.037 -13.076 23.408 1.00 44.03 C +ATOM 18566 CG PHE L 136 37.635 -11.642 23.597 1.00 50.71 C +ATOM 18567 CD1 PHE L 136 36.617 -11.304 24.474 1.00 50.72 C +ATOM 18568 CD2 PHE L 136 38.284 -10.629 22.913 1.00 60.41 C +ATOM 18569 CE1 PHE L 136 36.246 -9.986 24.655 1.00 52.92 C +ATOM 18570 CE2 PHE L 136 37.920 -9.308 23.092 1.00 70.81 C +ATOM 18571 CZ PHE L 136 36.899 -8.987 23.964 1.00 60.29 C +ATOM 18572 N ILE L 137 38.600 -15.677 21.684 1.00 55.11 N +ATOM 18573 CA ILE L 137 39.072 -17.056 21.664 1.00 52.71 C +ATOM 18574 C ILE L 137 40.585 -17.061 21.844 1.00 54.17 C +ATOM 18575 O ILE L 137 41.295 -16.248 21.240 1.00 57.50 O +ATOM 18576 CB ILE L 137 38.653 -17.800 20.378 1.00 50.37 C +ATOM 18577 CG1 ILE L 137 38.981 -19.291 20.498 1.00 49.40 C +ATOM 18578 CG2 ILE L 137 39.297 -17.185 19.140 1.00 50.67 C +ATOM 18579 CD1 ILE L 137 38.325 -20.150 19.440 1.00 50.50 C +ATOM 18580 N PHE L 138 41.067 -17.952 22.706 1.00 50.88 N +ATOM 18581 CA PHE L 138 42.483 -18.091 23.012 1.00 48.58 C +ATOM 18582 C PHE L 138 42.930 -19.509 22.687 1.00 46.62 C +ATOM 18583 O PHE L 138 42.371 -20.474 23.244 1.00 48.67 O +ATOM 18584 CB PHE L 138 42.766 -17.775 24.483 1.00 46.46 C +ATOM 18585 CG PHE L 138 42.286 -16.423 24.919 1.00 47.09 C +ATOM 18586 CD1 PHE L 138 43.016 -15.286 24.618 1.00 46.37 C +ATOM 18587 CD2 PHE L 138 41.113 -16.289 25.643 1.00 47.67 C +ATOM 18588 CE1 PHE L 138 42.581 -14.040 25.022 1.00 49.83 C +ATOM 18589 CE2 PHE L 138 40.672 -15.044 26.051 1.00 46.92 C +ATOM 18590 CZ PHE L 138 41.407 -13.918 25.740 1.00 48.03 C +ATOM 18591 N PRO L 139 43.904 -19.683 21.800 1.00 47.58 N +ATOM 18592 CA PRO L 139 44.450 -21.014 21.535 1.00 49.32 C +ATOM 18593 C PRO L 139 45.376 -21.443 22.658 1.00 49.79 C +ATOM 18594 O PRO L 139 45.792 -20.612 23.479 1.00 49.43 O +ATOM 18595 CB PRO L 139 45.220 -20.816 20.220 1.00 47.61 C +ATOM 18596 CG PRO L 139 45.632 -19.387 20.254 1.00 49.40 C +ATOM 18597 CD PRO L 139 44.517 -18.649 20.947 1.00 50.26 C +ATOM 18598 N PRO L 140 45.727 -22.726 22.731 1.00 48.25 N +ATOM 18599 CA PRO L 140 46.635 -23.172 23.790 1.00 48.43 C +ATOM 18600 C PRO L 140 48.048 -22.659 23.569 1.00 51.93 C +ATOM 18601 O PRO L 140 48.504 -22.483 22.436 1.00 58.96 O +ATOM 18602 CB PRO L 140 46.578 -24.700 23.689 1.00 48.58 C +ATOM 18603 CG PRO L 140 46.207 -24.964 22.277 1.00 48.42 C +ATOM 18604 CD PRO L 140 45.290 -23.843 21.874 1.00 49.35 C +ATOM 18605 N SER L 141 48.739 -22.408 24.676 1.00 54.43 N +ATOM 18606 CA SER L 141 50.129 -21.991 24.604 1.00 60.34 C +ATOM 18607 C SER L 141 51.006 -23.166 24.187 1.00 63.21 C +ATOM 18608 O SER L 141 50.674 -24.331 24.422 1.00 60.49 O +ATOM 18609 CB SER L 141 50.590 -21.436 25.952 1.00 63.18 C +ATOM 18610 OG SER L 141 50.561 -22.439 26.953 1.00 61.58 O +ATOM 18611 N ASP L 142 52.135 -22.849 23.545 1.00 66.39 N +ATOM 18612 CA ASP L 142 53.060 -23.897 23.125 1.00 68.27 C +ATOM 18613 C ASP L 142 53.580 -24.692 24.315 1.00 69.16 C +ATOM 18614 O ASP L 142 53.877 -25.886 24.183 1.00 69.60 O +ATOM 18615 CB ASP L 142 54.222 -23.290 22.338 1.00 74.32 C +ATOM 18616 CG ASP L 142 53.777 -22.669 21.027 1.00 74.98 C +ATOM 18617 OD1 ASP L 142 52.782 -23.151 20.446 1.00 73.85 O +ATOM 18618 OD2 ASP L 142 54.422 -21.698 20.578 1.00 78.84 O +ATOM 18619 N GLU L 143 53.681 -24.054 25.483 1.00 69.05 N +ATOM 18620 CA GLU L 143 54.110 -24.756 26.687 1.00 69.98 C +ATOM 18621 C GLU L 143 53.140 -25.879 27.030 1.00 67.80 C +ATOM 18622 O GLU L 143 53.543 -27.035 27.220 1.00 70.37 O +ATOM 18623 CB GLU L 143 54.217 -23.770 27.853 1.00 72.37 C +ATOM 18624 CG GLU L 143 55.153 -22.585 27.624 1.00 98.20 C +ATOM 18625 CD GLU L 143 54.494 -21.437 26.870 1.00 85.94 C +ATOM 18626 OE1 GLU L 143 53.775 -21.698 25.883 1.00 74.29 O +ATOM 18627 OE2 GLU L 143 54.690 -20.270 27.272 1.00 81.64 O +ATOM 18628 N GLN L 144 51.849 -25.552 27.109 1.00 64.63 N +ATOM 18629 CA GLN L 144 50.841 -26.561 27.409 1.00 61.00 C +ATOM 18630 C GLN L 144 50.796 -27.635 26.329 1.00 64.78 C +ATOM 18631 O GLN L 144 50.604 -28.819 26.630 1.00 65.06 O +ATOM 18632 CB GLN L 144 49.474 -25.897 27.567 1.00 57.67 C +ATOM 18633 CG GLN L 144 48.395 -26.830 28.077 1.00 57.76 C +ATOM 18634 CD GLN L 144 47.007 -26.238 27.954 1.00 58.98 C +ATOM 18635 OE1 GLN L 144 46.043 -26.786 28.486 1.00 60.12 O +ATOM 18636 NE2 GLN L 144 46.898 -25.116 27.250 1.00 53.83 N +ATOM 18637 N LEU L 145 50.975 -27.241 25.065 1.00 64.70 N +ATOM 18638 CA LEU L 145 51.013 -28.219 23.982 1.00 64.73 C +ATOM 18639 C LEU L 145 52.132 -29.229 24.190 1.00 66.04 C +ATOM 18640 O LEU L 145 51.907 -30.444 24.138 1.00 63.94 O +ATOM 18641 CB LEU L 145 51.185 -27.511 22.638 1.00 61.45 C +ATOM 18642 CG LEU L 145 49.936 -26.862 22.053 1.00 60.66 C +ATOM 18643 CD1 LEU L 145 50.293 -25.975 20.871 1.00 59.82 C +ATOM 18644 CD2 LEU L 145 48.965 -27.947 21.646 1.00 59.16 C +ATOM 18645 N LYS L 146 53.352 -28.741 24.423 1.00 67.02 N +ATOM 18646 CA LYS L 146 54.461 -29.644 24.706 1.00 68.10 C +ATOM 18647 C LYS L 146 54.200 -30.484 25.949 1.00 71.08 C +ATOM 18648 O LYS L 146 54.687 -31.617 26.043 1.00 70.50 O +ATOM 18649 CB LYS L 146 55.762 -28.855 24.830 1.00 73.35 C +ATOM 18650 CG LYS L 146 56.188 -28.224 23.511 1.00 83.55 C +ATOM 18651 CD LYS L 146 57.521 -27.513 23.630 1.00104.42 C +ATOM 18652 CE LYS L 146 57.908 -26.828 22.334 1.00 94.74 C +ATOM 18653 NZ LYS L 146 56.798 -25.982 21.819 1.00 89.54 N +ATOM 18654 N SER L 147 53.437 -29.953 26.911 1.00 68.97 N +ATOM 18655 CA SER L 147 53.073 -30.749 28.080 1.00 66.85 C +ATOM 18656 C SER L 147 52.223 -31.957 27.699 1.00 65.34 C +ATOM 18657 O SER L 147 52.228 -32.966 28.413 1.00 70.88 O +ATOM 18658 CB SER L 147 52.338 -29.881 29.102 1.00 70.32 C +ATOM 18659 OG SER L 147 50.970 -29.737 28.761 1.00 70.67 O +ATOM 18660 N GLY L 148 51.488 -31.876 26.590 1.00 62.76 N +ATOM 18661 CA GLY L 148 50.700 -33.000 26.122 1.00 61.99 C +ATOM 18662 C GLY L 148 49.201 -32.780 26.120 1.00 57.37 C +ATOM 18663 O GLY L 148 48.434 -33.723 25.900 1.00 53.96 O +ATOM 18664 N THR L 149 48.767 -31.545 26.360 1.00 58.30 N +ATOM 18665 CA THR L 149 47.351 -31.217 26.411 1.00 57.79 C +ATOM 18666 C THR L 149 47.147 -29.850 25.771 1.00 58.57 C +ATOM 18667 O THR L 149 48.060 -29.022 25.742 1.00 60.42 O +ATOM 18668 CB THR L 149 46.836 -31.238 27.865 1.00 57.81 C +ATOM 18669 OG1 THR L 149 47.076 -32.530 28.434 1.00 59.18 O +ATOM 18670 CG2 THR L 149 45.341 -30.955 27.938 1.00 53.33 C +ATOM 18671 N ALA L 150 45.944 -29.620 25.250 1.00 54.24 N +ATOM 18672 CA ALA L 150 45.584 -28.355 24.628 1.00 54.05 C +ATOM 18673 C ALA L 150 44.273 -27.875 25.226 1.00 53.75 C +ATOM 18674 O ALA L 150 43.279 -28.610 25.221 1.00 53.64 O +ATOM 18675 CB ALA L 150 45.458 -28.494 23.108 1.00 56.22 C +ATOM 18676 N SER L 151 44.271 -26.649 25.739 1.00 50.60 N +ATOM 18677 CA SER L 151 43.071 -26.033 26.293 1.00 48.99 C +ATOM 18678 C SER L 151 42.771 -24.781 25.484 1.00 48.62 C +ATOM 18679 O SER L 151 43.526 -23.804 25.536 1.00 46.46 O +ATOM 18680 CB SER L 151 43.244 -25.702 27.773 1.00 56.97 C +ATOM 18681 OG SER L 151 43.299 -26.878 28.563 1.00 56.52 O +ATOM 18682 N VAL L 152 41.673 -24.815 24.738 1.00 50.21 N +ATOM 18683 CA VAL L 152 41.204 -23.671 23.969 1.00 49.47 C +ATOM 18684 C VAL L 152 40.130 -22.977 24.790 1.00 45.65 C +ATOM 18685 O VAL L 152 39.225 -23.633 25.318 1.00 44.34 O +ATOM 18686 CB VAL L 152 40.655 -24.106 22.600 1.00 44.25 C +ATOM 18687 CG1 VAL L 152 40.454 -22.899 21.702 1.00 44.84 C +ATOM 18688 CG2 VAL L 152 41.582 -25.125 21.956 1.00 45.43 C +ATOM 18689 N VAL L 153 40.224 -21.657 24.911 1.00 44.59 N +ATOM 18690 CA VAL L 153 39.326 -20.911 25.783 1.00 47.62 C +ATOM 18691 C VAL L 153 38.458 -19.992 24.939 1.00 49.29 C +ATOM 18692 O VAL L 153 38.945 -19.339 24.012 1.00 50.03 O +ATOM 18693 CB VAL L 153 40.102 -20.110 26.851 1.00 47.73 C +ATOM 18694 CG1 VAL L 153 39.141 -19.387 27.779 1.00 45.72 C +ATOM 18695 CG2 VAL L 153 40.998 -21.041 27.654 1.00 45.39 C +ATOM 18696 N CYS L 154 37.168 -19.952 25.257 1.00 47.47 N +ATOM 18697 CA CYS L 154 36.223 -19.035 24.636 1.00 49.63 C +ATOM 18698 C CYS L 154 35.653 -18.169 25.748 1.00 50.24 C +ATOM 18699 O CYS L 154 35.072 -18.689 26.706 1.00 50.75 O +ATOM 18700 CB CYS L 154 35.117 -19.792 23.896 1.00 51.73 C +ATOM 18701 SG CYS L 154 33.994 -18.780 22.886 1.00 58.88 S +ATOM 18702 N LEU L 155 35.828 -16.859 25.623 1.00 48.56 N +ATOM 18703 CA LEU L 155 35.462 -15.905 26.659 1.00 50.07 C +ATOM 18704 C LEU L 155 34.291 -15.061 26.176 1.00 49.36 C +ATOM 18705 O LEU L 155 34.387 -14.397 25.138 1.00 47.79 O +ATOM 18706 CB LEU L 155 36.652 -15.016 27.022 1.00 48.70 C +ATOM 18707 CG LEU L 155 36.357 -13.778 27.872 1.00 48.49 C +ATOM 18708 CD1 LEU L 155 35.827 -14.175 29.237 1.00 42.84 C +ATOM 18709 CD2 LEU L 155 37.597 -12.909 28.008 1.00 45.84 C +ATOM 18710 N LEU L 156 33.196 -15.094 26.930 1.00 47.48 N +ATOM 18711 CA LEU L 156 32.057 -14.209 26.738 1.00 47.04 C +ATOM 18712 C LEU L 156 32.129 -13.147 27.826 1.00 48.50 C +ATOM 18713 O LEU L 156 32.129 -13.475 29.018 1.00 45.32 O +ATOM 18714 CB LEU L 156 30.734 -14.972 26.820 1.00 45.71 C +ATOM 18715 CG LEU L 156 30.307 -15.993 25.758 1.00 44.02 C +ATOM 18716 CD1 LEU L 156 31.270 -17.167 25.631 1.00 48.02 C +ATOM 18717 CD2 LEU L 156 28.912 -16.495 26.082 1.00 43.37 C +ATOM 18718 N ASN L 157 32.199 -11.884 27.422 1.00 48.62 N +ATOM 18719 CA ASN L 157 32.518 -10.798 28.334 1.00 51.54 C +ATOM 18720 C ASN L 157 31.346 -9.834 28.433 1.00 51.60 C +ATOM 18721 O ASN L 157 30.808 -9.393 27.409 1.00 49.63 O +ATOM 18722 CB ASN L 157 33.772 -10.054 27.866 1.00 50.35 C +ATOM 18723 CG ASN L 157 34.510 -9.384 29.005 1.00 52.88 C +ATOM 18724 OD1 ASN L 157 34.640 -9.946 30.092 1.00 54.01 O +ATOM 18725 ND2 ASN L 157 34.993 -8.171 28.763 1.00 56.07 N +ATOM 18726 N ASN L 158 30.964 -9.523 29.673 1.00 46.60 N +ATOM 18727 CA ASN L 158 30.021 -8.459 30.018 1.00 47.74 C +ATOM 18728 C ASN L 158 28.710 -8.590 29.238 1.00 47.25 C +ATOM 18729 O ASN L 158 28.381 -7.784 28.369 1.00 48.18 O +ATOM 18730 CB ASN L 158 30.669 -7.090 29.798 1.00 49.14 C +ATOM 18731 CG ASN L 158 31.910 -6.894 30.649 1.00 49.25 C +ATOM 18732 OD1 ASN L 158 32.968 -6.516 30.147 1.00 51.58 O +ATOM 18733 ND2 ASN L 158 31.784 -7.153 31.946 1.00 54.75 N +ATOM 18734 N PHE L 159 27.959 -9.633 29.587 1.00 46.23 N +ATOM 18735 CA PHE L 159 26.663 -9.881 28.975 1.00 43.76 C +ATOM 18736 C PHE L 159 25.595 -10.063 30.045 1.00 47.35 C +ATOM 18737 O PHE L 159 25.884 -10.378 31.202 1.00 47.29 O +ATOM 18738 CB PHE L 159 26.690 -11.109 28.052 1.00 44.07 C +ATOM 18739 CG PHE L 159 27.014 -12.398 28.750 1.00 45.21 C +ATOM 18740 CD1 PHE L 159 28.328 -12.797 28.926 1.00 47.52 C +ATOM 18741 CD2 PHE L 159 26.002 -13.226 29.206 1.00 45.54 C +ATOM 18742 CE1 PHE L 159 28.626 -13.989 29.561 1.00 46.36 C +ATOM 18743 CE2 PHE L 159 26.292 -14.418 29.841 1.00 45.80 C +ATOM 18744 CZ PHE L 159 27.606 -14.801 30.018 1.00 46.40 C +ATOM 18745 N TYR L 160 24.343 -9.858 29.630 1.00 48.35 N +ATOM 18746 CA TYR L 160 23.162 -10.072 30.446 1.00 46.68 C +ATOM 18747 C TYR L 160 22.019 -10.349 29.482 1.00 48.68 C +ATOM 18748 O TYR L 160 21.915 -9.664 28.454 1.00 49.02 O +ATOM 18749 CB TYR L 160 22.827 -8.871 31.339 1.00 47.46 C +ATOM 18750 CG TYR L 160 21.775 -9.182 32.378 1.00 51.07 C +ATOM 18751 CD1 TYR L 160 22.129 -9.723 33.606 1.00 54.62 C +ATOM 18752 CD2 TYR L 160 20.429 -8.946 32.130 1.00 49.47 C +ATOM 18753 CE1 TYR L 160 21.175 -10.021 34.558 1.00 56.71 C +ATOM 18754 CE2 TYR L 160 19.466 -9.241 33.077 1.00 49.94 C +ATOM 18755 CZ TYR L 160 19.847 -9.778 34.290 1.00 55.35 C +ATOM 18756 OH TYR L 160 18.903 -10.077 35.243 1.00 59.85 O +ATOM 18757 N PRO L 161 21.140 -11.323 29.778 1.00 48.68 N +ATOM 18758 CA PRO L 161 21.097 -12.151 30.991 1.00 49.11 C +ATOM 18759 C PRO L 161 22.178 -13.226 31.091 1.00 50.78 C +ATOM 18760 O PRO L 161 23.050 -13.336 30.231 1.00 48.99 O +ATOM 18761 CB PRO L 161 19.715 -12.804 30.911 1.00 48.92 C +ATOM 18762 CG PRO L 161 19.423 -12.868 29.462 1.00 47.37 C +ATOM 18763 CD PRO L 161 20.019 -11.626 28.871 1.00 46.94 C +ATOM 18764 N ARG L 162 22.085 -14.022 32.159 1.00 54.96 N +ATOM 18765 CA ARG L 162 23.128 -14.988 32.486 1.00 51.01 C +ATOM 18766 C ARG L 162 23.197 -16.126 31.474 1.00 52.65 C +ATOM 18767 O ARG L 162 24.269 -16.706 31.269 1.00 53.82 O +ATOM 18768 CB ARG L 162 22.883 -15.537 33.891 1.00 54.25 C +ATOM 18769 CG ARG L 162 24.000 -16.387 34.462 1.00 59.33 C +ATOM 18770 CD ARG L 162 23.615 -16.906 35.839 1.00 66.34 C +ATOM 18771 NE ARG L 162 24.723 -17.578 36.510 1.00 79.09 N +ATOM 18772 CZ ARG L 162 25.027 -18.861 36.347 1.00 76.62 C +ATOM 18773 NH1 ARG L 162 24.309 -19.617 35.527 1.00 72.56 N +ATOM 18774 NH2 ARG L 162 26.052 -19.389 37.002 1.00 78.09 N +ATOM 18775 N GLU L 163 22.078 -16.455 30.835 1.00 51.64 N +ATOM 18776 CA GLU L 163 21.991 -17.643 29.994 1.00 52.69 C +ATOM 18777 C GLU L 163 22.557 -17.358 28.608 1.00 51.68 C +ATOM 18778 O GLU L 163 22.030 -16.514 27.876 1.00 56.16 O +ATOM 18779 CB GLU L 163 20.544 -18.124 29.899 1.00 54.66 C +ATOM 18780 CG GLU L 163 19.968 -18.664 31.205 1.00 59.32 C +ATOM 18781 CD GLU L 163 19.694 -17.578 32.229 1.00 61.32 C +ATOM 18782 OE1 GLU L 163 19.469 -16.418 31.822 1.00 59.91 O +ATOM 18783 OE2 GLU L 163 19.710 -17.883 33.440 1.00 72.98 O +ATOM 18784 N ALA L 164 23.629 -18.062 28.251 1.00 47.52 N +ATOM 18785 CA ALA L 164 24.225 -17.963 26.925 1.00 51.41 C +ATOM 18786 C ALA L 164 24.778 -19.327 26.544 1.00 53.89 C +ATOM 18787 O ALA L 164 25.474 -19.957 27.347 1.00 55.27 O +ATOM 18788 CB ALA L 164 25.331 -16.904 26.888 1.00 48.51 C +ATOM 18789 N LYS L 165 24.476 -19.779 25.329 1.00 50.99 N +ATOM 18790 CA LYS L 165 24.887 -21.098 24.869 1.00 53.36 C +ATOM 18791 C LYS L 165 26.141 -20.987 24.012 1.00 55.09 C +ATOM 18792 O LYS L 165 26.266 -20.075 23.187 1.00 55.60 O +ATOM 18793 CB LYS L 165 23.776 -21.778 24.067 1.00 57.74 C +ATOM 18794 CG LYS L 165 22.480 -22.040 24.819 1.00 67.45 C +ATOM 18795 CD LYS L 165 22.615 -23.193 25.798 1.00 74.45 C +ATOM 18796 CE LYS L 165 21.256 -23.593 26.353 1.00 77.95 C +ATOM 18797 NZ LYS L 165 21.319 -24.855 27.140 1.00 89.31 N +ATOM 18798 N VAL L 166 27.068 -21.922 24.214 1.00 53.76 N +ATOM 18799 CA VAL L 166 28.342 -21.953 23.505 1.00 51.24 C +ATOM 18800 C VAL L 166 28.542 -23.349 22.932 1.00 52.83 C +ATOM 18801 O VAL L 166 28.448 -24.342 23.662 1.00 53.91 O +ATOM 18802 CB VAL L 166 29.522 -21.578 24.423 1.00 50.34 C +ATOM 18803 CG1 VAL L 166 30.817 -21.525 23.628 1.00 53.53 C +ATOM 18804 CG2 VAL L 166 29.264 -20.247 25.112 1.00 50.50 C +ATOM 18805 N GLN L 167 28.818 -23.423 21.633 1.00 53.00 N +ATOM 18806 CA GLN L 167 29.116 -24.677 20.956 1.00 56.49 C +ATOM 18807 C GLN L 167 30.523 -24.614 20.382 1.00 55.12 C +ATOM 18808 O GLN L 167 30.968 -23.557 19.928 1.00 52.76 O +ATOM 18809 CB GLN L 167 28.117 -24.964 19.828 1.00 62.21 C +ATOM 18810 CG GLN L 167 26.758 -25.460 20.285 1.00 70.25 C +ATOM 18811 CD GLN L 167 25.828 -25.737 19.119 1.00 76.42 C +ATOM 18812 OE1 GLN L 167 25.940 -25.119 18.060 1.00 76.48 O +ATOM 18813 NE2 GLN L 167 24.905 -26.674 19.307 1.00 78.79 N +ATOM 18814 N TRP L 168 31.221 -25.744 20.402 1.00 55.81 N +ATOM 18815 CA TRP L 168 32.573 -25.837 19.867 1.00 54.45 C +ATOM 18816 C TRP L 168 32.538 -26.570 18.533 1.00 55.44 C +ATOM 18817 O TRP L 168 31.883 -27.611 18.409 1.00 56.06 O +ATOM 18818 CB TRP L 168 33.505 -26.548 20.848 1.00 53.14 C +ATOM 18819 CG TRP L 168 33.970 -25.667 21.966 1.00 52.76 C +ATOM 18820 CD1 TRP L 168 33.462 -25.610 23.230 1.00 50.00 C +ATOM 18821 CD2 TRP L 168 35.037 -24.712 21.918 1.00 52.63 C +ATOM 18822 NE1 TRP L 168 34.146 -24.679 23.973 1.00 48.10 N +ATOM 18823 CE2 TRP L 168 35.119 -24.114 23.191 1.00 50.14 C +ATOM 18824 CE3 TRP L 168 35.931 -24.305 20.923 1.00 50.40 C +ATOM 18825 CZ2 TRP L 168 36.059 -23.132 23.496 1.00 47.86 C +ATOM 18826 CZ3 TRP L 168 36.864 -23.329 21.227 1.00 49.28 C +ATOM 18827 CH2 TRP L 168 36.920 -22.754 22.502 1.00 49.87 C +ATOM 18828 N LYS L 169 33.241 -26.024 17.543 1.00 55.92 N +ATOM 18829 CA LYS L 169 33.326 -26.615 16.215 1.00 55.68 C +ATOM 18830 C LYS L 169 34.792 -26.733 15.832 1.00 57.11 C +ATOM 18831 O LYS L 169 35.514 -25.730 15.795 1.00 58.05 O +ATOM 18832 CB LYS L 169 32.556 -25.779 15.188 1.00 58.02 C +ATOM 18833 CG LYS L 169 31.047 -25.912 15.305 1.00 61.60 C +ATOM 18834 CD LYS L 169 30.325 -24.902 14.431 1.00 67.46 C +ATOM 18835 CE LYS L 169 28.823 -25.140 14.450 1.00 67.38 C +ATOM 18836 NZ LYS L 169 28.452 -26.423 13.793 1.00 77.11 N +ATOM 18837 N VAL L 170 35.226 -27.956 15.551 1.00 57.69 N +ATOM 18838 CA VAL L 170 36.580 -28.246 15.100 1.00 58.75 C +ATOM 18839 C VAL L 170 36.472 -28.791 13.683 1.00 58.30 C +ATOM 18840 O VAL L 170 36.028 -29.930 13.484 1.00 57.31 O +ATOM 18841 CB VAL L 170 37.288 -29.246 16.021 1.00 58.27 C +ATOM 18842 CG1 VAL L 170 38.695 -29.501 15.539 1.00 60.97 C +ATOM 18843 CG2 VAL L 170 37.293 -28.740 17.454 1.00 55.49 C +ATOM 18844 N ASP L 171 36.872 -27.982 12.699 1.00 60.27 N +ATOM 18845 CA ASP L 171 36.732 -28.334 11.283 1.00 59.10 C +ATOM 18846 C ASP L 171 35.268 -28.598 10.937 1.00 62.14 C +ATOM 18847 O ASP L 171 34.927 -29.569 10.258 1.00 64.84 O +ATOM 18848 CB ASP L 171 37.619 -29.524 10.912 1.00 57.97 C +ATOM 18849 CG ASP L 171 39.095 -29.213 11.054 1.00 59.88 C +ATOM 18850 OD1 ASP L 171 39.427 -28.022 11.246 1.00 58.39 O +ATOM 18851 OD2 ASP L 171 39.923 -30.146 10.955 1.00 63.68 O +ATOM 18852 N ASN L 172 34.398 -27.709 11.421 1.00 63.54 N +ATOM 18853 CA ASN L 172 32.944 -27.739 11.273 1.00 62.98 C +ATOM 18854 C ASN L 172 32.296 -28.925 11.981 1.00 63.46 C +ATOM 18855 O ASN L 172 31.074 -29.095 11.879 1.00 73.87 O +ATOM 18856 CB ASN L 172 32.503 -27.736 9.802 1.00 68.30 C +ATOM 18857 CG ASN L 172 32.860 -26.446 9.092 1.00 71.10 C +ATOM 18858 OD1 ASN L 172 33.969 -26.295 8.580 1.00 71.43 O +ATOM 18859 ND2 ASN L 172 31.922 -25.506 9.062 1.00 74.28 N +ATOM 18860 N ALA L 173 33.061 -29.747 12.693 1.00 62.89 N +ATOM 18861 CA ALA L 173 32.509 -30.861 13.452 1.00 62.23 C +ATOM 18862 C ALA L 173 32.114 -30.376 14.841 1.00 60.83 C +ATOM 18863 O ALA L 173 32.949 -29.839 15.578 1.00 58.97 O +ATOM 18864 CB ALA L 173 33.517 -32.006 13.544 1.00 58.42 C +ATOM 18865 N LEU L 174 30.844 -30.559 15.194 1.00 63.69 N +ATOM 18866 CA LEU L 174 30.356 -30.117 16.494 1.00 62.12 C +ATOM 18867 C LEU L 174 30.938 -30.985 17.603 1.00 60.59 C +ATOM 18868 O LEU L 174 30.950 -32.216 17.503 1.00 58.40 O +ATOM 18869 CB LEU L 174 28.830 -30.162 16.529 1.00 64.12 C +ATOM 18870 CG LEU L 174 28.167 -29.737 17.842 1.00 66.45 C +ATOM 18871 CD1 LEU L 174 28.532 -28.301 18.190 1.00 68.77 C +ATOM 18872 CD2 LEU L 174 26.657 -29.905 17.762 1.00 66.54 C +ATOM 18873 N GLN L 175 31.424 -30.341 18.659 1.00 61.13 N +ATOM 18874 CA GLN L 175 32.005 -31.029 19.801 1.00 60.36 C +ATOM 18875 C GLN L 175 30.971 -31.173 20.911 1.00 61.17 C +ATOM 18876 O GLN L 175 30.057 -30.355 21.044 1.00 61.57 O +ATOM 18877 CB GLN L 175 33.231 -30.278 20.324 1.00 58.08 C +ATOM 18878 CG GLN L 175 34.303 -30.033 19.273 1.00 59.49 C +ATOM 18879 CD GLN L 175 34.934 -31.317 18.770 1.00 59.66 C +ATOM 18880 OE1 GLN L 175 35.440 -32.122 19.553 1.00 59.98 O +ATOM 18881 NE2 GLN L 175 34.906 -31.516 17.457 1.00 58.25 N +ATOM 18882 N SER L 176 31.127 -32.224 21.714 1.00 64.70 N +ATOM 18883 CA SER L 176 30.214 -32.482 22.818 1.00 65.92 C +ATOM 18884 C SER L 176 30.910 -33.359 23.849 1.00 64.80 C +ATOM 18885 O SER L 176 31.587 -34.327 23.492 1.00 65.05 O +ATOM 18886 CB SER L 176 28.924 -33.153 22.333 1.00 65.52 C +ATOM 18887 OG SER L 176 29.191 -34.426 21.772 1.00 70.54 O +ATOM 18888 N GLY L 177 30.738 -33.014 25.123 1.00 66.87 N +ATOM 18889 CA GLY L 177 31.298 -33.798 26.204 1.00 70.97 C +ATOM 18890 C GLY L 177 32.776 -33.604 26.446 1.00 69.63 C +ATOM 18891 O GLY L 177 33.379 -34.404 27.170 1.00 69.23 O +ATOM 18892 N ASN L 178 33.381 -32.566 25.865 1.00 68.29 N +ATOM 18893 CA ASN L 178 34.804 -32.295 26.033 1.00 61.77 C +ATOM 18894 C ASN L 178 35.064 -30.826 26.347 1.00 57.78 C +ATOM 18895 O ASN L 178 36.161 -30.324 26.082 1.00 54.87 O +ATOM 18896 CB ASN L 178 35.584 -32.726 24.787 1.00 64.31 C +ATOM 18897 CG ASN L 178 35.072 -32.068 23.522 1.00 63.72 C +ATOM 18898 OD1 ASN L 178 33.964 -31.530 23.491 1.00 64.46 O +ATOM 18899 ND2 ASN L 178 35.873 -32.116 22.464 1.00 62.82 N +ATOM 18900 N SER L 179 34.076 -30.130 26.907 1.00 60.25 N +ATOM 18901 CA SER L 179 34.203 -28.723 27.253 1.00 57.36 C +ATOM 18902 C SER L 179 33.537 -28.470 28.597 1.00 58.72 C +ATOM 18903 O SER L 179 32.621 -29.191 29.000 1.00 62.88 O +ATOM 18904 CB SER L 179 33.581 -27.819 26.181 1.00 54.63 C +ATOM 18905 OG SER L 179 32.210 -28.127 25.992 1.00 57.87 O +ATOM 18906 N GLN L 180 34.012 -27.437 29.288 1.00 55.95 N +ATOM 18907 CA GLN L 180 33.484 -27.057 30.593 1.00 56.64 C +ATOM 18908 C GLN L 180 33.259 -25.553 30.651 1.00 52.94 C +ATOM 18909 O GLN L 180 34.094 -24.774 30.186 1.00 49.44 O +ATOM 18910 CB GLN L 180 34.424 -27.481 31.729 1.00 59.15 C +ATOM 18911 CG GLN L 180 34.454 -28.977 31.992 1.00 71.39 C +ATOM 18912 CD GLN L 180 35.321 -29.339 33.181 1.00 72.68 C +ATOM 18913 OE1 GLN L 180 34.930 -30.144 34.027 1.00 72.52 O +ATOM 18914 NE2 GLN L 180 36.509 -28.748 33.250 1.00 70.60 N +ATOM 18915 N GLU L 181 32.135 -25.150 31.239 1.00 55.41 N +ATOM 18916 CA GLU L 181 31.758 -23.748 31.338 1.00 53.14 C +ATOM 18917 C GLU L 181 31.895 -23.259 32.774 1.00 49.63 C +ATOM 18918 O GLU L 181 31.745 -24.027 33.729 1.00 51.19 O +ATOM 18919 CB GLU L 181 30.321 -23.521 30.858 1.00 54.51 C +ATOM 18920 CG GLU L 181 30.125 -23.652 29.358 1.00 59.33 C +ATOM 18921 CD GLU L 181 28.729 -23.250 28.921 1.00 74.33 C +ATOM 18922 OE1 GLU L 181 27.920 -22.869 29.794 1.00 84.72 O +ATOM 18923 OE2 GLU L 181 28.440 -23.314 27.707 1.00 80.59 O +ATOM 18924 N SER L 182 32.188 -21.968 32.912 1.00 45.01 N +ATOM 18925 CA SER L 182 32.273 -21.329 34.219 1.00 49.26 C +ATOM 18926 C SER L 182 31.784 -19.894 34.100 1.00 49.01 C +ATOM 18927 O SER L 182 32.267 -19.146 33.245 1.00 48.29 O +ATOM 18928 CB SER L 182 33.707 -21.362 34.760 1.00 50.32 C +ATOM 18929 OG SER L 182 33.785 -20.753 36.037 1.00 48.09 O +ATOM 18930 N VAL L 183 30.843 -19.511 34.960 1.00 47.66 N +ATOM 18931 CA VAL L 183 30.217 -18.195 34.915 1.00 46.71 C +ATOM 18932 C VAL L 183 30.590 -17.435 36.179 1.00 44.99 C +ATOM 18933 O VAL L 183 30.625 -18.009 37.273 1.00 50.19 O +ATOM 18934 CB VAL L 183 28.682 -18.301 34.779 1.00 48.92 C +ATOM 18935 CG1 VAL L 183 28.046 -16.918 34.714 1.00 51.47 C +ATOM 18936 CG2 VAL L 183 28.309 -19.115 33.555 1.00 52.85 C +ATOM 18937 N THR L 184 30.859 -16.140 36.028 1.00 42.00 N +ATOM 18938 CA THR L 184 31.209 -15.301 37.161 1.00 44.03 C +ATOM 18939 C THR L 184 29.957 -14.900 37.934 1.00 46.14 C +ATOM 18940 O THR L 184 28.822 -15.113 37.498 1.00 47.27 O +ATOM 18941 CB THR L 184 31.950 -14.042 36.706 1.00 44.50 C +ATOM 18942 OG1 THR L 184 31.060 -13.205 35.955 1.00 45.79 O +ATOM 18943 CG2 THR L 184 33.147 -14.397 35.850 1.00 45.48 C +ATOM 18944 N GLU L 185 30.176 -14.307 39.102 1.00 49.54 N +ATOM 18945 CA GLU L 185 29.081 -13.700 39.835 1.00 50.29 C +ATOM 18946 C GLU L 185 28.698 -12.378 39.179 1.00 48.97 C +ATOM 18947 O GLU L 185 29.483 -11.768 38.447 1.00 46.23 O +ATOM 18948 CB GLU L 185 29.469 -13.473 41.296 1.00 50.61 C +ATOM 18949 CG GLU L 185 29.424 -14.723 42.162 1.00 55.92 C +ATOM 18950 CD GLU L 185 28.010 -15.192 42.444 1.00 66.59 C +ATOM 18951 OE1 GLU L 185 27.851 -16.309 42.982 1.00 70.64 O +ATOM 18952 OE2 GLU L 185 27.059 -14.448 42.126 1.00 67.80 O +ATOM 18953 N GLN L 186 27.466 -11.946 39.435 1.00 50.90 N +ATOM 18954 CA GLN L 186 26.969 -10.715 38.837 1.00 50.31 C +ATOM 18955 C GLN L 186 27.833 -9.533 39.261 1.00 48.16 C +ATOM 18956 O GLN L 186 28.147 -9.369 40.443 1.00 50.98 O +ATOM 18957 CB GLN L 186 25.510 -10.486 39.232 1.00 53.61 C +ATOM 18958 CG GLN L 186 24.760 -9.562 38.287 1.00 51.64 C +ATOM 18959 CD GLN L 186 23.264 -9.574 38.528 1.00 54.71 C +ATOM 18960 OE1 GLN L 186 22.782 -10.174 39.489 1.00 56.88 O +ATOM 18961 NE2 GLN L 186 22.520 -8.915 37.648 1.00 55.89 N +ATOM 18962 N ASP L 187 28.227 -8.718 38.287 1.00 47.00 N +ATOM 18963 CA ASP L 187 29.094 -7.582 38.565 1.00 47.22 C +ATOM 18964 C ASP L 187 28.367 -6.549 39.417 1.00 52.09 C +ATOM 18965 O ASP L 187 27.188 -6.256 39.199 1.00 52.76 O +ATOM 18966 CB ASP L 187 29.566 -6.951 37.258 1.00 49.37 C +ATOM 18967 CG ASP L 187 30.661 -5.924 37.465 1.00 54.33 C +ATOM 18968 OD1 ASP L 187 31.824 -6.326 37.679 1.00 56.48 O +ATOM 18969 OD2 ASP L 187 30.357 -4.713 37.411 1.00 51.33 O +ATOM 18970 N SER L 188 29.082 -5.993 40.395 1.00 55.04 N +ATOM 18971 CA SER L 188 28.489 -5.038 41.322 1.00 54.36 C +ATOM 18972 C SER L 188 28.338 -3.636 40.743 1.00 55.55 C +ATOM 18973 O SER L 188 27.752 -2.776 41.408 1.00 55.24 O +ATOM 18974 CB SER L 188 29.324 -4.977 42.604 1.00 59.92 C +ATOM 18975 OG SER L 188 30.646 -4.546 42.333 1.00 62.58 O +ATOM 18976 N LYS L 189 28.864 -3.374 39.547 1.00 56.82 N +ATOM 18977 CA LYS L 189 28.785 -2.056 38.925 1.00 55.17 C +ATOM 18978 C LYS L 189 27.816 -2.001 37.753 1.00 53.74 C +ATOM 18979 O LYS L 189 26.930 -1.142 37.728 1.00 58.65 O +ATOM 18980 CB LYS L 189 30.176 -1.570 38.477 1.00 58.87 C +ATOM 18981 CG LYS L 189 31.063 -0.956 39.578 1.00 65.57 C +ATOM 18982 CD LYS L 189 31.124 -1.765 40.864 1.00 80.30 C +ATOM 18983 CE LYS L 189 31.840 -1.004 41.969 1.00 78.78 C +ATOM 18984 NZ LYS L 189 31.722 -1.695 43.284 1.00 79.07 N +ATOM 18985 N ASP L 190 27.955 -2.897 36.775 1.00 53.24 N +ATOM 18986 CA ASP L 190 27.096 -2.896 35.597 1.00 51.61 C +ATOM 18987 C ASP L 190 26.128 -4.071 35.553 1.00 50.20 C +ATOM 18988 O ASP L 190 25.383 -4.203 34.576 1.00 51.45 O +ATOM 18989 CB ASP L 190 27.946 -2.865 34.317 1.00 51.94 C +ATOM 18990 CG ASP L 190 28.912 -4.033 34.217 1.00 51.87 C +ATOM 18991 OD1 ASP L 190 28.849 -4.944 35.065 1.00 53.47 O +ATOM 18992 OD2 ASP L 190 29.743 -4.039 33.285 1.00 52.90 O +ATOM 18993 N SER L 191 26.136 -4.936 36.571 1.00 48.37 N +ATOM 18994 CA SER L 191 25.166 -6.024 36.712 1.00 48.19 C +ATOM 18995 C SER L 191 25.258 -7.047 35.582 1.00 47.44 C +ATOM 18996 O SER L 191 24.256 -7.668 35.216 1.00 50.38 O +ATOM 18997 CB SER L 191 23.736 -5.481 36.816 1.00 47.87 C +ATOM 18998 OG SER L 191 23.630 -4.518 37.849 1.00 51.92 O +ATOM 18999 N THR L 192 26.447 -7.245 35.021 1.00 47.04 N +ATOM 19000 CA THR L 192 26.621 -8.178 33.919 1.00 48.47 C +ATOM 19001 C THR L 192 27.279 -9.467 34.407 1.00 47.87 C +ATOM 19002 O THR L 192 27.655 -9.609 35.573 1.00 49.39 O +ATOM 19003 CB THR L 192 27.444 -7.543 32.796 1.00 46.43 C +ATOM 19004 OG1 THR L 192 28.763 -7.249 33.274 1.00 48.30 O +ATOM 19005 CG2 THR L 192 26.787 -6.262 32.316 1.00 47.53 C +ATOM 19006 N TYR L 193 27.422 -10.419 33.488 1.00 44.38 N +ATOM 19007 CA TYR L 193 28.067 -11.696 33.751 1.00 45.64 C +ATOM 19008 C TYR L 193 29.171 -11.928 32.728 1.00 47.78 C +ATOM 19009 O TYR L 193 29.254 -11.249 31.702 1.00 48.13 O +ATOM 19010 CB TYR L 193 27.065 -12.859 33.712 1.00 45.42 C +ATOM 19011 CG TYR L 193 25.966 -12.776 34.746 1.00 51.33 C +ATOM 19012 CD1 TYR L 193 26.151 -13.283 36.025 1.00 52.23 C +ATOM 19013 CD2 TYR L 193 24.739 -12.204 34.439 1.00 50.74 C +ATOM 19014 CE1 TYR L 193 25.147 -13.215 36.972 1.00 54.19 C +ATOM 19015 CE2 TYR L 193 23.730 -12.132 35.380 1.00 53.75 C +ATOM 19016 CZ TYR L 193 23.939 -12.637 36.644 1.00 57.90 C +ATOM 19017 OH TYR L 193 22.935 -12.566 37.583 1.00 65.17 O +ATOM 19018 N SER L 194 30.026 -12.904 33.024 1.00 45.56 N +ATOM 19019 CA SER L 194 31.056 -13.350 32.098 1.00 44.27 C +ATOM 19020 C SER L 194 31.146 -14.868 32.154 1.00 45.66 C +ATOM 19021 O SER L 194 30.927 -15.480 33.203 1.00 47.89 O +ATOM 19022 CB SER L 194 32.419 -12.722 32.414 1.00 46.99 C +ATOM 19023 OG SER L 194 32.408 -11.329 32.154 1.00 49.06 O +ATOM 19024 N LEU L 195 31.468 -15.469 31.012 1.00 46.67 N +ATOM 19025 CA LEU L 195 31.501 -16.916 30.864 1.00 46.78 C +ATOM 19026 C LEU L 195 32.808 -17.336 30.212 1.00 48.82 C +ATOM 19027 O LEU L 195 33.330 -16.641 29.338 1.00 49.19 O +ATOM 19028 CB LEU L 195 30.309 -17.410 30.025 1.00 46.01 C +ATOM 19029 CG LEU L 195 30.274 -18.872 29.565 1.00 49.23 C +ATOM 19030 CD1 LEU L 195 30.371 -19.838 30.732 1.00 56.87 C +ATOM 19031 CD2 LEU L 195 29.015 -19.143 28.759 1.00 54.63 C +ATOM 19032 N SER L 196 33.338 -18.474 30.651 1.00 45.23 N +ATOM 19033 CA SER L 196 34.538 -19.059 30.070 1.00 46.09 C +ATOM 19034 C SER L 196 34.247 -20.515 29.748 1.00 48.02 C +ATOM 19035 O SER L 196 33.862 -21.282 30.636 1.00 53.66 O +ATOM 19036 CB SER L 196 35.731 -18.945 31.023 1.00 48.52 C +ATOM 19037 OG SER L 196 35.685 -19.952 32.020 1.00 54.34 O +ATOM 19038 N SER L 197 34.415 -20.887 28.483 1.00 48.09 N +ATOM 19039 CA SER L 197 34.238 -22.261 28.031 1.00 48.21 C +ATOM 19040 C SER L 197 35.596 -22.806 27.611 1.00 47.43 C +ATOM 19041 O SER L 197 36.226 -22.273 26.692 1.00 48.01 O +ATOM 19042 CB SER L 197 33.241 -22.338 26.875 1.00 45.72 C +ATOM 19043 OG SER L 197 32.849 -23.678 26.628 1.00 44.44 O +ATOM 19044 N THR L 198 36.041 -23.861 28.282 1.00 46.42 N +ATOM 19045 CA THR L 198 37.342 -24.466 28.035 1.00 46.89 C +ATOM 19046 C THR L 198 37.140 -25.804 27.341 1.00 49.56 C +ATOM 19047 O THR L 198 36.474 -26.694 27.883 1.00 52.12 O +ATOM 19048 CB THR L 198 38.124 -24.647 29.336 1.00 47.11 C +ATOM 19049 OG1 THR L 198 38.217 -23.390 30.018 1.00 50.70 O +ATOM 19050 CG2 THR L 198 39.527 -25.163 29.043 1.00 45.67 C +ATOM 19051 N LEU L 199 37.693 -25.925 26.136 1.00 48.72 N +ATOM 19052 CA LEU L 199 37.717 -27.166 25.376 1.00 50.58 C +ATOM 19053 C LEU L 199 39.078 -27.819 25.576 1.00 52.16 C +ATOM 19054 O LEU L 199 40.111 -27.210 25.274 1.00 52.50 O +ATOM 19055 CB LEU L 199 37.463 -26.892 23.893 1.00 50.88 C +ATOM 19056 CG LEU L 199 37.523 -28.079 22.931 1.00 54.32 C +ATOM 19057 CD1 LEU L 199 36.266 -28.915 23.055 1.00 53.87 C +ATOM 19058 CD2 LEU L 199 37.722 -27.608 21.498 1.00 56.27 C +ATOM 19059 N THR L 200 39.082 -29.050 26.078 1.00 51.36 N +ATOM 19060 CA THR L 200 40.310 -29.751 26.427 1.00 52.97 C +ATOM 19061 C THR L 200 40.507 -30.934 25.491 1.00 55.22 C +ATOM 19062 O THR L 200 39.612 -31.774 25.347 1.00 56.20 O +ATOM 19063 CB THR L 200 40.273 -30.225 27.882 1.00 52.15 C +ATOM 19064 OG1 THR L 200 40.250 -29.088 28.755 1.00 49.32 O +ATOM 19065 CG2 THR L 200 41.503 -31.064 28.197 1.00 51.30 C +ATOM 19066 N LEU L 201 41.678 -30.997 24.859 1.00 56.76 N +ATOM 19067 CA LEU L 201 42.024 -32.078 23.949 1.00 58.63 C +ATOM 19068 C LEU L 201 43.451 -32.526 24.230 1.00 58.72 C +ATOM 19069 O LEU L 201 44.194 -31.882 24.973 1.00 56.59 O +ATOM 19070 CB LEU L 201 41.885 -31.645 22.482 1.00 58.56 C +ATOM 19071 CG LEU L 201 40.526 -31.120 22.016 1.00 54.10 C +ATOM 19072 CD1 LEU L 201 40.634 -30.527 20.620 1.00 54.78 C +ATOM 19073 CD2 LEU L 201 39.485 -32.225 22.052 1.00 62.81 C +ATOM 19074 N SER L 202 43.833 -33.643 23.622 1.00 65.21 N +ATOM 19075 CA SER L 202 45.215 -34.094 23.648 1.00 64.06 C +ATOM 19076 C SER L 202 46.001 -33.432 22.521 1.00 65.00 C +ATOM 19077 O SER L 202 45.435 -32.967 21.529 1.00 67.04 O +ATOM 19078 CB SER L 202 45.293 -35.616 23.522 1.00 72.21 C +ATOM 19079 OG SER L 202 44.764 -36.054 22.283 1.00 73.91 O +ATOM 19080 N LYS L 203 47.325 -33.374 22.698 1.00 64.01 N +ATOM 19081 CA LYS L 203 48.185 -32.813 21.660 1.00 64.61 C +ATOM 19082 C LYS L 203 47.973 -33.517 20.325 1.00 69.29 C +ATOM 19083 O LYS L 203 47.974 -32.876 19.268 1.00 70.43 O +ATOM 19084 CB LYS L 203 49.652 -32.906 22.081 1.00 63.75 C +ATOM 19085 CG LYS L 203 50.623 -32.323 21.066 1.00 68.20 C +ATOM 19086 CD LYS L 203 52.061 -32.393 21.555 1.00 66.76 C +ATOM 19087 CE LYS L 203 53.018 -31.799 20.534 1.00 69.45 C +ATOM 19088 NZ LYS L 203 54.429 -31.809 21.009 1.00 70.40 N +ATOM 19089 N ALA L 204 47.775 -34.836 20.357 1.00 69.98 N +ATOM 19090 CA ALA L 204 47.493 -35.583 19.135 1.00 74.37 C +ATOM 19091 C ALA L 204 46.198 -35.105 18.486 1.00 76.28 C +ATOM 19092 O ALA L 204 46.183 -34.695 17.319 1.00 76.76 O +ATOM 19093 CB ALA L 204 47.428 -37.080 19.443 1.00 78.39 C +ATOM 19094 N ASP L 205 45.093 -35.157 19.237 1.00 74.74 N +ATOM 19095 CA ASP L 205 43.805 -34.736 18.693 1.00 75.94 C +ATOM 19096 C ASP L 205 43.806 -33.262 18.313 1.00 70.53 C +ATOM 19097 O ASP L 205 43.124 -32.868 17.360 1.00 67.82 O +ATOM 19098 CB ASP L 205 42.690 -35.021 19.699 1.00 77.35 C +ATOM 19099 CG ASP L 205 42.470 -36.503 19.923 1.00 88.59 C +ATOM 19100 OD1 ASP L 205 43.262 -37.310 19.392 1.00 89.15 O +ATOM 19101 OD2 ASP L 205 41.505 -36.861 20.629 1.00115.26 O +ATOM 19102 N TYR L 206 44.557 -32.433 19.040 1.00 68.63 N +ATOM 19103 CA TYR L 206 44.605 -31.014 18.708 1.00 64.46 C +ATOM 19104 C TYR L 206 45.341 -30.787 17.394 1.00 65.08 C +ATOM 19105 O TYR L 206 44.845 -30.084 16.506 1.00 65.22 O +ATOM 19106 CB TYR L 206 45.259 -30.219 19.836 1.00 60.27 C +ATOM 19107 CG TYR L 206 45.396 -28.746 19.521 1.00 56.84 C +ATOM 19108 CD1 TYR L 206 44.289 -27.908 19.535 1.00 54.64 C +ATOM 19109 CD2 TYR L 206 46.627 -28.197 19.194 1.00 59.00 C +ATOM 19110 CE1 TYR L 206 44.407 -26.562 19.244 1.00 52.93 C +ATOM 19111 CE2 TYR L 206 46.756 -26.852 18.905 1.00 58.21 C +ATOM 19112 CZ TYR L 206 45.643 -26.040 18.929 1.00 55.04 C +ATOM 19113 OH TYR L 206 45.766 -24.700 18.638 1.00 54.86 O +ATOM 19114 N GLU L 207 46.532 -31.373 17.254 1.00 67.60 N +ATOM 19115 CA GLU L 207 47.303 -31.242 16.024 1.00 69.05 C +ATOM 19116 C GLU L 207 46.694 -32.004 14.854 1.00 69.28 C +ATOM 19117 O GLU L 207 47.140 -31.811 13.718 1.00 67.60 O +ATOM 19118 CB GLU L 207 48.737 -31.720 16.257 1.00 71.51 C +ATOM 19119 CG GLU L 207 49.513 -30.889 17.262 1.00 72.09 C +ATOM 19120 CD GLU L 207 50.903 -31.433 17.517 1.00 83.05 C +ATOM 19121 OE1 GLU L 207 51.149 -32.614 17.192 1.00 85.26 O +ATOM 19122 OE2 GLU L 207 51.750 -30.680 18.040 1.00 93.65 O +ATOM 19123 N LYS L 208 45.696 -32.857 15.096 1.00 71.86 N +ATOM 19124 CA LYS L 208 45.061 -33.570 13.995 1.00 68.25 C +ATOM 19125 C LYS L 208 44.153 -32.675 13.160 1.00 69.08 C +ATOM 19126 O LYS L 208 43.905 -32.989 11.991 1.00 75.85 O +ATOM 19127 CB LYS L 208 44.262 -34.761 14.530 1.00 74.12 C +ATOM 19128 CG LYS L 208 44.372 -36.013 13.675 1.00 80.77 C +ATOM 19129 CD LYS L 208 43.691 -37.204 14.331 1.00 85.07 C +ATOM 19130 CE LYS L 208 44.452 -37.667 15.563 1.00 93.81 C +ATOM 19131 NZ LYS L 208 43.807 -38.847 16.205 1.00 98.19 N +ATOM 19132 N HIS L 209 43.668 -31.570 13.716 1.00 64.84 N +ATOM 19133 CA HIS L 209 42.749 -30.684 13.017 1.00 62.94 C +ATOM 19134 C HIS L 209 43.325 -29.275 12.937 1.00 62.28 C +ATOM 19135 O HIS L 209 44.363 -28.965 13.528 1.00 63.80 O +ATOM 19136 CB HIS L 209 41.377 -30.676 13.697 1.00 63.10 C +ATOM 19137 CG HIS L 209 40.721 -32.021 13.734 1.00 65.96 C +ATOM 19138 ND1 HIS L 209 39.951 -32.501 12.697 1.00 68.41 N +ATOM 19139 CD2 HIS L 209 40.722 -32.990 14.681 1.00 65.75 C +ATOM 19140 CE1 HIS L 209 39.506 -33.707 13.002 1.00 69.80 C +ATOM 19141 NE2 HIS L 209 39.958 -34.027 14.201 1.00 69.54 N +ATOM 19142 N LYS L 210 42.627 -28.415 12.194 1.00 59.74 N +ATOM 19143 CA LYS L 210 43.131 -27.089 11.851 1.00 60.38 C +ATOM 19144 C LYS L 210 42.292 -25.952 12.414 1.00 59.02 C +ATOM 19145 O LYS L 210 42.829 -25.084 13.113 1.00 56.91 O +ATOM 19146 CB LYS L 210 43.226 -26.952 10.321 1.00 64.94 C +ATOM 19147 CG LYS L 210 44.170 -27.942 9.651 1.00 64.91 C +ATOM 19148 CD LYS L 210 45.623 -27.659 9.997 1.00 67.49 C +ATOM 19149 CE LYS L 210 46.557 -28.551 9.189 1.00 72.54 C +ATOM 19150 NZ LYS L 210 47.997 -28.207 9.373 1.00 73.42 N +ATOM 19151 N VAL L 211 40.992 -25.924 12.132 1.00 60.20 N +ATOM 19152 CA VAL L 211 40.145 -24.787 12.482 1.00 59.20 C +ATOM 19153 C VAL L 211 39.458 -25.063 13.810 1.00 56.17 C +ATOM 19154 O VAL L 211 38.874 -26.136 14.007 1.00 52.83 O +ATOM 19155 CB VAL L 211 39.108 -24.515 11.379 1.00 56.39 C +ATOM 19156 CG1 VAL L 211 38.307 -23.259 11.696 1.00 52.40 C +ATOM 19157 CG2 VAL L 211 39.784 -24.397 10.026 1.00 61.37 C +ATOM 19158 N TYR L 212 39.513 -24.091 14.721 1.00 56.43 N +ATOM 19159 CA TYR L 212 38.855 -24.198 16.019 1.00 54.78 C +ATOM 19160 C TYR L 212 37.999 -22.961 16.228 1.00 53.64 C +ATOM 19161 O TYR L 212 38.507 -21.838 16.156 1.00 54.39 O +ATOM 19162 CB TYR L 212 39.877 -24.350 17.149 1.00 53.00 C +ATOM 19163 CG TYR L 212 40.618 -25.665 17.117 1.00 54.71 C +ATOM 19164 CD1 TYR L 212 41.695 -25.857 16.261 1.00 53.31 C +ATOM 19165 CD2 TYR L 212 40.235 -26.717 17.936 1.00 55.25 C +ATOM 19166 CE1 TYR L 212 42.369 -27.060 16.225 1.00 55.65 C +ATOM 19167 CE2 TYR L 212 40.904 -27.923 17.908 1.00 58.10 C +ATOM 19168 CZ TYR L 212 41.969 -28.088 17.050 1.00 59.35 C +ATOM 19169 OH TYR L 212 42.637 -29.287 17.018 1.00 62.23 O +ATOM 19170 N ALA L 213 36.711 -23.164 16.498 1.00 52.19 N +ATOM 19171 CA ALA L 213 35.772 -22.061 16.610 1.00 52.25 C +ATOM 19172 C ALA L 213 34.808 -22.315 17.756 1.00 52.11 C +ATOM 19173 O ALA L 213 34.473 -23.461 18.066 1.00 50.47 O +ATOM 19174 CB ALA L 213 34.977 -21.863 15.312 1.00 48.78 C +ATOM 19175 N CYS L 214 34.367 -21.231 18.385 1.00 48.78 N +ATOM 19176 CA CYS L 214 33.236 -21.274 19.298 1.00 51.70 C +ATOM 19177 C CYS L 214 32.125 -20.393 18.749 1.00 52.58 C +ATOM 19178 O CYS L 214 32.364 -19.243 18.358 1.00 52.11 O +ATOM 19179 CB CYS L 214 33.616 -20.854 20.727 1.00 51.94 C +ATOM 19180 SG CYS L 214 34.443 -19.264 20.960 1.00 66.95 S +ATOM 19181 N GLU L 215 30.922 -20.957 18.701 1.00 53.06 N +ATOM 19182 CA GLU L 215 29.716 -20.281 18.247 1.00 53.96 C +ATOM 19183 C GLU L 215 28.868 -19.981 19.474 1.00 55.74 C +ATOM 19184 O GLU L 215 28.528 -20.892 20.237 1.00 55.10 O +ATOM 19185 CB GLU L 215 28.951 -21.152 17.250 1.00 58.13 C +ATOM 19186 CG GLU L 215 27.801 -20.458 16.540 1.00 63.59 C +ATOM 19187 CD GLU L 215 27.141 -21.348 15.502 1.00 77.38 C +ATOM 19188 OE1 GLU L 215 27.135 -22.583 15.694 1.00 78.21 O +ATOM 19189 OE2 GLU L 215 26.628 -20.815 14.495 1.00 92.20 O +ATOM 19190 N VAL L 216 28.534 -18.709 19.662 1.00 52.34 N +ATOM 19191 CA VAL L 216 27.841 -18.228 20.848 1.00 52.36 C +ATOM 19192 C VAL L 216 26.472 -17.721 20.430 1.00 52.90 C +ATOM 19193 O VAL L 216 26.353 -16.967 19.455 1.00 51.21 O +ATOM 19194 CB VAL L 216 28.638 -17.117 21.555 1.00 50.66 C +ATOM 19195 CG1 VAL L 216 27.823 -16.515 22.686 1.00 47.95 C +ATOM 19196 CG2 VAL L 216 29.962 -17.659 22.070 1.00 52.17 C +ATOM 19197 N THR L 217 25.443 -18.148 21.155 1.00 52.31 N +ATOM 19198 CA THR L 217 24.103 -17.605 21.006 1.00 51.97 C +ATOM 19199 C THR L 217 23.618 -17.063 22.344 1.00 50.16 C +ATOM 19200 O THR L 217 23.897 -17.640 23.403 1.00 53.53 O +ATOM 19201 CB THR L 217 23.123 -18.646 20.466 1.00 55.76 C +ATOM 19202 OG1 THR L 217 21.790 -18.151 20.615 1.00 67.74 O +ATOM 19203 CG2 THR L 217 23.256 -19.953 21.208 1.00 54.14 C +ATOM 19204 N HIS L 218 22.898 -15.945 22.285 1.00 47.39 N +ATOM 19205 CA HIS L 218 22.460 -15.233 23.475 1.00 49.71 C +ATOM 19206 C HIS L 218 21.171 -14.486 23.159 1.00 51.15 C +ATOM 19207 O HIS L 218 20.843 -14.238 21.996 1.00 50.13 O +ATOM 19208 CB HIS L 218 23.542 -14.263 23.968 1.00 47.06 C +ATOM 19209 CG HIS L 218 23.188 -13.549 25.234 1.00 45.63 C +ATOM 19210 ND1 HIS L 218 22.918 -12.198 25.273 1.00 44.90 N +ATOM 19211 CD2 HIS L 218 23.060 -13.995 26.506 1.00 48.27 C +ATOM 19212 CE1 HIS L 218 22.639 -11.843 26.514 1.00 45.67 C +ATOM 19213 NE2 HIS L 218 22.718 -12.914 27.282 1.00 46.76 N +ATOM 19214 N GLN L 219 20.433 -14.145 24.221 1.00 50.00 N +ATOM 19215 CA GLN L 219 19.185 -13.403 24.063 1.00 50.02 C +ATOM 19216 C GLN L 219 19.398 -12.089 23.318 1.00 51.52 C +ATOM 19217 O GLN L 219 18.481 -11.599 22.648 1.00 50.25 O +ATOM 19218 CB GLN L 219 18.561 -13.145 25.437 1.00 48.92 C +ATOM 19219 CG GLN L 219 17.247 -12.378 25.409 1.00 51.57 C +ATOM 19220 CD GLN L 219 16.623 -12.237 26.786 1.00 49.00 C +ATOM 19221 OE1 GLN L 219 16.756 -13.119 27.634 1.00 40.07 O +ATOM 19222 NE2 GLN L 219 15.944 -11.118 27.017 1.00 44.64 N +ATOM 19223 N GLY L 220 20.593 -11.515 23.408 1.00 51.78 N +ATOM 19224 CA GLY L 220 20.907 -10.264 22.754 1.00 53.09 C +ATOM 19225 C GLY L 220 21.602 -10.380 21.417 1.00 53.39 C +ATOM 19226 O GLY L 220 22.105 -9.369 20.911 1.00 57.42 O +ATOM 19227 N LEU L 221 21.650 -11.570 20.826 1.00 49.62 N +ATOM 19228 CA LEU L 221 22.294 -11.786 19.536 1.00 48.65 C +ATOM 19229 C LEU L 221 21.227 -12.215 18.539 1.00 49.54 C +ATOM 19230 O LEU L 221 20.679 -13.318 18.646 1.00 49.65 O +ATOM 19231 CB LEU L 221 23.399 -12.836 19.646 1.00 49.29 C +ATOM 19232 CG LEU L 221 24.588 -12.481 20.541 1.00 43.26 C +ATOM 19233 CD1 LEU L 221 25.550 -13.653 20.649 1.00 43.23 C +ATOM 19234 CD2 LEU L 221 25.301 -11.247 20.017 1.00 39.58 C +ATOM 19235 N SER L 222 20.935 -11.346 17.569 1.00 50.79 N +ATOM 19236 CA SER L 222 19.972 -11.670 16.524 1.00 49.96 C +ATOM 19237 C SER L 222 20.441 -12.809 15.630 1.00 47.68 C +ATOM 19238 O SER L 222 19.634 -13.346 14.863 1.00 50.08 O +ATOM 19239 CB SER L 222 19.682 -10.430 15.676 1.00 45.98 C +ATOM 19240 OG SER L 222 20.846 -9.995 14.996 1.00 57.19 O +ATOM 19241 N SER L 223 21.714 -13.180 15.707 1.00 47.41 N +ATOM 19242 CA SER L 223 22.262 -14.311 14.973 1.00 49.96 C +ATOM 19243 C SER L 223 23.512 -14.783 15.702 1.00 48.38 C +ATOM 19244 O SER L 223 24.129 -14.007 16.442 1.00 49.35 O +ATOM 19245 CB SER L 223 22.586 -13.925 13.519 1.00 50.35 C +ATOM 19246 OG SER L 223 23.449 -12.803 13.467 1.00 50.78 O +ATOM 19247 N PRO L 224 23.902 -16.048 15.529 1.00 45.48 N +ATOM 19248 CA PRO L 224 25.060 -16.567 16.268 1.00 48.26 C +ATOM 19249 C PRO L 224 26.338 -15.803 15.950 1.00 49.52 C +ATOM 19250 O PRO L 224 26.546 -15.330 14.830 1.00 51.21 O +ATOM 19251 CB PRO L 224 25.154 -18.026 15.803 1.00 49.35 C +ATOM 19252 CG PRO L 224 23.787 -18.362 15.321 1.00 49.80 C +ATOM 19253 CD PRO L 224 23.235 -17.098 14.740 1.00 49.05 C +ATOM 19254 N VAL L 225 27.196 -15.682 16.960 1.00 48.28 N +ATOM 19255 CA VAL L 225 28.490 -15.017 16.833 1.00 47.05 C +ATOM 19256 C VAL L 225 29.573 -16.082 16.922 1.00 49.66 C +ATOM 19257 O VAL L 225 29.707 -16.754 17.950 1.00 52.09 O +ATOM 19258 CB VAL L 225 28.685 -13.940 17.911 1.00 44.64 C +ATOM 19259 CG1 VAL L 225 30.137 -13.487 17.950 1.00 43.60 C +ATOM 19260 CG2 VAL L 225 27.762 -12.761 17.654 1.00 44.26 C +ATOM 19261 N THR L 226 30.346 -16.240 15.853 1.00 50.34 N +ATOM 19262 CA THR L 226 31.382 -17.261 15.781 1.00 50.06 C +ATOM 19263 C THR L 226 32.758 -16.614 15.836 1.00 50.68 C +ATOM 19264 O THR L 226 33.042 -15.684 15.074 1.00 51.01 O +ATOM 19265 CB THR L 226 31.246 -18.095 14.506 1.00 52.77 C +ATOM 19266 OG1 THR L 226 29.917 -18.629 14.419 1.00 54.44 O +ATOM 19267 CG2 THR L 226 32.247 -19.241 14.513 1.00 49.19 C +ATOM 19268 N LYS L 227 33.602 -17.099 16.745 1.00 51.44 N +ATOM 19269 CA LYS L 227 34.998 -16.684 16.827 1.00 48.91 C +ATOM 19270 C LYS L 227 35.882 -17.901 16.598 1.00 53.20 C +ATOM 19271 O LYS L 227 35.722 -18.921 17.276 1.00 53.60 O +ATOM 19272 CB LYS L 227 35.311 -16.034 18.178 1.00 51.58 C +ATOM 19273 CG LYS L 227 34.743 -14.630 18.340 1.00 50.88 C +ATOM 19274 CD LYS L 227 35.513 -13.612 17.513 1.00 53.69 C +ATOM 19275 CE LYS L 227 35.067 -12.192 17.833 1.00 53.75 C +ATOM 19276 NZ LYS L 227 35.752 -11.179 16.982 1.00 60.12 N +ATOM 19277 N SER L 228 36.817 -17.792 15.652 1.00 53.45 N +ATOM 19278 CA SER L 228 37.581 -18.942 15.184 1.00 52.96 C +ATOM 19279 C SER L 228 39.054 -18.582 15.031 1.00 57.94 C +ATOM 19280 O SER L 228 39.439 -17.410 15.035 1.00 58.84 O +ATOM 19281 CB SER L 228 37.037 -19.463 13.849 1.00 54.79 C +ATOM 19282 OG SER L 228 37.215 -18.510 12.815 1.00 60.82 O +ATOM 19283 N PHE L 229 39.879 -19.621 14.899 1.00 58.24 N +ATOM 19284 CA PHE L 229 41.292 -19.460 14.585 1.00 55.10 C +ATOM 19285 C PHE L 229 41.815 -20.719 13.904 1.00 59.96 C +ATOM 19286 O PHE L 229 41.315 -21.827 14.133 1.00 59.15 O +ATOM 19287 CB PHE L 229 42.132 -19.146 15.834 1.00 51.94 C +ATOM 19288 CG PHE L 229 42.317 -20.316 16.764 1.00 55.12 C +ATOM 19289 CD1 PHE L 229 43.374 -21.201 16.593 1.00 50.94 C +ATOM 19290 CD2 PHE L 229 41.450 -20.519 17.823 1.00 55.25 C +ATOM 19291 CE1 PHE L 229 43.547 -22.274 17.448 1.00 52.21 C +ATOM 19292 CE2 PHE L 229 41.621 -21.587 18.683 1.00 51.50 C +ATOM 19293 CZ PHE L 229 42.670 -22.466 18.496 1.00 51.19 C +ATOM 19294 N ASN L 230 42.827 -20.532 13.057 1.00 59.95 N +ATOM 19295 CA ASN L 230 43.565 -21.629 12.441 1.00 59.40 C +ATOM 19296 C ASN L 230 44.832 -21.942 13.225 1.00 58.47 C +ATOM 19297 O ASN L 230 45.606 -21.038 13.558 1.00 59.73 O +ATOM 