Color residues in NGLview based on color maps

color_residues_nglview.ipynb

{
 "cells": [
  {
   "cell_type": "markdown",
   "id": "7ed3c3a7-5143-43fd-92f9-f0302a5af82f",
   "metadata": {},
   "source": [
    "# Color residues in NGLview based on color maps\n",
    "\n",
    "Minimal example based on [`kissim` viewer](https://github.com/volkamerlab/kissim/blob/197b82ee8af46d56a95c80bb723fe23a5aec217f/kissim/viewer/base.py#L232-L303)."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "id": "80b2f728-fb65-4eb0-97d6-cbb5b9f55443",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/vnd.jupyter.widget-view+json": {
       "model_id": "81651735693546cca6d32457bcb6a132",
       "version_major": 2,
       "version_minor": 0
      },
      "text/plain": []
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "import nglview\n",
    "from matplotlib import cm, colors\n",
    "import pandas as pd"
   ]
  },
  {
   "cell_type": "markdown",
   "id": "b820ce4c-49ff-4cf0-93f8-230b4fff6cc1",
   "metadata": {},
   "source": [
    "## Dummy interaction data"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "id": "97d2da99-8d79-4266-98f6-0ee46c8d7f4a",
   "metadata": {},
   "outputs": [],
   "source": [
    "example_pdbid = \"3w32\""
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "id": "8fe0f7a4-30fa-489f-92c4-f024b10d59bf",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>residue_id</th>\n",
       "      <th>n_interactions</th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>710</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>1</th>\n",
       "      <td>711</td>\n",
       "      <td>8</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>2</th>\n",
       "      <td>712</td>\n",
       "      <td>5</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>3</th>\n",
       "      <td>713</td>\n",
       "      <td>10</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "</div>"
      ],
      "text/plain": [
       "   residue_id  n_interactions\n",
       "0         710               1\n",
       "1         711               8\n",
       "2         712               5\n",
       "3         713              10"
      ]
     },
     "execution_count": 3,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "example_residue_interactions = pd.DataFrame([[710, 1], [711, 8], [712, 5], [713, 10]], columns=[\"residue_id\", \"n_interactions\"])\n",
    "example_residue_interactions"
   ]
  },
  {
   "attachments": {
    "d045ada0-6827-4e9a-90e9-1b1f67bb2174.png": {
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"
    }
   },
   "cell_type": "markdown",
   "id": "d8c357aa-3333-4997-904f-5b23fdeb1014",
   "metadata": {},
   "source": [
    "## Get #interactions-color map (use `matplotlib`)\n",
    "\n",
    "We want to color residues by their number of interactions. Let's use a discrete color map with 0 = white and max. interactions = e.g. red; we use `matplotlib` to get such a map.\n",
    "\n",
    "https://matplotlib.org/stable/tutorials/colors/colormaps.html\n",
    "![image.png](attachment:d045ada0-6827-4e9a-90e9-1b1f67bb2174.png)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "id": "4fd9dd8c-adc1-4251-87b0-be309cccd399",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "10"
      ]
     },
     "execution_count": 4,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "max_n_interactions = example_residue_interactions[\"n_interactions\"].max()\n",
    "max_n_interactions"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "id": "268abfff-a9f0-4ded-a2e6-d22d45c70a23",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "image/png": "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\n",
      "text/html": [
       "<div style=\"vertical-align: middle;\"><strong>Reds</strong> </div><div class=\"cmap\"><img alt=\"Reds colormap\" title=\"Reds\" style=\"border: 1px solid #555;\" src=\"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAgAAAABACAYAAABsv8+/AAAAE3RFWHRUaXRsZQBSZWRzIGNvbG9ybWFw8oMNLwAAABl0RVh0RGVzY3JpcHRpb24AUmVkcyBjb2xvcm1hcHkxnbcAAAAwdEVYdEF1dGhvcgBNYXRwbG90bGliIHYzLjQuMiwgaHR0cHM6Ly9tYXRwbG90bGliLm9yZ6zWY90AAAAydEVYdFNvZnR3YXJlAE1hdHBsb3RsaWIgdjMuNC4yLCBodHRwczovL21hdHBsb3RsaWIub3JngnD8+gAAAW1JREFUeJzt1stJBFEURVE1/8RMwEFRID0QB40iqPgZWJ3Ewwu914rgnNm+PT7fjpsrcrw8TU9Y5u/0MD1hnf16vhz7Nj1hmd/tND1hmdftPD1hmcfnj+kJy+xfP9MTlrl//56esNTd9AAA4P8JAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBAgAAggQAAAQJAAAIEgAAECQAACBIAABAkAAAgCABAABBFzN1G/IQ8xlqAAAAAElFTkSuQmCC\"></div><div style=\"vertical-align: middle; max-width: 514px; display: flex; justify-content: space-between;\"><div style=\"float: left;\"><div title=\"#fff5f0ff\" style=\"display: inline-block; width: 1em; height: 1em; margin: 0; vertical-align: middle; border: 1px solid #555; background-color: #fff5f0ff;\"></div> under</div><div style=\"margin: 0 auto; display: inline-block;\">bad <div title=\"#00000000\" style=\"display: inline-block; width: 1em; height: 1em; margin: 0; vertical-align: middle; border: 1px solid #555; background-color: #00000000;\"></div></div><div style=\"float: right;\">over <div title=\"#67000dff\" style=\"display: inline-block; width: 1em; height: 1em; margin: 0; vertical-align: middle; border: 1px solid #555; background-color: #67000dff;\"></div></div>"
      ],
      "text/plain": [
       "<matplotlib.colors.LinearSegmentedColormap at 0x7f152c451a90>"
      ]
     },
     "execution_count": 5,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "cmap = cm.get_cmap(\"Reds\", max_n_interactions)\n",
    "cmap"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "id": "0875a49b-e5e2-4738-845a-66a0c3cd8b87",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "(0.9882352941176471, 0.6261437908496732, 0.5084967320261438, 1.0)"
      ]
     },
     "execution_count": 6,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# Example: Color for 3 interactions\n",
    "cmap(3)"
   ]
  },
  {
   "cell_type": "markdown",
   "id": "8d1fb55e-d241-48b8-ae4a-44e11f9ff3b1",
   "metadata": {},
   "source": [
    "## Get residue-color map \n",
    "\n",
    "- Transfer #interactions-color map to residue-color map\n",
    "- Some updates for `nglview`\n",
    "  - Add residue colors as _hex_ code\n",
    "  - Add residue IDs as string"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "id": "b4807287-e9a1-4384-8564-bd6a26b27b3b",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>residue_id</th>\n",
       "      <th>n_interactions</th>\n",
       "      <th>color</th>\n",
       "      <th>residue_id_str</th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>710</td>\n",
       "      <td>1</td>\n",
       "      <td>#fee2d5</td>\n",
       "      <td>710</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>1</th>\n",
       "      <td>711</td>\n",
       "      <td>8</td>\n",
       "      <td>#9e0d14</td>\n",
       "      <td>711</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>2</th>\n",
       "      <td>712</td>\n",
       "      <td>5</td>\n",
       "      <td>#f6553d</td>\n",
       "      <td>712</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>3</th>\n",
       "      <td>713</td>\n",
       "      <td>10</td>\n",
       "      <td>#67000d</td>\n",
       "      <td>713</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "</div>"
      ],
      "text/plain": [
       "   residue_id  n_interactions    color residue_id_str\n",
       "0         710               1  #fee2d5            710\n",
       "1         711               8  #9e0d14            711\n",
       "2         712               5  #f6553d            712\n",
       "3         713              10  #67000d            713"
      ]
     },
     "execution_count": 7,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# NGLview needs color as hex code\n",
    "example_residue_interactions[\"color\"] = example_residue_interactions[\"n_interactions\"].apply(lambda x: colors.rgb2hex(cmap(x)))\n",
    "# NGLview needs residue IDs as str\n",
    "example_residue_interactions[\"residue_id_str\"] = example_residue_interactions[\"residue_id\"].astype(str)\n",
    "example_residue_interactions"
   ]
  },
  {
   "cell_type": "markdown",
   "id": "ae510d20-83da-4177-a557-c87aac683be0",
   "metadata": {},
   "source": [
    "We will use `nglview`'s `_ColorScheme` class which needs residues and colors as a list of list:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "id": "813040c1-5dfd-4de5-b8d3-f130fb6c4329",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "[['#fee2d5', '710'],\n",
       " ['#9e0d14', '711'],\n",
       " ['#f6553d', '712'],\n",
       " ['#67000d', '713']]"
      ]
     },
     "execution_count": 8,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "color_residue_map = example_residue_interactions[[\"color\", \"residue_id_str\"]].to_numpy().tolist()\n",
    "color_residue_map"
   ]
  },
  {
   "cell_type": "markdown",
   "id": "a271efcb-1b42-4784-81ea-5abdd92fcb62",
   "metadata": {},
   "source": [
    "## Color residues in 3D with `nglview`"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "id": "c275c8bd-6fe7-4ecd-b673-49cc2e03acdf",
   "metadata": {},
   "outputs": [],
   "source": [
    "color_scheme = nglview.color._ColorScheme(color_residue_map, label=\"#interactions\")"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "id": "931e8681-383f-446e-bf9d-5c90e69df3c1",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/vnd.jupyter.widget-view+json": {
       "model_id": "29a5c8e973f54888b7990bd5481e579d",
       "version_major": 2,
       "version_minor": 0
      },
      "text/plain": [
       "NGLWidget()"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "view = nglview.show_pdbid(\"3w32\")\n",
    "view.clear_representations()\n",
    "view.add_representation(\n",
    "    \"cartoon\",\n",
    "    selection=\"protein\",\n",
    "    color=color_scheme,\n",
    ")\n",
    "view"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "id": "2d1a46a8-55a0-4c60-a490-152d63f01178",
   "metadata": {},
   "outputs": [],
   "source": [
    "view.render_image(trim=True, factor=2, transparent=True);"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "id": "44bbd956-fefa-4c07-ae97-1e7f9ef03423",
   "metadata": {},
   "outputs": [
    {
     "data": {
      "image/png": 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       "<IPython.core.display.Image object>"
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     },
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          {
           "binary": false,
           "data": "data_3W32\n# \n_entry.id   3W32 \n# \n_audit_conform.dict_name       mmcif_pdbx.dic \n_audit_conform.dict_version    5.281 \n_audit_conform.dict_location   http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic \n# \nloop_\n_database_2.database_id \n_database_2.database_code \nPDB   3W32         \nRCSB  RCSB095823   \nWWPDB D_1000095823 \n# \nloop_\n_pdbx_database_related.db_name \n_pdbx_database_related.db_id \n_pdbx_database_related.details \n_pdbx_database_related.content_type \nPDB 3POZ . unspecified \nPDB 3W33 . unspecified \n# \n_pdbx_database_status.status_code                     REL \n_pdbx_database_status.entry_id                        3W32 \n_pdbx_database_status.recvd_initial_deposition_date   2012-12-07 \n_pdbx_database_status.deposit_site                    PDBJ \n_pdbx_database_status.process_site                    PDBJ \n_pdbx_database_status.methods_development_category    ? \n_pdbx_database_status.status_code_sf                  REL \n_pdbx_database_status.status_code_mr                  ? \n_pdbx_database_status.SG_entry                        ? \n_pdbx_database_status.status_code_cs                  ? \n_pdbx_database_status.pdb_format_compatible           Y \n# \nloop_\n_audit_author.name \n_audit_author.pdbx_ordinal \n'Sogabe, S.'   1 \n'Kawakita, Y.' 2 \n# \n_citation.id                        primary \n_citation.title                     'Design and synthesis of novel pyrimido[4,5-b]azepine derivatives as HER2/EGFR dual inhibitors' \n_citation.journal_abbrev            Bioorg.Med.Chem. \n_citation.journal_volume            21 \n_citation.page_first                2250 \n_citation.page_last                 2261 \n_citation.year                      2013 \n_citation.journal_id_ASTM           BMECEP \n_citation.country                   UK \n_citation.journal_id_ISSN           0968-0896 \n_citation.journal_id_CSD            1200 \n_citation.book_publisher            ? \n_citation.pdbx_database_id_PubMed   23490150 \n_citation.pdbx_database_id_DOI      10.1016/j.bmc.2013.02.014 \n# \nloop_\n_citation_author.citation_id \n_citation_author.name \n_citation_author.ordinal \nprimary 'Kawakita, Y.'  1  \nprimary 'Seto, M.'      2  \nprimary 'Ohashi, T.'    3  \nprimary 'Tamura, T.'    4  \nprimary 'Yusa, T.'      5  \nprimary 'Miki, H.'      6  \nprimary 'Iwata, H.'     7  \nprimary 'Kamiguchi, H.' 8  \nprimary 'Tanaka, T.'    9  \nprimary 'Sogabe, S.'    10 \nprimary 'Ohta, Y.'      11 \nprimary 'Ishikawa, T.'  12 \n# \n_cell.entry_id           3W32 \n_cell.length_a           46.443 \n_cell.length_b           68.306 \n_cell.length_c           103.273 \n_cell.angle_alpha        90.00 \n_cell.angle_beta         90.00 \n_cell.angle_gamma        90.00 \n_cell.Z_PDB              4 \n_cell.pdbx_unique_axis   ? \n_cell.length_a_esd       ? \n_cell.length_b_esd       ? \n_cell.length_c_esd       ? \n_cell.angle_alpha_esd    ? \n_cell.angle_beta_esd     ? \n_cell.angle_gamma_esd    ? \n# \n_symmetry.entry_id                         3W32 \n_symmetry.space_group_name_H-M             'P 21 21 21' \n_symmetry.pdbx_full_space_group_name_H-M   ? \n_symmetry.cell_setting                     ? \n_symmetry.Int_Tables_number                19 \n_symmetry.space_group_name_Hall            ? \n# \nloop_\n_entity.id \n_entity.type \n_entity.src_method \n_entity.pdbx_description \n_entity.formula_weight \n_entity.pdbx_number_of_molecules \n_entity.pdbx_ec \n_entity.pdbx_mutation \n_entity.pdbx_fragment \n_entity.details \n1 polymer     man 'Epidermal growth factor receptor' 37563.457 1  2.7.10.1 ? 'Kinase domain, UNP residues 696-1022' ? \n2 non-polymer syn \n;4-({3-chloro-4-[3-(trifluoromethyl)phenoxy]phenyl}amino)-N-[2-(methylsulfonyl)ethyl]-8,9-dihydro-7H-pyrimido[4,5-b]azepine-6-carboxamide\n;\n581.994   1  ?        ? ?                                      ? \n3 non-polymer syn 'SULFATE ION' 96.063    1  ?        ? ?                                      ? \n4 water       nat water 18.015    82 ?        ? ?                                      ? \n# \n_entity_name_com.entity_id   1 \n_entity_name_com.name        'Proto-oncogene c-ErbB-1, Receptor tyrosine-protein kinase erbB-1' \n# \n_entity_poly.entity_id                      1 \n_entity_poly.type                           'polypeptide(L)' \n_entity_poly.nstd_linkage                   no \n_entity_poly.nstd_monomer                   no \n_entity_poly.pdbx_seq_one_letter_code       \n;GAMGEAPNQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATSPKANKEILDEAYVMASVDNP\nHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVK\nITDFGLAKLLGAEEKEYHAEGGKVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGER\nLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEEDMDDVVD\nADEYLIPQQG\n;\n_entity_poly.pdbx_seq_one_letter_code_can   \n;GAMGEAPNQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATSPKANKEILDEAYVMASVDNP\nHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVK\nITDFGLAKLLGAEEKEYHAEGGKVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGER\nLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEEDMDDVVD\nADEYLIPQQG\n;\n_entity_poly.pdbx_strand_id                 A \n_entity_poly.pdbx_target_identifier         ? \n# \nloop_\n_entity_poly_seq.entity_id \n_entity_poly_seq.num \n_entity_poly_seq.mon_id \n_entity_poly_seq.hetero \n1 1   GLY n \n1 2   ALA n \n1 3   MET n \n1 4   GLY n \n1 5   GLU n \n1 6   ALA n \n1 7   PRO n \n1 8   ASN n \n1 9   GLN n \n1 10  ALA n \n1 11  LEU n \n1 12  LEU n \n1 13  ARG n \n1 14  ILE n \n1 15  LEU n \n1 16  LYS n \n1 17  GLU n \n1 18  THR n \n1 19  GLU n \n1 20  PHE n \n1 21  LYS n \n1 22  LYS n \n1 23  ILE n \n1 24  LYS n \n1 25  VAL n \n1 26  LEU n \n1 27  GLY n \n1 28  SER n \n1 29  GLY n \n1 30  ALA n \n1 31  PHE n \n1 32  GLY n \n1 33  THR n \n1 34  VAL n \n1 35  TYR n \n1 36  LYS n \n1 37  GLY n \n1 38  LEU n \n1 39  TRP n \n1 40  ILE n \n1 41  PRO n \n1 42  GLU n \n1 43  GLY n \n1 44  GLU n \n1 45  LYS n \n1 46  VAL n \n1 47  LYS n \n1 48  ILE n \n1 49  PRO n \n1 50  VAL n \n1 51  ALA n \n1 52  ILE n \n1 53  LYS n \n1 54  GLU n \n1 55  LEU n \n1 56  ARG n \n1 57  GLU n \n1 58  ALA n \n1 59  THR n \n1 60  SER n \n1 61  PRO n \n1 62  LYS n \n1 63  ALA n \n1 64  ASN n \n1 65  LYS n \n1 66  GLU n \n1 67  ILE n \n1 68  LEU n \n1 69  ASP n \n1 70  GLU n \n1 71  ALA n \n1 72  TYR n \n1 73  VAL n \n1 74  MET n \n1 75  ALA n \n1 76  SER n \n1 77  VAL n \n1 78  ASP n \n1 79  ASN n \n1 80  PRO n \n1 81  HIS n \n1 82  VAL n \n1 83  CYS n \n1 84  ARG n \n1 85  LEU n \n1 86  LEU n \n1 87  GLY n \n1 88  ILE n \n1 89  CYS n \n1 90  LEU n \n1 91  THR n \n1 92  SER n \n1 93  THR n \n1 94  VAL n \n1 95  GLN n \n1 96  LEU n \n1 97  ILE n \n1 98  THR n \n1 99  GLN n \n1 100 LEU n \n1 101 MET n \n1 102 PRO n \n1 103 PHE n \n1 104 GLY n \n1 105 CYS n \n1 106 LEU n \n1 107 LEU n \n1 108 ASP n \n1 109 TYR n \n1 110 VAL n \n1 111 ARG n \n1 112 GLU n \n1 113 HIS n \n1 114 LYS n \n1 115 ASP n \n1 116 ASN n \n1 117 ILE n \n1 118 GLY n \n1 119 SER n \n1 120 GLN n \n1 121 TYR n \n1 122 LEU n \n1 123 LEU n \n1 124 ASN n \n1 125 TRP n \n1 126 CYS n \n1 127 VAL n \n1 128 GLN n \n1 129 ILE n \n1 130 ALA n \n1 131 LYS n \n1 132 GLY n \n1 133 MET n \n1 134 ASN n \n1 135 TYR n \n1 136 LEU n \n1 137 GLU n \n1 138 ASP n \n1 139 ARG n \n1 140 ARG n \n1 141 LEU n \n1 142 VAL n \n1 143 HIS n \n1 144 ARG n \n1 145 ASP n \n1 146 LEU n \n1 147 ALA n \n1 148 ALA n \n1 149 ARG n \n1 150 ASN n \n1 151 VAL n \n1 152 LEU n \n1 153 VAL n \n1 154 LYS n \n1 155 THR n \n1 156 PRO n \n1 157 GLN n \n1 158 HIS n \n1 159 VAL n \n1 160 LYS n \n1 161 ILE n \n1 162 THR n \n1 163 ASP n \n1 164 PHE n \n1 165 GLY n \n1 166 LEU n \n1 167 ALA n \n1 168 LYS n \n1 169 LEU n \n1 170 LEU n \n1 171 GLY n \n1 172 ALA n \n1 173 GLU n \n1 174 GLU n \n1 175 LYS n \n1 176 GLU n \n1 177 TYR n \n1 178 HIS n \n1 179 ALA n \n1 180 GLU n \n1 181 GLY n \n1 182 GLY n \n1 183 LYS n \n1 184 VAL n \n1 185 PRO n \n1 186 ILE n \n1 187 LYS n \n1 188 TRP n \n1 189 MET n \n1 190 ALA n \n1 191 LEU n \n1 192 GLU n \n1 193 SER n \n1 194 ILE n \n1 195 LEU n \n1 196 HIS n \n1 197 ARG n \n1 198 ILE n \n1 199 TYR n \n1 200 THR n \n1 201 HIS n \n1 202 GLN n \n1 203 SER n \n1 204 ASP n \n1 205 VAL n \n1 206 TRP n \n1 207 SER n \n1 208 TYR n \n1 209 GLY n \n1 210 VAL n \n1 211 THR n \n1 212 VAL n \n1 213 TRP n \n1 214 GLU n \n1 215 LEU n \n1 216 MET n \n1 217 THR n \n1 218 PHE n \n1 219 GLY n \n1 220 SER n \n1 221 LYS n \n1 222 PRO n \n1 223 TYR n \n1 224 ASP n \n1 225 GLY n \n1 226 ILE n \n1 227 PRO n \n1 228 ALA n \n1 229 SER n \n1 230 GLU n \n1 231 ILE n \n1 232 SER n \n1 233 SER n \n1 234 ILE n \n1 235 LEU n \n1 236 GLU n \n1 237 LYS n \n1 238 GLY n \n1 239 GLU n \n1 240 ARG n \n1 241 LEU n \n1 242 PRO n \n1 243 GLN n \n1 244 PRO n \n1 245 PRO n \n1 246 ILE n \n1 247 CYS n \n1 248 THR n \n1 249 ILE n \n1 250 ASP n \n1 251 VAL n \n1 252 TYR n \n1 253 MET n \n1 254 ILE n \n1 255 MET n \n1 256 VAL n \n1 257 LYS n \n1 258 CYS n \n1 259 TRP n \n1 260 MET n \n1 261 ILE n \n1 262 ASP n \n1 263 ALA n \n1 264 ASP n \n1 265 SER n \n1 266 ARG n \n1 267 PRO n \n1 268 LYS n \n1 269 PHE n \n1 270 ARG n \n1 271 GLU n \n1 272 LEU n \n1 273 ILE n \n1 274 ILE n \n1 275 GLU n \n1 276 PHE n \n1 277 SER n \n1 278 LYS n \n1 279 MET n \n1 280 ALA n \n1 281 ARG n \n1 282 ASP n \n1 283 PRO n \n1 284 GLN n \n1 285 ARG n \n1 286 TYR n \n1 287 LEU n \n1 288 VAL n \n1 289 ILE n \n1 290 GLN n \n1 291 GLY n \n1 292 ASP n \n1 293 GLU n \n1 294 ARG n \n1 295 MET n \n1 296 HIS n \n1 297 LEU n \n1 298 PRO n \n1 299 SER n \n1 300 PRO n \n1 301 THR n \n1 302 ASP n \n1 303 SER n \n1 304 ASN n \n1 305 PHE n \n1 306 TYR n \n1 307 ARG n \n1 308 ALA n \n1 309 LEU n \n1 310 MET n \n1 311 ASP n \n1 312 GLU n \n1 313 GLU n \n1 314 ASP n \n1 315 MET n \n1 316 ASP n \n1 317 ASP n \n1 318 VAL n \n1 319 VAL n \n1 320 ASP n \n1 321 ALA n \n1 322 ASP n \n1 323 GLU n \n1 324 TYR n \n1 325 LEU n \n1 326 ILE n \n1 327 PRO n \n1 328 GLN n \n1 329 GLN n \n1 330 GLY n \n# \n_entity_src_gen.entity_id                          1 \n_entity_src_gen.pdbx_src_id                        1 \n_entity_src_gen.pdbx_alt_source_flag               sample \n_entity_src_gen.pdbx_seq_type                      ? \n_entity_src_gen.pdbx_beg_seq_num                   ? \n_entity_src_gen.pdbx_end_seq_num                   ? \n_entity_src_gen.gene_src_common_name               human \n_entity_src_gen.gene_src_genus                     ? \n_entity_src_gen.pdbx_gene_src_gene                 'EGFR, ERBB, ERBB1, HER1' \n_entity_src_gen.gene_src_species                   ? \n_entity_src_gen.gene_src_strain                    ? \n_entity_src_gen.gene_src_tissue                    ? \n_entity_src_gen.gene_src_tissue_fraction           ? \n_entity_src_gen.gene_src_details                   ? \n_entity_src_gen.pdbx_gene_src_fragment             ? \n_entity_src_gen.pdbx_gene_src_scientific_name      'Homo sapiens' \n_entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id     9606 \n_entity_src_gen.pdbx_gene_src_variant              ? \n_entity_src_gen.pdbx_gene_src_cell_line            ? \n_entity_src_gen.pdbx_gene_src_atcc                 ? \n_entity_src_gen.pdbx_gene_src_organ                ? \n_entity_src_gen.pdbx_gene_src_organelle            ? \n_entity_src_gen.pdbx_gene_src_cell                 ? \n_entity_src_gen.pdbx_gene_src_cellular_location    ? \n_entity_src_gen.host_org_common_name               ? \n_entity_src_gen.pdbx_host_org_scientific_name      'Spodoptera frugiperda' \n_entity_src_gen.pdbx_host_org_ncbi_taxonomy_id     7108 \n_entity_src_gen.host_org_genus                     ? \n_entity_src_gen.pdbx_host_org_gene                 ? \n_entity_src_gen.pdbx_host_org_organ                ? \n_entity_src_gen.host_org_species                   ? \n_entity_src_gen.pdbx_host_org_tissue               ? \n_entity_src_gen.pdbx_host_org_tissue_fraction      ? \n_entity_src_gen.pdbx_host_org_strain               ? \n_entity_src_gen.pdbx_host_org_variant              ? \n_entity_src_gen.pdbx_host_org_cell_line            Sf9 \n_entity_src_gen.pdbx_host_org_atcc                 ? \n_entity_src_gen.pdbx_host_org_culture_collection   ? \n_entity_src_gen.pdbx_host_org_cell                 ? \n_entity_src_gen.pdbx_host_org_organelle            ? \n_entity_src_gen.pdbx_host_org_cellular_location    ? \n_entity_src_gen.pdbx_host_org_vector_type          baculovirus \n_entity_src_gen.pdbx_host_org_vector               ? \n_entity_src_gen.host_org_details                   ? \n_entity_src_gen.expression_system_id               ? \n_entity_src_gen.plasmid_name                       pFastBac1 \n_entity_src_gen.plasmid_details                    ? \n_entity_src_gen.pdbx_description                   ? \n# \n_struct_ref.id                         1 \n_struct_ref.db_name                    UNP \n_struct_ref.db_code                    EGFR_HUMAN \n_struct_ref.pdbx_db_accession          P00533 \n_struct_ref.entity_id                  1 \n_struct_ref.pdbx_seq_one_letter_code   \n;GEAPNQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATSPKANKEILDEAYVMASVDNPHVC\nRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITD\nFGLAKLLGAEEKEYHAEGGKVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQ\nPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEEDMDDVVDADE\nYLIPQQG\n;\n_struct_ref.pdbx_align_begin           696 \n_struct_ref.pdbx_db_isoform            ? \n# \n_struct_ref_seq.align_id                      1 \n_struct_ref_seq.ref_id                        1 \n_struct_ref_seq.pdbx_PDB_id_code              3W32 \n_struct_ref_seq.pdbx_strand_id                A \n_struct_ref_seq.seq_align_beg                 4 \n_struct_ref_seq.pdbx_seq_align_beg_ins_code   ? \n_struct_ref_seq.seq_align_end                 330 \n_struct_ref_seq.pdbx_seq_align_end_ins_code   ? \n_struct_ref_seq.pdbx_db_accession             P00533 \n_struct_ref_seq.db_align_beg                  696 \n_struct_ref_seq.pdbx_db_align_beg_ins_code    ? \n_struct_ref_seq.db_align_end                  1022 \n_struct_ref_seq.pdbx_db_align_end_ins_code    ? \n_struct_ref_seq.pdbx_auth_seq_align_beg       696 \n_struct_ref_seq.pdbx_auth_seq_align_end       1022 \n# \nloop_\n_struct_ref_seq_dif.align_id \n_struct_ref_seq_dif.pdbx_pdb_id_code \n_struct_ref_seq_dif.mon_id \n_struct_ref_seq_dif.pdbx_pdb_strand_id \n_struct_ref_seq_dif.seq_num \n_struct_ref_seq_dif.pdbx_pdb_ins_code \n_struct_ref_seq_dif.pdbx_seq_db_name \n_struct_ref_seq_dif.pdbx_seq_db_accession_code \n_struct_ref_seq_dif.db_mon_id \n_struct_ref_seq_dif.pdbx_seq_db_seq_num \n_struct_ref_seq_dif.details \n_struct_ref_seq_dif.pdbx_auth_seq_num \n_struct_ref_seq_dif.pdbx_ordinal \n1 3W32 GLY A 1 ? UNP P00533 ? ? 'EXPRESSION TAG' 693 1 \n1 3W32 ALA A 2 ? UNP P00533 ? ? 'EXPRESSION TAG' 694 2 \n1 3W32 MET A 3 ? UNP P00533 ? ? 'EXPRESSION TAG' 695 3 \n# \nloop_\n_chem_comp.id \n_chem_comp.type \n_chem_comp.mon_nstd_flag \n_chem_comp.name \n_chem_comp.pdbx_synonyms \n_chem_comp.formula \n_chem_comp.formula_weight \nALA 'L-peptide linking' y ALANINE ? 'C3 H7 N O2'            89.093  \nARG 'L-peptide linking' y ARGININE ? 'C6 H15 N4 O2 1'        175.209 \nASN 'L-peptide linking' y ASPARAGINE ? 'C4 H8 N2 O3'           132.118 \nASP 'L-peptide linking' y 'ASPARTIC ACID' ? 'C4 H7 N O4'            133.103 \nCYS 'L-peptide linking' y CYSTEINE ? 'C3 H7 N O2 S'          121.158 \nGLN 'L-peptide linking' y GLUTAMINE ? 'C5 H10 N2 O3'          146.144 \nGLU 'L-peptide linking' y 'GLUTAMIC ACID' ? 'C5 H9 N O4'            147.129 \nGLY 'peptide linking'   y GLYCINE ? 'C2 H5 N O2'            75.067  \nHIS 'L-peptide linking' y HISTIDINE ? 'C6 H10 N3 O2 1'        156.162 \nHOH non-polymer         . WATER ? 'H2 O'                  18.015  \nILE 'L-peptide linking' y ISOLEUCINE ? 'C6 H13 N O2'           131.173 \nLEU 'L-peptide linking' y LEUCINE ? 'C6 H13 N O2'           131.173 \nLYS 'L-peptide linking' y LYSINE ? 'C6 H15 N2 O2 1'        147.195 \nMET 'L-peptide linking' y METHIONINE ? 'C5 H11 N O2 S'         149.211 \nPHE 'L-peptide linking' y PHENYLALANINE ? 'C9 H11 N O2'           165.189 \nPRO 'L-peptide linking' y PROLINE ? 'C5 H9 N O2'            115.130 \nSER 'L-peptide linking' y SERINE ? 'C3 H7 N O3'            105.093 \nSO4 non-polymer         . 'SULFATE ION' ? 'O4 S -2'               96.063  \nTHR 'L-peptide linking' y THREONINE ? 'C4 H9 N O3'            119.119 \nTRP 'L-peptide linking' y TRYPTOPHAN ? 'C11 H12 N2 O2'         204.225 \nTYR 'L-peptide linking' y TYROSINE ? 'C9 H11 N O3'           181.189 \nVAL 'L-peptide linking' y VALINE ? 'C5 H11 N O2'           117.146 \nW32 non-polymer         . \n;4-({3-chloro-4-[3-(trifluoromethyl)phenoxy]phenyl}amino)-N-[2-(methylsulfonyl)ethyl]-8,9-dihydro-7H-pyrimido[4,5-b]azepine-6-carboxamide\n;\n? 'C25 H23 Cl F3 N5 O4 S' 581.994 \n# \n_exptl.entry_id          3W32 \n_exptl.method            'X-RAY DIFFRACTION' \n_exptl.crystals_number   1 \n# \n_exptl_crystal.id                    1 \n_exptl_crystal.density_meas          ? \n_exptl_crystal.density_Matthews      2.18 \n_exptl_crystal.density_percent_sol   43.59 \n_exptl_crystal.description           ? \n_exptl_crystal.F_000                 ? \n_exptl_crystal.preparation           ? \n# \n_exptl_crystal_grow.crystal_id      1 \n_exptl_crystal_grow.method          'VAPOR DIFFUSION, SITTING DROP' \n_exptl_crystal_grow.temp            298 \n_exptl_crystal_grow.temp_details    ? \n_exptl_crystal_grow.pH              5.5 \n_exptl_crystal_grow.pdbx_pH_range   ? \n_exptl_crystal_grow.pdbx_details    \n'0.1M MES, 0.2M lithium sulfate, 25% PEG 3350, pH 5.5, VAPOR DIFFUSION, SITTING DROP, temperature 298K' \n# \n_diffrn.id                     1 \n_diffrn.ambient_temp           100 \n_diffrn.ambient_temp_details   ? \n_diffrn.crystal_id             1 \n# \n_diffrn_detector.diffrn_id              1 \n_diffrn_detector.detector               CCD \n_diffrn_detector.type                   'ADSC QUANTUM 315r' \n_diffrn_detector.pdbx_collection_date   2011-12-21 \n_diffrn_detector.details                ? \n# \n_diffrn_radiation.diffrn_id                        1 \n_diffrn_radiation.wavelength_id                    1 \n_diffrn_radiation.pdbx_monochromatic_or_laue_m_l   M \n_diffrn_radiation.monochromator                    ? \n_diffrn_radiation.pdbx_diffrn_protocol             'SINGLE WAVELENGTH' \n_diffrn_radiation.pdbx_scattering_type             x-ray \n# \n_diffrn_radiation_wavelength.id           1 \n_diffrn_radiation_wavelength.wavelength   0.97649 \n_diffrn_radiation_wavelength.wt           1.0 \n# \n_diffrn_source.diffrn_id                   1 \n_diffrn_source.source                      SYNCHROTRON \n_diffrn_source.type                        'ALS BEAMLINE 5.0.3' \n_diffrn_source.pdbx_synchrotron_site       ALS \n_diffrn_source.pdbx_synchrotron_beamline   5.0.3 \n_diffrn_source.pdbx_wavelength             ? \n_diffrn_source.pdbx_wavelength_list        0.97649 \n# \n_reflns.pdbx_diffrn_id               1 \n_reflns.pdbx_ordinal                 1 \n_reflns.entry_id                     3W32 \n_reflns.observed_criterion_sigma_I   ? \n_reflns.observed_criterion_sigma_F   ? \n_reflns.d_resolution_low             50 \n_reflns.d_resolution_high            1.8 \n_reflns.number_obs                   30817 \n_reflns.number_all                   ? \n_reflns.percent_possible_obs         99.7 \n_reflns.pdbx_Rmerge_I_obs            ? \n_reflns.pdbx_Rsym_value              0.054 \n_reflns.pdbx_netI_over_sigmaI        26.1 \n_reflns.B_iso_Wilson_estimate        ? \n_reflns.pdbx_redundancy              4.8 \n_reflns.R_free_details               ? \n_reflns.limit_h_max                  ? \n_reflns.limit_h_min                  ? \n_reflns.limit_k_max                  ? \n_reflns.limit_k_min                  ? \n_reflns.limit_l_max                  ? \n_reflns.limit_l_min                  ? \n_reflns.observed_criterion_F_max     ? \n_reflns.observed_criterion_F_min     ? \n_reflns.pdbx_chi_squared             ? \n_reflns.pdbx_scaling_rejects         ? \n# \n_reflns_shell.pdbx_diffrn_id         1 \n_reflns_shell.pdbx_ordinal           1 \n_reflns_shell.d_res_high             1.8 \n_reflns_shell.d_res_low              1.83 \n_reflns_shell.percent_possible_all   99.9 \n_reflns_shell.Rmerge_I_obs           ? \n_reflns_shell.pdbx_Rsym_value        0.898 \n_reflns_shell.meanI_over_sigI_obs    2.0 \n_reflns_shell.pdbx_redundancy        4.9 \n_reflns_shell.percent_possible_obs   ? \n_reflns_shell.number_unique_all      ? \n_reflns_shell.number_measured_all    ? \n_reflns_shell.number_measured_obs    ? \n_reflns_shell.number_unique_obs      ? \n_reflns_shell.pdbx_chi_squared       ? \n# \n_refine.pdbx_refine_id                           'X-RAY DIFFRACTION' \n_refine.entry_id                                 3W32 \n_refine.pdbx_diffrn_id                           1 \n_refine.pdbx_TLS_residual_ADP_flag               ? \n_refine.ls_number_reflns_obs                     29096 \n_refine.ls_number_reflns_all                     ? \n_refine.pdbx_ls_sigma_I                          ? \n_refine.pdbx_ls_sigma_F                          . \n_refine.pdbx_data_cutoff_high_absF               ? \n_refine.pdbx_data_cutoff_low_absF                ? \n_refine.pdbx_data_cutoff_high_rms_absF           ? \n_refine.ls_d_res_low                             40.00 \n_refine.ls_d_res_high                            1.80 \n_refine.ls_percent_reflns_obs                    98.97 \n_refine.ls_R_factor_obs                          0.20219 \n_refine.ls_R_factor_all                          ? \n_refine.ls_R_factor_R_work                       0.20045 \n_refine.ls_R_factor_R_free                       0.23552 \n_refine.ls_R_factor_R_free_error                 ? \n_refine.ls_R_factor_R_free_error_details         ? \n_refine.ls_percent_reflns_R_free                 5.0 \n_refine.ls_number_reflns_R_free                  1539 \n_refine.ls_number_parameters                     ? \n_refine.ls_number_restraints                     ? \n_refine.occupancy_min                            ? \n_refine.occupancy_max                            ? \n_refine.correlation_coeff_Fo_to_Fc               0.962 \n_refine.correlation_coeff_Fo_to_Fc_free          0.943 \n_refine.B_iso_mean                               46.448 \n_refine.aniso_B[1][1]                            3.86 \n_refine.aniso_B[2][2]                            0.11 \n_refine.aniso_B[3][3]                            -3.97 \n_refine.aniso_B[1][2]                            -0.00 \n_refine.aniso_B[1][3]                            -0.00 \n_refine.aniso_B[2][3]                            -0.00 \n_refine.solvent_model_details                    MASK \n_refine.solvent_model_param_ksol                 ? \n_refine.solvent_model_param_bsol                 ? \n_refine.pdbx_solvent_vdw_probe_radii             1.40 \n_refine.pdbx_solvent_ion_probe_radii             0.80 \n_refine.pdbx_solvent_shrinkage_radii             0.80 \n_refine.pdbx_ls_cross_valid_method               THROUGHOUT \n_refine.details                                  ? \n_refine.pdbx_starting_model                      1XKK \n_refine.pdbx_method_to_determine_struct          'MOLECULAR REPLACEMENT' \n_refine.pdbx_isotropic_thermal_model             ? \n_refine.pdbx_stereochemistry_target_values       'MAXIMUM LIKELIHOOD' \n_refine.pdbx_stereochem_target_val_spec_case     ? \n_refine.pdbx_R_Free_selection_details            RANDOM \n_refine.pdbx_overall_ESU_R                       0.141 \n_refine.pdbx_overall_ESU_R_Free                  0.131 \n_refine.overall_SU_ML                            0.103 \n_refine.pdbx_overall_phase_error                 ? \n_refine.overall_SU_B                             6.930 \n_refine.overall_SU_R_Cruickshank_DPI             ? \n_refine.pdbx_overall_SU_R_free_Cruickshank_DPI   ? \n_refine.pdbx_overall_SU_R_Blow_DPI               ? \n_refine.pdbx_overall_SU_R_free_Blow_DPI          ? \n_refine.ls_redundancy_reflns_obs                 ? \n_refine.B_iso_min                                ? \n_refine.B_iso_max                                ? \n_refine.overall_SU_R_free                        ? \n_refine.ls_wR_factor_R_free                      ? \n_refine.ls_wR_factor_R_work                      ? \n_refine.overall_FOM_free_R_set                   ? \n_refine.overall_FOM_work_R_set                   ? \n# \n_refine_hist.pdbx_refine_id                   'X-RAY DIFFRACTION' \n_refine_hist.cycle_id                         LAST \n_refine_hist.pdbx_number_atoms_protein        2545 \n_refine_hist.pdbx_number_atoms_nucleic_acid   0 \n_refine_hist.pdbx_number_atoms_ligand         44 \n_refine_hist.number_atoms_solvent             82 \n_refine_hist.number_atoms_total               2671 \n_refine_hist.d_res_high                       1.80 \n_refine_hist.d_res_low                        40.00 \n# \nloop_\n_refine_ls_restr.type \n_refine_ls_restr.dev_ideal \n_refine_ls_restr.dev_ideal_target \n_refine_ls_restr.weight \n_refine_ls_restr.number \n_refine_ls_restr.pdbx_refine_id \n_refine_ls_restr.pdbx_restraint_function \nr_bond_refined_d             0.009  0.019  ? 2647 'X-RAY DIFFRACTION' ? \nr_bond_other_d               ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_angle_refined_deg          1.362  1.995  ? 3587 'X-RAY DIFFRACTION' ? \nr_angle_other_deg            ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_dihedral_angle_1_deg       5.462  5.000  ? 316  'X-RAY DIFFRACTION' ? \nr_dihedral_angle_2_deg       34.868 24.123 ? 114  'X-RAY DIFFRACTION' ? \nr_dihedral_angle_3_deg       14.009 15.000 ? 481  'X-RAY DIFFRACTION' ? \nr_dihedral_angle_4_deg       16.236 15.000 ? 16   'X-RAY DIFFRACTION' ? \nr_chiral_restr               0.092  0.200  ? 393  'X-RAY DIFFRACTION' ? \nr_gen_planes_refined         0.006  0.021  ? 2017 'X-RAY DIFFRACTION' ? \nr_gen_planes_other           ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_nbd_refined                ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_nbd_other                  ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_nbtor_refined              ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_nbtor_other                ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_xyhbond_nbd_refined        ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_xyhbond_nbd_other          ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_metal_ion_refined          ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_metal_ion_other            ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_vdw_refined       ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_vdw_other         ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_hbond_refined     ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_hbond_other       ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_metal_ion_refined ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_symmetry_metal_ion_other   ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_mcbond_it                  ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_mcbond_other               ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_mcangle_it                 ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_scbond_it                  ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_scangle_it                 ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_rigid_bond_restr           ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_sphericity_free            ?      ?      ? ?    'X-RAY DIFFRACTION' ? \nr_sphericity_bonded          ?      ?      ? ?    'X-RAY DIFFRACTION' ? \n# \n_refine_ls_shell.pdbx_refine_id                   'X-RAY DIFFRACTION' \n_refine_ls_shell.pdbx_total_number_of_bins_used   20 \n_refine_ls_shell.d_res_high                       1.805 \n_refine_ls_shell.d_res_low                        1.852 \n_refine_ls_shell.number_reflns_R_work             2043 \n_refine_ls_shell.R_factor_R_work                  0.307 \n_refine_ls_shell.percent_reflns_obs               95.73 \n_refine_ls_shell.R_factor_R_free                  0.344 \n_refine_ls_shell.R_factor_R_free_error            ? \n_refine_ls_shell.percent_reflns_R_free            ? \n_refine_ls_shell.number_reflns_R_free             110 \n_refine_ls_shell.number_reflns_all                ? \n_refine_ls_shell.R_factor_all                     ? \n_refine_ls_shell.redundancy_reflns_obs            ? \n_refine_ls_shell.number_reflns_obs                ? \n# \n_struct.entry_id                  3W32 \n_struct.title                     'EGFR kinase domain complexed with compound 20a' \n_struct.pdbx_descriptor           'Epidermal growth factor receptor (E.C.2.7.10.1)' \n_struct.pdbx_model_details        ? \n_struct.pdbx_CASP_flag            ? \n_struct.pdbx_model_type_details   ? \n# \n_struct_keywords.entry_id        3W32 \n_struct_keywords.pdbx_keywords   'TRANSFERASE/TRANSFERASE INHIBITOR' \n_struct_keywords.text            \n'ANTI-ONCOGENE, CELL CYCLE, DISEASE MUTATION, KINASE DOMAIN, RECEPTOR, TRANSFERASE-TRANSFERASE INHIBITOR complex' \n# \nloop_\n_struct_asym.id \n_struct_asym.pdbx_blank_PDB_chainid_flag \n_struct_asym.pdbx_modified \n_struct_asym.entity_id \n_struct_asym.details \nA N N 1 ? \nB N N 2 ? \nC N N 3 ? \nD N N 4 ? \n# \n_struct_biol.id        1 \n_struct_biol.details   ? \n# \nloop_\n_struct_conf.conf_type_id \n_struct_conf.id \n_struct_conf.pdbx_PDB_helix_id \n_struct_conf.beg_label_comp_id \n_struct_conf.beg_label_asym_id \n_struct_conf.beg_label_seq_id \n_struct_conf.pdbx_beg_PDB_ins_code \n_struct_conf.end_label_comp_id \n_struct_conf.end_label_asym_id \n_struct_conf.end_label_seq_id \n_struct_conf.pdbx_end_PDB_ins_code \n_struct_conf.beg_auth_comp_id \n_struct_conf.beg_auth_asym_id \n_struct_conf.beg_auth_seq_id \n_struct_conf.end_auth_comp_id \n_struct_conf.end_auth_asym_id \n_struct_conf.end_auth_seq_id \n_struct_conf.pdbx_PDB_helix_class \n_struct_conf.details \n_struct_conf.pdbx_PDB_helix_length \nHELX_P HELX_P1  1  LYS A 16  ? THR A 18  ? LYS A 708  THR A 710  5 ? 3  \nHELX_P HELX_P2  2  ALA A 63  ? VAL A 77  ? ALA A 755  VAL A 769  1 ? 15 \nHELX_P HELX_P3  3  CYS A 105 ? LYS A 114 ? CYS A 797  LYS A 806  1 ? 10 \nHELX_P HELX_P4  4  ASP A 115 ? ILE A 117 ? ASP A 807  ILE A 809  5 ? 3  \nHELX_P HELX_P5  5  GLY A 118 ? ARG A 139 ? GLY A 810  ARG A 831  1 ? 22 \nHELX_P HELX_P6  6  ALA A 147 ? ARG A 149 ? ALA A 839  ARG A 841  5 ? 3  \nHELX_P HELX_P7  7  GLY A 165 ? LEU A 170 ? GLY A 857  LEU A 862  1 ? 6  \nHELX_P HELX_P8  8  GLU A 174 ? GLU A 180 ? GLU A 866  GLU A 872  1 ? 7  \nHELX_P HELX_P9  9  PRO A 185 ? MET A 189 ? PRO A 877  MET A 881  5 ? 5  \nHELX_P HELX_P10 10 ALA A 190 ? ARG A 197 ? ALA A 882  ARG A 889  1 ? 8  \nHELX_P HELX_P11 11 THR A 200 ? THR A 217 ? THR A 892  THR A 909  1 ? 18 \nHELX_P HELX_P12 12 PRO A 227 ? SER A 229 ? PRO A 919  SER A 921  5 ? 3  \nHELX_P HELX_P13 13 GLU A 230 ? LYS A 237 ? GLU A 922  LYS A 929  1 ? 8  \nHELX_P HELX_P14 14 THR A 248 ? TRP A 259 ? THR A 940  TRP A 951  1 ? 12 \nHELX_P HELX_P15 15 ASP A 262 ? ARG A 266 ? ASP A 954  ARG A 958  5 ? 5  \nHELX_P HELX_P16 16 LYS A 268 ? ALA A 280 ? LYS A 960  ALA A 972  1 ? 13 \nHELX_P HELX_P17 17 ASP A 282 ? LEU A 287 ? ASP A 974  LEU A 979  1 ? 6  \nHELX_P HELX_P18 18 GLY A 291 ? MET A 295 ? GLY A 983  MET A 987  5 ? 5  \nHELX_P HELX_P19 19 SER A 299 ? ASP A 302 ? SER A 991  ASP A 994  5 ? 4  \nHELX_P HELX_P20 20 SER A 303 ? ASP A 311 ? SER A 995  ASP A 1003 1 ? 9  \nHELX_P HELX_P21 21 ASP A 320 ? LEU A 325 ? ASP A 1012 LEU A 1017 1 ? 6  \n# \n_struct_conf_type.id          HELX_P \n_struct_conf_type.criteria    ? \n_struct_conf_type.reference   ? \n# \nloop_\n_struct_sheet.id \n_struct_sheet.type \n_struct_sheet.number_strands \n_struct_sheet.details \nA ? 6 ? \nB ? 2 ? \n# \nloop_\n_struct_sheet_order.sheet_id \n_struct_sheet_order.range_id_1 \n_struct_sheet_order.range_id_2 \n_struct_sheet_order.offset \n_struct_sheet_order.sense \nA 1 2 ? parallel      \nA 2 3 ? anti-parallel \nA 3 4 ? anti-parallel \nA 4 5 ? anti-parallel \nA 5 6 ? anti-parallel \nB 1 2 ? anti-parallel \n# \nloop_\n_struct_sheet_range.sheet_id \n_struct_sheet_range.id \n_struct_sheet_range.beg_label_comp_id \n_struct_sheet_range.beg_label_asym_id \n_struct_sheet_range.beg_label_seq_id \n_struct_sheet_range.pdbx_beg_PDB_ins_code \n_struct_sheet_range.end_label_comp_id \n_struct_sheet_range.end_label_asym_id \n_struct_sheet_range.end_label_seq_id \n_struct_sheet_range.pdbx_end_PDB_ins_code \n_struct_sheet_range.beg_auth_comp_id \n_struct_sheet_range.beg_auth_asym_id \n_struct_sheet_range.beg_auth_seq_id \n_struct_sheet_range.end_auth_comp_id \n_struct_sheet_range.end_auth_asym_id \n_struct_sheet_range.end_auth_seq_id \nA 1 ARG A 13  ? ILE A 14  ? ARG A 705 ILE A 706 \nA 2 LEU A 85  ? LEU A 90  ? LEU A 777 LEU A 782 \nA 3 VAL A 94  ? GLN A 99  ? VAL A 786 GLN A 791 \nA 4 ILE A 48  ? LEU A 55  ? ILE A 740 LEU A 747 \nA 5 GLY A 32  ? TRP A 39  ? GLY A 724 TRP A 731 \nA 6 PHE A 20  ? SER A 28  ? PHE A 712 SER A 720 \nB 1 VAL A 151 ? THR A 155 ? VAL A 843 THR A 847 \nB 2 HIS A 158 ? ILE A 161 ? HIS A 850 ILE A 853 \n# \nloop_\n_pdbx_struct_sheet_hbond.sheet_id \n_pdbx_struct_sheet_hbond.range_id_1 \n_pdbx_struct_sheet_hbond.range_id_2 \n_pdbx_struct_sheet_hbond.range_1_label_atom_id \n_pdbx_struct_sheet_hbond.range_1_label_comp_id \n_pdbx_struct_sheet_hbond.range_1_label_asym_id \n_pdbx_struct_sheet_hbond.range_1_label_seq_id \n_pdbx_struct_sheet_hbond.range_1_PDB_ins_code \n_pdbx_struct_sheet_hbond.range_1_auth_atom_id \n_pdbx_struct_sheet_hbond.range_1_auth_comp_id \n_pdbx_struct_sheet_hbond.range_1_auth_asym_id \n_pdbx_struct_sheet_hbond.range_1_auth_seq_id \n_pdbx_struct_sheet_hbond.range_2_label_atom_id \n_pdbx_struct_sheet_hbond.range_2_label_comp_id \n_pdbx_struct_sheet_hbond.range_2_label_asym_id \n_pdbx_struct_sheet_hbond.range_2_label_seq_id \n_pdbx_struct_sheet_hbond.range_2_PDB_ins_code \n_pdbx_struct_sheet_hbond.range_2_auth_atom_id \n_pdbx_struct_sheet_hbond.range_2_auth_comp_id \n_pdbx_struct_sheet_hbond.range_2_auth_asym_id \n_pdbx_struct_sheet_hbond.range_2_auth_seq_id \nA 1 2 N ARG A 13  ? N ARG A 705 O ILE A 88  ? O ILE A 780 \nA 2 3 N GLY A 87  ? N GLY A 779 O ILE A 97  ? O ILE A 789 \nA 3 4 O LEU A 96  ? O LEU A 788 N LYS A 53  ? N LYS A 745 \nA 4 5 O ILE A 48  ? O ILE A 740 N TRP A 39  ? N TRP A 731 \nA 5 6 O LYS A 36  ? O LYS A 728 N ILE A 23  ? N ILE A 715 \nB 1 2 N LEU A 152 ? N LEU A 844 O LYS A 160 ? O LYS A 852 \n# \nloop_\n_struct_site.id \n_struct_site.pdbx_evidence_code \n_struct_site.pdbx_auth_asym_id \n_struct_site.pdbx_auth_comp_id \n_struct_site.pdbx_auth_seq_id \n_struct_site.pdbx_auth_ins_code \n_struct_site.pdbx_num_residues \n_struct_site.details \nAC1 Software ? ? ? ? 20 'BINDING SITE FOR RESIDUE W32 A 1101' \nAC2 Software ? ? ? ? 4  'BINDING SITE FOR RESIDUE SO4 A 1102' \n# \nloop_\n_struct_site_gen.id \n_struct_site_gen.site_id \n_struct_site_gen.pdbx_num_res \n_struct_site_gen.label_comp_id \n_struct_site_gen.label_asym_id \n_struct_site_gen.label_seq_id \n_struct_site_gen.pdbx_auth_ins_code \n_struct_site_gen.auth_comp_id \n_struct_site_gen.auth_asym_id \n_struct_site_gen.auth_seq_id \n_struct_site_gen.label_atom_id \n_struct_site_gen.label_alt_id \n_struct_site_gen.symmetry \n_struct_site_gen.details \n1  AC1 20 SER A 28  ? SER A 720  . ? 1_555 ? \n2  AC1 20 ALA A 51  ? ALA A 743  . ? 1_555 ? \n3  AC1 20 LYS A 53  ? LYS A 745  . ? 1_555 ? \n4  AC1 20 MET A 74  ? MET A 766  . ? 1_555 ? \n5  AC1 20 CYS A 83  ? CYS A 775  . ? 1_555 ? \n6  AC1 20 ARG A 84  ? ARG A 776  . ? 1_555 ? \n7  AC1 20 LEU A 85  ? LEU A 777  . ? 1_555 ? \n8  AC1 20 LEU A 96  ? LEU A 788  . ? 1_555 ? \n9  AC1 20 THR A 98  ? THR A 790  . ? 1_555 ? \n10 AC1 20 GLN A 99  ? GLN A 791  . ? 1_555 ? \n11 AC1 20 LEU A 100 ? LEU A 792  . ? 1_555 ? \n12 AC1 20 MET A 101 ? MET A 793  . ? 1_555 ? \n13 AC1 20 LEU A 152 ? LEU A 844  . ? 1_555 ? \n14 AC1 20 THR A 162 ? THR A 854  . ? 1_555 ? \n15 AC1 20 ASP A 163 ? ASP A 855  . ? 1_555 ? \n16 AC1 20 PHE A 164 ? PHE A 856  . ? 1_555 ? \n17 AC1 20 ASP A 250 ? ASP A 942  . ? 3_655 ? \n18 AC1 20 PHE A 305 ? PHE A 997  . ? 1_555 ? \n19 AC1 20 HOH D .   ? HOH A 2001 . ? 1_555 ? \n20 AC1 20 HOH D .   ? HOH A 2010 . ? 1_555 ? \n21 AC2 4  ARG A 111 ? ARG A 803  . ? 1_555 ? \n22 AC2 4  LYS A 221 ? LYS A 913  . ? 1_555 ? \n23 AC2 4  ARG A 285 ? ARG A 977  . ? 3_655 ? \n24 AC2 4  HOH D .   ? HOH A 2037 . ? 1_555 ? \n# \n_database_PDB_matrix.entry_id          3W32 \n_database_PDB_matrix.origx[1][1]       1.000000 \n_database_PDB_matrix.origx[1][2]       0.000000 \n_database_PDB_matrix.origx[1][3]       0.000000 \n_database_PDB_matrix.origx[2][1]       0.000000 \n_database_PDB_matrix.origx[2][2]       1.000000 \n_database_PDB_matrix.origx[2][3]       0.000000 \n_database_PDB_matrix.origx[3][1]       0.000000 \n_database_PDB_matrix.origx[3][2]       0.000000 \n_database_PDB_matrix.origx[3][3]       1.000000 \n_database_PDB_matrix.origx_vector[1]   0.00000 \n_database_PDB_matrix.origx_vector[2]   0.00000 \n_database_PDB_matrix.origx_vector[3]   0.00000 \n# \n_atom_sites.entry_id                    3W32 \n_atom_sites.fract_transf_matrix[1][1]   0.021532 \n_atom_sites.fract_transf_matrix[1][2]   0.000000 \n_atom_sites.fract_transf_matrix[1][3]   0.000000 \n_atom_sites.fract_transf_matrix[2][1]   0.000000 \n_atom_sites.fract_transf_matrix[2][2]   0.014640 \n_atom_sites.fract_transf_matrix[2][3]   0.000000 \n_atom_sites.fract_transf_matrix[3][1]   0.000000 \n_atom_sites.fract_transf_matrix[3][2]   0.000000 \n_atom_sites.fract_transf_matrix[3][3]   0.009683 \n_atom_sites.fract_transf_vector[1]      0.00000 \n_atom_sites.fract_transf_vector[2]      0.00000 \n_atom_sites.fract_transf_vector[3]      0.00000 \n# \nloop_\n_atom_type.symbol \nC  \nCL \nF  \nN  \nO  \nS  \n# \nloop_\n_atom_site.group_PDB \n_atom_site.id \n_atom_site.type_symbol \n_atom_site.label_atom_id \n_atom_site.label_alt_id \n_atom_site.label_comp_id \n_atom_site.label_asym_id \n_atom_site.label_entity_id \n_atom_site.label_seq_id \n_atom_site.pdbx_PDB_ins_code \n_atom_site.Cartn_x \n_atom_site.Cartn_y \n_atom_site.Cartn_z \n_atom_site.occupancy \n_atom_site.B_iso_or_equiv \n_atom_site.pdbx_formal_charge \n_atom_site.auth_seq_id \n_atom_site.auth_comp_id \n_atom_site.auth_asym_id \n_atom_site.auth_atom_id \n_atom_site.pdbx_PDB_model_num \nATOM   1    N  N   . GLN A 1 9   ? -0.023 33.326 -4.411  1.00 47.95  ? 701  GLN A N   1 \nATOM   2    C  CA  . GLN A 1 9   ? -0.291 31.978 -3.835  1.00 50.95  ? 701  GLN A CA  1 \nATOM   3    C  C   . GLN A 1 9   ? 0.946  31.062 -3.957  1.00 47.20  ? 701  GLN A C   1 \nATOM   4    O  O   . GLN A 1 9   ? 0.876  29.863 -3.659  1.00 47.25  ? 701  GLN A O   1 \nATOM   5    C  CB  . GLN A 1 9   ? -1.501 31.341 -4.517  1.00 64.85  ? 701  GLN A CB  1 \nATOM   6    C  CG  . GLN A 1 9   ? -2.441 30.619 -3.562  1.00 84.93  ? 701  GLN A CG  1 \nATOM   7    C  CD  . GLN A 1 9   ? -3.514 29.816 -4.282  1.00 102.47 ? 701  GLN A CD  1 \nATOM   8    O  OE1 . GLN A 1 9   ? -4.681 30.215 -4.329  1.00 95.64  ? 701  GLN A OE1 1 \nATOM   9    N  NE2 . GLN A 1 9   ? -3.123 28.679 -4.849  1.00 100.38 ? 701  GLN A NE2 1 \nATOM   10   N  N   . ALA A 1 10  ? 2.069  31.642 -4.384  1.00 45.71  ? 702  ALA A N   1 \nATOM   11   C  CA  . ALA A 1 10  ? 3.343  30.929 -4.498  1.00 43.17  ? 702  ALA A CA  1 \nATOM   12   C  C   . ALA A 1 10  ? 3.775  30.322 -3.161  1.00 47.99  ? 702  ALA A C   1 \nATOM   13   O  O   . ALA A 1 10  ? 3.538  30.924 -2.110  1.00 44.37  ? 702  ALA A O   1 \nATOM   14   C  CB  . ALA A 1 10  ? 4.416  31.882 -5.023  1.00 42.30  ? 702  ALA A CB  1 \nATOM   15   N  N   . LEU A 1 11  ? 4.401  29.139 -3.199  1.00 38.24  ? 703  LEU A N   1 \nATOM   16   C  CA  . LEU A 1 11  ? 5.009  28.552 -2.003  1.00 37.89  ? 703  LEU A CA  1 \nATOM   17   C  C   . LEU A 1 11  ? 6.142  29.430 -1.494  1.00 37.81  ? 703  LEU A C   1 \nATOM   18   O  O   . LEU A 1 11  ? 6.222  29.735 -0.302  1.00 39.19  ? 703  LEU A O   1 \nATOM   19   C  CB  . LEU A 1 11  ? 5.530  27.130 -2.289  1.00 36.07  ? 703  LEU A CB  1 \nATOM   20   C  CG  . LEU A 1 11  ? 5.658  26.188 -1.082  1.00 46.85  ? 703  LEU A CG  1 \nATOM   21   C  CD1 . LEU A 1 11  ? 4.475  26.310 -0.125  1.00 49.71  ? 703  LEU A CD1 1 \nATOM   22   C  CD2 . LEU A 1 11  ? 5.791  24.740 -1.541  1.00 44.12  ? 703  LEU A CD2 1 \nATOM   23   N  N   . LEU A 1 12  ? 7.016  29.822 -2.415  1.00 33.81  ? 704  LEU A N   1 \nATOM   24   C  CA  . LEU A 1 12  ? 8.054  30.799 -2.155  1.00 32.97  ? 704  LEU A CA  1 \nATOM   25   C  C   . LEU A 1 12  ? 7.590  32.151 -2.677  1.00 34.88  ? 704  LEU A C   1 \nATOM   26   O  O   . LEU A 1 12  ? 7.644  32.424 -3.878  1.00 34.62  ? 704  LEU A O   1 \nATOM   27   C  CB  . LEU A 1 12  ? 9.371  30.386 -2.831  1.00 33.39  ? 704  LEU A CB  1 \nATOM   28   C  CG  . LEU A 1 12  ? 10.591 31.295 -2.585  1.00 38.51  ? 704  LEU A CG  1 \nATOM   29   C  CD1 . LEU A 1 12  ? 10.953 31.361 -1.104  1.00 34.30  ? 704  LEU A CD1 1 \nATOM   30   C  CD2 . LEU A 1 12  ? 11.796 30.854 -3.421  1.00 39.10  ? 704  LEU A CD2 1 \nATOM   31   N  N   . ARG A 1 13  ? 7.120  33.006 -1.775  1.00 35.37  ? 705  ARG A N   1 \nATOM   32   C  CA  . ARG A 1 13  ? 6.680  34.346 -2.183  1.00 37.73  ? 705  ARG A CA  1 \nATOM   33   C  C   . ARG A 1 13  ? 7.840  35.253 -2.555  1.00 41.05  ? 705  ARG A C   1 \nATOM   34   O  O   . ARG A 1 13  ? 8.844  35.319 -1.838  1.00 40.80  ? 705  ARG A O   1 \nATOM   35   C  CB  . ARG A 1 13  ? 5.837  34.997 -1.093  1.00 46.62  ? 705  ARG A CB  1 \nATOM   36   C  CG  . ARG A 1 13  ? 4.460  34.388 -0.965  1.00 48.65  ? 705  ARG A CG  1 \nATOM   37   C  CD  . ARG A 1 13  ? 3.829  34.763 0.358   1.00 65.57  ? 705  ARG A CD  1 \nATOM   38   N  NE  . ARG A 1 13  ? 2.514  35.377 0.173   1.00 86.68  ? 705  ARG A NE  1 \nATOM   39   C  CZ  . ARG A 1 13  ? 1.353  34.757 0.356   1.00 93.12  ? 705  ARG A CZ  1 \nATOM   40   N  NH1 . ARG A 1 13  ? 1.317  33.485 0.736   1.00 98.53  ? 705  ARG A NH1 1 \nATOM   41   N  NH2 . ARG A 1 13  ? 0.220  35.417 0.161   1.00 92.67  ? 705  ARG A NH2 1 \nATOM   42   N  N   . ILE A 1 14  ? 7.698  35.943 -3.686  1.00 39.60  ? 706  ILE A N   1 \nATOM   43   C  CA  . ILE A 1 14  ? 8.700  36.898 -4.116  1.00 43.49  ? 706  ILE A CA  1 \nATOM   44   C  C   . ILE A 1 14  ? 8.207  38.234 -3.610  1.00 47.29  ? 706  ILE A C   1 \nATOM   45   O  O   . ILE A 1 14  ? 7.260  38.798 -4.160  1.00 44.25  ? 706  ILE A O   1 \nATOM   46   C  CB  . ILE A 1 14  ? 8.837  36.961 -5.649  1.00 52.42  ? 706  ILE A CB  1 \nATOM   47   C  CG1 . ILE A 1 14  ? 9.004  35.559 -6.256  1.00 51.04  ? 706  ILE A CG1 1 \nATOM   48   C  CG2 . ILE A 1 14  ? 9.975  37.897 -6.048  1.00 53.78  ? 706  ILE A CG2 1 \nATOM   49   C  CD1 . ILE A 1 14  ? 10.122 34.729 -5.654  1.00 43.80  ? 706  ILE A CD1 1 \nATOM   50   N  N   . LEU A 1 15  ? 8.836  38.729 -2.552  1.00 44.78  ? 707  LEU A N   1 \nATOM   51   C  CA  . LEU A 1 15  ? 8.365  39.947 -1.911  1.00 45.23  ? 707  LEU A CA  1 \nATOM   52   C  C   . LEU A 1 15  ? 9.109  41.154 -2.458  1.00 51.28  ? 707  LEU A C   1 \nATOM   53   O  O   . LEU A 1 15  ? 10.318 41.092 -2.692  1.00 49.23  ? 707  LEU A O   1 \nATOM   54   C  CB  . LEU A 1 15  ? 8.544  39.881 -0.391  1.00 47.65  ? 707  LEU A CB  1 \nATOM   55   C  CG  . LEU A 1 15  ? 8.012  38.705 0.428   1.00 54.52  ? 707  LEU A CG  1 \nATOM   56   C  CD1 . LEU A 1 15  ? 8.324  38.928 1.896   1.00 43.38  ? 707  LEU A CD1 1 \nATOM   57   C  CD2 . LEU A 1 15  ? 6.521  38.497 0.232   1.00 44.93  ? 707  LEU A CD2 1 \nATOM   58   N  N   . LYS A 1 16  ? 8.366  42.237 -2.676  1.00 49.18  ? 708  LYS A N   1 \nATOM   59   C  CA  . LYS A 1 16  ? 8.936  43.529 -3.035  1.00 61.50  ? 708  LYS A CA  1 \nATOM   60   C  C   . LYS A 1 16  ? 9.393  44.224 -1.768  1.00 50.76  ? 708  LYS A C   1 \nATOM   61   O  O   . LYS A 1 16  ? 8.770  44.070 -0.717  1.00 45.43  ? 708  LYS A O   1 \nATOM   62   C  CB  . LYS A 1 16  ? 7.891  44.407 -3.729  1.00 62.24  ? 708  LYS A CB  1 \nATOM   63   C  CG  . LYS A 1 16  ? 7.556  44.004 -5.157  1.00 77.38  ? 708  LYS A CG  1 \nATOM   64   C  CD  . LYS A 1 16  ? 6.048  43.943 -5.381  1.00 92.20  ? 708  LYS A CD  1 \nATOM   65   C  CE  . LYS A 1 16  ? 5.334  45.228 -4.984  1.00 96.25  ? 708  LYS A CE  1 \nATOM   66   N  NZ  . LYS A 1 16  ? 3.853  45.097 -5.081  1.00 100.00 ? 708  LYS A NZ  1 \nATOM   67   N  N   . GLU A 1 17  ? 10.473 44.994 -1.879  1.00 51.48  ? 709  GLU A N   1 \nATOM   68   C  CA  . GLU A 1 17  ? 11.019 45.768 -0.758  1.00 53.55  ? 709  GLU A CA  1 \nATOM   69   C  C   . GLU A 1 17  ? 9.963  46.612 -0.044  1.00 57.51  ? 709  GLU A C   1 \nATOM   70   O  O   . GLU A 1 17  ? 10.016 46.795 1.175   1.00 53.23  ? 709  GLU A O   1 \nATOM   71   C  CB  . GLU A 1 17  ? 12.169 46.651 -1.235  1.00 59.31  ? 709  GLU A CB  1 \nATOM   72   C  CG  . GLU A 1 17  ? 13.434 45.873 -1.562  1.00 72.06  ? 709  GLU A CG  1 \nATOM   73   C  CD  . GLU A 1 17  ? 14.597 46.768 -1.940  1.00 93.68  ? 709  GLU A CD  1 \nATOM   74   O  OE1 . GLU A 1 17  ? 15.553 46.867 -1.141  1.00 83.68  ? 709  GLU A OE1 1 \nATOM   75   O  OE2 . GLU A 1 17  ? 14.556 47.370 -3.037  1.00 102.62 ? 709  GLU A OE2 1 \nATOM   76   N  N   . THR A 1 18  ? 9.000  47.113 -0.809  1.00 57.55  ? 710  THR A N   1 \nATOM   77   C  CA  . THR A 1 18  ? 7.909  47.910 -0.252  1.00 61.28  ? 710  THR A CA  1 \nATOM   78   C  C   . THR A 1 18  ? 6.964  47.093 0.638   1.00 54.24  ? 710  THR A C   1 \nATOM   79   O  O   . THR A 1 18  ? 6.198  47.661 1.416   1.00 57.81  ? 710  THR A O   1 \nATOM   80   C  CB  . THR A 1 18  ? 7.093  48.606 -1.364  1.00 63.46  ? 710  THR A CB  1 \nATOM   81   O  OG1 . THR A 1 18  ? 6.576  47.624 -2.275  1.00 63.38  ? 710  THR A OG1 1 \nATOM   82   C  CG2 . THR A 1 18  ? 7.958  49.614 -2.128  1.00 61.93  ? 710  THR A CG2 1 \nATOM   83   N  N   . GLU A 1 19  ? 7.034  45.765 0.530   1.00 50.22  ? 711  GLU A N   1 \nATOM   84   C  CA  . GLU A 1 19  ? 6.124  44.862 1.239   1.00 56.68  ? 711  GLU A CA  1 \nATOM   85   C  C   . GLU A 1 19  ? 6.551  44.536 2.659   1.00 57.72  ? 711  GLU A C   1 \nATOM   86   O  O   . GLU A 1 19  ? 5.754  44.024 3.451   1.00 52.39  ? 711  GLU A O   1 \nATOM   87   C  CB  . GLU A 1 19  ? 6.023  43.535 0.507   1.00 61.93  ? 711  GLU A CB  1 \nATOM   88   C  CG  . GLU A 1 19  ? 5.118  43.514 -0.698  1.00 62.49  ? 711  GLU A CG  1 \nATOM   89   C  CD  . GLU A 1 19  ? 5.016  42.116 -1.252  1.00 59.26  ? 711  GLU A CD  1 \nATOM   90   O  OE1 . GLU A 1 19  ? 5.574  41.880 -2.337  1.00 54.03  ? 711  GLU A OE1 1 \nATOM   91   O  OE2 . GLU A 1 19  ? 4.413  41.250 -0.581  1.00 74.56  ? 711  GLU A OE2 1 \nATOM   92   N  N   . PHE A 1 20  ? 7.816  44.782 2.967   1.00 48.75  ? 712  PHE A N   1 \nATOM   93   C  CA  . PHE A 1 20  ? 8.343  44.449 4.291   1.00 54.26  ? 712  PHE A CA  1 \nATOM   94   C  C   . PHE A 1 20  ? 9.321  45.508 4.795   1.00 45.27  ? 712  PHE A C   1 \nATOM   95   O  O   . PHE A 1 20  ? 9.920  46.235 4.000   1.00 48.92  ? 712  PHE A O   1 \nATOM   96   C  CB  . PHE A 1 20  ? 8.976  43.045 4.294   1.00 46.56  ? 712  PHE A CB  1 \nATOM   97   C  CG  . PHE A 1 20  ? 10.222 42.928 3.457   1.00 42.91  ? 712  PHE A CG  1 \nATOM   98   C  CD1 . PHE A 1 20  ? 11.483 43.010 4.046   1.00 51.07  ? 712  PHE A CD1 1 \nATOM   99   C  CD2 . PHE A 1 20  ? 10.147 42.734 2.077   1.00 46.22  ? 712  PHE A CD2 1 \nATOM   100  C  CE1 . PHE A 1 20  ? 12.644 42.902 3.285   1.00 44.32  ? 712  PHE A CE1 1 \nATOM   101  C  CE2 . PHE A 1 20  ? 11.308 42.632 1.312   1.00 42.45  ? 712  PHE A CE2 1 \nATOM   102  C  CZ  . PHE A 1 20  ? 12.558 42.714 1.917   1.00 46.72  ? 712  PHE A CZ  1 \nATOM   103  N  N   . LYS A 1 21  ? 9.481  45.577 6.115   1.00 46.12  ? 713  LYS A N   1 \nATOM   104  C  CA  . LYS A 1 21  ? 10.320 46.606 6.756   1.00 45.30  ? 713  LYS A CA  1 \nATOM   105  C  C   . LYS A 1 21  ? 11.170 46.000 7.867   1.00 49.56  ? 713  LYS A C   1 \nATOM   106  O  O   . LYS A 1 21  ? 10.647 45.280 8.717   1.00 45.46  ? 713  LYS A O   1 \nATOM   107  C  CB  . LYS A 1 21  ? 9.456  47.720 7.356   1.00 49.90  ? 713  LYS A CB  1 \nATOM   108  C  CG  . LYS A 1 21  ? 8.771  48.628 6.353   1.00 61.39  ? 713  LYS A CG  1 \nATOM   109  C  CD  . LYS A 1 21  ? 7.824  49.599 7.050   1.00 81.27  ? 713  LYS A CD  1 \nATOM   110  C  CE  . LYS A 1 21  ? 6.888  50.280 6.056   1.00 69.86  ? 713  LYS A CE  1 \nATOM   111  N  NZ  . LYS A 1 21  ? 6.043  51.324 6.705   1.00 75.33  ? 713  LYS A NZ  1 \nATOM   112  N  N   . LYS A 1 22  ? 12.471 46.301 7.847   1.00 42.35  ? 714  LYS A N   1 \nATOM   113  C  CA  . LYS A 1 22  ? 13.389 45.951 8.930   1.00 46.11  ? 714  LYS A CA  1 \nATOM   114  C  C   . LYS A 1 22  ? 13.160 46.943 10.061  1.00 49.85  ? 714  LYS A C   1 \nATOM   115  O  O   . LYS A 1 22  ? 13.256 48.154 9.856   1.00 46.66  ? 714  LYS A O   1 \nATOM   116  C  CB  . LYS A 1 22  ? 14.845 46.063 8.477   1.00 49.54  ? 714  LYS A CB  1 \nATOM   117  C  CG  . LYS A 1 22  ? 15.287 45.129 7.369   1.00 53.76  ? 714  LYS A CG  1 \nATOM   118  C  CD  . LYS A 1 22  ? 16.780 45.310 7.156   1.00 53.79  ? 714  LYS A CD  1 \nATOM   119  C  CE  . LYS A 1 22  ? 17.258 44.686 5.862   1.00 52.83  ? 714  LYS A CE  1 \nATOM   120  N  NZ  . LYS A 1 22  ? 16.787 45.457 4.676   1.00 51.68  ? 714  LYS A NZ  1 \nATOM   121  N  N   . ILE A 1 23  ? 12.852 46.439 11.251  1.00 41.67  ? 715  ILE A N   1 \nATOM   122  C  CA  . ILE A 1 23  ? 12.489 47.317 12.368  1.00 48.15  ? 715  ILE A CA  1 \nATOM   123  C  C   . ILE A 1 23  ? 13.658 47.486 13.336  1.00 52.85  ? 715  ILE A C   1 \nATOM   124  O  O   . ILE A 1 23  ? 14.015 48.611 13.693  1.00 49.85  ? 715  ILE A O   1 \nATOM   125  C  CB  . ILE A 1 23  ? 11.191 46.843 13.061  1.00 41.49  ? 715  ILE A CB  1 \nATOM   126  C  CG1 . ILE A 1 23  ? 10.029 47.003 12.077  1.00 54.99  ? 715  ILE A CG1 1 \nATOM   127  C  CG2 . ILE A 1 23  ? 10.918 47.629 14.339  1.00 47.96  ? 715  ILE A CG2 1 \nATOM   128  C  CD1 . ILE A 1 23  ? 8.670  46.667 12.641  1.00 54.20  ? 715  ILE A CD1 1 \nATOM   129  N  N   . LYS A 1 24  ? 14.260 46.369 13.744  1.00 43.46  ? 716  LYS A N   1 \nATOM   130  C  CA  . LYS A 1 24  ? 15.429 46.392 14.621  1.00 42.49  ? 716  LYS A CA  1 \nATOM   131  C  C   . LYS A 1 24  ? 16.392 45.271 14.247  1.00 45.76  ? 716  LYS A C   1 \nATOM   132  O  O   . LYS A 1 24  ? 15.983 44.237 13.719  1.00 37.65  ? 716  LYS A O   1 \nATOM   133  C  CB  . LYS A 1 24  ? 15.018 46.242 16.094  1.00 41.41  ? 716  LYS A CB  1 \nATOM   134  C  CG  . LYS A 1 24  ? 14.316 47.443 16.710  1.00 50.17  ? 716  LYS A CG  1 \nATOM   135  C  CD  . LYS A 1 24  ? 15.288 48.548 17.111  1.00 45.61  ? 716  LYS A CD  1 \nATOM   136  C  CE  . LYS A 1 24  ? 14.606 49.912 17.154  1.00 50.59  ? 716  LYS A CE  1 \nATOM   137  N  NZ  . LYS A 1 24  ? 13.715 50.066 18.332  1.00 57.19  ? 716  LYS A NZ  1 \nATOM   138  N  N   . VAL A 1 25  ? 17.673 45.475 14.541  1.00 41.16  ? 717  VAL A N   1 \nATOM   139  C  CA  . VAL A 1 25  ? 18.678 44.442 14.362  1.00 44.05  ? 717  VAL A CA  1 \nATOM   140  C  C   . VAL A 1 25  ? 18.537 43.387 15.446  1.00 43.45  ? 717  VAL A C   1 \nATOM   141  O  O   . VAL A 1 25  ? 18.310 43.709 16.608  1.00 42.18  ? 717  VAL A O   1 \nATOM   142  C  CB  . VAL A 1 25  ? 20.107 45.009 14.449  1.00 51.16  ? 717  VAL A CB  1 \nATOM   143  C  CG1 . VAL A 1 25  ? 21.126 43.887 14.314  1.00 47.71  ? 717  VAL A CG1 1 \nATOM   144  C  CG2 . VAL A 1 25  ? 20.336 46.059 13.379  1.00 50.70  ? 717  VAL A CG2 1 \nATOM   145  N  N   . LEU A 1 26  ? 18.670 42.119 15.068  1.00 37.54  ? 718  LEU A N   1 \nATOM   146  C  CA  . LEU A 1 26  ? 18.797 41.074 16.067  1.00 33.15  ? 718  LEU A CA  1 \nATOM   147  C  C   . LEU A 1 26  ? 20.279 40.757 16.246  1.00 37.30  ? 718  LEU A C   1 \nATOM   148  O  O   . LEU A 1 26  ? 20.810 40.967 17.326  1.00 35.69  ? 718  LEU A O   1 \nATOM   149  C  CB  . LEU A 1 26  ? 17.938 39.850 15.721  1.00 36.59  ? 718  LEU A CB  1 \nATOM   150  C  CG  . LEU A 1 26  ? 16.428 40.166 15.737  1.00 36.86  ? 718  LEU A CG  1 \nATOM   151  C  CD1 . LEU A 1 26  ? 15.544 39.021 15.239  1.00 37.85  ? 718  LEU A CD1 1 \nATOM   152  C  CD2 . LEU A 1 26  ? 15.991 40.593 17.131  1.00 43.64  ? 718  LEU A CD2 1 \nATOM   153  N  N   . GLY A 1 27  ? 20.953 40.292 15.192  1.00 36.46  ? 719  GLY A N   1 \nATOM   154  C  CA  . GLY A 1 27  ? 22.388 39.991 15.276  1.00 44.27  ? 719  GLY A CA  1 \nATOM   155  C  C   . GLY A 1 27  ? 23.000 39.439 14.002  1.00 57.08  ? 719  GLY A C   1 \nATOM   156  O  O   . GLY A 1 27  ? 22.282 39.077 13.066  1.00 53.06  ? 719  GLY A O   1 \nATOM   157  N  N   . SER A 1 28  ? 24.332 39.364 13.984  1.00 50.75  ? 720  SER A N   1 \nATOM   158  C  CA  . SER A 1 28  ? 25.091 38.813 12.856  1.00 51.92  ? 720  SER A CA  1 \nATOM   159  C  C   . SER A 1 28  ? 25.623 37.404 13.118  1.00 49.94  ? 720  SER A C   1 \nATOM   160  O  O   . SER A 1 28  ? 25.669 36.937 14.256  1.00 55.24  ? 720  SER A O   1 \nATOM   161  C  CB  . SER A 1 28  ? 26.258 39.736 12.495  1.00 63.92  ? 720  SER A CB  1 \nATOM   162  O  OG  . SER A 1 28  ? 25.807 40.883 11.797  1.00 68.03  ? 720  SER A OG  1 \nATOM   163  N  N   . GLY A 1 29  ? 26.029 36.737 12.043  1.00 57.18  ? 721  GLY A N   1 \nATOM   164  C  CA  . GLY A 1 29  ? 26.598 35.399 12.113  1.00 57.01  ? 721  GLY A CA  1 \nATOM   165  C  C   . GLY A 1 29  ? 27.510 35.199 10.922  1.00 63.27  ? 721  GLY A C   1 \nATOM   166  O  O   . GLY A 1 29  ? 27.672 36.108 10.098  1.00 61.34  ? 721  GLY A O   1 \nATOM   167  N  N   . ALA A 1 30  ? 28.107 34.012 10.835  1.00 71.41  ? 722  ALA A N   1 \nATOM   168  C  CA  . ALA A 1 30  ? 28.983 33.644 9.716   1.00 73.15  ? 722  ALA A CA  1 \nATOM   169  C  C   . ALA A 1 30  ? 28.313 33.834 8.352   1.00 71.72  ? 722  ALA A C   1 \nATOM   170  O  O   . ALA A 1 30  ? 28.929 34.359 7.417   1.00 59.12  ? 722  ALA A O   1 \nATOM   171  C  CB  . ALA A 1 30  ? 29.472 32.207 9.870   1.00 75.65  ? 722  ALA A CB  1 \nATOM   172  N  N   . PHE A 1 31  ? 27.048 33.425 8.245   1.00 55.28  ? 723  PHE A N   1 \nATOM   173  C  CA  . PHE A 1 31  ? 26.364 33.451 6.959   1.00 45.36  ? 723  PHE A CA  1 \nATOM   174  C  C   . PHE A 1 31  ? 25.582 34.728 6.671   1.00 48.16  ? 723  PHE A C   1 \nATOM   175  O  O   . PHE A 1 31  ? 25.209 34.967 5.523   1.00 48.85  ? 723  PHE A O   1 \nATOM   176  C  CB  . PHE A 1 31  ? 25.478 32.207 6.773   1.00 54.29  ? 723  PHE A CB  1 \nATOM   177  C  CG  . PHE A 1 31  ? 26.238 30.908 6.806   1.00 54.47  ? 723  PHE A CG  1 \nATOM   178  C  CD1 . PHE A 1 31  ? 25.767 29.831 7.558   1.00 50.67  ? 723  PHE A CD1 1 \nATOM   179  C  CD2 . PHE A 1 31  ? 27.441 30.759 6.102   1.00 49.42  ? 723  PHE A CD2 1 \nATOM   180  C  CE1 . PHE A 1 31  ? 26.475 28.635 7.608   1.00 55.72  ? 723  PHE A CE1 1 \nATOM   181  C  CE2 . PHE A 1 31  ? 28.142 29.562 6.141   1.00 43.55  ? 723  PHE A CE2 1 \nATOM   182  C  CZ  . PHE A 1 31  ? 27.667 28.504 6.905   1.00 48.56  ? 723  PHE A CZ  1 \nATOM   183  N  N   . GLY A 1 32  ? 25.325 35.543 7.693   1.00 43.86  ? 724  GLY A N   1 \nATOM   184  C  CA  . GLY A 1 32  ? 24.590 36.788 7.469   1.00 31.49  ? 724  GLY A CA  1 \nATOM   185  C  C   . GLY A 1 32  ? 24.017 37.449 8.711   1.00 41.98  ? 724  GLY A C   1 \nATOM   186  O  O   . GLY A 1 32  ? 24.322 37.039 9.836   1.00 47.37  ? 724  GLY A O   1 \nATOM   187  N  N   . THR A 1 33  ? 23.156 38.446 8.488   1.00 38.68  ? 725  THR A N   1 \nATOM   188  C  CA  . THR A 1 33  ? 22.603 39.310 9.542   1.00 38.78  ? 725  THR A CA  1 \nATOM   189  C  C   . THR A 1 33  ? 21.065 39.285 9.625   1.00 38.49  ? 725  THR A C   1 \nATOM   190  O  O   . THR A 1 33  ? 20.391 39.449 8.608   1.00 33.98  ? 725  THR A O   1 \nATOM   191  C  CB  . THR A 1 33  ? 23.053 40.762 9.320   1.00 49.97  ? 725  THR A CB  1 \nATOM   192  O  OG1 . THR A 1 33  ? 24.483 40.810 9.375   1.00 46.95  ? 725  THR A OG1 1 \nATOM   193  C  CG2 . THR A 1 33  ? 22.472 41.700 10.383  1.00 44.75  ? 725  THR A CG2 1 \nATOM   194  N  N   . VAL A 1 34  ? 20.534 39.134 10.842  1.00 32.51  ? 726  VAL A N   1 \nATOM   195  C  CA  . VAL A 1 34  ? 19.070 38.979 11.051  1.00 35.80  ? 726  VAL A CA  1 \nATOM   196  C  C   . VAL A 1 34  ? 18.414 40.191 11.729  1.00 34.03  ? 726  VAL A C   1 \nATOM   197  O  O   . VAL A 1 34  ? 18.988 40.751 12.672  1.00 34.12  ? 726  VAL A O   1 \nATOM   198  C  CB  . VAL A 1 34  ? 18.745 37.679 11.833  1.00 33.62  ? 726  VAL A CB  1 \nATOM   199  C  CG1 . VAL A 1 34  ? 17.231 37.439 11.869  1.00 35.20  ? 726  VAL A CG1 1 \nATOM   200  C  CG2 . VAL A 1 34  ? 19.400 36.488 11.163  1.00 37.39  ? 726  VAL A CG2 1 \nATOM   201  N  N   . TYR A 1 35  ? 17.215 40.566 11.254  1.00 33.84  ? 727  TYR A N   1 \nATOM   202  C  CA  . TYR A 1 35  ? 16.439 41.698 11.760  1.00 32.33  ? 727  TYR A CA  1 \nATOM   203  C  C   . TYR A 1 35  ? 15.042 41.252 12.170  1.00 37.12  ? 727  TYR A C   1 \nATOM   204  O  O   . TYR A 1 35  ? 14.463 40.338 11.555  1.00 34.66  ? 727  TYR A O   1 \nATOM   205  C  CB  . TYR A 1 35  ? 16.246 42.780 10.672  1.00 34.43  ? 727  TYR A CB  1 \nATOM   206  C  CG  . TYR A 1 35  ? 17.514 43.312 10.073  1.00 40.06  ? 727  TYR A CG  1 \nATOM   207  C  CD1 . TYR A 1 35  ? 18.048 44.535 10.495  1.00 44.66  ? 727  TYR A CD1 1 \nATOM   208  C  CD2 . TYR A 1 35  ? 18.204 42.586 9.100   1.00 48.07  ? 727  TYR A CD2 1 \nATOM   209  C  CE1 . TYR A 1 35  ? 19.233 45.017 9.958   1.00 40.67  ? 727  TYR A CE1 1 \nATOM   210  C  CE2 . TYR A 1 35  ? 19.393 43.057 8.559   1.00 45.69  ? 727  TYR A CE2 1 \nATOM   211  C  CZ  . TYR A 1 35  ? 19.897 44.277 8.987   1.00 50.79  ? 727  TYR A CZ  1 \nATOM   212  O  OH  . TYR A 1 35  ? 21.076 44.738 8.449   1.00 40.87  ? 727  TYR A OH  1 \nATOM   213  N  N   . LYS A 1 36  ? 14.496 41.908 13.186  1.00 31.04  ? 728  LYS A N   1 \nATOM   214  C  CA  . LYS A 1 36  ? 13.046 41.836 13.452  1.00 34.53  ? 728  LYS A CA  1 \nATOM   215  C  C   . LYS A 1 36  ? 12.362 42.756 12.451  1.00 38.87  ? 728  LYS A C   1 \nATOM   216  O  O   . LYS A 1 36  ? 12.862 43.841 12.167  1.00 39.43  ? 728  LYS A O   1 \nATOM   217  C  CB  . LYS A 1 36  ? 12.735 42.293 14.875  1.00 39.98  ? 728  LYS A CB  1 \nATOM   218  C  CG  . LYS A 1 36  ? 11.263 42.187 15.275  1.00 50.05  ? 728  LYS A CG  1 \nATOM   219  C  CD  . LYS A 1 36  ? 10.997 42.809 16.640  1.00 41.41  ? 728  LYS A CD  1 \nATOM   220  C  CE  . LYS A 1 36  ? 10.879 44.322 16.557  1.00 49.69  ? 728  LYS A CE  1 \nATOM   221  N  NZ  . LYS A 1 36  ? 10.778 44.921 17.913  1.00 50.16  ? 728  LYS A NZ  1 \nATOM   222  N  N   . GLY A 1 37  ? 11.222 42.334 11.912  1.00 38.44  ? 729  GLY A N   1 \nATOM   223  C  CA  . GLY A 1 37  ? 10.526 43.156 10.939  1.00 40.01  ? 729  GLY A CA  1 \nATOM   224  C  C   . GLY A 1 37  ? 9.034  42.913 10.861  1.00 36.82  ? 729  GLY A C   1 \nATOM   225  O  O   . GLY A 1 37  ? 8.488  42.144 11.635  1.00 33.00  ? 729  GLY A O   1 \nATOM   226  N  N   . LEU A 1 38  ? 8.388  43.608 9.930   1.00 42.24  ? 730  LEU A N   1 \nATOM   227  C  CA  . LEU A 1 38  ? 6.978  43.392 9.627   1.00 41.16  ? 730  LEU A CA  1 \nATOM   228  C  C   . LEU A 1 38  ? 6.790  43.121 8.139   1.00 37.54  ? 730  LEU A C   1 \nATOM   229  O  O   . LEU A 1 38  ? 7.381  43.794 7.295   1.00 43.28  ? 730  LEU A O   1 \nATOM   230  C  CB  . LEU A 1 38  ? 6.128  44.602 10.042  1.00 55.61  ? 730  LEU A CB  1 \nATOM   231  C  CG  . LEU A 1 38  ? 5.797  44.815 11.522  1.00 54.61  ? 730  LEU A CG  1 \nATOM   232  C  CD1 . LEU A 1 38  ? 5.056  46.134 11.690  1.00 55.22  ? 730  LEU A CD1 1 \nATOM   233  C  CD2 . LEU A 1 38  ? 4.985  43.665 12.105  1.00 62.65  ? 730  LEU A CD2 1 \nATOM   234  N  N   . TRP A 1 39  ? 5.976  42.119 7.831   1.00 42.21  ? 731  TRP A N   1 \nATOM   235  C  CA  . TRP A 1 39  ? 5.575  41.865 6.463   1.00 38.29  ? 731  TRP A CA  1 \nATOM   236  C  C   . TRP A 1 39  ? 4.115  42.307 6.264   1.00 44.54  ? 731  TRP A C   1 \nATOM   237  O  O   . TRP A 1 39  ? 3.205  41.854 6.974   1.00 40.95  ? 731  TRP A O   1 \nATOM   238  C  CB  . TRP A 1 39  ? 5.791  40.400 6.085   1.00 44.76  ? 731  TRP A CB  1 \nATOM   239  C  CG  . TRP A 1 39  ? 5.239  40.023 4.741   1.00 49.04  ? 731  TRP A CG  1 \nATOM   240  C  CD1 . TRP A 1 39  ? 5.266  40.773 3.595   1.00 56.68  ? 731  TRP A CD1 1 \nATOM   241  C  CD2 . TRP A 1 39  ? 4.591  38.792 4.399   1.00 57.71  ? 731  TRP A CD2 1 \nATOM   242  N  NE1 . TRP A 1 39  ? 4.663  40.089 2.569   1.00 61.09  ? 731  TRP A NE1 1 \nATOM   243  C  CE2 . TRP A 1 39  ? 4.244  38.869 3.032   1.00 55.11  ? 731  TRP A CE2 1 \nATOM   244  C  CE3 . TRP A 1 39  ? 4.266  37.631 5.118   1.00 50.16  ? 731  TRP A CE3 1 \nATOM   245  C  CZ2 . TRP A 1 39  ? 3.587  37.833 2.369   1.00 65.58  ? 731  TRP A CZ2 1 \nATOM   246  C  CZ3 . TRP A 1 39  ? 3.615  36.603 4.461   1.00 59.33  ? 731  TRP A CZ3 1 \nATOM   247  C  CH2 . TRP A 1 39  ? 3.276  36.713 3.098   1.00 60.58  ? 731  TRP A CH2 1 \nATOM   248  N  N   . ILE A 1 40  ? 3.936  43.209 5.304   1.00 46.64  ? 732  ILE A N   1 \nATOM   249  C  CA  . ILE A 1 40  ? 2.625  43.709 4.887   1.00 54.61  ? 732  ILE A CA  1 \nATOM   250  C  C   . ILE A 1 40  ? 2.347  43.178 3.476   1.00 52.31  ? 732  ILE A C   1 \nATOM   251  O  O   . ILE A 1 40  ? 2.779  43.779 2.492   1.00 58.58  ? 732  ILE A O   1 \nATOM   252  C  CB  . ILE A 1 40  ? 2.602  45.255 4.904   1.00 54.63  ? 732  ILE A CB  1 \nATOM   253  C  CG1 . ILE A 1 40  ? 3.132  45.776 6.246   1.00 54.82  ? 732  ILE A CG1 1 \nATOM   254  C  CG2 . ILE A 1 40  ? 1.194  45.787 4.641   1.00 66.79  ? 732  ILE A CG2 1 \nATOM   255  C  CD1 . ILE A 1 40  ? 3.898  47.083 6.154   1.00 59.18  ? 732  ILE A CD1 1 \nATOM   256  N  N   . PRO A 1 41  ? 1.668  42.016 3.370   1.00 54.05  ? 733  PRO A N   1 \nATOM   257  C  CA  . PRO A 1 41  ? 1.327  41.500 2.042   1.00 58.55  ? 733  PRO A CA  1 \nATOM   258  C  C   . PRO A 1 41  ? 0.630  42.595 1.229   1.00 65.49  ? 733  PRO A C   1 \nATOM   259  O  O   . PRO A 1 41  ? -0.188 43.342 1.778   1.00 49.96  ? 733  PRO A O   1 \nATOM   260  C  CB  . PRO A 1 41  ? 0.373  40.346 2.348   1.00 64.25  ? 733  PRO A CB  1 \nATOM   261  C  CG  . PRO A 1 41  ? 0.768  39.882 3.707   1.00 61.88  ? 733  PRO A CG  1 \nATOM   262  C  CD  . PRO A 1 41  ? 1.226  41.110 4.446   1.00 62.75  ? 733  PRO A CD  1 \nATOM   263  N  N   . GLU A 1 42  ? 0.979  42.695 -0.052  1.00 70.24  ? 734  GLU A N   1 \nATOM   264  C  CA  . GLU A 1 42  ? 0.686  43.884 -0.872  1.00 94.73  ? 734  GLU A CA  1 \nATOM   265  C  C   . GLU A 1 42  ? -0.777 44.355 -0.899  1.00 97.63  ? 734  GLU A C   1 \nATOM   266  O  O   . GLU A 1 42  ? -1.074 45.485 -0.500  1.00 94.38  ? 734  GLU A O   1 \nATOM   267  C  CB  . GLU A 1 42  ? 1.246  43.724 -2.298  1.00 109.10 ? 734  GLU A CB  1 \nATOM   268  C  CG  . GLU A 1 42  ? 1.023  42.356 -2.932  1.00 121.90 ? 734  GLU A CG  1 \nATOM   269  C  CD  . GLU A 1 42  ? 2.032  42.040 -4.022  1.00 137.46 ? 734  GLU A CD  1 \nATOM   270  O  OE1 . GLU A 1 42  ? 2.181  42.851 -4.963  1.00 133.69 ? 734  GLU A OE1 1 \nATOM   271  O  OE2 . GLU A 1 42  ? 2.677  40.973 -3.941  1.00 133.05 ? 734  GLU A OE2 1 \nATOM   272  N  N   . GLY A 1 43  ? -1.679 43.493 -1.356  1.00 77.00  ? 735  GLY A N   1 \nATOM   273  C  CA  . GLY A 1 43  ? -3.081 43.876 -1.524  1.00 102.31 ? 735  GLY A CA  1 \nATOM   274  C  C   . GLY A 1 43  ? -3.886 43.756 -0.246  1.00 94.49  ? 735  GLY A C   1 \nATOM   275  O  O   . GLY A 1 43  ? -4.924 44.398 -0.090  1.00 87.16  ? 735  GLY A O   1 \nATOM   276  N  N   . GLU A 1 44  ? -3.388 42.942 0.677   1.00 84.67  ? 736  GLU A N   1 \nATOM   277  C  CA  . GLU A 1 44  ? -4.127 42.579 1.880   1.00 78.16  ? 736  GLU A CA  1 \nATOM   278  C  C   . GLU A 1 44  ? -4.024 43.678 2.935   1.00 83.43  ? 736  GLU A C   1 \nATOM   279  O  O   . GLU A 1 44  ? -3.373 44.703 2.709   1.00 81.42  ? 736  GLU A O   1 \nATOM   280  C  CB  . GLU A 1 44  ? -3.615 41.237 2.397   1.00 81.23  ? 736  GLU A CB  1 \nATOM   281  C  CG  . GLU A 1 44  ? -3.274 40.281 1.260   1.00 77.57  ? 736  GLU A CG  1 \nATOM   282  C  CD  . GLU A 1 44  ? -2.886 38.898 1.726   1.00 87.99  ? 736  GLU A CD  1 \nATOM   283  O  OE1 . GLU A 1 44  ? -1.955 38.315 1.129   1.00 79.62  ? 736  GLU A OE1 1 \nATOM   284  O  OE2 . GLU A 1 44  ? -3.512 38.390 2.680   1.00 96.84  ? 736  GLU A OE2 1 \nATOM   285  N  N   . LYS A 1 45  ? -4.679 43.481 4.076   1.00 74.52  ? 737  LYS A N   1 \nATOM   286  C  CA  . LYS A 1 45  ? -4.699 44.519 5.107   1.00 87.38  ? 737  LYS A CA  1 \nATOM   287  C  C   . LYS A 1 45  ? -4.260 44.016 6.485   1.00 96.71  ? 737  LYS A C   1 \nATOM   288  O  O   . LYS A 1 45  ? -4.977 44.181 7.477   1.00 109.85 ? 737  LYS A O   1 \nATOM   289  C  CB  . LYS A 1 45  ? -6.077 45.199 5.170   1.00 102.72 ? 737  LYS A CB  1 \nATOM   290  C  CG  . LYS A 1 45  ? -6.406 46.051 3.949   1.00 109.69 ? 737  LYS A CG  1 \nATOM   291  C  CD  . LYS A 1 45  ? -7.648 46.936 4.172   1.00 118.48 ? 737  LYS A CD  1 \nATOM   292  C  CE  . LYS A 1 45  ? -7.282 48.276 4.851   1.00 123.12 ? 737  LYS A CE  1 \nATOM   293  N  NZ  . LYS A 1 45  ? -8.538 49.108 5.062   1.00 124.87 ? 737  LYS A NZ  1 \nATOM   294  N  N   . VAL A 1 46  ? -3.074 43.406 6.534   1.00 81.63  ? 738  VAL A N   1 \nATOM   295  C  CA  . VAL A 1 46  ? -2.501 42.891 7.786   1.00 70.23  ? 738  VAL A CA  1 \nATOM   296  C  C   . VAL A 1 46  ? -0.992 43.163 7.922   1.00 67.18  ? 738  VAL A C   1 \nATOM   297  O  O   . VAL A 1 46  ? -0.292 43.394 6.933   1.00 49.00  ? 738  VAL A O   1 \nATOM   298  C  CB  . VAL A 1 46  ? -2.770 41.373 7.985   1.00 75.03  ? 738  VAL A CB  1 \nATOM   299  C  CG1 . VAL A 1 46  ? -4.250 41.103 8.236   1.00 86.92  ? 738  VAL A CG1 1 \nATOM   300  C  CG2 . VAL A 1 46  ? -2.252 40.551 6.808   1.00 64.70  ? 738  VAL A CG2 1 \nATOM   301  N  N   . LYS A 1 47  ? -0.516 43.146 9.165   1.00 59.40  ? 739  LYS A N   1 \nATOM   302  C  CA  . LYS A 1 47  ? 0.904  43.256 9.475   1.00 60.90  ? 739  LYS A CA  1 \nATOM   303  C  C   . LYS A 1 47  ? 1.318  41.933 10.119  1.00 50.28  ? 739  LYS A C   1 \nATOM   304  O  O   . LYS A 1 47  ? 0.703  41.504 11.090  1.00 49.12  ? 739  LYS A O   1 \nATOM   305  C  CB  . LYS A 1 47  ? 1.147  44.419 10.443  1.00 54.97  ? 739  LYS A CB  1 \nATOM   306  C  CG  . LYS A 1 47  ? 0.870  45.811 9.886   1.00 67.55  ? 739  LYS A CG  1 \nATOM   307  C  CD  . LYS A 1 47  ? 0.807  46.815 11.029  1.00 68.22  ? 739  LYS A CD  1 \nATOM   308  C  CE  . LYS A 1 47  ? 0.849  48.258 10.555  1.00 69.70  ? 739  LYS A CE  1 \nATOM   309  N  NZ  . LYS A 1 47  ? 0.897  49.182 11.726  1.00 63.68  ? 739  LYS A NZ  1 \nATOM   310  N  N   . ILE A 1 48  ? 2.334  41.275 9.569   1.00 53.92  ? 740  ILE A N   1 \nATOM   311  C  CA  . ILE A 1 48  ? 2.775  39.976 10.098  1.00 43.42  ? 740  ILE A CA  1 \nATOM   312  C  C   . ILE A 1 48  ? 4.222  40.069 10.602  1.00 38.89  ? 740  ILE A C   1 \nATOM   313  O  O   . ILE A 1 48  ? 5.111  40.395 9.830   1.00 37.20  ? 740  ILE A O   1 \nATOM   314  C  CB  . ILE A 1 48  ? 2.637  38.847 9.043   1.00 47.72  ? 740  ILE A CB  1 \nATOM   315  C  CG1 . ILE A 1 48  ? 1.192  38.754 8.531   1.00 44.69  ? 740  ILE A CG1 1 \nATOM   316  C  CG2 . ILE A 1 48  ? 3.097  37.499 9.607   1.00 42.82  ? 740  ILE A CG2 1 \nATOM   317  C  CD1 . ILE A 1 48  ? 1.076  38.138 7.152   1.00 46.45  ? 740  ILE A CD1 1 \nATOM   318  N  N   . PRO A 1 49  ? 4.452  39.781 11.897  1.00 40.77  ? 741  PRO A N   1 \nATOM   319  C  CA  . PRO A 1 49  ? 5.827  39.786 12.440  1.00 39.30  ? 741  PRO A CA  1 \nATOM   320  C  C   . PRO A 1 49  ? 6.717  38.738 11.759  1.00 38.75  ? 741  PRO A C   1 \nATOM   321  O  O   . PRO A 1 49  ? 6.362  37.551 11.684  1.00 38.50  ? 741  PRO A O   1 \nATOM   322  C  CB  . PRO A 1 49  ? 5.632  39.455 13.923  1.00 38.97  ? 741  PRO A CB  1 \nATOM   323  C  CG  . PRO A 1 49  ? 4.153  39.637 14.186  1.00 41.99  ? 741  PRO A CG  1 \nATOM   324  C  CD  . PRO A 1 49  ? 3.478  39.309 12.893  1.00 42.15  ? 741  PRO A CD  1 \nATOM   325  N  N   . VAL A 1 50  ? 7.853  39.202 11.251  1.00 38.86  ? 742  VAL A N   1 \nATOM   326  C  CA  . VAL A 1 50  ? 8.786  38.356 10.514  1.00 38.13  ? 742  VAL A CA  1 \nATOM   327  C  C   . VAL A 1 50  ? 10.231 38.581 11.005  1.00 34.95  ? 742  VAL A C   1 \nATOM   328  O  O   . VAL A 1 50  ? 10.561 39.632 11.583  1.00 34.01  ? 742  VAL A O   1 \nATOM   329  C  CB  . VAL A 1 50  ? 8.687  38.599 8.982   1.00 37.29  ? 742  VAL A CB  1 \nATOM   330  C  CG1 . VAL A 1 50  ? 7.346  38.112 8.437   1.00 40.56  ? 742  VAL A CG1 1 \nATOM   331  C  CG2 . VAL A 1 50  ? 8.931  40.075 8.615   1.00 37.85  ? 742  VAL A CG2 1 \nATOM   332  N  N   . ALA A 1 51  ? 11.064 37.564 10.815  1.00 30.95  ? 743  ALA A N   1 \nATOM   333  C  CA  . ALA A 1 51  ? 12.504 37.735 10.909  1.00 31.06  ? 743  ALA A CA  1 \nATOM   334  C  C   . ALA A 1 51  ? 12.971 37.867 9.468   1.00 29.26  ? 743  ALA A C   1 \nATOM   335  O  O   . ALA A 1 51  ? 12.443 37.205 8.545   1.00 29.67  ? 743  ALA A O   1 \nATOM   336  C  CB  . ALA A 1 51  ? 13.145 36.521 11.607  1.00 27.75  ? 743  ALA A CB  1 \nATOM   337  N  N   . ILE A 1 52  ? 13.960 38.729 9.257   1.00 29.82  ? 744  ILE A N   1 \nATOM   338  C  CA  . ILE A 1 52  ? 14.482 38.989 7.941   1.00 26.91  ? 744  ILE A CA  1 \nATOM   339  C  C   . ILE A 1 52  ? 15.996 38.776 7.997   1.00 32.94  ? 744  ILE A C   1 \nATOM   340  O  O   . ILE A 1 52  ? 16.659 39.439 8.787   1.00 31.67  ? 744  ILE A O   1 \nATOM   341  C  CB  . ILE A 1 52  ? 14.187 40.451 7.521   1.00 32.45  ? 744  ILE A CB  1 \nATOM   342  C  CG1 . ILE A 1 52  ? 12.668 40.686 7.463   1.00 33.88  ? 744  ILE A CG1 1 \nATOM   343  C  CG2 . ILE A 1 52  ? 14.811 40.752 6.170   1.00 33.17  ? 744  ILE A CG2 1 \nATOM   344  C  CD1 . ILE A 1 52  ? 12.266 42.143 7.435   1.00 43.30  ? 744  ILE A CD1 1 \nATOM   345  N  N   . LYS A 1 53  ? 16.513 37.833 7.209   1.00 31.04  ? 745  LYS A N   1 \nATOM   346  C  CA  . LYS A 1 53  ? 17.973 37.573 7.139   1.00 31.99  ? 745  LYS A CA  1 \nATOM   347  C  C   . LYS A 1 53  ? 18.524 38.109 5.822   1.00 39.09  ? 745  LYS A C   1 \nATOM   348  O  O   . LYS A 1 53  ? 18.134 37.638 4.751   1.00 38.70  ? 745  LYS A O   1 \nATOM   349  C  CB  . LYS A 1 53  ? 18.294 36.063 7.319   1.00 28.72  ? 745  LYS A CB  1 \nATOM   350  C  CG  . LYS A 1 53  ? 19.802 35.726 7.423   1.00 31.87  ? 745  LYS A CG  1 \nATOM   351  C  CD  . LYS A 1 53  ? 20.007 34.389 8.138   1.00 31.76  ? 745  LYS A CD  1 \nATOM   352  C  CE  . LYS A 1 53  ? 21.491 34.095 8.338   1.00 35.24  ? 745  LYS A CE  1 \nATOM   353  N  NZ  . LYS A 1 53  ? 21.698 32.907 9.205   1.00 39.22  ? 745  LYS A NZ  1 \nATOM   354  N  N   . GLU A 1 54  ? 19.416 39.106 5.904   1.00 34.93  ? 746  GLU A N   1 \nATOM   355  C  CA  . GLU A 1 54  ? 20.142 39.638 4.746   1.00 33.61  ? 746  GLU A CA  1 \nATOM   356  C  C   . GLU A 1 54  ? 21.526 38.979 4.663   1.00 41.73  ? 746  GLU A C   1 \nATOM   357  O  O   . GLU A 1 54  ? 22.298 39.054 5.609   1.00 40.63  ? 746  GLU A O   1 \nATOM   358  C  CB  . GLU A 1 54  ? 20.301 41.152 4.901   1.00 38.35  ? 746  GLU A CB  1 \nATOM   359  C  CG  . GLU A 1 54  ? 20.665 41.861 3.615   1.00 43.31  ? 746  GLU A CG  1 \nATOM   360  C  CD  . GLU A 1 54  ? 20.339 43.344 3.649   1.00 56.57  ? 746  GLU A CD  1 \nATOM   361  O  OE1 . GLU A 1 54  ? 20.746 44.024 4.616   1.00 60.73  ? 746  GLU A OE1 1 \nATOM   362  O  OE2 . GLU A 1 54  ? 19.673 43.828 2.704   1.00 56.47  ? 746  GLU A OE2 1 \nATOM   363  N  N   . LEU A 1 55  ? 21.833 38.337 3.537   1.00 44.06  ? 747  LEU A N   1 \nATOM   364  C  CA  . LEU A 1 55  ? 23.024 37.488 3.450   1.00 49.19  ? 747  LEU A CA  1 \nATOM   365  C  C   . LEU A 1 55  ? 24.281 38.279 3.131   1.00 60.11  ? 747  LEU A C   1 \nATOM   366  O  O   . LEU A 1 55  ? 24.202 39.411 2.649   1.00 50.14  ? 747  LEU A O   1 \nATOM   367  C  CB  . LEU A 1 55  ? 22.837 36.348 2.436   1.00 42.55  ? 747  LEU A CB  1 \nATOM   368  C  CG  . LEU A 1 55  ? 21.603 35.433 2.522   1.00 47.94  ? 747  LEU A CG  1 \nATOM   369  C  CD1 . LEU A 1 55  ? 21.721 34.261 1.547   1.00 56.88  ? 747  LEU A CD1 1 \nATOM   370  C  CD2 . LEU A 1 55  ? 21.335 34.931 3.938   1.00 48.40  ? 747  LEU A CD2 1 \nATOM   371  N  N   . ARG A 1 56  ? 25.429 37.670 3.439   1.00 66.18  ? 748  ARG A N   1 \nATOM   372  C  CA  . ARG A 1 56  ? 26.741 38.168 3.020   1.00 88.68  ? 748  ARG A CA  1 \nATOM   373  C  C   . ARG A 1 56  ? 26.890 37.940 1.518   1.00 83.15  ? 748  ARG A C   1 \nATOM   374  O  O   . ARG A 1 56  ? 26.540 36.871 1.007   1.00 58.47  ? 748  ARG A O   1 \nATOM   375  C  CB  . ARG A 1 56  ? 27.867 37.432 3.760   1.00 95.20  ? 748  ARG A CB  1 \nATOM   376  C  CG  . ARG A 1 56  ? 27.684 37.308 5.267   1.00 111.81 ? 748  ARG A CG  1 \nATOM   377  C  CD  . ARG A 1 56  ? 28.485 38.345 6.036   1.00 116.77 ? 748  ARG A CD  1 \nATOM   378  N  NE  . ARG A 1 56  ? 28.166 38.317 7.463   1.00 121.49 ? 748  ARG A NE  1 \nATOM   379  C  CZ  . ARG A 1 56  ? 28.992 38.701 8.434   1.00 124.58 ? 748  ARG A CZ  1 \nATOM   380  N  NH1 . ARG A 1 56  ? 28.598 38.637 9.698   1.00 118.79 ? 748  ARG A NH1 1 \nATOM   381  N  NH2 . ARG A 1 56  ? 30.213 39.139 8.150   1.00 121.87 ? 748  ARG A NH2 1 \nATOM   382  N  N   . GLU A 1 57  ? 27.406 38.949 0.821   1.00 98.46  ? 749  GLU A N   1 \nATOM   383  C  CA  . GLU A 1 57  ? 27.601 38.891 -0.630  1.00 109.01 ? 749  GLU A CA  1 \nATOM   384  C  C   . GLU A 1 57  ? 28.856 38.102 -1.017  1.00 119.10 ? 749  GLU A C   1 \nATOM   385  O  O   . GLU A 1 57  ? 29.662 37.740 -0.156  1.00 127.74 ? 749  GLU A O   1 \nATOM   386  C  CB  . GLU A 1 57  ? 27.675 40.307 -1.207  1.00 107.94 ? 749  GLU A CB  1 \nATOM   387  C  CG  . GLU A 1 57  ? 26.412 41.134 -1.012  1.00 122.50 ? 749  GLU A CG  1 \nATOM   388  C  CD  . GLU A 1 57  ? 26.530 42.544 -1.567  1.00 131.75 ? 749  GLU A CD  1 \nATOM   389  O  OE1 . GLU A 1 57  ? 27.541 42.855 -2.234  1.00 129.10 ? 749  GLU A OE1 1 \nATOM   390  O  OE2 . GLU A 1 57  ? 25.601 43.347 -1.337  1.00 141.68 ? 749  GLU A OE2 1 \nATOM   391  N  N   . ALA A 1 58  ? 29.008 37.836 -2.315  1.00 115.00 ? 750  ALA A N   1 \nATOM   392  C  CA  . ALA A 1 58  ? 30.204 37.181 -2.856  1.00 118.99 ? 750  ALA A CA  1 \nATOM   393  C  C   . ALA A 1 58  ? 30.743 37.944 -4.068  1.00 126.64 ? 750  ALA A C   1 \nATOM   394  O  O   . ALA A 1 58  ? 30.009 38.716 -4.692  1.00 142.14 ? 750  ALA A O   1 \nATOM   395  C  CB  . ALA A 1 58  ? 29.900 35.736 -3.224  1.00 111.74 ? 750  ALA A CB  1 \nATOM   396  N  N   . THR A 1 59  ? 32.022 37.735 -4.391  1.00 123.82 ? 751  THR A N   1 \nATOM   397  C  CA  . THR A 1 59  ? 32.648 38.356 -5.569  1.00 124.40 ? 751  THR A CA  1 \nATOM   398  C  C   . THR A 1 59  ? 32.044 37.774 -6.848  1.00 124.78 ? 751  THR A C   1 \nATOM   399  O  O   . THR A 1 59  ? 31.735 38.509 -7.791  1.00 116.74 ? 751  THR A O   1 \nATOM   400  C  CB  . THR A 1 59  ? 34.185 38.166 -5.588  1.00 118.19 ? 751  THR A CB  1 \nATOM   401  O  OG1 . THR A 1 59  ? 34.721 38.383 -4.277  1.00 103.31 ? 751  THR A OG1 1 \nATOM   402  C  CG2 . THR A 1 59  ? 34.848 39.136 -6.573  1.00 100.42 ? 751  THR A CG2 1 \nATOM   403  N  N   . SER A 1 60  ? 31.885 36.451 -6.862  1.00 121.20 ? 752  SER A N   1 \nATOM   404  C  CA  . SER A 1 60  ? 31.194 35.752 -7.939  1.00 135.31 ? 752  SER A CA  1 \nATOM   405  C  C   . SER A 1 60  ? 29.938 35.072 -7.380  1.00 129.14 ? 752  SER A C   1 \nATOM   406  O  O   . SER A 1 60  ? 29.976 33.894 -7.008  1.00 125.03 ? 752  SER A O   1 \nATOM   407  C  CB  . SER A 1 60  ? 32.123 34.735 -8.613  1.00 131.46 ? 752  SER A CB  1 \nATOM   408  O  OG  . SER A 1 60  ? 31.457 34.039 -9.655  1.00 119.19 ? 752  SER A OG  1 \nATOM   409  N  N   . PRO A 1 61  ? 28.819 35.821 -7.308  1.00 118.58 ? 753  PRO A N   1 \nATOM   410  C  CA  . PRO A 1 61  ? 27.589 35.277 -6.740  1.00 106.64 ? 753  PRO A CA  1 \nATOM   411  C  C   . PRO A 1 61  ? 26.877 34.351 -7.720  1.00 97.42  ? 753  PRO A C   1 \nATOM   412  O  O   . PRO A 1 61  ? 27.150 34.390 -8.922  1.00 88.50  ? 753  PRO A O   1 \nATOM   413  C  CB  . PRO A 1 61  ? 26.730 36.526 -6.474  1.00 107.50 ? 753  PRO A CB  1 \nATOM   414  C  CG  . PRO A 1 61  ? 27.528 37.708 -6.938  1.00 107.49 ? 753  PRO A CG  1 \nATOM   415  C  CD  . PRO A 1 61  ? 28.618 37.187 -7.821  1.00 102.77 ? 753  PRO A CD  1 \nATOM   416  N  N   . LYS A 1 62  ? 25.976 33.523 -7.199  1.00 91.73  ? 754  LYS A N   1 \nATOM   417  C  CA  . LYS A 1 62  ? 25.143 32.653 -8.028  1.00 78.40  ? 754  LYS A CA  1 \nATOM   418  C  C   . LYS A 1 62  ? 24.059 33.471 -8.747  1.00 72.59  ? 754  LYS A C   1 \nATOM   419  O  O   . LYS A 1 62  ? 23.679 34.553 -8.283  1.00 71.52  ? 754  LYS A O   1 \nATOM   420  C  CB  . LYS A 1 62  ? 24.516 31.548 -7.171  1.00 66.50  ? 754  LYS A CB  1 \nATOM   421  C  CG  . LYS A 1 62  ? 25.522 30.572 -6.582  1.00 66.51  ? 754  LYS A CG  1 \nATOM   422  C  CD  . LYS A 1 62  ? 24.844 29.511 -5.730  1.00 67.17  ? 754  LYS A CD  1 \nATOM   423  C  CE  . LYS A 1 62  ? 25.850 28.490 -5.217  1.00 71.27  ? 754  LYS A CE  1 \nATOM   424  N  NZ  . LYS A 1 62  ? 25.199 27.456 -4.367  1.00 72.05  ? 754  LYS A NZ  1 \nATOM   425  N  N   . ALA A 1 63  ? 23.582 32.965 -9.885  1.00 67.58  ? 755  ALA A N   1 \nATOM   426  C  CA  . ALA A 1 63  ? 22.470 33.596 -10.607 1.00 64.10  ? 755  ALA A CA  1 \nATOM   427  C  C   . ALA A 1 63  ? 21.197 33.558 -9.757  1.00 59.06  ? 755  ALA A C   1 \nATOM   428  O  O   . ALA A 1 63  ? 21.026 32.662 -8.924  1.00 48.83  ? 755  ALA A O   1 \nATOM   429  C  CB  . ALA A 1 63  ? 22.241 32.908 -11.946 1.00 62.79  ? 755  ALA A CB  1 \nATOM   430  N  N   . ASN A 1 64  ? 20.311 34.532 -9.961  1.00 55.32  ? 756  ASN A N   1 \nATOM   431  C  CA  . ASN A 1 64  ? 19.058 34.580 -9.210  1.00 57.65  ? 756  ASN A CA  1 \nATOM   432  C  C   . ASN A 1 64  ? 18.246 33.282 -9.306  1.00 49.83  ? 756  ASN A C   1 \nATOM   433  O  O   . ASN A 1 64  ? 17.713 32.811 -8.305  1.00 52.47  ? 756  ASN A O   1 \nATOM   434  C  CB  . ASN A 1 64  ? 18.214 35.782 -9.636  1.00 61.10  ? 756  ASN A CB  1 \nATOM   435  C  CG  . ASN A 1 64  ? 18.737 37.095 -9.070  1.00 65.60  ? 756  ASN A CG  1 \nATOM   436  O  OD1 . ASN A 1 64  ? 18.241 38.166 -9.417  1.00 66.39  ? 756  ASN A OD1 1 \nATOM   437  N  ND2 . ASN A 1 64  ? 19.733 37.018 -8.188  1.00 62.03  ? 756  ASN A ND2 1 \nATOM   438  N  N   . LYS A 1 65  ? 18.188 32.693 -10.499 1.00 48.32  ? 757  LYS A N   1 \nATOM   439  C  CA  . LYS A 1 65  ? 17.363 31.496 -10.707 1.00 53.97  ? 757  LYS A CA  1 \nATOM   440  C  C   . LYS A 1 65  ? 17.885 30.303 -9.916  1.00 52.23  ? 757  LYS A C   1 \nATOM   441  O  O   . LYS A 1 65  ? 17.101 29.474 -9.457  1.00 38.94  ? 757  LYS A O   1 \nATOM   442  C  CB  . LYS A 1 65  ? 17.178 31.163 -12.198 1.00 57.10  ? 757  LYS A CB  1 \nATOM   443  C  CG  . LYS A 1 65  ? 18.445 30.784 -12.949 1.00 62.89  ? 757  LYS A CG  1 \nATOM   444  C  CD  . LYS A 1 65  ? 18.134 30.400 -14.385 1.00 67.24  ? 757  LYS A CD  1 \nATOM   445  C  CE  . LYS A 1 65  ? 19.369 29.866 -15.088 1.00 78.98  ? 757  LYS A CE  1 \nATOM   446  N  NZ  . LYS A 1 65  ? 19.072 29.478 -16.495 1.00 98.58  ? 757  LYS A NZ  1 \nATOM   447  N  N   . GLU A 1 66  ? 19.205 30.237 -9.731  1.00 41.71  ? 758  GLU A N   1 \nATOM   448  C  CA  . GLU A 1 66  ? 19.816 29.184 -8.921  1.00 45.36  ? 758  GLU A CA  1 \nATOM   449  C  C   . GLU A 1 66  ? 19.512 29.391 -7.426  1.00 45.14  ? 758  GLU A C   1 \nATOM   450  O  O   . GLU A 1 66  ? 19.180 28.437 -6.706  1.00 43.16  ? 758  GLU A O   1 \nATOM   451  C  CB  . GLU A 1 66  ? 21.327 29.142 -9.166  1.00 56.18  ? 758  GLU A CB  1 \nATOM   452  C  CG  . GLU A 1 66  ? 22.010 27.873 -8.669  1.00 74.96  ? 758  GLU A CG  1 \nATOM   453  C  CD  . GLU A 1 66  ? 23.509 27.857 -8.933  1.00 89.13  ? 758  GLU A CD  1 \nATOM   454  O  OE1 . GLU A 1 66  ? 24.235 27.159 -8.193  1.00 109.33 ? 758  GLU A OE1 1 \nATOM   455  O  OE2 . GLU A 1 66  ? 23.968 28.536 -9.878  1.00 81.56  ? 758  GLU A OE2 1 \nATOM   456  N  N   . ILE A 1 67  ? 19.643 30.638 -6.971  1.00 38.74  ? 759  ILE A N   1 \nATOM   457  C  CA  . ILE A 1 67  ? 19.234 31.052 -5.622  1.00 40.45  ? 759  ILE A CA  1 \nATOM   458  C  C   . ILE A 1 67  ? 17.742 30.767 -5.383  1.00 37.42  ? 759  ILE A C   1 \nATOM   459  O  O   . ILE A 1 67  ? 17.347 30.206 -4.353  1.00 36.66  ? 759  ILE A O   1 \nATOM   460  C  CB  . ILE A 1 67  ? 19.533 32.554 -5.393  1.00 43.35  ? 759  ILE A CB  1 \nATOM   461  C  CG1 . ILE A 1 67  ? 21.053 32.762 -5.243  1.00 47.56  ? 759  ILE A CG1 1 \nATOM   462  C  CG2 . ILE A 1 67  ? 18.767 33.078 -4.186  1.00 43.77  ? 759  ILE A CG2 1 \nATOM   463  C  CD1 . ILE A 1 67  ? 21.516 34.207 -5.124  1.00 44.09  ? 759  ILE A CD1 1 \nATOM   464  N  N   . LEU A 1 68  ? 16.923 31.151 -6.340  1.00 32.59  ? 760  LEU A N   1 \nATOM   465  C  CA  . LEU A 1 68  ? 15.477 30.871 -6.229  1.00 44.54  ? 760  LEU A CA  1 \nATOM   466  C  C   . LEU A 1 68  ? 15.206 29.372 -6.123  1.00 43.78  ? 760  LEU A C   1 \nATOM   467  O  O   . LEU A 1 68  ? 14.351 28.949 -5.341  1.00 38.07  ? 760  LEU A O   1 \nATOM   468  C  CB  . LEU A 1 68  ? 14.701 31.506 -7.382  1.00 37.58  ? 760  LEU A CB  1 \nATOM   469  C  CG  . LEU A 1 68  ? 14.663 33.030 -7.272  1.00 40.85  ? 760  LEU A CG  1 \nATOM   470  C  CD1 . LEU A 1 68  ? 14.118 33.694 -8.532  1.00 47.14  ? 760  LEU A CD1 1 \nATOM   471  C  CD2 . LEU A 1 68  ? 13.882 33.459 -6.040  1.00 39.46  ? 760  LEU A CD2 1 \nATOM   472  N  N   . ASP A 1 69  ? 15.966 28.576 -6.874  1.00 37.26  ? 761  ASP A N   1 \nATOM   473  C  CA  . ASP A 1 69  ? 15.788 27.126 -6.889  1.00 39.19  ? 761  ASP A CA  1 \nATOM   474  C  C   . ASP A 1 69  ? 16.110 26.500 -5.525  1.00 46.00  ? 761  ASP A C   1 \nATOM   475  O  O   . ASP A 1 69  ? 15.381 25.626 -5.051  1.00 41.12  ? 761  ASP A O   1 \nATOM   476  C  CB  . ASP A 1 69  ? 16.625 26.501 -8.020  1.00 44.22  ? 761  ASP A CB  1 \nATOM   477  C  CG  . ASP A 1 69  ? 16.461 24.979 -8.126  1.00 58.33  ? 761  ASP A CG  1 \nATOM   478  O  OD1 . ASP A 1 69  ? 17.492 24.284 -8.152  1.00 49.31  ? 761  ASP A OD1 1 \nATOM   479  O  OD2 . ASP A 1 69  ? 15.316 24.470 -8.200  1.00 47.84  ? 761  ASP A OD2 1 \nATOM   480  N  N   . GLU A 1 70  ? 17.191 26.954 -4.888  1.00 36.07  ? 762  GLU A N   1 \nATOM   481  C  CA  . GLU A 1 70  ? 17.560 26.438 -3.576  1.00 34.81  ? 762  GLU A CA  1 \nATOM   482  C  C   . GLU A 1 70  ? 16.600 26.948 -2.508  1.00 32.41  ? 762  GLU A C   1 \nATOM   483  O  O   . GLU A 1 70  ? 16.215 26.209 -1.596  1.00 36.70  ? 762  GLU A O   1 \nATOM   484  C  CB  . GLU A 1 70  ? 19.029 26.775 -3.256  1.00 39.98  ? 762  GLU A CB  1 \nATOM   485  C  CG  . GLU A 1 70  ? 19.960 26.152 -4.283  1.00 46.30  ? 762  GLU A CG  1 \nATOM   486  C  CD  . GLU A 1 70  ? 21.394 25.995 -3.807  1.00 67.31  ? 762  GLU A CD  1 \nATOM   487  O  OE1 . GLU A 1 70  ? 22.255 25.711 -4.666  1.00 61.02  ? 762  GLU A OE1 1 \nATOM   488  O  OE2 . GLU A 1 70  ? 21.667 26.144 -2.592  1.00 60.07  ? 762  GLU A OE2 1 \nATOM   489  N  N   . ALA A 1 71  ? 16.161 28.196 -2.654  1.00 31.03  ? 763  ALA A N   1 \nATOM   490  C  CA  . ALA A 1 71  ? 15.258 28.767 -1.667  1.00 30.15  ? 763  ALA A CA  1 \nATOM   491  C  C   . ALA A 1 71  ? 13.909 28.042 -1.718  1.00 31.96  ? 763  ALA A C   1 \nATOM   492  O  O   . ALA A 1 71  ? 13.237 27.930 -0.700  1.00 32.14  ? 763  ALA A O   1 \nATOM   493  C  CB  . ALA A 1 71  ? 15.065 30.253 -1.887  1.00 31.59  ? 763  ALA A CB  1 \nATOM   494  N  N   . TYR A 1 72  ? 13.541 27.551 -2.895  1.00 28.99  ? 764  TYR A N   1 \nATOM   495  C  CA  . TYR A 1 72  ? 12.229 26.863 -3.044  1.00 29.83  ? 764  TYR A CA  1 \nATOM   496  C  C   . TYR A 1 72  ? 12.189 25.668 -2.112  1.00 28.72  ? 764  TYR A C   1 \nATOM   497  O  O   . TYR A 1 72  ? 11.184 25.426 -1.469  1.00 29.34  ? 764  TYR A O   1 \nATOM   498  C  CB  . TYR A 1 72  ? 11.968 26.408 -4.481  1.00 30.91  ? 764  TYR A CB  1 \nATOM   499  C  CG  . TYR A 1 72  ? 10.617 25.705 -4.651  1.00 30.27  ? 764  TYR A CG  1 \nATOM   500  C  CD1 . TYR A 1 72  ? 10.525 24.314 -4.685  1.00 29.95  ? 764  TYR A CD1 1 \nATOM   501  C  CD2 . TYR A 1 72  ? 9.448  26.447 -4.774  1.00 31.11  ? 764  TYR A CD2 1 \nATOM   502  C  CE1 . TYR A 1 72  ? 9.299  23.683 -4.830  1.00 36.51  ? 764  TYR A CE1 1 \nATOM   503  C  CE2 . TYR A 1 72  ? 8.212  25.822 -4.915  1.00 34.02  ? 764  TYR A CE2 1 \nATOM   504  C  CZ  . TYR A 1 72  ? 8.153  24.440 -4.943  1.00 31.33  ? 764  TYR A CZ  1 \nATOM   505  O  OH  . TYR A 1 72  ? 6.926  23.819 -5.090  1.00 36.39  ? 764  TYR A OH  1 \nATOM   506  N  N   . VAL A 1 73  ? 13.308 24.953 -1.983  1.00 30.36  ? 765  VAL A N   1 \nATOM   507  C  CA  . VAL A 1 73  ? 13.338 23.790 -1.106  1.00 30.00  ? 765  VAL A CA  1 \nATOM   508  C  C   . VAL A 1 73  ? 13.144 24.241 0.339   1.00 28.48  ? 765  VAL A C   1 \nATOM   509  O  O   . VAL A 1 73  ? 12.510 23.540 1.135   1.00 28.46  ? 765  VAL A O   1 \nATOM   510  C  CB  . VAL A 1 73  ? 14.661 22.982 -1.249  1.00 34.35  ? 765  VAL A CB  1 \nATOM   511  C  CG1 . VAL A 1 73  ? 