19298 CB ASN L 230 43.923 -21.302 10.988 1.00 67.10 C +ATOM 19299 CG ASN L 230 42.748 -21.465 10.047 1.00 72.47 C +ATOM 19300 OD1 ASN L 230 42.317 -22.588 9.773 1.00 79.08 O +ATOM 19301 ND2 ASN L 230 42.211 -20.353 9.561 1.00 78.33 N +ATOM 19302 N ARG L 231 45.035 -23.229 13.511 1.00 58.90 N +ATOM 19303 CA ARG L 231 46.204 -23.743 14.220 1.00 60.71 C +ATOM 19304 C ARG L 231 47.515 -23.406 13.507 1.00 70.64 C +ATOM 19305 O ARG L 231 48.097 -24.263 12.832 1.00 76.87 O +ATOM 19306 CB ARG L 231 46.063 -25.256 14.419 1.00 60.29 C +ATOM 19307 CG ARG L 231 47.247 -25.926 15.096 1.00 65.56 C +ATOM 19308 CD ARG L 231 46.925 -27.353 15.481 1.00 63.19 C +ATOM 19309 NE ARG L 231 46.709 -28.243 14.342 1.00 66.57 N +ATOM 19310 CZ ARG L 231 47.672 -28.722 13.563 1.00 68.38 C +ATOM 19311 NH1 ARG L 231 48.935 -28.393 13.790 1.00 70.83 N +ATOM 19312 NH2 ARG L 231 47.366 -29.542 12.564 1.00 69.92 N +ATOM 19313 N GLY L 232 47.968 -22.159 13.597 1.00 71.30 N +ATOM 19314 CA GLY L 232 49.243 -21.822 12.993 1.00 70.42 C +ATOM 19315 C GLY L 232 49.394 -20.388 12.537 1.00 79.71 C +ATOM 19316 O GLY L 232 50.231 -20.099 11.677 1.00 93.91 O +ATOM 19317 N GLU L 233 48.606 -19.479 13.099 1.00 79.19 N +ATOM 19318 CA GLU L 233 48.672 -18.078 12.697 1.00 81.25 C +ATOM 19319 C GLU L 233 48.665 -17.141 13.900 1.00 84.57 C +ATOM 19320 O GLU L 233 48.769 -15.922 13.750 1.00 85.03 O +ATOM 19321 CB GLU L 233 47.508 -17.742 11.762 1.00 80.77 C +ATOM 19322 CG GLU L 233 47.433 -18.625 10.525 1.00 75.53 C +ATOM 19323 CD GLU L 233 46.226 -18.326 9.662 1.00 71.40 C +ATOM 19324 OE1 GLU L 233 45.500 -17.357 9.967 1.00 68.80 O +ATOM 19325 OE2 GLU L 233 46.003 -19.061 8.677 1.00 70.88 O diff --git a/content/data/protein/benchbb_antibody_targets/variant_candidates.csv b/content/data/protein/benchbb_antibody_targets/variant_candidates.csv new file mode 100644 index 0000000..47beae9 --- /dev/null +++ b/content/data/protein/benchbb_antibody_targets/variant_candidates.csv @@ -0,0 +1,401 @@ +heavy,light,global_score,score,mutations,seq_recovery,target,heavy_cdr1,heavy_cdr2,heavy_cdr3,light_cdr1,light_cdr2,light_cdr3 +EVQLVESGGGLVQPGGSLRLSCAASGFTIYSSGIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYSWHFSYMYHPYNGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTRSNSWTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0192559957504272,1.084834098815918,24,0.9455782312925172,MBP,GFTIYSS,YSSYGS,QYSWHFSYMYHPYNGMDV,RASQSVSSAVA,SASSLYS,QQSTRSNSWT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYFPYSSYVWLPFTGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQTSSDTSLLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.010960817337036,1.0183231830596924,15,0.9659863945578232,MBP,GFTLSYS,YSYSGS,EYFPYSSYVWLPFTGLDY,RASQSISSAVA,SASSLYS,QTSSDTSLLT +EVQLVESGGGLVQPGGSLRLSCAASGFNLSYSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHSWYSWNYFPWNGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASRSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLWSTRTLYYFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0020612478256226,0.9469642043113708,19,0.9569160997732428,MBP,GFNLSYS,YSSYGY,EYHSWYSWNYFPWNGLDY,RASRSVSSAVA,SASSLYS,QLWSTRTLYY +EVQLVESGGGLVQPGGSLRLSCAASGFTISYSSIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYIYWWSEVSYPRIGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSLSSSQYFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.004913091659546,0.9698311686515808,21,0.9523809523809524,MBP,GFTISYS,YSYYSS,EYIYWWSEVSYPRIGLDV,RASSSISSAVA,SASSLYS,QQSSLSSSQY 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+EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARSYVYYSTWNYYPKDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQALSDLSYIFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0011374950408936,0.9395564198493958,20,0.9546485260770976,MBP,GFTLSSS,YSYYGS,SYVYYSTWNYYPKDGLDY,RASQSISSAVA,SASSLYS,QQALSDLSYI 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+EVQLVESGGGLVQPGGSLRLSCAASGFTIFRASIHWVRQAPGKGLEWVASIYSYGGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYLWHGWNYYPRQGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQFSQLNSYNFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0241092443466189,1.1237494945526123,24,0.9455782312925172,MBP,GFTIFRA,YSYGGS,EYYLWHGWNYYPRQGMDY,RASQSVSSAVA,SASSLYS,QQFSQLNSYN 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+EVQLVESGGGLVQPGGSLRLSCAASGFTIKTSSIHWVRQAPGKGLEWVASIYSYSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYDHTDGWNYYPYNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSSSNLITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9844682812690736,0.8059006929397583,23,0.947845804988662,MBP,GFTIKTS,YSYSSS,EYDHTDGWNYYPYNGLDV,RASQSVSSAVA,SASSLYS,QQSSSSNLIT +EVQLVESGGGLVQPGGSLRLSCAASGFTISVSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYSWSWGFAPAVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTDSGLSTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9904292225837708,0.8536962866783142,19,0.9569160997732428,MBP,GFTISVS,YSYYGS,EYYYSWSWGFAPAVGLDY,RASSSISSAVA,SASSLYS,QQSTDSGLST +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSYSIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYSHFGYSYYPRVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTTSGTYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9844751954078674,0.8059561848640442,17,0.9614512471655328,MBP,GFTLSSY,YSSYGS,EYYSHFGYSYYPRVGLDY,RASQSISSAVA,SASSLYS,QQSTTSGTYT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYTYSSGYSYYPGDGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWTPGSSGVFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.990504801273346,0.854302167892456,22,0.9501133786848072,MBP,GFTISSS,YSYYGS,EYTYSSGYSYYPGDGMDY,RASQSISNAVA,SASSLYS,QQWTPGSSGV +EVQLVESGGGLVQPGGSLRLSCAASGFTIRFSSIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAKEYYYWYSKQYYPKDGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSWTETRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0112380981445312,1.0205453634262085,23,0.947845804988662,MBP,GFTIRFS,YSYYSS,EYYYWYSKQYYPKDGLDV,RASQSISSAVA,SASSLYS,QQYSWTETRT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREHSWWDGWNWFPHAGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQIHTAESSGTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.008108377456665,0.995451033115387,24,0.9455782312925172,MBP,GFTISSS,YSYYGS,EHSWWDGWNWFPHAGLDV,RASQSISNAVA,SASSLYS,QIHTAESSGT +EVQLVESGGGLVQPGGSLRLSCAASGFTLRSSSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREFESWSGYSYFPNVGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRFSIHDLRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0068137645721436,0.985070526599884,19,0.9569160997732428,MBP,GFTLRSS,YSYSGS,EFESWSGYSYFPNVGMDY,RASQSVSNAVA,SASSLYS,QRFSIHDLRT +EVQLVESGGGLVQPGGSLRLSCAASGFTIFTSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHYYYSFNYYPGVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVTNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLYSPSSLRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9953746199607848,0.8933499455451965,20,0.9546485260770976,MBP,GFTIFTS,YSYYGS,EYHYYYSFNYYPGVGLDY,RASSSVTNAVA,SASSLYS,QLYSPSSLRT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYYSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHYWWGYTWEPKNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRATFRSLSIFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.002877116203308,0.9535061120986938,18,0.9591836734693876,MBP,GFTLSSS,YSYYYS,EYHYWWGYTWEPKNGLDV,RASQSVSNAVA,SASSLYS,QRATFRSLSI +EVQLVESGGGLVQPGGSLRLSCAASGFTIVRSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREWYPSYSWAFFPRNGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVTSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRSSSLDSITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.005480170249939,0.974377989768982,22,0.9501133786848072,MBP,GFTIVRS,YSYYGS,EWYPSYSWAFFPRNGLDY,RASQSVTSAVA,SASSLYS,QRSSSLDSIT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSTSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYPWDSFNFYPKVGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHTSGSLYDFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9892622828483582,0.8443406820297241,22,0.9501133786848072,MBP,GFTLSTS,YSYYGS,EYYPWDSFNFYPKVGMDY,RASSSISNAVA,SASSLYS,QQHTSGSLYD +EVQLVESGGGLVQPGGSLRLSCAASGFTLYSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQHYYWYDWGHYPWVGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQASLSSRFTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0001286268234253,0.9314683675765992,22,0.9501133786848072,MBP,GFTLYSS,YSYYGS,QHYYWYDWGHYPWVGMDV,RASSSISSAVA,SASSLYS,QQASLSSRFT +EVQLVESGGGLVQPGGSLRLSCAASGFTLYYASIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYWHWSGQDYPKYGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASRSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYTGDNLYAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0137765407562256,1.0408991575241089,23,0.947845804988662,MBP,GFTLYYA,YSSYGS,EYYWHWSGQDYPKYGLDY,RASRSISSAVA,SASSLYS,QQYTGDNLYA +EVQLVESGGGLVQPGGSLRLSCAASGFTLGNASIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQHSYWSGWYWFPKNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSITNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSGSSLIAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0210306644439695,1.099064588546753,28,0.9365079365079364,MBP,GFTLGNA,YSYYSS,QHSYWSGWYWFPKNGLDV,RASSSITNAVA,SASSLYS,QQSSGSSLIA +EVQLVESGGGLVQPGGSLRLSCAASGFTLYGSSIHWVRQAPGKGLEWVASIYSYSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREWHYYDSWNYYPFGGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSYSSAYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9927591681480408,0.8723782896995544,21,0.9523809523809524,MBP,GFTLYGS,YSYSSS,EWHYYDSWNYYPFGGLDY,RASQSISSAVA,SASSLYS,QQSSYSSAYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLIYSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREHNHWDSWNYFPWTGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWRTDNLRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0008389949798584,0.937164306640625,20,0.9546485260770976,MBP,GFTLIYS,YSYYGS,EHNHWDSWNYFPWTGLDY,RASQSVSSAVA,SASSLYS,QQWRTDNLRT +EVQLVESGGGLVQPGGSLRLSCAASGFTISYSSIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYLYWYSWWFFPRDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSRFQSLVSFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0008095502853394,0.9369276762008668,21,0.9523809523809524,MBP,GFTISYS,YSYYSS,EYLYWYSWWFFPRDGLDY,RASQSISSAVA,SASSLYS,QQSRFQSLVS +EVQLVESGGGLVQPGGSLRLSCAASGFTLINSSIHWVRQAPGKGLEWVASIYSYYSYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYDGWWSFNYYPKDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQNISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLDTKNGTRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0183171033859253,1.077305793762207,24,0.9455782312925172,MBP,GFTLINS,YSYYSY,EYDGWWSFNYYPKDGLDY,RASQNISSAVA,SASSLYS,QLDTKNGTRT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYNRYWSTNWYPYDGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVTSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRHSAGSLFTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.99620920419693,0.900041401386261,18,0.9591836734693876,MBP,GFTISSS,YSSYGS,EYNRYWSTNWYPYDGMDY,RASQSVTSAVA,SASSLYS,QRHSAGSLFT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARNYYWSWGSNYYPRNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTLESYYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9840742945671082,0.8027423620223999,21,0.9523809523809524,MBP,GFTISSS,YSYSGS,NYYWSWGSNYYPRNGLDV,RASQSVSNAVA,SASSLYS,QQSTLESYYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSRSSIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYDSYGWSYYPGNGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSTISGLITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9872736930847168,0.8283945322036743,22,0.9501133786848072,MBP,GFTLSRS,YSYYSS,EYYDSYGWSYYPGNGLDY,RASSSVSNAVA,SASSLYS,QLSTISGLIT +EVQLVESGGGLVQPGGSLRLSCAASGFTLISSSIHWVRQAPGKGLEWVASIYSSSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARVYYWWYGWNFYPNVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSAVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQISSFSDSHTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.012384057044983,1.02973473072052,25,0.943310657596372,MBP,GFTLISS,YSSSSS,VYYWWYGWNFYPNVGLDY,RASSAVSSAVA,SASSLYS,QISSFSDSHT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSTASIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYSYSWNYYPAVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSSLGSLYYFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9778867363929749,0.7531282305717468,20,0.9546485260770976,MBP,GFTLSTA,YSSYGS,EYYYSYSWNYYPAVGLDV,RASQSVSSAVA,SASSLYS,QLSSLGSLYY +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARERYHWYSSNYYAFYGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSTSNLKTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9981183409690856,0.9153487682342528,20,0.9546485260770976,MBP,GFTLSSS,YSYYGS,ERYHWYSSNYYAFYGMDY,RASQSVSNAVA,SASSLYS,QQSSTSNLKT +EVQLVESGGGLVQPGGSLRLSCAASGFTLGSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREHYWWWSYNYFPKDGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQISSNYGLLAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.992023468017578,0.8664801716804504,20,0.9546485260770976,MBP,GFTLGSS,YSYYGS,EHYWWWSYNYFPKDGLDV,RASQSISNAVA,SASSLYS,QISSNYGLLA +EVQLVESGGGLVQPGGSLRLSCAASGFNLYSSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREHHWWSAWSYYPYDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSTRDLYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9883428812026978,0.836968183517456,19,0.9569160997732428,MBP,GFNLYSS,YSYYGY,EHHWWSAWSYYPYDGLDY,RASSSVSNAVA,SASSLYS,QQSSTRDLYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSNIHWVRQAPGKGLEWVASIYSYSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARDYYYWYSWAYHPKNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTPGDSITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9967578053474426,0.904439389705658,24,0.9455782312925172,MBP,GFTLSSS,YSYSSS,DYYYWYSWAYHPKNGLDV,RASQSVSNAVA,SASSLYS,QQSTPGDSIT +EVQLVESGGGLVQPGGSLRLSCAASGFTLRSSSIHWVRQAPGKGLEWVASIYSSYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHYWWNSNYYPRNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSPGNLTTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9881519675254822,0.8354378342628479,21,0.9523809523809524,MBP,GFTLRSS,YSSYSS,EYHYWWNSNYYPRNGLDV,RASSSISNAVA,SASSLYS,QQSSPGNLTT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYYWWWGFVYYPRVGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQFTSFDLATFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9930790662765504,0.8749434947967529,22,0.9501133786848072,MBP,GFTISSS,YSYSSS,QYYWWWGFVYYPRVGMDV,RASQSISSAVA,SASSLYS,QQFTSFDLAT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSTSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYYSSYSYYPYVGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSGMSLGTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9841399788856506,0.8032680749893188,16,0.963718820861678,MBP,GFTLSTS,YSYYGS,EYYYYSSYSYYPYVGMDV,RASQSVSNAVA,SASSLYS,QQYSGMSLGT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYDYNWGYNYYPYVGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSYGYLFDFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9855232238769532,0.8143597841262817,18,0.9591836734693876,MBP,GFTISSS,YSYYGS,EYDYNWGYNYYPYVGMDY,RASQSISSAVA,SASSLYS,QQYSYGYLFD +EVQLVESGGGLVQPGGSLRLSCAASGFTLSNSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYWWRYSFNYHPADGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLWTYRSLYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.989630937576294,0.8472959995269775,21,0.9523809523809524,MBP,GFTLSNS,YSYYGY,EYWWRYSFNYHPADGMDY,RASQSVSSAVA,SASSLYS,QLWTYRSLYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYSWSWSYYPANGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQVYSHRALFTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9837926626205444,0.8004831075668335,18,0.9591836734693876,MBP,GFTLSYS,YSSYGS,EYYYSWSWSYYPANGMDV,RASQSVSSAVA,SASSLYS,QVYSHRALFT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHFRWRWNYYPSVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTSSNLVTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9784518480300904,0.7576595544815063,17,0.9614512471655328,MBP,GFTLSYS,YSYYGS,EYHFRWRWNYYPSVGLDY,RASQSISSAVA,SASSLYS,QQSTSSNLVT +EVQLVESGGGLVQPGGSLRLSCAASGFTLYSSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARLYYSYSSWSYYPSTGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISFAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSFYYSRAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.014354228973389,1.0455310344696045,21,0.9523809523809524,MBP,GFTLYSS,YSSYGY,LYYSYSSWSYYPSTGLDY,RASQSISFAVA,SASSLYS,QQSSFYYSRA +EVQLVESGGGLVQPGGSLRLSCAASGFTLKSSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARTFHWSWSWYWYPNTGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTRLAAVTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0072195529937744,0.9883242249488832,20,0.9546485260770976,MBP,GFTLKSS,YSSYGY,TFHWSWSWYWYPNTGMDY,RASQSVSSAVA,SASSLYS,QQSTRLAAVT +EVQLVESGGGLVQPGGSLRLSCAASGFTISNSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYNHWYSWSHYPHVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRSTSGSLLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.987590491771698,0.8309347629547119,20,0.9546485260770976,MBP,GFTISNS,YSYYGY,EYNHWYSWSHYPHVGLDV,RASQSISSAVA,SASSLYS,QRSTSGSLLT +EVQLVESGGGLVQPGGSLRLSCAASGFTINHSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYWYYSYSFTSNDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRYSLHNLRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.008313775062561,0.997097909450531,19,0.9569160997732428,MBP,GFTINHS,YSYYGY,EYYWYYSYSFTSNDGLDY,RASQSISSAVA,SASSLYS,QRYSLHNLRT +EVQLVESGGGLVQPGGSLRLSCAASGFTIFSSSIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYDWSYNYYPKTGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSAAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSFAYDWTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.999948024749756,0.9300197958946228,20,0.9546485260770976,MBP,GFTIFSS,YSSYGS,EYYYDWSYNYYPKTGLDV,RASQSVSAAVA,SASSLYS,QQSSFAYDWT +EVQLVESGGGLVQPGGSLRLSCAASGFNIGSSSIHWVRQAPGKGLEWVASIYSSYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREWNRSWGWNFYPGVGFDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTGSNNRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0034220218658447,0.9578746557235718,23,0.947845804988662,MBP,GFNIGSS,YSSYGS,EWNRSWGWNFYPGVGFDV,RASQSVSNAVA,SASSLYS,QQSTGSNNRT +EVQLVESGGGLVQPGGSLRLSCAASGFTLESSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHYAWRSNYYPKVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYTSSNTYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9858098030090332,0.8166565895080566,19,0.9569160997732428,MBP,GFTLESS,YSYYGS,EYHYAWRSNYYPKVGLDV,RASQSISSAVA,SASSLYS,QQYTSSNTYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLITSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREWYYYDSYAYYPNVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASGSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYTFSGLITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.99858158826828,0.9190632700920104,21,0.9523809523809524,MBP,GFTLITS,YSYYGS,EWYYYDSYAYYPNVGLDV,RASGSISNAVA,SASSLYS,QQYTFSGLIT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSDSSIHWVRQAPGKGLEWVASIYSYYDSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARHYYHEWSPQYYPRVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWTYSALRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0022318363189695,0.9483325481414796,18,0.9591836734693876,MBP,GFTLSDS,YSYYDS,HYYHEWSPQYYPRVGLDV,RASQSVSNAVA,SASSLYS,QQWTYSALRT +EVQLVESGGGLVQPGGSLRLSCAASGFTLFNSSIHWVRQAPGKGLEWVASIYSYSGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHSSYSWAYQPANGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSCAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSESNLSTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.003950834274292,0.9621153473854064,20,0.9546485260770976,MBP,GFTLFNS,YSYSGY,EYHSSYSWAYQPANGLDV,RASQSVSCAVA,SASSLYS,QQSSESNLST +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYNWYWGWNYYPRGGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCHQSTSSGLNTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.981899082660675,0.7853003740310669,19,0.9569160997732428,MBP,GFTLSYS,YSYYGY,EYNWYWGWNYYPRGGMDY,RASQSVSSAVA,SASSLYS,HQSTSSGLNT +EVQLVESGGGLVQPGGSLRLSCAASGFTLRSSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYEWAYSWTYLPAVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYTIGDLVTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0024278163909912,0.9499040246009828,21,0.9523809523809524,MBP,GFTLRSS,YSSYGY,EYEWAYSWTYLPAVGLDV,RASSSVSSAVA,SASSLYS,QQYTIGDLVT +EVQLVESGGGLVQPGGSLRLSCAASGFTISYSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARNLKYSDDWTWYPNVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQNVSSWVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTSSNNYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0254989862442017,1.1348923444747925,23,0.947845804988662,MBP,GFTISYS,YSYYGS,NLKYSDDWTWYPNVGLDY,RASQNVSSWVA,SASSLYS,QQSTSSNNYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLGYSSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYSSWWGFNNYPKVGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQIASSSSTGTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9999677538871764,0.930178165435791,21,0.9523809523809524,MBP,GFTLGYS,YSYSGS,EYSSWWGFNNYPKVGMDV,RASQSISSAVA,SASSLYS,QIASSSSTGT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYVSAWSWYYYPYNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRWLLSGDRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9927208423614502,0.8720712065696716,18,0.9591836734693876,MBP,GFTLSSS,YSYSGS,EYVSAWSWYYYPYNGLDV,RASQSVSSAVA,SASSLYS,QRWLLSGDRT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYVSSWSTNYYPYQGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSSLGGLYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9804665446281432,0.7738133072853088,17,0.9614512471655328,MBP,GFTLSSS,YSYYGS,EYVSSWSTNYYPYQGMDV,RASQSISSAVA,SASSLYS,QLSSLGGLYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLYSSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYYSWYGHSYYPSYGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSSDLSSRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9936383366584778,0.879427433013916,22,0.9501133786848072,MBP,GFTLYSS,YSSYGY,QYYSWYGHSYYPSYGLDY,RASQSVSNAVA,SASSLYS,QLSSDLSSRT +EVQLVESGGGLVQPGGSLRLSCAASGFTLISSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYHWHWSHNWYPKNGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWSLSGSLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9875284433364868,0.8304376006126404,18,0.9591836734693876,MBP,GFTLISS,YSYYGY,QYHWHWSHNWYPKNGMDY,RASQSISNAVA,SASSLYS,QQWSLSGSLT +EVQLVESGGGLVQPGGSLRLSCAASGFTISSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYFWWSWNYYPRNGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSLGGLYAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9686464667320251,0.6790387034416199,17,0.9614512471655328,MBP,GFTISSS,YSYYGS,EYYFWWSWNYYPRNGLDY,RASSSVSNAVA,SASSLYS,QQSSLGGLYA +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYFWGWGDTYYPRNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSFSGTTTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9900843501091005,0.8509308695793152,18,0.9591836734693876,MBP,GFTLSYS,YSYYGS,EYFWGWGDTYYPRNGLDV,RASQSVSSAVA,SASSLYS,QQSSFSGTTT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSYSSIHWVRQAPGKGLEWVASIYSYSSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQWHWHYGWNYYPYDGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQVATLSSSFAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9983718395233154,0.9173812866210938,25,0.943310657596372,MBP,GFTLSYS,YSYSSS,QWHWHYGWNYYPYDGMDY,RASQSISSAVA,SASSLYS,QVATLSSSFA +EVQLVESGGGLVQPGGSLRLSCAASGFTIYSSSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARDWSYWYGWQWFPADGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHSLSTQASFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.014692783355713,1.0482460260391235,24,0.9455782312925172,MBP,GFTIYSS,YSYYGY,DWSYWYGWQWFPADGMDV,RASQSVSSAVA,SASSLYS,QQHSLSTQAS +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSNSIHWVRQAPGKGLEWVASIYSYSGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYPYWWSSNYYPAIGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISAAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQISSSSYLLHFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0069303512573242,0.9860060214996338,20,0.9546485260770976,MBP,GFTLSSN,YSYSGS,EYPYWWSSNYYPAIGLDY,RASQSISAAVA,SASSLYS,QISSSSYLLH +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYNWWWSWNYYPKVGFDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTSLGSSTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.972345530986786,0.7086983919143677,18,0.9591836734693876,MBP,GFTLSSS,YSYYGS,EYNWWWSWNYYPKVGFDV,RASQSVSSAVA,SASSLYS,QQSTSLGSST +EVQLVESGGGLVQPGGSLRLSCAASGFTLSTNSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYNWSWDWNYFPEVGLDSWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSYSDLIAFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.002528429031372,0.950709879398346,20,0.9546485260770976,MBP,GFTLSTN,YSYYGS,EYNWSWDWNYFPEVGLDS,RASQSISSAVA,SASSLYS,QQSSYSDLIA +EVQLVESGGGLVQPGGSLRLSCAASGFTLYTSSIHWVRQAPGKGLEWVASIYSFSSYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYIKRWDWNYYSKDGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSLLGGLIYFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0213441848754885,1.1015784740447998,25,0.943310657596372,MBP,GFTLYTS,YSFSSY,EYIKRWDWNYYSKDGLDY,RASQSVSNAVA,SASSLYS,QQSLLGGLIY +EVQLVESGGGLVQPGGSLRLSCAASGFTLARSSIHWVRQAPGKGLEWVASIYSSYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREFYWFYGPHTYPNIGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQRWSGEGLVTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0166597366333008,1.064017653465271,26,0.9410430839002268,MBP,GFTLARS,YSSYGY,EFYWFYGPHTYPNIGMDV,RASQSISSAVA,SASSLYS,QRWSGEGLVT +EVQLVESGGGLVQPGGSLRLSCAASGFTLYSSNIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYTHWSYNYYPRNGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSISNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSTLSNSLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9923502206802368,0.8690990209579468,20,0.9546485260770976,MBP,GFTLYSS,YSYYGS,EYYTHWSYNYYPRNGLDV,RASSSISNAVA,SASSLYS,QLSTLSNSLT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSNIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARDYYYHWSFNWFPKGGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHTTRGLVTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.002804160118103,0.9529207944869996,19,0.9569160997732428,MBP,GFTLSSS,YSYYGS,DYYYHWSFNWFPKGGMDY,RASQSISSAVA,SASSLYS,QQHTTRGLVT +EVQLVESGGGLVQPGGSLRLSCAASGFTIKSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARSYWWYWGWSWYPYVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQFSTSLSYIFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.994409680366516,0.8856126070022583,18,0.9591836734693876,MBP,GFTIKSS,YSYYGS,SYWWYWGWSWYPYVGLDY,RASSSVSSAVA,SASSLYS,QQFSTSLSYI +EVQLVESGGGLVQPGGSLRLSCAASGFTLNYYSIHWVRQAPGKGLEWVASIYSYYGYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHYWWSWNWYPKDGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQASFLSYYTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9891663193702698,0.8435705304145813,19,0.9569160997732428,MBP,GFTLNYY,YSYYGY,EYHYWWSWNWYPKDGMDY,RASSSVSSAVA,SASSLYS,QQASFLSYYT +EVQLVESGGGLVQPGGSLRLSCAASGFTLKTSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHWDWSWHYYPADGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSAAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSTDSSLRTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9826322197914124,0.7911791205406189,19,0.9569160997732428,MBP,GFTLKTS,YSYYGS,EYHWDWSWHYYPADGLDY,RASQSVSAAVA,SASSLYS,QLSTDSSLRT +EVQLVESGGGLVQPGGSLRLSCAASGFTIYSTSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYYYYHSWQYYPKYGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWSLGSLRIFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.987589955329895,0.830930769443512,19,0.9569160997732428,MBP,GFTIYST,YSYYGS,EYYYYHSWQYYPKYGLDV,RASQSVSSAVA,SASSLYS,QQWSLGSLRI +EVQLVESGGGLVQPGGSLRLSCAASGFTISYASIHWVRQAPGKGLEWVASIYGYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREHYHWFSWNYYPWNGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASSSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHSSSSLLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0014272928237915,0.9418818950653076,22,0.9501133786848072,MBP,GFTISYA,YGYYSS,EHYHWFSWNYYPWNGLDY,RASSSVSSAVA,SASSLYS,QQHSSSSLLT +EVQLVESGGGLVQPGGSLRLSCAASGFTLKNSSIHWVRQAPGKGLEWVASIYSYYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYVWWYSWAYYPSVGMDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSNAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQWTISNTLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.992074191570282,0.8668862581253052,22,0.9501133786848072,MBP,GFTLKNS,YSYYSS,EYVWWYSWAYYPSVGMDV,RASQSVSNAVA,SASSLYS,QQWTISNTLT +EVQLVESGGGLVQPGGSLRLSCAASGFTLRSYSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYYYWYGWWYFPGVGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASRSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTYEGLLTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9930269122123718,0.8745262026786804,21,0.9523809523809524,MBP,GFTLRSY,YSYYGS,QYYYWYGWWYFPGVGLDV,RASRSVSSAVA,SASSLYS,QQSTYEGLLT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSGSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARQYYSWWSGHSYPDDGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISAAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSTYTTTFTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.00702702999115,0.986780881881714,20,0.9546485260770976,MBP,GFTLSGS,YSYYGS,QYYSWWSGHSYPDDGLDV,RASQSISAAVA,SASSLYS,QQSTYTTTFT +EVQLVESGGGLVQPGGSLRLSCAASGFTLISSSIHWVRQAPGKGLEWVASIYSYSSYTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARNYYDSWADDYYPNVGLDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQISSPLYLITFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,1.0170544385910034,1.0671826601028442,22,0.9501133786848072,MBP,GFTLISS,YSYSSY,NYYDSWADDYYPNVGLDY,RASQSISSAVA,SASSLYS,QISSPLYLIT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSTSSIHWVRQAPGKGLEWVASIYSSYSSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYSRSWGGNYYPNNGMDYWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSSFSGLWTFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9855782389640808,0.8148009777069092,20,0.9546485260770976,MBP,GFTLSTS,YSSYSS,EYSRSWGGNYYPNNGMDY,RASQSVSSAVA,SASSLYS,QQSSFSGLWT +EVQLVESGGGLVQPGGSLRLSCAASGFTLSSSSIHWVRQAPGKGLEWVASIYSYYGSTSYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCAREYHWYWSYAYYPYDGLDVWGQGTLVTVSSASTKGPSVFPLAPSSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,QMTQSPSSLSASVGDRVTITCRASQSISSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQLSSIGDLTNFGQGTKVEIKRTVAAPSVFIFPPSDSQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC,0.9855982661247252,0.8149614334106445,16,0.963718820861678,MBP,GFTLSSS,YSYYGS,EYHWYWSYAYYPYDGLDV,RASQSISSAVA,SASSLYS,QLSSIGDLTN +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGLGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFDYDRGGDDFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSNVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQSFSSYLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2303688526153564,0.9667661786079408,17,0.9601873536299764,EGFR,GYTFTSY,NPGLGN,FDYDRGGDDFDY,SASSNVNYMY,DTSNLAS,QSFSSYLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEIDPNDGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYDIARDRDRYDHWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASQSVGYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSHEVAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.250996470451355,1.1541697978973389,24,0.9437939110070258,EGFR,GYTFTNY,DPNDGG,YDIARDRDRYDH,SASQSVGYMY,DTSNLAS,QVWSSHEVA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGELDPNNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASLDIYRSGDSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRHMYWYQQKPGKAPKLLIYWTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAVWDSHHYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2294187545776367,0.9581345319747924,23,0.9461358313817332,EGFR,GYTFTTY,DPNNGG,LDIYRSGDSYDY,SASSSVRHMY,WTSNLAS,AVWDSHHYT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTDYWMHWVRQAPGQGLEWIGELLPSSGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGTGRDGNRMDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASQSVSYMYWYQQKPGKAPKLLIYLTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAVWSSYVLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.24736487865448,1.121176838874817,26,0.9391100702576112,EGFR,GYSFTDY,LPSSGN,FGTGRDGNRMDY,SASQSVSYMY,LTSNLAS,AVWSSYVLT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGELNPGNGNVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFDYDRDGDSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYDASNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNSHLATFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2105714082717896,0.7869043350219727,17,0.9601873536299764,EGFR,GYTFTNY,NPGNGN,FDYDRDGDSFDY,SASSSVSYMY,DASNLAS,QQWNSHLAT +QVQLVQSGAEVKKPGASVKVSCKASGYAFTSYWMHWVRQAPGQGLEWIGEIDPSNGNVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGVDRDGDAYDSWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNTDLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2299703359603882,0.9631453156471252,23,0.9461358313817332,EGFR,GYAFTSY,DPSNGN,YGVDRDGDAYDS,SASSSVNYMY,STSNLAS,QQWNTDLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSSWMHWVRQAPGQGLEWIGEINPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYDIDRDGNRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSYLYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2066831588745115,0.7515782117843628,20,0.9531615925058547,EGFR,GYTFTSS,NPGNGG,YDIDRDGNRYDY,SASSSVRYMY,STSNLAS,QVWSSYLYA +QVQLVQSGAEVKKPGASVKVSCKASGYSFTDYWMHWVRQAPGQGLEWIGEINPGVGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGIYRDGVAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSHYWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2284431457519531,0.9492701888084412,22,0.9484777517564404,EGFR,GYSFTDY,NPGVGD,YGIYRDGVAYDY,SASSSVSYMY,RTSNLAS,QVWSSHYWT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTSNFMHWVRQAPGQGLEWIGELNPGNGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGYYRSGNSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVTYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSHLYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.215135097503662,0.8283642530441284,18,0.9578454332552692,EGFR,GYSFTSN,NPGNGN,YGYYRSGNSYDY,SASSSVTYMY,STSNLAS,QQWSSHLYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPNNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGIGRRGDAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYSVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNSHIWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2105894088745115,0.7870678901672363,19,0.955503512880562,EGFR,GYTFTDY,NPNNGN,FGIGRRGDAFDY,SASSSVSYMY,SVSNLAS,QQWNSHIWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGYTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCANFGYGRSGDEYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVYNSNLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2206112146377563,0.8781168460845947,21,0.9508196721311476,EGFR,GYTFTSY,NPGNGY,FGYGRSGDEYDY,SASSSVSYMY,GTSNLAS,QVYNSNLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGIGRSGEATDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSRVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQTWNSYHFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2183998823165894,0.8580273389816284,20,0.9531615925058547,EGFR,GYTFTSY,NPGNGN,FGIGRSGEATDY,SASSRVSYMY,DTSNLAS,QTWNSYHFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYYMHWVRQAPGQGLEWIGEILPGNGKVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYGRGGDTVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVYDSNAFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.232324242591858,0.9845300316810608,22,0.9484777517564404,EGFR,GYTFTDY,LPGNGK,FGYGRGGDTVDY,SASSSVSYMY,DTSNLAS,QVYDSNAFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGRTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGVDRDGNYFDFWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVNYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSIGFRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.230705976486206,0.969829559326172,17,0.9601873536299764,EGFR,GYTFTSY,NPGNGR,FGVDRDGNYFDF,SASSGVNYMY,STSNLAS,QQWSIGFRT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGEINPGNGDINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASLGYMRDGYSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQRNYHTYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.226693868637085,0.9333776235580444,23,0.9461358313817332,EGFR,GYTFTDY,NPGNGD,LGYMRDGYSYDY,SASSGVSYMY,STSNLAS,AQRNYHTYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELAPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAHGIDIDGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSGYQYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2231303453445437,0.9010034799575806,22,0.9484777517564404,EGFR,GYTFTSY,APGNGG,HGIDIDGDAYDY,SASSSVNYMY,DTSNLAS,QVWSGYQYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGELNPGSGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASWGRGRDGNYIDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVGYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWDSSAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.229456067085266,0.95847350358963,23,0.9461358313817332,EGFR,GYTFTTY,NPGSGG,WGRGRDGNYIDY,SASSGVGYMY,STSNLAS,QVWDSSAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGGGEINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGYGRDGDSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVGHMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWHTHQYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.222293496131897,0.8933996558189392,20,0.9531615925058547,EGFR,GYTFTSY,NPGGGE,YGYGRDGDSFDY,SASSSVGHMY,DTSNLAS,QQWHTHQYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELDPNNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCATFGIKRSGDAADYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWDRYTYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.222219467163086,0.8927274942398071,22,0.9484777517564404,EGFR,GYTFTSY,DPNNGG,FGIKRSGDAADY,SASSSVSYMY,DTSNLAS,QQWDRYTYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPSDGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASWGIGRDGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVKYMYWYQQKPGKAPKLLIYLTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQFSSHVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.213668704032898,0.8150425553321838,18,0.9578454332552692,EGFR,GYTFTSY,NPSDGG,WGIGRDGDAYDY,SASSSVKYMY,LTSNLAS,QQFSSHVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEINPGNGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYGRYGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYYTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSNAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2078676223754885,0.7623398900032043,20,0.9531615925058547,EGFR,GYTFTNY,NPGNGD,YGYGRYGNAYDY,SASSGVSYMY,YTSNLAS,QQWSSNAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFISYWMHWVRQAPGQGLEWIGEINPSNGSTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGIGRSGESFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSTVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWDTHKGAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.236736536026001,1.024616837501526,20,0.9531615925058547,EGFR,GYTFISY,NPSNGS,YGIGRSGESFDY,SASSTVSYMY,DTSNLAS,AQWDTHKGA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGYWMHWVRQAPGQGLEWIGEILPGNGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAARDFARDGNRVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYDASNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSRHRFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2402323484420776,1.0563757419586182,19,0.955503512880562,EGFR,GYTFTGY,LPGNGN,RDFARDGNRVDY,SASSSVRYMY,DASNLAS,QQWSRHRFA +QVQLVQSGAEVKKPGASVKVSCKASGYAFTTYWMHWVRQAPGQGLEWIGELNPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASWGRRYDGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQAYNSYAFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2359527349472046,1.0174964666366575,22,0.9484777517564404,EGFR,GYAFTTY,NPGNGN,WGRRYDGNAYDY,SASSGVSYMY,DTSNLAS,QAYNSYAFT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTSYYMHWVRQAPGQGLEWIGELNPSNGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYARSGDRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWTSHAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2162210941314695,0.8382322192192078,19,0.955503512880562,EGFR,GYSFTSY,NPSNGD,YGYARSGDRYDY,SASSSVNYMY,STSNLAS,QQWTSHAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGHWMHWVRQAPGQGLEWIGELNPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGVSRDGYAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGGVSYMYWYQQKPGKAPKLLIYLVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSNEFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2297329902648926,0.9609879851341248,20,0.9531615925058547,EGFR,GYTFTGH,NPGNGG,FGVSRDGYAYDY,SASGGVSYMY,LVSNLAS,QQWSSNEFT +QVQLVQSGAEVKKPGASVKVSCKASGYAFTDYWMHWVRQAPGQGLEWIGELNPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYATDGNSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASQSVTYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSYLYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2203863859176636,0.8760732412338257,19,0.955503512880562,EGFR,GYAFTDY,NPGNGN,YGYATDGNSFDY,SASQSVTYMY,DTSNLAS,QVWSSYLYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGEIDPSNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFAITRDNRRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYLTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAFWDYGQFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.267971754074097,1.3083919286727903,24,0.9437939110070258,EGFR,GYTFTTY,DPSNGD,FAITRDNRRYDY,SASSSVRYMY,LTSNLAS,AFWDYGQFA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPNNGYTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYGRSGEANDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSDVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSTYYATFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2242774963378906,0.9114245772361756,18,0.9578454332552692,EGFR,GYTFTSY,NPNNGY,FGYGRSGEANDY,SASSDVSYMY,DTSNLAS,QQWSTYYAT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASHGIEITGTRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVKYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAVWSSHLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.220175862312317,0.8741608262062073,20,0.9531615925058547,EGFR,GYTFTSY,NPGNGG,HGIEITGTRYDY,SASSSVKYMY,STSNLAS,AVWSSHLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFIDYWMHWVRQAPGQGLEWIGELNPGNGEINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGRYRSGNRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQFSSHAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2148276567459106,0.8255720138549805,22,0.9484777517564404,EGFR,GYTFIDY,NPGNGE,FGRYRSGNRYDY,SASSGVSYMY,STSNLAS,QQFSSHAYT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTSYWMHWVRQAPGQGLEWIGEINPGSGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYGLLGDYVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYWTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVFSSYLFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2352296113967896,1.0109270811080933,20,0.9531615925058547,EGFR,GYSFTSY,NPGSGG,YGYGLLGDYVDY,SASSSVSYMY,WTSNLAS,QVFSSYLFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEINPGNGHINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCARIGYDRSGSRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWSTHLYSFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2297779321670532,0.9613968133926392,20,0.9531615925058547,EGFR,GYTFTNY,NPGNGH,IGYDRSGSRYDY,SASSSVRYMY,DTSNLAS,AQWSTHLYS +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELLPGGGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFDYGYDGDKYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNSYAWAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2233885526657104,0.9033486247062684,21,0.9508196721311476,EGFR,GYTFTSY,LPGGGG,FDYGYDGDKYDY,SASSGVSYMY,RTSNLAS,QQWNSYAWA +QVQLVQSGAEVKKPGASVKVSCKASGYTFISSWMHWVRQAPGQGLEWIGEINPGSGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGIYVDGDAFDAWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVDYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSNYIYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.237897515296936,1.0351642370224,22,0.9484777517564404,EGFR,GYTFISS,NPGSGG,FGIYVDGDAFDA,SASSSVDYMY,GTSNLAS,QVWSNYIYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYYMHWVRQAPGQGLEWIGEINPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYDIGYNENAYDAWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWDSYTWSFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2513341903686523,1.157237529754639,21,0.9508196721311476,EGFR,GYTFTSY,NPGNGG,YDIGYNENAYDA,SASSSVRYMY,DTSNLAS,QHWDSYTWS +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDFWMHWVRQAPGQGLEWIGELNPGNGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGLGLDGTAVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNWMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCHQWSSYLYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2313292026519775,0.9754917621612548,21,0.9508196721311476,EGFR,GYTFTDF,NPGNGN,FGLGLDGTAVDY,SASSSVNWMY,STSNLAS,HQWSSYLYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTAYYMHWVRQAPGQGLEWIGELNPNNGDINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAVDIGIDGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQFSSHIYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2274609804153442,0.9403480291366576,21,0.9508196721311476,EGFR,GYTFTAY,NPNNGD,VDIGIDGNAYDY,SASSSVSYMY,STSNLAS,AQFSSHIYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNNWMHWVRQAPGQGLEWIGELDPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGIGISYNPYDSWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWDTHQYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.235527753829956,1.013635516166687,25,0.9414519906323184,EGFR,GYTFTNN,DPGNGG,FGIGISYNPYDS,SASSGVSYMY,DTSNLAS,QVWDTHQYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNHWMHWVRQAPGQGLEWIGEINPGNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAMGRGRDGTRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSFVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWSYYRYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.233640193939209,0.996485948562622,21,0.9508196721311476,EGFR,GYTFTNH,NPGNGD,MGRGRDGTRYDY,SASSFVSYMY,DTSNLAS,AQWSYYRYT +QVQLVQSGAEVKKPGASVKVSCKASGYSFISYWMHWVRQAPGQGLEWIGELNPGNGNVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASEGIGRSGEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYTYSLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2317101955413818,0.9789518117904664,24,0.9437939110070258,EGFR,GYSFISY,NPGNGN,EGIGRSGEAYDY,SASGSVNYMY,DTSNLAS,QQYTYSLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAWGIGRSGDPYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSYVRYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQFENHEGTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2378638982772827,1.034859538078308,23,0.9461358313817332,EGFR,GYTFTSY,NPGNGG,WGIGRSGDPYDY,SASSYVRYMY,RTSNLAS,QQFENHEGT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNIANGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYDIGRSGEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSYLYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2245999574661257,0.9143531322479248,22,0.9484777517564404,EGFR,GYTFTSY,NIANGG,YDIGRSGEAYDY,SASSSVSYMY,STSNLAS,QVWSSYLYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFINYWMHWVRQAPGQGLEWIGEINPGGGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGYGRDGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYGASNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQNWTSYIYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2251113653182983,0.919001579284668,23,0.9461358313817332,EGFR,GYTFINY,NPGGGD,FGYGRDGNAYDY,SASSSVSYMY,GASNLAS,QNWTSYIYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGEINPGNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASWGYGRSGTRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSRVYYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSYNLFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.22100830078125,0.881725013256073,19,0.955503512880562,EGFR,GYTFTDY,NPGNGD,WGYGRSGTRYDY,SASSRVYYMY,STSNLAS,QQWSYNLFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEINPSNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFDIDRDGNRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSTFAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2106515169143677,0.7876309156417847,18,0.9578454332552692,EGFR,GYTFTNY,NPSNGG,FDIDRDGNRYDY,SASSSVRYMY,DTSNLAS,QQWSTFAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFISYWMHWVRQAPGQGLEWIGELNPGNGSINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCATSDYGIDGTALDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQNWSTHTFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2414346933364868,1.0672988891601562,19,0.955503512880562,EGFR,GYTFISY,NPGNGS,SDYGIDGTALDY,SASGSVSYMY,DTSNLAS,QNWSTHTFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNHWMHWVRQAPGQGLEWIGELNPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGWGRDGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSDVGYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSNSVFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.224115967750549,0.9099576473236084,20,0.9531615925058547,EGFR,GYTFTNH,NPGNGN,YGWGRDGDAYDY,SASSDVGYMY,STSNLAS,QQWSNSVFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASTGVYRDGNAVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVDYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWNTHLYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2117414474487305,0.7975331544876099,19,0.955503512880562,EGFR,GYTFTSY,NPGNGG,TGVYRDGNAVDY,SASSSVDYMY,DTSNLAS,QVWNTHLYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGELNPSNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYAVDRDGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVAYMYWYQQKPGKAPKLLIYATSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSDHYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2256098985671997,0.923530340194702,19,0.955503512880562,EGFR,GYTFTTY,NPSNGG,YAVDRDGDAYDY,SASSSVAYMY,ATSNLAS,QQWSSDHYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFISYWMHWVRQAPGQGLEWIGELNPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYGRDGSNVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSRHRWAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.217544436454773,0.8502554297447205,21,0.9508196721311476,EGFR,GYTFISY,NPGNGG,FGYGRDGSNVDY,SASSGVSYMY,STSNLAS,QVWSRHRWA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEINPGNGYVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYDRDGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSVVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWDTHQYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2147929668426514,0.825257420539856,21,0.9508196721311476,EGFR,GYTFTNY,NPGNGY,YGYDRDGDAYDY,SASSVVSYMY,DTSNLAS,AQWDTHQYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGEINPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASLGYDYSGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWDSGLYVFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.215062975883484,0.8277100920677185,20,0.9531615925058547,EGFR,GYTFTNY,NPGNGG,LGYDYSGNAYDY,SASSGVSYMY,STSNLAS,QQWDSGLYV +QVQLVQSGAEVKKPGASVKVSCKASGYTFTASWMHWVRQAPGQGLEWIGEINPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGYGRDGDSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSNVVYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSHVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2176032066345217,0.8507883548736572,20,0.9531615925058547,EGFR,GYTFTAS,NPGNGN,FGYGRDGDSFDY,SASSNVVYMY,STSNLAS,QVWSSHVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSSWMHWVRQAPGQGLEWIGELNPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFDYYIDGDSVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSYLGTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2148281335830688,0.8255768418312073,18,0.9578454332552692,EGFR,GYTFTSS,NPGNGG,FDYYIDGDSVDY,SASGSVSYMY,DTSNLAS,QVWSSYLGT +QVQLVQSGAEVKKPGASVKVSCKASGYTFIGYWMHWVRQAPGQGLEWIGEINPGSGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGYHYSGDSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGNVRYMYWYQQKPGKAPKLLIYNTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAVWSSNLFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2446976900100708,1.0969446897506714,24,0.9437939110070258,EGFR,GYTFIGY,NPGSGD,FGYHYSGDSFDY,SASGNVRYMY,NTSNLAS,AVWSSNLFA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGYWMHWVRQAPGQGLEWIGEINPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYGRSGDSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSYVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.1975855827331543,0.6689258217811584,19,0.955503512880562,EGFR,GYTFTGY,NPGNGN,YGYGRSGDSYDY,SASSSVSYMY,GTSNLAS,QQWSSYVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELHPSSGSVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGVDVSGNVYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNSHAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2400305271148682,1.0545436143875122,21,0.9508196721311476,EGFR,GYTFTDY,HPSSGS,FGVDVSGNVYDY,SASSGVSYMY,GTSNLAS,QQWNSHAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNNWMHWVRQAPGQGLEWIGELNPGNGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGYDRDGEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSDVDYMYWYQQKPGKAPKLLIYNVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVFSTHHYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.232690453529358,0.9878576397895812,23,0.9461358313817332,EGFR,GYTFTNN,NPGNGD,YGYDRDGEAYDY,SASSDVDYMY,NVSNLAS,QVFSTHHYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGEINPGNGDINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASEGYGRNGDVFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSHVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2136939764022827,0.815272331237793,18,0.9578454332552692,EGFR,GYTFTTY,NPGNGD,EGYGRNGDVFDY,SASSSVNYMY,RTSNLAS,QVWSSHVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASLGIGRTGDRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVWYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSRNVFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2276666164398191,0.9422147870063782,21,0.9508196721311476,EGFR,GYTFTSY,NPGNGN,LGIGRTGDRYDY,SASGSVWYMY,RTSNLAS,QVWSRNVFA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFDIHRGGDAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWNRGQFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.217153787612915,0.8467064499855042,20,0.9531615925058547,EGFR,GYTFTSY,NPGNGG,FDIHRGGDAYDY,SASSSVNYMY,DVSNLAS,QQWNRGQFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDSWMHWVRQAPGQGLEWIGEINPGNGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGRARGGDVYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSHRWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2161625623703003,0.8376986980438232,20,0.9531615925058547,EGFR,GYTFTDS,NPGNGG,YGRARGGDVYDY,SASSSVSYMY,STSNLAS,QVWSSHRWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPSNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGIGLDGEAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYDVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCEQWSNGLYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2197864055633545,0.8706227540969849,20,0.9531615925058547,EGFR,GYTFTSY,NPSNGD,FGIGLDGEAFDY,SASSGVSYMY,DVSNLAS,EQWSNGLYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGEINPGGGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAHGHERDGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSFMYWYQQKPGKAPKLLIYDASNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWSSHHYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.231895089149475,0.980632185935974,22,0.9484777517564404,EGFR,GYTFTTY,NPGGGG,HGHERDGNAYDY,SASSSVSFMY,DASNLAS,AQWSSHHYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYGRDGTAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVTYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWDRHTYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2062373161315918,0.747529149055481,17,0.9601873536299764,EGFR,GYTFTSY,NPGNGG,YGYGRDGTAFDY,SASSSVTYMY,DTSNLAS,QHWDRHTYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPGNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGYRRSGDRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSNVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWSSNLYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2057173252105713,0.7428048253059387,20,0.9531615925058547,EGFR,GYTFTDY,NPGNGD,FGYRRSGDRYDY,SASSNVSYMY,DTSNLAS,QHWSSNLYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNFWMHWVRQAPGQGLEWIGEINPGNGMINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCATYGYGRDGTPVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASQSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQTWNSHRYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.232148289680481,0.982932448387146,21,0.9508196721311476,EGFR,GYTFTNF,NPGNGM,YGYGRDGTPVDY,SASQSVNYMY,DTSNLAS,QTWNSHRYT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTDYWMHWVRQAPGQGLEWIGEINPGNGDINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAEGYGRDGDAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNFMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQTFSGYLHTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2370249032974243,1.0272386074066162,24,0.9437939110070258,EGFR,GYSFTDY,NPGNGD,EGYGRDGDAFDY,SASSSVNFMY,RTSNLAS,QTFSGYLHT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGFLRDGDVYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVNYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVYNNRVLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2314975261688232,0.9770195484161376,25,0.9414519906323184,EGFR,GYTFTSY,NPGNGN,YGFLRDGDVYDY,SASSGVNYMY,GTSNLAS,QVYNNRVLT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPGNGYINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASWGYGRTGNYFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYETSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQYSSHLYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.218530774116516,0.8592156767845154,19,0.955503512880562,EGFR,GYTFTDY,NPGNGY,WGYGRTGNYFDY,SASSSVSYMY,ETSNLAS,AQYSSHLYA +QVQLVQSGAEVKKPGASVKVSCKASGYKFTSYWMHWVRQAPGQGLEWIGEINPGVGSINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAVGRGRGGDSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSTVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWDTHIYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2409207820892334,1.0626314878463743,22,0.9484777517564404,EGFR,GYKFTSY,NPGVGS,VGRGRGGDSYDY,SASSTVSYMY,DTSNLAS,QQWDTHIYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGELNPSNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGIYIDGDGYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCGHWSSYLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2229076623916626,0.8989788889884949,22,0.9484777517564404,EGFR,GYTFTTY,NPSNGN,FGIYIDGDGYDY,SASSSVSYMY,GTSNLAS,GHWSSYLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPNNGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAALGYGRDGDSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSNVSCMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWSSNLATFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2263513803482056,0.9302666187286376,22,0.9484777517564404,EGFR,GYTFTSY,NPNNGG,LGYGRDGDSYDY,SASSNVSCMY,STSNLAS,AQWSSNLAT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGEIDPGGGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYARGRSGNRCDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWDFNVWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.242259502410889,1.0747939348220823,25,0.9414519906323184,EGFR,GYTFTDY,DPGGGG,YARGRSGNRCDY,SASSGVNYMY,DTSNLAS,QVWDFNVWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELHPNVGRTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFDYDRSGNSVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSDVTYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWDSGVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.237701177597046,1.0333806276321411,18,0.9578454332552692,EGFR,GYTFTDY,HPNVGR,FDYDRSGNSVDY,SASSDVTYMY,DTSNLAS,QQWDSGVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELDPNNGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASVGYYLSGDAVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVSRMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSNHVFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2333208322525024,0.9935838580131532,20,0.9531615925058547,EGFR,GYTFTDY,DPNNGD,VGYYLSGDAVDY,SASGSVSRMY,DTSNLAS,QQWSNHVFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGYWMHWVRQAPGQGLEWIGELNPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYDWDRTGEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSHTYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2089381217956543,0.7720648646354675,15,0.9648711943793912,EGFR,GYTFTGY,NPGNGG,YDWDRTGEAYDY,SASSSVNYMY,DTSNLAS,QQWSSHTYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPNNGRTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFDYGRDGYALDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSAVRYMYWYQQKPGKAPKLLIYDTNNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWTIFIATFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2492058277130127,1.1379011869430542,19,0.955503512880562,EGFR,GYTFTSY,NPNNGR,FDYGRDGYALDY,SASSAVRYMY,DTNNLAS,QVWTIFIAT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGEINPSDGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCATFGIGRGGNSLDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWTSHHWAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2242635488510132,0.911300003528595,23,0.9461358313817332,EGFR,GYTFTDY,NPSDGG,FGIGRGGNSLDY,SASSSVSYMY,STSNLAS,QVWTSHHWA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGYWMHWVRQAPGQGLEWIGEINPGNGNTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAWGIHRDGYAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASRSVDYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSHHYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2244956493377686,0.9134061932563782,20,0.9531615925058547,EGFR,GYTFTGY,NPGNGN,WGIHRDGYAYDY,SASRSVDYMY,RTSNLAS,QQWSSHHYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPNNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYGRSGEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWSSNVFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.203925609588623,0.7265263199806213,18,0.9578454332552692,EGFR,GYTFTSY,NPNNGG,FGYGRSGEAYDY,SASGSVSYMY,DTSNLAS,QVWSSNVFA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTAYWMHWVRQAPGQGLEWIGEINPGNDDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFGRGRYGDRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVKYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWSYHLYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2304147481918335,0.9671834707260132,24,0.9437939110070258,EGFR,GYTFTAY,NPGNDD,FGRGRYGDRYDY,SASSSVKYMY,STSNLAS,AQWSYHLYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSDWMHWVRQAPGQGLEWIGELNPSNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYNRSGDRYDSWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVTYMYWYQQKPGKAPKLLIYGTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWTSYLFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2268381118774414,0.9346882700920104,17,0.9601873536299764,EGFR,GYTFTSD,NPSNGG,YGYNRSGDRYDS,SASSSVTYMY,GTSNLAS,QHWTSYLFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPGNGRINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGFGIYGDAVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWDSHLSTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2178162336349487,0.8527237772941589,19,0.955503512880562,EGFR,GYTFTDY,NPGNGR,YGFGIYGDAVDY,SASSSVSYMY,DTSNLAS,QQWDSHLST +QVQLVQSGAEVKKPGASVKVSCKASGYTFTGYWMHWVRQAPGQGLEWIGELNPGNGGVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCARFDYARDGTAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVRYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWSSYAATFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2207635641098022,0.879500150680542,18,0.9578454332552692,EGFR,GYTFTGY,NPGNGG,FDYARDGTAFDY,SASSSVRYMY,DTSNLAS,QHWSSYAAT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSSWMHWVRQAPGQGLEWIGEINPGNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAALGLHDDWEAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYRTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYDNHLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2504336833953855,1.149056077003479,23,0.9461358313817332,EGFR,GYTFTSS,NPGNGD,LGLHDDWEAYDY,SASSGVSYMY,RTSNLAS,QQYDNHLWT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPSNGNVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYDRSGDVYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYGNTIWAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2306289672851562,0.9691293835639954,19,0.955503512880562,EGFR,GYTFTSY,NPSNGN,YGYDRSGDVYDY,SASSSVNYMY,STSNLAS,QQYGNTIWA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGELNPGNGNINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGWGRYGDSFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSFMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSSNLLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2118691205978394,0.7986935377120972,18,0.9578454332552692,EGFR,GYTFTSY,NPGNGN,FGWGRYGDSFDY,SASSSVSFMY,DTSNLAS,QQWSSNLLT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWIGEINPGNGDTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASLGYGYDGDAFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWDTNTYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2063937187194824,0.748949408531189,17,0.9601873536299764,EGFR,GYTFTSY,NPGNGD,LGYGYDGDAFDY,SASSSVSYMY,DTSNLAS,QHWDTNTYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGELNPSNGRINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAFSIGLDGDRVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVSHMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQWSTHLWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2201679944992063,0.8740891814231873,19,0.955503512880562,EGFR,GYTFTNY,NPSNGR,FSIGLDGDRVDY,SASSSVSHMY,DTSNLAS,QQWSTHLWT +QVQLVQSGAEVKKPGASVKVSCKASGYSFTSYWMHWVRQAPGQGLEWIGEINPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASHDITRSGDKFDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCAQWNSHVYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2206506729125977,0.8784747123718262,17,0.9601873536299764,EGFR,GYSFTSY,NPGNGG,HDITRSGDKFDY,SASSSVNYMY,DTSNLAS,AQWNSHVYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELSPGNGNVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCATLGYGRDGNAFDHWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQSWSSHVYAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2262523174285889,0.9293661117553712,21,0.9508196721311476,EGFR,GYTFTDY,SPGNGN,LGYGRDGNAFDH,SASSSVNYMY,DTSNLAS,QSWSSHVYA +QVQLVQSGAEVKKPGASVKVSCKASGYTFSTYWMHWVRQAPGQGLEWIGEINPSNGRTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCGSFAVGRSGNGYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYRVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQTYDSSLFGFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2684783935546875,1.3129949569702148,24,0.9437939110070258,EGFR,GYTFSTY,NPSNGR,FAVGRSGNGYDY,SASSGVSYMY,RVSNLAS,QTYDSSLFG +QVQLVQSGAEVKKPGASVKVSCKASGYTFTNYWMHWVRQAPGQGLEWIGELDPGNGDVNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGIDRDGDSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSAVIYMYWYQQKPGKAPKLLIYAVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWSSYQFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2302675247192385,0.965845227241516,23,0.9461358313817332,EGFR,GYTFTNY,DPGNGD,YGIDRDGDSYDY,SASSAVIYMY,AVSNLAS,QHWSSYQFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTSNWMHWVRQAPGQGLEWIGEINPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAYGYTRGGNAYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASGSVSYMYWYQQKPGKAPKLLIYDVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWNSRQYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.218250393867493,0.8566685318946838,22,0.9484777517564404,EGFR,GYTFTSN,NPGNGG,YGYTRGGNAYDY,SASGSVSYMY,DVSNLAS,QVWNSRQYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFIDYFMHWVRQAPGQGLEWIGEILPSNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASYGYNRTGYAVDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYYVSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWSSNAYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2427369356155396,1.0791314840316772,24,0.9437939110070258,EGFR,GYTFIDY,LPSNGG,YGYNRTGYAVDY,SASSGVSYMY,YVSNLAS,QHWSSNAYT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPGNGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCAAEGYYRDRTRYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVNYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQVWNSHLFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2129266262054443,0.8083020448684692,20,0.9531615925058547,EGFR,GYTFTDY,NPGNGG,EGYYRDRTRYDY,SASSSVNYMY,DTSNLAS,QVWNSHLFT +QVQLVQSGAEVKKPGASVKVSCKASGYTFTTYWMHWVRQAPGQGLEWIGEIDPGSGGINYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYDRSGNSYDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSSVIYMYWYQQKPGKAPKLLIYDTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQHWNSHLLAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2202823162078855,0.8751272559165955,21,0.9508196721311476,EGFR,GYTFTTY,DPGSGG,FGYDRSGNSYDY,SASSSVIYMY,DTSNLAS,QHWNSHLLA +QVQLVQSGAEVKKPGASVKVSCKASGYTFTDYWMHWVRQAPGQGLEWIGELNPGNGGTNYNEKFKSKATMTVDTSTNTAYMELSSLRSEDTAVYYCASFGYDRDGNAIDYWGQGTLVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,DIQMTQSPSSLSASVGDRVTITCSASSGVSYMYWYQQKPGKAPKLLIYSTSNLASGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYSRYSFAFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG,1.2160701751708984,0.8368608355522156,20,0.9531615925058547,EGFR,GYTFTDY,NPGNGG,FGYDRDGNAIDY,SASSGVSYMY,STSNLAS,QQYSRYSFA +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARQGGSFGEEGLDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9277501106262208,0.4542151987552643,13,0.9695550351288056,PDL1,GFTFSDY,KQDGSE,QGGSFGEEGLDY,RASQSISGNYLA,DASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARHGGPFGEGGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVTSNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.942989945411682,0.5870193243026733,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,HGGPFGEGGFES,RASQSVTSNFLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEYALESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSILGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGESPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9385042786598206,0.5479297637939453,16,0.9625292740046838,PDL1,GFTFSSY,KQDGSE,EGGPFGEYALES,RASQSILGNYLA,GASSRAT,QQYGESPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFRGYYMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGQEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9374423027038574,0.5386755466461182,16,0.9625292740046838,PDL1,GFTFRGY,KQDGSE,EGGDFGQEGFDS,RASESISGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYAMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGSFGERGFAYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVVGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPITFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9524890184402466,0.6697967052459717,16,0.9625292740046838,PDL1,GFTFSNY,KQDGSE,AGGSFGERGFAY,RASQSVVGNYLA,GASSRAT,QQYGGSPIT +EVQLVESGGGLVQPGGSLRLSCAASGFSFSNHGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGENGFQSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNRPNTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9693748354911804,0.8169453144073486,17,0.9601873536299764,PDL1,GFSFSNH,KQDGSE,EGGPFGENGFQS,RASQSVGGNYLA,GASSRAT,QQYGNRPNT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYAMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGYWGQRGLDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9367794990539552,0.532899796962738,16,0.9625292740046838,PDL1,GFTFSNY,KQDGSE,EGGYWGQRGLDY,RASQSISGNYLA,GASSRAT,QQYGGSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGFYGQESFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9363639950752258,0.5292788743972778,16,0.9625292740046838,PDL1,GFTFSSY,KQDGSE,DGGFYGQESFEY,RASQSIGGNYLA,GASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGNFGEEGLDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASGSVGGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.931248426437378,0.4847002625465393,14,0.9672131147540984,PDL1,GFTFSNY,KQDGSE,EGGNFGEEGLDY,RASGSVGGNFLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDHGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPYGEGGFAYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9448333382606506,0.603083074092865,16,0.9625292740046838,PDL1,GFTFSDH,KQDGSE,EGGPYGEGGFAY,RASQSVGGNFLA,GASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYEMSWVRQAPGKGLEWVANISQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGERAFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSINGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSYPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.942602813243866,0.5836453437805176,14,0.9672131147540984,PDL1,GFTFSSY,SQDGSE,EGGPFGERAFEY,RASQSINGNYLA,GASSRAT,QQYGSYPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYVMSWVRQAPGKGLEWVANIKQDGSERYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGQGGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGTYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9426997303962708,0.5844898819923401,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGSFGQGGFES,RASQSVSGTYLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYIMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGERGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGRSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9282290935516356,0.458389014005661,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,EGGPFGERGFEY,RASQSISGNLLA,GASSRAT,QQYGRSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYEMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGYFGERGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSFPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9345300793647766,0.5132971405982971,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,AGGYFGERGFDS,RASESISGNYLA,GASSRAT,QQYGSFPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGNFGELGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9264923930168152,0.4432544410228729,11,0.97423887587822,PDL1,GFTFSDY,KQDGSE,LGGNFGELGFDY,RASQSISGNYLA,GASSRAT,QQYGSLPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYGMSWVRQAPGKGLEWVANIKQDGTEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGDFGQLGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9420182704925536,0.5785517692565918,17,0.9601873536299764,PDL1,GFTFSNY,KQDGTE,LGGDFGQLGLEY,RASQSVSGNFLA,GASSRAT,QQYGGSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEEGMDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASHSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9277827143669128,0.454499214887619,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGSFGEEGMDY,RASHSIGGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGSFGEEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSLLGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.93329119682312,0.5025017261505127,15,0.9648711943793912,PDL1,GFTFSDY,KQDGSE,AGGSFGEEGFDS,RASQSLLGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAIEGGYFGELGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.93217670917511,0.4927899539470672,13,0.9695550351288056,PDL1,GFTFSSY,KQDGSE,EGGYFGELGFDY,RASQSISGNLLA,GASSRAT,QQYGGSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYIMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGERGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIDGDYLAWYQQKPGQAPRLLIYDTSSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9510189890861512,0.6569870710372925,16,0.9625292740046838,PDL1,GFTFSNY,KQDGSE,EGGPFGERGLEY,RASQSIDGDYLA,DTSSRAT,QQYGGSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESVSGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGISPNTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9388287663459778,0.550757646560669,11,0.97423887587822,PDL1,GFTFSDY,KQDGSE,EGGPFGEEGFDY,RASESVSGNYLA,DASSRAT,QQYGISPNT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEESFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9191292524337769,0.3790901601314544,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGSFGEESFEY,RASQSIGGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYDMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGSFGEESFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9289068579673768,0.4642952978610992,13,0.9695550351288056,PDL1,GFTFSNY,KQDGSE,LGGSFGEESFDY,RASQSIGGNYLA,GASSRAT,QQYGSSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYRMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDDGQEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNPPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9510776996612548,0.6574985980987549,13,0.9695550351288056,PDL1,GFTFSSY,KQDGSE,EGGDDGQEGFDY,RASQSISGNYLA,DASSRAT,QQYGNPPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYAMSWVRQAPGKGLEWVANIKQDGSETYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGQYGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNFLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGTSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9442850947380066,0.5983056426048279,16,0.9625292740046838,PDL1,GFTFSDY,KQDGSE,EGGDFGQYGFEY,RASQSVGGNFLA,DASSRAT,QQYGTSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSTYWMSWVRQAPGKGLEWVANIKQDGSQTYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEESFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASHSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.951545238494873,0.661573052406311,15,0.9648711943793912,PDL1,GFTFSTY,KQDGSQ,EGGDFGEESFEY,RASHSIGGNYLA,GASSRAT,QQYGSSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYKMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGDFGERGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVNGNFLAWYQQKPGQAPRLLIYSASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9500703811645508,0.6487209796905518,13,0.9695550351288056,PDL1,GFTFSNY,KQDGSE,AGGDFGERGFDY,RASQSVNGNFLA,SASSRAT,QQYGSLPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYTMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEEAFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9290751218795776,0.4657613933086395,12,0.9718969555035128,PDL1,GFTFSSY,KQDGSE,EGGDFGEEAFES,RASQSVGGNYLA,GASSRAT,QQYGSLPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGWFGEEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQTISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9211175441741944,0.3964168727397918,11,0.97423887587822,PDL1,GFTFSSY,KQDGSE,EGGWFGEEGFDY,RASQTISGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYYMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGQEAFEFWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIDGTYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQHGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9507431387901306,0.6545827388763428,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,EGGDFGQEAFEF,RASQSIDGTYLA,DASSRAT,QQHGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYVMSWVRQAPGKGLEWVANIKQDGSERYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGNWGEEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9375403523445128,0.5395300984382629,15,0.9648711943793912,PDL1,GFTFSDY,KQDGSE,AGGNWGEEGFDY,RASQSVGGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGDFGEESFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQHGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9302322268486024,0.4758450388908386,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,DGGDFGEESFES,RASQSVSGNYLA,GASSRAT,QQHGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEYGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIRGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPCTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9328020811080932,0.4982386529445648,14,0.9672131147540984,PDL1,GFTFSNY,KQDGSE,EGGSFGEYGLEY,RASQSIRGNYLA,GASSRAT,QQYGSSPCT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSRYDMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGNFGQEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9322208762168884,0.4931749105453491,13,0.9695550351288056,PDL1,GFTFSRY,KQDGSE,EGGNFGQEGFDY,RASQSVGGNLLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGYYGELGMEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISKNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSTPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9510404467582704,0.6571729183197021,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,DGGYYGELGMEY,RASQSISKNYLA,GASSRAT,QQYGSTPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYYMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGYFGELAFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9233952760696412,0.4162657856941223,10,0.9765807962529274,PDL1,GFTFSSY,KQDGSE,EGGYFGELAFEY,RASQSVSGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYFMSWVRQAPGKGLEWVANIRQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSYGEEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGRSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9413108229637146,0.5723870992660522,16,0.9625292740046838,PDL1,GFTFSNY,RQDGSE,EGGSYGEEGFDS,RASQSIGGNYLA,DASSRAT,QQYGRSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSQKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGAFGERGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQDVSGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9453620314598083,0.60769122838974,10,0.9765807962529274,PDL1,GFTFSNY,KQDGSQ,AGGAFGERGFDY,RASQDVSGNYLA,DASSRAT,QQYGSLPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSETYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGEFGEYAFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVRGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQHGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9470134973526,0.6220811605453491,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGEFGEYAFDY,RASQSVRGNLLA,GASSRAT,QQHGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSERYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGHFGQDGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9354921579360962,0.5216812491416931,13,0.9695550351288056,PDL1,GFTFSNY,KQDGSE,LGGHFGQDGFDY,RASQSVSGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYVMSWVRQAPGKGLEWVANINQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGAFGEDGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGSNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9392017126083374,0.5540074706077576,13,0.9695550351288056,PDL1,GFTFSSY,NQDGSE,EGGAFGEDGLEY,RASQSVGSNYLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSGHWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEDGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIIGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9387665390968324,0.5502152442932129,14,0.9672131147540984,PDL1,GFTFSGH,KQDGSE,EGGPFGEDGFES,RASQSIIGNYLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSTYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGSFGEEGLDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9293396472930908,0.4680670201778412,14,0.9672131147540984,PDL1,GFTFSTY,KQDGSE,LGGSFGEEGLDY,RASQSVSGNLLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGWFGEEGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIRGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9247821569442748,0.4283521175384521,12,0.9718969555035128,PDL1,GFTFSNY,KQDGSE,DGGWFGEEGFEY,RASQSIRGNYLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGYFGERGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYRASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9276535511016846,0.4533733129501343,14,0.9672131147540984,PDL1,GFTFSNY,KQDGSE,EGGYFGERGFES,RASQSIGGNYLA,RASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSHWMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEEGMDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISSNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9383997917175292,0.547019898891449,14,0.9672131147540984,PDL1,GFTFSSH,KQDGSE,EGGPFGEEGMDS,RASQSISSNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGELGLDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQRVGGNHLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.93359637260437,0.5051616430282593,11,0.97423887587822,PDL1,GFTFSDY,KQDGSE,EGGSFGELGLDY,RASQRVGGNHLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGAYGDDGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESIGSNFLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGRSPHTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9599415063858032,0.7347396016120911,17,0.9601873536299764,PDL1,GFTFSNY,KQDGSE,LGGAYGDDGFDY,RASESIGSNFLA,DASSRAT,QQYGRSPHT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPYGELGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQFGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9291338324546814,0.4662734568119049,11,0.97423887587822,PDL1,GFTFSSY,KQDGSE,EGGPYGELGFDY,RASQSVGGNYLA,DASSRAT,QQFGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGYFGEEGMESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIRGNFLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9272058606147766,0.4494723081588745,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,EGGYFGEEGMES,RASQSIRGNFLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEYALDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQRVIGAYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9514458775520324,0.6607064008712769,11,0.97423887587822,PDL1,GFTFSSY,KQDGSE,EGGDFGEYALDY,RASQRVIGAYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEQGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9191747307777404,0.3794867098331451,10,0.9765807962529274,PDL1,GFTFSDY,KQDGSE,EGGDFGEQGFDY,RASQSVSGNYLA,GASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSRYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSYGEKSFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSILGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.936225950717926,0.5280758142471313,14,0.9672131147540984,PDL1,GFTFSRY,KQDGSE,EGGSYGEKSFES,RASQSILGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGNFGQRGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGLPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9285788536071776,0.461436927318573,12,0.9718969555035128,PDL1,GFTFSNY,KQDGSE,EGGNFGQRGFEY,RASQSISGNYLA,DASSRAT,QQYGGLPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYHMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGPFGEQGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQTISGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGTSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9387040734291076,0.5496708154678345,15,0.9648711943793912,PDL1,GFTFSDY,KQDGSE,LGGPFGEQGFDY,RASQTISGNFLA,GASSRAT,QQYGTSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYHMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGERGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQTIGGNLLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.93743097782135,0.5385766625404358,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGSFGERGFEY,RASQTIGGNLLA,DASSRAT,QQYGGSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFNDYEMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGNFGEEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNLLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9322282671928406,0.4932393133640289,13,0.9695550351288056,PDL1,GFTFNDY,KQDGSE,EGGNFGEEGFDY,RASQSISGNLLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGDEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9233911037445068,0.4162294566631317,13,0.9695550351288056,PDL1,GFTFSDY,KQDGSE,EGGDFGDEGFDY,RASQSIGGNYLA,DASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYDMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGPFGEEGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVNGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9361504316329956,0.5274176001548767,16,0.9625292740046838,PDL1,GFTFSSY,KQDGSE,AGGPFGEEGFES,RASQSVNGNYLA,GASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGPYGENGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.927778661251068,0.4544638693332672,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,DGGPYGENGFDY,RASQSIGGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGQEGMQAWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQTISGSLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9496782422065736,0.6453028917312622,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,EGGSFGQEGMQA,RASQTISGSLLA,GASSRAT,QQYGSSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYNMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEEGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASRSITGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPVTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9474397301673888,0.6257953643798828,17,0.9601873536299764,PDL1,GFTFSDY,KQDGSE,EGGPFGEEGLEY,RASRSITGNFLA,GASSRAT,QQYGSSPVT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGPFGEEGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNFLAWYQQKPGQAPRLLIYAASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9263423681259156,0.4419474601745605,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,AGGPFGEEGFEY,RASQSVSGNFLA,AASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARGGGPFGEGAFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGLPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.943719208240509,0.593374490737915,13,0.9695550351288056,PDL1,GFTFSNY,KQDGSE,GGGPFGEGAFES,RASQSVSGNFLA,GASSRAT,QQYGGLPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSTYFMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGAFGEEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNLLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.935439109802246,0.5212191939353943,13,0.9695550351288056,PDL1,GFTFSTY,KQDGSE,EGGAFGEEGFDS,RASQSISGNLLA,DASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYNMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGSFGEEGFASWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISNNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQFGASPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9537138938903807,0.6804702281951904,17,0.9601873536299764,PDL1,GFTFSSY,KQDGSE,AGGSFGEEGFAS,RASQSISNNYLA,GASSRAT,QQFGASPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEEYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGSFGEEGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVNGSYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.936428725719452,0.5298429727554321,12,0.9718969555035128,PDL1,GFTFSSY,KQDGSE,DGGSFGEEGFDY,RASQSVNGSYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANISQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGQRGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGSNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9375718235969543,0.5398039817810059,14,0.9672131147540984,PDL1,GFTFSDY,SQDGSE,EGGPFGQRGFES,RASQSIGSNYLA,GASSRAT,QQYGSLPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEEAFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSWPNTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9334378838539124,0.5037800073623657,11,0.97423887587822,PDL1,GFTFSNY,KQDGSE,EGGDFGEEAFEY,RASQSVSGNYLA,GASSRAT,QQYGSWPNT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGERGLDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQVIQGNHLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9474713802337646,0.6260718107223511,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,EGGDFGERGLDS,RASQVIQGNHLA,GASSRAT,QQYGSSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGSFGQRGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9218833446502686,0.4030900597572326,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,LGGSFGQRGFEY,RASQSISGNYLA,GASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYDMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEHSFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQTVSGNYLAWYQQKPGQAPRLLIYAASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.939697265625,0.5583257079124451,12,0.9718969555035128,PDL1,GFTFSSY,KQDGSE,EGGSFGEHSFDS,RASQTVSGNYLA,AASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYNMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSYGEEGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASDSVSGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9376022815704346,0.5400699377059937,13,0.9695550351288056,PDL1,GFTFSSY,KQDGSE,EGGSYGEEGFEY,RASDSVSGNYLA,DASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCSRGGGPFGQYGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9447990655899048,0.6027840375900269,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,GGGPFGQYGFDY,RASQSVSGNYLA,GASSRAT,QQYGNSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSNIMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGELGFEFWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9500384330749512,0.6484423279762268,14,0.9672131147540984,PDL1,GFTFSSN,KQDGSE,EGGPFGELGFEF,RASQSISGNYLA,GASSRAT,QQYGSLPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGWYGEEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIIGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9299612045288086,0.4734832942485809,14,0.9672131147540984,PDL1,GFTFSNY,KQDGSE,EGGWYGEEGFDS,RASQSIIGNYLA,GASSRAT,QQYGNSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGYFGEEGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGGNRLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSLPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.933988392353058,0.5085768699645996,13,0.9695550351288056,PDL1,GFTFSSY,KQDGSE,EGGYFGEEGFEY,RASQSIGGNRLA,GASSRAT,QQYGSLPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYDMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGPFGELGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISSNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9327576160430908,0.4978514015674591,11,0.97423887587822,PDL1,GFTFSSY,KQDGSE,AGGPFGELGFEY,RASQSISSNYLA,DASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGPFGEYGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIRGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9253499507904052,0.4332993030548095,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,AGGPFGEYGFEY,RASQSIRGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARGGGPFGQEGFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9381591081619264,0.5449223518371582,18,0.9578454332552692,PDL1,GFTFSNY,KQDGSE,GGGPFGQEGFES,RASQSVGGNFLA,GASSRAT,QQYGGSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYGMSWVRQAPGKGLEWVANIRQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGWFGEDGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVGGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9385185837745668,0.5480539798736572,12,0.9718969555035128,PDL1,GFTFSDY,RQDGSE,LGGWFGEDGFDY,RASQSVGGNYLA,GASSRAT,QQYGSSPWT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYTMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEEGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESISGNYLAWYQQKPGQAPRLLIYGTSSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9324446320533752,0.4951248168945312,16,0.9625292740046838,PDL1,GFTFSSY,KQDGSE,EGGSFGEEGFEY,RASESISGNYLA,GTSSRAT,QQYGGSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSFLMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEMGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9344661235809326,0.512739896774292,12,0.9718969555035128,PDL1,GFTFSSF,KQDGSE,EGGSFGEMGFDY,RASQSVSGNYLA,GASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGEEGFAYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIPGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGGSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9299893975257874,0.4737293720245361,14,0.9672131147540984,PDL1,GFTFSSY,KQDGSE,EGGPFGEEGFAY,RASQSIPGNYLA,DASSRAT,QQYGGSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSRYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARAGGDFGEEAFESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYGAASRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.941094696521759,0.5705031752586365,12,0.9718969555035128,PDL1,GFTFSRY,KQDGSE,AGGDFGEEAFES,RASQSVSGNYLA,GAASRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYYMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARQGGNFGQAGLESWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQEVSGNFLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSNPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9661409258842468,0.788763701915741,16,0.9625292740046838,PDL1,GFTFSNY,KQDGSE,QGGNFGQAGLES,RASQEVSGNFLA,DASSRAT,QQYGSNPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGERGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGRSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9196507334709167,0.3836343586444855,13,0.9695550351288056,PDL1,GFTFSDY,KQDGSE,EGGDFGERGFDS,RASQSISGNYLA,GASSRAT,QQYGRSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARLGGSFGEESFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQGIIGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9388949275016784,0.5513337254524231,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,LGGSFGEESFDY,RASQGIIGNFLA,GASSRAT,QQYGNSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFNNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGEEGFAYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASESITGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.935904860496521,0.5252779722213745,15,0.9648711943793912,PDL1,GFTFNNY,KQDGSE,EGGDFGEEGFAY,RASESITGNYLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGDLGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASERISGNLLAWYQQKPGQAPRLLIYNASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9427923560142516,0.5852980613708496,12,0.9718969555035128,PDL1,GFTFSNY,KQDGSE,EGGDFGDLGFDY,RASERISGNLLA,NASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYGMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARNGGYFGEDGFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASEAIKGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9489656090736388,0.6390925645828247,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,NGGYFGEDGFDY,RASEAIKGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYVMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGNFGEEGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVKGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSFPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9443975687026978,0.599284827709198,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,DGGNFGEEGFDS,RASQSVKGNYLA,GASSRAT,QQYGSFPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYEMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGEEAFDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQHGESPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9322124719619752,0.4931013286113739,13,0.9695550351288056,PDL1,GFTFSNY,KQDGSE,EGGSFGEEAFDY,RASQSISGNYLA,GASSRAT,QQHGESPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGDFGEYSFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASKTVIGNFLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.945350170135498,0.6075868010520935,15,0.9648711943793912,PDL1,GFTFSNY,KQDGSE,DGGDFGEYSFEY,RASKTVIGNFLA,GASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYEMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARHGGDFGELGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIRGNYLAWYQQKPGQAPRLLIYDASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPFTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.941209614276886,0.571505606174469,14,0.9672131147540984,PDL1,GFTFSDY,KQDGSE,HGGDFGELGFDS,RASQSIRGNYLA,DASSRAT,QQYGSSPFT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSYGELGLEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSVSGNYLAWYQQKPGQAPRLLIYAASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQHGGSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9381495714187622,0.5448392629623413,14,0.9672131147540984,PDL1,GFTFSDY,KQDGSE,EGGSYGELGLEY,RASQSVSGNYLA,AASSRAT,QQHGGSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYWMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGDFGERGFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSISGNYLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPYTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.914540708065033,0.339104562997818,12,0.9718969555035128,PDL1,GFTFSDY,KQDGSE,EGGDFGERGFEY,RASQSISGNYLA,GASSRAT,QQYGSSPYT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYNMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARDGGYFGEKGLDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIGSNYLAWYQQKPGQAPRLLIYNASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9487968683242798,0.6376227736473083,15,0.9648711943793912,PDL1,GFTFSSY,KQDGSE,DGGYFGEKGLDS,RASQSIGSNYLA,NASSRAT,QQYGSSPRT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSNYWMSWVRQAPGKGLEWVANIKQDGSEQYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGPFGGKGFDSWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQAVPGNYLAWYQQKPGQAPRLLIYHASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPLTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.961734414100647,0.7503636479377747,14,0.9672131147540984,PDL1,GFTFSNY,KQDGSE,EGGPFGGKGFDS,RASQAVPGNYLA,HASSRAT,QQYGSSPLT +EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYVMSWVRQAPGKGLEWVANIKQDGSEKYYVDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCAREGGSFGQEGYDYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK,IVLTQSPGTLSLSPGERATLSCRASQSIDGNLLAWYQQKPGQAPRLLIYGASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGNSPRTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,0.9391339421272278,0.5534167885780334,17,0.9601873536299764,PDL1,GFTFSDY,KQDGSE,EGGSFGQEGYDY,RASQSIDGNLLA,GASSRAT,QQYGNSPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSFYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2310150861740112,0.3291322290897369,14,0.9678899082568808,IL-7RALPHA,GYTFTNY,NPGDGG,GSFYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYSYGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2292543649673462,0.3127979636192322,14,0.9678899082568808,IL-7RALPHA,GYTFTSY,NPNNGG,GYYYSYGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTYLDGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2400001287460327,0.4124831855297088,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPGNGG,GTYLDGGYMDY,KASQNVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPRDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYHYYGSYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.243926763534546,0.4489079415798187,14,0.9678899082568808,IL-7RALPHA,GYTFTSY,NPRDGG,GYHYYGSYMDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYFMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2410153150558472,0.4218997061252594,10,0.9770642201834864,IL-7RALPHA,GYTFSDY,NPNDGG,GNYYDGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPRSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGKYLYYGYLDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQTVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQHHYSRPYTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2785171270370483,0.76978999376297,17,0.9610091743119266,IL-7RALPHA,GYTFTNY,NPRSGG,GKYLYYGYLDY,KASQTVSTAVA,SASYRYT,QHHYSRPYT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPSSGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYRYDGGFMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPITFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2622705698013306,0.6190768480300903,13,0.970183486238532,IL-7RALPHA,GYTFTDY,NPSSGG,GYRYDGGFMDY,KASQNVSTAVA,SASYRYT,QQHYSTPIT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGIYYFGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2355306148529053,0.3710203468799591,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPGNGG,GIYYFGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYAGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQHHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2336841821670532,0.3538917899131775,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPNNGG,GVYYAGGYFDY,KASQDVGTAVA,SASYRYT,QHHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYIDPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYQYGSYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2471492290496826,0.4788025915622711,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,DPNNGG,GYYQYGSYFDY,KASQNVSTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYSFTTYYMHWVKQSHGKSLEWIGYINPNSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVHYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYATPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2526477575302124,0.5298093557357788,16,0.963302752293578,IL-7RALPHA,GYSFTTY,NPNSGG,GVHYSGGYFDY,KASQNVGTAVA,SASYRYT,QQHYATPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYIDPGNGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2385834455490112,0.3993417918682098,9,0.9793577981651376,IL-7RALPHA,GYTFTDY,DPGNGG,GSYYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGIYYTYGWFDFWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYATPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.25130295753479,0.5173349380493164,16,0.963302752293578,IL-7RALPHA,GYTFTNY,NPGNGG,GIYYTYGWFDF,KASQDVGTAVA,SASYRYT,QQHYATPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSSYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYLYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQSVGTAVAWYQQKPGQSPKLLIYGASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2528048753738403,0.5312668681144714,15,0.9655963302752294,IL-7RALPHA,GYTFSSY,NPNDGG,GYLYTGGYFDY,KASQSVGTAVA,GASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYSFSNFYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGIFYTGGFMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.25628399848938,0.5635399222373962,17,0.9610091743119266,IL-7RALPHA,GYSFSNF,NPGNGG,GIFYTGGFMDY,KASQNVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYIFPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPITFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.249232530593872,0.4981283247470855,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,FPNDGG,GYYYGGGYFDY,KASQDVSTAVA,SASYRYT,QQHYSTPIT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPKSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGFFYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2400033473968506,0.4125131368637085,14,0.9678899082568808,IL-7RALPHA,GYTFTSY,NPKSGG,GFFYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGYGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYYYGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASDDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2517244815826416,0.521244466304779,14,0.9678899082568808,IL-7RALPHA,GYTFTNY,NPNNGG,GSYYYYGYFDY,KASDDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGEYYSGSYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2327557802200315,0.3452794849872589,11,0.9747706422018348,IL-7RALPHA,GYTFTNY,NPNNGG,GEYYSGSYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYFMHWVKQSHGKSLEWIGYINPRNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTLYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2448551654815674,0.4575199782848358,11,0.9747706422018348,IL-7RALPHA,GYTFSDY,NPRNGG,GTLYGGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2293931245803833,0.314085841178894,12,0.9724770642201837,IL-7RALPHA,GYTFTSY,NPGNGG,GNYYGGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNDGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVTYYGSYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.244161605834961,0.4510868191719055,10,0.9770642201834864,IL-7RALPHA,GYTFTDY,NPNDGG,GVTYYGSYFDY,KASQDVSTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGGYHNGGFFDFWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.253014087677002,0.5332080125808716,16,0.963302752293578,IL-7RALPHA,GYTFTNY,NPNDGG,GGYHNGGFFDF,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYIDPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYGGSYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2444888353347778,0.4541209936141968,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,DPGNGG,GSYYGGSYMDY,KASQNVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAYYGGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2381552457809448,0.3953673541545868,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPNNGG,GAYYGGGFFDY,KASQNVGTAVA,SASYRYT,QQHYSLPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFISYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTYYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNIGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2475392818450928,0.4824201166629791,14,0.9678899082568808,IL-7RALPHA,GYTFISY,NPNDGG,GTYYGGGYFDY,KASQNIGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTFYTYAYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHHSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2503178119659424,0.5081951022148132,14,0.9678899082568808,IL-7RALPHA,GYTFTSY,NPGNGG,GTFYTYAYFDY,KASQDVGTAVA,SASYRYT,QQHHSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPTYGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCVRGHYLSGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.260189652442932,0.5997720956802368,17,0.9610091743119266,IL-7RALPHA,GYTFTSY,NPTYGG,GHYLSGGYMDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSRPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2355589866638184,0.3712846040725708,12,0.9724770642201837,IL-7RALPHA,GYTFSNY,NPNNGG,GAYYYGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSRPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2293694019317627,0.3138653039932251,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPNNGG,GVYYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYTWGYFDSWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYGTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2517569065093994,0.52154541015625,16,0.963302752293578,IL-7RALPHA,GYTFTSY,NPNNGG,GVYYTWGYFDS,KASQNVGTAVA,SASYRYT,QQHYGTPLT +EVQLQQSGPELVKPGASVKMSCKASGYSFTTYYMHWVKQSHGKSLEWIGYINPGSGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYSGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2464637756347656,0.4724432229995727,14,0.9678899082568808,IL-7RALPHA,GYSFTTY,NPGSGG,GSYYSGGYMDY,KASQNVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYFYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSSPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2352083921432495,0.3680316507816314,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPNNGG,GYFYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSSPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNNGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYHGGYYDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.24028742313385,0.4151476919651031,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPNNGG,GYYYHGGYYDY,KASQNVSTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLEWIGYINPGSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTGYNGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQHHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2556397914886477,0.557565450668335,13,0.970183486238532,IL-7RALPHA,GYTFSDY,NPGSGG,GTGYNGGFFDY,KASQDVGTAVA,SASYRYT,QHHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPSNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVWLYGGYFDFWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2497142553329468,0.5025978684425354,16,0.963302752293578,IL-7RALPHA,GYTFTNY,NPSNGG,GVWLYGGYFDF,KASQNVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGFYYYGNYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.238661289215088,0.4000633358955383,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPGDGG,GFYYYGNYFDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGFSFTTYYMHWVKQSHGKSLEWIGYIYPNDGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYRYYGSYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYGLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2715717554092407,0.7053595781326294,14,0.9678899082568808,IL-7RALPHA,GFSFTTY,YPNDGG,GYRYYGSYFDY,KASQDVGTAVA,SASYRYT,QQHYGLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYIYPSDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYSYGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2506260871887207,0.5110544562339783,14,0.9678899082568808,IL-7RALPHA,GYTFTDY,YPSDGG,GYYYSYGYMDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYYMHWVKQSHGKSLEWIGYINPNNGGTGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGHYYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPVTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2487887144088743,0.4940091073513031,12,0.9724770642201837,IL-7RALPHA,GYTFTTY,NPNNGG,GHYYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPVT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYFMHWVKQSHGKSLEWIGYINPGSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAWYYMGFMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYHTPYTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2784712314605713,0.7693631649017334,20,0.9541284403669724,IL-7RALPHA,GYTFTTY,NPGSGG,GAWYYMGFMDY,KASQNVGTAVA,SASYRYT,QQHYHTPYT +EVQLQQSGPELVKPGASVKMSCKASGYTFTEYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYSGGYYDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.236038088798523,0.375728577375412,13,0.970183486238532,IL-7RALPHA,GYTFTEY,NPGNGG,GYYYSGGYYDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYWYFGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2367223501205444,0.3820761442184448,14,0.9678899082568808,IL-7RALPHA,GYTFTNY,NPGNGG,GYWYFGGFFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYFMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGKYYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2412618398666382,0.4241881668567657,11,0.9747706422018348,IL-7RALPHA,GYTFTNY,NPGNGG,GKYYTGGYFDY,KASQDVSTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPSNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2288490533828735,0.3090393245220184,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPSNGG,GYYYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFINYYMHWVKQSHGKSLEWIGYLNPGSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGLYFTGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.26574444770813,0.651301920413971,16,0.963302752293578,IL-7RALPHA,GYTFINY,NPGSGG,GLYFTGGFFDY,KASQNVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGNGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYYGAYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.239783763885498,0.4104750156402588,10,0.9770642201834864,IL-7RALPHA,GYTFTDY,NPGNGG,GYYYYGAYMDY,KASQDVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFSNYYMHWVKQSHGKSLEWIGYINPNNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2357641458511353,0.3731870055198669,11,0.9747706422018348,IL-7RALPHA,GYTFSNY,NPNNGG,GYYYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYTGNYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2366728782653809,0.3816169500350952,12,0.9724770642201837,IL-7RALPHA,GYTFTSY,NPNNGG,GVYYTGNYFDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.23007071018219,0.3203722834587097,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPGNGG,GYYYGGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLEWIGYINPNYGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYYSGAFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDIGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYAIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2617050409317017,0.6138306260108948,13,0.970183486238532,IL-7RALPHA,GYTFSDY,NPNYGG,GNYYSGAFFDY,KASQDIGTAVA,SASYRYT,QQHYAIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYIYPENGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGDYYDGNYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2493960857391355,0.4996448159217834,10,0.9770642201834864,IL-7RALPHA,GYTFTSY,YPENGG,GDYYDGNYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGKYYSGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSVPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.243139147758484,0.4416025578975677,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPGNGG,GKYYSGGYMDY,KASQDVGTAVA,SASYRYT,QQHYSVPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYSFGYLDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.24476158618927,0.4566521346569061,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPNNGG,GSYYSFGYLDY,KASQDVSTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYLYTGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSRPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2359187602996826,0.3746217489242553,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPGNGG,GYLYTGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSRPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYINPNSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGTFYNYTFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYTTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.265735149383545,0.6512159705162048,15,0.9655963302752294,IL-7RALPHA,GYTFTDY,NPNSGG,GTFYNYTFFDY,KASQDVSTAVA,SASYRYT,QQHYTTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPKNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYTEYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.245223045349121,0.460932582616806,14,0.9678899082568808,IL-7RALPHA,GYTFTNY,NPKNGG,GYTEYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYWMHWVKQSHGKSLEWIGYINPNDGGAGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVFYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPYTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2496771812438965,0.5022531747817993,15,0.9655963302752294,IL-7RALPHA,GYTFTNY,NPNDGG,GVFYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPYT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGYGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNTYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2422000169754028,0.4328892827033996,13,0.970183486238532,IL-7RALPHA,GYTFTDY,NPGYGG,GNTYDGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYAFTDYYMHWVKQSHGKSLEWIGYINPNNGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVAYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYTTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2541182041168213,0.5434491038322449,13,0.970183486238532,IL-7RALPHA,GYAFTDY,NPNNGG,GVAYSGGYFDY,KASQNVSTAVA,SASYRYT,QQHYTTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNNGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGKFYSGSYMDSWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYGASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2610520124435425,0.6077712774276733,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPNNGG,GKFYSGSYMDS,KASQDVGTAVA,GASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGFGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGATFGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2555419206619265,0.5566568374633789,14,0.9678899082568808,IL-7RALPHA,GYTFTNY,NPNNGG,GATFGGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYWMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYLSGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2383625507354736,0.3972912132740021,14,0.9678899082568808,IL-7RALPHA,GYTFTDY,NPGNGG,GYYLSGGYMDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGIYYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPKTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.24352765083313,0.4452050924301147,11,0.9747706422018348,IL-7RALPHA,GYTFTNY,NPNNGG,GIYYDGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPKT +EVQLQQSGPELVKPGASVKMSCKASGYSFSNYYMHWVKQSHGKSLEWIGYINPRNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYGGGFMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2509329319000244,0.5139011144638062,13,0.970183486238532,IL-7RALPHA,GYSFSNY,NPRNGG,GYYYGGGFMDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYYMHWVKQSHGKSLEWIGYINPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2343569993972778,0.3601335287094116,14,0.9678899082568808,IL-7RALPHA,GYTFTTY,NPGDGG,GAYYYGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPSNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYRIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2419015169143677,0.4301210343837738,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPSNGG,GVYYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYRIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYIDPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2362308502197266,0.3775168359279632,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,DPGDGG,GYYYDGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSFYMHWVKQSHGKSLEWIGYINPSNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYLYDYGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2571237087249756,0.5713306069374084,14,0.9678899082568808,IL-7RALPHA,GYTFTSF,NPSNGG,GYLYDYGYMDY,KASQDVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYYMHWVKQSHGKSLEWIGYINPNSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYFDGGWFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.246635913848877,0.4740402996540069,15,0.9655963302752294,IL-7RALPHA,GYTFTTY,NPNSGG,GNYFDGGWFDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYYMHWVKQSHGKSLEWIGYINPSSGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYSYGYFDDWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2569657564163208,0.5698647499084473,15,0.9655963302752294,IL-7RALPHA,GYTFTTY,NPSSGG,GSYYSYGYFDD,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYSFSNYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAFLTYGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2494516372680664,0.5001601576805115,14,0.9678899082568808,IL-7RALPHA,GYSFSNY,NPGNGG,GAFLTYGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLEWIGYINPKSGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCVRGYTYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2564053535461426,0.564667284488678,12,0.9724770642201837,IL-7RALPHA,GYTFSDY,NPKSGG,GYTYGGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTTYYMHWVKQSHGKSLEWIGYINPRNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSAFYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSDPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2575922012329102,0.5756767392158508,14,0.9678899082568808,IL-7RALPHA,GYTFTTY,NPRNGG,GVYYSGGYFDY,KASQNVGTAVA,SAFYRYT,QQHYSDPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYGGSYFDFWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2423866987228394,0.434621661901474,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPGDGG,GSYYGGSYFDF,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPISGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSFYTGSYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2469804286956787,0.4772353172302246,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPISGG,GSFYTGSYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSSYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYSGGFLDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2421226501464844,0.4321722090244293,14,0.9678899082568808,IL-7RALPHA,GYTFSSY,NPNDGG,GSYYSGGFLDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGRYYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.232608199119568,0.3439106345176697,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPNDGG,GRYYDGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGMYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2308614253997805,0.3277064263820648,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPNNGG,GMYYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPGNGGAGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYYHGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2410318851470947,0.422053188085556,11,0.9747706422018348,IL-7RALPHA,GYTFTNY,NPGNGG,GNYYHGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYIDPGNGGTGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYFGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2401115894317627,0.4135175347328186,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,DPGNGG,GVYYFGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFIDYYMHWVKQSHGKSLEWIGYIYPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYKYTFGYYDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2617121934890747,0.6138960719108582,14,0.9678899082568808,IL-7RALPHA,GYTFIDY,YPGNGG,GYKYTFGYYDY,KASQNVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPYNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGFYYYGRYYDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2505128383636477,0.5100040435791016,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPYNGG,GFYYYGRYYDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPNNGGYGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGRYYDGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2399060726165771,0.411609947681427,12,0.9724770642201837,IL-7RALPHA,GYTFTSY,NPNNGG,GRYYDGGFFDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPSNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAYYSGGFFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQHHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.24586820602417,0.4669178128242492,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPSNGG,GAYYSGGFFDY,KASQDVSTAVA,SASYRYT,QHHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPKDGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGVYYDGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYATPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2434853315353394,0.4448133707046509,13,0.970183486238532,IL-7RALPHA,GYTFTSY,NPKDGG,GVYYDGGYFDY,KASQNVGTAVA,SASYRYT,QQHYATPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFSDYYMHWVKQSHGKSLEWIGYIFPGDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGFYYSGGYMDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2469725608825684,0.477163165807724,12,0.9724770642201837,IL-7RALPHA,GYTFSDY,FPGDGG,GFYYSGGYMDY,KASQDVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYIDPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGIYYFGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSLPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2387793064117432,0.4011570811271667,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,DPNNGG,GIYYFGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSLPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPGSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGWYYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYTYPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2496625185012815,0.5021159648895264,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPGSGG,GWYYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYTYPRT +EVQLQQSGPELVKPGASVKMSCKASGYSFTNYYMHWVKQSHGKSLEWIGYINPRSGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYDTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2436496019363403,0.4463362693786621,15,0.9655963302752294,IL-7RALPHA,GYSFTNY,NPRSGG,GAYYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYDTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYINPRNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGNYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2416772842407229,0.4280402362346649,11,0.9747706422018348,IL-7RALPHA,GYTFTDY,NPRNGG,GNYYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGARYTYNYLDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYATPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2656641006469729,0.6505557298660278,15,0.9655963302752294,IL-7RALPHA,GYTFTNY,NPNNGG,GARYTYNYLDY,KASQDVSTAVA,SASYRYT,QQHYATPLT +EVQLQQSGPELVKPGASVKMSCKASGYSFSDFYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGRYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSYPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.24778151512146,0.4846661388874054,12,0.9724770642201837,IL-7RALPHA,GYSFSDF,NPGNGG,GRYYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSYPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGGGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGKYYGGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHNSYPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2576175928115845,0.5759139657020569,12,0.9724770642201837,IL-7RALPHA,GYTFTNY,NPNNGG,GKYYGGGYFDY,KASQDVGTAVA,SASYRYT,QQHNSYPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFIDYYMHWVKQSHGKSLEWIGYINPKDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGSYYGGGYYDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2488888502120972,0.4949396550655365,12,0.9724770642201837,IL-7RALPHA,GYTFIDY,NPKDGG,GSYYGGGYYDY,KASQDVGTAVA,SASYRYT,QQHYSTPRT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYYMHWVKQSHGKSLEWIGYINPNDGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYYQFGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYGTPITFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2534959316253662,0.537678062915802,14,0.9678899082568808,IL-7RALPHA,GYTFTDY,NPNDGG,GYYQFGGYFDY,KASQDVGTAVA,SASYRYT,QQHYGTPIT +EVQLQQSGPELVKPGASVKMSCKASGYTFTNYYMHWVKQSHGKSLEWIGYINPNNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGGYYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQNVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2296048402786257,0.3160500228404999,13,0.970183486238532,IL-7RALPHA,GYTFTNY,NPNNGG,GGYYYGGYFDY,KASQNVGTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPGSGGNGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGYFYSGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYAIPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2424201965332031,0.4349325895309448,13,0.970183486238532,IL-7RALPHA,GYTFTSY,NPGSGG,GYFYSGGYFDY,KASQDVGTAVA,SASYRYT,QQHYAIPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTSYYMHWVKQSHGKSLEWIGYINPGNGGSGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGALYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVSTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPLTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2357163429260254,0.3727434873580932,12,0.9724770642201837,IL-7RALPHA,GYTFTSY,NPGNGG,GALYYGGYFDY,KASQDVSTAVA,SASYRYT,QQHYSTPLT +EVQLQQSGPELVKPGASVKMSCKASGYTFTDYFMHWVKQSHGKSLEWIGYINPNNGGYGYNQKFKGKATLTVDKSSSTVYMELRSLTSEDSALYYCARGAFYYGGYFDYWGQGTTLTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC,DIVMTQSHKFMSTLVGDRVSITCKASQDVGTAVAWYQQKPGQSPKLLIYSASYRYTGVPDRFTGSGSGTDFTFTISSVQAEDLAVYYCQQHYSTPRTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE,1.2419878244400024,0.4309210181236267,12,0.9724770642201837,IL-7RALPHA,GYTFTDY,NPNNGG,GAFYYGGYFDY,KASQDVGTAVA,SASYRYT,QQHYSTPRT diff --git a/font/Geist-Regular.ttf b/font/Geist-Regular.ttf new file mode 100644 index 0000000..bf2a5ba Binary files /dev/null and b/font/Geist-Regular.ttf differ