14.648 21.743 -0.361  1.00 37.76  ? 765  VAL A CG1 1 \nATOM   512  C  CG2 . VAL A 1 73  ? 14.898 22.599 -2.708  1.00 39.05  ? 765  VAL A CG2 1 \nATOM   513  N  N   . MET A 1 74  ? 13.685 25.407 0.687   1.00 26.60  ? 766  MET A N   1 \nATOM   514  C  CA  . MET A 1 74  ? 13.558 25.938 2.055   1.00 27.20  ? 766  MET A CA  1 \nATOM   515  C  C   . MET A 1 74  ? 12.106 26.365 2.345   1.00 32.09  ? 766  MET A C   1 \nATOM   516  O  O   . MET A 1 74  ? 11.637 26.292 3.487   1.00 34.54  ? 766  MET A O   1 \nATOM   517  C  CB  . MET A 1 74  ? 14.561 27.094 2.308   1.00 31.52  ? 766  MET A CB  1 \nATOM   518  C  CG  . MET A 1 74  ? 16.040 26.737 2.138   1.00 36.39  ? 766  MET A CG  1 \nATOM   519  S  SD  . MET A 1 74  ? 16.954 28.289 1.995   1.00 35.31  ? 766  MET A SD  1 \nATOM   520  C  CE  . MET A 1 74  ? 18.693 27.772 1.971   1.00 29.41  ? 766  MET A CE  1 \nATOM   521  N  N   . ALA A 1 75  ? 11.388 26.768 1.304   1.00 25.55  ? 767  ALA A N   1 \nATOM   522  C  CA  . ALA A 1 75  ? 9.955  27.147 1.461   1.00 28.35  ? 767  ALA A CA  1 \nATOM   523  C  C   . ALA A 1 75  ? 8.996  25.957 1.419   1.00 30.50  ? 767  ALA A C   1 \nATOM   524  O  O   . ALA A 1 75  ? 7.810  26.051 1.829   1.00 35.24  ? 767  ALA A O   1 \nATOM   525  C  CB  . ALA A 1 75  ? 9.587  28.141 0.385   1.00 27.82  ? 767  ALA A CB  1 \nATOM   526  N  N   . SER A 1 76  ? 9.486  24.841 0.921   1.00 33.39  ? 768  SER A N   1 \nATOM   527  C  CA  . SER A 1 76  ? 8.674  23.650 0.666   1.00 36.62  ? 768  SER A CA  1 \nATOM   528  C  C   . SER A 1 76  ? 8.537  22.757 1.916   1.00 35.31  ? 768  SER A C   1 \nATOM   529  O  O   . SER A 1 76  ? 7.706  21.837 1.944   1.00 41.31  ? 768  SER A O   1 \nATOM   530  C  CB  . SER A 1 76  ? 9.315  22.842 -0.478  1.00 30.34  ? 768  SER A CB  1 \nATOM   531  O  OG  . SER A 1 76  ? 10.337 22.007 0.056   1.00 43.37  ? 768  SER A OG  1 \nATOM   532  N  N   . VAL A 1 77  ? 9.337  23.017 2.949   1.00 29.89  ? 769  VAL A N   1 \nATOM   533  C  CA  . VAL A 1 77  ? 9.346  22.117 4.112   1.00 31.80  ? 769  VAL A CA  1 \nATOM   534  C  C   . VAL A 1 77  ? 8.076  22.226 4.967   1.00 35.73  ? 769  VAL A C   1 \nATOM   535  O  O   . VAL A 1 77  ? 7.587  23.322 5.240   1.00 40.87  ? 769  VAL A O   1 \nATOM   536  C  CB  . VAL A 1 77  ? 10.608 22.267 4.970   1.00 36.09  ? 769  VAL A CB  1 \nATOM   537  C  CG1 . VAL A 1 77  ? 11.840 21.931 4.144   1.00 34.12  ? 769  VAL A CG1 1 \nATOM   538  C  CG2 . VAL A 1 77  ? 10.721 23.677 5.517   1.00 42.89  ? 769  VAL A CG2 1 \nATOM   539  N  N   . ASP A 1 78  ? 7.546  21.080 5.369   1.00 31.99  ? 770  ASP A N   1 \nATOM   540  C  CA  . ASP A 1 78  ? 6.279  21.036 6.088   1.00 39.53  ? 770  ASP A CA  1 \nATOM   541  C  C   . ASP A 1 78  ? 6.391  20.001 7.188   1.00 32.29  ? 770  ASP A C   1 \nATOM   542  O  O   . ASP A 1 78  ? 6.093  18.820 6.974   1.00 33.73  ? 770  ASP A O   1 \nATOM   543  C  CB  . ASP A 1 78  ? 5.126  20.706 5.120   1.00 36.58  ? 770  ASP A CB  1 \nATOM   544  C  CG  . ASP A 1 78  ? 3.755  20.745 5.793   1.00 41.55  ? 770  ASP A CG  1 \nATOM   545  O  OD1 . ASP A 1 78  ? 3.591  21.464 6.803   1.00 41.43  ? 770  ASP A OD1 1 \nATOM   546  O  OD2 . ASP A 1 78  ? 2.839  20.055 5.297   1.00 61.49  ? 770  ASP A OD2 1 \nATOM   547  N  N   . ASN A 1 79  ? 6.841  20.458 8.358   1.00 27.92  ? 771  ASN A N   1 \nATOM   548  C  CA  . ASN A 1 79  ? 7.056  19.600 9.515   1.00 28.79  ? 771  ASN A CA  1 \nATOM   549  C  C   . ASN A 1 79  ? 7.004  20.473 10.767  1.00 28.51  ? 771  ASN A C   1 \nATOM   550  O  O   . ASN A 1 79  ? 7.492  21.615 10.753  1.00 32.33  ? 771  ASN A O   1 \nATOM   551  C  CB  . ASN A 1 79  ? 8.427  18.877 9.404   1.00 31.63  ? 771  ASN A CB  1 \nATOM   552  C  CG  . ASN A 1 79  ? 8.711  17.968 10.593  1.00 32.66  ? 771  ASN A CG  1 \nATOM   553  O  OD1 . ASN A 1 79  ? 9.198  18.412 11.634  1.00 32.35  ? 771  ASN A OD1 1 \nATOM   554  N  ND2 . ASN A 1 79  ? 8.412  16.685 10.439  1.00 31.99  ? 771  ASN A ND2 1 \nATOM   555  N  N   . PRO A 1 80  ? 6.419  19.947 11.868  1.00 36.96  ? 772  PRO A N   1 \nATOM   556  C  CA  . PRO A 1 80  ? 6.237  20.746 13.090  1.00 37.28  ? 772  PRO A CA  1 \nATOM   557  C  C   . PRO A 1 80  ? 7.540  21.226 13.729  1.00 33.19  ? 772  PRO A C   1 \nATOM   558  O  O   . PRO A 1 80  ? 7.524  22.216 14.470  1.00 30.61  ? 772  PRO A O   1 \nATOM   559  C  CB  . PRO A 1 80  ? 5.540  19.773 14.045  1.00 44.95  ? 772  PRO A CB  1 \nATOM   560  C  CG  . PRO A 1 80  ? 4.862  18.792 13.164  1.00 49.09  ? 772  PRO A CG  1 \nATOM   561  C  CD  . PRO A 1 80  ? 5.749  18.635 11.972  1.00 36.80  ? 772  PRO A CD  1 \nATOM   562  N  N   . HIS A 1 81  ? 8.647  20.524 13.463  1.00 32.01  ? 773  HIS A N   1 \nATOM   563  C  CA  . HIS A 1 81  ? 9.923  20.890 14.095  1.00 32.30  ? 773  HIS A CA  1 \nATOM   564  C  C   . HIS A 1 81  ? 10.938 21.522 13.140  1.00 29.91  ? 773  HIS A C   1 \nATOM   565  O  O   . HIS A 1 81  ? 12.141 21.581 13.433  1.00 31.48  ? 773  HIS A O   1 \nATOM   566  C  CB  . HIS A 1 81  ? 10.501 19.683 14.866  1.00 30.06  ? 773  HIS A CB  1 \nATOM   567  C  CG  . HIS A 1 81  ? 9.481  19.002 15.740  1.00 38.50  ? 773  HIS A CG  1 \nATOM   568  N  ND1 . HIS A 1 81  ? 8.923  19.607 16.850  1.00 35.97  ? 773  HIS A ND1 1 \nATOM   569  C  CD2 . HIS A 1 81  ? 8.862  17.803 15.617  1.00 43.44  ? 773  HIS A CD2 1 \nATOM   570  C  CE1 . HIS A 1 81  ? 8.045  18.787 17.401  1.00 35.79  ? 773  HIS A CE1 1 \nATOM   571  N  NE2 . HIS A 1 81  ? 7.979  17.690 16.666  1.00 33.01  ? 773  HIS A NE2 1 \nATOM   572  N  N   . VAL A 1 82  ? 10.444 22.029 12.011  1.00 32.42  ? 774  VAL A N   1 \nATOM   573  C  CA  . VAL A 1 82  ? 11.292 22.713 11.029  1.00 31.78  ? 774  VAL A CA  1 \nATOM   574  C  C   . VAL A 1 82  ? 10.590 24.023 10.638  1.00 31.70  ? 774  VAL A C   1 \nATOM   575  O  O   . VAL A 1 82  ? 9.410  24.021 10.272  1.00 33.83  ? 774  VAL A O   1 \nATOM   576  C  CB  . VAL A 1 82  ? 11.562 21.858 9.757   1.00 37.83  ? 774  VAL A CB  1 \nATOM   577  C  CG1 . VAL A 1 82  ? 12.584 22.547 8.868   1.00 28.77  ? 774  VAL A CG1 1 \nATOM   578  C  CG2 . VAL A 1 82  ? 12.050 20.442 10.095  1.00 34.53  ? 774  VAL A CG2 1 \nATOM   579  N  N   . CYS A 1 83  ? 11.299 25.132 10.784  1.00 31.06  ? 775  CYS A N   1 \nATOM   580  C  CA  . CYS A 1 83  ? 10.867 26.411 10.246  1.00 32.97  ? 775  CYS A CA  1 \nATOM   581  C  C   . CYS A 1 83  ? 10.813 26.400 8.725   1.00 31.14  ? 775  CYS A C   1 \nATOM   582  O  O   . CYS A 1 83  ? 11.570 25.660 8.057   1.00 35.80  ? 775  CYS A O   1 \nATOM   583  C  CB  . CYS A 1 83  ? 11.836 27.504 10.707  1.00 29.32  ? 775  CYS A CB  1 \nATOM   584  S  SG  . CYS A 1 83  ? 11.781 27.780 12.482  1.00 36.31  ? 775  CYS A SG  1 \nATOM   585  N  N   . ARG A 1 84  ? 9.959  27.240 8.152   1.00 27.88  ? 776  ARG A N   1 \nATOM   586  C  CA  . ARG A 1 84  ? 9.926  27.322 6.704   1.00 26.20  ? 776  ARG A CA  1 \nATOM   587  C  C   . ARG A 1 84  ? 10.059 28.744 6.212   1.00 25.09  ? 776  ARG A C   1 \nATOM   588  O  O   . ARG A 1 84  ? 9.700  29.688 6.895   1.00 28.55  ? 776  ARG A O   1 \nATOM   589  C  CB  . ARG A 1 84  ? 8.682  26.632 6.126   1.00 36.86  ? 776  ARG A CB  1 \nATOM   590  C  CG  . ARG A 1 84  ? 7.473  27.513 6.073   1.00 39.62  ? 776  ARG A CG  1 \nATOM   591  C  CD  . ARG A 1 84  ? 6.435  26.936 5.109   1.00 54.28  ? 776  ARG A CD  1 \nATOM   592  N  NE  . ARG A 1 84  ? 5.496  27.982 4.720   1.00 51.59  ? 776  ARG A NE  1 \nATOM   593  C  CZ  . ARG A 1 84  ? 5.521  28.662 3.573   1.00 56.49  ? 776  ARG A CZ  1 \nATOM   594  N  NH1 . ARG A 1 84  ? 6.423  28.405 2.636   1.00 45.85  ? 776  ARG A NH1 1 \nATOM   595  N  NH2 . ARG A 1 84  ? 4.607  29.596 3.351   1.00 62.64  ? 776  ARG A NH2 1 \nATOM   596  N  N   . LEU A 1 85  ? 10.660 28.874 5.042   1.00 32.82  ? 777  LEU A N   1 \nATOM   597  C  CA  . LEU A 1 85  ? 10.839 30.155 4.397   1.00 39.54  ? 777  LEU A CA  1 \nATOM   598  C  C   . LEU A 1 85  ? 9.481  30.608 3.865   1.00 41.12  ? 777  LEU A C   1 \nATOM   599  O  O   . LEU A 1 85  ? 8.752  29.829 3.249   1.00 36.46  ? 777  LEU A O   1 \nATOM   600  C  CB  . LEU A 1 85  ? 11.873 30.008 3.284   1.00 37.75  ? 777  LEU A CB  1 \nATOM   601  C  CG  . LEU A 1 85  ? 12.599 31.245 2.783   1.00 41.91  ? 777  LEU A CG  1 \nATOM   602  C  CD1 . LEU A 1 85  ? 13.269 31.938 3.962   1.00 35.23  ? 777  LEU A CD1 1 \nATOM   603  C  CD2 . LEU A 1 85  ? 13.619 30.839 1.737   1.00 39.23  ? 777  LEU A CD2 1 \nATOM   604  N  N   . LEU A 1 86  ? 9.106  31.841 4.179   1.00 35.56  ? 778  LEU A N   1 \nATOM   605  C  CA  . LEU A 1 86  ? 7.850  32.407 3.671   1.00 37.08  ? 778  LEU A CA  1 \nATOM   606  C  C   . LEU A 1 86  ? 8.067  33.176 2.372   1.00 39.75  ? 778  LEU A C   1 \nATOM   607  O  O   . LEU A 1 86  ? 7.184  33.229 1.510   1.00 45.05  ? 778  LEU A O   1 \nATOM   608  C  CB  . LEU A 1 86  ? 7.251  33.354 4.706   1.00 33.02  ? 778  LEU A CB  1 \nATOM   609  C  CG  . LEU A 1 86  ? 6.736  32.791 6.028   1.00 43.06  ? 778  LEU A CG  1 \nATOM   610  C  CD1 . LEU A 1 86  ? 6.379  33.930 6.967   1.00 41.81  ? 778  LEU A CD1 1 \nATOM   611  C  CD2 . LEU A 1 86  ? 5.533  31.872 5.829   1.00 55.69  ? 778  LEU A CD2 1 \nATOM   612  N  N   . GLY A 1 87  ? 9.235  33.799 2.246   1.00 38.68  ? 779  GLY A N   1 \nATOM   613  C  CA  . GLY A 1 87  ? 9.483  34.706 1.147   1.00 38.09  ? 779  GLY A CA  1 \nATOM   614  C  C   . GLY A 1 87  ? 10.944 35.031 0.929   1.00 34.62  ? 779  GLY A C   1 \nATOM   615  O  O   . GLY A 1 87  ? 11.816 34.682 1.729   1.00 34.55  ? 779  GLY A O   1 \nATOM   616  N  N   . ILE A 1 88  ? 11.206 35.696 -0.181  1.00 36.47  ? 780  ILE A N   1 \nATOM   617  C  CA  . ILE A 1 88  ? 12.549 36.078 -0.537  1.00 32.86  ? 780  ILE A CA  1 \nATOM   618  C  C   . ILE A 1 88  ? 12.467 37.364 -1.342  1.00 37.56  ? 780  ILE A C   1 \nATOM   619  O  O   . ILE A 1 88  ? 11.461 37.641 -2.019  1.00 35.89  ? 780  ILE A O   1 \nATOM   620  C  CB  . ILE A 1 88  ? 13.271 34.933 -1.305  1.00 36.74  ? 780  ILE A CB  1 \nATOM   621  C  CG1 . ILE A 1 88  ? 14.757 35.226 -1.508  1.00 37.01  ? 780  ILE A CG1 1 \nATOM   622  C  CG2 . ILE A 1 88  ? 12.566 34.586 -2.612  1.00 39.84  ? 780  ILE A CG2 1 \nATOM   623  C  CD1 . ILE A 1 88  ? 15.542 34.015 -1.981  1.00 41.12  ? 780  ILE A CD1 1 \nATOM   624  N  N   . CYS A 1 89  ? 13.504 38.179 -1.218  1.00 34.22  ? 781  CYS A N   1 \nATOM   625  C  CA  . CYS A 1 89  ? 13.584 39.409 -1.968  1.00 39.58  ? 781  CYS A CA  1 \nATOM   626  C  C   . CYS A 1 89  ? 15.008 39.513 -2.476  1.00 42.52  ? 781  CYS A C   1 \nATOM   627  O  O   . CYS A 1 89  ? 15.968 39.597 -1.696  1.00 42.31  ? 781  CYS A O   1 \nATOM   628  C  CB  . CYS A 1 89  ? 13.209 40.593 -1.091  1.00 42.05  ? 781  CYS A CB  1 \nATOM   629  S  SG  . CYS A 1 89  ? 13.340 42.208 -1.900  1.00 52.46  ? 781  CYS A SG  1 \nATOM   630  N  N   . LEU A 1 90  ? 15.137 39.460 -3.794  1.00 40.33  ? 782  LEU A N   1 \nATOM   631  C  CA  . LEU A 1 90  ? 16.427 39.615 -4.427  1.00 52.46  ? 782  LEU A CA  1 \nATOM   632  C  C   . LEU A 1 90  ? 16.577 41.062 -4.912  1.00 57.91  ? 782  LEU A C   1 \nATOM   633  O  O   . LEU A 1 90  ? 15.686 41.607 -5.575  1.00 53.42  ? 782  LEU A O   1 \nATOM   634  C  CB  . LEU A 1 90  ? 16.593 38.602 -5.561  1.00 46.81  ? 782  LEU A CB  1 \nATOM   635  C  CG  . LEU A 1 90  ? 16.440 37.118 -5.193  1.00 50.02  ? 782  LEU A CG  1 \nATOM   636  C  CD1 . LEU A 1 90  ? 16.409 36.255 -6.440  1.00 58.30  ? 782  LEU A CD1 1 \nATOM   637  C  CD2 . LEU A 1 90  ? 17.535 36.643 -4.245  1.00 47.01  ? 782  LEU A CD2 1 \nATOM   638  N  N   . THR A 1 91  ? 17.681 41.688 -4.513  1.00 57.02  ? 783  THR A N   1 \nATOM   639  C  CA  . THR A 1 91  ? 18.058 43.033 -4.953  1.00 57.87  ? 783  THR A CA  1 \nATOM   640  C  C   . THR A 1 91  ? 19.559 42.976 -5.243  1.00 56.07  ? 783  THR A C   1 \nATOM   641  O  O   . THR A 1 91  ? 20.020 42.064 -5.932  1.00 68.18  ? 783  THR A O   1 \nATOM   642  C  CB  . THR A 1 91  ? 17.787 44.109 -3.877  1.00 57.17  ? 783  THR A CB  1 \nATOM   643  O  OG1 . THR A 1 91  ? 18.534 43.803 -2.690  1.00 63.32  ? 783  THR A OG1 1 \nATOM   644  C  CG2 . THR A 1 91  ? 16.297 44.223 -3.544  1.00 60.21  ? 783  THR A CG2 1 \nATOM   645  N  N   . SER A 1 92  ? 20.317 43.931 -4.705  1.00 61.57  ? 784  SER A N   1 \nATOM   646  C  CA  . SER A 1 92  ? 21.778 43.830 -4.658  1.00 62.64  ? 784  SER A CA  1 \nATOM   647  C  C   . SER A 1 92  ? 22.205 42.824 -3.584  1.00 66.71  ? 784  SER A C   1 \nATOM   648  O  O   . SER A 1 92  ? 23.330 42.310 -3.611  1.00 73.57  ? 784  SER A O   1 \nATOM   649  C  CB  . SER A 1 92  ? 22.413 45.198 -4.391  1.00 65.94  ? 784  SER A CB  1 \nATOM   650  O  OG  . SER A 1 92  ? 21.881 45.793 -3.219  1.00 77.36  ? 784  SER A OG  1 \nATOM   651  N  N   . THR A 1 93  ? 21.296 42.553 -2.644  1.00 56.80  ? 785  THR A N   1 \nATOM   652  C  CA  . THR A 1 93  ? 21.494 41.540 -1.602  1.00 50.80  ? 785  THR A CA  1 \nATOM   653  C  C   . THR A 1 93  ? 20.393 40.478 -1.669  1.00 48.30  ? 785  THR A C   1 \nATOM   654  O  O   . THR A 1 93  ? 19.331 40.704 -2.264  1.00 47.91  ? 785  THR A O   1 \nATOM   655  C  CB  . THR A 1 93  ? 21.428 42.150 -0.184  1.00 51.80  ? 785  THR A CB  1 \nATOM   656  O  OG1 . THR A 1 93  ? 20.089 42.598 0.080   1.00 49.48  ? 785  THR A OG1 1 \nATOM   657  C  CG2 . THR A 1 93  ? 22.410 43.311 -0.027  1.00 59.94  ? 785  THR A CG2 1 \nATOM   658  N  N   . VAL A 1 94  ? 20.645 39.332 -1.039  1.00 46.00  ? 786  VAL A N   1 \nATOM   659  C  CA  . VAL A 1 94  ? 19.597 38.329 -0.826  1.00 38.67  ? 786  VAL A CA  1 \nATOM   660  C  C   . VAL A 1 94  ? 18.979 38.517 0.553   1.00 36.32  ? 786  VAL A C   1 \nATOM   661  O  O   . VAL A 1 94  ? 19.693 38.530 1.546   1.00 39.63  ? 786  VAL A O   1 \nATOM   662  C  CB  . VAL A 1 94  ? 20.142 36.898 -0.953  1.00 38.01  ? 786  VAL A CB  1 \nATOM   663  C  CG1 . VAL A 1 94  ? 19.031 35.871 -0.729  1.00 48.90  ? 786  VAL A CG1 1 \nATOM   664  C  CG2 . VAL A 1 94  ? 20.782 36.700 -2.320  1.00 48.03  ? 786  VAL A CG2 1 \nATOM   665  N  N   . GLN A 1 95  ? 17.653 38.626 0.610   1.00 36.69  ? 787  GLN A N   1 \nATOM   666  C  CA  . GLN A 1 95  ? 16.944 38.695 1.883   1.00 35.65  ? 787  GLN A CA  1 \nATOM   667  C  C   . GLN A 1 95  ? 15.909 37.581 2.032   1.00 39.78  ? 787  GLN A C   1 \nATOM   668  O  O   . GLN A 1 95  ? 15.052 37.404 1.156   1.00 35.85  ? 787  GLN A O   1 \nATOM   669  C  CB  . GLN A 1 95  ? 16.259 40.049 2.058   1.00 38.83  ? 787  GLN A CB  1 \nATOM   670  C  CG  . GLN A 1 95  ? 17.235 41.187 2.339   1.00 38.72  ? 787  GLN A CG  1 \nATOM   671  C  CD  . GLN A 1 95  ? 16.536 42.518 2.516   1.00 42.16  ? 787  GLN A CD  1 \nATOM   672  O  OE1 . GLN A 1 95  ? 16.253 42.927 3.638   1.00 41.78  ? 787  GLN A OE1 1 \nATOM   673  N  NE2 . GLN A 1 95  ? 16.248 43.197 1.412   1.00 43.91  ? 787  GLN A NE2 1 \nATOM   674  N  N   . LEU A 1 96  ? 15.995 36.856 3.148   1.00 33.94  ? 788  LEU A N   1 \nATOM   675  C  CA  . LEU A 1 96  ? 15.086 35.737 3.441   1.00 35.29  ? 788  LEU A CA  1 \nATOM   676  C  C   . LEU A 1 96  ? 14.084 36.113 4.506   1.00 30.71  ? 788  LEU A C   1 \nATOM   677  O  O   . LEU A 1 96  ? 14.427 36.716 5.524   1.00 32.86  ? 788  LEU A O   1 \nATOM   678  C  CB  . LEU A 1 96  ? 15.887 34.523 3.909   1.00 32.95  ? 788  LEU A CB  1 \nATOM   679  C  CG  . LEU A 1 96  ? 17.028 34.042 3.026   1.00 35.16  ? 788  LEU A CG  1 \nATOM   680  C  CD1 . LEU A 1 96  ? 17.745 32.897 3.724   1.00 34.86  ? 788  LEU A CD1 1 \nATOM   681  C  CD2 . LEU A 1 96  ? 16.502 33.617 1.664   1.00 37.74  ? 788  LEU A CD2 1 \nATOM   682  N  N   . ILE A 1 97  ? 12.820 35.776 4.290   1.00 30.64  ? 789  ILE A N   1 \nATOM   683  C  CA  . ILE A 1 97  ? 11.799 36.205 5.231   1.00 28.88  ? 789  ILE A CA  1 \nATOM   684  C  C   . ILE A 1 97  ? 11.097 34.984 5.799   1.00 25.85  ? 789  ILE A C   1 \nATOM   685  O  O   . ILE A 1 97  ? 10.735 34.081 5.056   1.00 33.02  ? 789  ILE A O   1 \nATOM   686  C  CB  . ILE A 1 97  ? 10.799 37.178 4.563   1.00 34.04  ? 789  ILE A CB  1 \nATOM   687  C  CG1 . ILE A 1 97  ? 11.507 38.480 4.147   1.00 37.69  ? 789  ILE A CG1 1 \nATOM   688  C  CG2 . ILE A 1 97  ? 9.617  37.488 5.479   1.00 35.36  ? 789  ILE A CG2 1 \nATOM   689  C  CD1 . ILE A 1 97  ? 12.058 38.438 2.739   1.00 38.70  ? 789  ILE A CD1 1 \nATOM   690  N  N   . THR A 1 98  ? 10.936 34.964 7.116   1.00 25.06  ? 790  THR A N   1 \nATOM   691  C  CA  . THR A 1 98  ? 10.342 33.827 7.816   1.00 27.17  ? 790  THR A CA  1 \nATOM   692  C  C   . THR A 1 98  ? 9.494  34.315 8.999   1.00 29.00  ? 790  THR A C   1 \nATOM   693  O  O   . THR A 1 98  ? 9.635  35.461 9.477   1.00 29.51  ? 790  THR A O   1 \nATOM   694  C  CB  . THR A 1 98  ? 11.412 32.818 8.305   1.00 30.02  ? 790  THR A CB  1 \nATOM   695  O  OG1 . THR A 1 98  ? 10.789 31.611 8.765   1.00 34.01  ? 790  THR A OG1 1 \nATOM   696  C  CG2 . THR A 1 98  ? 12.237 33.433 9.444   1.00 31.21  ? 790  THR A CG2 1 \nATOM   697  N  N   . GLN A 1 99  ? 8.618  33.441 9.488   1.00 30.66  ? 791  GLN A N   1 \nATOM   698  C  CA  . GLN A 1 99  ? 7.785  33.807 10.630  1.00 36.46  ? 791  GLN A CA  1 \nATOM   699  C  C   . GLN A 1 99  ? 8.674  34.148 11.824  1.00 34.02  ? 791  GLN A C   1 \nATOM   700  O  O   . GLN A 1 99  ? 9.592  33.396 12.152  1.00 33.64  ? 791  GLN A O   1 \nATOM   701  C  CB  . GLN A 1 99  ? 6.819  32.678 10.987  1.00 35.09  ? 791  GLN A CB  1 \nATOM   702  C  CG  . GLN A 1 99  ? 5.969  32.941 12.226  1.00 43.19  ? 791  GLN A CG  1 \nATOM   703  C  CD  . GLN A 1 99  ? 5.029  31.789 12.571  1.00 55.79  ? 791  GLN A CD  1 \nATOM   704  O  OE1 . GLN A 1 99  ? 5.093  30.712 11.975  1.00 52.44  ? 791  GLN A OE1 1 \nATOM   705  N  NE2 . GLN A 1 99  ? 4.162  32.011 13.552  1.00 61.70  ? 791  GLN A NE2 1 \nATOM   706  N  N   . LEU A 1 100 ? 8.411  35.287 12.464  1.00 31.17  ? 792  LEU A N   1 \nATOM   707  C  CA  . LEU A 1 100 ? 9.174  35.661 13.656  1.00 33.99  ? 792  LEU A CA  1 \nATOM   708  C  C   . LEU A 1 100 ? 8.850  34.728 14.811  1.00 43.25  ? 792  LEU A C   1 \nATOM   709  O  O   . LEU A 1 100 ? 7.684  34.452 15.080  1.00 34.41  ? 792  LEU A O   1 \nATOM   710  C  CB  . LEU A 1 100 ? 8.922  37.111 14.075  1.00 29.38  ? 792  LEU A CB  1 \nATOM   711  C  CG  . LEU A 1 100 ? 9.671  37.595 15.317  1.00 33.72  ? 792  LEU A CG  1 \nATOM   712  C  CD1 . LEU A 1 100 ? 11.186 37.568 15.018  1.00 31.79  ? 792  LEU A CD1 1 \nATOM   713  C  CD2 . LEU A 1 100 ? 9.205  38.962 15.810  1.00 33.47  ? 792  LEU A CD2 1 \nATOM   714  N  N   . MET A 1 101 ? 9.888  34.228 15.477  1.00 34.59  ? 793  MET A N   1 \nATOM   715  C  CA  . MET A 1 101 ? 9.710  33.390 16.667  1.00 38.57  ? 793  MET A CA  1 \nATOM   716  C  C   . MET A 1 101 ? 10.133 34.232 17.866  1.00 35.33  ? 793  MET A C   1 \nATOM   717  O  O   . MET A 1 101 ? 11.318 34.339 18.163  1.00 31.81  ? 793  MET A O   1 \nATOM   718  C  CB  . MET A 1 101 ? 10.542 32.098 16.609  1.00 31.33  ? 793  MET A CB  1 \nATOM   719  C  CG  . MET A 1 101 ? 10.279 31.184 15.428  1.00 47.71  ? 793  MET A CG  1 \nATOM   720  S  SD  . MET A 1 101 ? 8.821  30.169 15.693  1.00 56.46  ? 793  MET A SD  1 \nATOM   721  C  CE  . MET A 1 101 ? 7.733  30.916 14.499  1.00 48.95  ? 793  MET A CE  1 \nATOM   722  N  N   . PRO A 1 102 ? 9.162  34.859 18.553  1.00 35.55  ? 794  PRO A N   1 \nATOM   723  C  CA  . PRO A 1 102 ? 9.545  35.860 19.543  1.00 30.76  ? 794  PRO A CA  1 \nATOM   724  C  C   . PRO A 1 102 ? 9.986  35.307 20.884  1.00 28.26  ? 794  PRO A C   1 \nATOM   725  O  O   . PRO A 1 102 ? 10.447 36.072 21.701  1.00 34.35  ? 794  PRO A O   1 \nATOM   726  C  CB  . PRO A 1 102 ? 8.248  36.694 19.710  1.00 42.71  ? 794  PRO A CB  1 \nATOM   727  C  CG  . PRO A 1 102 ? 7.172  35.699 19.470  1.00 43.64  ? 794  PRO A CG  1 \nATOM   728  C  CD  . PRO A 1 102 ? 7.693  34.780 18.392  1.00 44.18  ? 794  PRO A CD  1 \nATOM   729  N  N   . PHE A 1 103 ? 9.891  33.990 21.115  1.00 29.98  ? 795  PHE A N   1 \nATOM   730  C  CA  . PHE A 1 103 ? 10.526 33.422 22.310  1.00 33.66  ? 795  PHE A CA  1 \nATOM   731  C  C   . PHE A 1 103 ? 12.029 33.222 22.148  1.00 31.23  ? 795  PHE A C   1 \nATOM   732  O  O   . PHE A 1 103 ? 12.724 32.956 23.132  1.00 37.68  ? 795  PHE A O   1 \nATOM   733  C  CB  . PHE A 1 103 ? 9.840  32.132 22.793  1.00 39.00  ? 795  PHE A CB  1 \nATOM   734  C  CG  . PHE A 1 103 ? 8.409  32.336 23.205  1.00 47.26  ? 795  PHE A CG  1 \nATOM   735  C  CD1 . PHE A 1 103 ? 7.408  31.504 22.721  1.00 53.18  ? 795  PHE A CD1 1 \nATOM   736  C  CD2 . PHE A 1 103 ? 8.058  33.381 24.059  1.00 58.22  ? 795  PHE A CD2 1 \nATOM   737  C  CE1 . PHE A 1 103 ? 6.080  31.702 23.090  1.00 72.79  ? 795  PHE A CE1 1 \nATOM   738  C  CE2 . PHE A 1 103 ? 6.734  33.585 24.431  1.00 64.24  ? 795  PHE A CE2 1 \nATOM   739  C  CZ  . PHE A 1 103 ? 5.742  32.745 23.944  1.00 67.83  ? 795  PHE A CZ  1 \nATOM   740  N  N   . GLY A 1 104 ? 12.521 33.370 20.915  1.00 32.03  ? 796  GLY A N   1 \nATOM   741  C  CA  . GLY A 1 104 ? 13.979 33.388 20.629  1.00 34.05  ? 796  GLY A CA  1 \nATOM   742  C  C   . GLY A 1 104 ? 14.608 32.018 20.441  1.00 33.43  ? 796  GLY A C   1 \nATOM   743  O  O   . GLY A 1 104 ? 13.889 31.009 20.242  1.00 31.30  ? 796  GLY A O   1 \nATOM   744  N  N   . CYS A 1 105 ? 15.943 31.954 20.486  1.00 30.57  ? 797  CYS A N   1 \nATOM   745  C  CA  . CYS A 1 105 ? 16.586 30.652 20.281  1.00 29.37  ? 797  CYS A CA  1 \nATOM   746  C  C   . CYS A 1 105 ? 16.668 29.805 21.550  1.00 30.71  ? 797  CYS A C   1 \nATOM   747  O  O   . CYS A 1 105 ? 16.623 30.314 22.695  1.00 30.01  ? 797  CYS A O   1 \nATOM   748  C  CB  . CYS A 1 105 ? 17.978 30.814 19.648  1.00 43.11  ? 797  CYS A CB  1 \nATOM   749  S  SG  . CYS A 1 105 ? 19.123 31.656 20.730  1.00 58.13  ? 797  CYS A SG  1 \nATOM   750  N  N   . LEU A 1 106 ? 16.791 28.495 21.342  1.00 35.30  ? 798  LEU A N   1 \nATOM   751  C  CA  . LEU A 1 106 ? 16.874 27.549 22.445  1.00 34.49  ? 798  LEU A CA  1 \nATOM   752  C  C   . LEU A 1 106 ? 18.173 27.763 23.222  1.00 29.27  ? 798  LEU A C   1 \nATOM   753  O  O   . LEU A 1 106 ? 18.205 27.541 24.431  1.00 31.95  ? 798  LEU A O   1 \nATOM   754  C  CB  . LEU A 1 106 ? 16.769 26.092 21.946  1.00 28.13  ? 798  LEU A CB  1 \nATOM   755  C  CG  . LEU A 1 106 ? 16.579 25.005 23.020  1.00 30.34  ? 798  LEU A CG  1 \nATOM   756  C  CD1 . LEU A 1 106 ? 15.398 25.294 23.961  1.00 34.84  ? 798  LEU A CD1 1 \nATOM   757  C  CD2 . LEU A 1 106 ? 16.357 23.627 22.364  1.00 29.21  ? 798  LEU A CD2 1 \nATOM   758  N  N   . LEU A 1 107 ? 19.221 28.218 22.540  1.00 31.78  ? 799  LEU A N   1 \nATOM   759  C  CA  . LEU A 1 107 ? 20.484 28.489 23.226  1.00 30.68  ? 799  LEU A CA  1 \nATOM   760  C  C   . LEU A 1 107 ? 20.288 29.581 24.284  1.00 32.64  ? 799  LEU A C   1 \nATOM   761  O  O   . LEU A 1 107 ? 20.748 29.461 25.421  1.00 31.25  ? 799  LEU A O   1 \nATOM   762  C  CB  . LEU A 1 107 ? 21.592 28.875 22.230  1.00 32.88  ? 799  LEU A CB  1 \nATOM   763  C  CG  . LEU A 1 107 ? 22.929 29.276 22.874  1.00 31.32  ? 799  LEU A CG  1 \nATOM   764  C  CD1 . LEU A 1 107 ? 23.518 28.108 23.667  1.00 36.85  ? 799  LEU A CD1 1 \nATOM   765  C  CD2 . LEU A 1 107 ? 23.967 29.769 21.868  1.00 36.94  ? 799  LEU A CD2 1 \nATOM   766  N  N   . ASP A 1 108 ? 19.583 30.643 23.912  1.00 32.68  ? 800  ASP A N   1 \nATOM   767  C  CA  . ASP A 1 108 ? 19.374 31.739 24.855  1.00 34.91  ? 800  ASP A CA  1 \nATOM   768  C  C   . ASP A 1 108 ? 18.443 31.291 25.942  1.00 31.79  ? 800  ASP A C   1 \nATOM   769  O  O   . ASP A 1 108 ? 18.597 31.688 27.095  1.00 32.60  ? 800  ASP A O   1 \nATOM   770  C  CB  . ASP A 1 108 ? 18.845 32.992 24.160  1.00 34.98  ? 800  ASP A CB  1 \nATOM   771  C  CG  . ASP A 1 108 ? 19.900 33.683 23.315  1.00 52.24  ? 800  ASP A CG  1 \nATOM   772  O  OD1 . ASP A 1 108 ? 19.513 34.368 22.349  1.00 55.86  ? 800  ASP A OD1 1 \nATOM   773  O  OD2 . ASP A 1 108 ? 21.114 33.544 23.610  1.00 50.16  ? 800  ASP A OD2 1 \nATOM   774  N  N   . TYR A 1 109 ? 17.485 30.434 25.575  1.00 32.99  ? 801  TYR A N   1 \nATOM   775  C  CA  . TYR A 1 109 ? 16.480 29.942 26.513  1.00 37.10  ? 801  TYR A CA  1 \nATOM   776  C  C   . TYR A 1 109 ? 17.077 29.074 27.614  1.00 36.24  ? 801  TYR A C   1 \nATOM   777  O  O   . TYR A 1 109 ? 16.769 29.274 28.794  1.00 36.20  ? 801  TYR A O   1 \nATOM   778  C  CB  . TYR A 1 109 ? 15.381 29.168 25.781  1.00 31.79  ? 801  TYR A CB  1 \nATOM   779  C  CG  . TYR A 1 109 ? 14.195 28.833 26.648  1.00 40.70  ? 801  TYR A CG  1 \nATOM   780  C  CD1 . TYR A 1 109 ? 14.160 27.658 27.392  1.00 40.54  ? 801  TYR A CD1 1 \nATOM   781  C  CD2 . TYR A 1 109 ? 13.087 29.703 26.717  1.00 40.28  ? 801  TYR A CD2 1 \nATOM   782  C  CE1 . TYR A 1 109 ? 13.060 27.344 28.187  1.00 45.35  ? 801  TYR A CE1 1 \nATOM   783  C  CE2 . TYR A 1 109 ? 11.985 29.402 27.512  1.00 47.53  ? 801  TYR A CE2 1 \nATOM   784  C  CZ  . TYR A 1 109 ? 11.979 28.223 28.241  1.00 48.21  ? 801  TYR A CZ  1 \nATOM   785  O  OH  . TYR A 1 109 ? 10.900 27.909 29.028  1.00 52.74  ? 801  TYR A OH  1 \nATOM   786  N  N   . VAL A 1 110 ? 17.945 28.132 27.248  1.00 34.38  ? 802  VAL A N   1 \nATOM   787  C  CA  . VAL A 1 110 ? 18.619 27.317 28.275  1.00 32.90  ? 802  VAL A CA  1 \nATOM   788  C  C   . VAL A 1 110 ? 19.560 28.099 29.203  1.00 35.29  ? 802  VAL A C   1 \nATOM   789  O  O   . VAL A 1 110 ? 19.650 27.794 30.384  1.00 36.18  ? 802  VAL A O   1 \nATOM   790  C  CB  . VAL A 1 110 ? 19.318 26.049 27.707  1.00 35.68  ? 802  VAL A CB  1 \nATOM   791  C  CG1 . VAL A 1 110 ? 18.309 25.183 26.975  1.00 32.43  ? 802  VAL A CG1 1 \nATOM   792  C  CG2 . VAL A 1 110 ? 20.491 26.388 26.799  1.00 30.24  ? 802  VAL A CG2 1 \nATOM   793  N  N   . ARG A 1 111 ? 20.273 29.077 28.652  1.00 35.21  ? 803  ARG A N   1 \nATOM   794  C  CA  . ARG A 1 111 ? 21.118 29.983 29.430  1.00 34.14  ? 803  ARG A CA  1 \nATOM   795  C  C   . ARG A 1 111 ? 20.283 30.806 30.422  1.00 34.89  ? 803  ARG A C   1 \nATOM   796  O  O   . ARG A 1 111 ? 20.659 30.943 31.581  1.00 36.87  ? 803  ARG A O   1 \nATOM   797  C  CB  . ARG A 1 111 ? 21.882 30.923 28.493  1.00 37.80  ? 803  ARG A CB  1 \nATOM   798  C  CG  . ARG A 1 111 ? 23.077 30.252 27.824  1.00 40.47  ? 803  ARG A CG  1 \nATOM   799  C  CD  . ARG A 1 111 ? 23.626 31.102 26.693  1.00 37.81  ? 803  ARG A CD  1 \nATOM   800  N  NE  . ARG A 1 111 ? 24.840 30.526 26.094  1.00 31.61  ? 803  ARG A NE  1 \nATOM   801  C  CZ  . ARG A 1 111 ? 25.558 31.121 25.144  1.00 42.39  ? 803  ARG A CZ  1 \nATOM   802  N  NH1 . ARG A 1 111 ? 25.187 32.304 24.666  1.00 40.81  ? 803  ARG A NH1 1 \nATOM   803  N  NH2 . ARG A 1 111 ? 26.647 30.541 24.660  1.00 37.03  ? 803  ARG A NH2 1 \nATOM   804  N  N   . GLU A 1 112 ? 19.133 31.303 29.973  1.00 38.72  ? 804  GLU A N   1 \nATOM   805  C  CA  . GLU A 1 112 ? 18.271 32.145 30.822  1.00 41.32  ? 804  GLU A CA  1 \nATOM   806  C  C   . GLU A 1 112 ? 17.514 31.355 31.902  1.00 49.15  ? 804  GLU A C   1 \nATOM   807  O  O   . GLU A 1 112 ? 17.378 31.812 33.048  1.00 42.48  ? 804  GLU A O   1 \nATOM   808  C  CB  . GLU A 1 112 ? 17.299 32.946 29.948  1.00 41.36  ? 804  GLU A CB  1 \nATOM   809  C  CG  . GLU A 1 112 ? 16.339 33.862 30.708  1.00 59.06  ? 804  GLU A CG  1 \nATOM   810  C  CD  . GLU A 1 112 ? 16.924 35.233 31.006  1.00 77.26  ? 804  GLU A CD  1 \nATOM   811  O  OE1 . GLU A 1 112 ? 18.167 35.388 30.997  1.00 77.65  ? 804  GLU A OE1 1 \nATOM   812  O  OE2 . GLU A 1 112 ? 16.130 36.168 31.246  1.00 98.71  ? 804  GLU A OE2 1 \nATOM   813  N  N   . HIS A 1 113 ? 17.039 30.166 31.541  1.00 38.93  ? 805  HIS A N   1 \nATOM   814  C  CA  . HIS A 1 113 ? 16.138 29.400 32.401  1.00 43.34  ? 805  HIS A CA  1 \nATOM   815  C  C   . HIS A 1 113 ? 16.748 28.177 33.068  1.00 43.35  ? 805  HIS A C   1 \nATOM   816  O  O   . HIS A 1 113 ? 16.020 27.342 33.600  1.00 51.79  ? 805  HIS A O   1 \nATOM   817  C  CB  . HIS A 1 113 ? 14.870 29.006 31.632  1.00 44.55  ? 805  HIS A CB  1 \nATOM   818  C  CG  . HIS A 1 113 ? 14.083 30.182 31.156  1.00 52.86  ? 805  HIS A CG  1 \nATOM   819  N  ND1 . HIS A 1 113 ? 14.167 30.660 29.867  1.00 54.67  ? 805  HIS A ND1 1 \nATOM   820  C  CD2 . HIS A 1 113 ? 13.232 31.007 31.809  1.00 55.38  ? 805  HIS A CD2 1 \nATOM   821  C  CE1 . HIS A 1 113 ? 13.389 31.720 29.742  1.00 60.50  ? 805  HIS A CE1 1 \nATOM   822  N  NE2 . HIS A 1 113 ? 12.809 31.950 30.905  1.00 62.29  ? 805  HIS A NE2 1 \nATOM   823  N  N   . LYS A 1 114 ? 18.074 28.090 33.066  1.00 44.74  ? 806  LYS A N   1 \nATOM   824  C  CA  . LYS A 1 114 ? 18.785 26.942 33.615  1.00 45.17  ? 806  LYS A CA  1 \nATOM   825  C  C   . LYS A 1 114 ? 18.172 26.384 34.918  1.00 56.68  ? 806  LYS A C   1 \nATOM   826  O  O   . LYS A 1 114 ? 17.865 25.192 35.011  1.00 53.97  ? 806  LYS A O   1 \nATOM   827  C  CB  . LYS A 1 114 ? 20.268 27.288 33.806  1.00 43.12  ? 806  LYS A CB  1 \nATOM   828  C  CG  . LYS A 1 114 ? 21.042 26.183 34.499  1.00 58.87  ? 806  LYS A CG  1 \nATOM   829  C  CD  . LYS A 1 114 ? 22.491 26.560 34.763  1.00 64.56  ? 806  LYS A CD  1 \nATOM   830  C  CE  . LYS A 1 114 ? 23.200 25.398 35.441  1.00 65.16  ? 806  LYS A CE  1 \nATOM   831  N  NZ  . LYS A 1 114 ? 24.382 25.844 36.218  1.00 60.36  ? 806  LYS A NZ  1 \nATOM   832  N  N   . ASP A 1 115 ? 17.965 27.256 35.904  1.00 53.18  ? 807  ASP A N   1 \nATOM   833  C  CA  . ASP A 1 115 ? 17.482 26.843 37.231  1.00 56.78  ? 807  ASP A CA  1 \nATOM   834  C  C   . ASP A 1 115 ? 16.028 26.323 37.271  1.00 63.01  ? 807  ASP A C   1 \nATOM   835  O  O   . ASP A 1 115 ? 15.553 25.851 38.313  1.00 56.81  ? 807  ASP A O   1 \nATOM   836  C  CB  . ASP A 1 115 ? 17.667 27.995 38.233  1.00 62.76  ? 807  ASP A CB  1 \nATOM   837  C  CG  . ASP A 1 115 ? 19.124 28.431 38.363  1.00 73.79  ? 807  ASP A CG  1 \nATOM   838  O  OD1 . ASP A 1 115 ? 20.027 27.618 38.050  1.00 68.87  ? 807  ASP A OD1 1 \nATOM   839  O  OD2 . ASP A 1 115 ? 19.366 29.586 38.782  1.00 75.03  ? 807  ASP A OD2 1 \nATOM   840  N  N   . ASN A 1 116 ? 15.330 26.396 36.142  1.00 45.89  ? 808  ASN A N   1 \nATOM   841  C  CA  . ASN A 1 116 ? 13.943 25.914 36.067  1.00 56.29  ? 808  ASN A CA  1 \nATOM   842  C  C   . ASN A 1 116 ? 13.695 24.837 35.025  1.00 52.02  ? 808  ASN A C   1 \nATOM   843  O  O   . ASN A 1 116 ? 12.554 24.400 34.845  1.00 49.29  ? 808  ASN A O   1 \nATOM   844  C  CB  . ASN A 1 116 ? 12.980 27.078 35.838  1.00 48.40  ? 808  ASN A CB  1 \nATOM   845  C  CG  . ASN A 1 116 ? 12.826 27.946 37.065  1.00 62.63  ? 808  ASN A CG  1 \nATOM   846  O  OD1 . ASN A 1 116 ? 12.477 27.461 38.144  1.00 73.28  ? 808  ASN A OD1 1 \nATOM   847  N  ND2 . ASN A 1 116 ? 13.085 29.238 36.909  1.00 61.06  ? 808  ASN A ND2 1 \nATOM   848  N  N   . ILE A 1 117 ? 14.753 24.416 34.339  1.00 48.57  ? 809  ILE A N   1 \nATOM   849  C  CA  . ILE A 1 117 ? 14.637 23.400 33.288  1.00 41.03  ? 809  ILE A CA  1 \nATOM   850  C  C   . ILE A 1 117 ? 14.874 21.999 33.849  1.00 45.86  ? 809  ILE A C   1 \nATOM   851  O  O   . ILE A 1 117 ? 15.958 21.694 34.351  1.00 41.10  ? 809  ILE A O   1 \nATOM   852  C  CB  . ILE A 1 117 ? 15.604 23.686 32.115  1.00 41.13  ? 809  ILE A CB  1 \nATOM   853  C  CG1 . ILE A 1 117 ? 15.190 24.972 31.390  1.00 35.35  ? 809  ILE A CG1 1 \nATOM   854  C  CG2 . ILE A 1 117 ? 15.645 22.510 31.144  1.00 38.57  ? 809  ILE A CG2 1 \nATOM   855  C  CD1 . ILE A 1 117 ? 16.272 25.545 30.484  1.00 34.81  ? 809  ILE A CD1 1 \nATOM   856  N  N   . GLY A 1 118 ? 13.852 21.151 33.736  1.00 42.20  ? 810  GLY A N   1 \nATOM   857  C  CA  . GLY A 1 118 ? 13.925 19.761 34.180  1.00 45.43  ? 810  GLY A CA  1 \nATOM   858  C  C   . GLY A 1 118 ? 14.296 18.770 33.086  1.00 40.55  ? 810  GLY A C   1 \nATOM   859  O  O   . GLY A 1 118 ? 14.349 19.116 31.901  1.00 40.46  ? 810  GLY A O   1 \nATOM   860  N  N   . SER A 1 119 ? 14.534 17.525 33.485  1.00 36.70  ? 811  SER A N   1 \nATOM   861  C  CA  . SER A 1 119 ? 15.009 16.508 32.567  1.00 39.63  ? 811  SER A CA  1 \nATOM   862  C  C   . SER A 1 119 ? 14.044 16.236 31.431  1.00 40.65  ? 811  SER A C   1 \nATOM   863  O  O   . SER A 1 119 ? 14.482 15.944 30.322  1.00 35.55  ? 811  SER A O   1 \nATOM   864  C  CB  . SER A 1 119 ? 15.310 15.211 33.314  1.00 42.84  ? 811  SER A CB  1 \nATOM   865  O  OG  . SER A 1 119 ? 14.205 14.860 34.128  1.00 46.09  ? 811  SER A OG  1 \nATOM   866  N  N   . GLN A 1 120 ? 12.738 16.306 31.721  1.00 36.00  ? 812  GLN A N   1 \nATOM   867  C  CA  . GLN A 1 120 ? 11.706 16.021 30.737  1.00 37.19  ? 812  GLN A CA  1 \nATOM   868  C  C   . GLN A 1 120 ? 11.785 16.967 29.549  1.00 36.52  ? 812  GLN A C   1 \nATOM   869  O  O   . GLN A 1 120 ? 11.662 16.540 28.397  1.00 33.95  ? 812  GLN A O   1 \nATOM   870  C  CB  . GLN A 1 120 ? 10.313 16.118 31.379  1.00 42.80  ? 812  GLN A CB  1 \nATOM   871  C  CG  . GLN A 1 120 ? 9.171  15.675 30.473  1.00 41.78  ? 812  GLN A CG  1 \nATOM   872  C  CD  . GLN A 1 120 ? 9.182  14.179 30.210  1.00 46.95  ? 812  GLN A CD  1 \nATOM   873  O  OE1 . GLN A 1 120 ? 8.750  13.390 31.044  1.00 44.42  ? 812  GLN A OE1 1 \nATOM   874  N  NE2 . GLN A 1 120 ? 9.675  13.785 29.044  1.00 42.08  ? 812  GLN A NE2 1 \nATOM   875  N  N   . TYR A 1 121 ? 11.963 18.254 29.832  1.00 32.34  ? 813  TYR A N   1 \nATOM   876  C  CA  . TYR A 1 121 ? 12.030 19.240 28.771  1.00 32.29  ? 813  TYR A CA  1 \nATOM   877  C  C   . TYR A 1 121 ? 13.266 19.034 27.908  1.00 31.16  ? 813  TYR A C   1 \nATOM   878  O  O   . TYR A 1 121 ? 13.163 19.089 26.680  1.00 29.68  ? 813  TYR A O   1 \nATOM   879  C  CB  . TYR A 1 121 ? 12.024 20.652 29.344  1.00 38.14  ? 813  TYR A CB  1 \nATOM   880  C  CG  . TYR A 1 121 ? 10.622 21.155 29.638  1.00 51.63  ? 813  TYR A CG  1 \nATOM   881  C  CD1 . TYR A 1 121 ? 9.906  21.869 28.679  1.00 54.26  ? 813  TYR A CD1 1 \nATOM   882  C  CD2 . TYR A 1 121 ? 10.009 20.895 30.864  1.00 53.00  ? 813  TYR A CD2 1 \nATOM   883  C  CE1 . TYR A 1 121 ? 8.622  22.329 28.940  1.00 68.44  ? 813  TYR A CE1 1 \nATOM   884  C  CE2 . TYR A 1 121 ? 8.726  21.352 31.135  1.00 63.66  ? 813  TYR A CE2 1 \nATOM   885  C  CZ  . TYR A 1 121 ? 8.039  22.066 30.169  1.00 71.43  ? 813  TYR A CZ  1 \nATOM   886  O  OH  . TYR A 1 121 ? 6.767  22.523 30.430  1.00 76.05  ? 813  TYR A OH  1 \nATOM   887  N  N   . LEU A 1 122 ? 14.420 18.807 28.549  1.00 36.58  ? 814  LEU A N   1 \nATOM   888  C  CA  . LEU A 1 122 ? 15.674 18.661 27.821  1.00 30.86  ? 814  LEU A CA  1 \nATOM   889  C  C   . LEU A 1 122 ? 15.637 17.463 26.892  1.00 35.35  ? 814  LEU A C   1 \nATOM   890  O  O   . LEU A 1 122 ? 16.056 17.551 25.749  1.00 32.61  ? 814  LEU A O   1 \nATOM   891  C  CB  . LEU A 1 122 ? 16.871 18.486 28.781  1.00 34.36  ? 814  LEU A CB  1 \nATOM   892  C  CG  . LEU A 1 122 ? 17.315 19.756 29.502  1.00 32.88  ? 814  LEU A CG  1 \nATOM   893  C  CD1 . LEU A 1 122 ? 18.045 19.417 30.796  1.00 31.09  ? 814  LEU A CD1 1 \nATOM   894  C  CD2 . LEU A 1 122 ? 18.149 20.612 28.556  1.00 31.70  ? 814  LEU A CD2 1 \nATOM   895  N  N   . LEU A 1 123 ? 15.127 16.340 27.389  1.00 32.49  ? 815  LEU A N   1 \nATOM   896  C  CA  . LEU A 1 123 ? 15.018 15.148 26.557  1.00 32.42  ? 815  LEU A CA  1 \nATOM   897  C  C   . LEU A 1 123 ? 13.996 15.297 25.445  1.00 28.76  ? 815  LEU A C   1 \nATOM   898  O  O   . LEU A 1 123 ? 14.208 14.802 24.337  1.00 26.06  ? 815  LEU A O   1 \nATOM   899  C  CB  . LEU A 1 123 ? 14.741 13.911 27.415  1.00 29.83  ? 815  LEU A CB  1 \nATOM   900  C  CG  . LEU A 1 123 ? 15.915 13.501 28.312  1.00 33.92  ? 815  LEU A CG  1 \nATOM   901  C  CD1 . LEU A 1 123 ? 15.462 12.483 29.345  1.00 36.17  ? 815  LEU A CD1 1 \nATOM   902  C  CD2 . LEU A 1 123 ? 17.080 12.941 27.508  1.00 37.71  ? 815  LEU A CD2 1 \nATOM   903  N  N   . ASN A 1 124 ? 12.867 15.947 25.736  1.00 30.63  ? 816  ASN A N   1 \nATOM   904  C  CA  . ASN A 1 124 ? 11.881 16.223 24.681  1.00 31.65  ? 816  ASN A CA  1 \nATOM   905  C  C   . ASN A 1 124 ? 12.464 17.122 23.582  1.00 28.45  ? 816  ASN A C   1 \nATOM   906  O  O   . ASN A 1 124 ? 12.242 16.892 22.404  1.00 28.56  ? 816  ASN A O   1 \nATOM   907  C  CB  . ASN A 1 124 ? 10.589 16.848 25.249  1.00 31.15  ? 816  ASN A CB  1 \nATOM   908  C  CG  . ASN A 1 124 ? 9.707  15.839 25.984  1.00 41.85  ? 816  ASN A CG  1 \nATOM   909  O  OD1 . ASN A 1 124 ? 9.945  14.631 25.965  1.00 44.46  ? 816  ASN A OD1 1 \nATOM   910  N  ND2 . ASN A 1 124 ? 8.653  16.349 26.627  1.00 44.28  ? 816  ASN A ND2 1 \nATOM   911  N  N   . TRP A 1 125 ? 13.245 18.122 23.953  1.00 31.52  ? 817  TRP A N   1 \nATOM   912  C  CA  . TRP A 1 125 ? 13.885 18.918 22.908  1.00 34.10  ? 817  TRP A CA  1 \nATOM   913  C  C   . TRP A 1 125 ? 14.764 18.075 21.997  1.00 28.46  ? 817  TRP A C   1 \nATOM   914  O  O   . TRP A 1 125 ? 14.776 18.295 20.785  1.00 27.78  ? 817  TRP A O   1 \nATOM   915  C  CB  . TRP A 1 125 ? 14.656 20.106 23.455  1.00 35.22  ? 817  TRP A CB  1 \nATOM   916  C  CG  . TRP A 1 125 ? 13.763 21.120 24.175  1.00 35.48  ? 817  TRP A CG  1 \nATOM   917  C  CD1 . TRP A 1 125 ? 12.435 21.414 23.920  1.00 38.29  ? 817  TRP A CD1 1 \nATOM   918  C  CD2 . TRP A 1 125 ? 14.147 21.925 25.286  1.00 33.22  ? 817  TRP A CD2 1 \nATOM   919  N  NE1 . TRP A 1 125 ? 11.996 22.373 24.796  1.00 34.21  ? 817  TRP A NE1 1 \nATOM   920  C  CE2 . TRP A 1 125 ? 13.019 22.700 25.653  1.00 42.26  ? 817  TRP A CE2 1 \nATOM   921  C  CE3 . TRP A 1 125 ? 15.343 22.066 26.017  1.00 35.06  ? 817  TRP A CE3 1 \nATOM   922  C  CZ2 . TRP A 1 125 ? 13.048 23.613 26.725  1.00 36.27  ? 817  TRP A CZ2 1 \nATOM   923  C  CZ3 . TRP A 1 125 ? 15.376 22.974 27.084  1.00 37.42  ? 817  TRP A CZ3 1 \nATOM   924  C  CH2 . TRP A 1 125 ? 14.226 23.738 27.424  1.00 39.45  ? 817  TRP A CH2 1 \nATOM   925  N  N   . CYS A 1 126 ? 15.495 17.121 22.578  1.00 31.30  ? 818  CYS A N   1 \nATOM   926  C  CA  . CYS A 1 126 ? 16.398 16.272 21.797  1.00 28.29  ? 818  CYS A CA  1 \nATOM   927  C  C   . CYS A 1 126 ? 15.629 15.435 20.803  1.00 27.53  ? 818  CYS A C   1 \nATOM   928  O  O   . CYS A 1 126 ? 16.079 15.239 19.659  1.00 24.60  ? 818  CYS A O   1 \nATOM   929  C  CB  . CYS A 1 126 ? 17.216 15.373 22.712  1.00 30.70  ? 818  CYS A CB  1 \nATOM   930  S  SG  . CYS A 1 126 ? 18.371 16.323 23.741  1.00 32.48  ? 818  CYS A SG  1 \nATOM   931  N  N   . VAL A 1 127 ? 14.447 14.962 21.226  1.00 29.56  ? 819  VAL A N   1 \nATOM   932  C  CA  . VAL A 1 127 ? 13.585 14.184 20.330  1.00 26.87  ? 819  VAL A CA  1 \nATOM   933  C  C   . VAL A 1 127 ? 13.133 15.070 19.189  1.00 22.48  ? 819  VAL A C   1 \nATOM   934  O  O   . VAL A 1 127 ? 13.221 14.688 18.026  1.00 27.83  ? 819  VAL A O   1 \nATOM   935  C  CB  . VAL A 1 127 ? 12.334 13.601 21.046  1.00 30.60  ? 819  VAL A CB  1 \nATOM   936  C  CG1 . VAL A 1 127 ? 11.386 12.992 20.031  1.00 33.23  ? 819  VAL A CG1 1 \nATOM   937  C  CG2 . VAL A 1 127 ? 12.751 12.531 22.052  1.00 33.03  ? 819  VAL A CG2 1 \nATOM   938  N  N   . GLN A 1 128 ? 12.588 16.240 19.538  1.00 25.20  ? 820  GLN A N   1 \nATOM   939  C  CA  . GLN A 1 128 ? 12.071 17.161 18.544  1.00 24.15  ? 820  GLN A CA  1 \nATOM   940  C  C   . GLN A 1 128 ? 13.084 17.584 17.506  1.00 28.99  ? 820  GLN A C   1 \nATOM   941  O  O   . GLN A 1 128 ? 12.771 17.653 16.320  1.00 26.26  ? 820  GLN A O   1 \nATOM   942  C  CB  . GLN A 1 128 ? 11.485 18.387 19.236  1.00 30.21  ? 820  GLN A CB  1 \nATOM   943  C  CG  . GLN A 1 128 ? 10.167 18.044 19.948  1.00 29.63  ? 820  GLN A CG  1 \nATOM   944  C  CD  . GLN A 1 128 ? 9.625  19.192 20.778  1.00 40.17  ? 820  GLN A CD  1 \nATOM   945  O  OE1 . GLN A 1 128 ? 10.012 20.344 20.586  1.00 38.95  ? 820  GLN A OE1 1 \nATOM   946  N  NE2 . GLN A 1 128 ? 8.715  18.876 21.719  1.00 39.16  ? 820  GLN A NE2 1 \nATOM   947  N  N   . ILE A 1 129 ? 14.286 17.887 17.970  1.00 26.92  ? 821  ILE A N   1 \nATOM   948  C  CA  . ILE A 1 129 ? 15.378 18.243 17.044  1.00 27.15  ? 821  ILE A CA  1 \nATOM   949  C  C   . ILE A 1 129 ? 15.708 17.057 16.121  1.00 21.32  ? 821  ILE A C   1 \nATOM   950  O  O   . ILE A 1 129 ? 15.835 17.221 14.917  1.00 22.85  ? 821  ILE A O   1 \nATOM   951  C  CB  . ILE A 1 129 ? 16.633 18.777 17.769  1.00 28.62  ? 821  ILE A CB  1 \nATOM   952  C  CG1 . ILE A 1 129 ? 16.328 20.096 18.516  1.00 25.26  ? 821  ILE A CG1 1 \nATOM   953  C  CG2 . ILE A 1 129 ? 17.749 18.986 16.749  1.00 24.04  ? 821  ILE A CG2 1 \nATOM   954  C  CD1 . ILE A 1 129 ? 17.358 20.475 19.579  1.00 24.33  ? 821  ILE A CD1 1 \nATOM   955  N  N   . ALA A 1 130 ? 15.776 15.855 16.678  1.00 23.15  ? 822  ALA A N   1 \nATOM   956  C  CA  . ALA A 1 130 ? 16.024 14.676 15.861  1.00 26.29  ? 822  ALA A CA  1 \nATOM   957  C  C   . ALA A 1 130 ? 14.870 14.421 14.888  1.00 22.85  ? 822  ALA A C   1 \nATOM   958  O  O   . ALA A 1 130 ? 15.078 14.004 13.766  1.00 22.39  ? 822  ALA A O   1 \nATOM   959  C  CB  . ALA A 1 130 ? 16.303 13.459 16.738  1.00 32.12  ? 822  ALA A CB  1 \nATOM   960  N  N   . LYS A 1 131 ? 13.620 14.706 15.281  1.00 22.94  ? 823  LYS A N   1 \nATOM   961  C  CA  . LYS A 1 131 ? 12.570 14.518 14.276  1.00 24.82  ? 823  LYS A CA  1 \nATOM   962  C  C   . LYS A 1 131 ? 12.712 15.503 13.100  1.00 23.26  ? 823  LYS A C   1 \nATOM   963  O  O   . LYS A 1 131 ? 12.557 15.124 11.928  1.00 26.11  ? 823  LYS A O   1 \nATOM   964  C  CB  . LYS A 1 131 ? 11.183 14.694 14.927  1.00 22.51  ? 823  LYS A CB  1 \nATOM   965  C  CG  . LYS A 1 131 ? 10.779 13.603 15.894  1.00 28.59  ? 823  LYS A CG  1 \nATOM   966  C  CD  . LYS A 1 131 ? 9.395  13.859 16.515  1.00 31.72  ? 823  LYS A CD  1 \nATOM   967  C  CE  . LYS A 1 131 ? 9.078  12.757 17.512  1.00 37.15  ? 823  LYS A CE  1 \nATOM   968  N  NZ  . LYS A 1 131 ? 7.670  12.819 18.034  1.00 38.50  ? 823  LYS A NZ  1 \nATOM   969  N  N   . GLY A 1 132 ? 12.985 16.775 13.391  1.00 25.36  ? 824  GLY A N   1 \nATOM   970  C  CA  . GLY A 1 132 ? 13.145 17.759 12.309  1.00 29.39  ? 824  GLY A CA  1 \nATOM   971  C  C   . GLY A 1 132 ? 14.330 17.419 11.403  1.00 26.12  ? 824  GLY A C   1 \nATOM   972  O  O   . GLY A 1 132 ? 14.287 17.590 10.179  1.00 24.27  ? 824  GLY A O   1 \nATOM   973  N  N   . MET A 1 133 ? 15.416 16.956 12.009  1.00 27.53  ? 825  MET A N   1 \nATOM   974  C  CA  . MET A 1 133 ? 16.585 16.546 11.189  1.00 24.74  ? 825  MET A CA  1 \nATOM   975  C  C   . MET A 1 133 ? 16.271 15.293 10.348  1.00 23.11  ? 825  MET A C   1 \nATOM   976  O  O   . MET A 1 133 ? 16.627 15.224 9.171   1.00 25.98  ? 825  MET A O   1 \nATOM   977  C  CB  . MET A 1 133 ? 17.820 16.335 12.068  1.00 26.81  ? 825  MET A CB  1 \nATOM   978  C  CG  . MET A 1 133 ? 18.301 17.619 12.738  1.00 28.15  ? 825  MET A CG  1 \nATOM   979  S  SD  . MET A 1 133 ? 18.784 18.939 11.613  1.00 28.88  ? 825  MET A SD  1 \nATOM   980  C  CE  . MET A 1 133 ? 20.287 18.281 10.877  1.00 27.33  ? 825  MET A CE  1 \nATOM   981  N  N   . ASN A 1 134 ? 15.517 14.352 10.905  1.00 27.36  ? 826  ASN A N   1 \nATOM   982  C  CA  . ASN A 1 134 ? 15.105 13.212 10.109  1.00 26.66  ? 826  ASN A CA  1 \nATOM   983  C  C   . ASN A 1 134 ? 14.194 13.641 8.933   1.00 24.20  ? 826  ASN A C   1 \nATOM   984  O  O   . ASN A 1 134 ? 14.274 13.071 7.825   1.00 22.04  ? 826  ASN A O   1 \nATOM   985  C  CB  . ASN A 1 134 ? 14.425 12.149 10.976  1.00 26.04  ? 826  ASN A CB  1 \nATOM   986  C  CG  . ASN A 1 134 ? 14.052 10.912 10.187  1.00 28.55  ? 826  ASN A CG  1 \nATOM   987  O  OD1 . ASN A 1 134 ? 14.915 10.179 9.684   1.00 27.71  ? 826  ASN A OD1 1 \nATOM   988  N  ND2 . ASN A 1 134 ? 12.746 10.665 10.078  1.00 31.03  ? 826  ASN A ND2 1 \nATOM   989  N  N   . TYR A 1 135 ? 13.365 14.662 9.159   1.00 30.63  ? 827  TYR A N   1 \nATOM   990  C  CA  . TYR A 1 135 ? 12.519 15.203 8.080   1.00 29.94  ? 827  TYR A CA  1 \nATOM   991  C  C   . TYR A 1 135 ? 13.389 15.835 7.001   1.00 30.42  ? 827  TYR A C   1 \nATOM   992  O  O   . TYR A 1 135 ? 13.182 15.591 5.813   1.00 26.26  ? 827  TYR A O   1 \nATOM   993  C  CB  . TYR A 1 135 ? 11.488 16.219 8.608   1.00 27.76  ? 827  TYR A CB  1 \nATOM   994  C  CG  . TYR A 1 135 ? 10.671 16.810 7.495   1.00 26.46  ? 827  TYR A CG  1 \nATOM   995  C  CD1 . TYR A 1 135 ? 9.442  16.223 7.089   1.00 28.24  ? 827  TYR A CD1 1 \nATOM   996  C  CD2 . TYR A 1 135 ? 11.074 17.986 6.891   1.00 26.58  ? 827  TYR A CD2 1 \nATOM   997  C  CE1 . TYR A 1 135 ? 8.711  16.792 6.051   1.00 24.43  ? 827  TYR A CE1 1 \nATOM   998  C  CE2 . TYR A 1 135 ? 10.380 18.533 5.846   1.00 24.77  ? 827  TYR A CE2 1 \nATOM   999  C  CZ  . TYR A 1 135 ? 9.154  17.955 5.472   1.00 29.96  ? 827  TYR A CZ  1 \nATOM   1000 O  OH  . TYR A 1 135 ? 8.510  18.524 4.443   1.00 28.47  ? 827  TYR A OH  1 \nATOM   1001 N  N   . LEU A 1 136 ? 14.400 16.619 7.395   1.00 28.36  ? 828  LEU A N   1 \nATOM   1002 C  CA  . LEU A 1 136 ? 15.313 17.165 6.391   1.00 30.91  ? 828  LEU A CA  1 \nATOM   1003 C  C   . LEU A 1 136 ? 16.033 16.056 5.597   1.00 25.76  ? 828  LEU A C   1 \nATOM   1004 O  O   . LEU A 1 136 ? 16.242 16.188 4.400   1.00 24.44  ? 828  LEU A O   1 \nATOM   1005 C  CB  . LEU A 1 136 ? 16.298 18.149 7.029   1.00 24.38  ? 828  LEU A CB  1 \nATOM   1006 C  CG  . LEU A 1 136 ? 15.708 19.448 7.601   1.00 26.71  ? 828  LEU A CG  1 \nATOM   1007 C  CD1 . LEU A 1 136 ? 16.776 20.314 8.270   1.00 34.46  ? 828  LEU A CD1 1 \nATOM   1008 C  CD2 . LEU A 1 136 ? 15.025 20.236 6.478   1.00 32.58  ? 828  LEU A CD2 1 \nATOM   1009 N  N   . GLU A 1 137 ? 16.362 14.944 6.253   1.00 26.25  ? 829  GLU A N   1 \nATOM   1010 C  CA  . GLU A 1 137 ? 17.037 13.848 5.551   1.00 25.11  ? 829  GLU A CA  1 \nATOM   1011 C  C   . GLU A 1 137 ? 16.085 13.197 4.524   1.00 28.25  ? 829  GLU A C   1 \nATOM   1012 O  O   . GLU A 1 137 ? 16.466 12.860 3.407   1.00 26.58  ? 829  GLU A O   1 \nATOM   1013 C  CB  . GLU A 1 137 ? 17.688 12.862 6.540   1.00 24.51  ? 829  GLU A CB  1 \nATOM   1014 C  CG  . GLU A 1 137 ? 18.425 11.676 5.898   1.00 30.84  ? 829  GLU A CG  1 \nATOM   1015 C  CD  . GLU A 1 137 ? 19.136 10.739 6.887   1.00 29.05  ? 829  GLU A CD  1 \nATOM   1016 O  OE1 . GLU A 1 137 ? 19.042 10.932 8.126   1.00 33.17  ? 829  GLU A OE1 1 \nATOM   1017 O  OE2 . GLU A 1 137 ? 19.758 9.762  6.413   1.00 25.79  ? 829  GLU A OE2 1 \nATOM   1018 N  N   . ASP A 1 138 ? 14.822 13.067 4.895   1.00 28.69  ? 830  ASP A N   1 \nATOM   1019 C  CA  . ASP A 1 138 ? 13.805 12.642 3.916   1.00 32.95  ? 830  ASP A CA  1 \nATOM   1020 C  C   . ASP A 1 138 ? 13.687 13.610 2.727   1.00 30.22  ? 830  ASP A C   1 \nATOM   1021 O  O   . ASP A 1 138 ? 13.474 13.181 1.591   1.00 31.90  ? 830  ASP A O   1 \nATOM   1022 C  CB  . ASP A 1 138 ? 12.453 12.404 4.600   1.00 30.71  ? 830  ASP A CB  1 \nATOM   1023 C  CG  . ASP A 1 138 ? 12.429 11.120 5.445   1.00 33.56  ? 830  ASP A CG  1 \nATOM   1024 O  OD1 . ASP A 1 138 ? 11.726 11.097 6.469   1.00 33.94  ? 830  ASP A OD1 1 \nATOM   1025 O  OD2 . ASP A 1 138 ? 13.131 10.142 5.116   1.00 34.53  ? 830  ASP A OD2 1 \nATOM   1026 N  N   . ARG A 1 139 ? 13.844 14.905 2.985   1.00 24.69  ? 831  ARG A N   1 \nATOM   1027 C  CA  . ARG A 1 139 ? 13.849 15.901 1.922   1.00 27.76  ? 831  ARG A CA  1 \nATOM   1028 C  C   . ARG A 1 139 ? 15.213 15.968 1.207   1.00 30.75  ? 831  ARG A C   1 \nATOM   1029 O  O   . ARG A 1 139 ? 15.390 16.755 0.314   1.00 33.68  ? 831  ARG A O   1 \nATOM   1030 C  CB  . ARG A 1 139 ? 13.443 17.294 2.460   1.00 31.23  ? 831  ARG A CB  1 \nATOM   1031 C  CG  . ARG A 1 139 ? 11.941 17.456 2.717   1.00 48.98  ? 831  ARG A CG  1 \nATOM   1032 C  CD  . ARG A 1 139 ? 11.132 17.048 1.486   1.00 54.64  ? 831  ARG A CD  1 \nATOM   1033 N  NE  . ARG A 1 139 ? 9.727  17.486 1.420   1.00 61.13  ? 831  ARG A NE  1 \nATOM   1034 C  CZ  . ARG A 1 139 ? 9.329  18.755 1.320   1.00 57.98  ? 831  ARG A CZ  1 \nATOM   1035 N  NH1 . ARG A 1 139 ? 8.030  19.054 1.222   1.00 43.34  ? 831  ARG A NH1 1 \nATOM   1036 N  NH2 . ARG A 1 139 ? 10.224 19.734 1.332   1.00 75.24  ? 831  ARG A NH2 1 \nATOM   1037 N  N   . ARG A 1 140 ? 16.169 15.134 1.608   1.00 32.01  ? 832  ARG A N   1 \nATOM   1038 C  CA  . ARG A 1 140 ? 17.523 15.181 0.987   1.00 25.88  ? 832  ARG A CA  1 \nATOM   1039 C  C   . ARG A 1 140 ? 18.165 16.581 1.055   1.00 26.82  ? 832  ARG A C   1 \nATOM   1040 O  O   . ARG A 1 140 ? 18.870 17.014 0.144   1.00 39.99  ? 832  ARG A O   1 \nATOM   1041 C  CB  . ARG A 1 140 ? 17.481 14.595 -0.449  1.00 26.75  ? 832  ARG A CB  1 \nATOM   1042 C  CG  . ARG A 1 140 ? 16.852 13.203 -0.493  1.00 38.69  ? 832  ARG A CG  1 \nATOM   1043 C  CD  . ARG A 1 140 ? 16.749 12.615 -1.901  1.00 44.66  ? 832  ARG A CD  1 \nATOM   1044 N  NE  . ARG A 1 140 ? 18.060 12.375 -2.490  1.00 43.81  ? 832  ARG A NE  1 \nATOM   1045 C  CZ  . ARG A 1 140 ? 18.292 12.142 -3.782  1.00 59.18  ? 832  ARG A CZ  1 \nATOM   1046 N  NH1 . ARG A 1 140 ? 19.539 11.932 -4.198  1.00 65.97  ? 832  ARG A NH1 1 \nATOM   1047 N  NH2 . ARG A 1 140 ? 17.295 12.120 -4.663  1.00 52.24  ? 832  ARG A NH2 1 \nATOM   1048 N  N   . LEU A 1 141 ? 17.972 17.251 2.186   1.00 27.81  ? 833  LEU A N   1 \nATOM   1049 C  CA  . LEU A 1 141 ? 18.510 18.577 2.418   1.00 34.21  ? 833  LEU A CA  1 \nATOM   1050 C  C   . LEU A 1 141 ? 19.449 18.523 3.624   1.00 34.74  ? 833  LEU A C   1 \nATOM   1051 O  O   . LEU A 1 141 ? 18.999 18.429 4.771   1.00 30.53  ? 833  LEU A O   1 \nATOM   1052 C  CB  . LEU A 1 141 ? 17.364 19.579 2.657   1.00 34.42  ? 833  LEU A CB  1 \nATOM   1053 C  CG  . LEU A 1 141 ? 17.613 21.095 2.539   1.00 38.35  ? 833  LEU A CG  1 \nATOM   1054 C  CD1 . LEU A 1 141 ? 16.355 21.860 2.907   1.00 47.96  ? 833  LEU A CD1 1 \nATOM   1055 C  CD2 . LEU A 1 141 ? 18.768 21.594 3.393   1.00 52.23  ? 833  LEU A CD2 1 \nATOM   1056 N  N   . VAL A 1 142 ? 20.755 18.551 3.363   1.00 26.72  ? 834  VAL A N   1 \nATOM   1057 C  CA  . VAL A 1 142 ? 21.728 18.644 4.437   1.00 25.51  ? 834  VAL A CA  1 \nATOM   1058 C  C   . VAL A 1 142 ? 21.700 20.057 5.048   1.00 23.33  ? 834  VAL A C   1 \nATOM   1059 O  O   . VAL A 1 142 ? 21.694 21.057 4.313   1.00 28.02  ? 834  VAL A O   1 \nATOM   1060 C  CB  . VAL A 1 142 ? 23.156 18.309 3.917   1.00 25.87  ? 834  VAL A CB  1 \nATOM   1061 C  CG1 . VAL A 1 142 ? 24.100 18.192 5.115   1.00 23.90  ? 834  VAL A CG1 1 \nATOM   1062 C  CG2 . VAL A 1 142 ? 23.119 16.992 3.141   1.00 28.31  ? 834  VAL A CG2 1 \nATOM   1063 N  N   . HIS A 1 143 ? 21.660 20.124 6.381   1.00 24.32  ? 835  HIS A N   1 \nATOM   1064 C  CA  . HIS A 1 143 ? 21.506 21.383 7.113   1.00 23.28  ? 835  HIS A CA  1 \nATOM   1065 C  C   . HIS A 1 143 ? 22.785 22.162 6.940   1.00 27.03  ? 835  HIS A C   1 \nATOM   1066 O  O   . HIS A 1 143 ? 22.813 23.290 6.411   1.00 26.76  ? 835  HIS A O   1 \nATOM   1067 C  CB  . HIS A 1 143 ? 21.277 21.097 8.607   1.00 22.96  ? 835  HIS A CB  1 \nATOM   1068 C  CG  . HIS A 1 143 ? 20.801 22.288 9.388   1.00 25.87  ? 835  HIS A CG  1 \nATOM   1069 N  ND1 . HIS A 1 143 ? 21.552 23.426 9.550   1.00 25.72  ? 835  HIS A ND1 1 \nATOM   1070 C  CD2 . HIS A 1 143 ? 19.625 22.522 10.030  1.00 29.70  ? 835  HIS A CD2 1 \nATOM   1071 C  CE1 . HIS A 1 143 ? 20.875 24.313 10.264  1.00 26.78  ? 835  HIS A CE1 1 \nATOM   1072 N  NE2 . HIS A 1 143 ? 19.701 23.783 10.576  1.00 27.19  ? 835  HIS A NE2 1 \nATOM   1073 N  N   . ARG A 1 144 ? 23.853 21.527 7.386   1.00 25.53  ? 836  ARG A N   1 \nATOM   1074 C  CA  . ARG A 1 144 ? 25.221 22.123 7.370   1.00 24.68  ? 836  ARG A CA  1 \nATOM   1075 C  C   . ARG A 1 144 ? 25.537 23.182 8.437   1.00 30.73  ? 836  ARG A C   1 \nATOM   1076 O  O   . ARG A 1 144 ? 26.695 23.623 8.533   1.00 31.37  ? 836  ARG A O   1 \nATOM   1077 C  CB  . ARG A 1 144 ? 25.601 22.653 5.966   1.00 29.95  ? 836  ARG A CB  1 \nATOM   1078 C  CG  . ARG A 1 144 ? 25.531 21.613 4.858   1.00 29.36  ? 836  ARG A CG  1 \nATOM   1079 C  CD  . ARG A 1 144 ? 25.842 22.225 3.503   1.00 35.72  ? 836  ARG A CD  1 \nATOM   1080 N  NE  . ARG A 1 144 ? 25.737 21.236 2.426   1.00 35.96  ? 836  ARG A NE  1 \nATOM   1081 C  CZ  . ARG A 1 144 ? 24.613 20.915 1.795   1.00 42.66  ? 836  ARG A CZ  1 \nATOM   1082 N  NH1 . ARG A 1 144 ? 23.454 21.500 2.119   1.00 43.85  ? 836  ARG A NH1 1 \nATOM   1083 N  NH2 . ARG A 1 144 ? 24.655 20.006 0.825   1.00 45.95  ? 836  ARG A NH2 1 \nATOM   1084 N  N   . ASP A 1 145 ? 24.564 23.573 9.252   1.00 28.01  ? 837  ASP A N   1 \nATOM   1085 C  CA  . ASP A 1 145 ? 24.814 24.539 10.330  1.00 30.26  ? 837  ASP A CA  1 \nATOM   1086 C  C   . ASP A 1 145 ? 23.893 24.288 11.553  1.00 24.80  ? 837  ASP A C   1 \nATOM   1087 O  O   . ASP A 1 145 ? 23.436 25.220 12.215  1.00 27.76  ? 837  ASP A O   1 \nATOM   1088 C  CB  . ASP A 1 145 ? 24.667 25.972 9.766   1.00 35.19  ? 837  ASP A CB  1 \nATOM   1089 C  CG  . ASP A 1 145 ? 25.123 27.070 10.730  1.00 39.72  ? 837  ASP A CG  1 \nATOM   1090 O  OD1 . ASP A 1 145 ? 24.630 28.217 10.587  1.00 39.41  ? 837  ASP A OD1 1 \nATOM   1091 O  OD2 . ASP A 1 145 ? 25.968 26.824 11.608  1.00 39.11  ? 837  ASP A OD2 1 \nATOM   1092 N  N   . LEU A 1 146 ? 23.664 23.019 11.894  1.00 22.90  ? 838  LEU A N   1 \nATOM   1093 C  CA  . LEU A 1 146 ? 22.936 22.738 13.109  1.00 26.01  ? 838  LEU A CA  1 \nATOM   1094 C  C   . LEU A 1 146 ? 23.734 23.109 14.359  1.00 31.57  ? 838  LEU A C   1 \nATOM   1095 O  O   . LEU A 1 146 ? 24.933 22.815 14.484  1.00 23.80  ? 838  LEU A O   1 \nATOM   1096 C  CB  . LEU A 1 146 ? 22.428 21.289 13.139  1.00 23.02  ? 838  LEU A CB  1 \nATOM   1097 C  CG  . LEU A 1 146 ? 21.594 20.979 14.380  1.00 21.58  ? 838  LEU A CG  1 \nATOM   1098 C  CD1 . LEU A 1 146 ? 20.220 21.710 14.325  1.00 23.98  ? 838  LEU A CD1 1 \nATOM   1099 C  CD2 . LEU A 1 146 ? 21.381 19.486 14.377  1.00 26.15  ? 838  LEU A CD2 1 \nATOM   1100 N  N   . ALA A 1 147 ? 23.056 23.809 15.260  1.00 25.46  ? 839  ALA A N   1 \nATOM   1101 C  CA  . ALA A 1 147 ? 23.624 24.344 16.489  1.00 26.75  ? 839  ALA A CA  1 \nATOM   1102 C  C   . ALA A 1 147 ? 22.450 24.802 17.349  1.00 26.96  ? 839  ALA A C   1 \nATOM   1103 O  O   . ALA A 1 147 ? 21.368 25.075 16.818  1.00 27.56  ? 839  ALA A O   1 \nATOM   1104 C  CB  . ALA A 1 147 ? 24.560 25.503 16.172  1.00 26.89  ? 839  ALA A CB  1 \nATOM   1105 N  N   . ALA A 1 148 ? 22.647 24.874 18.660  1.00 25.41  ? 840  ALA A N   1 \nATOM   1106 C  CA  . ALA A 1 148 ? 21.586 25.344 19.568  1.00 28.19  ? 840  ALA A CA  1 \nATOM   1107 C  C   . ALA A 1 148 ? 21.088 26.729 19.178  1.00 32.62  ? 840  ALA A C   1 \nATOM   1108 O  O   . ALA A 1 148 ? 19.888 27.022 19.337  1.00 26.09  ? 840  ALA A O   1 \nATOM   1109 C  CB  . ALA A 1 148 ? 22.036 25.315 21.015  1.00 31.55  ? 840  ALA A CB  1 \nATOM   1110 N  N   . ARG A 1 149 ? 21.988 27.573 18.667  1.00 26.53  ? 841  ARG A N   1 \nATOM   1111 C  CA  . ARG A 1 149 ? 21.564 28.878 18.116  1.00 33.68  ? 841  ARG A CA  1 \nATOM   1112 C  C   . ARG A 1 149 ? 20.540 28.815 16.971  1.00 29.87  ? 841  ARG A C   1 \nATOM   1113 O  O   . ARG A 1 149 ? 19.785 29.780 16.780  1.00 30.30  ? 841  ARG A O   1 \nATOM   1114 C  CB  . ARG A 1 149 ? 22.764 29.723 17.692  1.00 28.34  ? 841  ARG A CB  1 \nATOM   1115 C  CG  . ARG A 1 149 ? 23.404 29.295 16.373  1.00 26.85  ? 841  ARG A CG  1 \nATOM   1116 C  CD  . ARG A 1 149 ? 24.776 29.947 16.162  1.00 29.53  ? 841  ARG A CD  1 \nATOM   1117 N  NE  . ARG A 1 149 ? 25.422 29.243 15.073  1.00 31.29  ? 841  ARG A NE  1 \nATOM   1118 C  CZ  . ARG A 1 149 ? 26.341 28.302 15.254  1.00 39.55  ? 841  ARG A CZ  1 \nATOM   1119 N  NH1 . ARG A 1 149 ? 26.771 28.031 16.482  1.00 34.98  ? 841  ARG A NH1 1 \nATOM   1120 N  NH2 . ARG A 1 149 ? 26.851 27.654 14.208  1.00 34.16  ? 841  ARG A NH2 1 \nATOM   1121 N  N   . ASN A 1 150 ? 20.510 27.690 16.239  1.00 27.08  ? 842  ASN A N   1 \nATOM   1122 C  CA  . ASN A 1 150 ? 19.637 27.487 15.083  1.00 30.03  ? 842  ASN A CA  1 \nATOM   1123 C  C   . ASN A 1 150 ? 18.422 26.601 15.370  1.00 24.67  ? 842  ASN A C   1 \nATOM   1124 O  O   . ASN A 1 150 ? 17.845 25.978 14.469  1.00 27.99  ? 842  ASN A O   1 \nATOM   1125 C  CB  . ASN A 1 150 ? 20.435 27.010 13.873  1.00 29.06  ? 842  ASN A CB  1 \nATOM   1126 C  CG  . ASN A 1 150 ? 21.262 28.134 13.254  1.00 37.72  ? 842  ASN A CG  1 \nATOM   1127 O  OD1 . ASN A 1 150 ? 20.864 29.305 13.306  1.00 30.50  ? 842  ASN A OD1 1 \nATOM   1128 N  ND2 . ASN A 1 150 ? 22.422 27.794 12.679  1.00 29.81  ? 842  ASN A ND2 1 \nATOM   1129 N  N   . VAL A 1 151 ? 18.136 26.486 16.658  1.00 23.76  ? 843  VAL A N   1 \nATOM   1130 C  CA  . VAL A 1 151 ? 16.903 25.867 17.159  1.00 30.91  ? 843  VAL A CA  1 \nATOM   1131 C  C   . VAL A 1 151 ? 16.114 26.985 17.836  1.00 31.47  ? 843  VAL A C   1 \nATOM   1132 O  O   . VAL A 1 151 ? 16.638 27.662 18.721  1.00 31.89  ? 843  VAL A O   1 \nATOM   1133 C  CB  . VAL A 1 151 ? 17.212 24.725 18.140  1.00 27.97  ? 843  VAL A CB  1 \nATOM   1134 C  CG1 . VAL A 1 151 ? 15.915 24.065 18.619  1.00 27.30  ? 843  VAL A CG1 1 \nATOM   1135 C  CG2 . VAL A 1 151 ? 18.140 23.693 17.466  1.00 24.18  ? 843  VAL A CG2 1 \nATOM   1136 N  N   . LEU A 1 152 ? 14.852 27.149 17.445  1.00 31.01  ? 844  LEU A N   1 \nATOM   1137 C  CA  . LEU A 1 152 ? 14.016 28.272 17.951  1.00 28.78  ? 844  LEU A CA  1 \nATOM   1138 C  C   . LEU A 1 152 ? 12.878 27.747 18.798  1.00 31.95  ? 844  LEU A C   1 \nATOM   1139 O  O   . LEU A 1 152 ? 12.356 26.667 18.531  1.00 29.93  ? 844  LEU A O   1 \nATOM   1140 C  CB  . LEU A 1 152 ? 13.463 29.114 16.782  1.00 31.04  ? 844  LEU A CB  1 \nATOM   1141 C  CG  . LEU A 1 152 ? 14.521 29.764 15.877  1.00 31.25  ? 844  LEU A CG  1 \nATOM   1142 C  CD1 . LEU A 1 152 ? 13.961 30.700 14.816  1.00 33.04  ? 844  LEU A CD1 1 \nATOM   1143 C  CD2 . LEU A 1 152 ? 15.550 30.506 16.706  1.00 35.54  ? 844  LEU A CD2 1 \nATOM   1144 N  N   . VAL A 1 153 ? 12.508 28.516 19.819  1.00 33.45  ? 845  VAL A N   1 \nATOM   1145 C  CA  . VAL A 1 153 ? 11.410 28.169 20.722  1.00 37.40  ? 845  VAL A CA  1 \nATOM   1146 C  C   . VAL A 1 153 ? 10.050 28.660 20.197  1.00 39.79  ? 845  VAL A C   1 \nATOM   1147 O  O   . VAL A 1 153 ? 9.791  29.864 20.151  1.00 40.55  ? 845  VAL A O   1 \nATOM   1148 C  CB  . VAL A 1 153 ? 11.706 28.704 22.144  1.00 37.90  ? 845  VAL A CB  1 \nATOM   1149 C  CG1 . VAL A 1 153 ? 10.598 28.332 23.123  1.00 34.42  ? 845  VAL A CG1 1 \nATOM   1150 C  CG2 . VAL A 1 153 ? 13.046 28.162 22.639  1.00 34.23  ? 845  VAL A CG2 1 \nATOM   1151 N  N   . LYS A 1 154 ? 9.193  27.725 19.786  1.00 36.10  ? 846  LYS A N   1 \nATOM   1152 C  CA  . LYS A 1 154 ? 7.792  28.043 19.467  1.00 43.58  ? 846  LYS A CA  1 \nATOM   1153 C  C   . LYS A 1 154 ? 7.040  28.141 20.792  1.00 38.19  ? 846  LYS A C   1 \nATOM   1154 O  O   . LYS A 1 154 ? 6.412  29.158 21.072  1.00 44.16  ? 846  LYS A O   1 \nATOM   1155 C  CB  . LYS A 1 154 ? 7.146  27.007 18.536  1.00 37.43  ? 846  LYS A CB  1 \nATOM   1156 C  CG  . LYS A 1 154 ? 5.735  27.380 18.068  1.00 51.46  ? 846  LYS A CG  1 \nATOM   1157 C  CD  . LYS A 1 154 ? 5.003  26.147 17.561  1.00 57.04  ? 846  LYS A CD  1 \nATOM   1158 C  CE  . LYS A 1 154 ? 4.089  26.461 16.386  1.00 75.97  ? 846  LYS A CE  1 \nATOM   1159 N  NZ  . LYS A 1 154 ? 2.821  27.114 16.809  1.00 61.01  ? 846  LYS A NZ  1 \nATOM   1160 N  N   . THR A 1 155 ? 7.130  27.085 21.599  1.00 36.95  ? 847  THR A N   1 \nATOM   1161 C  CA  . THR A 1 155 ? 6.734  27.118 23.010  1.00 39.96  ? 847  THR A CA  1 \nATOM   1162 C  C   . THR A 1 155 ? 7.791  26.344 23.785  1.00 49.25  ? 847  THR A C   1 \nATOM   1163 O  O   . THR A 1 155 ? 8.513  25.553 23.189  1.00 46.91  ? 847  THR A O   1 \nATOM   1164 C  CB  . THR A 1 155 ? 5.344  26.477 23.270  1.00 42.03  ? 847  THR A CB  1 \nATOM   1165 O  OG1 . THR A 1 155 ? 5.416  25.049 23.139  1.00 40.28  ? 847  THR A OG1 1 \nATOM   1166 C  CG2 . THR A 1 155 ? 4.263  27.039 22.331  1.00 47.29  ? 847  THR A CG2 1 \nATOM   1167 N  N   . PRO A 1 156 ? 7.901  26.572 25.111  1.00 47.74  ? 848  PRO A N   1 \nATOM   1168 C  CA  . PRO A 1 156 ? 8.844  25.778 25.902  1.00 44.52  ? 848  PRO A CA  1 \nATOM   1169 C  C   . PRO A 1 156 ? 8.762  24.277 25.619  1.00 44.91  ? 848  PRO A C   1 \nATOM   1170 O  O   . PRO A 1 156 ? 9.757  23.575 25.766  1.00 45.92  ? 848  PRO A O   1 \nATOM   1171 C  CB  . PRO A 1 156 ? 8.410  26.061 27.339  1.00 47.17  ? 848  PRO A CB  1 \nATOM   1172 C  CG  . PRO A 1 156 ? 7.836  27.433 27.296  1.00 54.20  ? 848  PRO A CG  1 \nATOM   1173 C  CD  . PRO A 1 156 ? 7.324  27.679 25.899  1.00 53.60  ? 848  PRO A CD  1 \nATOM   1174 N  N   . GLN A 1 157 ? 7.596  23.779 25.211  1.00 43.27  ? 849  GLN A N   1 \nATOM   1175 C  CA  . GLN A 1 157 ? 7.475  22.347 24.901  1.00 42.19  ? 849  GLN A CA  1 \nATOM   1176 C  C   . GLN A 1 157 ? 7.481  22.009 23.389  1.00 42.64  ? 849  GLN A C   1 \nATOM   1177 O  O   . GLN A 1 157 ? 7.190  20.866 23.001  1.00 45.37  ? 849  GLN A O   1 \nATOM   1178 C  CB  . GLN A 1 157 ? 6.267  21.718 25.627  1.00 58.29  ? 849  GLN A CB  1 \nATOM   1179 C  CG  . GLN A 1 157 ? 4.961  22.504 25.555  1.00 66.43  ? 849  GLN A CG  1 \nATOM   1180 C  CD  . GLN A 1 157 ? 4.884  23.642 26.570  1.00 62.36  ? 849  GLN A CD  1 \nATOM   1181 O  OE1 . GLN A 1 157 ? 4.609  24.782 26.211  1.00 63.71  ? 849  GLN A OE1 1 \nATOM   1182 N  NE2 . GLN A 1 157 ? 5.141  23.334 27.838  1.00 63.07  ? 849  GLN A NE2 1 \nATOM   1183 N  N   . HIS A 1 158 ? 7.806  22.998 22.549  1.00 43.34  ? 850  HIS A N   1 \nATOM   1184 C  CA  . HIS A 1 158 ? 7.827  22.837 21.080  1.00 36.09  ? 850  HIS A CA  1 \nATOM   1185 C  C   . HIS A 1 158 ? 8.939  23.707 20.451  1.00 35.72  ? 850  HIS A C   1 \nATOM   1186 O  O   . HIS A 1 158 ? 8.834  24.935 20.398  1.00 38.30  ? 850  HIS A O   1 \nATOM   1187 C  CB  . HIS A 1 158 ? 6.465  23.232 20.495  1.00 47.52  ? 850  HIS A CB  1 \nATOM   1188 C  CG  . HIS A 1 158 ? 6.285  22.897 19.044  1.00 56.05  ? 850  HIS A CG  1 \nATOM   1189 N  ND1 . HIS A 1 158 ? 5.061  22.545 18.513  1.00 67.56  ? 850  HIS A ND1 1 \nATOM   1190 C  CD2 . HIS A 1 158 ? 7.165  22.862 18.013  1.00 46.60  ? 850  HIS A CD2 1 \nATOM   1191 C  CE1 . HIS A 1 158 ? 5.195  22.314 17.219  1.00 61.32  ? 850  HIS A CE1 1 \nATOM   1192 N  NE2 . HIS A 1 158 ? 6.461  22.497 16.891  1.00 50.10  ? 850  HIS A NE2 1 \nATOM   1193 N  N   . VAL A 1 159 ? 9.997  23.065 19.957  1.00 30.62  ? 851  VAL A N   1 \nATOM   1194 C  CA  . VAL A 1 159 ? 11.119 23.801 19.316  1.00 27.66  ? 851  VAL A CA  1 \nATOM   1195 C  C   . VAL A 1 159 ? 11.258 23.414 17.837  1.00 29.34  ? 851  VAL A C   1 \nATOM   1196 O  O   . VAL A 1 159 ? 10.790 22.339 17.409  1.00 37.31  ? 851  VAL A O   1 \nATOM   1197 C  CB  . VAL A 1 159 ? 12.459 23.615 20.093  1.00 27.08  ? 851  VAL A CB  1 \nATOM   1198 C  CG1 . VAL A 1 159 ? 12.320 24.093 21.527  1.00 28.71  ? 851  VAL A CG1 1 \nATOM   1199 C  CG2 . VAL A 1 159 ? 12.917 22.166 20.074  1.00 29.61  ? 851  VAL A CG2 1 \nATOM   1200 N  N   . LYS A 1 160 ? 11.848 24.295 17.049  1.00 25.66  ? 852  LYS A N   1 \nATOM   1201 C  CA  . LYS A 1 160 ? 11.927 24.130 15.593  1.00 29.99  ? 852  LYS A CA  1 \nATOM   1202 C  C   . LYS A 1 160 ? 13.322 24.502 15.084  1.00 31.41  ? 852  LYS A C   1 \nATOM   1203 O  O   . LYS A 1 160 ? 13.919 25.461 15.577  1.00 32.82  ? 852  LYS A O   1 \nATOM   1204 C  CB  . LYS A 1 160 ? 10.930 25.045 14.883  1.00 29.63  ? 852  LYS A CB  1 \nATOM   1205 C  CG  . LYS A 1 160 ? 9.481  24.848 15.301  1.00 35.70  ? 852  LYS A CG  1 \nATOM   1206 C  CD  . LYS A 1 160 ? 8.547  25.799 14.559  1.00 39.50  ? 852  LYS A CD  1 \nATOM   1207 C  CE  . LYS A 1 160 ? 8.240  25.299 13.156  1.00 45.39  ? 852  LYS A CE  1 \nATOM   1208 N  NZ  . LYS A 1 160 ? 7.134  26.073 12.523  1.00 54.24  ? 852  LYS A NZ  1 \nATOM   1209 N  N   . ILE A 1 161 ? 13.787 23.781 14.065  1.00 27.56  ? 853  ILE A N   1 \nATOM   1210 C  CA  . ILE A 1 161 ? 15.114 24.014 13.466  1.00 30.12  ? 853  ILE A CA  1 \nATOM   1211 C  C   . ILE A 1 161 ? 15.005 25.045 12.339  1.00 31.59  ? 853  ILE A C   1 \nATOM   1212 O  O   . ILE A 1 161 ? 14.017 25.067 11.596  1.00 31.70  ? 853  ILE A O   1 \nATOM   1213 C  CB  . ILE A 1 161 ? 15.695 22.700 12.885  1.00 25.76  ? 853  ILE A CB  1 \nATOM   1214 C  CG1 . ILE A 1 161 ? 15.805 21.647 13.983  1.00 26.76  ? 853  ILE A CG1 1 \nATOM   1215 C  CG2 . ILE A 1 161 ? 17.031 22.964 12.191  1.00 32.39  ? 853  ILE A CG2 1 \nATOM   1216 C  CD1 . ILE A 1 161 ? 15.788 20.251 13.420  1.00 36.59  ? 853  ILE A CD1 1 \nATOM   1217 N  N   . THR A 1 162 ? 16.008 25.909 12.237  1.00 25.25  ? 854  THR A N   1 \nATOM   1218 C  CA  . THR A 1 162 ? 16.073 26.896 11.179  1.00 27.24  ? 854  THR A CA  1 \nATOM   1219 C  C   . THR A 1 162 ? 17.503 26.936 10.582  1.00 28.06  ? 854  THR A C   1 \nATOM   1220 O  O   . THR A 1 162 ? 18.380 26.227 11.069  1.00 31.74  ? 854  THR A O   1 \nATOM   1221 C  CB  . THR A 1 162 ? 15.656 28.302 11.705  1.00 24.66  ? 854  THR A CB  1 \nATOM   1222 O  OG1 . THR A 1 162 ? 15.473 29.166 10.579  1.00 25.50  ? 854  THR A OG1 1 \nATOM   1223 C  CG2 . THR A 1 162 ? 16.714 28.916 12.649  1.00 28.04  ? 854  THR A CG2 1 \nATOM   1224 N  N   . ASP A 1 163 ? 17.692 27.727 9.517   1.00 26.22  ? 855  ASP A N   1 \nATOM   1225 C  CA  . ASP A 1 163 ? 19.025 28.078 8.949   1.00 33.58  ? 855  ASP A CA  1 \nATOM   1226 C  C   . ASP A 1 163 ? 19.662 26.928 8.139   1.00 27.70  ? 855  ASP A C   1 \nATOM   1227 O  O   . ASP A 1 163 ? 20.866 26.952 7.856   1.00 41.67  ? 855  ASP A O   1 \nATOM   1228 C  CB  . ASP A 1 163 ? 19.977 28.578 10.059  1.00 34.40  ? 855  ASP A CB  1 \nATOM   1229 C  CG  . ASP A 1 163 ? 20.915 29.702 9.592   1.00 43.40  ? 855  ASP A CG  1 \nATOM   1230 O  OD1 . ASP A 1 163 ? 20.500 30.546 8.761   1.00 40.77  ? 855  ASP A OD1 1 \nATOM   1231 O  OD2 . ASP A 1 163 ? 22.072 29.765 10.083  1.00 42.67  ? 855  ASP A OD2 1 \nATOM   1232 N  N   . PHE A 1 164 ? 18.848 25.931 7.775   1.00 31.84  ? 856  PHE A N   1 \nATOM   1233 C  CA  . PHE A 1 164 ? 19.295 24.768 6.988   1.00 27.77  ? 856  PHE A CA  1 \nATOM   1234 C  C   . PHE A 1 164 ? 19.514 25.134 5.526   1.00 38.25  ? 856  PHE A C   1 \nATOM   1235 O  O   . PHE A 1 164 ? 18.707 25.862 4.918   1.00 35.00  ? 856  PHE A O   1 \nATOM   1236 C  CB  . PHE A 1 164 ? 18.299 23.609 7.116   1.00 31.72  ? 856  PHE A CB  1 \nATOM   1237 C  CG  . PHE A 1 164 ? 16.859 24.013 6.902   1.00 37.42  ? 856  PHE A CG  1 \nATOM   1238 C  CD1 . PHE A 1 164 ? 16.058 24.398 7.982   1.00 39.39  ? 856  PHE A CD1 1 \nATOM   1239 C  CD2 . PHE A 1 164 ? 16.313 24.012 5.628   1.00 35.12  ? 856  PHE A CD2 1 \nATOM   1240 C  CE1 . PHE A 1 164 ? 14.722 24.772 7.786   1.00 33.38  ? 856  PHE A CE1 1 \nATOM   1241 C  CE2 . PHE A 1 164 ? 14.977 24.374 5.431   1.00 41.41  ? 856  PHE A CE2 1 \nATOM   1242 C  CZ  . PHE A 1 164 ? 14.198 24.755 6.510   1.00 31.08  ? 856  PHE A CZ  1 \nATOM   1243 N  N   . GLY A 1 165 ? 20.622 24.655 4.960   1.00 31.90  ? 857  GLY A N   1 \nATOM   1244 C  CA  . GLY A 1 165 ? 20.859 24.804 3.519   1.00 31.25  ? 857  GLY A CA  1 \nATOM   1245 C  C   . GLY A 1 165 ? 21.491 26.110 3.089   1.00 35.22  ? 857  GLY A C   1 \nATOM   1246 O  O   . GLY A 1 165 ? 21.668 26.359 1.897   1.00 36.36  ? 857  GLY A O   1 \nATOM   1247 N  N   . LEU A 1 166 ? 21.834 26.959 4.051   1.00 36.41  ? 858  LEU A N   1 \nATOM   1248 C  CA  . LEU A 1 166 ? 22.374 28.251 3.733   1.00 33.90  ? 858  LEU A CA  1 \nATOM   1249 C  C   . LEU A 1 166 ? 23.850 28.082 3.359   1.00 36.55  ? 858  LEU A C   1 \nATOM   1250 O  O   . LEU A 1 166 ? 24.343 28.746 2.449   1.00 35.70  ? 858  LEU A O   1 \nATOM   1251 C  CB  . LEU A 1 166 ? 22.223 29.193 4.931   1.00 41.10  ? 858  LEU A CB  1 \nATOM   1252 C  CG  . LEU A 1 166 ? 22.171 30.700 4.704   1.00 43.83  ? 858  LEU A CG  1 \nATOM   1253 C  CD1 . LEU A 1 166 ? 21.064 31.083 3.723   1.00 46.99  ? 858  LEU A CD1 1 \nATOM   1254 C  CD2 . LEU A 1 166 ? 21.948 31.375 6.046   1.00 35.64  ? 858  LEU A CD2 1 \nATOM   1255 N  N   . ALA A 1 167 ? 24.532 27.169 4.052   1.00 35.60  ? 859  ALA A N   1 \nATOM   1256 C  CA  . ALA A 1 167 ? 25.942 26.925 3.767   1.00 37.84  ? 859  ALA A CA  1 \nATOM   1257 C  C   . ALA A 1 167 ? 26.099 26.444 2.330   1.00 40.12  ? 859  ALA A C   1 \nATOM   1258 O  O   . ALA A 1 167 ? 27.072 26.801 1.659   1.00 37.50  ? 859  ALA A O   1 \nATOM   1259 C  CB  . ALA A 1 167 ? 26.545 25.930 4.746   1.00 34.95  ? 859  ALA A CB  1 \nATOM   1260 N  N   . LYS A 1 168 ? 25.133 25.648 1.851   1.00 35.37  ? 860  LYS A N   1 \nATOM   1261 C  CA  . LYS A 1 168 ? 25.130 25.217 0.457   1.00 40.64  ? 860  LYS A CA  1 \nATOM   1262 C  C   . LYS A 1 168 ? 24.865 26.396 -0.464  1.00 37.43  ? 860  LYS A C   1 \nATOM   1263 O  O   . LYS A 1 168 ? 25.539 26.565 -1.475  1.00 43.25  ? 860  LYS A O   1 \nATOM   1264 C  CB  . LYS A 1 168 ? 24.093 24.118 0.194   1.00 47.18  ? 860  LYS A CB  1 \nATOM   1265 C  CG  . LYS A 1 168 ? 23.823 23.875 -1.292  1.00 52.81  ? 860  LYS A CG  1 \nATOM   1266 C  CD  . LYS A 1 168 ? 23.407 22.442 -1.573  1.00 54.14  ? 860  LYS A CD  1 \nATOM   1267 C  CE  . LYS A 1 168 ? 23.585 22.101 -3.044  1.00 65.94  ? 860  LYS A CE  1 \nATOM   1268 N  NZ  . LYS A 1 168 ? 23.618 20.628 -3.255  1.00 73.01  ? 860  LYS A NZ  1 \nATOM   1269 N  N   . LEU A 1 169 ? 23.869 27.198 -0.120  1.00 35.22  ? 861  LEU A N   1 \nATOM   1270 C  CA  . LEU A 1 169 ? 23.469 28.302 -0.989  1.00 42.52  ? 861  LEU A CA  1 \nATOM   1271 C  C   . LEU A 1 169 ? 24.635 29.262 -1.217  1.00 43.31  ? 861  LEU A C   1 \nATOM   1272 O  O   . LEU A 1 169 ? 24.785 29.824 -2.307  1.00 42.59  ? 861  LEU A O   1 \nATOM   1273 C  CB  . LEU A 1 169 ? 22.281 29.042 -0.379  1.00 45.30  ? 861  LEU A CB  1 \nATOM   1274 C  CG  . LEU A 1 169 ? 21.724 30.283 -1.079  1.00 60.80  ? 861  LEU A CG  1 \nATOM   1275 C  CD1 . LEU A 1 169 ? 21.344 29.986 -2.523  1.00 74.68  ? 861  LEU A CD1 1 \nATOM   1276 C  CD2 . LEU A 1 169 ? 20.527 30.808 -0.297  1.00 46.66  ? 861  LEU A CD2 1 \nATOM   1277 N  N   . LEU A 1 170 ? 25.458 29.422 -0.184  1.00 43.61  ? 862  LEU A N   1 \nATOM   1278 C  CA  . LEU A 1 170 ? 26.554 30.390 -0.192  1.00 47.31  ? 862  LEU A CA  1 \nATOM   1279 C  C   . LEU A 1 170 ? 27.869 29.821 -0.747  1.00 48.26  ? 862  LEU A C   1 \nATOM   1280 O  O   . LEU A 1 170 ? 28.882 30.523 -0.807  1.00 49.35  ? 862  LEU A O   1 \nATOM   1281 C  CB  . LEU A 1 170 ? 26.749 30.970 1.218   1.00 45.15  ? 862  LEU A CB  1 \nATOM   1282 C  CG  . LEU A 1 170 ? 25.676 31.944 1.740   1.00 45.97  ? 862  LEU A CG  1 \nATOM   1283 C  CD1 . LEU A 1 170 ? 25.961 32.300 3.191   1.00 48.31  ? 862  LEU A CD1 1 \nATOM   1284 C  CD2 . LEU A 1 170 ? 25.608 33.210 0.888   1.00 47.47  ? 862  LEU A CD2 1 \nATOM   1285 N  N   . GLY A 1 171 ? 27.853 28.549 -1.142  1.00 49.38  ? 863  GLY A N   1 \nATOM   1286 C  CA  . GLY A 1 171 ? 29.018 27.916 -1.781  1.00 45.16  ? 863  GLY A CA  1 \nATOM   1287 C  C   . GLY A 1 171 ? 30.128 27.447 -0.847  1.00 39.80  ? 863  GLY A C   1 \nATOM   1288 O  O   . GLY A 1 171 ? 31.286 27.311 -1.271  1.00 50.15  ? 863  GLY A O   1 \nATOM   1289 N  N   . ALA A 1 172 ? 29.787 27.166 0.413   1.00 40.85  ? 864  ALA A N   1 \nATOM   1290 C  CA  . ALA A 1 172 ? 30.789 26.748 1.398   1.00 42.57  ? 864  ALA A CA  1 \nATOM   1291 C  C   . ALA A 1 172 ? 31.329 25.336 1.148   1.00 38.79  ? 864  ALA A C   1 \nATOM   1292 O  O   . ALA A 1 172 ? 32.211 24.884 1.866   1.00 42.81  ? 864  ALA A O   1 \nATOM   1293 C  CB  . ALA A 1 172 ? 30.257 26.864 2.811   1.00 41.45  ? 864  ALA A CB  1 \nATOM   1294 N  N   . GLU A 1 173 ? 30.779 24.650 0.148   1.00 36.82  ? 865  GLU A N   1 \nATOM   1295 C  CA  . GLU A 1 173 ? 31.281 23.322 -0.252  1.00 44.30  ? 865  GLU A CA  1 \nATOM   1296 C  C   . GLU A 1 173 ? 32.377 23.443 -1.311  1.00 47.98  ? 865  GLU A C   1 \nATOM   1297 O  O   . GLU A 1 173 ? 32.982 22.444 -1.707  1.00 40.23  ? 865  GLU A O   1 \nATOM   1298 C  CB  . GLU A 1 173 ? 30.145 22.407 -0.761  1.00 41.00  ? 865  GLU A CB  1 \nATOM   1299 C  CG  . GLU A 1 173 ? 29.020 22.190 0.244   1.00 53.30  ? 865  GLU A CG  1 \nATOM   1300 C  CD  . GLU A 1 173 ? 28.086 21.053 -0.137  1.00 66.21  ? 865  GLU A CD  1 \nATOM   1301 O  OE1 . GLU A 1 173 ? 27.442 20.512 0.782   1.00 56.09  ? 865  GLU A OE1 1 \nATOM   1302 O  OE2 . GLU A 1 173 ? 27.997 20.692 -1.337  1.00 63.67  ? 865  GLU A OE2 1 \nATOM   1303 N  N   . GLU A 1 174 ? 32.612 24.670 -1.770  1.00 47.17  ? 866  GLU A N   1 \nATOM   1304 C  CA  . GLU A 1 174 ? 33.608 24.955 -2.807  1.00 46.40  ? 866  GLU A CA  1 \nATOM   1305 C  C   . GLU A 1 174 ? 34.700 25.832 -2.210  1.00 40.98  ? 866  GLU A C   1 \nATOM   1306 O  O   . GLU A 1 174 ? 34.497 26.450 -1.164  1.00 38.94  ? 866  GLU A O   1 \nATOM   1307 C  CB  . GLU A 1 174 ? 32.956 25.644 -4.019  1.00 46.22  ? 866  GLU A CB  1 \nATOM   1308 C  CG  . GLU A 1 174 ? 32.102 24.730 -4.897  1.00 54.50  ? 866  GLU A CG  1 \nATOM   1309 C  CD  . GLU A 1 174 ? 30.714 24.468 -4.337  1.00 68.80  ? 866  GLU A CD  1 \nATOM   1310 O  OE1 . GLU A 1 174 ? 30.121 23.425 -4.688  1.00 79.63  ? 866  GLU A OE1 1 \nATOM   1311 O  OE2 . GLU A 1 174 ? 30.206 25.299 -3.553  1.00 68.10  ? 866  GLU A OE2 1 \nATOM   1312 N  N   . LYS A 1 175 ? 35.854 25.893 -2.877  1.00 37.24  ? 867  LYS A N   1 \nATOM   1313 C  CA  . LYS A 1 175 ? 37.036 26.539 -2.313  1.00 47.53  ? 867  LYS A CA  1 \nATOM   1314 C  C   . LYS A 1 175 ? 36.911 28.067 -2.320  1.00 42.85  ? 867  LYS A C   1 \nATOM   1315 O  O   . LYS A 1 175 ? 37.482 28.740 -1.459  1.00 40.83  ? 867  LYS A O   1 \nATOM   1316 C  CB  . LYS A 1 175 ? 38.325 26.074 -3.037  1.00 37.61  ? 867  LYS A CB  1 \nATOM   1317 C  CG  . LYS A 1 175 ? 38.432 26.433 -4.517  1.00 41.83  ? 867  LYS A CG  1 \nATOM   1318 C  CD  . LYS A 1 175 ? 39.175 25.359 -5.323  1.00 39.74  ? 867  LYS A CD  1 \nATOM   1319 C  CE  . LYS A 1 175 ? 38.867 25.438 -6.819  1.00 39.65  ? 867  LYS A CE  1 \nATOM   1320 N  NZ  . LYS A 1 175 ? 37.395 25.435 -7.144  1.00 43.75  ? 867  LYS A NZ  1 \nATOM   1321 N  N   . GLU A 1 176 ? 36.150 28.584 -3.288  1.00 40.06  ? 868  GLU A N   1 \nATOM   1322 C  CA  . GLU A 1 176 ? 36.053 30.019 -3.559  1.00 46.64  ? 868  GLU A CA  1 \nATOM   1323 C  C   . GLU A 1 176 ? 35.553 30.809 -2.344  1.00 48.10  ? 868  GLU A C   1 \nATOM   1324 O  O   . GLU A 1 176 ? 36.168 31.809 -1.964  1.00 42.32  ? 868  GLU A O   1 \nATOM   1325 C  CB  . GLU A 1 176 ? 35.192 30.281 -4.806  1.00 51.74  ? 868  GLU A CB  1 \nATOM   1326 C  CG  . GLU A 1 176 ? 35.891 29.990 -6.136  1.00 53.17  ? 868  GLU A CG  1 \nATOM   1327 C  CD  . GLU A 1 176 ? 35.976 28.505 -6.493  1.00 55.69  ? 868  GLU A CD  1 \nATOM   1328 O  OE1 . GLU A 1 176 ? 35.179 27.686 -5.971  1.00 42.46  ? 868  GLU A OE1 1 \nATOM   1329 O  OE2 . GLU A 1 176 ? 36.850 28.153 -7.324  1.00 48.42  ? 868  GLU A OE2 1 \nATOM   1330 N  N   . TYR A 1 177 ? 34.454 30.346 -1.739  1.00 45.27  ? 869  TYR A N   1 \nATOM   1331 C  CA  . TYR A 1 177 ? 33.932 30.900 -0.471  1.00 44.49  ? 869  TYR A CA  1 \nATOM   1332 C  C   . TYR A 1 177 ? 35.024 31.102 0.592   1.00 48.57  ? 869  TYR A C   1 \nATOM   1333 O  O   . TYR A 1 177 ? 35.104 32.164 1.215   1.00 44.29  ? 869  TYR A O   1 \nATOM   1334 C  CB  . TYR A 1 177 ? 32.801 29.997 0.082   1.00 48.00  ? 869  TYR A CB  1 \nATOM   1335 C  CG  . TYR A 1 177 ? 32.241 30.446 1.420   1.00 43.34  ? 869  TYR A CG  1 \nATOM   1336 C  CD1 . TYR A 1 177 ? 32.588 29.791 2.597   1.00 37.95  ? 869  TYR A CD1 1 \nATOM   1337 C  CD2 . TYR A 1 177 ? 31.372 31.544 1.509   1.00 44.45  ? 869  TYR A CD2 1 \nATOM   1338 C  CE1 . TYR A 1 177 ? 32.083 30.202 3.827   1.00 37.47  ? 869  TYR A CE1 1 \nATOM   1339 C  CE2 . TYR A 1 177 ? 30.878 31.968 2.739   1.00 42.96  ? 869  TYR A CE2 1 \nATOM   1340 C  CZ  . TYR A 1 177 ? 31.234 31.291 3.891   1.00 42.37  ? 869  TYR A CZ  1 \nATOM   1341 O  OH  . TYR A 1 177 ? 30.756 31.702 5.118   1.00 42.81  ? 869  TYR A OH  1 \nATOM   1342 N  N   . HIS A 1 178 ? 35.870 30.090 0.777   1.00 42.45  ? 870  HIS A N   1 \nATOM   1343 C  CA  . HIS A 1 178 ? 36.910 30.105 1.819   1.00 39.96  ? 870  HIS A CA  1 \nATOM   1344 C  C   . HIS A 1 178 ? 38.101 30.984 1.432   1.00 48.03  ? 870  HIS A C   1 \nATOM   1345 O  O   . HIS A 1 178 ? 38.716 31.644 2.285   1.00 44.35  ? 870  HIS A O   1 \nATOM   1346 C  CB  . HIS A 1 178 ? 37.352 28.671 2.130   1.00 43.61  ? 870  HIS A CB  1 \nATOM   1347 C  CG  . HIS A 1 178 ? 36.249 27.816 2.689   1.00 45.24  ? 870  HIS A CG  1 \nATOM   1348 N  ND1 . HIS A 1 178 ? 35.330 27.165 1.891   1.00 48.50  ? 870  HIS A ND1 1 \nATOM   1349 C  CD2 . HIS A 1 178 ? 35.909 27.525 3.966   1.00 41.55  ? 870  HIS A CD2 1 \nATOM   1350 C  CE1 . HIS A 1 178 ? 34.478 26.501 2.653   1.00 40.12  ? 870  HIS A CE1 1 \nATOM   1351 N  NE2 . HIS A 1 178 ? 34.803 26.708 3.917   1.00 54.39  ? 870  HIS A NE2 1 \nATOM   1352 N  N   . ALA A 1 179 ? 38.424 30.987 0.142   1.00 48.53  ? 871  ALA A N   1 \nATOM   1353 C  CA  . ALA A 1 179 ? 39.483 31.851 -0.386  1.00 52.92  ? 871  ALA A CA  1 \nATOM   1354 C  C   . ALA A 1 179 ? 39.090 33.330 -0.289  1.00 57.64  ? 871  ALA A C   1 \nATOM   1355 O  O   . ALA A 1 179 ? 39.955 34.191 -0.122  1.00 49.04  ? 871  ALA A O   1 \nATOM   1356 C  CB  . ALA A 1 179 ? 39.812 31.468 -1.828  1.00 50.28  ? 871  ALA A CB  1 \nATOM   1357 N  N   . GLU A 1 180 ? 37.784 33.610 -0.363  1.00 52.01  ? 872  GLU A N   1 \nATOM   1358 C  CA  . GLU A 1 180 ? 37.262 34.982 -0.336  1.00 56.03  ? 872  GLU A CA  1 \nATOM   1359 C  C   . GLU A 1 180 ? 36.943 35.500 1.077   1.00 59.17  ? 872  GLU A C   1 \nATOM   1360 O  O   . GLU A 1 180 ? 36.239 36.500 1.231   1.00 61.85  ? 872  GLU A O   1 \nATOM   1361 C  CB  . GLU A 1 180 ? 36.029 35.099 -1.244  1.00 68.02  ? 872  GLU A CB  1 \nATOM   1362 C  CG  . GLU A 1 180 ? 36.346 35.099 -2.734  1.00 77.21  ? 872  GLU A CG  1 \nATOM   1363 C  CD  . GLU A 1 180 ? 35.157 34.711 -3.601  1.00 97.81  ? 872  GLU A CD  1 \nATOM   1364 O  OE1 . GLU A 1 180 ? 34.010 35.092 -3.275  1.00 102.61 ? 872  GLU A OE1 1 \nATOM   1365 O  OE2 . GLU A 1 180 ? 35.372 34.023 -4.622  1.00 97.00  ? 872  GLU A OE2 1 \nATOM   1366 N  N   . GLY A 1 181 ? 37.469 34.823 2.098   1.00 58.69  ? 873  GLY A N   1 \nATOM   1367 C  CA  . GLY A 1 181 ? 37.326 35.262 3.487   1.00 54.40  ? 873  GLY A CA  1 \nATOM   1368 C  C   . GLY A 1 181 ? 36.155 34.670 4.258   1.00 44.99  ? 873  GLY A C   1 \nATOM   1369 O  O   . GLY A 1 181 ? 35.994 34.948 5.449   1.00 46.72  ? 873  GLY A O   1 \nATOM   1370 N  N   . GLY A 1 182 ? 35.348 33.841 3.597   1.00 41.02  ? 874  GLY A N   1 \nATOM   1371 C  CA  . GLY A 1 182 ? 34.156 33.248 4.231   1.00 46.70  ? 874  GLY A CA  1 \nATOM   1372 C  C   . GLY A 1 182 ? 34.533 32.316 5.367   1.00 46.89  ? 874  GLY A C   1 \nATOM   1373 O  O   . GLY A 1 182 ? 35.565 31.640 5.303   1.00 38.65  ? 874  GLY A O   1 \nATOM   1374 N  N   . LYS A 1 183 ? 33.707 32.283 6.417   1.00 40.97  ? 875  LYS A N   1 \nATOM   1375 C  CA  . LYS A 1 183 ? 33.971 31.414 7.573   1.00 44.70  ? 875  LYS A CA  1 \nATOM   1376 C  C   . LYS A 1 183 ? 32.851 30.407 7.758   1.00 45.71  ? 875  LYS A C   1 \nATOM   1377 O  O   . LYS A 1 183 ? 31.728 30.605 7.264   1.00 42.27  ? 875  LYS A O   1 \nATOM   1378 C  CB  . LYS A 1 183 ? 34.153 32.227 8.861   1.00 57.63  ? 875  LYS A CB  1 \nATOM   1379 C  CG  . LYS A 1 183 ? 35.303 33.225 8.833   1.00 64.74  ? 875  LYS A CG  1 \nATOM   1380 C  CD  . LYS A 1 183 ? 36.627 32.601 9.255   1.00 68.35  ? 875  LYS A CD  1 \nATOM   1381 C  CE  . LYS A 1 183 ? 37.710 33.669 9.334   1.00 73.60  ? 875  LYS A CE  1 \nATOM   1382 N  NZ  . LYS A 1 183 ? 38.878 33.251 10.159  1.00 70.79  ? 875  LYS A NZ  1 \nATOM   1383 N  N   . VAL A 1 184 ? 33.178 29.320 8.449   1.00 41.20  ? 876  VAL A N   1 \nATOM   1384 C  CA  . VAL A 1 184 ? 32.211 28.241 8.736   1.00 40.30  ? 876  VAL A CA  1 \nATOM   1385 C  C   . VAL A 1 184 ? 32.294 27.905 10.232  1.00 36.00  ? 876  VAL A C   1 \nATOM   1386 O  O   . VAL A 1 184 ? 33.310 28.204 10.880  1.00 41.42  ? 876  VAL A O   1 \nATOM   1387 C  CB  . VAL A 1 184 ? 32.448 26.993 7.845   1.00 35.33  ? 876  VAL A CB  1 \nATOM   1388 C  CG1 . VAL A 1 184 ? 31.864 27.218 6.452   1.00 38.11  ? 876  VAL A CG1 1 \nATOM   1389 C  CG2 . VAL A 1 184 ? 33.937 26.669 7.743   1.00 40.25  ? 876  VAL A CG2 1 \nATOM   1390 N  N   . PRO A 1 185 ? 31.232 27.304 10.788  1.00 36.65  ? 877  PRO A N   1 \nATOM   1391 C  CA  . PRO A 1 185 ? 31.168 27.085 12.243  1.00 32.43  ? 877  PRO A CA  1 \nATOM   1392 C  C   . PRO A 1 185 ? 31.989 25.871 12.669  1.00 33.61  ? 877  PRO A C   1 \nATOM   1393 O  O   . PRO A 1 185 ? 31.446 24.822 12.981  1.00 29.15  ? 877  PRO A O   1 \nATOM   1394 C  CB  . PRO A 1 185 ? 29.664 26.864 12.491  1.00 35.69  ? 877  PRO A CB  1 \nATOM   1395 C  CG  . PRO A 1 185 ? 29.144 26.302 11.211  1.00 33.67  ? 877  PRO A CG  1 \nATOM   1396 C  CD  . PRO A 1 185 ? 29.979 26.910 10.106  1.00 41.66  ? 877  PRO A CD  1 \nATOM   1397 N  N   . ILE A 1 186 ? 33.310 26.025 12.729  1.00 27.90  ? 878  ILE A N   1 \nATOM   1398 C  CA  . ILE A 1 186 ? 34.195 24.889 12.915  1.00 32.46  ? 878  ILE A CA  1 \nATOM   1399 C  C   . ILE A 1 186 ? 33.910 24.020 14.142  1.00 28.85  ? 878  ILE A C   1 \nATOM   1400 O  O   . ILE A 1 186 ? 34.082 22.801 14.086  1.00 28.98  ? 878  ILE A O   1 \nATOM   1401 C  CB  . ILE A 1 186 ? 35.683 25.345 12.980  1.00 32.09  ? 878  ILE A CB  1 \nATOM   1402 C  CG1 . ILE A 1 186 ? 36.148 25.881 11.621  1.00 36.30  ? 878  ILE A CG1 1 \nATOM   1403 C  CG2 . ILE A 1 186 ? 36.569 24.207 13.469  1.00 32.69  ? 878  ILE A CG2 1 \nATOM   1404 C  CD1 . ILE A 1 186 ? 36.435 24.842 10.543  1.00 39.95  ? 878  ILE A CD1 1 \nATOM   1405 N  N   . LYS A 1 187 ? 33.533 24.645 15.259  1.00 29.60  ? 879  LYS A N   1 \nATOM   1406 C  CA  . LYS A 1 187 ? 33.367 23.911 16.510  1.00 26.22  ? 879  LYS A CA  1 \nATOM   1407 C  C   . LYS A 1 187 ? 32.094 23.034 16.526  1.00 24.84  ? 879  LYS A C   1 \nATOM   1408 O  O   . LYS A 1 187 ? 31.891 22.260 17.448  1.00 28.78  ? 879  LYS A O   1 \nATOM   1409 C  CB  . LYS A 1 187 ? 33.430 24.858 17.716  1.00 28.83  ? 879  LYS A CB  1 \nATOM   1410 C  CG  . LYS A 1 187 ? 34.842 25.401 17.951  1.00 38.19  ? 879  LYS A CG  1 \nATOM   1411 C  CD  . LYS A 1 187 ? 34.830 26.562 18.934  1.00 40.19  ? 879  LYS A CD  1 \nATOM   1412 C  CE  . LYS A 1 187 ? 36.246 27.029 19.228  1.00 32.84  ? 879  LYS A CE  1 \nATOM   1413 N  NZ  . LYS A 1 187 ? 36.263 28.136 20.240  1.00 34.70  ? 879  LYS A NZ  1 \nATOM   1414 N  N   . TRP A 1 188 ? 31.280 23.157 15.489  1.00 24.85  ? 880  TRP A N   1 \nATOM   1415 C  CA  . TRP A 1 188 ? 30.110 22.292 15.307  1.00 31.64  ? 880  TRP A CA  1 \nATOM   1416 C  C   . TRP A 1 188 ? 30.306 21.259 14.183  1.00 30.59  ? 880  TRP A C   1 \nATOM   1417 O  O   . TRP A 1 188 ? 29.457 20.390 13.978  1.00 34.02  ? 880  TRP A O   1 \nATOM   1418 C  CB  . TRP A 1 188 ? 28.878 23.149 15.031  1.00 27.14  ? 880  TRP A CB  1 \nATOM   1419 C  CG  . TRP A 1 188 ? 28.339 23.795 16.290  1.00 28.73  ? 880  TRP A CG  1 \nATOM   1420 C  CD1 . TRP A 1 188 ? 27.276 23.367 17.051  1.00 28.66  ? 880  TRP A CD1 1 \nATOM   1421 C  CD2 . TRP A 1 188 ? 28.859 24.962 16.945  1.00 31.97  ? 880  TRP A CD2 1 \nATOM   1422 N  NE1 . TRP A 1 188 ? 27.115 24.199 18.138  1.00 28.60  ? 880  TRP A NE1 1 \nATOM   1423 C  CE2 . TRP A 1 188 ? 28.064 25.190 18.091  1.00 30.62  ? 880  TRP A CE2 1 \nATOM   1424 C  CE3 . TRP A 1 188 ? 29.917 25.850 16.662  1.00 31.59  ? 880  TRP A CE3 1 \nATOM   1425 C  CZ2 . TRP A 1 188 ? 28.291 26.276 18.965  1.00 31.23  ? 880  TRP A CZ2 1 \nATOM   1426 C  CZ3 . TRP A 1 188 ? 30.154 26.923 17.542  1.00 30.88  ? 880  TRP A CZ3 1 \nATOM   1427 C  CH2 . TRP A 1 188 ? 29.358 27.112 18.676  1.00 25.65  ? 880  TRP A CH2 1 \nATOM   1428 N  N   . MET A 1 189 ? 31.427 21.349 13.460  1.00 27.44  ? 881  MET A N   1 \nATOM   1429 C  CA  . MET A 1 189 ? 31.540 20.623 12.193  1.00 26.86  ? 881  MET A CA  1 \nATOM   1430 C  C   . MET A 1 189 ? 32.150 19.249 12.353  1.00 28.50  ? 881  MET A C   1 \nATOM   1431 O  O   . MET A 1 189 ? 33.062 19.068 13.159  1.00 28.72  ? 881  MET A O   1 \nATOM   1432 C  CB  . MET A 1 189 ? 32.326 21.432 11.154  1.00 29.39  ? 881  MET A CB  1 \nATOM   1433 C  CG  . MET A 1 189 ? 31.563 22.600 10.554  1.00 32.10  ? 881  MET A CG  1 \nATOM   1434 S  SD  . MET A 1 189 ? 32.705 23.710 9.728   1.00 36.98  ? 881  MET A SD  1 \nATOM   1435 C  CE  . MET A 1 189 ? 33.274 22.696 8.370   1.00 32.20  ? 881  MET A CE  1 \nATOM   1436 N  N   . ALA A 1 190 ? 31.666 18.280 11.573  1.00 27.59  ? 882  ALA A N   1 \nATOM   1437 C  CA  . ALA A 1 190 ? 32.274 16.941 11.583  1.00 23.42  ? 882  ALA A CA  1 \nATOM   1438 C  C   . ALA A 1 190 ? 33.701 17.054 11.025  1.00 26.24  ? 882  ALA A C   1 \nATOM   1439 O  O   . ALA A 1 190 ? 33.983 17.914 10.193  1.00 25.83  ? 882  ALA A O   1 \nATOM   1440 C  CB  . ALA A 1 190 ? 31.483 15.966 10.710  1.00 21.36  ? 882  ALA A CB  1 \nATOM   1441 N  N   . LEU A 1 191 ? 34.575 16.153 11.432  1.00 29.23  ? 883  LEU A N   1 \nATOM   1442 C  CA  . LEU A 1 191 ? 35.973 16.210 10.953  1.00 30.11  ? 883  LEU A CA  1 \nATOM   1443 C  C   . LEU A 1 191 ? 36.095 16.155 9.415   1.00 31.93  ? 883  LEU A C   1 \nATOM   1444 O  O   . LEU A 1 191 ? 36.886 16.913 8.820   1.00 28.83  ? 883  LEU A O   1 \nATOM   1445 C  CB  . LEU A 1 191 ? 36.804 15.101 11.603  1.00 29.10  ? 883  LEU A CB  1 \nATOM   1446 C  CG  . LEU A 1 191 ? 38.327 15.214 11.398  1.00 28.93  ? 883  LEU A CG  1 \nATOM   1447 C  CD1 . LEU A 1 191 ? 38.797 16.632 11.665  1.00 33.97  ? 883  LEU A CD1 1 \nATOM   1448 C  CD2 . LEU A 1 191 ? 39.017 14.211 12.293  1.00 29.31  ? 883  LEU A CD2 1 \nATOM   1449 N  N   . GLU A 1 192 ? 35.311 15.288 8.761   1.00 21.95  ? 884  GLU A N   1 \nATOM   1450 C  CA  . GLU A 1 192 ? 35.344 15.209 7.296   1.00 22.92  ? 884  GLU A CA  1 \nATOM   1451 C  C   . GLU A 1 192 ? 34.876 16.508 6.591   1.00 26.17  ? 884  GLU A C   1 \nATOM   1452 O  O   . GLU A 1 192 ? 35.268 16.778 5.447   1.00 24.35  ? 884  GLU A O   1 \nATOM   1453 C  CB  . GLU A 1 192 ? 34.646 13.943 6.753   1.00 26.86  ? 884  GLU A CB  1 \nATOM   1454 C  CG  . GLU A 1 192 ? 33.105 13.951 6.895   1.00 27.94  ? 884  GLU A CG  1 \nATOM   1455 C  CD  . GLU A 1 192 ? 32.564 13.567 8.273   1.00 29.05  ? 884  GLU A CD  1 \nATOM   1456 O  OE1 . GLU A 1 192 ? 33.301 13.408 9.265   1.00 25.06  ? 884  GLU A OE1 1 \nATOM   1457 O  OE2 . GLU A 1 192 ? 31.319 13.447 8.409   1.00 23.90  ? 884  GLU A OE2 1 \nATOM   1458 N  N   . SER A 1 193 ? 34.033 17.294 7.263   1.00 30.81  ? 885  SER A N   1 \nATOM   1459 C  CA  . SER A 1 193 ? 33.587 18.585 6.721   1.00 25.73  ? 885  SER A CA  1 \nATOM   1460 C  C   . SER A 1 193 ? 34.723 19.608 6.802   1.00 27.51  ? 885  SER A C   1 \nATOM   1461 O  O   . SER A 1 193 ? 34.939 20.392 5.877   1.00 29.16  ? 885  SER A O   1 \nATOM   1462 C  CB  . SER A 1 193 ? 32.382 19.102 7.520   1.00 26.41  ? 885  SER A CB  1 \nATOM   1463 O  OG  . SER A 1 193 ? 31.330 18.146 7.461   1.00 29.44  ? 885  SER A OG  1 \nATOM   1464 N  N   . ILE A 1 194 ? 35.414 19.578 7.929   1.00 25.32  ? 886  ILE A N   1 \nATOM   1465 C  CA  . ILE A 1 194 ? 36.574 20.454 8.176   1.00 30.05  ? 886  ILE A CA  1 \nATOM   1466 C  C   . ILE A 1 194 ? 37.659 20.144 7.152   1.00 30.18  ? 886  ILE A C   1 \nATOM   1467 O  O   . ILE A 1 194 ? 38.150 21.055 6.475   1.00 32.84  ? 886  ILE A O   1 \nATOM   1468 C  CB  . ILE A 1 194 ? 37.110 20.303 9.615   1.00 36.22  ? 886  ILE A CB  1 \nATOM   1469 C  CG1 . ILE A 1 194 ? 36.049 20.780 10.634  1.00 31.72  ? 886  ILE A CG1 1 \nATOM   1470 C  CG2 . ILE A 1 194 ? 38.400 21.107 9.804   1.00 32.89  ? 886  ILE A CG2 1 \nATOM   1471 C  CD1 . ILE A 1 194 ? 36.393 20.470 12.086  1.00 30.73  ? 886  ILE A CD1 1 \nATOM   1472 N  N   . LEU A 1 195 ? 37.993 18.853 6.989   1.00 31.51  ? 887  LEU A N   1 \nATOM   1473 C  CA  . LEU A 1 195 ? 39.125 18.443 6.148   1.00 34.19  ? 887  LEU A CA  1 \nATOM   1474 C  C   . LEU A 1 195 ? 38.849 18.409 4.655   1.00 36.04  ? 887  LEU A C   1 \nATOM   1475 O  O   . LEU A 1 195 ? 39.732 18.687 3.891   1.00 26.34  ? 887  LEU A O   1 \nATOM   1476 C  CB  . LEU A 1 195 ? 39.729 17.097 6.600   1.00 30.53  ? 887  LEU A CB  1 \nATOM   1477 C  CG  . LEU A 1 195 ? 40.150 17.042 8.077   1.00 39.64  ? 887  LEU A CG  1 \nATOM   1478 C  CD1 . LEU A 1 195 ? 40.469 15.608 8.488   1.00 38.89  ? 887  LEU A CD1 1 \nATOM   1479 C  CD2 . LEU A 1 195 ? 41.336 17.967 8.366   1.00 35.87  ? 887  LEU A CD2 1 \nATOM   1480 N  N   . HIS A 1 196 ? 37.628 18.086 4.233   1.00 26.10  ? 888  HIS A N   1 \nATOM   1481 C  CA  . HIS A 1 196 ? 37.369 17.835 2.818   1.00 24.98  ? 888  HIS A CA  1 \nATOM   1482 C  C   . HIS A 1 196 ? 36.058 18.409 2.302   1.00 28.24  ? 888  HIS A C   1 \nATOM   1483 O  O   . HIS A 1 196 ? 35.654 18.072 1.186   1.00 27.84  ? 888  HIS A O   1 \nATOM   1484 C  CB  . HIS A 1 196 ? 37.363 16.319 2.542   1.00 29.19  ? 888  HIS A CB  1 \nATOM   1485 C  CG  . HIS A 1 196 ? 38.705 15.681 2.728   1.00 31.15  ? 888  HIS A CG  1 \nATOM   1486 N  ND1 . HIS A 1 196 ? 39.739 15.857 1.835   1.00 34.56  ? 888  HIS A ND1 1 \nATOM   1487 C  CD2 . HIS A 1 196 ? 39.188 14.892 3.718   1.00 31.38  ? 888  HIS A CD2 1 \nATOM   1488 C  CE1 . HIS A 1 196 ? 40.807 15.208 2.270   1.00 34.69  ? 888  HIS A CE1 1 \nATOM   1489 N  NE2 . HIS A 1 196 ? 40.496 14.601 3.401   1.00 35.08  ? 888  HIS A NE2 1 \nATOM   1490 N  N   . ARG A 1 197 ? 35.422 19.255 3.114   1.00 25.02  ? 889  ARG A N   1 \nATOM   1491 C  CA  . ARG A 1 197 ? 34.179 19.942 2.731   1.00 32.39  ? 889  ARG A CA  1 \nATOM   1492 C  C   . ARG A 1 197 ? 33.118 18.923 2.370   1.00 26.78  ? 889  ARG A C   1 \nATOM   1493 O  O   . ARG A 1 197 ? 32.276 19.159 1.484   1.00 29.23  ? 889  ARG A O   1 \nATOM   1494 C  CB  . ARG A 1 197 ? 34.429 20.930 1.578   1.00 31.37  ? 889  ARG A CB  1 \nATOM   1495 C  CG  . ARG A 1 197 ? 35.516 21.943 1.891   1.00 33.25  ? 889  ARG A CG  1 \nATOM   1496 C  CD  . ARG A 1 197 ? 35.608 22.980 0.779   1.00 39.11  ? 889  ARG A CD  1 \nATOM   1497 N  NE  . ARG A 1 197 ? 36.544 24.044 1.105   1.00 37.65  ? 889  ARG A NE  1 \nATOM   1498 C  CZ  . ARG A 1 197 ? 37.701 24.266 0.468   1.00 46.93  ? 889  ARG A CZ  1 \nATOM   1499 N  NH1 . ARG A 1 197 ? 38.074 23.526 -0.570  1.00 38.03  ? 889  ARG A NH1 1 \nATOM   1500 N  NH2 . ARG A 1 197 ? 38.476 25.267 0.846   1.00 40.00  ? 889  ARG A NH2 1 \nATOM   1501 N  N   . ILE A 1 198 ? 33.175 17.774 3.039   1.00 26.13  ? 890  ILE A N   1 \nATOM   1502 C  CA  . ILE A 1 198 ? 32.145 16.730 2.876   1.00 29.66  ? 890  ILE A CA  1 \nATOM   1503 C  C   . ILE A 1 198 ? 31.018 17.016 3.855   1.00 26.43  ? 890  ILE A C   1 \nATOM   1504 O  O   . ILE A 1 198 ? 31.245 17.066 5.063   1.00 26.43  ? 890  ILE A O   1 \nATOM   1505 C  CB  . ILE A 1 198 ? 32.701 15.296 3.144   1.00 29.59  ? 890  ILE A CB  1 \nATOM   1506 C  CG1 . ILE A 1 198 ? 33.716 14.901 2.071   1.00 34.56  ? 890  ILE A CG1 1 \nATOM   1507 C  CG2 . ILE A 1 198 ? 31.564 14.262 3.147   1.00 26.41  ? 890  ILE A CG2 1 \nATOM   1508 C  CD1 . ILE A 1 198 ? 34.686 13.798 2.502   1.00 27.38  ? 890  ILE A CD1 1 \nATOM   1509 N  N   . TYR A 1 199 ? 29.787 17.135 3.328   1.00 27.40  ? 891  TYR A N   1 \nATOM   1510 C  CA  . TYR A 1 199 ? 28.606 17.370 4.144   1.00 29.79  ? 891  TYR A CA  1 \nATOM   1511 C  C   . TYR A 1 199 ? 27.537 16.381 3.726   1.00 26.49  ? 891  TYR A C   1 \nATOM   1512 O  O   . TYR A 1 199 ? 27.188 16.314 2.550   1.00 29.21  ? 891  TYR A O   1 \nATOM   1513 C  CB  . TYR A 1 199 ? 28.046 18.756 3.884   1.00 31.16  ? 891  TYR A CB  1 \nATOM   1514 C  CG  . TYR A 1 199 ? 28.844 19.897 4.436   1.00 32.59  ? 891  TYR A CG  1 \nATOM   1515 C  CD1 . TYR A 1 199 ? 28.639 20.341 5.751   1.00 30.54  ? 891  TYR A CD1 1 \nATOM   1516 C  CD2 . TYR A 1 199 ? 29.797 20.548 3.648   1.00 32.80  ? 891  TYR A CD2 1 \nATOM   1517 C  CE1 . TYR A 1 199 ? 29.363 21.411 6.254   1.00 37.58  ? 891  TYR A CE1 1 \nATOM   1518 C  CE2 . TYR A 1 199 ? 30.514 21.623 4.141   1.00 34.48  ? 891  TYR A CE2 1 \nATOM   1519 C  CZ  . TYR A 1 199 ? 30.291 22.043 5.443   1.00 35.46  ? 891  TYR A CZ  1 \nATOM   1520 O  OH  . TYR A 1 199 ? 30.976 23.117 5.945   1.00 42.40  ? 891  TYR A OH  1 \nATOM   1521 N  N   . THR A 1 200 ? 27.092 15.591 4.699   1.00 27.14  ? 892  THR A N   1 \nATOM   1522 C  CA  . THR A 1 200 ? 26.052 14.573 4.503   1.00 28.00  ? 892  THR A CA  1 \nATOM   1523 C  C   . THR A 1 200 ? 25.132 14.670 5.688   1.00 24.99  ? 892  THR A C   1 \nATOM   1524 O  O   . THR A 1 200 ? 25.394 15.437 6.647   1.00 24.52  ? 892  THR A O   1 \nATOM   1525 C  CB  . THR A 1 200 ? 26.656 13.161 4.529   1.00 24.93  ? 892  THR A CB  1 \nATOM   1526 O  OG1 . THR A 1 200 ? 27.152 12.906 5.842   1.00 26.37  ? 892  THR A OG1 1 \nATOM   1527 C  CG2 . THR A 1 200 ? 27.808 13.012 3.492   1.00 29.56  ? 892  THR A CG2 1 \nATOM   1528 N  N   . HIS A 1 201 ? 24.060 13.868 5.664   1.00 26.44  ? 893  HIS A N   1 \nATOM   1529 C  CA  . HIS A 1 201 ? 23.230 13.753 6.839   1.00 29.70  ? 893  HIS A CA  1 \nATOM   1530 C  C   . HIS A 1 201 ? 23.987 13.219 8.061   1.00 24.12  ? 893  HIS A C   1 \nATOM   1531 O  O   . HIS A 1 201 ? 23.680 13.585 9.197   1.00 22.63  ? 893  HIS A O   1 \nATOM   1532 C  CB  . HIS A 1 201 ? 21.929 12.993 6.484   1.00 25.97  ? 893  HIS A CB  1 \nATOM   1533 C  CG  . HIS A 1 201 ? 21.172 13.679 5.386   1.00 27.52  ? 893  HIS A CG  1 \nATOM   1534 N  ND1 . HIS A 1 201 ? 20.529 14.883 5.575   1.00 28.59  ? 893  HIS A ND1 1 \nATOM   1535 C  CD2 . HIS A 1 201 ? 21.051 13.390 4.069   1.00 28.83  ? 893  HIS A CD2 1 \nATOM   1536 C  CE1 . HIS A 1 201 ? 20.035 15.299 4.425   1.00 27.39  ? 893  HIS A CE1 1 \nATOM   1537 N  NE2 . HIS A 1 201 ? 20.298 14.394 3.505   1.00 32.49  ? 893  HIS A NE2 1 \nATOM   1538 N  N   . GLN A 1 202 ? 25.059 12.470 7.828   1.00 26.66  ? 894  GLN A N   1 \nATOM   1539 C  CA  . GLN A 1 202 ? 25.919 11.997 8.926   1.00 29.47  ? 894  GLN A CA  1 \nATOM   1540 C  C   . GLN A 1 202 ? 26.906 13.056 9.499   1.00 26.86  ? 894  GLN A C   1 \nATOM   1541 O  O   . GLN A 1 202 ? 27.298 12.991 10.667  1.00 22.97  ? 894  GLN A O   1 \nATOM   1542 C  CB  . GLN A 1 202 ? 26.654 10.708 8.491   1.00 27.17  ? 894  GLN A CB  1 \nATOM   1543 C  CG  . GLN A 1 202 ? 25.705 9.525  8.192   1.00 24.91  ? 894  GLN A CG  1 \nATOM   1544 C  CD  . GLN A 1 202 ? 24.783 9.234  9.369   1.00 30.07  ? 894  GLN A CD  1 \nATOM   1545 O  OE1 . GLN A 1 202 ? 23.581 9.588  9.349   1.00 27.00  ? 894  GLN A OE1 1 \nATOM   1546 N  NE2 . GLN A 1 202 ? 25.334 8.605  10.418  1.00 27.72  ? 894  GLN A NE2 1 \nATOM   1547 N  N   . SER A 1 203 ? 27.288 14.034 8.695   1.00 24.14  ? 895  SER A N   1 \nATOM   1548 C  CA  . SER A 1 203 ? 27.927 15.211 9.257   1.00 27.27  ? 895  SER A CA  1 \nATOM   1549 C  C   . SER A 1 203 ? 26.958 16.056 10.075  1.00 27.74  ? 895  SER A C   1 \nATOM   1550 O  O   . SER A 1 203 ? 27.372 16.618 11.077  1.00 25.43  ? 895  SER A O   1 \nATOM   1551 C  CB  . SER A 1 203 ? 28.699 16.026 8.208   1.00 31.60  ? 895  SER A CB  1 \nATOM   1552 O  OG  . SER A 1 203 ? 27.862 16.621 7.234   1.00 25.89  ? 895  SER A OG  1 \nATOM   1553 N  N   . ASP A 1 204 ? 25.672 16.123 9.675   1.00 26.73  ? 896  ASP A N   1 \nATOM   1554 C  CA  . ASP A 1 204 ? 24.643 16.770 10.518  1.00 24.53  ? 896  ASP A CA  1 \nATOM   1555 C  C   . ASP A 1 204 ? 24.481 16.058 11.860  1.00 20.29  ? 896  ASP A C   1 \nATOM   1556 O  O   . ASP A 1 204 ? 24.275 16.687 12.887  1.00 22.46  ? 896  ASP A O   1 \nATOM   1557 C  CB  . ASP A 1 204 ? 23.246 16.817 9.833   1.00 28.43  ? 896  ASP A CB  1 \nATOM   1558 C  CG  . ASP A 1 204 ? 23.121 17.900 8.737   1.00 31.24  ? 896  ASP A CG  1 \nATOM   1559 O  OD1 . ASP A 1 204 ? 22.115 17.834 7.982   1.00 27.91  ? 896  ASP A OD1 1 \nATOM   1560 O  OD2 . ASP A 1 204 ? 23.997 18.781 8.573   1.00 26.34  ? 896  ASP A OD2 1 \nATOM   1561 N  N   . VAL A 1 205 ? 24.598 14.736 11.846  1.00 20.23  ? 897  VAL A N   1 \nATOM   1562 C  CA  . VAL A 1 205 ? 24.610 13.991 13.102  1.00 19.28  ? 897  VAL A CA  1 \nATOM   1563 C  C   . VAL A 1 205 ? 25.629 14.450 14.120  1.00 25.81  ? 897  VAL A C   1 \nATOM   1564 O  O   . VAL A 1 205 ? 25.320 14.560 15.295  1.00 22.78  ? 897  VAL A O   1 \nATOM   1565 C  CB  . VAL A 1 205 ? 24.658 12.448 12.868  1.00 19.54  ? 897  VAL A CB  1 \nATOM   1566 C  CG1 . VAL A 1 205 ? 24.843 11.704 14.183  1.00 19.88  ? 897  VAL A CG1 1 \nATOM   1567 C  CG2 . VAL A 1 205 ? 23.325 11.945 12.233  1.00 24.43  ? 897  VAL A CG2 1 \nATOM   1568 N  N   . TRP A 1 206 ? 26.864 14.693 13.659  1.00 21.20  ? 898  TRP A N   1 \nATOM   1569 C  CA  . TRP A 1 206 ? 27.927 15.223 14.521  1.00 24.82  ? 898  TRP A CA  1 \nATOM   1570 C  C   . TRP A 1 206 ? 27.505 16.541 15.151  1.00 23.28  ? 898  TRP A C   1 \nATOM   1571 O  O   . TRP A 1 206 ? 27.615 16.712 16.379  1.00 21.81  ? 898  TRP A O   1 \nATOM   1572 C  CB  . TRP A 1 206 ? 29.205 15.401 13.666  1.00 22.74  ? 898  TRP A CB  1 \nATOM   1573 C  CG  . TRP A 1 206 ? 30.380 15.970 14.398  1.00 20.42  ? 898  TRP A CG  1 \nATOM   1574 C  CD1 . TRP A 1 206 ? 30.466 17.185 15.058  1.00 24.29  ? 898  TRP A CD1 1 \nATOM   1575 C  CD2 . TRP A 1 206 ? 31.674 15.336 14.558  1.00 24.05  ? 898  TRP A CD2 1 \nATOM   1576 N  NE1 . TRP A 1 206 ? 31.757 17.336 15.607  1.00 23.39  ? 898  TRP A NE1 1 \nATOM   1577 C  CE2 . TRP A 1 206 ? 32.494 16.220 15.304  1.00 23.70  ? 898  TRP A CE2 1 \nATOM   1578 C  CE3 . TRP A 1 206 ? 32.210 14.127 14.116  1.00 26.61  ? 898  TRP A CE3 1 \nATOM   1579 C  CZ2 . TRP A 1 206 ? 33.837 15.910 15.635  1.00 27.97  ? 898  TRP A CZ2 1 \nATOM   1580 C  CZ3 . TRP A 1 206 ? 33.568 13.828 14.425  1.00 27.65  ? 898  TRP A CZ3 1 \nATOM   1581 C  CH2 . TRP A 1 206 ? 34.333 14.704 15.185  1.00 26.29  ? 898  TRP A CH2 1 \nATOM   1582 N  N   . SER A 1 207 ? 26.971 17.444 14.316  1.00 21.82  ? 899  SER A N   1 \nATOM   1583 C  CA  . SER A 1 207 ? 26.558 18.772 14.763  1.00 21.42  ? 899  SER A CA  1 \nATOM   1584 C  C   . SER A 1 207 ? 25.369 18.645 15.715  1.00 24.08  ? 899  SER A C   1 \nATOM   1585 O  O   . SER A 1 207 ? 25.228 19.457 16.652  1.00 23.02  ? 899  SER A O   1 \nATOM   1586 C  CB  . SER A 1 207 ? 26.142 19.636 13.571  1.00 22.79  ? 899  SER A CB  1 \nATOM   1587 O  OG  . SER A 1 207 ? 27.196 19.709 12.622  1.00 29.32  ? 899  SER A OG  1 \nATOM   1588 N  N   . TYR A 1 208 ? 24.551 17.615 15.484  1.00 24.08  ? 900  TYR A N   1 \nATOM   1589 C  CA  . TYR A 1 208 ? 23.474 17.266 16.443  1.00 22.45  ? 900  TYR A CA  1 \nATOM   1590 C  C   . TYR A 1 208 ? 24.039 16.904 17.797  1.00 24.83  ? 900  TYR A C   1 \nATOM   1591 O  O   . TYR A 1 208 ? 23.514 17.330 18.811  1.00 22.80  ? 900  TYR A O   1 \nATOM   1592 C  CB  . TYR A 1 208 ? 22.565 16.129 15.923  1.00 26.91  ? 900  TYR A CB  1 \nATOM   1593 C  CG  . TYR A 1 208 ? 21.483 15.683 16.918  1.00 24.64  ? 900  TYR A CG  1 \nATOM   1594 C  CD1 . TYR A 1 208 ? 21.709 14.629 17.818  1.00 24.58  ? 900  TYR A CD1 1 \nATOM   1595 C  CD2 . TYR A 1 208 ? 20.207 16.282 16.921  1.00 29.41  ? 900  TYR A CD2 1 \nATOM   1596 C  CE1 . TYR A 1 208 ? 20.714 14.188 18.692  1.00 30.37  ? 900  TYR A CE1 1 \nATOM   1597 C  CE2 . TYR A 1 208 ? 19.220 15.867 17.813  1.00 25.82  ? 900  TYR A CE2 1 \nATOM   1598 C  CZ  . TYR A 1 208 ? 19.472 14.819 18.694  1.00 30.20  ? 900  TYR A CZ  1 \nATOM   1599 O  OH  . TYR A 1 208 ? 18.495 14.386 19.571  1.00 29.23  ? 900  TYR A OH  1 \nATOM   1600 N  N   . GLY A 1 209 ? 25.144 16.142 17.822  1.00 25.68  ? 901  GLY A N   1 \nATOM   1601 C  CA  . GLY A 1 209 ? 25.756 15.748 19.096  1.00 23.98  ? 901  GLY A CA  1 \nATOM   1602 C  C   . GLY A 1 209 ? 26.223 17.007 19.827  1.00 24.33  ? 901  GLY A C   1 \nATOM   1603 O  O   . GLY A 1 209 ? 26.101 17.084 21.035  1.00 23.86  ? 901  GLY A O   1 \nATOM   1604 N  N   . VAL A 1 210 ? 26.818 17.960 19.086  1.00 25.05  ? 902  VAL A N   1 \nATOM   1605 C  CA  . VAL A 1 210 ? 27.315 19.214 19.683  1.00 21.83  ? 902  VAL A CA  1 \nATOM   1606 C  C   . VAL A 1 210 ? 26.114 20.019 20.243  1.00 24.08  ? 902  VAL A C   1 \nATOM   1607 O  O   . VAL A 1 210 ? 26.152 20.532 21.345  1.00 26.25  ? 902  VAL A O   1 \nATOM   1608 C  CB  . VAL A 1 210 ? 28.167 20.062 18.704  1.00 24.89  ? 902  VAL A CB  1 \nATOM   1609 C  CG1 . VAL A 1 210 ? 28.771 21.289 19.420  1.00 26.81  ? 902  VAL A CG1 1 \nATOM   1610 C  CG2 . VAL A 1 210 ? 29.308 19.223 18.111  1.00 22.20  ? 902  VAL A CG2 1 \nATOM   1611 N  N   . THR A 1 211 ? 25.058 20.097 19.457  1.00 23.91  ? 903  THR A N   1 \nATOM   1612 C  CA  . THR A 1 211 ? 23.826 20.789 19.902  1.00 24.59  ? 903  THR A CA  1 \nATOM   1613 C  C   . THR A 1 211 ? 23.306 20.220 21.235  1.00 20.47  ? 903  THR A C   1 \nATOM   1614 O  O   . THR A 1 211 ? 23.031 20.953 22.193  1.00 23.36  ? 903  THR A O   1 \nATOM   1615 C  CB  . THR A 1 211 ? 22.761 20.724 18.787  1.00 22.55  ? 903  THR A CB  1 \nATOM   1616 O  OG1 . THR A 1 211 ? 23.273 21.268 17.569  1.00 24.10  ? 903  THR A OG1 1 \nATOM   1617 C  CG2 . THR A 1 211 ? 21.429 21.492 19.168  1.00 24.23  ? 903  THR A CG2 1 \nATOM   1618 N  N   . VAL A 1 212 ? 23.170 18.901 21.300  1.00 22.65  ? 904  VAL A N   1 \nATOM   1619 C  CA  . VAL A 1 212 ? 22.729 18.231 22.517  1.00 24.32  ? 904  VAL A CA  1 \nATOM   1620 C  C   . VAL A 1 212 ? 23.639 18.562 23.686  1.00 29.53  ? 904  VAL A C   1 \nATOM   1621 O  O   . VAL A 1 212 ? 23.174 18.813 24.780  1.00 25.51  ? 904  VAL A O   1 \nATOM   1622 C  CB  . VAL A 1 212 ? 22.614 16.698 22.303  1.00 26.14  ? 904  VAL A CB  1 \nATOM   1623 C  CG1 . VAL A 1 212 ? 22.367 15.967 23.621  1.00 32.14  ? 904  VAL A CG1 1 \nATOM   1624 C  CG2 . VAL A 1 212 ? 21.469 16.388 21.352  1.00 29.78  ? 904  VAL A CG2 1 \nATOM   1625 N  N   . TRP A 1 213 ? 24.951 18.547 23.442  1.00 25.37  ? 905  TRP A N   1 \nATOM   1626 C  CA  . TRP A 1 213 ? 25.909 18.952 24.450  1.00 26.02  ? 905  TRP A CA  1 \nATOM   1627 C  C   . TRP A 1 213 ? 25.618 20.397 24.929  1.00 25.24  ? 905  TRP A C   1 \nATOM   1628 O  O   . TRP A 1 213 ? 25.647 20.692 26.122  1.00 25.58  ? 905  TRP A O   1 \nATOM   1629 C  CB  . TRP A 1 213 ? 27.344 18.846 23.879  1.00 27.12  ? 905  TRP A CB  1 \nATOM   1630 C  CG  . TRP A 1 213 ? 28.457 19.135 24.901  1.00 29.75  ? 905  TRP A CG  1 \nATOM   1631 C  CD1 . TRP A 1 213 ? 29.071 18.227 25.727  1.00 29.86  ? 905  TRP A CD1 1 \nATOM   1632 C  CD2 . TRP A 1 213 ? 29.059 20.406 25.194  1.00 29.09  ? 905  TRP A CD2 1 \nATOM   1633 N  NE1 . TRP A 1 213 ? 30.016 18.857 26.518  1.00 27.53  ? 905  TRP A NE1 1 \nATOM   1634 C  CE2 . TRP A 1 213 ? 30.038 20.187 26.202  1.00 31.67  ? 905  TRP A CE2 1 \nATOM   1635 C  CE3 . TRP A 1 213 ? 28.896 21.705 24.680  1.00 29.99  ? 905  TRP A CE3 1 \nATOM   1636 C  CZ2 . TRP A 1 213 ? 30.822 21.226 26.732  1.00 31.76  ? 905  TRP A CZ2 1 \nATOM   1637 C  CZ3 . TRP A 1 213 ? 29.670 22.739 25.211  1.00 29.19  ? 905  TRP A CZ3 1 \nATOM   1638 C  CH2 . TRP A 1 213 ? 30.632 22.487 26.218  1.00 31.16  ? 905  TRP A CH2 1 \nATOM   1639 N  N   . GLU A 1 214 ? 25.375 21.300 23.992  1.00 23.57  ? 906  GLU A N   1 \nATOM   1640 C  CA  . GLU A 1 214 ? 25.081 22.673 24.361  1.00 26.68  ? 906  GLU A CA  1 \nATOM   1641 C  C   . GLU A 1 214 ? 23.849 22.707 25.272  1.00 29.46  ? 906  GLU A C   1 \nATOM   1642 O  O   . GLU A 1 214 ? 23.811 23.439 26.244  1.00 30.72  ? 906  GLU A O   1 \nATOM   1643 C  CB  . GLU A 1 214 ? 24.731 23.494 23.126  1.00 29.21  ? 906  GLU A CB  1 \nATOM   1644 C  CG  . GLU A 1 214 ? 25.885 23.793 22.205  1.00 26.76  ? 906  GLU A CG  1 \nATOM   1645 C  CD  . GLU A 1 214 ? 25.419 24.646 21.045  1.00 26.29  ? 906  GLU A CD  1 \nATOM   1646 O  OE1 . GLU A 1 214 ? 25.522 25.884 21.177  1.00 28.98  ? 906  GLU A OE1 1 \nATOM   1647 O  OE2 . GLU A 1 214 ? 24.934 24.103 20.035  1.00 28.76  ? 906  GLU A OE2 1 \nATOM   1648 N  N   . LEU A 1 215 ? 22.852 21.897 24.946  1.00 28.88  ? 907  LEU A N   1 \nATOM   1649 C  CA  . LEU A 1 215 ? 21.629 21.859 25.737  1.00 31.17  ? 907  LEU A CA  1 \nATOM   1650 C  C   . LEU A 1 215 ? 21.876 21.375 27.176  1.00 30.41  ? 907  LEU A C   1 \nATOM   1651 O  O   . LEU A 1 215 ? 21.476 22.031 28.157  1.00 31.35  ? 907  LEU A O   1 \nATOM   1652 C  CB  . LEU A 1 215 ? 20.588 20.965 25.036  1.00 30.07  ? 907  LEU A CB  1 \nATOM   1653 C  CG  . LEU A 1 215 ? 20.073 21.493 23.692  1.00 29.46  ? 907  LEU A CG  1 \nATOM   1654 C  CD1 . LEU A 1 215 ? 18.881 20.670 23.250  1.00 32.66  ? 907  LEU A CD1 1 \nATOM   1655 C  CD2 . LEU A 1 215 ? 19.698 22.976 23.760  1.00 30.38  ? 907  LEU A CD2 1 \nATOM   1656 N  N   . MET A 1 216 ? 22.572 20.248 27.280  1.00 33.26  ? 908  MET A N   1 \nATOM   1657 C  CA  . MET A 1 216 ? 22.815 19.567 28.555  1.00 33.03  ? 908  MET A CA  1 \nATOM   1658 C  C   . MET A 1 216 ? 23.776 20.319 29.480  1.00 33.19  ? 908  MET A C   1 \nATOM   1659 O  O   . MET A 1 216 ? 23.833 20.034 30.667  1.00 32.50  ? 908  MET A O   1 \nATOM   1660 C  CB  . MET A 1 216 ? 23.378 18.162 28.308  1.00 29.57  ? 908  MET A CB  1 \nATOM   1661 C  CG  . MET A 1 216 ? 22.499 17.227 27.502  1.00 31.43  ? 908  MET A CG  1 \nATOM   1662 S  SD  . MET A 1 216 ? 20.915 16.950 28.305  1.00 38.14  ? 908  MET A SD  1 \nATOM   1663 C  CE  . MET A 1 216 ? 19.955 16.171 26.994  1.00 35.57  ? 908  MET A CE  1 \nATOM   1664 N  N   . THR A 1 217 ? 24.529 21.266 28.926  1.00 34.84  ? 909  THR A N   1 \nATOM   1665 C  CA  . THR A 1 217 ? 25.422 22.110 29.715  1.00 31.46  ? 909  THR A CA  1 \nATOM   1666 C  C   . THR A 1 217 ? 24.758 23.462 29.973  1.00 35.43  ? 909  THR A C   1 \nATOM   1667 O  O   . THR A 1 217 ? 25.369 24.375 30.533  1.00 33.37  ? 909  THR A O   1 \nATOM   1668 C  CB  . THR A 1 217 ? 26.755 22.383 28.990  1.00 30.17  ? 909  THR A CB  1 \nATOM   1669 O  OG1 . THR A 1 217 ? 26.503 23.074 27.759  1.00 32.39  ? 909  THR A OG1 1 \nATOM   1670 C  CG2 . THR A 1 217 ? 27.548 21.085 28.733  1.00 34.41  ? 909  THR A CG2 1 \nATOM   1671 N  N   . PHE A 1 218 ? 23.507 23.580 29.542  1.00 32.72  ? 910  PHE A N   1 \nATOM   1672 C  CA  . PHE A 1 218 ? 22.753 24.834 29.661  1.00 39.49  ? 910  PHE A CA  1 \nATOM   1673 C  C   . PHE A 1 218 ? 23.452 25.975 28.916  1.00 37.32  ? 910  PHE A C   1 \nATOM   1674 O  O   . PHE A 1 218 ? 23.512 27.121 29.379  1.00 34.56  ? 910  PHE A O   1 \nATOM   1675 C  CB  . PHE A 1 218 ? 22.465 25.145 31.144  1.00 38.60  ? 910  PHE A CB  1 \nATOM   1676 C  CG  . PHE A 1 218 ? 21.737 24.031 31.852  1.00 35.82  ? 910  PHE A CG  1 \nATOM   1677 C  CD1 . PHE A 1 218 ? 20.360 23.874 31.695  1.00 42.92  ? 910  PHE A CD1 1 \nATOM   1678 C  CD2 . PHE A 1 218 ? 22.424 23.129 32.671  1.00 39.39  ? 910  PHE A CD2 1 \nATOM   1679 C  CE1 . PHE A 1 218 ? 19.684 22.843 32.335  1.00 38.58  ? 910  PHE A CE1 1 \nATOM   1680 C  CE2 . PHE A 1 218 ? 21.751 22.095 33.320  1.00 38.85  ? 910  PHE A CE2 1 \nATOM   1681 C  CZ  . PHE A 1 218 ? 20.377 21.960 33.156  1.00 39.25  ? 910  PHE A CZ  1 \nATOM   1682 N  N   . GLY A 1 219 ? 23.972 25.646 27.741  1.00 30.24  ? 911  GLY A N   1 \nATOM   1683 C  CA  . GLY A 1 219 ? 24.480 26.659 26.818  1.00 30.44  ? 911  GLY A CA  1 \nATOM   1684 C  C   . GLY A 1 219 ? 25.938 27.038 26.976  1.00 31.34  ? 911  GLY A C   1 \nATOM   1685 O  O   . GLY A 1 219 ? 26.322 28.160 26.631  1.00 31.20  ? 911  GLY A O   1 \nATOM   1686 N  N   . SER A 1 220 ? 26.761 26.109 27.461  1.00 34.43  ? 912  SER A N   1 \nATOM   1687 C  CA  . SER A 1 220 ? 28.216 26.310 27.408  1.00 32.44  ? 912  SER A CA  1 \nATOM   1688 C  C   . SER A 1 220 ? 28.744 26.398 25.977  1.00 30.35  ? 912  SER A C   1 \nATOM   1689 O  O   . SER A 1 220 ? 28.186 25.815 25.051  1.00 29.13  ? 912  SER A O   1 \nATOM   1690 C  CB  . SER A 1 220 ? 28.963 25.201 28.160  1.00 37.09  ? 912  SER A CB  1 \nATOM   1691 O  OG  . SER A 1 220 ? 28.615 25.224 29.524  1.00 37.39  ? 912  SER A OG  1 \nATOM   1692 N  N   . LYS A 1 221 ? 29.864 27.105 25.822  1.00 34.33  ? 913  LYS A N   1 \nATOM   1693 C  CA  . LYS A 1 221 ? 30.544 27.258 24.535  1.00 36.05  ? 913  LYS A CA  1 \nATOM   1694 C  C   . LYS A 1 221 ? 31.469 26.073 24.282  1.00 36.45  ? 913  LYS A C   1 \nATOM   1695 O  O   . LYS A 1 221 ? 32.367 25.819 25.085  1.00 32.75  ? 913  LYS A O   1 \nATOM   1696 C  CB  . LYS A 1 221 ? 31.374 28.541 24.538  1.00 37.89  ? 913  LYS A CB  1 \nATOM   1697 C  CG  . LYS A 1 221 ? 30.549 29.809 24.490  1.00 41.62  ? 913  LYS A CG  1 \nATOM   1698 C  CD  . LYS A 1 221 ? 31.439 31.046 24.591  1.00 54.77  ? 913  LYS A CD  1 \nATOM   1699 C  CE  . LYS A 1 221 ? 32.281 31.258 23.338  1.00 63.20  ? 913  LYS A CE  1 \nATOM   1700 N  NZ  . LYS A 1 221 ? 33.156 32.457 23.448  1.00 79.59  ? 913  LYS A NZ  1 \nATOM   1701 N  N   . PRO A 1 222 ? 31.254 25.337 23.175  1.00 34.16  ? 914  PRO A N   1 \nATOM   1702 C  CA  . PRO A 1 222 ? 32.058 24.118 22.968  1.00 29.10  ? 914  PRO A CA  1 \nATOM   1703 C  C   . PRO A 1 222 ? 33.536 24.481 22.719  1.00 34.77  ? 914  PRO A C   1 \nATOM   1704 O  O   . PRO A 1 222 ? 33.814 25.439 21.996  1.00 33.33  ? 914  PRO A O   1 \nATOM   1705 C  CB  . PRO A 1 222 ? 31.411 23.481 21.733  1.00 33.91  ? 914  PRO A CB  1 \nATOM   1706 C  CG  . PRO A 1 222 ? 30.778 24.614 21.005  1.00 34.78  ? 914  PRO A CG  1 \nATOM   1707 C  CD  . PRO A 1 222 ? 30.298 25.560 22.076  1.00 32.97  ? 914  PRO A CD  1 \nATOM   1708 N  N   . TYR A 1 223 ? 34.458 23.737 23.325  1.00 33.25  ? 915  TYR A N   1 \nATOM   1709 C  CA  . TYR A 1 223 ? 35.895 23.998 23.177  1.00 33.85  ? 915  TYR A CA  1 \nATOM   1710 C  C   . TYR A 1 223 ? 36.207 25.471 23.468  1.00 39.64  ? 915  TYR A C   1 \nATOM   1711 O  O   . TYR A 1 223 ? 36.948 26.117 22.718  1.00 45.53  ? 915  TYR A O   1 \nATOM   1712 C  CB  . TYR A 1 223 ? 36.364 23.665 21.764  1.00 33.52  ? 915  TYR A CB  1 \nATOM   1713 C  CG  . TYR A 1 223 ? 35.818 22.388 21.190  1.00 29.32  ? 915  TYR A CG  1 \nATOM   1714 C  CD1 . TYR A 1 223 ? 36.385 21.162 21.511  1.00 32.58  ? 915  TYR A CD1 1 \nATOM   1715 C  CD2 . TYR A 1 223 ? 34.742 22.417 20.307  1.00 36.08  ? 915  TYR A CD2 1 \nATOM   1716 C  CE1 . TYR A 1 223 ? 35.888 19.981 20.977  1.00 33.76  ? 915  TYR A CE1 1 \nATOM   1717 C  CE2 . TYR A 1 223 ? 34.231 21.250 19.767  1.00 31.31  ? 915  TYR A CE2 1 \nATOM   1718 C  CZ  . TYR A 1 223 ? 34.802 20.038 20.107  1.00 30.34  ? 915  TYR A CZ  1 \nATOM   1719 O  OH  . TYR A 1 223 ? 34.315 18.876 19.539  1.00 36.05  ? 915  TYR A OH  1 \nATOM   1720 N  N   . ASP A 1 224 ? 35.618 25.991 24.543  1.00 43.33  ? 916  ASP A N   1 \nATOM   1721 C  CA  . ASP A 1 224 ? 35.768 27.396 24.940  1.00 48.23  ? 916  ASP A CA  1 \nATOM   1722 C  C   . ASP A 1 224 ? 37.254 27.719 25.124  1.00 48.30  ? 916  ASP A C   1 \nATOM   1723 O  O   . ASP A 1 224 ? 37.983 26.961 25.774  1.00 46.71  ? 916  ASP A O   1 \nATOM   1724 C  CB  . ASP A 1 224 ? 34.988 27.650 26.242  1.00 52.14  ? 916  ASP A CB  1 \nATOM   1725 C  CG  . ASP A 1 224 ? 34.922 29.136 26.628  1.00 54.58  ? 916  ASP A CG  1 \nATOM   1726 O  OD1 . ASP A 1 224 ? 34.708 29.421 27.821  1.00 60.52  ? 916  ASP A OD1 1 \nATOM   1727 O  OD2 . ASP A 1 224 ? 35.064 30.008 25.751  1.00 47.27  ? 916  ASP A OD2 1 \nATOM   1728 N  N   . GLY A 1 225 ? 37.697 28.813 24.511  1.00 56.46  ? 917  GLY A N   1 \nATOM   1729 C  CA  . GLY A 1 225 ? 39.085 29.258 24.635  1.00 76.19  ? 917  GLY A CA  1 \nATOM   1730 C  C   . GLY A 1 225 ? 40.035 28.671 23.604  1.00 72.63  ? 917  GLY A C   1 \nATOM   1731 O  O   . GLY A 1 225 ? 41.021 29.316 23.238  1.00 63.76  ? 917  GLY A O   1 \nATOM   1732 N  N   . ILE A 1 226 ? 39.738 27.452 23.143  1.00 63.90  ? 918  ILE A N   1 \nATOM   1733 C  CA  . ILE A 1 226 ? 40.529 26.764 22.114  1.00 49.40  ? 918  ILE A CA  1 \nATOM   1734 C  C   . ILE A 1 226 ? 40.345 27.411 20.732  1.00 55.67  ? 918  ILE A C   1 \nATOM   1735 O  O   . ILE A 1 226 ? 39.215 27.569 20.259  1.00 53.67  ? 918  ILE A O   1 \nATOM   1736 C  CB  . ILE A 1 226 ? 40.247 25.246 22.089  1.00 58.39  ? 918  ILE A CB  1 \nATOM   1737 C  CG1 . ILE A 1 226 ? 40.788 24.592 23.362  1.00 67.71  ? 918  ILE A CG1 1 \nATOM   1738 C  CG2 . ILE A 1 226 ? 40.855 24.585 20.856  1.00 49.74  ? 918  ILE A CG2 1 \nATOM   1739 C  CD1 . ILE A 1 226 ? 40.277 23.185 23.600  1.00 83.95  ? 918  ILE A CD1 1 \nATOM   1740 N  N   . PRO A 1 227 ? 41.465 27.809 20.091  1.00 55.34  ? 919  PRO A N   1 \nATOM   1741 C  CA  . PRO A 1 227 ? 41.367 28.478 18.797  1.00 51.65  ? 919  PRO A CA  1 \nATOM   1742 C  C   . PRO A 1 227 ? 40.839 27.524 17.737  1.00 46.00  ? 919  PRO A C   1 \nATOM   1743 O  O   . PRO A 1 227 ? 41.228 26.335 17.700  1.00 36.86  ? 919  PRO A O   1 \nATOM   1744 C  CB  . PRO A 1 227 ? 42.817 28.854 18.466  1.00 48.91  ? 919  PRO A CB  1 \nATOM   1745 C  CG  . PRO A 1 227 ? 43.602 28.650 19.726  1.00 59.54  ? 919  PRO A CG  1 \nATOM   1746 C  CD  . PRO A 1 227 ? 42.867 27.590 20.494  1.00 61.20  ? 919  PRO A CD  1 \nATOM   1747 N  N   . ALA A 1 228 ? 39.982 28.055 16.877  1.00 42.96  ? 920  ALA A N   1 \nATOM   1748 C  CA  . ALA A 1 228 ? 39.380 27.267 15.795  1.00 53.07  ? 920  ALA A CA  1 \nATOM   1749 C  C   . ALA A 1 228 ? 40.428 26.554 14.926  1.00 52.49  ? 920  ALA A C   1 \nATOM   1750 O  O   . ALA A 1 228 ? 40.200 25.430 14.477  1.00 39.45  ? 920  ALA A O   1 \nATOM   1751 C  CB  . ALA A 1 228 ? 38.482 28.136 14.939  1.00 41.74  ? 920  ALA A CB  1 \nATOM   1752 N  N   . SER A 1 229 ? 41.578 27.191 14.706  1.00 42.14  ? 921  SER A N   1 \nATOM   1753 C  CA  . SER A 1 229 ? 42.638 26.564 13.918  1.00 38.91  ? 921  SER A CA  1 \nATOM   1754 C  C   . SER A 1 229 ? 43.218 25.280 14.535  1.00 41.47  ? 921  SER A C   1 \nATOM   1755 O  O   . SER A 1 229 ? 43.852 24.491 13.834  1.00 45.17  ? 921  SER A O   1 \nATOM   1756 C  CB  . SER A 1 229 ? 43.758 27.580 13.611  1.00 43.76  ? 921  SER A CB  1 \nATOM   1757 O  OG  . SER A 1 229 ? 44.498 27.894 14.783  1.00 45.49  ? 921  SER A OG  1 \nATOM   1758 N  N   . GLU A 1 230 ? 42.994 25.066 15.832  1.00 38.81  ? 922  GLU A N   1 \nATOM   1759 C  CA  . GLU A 1 230 ? 43.508 23.877 16.524  1.00 37.90  ? 922  GLU A CA  1 \nATOM   1760 C  C   . GLU A 1 230 ? 42.483 22.741 16.610  1.00 32.89  ? 922  GLU A C   1 \nATOM   1761 O  O   . GLU A 1 230 ? 42.824 21.636 17.051  1.00 37.01  ? 922  GLU A O   1 \nATOM   1762 C  CB  . GLU A 1 230 ? 43.996 24.218 17.938  1.00 43.95  ? 922  GLU A CB  1 \nATOM   1763 C  CG  . GLU A 1 230 ? 45.241 25.107 17.988  1.00 58.60  ? 922  GLU A CG  1 \nATOM   1764 C  CD  . GLU A 1 230 ? 46.562 24.340 17.959  1.00 74.68  ? 922  GLU A CD  1 \nATOM   1765 O  OE1 . GLU A 1 230 ? 47.536 24.836 18.567  1.00 92.16  ? 922  GLU A OE1 1 \nATOM   1766 O  OE2 . GLU A 1 230 ? 46.653 23.253 17.338  1.00 65.14  ? 922  GLU A OE2 1 \nATOM   1767 N  N   . ILE A 1 231 ? 41.253 22.998 16.186  1.00 36.85  ? 923  ILE A N   1 \nATOM   1768 C  CA  . ILE A 1 231 ? 40.183 21.993 16.380  1.00 30.58  ? 923  ILE A CA  1 \nATOM   1769 C  C   . ILE A 1 231 ? 40.420 20.666 15.649  1.00 27.72  ? 923  ILE A C   1 \nATOM   1770 O  O   . ILE A 1 231 ? 40.283 19.600 16.258  1.00 32.41  ? 923  ILE A O   1 \nATOM   1771 C  CB  . ILE A 1 231 ? 38.766 22.575 16.099  1.00 36.31  ? 923  ILE A CB  1 \nATOM   1772 C  CG1 . ILE A 1 231 ? 38.369 23.629 17.159  1.00 35.07  ? 923  ILE A CG1 1 \nATOM   1773 C  CG2 . ILE A 1 231 ? 37.725 21.455 16.020  1.00 31.73  ? 923  ILE A CG2 1 \nATOM   1774 C  CD1 . ILE A 1 231 ? 38.250 23.123 18.592  1.00 32.22  ? 923  ILE A CD1 1 \nATOM   1775 N  N   . SER A 1 232 ? 40.756 20.704 14.355  1.00 28.13  ? 924  SER A N   1 \nATOM   1776 C  CA  . SER A 1 232 ? 41.002 19.463 13.633  1.00 35.63  ? 924  SER A CA  1 \nATOM   1777 C  C   . SER A 1 232 ? 42.110 18.610 14.291  1.00 34.96  ? 924  SER A C   1 \nATOM   1778 O  O   . SER A 1 232 ? 41.992 17.378 14.352  1.00 29.18  ? 924  SER A O   1 \nATOM   1779 C  CB  . SER A 1 232 ? 41.305 19.725 12.150  1.00 39.13  ? 924  SER A CB  1 \nATOM   1780 O  OG  . SER A 1 232 ? 42.613 20.267 11.983  1.00 41.55  ? 924  SER A OG  1 \nATOM   1781 N  N   . SER A 1 233 ? 43.194 19.226 14.792  1.00 38.53  ? 925  SER A N   1 \nATOM   1782 C  CA  . SER A 1 233 ? 44.236 18.385 15.393  1.00 37.45  ? 925  SER A CA  1 \nATOM   1783 C  C   . SER A 1 233 ? 43.771 17.767 16.716  1.00 35.21  ? 925  SER A C   1 \nATOM   1784 O  O   . SER A 1 233 ? 44.032 16.602 16.994  1.00 33.66  ? 925  SER A O   1 \nATOM   1785 C  CB  . SER A 1 233 ? 45.579 19.125 15.558  1.00 47.26  ? 925  SER A CB  1 \nATOM   1786 O  OG  . SER A 1 233 ? 45.435 20.233 16.416  1.00 54.50  ? 925  SER A OG  1 \nATOM   1787 N  N   . ILE A 1 234 ? 43.029 18.547 17.497  1.00 35.17  ? 926  ILE A N   1 \nATOM   1788 C  CA  . ILE A 1 234 ? 42.404 18.065 18.728  1.00 40.33  ? 926  ILE A CA  1 \nATOM   1789 C  C   . ILE A 1 234 ? 41.474 16.855 18.453  1.00 34.53  ? 926  ILE A C   1 \nATOM   1790 O  O   . ILE A 1 234 ? 41.637 15.787 19.056  1.00 32.95  ? 926  ILE A O   1 \nATOM   1791 C  CB  . ILE A 1 234 ? 41.718 19.262 19.443  1.00 44.79  ? 926  ILE A CB  1 \nATOM   1792 C  CG1 . ILE A 1 234 ? 42.727 19.924 20.400  1.00 48.92  ? 926  ILE A CG1 1 \nATOM   1793 C  CG2 . ILE A 1 234 ? 40.399 18.888 20.114  1.00 51.95  ? 926  ILE A CG2 1 \nATOM   1794 C  CD1 . ILE A 1 234 ? 42.280 21.255 20.973  1.00 61.81  ? 926  ILE A CD1 1 \nATOM   1795 N  N   . LEU A 1 235 ? 40.532 17.007 17.520  1.00 37.12  ? 927  LEU A N   1 \nATOM   1796 C  CA  . LEU A 1 235 ? 39.655 15.893 17.106  1.00 32.43  ? 927  LEU A CA  1 \nATOM   1797 C  C   . LEU A 1 235 ? 40.412 14.654 16.605  1.00 30.80  ? 927  LEU A C   1 \nATOM   1798 O  O   . LEU A 1 235 ? 40.043 13.515 16.922  1.00 31.95  ? 927  LEU A O   1 \nATOM   1799 C  CB  . LEU A 1 235 ? 38.673 16.349 16.012  1.00 30.99  ? 927  LEU A CB  1 \nATOM   1800 C  CG  . LEU A 1 235 ? 37.709 17.440 16.463  1.00 32.53  ? 927  LEU A CG  1 \nATOM   1801 C  CD1 . LEU A 1 235 ? 36.815 17.889 15.312  1.00 33.89  ? 927  LEU A CD1 1 \nATOM   1802 C  CD2 . LEU A 1 235 ? 36.891 16.918 17.625  1.00 30.69  ? 927  LEU A CD2 1 \nATOM   1803 N  N   . GLU A 1 236 ? 41.450 14.888 15.810  1.00 37.01  ? 928  GLU A N   1 \nATOM   1804 C  CA  . GLU A 1 236 ? 42.284 13.804 15.268  1.00 39.13  ? 928  GLU A CA  1 \nATOM   1805 C  C   . GLU A 1 236 ? 43.002 13.019 16.360  1.00 41.39  ? 928  GLU A C   1 \nATOM   1806 O  O   . GLU A 1 236 ? 43.225 11.816 16.209  1.00 38.80  ? 928  GLU A O   1 \nATOM   1807 C  CB  . GLU A 1 236 ? 43.307 14.339 14.255  1.00 40.49  ? 928  GLU A CB  1 \nATOM   1808 C  CG  . GLU A 1 236 ? 42.754 14.636 12.870  1.00 44.84  ? 928  GLU A CG  1 \nATOM   1809 C  CD  . GLU A 1 236 ? 43.660 15.532 12.036  1.00 69.64  ? 928  GLU A CD  1 \nATOM   1810 O  OE1 . GLU A 1 236 ? 43.599 15.442 10.790  1.00 74.90  ? 928  GLU A OE1 1 \nATOM   1811 O  OE2 . GLU A 1 236 ? 44.432 16.332 12.616  1.00 62.95  ? 928  GLU A OE2 1 \nATOM   1812 N  N   . LYS A 1 237 ? 43.370 13.694 17.448  1.00 40.90  ? 929  LYS A N   1 \nATOM   1813 C  CA  . LYS A 1 237 ? 44.002 13.020 18.591  1.00 41.80  ? 929  LYS A CA  1 \nATOM   1814 C  C   . LYS A 1 237 ? 43.006 12.231 19.453  1.00 46.80  ? 929  LYS A C   1 \nATOM   1815 O  O   . LYS A 1 237 ? 43.398 11.536 20.394  1.00 44.25  ? 929  LYS A O   1 \nATOM   1816 C  CB  . LYS A 1 237 ? 44.758 14.025 19.459  1.00 50.08  ? 929  LYS A CB  1 \nATOM   1817 C  CG  . LYS A 1 237 ? 45.966 14.663 18.770  1.00 40.31  ? 929  LYS A CG  1 \nATOM   1818 C  CD  . LYS A 1 237 ? 46.644 15.696 19.666  1.00 67.33  ? 929  LYS A CD  1 \nATOM   1819 C  CE  . LYS A 1 237 ? 47.436 15.043 20.796  1.00 79.96  ? 929  LYS A CE  1 \nATOM   1820 N  NZ  . LYS A 1 237 ? 48.135 16.035 21.664  1.00 77.70  ? 929  LYS A NZ  1 \nATOM   1821 N  N   . GLY A 1 238 ? 41.721 12.345 19.125  1.00 37.47  ? 930  GLY A N   1 \nATOM   1822 C  CA  . GLY A 1 238 ? 40.652 11.633 19.840  1.00 39.43  ? 930  GLY A CA  1 \nATOM   1823 C  C   . GLY A 1 238 ? 39.970 12.436 20.930  1.00 38.99  ? 930  GLY A C   1 \nATOM   1824 O  O   . GLY A 1 238 ? 39.110 11.903 21.646  1.00 41.30  ? 930  GLY A O   1 \nATOM   1825 N  N   . GLU A 1 239 ? 40.330 13.714 21.069  1.00 32.16  ? 931  GLU A N   1 \nATOM   1826 C  CA  . GLU A 1 239 ? 39.759 14.534 22.132  1.00 32.85  ? 931  GLU A CA  1 \nATOM   1827 C  C   . GLU A 1 239 ? 38.329 14.954 21.745  1.00 28.27  ? 931  GLU A C   1 \nATOM   1828 O  O   . GLU A 1 239 ? 38.075 15.227 20.573  1.00 28.77  ? 931  GLU A O   1 \nATOM   1829 C  CB  . GLU A 1 239 ? 40.603 15.762 22.393  1.00 36.69  ? 931  GLU A CB  1 \nATOM   1830 C  CG  . GLU A 1 239 ? 40.082 16.662 23.503  1.00 49.53  ? 931  GLU A CG  1 \nATOM   1831 C  CD  . GLU A 1 239 ? 41.036 17.806 23.818  1.00 69.08  ? 931  GLU A CD  1 \nATOM   1832 O  OE1 . GLU A 1 239 ? 42.249 17.685 23.508  1.00 53.32  ? 931  GLU A OE1 1 \nATOM   1833 O  OE2 . GLU A 1 239 ? 40.568 18.828 24.374  1.00 53.97  ? 931  GLU A OE2 1 \nATOM   1834 N  N   . ARG A 1 240 ? 37.436 14.994 22.732  1.00 32.01  ? 932  ARG A N   1 \nATOM   1835 C  CA  . ARG A 1 240 ? 35.995 15.304 22.490  1.00 28.11  ? 932  ARG A CA  1 \nATOM   1836 C  C   . ARG A 1 240 ? 35.471 16.272 23.565  1.00 32.94  ? 932  ARG A C   1 \nATOM   1837 O  O   . ARG A 1 240 ? 36.145 16.500 24.574  1.00 32.49  ? 932  ARG A O   1 \nATOM   1838 C  CB  . ARG A 1 240 ? 35.184 14.002 22.501  1.00 26.86  ? 932  ARG A CB  1 \nATOM   1839 C  CG  . ARG A 1 240 ? 35.365 13.048 21.316  1.00 27.27  ? 932  ARG A CG  1 \nATOM   1840 C  CD  . ARG A 1 240 ? 35.153 13.715 19.958  1.00 27.89  ? 932  ARG A CD  1 \nATOM   1841 N  NE  . ARG A 1 240 ? 35.303 12.791 18.844  1.00 28.64  ? 932  ARG A NE  1 \nATOM   1842 C  CZ  . ARG A 1 240 ? 36.449 12.531 18.213  1.00 43.88  ? 932  ARG A CZ  1 \nATOM   1843 N  NH1 . ARG A 1 240 ? 36.458 11.657 17.217  1.00 36.00  ? 932  ARG A NH1 1 \nATOM   1844 N  NH2 . ARG A 1 240 ? 37.584 13.133 18.580  1.00 28.88  ? 932  ARG A NH2 1 \nATOM   1845 N  N   . LEU A 1 241 ? 34.284 16.855 23.361  1.00 28.49  ? 933  LEU A N   1 \nATOM   1846 C  CA  . LEU A 1 241 ? 33.643 17.646 24.416  1.00 26.44  ? 933  LEU A CA  1 \nATOM   1847 C  C   . LEU A 1 241 ? 33.400 16.752 25.622  1.00 27.19  ? 933  LEU A C   1 \nATOM   1848 O  O   . LEU A 1 241 ? 33.077 15.575 25.443  1.00 32.58  ? 933  LEU A O   1 \nATOM   1849 C  CB  . LEU A 1 241 ? 32.311 18.241 23.907  1.00 29.48  ? 933  LEU A CB  1 \nATOM   1850 C  CG  . LEU A 1 241 ? 32.510 19.274 22.790  1.00 28.80  ? 933  LEU A CG  1 \nATOM   1851 C  CD1 . LEU A 1 241 ? 31.191 19.477 22.015  1.00 25.49  ? 933  LEU A CD1 1 \nATOM   1852 C  CD2 . LEU A 1 241 ? 33.058 20.587 23.368  1.00 24.54  ? 933  LEU A CD2 1 \nATOM   1853 N  N   . PRO A 1 242 ? 33.563 17.290 26.848  1.00 29.32  ? 934  PRO A N   1 \nATOM   1854 C  CA  . PRO A 1 242 ? 33.465 16.519 28.091  1.00 31.42  ? 934  PRO A CA  1 \nATOM   1855 C  C   . PRO A 1 242 ? 32.034 16.165 28.451  1.00 31.97  ? 934  PRO A C   1 \nATOM   1856 O  O   . PRO A 1 242 ? 31.093 16.860 28.022  1.00 30.19  ? 934  PRO A O   1 \nATOM   1857 C  CB  . PRO A 1 242 ? 34.021 17.485 29.144  1.00 39.73  ? 934  PRO A CB  1 \nATOM   1858 C  CG  . PRO A 1 242 ? 33.717 18.844 28.599  1.00 38.13  ? 934  PRO A CG  1 \nATOM   1859 C  CD  . PRO A 1 242 ? 33.907 18.703 27.109  1.00 35.28  ? 934  PRO A CD  1 \nATOM   1860 N  N   . GLN A 1 243 ? 31.885 15.115 29.245  1.00 30.53  ? 935  GLN A N   1 \nATOM   1861 C  CA  . GLN A 1 243 ? 30.573 14.712 29.766  1.00 29.08  ? 935  GLN A CA  1 \nATOM   1862 C  C   . GLN A 1 243 ? 29.934 15.848 30.576  1.00 32.66  ? 935  GLN A C   1 \nATOM   1863 O  O   . GLN A 1 243 ? 30.528 16.340 31.528  1.00 36.94  ? 935  GLN A O   1 \nATOM   1864 C  CB  . GLN A 1 243 ? 30.703 13.453 30.638  1.00 32.68  ? 935  GLN A CB  1 \nATOM   1865 C  CG  . GLN A 1 243 ? 29.388 13.003 31.278  1.00 37.61  ? 935  GLN A CG  1 \nATOM   1866 C  CD  . GLN A 1 243 ? 29.522 11.707 32.068  1.00 41.28  ? 935  GLN A CD  1 \nATOM   1867 O  OE1 . GLN A 1 243 ? 30.577 11.088 32.077  1.00 38.24  ? 935  GLN A OE1 1 \nATOM   1868 N  NE2 . GLN A 1 243 ? 28.447 11.306 32.755  1.00 34.59  ? 935  GLN A NE2 1 \nATOM   1869 N  N   . PRO A 1 244 ? 28.713 16.273 30.190  1.00 36.45  ? 936  PRO A N   1 \nATOM   1870 C  CA  . PRO A 1 244 ? 28.008 17.267 31.005  1.00 39.54  ? 936  PRO A CA  1 \nATOM   1871 C  C   . PRO A 1 244 ? 27.664 16.677 32.377  1.00 36.69  ? 936  PRO A C   1 \nATOM   1872 O  O   . PRO A 1 244 ? 27.317 15.497 32.453  1.00 35.68  ? 936  PRO A O   1 \nATOM   1873 C  CB  . PRO A 1 244 ? 26.741 17.562 30.181  1.00 34.20  ? 936  PRO A CB  1 \nATOM   1874 C  CG  . PRO A 1 244 ? 27.131 17.223 28.774  1.00 32.85  ? 936  PRO A CG  1 \nATOM   1875 C  CD  . PRO A 1 244 ? 27.993 15.990 28.938  1.00 36.06  ? 936  PRO A CD  1 \nATOM   1876 N  N   . PRO A 1 245 ? 27.830 17.472 33.457  1.00 38.32  ? 937  PRO A N   1 \nATOM   1877 C  CA  . PRO A 1 245 ? 27.599 17.015 34.833  1.00 40.21  ? 937  PRO A CA  1 \nATOM   1878 C  C   . PRO A 1 245 ? 26.233 16.386 35.062  1.00 40.46  ? 937  PRO A C   1 \nATOM   1879 O  O   . PRO A 1 245 ? 26.126 15.433 35.842  1.00 37.59  ? 937  PRO A O   1 \nATOM   1880 C  CB  . PRO A 1 245 ? 27.741 18.296 35.655  1.00 46.41  ? 937  PRO A CB  1 \nATOM   1881 C  CG  . PRO A 1 245 ? 28.715 19.118 34.886  1.00 46.70  ? 937  PRO A CG  1 \nATOM   1882 C  CD  . PRO A 1 245 ? 28.506 18.788 33.426  1.00 39.47  ? 937  PRO A CD  1 \nATOM   1883 N  N   . ILE A 1 246 ? 25.204 16.876 34.374  1.00 34.10  ? 938  ILE A N   1 \nATOM   1884 C  CA  . ILE A 1 246 ? 23.855 16.329 34.558  1.00 37.91  ? 938  ILE A CA  1 \nATOM   1885 C  C   . ILE A 1 246 ? 23.631 14.986 33.839  1.00 37.49  ? 938  ILE A C   1 \nATOM   1886 O  O   . ILE A 1 246 ? 22.660 14.289 34.126  1.00 41.11  ? 938  ILE A O   1 \nATOM   1887 C  CB  . ILE A 1 246 ? 22.731 17.329 34.163  1.00 33.35  ? 938  ILE A CB  1 \nATOM   1888 C  CG1 . ILE A 1 246 ? 22.714 17.586 32.640  1.00 35.59  ? 938  ILE A CG1 1 \nATOM   1889 C  CG2 . ILE A 1 246 ? 22.828 18.633 34.966  1.00 36.27  ? 938  ILE A CG2 1 \nATOM   1890 C  CD1 . ILE A 1 246 ? 21.420 18.224 32.136  1.00 34.32  ? 938  ILE A CD1 1 \nATOM   1891 N  N   . CYS A 1 247 ? 24.516 14.620 32.915  1.00 34.04  ? 939  CYS A N   1 \nATOM   1892 C  CA  . CYS A 1 247 ? 24.244 13.437 32.081  1.00 31.20  ? 939  CYS A CA  1 \nATOM   1893 C  C   . CYS A 1 247 ? 24.743 12.159 32.706  1.00 36.53  ? 939  CYS A C   1 \nATOM   1894 O  O   . CYS A 1 247 ? 25.908 12.071 33.106  1.00 31.88  ? 939  CYS A O   1 \nATOM   1895 C  CB  . CYS A 1 247 ? 24.905 13.551 30.709  1.00 32.11  ? 939  CYS A CB  1 \nATOM   1896 S  SG  . CYS A 1 247 ? 24.327 14.888 29.665  1.00 37.25  ? 939  CYS A SG  1 \nATOM   1897 N  N   . THR A 1 248 ? 23.891 11.141 32.747  1.00 32.45  ? 940  THR A N   1 \nATOM   1898 C  CA  . THR A 1 248 ? 24.426 9.802  32.980  1.00 35.97  ? 940  THR A CA  1 \nATOM   1899 C  C   . THR A 1 248 ? 25.287 9.401  31.793  1.00 34.97  ? 940  THR A C   1 \nATOM   1900 O  O   . THR A 1 248 ? 25.203 10.005 30.717  1.00 33.70  ? 940  THR A O   1 \nATOM   1901 C  CB  . THR A 1 248 ? 23.305 8.757  33.128  1.00 35.72  ? 940  THR A CB  1 \nATOM   1902 O  OG1 . THR A 1 248 ? 22.500 8.763  31.945  1.00 39.68  ? 940  THR A OG1 1 \nATOM   1903 C  CG2 . THR A 1 248 ? 22.449 9.071  34.363  1.00 40.81  ? 940  THR A CG2 1 \nATOM   1904 N  N   . ILE A 1 249 ? 26.085 8.351  31.966  1.00 33.98  ? 941  ILE A N   1 \nATOM   1905 C  CA  . ILE A 1 249 ? 26.923 7.835  30.883  1.00 36.66  ? 941  ILE A CA  1 \nATOM   1906 C  C   . ILE A 1 249 ? 26.138 7.370  29.646  1.00 29.75  ? 941  ILE A C   1 \nATOM   1907 O  O   . ILE A 1 249 ? 26.623 7.493  28.531  1.00 33.08  ? 941  ILE A O   1 \nATOM   1908 C  CB  . ILE A 1 249 ? 27.930 6.758  31.391  1.00 41.29  ? 941  ILE A CB  1 \nATOM   1909 C  CG1 . ILE A 1 249 ? 29.080 6.560  30.399  1.00 41.07  ? 941  ILE A CG1 1 \nATOM   1910 C  CG2 . ILE A 1 249 ? 27.233 5.445  31.720  1.00 36.91  ? 941  ILE A CG2 1 \nATOM   1911 C  CD1 . ILE A 1 249 ? 30.126 7.650  30.441  1.00 44.87  ? 941  ILE A CD1 1 \nATOM   1912 N  N   . ASP A 1 250 ? 24.925 6.850  29.840  1.00 35.62  ? 942  ASP A N   1 \nATOM   1913 C  CA  . ASP A 1 250 ? 24.058 6.438  28.727  1.00 35.94  ? 942  ASP A CA  1 \nATOM   1914 C  C   . ASP A 1 250 ? 23.799 7.600  27.757  1.00 33.14  ? 942  ASP A C   1 \nATOM   1915 O  O   . ASP A 1 250 ? 23.804 7.423  26.529  1.00 31.94  ? 942  ASP A O   1 \nATOM   1916 C  CB  . ASP A 1 250 ? 22.716 5.941  29.274  1.00 34.61  ? 942  ASP A CB  1 \nATOM   1917 C  CG  . ASP A 1 250 ? 22.882 4.975  30.427  1.00 57.33  ? 942  ASP A CG  1 \nATOM   1918 O  OD1 . ASP A 1 250 ? 22.854 3.759  30.156  1.00 55.48  ? 942  ASP A OD1 1 \nATOM   1919 O  OD2 . ASP A 1 250 ? 23.075 5.431  31.589  1.00 61.31  ? 942  ASP A OD2 1 \nATOM   1920 N  N   . VAL A 1 251 ? 23.575 8.782  28.316  1.00 31.75  ? 943  VAL A N   1 \nATOM   1921 C  CA  . VAL A 1 251 ? 23.296 9.965  27.488  1.00 32.99  ? 943  VAL A CA  1 \nATOM   1922 C  C   . VAL A 1 251 ? 24.574 10.469 26.835  1.00 32.91  ? 943  VAL A C   1 \nATOM   1923 O  O   . VAL A 1 251 ? 24.594 10.757 25.638  1.00 30.24  ? 943  VAL A O   1 \nATOM   1924 C  CB  . VAL A 1 251 ? 22.603 11.095 28.278  1.00 38.37  ? 943  VAL A CB  1 \nATOM   1925 C  CG1 . VAL A 1 251 ? 22.510 12.373 27.438  1.00 34.73  ? 943  VAL A CG1 1 \nATOM   1926 C  CG2 . VAL A 1 251 ? 21.217 10.649 28.705  1.00 36.83  ? 943  VAL A CG2 1 \nATOM   1927 N  N   . TYR A 1 252 ? 25.647 10.557 27.612  1.00 32.14  ? 944  TYR A N   1 \nATOM   1928 C  CA  . TYR A 1 252 ? 26.927 10.980 27.042  1.00 31.45  ? 944  TYR A CA  1 \nATOM   1929 C  C   . TYR A 1 252 ? 27.404 10.020 25.942  1.00 29.66  ? 944  TYR A C   1 \nATOM   1930 O  O   . TYR A 1 252 ? 27.973 10.463 24.949  1.00 30.29  ? 944  TYR A O   1 \nATOM   1931 C  CB  . TYR A 1 252 ? 27.964 11.172 28.146  1.00 31.25  ? 944  TYR A CB  1 \nATOM   1932 C  CG  . TYR A 1 252 ? 29.292 11.716 27.677  1.00 33.16  ? 944  TYR A CG  1 \nATOM   1933 C  CD1 . TYR A 1 252 ? 30.480 11.078 28.026  1.00 38.27  ? 944  TYR A CD1 1 \nATOM   1934 C  CD2 . TYR A 1 252 ? 29.363 12.874 26.876  1.00 30.07  ? 944  TYR A CD2 1 \nATOM   1935 C  CE1 . TYR A 1 252 ? 31.701 11.576 27.611  1.00 34.59  ? 944  TYR A CE1 1 \nATOM   1936 C  CE2 . TYR A 1 252 ? 30.586 13.381 26.456  1.00 30.25  ? 944  TYR A CE2 1 \nATOM   1937 C  CZ  . TYR A 1 252 ? 31.740 12.734 26.829  1.00 33.30  ? 944  TYR A CZ  1 \nATOM   1938 O  OH  . TYR A 1 252 ? 32.946 13.214 26.403  1.00 32.21  ? 944  TYR A OH  1 \nATOM   1939 N  N   . MET A 1 253 ? 27.179 8.710  26.113  1.00 28.39  ? 945  MET A N   1 \nATOM   1940 C  CA  . MET A 1 253 ? 27.573 7.751  25.079  1.00 31.97  ? 945  MET A CA  1 \nATOM   1941 C  C   . MET A 1 253 ? 26.931 8.061  23.738  1.00 36.65  ? 945  MET A C   1 \nATOM   1942 O  O   . MET A 1 253 ? 27.522 7.845  22.690  1.00 28.47  ? 945  MET A O   1 \nATOM   1943 C  CB  . MET A 1 253 ? 27.202 6.316  25.454  1.00 38.25  ? 945  MET A CB  1 \nATOM   1944 C  CG  . MET A 1 253 ? 28.192 5.594  26.346  1.00 55.75  ? 945  MET A CG  1 \nATOM   1945 S  SD  . MET A 1 253 ? 29.792 5.350  25.555  1.00 67.50  ? 945  MET A SD  1 \nATOM   1946 C  CE  . MET A 1 253 ? 30.653 6.763  26.204  1.00 33.80  ? 945  MET A CE  1 \nATOM   1947 N  N   . ILE A 1 254 ? 25.689 8.529  23.763  1.00 30.37  ? 946  ILE A N   1 \nATOM   1948 C  CA  . ILE A 1 254 ? 25.062 8.912  22.527  1.00 31.60  ? 946  ILE A CA  1 \nATOM   1949 C  C   . ILE A 1 254 ? 25.826 10.040 21.849  1.00 24.60  ? 946  ILE A C   1 \nATOM   1950 O  O   . ILE A 1 254 ? 26.081 9.958  20.654  1.00 26.88  ? 946  ILE A O   1 \nATOM   1951 C  CB  . ILE A 1 254 ? 23.604 9.359  22.747  1.00 34.97  ? 946  ILE A CB  1 \nATOM   1952 C  CG1 . ILE A 1 254 ? 22.796 8.227  23.371  1.00 41.69  ? 946  ILE A CG1 1 \nATOM   1953 C  CG2 . ILE A 1 254 ? 22.984 9.808  21.430  1.00 36.80  ? 946  ILE A CG2 1 \nATOM   1954 C  CD1 . ILE A 1 254 ? 21.374 8.639  23.700  1.00 41.79  ? 946  ILE A CD1 1 \nATOM   1955 N  N   . MET A 1 255 ? 26.132 11.097 22.606  1.00 24.86  ? 947  MET A N   1 \nATOM   1956 C  CA  . MET A 1 255 ? 26.870 12.239 22.100  1.00 30.27  ? 947  MET A CA  1 \nATOM   1957 C  C   . MET A 1 255 ? 28.209 11.750 21.532  1.00 28.44  ? 947  MET A C   1 \nATOM   1958 O  O   . MET A 1 255 ? 28.639 12.157 20.443  1.00 29.20  ? 947  MET A O   1 \nATOM   1959 C  CB  . MET A 1 255 ? 27.147 13.237 23.233  1.00 31.12  ? 947  MET A CB  1 \nATOM   1960 C  CG  . MET A 1 255 ? 26.092 14.323 23.437  1.00 37.09  ? 947  MET A CG  1 \nATOM   1961 S  SD  . MET A 1 255 ? 26.416 15.215 24.976  1.00 41.55  ? 947  MET A SD  1 \nATOM   1962 C  CE  . MET A 1 255 ? 25.321 14.328 26.057  1.00 38.59  ? 947  MET A CE  1 \nATOM   1963 N  N   . VAL A 1 256 ? 28.856 10.867 22.284  1.00 27.85  ? 948  VAL A N   1 \nATOM   1964 C  CA  . VAL A 1 256 ? 30.157 10.315 21.867  1.00 28.13  ? 948  VAL A CA  1 \nATOM   1965 C  C   . VAL A 1 256 ? 30.089 9.557  20.548  1.00 25.79  ? 948  VAL A C   1 \nATOM   1966 O  O   . VAL A 1 256 ? 30.941 9.740  19.686  1.00 26.90  ? 948  VAL A O   1 \nATOM   1967 C  CB  . VAL A 1 256 ? 30.817 9.463  22.997  1.00 35.26  ? 948  VAL A CB  1 \nATOM   1968 C  CG1 . VAL A 1 256 ? 32.037 8.701  22.473  1.00 32.02  ? 948  VAL A CG1 1 \nATOM   1969 C  CG2 . VAL A 1 256 ? 31.236 10.376 24.148  1.00 32.56  ? 948  VAL A CG2 1 \nATOM   1970 N  N   . LYS A 1 257 ? 29.031 8.755  20.361  1.00 27.83  ? 949  LYS A N   1 \nATOM   1971 C  CA  . LYS A 1 257 ? 28.774 8.081  19.101  1.00 27.08  ? 949  LYS A CA  1 \nATOM   1972 C  C   . LYS A 1 257 ? 28.585 9.047  17.933  1.00 25.07  ? 949  LYS A C   1 \nATOM   1973 O  O   . LYS A 1 257 ? 29.025 8.744  16.823  1.00 24.22  ? 949  LYS A O   1 \nATOM   1974 C  CB  . LYS A 1 257 ? 27.539 7.151  19.198  1.00 30.67  ? 949  LYS A CB  1 \nATOM   1975 C  CG  . LYS A 1 257 ? 27.699 5.954  20.116  1.00 50.64  ? 949  LYS A CG  1 \nATOM   1976 C  CD  . LYS A 1 257 ? 26.468 5.062  20.040  1.00 51.67  ? 949  LYS A CD  1 \nATOM   1977 C  CE  . LYS A 1 257 ? 26.423 4.044  21.167  1.00 82.77  ? 949  LYS A CE  1 \nATOM   1978 N  NZ  . LYS A 1 257 ? 25.147 3.272  21.132  1.00 91.62  ? 949  LYS A NZ  1 \nATOM   1979 N  N   . CYS A 1 258 ? 27.916 10.191 18.177  1.00 25.41  ? 950  CYS A N   1 \nATOM   1980 C  CA  . CYS A 1 258 ? 27.705 11.180 17.129  1.00 19.95  ? 950  CYS A CA  1 \nATOM   1981 C  C   . CYS A 1 258 ? 29.041 11.770 16.638  1.00 23.74  ? 950  CYS A C   1 \nATOM   1982 O  O   . CYS A 1 258 ? 29.101 12.339 15.565  1.00 25.93  ? 950  CYS A O   1 \nATOM   1983 C  CB  . CYS A 1 258 ? 26.879 12.333 17.670  1.00 19.18  ? 950  CYS A CB  1 \nATOM   1984 S  SG  . CYS A 1 258 ? 25.132 11.865 17.902  1.00 27.36  ? 950  CYS A SG  1 \nATOM   1985 N  N   . TRP A 1 259 ? 30.088 11.654 17.440  1.00 26.52  ? 951  TRP A N   1 \nATOM   1986 C  CA  . TRP A 1 259 ? 31.397 12.217 17.056  1.00 25.40  ? 951  TRP A CA  1 \nATOM   1987 C  C   . TRP A 1 259 ? 32.490 11.223 16.667  1.00 26.10  ? 951  TRP A C   1 \nATOM   1988 O  O   . TRP A 1 259 ? 33.711 11.543 16.678  1.00 28.21  ? 951  TRP A O   1 \nATOM   1989 C  CB  . TRP A 1 259 ? 31.924 13.148 18.145  1.00 29.36  ? 951  TRP A CB  1 \nATOM   1990 C  CG  . TRP A 1 259 ? 30.945 14.182 18.676  1.00 26.70  ? 951  TRP A CG  1 \nATOM   1991 C  CD1 . TRP A 1 259 ? 30.089 14.983 17.956  1.00 24.99  ? 951  TRP A CD1 1 \nATOM   1992 C  CD2 . TRP A 1 259 ? 30.788 14.550 20.045  1.00 27.29  ? 951  TRP A CD2 1 \nATOM   1993 N  NE1 . TRP A 1 259 ? 29.440 15.834 18.802  1.00 24.81  ? 951  TRP A NE1 1 \nATOM   1994 C  CE2 . TRP A 1 259 ? 29.813 15.567 20.092  1.00 28.56  ? 951  TRP A CE2 1 \nATOM   1995 C  CE3 . TRP A 1 259 ? 31.365 14.099 21.250  1.00 21.85  ? 951  TRP A CE3 1 \nATOM   1996 C  CZ2 . TRP A 1 259 ? 29.396 16.145 21.294  1.00 29.28  ? 951  TRP A CZ2 1 \nATOM   1997 C  CZ3 . TRP A 1 259 ? 30.964 14.656 22.427  1.00 26.79  ? 951  TRP A CZ3 1 \nATOM   1998 C  CH2 . TRP A 1 259 ? 29.962 15.679 22.449  1.00 25.12  ? 951  TRP A CH2 1 \nATOM   1999 N  N   . MET A 1 260 ? 32.068 10.028 16.295  1.00 28.04  ? 952  MET A N   1 \nATOM   2000 C  CA  . MET A 1 260 ? 32.971 9.031  15.724  1.00 31.49  ? 952  MET A CA  1 \nATOM   2001 C  C   . MET A 1 260 ? 33.558 9.485  14.406  1.00 31.35  ? 952  MET A C   1 \nATOM   2002 O  O   . MET A 1 260 ? 32.898 10.092 13.574  1.00 22.79  ? 952  MET A O   1 \nATOM   2003 C  CB  . MET A 1 260 ? 32.235 7.699  15.549  1.00 29.84  ? 952  MET A CB  1 \nATOM   2004 C  CG  . MET A 1 260 ? 31.955 7.055  16.881  1.00 35.69  ? 952  MET A CG  1 \nATOM   2005 S  SD  . MET A 1 260 ? 31.264 5.418  16.645  1.00 50.21  ? 952  MET A SD  1 \nATOM   2006 C  CE  . MET A 1 260 ? 29.532 5.748  16.482  1.00 49.56  ? 952  MET A CE  1 \nATOM   2007 N  N   . ILE A 1 261 ? 34.849 9.215  14.207  1.00 26.28  ? 953  ILE A N   1 \nATOM   2008 C  CA  . ILE A 1 261 ? 35.477 9.572  12.945  1.00 26.84  ? 953  ILE A CA  1 \nATOM   2009 C  C   . ILE A 1 261 ? 34.795 8.949  11.721  1.00 26.04  ? 953  ILE A C   1 \nATOM   2010 O  O   . ILE A 1 261 ? 34.618 9.606  10.661  1.00 27.41  ? 953  ILE A O   1 \nATOM   2011 C  CB  . ILE A 1 261 ? 37.008 9.189  13.002  1.00 27.73  ? 953  ILE A CB  1 \nATOM   2012 C  CG1 . ILE A 1 261 ? 37.730 10.036 14.057  1.00 41.78  ? 953  ILE A CG1 1 \nATOM   2013 C  CG2 . ILE A 1 261 ? 37.658 9.347  11.637  1.00 34.33  ? 953  ILE A CG2 1 \nATOM   2014 C  CD1 . ILE A 1 261 ? 37.358 11.509 14.059  1.00 44.58  ? 953  ILE A CD1 1 \nATOM   2015 N  N   . ASP A 1 262 ? 34.376 7.696  11.878  1.00 29.16  ? 954  ASP A N   1 \nATOM   2016 C  CA  . ASP A 1 262 ? 33.643 6.975  10.837  1.00 25.74  ? 954  ASP A CA  1 \nATOM   2017 C  C   . ASP A 1 262 ? 32.196 7.450  10.801  1.00 28.20  ? 954  ASP A C   1 \nATOM   2018 O  O   . ASP A 1 262 ? 31.405 7.040  11.644  1.00 28.96  ? 954  ASP A O   1 \nATOM   2019 C  CB  . ASP A 1 262 ? 33.681 5.473  11.100  1.00 29.26  ? 954  ASP A CB  1 \nATOM   2020 C  CG  . ASP A 1 262 ? 32.932 4.663  10.055  1.00 44.06  ? 954  ASP A CG  1 \nATOM   2021 O  OD1 . ASP A 1 262 ? 32.812 3.447  10.275  1.00 41.62  ? 954  ASP A OD1 1 \nATOM   2022 O  OD2 . ASP A 1 262 ? 32.448 5.217  9.035   1.00 48.86  ? 954  ASP A OD2 1 \nATOM   2023 N  N   . ALA A 1 263 ? 31.874 8.302  9.828   1.00 23.94  ? 955  ALA A N   1 \nATOM   2024 C  CA  . ALA A 1 263 ? 30.497 8.895  9.752   1.00 27.43  ? 955  ALA A CA  1 \nATOM   2025 C  C   . ALA A 1 263 ? 29.398 7.840  9.609   1.00 26.35  ? 955  ALA A C   1 \nATOM   2026 O  O   . ALA A 1 263 ? 28.243 8.053  10.075  1.00 28.83  ? 955  ALA A O   1 \nATOM   2027 C  CB  . ALA A 1 263 ? 30.425 9.862  8.584   1.00 28.45  ? 955  ALA A CB  1 \nATOM   2028 N  N   . ASP A 1 264 ? 29.709 6.752  8.874   1.00 26.69  ? 956  ASP A N   1 \nATOM   2029 C  CA  . ASP A 1 264 ? 28.798 5.640  8.673   1.00 35.35  ? 956  ASP A CA  1 \nATOM   2030 C  C   . ASP A 1 264 ? 28.457 4.912  9.979   1.00 40.99  ? 956  ASP A C   1 \nATOM   2031 O  O   . ASP A 1 264 ? 27.404 4.282  10.089  1.00 37.36  ? 956  ASP A O   1 \nATOM   2032 C  CB  . ASP A 1 264 ? 29.334 4.636  7.633   1.00 32.05  ? 956  ASP A CB  1 \nATOM   2033 C  CG  . ASP A 1 264 ? 29.294 5.172  6.206   1.00 36.02  ? 956  ASP A CG  1 \nATOM   2034 O  OD1 . ASP A 1 264 ? 28.299 5.828  5.811   1.00 35.49  ? 956  ASP A OD1 1 \nATOM   2035 O  OD2 . ASP A 1 264 ? 30.257 4.924  5.444   1.00 34.40  ? 956  ASP A OD2 1 \nATOM   2036 N  N   . SER A 1 265 ? 29.350 4.987  10.957  1.00 27.19  ? 957  SER A N   1 \nATOM   2037 C  CA  . SER A 1 265 ? 29.096 4.376  12.282  1.00 33.80  ? 957  SER A CA  1 \nATOM   2038 C  C   . SER A 1 265 ? 28.258 5.210  13.267  1.00 30.15  ? 957  SER A C   1 \nATOM   2039 O  O   . SER A 1 265 ? 27.822 4.689  14.294  1.00 29.39  ? 957  SER A O   1 \nATOM   2040 C  CB  . SER A 1 265 ? 30.420 3.971  12.943  1.00 38.98  ? 957  SER A CB  1 \nATOM   2041 O  OG  . SER A 1 265 ? 30.965 2.841  12.272  1.00 49.31  ? 957  SER A OG  1 \nATOM   2042 N  N   . ARG A 1 266 ? 28.104 6.507  12.989  1.00 24.60  ? 958  ARG A N   1 \nATOM   2043 C  CA  . ARG A 1 266 ? 27.427 7.421  13.874  1.00 22.34  ? 958  ARG A CA  1 \nATOM   2044 C  C   . ARG A 1 266 ? 25.958 6.978  13.823  1.00 26.19  ? 958  ARG A C   1 \nATOM   2045 O  O   . ARG A 1 266 ? 25.567 6.399  12.818  1.00 29.89  ? 958  ARG A O   1 \nATOM   2046 C  CB  . ARG A 1 266 ? 27.487 8.840  13.320  1.00 22.29  ? 958  ARG A CB  1 \nATOM   2047 C  CG  . ARG A 1 266 ? 28.877 9.471  13.416  1.00 26.42  ? 958  ARG A CG  1 \nATOM   2048 C  CD  . ARG A 1 266 ? 28.968 10.829 12.731  1.00 21.30  ? 958  ARG A CD  1 \nATOM   2049 N  NE  . ARG A 1 266 ? 30.421 11.064 12.508  1.00 23.89  ? 958  ARG A NE  1 \nATOM   2050 C  CZ  . ARG A 1 266 ? 30.895 11.848 11.556  1.00 24.19  ? 958  ARG A CZ  1 \nATOM   2051 N  NH1 . ARG A 1 266 ? 32.214 11.950 11.405  1.00 25.65  ? 958  ARG A NH1 1 \nATOM   2052 N  NH2 . ARG A 1 266 ? 30.062 12.523 10.754  1.00 24.53  ? 958  ARG A NH2 1 \nATOM   2053 N  N   . PRO A 1 267 ? 25.180 7.292  14.873  1.00 25.41  ? 959  PRO A N   1 \nATOM   2054 C  CA  . PRO A 1 267 ? 23.727 6.979  14.901  1.00 29.19  ? 959  PRO A CA  1 \nATOM   2055 C  C   . PRO A 1 267 ? 23.027 7.670  13.743  1.00 29.90  ? 959  PRO A C   1 \nATOM   2056 O  O   . PRO A 1 267 ? 23.515 8.685  13.220  1.00 29.85  ? 959  PRO A O   1 \nATOM   2057 C  CB  . PRO A 1 267 ? 23.253 7.611  16.218  1.00 27.16  ? 959  PRO A CB  1 \nATOM   2058 C  CG  . PRO A 1 267 ? 24.496 7.779  17.044  1.00 33.36  ? 959  PRO A CG  1 \nATOM   2059 C  CD  . PRO A 1 267 ? 25.558 8.113  16.031  1.00 25.57  ? 959  PRO A CD  1 \nATOM   2060 N  N   . LYS A 1 268 ? 21.865 7.156  13.352  1.00 29.28  ? 960  LYS A N   1 \nATOM   2061 C  CA  . LYS A 1 268 ? 21.033 7.865  12.390  1.00 30.63  ? 960  LYS A CA  1 \nATOM   2062 C  C   . LYS A 1 268 ? 19.933 8.641  13.110  1.00 31.70  ? 960  LYS A C   1 \nATOM   2063 O  O   . LYS A 1 268 ? 19.543 8.314  14.221  1.00 28.52  ? 960  LYS A O   1 \nATOM   2064 C  CB  . LYS A 1 268 ? 20.365 6.870  11.429  1.00 32.29  ? 960  LYS A CB  1 \nATOM   2065 C  CG  . LYS A 1 268 ? 21.313 5.899  10.741  1.00 36.44  ? 960  LYS A CG  1 \nATOM   2066 C  CD  . LYS A 1 268 ? 22.209 6.612  9.746   1.00 37.47  ? 960  LYS A CD  1 \nATOM   2067 C  CE  . LYS A 1 268 ? 23.462 5.782  9.499   1.00 48.14  ? 960  LYS A CE  1 \nATOM   2068 N  NZ  . LYS A 1 268 ? 23.127 4.504  8.814   1.00 57.44  ? 960  LYS A NZ  1 \nATOM   2069 N  N   . PHE A 1 269 ? 19.394 9.652  12.456  1.00 24.91  ? 961  PHE A N   1 \nATOM   2070 C  CA  . PHE A 1 269 ? 18.433 10.468 13.137  1.00 26.97  ? 961  PHE A CA  1 \nATOM   2071 C  C   . PHE A 1 269 ? 17.237 9.612  13.525  1.00 22.48  ? 961  PHE A C   1 \nATOM   2072 O  O   . PHE A 1 269 ? 16.689 9.800  14.595  1.00 26.85  ? 961  PHE A O   1 \nATOM   2073 C  CB  . PHE A 1 269 ? 18.014 11.643 12.277  1.00 33.43  ? 961  PHE A CB  1 \nATOM   2074 C  CG  . PHE A 1 269 ? 19.026 12.743 12.274  1.00 24.90  ? 961  PHE A CG  1 \nATOM   2075 C  CD1 . PHE A 1 269 ? 19.358 13.369 13.466  1.00 23.94  ? 961  PHE A CD1 1 \nATOM   2076 C  CD2 . PHE A 1 269 ? 19.630 13.143 11.093  1.00 24.13  ? 961  PHE A CD2 1 \nATOM   2077 C  CE1 . PHE A 1 269 ? 20.352 14.358 13.498  1.00 26.04  ? 961  PHE A CE1 1 \nATOM   2078 C  CE2 . PHE A 1 269 ? 20.554 14.165 11.109  1.00 27.17  ? 961  PHE A CE2 1 \nATOM   2079 C  CZ  . PHE A 1 269 ? 20.904 14.778 12.306  1.00 25.42  ? 961  PHE A CZ  1 \nATOM   2080 N  N   . ARG A 1 270 ? 16.913 8.620  12.705  1.00 24.16  ? 962  ARG A N   1 \nATOM   2081 C  CA  . ARG A 1 270 ? 15.698 7.803  12.997  1.00 32.45  ? 962  ARG A CA  1 \nATOM   2082 C  C   . ARG A 1 270 ? 15.979 7.043  14.307  1.00 35.66  ? 962  ARG A C   1 \nATOM   2083 O  O   . ARG A 1 270 ? 15.109 6.916  15.173  1.00 34.39  ? 962  ARG A O   1 \nATOM   2084 C  CB  . ARG A 1 270 ? 15.393 6.848  11.821  1.00 36.50  ? 962  ARG A CB  1 \nATOM   2085 C  CG  . ARG A 1 270 ? 16.445 5.762  11.594  1.00 48.32  ? 962  ARG A CG  1 \nATOM   2086 C  CD  . ARG A 1 270 ? 16.647 5.384  10.127  1.00 72.54  ? 962  ARG A CD  1 \nATOM   2087 N  NE  . ARG A 1 270 ? 17.491 6.337  9.388   1.00 61.27  ? 962  ARG A NE  1 \nATOM   2088 C  CZ  . ARG A 1 270 ? 18.232 6.030  8.322   1.00 64.43  ? 962  ARG A CZ  1 \nATOM   2089 N  NH1 . ARG A 1 270 ? 18.264 4.780  7.865   1.00 77.99  ? 962  ARG A NH1 1 \nATOM   2090 N  NH2 . ARG A 1 270 ? 18.964 6.968  7.716   1.00 54.18  ? 962  ARG A NH2 1 \nATOM   2091 N  N   . GLU A 1 271 ? 17.232 6.598  14.462  1.00 30.85  ? 963  GLU A N   1 \nATOM   2092 C  CA  . GLU A 1 271 ? 17.713 5.932  15.695  1.00 32.05  ? 963  GLU A CA  1 \nATOM   2093 C  C   . GLU A 1 271 ? 17.723 6.833  16.937  1.00 31.45  ? 963  GLU A C   1 \nATOM   2094 O  O   . GLU A 1 271 ? 17.424 6.388  18.040  1.00 29.54  ? 963  GLU A O   1 \nATOM   2095 C  CB  . GLU A 1 271 ? 19.123 5.344  15.466  1.00 37.66  ? 963  GLU A CB  1 \nATOM   2096 C  CG  . GLU A 1 271 ? 19.140 4.191  14.463  1.00 39.70  ? 963  GLU A CG  1 \nATOM   2097 C  CD  . GLU A 1 271 ? 20.539 3.774  14.022  1.00 60.45  ? 963  GLU A CD  1 \nATOM   2098 O  OE1 . GLU A 1 271 ? 20.644 2.752  13.313  1.00 56.23  ? 963  GLU A OE1 1 \nATOM   2099 O  OE2 . GLU A 1 271 ? 21.533 4.453  14.369  1.00 41.38  ? 963  GLU A OE2 1 \nATOM   2100 N  N   . LEU A 1 272 ? 18.100 8.096  16.762  1.00 25.31  ? 964  LEU A N   1 \nATOM   2101 C  CA  . LEU A 1 272 ? 18.184 9.032  17.859  1.00 26.32  ? 964  LEU A CA  1 \nATOM   2102 C  C   . LEU A 1 272 ? 16.778 9.424  18.328  1.00 26.13  ? 964  LEU A C   1 \nATOM   2103 O  O   . LEU A 1 272 ? 16.542 9.584  19.516  1.00 28.65  ? 964  LEU A O   1 \nATOM   2104 C  CB  . LEU A 1 272 ? 18.960 10.264 17.395  1.00 25.89  ? 964  LEU A CB  1 \nATOM   2105 C  CG  . LEU A 1 272 ? 20.460 10.072 17.111  1.00 28.60  ? 964  LEU A CG  1 \nATOM   2106 C  CD1 . LEU A 1 272 ? 20.942 11.251 16.261  1.00 28.66  ? 964  LEU A CD1 1 \nATOM   2107 C  CD2 . LEU A 1 272 ? 21.206 9.996  18.428  1.00 27.47  ? 964  LEU A CD2 1 \nATOM   2108 N  N   . ILE A 1 273 ? 15.848 9.508  17.390  1.00 28.34  ? 965  ILE A N   1 \nATOM   2109 C  CA  . ILE A 1 273 ? 14.435 9.745  17.762  1.00 26.46  ? 965  ILE A CA  1 \nATOM   2110 C  C   . ILE A 1 273 ? 13.987 8.624  18.726  1.00 30.61  ? 965  ILE A C   1 \nATOM   2111 O  O   . ILE A 1 273 ? 13.446 8.890  19.807  1.00 35.75  ? 965  ILE A O   1 \nATOM   2112 C  CB  . ILE A 1 273 ? 13.507 9.775  16.531  1.00 25.40  ? 965  ILE A CB  1 \nATOM   2113 C  CG1 . ILE A 1 273 ? 13.784 10.979 15.618  1.00 25.97  ? 965  ILE A CG1 1 \nATOM   2114 C  CG2 . ILE A 1 273 ? 12.032 9.811  17.000  1.00 25.35  ? 965  ILE A CG2 1 \nATOM   2115 C  CD1 . ILE A 1 273 ? 13.176 10.873 14.232  1.00 30.34  ? 965  ILE A CD1 1 \nATOM   2116 N  N   . ILE A 1 274 ? 14.233 7.375  18.338  1.00 29.68  ? 966  ILE A N   1 \nATOM   2117 C  CA  . ILE A 1 274 ? 13.841 6.221  19.176  1.00 33.21  ? 966  ILE A CA  1 \nATOM   2118 C  C   . ILE A 1 274 ? 14.534 6.232  20.529  1.00 36.70  ? 966  ILE A C   1 \nATOM   2119 O  O   . ILE A 1 274 ? 13.885 6.070  21.549  1.00 31.29  ? 966  ILE A O   1 \nATOM   2120 C  CB  . ILE A 1 274 ? 14.066 4.878  18.435  1.00 37.90  ? 966  ILE A CB  1 \nATOM   2121 C  CG1 . ILE A 1 274 ? 13.175 4.837  17.184  1.00 35.13  ? 966  ILE A CG1 1 \nATOM   2122 C  CG2 . ILE A 1 274 ? 13.825 3.690  19.359  1.00 38.22  ? 966  ILE A CG2 1 \nATOM   2123 C  CD1 . ILE A 1 274 ? 13.473 3.718  16.211  1.00 39.64  ? 966  ILE A CD1 1 \nATOM   2124 N  N   . GLU A 1 275 ? 15.857 6.436  20.546  1.00 29.87  ? 967  GLU A N   1 \nATOM   2125 C  CA  . GLU A 1 275 ? 16.596 6.395  21.799  1.00 30.45  ? 967  GLU A CA  1 \nATOM   2126 C  C   . GLU A 1 275 ? 16.229 7.514  22.744  1.00 27.32  ? 967  GLU A C   1 \nATOM   2127 O  O   . GLU A 1 275 ? 16.050 7.279  23.938  1.00 31.31  ? 967  GLU A O   1 \nATOM   2128 C  CB  . GLU A 1 275 ? 18.118 6.417  21.550  1.00 29.82  ? 967  GLU A CB  1 \nATOM   2129 C  CG  . GLU A 1 275 ? 18.888 6.111  22.833  1.00 41.91  ? 967  GLU A CG  1 \nATOM   2130 C  CD  . GLU A 1 275 ? 20.220 5.413  22.612  1.00 67.96  ? 967  GLU A CD  1 \nATOM   2131 O  OE1 . GLU A 1 275 ? 20.706 5.384  21.459  1.00 72.73  ? 967  GLU A OE1 1 \nATOM   2132 O  OE2 . GLU A 1 275 ? 20.787 4.895  23.605  1.00 71.12  ? 967  GLU A OE2 1 \nATOM   2133 N  N   . PHE A 1 276 ? 16.157 8.746  22.244  1.00 25.09  ? 968  PHE A N   1 \nATOM   2134 C  CA  . PHE A 1 276 ? 15.799 9.825  23.118  1.00 24.70  ? 968  PHE A CA  1 \nATOM   2135 C  C   . PHE A 1 276 ? 14.334 9.732  23.526  1.00 27.77  ? 968  PHE A C   1 \nATOM   2136 O  O   . PHE A 1 276 ? 13.984 10.202 24.602  1.00 33.79  ? 968  PHE A O   1 \nATOM   2137 C  CB  . PHE A 1 276 ? 16.098 11.200 22.519  1.00 29.04  ? 968  PHE A CB  1 \nATOM   2138 C  CG  . PHE A 1 276 ? 17.534 11.615 22.687  1.00 26.08  ? 968  PHE A CG  1 \nATOM   2139 C  CD1 . PHE A 1 276 ? 17.986 12.107 23.923  1.00 28.02  ? 968  PHE A CD1 1 \nATOM   2140 C  CD2 . PHE A 1 276 ? 18.414 11.523 21.643  1.00 31.48  ? 968  PHE A CD2 1 \nATOM   2141 C  CE1 . PHE A 1 276 ? 19.312 12.484 24.098  1.00 37.91  ? 968  PHE A CE1 1 \nATOM   2142 C  CE2 . PHE A 1 276 ? 19.764 11.894 21.814  1.00 28.57  ? 968  PHE A CE2 1 \nATOM   2143 C  CZ  . PHE A 1 276 ? 20.193 12.375 23.040  1.00 28.34  ? 968  PHE A CZ  1 \nATOM   2144 N  N   . SER A 1 277 ? 13.498 9.131  22.682  1.00 30.87  ? 969  SER A N   1 \nATOM   2145 C  CA  . SER A 1 277 ? 12.068 8.965  23.060  1.00 33.85  ? 969  SER A CA  1 \nATOM   2146 C  C   . SER A 1 277 ? 11.898 7.999  24.228  1.00 33.17  ? 969  SER A C   1 \nATOM   2147 O  O   . SER A 1 277 ? 11.093 8.243  25.128  1.00 34.84  ? 969  SER A O   1 \nATOM   2148 C  CB  . SER A 1 277 ? 11.181 8.532  21.883  1.00 32.06  ? 969  SER A CB  1 \nATOM   2149 O  OG  . SER A 1 277 ? 10.991 9.585  20.955  1.00 33.02  ? 969  SER A OG  1 \nATOM   2150 N  N   . LYS A 1 278 ? 12.652 6.908  24.205  1.00 32.14  ? 970  LYS A N   1 \nATOM   2151 C  CA  . LYS A 1 278 ? 12.703 5.961  25.309  1.00 37.37  ? 970  LYS A CA  1 \nATOM   2152 C  C   . LYS A 1 278 ? 13.193 6.609  26.609  1.00 39.04  ? 970  LYS A C   1 \nATOM   2153 O  O   . LYS A 1 278 ? 12.638 6.378  27.685  1.00 34.22  ? 970  LYS A O   1 \nATOM   2154 C  CB  . LYS A 1 278 ? 13.586 4.781  24.930  1.00 44.71  ? 970  LYS A CB  1 \nATOM   2155 C  CG  . LYS A 1 278 ? 13.514 3.603  25.888  1.00 54.40  ? 970  LYS A CG  1 \nATOM   2156 C  CD  . LYS A 1 278 ? 14.842 2.871  25.914  1.00 66.75  ? 970  LYS A CD  1 \nATOM   2157 C  CE  . LYS A 1 278 ? 15.858 3.647  26.735  1.00 61.14  ? 970  LYS A CE  1 \nATOM   2158 N  NZ  . LYS A 1 278 ? 17.221 3.578  26.145  1.00 57.30  ? 970  LYS A NZ  1 \nATOM   2159 N  N   . MET A 1 279 ? 14.221 7.447  26.507  1.00 34.27  ? 971  MET A N   1 \nATOM   2160 C  CA  . MET A 1 279 ? 14.714 8.170  27.667  1.00 38.53  ? 971  MET A CA  1 \nATOM   2161 C  C   . MET A 1 279 ? 13.699 9.182  28.205  1.00 36.40  ? 971  MET A C   1 \nATOM   2162 O  O   . MET A 1 279 ? 13.541 9.326  29.421  1.00 37.01  ? 971  MET A O   1 \nATOM   2163 C  CB  . MET A 1 279 ? 16.045 8.860  27.343  1.00 32.59  ? 971  MET A CB  1 \nATOM   2164 C  CG  . MET A 1 279 ? 17.187 7.876  27.201  1.00 37.63  ? 971  MET A CG  1 \nATOM   2165 S  SD  . MET A 1 279 ? 18.730 8.693  26.743  1.00 42.65  ? 971  MET A SD  1 \nATOM   2166 C  CE  . MET A 1 279 ? 19.755 7.243  26.504  1.00 41.03  ? 971  MET A CE  1 \nATOM   2167 N  N   . ALA A 1 280 ? 13.022 9.881  27.306  1.00 35.63  ? 972  ALA A N   1 \nATOM   2168 C  CA  . ALA A 1 280 ? 12.009 10.863 27.707  1.00 40.29  ? 972  ALA A CA  1 \nATOM   2169 C  C   . ALA A 1 280 ? 10.846 10.214 28.471  1.00 39.74  ? 972  ALA A C   1 \nATOM   2170 O  O   . ALA A 1 280 ? 10.048 10.905 29.100  1.00 41.83  ? 972  ALA A O   1 \nATOM   2171 C  CB  . ALA A 1 280 ? 11.484 11.612 26.501  1.00 36.65  ? 972  ALA A CB  1 \nATOM   2172 N  N   . ARG A 1 281 ? 10.763 8.890  28.411  1.00 38.80  ? 973  ARG A N   1 \nATOM   2173 C  CA  . ARG A 1 281 ? 9.721  8.145  29.122  1.00 45.17  ? 973  ARG A CA  1 \nATOM   2174 C  C   . ARG A 1 281 ? 10.071 7.938  30.587  1.00 46.95  ? 973  ARG A C   1 \nATOM   2175 O  O   . ARG A 1 281 ? 9.193  7.680  31.408  1.00 46.82  ? 973  ARG A O   1 \nATOM   2176 C  CB  . ARG A 1 281 ? 9.460  6.799  28.448  1.00 49.11  ? 973  ARG A CB  1 \nATOM   2177 C  CG  . ARG A 1 281 ? 8.497  6.894  27.281  1.00 63.00  ? 973  ARG A CG  1 \nATOM   2178 C  CD  . ARG A 1 281 ? 8.006  5.523  26.852  1.00 68.86  ? 973  ARG A CD  1 \nATOM   2179 N  NE  . ARG A 1 281 ? 8.972  4.845  25.992  1.00 74.80  ? 973  ARG A NE  1 \nATOM   2180 C  CZ  . ARG A 1 281 ? 9.147  5.112  24.699  1.00 74.25  ? 973  ARG A CZ  1 \nATOM   2181 N  NH1 . ARG A 1 281 ? 8.426  6.054  24.094  1.00 60.78  ? 973  ARG A NH1 1 \nATOM   2182 N  NH2 . ARG A 1 281 ? 10.052 4.439  24.007  1.00 62.58  ? 973  ARG A NH2 1 \nATOM   2183 N  N   . ASP A 1 282 ? 11.356 8.059  30.913  1.00 44.27  ? 974  ASP A N   1 \nATOM   2184 C  CA  . ASP A 1 282 ? 11.825 7.902  32.281  1.00 40.09  ? 974  ASP A CA  1 \nATOM   2185 C  C   . ASP A 1 282 ? 12.989 8.886  32.485  1.00 43.22  ? 974  ASP A C   1 \nATOM   2186 O  O   . ASP A 1 282 ? 14.125 8.467  32.685  1.00 44.56  ? 974  ASP A O   1 \nATOM   2187 C  CB  . ASP A 1 282 ? 12.254 6.440  32.496  1.00 49.38  ? 974  ASP A CB  1 \nATOM   2188 C  CG  . ASP A 1 282 ? 12.701 6.146  33.922  1.00 50.59  ? 974  ASP A CG  1 \nATOM   2189 O  OD1 . ASP A 1 282 ? 12.452 6.968  34.825  1.00 48.82  ? 974  ASP A OD1 1 \nATOM   2190 O  OD2 . ASP A 1 282 ? 13.317 5.076  34.134  1.00 59.91  ? 974  ASP A OD2 1 \nATOM   2191 N  N   . PRO A 1 283 ? 12.706 10.199 32.427  1.00 47.74  ? 975  PRO A N   1 \nATOM   2192 C  CA  . PRO A 1 283 ? 13.787 11.200 32.291  1.00 38.86  ? 975  PRO A CA  1 \nATOM   2193 C  C   . PRO A 1 283 ? 14.784 11.235 33.452  1.00 49.16  ? 975  PRO A C   1 \nATOM   2194 O  O   . PRO A 1 283 ? 15.972 11.511 33.256  1.00 35.53  ? 975  PRO A O   1 \nATOM   2195 C  CB  . PRO A 1 283 ? 13.033 12.530 32.189  1.00 42.70  ? 975  PRO A CB  1 \nATOM   2196 C  CG  . PRO A 1 283 ? 11.678 12.271 32.763  1.00 40.71  ? 975  PRO A CG  1 \nATOM   2197 C  CD  . PRO A 1 283 ? 11.371 10.826 32.491  1.00 37.78  ? 975  PRO A CD  1 \nATOM   2198 N  N   . GLN A 1 284 ? 14.305 10.943 34.654  1.00 46.37  ? 976  GLN A N   1 \nATOM   2199 C  CA  . GLN A 1 284 ? 15.132 11.037 35.844  1.00 44.65  ? 976  GLN A CA  1 \nATOM   2200 C  C   . GLN A 1 284 ? 16.125 9.898  35.976  1.00 44.99  ? 976  GLN A C   1 \nATOM   2201 O  O   . GLN A 1 284 ? 17.103 10.018 36.712  1.00 46.21  ? 976  GLN A O   1 \nATOM   2202 C  CB  . GLN A 1 284 ? 14.268 11.228 37.092  1.00 49.69  ? 976  GLN A CB  1 \nATOM   2203 C  CG  . GLN A 1 284 ? 13.475 12.530 37.034  1.00 56.06  ? 976  GLN A CG  1 \nATOM   2204 C  CD  . GLN A 1 284 ? 12.517 12.716 38.191  1.00 63.88  ? 976  GLN A CD  1 \nATOM   2205 O  OE1 . GLN A 1 284 ? 11.316 12.930 37.993  1.00 71.50  ? 976  GLN A OE1 1 \nATOM   2206 N  NE2 . GLN A 1 284 ? 13.039 12.644 39.403  1.00 50.50  ? 976  GLN A NE2 1 \nATOM   2207 N  N   . ARG A 1 285 ? 15.884 8.808  35.243  1.00 42.74  ? 977  ARG A N   1 \nATOM   2208 C  CA  . ARG A 1 285 ? 16.888 7.757  35.069  1.00 45.63  ? 977  ARG A CA  1 \nATOM   2209 C  C   . ARG A 1 285 ? 18.112 8.246  34.274  1.00 43.53  ? 977  ARG A C   1 \nATOM   2210 O  O   . ARG A 1 285 ? 19.234 7.782  34.496  1.00 42.89  ? 977  ARG A O   1 \nATOM   2211 C  CB  . ARG A 1 285 ? 16.281 6.535  34.364  1.00 45.27  ? 977  ARG A CB  1 \nATOM   2212 C  CG  . ARG A 1 285 ? 17.132 5.283  34.472  1.00 46.22  ? 977  ARG A CG  1 \nATOM   2213 C  CD  . ARG A 1 285 ? 16.596 4.107  33.671  1.00 54.73  ? 977  ARG A CD  1 \nATOM   2214 N  NE  . ARG A 1 285 ? 17.709 3.226  33.297  1.00 57.38  ? 977  ARG A NE  1 \nATOM   2215 C  CZ  . ARG A 1 285 ? 17.623 2.135  32.532  1.00 64.89  ? 977  ARG A CZ  1 \nATOM   2216 N  NH1 . ARG A 1 285 ? 18.720 1.429  32.275  1.00 58.85  ? 977  ARG A NH1 1 \nATOM   2217 N  NH2 . ARG A 1 285 ? 16.465 1.744  32.016  1.00 46.96  ? 977  ARG A NH2 1 \nATOM   2218 N  N   . TYR A 1 286 ? 17.904 9.187  33.354  1.00 45.93  ? 978  TYR A N   1 \nATOM   2219 C  CA  . TYR A 1 286 ? 18.962 9.530  32.383  1.00 38.90  ? 978  TYR A CA  1 \nATOM   2220 C  C   . TYR A 1 286 ? 19.665 10.872 32.595  1.00 39.82  ? 978  TYR A C   1 \nATOM   2221 O  O   . TYR A 1 286 ? 20.848 11.039 32.216  1.00 32.24  ? 978  TYR A O   1 \nATOM   2222 C  CB  . TYR A 1 286 ? 18.411 9.401  30.966  1.00 35.50  ? 978  TYR A CB  1 \nATOM   2223 C  CG  . TYR A 1 286 ? 17.969 7.990  30.665  1.00 38.93  ? 978  TYR A CG  1 \nATOM   2224 C  CD1 . TYR A 1 286 ? 16.619 7.628  30.743  1.00 41.70  ? 978  TYR A CD1 1 \nATOM   2225 C  CD2 . TYR A 1 286 ? 18.900 7.009  30.321  1.00 39.01  ? 978  TYR A CD2 1 \nATOM   2226 C  CE1 . TYR A 1 286 ? 16.211 6.324  30.474  1.00 40.99  ? 978  TYR A CE1 1 \nATOM   2227 C  CE2 . TYR A 1 286 ? 18.500 5.699  30.064  1.00 43.77  ? 978  TYR A CE2 1 \nATOM   2228 C  CZ  . TYR A 1 286 ? 17.154 5.369  30.140  1.00 47.30  ? 978  TYR A CZ  1 \nATOM   2229 O  OH  . TYR A 1 286 ? 16.756 4.081  29.863  1.00 43.86  ? 978  TYR A OH  1 \nATOM   2230 N  N   . LEU A 1 287 ? 18.938 11.822 33.181  1.00 32.08  ? 979  LEU A N   1 \nATOM   2231 C  CA  . LEU A 1 287 ? 19.534 13.110 33.578  1.00 32.15  ? 979  LEU A CA  1 \nATOM   2232 C  C   . LEU A 1 287 ? 19.379 13.331 35.074  1.00 37.34  ? 979  LEU A C   1 \nATOM   2233 O  O   . LEU A 1 287 ? 18.300 13.095 35.640  1.00 40.97  ? 979  LEU A O   1 \nATOM   2234 C  CB  . LEU A 1 287 ? 18.920 14.286 32.787  1.00 32.90  ? 979  LEU A CB  1 \nATOM   2235 C  CG  . LEU A 1 287 ? 19.028 14.222 31.257  1.00 37.92  ? 979  LEU A CG  1 \nATOM   2236 C  CD1 . LEU A 1 287 ? 18.289 15.375 30.604  1.00 34.76  ? 979  LEU A CD1 1 \nATOM   2237 C  CD2 . LEU A 1 287 ? 20.481 14.218 30.787  1.00 30.23  ? 979  LEU A CD2 1 \nATOM   2238 N  N   . VAL A 1 288 ? 20.460 13.780 35.710  1.00 35.35  ? 980  VAL A N   1 \nATOM   2239 C  CA  . VAL A 1 288 ? 20.490 14.006 37.150  1.00 41.00  ? 980  VAL A CA  1 \nATOM   2240 C  C   . VAL A 1 288 ? 20.533 15.506 37.424  1.00 40.10  ? 980  VAL A C   1 \nATOM   2241 O  O   . VAL A 1 288 ? 21.585 16.134 37.309  1.00 40.40  ? 980  VAL A O   1 \nATOM   2242 C  CB  . VAL A 1 288 ? 21.692 13.297 37.827  1.00 41.35  ? 980  VAL A CB  1 \nATOM   2243 C  CG1 . VAL A 1 288 ? 21.594 13.413 39.343  1.00 47.67  ? 980  VAL A CG1 1 \nATOM   2244 C  CG2 . VAL A 1 288 ? 21.748 11.832 37.428  1.00 44.11  ? 980  VAL A CG2 1 \nATOM   2245 N  N   . ILE A 1 289 ? 19.380 16.067 37.785  1.00 38.21  ? 981  ILE A N   1 \nATOM   2246 C  CA  . ILE A 1 289 ? 19.229 17.500 38.005  1.00 41.44  ? 981  ILE A CA  1 \nATOM   2247 C  C   . ILE A 1 289 ? 18.665 17.708 39.411  1.00 50.08  ? 981  ILE A C   1 \nATOM   2248 O  O   . ILE A 1 289 ? 17.603 17.179 39.731  1.00 46.16  ? 981  ILE A O   1 \nATOM   2249 C  CB  . ILE A 1 289 ? 18.273 18.126 36.956  1.00 43.63  ? 981  ILE A CB  1 \nATOM   2250 C  CG1 . ILE A 1 289 ? 18.811 17.912 35.526  1.00 40.45  ? 981  ILE A CG1 1 \nATOM   2251 C  CG2 . ILE A 1 289 ? 18.020 19.603 37.244  1.00 44.86  ? 981  ILE A CG2 1 \nATOM   2252 C  CD1 . ILE A 1 289 ? 17.808 18.200 34.428  1.00 44.41  ? 981  ILE A CD1 1 \nATOM   2253 N  N   . GLN A 1 290 ? 19.367 18.469 40.247  1.00 50.83  ? 982  GLN A N   1 \nATOM   2254 C  CA  . GLN A 1 290 ? 18.880 18.741 41.600  1.00 51.62  ? 982  GLN A CA  1 \nATOM   2255 C  C   . GLN A 1 290 ? 17.574 19.526 41.551  1.00 55.46  ? 982  GLN A C   1 \nATOM   2256 O  O   . GLN A 1 290 ? 17.480 20.552 40.874  1.00 57.81  ? 982  GLN A O   1 \nATOM   2257 C  CB  . GLN A 1 290 ? 19.919 19.503 42.417  1.00 66.60  ? 982  GLN A CB  1 \nATOM   2258 C  CG  . GLN A 1 290 ? 19.629 19.481 43.912  1.00 84.41  ? 982  GLN A CG  1 \nATOM   2259 C  CD  . GLN A 1 290 ? 20.596 20.323 44.721  1.00 91.98  ? 982  GLN A CD  1 \nATOM   2260 O  OE1 . GLN A 1 290 ? 20.963 21.428 44.321  1.00 79.66  ? 982  GLN A OE1 1 \nATOM   2261 N  NE2 . GLN A 1 290 ? 21.005 19.805 45.874  1.00 98.17  ? 982  GLN A NE2 1 \nATOM   2262 N  N   . GLY A 1 291 ? 16.564 19.031 42.260  1.00 57.34  ? 983  GLY A N   1 \nATOM   2263 C  CA  . GLY A 1 291 ? 15.272 19.707 42.324  1.00 58.56  ? 983  GLY A CA  1 \nATOM   2264 C  C   . GLY A 1 291 ? 14.382 19.380 41.140  1.00 64.74  ? 983  GLY A C   1 \nATOM   2265 O  O   . GLY A 1 291 ? 13.302 19.957 40.991  1.00 57.96  ? 983  GLY A O   1 \nATOM   2266 N  N   . ASP A 1 292 ? 14.829 18.429 40.319  1.00 58.41  ? 984  ASP A N   1 \nATOM   2267 C  CA  . ASP A 1 292 ? 14.153 18.052 39.082  1.00 50.51  ? 984  ASP A CA  1 \nATOM   2268 C  C   . ASP A 1 292 ? 12.631 17.979 39.234  1.00 54.41  ? 984  ASP A C   1 \nATOM   2269 O  O   . ASP A 1 292 ? 11.900 18.579 38.444  1.00 54.82  ? 984  ASP A O   1 \nATOM   2270 C  CB  . ASP A 1 292 ? 14.706 16.714 38.572  1.00 41.18  ? 984  ASP A CB  1 \nATOM   2271 C  CG  . ASP A 1 292 ? 14.494 16.510 37.081  1.00 51.31  ? 984  ASP A CG  1 \nATOM   2272 O  OD1 . ASP A 1 292 ? 13.942 17.406 36.407  1.00 55.80  ? 984  ASP A OD1 1 \nATOM   2273 O  OD2 . ASP A 1 292 ? 14.890 15.434 36.583  1.00 53.67  ? 984  ASP A OD2 1 \nATOM   2274 N  N   . GLU A 1 293 ? 12.168 17.250 40.250  1.00 61.44  ? 985  GLU A N   1 \nATOM   2275 C  CA  . GLU A 1 293 ? 10.734 17.068 40.514  1.00 75.39  ? 985  GLU A CA  1 \nATOM   2276 C  C   . GLU A 1 293 ? 9.997  18.398 40.742  1.00 70.39  ? 985  GLU A C   1 \nATOM   2277 O  O   . GLU A 1 293 ? 8.878  18.582 40.260  1.00 71.81  ? 985  GLU A O   1 \nATOM   2278 C  CB  . GLU A 1 293 ? 10.529 16.127 41.710  1.00 87.47  ? 985  GLU A CB  1 \nATOM   2279 C  CG  . GLU A 1 293 ? 9.132  15.530 41.829  1.00 106.30 ? 985  GLU A CG  1 \nATOM   2280 C  CD  . GLU A 1 293 ? 8.910  14.338 40.911  1.00 119.07 ? 985  GLU A CD  1 \nATOM   2281 O  OE1 . GLU A 1 293 ? 9.723  13.387 40.948  1.00 109.24 ? 985  GLU A OE1 1 \nATOM   2282 O  OE2 . GLU A 1 293 ? 7.911  14.345 40.160  1.00 120.64 ? 985  GLU A OE2 1 \nATOM   2283 N  N   . ARG A 1 294 ? 10.636 19.315 41.465  1.00 70.04  ? 986  ARG A N   1 \nATOM   2284 C  CA  . ARG A 1 294 ? 10.063 20.626 41.770  1.00 74.49  ? 986  ARG A CA  1 \nATOM   2285 C  C   . ARG A 1 294 ? 10.618 21.720 40.852  1.00 82.24  ? 986  ARG A C   1 \nATOM   2286 O  O   . ARG A 1 294 ? 11.241 22.679 41.317  1.00 98.92  ? 986  ARG A O   1 \nATOM   2287 C  CB  . ARG A 1 294 ? 10.291 20.990 43.249  1.00 78.16  ? 986  ARG A CB  1 \nATOM   2288 C  CG  . ARG A 1 294 ? 9.347  20.310 44.236  1.00 89.52  ? 986  ARG A CG  1 \nATOM   2289 C  CD  . ARG A 1 294 ? 9.857  18.947 44.685  1.00 91.30  ? 986  ARG A CD  1 \nATOM   2290 N  NE  . ARG A 1 294 ? 10.823 19.046 45.780  1.00 105.11 ? 986  ARG A NE  1 \nATOM   2291 C  CZ  . ARG A 1 294 ? 10.561 18.740 47.050  1.00 116.04 ? 986  ARG A CZ  1 \nATOM   2292 N  NH1 . ARG A 1 294 ? 9.358  18.302 47.404  1.00 113.63 ? 986  ARG A NH1 1 \nATOM   2293 N  NH2 . ARG A 1 294 ? 11.509 18.865 47.973  1.00 102.80 ? 986  ARG A NH2 1 \nATOM   2294 N  N   . MET A 1 295 ? 10.395 21.570 39.548  1.00 81.34  ? 987  MET A N   1 \nATOM   2295 C  CA  . MET A 1 295 ? 10.823 22.582 38.579  1.00 74.92  ? 987  MET A CA  1 \nATOM   2296 C  C   . MET A 1 295 ? 9.706  23.056 37.667  1.00 78.05  ? 987  MET A C   1 \nATOM   2297 O  O   . MET A 1 295 ? 9.112  22.272 36.924  1.00 65.68  ? 987  MET A O   1 \nATOM   2298 C  CB  . MET A 1 295 ? 12.022 22.112 37.756  1.00 80.36  ? 987  MET A CB  1 \nATOM   2299 C  CG  . MET A 1 295 ? 13.333 22.695 38.244  1.00 67.52  ? 987  MET A CG  1 \nATOM   2300 S  SD  . MET A 1 295 ? 14.745 21.861 37.521  1.00 74.21  ? 987  MET A SD  1 \nATOM   2301 C  CE  . MET A 1 295 ? 16.070 22.517 38.532  1.00 74.56  ? 987  MET A CE  1 \nATOM   2302 N  N   . HIS A 1 296 ? 9.450  24.356 37.730  1.00 94.20  ? 988  HIS A N   1 \nATOM   2303 C  CA  . HIS A 1 296 ? 8.340  24.980 37.028  1.00 94.97  ? 988  HIS A CA  1 \nATOM   2304 C  C   . HIS A 1 296 ? 8.871  25.986 36.014  1.00 76.90  ? 988  HIS A C   1 \nATOM   2305 O  O   . HIS A 1 296 ? 9.596  26.914 36.376  1.00 78.04  ? 988  HIS A O   1 \nATOM   2306 C  CB  . HIS A 1 296 ? 7.414  25.673 38.040  1.00 115.88 ? 988  HIS A CB  1 \nATOM   2307 C  CG  . HIS A 1 296 ? 8.135  26.558 39.016  1.00 132.41 ? 988  HIS A CG  1 \nATOM   2308 N  ND1 . HIS A 1 296 ? 8.836  26.062 40.095  1.00 126.55 ? 988  HIS A ND1 1 \nATOM   2309 C  CD2 . HIS A 1 296 ? 8.264  27.905 39.071  1.00 128.35 ? 988  HIS A CD2 1 \nATOM   2310 C  CE1 . HIS A 1 296 ? 9.366  27.065 40.772  1.00 120.82 ? 988  HIS A CE1 1 \nATOM   2311 N  NE2 . HIS A 1 296 ? 9.034  28.194 40.172  1.00 121.40 ? 988  HIS A NE2 1 \nATOM   2312 N  N   . LEU A 1 297 ? 8.529  25.798 34.744  1.00 61.44  ? 989  LEU A N   1 \nATOM   2313 C  CA  . LEU A 1 297 ? 8.944  26.763 33.728  1.00 72.63  ? 989  LEU A CA  1 \nATOM   2314 C  C   . LEU A 1 297 ? 8.065  28.009 33.747  1.00 85.75  ? 989  LEU A C   1 \nATOM   2315 O  O   . LEU A 1 297 ? 6.834  27.894 33.749  1.00 68.16  ? 989  LEU A O   1 \nATOM   2316 C  CB  . LEU A 1 297 ? 8.997  26.145 32.325  1.00 67.66  ? 989  LEU A CB  1 \nATOM   2317 C  CG  . LEU A 1 297 ? 10.311 25.454 31.936  1.00 67.91  ? 989  LEU A CG  1 \nATOM   2318 C  CD1 . LEU A 1 297 ? 10.234 25.008 30.488  1.00 65.81  ? 989  LEU A CD1 1 \nATOM   2319 C  CD2 . LEU A 1 297 ? 11.531 26.344 32.152  1.00 50.84  ? 989  LEU A CD2 1 \nATOM   2320 N  N   . PRO A 1 298 ? 8.700  29.202 33.773  1.00 86.52  ? 990  PRO A N   1 \nATOM   2321 C  CA  . PRO A 1 298 ? 7.985  30.476 33.786  1.00 89.95  ? 990  PRO A CA  1 \nATOM   2322 C  C   . PRO A 1 298 ? 7.082  30.614 32.576  1.00 85.79  ? 990  PRO A C   1 \nATOM   2323 O  O   . PRO A 1 298 ? 7.395  30.085 31.505  1.00 80.02  ? 990  PRO A O   1 \nATOM   2324 C  CB  . PRO A 1 298 ? 9.110  31.515 33.708  1.00 92.65  ? 990  PRO A CB  1 \nATOM   2325 C  CG  . PRO A 1 298 ? 10.305 30.821 34.259  1.00 91.35  ? 990  PRO A CG  1 \nATOM   2326 C  CD  . PRO A 1 298 ? 10.161 29.400 33.802  1.00 83.38  ? 990  PRO A CD  1 \nATOM   2327 N  N   . SER A 1 299 ? 5.965  31.312 32.762  1.00 84.48  ? 991  SER A N   1 \nATOM   2328 C  CA  . SER A 1 299 ? 5.051  31.639 31.676  1.00 93.44  ? 991  SER A CA  1 \nATOM   2329 C  C   . SER A 1 299 ? 5.854  32.156 30.482  1.00 92.51  ? 991  SER A C   1 \nATOM   2330 O  O   . SER A 1 299 ? 6.660  33.080 30.632  1.00 91.73  ? 991  SER A O   1 \nATOM   2331 C  CB  . SER A 1 299 ? 4.032  32.684 32.138  1.00 98.17  ? 991  SER A CB  1 \nATOM   2332 O  OG  . SER A 1 299 ? 3.057  32.924 31.141  1.00 92.32  ? 991  SER A OG  1 \nATOM   2333 N  N   . PRO A 1 300 ? 5.655  31.541 29.299  1.00 96.28  ? 992  PRO A N   1 \nATOM   2334 C  CA  . PRO A 1 300 ? 6.471  31.836 28.118  1.00 93.22  ? 992  PRO A CA  1 \nATOM   2335 C  C   . PRO A 1 300 ? 6.521  33.327 27.773  1.00 101.42 ? 992  PRO A C   1 \nATOM   2336 O  O   . PRO A 1 300 ? 7.588  33.832 27.417  1.00 105.40 ? 992  PRO A O   1 \nATOM   2337 C  CB  . PRO A 1 300 ? 5.781  31.044 26.999  1.00 89.86  ? 992  PRO A CB  1 \nATOM   2338 C  CG  . PRO A 1 300 ? 5.037  29.959 27.697  1.00 95.22  ? 992  PRO A CG  1 \nATOM   2339 C  CD  . PRO A 1 300 ? 4.610  30.540 29.012  1.00 100.69 ? 992  PRO A CD  1 \nATOM   2340 N  N   . THR A 1 301 ? 5.386  34.019 27.896  1.00 81.78  ? 993  THR A N   1 \nATOM   2341 C  CA  . THR A 1 301 ? 5.290  35.439 27.527  1.00 91.40  ? 993  THR A CA  1 \nATOM   2342 C  C   . THR A 1 301 ? 5.809  36.395 28.607  1.00 106.34 ? 993  THR A C   1 \nATOM   2343 O  O   . THR A 1 301 ? 5.974  37.594 28.355  1.00 103.45 ? 993  THR A O   1 \nATOM   2344 C  CB  . THR A 1 301 ? 3.857  35.833 27.114  1.00 90.34  ? 993  THR A CB  1 \nATOM   2345 O  OG1 . THR A 1 301 ? 2.911  35.171 27.963  1.00 97.10  ? 993  THR A OG1 1 \nATOM   2346 C  CG2 . THR A 1 301 ? 3.590  35.439 25.666  1.00 85.30  ? 993  THR A CG2 1 \nATOM   2347 N  N   . ASP A 1 302 ? 6.066  35.861 29.800  1.00 111.43 ? 994  ASP A N   1 \nATOM   2348 C  CA  . ASP A 1 302 ? 6.711  36.622 30.869  1.00 102.16 ? 994  ASP A CA  1 \nATOM   2349 C  C   . ASP A 1 302 ? 8.228  36.642 30.686  1.00 91.62  ? 994  ASP A C   1 \nATOM   2350 O  O   . ASP A 1 302 ? 8.942  37.286 31.459  1.00 91.58  ? 994  ASP A O   1 \nATOM   2351 C  CB  . ASP A 1 302 ? 6.352  36.050 32.248  1.00 102.74 ? 994  ASP A CB  1 \nATOM   2352 C  CG  . ASP A 1 302 ? 4.889  36.266 32.618  1.00 109.76 ? 994  ASP A CG  1 \nATOM   2353 O  OD1 . ASP A 1 302 ? 4.078  36.622 31.733  1.00 97.63  ? 994  ASP A OD1 1 \nATOM   2354 O  OD2 . ASP A 1 302 ? 4.551  36.072 33.807  1.00 97.59  ? 994  ASP A OD2 1 \nATOM   2355 N  N   . SER A 1 303 ? 8.716  35.937 29.664  1.00 82.22  ? 995  SER A N   1 \nATOM   2356 C  CA  . SER A 1 303 ? 10.146 35.925 29.364  1.00 72.60  ? 995  SER A CA  1 \nATOM   2357 C  C   . SER A 1 303 ? 10.578 37.299 28.878  1.00 75.53  ? 995  SER A C   1 \nATOM   2358 O  O   . SER A 1 303 ? 9.802  38.037 28.253  1.00 70.58  ? 995  SER A O   1 \nATOM   2359 C  CB  . SER A 1 303 ? 10.526 34.838 28.336  1.00 76.40  ? 995  SER A CB  1 \nATOM   2360 O  OG  . SER A 1 303 ? 10.649 35.348 27.010  1.00 56.44  ? 995  SER A OG  1 \nATOM   2361 N  N   . ASN A 1 304 ? 11.823 37.631 29.181  1.00 70.57  ? 996  ASN A N   1 \nATOM   2362 C  CA  . ASN A 1 304 ? 12.399 38.885 28.758  1.00 73.99  ? 996  ASN A CA  1 \nATOM   2363 C  C   . ASN A 1 304 ? 12.426 38.999 27.234  1.00 75.58  ? 996  ASN A C   1 \nATOM   2364 O  O   . ASN A 1 304 ? 12.012 40.027 26.679  1.00 73.07  ? 996  ASN A O   1 \nATOM   2365 C  CB  . ASN A 1 304 ? 13.791 39.042 29.372  1.00 63.63  ? 996  ASN A CB  1 \nATOM   2366 C  CG  . ASN A 1 304 ? 13.744 39.179 30.887  1.00 74.59  ? 996  ASN A CG  1 \nATOM   2367 O  OD1 . ASN A 1 304 ? 12.766 39.689 31.448  1.00 68.42  ? 996  ASN A OD1 1 \nATOM   2368 N  ND2 . ASN A 1 304 ? 14.799 38.723 31.558  1.00 60.65  ? 996  ASN A ND2 1 \nATOM   2369 N  N   . PHE A 1 305 ? 12.862 37.923 26.570  1.00 67.63  ? 997  PHE A N   1 \nATOM   2370 C  CA  . PHE A 1 305 ? 13.005 37.907 25.112  1.00 45.42  ? 997  PHE A CA  1 \nATOM   2371 C  C   . PHE A 1 305 ? 11.723 38.287 24.381  1.00 51.92  ? 997  PHE A C   1 \nATOM   2372 O  O   . PHE A 1 305 ? 11.767 39.103 23.461  1.00 62.38  ? 997  PHE A O   1 \nATOM   2373 C  CB  . PHE A 1 305 ? 13.574 36.568 24.597  1.00 55.03  ? 997  PHE A CB  1 \nATOM   2374 C  CG  . PHE A 1 305 ? 14.234 36.683 23.247  1.00 45.20  ? 997  PHE A CG  1 \nATOM   2375 C  CD1 . PHE A 1 305 ? 13.478 36.619 22.079  1.00 41.23  ? 997  PHE A CD1 1 \nATOM   2376 C  CD2 . PHE A 1 305 ? 15.601 36.904 23.143  1.00 48.66  ? 997  PHE A CD2 1 \nATOM   2377 C  CE1 . PHE A 1 305 ? 14.070 36.757 20.831  1.00 36.44  ? 997  PHE A CE1 1 \nATOM   2378 C  CE2 . PHE A 1 305 ? 16.208 37.047 21.903  1.00 48.46  ? 997  PHE A CE2 1 \nATOM   2379 C  CZ  . PHE A 1 305 ? 15.445 36.979 20.742  1.00 37.79  ? 997  PHE A CZ  1 \nATOM   2380 N  N   . TYR A 1 306 ? 10.589 37.715 24.789  1.00 43.98  ? 998  TYR A N   1 \nATOM   2381 C  CA  . TYR A 1 306 ? 9.319  37.981 24.111  1.00 50.06  ? 998  TYR A CA  1 \nATOM   2382 C  C   . TYR A 1 306 ? 8.932  39.466 24.207  1.00 52.66  ? 998  TYR A C   1 \nATOM   2383 O  O   . TYR A 1 306 ? 8.694  40.110 23.181  1.00 50.37  ? 998  TYR A O   1 \nATOM   2384 C  CB  . TYR A 1 306 ? 8.182  37.087 24.631  1.00 50.26  ? 998  TYR A CB  1 \nATOM   2385 C  CG  . TYR A 1 306 ? 6.861  37.329 23.917  1.00 53.59  ? 998  TYR A CG  1 \nATOM   2386 C  CD1 . TYR A 1 306 ? 6.503  36.573 22.808  1.00 65.72  ? 998  TYR A CD1 1 \nATOM   2387 C  CD2 . TYR A 1 306 ? 5.975  38.320 24.349  1.00 66.46  ? 998  TYR A CD2 1 \nATOM   2388 C  CE1 . TYR A 1 306 ? 5.305  36.785 22.146  1.00 71.54  ? 998  TYR A CE1 1 \nATOM   2389 C  CE2 . TYR A 1 306 ? 4.776  38.545 23.691  1.00 67.06  ? 998  TYR A CE2 1 \nATOM   2390 C  CZ  . TYR A 1 306 ? 4.445  37.775 22.590  1.00 81.38  ? 998  TYR A CZ  1 \nATOM   2391 O  OH  . TYR A 1 306 ? 3.255  37.987 21.927  1.00 83.86  ? 998  TYR A OH  1 \nATOM   2392 N  N   . ARG A 1 307 ? 8.874  39.991 25.432  1.00 56.42  ? 999  ARG A N   1 \nATOM   2393 C  CA  . ARG A 1 307 ? 8.503  41.399 25.661  1.00 66.76  ? 999  ARG A CA  1 \nATOM   2394 C  C   . ARG A 1 307 ? 9.413  42.378 24.905  1.00 72.09  ? 999  ARG A C   1 \nATOM   2395 O  O   . ARG A 1 307 ? 8.908  43.316 24.264  1.00 54.14  ? 999  ARG A O   1 \nATOM   2396 C  CB  . ARG A 1 307 ? 8.470  41.731 27.157  1.00 75.45  ? 999  ARG A CB  1 \nATOM   2397 C  CG  . ARG A 1 307 ? 7.216  41.268 27.883  1.00 74.94  ? 999  ARG A CG  1 \nATOM   2398 C  CD  . ARG A 1 307 ? 7.080  41.993 29.214  1.00 92.57  ? 999  ARG A CD  1 \nATOM   2399 N  NE  . ARG A 1 307 ? 5.868  41.637 29.954  1.00 100.40 ? 999  ARG A NE  1 \nATOM   2400 C  CZ  . ARG A 1 307 ? 4.684  42.235 29.815  1.00 91.52  ? 999  ARG A CZ  1 \nATOM   2401 N  NH1 . ARG A 1 307 ? 3.653  41.834 30.548  1.00 82.09  ? 999  ARG A NH1 1 \nATOM   2402 N  NH2 . ARG A 1 307 ? 4.521  43.229 28.948  1.00 73.74  ? 999  ARG A NH2 1 \nATOM   2403 N  N   . ALA A 1 308 ? 10.733 42.126 24.981  1.00 57.15  ? 1000 ALA A N   1 \nATOM   2404 C  CA  . ALA A 1 308 ? 11.789 42.855 24.248  1.00 68.38  ? 1000 ALA A CA  1 \nATOM   2405 C  C   . ALA A 1 308 ? 11.556 42.981 22.738  1.00 71.95  ? 1000 ALA A C   1 \nATOM   2406 O  O   . ALA A 1 308 ? 12.022 43.944 22.112  1.00 65.03  ? 1000 ALA A O   1 \nATOM   2407 C  CB  . ALA A 1 308 ? 13.165 42.217 24.502  1.00 40.39  ? 1000 ALA A CB  1 \nATOM   2408 N  N   . LEU A 1 309 ? 10.858 42.001 22.161  1.00 46.21  ? 1001 LEU A N   1 \nATOM   2409 C  CA  . LEU A 1 309 ? 10.599 41.970 20.736  1.00 40.49  ? 1001 LEU A CA  1 \nATOM   2410 C  C   . LEU A 1 309 ? 9.259  42.576 20.348  1.00 53.57  ? 1001 LEU A C   1 \nATOM   2411 O  O   . LEU A 1 309 ? 9.165  43.282 19.337  1.00 53.84  ? 1001 LEU A O   1 \nATOM   2412 C  CB  . LEU A 1 309 ? 10.631 40.517 20.238  1.00 45.77  ? 1001 LEU A CB  1 \nATOM   2413 C  CG  . LEU A 1 309 ? 11.848 40.057 19.447  1.00 44.23  ? 1001 LEU A CG  1 \nATOM   2414 C  CD1 . LEU A 1 309 ? 13.080 40.042 20.339  1.00 48.87  ? 1001 LEU A CD1 1 \nATOM   2415 C  CD2 . LEU A 1 309 ? 11.594 38.682 18.855  1.00 41.26  ? 1001 LEU A CD2 1 \nATOM   2416 N  N   . MET A 1 310 ? 8.227  42.280 21.138  1.00 53.10  ? 1002 MET A N   1 \nATOM   2417 C  CA  . MET A 1 310 ? 6.840  42.522 20.706  1.00 62.26  ? 1002 MET A CA  1 \nATOM   2418 C  C   . MET A 1 310 ? 6.179  43.786 21.256  1.00 69.68  ? 1002 MET A C   1 \nATOM   2419 O  O   . MET A 1 310 ? 5.263  44.326 20.625  1.00 61.34  ? 1002 MET A O   1 \nATOM   2420 C  CB  . MET A 1 310 ? 5.961  41.304 21.002  1.00 58.73  ? 1002 MET A CB  1 \nATOM   2421 C  CG  . MET A 1 310 ? 6.454  39.993 20.406  1.00 69.22  ? 1002 MET A CG  1 \nATOM   2422 S  SD  . MET A 1 310 ? 6.912  40.077 18.661  1.00 66.89  ? 1002 MET A SD  1 \nATOM   2423 C  CE  . MET A 1 310 ? 5.350  40.495 17.883  1.00 72.08  ? 1002 MET A CE  1 \nATOM   2424 N  N   . ASP A 1 311 ? 6.640  44.251 22.416  1.00 73.79  ? 1003 ASP A N   1 \nATOM   2425 C  CA  . ASP A 1 311 ? 6.024  45.404 23.095  1.00 93.71  ? 1003 ASP A CA  1 \nATOM   2426 C  C   . ASP A 1 311 ? 6.280  46.765 22.430  1.00 87.67  ? 1003 ASP A C   1 \nATOM   2427 O  O   . ASP A 1 311 ? 5.575  47.736 22.721  1.00 88.50  ? 1003 ASP A O   1 \nATOM   2428 C  CB  . ASP A 1 311 ? 6.420  45.449 24.578  1.00 89.49  ? 1003 ASP A CB  1 \nATOM   2429 C  CG  . ASP A 1 311 ? 5.643  44.452 25.426  1.00 94.17  ? 1003 ASP A CG  1 \nATOM   2430 O  OD1 . ASP A 1 311 ? 5.332  43.344 24.936  1.00 89.80  ? 1003 ASP A OD1 1 \nATOM   2431 O  OD2 . ASP A 1 311 ? 5.350  44.779 26.596  1.00 109.80 ? 1003 ASP A OD2 1 \nATOM   2432 N  N   . GLU A 1 312 ? 7.276  46.830 21.546  1.00 85.41  ? 1004 GLU A N   1 \nATOM   2433 C  CA  . GLU A 1 312 ? 7.565  48.046 20.781  1.00 93.45  ? 1004 GLU A CA  1 \nATOM   2434 C  C   . GLU A 1 312 ? 6.314  48.554 20.060  1.00 91.45  ? 1004 GLU A C   1 \nATOM   2435 O  O   . GLU A 1 312 ? 5.539  47.762 19.520  1.00 82.23  ? 1004 GLU A O   1 \nATOM   2436 C  CB  . GLU A 1 312 ? 8.690  47.788 19.775  1.00 93.39  ? 1004 GLU A CB  1 \nATOM   2437 C  CG  . GLU A 1 312 ? 9.148  49.021 19.005  1.00 94.09  ? 1004 GLU A CG  1 \nATOM   2438 C  CD  . GLU A 1 312 ? 10.248 48.715 18.005  1.00 101.52 ? 1004 GLU A CD  1 \nATOM   2439 O  OE1 . GLU A 1 312 ? 10.530 49.583 17.147  1.00 80.73  ? 1004 GLU A OE1 1 \nATOM   2440 O  OE2 . GLU A 1 312 ? 10.832 47.611 18.072  1.00 81.92  ? 1004 GLU A OE2 1 \nATOM   2441 N  N   . GLU A 1 313 ? 6.126  49.874 20.064  1.00 95.81  ? 1005 GLU A N   1 \nATOM   2442 C  CA  . GLU A 1 313 ? 4.944  50.509 19.468  1.00 104.88 ? 1005 GLU A CA  1 \nATOM   2443 C  C   . GLU A 1 313 ? 4.859  50.336 17.949  1.00 106.59 ? 1005 GLU A C   1 \nATOM   2444 O  O   . GLU A 1 313 ? 3.762  50.332 17.384  1.00 111.84 ? 1005 GLU A O   1 \nATOM   2445 C  CB  . GLU A 1 313 ? 4.872  51.991 19.851  1.00 104.00 ? 1005 GLU A CB  1 \nATOM   2446 C  CG  . GLU A 1 313 ? 4.303  52.231 21.243  1.00 107.89 ? 1005 GLU A CG  1 \nATOM   2447 C  CD  . GLU A 1 313 ? 4.496  53.654 21.742  1.00 110.98 ? 1005 GLU A CD  1 \nATOM   2448 O  OE1 . GLU A 1 313 ? 4.178  53.906 22.925  1.00 95.43  ? 1005 GLU A OE1 1 \nATOM   2449 O  OE2 . GLU A 1 313 ? 4.963  54.518 20.966  1.00 103.24 ? 1005 GLU A OE2 1 \nATOM   2450 N  N   . ASP A 1 314 ? 6.016  50.190 17.301  1.00 117.69 ? 1006 ASP A N   1 \nATOM   2451 C  CA  . ASP A 1 314 ? 6.085  49.910 15.862  1.00 122.83 ? 1006 ASP A CA  1 \nATOM   2452 C  C   . ASP A 1 314 ? 5.346  48.617 15.502  1.00 114.70 ? 1006 ASP A C   1 \nATOM   2453 O  O   . ASP A 1 314 ? 4.738  48.520 14.432  1.00 108.57 ? 1006 ASP A O   1 \nATOM   2454 C  CB  . ASP A 1 314 ? 7.541  49.857 15.382  1.00 123.65 ? 1006 ASP A CB  1 \nATOM   2455 C  CG  . ASP A 1 314 ? 8.165  51.241 15.222  1.00 120.44 ? 1006 ASP A CG  1 \nATOM   2456 O  OD1 . ASP A 1 314 ? 7.426  52.226 15.000  1.00 108.22 ? 1006 ASP A OD1 1 \nATOM   2457 O  OD2 . ASP A 1 314 ? 9.407  51.342 15.307  1.00 108.51 ? 1006 ASP A OD2 1 \nATOM   2458 N  N   . MET A 1 315 ? 5.403  47.637 16.405  1.00 95.23  ? 1007 MET A N   1 \nATOM   2459 C  CA  . MET A 1 315 ? 4.582  46.431 16.311  1.00 90.94  ? 1007 MET A CA  1 \nATOM   2460 C  C   . MET A 1 315 ? 3.162  46.781 16.768  1.00 99.19  ? 1007 MET A C   1 \nATOM   2461 O  O   . MET A 1 315 ? 2.757  46.435 17.880  1.00 109.79 ? 1007 MET A O   1 \nATOM   2462 C  CB  . MET A 1 315 ? 5.163  45.292 17.172  1.00 83.16  ? 1007 MET A CB  1 \nATOM   2463 C  CG  . MET A 1 315 ? 6.685  45.153 17.169  1.00 67.00  ? 1007 MET A CG  1 \nATOM   2464 S  SD  . MET A 1 315 ? 7.428  44.700 15.581  1.00 68.15  ? 1007 MET A SD  1 \nATOM   2465 C  CE  . MET A 1 315 ? 6.871  43.001 15.382  1.00 58.33  ? 1007 MET A CE  1 \nATOM   2466 N  N   . ASP A 1 316 ? 2.420  47.477 15.905  1.00 111.50 ? 1008 ASP A N   1 \nATOM   2467 C  CA  . ASP A 1 316 ? 1.107  48.039 16.253  1.00 111.00 ? 1008 ASP A CA  1 \nATOM   2468 C  C   . ASP A 1 316 ? 0.024  46.965 16.422  1.00 105.42 ? 1008 ASP A C   1 \nATOM   2469 O  O   . ASP A 1 316 ? -0.178 46.451 17.524  1.00 105.28 ? 1008 ASP A O   1 \nATOM   2470 C  CB  . ASP A 1 316 ? 0.682  49.099 15.220  1.00 123.41 ? 1008 ASP A CB  1 \nATOM   2471 C  CG  . ASP A 1 316 ? -0.499 49.949 15.690  1.00 120.55 ? 1008 ASP A CG  1 \nATOM   2472 O  OD1 . ASP A 1 316 ? -1.629 49.728 15.200  1.00 80.53  ? 1008 ASP A OD1 1 \nATOM   2473 O  OD2 . ASP A 1 316 ? -0.301 50.839 16.547  1.00 117.47 ? 1008 ASP A OD2 1 \nATOM   2474 N  N   . ASP A 1 317 ? -0.672 46.641 15.333  1.00 102.23 ? 1009 ASP A N   1 \nATOM   2475 C  CA  . ASP A 1 317 ? -1.728 45.629 15.348  1.00 100.67 ? 1009 ASP A CA  1 \nATOM   2476 C  C   . ASP A 1 317 ? -1.355 44.501 14.390  1.00 93.72  ? 1009 ASP A C   1 \nATOM   2477 O  O   . ASP A 1 317 ? -1.402 44.671 13.165  1.00 74.22  ? 1009 ASP A O   1 \nATOM   2478 C  CB  . ASP A 1 317 ? -3.084 46.245 14.971  1.00 101.82 ? 1009 ASP A CB  1 \nATOM   2479 C  CG  . ASP A 1 317 ? -3.662 47.128 16.072  1.00 113.32 ? 1009 ASP A CG  1 \nATOM   2480 O  OD1 . ASP A 1 317 ? -4.035 48.284 15.777  1.00 104.40 ? 1009 ASP A OD1 1 \nATOM   2481 O  OD2 . ASP A 1 317 ? -3.754 46.668 17.231  1.00 113.63 ? 1009 ASP A OD2 1 \nATOM   2482 N  N   . VAL A 1 318 ? -0.985 43.353 14.957  1.00 93.07  ? 1010 VAL A N   1 \nATOM   2483 C  CA  . VAL A 1 318 ? -0.383 42.257 14.187  1.00 80.23  ? 1010 VAL A CA  1 \nATOM   2484 C  C   . VAL A 1 318 ? -1.136 40.925 14.278  1.00 79.25  ? 1010 VAL A C   1 \nATOM   2485 O  O   . VAL A 1 318 ? -1.857 40.676 15.248  1.00 78.35  ? 1010 VAL A O   1 \nATOM   2486 C  CB  . VAL A 1 318 ? 1.103  42.050 14.572  1.00 82.37  ? 1010 VAL A CB  1 \nATOM   2487 C  CG1 . VAL A 1 318 ? 1.915  43.299 14.251  1.00 87.87  ? 1010 VAL A CG1 1 \nATOM   2488 C  CG2 . VAL A 1 318 ? 1.248  41.678 16.045  1.00 79.77  ? 1010 VAL A CG2 1 \nATOM   2489 N  N   . VAL A 1 319 ? -0.963 40.087 13.251  1.00 68.99  ? 1011 VAL A N   1 \nATOM   2490 C  CA  . VAL A 1 319 ? -1.523 38.727 13.204  1.00 64.51  ? 1011 VAL A CA  1 \nATOM   2491 C  C   . VAL A 1 319 ? -0.404 37.704 12.973  1.00 77.21  ? 1011 VAL A C   1 \nATOM   2492 O  O   . VAL A 1 319 ? 0.322  37.780 11.976  1.00 67.63  ? 1011 VAL A O   1 \nATOM   2493 C  CB  . VAL A 1 319 ? -2.604 38.567 12.100  1.00 69.31  ? 1011 VAL A CB  1 \nATOM   2494 C  CG1 . VAL A 1 319 ? -3.068 37.117 11.995  1.00 73.03  ? 1011 VAL A CG1 1 \nATOM   2495 C  CG2 . VAL A 1 319 ? -3.800 39.476 12.359  1.00 60.85  ? 1011 VAL A CG2 1 \nATOM   2496 N  N   . ASP A 1 320 ? -0.283 36.751 13.898  1.00 78.10  ? 1012 ASP A N   1 \nATOM   2497 C  CA  . ASP A 1 320 ? 0.709  35.675 13.829  1.00 78.78  ? 1012 ASP A CA  1 \nATOM   2498 C  C   . ASP A 1 320 ? 0.619  34.932 12.495  1.00 74.28  ? 1012 ASP A C   1 \nATOM   2499 O  O   . ASP A 1 320 ? -0.485 34.665 12.006  1.00 66.35  ? 1012 ASP A O   1 \nATOM   2500 C  CB  . ASP A 1 320 ? 0.493  34.703 14.996  1.00 81.42  ? 1012 ASP A CB  1 \nATOM   2501 C  CG  . ASP A 1 320 ? 1.685  33.798 15.237  1.00 99.02  ? 1012 ASP A CG  1 \nATOM   2502 O  OD1 . ASP A 1 320 ? 2.690  34.271 15.810  1.00 104.15 ? 1012 ASP A OD1 1 \nATOM   2503 O  OD2 . ASP A 1 320 ? 1.608  32.606 14.874  1.00 101.05 ? 1012 ASP A OD2 1 \nATOM   2504 N  N   . ALA A 1 321 ? 1.772  34.604 11.907  1.00 52.96  ? 1013 ALA A N   1 \nATOM   2505 C  CA  . ALA A 1 321 ? 1.813  33.912 10.605  1.00 59.48  ? 1013 ALA A CA  1 \nATOM   2506 C  C   . ALA A 1 321 ? 1.024  32.597 10.556  1.00 67.96  ? 1013 ALA A C   1 \nATOM   2507 O  O   . ALA A 1 321 ? 0.465  32.243 9.508   1.00 66.31  ? 1013 ALA A O   1 \nATOM   2508 C  CB  . ALA A 1 321 ? 3.243  33.702 10.139  1.00 62.75  ? 1013 ALA A CB  1 \nATOM   2509 N  N   . ASP A 1 322 ? 0.985  31.884 11.684  1.00 59.70  ? 1014 ASP A N   1 \nATOM   2510 C  CA  . ASP A 1 322 ? 0.200  30.654 11.812  1.00 74.24  ? 1014 ASP A CA  1 \nATOM   2511 C  C   . ASP A 1 322 ? -1.300 30.913 11.667  1.00 74.57  ? 1014 ASP A C   1 \nATOM   2512 O  O   . ASP A 1 322 ? -2.018 30.130 11.040  1.00 82.55  ? 1014 ASP A O   1 \nATOM   2513 C  CB  . ASP A 1 322 ? 0.476  29.981 13.160  1.00 83.80  ? 1014 ASP A CB  1 \nATOM   2514 C  CG  . ASP A 1 322 ? 1.930  29.578 13.328  1.00 86.76  ? 1014 ASP A CG  1 \nATOM   2515 O  OD1 . ASP A 1 322 ? 2.458  29.709 14.454  1.00 96.46  ? 1014 ASP A OD1 1 \nATOM   2516 O  OD2 . ASP A 1 322 ? 2.546  29.131 12.339  1.00 92.15  ? 1014 ASP A OD2 1 \nATOM   2517 N  N   . GLU A 1 323 ? -1.762 32.013 12.255  1.00 69.63  ? 1015 GLU A N   1 \nATOM   2518 C  CA  . GLU A 1 323 ? -3.169 32.406 12.205  1.00 84.01  ? 1015 GLU A CA  1 \nATOM   2519 C  C   . GLU A 1 323 ? -3.563 32.965 10.830  1.00 81.26  ? 1015 GLU A C   1 \nATOM   2520 O  O   . GLU A 1 323 ? -4.711 32.817 10.401  1.00 75.65  ? 1015 GLU A O   1 \nATOM   2521 C  CB  . GLU A 1 323 ? -3.466 33.432 13.304  1.00 89.15  ? 1015 GLU A CB  1 \nATOM   2522 C  CG  . GLU A 1 323 ? -4.941 33.592 13.645  1.00 106.04 ? 1015 GLU A CG  1 \nATOM   2523 C  CD  . GLU A 1 323 ? -5.193 34.639 14.717  1.00 119.25 ? 1015 GLU A CD  1 \nATOM   2524 O  OE1 . GLU A 1 323 ? -4.251 34.982 15.465  1.00 124.44 ? 1015 GLU A OE1 1 \nATOM   2525 O  OE2 . GLU A 1 323 ? -6.342 35.119 14.814  1.00 124.84 ? 1015 GLU A OE2 1 \nATOM   2526 N  N   . TYR A 1 324 ? -2.609 33.605 10.154  1.00 71.06  ? 1016 TYR A N   1 \nATOM   2527 C  CA  . TYR A 1 324 ? -2.825 34.180 8.825   1.00 72.33  ? 1016 TYR A CA  1 \nATOM   2528 C  C   . TYR A 1 324 ? -2.791 33.132 7.709   1.00 74.97  ? 1016 TYR A C   1 \nATOM   2529 O  O   . TYR A 1 324 ? -3.570 33.223 6.756   1.00 81.17  ? 1016 TYR A O   1 \nATOM   2530 C  CB  . TYR A 1 324 ? -1.810 35.297 8.549   1.00 84.93  ? 1016 TYR A CB  1 \nATOM   2531 C  CG  . TYR A 1 324 ? -1.665 35.681 7.088   1.00 86.99  ? 1016 TYR A CG  1 \nATOM   2532 C  CD1 . TYR A 1 324 ? -0.805 34.974 6.243   1.00 91.38  ? 1016 TYR A CD1 1 \nATOM   2533 C  CD2 . TYR A 1 324 ? -2.379 36.754 6.552   1.00 79.32  ? 1016 TYR A CD2 1 \nATOM   2534 C  CE1 . TYR A 1 324 ? -0.668 35.316 4.908   1.00 95.57  ? 1016 TYR A CE1 1 \nATOM   2535 C  CE2 . TYR A 1 324 ? -2.244 37.108 5.217   1.00 82.46  ? 1016 TYR A CE2 1 \nATOM   2536 C  CZ  . TYR A 1 324 ? -1.387 36.385 4.400   1.00 97.13  ? 1016 TYR A CZ  1 \nATOM   2537 O  OH  . TYR A 1 324 ? -1.236 36.717 3.072   1.00 93.34  ? 1016 TYR A OH  1 \nATOM   2538 N  N   . LEU A 1 325 ? -1.889 32.157 7.823   1.00 79.31  ? 1017 LEU A N   1 \nATOM   2539 C  CA  . LEU A 1 325 ? -1.752 31.089 6.826   1.00 78.37  ? 1017 LEU A CA  1 \nATOM   2540 C  C   . LEU A 1 325 ? -2.418 29.794 7.290   1.00 79.78  ? 1017 LEU A C   1 \nATOM   2541 O  O   . LEU A 1 325 ? -3.584 29.532 6.982   1.00 86.61  ? 1017 LEU A O   1 \nATOM   2542 C  CB  . LEU A 1 325 ? -0.272 30.850 6.492   1.00 96.14  ? 1017 LEU A CB  1 \nATOM   2543 C  CG  . LEU A 1 325 ? 0.143  29.601 5.697   1.00 116.26 ? 1017 LEU A CG  1 \nATOM   2544 C  CD1 . LEU A 1 325 ? -0.313 29.652 4.243   1.00 121.68 ? 1017 LEU A CD1 1 \nATOM   2545 C  CD2 . LEU A 1 325 ? 1.648  29.383 5.783   1.00 110.27 ? 1017 LEU A CD2 1 \nHETATM 2546 C  C1  . W32 B 2 .   ? 17.523 28.990 5.798   1.00 31.51  ? 1101 W32 A C1  1 \nHETATM 2547 C  C2  . W32 B 2 .   ? 16.291 28.418 6.080   1.00 30.31  ? 1101 W32 A C2  1 \nHETATM 2548 C  C3  . W32 B 2 .   ? 17.399 32.400 11.069  1.00 27.58  ? 1101 W32 A C3  1 \nHETATM 2549 C  C4  . W32 B 2 .   ? 17.766 30.265 6.269   1.00 29.96  ? 1101 W32 A C4  1 \nHETATM 2550 C  C5  . W32 B 2 .   ? 17.620 31.995 9.772   1.00 28.42  ? 1101 W32 A C5  1 \nHETATM 2551 C  C6  . W32 B 2 .   ? 15.605 30.408 7.268   1.00 28.58  ? 1101 W32 A C6  1 \nHETATM 2552 C  C7  . W32 B 2 .   ? 15.786 33.991 10.313  1.00 27.15  ? 1101 W32 A C7  1 \nHETATM 2553 C  C8  . W32 B 2 .   ? 12.748 33.566 13.379  1.00 31.64  ? 1101 W32 A C8  1 \nHETATM 2554 C  C9  . W32 B 2 .   ? 14.942 34.492 14.574  1.00 35.19  ? 1101 W32 A C9  1 \nHETATM 2555 C  C10 . W32 B 2 .   ? 15.370 29.134 6.809   1.00 25.91  ? 1101 W32 A C10 1 \nHETATM 2556 C  C11 . W32 B 2 .   ? 16.480 33.398 11.352  1.00 28.93  ? 1101 W32 A C11 1 \nHETATM 2557 C  C12 . W32 B 2 .   ? 16.830 30.965 6.994   1.00 32.48  ? 1101 W32 A C12 1 \nHETATM 2558 C  C13 . W32 B 2 .   ? 16.923 32.597 8.743   1.00 27.90  ? 1101 W32 A C13 1 \nHETATM 2559 C  C14 . W32 B 2 .   ? 15.995 33.592 9.009   1.00 29.12  ? 1101 W32 A C14 1 \nHETATM 2560 C  C15 . W32 B 2 .   ? 13.699 34.562 15.192  1.00 29.35  ? 1101 W32 A C15 1 \nHETATM 2561 C  C16 . W32 B 2 .   ? 14.989 33.935 13.305  1.00 35.49  ? 1101 W32 A C16 1 \nHETATM 2562 C  C17 . W32 B 2 .   ? 16.163 35.029 15.170  1.00 34.55  ? 1101 W32 A C17 1 \nHETATM 2563 C  C18 . W32 B 2 .   ? 16.443 35.196 16.465  1.00 31.64  ? 1101 W32 A C18 1 \nHETATM 2564 C  C19 . W32 B 2 .   ? 17.734 35.864 16.810  1.00 41.85  ? 1101 W32 A C19 1 \nHETATM 2565 C  C20 . W32 B 2 .   ? 15.566 34.815 17.582  1.00 34.23  ? 1101 W32 A C20 1 \nHETATM 2566 C  C21 . W32 B 2 .   ? 14.310 35.640 17.409  1.00 33.52  ? 1101 W32 A C21 1 \nHETATM 2567 C  C22 . W32 B 2 .   ? 23.039 35.053 18.700  1.00 86.61  ? 1101 W32 A C22 1 \nHETATM 2568 C  C23 . W32 B 2 .   ? 20.048 36.322 16.157  1.00 53.53  ? 1101 W32 A C23 1 \nHETATM 2569 C  C24 . W32 B 2 .   ? 20.735 35.538 17.258  1.00 62.21  ? 1101 W32 A C24 1 \nHETATM 2570 C  C25 . W32 B 2 .   ? 14.038 28.522 7.120   1.00 27.55  ? 1101 W32 A C25 1 \nHETATM 2571 N  N26 . W32 B 2 .   ? 12.598 34.091 14.590  1.00 29.72  ? 1101 W32 A N26 1 \nHETATM 2572 N  N27 . W32 B 2 .   ? 13.891 33.461 12.695  1.00 32.32  ? 1101 W32 A N27 1 \nHETATM 2573 N  N28 . W32 B 2 .   ? 13.391 35.060 16.456  1.00 30.86  ? 1101 W32 A N28 1 \nHETATM 2574 N  N29 . W32 B 2 .   ? 16.248 33.857 12.650  1.00 28.23  ? 1101 W32 A N29 1 \nHETATM 2575 N  N30 . W32 B 2 .   ? 18.733 35.791 15.867  1.00 40.18  ? 1101 W32 A N30 1 \nHETATM 2576 O  O31 . W32 B 2 .   ? 17.835 36.482 17.860  1.00 50.74  ? 1101 W32 A O31 1 \nHETATM 2577 O  O32 . W32 B 2 .   ? 23.066 36.437 16.489  1.00 63.85  ? 1101 W32 A O32 1 \nHETATM 2578 O  O33 . W32 B 2 .   ? 21.997 37.443 18.557  1.00 81.42  ? 1101 W32 A O33 1 \nHETATM 2579 O  O34 . W32 B 2 .   ? 17.118 32.249 7.424   1.00 30.16  ? 1101 W32 A O34 1 \nHETATM 2580 F  F35 . W32 B 2 .   ? 14.097 27.611 8.115   1.00 35.13  ? 1101 W32 A F35 1 \nHETATM 2581 F  F36 . W32 B 2 .   ? 13.166 29.438 7.562   1.00 34.11  ? 1101 W32 A F36 1 \nHETATM 2582 F  F37 . W32 B 2 .   ? 13.559 27.856 6.039   1.00 32.07  ? 1101 W32 A F37 1 \nHETATM 2583 S  S38 . W32 B 2 .   ? 22.276 36.305 17.700  1.00 84.11  ? 1101 W32 A S38 1 \nHETATM 2584 CL CL1 . W32 B 2 .   ? 15.137 34.343 7.702   1.00 34.16  ? 1101 W32 A CL1 1 \nHETATM 2585 S  S   . SO4 C 3 .   ? 28.315 33.136 22.172  1.00 54.09  ? 1102 SO4 A S   1 \nHETATM 2586 O  O1  . SO4 C 3 .   ? 27.668 33.301 20.863  1.00 50.36  ? 1102 SO4 A O1  1 \nHETATM 2587 O  O2  . SO4 C 3 .   ? 29.746 33.509 22.064  1.00 60.30  ? 1102 SO4 A O2  1 \nHETATM 2588 O  O3  . SO4 C 3 .   ? 28.196 31.721 22.585  1.00 45.28  ? 1102 SO4 A O3  1 \nHETATM 2589 O  O4  . SO4 C 3 .   ? 27.636 33.973 23.182  1.00 70.80  ? 1102 SO4 A O4  1 \nHETATM 2590 O  O   . HOH D 4 .   ? 18.952 33.681 13.748  1.00 30.72  ? 2001 HOH A O   1 \nHETATM 2591 O  O   . HOH D 4 .   ? 35.442 12.036 9.937   1.00 30.09  ? 2002 HOH A O   1 \nHETATM 2592 O  O   . HOH D 4 .   ? 24.978 20.704 10.598  1.00 31.13  ? 2003 HOH A O   1 \nHETATM 2593 O  O   . HOH D 4 .   ? 34.337 20.372 15.165  1.00 28.11  ? 2004 HOH A O   1 \nHETATM 2594 O  O   . HOH D 4 .   ? 6.509  21.354 -6.071  1.00 29.38  ? 2005 HOH A O   1 \nHETATM 2595 O  O   . HOH D 4 .   ? 26.485 18.720 8.106   1.00 30.82  ? 2006 HOH A O   1 \nHETATM 2596 O  O   . HOH D 4 .   ? 20.845 10.119 9.908   1.00 30.60  ? 2007 HOH A O   1 \nHETATM 2597 O  O   . HOH D 4 .   ? 17.257 9.102  9.766   1.00 32.20  ? 2008 HOH A O   1 \nHETATM 2598 O  O   . HOH D 4 .   ? 36.130 7.683  16.487  1.00 38.69  ? 2009 HOH A O   1 \nHETATM 2599 O  O   . HOH D 4 .   ? 13.664 30.957 11.228  1.00 31.50  ? 2010 HOH A O   1 \nHETATM 2600 O  O   . HOH D 4 .   ? 23.367 25.952 6.551   1.00 37.12  ? 2011 HOH A O   1 \nHETATM 2601 O  O   . HOH D 4 .   ? 30.886 28.537 28.215  1.00 40.46  ? 2012 HOH A O   1 \nHETATM 2602 O  O   . HOH D 4 .   ? 32.756 19.653 17.155  1.00 28.58  ? 2013 HOH A O   1 \nHETATM 2603 O  O   . HOH D 4 .   ? 21.686 36.822 -11.628 1.00 56.11  ? 2014 HOH A O   1 \nHETATM 2604 O  O   . HOH D 4 .   ? 39.487 7.019  16.025  1.00 50.43  ? 2015 HOH A O   1 \nHETATM 2605 O  O   . HOH D 4 .   ? 24.717 27.461 19.113  1.00 29.62  ? 2016 HOH A O   1 \nHETATM 2606 O  O   . HOH D 4 .   ? 26.919 27.315 22.960  1.00 32.92  ? 2017 HOH A O   1 \nHETATM 2607 O  O   . HOH D 4 .   ? 21.677 19.209 0.486   1.00 37.84  ? 2018 HOH A O   1 \nHETATM 2608 O  O   . HOH D 4 .   ? 8.443  31.994 19.416  1.00 35.04  ? 2019 HOH A O   1 \nHETATM 2609 O  O   . HOH D 4 .   ? 17.135 42.163 -0.961  1.00 57.68  ? 2020 HOH A O   1 \nHETATM 2610 O  O   . HOH D 4 .   ? 36.632 30.489 18.215  1.00 60.99  ? 2021 HOH A O   1 \nHETATM 2611 O  O   . HOH D 4 .   ? 33.379 16.584 20.716  1.00 38.49  ? 2022 HOH A O   1 \nHETATM 2612 O  O   . HOH D 4 .   ? 25.300 19.757 32.915  1.00 32.97  ? 2023 HOH A O   1 \nHETATM 2613 O  O   . HOH D 4 .   ? 33.014 27.649 15.526  1.00 36.60  ? 2024 HOH A O   1 \nHETATM 2614 O  O   . HOH D 4 .   ? 33.617 10.243 19.744  1.00 33.88  ? 2025 HOH A O   1 \nHETATM 2615 O  O   . HOH D 4 .   ? 7.754  30.842 8.414   1.00 40.67  ? 2026 HOH A O   1 \nHETATM 2616 O  O   . HOH D 4 .   ? 10.668 30.874 11.297  1.00 33.82  ? 2027 HOH A O   1 \nHETATM 2617 O  O   . HOH D 4 .   ? 26.832 24.553 13.022  1.00 39.16  ? 2028 HOH A O   1 \nHETATM 2618 O  O   . HOH D 4 .   ? 21.042 33.463 11.806  1.00 38.83  ? 2029 HOH A O   1 \nHETATM 2619 O  O   . HOH D 4 .   ? 7.739  23.297 8.108   1.00 42.86  ? 2030 HOH A O   1 \nHETATM 2620 O  O   . HOH D 4 .   ? 10.905 13.095 11.221  1.00 32.44  ? 2031 HOH A O   1 \nHETATM 2621 O  O   . HOH D 4 .   ? 12.309 6.679  14.280  1.00 40.84  ? 2032 HOH A O   1 \nHETATM 2622 O  O   . HOH D 4 .   ? 6.371  16.396 8.444   1.00 42.41  ? 2033 HOH A O   1 \nHETATM 2623 O  O   . HOH D 4 .   ? 11.382 8.774  7.622   1.00 36.18  ? 2034 HOH A O   1 \nHETATM 2624 O  O   . HOH D 4 .   ? 37.978 12.473 9.028   1.00 37.99  ? 2035 HOH A O   1 \nHETATM 2625 O  O   . HOH D 4 .   ? 26.334 29.616 19.096  1.00 35.40  ? 2036 HOH A O   1 \nHETATM 2626 O  O   . HOH D 4 .   ? 28.085 29.293 21.311  1.00 33.80  ? 2037 HOH A O   1 \nHETATM 2627 O  O   . HOH D 4 .   ? 29.678 19.189 9.597   1.00 38.78  ? 2038 HOH A O   1 \nHETATM 2628 O  O   . HOH D 4 .   ? 18.829 31.034 14.369  1.00 42.03  ? 2039 HOH A O   1 \nHETATM 2629 O  O   . HOH D 4 .   ? 38.239 13.151 6.193   1.00 35.39  ? 2040 HOH A O   1 \nHETATM 2630 O  O   . HOH D 4 .   ? 42.253 18.534 4.456   1.00 39.85  ? 2041 HOH A O   1 \nHETATM 2631 O  O   . HOH D 4 .   ? 35.880 6.018  8.596   1.00 41.37  ? 2042 HOH A O   1 \nHETATM 2632 O  O   . HOH D 4 .   ? 6.868  14.238 27.659  1.00 57.08  ? 2043 HOH A O   1 \nHETATM 2633 O  O   . HOH D 4 .   ? 25.840 9.403  3.926   1.00 37.52  ? 2044 HOH A O   1 \nHETATM 2634 O  O   . HOH D 4 .   ? 23.916 10.923 4.843   1.00 36.39  ? 2045 HOH A O   1 \nHETATM 2635 O  O   . HOH D 4 .   ? 22.297 9.245  6.744   1.00 32.79  ? 2046 HOH A O   1 \nHETATM 2636 O  O   . HOH D 4 .   ? 25.735 6.067  7.008   1.00 36.43  ? 2047 HOH A O   1 \nHETATM 2637 O  O   . HOH D 4 .   ? 25.275 3.366  7.768   1.00 39.99  ? 2048 HOH A O   1 \nHETATM 2638 O  O   . HOH D 4 .   ? 31.874 2.778  6.260   1.00 50.43  ? 2049 HOH A O   1 \nHETATM 2639 O  O   . HOH D 4 .   ? 35.219 5.807  14.085  1.00 38.24  ? 2050 HOH A O   1 \nHETATM 2640 O  O   . HOH D 4 .   ? 21.161 14.370 0.807   1.00 42.08  ? 2051 HOH A O   1 \nHETATM 2641 O  O   . HOH D 4 .   ? 23.868 13.162 2.145   1.00 37.79  ? 2052 HOH A O   1 \nHETATM 2642 O  O   . HOH D 4 .   ? 17.291 14.374 37.680  1.00 50.83  ? 2053 HOH A O   1 \nHETATM 2643 O  O   . HOH D 4 .   ? 34.232 13.602 30.125  1.00 38.30  ? 2054 HOH A O   1 \nHETATM 2644 O  O   . HOH D 4 .   ? 24.841 32.749 10.356  1.00 44.08  ? 2055 HOH A O   1 \nHETATM 2645 O  O   . HOH D 4 .   ? 29.807 17.978 0.516   1.00 38.25  ? 2056 HOH A O   1 \nHETATM 2646 O  O   . HOH D 4 .   ? 6.362  17.239 3.587   1.00 38.89  ? 2057 HOH A O   1 \nHETATM 2647 O  O   . HOH D 4 .   ? 44.102 21.764 13.753  1.00 42.91  ? 2058 HOH A O   1 \nHETATM 2648 O  O   . HOH D 4 .   ? 34.739 22.287 26.071  1.00 41.30  ? 2059 HOH A O   1 \nHETATM 2649 O  O   . HOH D 4 .   ? 19.809 15.737 8.120   1.00 39.13  ? 2060 HOH A O   1 \nHETATM 2650 O  O   . HOH D 4 .   ? 34.786 23.238 5.336   1.00 41.49  ? 2061 HOH A O   1 \nHETATM 2651 O  O   . HOH D 4 .   ? 11.549 4.709  21.682  1.00 43.83  ? 2062 HOH A O   1 \nHETATM 2652 O  O   . HOH D 4 .   ? 32.328 28.947 -3.320  1.00 46.43  ? 2063 HOH A O   1 \nHETATM 2653 O  O   . HOH D 4 .   ? 15.198 32.353 23.952  1.00 39.56  ? 2064 HOH A O   1 \nHETATM 2654 O  O   . HOH D 4 .   ? 27.994 8.896  5.683   1.00 34.43  ? 2065 HOH A O   1 \nHETATM 2655 O  O   . HOH D 4 .   ? 7.938  16.137 22.485  1.00 51.73  ? 2066 HOH A O   1 \nHETATM 2656 O  O   . HOH D 4 .   ? 6.882  48.187 -5.358  1.00 52.22  ? 2067 HOH A O   1 \nHETATM 2657 O  O   . HOH D 4 .   ? 7.809  14.973 13.054  1.00 45.62  ? 2068 HOH A O   1 \nHETATM 2658 O  O   . HOH D 4 .   ? 9.129  11.157 13.552  1.00 51.16  ? 2069 HOH A O   1 \nHETATM 2659 O  O   . HOH D 4 .   ? 8.607  28.931 10.382  1.00 44.69  ? 2070 HOH A O   1 \nHETATM 2660 O  O   . HOH D 4 .   ? 17.819 11.733 38.870  1.00 43.75  ? 2071 HOH A O   1 \nHETATM 2661 O  O   . HOH D 4 .   ? 19.521 9.398  3.628   1.00 43.64  ? 2072 HOH A O   1 \nHETATM 2662 O  O   . HOH D 4 .   ? 32.704 24.308 4.378   1.00 40.08  ? 2073 HOH A O   1 \nHETATM 2663 O  O   . HOH D 4 .   ? 40.870 23.271 12.777  1.00 44.98  ? 2074 HOH A O   1 \nHETATM 2664 O  O   . HOH D 4 .   ? 7.122  11.266 27.389  1.00 56.70  ? 2075 HOH A O   1 \nHETATM 2665 O  O   . HOH D 4 .   ? 43.891 19.989 6.225   1.00 53.70  ? 2076 HOH A O   1 \nHETATM 2666 O  O   . HOH D 4 .   ? 30.592 29.461 20.862  1.00 40.74  ? 2077 HOH A O   1 \nHETATM 2667 O  O   . HOH D 4 .   ? 43.928 19.888 24.129  1.00 59.50  ? 2078 HOH A O   1 \nHETATM 2668 O  O   . HOH D 4 .   ? 28.233 24.649 -1.481  1.00 49.45  ? 2079 HOH A O   1 \nHETATM 2669 O  O   . HOH D 4 .   ? 37.537 9.737  20.442  1.00 49.24  ? 2080 HOH A O   1 \nHETATM 2670 O  O   . HOH D 4 .   ? 26.400 4.566  16.784  1.00 49.49  ? 2081 HOH A O   1 \nHETATM 2671 O  O   . HOH D 4 .   ? 9.514  5.252  19.588  1.00 60.51  ? 2082 HOH A O   1 \n# \nloop_\n_atom_site_anisotrop.id \n_atom_site_anisotrop.type_symbol \n_atom_site_anisotrop.pdbx_label_atom_id \n_atom_site_anisotrop.pdbx_label_alt_id \n_atom_site_anisotrop.pdbx_label_comp_id \n_atom_site_anisotrop.pdbx_label_asym_id \n_atom_site_anisotrop.pdbx_label_seq_id \n_atom_site_anisotrop.pdbx_PDB_ins_code \n_atom_site_anisotrop.U[1][1] \n_atom_site_anisotrop.U[2][2] \n_atom_site_anisotrop.U[3][3] \n_atom_site_anisotrop.U[1][2] \n_atom_site_anisotrop.U[1][3] \n_atom_site_anisotrop.U[2][3] \n_atom_site_anisotrop.pdbx_auth_seq_id \n_atom_site_anisotrop.pdbx_auth_comp_id \n_atom_site_anisotrop.pdbx_auth_asym_id \n_atom_site_anisotrop.pdbx_auth_atom_id \n1    N  N   . GLN A 9   ? 0.5420 0.5609 0.7188 0.0196  -0.0946 0.0018  701  GLN A N   \n2    C  CA  . GLN A 9   ? 0.5718 0.6034 0.7606 0.0189  -0.0889 0.0026  701  GLN A CA  \n3    C  C   . GLN A 9   ? 0.5291 0.5587 0.7054 0.0136  -0.0837 0.0025  701  GLN A C   \n4    O  O   . GLN A 9   ? 0.5250 0.5624 0.7078 0.0121  -0.0798 0.0032  701  GLN A O   \n5    C  CB  . GLN A 9   ? 0.7425 0.7772 0.9441 0.0183  -0.0959 0.0044  701  GLN A CB  \n6    C  CG  . GLN A 9   ? 0.9845 1.0353 1.2070 0.0212  -0.0913 0.0051  701  GLN A CG  \n7    C  CD  . GLN A 9   ? 1.2016 1.2555 1.4362 0.0193  -0.0983 0.0073  701  GLN A CD  \n8    O  OE1 . GLN A 9   ? 1.1085 1.1671 1.3582 0.0228  -0.1033 0.0080  701  GLN A OE1 \n9    N  NE2 . GLN A 9   ? 1.1782 1.2293 1.4064 0.0139  -0.0989 0.0084  701  GLN A NE2 \n10   N  N   . ALA A 10  ? 0.5196 0.5388 0.6783 0.0110  -0.0835 0.0016  702  ALA A N   \n11   C  CA  . ALA A 10  ? 0.4921 0.5092 0.6387 0.0066  -0.0783 0.0012  702  ALA A CA  \n12   C  C   . ALA A 10  ? 0.5473 0.5756 0.7003 0.0082  -0.0688 0.0005  702  ALA A C   \n13   O  O   . ALA A 10  ? 0.4974 0.5312 0.6570 0.0124  -0.0653 -0.0001 702  ALA A O   \n14   C  CB  . ALA A 10  ? 0.4911 0.4965 0.6197 0.0041  -0.0793 0.0005  702  ALA A CB  \n15   N  N   . LEU A 11  ? 0.4239 0.4548 0.5741 0.0049  -0.0649 0.0006  703  LEU A N   \n16   C  CA  . LEU A 11  ? 0.4156 0.4550 0.5689 0.0058  -0.0563 0.0000  703  LEU A CA  \n17   C  C   . LEU A 11  ? 0.4192 0.4552 0.5621 0.0060  -0.0523 -0.0012 703  LEU A C   \n18   O  O   . LEU A 11  ? 0.4334 0.4749 0.5807 0.0091  -0.0473 -0.0019 703  LEU A O   \n19   C  CB  . LEU A 11  ? 0.3930 0.4338 0.5436 0.0021  -0.0540 0.0002  703  LEU A CB  \n20   C  CG  . LEU A 11  ? 0.5234 0.5745 0.6820 0.0032  -0.0469 0.0001  703  LEU A CG  \n21   C  CD1 . LEU A 11  ? 0.5515 0.6118 0.7256 0.0071  -0.0456 0.0008  703  LEU A CD1 \n22   C  CD2 . LEU A 11  ? 0.4888 0.5405 0.6470 0.0000  -0.0470 0.0007  703  LEU A CD2 \n23   N  N   . LEU A 12  ? 0.3764 0.4028 0.5052 0.0025  -0.0546 -0.0015 704  LEU A N   \n24   C  CA  . LEU A 12  ? 0.3710 0.3925 0.4891 0.0020  -0.0524 -0.0024 704  LEU A CA  \n25   C  C   . LEU A 12  ? 0.3995 0.4124 0.5132 0.0031  -0.0588 -0.0022 704  LEU A C   \n26   O  O   . LEU A 12  ? 0.4022 0.4059 0.5070 0.0000  -0.0643 -0.0017 704  LEU A O   \n27   C  CB  . LEU A 12  ? 0.3820 0.3990 0.4875 -0.0028 -0.0503 -0.0028 704  LEU A CB  \n28   C  CG  . LEU A 12  ? 0.4517 0.4647 0.5466 -0.0044 -0.0477 -0.0034 704  LEU A CG  \n29   C  CD1 . LEU A 12  ? 0.3941 0.4144 0.4944 -0.0015 -0.0418 -0.0040 704  LEU A CD1 \n30   C  CD2 . LEU A 12  ? 0.4643 0.4734 0.5479 -0.0094 -0.0458 -0.0037 704  LEU A CD2 \n31   N  N   . ARG A 13  ? 0.4031 0.4183 0.5225 0.0076  -0.0582 -0.0027 705  ARG A N   \n32   C  CA  . ARG A 13  ? 0.4373 0.4437 0.5524 0.0093  -0.0645 -0.0027 705  ARG A CA  \n33   C  C   . ARG A 13  ? 0.4882 0.4845 0.5869 0.0059  -0.0653 -0.0029 705  ARG A C   \n34   O  O   . ARG A 13  ? 0.4859 0.4841 0.5800 0.0050  -0.0597 -0.0034 705  ARG A O   \n35   C  CB  . ARG A 13  ? 0.5446 0.5561 0.6704 0.0157  -0.0635 -0.0034 705  ARG A CB  \n36   C  CG  . ARG A 13  ? 0.5619 0.5820 0.7045 0.0191  -0.0647 -0.0029 705  ARG A CG  \n37   C  CD  . ARG A 13  ? 0.7699 0.7979 0.9236 0.0253  -0.0604 -0.0039 705  ARG A CD  \n38   N  NE  . ARG A 13  ? 1.0335 1.0620 1.1977 0.0299  -0.0658 -0.0039 705  ARG A NE  \n39   C  CZ  . ARG A 13  ? 1.1062 1.1447 1.2872 0.0325  -0.0657 -0.0033 705  ARG A CZ  \n40   N  NH1 . ARG A 13  ? 1.1689 1.2171 1.3574 0.0307  -0.0606 -0.0026 705  ARG A NH1 \n41   N  NH2 . ARG A 13  ? 1.0971 1.1359 1.2879 0.0370  -0.0711 -0.0035 705  ARG A NH2 \n42   N  N   . ILE A 14  ? 0.4766 0.4618 0.5663 0.0037  -0.0725 -0.0023 706  ILE A N   \n43   C  CA  . ILE A 14  ? 0.5346 0.5092 0.6083 0.0000  -0.0739 -0.0022 706  ILE A CA  \n44   C  C   . ILE A 14  ? 0.5844 0.5540 0.6582 0.0043  -0.0776 -0.0026 706  ILE A C   \n45   O  O   . ILE A 14  ? 0.5473 0.5111 0.6227 0.0063  -0.0849 -0.0023 706  ILE A O   \n46   C  CB  . ILE A 14  ? 0.6555 0.6189 0.7171 -0.0052 -0.0798 -0.0012 706  ILE A CB  \n47   C  CG1 . ILE A 14  ? 0.6363 0.6039 0.6991 -0.0084 -0.0774 -0.0010 706  ILE A CG1 \n48   C  CG2 . ILE A 14  ? 0.6817 0.6350 0.7265 -0.0098 -0.0802 -0.0009 706  ILE A CG2 \n49   C  CD1 . ILE A 14  ? 0.5418 0.5176 0.6047 -0.0102 -0.0685 -0.0016 706  ILE A CD1 \n50   N  N   . LEU A 15  ? 0.5526 0.5242 0.6247 0.0058  -0.0729 -0.0033 707  LEU A N   \n51   C  CA  . LEU A 15  ? 0.5596 0.5267 0.6320 0.0107  -0.0757 -0.0041 707  LEU A CA  \n52   C  C   . LEU A 15  ? 0.6465 0.5998 0.7022 0.0070  -0.0803 -0.0035 707  LEU A C   \n53   O  O   . LEU A 15  ? 0.6247 0.5756 0.6699 0.0014  -0.0776 -0.0029 707  LEU A O   \n54   C  CB  . LEU A 15  ? 0.5854 0.5608 0.6642 0.0147  -0.0686 -0.0052 707  LEU A CB  \n55   C  CG  . LEU A 15  ? 0.6627 0.6521 0.7566 0.0179  -0.0624 -0.0057 707  LEU A CG  \n56   C  CD1 . LEU A 15  ? 0.5197 0.5132 0.6153 0.0213  -0.0563 -0.0067 707  LEU A CD1 \n57   C  CD2 . LEU A 15  ? 0.5352 0.5290 0.6428 0.0224  -0.0658 -0.0057 707  LEU A CD2 \n58   N  N   . LYS A 16  ? 0.6234 0.5679 0.6771 0.0102  -0.0874 -0.0037 708  LYS A N   \n59   C  CA  . LYS A 16  ? 0.7895 0.7197 0.8274 0.0076  -0.0924 -0.0033 708  LYS A CA  \n60   C  C   . LYS A 16  ? 0.6539 0.5843 0.6901 0.0106  -0.0888 -0.0042 708  LYS A C   \n61   O  O   . LYS A 16  ? 0.5800 0.5184 0.6277 0.0170  -0.0853 -0.0056 708  LYS A O   \n62   C  CB  . LYS A 16  ? 0.8027 0.7226 0.8395 0.0105  -0.1023 -0.0032 708  LYS A CB  \n63   C  CG  . LYS A 16  ? 0.9974 0.9118 1.0307 0.0063  -0.1081 -0.0019 708  LYS A CG  \n64   C  CD  . LYS A 16  ? 1.1801 1.0964 1.2267 0.0122  -0.1142 -0.0024 708  LYS A CD  \n65   C  CE  . LYS A 16  ? 1.2334 1.1425 1.2810 0.0184  -0.1201 -0.0034 708  LYS A CE  \n66   N  NZ  . LYS A 16  ? 1.2740 1.1877 1.3377 0.0248  -0.1251 -0.0040 708  LYS A NZ  \n67   N  N   . GLU A 17  ? 0.6711 0.5923 0.6924 0.0058  -0.0897 -0.0034 709  GLU A N   \n68   C  CA  . GLU A 17  ? 0.6996 0.6184 0.7165 0.0077  -0.0874 -0.0040 709  GLU A CA  \n69   C  C   . GLU A 17  ? 0.7493 0.6645 0.7710 0.0160  -0.0908 -0.0057 709  GLU A C   \n70   O  O   . GLU A 17  ? 0.6931 0.6115 0.7176 0.0203  -0.0865 -0.0070 709  GLU A O   \n71   C  CB  . GLU A 17  ? 0.7825 0.6893 0.7817 0.0007  -0.0904 -0.0025 709  GLU A CB  \n72   C  CG  . GLU A 17  ? 0.9433 0.8557 0.9387 -0.0067 -0.0849 -0.0012 709  GLU A CG  \n73   C  CD  . GLU A 17  ? 1.2260 1.1279 1.2053 -0.0138 -0.0871 0.0004  709  GLU A CD  \n74   O  OE1 . GLU A 17  ? 1.0992 1.0038 1.0763 -0.0157 -0.0830 0.0006  709  GLU A OE1 \n75   O  OE2 . GLU A 17  ? 1.3467 1.2373 1.3152 -0.0178 -0.0933 0.0015  709  GLU A OE2 \n76   N  N   . THR A 18  ? 0.7519 0.6602 0.7742 0.0185  -0.0984 -0.0058 710  THR A N   \n77   C  CA  . THR A 18  ? 0.7982 0.7034 0.8264 0.0270  -0.1020 -0.0076 710  THR A CA  \n78   C  C   . THR A 18  ? 0.6977 0.6180 0.7450 0.0341  -0.0960 -0.0093 710  THR A C   \n79   O  O   . THR A 18  ? 0.7409 0.6612 0.7941 0.0417  -0.0962 -0.0111 710  THR A O   \n80   C  CB  . THR A 18  ? 0.8306 0.7247 0.8558 0.0278  -0.1125 -0.0073 710  THR A CB  \n81   O  OG1 . THR A 18  ? 0.8246 0.7251 0.8581 0.0258  -0.1136 -0.0064 710  THR A OG1 \n82   C  CG2 . THR A 18  ? 0.8237 0.7009 0.8285 0.0213  -0.1189 -0.0057 710  THR A CG2 \n83   N  N   . GLU A 19  ? 0.6396 0.5723 0.6959 0.0315  -0.0905 -0.0086 711  GLU A N   \n84   C  CA  . GLU A 19  ? 0.7106 0.6578 0.7851 0.0369  -0.0850 -0.0096 711  GLU A CA  \n85   C  C   . GLU A 19  ? 0.7201 0.6751 0.7975 0.0392  -0.0760 -0.0107 711  GLU A C   \n86   O  O   . GLU A 19  ? 0.6446 0.6101 0.7356 0.0446  -0.0711 -0.0118 711  GLU A O   \n87   C  CB  . GLU A 19  ? 0.7716 0.7278 0.8537 0.0328  -0.0834 -0.0083 711  GLU A CB  \n88   C  CG  . GLU A 19  ? 0.7783 0.7312 0.8645 0.0327  -0.0914 -0.0076 711  GLU A CG  \n89   C  CD  . GLU A 19  ? 0.7319 0.6940 0.8256 0.0290  -0.0891 -0.0064 711  GLU A CD  \n90   O  OE1 . GLU A 19  ? 0.6710 0.6268 0.7549 0.0226  -0.0923 -0.0050 711  GLU A OE1 \n91   O  OE2 . GLU A 19  ? 0.9164 0.8915 1.0251 0.0323  -0.0839 -0.0068 711  GLU A OE2 \n92   N  N   . PHE A 20  ? 0.6126 0.5625 0.6772 0.0347  -0.0737 -0.0101 712  PHE A N   \n93   C  CA  . PHE A 20  ? 0.6800 0.6359 0.7455 0.0360  -0.0658 -0.0109 712  PHE A CA  \n94   C  C   . PHE A 20  ? 0.5750 0.5195 0.6252 0.0345  -0.0670 -0.0110 712  PHE A C   \n95   O  O   . PHE A 20  ? 0.6289 0.5627 0.6669 0.0299  -0.0728 -0.0098 712  PHE A O   \n96   C  CB  . PHE A 20  ? 0.5773 0.5442 0.6475 0.0312  -0.0596 -0.0098 712  PHE A CB  \n97   C  CG  . PHE A 20  ? 0.5363 0.4987 0.5954 0.0230  -0.0611 -0.0082 712  PHE A CG  \n98   C  CD1 . PHE A 20  ? 0.6429 0.6038 0.6934 0.0194  -0.0577 -0.0077 712  PHE A CD1 \n99   C  CD2 . PHE A 20  ? 0.5799 0.5395 0.6368 0.0188  -0.0658 -0.0070 712  PHE A CD2 \n100  C  CE1 . PHE A 20  ? 0.5615 0.5195 0.6029 0.0119  -0.0584 -0.0062 712  PHE A CE1 \n101  C  CE2 . PHE A 20  ? 0.5369 0.4926 0.5832 0.0113  -0.0663 -0.0056 712  PHE A CE2 \n102  C  CZ  . PHE A 20  ? 0.5934 0.5490 0.6327 0.0079  -0.0623 -0.0052 712  PHE A CZ  \n103  N  N   . LYS A 21  ? 0.5851 0.5316 0.6355 0.0380  -0.0617 -0.0122 713  LYS A N   \n104  C  CA  . LYS A 21  ? 0.5833 0.5185 0.6194 0.0373  -0.0630 -0.0123 713  LYS A CA  \n105  C  C   . LYS A 21  ? 0.6357 0.5763 0.6708 0.0357  -0.0559 -0.0123 713  LYS A C   \n106  O  O   . LYS A 21  ? 0.5776 0.5274 0.6223 0.0399  -0.0498 -0.0134 713  LYS A O   \n107  C  CB  . LYS A 21  ? 0.6447 0.5718 0.6792 0.0452  -0.0657 -0.0145 713  LYS A CB  \n108  C  CG  . LYS A 21  ? 0.7942 0.7120 0.8262 0.0470  -0.0744 -0.0146 713  LYS A CG  \n109  C  CD  . LYS A 21  ? 1.0478 0.9594 1.0806 0.0561  -0.0762 -0.0172 713  LYS A CD  \n110  C  CE  . LYS A 21  ? 0.9047 0.8099 0.9397 0.0592  -0.0846 -0.0176 713  LYS A CE  \n111  N  NZ  . LYS A 21  ? 0.9764 0.8743 1.0113 0.0684  -0.0869 -0.0203 713  LYS A NZ  \n112  N  N   . LYS A 22  ? 0.5503 0.4849 0.5736 0.0295  -0.0571 -0.0108 714  LYS A N   \n113  C  CA  . LYS A 22  ? 0.5983 0.5351 0.6184 0.0278  -0.0520 -0.0106 714  LYS A CA  \n114  C  C   . LYS A 22  ? 0.6513 0.5786 0.6641 0.0333  -0.0525 -0.0122 714  LYS A C   \n115  O  O   . LYS A 22  ? 0.6188 0.5331 0.6207 0.0335  -0.0585 -0.0123 714  LYS A O   \n116  C  CB  . LYS A 22  ? 0.6461 0.5793 0.6566 0.0193  -0.0539 -0.0085 714  LYS A CB  \n117  C  CG  . LYS A 22  ? 0.6952 0.6366 0.7107 0.0133  -0.0530 -0.0070 714  LYS A CG  \n118  C  CD  . LYS A 22  ? 0.6996 0.6380 0.7060 0.0055  -0.0538 -0.0050 714  LYS A CD  \n119  C  CE  . LYS A 22  ? 0.6853 0.6286 0.6933 -0.0006 -0.0539 -0.0036 714  LYS A CE  \n120  N  NZ  . LYS A 22  ? 0.6756 0.6102 0.6776 -0.0020 -0.0602 -0.0031 714  LYS A NZ  \n121  N  N   . ILE A 23  ? 0.5442 0.4768 0.5619 0.0378  -0.0463 -0.0136 715  ILE A N   \n122  C  CA  . ILE A 23  ? 0.6316 0.5552 0.6425 0.0440  -0.0459 -0.0155 715  ILE A CA  \n123  C  C   . ILE A 23  ? 0.6970 0.6143 0.6965 0.0408  -0.0447 -0.0149 715  ILE A C   \n124  O  O   . ILE A 23  ? 0.6679 0.5716 0.6544 0.0413  -0.0490 -0.0151 715  ILE A O   \n125  C  CB  . ILE A 23  ? 0.5406 0.4724 0.5633 0.0520  -0.0400 -0.0178 715  ILE A CB  \n126  C  CG1 . ILE A 23  ? 0.7073 0.6422 0.7398 0.0555  -0.0433 -0.0184 715  ILE A CG1 \n127  C  CG2 . ILE A 23  ? 0.6282 0.5509 0.6430 0.0584  -0.0381 -0.0200 715  ILE A CG2 \n128  C  CD1 . ILE A 23  ? 0.6901 0.6334 0.7357 0.0635  -0.0382 -0.0205 715  ILE A CD1 \n129  N  N   . LYS A 24  ? 0.5733 0.5001 0.5776 0.0374  -0.0396 -0.0139 716  LYS A N   \n130  C  CA  . LYS A 24  ? 0.5657 0.4877 0.5607 0.0338  -0.0389 -0.0130 716  LYS A CA  \n131  C  C   . LYS A 24  ? 0.6018 0.5341 0.6025 0.0269  -0.0368 -0.0110 716  LYS A C   \n132  O  O   . LYS A 24  ? 0.4912 0.4354 0.5038 0.0266  -0.0335 -0.0109 716  LYS A O   \n133  C  CB  . LYS A 24  ? 0.5531 0.4736 0.5466 0.0395  -0.0335 -0.0148 716  LYS A CB  \n134  C  CG  . LYS A 24  ? 0.6711 0.5791 0.6557 0.0463  -0.0353 -0.0170 716  LYS A CG  \n135  C  CD  . LYS A 24  ? 0.6245 0.5165 0.5919 0.0436  -0.0409 -0.0163 716  LYS A CD  \n136  C  CE  . LYS A 24  ? 0.6951 0.5734 0.6535 0.0494  -0.0453 -0.0182 716  LYS A CE  \n137  N  NZ  . LYS A 24  ? 0.7803 0.6553 0.7373 0.0579  -0.0403 -0.0212 716  LYS A NZ  \n138  N  N   . VAL A 25  ? 0.5479 0.4754 0.5403 0.0214  -0.0388 -0.0094 717  VAL A N   \n139  C  CA  . VAL A 25  ? 0.5797 0.5165 0.5772 0.0155  -0.0366 -0.0077 717  VAL A CA  \n140  C  C   . VAL A 25  ? 0.5679 0.5116 0.5711 0.0181  -0.0305 -0.0085 717  VAL A C   \n141  O  O   . VAL A 25  ? 0.5561 0.4932 0.5533 0.0220  -0.0291 -0.0096 717  VAL A O   \n142  C  CB  . VAL A 25  ? 0.6752 0.6053 0.6631 0.0090  -0.0408 -0.0057 717  VAL A CB  \n143  C  CG1 . VAL A 25  ? 0.6255 0.5664 0.6205 0.0036  -0.0382 -0.0043 717  VAL A CG1 \n144  C  CG2 . VAL A 25  ? 0.6742 0.5969 0.6553 0.0054  -0.0469 -0.0046 717  VAL A CG2 \n145  N  N   . LEU A 26  ? 0.4854 0.4416 0.4993 0.0160  -0.0270 -0.0080 718  LEU A N   \n146  C  CA  . LEU A 26  ? 0.4266 0.3884 0.4445 0.0169  -0.0220 -0.0082 718  LEU A CA  \n147  C  C   . LEU A 26  ? 0.4798 0.4421 0.4950 0.0109  -0.0235 -0.0065 718  LEU A C   \n148  O  O   . LEU A 26  ? 0.4640 0.4199 0.4720 0.0109  -0.0239 -0.0064 718  LEU A O   \n149  C  CB  . LEU A 26  ? 0.4616 0.4357 0.4927 0.0189  -0.0172 -0.0088 718  LEU A CB  \n150  C  CG  . LEU A 26  ? 0.4637 0.4379 0.4987 0.0254  -0.0155 -0.0105 718  LEU A CG  \n151  C  CD1 . LEU A 26  ? 0.4676 0.4540 0.5162 0.0267  -0.0118 -0.0107 718  LEU A CD1 \n152  C  CD2 . LEU A 26  ? 0.5541 0.5213 0.5826 0.0304  -0.0128 -0.0119 718  LEU A CD2 \n153  N  N   . GLY A 27  ? 0.4649 0.4345 0.4857 0.0059  -0.0244 -0.0053 719  GLY A N   \n154  C  CA  . GLY A 27  ? 0.5634 0.5350 0.5834 0.0002  -0.0257 -0.0037 719  GLY A CA  \n155  C  C   . GLY A 27  ? 0.7203 0.7009 0.7474 -0.0045 -0.0258 -0.0027 719  GLY A C   \n156  O  O   . GLY A 27  ? 0.6658 0.6516 0.6986 -0.0035 -0.0244 -0.0033 719  GLY A O   \n157  N  N   . SER A 28  ? 0.6398 0.6221 0.6664 -0.0098 -0.0273 -0.0013 720  SER A N   \n158  C  CA  . SER A 28  ? 0.6494 0.6406 0.6824 -0.0146 -0.0266 -0.0004 720  SER A CA  \n159  C  C   . SER A 28  ? 0.6178 0.6193 0.6603 -0.0150 -0.0230 -0.0007 720  SER A C   \n160  O  O   . SER A 28  ? 0.6850 0.6859 0.7279 -0.0127 -0.0220 -0.0010 720  SER A O   \n161  C  CB  . SER A 28  ? 0.8048 0.7918 0.8320 -0.0206 -0.0306 0.0014  720  SER A CB  \n162  O  OG  . SER A 28  ? 0.8620 0.8410 0.8816 -0.0214 -0.0339 0.0017  720  SER A OG  \n163  N  N   . GLY A 29  ? 0.7044 0.7145 0.7535 -0.0178 -0.0213 -0.0006 721  GLY A N   \n164  C  CA  . GLY A 29  ? 0.6960 0.7159 0.7542 -0.0182 -0.0182 -0.0010 721  GLY A CA  \n165  C  C   . GLY A 29  ? 0.7718 0.7984 0.8338 -0.0230 -0.0176 -0.0004 721  GLY A C   \n166  O  O   . GLY A 29  ? 0.7501 0.7733 0.8072 -0.0262 -0.0195 0.0004  721  GLY A O   \n167  N  N   . ALA A 30  ? 0.8690 0.9047 0.9395 -0.0233 -0.0149 -0.0009 722  ALA A N   \n168  C  CA  . ALA A 30  ? 0.8869 0.9301 0.9621 -0.0272 -0.0131 -0.0008 722  ALA A CA  \n169  C  C   . ALA A 30  ? 0.8699 0.9124 0.9424 -0.0280 -0.0122 -0.0012 722  ALA A C   \n170  O  O   . ALA A 30  ? 0.7110 0.7539 0.7811 -0.0325 -0.0124 -0.0004 722  ALA A O   \n171  C  CB  . ALA A 30  ? 0.9124 0.9648 0.9971 -0.0259 -0.0102 -0.0019 722  ALA A CB  \n172  N  N   . PHE A 31  ? 0.6621 0.7032 0.7351 -0.0240 -0.0114 -0.0024 723  PHE A N   \n173  C  CA  . PHE A 31  ? 0.5373 0.5777 0.6084 -0.0245 -0.0110 -0.0028 723  PHE A CA  \n174  C  C   . PHE A 31  ? 0.5787 0.6097 0.6414 -0.0245 -0.0145 -0.0021 723  PHE A C   \n175  O  O   . PHE A 31  ? 0.5892 0.6180 0.6487 -0.0261 -0.0152 -0.0021 723  PHE A O   \n176  C  CB  . PHE A 31  ? 0.6469 0.6917 0.7240 -0.0208 -0.0086 -0.0043 723  PHE A CB  \n177  C  CG  . PHE A 31  ? 0.6439 0.6971 0.7285 -0.0209 -0.0054 -0.0051 723  PHE A CG  \n178  C  CD1 . PHE A 31  ? 0.5928 0.6492 0.6831 -0.0171 -0.0040 -0.0060 723  PHE A CD1 \n179  C  CD2 . PHE A 31  ? 0.5779 0.6359 0.6639 -0.0247 -0.0038 -0.0051 723  PHE A CD2 \n180  C  CE1 . PHE A 31  ? 0.6524 0.7156 0.7491 -0.0169 -0.0017 -0.0069 723  PHE A CE1 \n181  C  CE2 . PHE A 31  ? 0.4985 0.5643 0.5918 -0.0241 -0.0010 -0.0061 723  PHE A CE2 \n182  C  CZ  . PHE A 31  ? 0.5596 0.6275 0.6580 -0.0201 -0.0003 -0.0071 723  PHE A CZ  \n183  N  N   . GLY A 32  ? 0.5278 0.5523 0.5863 -0.0227 -0.0170 -0.0017 724  GLY A N   \n184  C  CA  . GLY A 32  ? 0.3769 0.3919 0.4274 -0.0221 -0.0207 -0.0012 724  GLY A CA  \n185  C  C   . GLY A 32  ? 0.5134 0.5215 0.5601 -0.0181 -0.0225 -0.0014 724  GLY A C   \n186  O  O   . GLY A 32  ? 0.5802 0.5901 0.6294 -0.0165 -0.0212 -0.0016 724  GLY A O   \n187  N  N   . THR A 33  ? 0.4764 0.4762 0.5170 -0.0163 -0.0257 -0.0015 725  THR A N   \n188  C  CA  . THR A 33  ? 0.4823 0.4736 0.5174 -0.0124 -0.0278 -0.0018 725  THR A CA  \n189  C  C   . THR A 33  ? 0.4780 0.4682 0.5160 -0.0063 -0.0273 -0.0033 725  THR A C   \n190  O  O   . THR A 33  ? 0.4210 0.4104 0.4595 -0.0061 -0.0289 -0.0034 725  THR A O   \n191  C  CB  . THR A 33  ? 0.6312 0.6119 0.6553 -0.0156 -0.0328 -0.0006 725  THR A CB  \n192  O  OG1 . THR A 33  ? 0.5929 0.5754 0.6155 -0.0214 -0.0332 0.0009  725  THR A OG1 \n193  C  CG2 . THR A 33  ? 0.5708 0.5414 0.5880 -0.0112 -0.0352 -0.0012 725  THR A CG2 \n194  N  N   . VAL A 34  ? 0.4022 0.3916 0.4414 -0.0015 -0.0253 -0.0042 726  VAL A N   \n195  C  CA  . VAL A 34  ? 0.4419 0.4323 0.4860 0.0044  -0.0238 -0.0057 726  VAL A CA  \n196  C  C   . VAL A 34  ? 0.4252 0.4055 0.4621 0.0088  -0.0260 -0.0065 726  VAL A C   \n197  O  O   . VAL A 34  ? 0.4311 0.4047 0.4604 0.0087  -0.0268 -0.0063 726  VAL A O   \n198  C  CB  . VAL A 34  ? 0.4085 0.4075 0.4612 0.0070  -0.0185 -0.0063 726  VAL A CB  \n199  C  CG1 . VAL A 34  ? 0.4253 0.4273 0.4848 0.0124  -0.0167 -0.0075 726  VAL A CG1 \n200  C  CG2 . VAL A 34  ? 0.4510 0.4591 0.5102 0.0031  -0.0167 -0.0058 726  VAL A CG2 \n201  N  N   . TYR A 35  ? 0.4224 0.4013 0.4619 0.0127  -0.0273 -0.0074 727  TYR A N   \n202  C  CA  . TYR A 35  ? 0.4083 0.3779 0.4422 0.0178  -0.0295 -0.0085 727  TYR A CA  \n203  C  C   . TYR A 35  ? 0.4640 0.4392 0.5073 0.0243  -0.0258 -0.0101 727  TYR A C   \n204  O  O   . TYR A 35  ? 0.4261 0.4106 0.4799 0.0244  -0.0240 -0.0100 727  TYR A O   \n205  C  CB  . TYR A 35  ? 0.4395 0.4011 0.4676 0.0166  -0.0357 -0.0082 727  TYR A CB  \n206  C  CG  . TYR A 35  ? 0.5156 0.4718 0.5346 0.0096  -0.0396 -0.0064 727  TYR A CG  \n207  C  CD1 . TYR A 35  ? 0.5819 0.5260 0.5887 0.0087  -0.0437 -0.0060 727  TYR A CD1 \n208  C  CD2 . TYR A 35  ? 0.6136 0.5765 0.6360 0.0038  -0.0390 -0.0051 727  TYR A CD2 \n209  C  CE1 . TYR A 35  ? 0.5355 0.4751 0.5344 0.0016  -0.0471 -0.0040 727  TYR A CE1 \n210  C  CE2 . TYR A 35  ? 0.5874 0.5464 0.6021 -0.0027 -0.0417 -0.0034 727  TYR A CE2 \n211  C  CZ  . TYR A 35  ? 0.6596 0.6072 0.6630 -0.0041 -0.0458 -0.0027 727  TYR A CZ  \n212  O  OH  . TYR A 35  ? 0.5373 0.4816 0.5337 -0.0112 -0.0485 -0.0007 727  TYR A OH  \n213  N  N   . LYS A 36  ? 0.3901 0.3594 0.4296 0.0297  -0.0248 -0.0115 728  LYS A N   \n214  C  CA  . LYS A 36  ? 0.4303 0.4034 0.4782 0.0365  -0.0220 -0.0132 728  LYS A CA  \n215  C  C   . LYS A 36  ? 0.4869 0.4551 0.5348 0.0384  -0.0277 -0.0136 728  LYS A C   \n216  O  O   . LYS A 36  ? 0.5013 0.4585 0.5382 0.0369  -0.0330 -0.0133 728  LYS A O   \n217  C  CB  . LYS A 36  ? 0.5029 0.4705 0.5455 0.0419  -0.0186 -0.0148 728  LYS A CB  \n218  C  CG  . LYS A 36  ? 0.6256 0.5983 0.6778 0.0491  -0.0145 -0.0167 728  LYS A CG  \n219  C  CD  . LYS A 36  ? 0.5212 0.4864 0.5657 0.0546  -0.0112 -0.0185 728  LYS A CD  \n220  C  CE  . LYS A 36  ? 0.6339 0.5857 0.6682 0.0579  -0.0166 -0.0198 728  LYS A CE  \n221  N  NZ  . LYS A 36  ? 0.6462 0.5889 0.6706 0.0629  -0.0134 -0.0216 728  LYS A NZ  \n222  N  N   . GLY A 37  ? 0.4750 0.4507 0.5347 0.0415  -0.0271 -0.0141 729  GLY A N   \n223  C  CA  . GLY A 37  ? 0.4963 0.4672 0.5566 0.0434  -0.0331 -0.0144 729  GLY A CA  \n224  C  C   . GLY A 37  ? 0.4489 0.4271 0.5229 0.0495  -0.0317 -0.0156 729  GLY A C   \n225  O  O   . GLY A 37  ? 0.3944 0.3817 0.4776 0.0524  -0.0254 -0.0163 729  GLY A O   \n226  N  N   . LEU A 38  ? 0.5185 0.4925 0.5939 0.0512  -0.0379 -0.0158 730  LEU A N   \n227  C  CA  . LEU A 38  ? 0.4975 0.4788 0.5874 0.0564  -0.0380 -0.0167 730  LEU A CA  \n228  C  C   . LEU A 38  ? 0.4499 0.4324 0.5437 0.0525  -0.0441 -0.0152 730  LEU A C   \n229  O  O   . LEU A 38  ? 0.5295 0.5021 0.6126 0.0486  -0.0504 -0.0143 730  LEU A O   \n230  C  CB  . LEU A 38  ? 0.6831 0.6574 0.7722 0.0642  -0.0403 -0.0189 730  LEU A CB  \n231  C  CG  . LEU A 38  ? 0.6703 0.6452 0.7594 0.0704  -0.0335 -0.0210 730  LEU A CG  \n232  C  CD1 . LEU A 38  ? 0.6819 0.6476 0.7684 0.0779  -0.0372 -0.0233 730  LEU A CD1 \n233  C  CD2 . LEU A 38  ? 0.7618 0.7519 0.8667 0.0729  -0.0256 -0.0212 730  LEU A CD2 \n234  N  N   . TRP A 39  ? 0.5003 0.4945 0.6088 0.0531  -0.0421 -0.0147 731  TRP A N   \n235  C  CA  . TRP A 39  ? 0.4490 0.4439 0.5620 0.0503  -0.0481 -0.0135 731  TRP A CA  \n236  C  C   . TRP A 39  ? 0.5233 0.5204 0.6484 0.0570  -0.0516 -0.0145 731  TRP A C   \n237  O  O   . TRP A 39  ? 0.4699 0.4773 0.6087 0.0618  -0.0466 -0.0154 731  TRP A O   \n238  C  CB  . TRP A 39  ? 0.5252 0.5302 0.6450 0.0454  -0.0449 -0.0119 731  TRP A CB  \n239  C  CG  . TRP A 39  ? 0.5772 0.5833 0.7026 0.0430  -0.0508 -0.0107 731  TRP A CG  \n240  C  CD1 . TRP A 39  ? 0.6799 0.6758 0.7979 0.0410  -0.0591 -0.0102 731  TRP A CD1 \n241  C  CD2 . TRP A 39  ? 0.6790 0.6959 0.8175 0.0419  -0.0494 -0.0097 731  TRP A CD2 \n242  N  NE1 . TRP A 39  ? 0.7321 0.7315 0.8574 0.0390  -0.0629 -0.0090 731  TRP A NE1 \n243  C  CE2 . TRP A 39  ? 0.6477 0.6600 0.7859 0.0395  -0.0572 -0.0087 731  TRP A CE2 \n244  C  CE3 . TRP A 39  ? 0.5756 0.6048 0.7253 0.0425  -0.0426 -0.0095 731  TRP A CE3 \n245  C  CZ2 . TRP A 39  ? 0.7745 0.7940 0.9232 0.0378  -0.0586 -0.0075 731  TRP A CZ2 \n246  C  CZ3 . TRP A 39  ? 0.6856 0.7224 0.8462 0.0407  -0.0439 -0.0082 731  TRP A CZ3 \n247  C  CH2 . TRP A 39  ? 0.7032 0.7351 0.8634 0.0385  -0.0519 -0.0073 731  TRP A CH2 \n248  N  N   . ILE A 40  ? 0.5550 0.5420 0.6747 0.0570  -0.0602 -0.0144 732  ILE A N   \n249  C  CA  . ILE A 40  ? 0.6524 0.6397 0.7827 0.0628  -0.0656 -0.0152 732  ILE A CA  \n250  C  C   . ILE A 40  ? 0.6218 0.6096 0.7559 0.0582  -0.0721 -0.0133 732  ILE A C   \n251  O  O   . ILE A 40  ? 0.7091 0.6851 0.8313 0.0545  -0.0795 -0.0125 732  ILE A O   \n252  C  CB  . ILE A 40  ? 0.6609 0.6339 0.7807 0.0668  -0.0715 -0.0167 732  ILE A CB  \n253  C  CG1 . ILE A 40  ? 0.6670 0.6368 0.7788 0.0699  -0.0655 -0.0183 732  ILE A CG1 \n254  C  CG2 . ILE A 40  ? 0.8103 0.7845 0.9428 0.0741  -0.0766 -0.0179 732  ILE A CG2 \n255  C  CD1 . ILE A 40  ? 0.7342 0.6869 0.8274 0.0689  -0.0711 -0.0187 732  ILE A CD1 \n256  N  N   . PRO A 41  ? 0.6345 0.6352 0.7837 0.0579  -0.0693 -0.0125 733  PRO A N   \n257  C  CA  . PRO A 41  ? 0.6905 0.6909 0.8432 0.0539  -0.0760 -0.0107 733  PRO A CA  \n258  C  C   . PRO A 41  ? 0.7821 0.7723 0.9336 0.0569  -0.0862 -0.0110 733  PRO A C   \n259  O  O   . PRO A 41  ? 0.5827 0.5737 0.7418 0.0643  -0.0870 -0.0127 733  PRO A O   \n260  C  CB  . PRO A 41  ? 0.7509 0.7670 0.9231 0.0557  -0.0718 -0.0102 733  PRO A CB  \n261  C  CG  . PRO A 41  ? 0.7176 0.7419 0.8915 0.0570  -0.0612 -0.0110 733  PRO A CG  \n262  C  CD  . PRO A 41  ? 0.7353 0.7505 0.8981 0.0607  -0.0602 -0.0129 733  PRO A CD  \n263  N  N   . GLU A 42  ? 0.8490 0.8293 0.9904 0.0513  -0.0939 -0.0095 734  GLU A N   \n264  C  CA  . GLU A 42  ? 1.1664 1.1326 1.3001 0.0526  -0.1043 -0.0097 734  GLU A CA  \n265  C  C   . GLU A 42  ? 1.1970 1.1660 1.3464 0.0603  -0.1098 -0.0106 734  GLU A C   \n266  O  O   . GLU A 42  ? 1.1585 1.1211 1.3061 0.0661  -0.1124 -0.0124 734  GLU A O   \n267  C  CB  . GLU A 42  ? 1.3563 1.3120 1.4768 0.0446  -0.1111 -0.0076 734  GLU A CB  \n268  C  CG  . GLU A 42  ? 1.5131 1.4771 1.6415 0.0403  -0.1102 -0.0060 734  GLU A CG  \n269  C  CD  . GLU A 42  ? 1.7189 1.6734 1.8304 0.0316  -0.1126 -0.0044 734  GLU A CD  \n270  O  OE1 . GLU A 42  ? 1.6803 1.6203 1.7788 0.0290  -0.1208 -0.0037 734  GLU A OE1 \n271  O  OE2 . GLU A 42  ? 1.6609 1.6224 1.7719 0.0273  -0.1061 -0.0038 734  GLU A OE2 \n272  N  N   . GLY A 43  ? 0.9273 0.9058 1.0924 0.0604  -0.1116 -0.0096 735  GLY A N   \n273  C  CA  . GLY A 43  ? 1.2413 1.2231 1.4229 0.0671  -0.1178 -0.0102 735  GLY A CA  \n274  C  C   . GLY A 43  ? 1.1310 1.1278 1.3312 0.0750  -0.1099 -0.0120 735  GLY A C   \n275  O  O   . GLY A 43  ? 1.0334 1.0323 1.2459 0.0823  -0.1135 -0.0134 735  GLY A O   \n276  N  N   . GLU A 44  ? 1.0028 1.0097 1.2045 0.0734  -0.0990 -0.0121 736  GLU A N   \n277  C  CA  . GLU A 44  ? 0.9093 0.9317 1.1285 0.0795  -0.0901 -0.0134 736  GLU A CA  \n278  C  C   . GLU A 44  ? 0.9792 0.9973 1.1934 0.0864  -0.0861 -0.0162 736  GLU A C   \n279  O  O   . GLU A 44  ? 0.9644 0.9675 1.1617 0.0861  -0.0908 -0.0170 736  GLU A O   \n280  C  CB  . GLU A 44  ? 0.9439 0.9772 1.1652 0.0745  -0.0808 -0.0121 736  GLU A CB  \n281  C  CG  . GLU A 44  ? 0.8991 0.9310 1.1169 0.0664  -0.0852 -0.0095 736  GLU A CG  \n282  C  CD  . GLU A 44  ? 1.0263 1.0690 1.2476 0.0620  -0.0768 -0.0083 736  GLU A CD  \n283  O  OE1 . GLU A 44  ? 0.9260 0.9636 1.1353 0.0550  -0.0774 -0.0070 736  GLU A OE1 \n284  O  OE2 . GLU A 44  ? 1.1291 1.1851 1.3650 0.0654  -0.0695 -0.0087 736  GLU A OE2 \n285  N  N   . LYS A 45  ? 0.8575 0.8882 1.0857 0.0924  -0.0776 -0.0177 737  LYS A N   \n286  C  CA  . LYS A 45  ? 1.0232 1.0497 1.2471 0.0998  -0.0737 -0.0207 737  LYS A CA  \n287  C  C   . LYS A 45  ? 1.1394 1.1733 1.3618 0.1003  -0.0610 -0.0216 737  LYS A C   \n288  O  O   . LYS A 45  ? 1.2995 1.3415 1.5326 0.1074  -0.0543 -0.0236 737  LYS A O   \n289  C  CB  . LYS A 45  ? 1.2102 1.2412 1.4514 0.1091  -0.0770 -0.0226 737  LYS A CB  \n290  C  CG  . LYS A 45  ? 1.3034 1.3224 1.5417 0.1099  -0.0906 -0.0223 737  LYS A CG  \n291  C  CD  . LYS A 45  ? 1.4089 1.4304 1.6623 0.1205  -0.0938 -0.0249 737  LYS A CD  \n292  C  CE  . LYS A 45  ? 1.4770 1.4851 1.7159 0.1267  -0.0934 -0.0280 737  LYS A CE  \n293  N  NZ  . LYS A 45  ? 1.4929 1.5040 1.7476 0.1378  -0.0964 -0.0308 737  LYS A NZ  \n294  N  N   . VAL A 46  ? 0.9539 0.9849 1.1628 0.0928  -0.0578 -0.0201 738  VAL A N   \n295  C  CA  . VAL A 46  ? 0.8091 0.8451 1.0140 0.0922  -0.0468 -0.0207 738  VAL A CA  \n296  C  C   . VAL A 46  ? 0.7822 0.8057 0.9646 0.0868  -0.0466 -0.0204 738  VAL A C   \n297  O  O   . VAL A 46  ? 0.5589 0.5726 0.7300 0.0814  -0.0537 -0.0191 738  VAL A O   \n298  C  CB  . VAL A 46  ? 0.8603 0.9119 1.0784 0.0884  -0.0403 -0.0188 738  VAL A CB  \n299  C  CG1 . VAL A 46  ? 0.9984 1.0644 1.2397 0.0942  -0.0378 -0.0193 738  VAL A CG1 \n300  C  CG2 . VAL A 46  ? 0.7309 0.7814 0.9458 0.0800  -0.0457 -0.0161 738  VAL A CG2 \n301  N  N   . LYS A 47  ? 0.6855 0.7094 0.8618 0.0882  -0.0382 -0.0216 739  LYS A N   \n302  C  CA  . LYS A 47  ? 0.7141 0.7284 0.8714 0.0831  -0.0369 -0.0211 739  LYS A CA  \n303  C  C   . LYS A 47  ? 0.5750 0.5997 0.7355 0.0789  -0.0285 -0.0199 739  LYS A C   \n304  O  O   . LYS A 47  ? 0.5541 0.5880 0.7239 0.0827  -0.0208 -0.0208 739  LYS A O   \n305  C  CB  . LYS A 47  ? 0.6464 0.6502 0.7920 0.0884  -0.0352 -0.0236 739  LYS A CB  \n306  C  CG  . LYS A 47  ? 0.8120 0.8031 0.9515 0.0926  -0.0439 -0.0249 739  LYS A CG  \n307  C  CD  . LYS A 47  ? 0.8257 0.8089 0.9573 0.0996  -0.0407 -0.0278 739  LYS A CD  \n308  C  CE  . LYS A 47  ? 0.8535 0.8206 0.9739 0.1026  -0.0498 -0.0290 739  LYS A CE  \n309  N  NZ  . LYS A 47  ? 0.7836 0.7417 0.8942 0.1091  -0.0464 -0.0319 739  LYS A NZ  \n310  N  N   . ILE A 48  ? 0.6242 0.6472 0.7771 0.0711  -0.0299 -0.0179 740  ILE A N   \n311  C  CA  . ILE A 48  ? 0.4873 0.5194 0.6429 0.0670  -0.0229 -0.0167 740  ILE A CA  \n312  C  C   . ILE A 48  ? 0.4382 0.4622 0.5770 0.0627  -0.0210 -0.0165 740  ILE A C   \n313  O  O   . ILE A 48  ? 0.4231 0.4389 0.5512 0.0581  -0.0264 -0.0156 740  ILE A O   \n314  C  CB  . ILE A 48  ? 0.5364 0.5760 0.7005 0.0616  -0.0255 -0.0145 740  ILE A CB  \n315  C  CG1 . ILE A 48  ? 0.4896 0.5371 0.6711 0.0655  -0.0282 -0.0144 740  ILE A CG1 \n316  C  CG2 . ILE A 48  ? 0.4709 0.5188 0.6372 0.0575  -0.0187 -0.0134 740  ILE A CG2 \n317  C  CD1 . ILE A 48  ? 0.5101 0.5589 0.6957 0.0605  -0.0348 -0.0124 740  ILE A CD1 \n318  N  N   . PRO A 49  ? 0.4620 0.4882 0.5985 0.0642  -0.0135 -0.0173 741  PRO A N   \n319  C  CA  . PRO A 49  ? 0.4508 0.4699 0.5724 0.0601  -0.0119 -0.0169 741  PRO A CA  \n320  C  C   . PRO A 49  ? 0.4429 0.4656 0.5636 0.0525  -0.0129 -0.0148 741  PRO A C   \n321  O  O   . PRO A 49  ? 0.4329 0.4659 0.5639 0.0508  -0.0097 -0.0138 741  PRO A O   \n322  C  CB  . PRO A 49  ? 0.4452 0.4677 0.5675 0.0633  -0.0035 -0.0179 741  PRO A CB  \n323  C  CG  . PRO A 49  ? 0.4767 0.5061 0.6123 0.0703  -0.0007 -0.0193 741  PRO A CG  \n324  C  CD  . PRO A 49  ? 0.4725 0.5084 0.6204 0.0690  -0.0059 -0.0182 741  PRO A CD  \n325  N  N   . VAL A 50  ? 0.4513 0.4652 0.5597 0.0480  -0.0172 -0.0141 742  VAL A N   \n326  C  CA  . VAL A 50  ? 0.4420 0.4583 0.5484 0.0411  -0.0184 -0.0124 742  VAL A CA  \n327  C  C   . VAL A 50  ? 0.4083 0.4179 0.5016 0.0373  -0.0178 -0.0121 742  VAL A C   \n328  O  O   . VAL A 50  ? 0.4027 0.4032 0.4862 0.0391  -0.0190 -0.0129 742  VAL A O   \n329  C  CB  . VAL A 50  ? 0.4323 0.4458 0.5388 0.0383  -0.0254 -0.0116 742  VAL A CB  \n330  C  CG1 . VAL A 50  ? 0.4662 0.4876 0.5870 0.0410  -0.0263 -0.0115 742  VAL A CG1 \n331  C  CG2 . VAL A 50  ? 0.4472 0.4481 0.5425 0.0390  -0.0314 -0.0120 742  VAL A CG2 \n332  N  N   . ALA A 51  ? 0.3559 0.3703 0.4495 0.0322  -0.0161 -0.0109 743  ALA A N   \n333  C  CA  . ALA A 51  ? 0.3627 0.3718 0.4456 0.0275  -0.0169 -0.0102 743  ALA A CA  \n334  C  C   . ALA A 51  ? 0.3415 0.3486 0.4217 0.0227  -0.0219 -0.0092 743  ALA A C   \n335  O  O   . ALA A 51  ? 0.3424 0.3548 0.4298 0.0218  -0.0229 -0.0088 743  ALA A O   \n336  C  CB  . ALA A 51  ? 0.3176 0.3334 0.4030 0.0252  -0.0120 -0.0098 743  ALA A CB  \n337  N  N   . ILE A 52  ? 0.3550 0.3537 0.4241 0.0195  -0.0252 -0.0087 744  ILE A N   \n338  C  CA  . ILE A 52  ? 0.3208 0.3162 0.3852 0.0146  -0.0296 -0.0077 744  ILE A CA  \n339  C  C   . ILE A 52  ? 0.3993 0.3946 0.4576 0.0089  -0.0285 -0.0067 744  ILE A C   \n340  O  O   . ILE A 52  ? 0.3874 0.3772 0.4385 0.0086  -0.0287 -0.0066 744  ILE A O   \n341  C  CB  . ILE A 52  ? 0.3975 0.3817 0.4537 0.0157  -0.0355 -0.0078 744  ILE A CB  \n342  C  CG1 . ILE A 52  ? 0.4130 0.3977 0.4766 0.0219  -0.0369 -0.0089 744  ILE A CG1 \n343  C  CG2 . ILE A 52  ? 0.4103 0.3898 0.4598 0.0098  -0.0399 -0.0065 744  ILE A CG2 \n344  C  CD1 . ILE A 52  ? 0.5386 0.5119 0.5948 0.0249  -0.0422 -0.0096 744  ILE A CD1 \n345  N  N   . LYS A 53  ? 0.3721 0.3735 0.4336 0.0048  -0.0272 -0.0060 745  LYS A N   \n346  C  CA  . LYS A 53  ? 0.3851 0.3878 0.4425 -0.0005 -0.0259 -0.0052 745  LYS A CA  \n347  C  C   . LYS A 53  ? 0.4788 0.4769 0.5293 -0.0056 -0.0295 -0.0042 745  LYS A C   \n348  O  O   . LYS A 53  ? 0.4724 0.4724 0.5253 -0.0068 -0.0302 -0.0042 745  LYS A O   \n349  C  CB  . LYS A 53  ? 0.3374 0.3504 0.4031 -0.0012 -0.0212 -0.0054 745  LYS A CB  \n350  C  CG  . LYS A 53  ? 0.3772 0.3928 0.4406 -0.0058 -0.0196 -0.0047 745  LYS A CG  \n351  C  CD  . LYS A 53  ? 0.3706 0.3945 0.4416 -0.0046 -0.0153 -0.0052 745  LYS A CD  \n352  C  CE  . LYS A 53  ? 0.4141 0.4407 0.4840 -0.0085 -0.0141 -0.0047 745  LYS A CE  \n353  N  NZ  . LYS A 53  ? 0.4602 0.4932 0.5365 -0.0069 -0.0107 -0.0052 745  LYS A NZ  \n354  N  N   . GLU A 54  ? 0.4315 0.4227 0.4729 -0.0089 -0.0318 -0.0033 746  GLU A N   \n355  C  CA  . GLU A 54  ? 0.4188 0.4055 0.4525 -0.0149 -0.0345 -0.0020 746  GLU A CA  \n356  C  C   . GLU A 54  ? 0.5190 0.5125 0.5540 -0.0199 -0.0310 -0.0014 746  GLU A C   \n357  O  O   . GLU A 54  ? 0.5046 0.4993 0.5396 -0.0204 -0.0298 -0.0010 746  GLU A O   \n358  C  CB  . GLU A 54  ? 0.4863 0.4613 0.5092 -0.0159 -0.0395 -0.0012 746  GLU A CB  \n359  C  CG  . GLU A 54  ? 0.5544 0.5226 0.5684 -0.0215 -0.0433 0.0000  746  GLU A CG  \n360  C  CD  . GLU A 54  ? 0.7303 0.6852 0.7338 -0.0210 -0.0494 0.0005  746  GLU A CD  \n361  O  OE1 . GLU A 54  ? 0.7859 0.7363 0.7852 -0.0204 -0.0505 0.0007  746  GLU A OE1 \n362  O  OE2 . GLU A 54  ? 0.7327 0.6809 0.7318 -0.0211 -0.0537 0.0006  746  GLU A OE2 \n363  N  N   . LEU A 55  ? 0.5468 0.5442 0.5829 -0.0234 -0.0295 -0.0012 747  LEU A N   \n364  C  CA  . LEU A 55  ? 0.6078 0.6135 0.6476 -0.0269 -0.0253 -0.0010 747  LEU A CA  \n365  C  C   . LEU A 55  ? 0.7493 0.7523 0.7821 -0.0331 -0.0262 0.0004  747  LEU A C   \n366  O  O   . LEU A 55  ? 0.6291 0.6230 0.6528 -0.0357 -0.0302 0.0015  747  LEU A O   \n367  C  CB  . LEU A 55  ? 0.5203 0.5318 0.5645 -0.0275 -0.0226 -0.0018 747  LEU A CB  \n368  C  CG  . LEU A 55  ? 0.5849 0.5998 0.6365 -0.0224 -0.0220 -0.0031 747  LEU A CG  \n369  C  CD1 . LEU A 55  ? 0.6954 0.7155 0.7500 -0.0239 -0.0193 -0.0038 747  LEU A CD1 \n370  C  CD2 . LEU A 55  ? 0.5867 0.6064 0.6457 -0.0178 -0.0198 -0.0037 747  LEU A CD2 \n371  N  N   . ARG A 56  ? 0.8219 0.8329 0.8596 -0.0355 -0.0226 0.0006  748  ARG A N   \n372  C  CA  . ARG A 56  ? 1.1080 1.1195 1.1418 -0.0420 -0.0223 0.0021  748  ARG A CA  \n373  C  C   . ARG A 56  ? 1.0388 1.0509 1.0694 -0.0460 -0.0206 0.0021  748  ARG A C   \n374  O  O   . ARG A 56  ? 0.7229 0.7402 0.7583 -0.0440 -0.0176 0.0007  748  ARG A O   \n375  C  CB  . ARG A 56  ? 1.1845 1.2057 1.2267 -0.0428 -0.0188 0.0020  748  ARG A CB  \n376  C  CG  . ARG A 56  ? 1.3936 1.4149 1.4396 -0.0384 -0.0196 0.0017  748  ARG A CG  \n377  C  CD  . ARG A 56  ? 1.4596 1.4761 1.5009 -0.0413 -0.0228 0.0034  748  ARG A CD  \n378  N  NE  . ARG A 56  ? 1.5199 1.5339 1.5623 -0.0368 -0.0241 0.0030  748  ARG A NE  \n379  C  CZ  . ARG A 56  ? 1.5598 1.5723 1.6013 -0.0384 -0.0260 0.0041  748  ARG A CZ  \n380  N  NH1 . ARG A 56  ? 1.4878 1.4968 1.5289 -0.0341 -0.0269 0.0035  748  ARG A NH1 \n381  N  NH2 . ARG A 56  ? 1.5250 1.5393 1.5659 -0.0444 -0.0269 0.0059  748  ARG A NH2 \n382  N  N   . GLU A 57  ? 1.2379 1.2438 1.2593 -0.0517 -0.0227 0.0038  749  GLU A N   \n383  C  CA  . GLU A 57  ? 1.3739 1.3784 1.3896 -0.0563 -0.0212 0.0041  749  GLU A CA  \n384  C  C   . GLU A 57  ? 1.4962 1.5115 1.5174 -0.0600 -0.0151 0.0039  749  GLU A C   \n385  O  O   . GLU A 57  ? 1.6001 1.6236 1.6296 -0.0596 -0.0129 0.0039  749  GLU A O   \n386  C  CB  . GLU A 57  ? 1.3684 1.3614 1.3712 -0.0615 -0.0258 0.0061  749  GLU A CB  \n387  C  CG  . GLU A 57  ? 1.5587 1.5401 1.5553 -0.0577 -0.0322 0.0061  749  GLU A CG  \n388  C  CD  . GLU A 57  ? 1.6847 1.6535 1.6677 -0.0629 -0.0374 0.0082  749  GLU A CD  \n389  O  OE1 . GLU A 57  ? 1.6527 1.6217 1.6305 -0.0700 -0.0358 0.0098  749  GLU A OE1 \n390  O  OE2 . GLU A 57  ? 1.8156 1.7743 1.7932 -0.0598 -0.0431 0.0082  749  GLU A OE2 \n391  N  N   . ALA A 58  ? 1.4459 1.4609 1.4624 -0.0635 -0.0126 0.0037  750  ALA A N   \n392  C  CA  . ALA A 58  ? 1.4919 1.5165 1.5125 -0.0672 -0.0063 0.0033  750  ALA A CA  \n393  C  C   . ALA A 58  ? 1.5944 1.6135 1.6037 -0.0748 -0.0056 0.0049  750  ALA A C   \n394  O  O   . ALA A 58  ? 1.7984 1.8057 1.7963 -0.0764 -0.0100 0.0058  750  ALA A O   \n395  C  CB  . ALA A 58  ? 1.3958 1.4268 1.4228 -0.0632 -0.0021 0.0008  750  ALA A CB  \n396  N  N   . THR A 59  ? 1.5547 1.5824 1.5674 -0.0794 -0.0001 0.0053  751  THR A N   \n397  C  CA  . THR A 59  ? 1.5666 1.5906 1.5692 -0.0871 0.0018  0.0068  751  THR A CA  \n398  C  C   . THR A 59  ? 1.5758 1.5949 1.5705 -0.0869 0.0040  0.0053  751  THR A C   \n399  O  O   . THR A 59  ? 1.4822 1.4902 1.4632 -0.0914 0.0017  0.0065  751  THR A O   \n400  C  CB  . THR A 59  ? 1.4814 1.5178 1.4915 -0.0918 0.0081  0.0075  751  THR A CB  \n401  O  OG1 . THR A 59  ? 1.2875 1.3301 1.3077 -0.0907 0.0061  0.0084  751  THR A OG1 \n402  C  CG2 . THR A 59  ? 1.2617 1.2932 1.2605 -0.1009 0.0093  0.0099  751  THR A CG2 \n403  N  N   . SER A 60  ? 1.5251 1.5517 1.5280 -0.0818 0.0080  0.0026  752  SER A N   \n404  C  CA  . SER A 60  ? 1.7078 1.7293 1.7041 -0.0805 0.0093  0.0009  752  SER A CA  \n405  C  C   . SER A 60  ? 1.6285 1.6482 1.6299 -0.0729 0.0055  -0.0006 752  SER A C   \n406  O  O   . SER A 60  ? 1.5703 1.5985 1.5817 -0.0682 0.0087  -0.0027 752  SER A O   \n407  C  CB  . SER A 60  ? 1.6547 1.6855 1.6546 -0.0816 0.0178  -0.0009 752  SER A CB  \n408  O  OG  . SER A 60  ? 1.5039 1.5285 1.4960 -0.0802 0.0188  -0.0027 752  SER A OG  \n409  N  N   . PRO A 61  ? 1.5006 1.5094 1.4955 -0.0716 -0.0015 0.0003  753  PRO A N   \n410  C  CA  . PRO A 61  ? 1.3478 1.3554 1.3483 -0.0648 -0.0052 -0.0008 753  PRO A CA  \n411  C  C   . PRO A 61  ? 1.2333 1.2375 1.2304 -0.0631 -0.0046 -0.0024 753  PRO A C   \n412  O  O   . PRO A 61  ? 1.1256 1.1245 1.1123 -0.0674 -0.0028 -0.0024 753  PRO A O   \n413  C  CB  . PRO A 61  ? 1.3646 1.3613 1.3586 -0.0646 -0.0127 0.0008  753  PRO A CB  \n414  C  CG  . PRO A 61  ? 1.3697 1.3608 1.3534 -0.0718 -0.0134 0.0030  753  PRO A CG  \n415  C  CD  . PRO A 61  ? 1.3088 1.3053 1.2904 -0.0766 -0.0064 0.0026  753  PRO A CD  \n416  N  N   . LYS A 62  ? 1.1578 1.1646 1.1629 -0.0570 -0.0062 -0.0037 754  LYS A N   \n417  C  CA  . LYS A 62  ? 0.9913 0.9940 0.9936 -0.0551 -0.0070 -0.0051 754  LYS A CA  \n418  C  C   . LYS A 62  ? 0.9257 0.9148 0.9173 -0.0563 -0.0140 -0.0038 754  LYS A C   \n419  O  O   . LYS A 62  ? 0.9143 0.8987 0.9044 -0.0563 -0.0188 -0.0023 754  LYS A O   \n420  C  CB  . LYS A 62  ? 0.8340 0.8438 0.8488 -0.0487 -0.0069 -0.0065 754  LYS A CB  \n421  C  CG  . LYS A 62  ? 0.8269 0.8487 0.8513 -0.0471 -0.0005 -0.0079 754  LYS A CG  \n422  C  CD  . LYS A 62  ? 0.8297 0.8571 0.8652 -0.0412 -0.0010 -0.0091 754  LYS A CD  \n423  C  CE  . LYS A 62  ? 0.8751 0.9132 0.9194 -0.0396 0.0045  -0.0106 754  LYS A CE  \n424  N  NZ  . LYS A 62  ? 0.8804 0.9229 0.9343 -0.0343 0.0038  -0.0116 754  LYS A NZ  \n425  N  N   . ALA A 63  ? 0.8671 0.8494 0.8510 -0.0573 -0.0150 -0.0045 755  ALA A N   \n426  C  CA  . ALA A 63  ? 0.8306 0.7997 0.8051 -0.0580 -0.0224 -0.0034 755  ALA A CA  \n427  C  C   . ALA A 63  ? 0.7631 0.7333 0.7477 -0.0520 -0.0279 -0.0033 755  ALA A C   \n428  O  O   . ALA A 63  ? 0.6261 0.6060 0.6231 -0.0475 -0.0255 -0.0044 755  ALA A O   \n429  C  CB  . ALA A 63  ? 0.8198 0.7814 0.7843 -0.0600 -0.0223 -0.0043 755  ALA A CB  \n430  N  N   . ASN A 64  ? 0.7207 0.6810 0.7001 -0.0520 -0.0351 -0.0020 756  ASN A N   \n431  C  CA  . ASN A 64  ? 0.7466 0.7080 0.7358 -0.0462 -0.0402 -0.0020 756  ASN A CA  \n432  C  C   . ASN A 64  ? 0.6435 0.6089 0.6407 -0.0426 -0.0403 -0.0031 756  ASN A C   \n433  O  O   . ASN A 64  ? 0.6698 0.6435 0.6800 -0.0376 -0.0398 -0.0036 756  ASN A O   \n434  C  CB  . ASN A 64  ? 0.7970 0.7460 0.7785 -0.0468 -0.0485 -0.0006 756  ASN A CB  \n435  C  CG  . ASN A 64  ? 0.8562 0.8025 0.8338 -0.0484 -0.0495 0.0004  756  ASN A CG  \n436  O  OD1 . ASN A 64  ? 0.8723 0.8078 0.8422 -0.0494 -0.0560 0.0016  756  ASN A OD1 \n437  N  ND2 . ASN A 64  ? 0.8060 0.7616 0.7890 -0.0486 -0.0436 0.0002  756  ASN A ND2 \n438  N  N   . LYS A 65  ? 0.6292 0.5884 0.6180 -0.0452 -0.0409 -0.0035 757  LYS A N   \n439  C  CA  . LYS A 65  ? 0.6983 0.6592 0.6930 -0.0423 -0.0421 -0.0043 757  LYS A CA  \n440  C  C   . LYS A 65  ? 0.6684 0.6420 0.6741 -0.0396 -0.0354 -0.0058 757  LYS A C   \n441  O  O   . LYS A 65  ? 0.4950 0.4735 0.5108 -0.0357 -0.0365 -0.0061 757  LYS A O   \n442  C  CB  . LYS A 65  ? 0.7462 0.6956 0.7275 -0.0459 -0.0449 -0.0044 757  LYS A CB  \n443  C  CG  . LYS A 65  ? 0.8235 0.7718 0.7942 -0.0503 -0.0382 -0.0054 757  LYS A CG  \n444  C  CD  . LYS A 65  ? 0.8875 0.8232 0.8441 -0.0535 -0.0411 -0.0056 757  LYS A CD  \n445  C  CE  . LYS A 65  ? 1.0394 0.9751 0.9864 -0.0571 -0.0333 -0.0070 757  LYS A CE  \n446  N  NZ  . LYS A 65  ? 1.2974 1.2194 1.2288 -0.0602 -0.0360 -0.0074 757  LYS A NZ  \n447  N  N   . GLU A 66  ? 0.5339 0.5129 0.5379 -0.0417 -0.0287 -0.0065 758  GLU A N   \n448  C  CA  . GLU A 66  ? 0.5727 0.5636 0.5871 -0.0390 -0.0226 -0.0079 758  GLU A CA  \n449  C  C   . GLU A 66  ? 0.5628 0.5620 0.5901 -0.0348 -0.0227 -0.0075 758  GLU A C   \n450  O  O   . GLU A 66  ? 0.5319 0.5383 0.5696 -0.0311 -0.0213 -0.0082 758  GLU A O   \n451  C  CB  . GLU A 66  ? 0.7101 0.7046 0.7198 -0.0424 -0.0158 -0.0087 758  GLU A CB  \n452  C  CG  . GLU A 66  ? 0.9416 0.9464 0.9599 -0.0399 -0.0098 -0.0106 758  GLU A CG  \n453  C  CD  . GLU A 66  ? 1.1205 1.1299 1.1358 -0.0430 -0.0030 -0.0115 758  GLU A CD  \n454  O  OE1 . GLU A 66  ? 1.3700 1.3894 1.3945 -0.0408 0.0015  -0.0126 758  GLU A OE1 \n455  O  OE2 . GLU A 66  ? 1.0307 1.0336 1.0344 -0.0478 -0.0022 -0.0110 758  GLU A OE2 \n456  N  N   . ILE A 67  ? 0.4829 0.4803 0.5086 -0.0357 -0.0244 -0.0063 759  ILE A N   \n457  C  CA  . ILE A 67  ? 0.4997 0.5022 0.5350 -0.0318 -0.0254 -0.0058 759  ILE A CA  \n458  C  C   . ILE A 67  ? 0.4590 0.4609 0.5016 -0.0275 -0.0299 -0.0056 759  ILE A C   \n459  O  O   . ILE A 67  ? 0.4433 0.4528 0.4968 -0.0236 -0.0284 -0.0059 759  ILE A O   \n460  C  CB  . ILE A 67  ? 0.5400 0.5374 0.5694 -0.0337 -0.0276 -0.0046 759  ILE A CB  \n461  C  CG1 . ILE A 67  ? 0.5931 0.5944 0.6195 -0.0374 -0.0225 -0.0046 759  ILE A CG1 \n462  C  CG2 . ILE A 67  ? 0.5420 0.5415 0.5793 -0.0291 -0.0301 -0.0042 759  ILE A CG2 \n463  C  CD1 . ILE A 67  ? 0.5535 0.5491 0.5725 -0.0405 -0.0247 -0.0031 759  ILE A CD1 \n464  N  N   . LEU A 68  ? 0.4029 0.3958 0.4394 -0.0286 -0.0355 -0.0049 760  LEU A N   \n465  C  CA  . LEU A 68  ? 0.5517 0.5445 0.5960 -0.0249 -0.0403 -0.0046 760  LEU A CA  \n466  C  C   . LEU A 68  ? 0.5372 0.5366 0.5894 -0.0232 -0.0379 -0.0054 760  LEU A C   \n467  O  O   . LEU A 68  ? 0.4592 0.4645 0.5228 -0.0194 -0.0385 -0.0052 760  LEU A O   \n468  C  CB  . LEU A 68  ? 0.4702 0.4514 0.5062 -0.0267 -0.0475 -0.0037 760  LEU A CB  \n469  C  CG  . LEU A 68  ? 0.5156 0.4901 0.5461 -0.0271 -0.0512 -0.0028 760  LEU A CG  \n470  C  CD1 . LEU A 68  ? 0.6034 0.5646 0.6229 -0.0298 -0.0585 -0.0019 760  LEU A CD1 \n471  C  CD2 . LEU A 68  ? 0.4923 0.4723 0.5345 -0.0217 -0.0522 -0.0027 760  LEU A CD2 \n472  N  N   . ASP A 69  ? 0.4570 0.4554 0.5030 -0.0260 -0.0349 -0.0062 761  ASP A N   \n473  C  CA  . ASP A 69  ? 0.4783 0.4811 0.5297 -0.0247 -0.0330 -0.0071 761  ASP A CA  \n474  C  C   . ASP A 69  ? 0.5570 0.5711 0.6197 -0.0215 -0.0281 -0.0077 761  ASP A C   \n475  O  O   . ASP A 69  ? 0.4906 0.5092 0.5622 -0.0190 -0.0286 -0.0076 761  ASP A O   \n476  C  CB  . ASP A 69  ? 0.5471 0.5453 0.5877 -0.0281 -0.0306 -0.0082 761  ASP A CB  \n477  C  CG  . ASP A 69  ? 0.7236 0.7246 0.7681 -0.0267 -0.0292 -0.0093 761  ASP A CG  \n478  O  OD1 . ASP A 69  ? 0.6087 0.6131 0.6515 -0.0272 -0.0237 -0.0108 761  ASP A OD1 \n479  O  OD2 . ASP A 69  ? 0.5894 0.5891 0.6389 -0.0252 -0.0337 -0.0086 761  ASP A OD2 \n480  N  N   . GLU A 70  ? 0.4300 0.4482 0.4922 -0.0220 -0.0237 -0.0081 762  GLU A N   \n481  C  CA  . GLU A 70  ? 0.4078 0.4352 0.4794 -0.0193 -0.0196 -0.0085 762  GLU A CA  \n482  C  C   . GLU A 70  ? 0.3738 0.4039 0.4536 -0.0159 -0.0216 -0.0075 762  GLU A C   \n483  O  O   . GLU A 70  ? 0.4230 0.4594 0.5119 -0.0131 -0.0200 -0.0076 762  GLU A O   \n484  C  CB  . GLU A 70  ? 0.4732 0.5038 0.5419 -0.0211 -0.0150 -0.0091 762  GLU A CB  \n485  C  CG  . GLU A 70  ? 0.5558 0.5852 0.6178 -0.0240 -0.0120 -0.0103 762  GLU A CG  \n486  C  CD  . GLU A 70  ? 0.8193 0.8552 0.8829 -0.0248 -0.0066 -0.0112 762  GLU A CD  \n487  O  OE1 . GLU A 70  ? 0.7418 0.7770 0.7997 -0.0273 -0.0036 -0.0123 762  GLU A OE1 \n488  O  OE2 . GLU A 70  ? 0.7233 0.7650 0.7939 -0.0229 -0.0053 -0.0109 762  GLU A OE2 \n489  N  N   . ALA A 71  ? 0.3592 0.3840 0.4355 -0.0161 -0.0252 -0.0067 763  ALA A N   \n490  C  CA  . ALA A 71  ? 0.3449 0.3718 0.4286 -0.0124 -0.0268 -0.0060 763  ALA A CA  \n491  C  C   . ALA A 71  ? 0.3643 0.3934 0.4565 -0.0100 -0.0294 -0.0056 763  ALA A C   \n492  O  O   . ALA A 71  ? 0.3616 0.3962 0.4631 -0.0066 -0.0284 -0.0054 763  ALA A O   \n493  C  CB  . ALA A 71  ? 0.3676 0.3874 0.4452 -0.0128 -0.0307 -0.0054 763  ALA A CB  \n494  N  N   . TYR A 72  ? 0.3293 0.3539 0.4182 -0.0120 -0.0327 -0.0055 764  TYR A N   \n495  C  CA  . TYR A 72  ? 0.3366 0.3628 0.4338 -0.0102 -0.0361 -0.0047 764  TYR A CA  \n496  C  C   . TYR A 72  ? 0.3166 0.3516 0.4230 -0.0085 -0.0319 -0.0050 764  TYR A C   \n497  O  O   . TYR A 72  ? 0.3194 0.3593 0.4360 -0.0060 -0.0326 -0.0042 764  TYR A O   \n498  C  CB  . TYR A 72  ? 0.3550 0.3738 0.4455 -0.0131 -0.0405 -0.0045 764  TYR A CB  \n499  C  CG  . TYR A 72  ? 0.3434 0.3637 0.4428 -0.0118 -0.0448 -0.0035 764  TYR A CG  \n500  C  CD1 . TYR A 72  ? 0.3371 0.3606 0.4401 -0.0123 -0.0435 -0.0036 764  TYR A CD1 \n501  C  CD2 . TYR A 72  ? 0.3529 0.3714 0.4575 -0.0101 -0.0503 -0.0024 764  TYR A CD2 \n502  C  CE1 . TYR A 72  ? 0.4169 0.4418 0.5284 -0.0116 -0.0477 -0.0024 764  TYR A CE1 \n503  C  CE2 . TYR A 72  ? 0.3858 0.4066 0.5001 -0.0091 -0.0544 -0.0012 764  TYR A CE2 \n504  C  CZ  . TYR A 72  ? 0.3495 0.3736 0.4671 -0.0101 -0.0531 -0.0011 764  TYR A CZ  \n505  O  OH  . TYR A 72  ? 0.4096 0.4360 0.5370 -0.0097 -0.0575 0.0002  764  TYR A OH  \n506  N  N   . VAL A 73  ? 0.3378 0.3749 0.4407 -0.0098 -0.0275 -0.0060 765  VAL A N   \n507  C  CA  . VAL A 73  ? 0.3283 0.3725 0.4388 -0.0084 -0.0240 -0.0062 765  VAL A CA  \n508  C  C   . VAL A 73  ? 0.3048 0.3548 0.4224 -0.0055 -0.0212 -0.0059 765  VAL A C   \n509  O  O   . VAL A 73  ? 0.2999 0.3554 0.4260 -0.0037 -0.0199 -0.0053 765  VAL A O   \n510  C  CB  . VAL A 73  ? 0.3849 0.4298 0.4902 -0.0100 -0.0200 -0.0076 765  VAL A CB  \n511  C  CG1 . VAL A 73  ? 0.4236 0.4747 0.5362 -0.0084 -0.0173 -0.0078 765  VAL A CG1 \n512  C  CG2 . VAL A 73  ? 0.4496 0.4878 0.5462 -0.0127 -0.0221 -0.0083 765  VAL A CG2 \n513  N  N   . MET A 74  ? 0.2829 0.3312 0.3963 -0.0052 -0.0204 -0.0061 766  MET A N   \n514  C  CA  . MET A 74  ? 0.2877 0.3399 0.4058 -0.0024 -0.0179 -0.0059 766  MET A CA  \n515  C  C   . MET A 74  ? 0.3467 0.4001 0.4724 0.0004  -0.0202 -0.0051 766  MET A C   \n516  O  O   . MET A 74  ? 0.3738 0.4322 0.5063 0.0031  -0.0176 -0.0048 766  MET A O   \n517  C  CB  . MET A 74  ? 0.3460 0.3948 0.4566 -0.0031 -0.0169 -0.0063 766  MET A CB  \n518  C  CG  . MET A 74  ? 0.4095 0.4587 0.5145 -0.0059 -0.0141 -0.0071 766  MET A CG  \n519  S  SD  . MET A 74  ? 0.4008 0.4444 0.4965 -0.0079 -0.0150 -0.0070 766  MET A SD  \n520  C  CE  . MET A 74  ? 0.3262 0.3728 0.4185 -0.0109 -0.0110 -0.0077 766  MET A CE  \n521  N  N   . ALA A 75  ? 0.2656 0.3147 0.3904 0.0000  -0.0252 -0.0046 767  ALA A N   \n522  C  CA  . ALA A 75  ? 0.2975 0.3484 0.4312 0.0028  -0.0281 -0.0038 767  ALA A CA  \n523  C  C   . ALA A 75  ? 0.3196 0.3760 0.4633 0.0030  -0.0287 -0.0029 767  ALA A C   \n524  O  O   . ALA A 75  ? 0.3746 0.4355 0.5286 0.0056  -0.0296 -0.0021 767  ALA A O   \n525  C  CB  . ALA A 75  ? 0.2950 0.3382 0.4237 0.0022  -0.0341 -0.0035 767  ALA A CB  \n526  N  N   . SER A 76  ? 0.3572 0.4132 0.4980 0.0002  -0.0282 -0.0029 768  SER A N   \n527  C  CA  . SER A 76  ? 0.3946 0.4539 0.5428 -0.0004 -0.0299 -0.0019 768  SER A CA  \n528  C  C   . SER A 76  ? 0.3727 0.4399 0.5288 0.0006  -0.0249 -0.0016 768  SER A C   \n529  O  O   . SER A 76  ? 0.4448 0.5159 0.6088 0.0002  -0.0260 -0.0004 768  SER A O   \n530  C  CB  . SER A 76  ? 0.3198 0.3734 0.4595 -0.0039 -0.0318 -0.0024 768  SER A CB  \n531  O  OG  . SER A 76  ? 0.4849 0.5409 0.6219 -0.0045 -0.0270 -0.0033 768  SER A OG  \n532  N  N   . VAL A 77  ? 0.3042 0.3734 0.4578 0.0018  -0.0200 -0.0024 769  VAL A N   \n533  C  CA  . VAL A 77  ? 0.3247 0.3998 0.4835 0.0024  -0.0155 -0.0021 769  VAL A CA  \n534  C  C   . VAL A 77  ? 0.3687 0.4501 0.5386 0.0048  -0.0140 -0.0009 769  VAL A C   \n535  O  O   . VAL A 77  ? 0.4329 0.5147 0.6052 0.0074  -0.0141 -0.0011 769  VAL A O   \n536  C  CB  . VAL A 77  ? 0.3814 0.4560 0.5338 0.0027  -0.0111 -0.0032 769  VAL A CB  \n537  C  CG1 . VAL A 77  ? 0.3608 0.4310 0.5044 0.0002  -0.0118 -0.0043 769  VAL A CG1 \n538  C  CG2 . VAL A 77  ? 0.4688 0.5418 0.6187 0.0050  -0.0101 -0.0037 769  VAL A CG2 \n539  N  N   . ASP A 78  ? 0.3175 0.4037 0.4942 0.0039  -0.0127 0.0001  770  ASP A N   \n540  C  CA  . ASP A 78  ? 0.4067 0.4999 0.5951 0.0056  -0.0111 0.0015  770  ASP A CA  \n541  C  C   . ASP A 78  ? 0.3131 0.4103 0.5035 0.0047  -0.0064 0.0021  770  ASP A C   \n542  O  O   . ASP A 78  ? 0.3297 0.4285 0.5234 0.0022  -0.0076 0.0033  770  ASP A O   \n543  C  CB  . ASP A 78  ? 0.3660 0.4609 0.5627 0.0044  -0.0164 0.0030  770  ASP A CB  \n544  C  CG  . ASP A 78  ? 0.4215 0.5249 0.6323 0.0062  -0.0148 0.0045  770  ASP A CG  \n545  O  OD1 . ASP A 78  ? 0.4180 0.5248 0.6312 0.0093  -0.0102 0.0039  770  ASP A OD1 \n546  O  OD2 . ASP A 78  ? 0.6700 0.7767 0.8894 0.0044  -0.0181 0.0062  770  ASP A OD2 \n547  N  N   . ASN A 79  ? 0.2585 0.3563 0.4459 0.0066  -0.0014 0.0013  771  ASN A N   \n548  C  CA  . ASN A 79  ? 0.2689 0.3689 0.4561 0.0058  0.0031  0.0018  771  ASN A CA  \n549  C  C   . ASN A 79  ? 0.2652 0.3663 0.4515 0.0088  0.0081  0.0013  771  ASN A C   \n550  O  O   . ASN A 79  ? 0.3167 0.4140 0.4974 0.0109  0.0079  0.0000  771  ASN A O   \n551  C  CB  . ASN A 79  ? 0.3097 0.4047 0.4873 0.0038  0.0027  0.0009  771  ASN A CB  \n552  C  CG  . ASN A 79  ? 0.3228 0.4187 0.4991 0.0029  0.0065  0.0014  771  ASN A CG  \n553  O  OD1 . ASN A 79  ? 0.3208 0.4155 0.4928 0.0043  0.0101  0.0008  771  ASN A OD1 \n554  N  ND2 . ASN A 79  ? 0.3130 0.4101 0.4923 0.0003  0.0054  0.0027  771  ASN A ND2 \n555  N  N   . PRO A 80  ? 0.3693 0.4748 0.5601 0.0089  0.0128  0.0023  772  PRO A N   \n556  C  CA  . PRO A 80  ? 0.3736 0.4796 0.5632 0.0119  0.0180  0.0018  772  PRO A CA  \n557  C  C   . PRO A 80  ? 0.3282 0.4272 0.5054 0.0126  0.0194  0.0003  772  PRO A C   \n558  O  O   . PRO A 80  ? 0.2973 0.3944 0.4712 0.0155  0.0223  -0.0005 772  PRO A O   \n559  C  CB  . PRO A 80  ? 0.4673 0.5783 0.6622 0.0105  0.0226  0.0034  772  PRO A CB  \n560  C  CG  . PRO A 80  ? 0.5154 0.6308 0.7190 0.0075  0.0190  0.0051  772  PRO A CG  \n561  C  CD  . PRO A 80  ? 0.3635 0.4734 0.5611 0.0060  0.0132  0.0043  772  PRO A CD  \n562  N  N   . HIS A 81  ? 0.3168 0.4120 0.4874 0.0100  0.0173  0.0000  773  HIS A N   \n563  C  CA  . HIS A 81  ? 0.3260 0.4151 0.4860 0.0103  0.0182  -0.0011 773  HIS A CA  \n564  C  C   . HIS A 81  ? 0.2991 0.3839 0.4534 0.0100  0.0142  -0.0023 773  HIS A C   \n565  O  O   . HIS A 81  ? 0.3228 0.4035 0.4695 0.0093  0.0140  -0.0031 773  HIS A O   \n566  C  CB  . HIS A 81  ? 0.2993 0.3870 0.4558 0.0080  0.0198  -0.0005 773  HIS A CB  \n567  C  CG  . HIS A 81  ? 0.4032 0.4948 0.5647 0.0075  0.0238  0.0010  773  HIS A CG  \n568  N  ND1 . HIS A 81  ? 0.3713 0.4632 0.5321 0.0096  0.0287  0.0010  773  HIS A ND1 \n569  C  CD2 . HIS A 81  ? 0.4626 0.5579 0.6300 0.0050  0.0236  0.0025  773  HIS A CD2 \n570  C  CE1 . HIS A 81  ? 0.3658 0.4619 0.5319 0.0082  0.0319  0.0026  773  HIS A CE1 \n571  N  NE2 . HIS A 81  ? 0.3285 0.4267 0.4988 0.0053  0.0287  0.0037  773  HIS A NE2 \n572  N  N   . VAL A 82  ? 0.3293 0.4152 0.4873 0.0103  0.0110  -0.0024 774  VAL A N   \n573  C  CA  . VAL A 82  ? 0.3244 0.4062 0.4768 0.0097  0.0074  -0.0034 774  VAL A CA  \n574  C  C   . VAL A 82  ? 0.3232 0.4040 0.4771 0.0121  0.0058  -0.0037 774  VAL A C   \n575  O  O   . VAL A 82  ? 0.3463 0.4307 0.5081 0.0131  0.0048  -0.0030 774  VAL A O   \n576  C  CB  . VAL A 82  ? 0.4008 0.4826 0.5538 0.0070  0.0039  -0.0034 774  VAL A CB  \n577  C  CG1 . VAL A 82  ? 0.2900 0.3672 0.4357 0.0060  0.0013  -0.0044 774  VAL A CG1 \n578  C  CG2 . VAL A 82  ? 0.3588 0.4417 0.5116 0.0051  0.0050  -0.0031 774  VAL A CG2 \n579  N  N   . CYS A 83  ? 0.3192 0.3949 0.4656 0.0130  0.0053  -0.0047 775  CYS A N   \n580  C  CA  . CYS A 83  ? 0.3447 0.4175 0.4903 0.0149  0.0027  -0.0051 775  CYS A CA  \n581  C  C   . CYS A 83  ? 0.3218 0.3934 0.4678 0.0129  -0.0021 -0.0049 775  CYS A C   \n582  O  O   . CYS A 83  ? 0.3820 0.4530 0.5251 0.0098  -0.0033 -0.0049 775  CYS A O   \n583  C  CB  . CYS A 83  ? 0.3039 0.3703 0.4397 0.0154  0.0027  -0.0059 775  CYS A CB  \n584  S  SG  . CYS A 83  ? 0.3937 0.4590 0.5269 0.0183  0.0077  -0.0063 775  CYS A SG  \n585  N  N   . ARG A 84  ? 0.2800 0.3504 0.4288 0.0146  -0.0051 -0.0049 776  ARG A N   \n586  C  CA  . ARG A 84  ? 0.2602 0.3277 0.4076 0.0125  -0.0103 -0.0047 776  ARG A CA  \n587  C  C   . ARG A 84  ? 0.2505 0.3112 0.3915 0.0133  -0.0138 -0.0052 776  ARG A C   \n588  O  O   . ARG A 84  ? 0.2948 0.3540 0.4357 0.0166  -0.0130 -0.0056 776  ARG A O   \n589  C  CB  . ARG A 84  ? 0.3903 0.4623 0.5478 0.0127  -0.0125 -0.0036 776  ARG A CB  \n590  C  CG  . ARG A 84  ? 0.4227 0.4956 0.5870 0.0161  -0.0147 -0.0035 776  ARG A CG  \n591  C  CD  . ARG A 84  ? 0.6046 0.6802 0.7774 0.0151  -0.0191 -0.0023 776  ARG A CD  \n592  N  NE  . ARG A 84  ? 0.5696 0.6437 0.7469 0.0181  -0.0231 -0.0023 776  ARG A NE  \n593  C  CZ  . ARG A 84  ? 0.6357 0.7027 0.8077 0.0171  -0.0293 -0.0024 776  ARG A CZ  \n594  N  NH1 . ARG A 84  ? 0.5065 0.5672 0.6682 0.0130  -0.0318 -0.0024 776  ARG A NH1 \n595  N  NH2 . ARG A 84  ? 0.7123 0.7782 0.8893 0.0203  -0.0332 -0.0025 776  ARG A NH2 \n596  N  N   . LEU A 85  ? 0.3523 0.4081 0.4866 0.0102  -0.0174 -0.0052 777  LEU A N   \n597  C  CA  . LEU A 85  ? 0.4424 0.4906 0.5692 0.0099  -0.0214 -0.0054 777  LEU A CA  \n598  C  C   . LEU A 85  ? 0.4605 0.5081 0.5937 0.0124  -0.0258 -0.0050 777  LEU A C   \n599  O  O   . LEU A 85  ? 0.3983 0.4489 0.5381 0.0117  -0.0278 -0.0043 777  LEU A O   \n600  C  CB  . LEU A 85  ? 0.4243 0.4679 0.5421 0.0053  -0.0233 -0.0054 777  LEU A CB  \n601  C  CG  . LEU A 85  ? 0.4833 0.5186 0.5902 0.0034  -0.0260 -0.0055 777  LEU A CG  \n602  C  CD1 . LEU A 85  ? 0.4002 0.4347 0.5036 0.0047  -0.0231 -0.0059 777  LEU A CD1 \n603  C  CD2 . LEU A 85  ? 0.4528 0.4854 0.5520 -0.0013 -0.0263 -0.0055 777  LEU A CD2 \n604  N  N   . LEU A 86  ? 0.3919 0.4355 0.5237 0.0155  -0.0275 -0.0055 778  LEU A N   \n605  C  CA  . LEU A 86  ? 0.4094 0.4519 0.5474 0.0184  -0.0323 -0.0053 778  LEU A CA  \n606  C  C   . LEU A 86  ? 0.4495 0.4823 0.5785 0.0159  -0.0390 -0.0050 778  LEU A C   \n607  O  O   . LEU A 86  ? 0.5158 0.5470 0.6488 0.0162  -0.0444 -0.0044 778  LEU A O   \n608  C  CB  . LEU A 86  ? 0.3567 0.3996 0.4982 0.0238  -0.0307 -0.0062 778  LEU A CB  \n609  C  CG  . LEU A 86  ? 0.4776 0.5295 0.6286 0.0272  -0.0242 -0.0065 778  LEU A CG  \n610  C  CD1 . LEU A 86  ? 0.4629 0.5123 0.6132 0.0324  -0.0227 -0.0078 778  LEU A CD1 \n611  C  CD2 . LEU A 86  ? 0.6299 0.6907 0.7954 0.0281  -0.0243 -0.0056 778  LEU A CD2 \n612  N  N   . GLY A 87  ? 0.4424 0.4684 0.5588 0.0131  -0.0390 -0.0053 779  GLY A N   \n613  C  CA  . GLY A 87  ? 0.4418 0.4575 0.5480 0.0106  -0.0450 -0.0050 779  GLY A CA  \n614  C  C   . GLY A 87  ? 0.4039 0.4142 0.4970 0.0060  -0.0437 -0.0049 779  GLY A C   \n615  O  O   . GLY A 87  ? 0.4021 0.4163 0.4942 0.0052  -0.0384 -0.0052 779  GLY A O   \n616  N  N   . ILE A 88  ? 0.4339 0.4348 0.5170 0.0027  -0.0487 -0.0044 780  ILE A N   \n617  C  CA  . ILE A 88  ? 0.3940 0.3896 0.4647 -0.0022 -0.0478 -0.0041 780  ILE A CA  \n618  C  C   . ILE A 88  ? 0.4611 0.4446 0.5213 -0.0038 -0.0544 -0.0035 780  ILE A C   \n619  O  O   . ILE A 88  ? 0.4409 0.4199 0.5025 -0.0023 -0.0601 -0.0033 780  ILE A O   \n620  C  CB  . ILE A 88  ? 0.4429 0.4416 0.5115 -0.0068 -0.0451 -0.0039 780  ILE A CB  \n621  C  CG1 . ILE A 88  ? 0.4507 0.4467 0.5088 -0.0118 -0.0426 -0.0037 780  ILE A CG1 \n622  C  CG2 . ILE A 88  ? 0.4840 0.4783 0.5513 -0.0084 -0.0499 -0.0034 780  ILE A CG2 \n623  C  CD1 . ILE A 88  ? 0.5010 0.5021 0.5590 -0.0151 -0.0383 -0.0039 780  ILE A CD1 \n624  N  N   . CYS A 89  ? 0.4241 0.4021 0.4739 -0.0069 -0.0539 -0.0032 781  CYS A N   \n625  C  CA  . CYS A 89  ? 0.5001 0.4657 0.5380 -0.0093 -0.0600 -0.0024 781  CYS A CA  \n626  C  C   . CYS A 89  ? 0.5421 0.5047 0.5688 -0.0162 -0.0579 -0.0016 781  CYS A C   \n627  O  O   . CYS A 89  ? 0.5386 0.5047 0.5643 -0.0174 -0.0536 -0.0016 781  CYS A O   \n628  C  CB  . CYS A 89  ? 0.5332 0.4940 0.5704 -0.0050 -0.0626 -0.0029 781  CYS A CB  \n629  S  SG  . CYS A 89  ? 0.6760 0.6198 0.6973 -0.0079 -0.0708 -0.0019 781  CYS A SG  \n630  N  N   . LEU A 90  ? 0.5191 0.4755 0.5376 -0.0208 -0.0607 -0.0008 782  LEU A N   \n631  C  CA  . LEU A 90  ? 0.6776 0.6306 0.6849 -0.0277 -0.0585 0.0000  782  LEU A CA  \n632  C  C   . LEU A 90  ? 0.7556 0.6950 0.7494 -0.0309 -0.0645 0.0012  782  LEU A C   \n633  O  O   . LEU A 90  ? 0.7032 0.6334 0.6929 -0.0299 -0.0713 0.0015  782  LEU A O   \n634  C  CB  . LEU A 90  ? 0.6064 0.5606 0.6114 -0.0313 -0.0568 0.0000  782  LEU A CB  \n635  C  CG  . LEU A 90  ? 0.6390 0.6052 0.6562 -0.0286 -0.0516 -0.0011 782  LEU A CG  \n636  C  CD1 . LEU A 90  ? 0.7460 0.7101 0.7589 -0.0317 -0.0516 -0.0012 782  LEU A CD1 \n637  C  CD2 . LEU A 90  ? 0.5959 0.5721 0.6179 -0.0289 -0.0445 -0.0016 782  LEU A CD2 \n638  N  N   . THR A 91  ? 0.7468 0.6851 0.7344 -0.0344 -0.0624 0.0019  783  THR A N   \n639  C  CA  . THR A 91  ? 0.7666 0.6920 0.7401 -0.0387 -0.0675 0.0034  783  THR A CA  \n640  C  C   . THR A 91  ? 0.7453 0.6729 0.7121 -0.0461 -0.0626 0.0046  783  THR A C   \n641  O  O   . THR A 91  ? 0.8968 0.8296 0.8639 -0.0493 -0.0582 0.0044  783  THR A O   \n642  C  CB  . THR A 91  ? 0.7592 0.6801 0.7327 -0.0347 -0.0709 0.0033  783  THR A CB  \n643  O  OG1 . THR A 91  ? 0.8318 0.7621 0.8118 -0.0336 -0.0651 0.0029  783  THR A OG1 \n644  C  CG2 . THR A 91  ? 0.7956 0.7151 0.7768 -0.0269 -0.0752 0.0020  783  THR A CG2 \n645  N  N   . SER A 92  ? 0.8181 0.7420 0.7791 -0.0488 -0.0633 0.0057  784  SER A N   \n646  C  CA  . SER A 92  ? 0.8307 0.7600 0.7893 -0.0549 -0.0580 0.0068  784  SER A CA  \n647  C  C   . SER A 92  ? 0.8727 0.8166 0.8451 -0.0515 -0.0513 0.0055  784  SER A C   \n648  O  O   . SER A 92  ? 0.9563 0.9082 0.9308 -0.0555 -0.0458 0.0059  784  SER A O   \n649  C  CB  . SER A 92  ? 0.8791 0.7990 0.8272 -0.0591 -0.0618 0.0086  784  SER A CB  \n650  O  OG  . SER A 92  ? 1.0234 0.9409 0.9749 -0.0533 -0.0650 0.0080  784  SER A OG  \n651  N  N   . THR A 93  ? 0.7430 0.6904 0.7247 -0.0441 -0.0520 0.0041  785  THR A N   \n652  C  CA  . THR A 93  ? 0.6585 0.6185 0.6529 -0.0403 -0.0463 0.0028  785  THR A CA  \n653  C  C   . THR A 93  ? 0.6217 0.5874 0.6258 -0.0348 -0.0452 0.0012  785  THR A C   \n654  O  O   . THR A 93  ? 0.6195 0.5790 0.6218 -0.0328 -0.0497 0.0010  785  THR A O   \n655  C  CB  . THR A 93  ? 0.6707 0.6299 0.6675 -0.0363 -0.0474 0.0026  785  THR A CB  \n656  O  OG1 . THR A 93  ? 0.6428 0.5963 0.6407 -0.0302 -0.0518 0.0017  785  THR A OG1 \n657  C  CG2 . THR A 93  ? 0.7795 0.7315 0.7663 -0.0414 -0.0498 0.0044  785  THR A CG2 \n658  N  N   . VAL A 94  ? 0.5854 0.5625 0.5998 -0.0327 -0.0397 0.0002  786  VAL A N   \n659  C  CA  . VAL A 94  ? 0.4870 0.4702 0.5118 -0.0273 -0.0385 -0.0010 786  VAL A CA  \n660  C  C   . VAL A 94  ? 0.4544 0.4397 0.4859 -0.0213 -0.0385 -0.0017 786  VAL A C   \n661  O  O   . VAL A 94  ? 0.4946 0.4834 0.5278 -0.0211 -0.0357 -0.0017 786  VAL A O   \n662  C  CB  . VAL A 94  ? 0.4730 0.4664 0.5045 -0.0281 -0.0327 -0.0018 786  VAL A CB  \n663  C  CG1 . VAL A 94  ? 0.6057 0.6046 0.6474 -0.0231 -0.0321 -0.0029 786  VAL A CG1 \n664  C  CG2 . VAL A 94  ? 0.6032 0.5943 0.6272 -0.0338 -0.0320 -0.0014 786  VAL A CG2 \n665  N  N   . GLN A 95  ? 0.4584 0.4416 0.4940 -0.0164 -0.0415 -0.0023 787  GLN A N   \n666  C  CA  . GLN A 95  ? 0.4419 0.4279 0.4847 -0.0103 -0.0406 -0.0032 787  GLN A CA  \n667  C  C   . GLN A 95  ? 0.4876 0.4817 0.5422 -0.0061 -0.0385 -0.0041 787  GLN A C   \n668  O  O   . GLN A 95  ? 0.4376 0.4302 0.4943 -0.0055 -0.0416 -0.0041 787  GLN A O   \n669  C  CB  . GLN A 95  ? 0.4872 0.4634 0.5248 -0.0074 -0.0459 -0.0033 787  GLN A CB  \n670  C  CG  . GLN A 95  ? 0.4922 0.4603 0.5186 -0.0106 -0.0478 -0.0024 787  GLN A CG  \n671  C  CD  . GLN A 95  ? 0.5414 0.4986 0.5618 -0.0074 -0.0535 -0.0026 787  GLN A CD  \n672  O  OE1 . GLN A 95  ? 0.5364 0.4926 0.5583 -0.0028 -0.0529 -0.0035 787  GLN A OE1 \n673  N  NE2 . GLN A 95  ? 0.5690 0.5172 0.5821 -0.0096 -0.0592 -0.0019 787  GLN A NE2 \n674  N  N   . LEU A 96  ? 0.4084 0.4104 0.4705 -0.0035 -0.0337 -0.0047 788  LEU A N   \n675  C  CA  . LEU A 96  ? 0.4189 0.4292 0.4925 0.0000  -0.0311 -0.0053 788  LEU A CA  \n676  C  C   . LEU A 96  ? 0.3588 0.3698 0.4380 0.0059  -0.0307 -0.0060 788  LEU A C   \n677  O  O   . LEU A 96  ? 0.3879 0.3967 0.4640 0.0075  -0.0293 -0.0064 788  LEU A O   \n678  C  CB  . LEU A 96  ? 0.3852 0.4036 0.4629 -0.0015 -0.0258 -0.0055 788  LEU A CB  \n679  C  CG  . LEU A 96  ? 0.4145 0.4337 0.4876 -0.0069 -0.0248 -0.0052 788  LEU A CG  \n680  C  CD1 . LEU A 96  ? 0.4062 0.4335 0.4846 -0.0071 -0.0198 -0.0056 788  LEU A CD1 \n681  C  CD2 . LEU A 96  ? 0.4478 0.4656 0.5206 -0.0085 -0.0273 -0.0050 788  LEU A CD2 \n682  N  N   . ILE A 97  ? 0.3539 0.3682 0.4418 0.0092  -0.0318 -0.0063 789  ILE A N   \n683  C  CA  . ILE A 97  ? 0.3293 0.3447 0.4232 0.0151  -0.0311 -0.0071 789  ILE A CA  \n684  C  C   . ILE A 97  ? 0.2834 0.3092 0.3895 0.0174  -0.0266 -0.0072 789  ILE A C   \n685  O  O   . ILE A 97  ? 0.3709 0.4010 0.4826 0.0158  -0.0273 -0.0067 789  ILE A O   \n686  C  CB  . ILE A 97  ? 0.3966 0.4059 0.4906 0.0178  -0.0371 -0.0072 789  ILE A CB  \n687  C  CG1 . ILE A 97  ? 0.4513 0.4488 0.5317 0.0155  -0.0416 -0.0070 789  ILE A CG1 \n688  C  CG2 . ILE A 97  ? 0.4095 0.4218 0.5122 0.0246  -0.0357 -0.0083 789  ILE A CG2 \n689  C  CD1 . ILE A 97  ? 0.4681 0.4609 0.5414 0.0096  -0.0455 -0.0059 789  ILE A CD1 \n690  N  N   . THR A 98  ? 0.2715 0.3003 0.3804 0.0209  -0.0222 -0.0079 790  THR A N   \n691  C  CA  . THR A 98  ? 0.2916 0.3298 0.4109 0.0227  -0.0173 -0.0078 790  THR A CA  \n692  C  C   . THR A 98  ? 0.3129 0.3524 0.4365 0.0283  -0.0142 -0.0088 790  THR A C   \n693  O  O   . THR A 98  ? 0.3240 0.3564 0.4406 0.0308  -0.0151 -0.0096 790  THR A O   \n694  C  CB  . THR A 98  ? 0.3272 0.3689 0.4444 0.0193  -0.0132 -0.0075 790  THR A CB  \n695  O  OG1 . THR A 98  ? 0.3717 0.4218 0.4986 0.0202  -0.0094 -0.0072 790  THR A OG1 \n696  C  CG2 . THR A 98  ? 0.3465 0.3837 0.4556 0.0200  -0.0109 -0.0080 790  THR A CG2 \n697  N  N   . GLN A 99  ? 0.3274 0.3756 0.4620 0.0304  -0.0104 -0.0086 791  GLN A N   \n698  C  CA  . GLN A 99  ? 0.3985 0.4489 0.5376 0.0357  -0.0063 -0.0096 791  GLN A CA  \n699  C  C   . GLN A 99  ? 0.3728 0.4180 0.5017 0.0361  -0.0026 -0.0103 791  GLN A C   \n700  O  O   . GLN A 99  ? 0.3690 0.4150 0.4939 0.0325  -0.0004 -0.0097 791  GLN A O   \n701  C  CB  . GLN A 99  ? 0.3732 0.4343 0.5255 0.0367  -0.0021 -0.0089 791  GLN A CB  \n702  C  CG  . GLN A 99  ? 0.4730 0.5375 0.6303 0.0419  0.0035  -0.0099 791  GLN A CG  \n703  C  CD  . GLN A 99  ? 0.6244 0.7001 0.7950 0.0420  0.0079  -0.0089 791  GLN A CD  \n704  O  OE1 . GLN A 99  ? 0.5789 0.6593 0.7541 0.0380  0.0067  -0.0075 791  GLN A OE1 \n705  N  NE2 . GLN A 99  ? 0.6961 0.7758 0.8724 0.0466  0.0132  -0.0097 791  GLN A NE2 \n706  N  N   . LEU A 100 ? 0.3403 0.3796 0.4645 0.0404  -0.0023 -0.0116 792  LEU A N   \n707  C  CA  . LEU A 100 ? 0.3815 0.4147 0.4952 0.0410  0.0007  -0.0123 792  LEU A CA  \n708  C  C   . LEU A 100 ? 0.4952 0.5346 0.6133 0.0422  0.0078  -0.0122 792  LEU A C   \n709  O  O   . LEU A 100 ? 0.3776 0.4238 0.5059 0.0456  0.0112  -0.0126 792  LEU A O   \n710  C  CB  . LEU A 100 ? 0.3286 0.3526 0.4351 0.0457  -0.0007 -0.0138 792  LEU A CB  \n711  C  CG  . LEU A 100 ? 0.3904 0.4062 0.4846 0.0465  0.0017  -0.0145 792  LEU A CG  \n712  C  CD1 . LEU A 100 ? 0.3710 0.3815 0.4552 0.0404  -0.0016 -0.0133 792  LEU A CD1 \n713  C  CD2 . LEU A 100 ? 0.3924 0.3992 0.4802 0.0522  0.0008  -0.0164 792  LEU A CD2 \n714  N  N   . MET A 101 ? 0.3887 0.4258 0.4994 0.0390  0.0098  -0.0118 793  MET A N   \n715  C  CA  . MET A 101 ? 0.4374 0.4782 0.5495 0.0396  0.0161  -0.0117 793  MET A CA  \n716  C  C   . MET A 101 ? 0.4038 0.4348 0.5036 0.0420  0.0180  -0.0128 793  MET A C   \n717  O  O   . MET A 101 ? 0.3648 0.3892 0.4544 0.0390  0.0162  -0.0124 793  MET A O   \n718  C  CB  . MET A 101 ? 0.3443 0.3889 0.4569 0.0344  0.0166  -0.0103 793  MET A CB  \n719  C  CG  . MET A 101 ? 0.5458 0.5983 0.6684 0.0316  0.0145  -0.0092 793  MET A CG  \n720  S  SD  . MET A 101 ? 0.6483 0.7117 0.7850 0.0333  0.0192  -0.0086 793  MET A SD  \n721  C  CE  . MET A 101 ? 0.5493 0.6154 0.6950 0.0360  0.0150  -0.0089 793  MET A CE  \n722  N  N   . PRO A 102 ? 0.4067 0.4365 0.5073 0.0476  0.0216  -0.0142 794  PRO A N   \n723  C  CA  . PRO A 102 ? 0.3543 0.3727 0.4416 0.0503  0.0223  -0.0156 794  PRO A CA  \n724  C  C   . PRO A 102 ? 0.3264 0.3414 0.4058 0.0494  0.0273  -0.0154 794  PRO A C   \n725  O  O   . PRO A 102 ? 0.4113 0.4156 0.4780 0.0509  0.0272  -0.0163 794  PRO A O   \n726  C  CB  . PRO A 102 ? 0.5040 0.5228 0.5959 0.0572  0.0246  -0.0174 794  PRO A CB  \n727  C  CG  . PRO A 102 ? 0.5059 0.5383 0.6140 0.0577  0.0286  -0.0168 794  PRO A CG  \n728  C  CD  . PRO A 102 ? 0.5088 0.5471 0.6225 0.0518  0.0246  -0.0148 794  PRO A CD  \n729  N  N   . PHE A 103 ? 0.3433 0.3664 0.4292 0.0467  0.0310  -0.0142 795  PHE A N   \n730  C  CA  . PHE A 103 ? 0.3946 0.4129 0.4713 0.0448  0.0343  -0.0138 795  PHE A CA  \n731  C  C   . PHE A 103 ? 0.3683 0.3813 0.4371 0.0396  0.0291  -0.0127 795  PHE A C   \n732  O  O   . PHE A 103 ? 0.4552 0.4619 0.5145 0.0380  0.0302  -0.0123 795  PHE A O   \n733  C  CB  . PHE A 103 ? 0.4566 0.4837 0.5413 0.0439  0.0403  -0.0129 795  PHE A CB  \n734  C  CG  . PHE A 103 ? 0.5572 0.5894 0.6490 0.0489  0.0466  -0.0140 795  PHE A CG  \n735  C  CD1 . PHE A 103 ? 0.6227 0.6676 0.7299 0.0487  0.0492  -0.0130 795  PHE A CD1 \n736  C  CD2 . PHE A 103 ? 0.7015 0.7257 0.7848 0.0540  0.0497  -0.0159 795  PHE A CD2 \n737  C  CE1 . PHE A 103 ? 0.8664 0.9173 0.9819 0.0532  0.0551  -0.0139 795  PHE A CE1 \n738  C  CE2 . PHE A 103 ? 0.7734 0.8031 0.8642 0.0591  0.0560  -0.0171 795  PHE A CE2 \n739  C  CZ  . PHE A 103 ? 0.8085 0.8523 0.9161 0.0586  0.0588  -0.0161 795  PHE A CZ  \n740  N  N   . GLY A 104 ? 0.3761 0.3917 0.4489 0.0371  0.0236  -0.0121 796  GLY A N   \n741  C  CA  . GLY A 104 ? 0.4056 0.4165 0.4716 0.0324  0.0185  -0.0111 796  GLY A CA  \n742  C  C   . GLY A 104 ? 0.3938 0.4113 0.4649 0.0280  0.0185  -0.0098 796  GLY A C   \n743  O  O   . GLY A 104 ? 0.3608 0.3869 0.4414 0.0280  0.0215  -0.0094 796  GLY A O   \n744  N  N   . CYS A 105 ? 0.3610 0.3744 0.4261 0.0243  0.0149  -0.0091 797  CYS A N   \n745  C  CA  . CYS A 105 ? 0.3421 0.3614 0.4121 0.0206  0.0147  -0.0081 797  CYS A CA  \n746  C  C   . CYS A 105 ? 0.3611 0.3783 0.4274 0.0204  0.0179  -0.0077 797  CYS A C   \n747  O  O   . CYS A 105 ? 0.3583 0.3670 0.4150 0.0222  0.0196  -0.0081 797  CYS A O   \n748  C  CB  . CYS A 105 ? 0.5173 0.5354 0.5852 0.0167  0.0096  -0.0075 797  CYS A CB  \n749  S  SG  . CYS A 105 ? 0.7160 0.7223 0.7704 0.0157  0.0067  -0.0072 797  CYS A SG  \n750  N  N   . LEU A 106 ? 0.4149 0.4386 0.4878 0.0182  0.0186  -0.0069 798  LEU A N   \n751  C  CA  . LEU A 106 ? 0.4063 0.4280 0.4759 0.0174  0.0212  -0.0064 798  LEU A CA  \n752  C  C   . LEU A 106 ? 0.3466 0.3595 0.4060 0.0155  0.0179  -0.0061 798  LEU A C   \n753  O  O   . LEU A 106 ? 0.3853 0.3915 0.4369 0.0157  0.0196  -0.0059 798  LEU A O   \n754  C  CB  . LEU A 106 ? 0.3199 0.3500 0.3987 0.0152  0.0218  -0.0056 798  LEU A CB  \n755  C  CG  . LEU A 106 ? 0.3493 0.3778 0.4257 0.0144  0.0248  -0.0049 798  LEU A CG  \n756  C  CD1 . LEU A 106 ? 0.4080 0.4343 0.4812 0.0171  0.0306  -0.0050 798  LEU A CD1 \n757  C  CD2 . LEU A 106 ? 0.3291 0.3657 0.4149 0.0124  0.0248  -0.0041 798  LEU A CD2 \n758  N  N   . LEU A 107 ? 0.3785 0.3911 0.4379 0.0135  0.0130  -0.0060 799  LEU A N   \n759  C  CA  . LEU A 107 ? 0.3699 0.3747 0.4209 0.0114  0.0092  -0.0055 799  LEU A CA  \n760  C  C   . LEU A 107 ? 0.4027 0.3960 0.4413 0.0135  0.0096  -0.0059 799  LEU A C   \n761  O  O   . LEU A 107 ? 0.3910 0.3759 0.4204 0.0129  0.0090  -0.0055 799  LEU A O   \n762  C  CB  . LEU A 107 ? 0.3957 0.4033 0.4501 0.0087  0.0043  -0.0052 799  LEU A CB  \n763  C  CG  . LEU A 107 ? 0.3809 0.3812 0.4279 0.0063  -0.0002 -0.0044 799  LEU A CG  \n764  C  CD1 . LEU A 107 ? 0.4512 0.4507 0.4980 0.0050  -0.0009 -0.0039 799  LEU A CD1 \n765  C  CD2 . LEU A 107 ? 0.4496 0.4535 0.5005 0.0034  -0.0044 -0.0040 799  LEU A CD2 \n766  N  N   . ASP A 108 ? 0.4040 0.3961 0.4416 0.0161  0.0105  -0.0067 800  ASP A N   \n767  C  CA  . ASP A 108 ? 0.4402 0.4206 0.4654 0.0186  0.0109  -0.0074 800  ASP A CA  \n768  C  C   . ASP A 108 ? 0.4029 0.3806 0.4241 0.0213  0.0168  -0.0079 800  ASP A C   \n769  O  O   . ASP A 108 ? 0.4211 0.3876 0.4298 0.0222  0.0172  -0.0081 800  ASP A O   \n770  C  CB  . ASP A 108 ? 0.4416 0.4208 0.4667 0.0211  0.0101  -0.0083 800  ASP A CB  \n771  C  CG  . ASP A 108 ? 0.6607 0.6389 0.6853 0.0179  0.0039  -0.0076 800  ASP A CG  \n772  O  OD1 . ASP A 108 ? 0.7045 0.6852 0.7327 0.0188  0.0027  -0.0080 800  ASP A OD1 \n773  O  OD2 . ASP A 108 ? 0.6367 0.6116 0.6575 0.0144  0.0001  -0.0066 800  ASP A OD2 \n774  N  N   . TYR A 109 ? 0.4114 0.3990 0.4430 0.0223  0.0213  -0.0079 801  TYR A N   \n775  C  CA  . TYR A 109 ? 0.4642 0.4512 0.4939 0.0245  0.0278  -0.0082 801  TYR A CA  \n776  C  C   . TYR A 109 ? 0.4581 0.4390 0.4798 0.0219  0.0280  -0.0073 801  TYR A C   \n777  O  O   . TYR A 109 ? 0.4642 0.4361 0.4749 0.0235  0.0313  -0.0077 801  TYR A O   \n778  C  CB  . TYR A 109 ? 0.3880 0.3878 0.4318 0.0252  0.0317  -0.0081 801  TYR A CB  \n779  C  CG  . TYR A 109 ? 0.5007 0.5013 0.5441 0.0277  0.0390  -0.0084 801  TYR A CG  \n780  C  CD1 . TYR A 109 ? 0.4992 0.5000 0.5411 0.0253  0.0419  -0.0073 801  TYR A CD1 \n781  C  CD2 . TYR A 109 ? 0.4948 0.4961 0.5395 0.0323  0.0432  -0.0098 801  TYR A CD2 \n782  C  CE1 . TYR A 109 ? 0.5599 0.5617 0.6014 0.0271  0.0492  -0.0074 801  TYR A CE1 \n783  C  CE2 . TYR A 109 ? 0.5858 0.5888 0.6311 0.0346  0.0507  -0.0101 801  TYR A CE2 \n784  C  CZ  . TYR A 109 ? 0.5949 0.5983 0.6384 0.0317  0.0539  -0.0088 801  TYR A CZ  \n785  O  OH  . TYR A 109 ? 0.6514 0.6569 0.6953 0.0334  0.0617  -0.0089 801  TYR A OH  \n786  N  N   . VAL A 110 ? 0.4315 0.4164 0.4580 0.0182  0.0243  -0.0061 802  VAL A N   \n787  C  CA  . VAL A 110 ? 0.4178 0.3958 0.4365 0.0158  0.0232  -0.0052 802  VAL A CA  \n788  C  C   . VAL A 110 ? 0.4576 0.4216 0.4616 0.0152  0.0191  -0.0051 802  VAL A C   \n789  O  O   . VAL A 110 ? 0.4756 0.4302 0.4688 0.0146  0.0201  -0.0047 802  VAL A O   \n790  C  CB  . VAL A 110 ? 0.4476 0.4329 0.4752 0.0124  0.0200  -0.0041 802  VAL A CB  \n791  C  CG1 . VAL A 110 ? 0.3984 0.3953 0.4382 0.0128  0.0240  -0.0040 802  VAL A CG1 \n792  C  CG2 . VAL A 110 ? 0.3762 0.3643 0.4084 0.0106  0.0137  -0.0041 802  VAL A CG2 \n793  N  N   . ARG A 111 ? 0.4573 0.4196 0.4608 0.0149  0.0143  -0.0053 803  ARG A N   \n794  C  CA  . ARG A 111 ? 0.4527 0.4016 0.4426 0.0142  0.0098  -0.0052 803  ARG A CA  \n795  C  C   . ARG A 111 ? 0.4703 0.4081 0.4470 0.0178  0.0141  -0.0063 803  ARG A C   \n796  O  O   . ARG A 111 ? 0.5044 0.4293 0.4670 0.0173  0.0130  -0.0061 803  ARG A O   \n797  C  CB  . ARG A 111 ? 0.4974 0.4480 0.4906 0.0130  0.0043  -0.0051 803  ARG A CB  \n798  C  CG  . ARG A 111 ? 0.5260 0.4836 0.5281 0.0091  -0.0007 -0.0039 803  ARG A CG  \n799  C  CD  . ARG A 111 ? 0.4890 0.4510 0.4965 0.0077  -0.0045 -0.0038 803  ARG A CD  \n800  N  NE  . ARG A 111 ? 0.4054 0.3742 0.4213 0.0040  -0.0089 -0.0028 803  ARG A NE  \n801  C  CZ  . ARG A 111 ? 0.5389 0.5119 0.5596 0.0018  -0.0124 -0.0023 803  ARG A CZ  \n802  N  NH1 . ARG A 111 ? 0.5208 0.4913 0.5384 0.0027  -0.0127 -0.0027 803  ARG A NH1 \n803  N  NH2 . ARG A 111 ? 0.4661 0.4458 0.4949 -0.0013 -0.0157 -0.0015 803  ARG A NH2 \n804  N  N   . GLU A 112 ? 0.5156 0.4585 0.4970 0.0215  0.0190  -0.0076 804  GLU A N   \n805  C  CA  . GLU A 112 ? 0.5553 0.4889 0.5255 0.0258  0.0237  -0.0091 804  GLU A CA  \n806  C  C   . GLU A 112 ? 0.6571 0.5881 0.6220 0.0267  0.0306  -0.0092 804  GLU A C   \n807  O  O   . GLU A 112 ? 0.5822 0.5000 0.5318 0.0284  0.0329  -0.0099 804  GLU A O   \n808  C  CB  . GLU A 112 ? 0.5509 0.4913 0.5291 0.0298  0.0263  -0.0106 804  GLU A CB  \n809  C  CG  . GLU A 112 ? 0.7811 0.7131 0.7497 0.0351  0.0315  -0.0125 804  GLU A CG  \n810  C  CD  . GLU A 112 ? 1.0209 0.9387 0.9757 0.0363  0.0266  -0.0133 804  GLU A CD  \n811  O  OE1 . GLU A 112 ? 1.0297 0.9415 0.9790 0.0324  0.0194  -0.0120 804  GLU A OE1 \n812  O  OE2 . GLU A 112 ? 1.2961 1.2086 1.2455 0.0413  0.0297  -0.0153 804  GLU A OE2 \n813  N  N   . HIS A 113 ? 0.5199 0.4626 0.4966 0.0254  0.0340  -0.0085 805  HIS A N   \n814  C  CA  . HIS A 113 ? 0.5767 0.5193 0.5508 0.0261  0.0414  -0.0084 805  HIS A CA  \n815  C  C   . HIS A 113 ? 0.5795 0.5185 0.5490 0.0218  0.0399  -0.0067 805  HIS A C   \n816  O  O   . HIS A 113 ? 0.6858 0.6267 0.6553 0.0213  0.0457  -0.0062 805  HIS A O   \n817  C  CB  . HIS A 113 ? 0.5816 0.5393 0.5716 0.0280  0.0473  -0.0087 805  HIS A CB  \n818  C  CG  . HIS A 113 ? 0.6849 0.6450 0.6785 0.0329  0.0495  -0.0105 805  HIS A CG  \n819  N  ND1 . HIS A 113 ? 0.7015 0.6694 0.7060 0.0334  0.0453  -0.0108 805  HIS A ND1 \n820  C  CD2 . HIS A 113 ? 0.7209 0.6756 0.7076 0.0376  0.0551  -0.0123 805  HIS A CD2 \n821  C  CE1 . HIS A 113 ? 0.7756 0.7428 0.7802 0.0382  0.0478  -0.0125 805  HIS A CE1 \n822  N  NE2 . HIS A 113 ? 0.8042 0.7638 0.7986 0.0410  0.0539  -0.0136 805  HIS A NE2 \n823  N  N   . LYS A 114 ? 0.6002 0.5337 0.5659 0.0187  0.0321  -0.0057 806  LYS A N   \n824  C  CA  . LYS A 114 ? 0.6080 0.5379 0.5702 0.0147  0.0292  -0.0042 806  LYS A CA  \n825  C  C   . LYS A 114 ? 0.7608 0.6818 0.7108 0.0144  0.0349  -0.0038 806  LYS A C   \n826  O  O   . LYS A 114 ? 0.7233 0.6492 0.6778 0.0123  0.0372  -0.0027 806  LYS A O   \n827  C  CB  . LYS A 114 ? 0.5873 0.5082 0.5427 0.0123  0.0202  -0.0035 806  LYS A CB  \n828  C  CG  . LYS A 114 ? 0.7904 0.7055 0.7408 0.0086  0.0163  -0.0020 806  LYS A CG  \n829  C  CD  . LYS A 114 ? 0.8675 0.7736 0.8116 0.0063  0.0072  -0.0012 806  LYS A CD  \n830  C  CE  . LYS A 114 ? 0.8782 0.7789 0.8185 0.0030  0.0031  0.0001  806  LYS A CE  \n831  N  NZ  . LYS A 114 ? 0.8261 0.7127 0.7543 0.0011  -0.0048 0.0010  806  LYS A NZ  \n832  N  N   . ASP A 115 ? 0.7263 0.6340 0.6603 0.0165  0.0373  -0.0048 807  ASP A N   \n833  C  CA  . ASP A 115 ? 0.7804 0.6772 0.6997 0.0161  0.0427  -0.0045 807  ASP A CA  \n834  C  C   . ASP A 115 ? 0.8540 0.7601 0.7799 0.0176  0.0530  -0.0048 807  ASP A C   \n835  O  O   . ASP A 115 ? 0.7816 0.6802 0.6964 0.0167  0.0585  -0.0044 807  ASP A O   \n836  C  CB  . ASP A 115 ? 0.8687 0.7477 0.7680 0.0182  0.0425  -0.0057 807  ASP A CB  \n837  C  CG  . ASP A 115 ? 1.0147 0.8829 0.9061 0.0159  0.0319  -0.0050 807  ASP A CG  \n838  O  OD1 . ASP A 115 ? 0.9490 0.8207 0.8468 0.0121  0.0255  -0.0033 807  ASP A OD1 \n839  O  OD2 . ASP A 115 ? 1.0384 0.8947 0.9173 0.0178  0.0300  -0.0060 807  ASP A OD2 \n840  N  N   . ASN A 116 ? 0.6258 0.5480 0.5695 0.0196  0.0555  -0.0054 808  ASN A N   \n841  C  CA  . ASN A 116 ? 0.7510 0.6839 0.7038 0.0209  0.0647  -0.0054 808  ASN A CA  \n842  C  C   . ASN A 116 ? 0.6852 0.6342 0.6568 0.0185  0.0639  -0.0041 808  ASN A C   \n843  O  O   . ASN A 116 ? 0.6441 0.6033 0.6254 0.0191  0.0706  -0.0038 808  ASN A O   \n844  C  CB  . ASN A 116 ? 0.6487 0.5854 0.6049 0.0265  0.0703  -0.0076 808  ASN A CB  \n845  C  CG  . ASN A 116 ? 0.8406 0.7616 0.7774 0.0294  0.0744  -0.0091 808  ASN A CG  \n846  O  OD1 . ASN A 116 ? 0.9816 0.8953 0.9072 0.0282  0.0800  -0.0087 808  ASN A OD1 \n847  N  ND2 . ASN A 116 ? 0.8244 0.7393 0.7563 0.0330  0.0715  -0.0109 808  ASN A ND2 \n848  N  N   . ILE A 117 ? 0.6391 0.5902 0.6160 0.0158  0.0556  -0.0032 809  ILE A N   \n849  C  CA  . ILE A 117 ? 0.5335 0.4983 0.5269 0.0136  0.0539  -0.0021 809  ILE A CA  \n850  C  C   . ILE A 117 ? 0.5969 0.5588 0.5868 0.0093  0.0532  -0.0002 809  ILE A C   \n851  O  O   . ILE A 117 ? 0.5430 0.4950 0.5235 0.0069  0.0474  0.0003  809  ILE A O   \n852  C  CB  . ILE A 117 ? 0.5302 0.5001 0.5324 0.0134  0.0460  -0.0024 809  ILE A CB  \n853  C  CG1 . ILE A 117 ? 0.4537 0.4281 0.4612 0.0173  0.0468  -0.0040 809  ILE A CG1 \n854  C  CG2 . ILE A 117 ? 0.4892 0.4707 0.5056 0.0108  0.0437  -0.0013 809  ILE A CG2 \n855  C  CD1 . ILE A 117 ? 0.4454 0.4207 0.4564 0.0169  0.0391  -0.0044 809  ILE A CD1 \n856  N  N   . GLY A 118 ? 0.5449 0.5155 0.5429 0.0081  0.0587  0.0007  810  GLY A N   \n857  C  CA  . GLY A 118 ? 0.5873 0.5558 0.5829 0.0037  0.0583  0.0026  810  GLY A CA  \n858  C  C   . GLY A 118 ? 0.5178 0.4959 0.5269 0.0015  0.0529  0.0035  810  GLY A C   \n859  O  O   . GLY A 118 ? 0.5092 0.4971 0.5308 0.0032  0.0504  0.0027  810  GLY A O   \n860  N  N   . SER A 119 ? 0.4714 0.4457 0.4770 -0.0023 0.0510  0.0052  811  SER A N   \n861  C  CA  . SER A 119 ? 0.5029 0.4838 0.5189 -0.0043 0.0453  0.0059  811  SER A CA  \n862  C  C   . SER A 119 ? 0.5052 0.5011 0.5379 -0.0038 0.0480  0.0060  811  SER A C   \n863  O  O   . SER A 119 ? 0.4350 0.4377 0.4779 -0.0037 0.0431  0.0056  811  SER A O   \n864  C  CB  . SER A 119 ? 0.5489 0.5218 0.5569 -0.0084 0.0431  0.0076  811  SER A CB  \n865  O  OG  . SER A 119 ? 0.5924 0.5636 0.5952 -0.0103 0.0506  0.0090  811  SER A OG  \n866  N  N   . GLN A 120 ? 0.4439 0.4446 0.4793 -0.0036 0.0559  0.0066  812  GLN A N   \n867  C  CA  . GLN A 120 ? 0.4489 0.4637 0.5003 -0.0035 0.0585  0.0071  812  GLN A CA  \n868  C  C   . GLN A 120 ? 0.4343 0.4570 0.4962 0.0000  0.0561  0.0054  812  GLN A C   \n869  O  O   . GLN A 120 ? 0.3946 0.4263 0.4687 -0.0004 0.0531  0.0056  812  GLN A O   \n870  C  CB  . GLN A 120 ? 0.5184 0.5369 0.5708 -0.0035 0.0678  0.0080  812  GLN A CB  \n871  C  CG  . GLN A 120 ? 0.4949 0.5279 0.5644 -0.0042 0.0703  0.0090  812  GLN A CG  \n872  C  CD  . GLN A 120 ? 0.5588 0.5933 0.6318 -0.0091 0.0671  0.0112  812  GLN A CD  \n873  O  OE1 . GLN A 120 ? 0.5296 0.5608 0.5971 -0.0127 0.0707  0.0132  812  GLN A OE1 \n874  N  NE2 . GLN A 120 ? 0.4927 0.5318 0.5741 -0.0092 0.0604  0.0109  812  GLN A NE2 \n875  N  N   . TYR A 121 ? 0.3846 0.4033 0.4409 0.0035  0.0573  0.0038  813  TYR A N   \n876  C  CA  . TYR A 121 ? 0.3790 0.4039 0.4437 0.0067  0.0550  0.0022  813  TYR A CA  \n877  C  C   . TYR A 121 ? 0.3641 0.3887 0.4309 0.0058  0.0469  0.0018  813  TYR A C   \n878  O  O   . TYR A 121 ? 0.3389 0.3720 0.4168 0.0064  0.0445  0.0014  813  TYR A O   \n879  C  CB  . TYR A 121 ? 0.4580 0.4766 0.5143 0.0105  0.0575  0.0005  813  TYR A CB  \n880  C  CG  . TYR A 121 ? 0.6258 0.6496 0.6862 0.0132  0.0655  0.0002  813  TYR A CG  \n881  C  CD1 . TYR A 121 ? 0.6517 0.6852 0.7245 0.0164  0.0662  -0.0007 813  TYR A CD1 \n882  C  CD2 . TYR A 121 ? 0.6474 0.6665 0.6996 0.0126  0.0724  0.0008  813  TYR A CD2 \n883  C  CE1 . TYR A 121 ? 0.8278 0.8668 0.9058 0.0193  0.0734  -0.0011 813  TYR A CE1 \n884  C  CE2 . TYR A 121 ? 0.7789 0.8038 0.8360 0.0153  0.0804  0.0004  813  TYR A CE2 \n885  C  CZ  . TYR A 121 ? 0.8693 0.9046 0.9400 0.0189  0.0808  -0.0006 813  TYR A CZ  \n886  O  OH  . TYR A 121 ? 0.9235 0.9653 1.0004 0.0220  0.0886  -0.0012 813  TYR A OH  \n887  N  N   . LEU A 122 ? 0.4396 0.4543 0.4958 0.0043  0.0428  0.0018  814  LEU A N   \n888  C  CA  . LEU A 122 ? 0.3665 0.3811 0.4249 0.0036  0.0356  0.0013  814  LEU A CA  \n889  C  C   . LEU A 122 ? 0.4173 0.4395 0.4860 0.0016  0.0331  0.0020  814  LEU A C   \n890  O  O   . LEU A 122 ? 0.3781 0.4062 0.4547 0.0021  0.0296  0.0012  814  LEU A O   \n891  C  CB  . LEU A 122 ? 0.4188 0.4216 0.4649 0.0021  0.0314  0.0015  814  LEU A CB  \n892  C  CG  . LEU A 122 ? 0.4067 0.4004 0.4418 0.0040  0.0312  0.0007  814  LEU A CG  \n893  C  CD1 . LEU A 122 ? 0.3933 0.3736 0.4142 0.0021  0.0289  0.0014  814  LEU A CD1 \n894  C  CD2 . LEU A 122 ? 0.3891 0.3859 0.4291 0.0052  0.0264  -0.0004 814  LEU A CD2 \n895  N  N   . LEU A 123 ? 0.3817 0.4032 0.4495 -0.0008 0.0350  0.0035  815  LEU A N   \n896  C  CA  . LEU A 123 ? 0.3759 0.4034 0.4524 -0.0028 0.0326  0.0042  815  LEU A CA  \n897  C  C   . LEU A 123 ? 0.3215 0.3603 0.4107 -0.0019 0.0347  0.0042  815  LEU A C   \n898  O  O   . LEU A 123 ? 0.2829 0.3269 0.3800 -0.0023 0.0310  0.0039  815  LEU A O   \n899  C  CB  . LEU A 123 ? 0.3465 0.3691 0.4177 -0.0061 0.0335  0.0060  815  LEU A CB  \n900  C  CG  . LEU A 123 ? 0.4061 0.4170 0.4656 -0.0074 0.0292  0.0061  815  LEU A CG  \n901  C  CD1 . LEU A 123 ? 0.4393 0.4437 0.4911 -0.0108 0.0312  0.0081  815  LEU A CD1 \n902  C  CD2 . LEU A 123 ? 0.4524 0.4642 0.5162 -0.0073 0.0220  0.0052  815  LEU A CD2 \n903  N  N   . ASN A 124 ? 0.3434 0.3856 0.4348 -0.0006 0.0405  0.0045  816  ASN A N   \n904  C  CA  . ASN A 124 ? 0.3484 0.4013 0.4525 0.0005  0.0420  0.0044  816  ASN A CA  \n905  C  C   . ASN A 124 ? 0.3058 0.3612 0.4138 0.0029  0.0380  0.0027  816  ASN A C   \n906  O  O   . ASN A 124 ? 0.3020 0.3639 0.4190 0.0027  0.0355  0.0026  816  ASN A O   \n907  C  CB  . ASN A 124 ? 0.3402 0.3966 0.4466 0.0021  0.0491  0.0048  816  ASN A CB  \n908  C  CG  . ASN A 124 ? 0.4751 0.5329 0.5821 -0.0009 0.0537  0.0069  816  ASN A CG  \n909  O  OD1 . ASN A 124 ? 0.5089 0.5652 0.6152 -0.0044 0.0510  0.0083  816  ASN A OD1 \n910  N  ND2 . ASN A 124 ? 0.5045 0.5652 0.6127 0.0004  0.0607  0.0072  816  ASN A ND2 \n911  N  N   . TRP A 125 ? 0.3493 0.3987 0.4495 0.0049  0.0370  0.0014  817  TRP A N   \n912  C  CA  . TRP A 125 ? 0.3803 0.4316 0.4835 0.0064  0.0330  0.0000  817  TRP A CA  \n913  C  C   . TRP A 125 ? 0.3072 0.3602 0.4139 0.0045  0.0278  0.0000  817  TRP A C   \n914  O  O   . TRP A 125 ? 0.2947 0.3528 0.4079 0.0050  0.0255  -0.0007 817  TRP A O   \n915  C  CB  . TRP A 125 ? 0.4000 0.4440 0.4940 0.0082  0.0322  -0.0010 817  TRP A CB  \n916  C  CG  . TRP A 125 ? 0.4051 0.4471 0.4957 0.0110  0.0372  -0.0014 817  TRP A CG  \n917  C  CD1 . TRP A 125 ? 0.4358 0.4846 0.5342 0.0128  0.0414  -0.0013 817  TRP A CD1 \n918  C  CD2 . TRP A 125 ? 0.3837 0.4162 0.4623 0.0123  0.0385  -0.0020 817  TRP A CD2 \n919  N  NE1 . TRP A 125 ? 0.3879 0.4321 0.4799 0.0157  0.0456  -0.0021 817  TRP A NE1 \n920  C  CE2 . TRP A 125 ? 0.4976 0.5312 0.5766 0.0153  0.0439  -0.0025 817  TRP A CE2 \n921  C  CE3 . TRP A 125 ? 0.4140 0.4367 0.4814 0.0113  0.0352  -0.0021 817  TRP A CE3 \n922  C  CZ2 . TRP A 125 ? 0.4287 0.4532 0.4962 0.0175  0.0466  -0.0033 817  TRP A CZ2 \n923  C  CZ3 . TRP A 125 ? 0.4509 0.4642 0.5066 0.0130  0.0373  -0.0027 817  TRP A CZ3 \n924  C  CH2 . TRP A 125 ? 0.4765 0.4904 0.5318 0.0162  0.0431  -0.0034 817  TRP A CH2 \n925  N  N   . CYS A 126 ? 0.3464 0.3947 0.4482 0.0025  0.0259  0.0003  818  CYS A N   \n926  C  CA  . CYS A 126 ? 0.3069 0.3563 0.4116 0.0013  0.0211  0.0000  818  CYS A CA  \n927  C  C   . CYS A 126 ? 0.2921 0.3482 0.4057 0.0003  0.0208  0.0004  818  CYS A C   \n928  O  O   . CYS A 126 ? 0.2523 0.3117 0.3705 0.0003  0.0177  -0.0004 818  CYS A O   \n929  C  CB  . CYS A 126 ? 0.3421 0.3845 0.4399 -0.0002 0.0189  0.0004  818  CYS A CB  \n930  S  SG  . CYS A 126 ? 0.3710 0.4046 0.4582 0.0006  0.0172  -0.0001 818  CYS A SG  \n931  N  N   . VAL A 127 ? 0.3164 0.3745 0.4322 -0.0007 0.0243  0.0019  819  VAL A N   \n932  C  CA  . VAL A 127 ? 0.2773 0.3416 0.4019 -0.0020 0.0239  0.0028  819  VAL A CA  \n933  C  C   . VAL A 127 ? 0.2173 0.2877 0.3490 -0.0003 0.0235  0.0020  819  VAL A C   \n934  O  O   . VAL A 127 ? 0.2825 0.3557 0.4190 -0.0008 0.0203  0.0016  819  VAL A O   \n935  C  CB  . VAL A 127 ? 0.3231 0.3894 0.4498 -0.0039 0.0281  0.0049  819  VAL A CB  \n936  C  CG1 . VAL A 127 ? 0.3507 0.4240 0.4876 -0.0053 0.0271  0.0059  819  VAL A CG1 \n937  C  CG2 . VAL A 127 ? 0.3588 0.4182 0.4779 -0.0064 0.0276  0.0060  819  VAL A CG2 \n938  N  N   . GLN A 128 ? 0.2513 0.3228 0.3831 0.0017  0.0268  0.0018  820  GLN A N   \n939  C  CA  . GLN A 128 ? 0.2343 0.3107 0.3724 0.0036  0.0263  0.0011  820  GLN A CA  \n940  C  C   . GLN A 128 ? 0.2965 0.3717 0.4333 0.0041  0.0219  -0.0003 820  GLN A C   \n941  O  O   . GLN A 128 ? 0.2587 0.3376 0.4011 0.0040  0.0197  -0.0005 820  GLN A O   \n942  C  CB  . GLN A 128 ? 0.3116 0.3877 0.4483 0.0063  0.0303  0.0008  820  GLN A CB  \n943  C  CG  . GLN A 128 ? 0.3014 0.3815 0.4428 0.0061  0.0354  0.0022  820  GLN A CG  \n944  C  CD  . GLN A 128 ? 0.4360 0.5151 0.5750 0.0092  0.0401  0.0016  820  GLN A CD  \n945  O  OE1 . GLN A 128 ? 0.4226 0.4990 0.5583 0.0119  0.0390  0.0001  820  GLN A OE1 \n946  N  NE2 . GLN A 128 ? 0.4222 0.5032 0.5624 0.0089  0.0458  0.0027  820  GLN A NE2 \n947  N  N   . ILE A 129 ? 0.2745 0.3444 0.4037 0.0043  0.0208  -0.0012 821  ILE A N   \n948  C  CA  . ILE A 129 ? 0.2781 0.3473 0.4062 0.0043  0.0171  -0.0025 821  ILE A CA  \n949  C  C   . ILE A 129 ? 0.2023 0.2736 0.3339 0.0027  0.0142  -0.0027 821  ILE A C   \n950  O  O   . ILE A 129 ? 0.2201 0.2936 0.3545 0.0026  0.0121  -0.0034 821  ILE A O   \n951  C  CB  . ILE A 129 ? 0.3011 0.3648 0.4214 0.0047  0.0162  -0.0033 821  ILE A CB  \n952  C  CG1 . ILE A 129 ? 0.2612 0.3216 0.3769 0.0065  0.0184  -0.0033 821  ILE A CG1 \n953  C  CG2 . ILE A 129 ? 0.2427 0.3072 0.3634 0.0041  0.0127  -0.0044 821  ILE A CG2 \n954  C  CD1 . ILE A 129 ? 0.2546 0.3081 0.3614 0.0065  0.0177  -0.0036 821  ILE A CD1 \n955  N  N   . ALA A 130 ? 0.2263 0.2961 0.3571 0.0013  0.0141  -0.0020 822  ALA A N   \n956  C  CA  . ALA A 130 ? 0.2648 0.3356 0.3983 0.0001  0.0114  -0.0023 822  ALA A CA  \n957  C  C   . ALA A 130 ? 0.2176 0.2927 0.3577 -0.0005 0.0110  -0.0015 822  ALA A C   \n958  O  O   . ALA A 130 ? 0.2110 0.2869 0.3528 -0.0010 0.0083  -0.0023 822  ALA A O   \n959  C  CB  . ALA A 130 ? 0.3410 0.4080 0.4714 -0.0011 0.0108  -0.0016 822  ALA A CB  \n960  N  N   . LYS A 131 ? 0.2165 0.2944 0.3604 -0.0005 0.0136  -0.0001 823  LYS A N   \n961  C  CA  . LYS A 131 ? 0.2365 0.3187 0.3876 -0.0012 0.0124  0.0006  823  LYS A CA  \n962  C  C   . LYS A 131 ? 0.2161 0.2993 0.3682 0.0000  0.0104  -0.0006 823  LYS A C   \n963  O  O   . LYS A 131 ? 0.2511 0.3350 0.4057 -0.0009 0.0074  -0.0007 823  LYS A O   \n964  C  CB  . LYS A 131 ? 0.2041 0.2903 0.3607 -0.0013 0.0159  0.0023  823  LYS A CB  \n965  C  CG  . LYS A 131 ? 0.2813 0.3670 0.4377 -0.0035 0.0178  0.0041  823  LYS A CG  \n966  C  CD  . LYS A 131 ? 0.3170 0.4080 0.4799 -0.0036 0.0221  0.0058  823  LYS A CD  \n967  C  CE  . LYS A 131 ? 0.3869 0.4766 0.5481 -0.0065 0.0244  0.0077  823  LYS A CE  \n968  N  NZ  . LYS A 131 ? 0.3992 0.4952 0.5680 -0.0073 0.0289  0.0096  823  LYS A NZ  \n969  N  N   . GLY A 132 ? 0.2438 0.3263 0.3933 0.0018  0.0118  -0.0013 824  GLY A N   \n970  C  CA  . GLY A 132 ? 0.2949 0.3773 0.4442 0.0027  0.0097  -0.0023 824  GLY A CA  \n971  C  C   . GLY A 132 ? 0.2556 0.3358 0.4010 0.0017  0.0070  -0.0037 824  GLY A C   \n972  O  O   . GLY A 132 ? 0.2320 0.3121 0.3780 0.0012  0.0045  -0.0042 824  GLY A O   \n973  N  N   . MET A 133 ? 0.2756 0.3535 0.4168 0.0014  0.0074  -0.0044 825  MET A N   \n974  C  CA  . MET A 133 ? 0.2415 0.3182 0.3800 0.0008  0.0054  -0.0058 825  MET A CA  \n975  C  C   . MET A 133 ? 0.2200 0.2969 0.3609 -0.0002 0.0034  -0.0059 825  MET A C   \n976  O  O   . MET A 133 ? 0.2570 0.3332 0.3967 -0.0006 0.0016  -0.0069 825  MET A O   \n977  C  CB  . MET A 133 ? 0.2697 0.3444 0.4045 0.0011  0.0059  -0.0065 825  MET A CB  \n978  C  CG  . MET A 133 ? 0.2882 0.3616 0.4196 0.0018  0.0070  -0.0066 825  MET A CG  \n979  S  SD  . MET A 133 ? 0.2980 0.3717 0.4276 0.0016  0.0059  -0.0075 825  MET A SD  \n980  C  CE  . MET A 133 ? 0.2782 0.3528 0.4072 0.0007  0.0047  -0.0091 825  MET A CE  \n981  N  N   . ASN A 134 ? 0.2729 0.3501 0.4164 -0.0009 0.0036  -0.0046 826  ASN A N   \n982  C  CA  . ASN A 134 ? 0.2637 0.3402 0.4089 -0.0022 0.0011  -0.0043 826  ASN A CA  \n983  C  C   . ASN A 134 ? 0.2311 0.3089 0.3793 -0.0028 -0.0006 -0.0039 826  ASN A C   \n984  O  O   . ASN A 134 ? 0.2049 0.2805 0.3518 -0.0036 -0.0033 -0.0046 826  ASN A O   \n985  C  CB  . ASN A 134 ? 0.2552 0.3316 0.4025 -0.0035 0.0015  -0.0026 826  ASN A CB  \n986  C  CG  . ASN A 134 ? 0.2872 0.3618 0.4355 -0.0050 -0.0016 -0.0023 826  ASN A CG  \n987  O  OD1 . ASN A 134 ? 0.2790 0.3502 0.4236 -0.0048 -0.0035 -0.0039 826  ASN A OD1 \n988  N  ND2 . ASN A 134 ? 0.3161 0.3930 0.4697 -0.0067 -0.0022 -0.0003 826  ASN A ND2 \n989  N  N   . TYR A 135 ? 0.3105 0.3910 0.4622 -0.0022 0.0005  -0.0029 827  TYR A N   \n990  C  CA  . TYR A 135 ? 0.3005 0.3817 0.4551 -0.0024 -0.0018 -0.0025 827  TYR A CA  \n991  C  C   . TYR A 135 ? 0.3095 0.3877 0.4586 -0.0023 -0.0034 -0.0042 827  TYR A C   \n992  O  O   . TYR A 135 ? 0.2580 0.3339 0.4059 -0.0033 -0.0064 -0.0045 827  TYR A O   \n993  C  CB  . TYR A 135 ? 0.2700 0.3548 0.4300 -0.0012 -0.0002 -0.0013 827  TYR A CB  \n994  C  CG  . TYR A 135 ? 0.2522 0.3374 0.4155 -0.0012 -0.0034 -0.0009 827  TYR A CG  \n995  C  CD1 . TYR A 135 ? 0.2716 0.3591 0.4421 -0.0025 -0.0058 0.0007  827  TYR A CD1 \n996  C  CD2 . TYR A 135 ? 0.2559 0.3387 0.4152 -0.0003 -0.0044 -0.0020 827  TYR A CD2 \n997  C  CE1 . TYR A 135 ? 0.2225 0.3097 0.3960 -0.0025 -0.0096 0.0010  827  TYR A CE1 \n998  C  CE2 . TYR A 135 ? 0.2327 0.3144 0.3938 -0.0004 -0.0080 -0.0017 827  TYR A CE2 \n999  C  CZ  . TYR A 135 ? 0.2952 0.3792 0.4638 -0.0014 -0.0107 -0.0001 827  TYR A CZ  \n1000 O  OH  . TYR A 135 ? 0.2765 0.3587 0.4465 -0.0015 -0.0149 0.0002  827  TYR A OH  \n1001 N  N   . LEU A 136 ? 0.2850 0.3626 0.4299 -0.0013 -0.0014 -0.0054 828  LEU A N   \n1002 C  CA  . LEU A 136 ? 0.3200 0.3949 0.4593 -0.0017 -0.0024 -0.0069 828  LEU A CA  \n1003 C  C   . LEU A 136 ? 0.2565 0.3293 0.3928 -0.0026 -0.0035 -0.0082 828  LEU A C   \n1004 O  O   . LEU A 136 ? 0.2420 0.3121 0.3745 -0.0035 -0.0050 -0.0091 828  LEU A O   \n1005 C  CB  . LEU A 136 ? 0.2383 0.3133 0.3743 -0.0009 -0.0003 -0.0076 828  LEU A CB  \n1006 C  CG  . LEU A 136 ? 0.2675 0.3429 0.4044 0.0001  0.0003  -0.0067 828  LEU A CG  \n1007 C  CD1 . LEU A 136 ? 0.3675 0.4418 0.5000 0.0006  0.0018  -0.0074 828  LEU A CD1 \n1008 C  CD2 . LEU A 136 ? 0.3425 0.4162 0.4790 -0.0001 -0.0022 -0.0065 828  LEU A CD2 \n1009 N  N   . GLU A 137 ? 0.2623 0.3355 0.3995 -0.0023 -0.0028 -0.0084 829  GLU A N   \n1010 C  CA  . GLU A 137 ? 0.2497 0.3204 0.3839 -0.0026 -0.0038 -0.0099 829  GLU A CA  \n1011 C  C   . GLU A 137 ? 0.2903 0.3582 0.4246 -0.0038 -0.0070 -0.0093 829  GLU A C   \n1012 O  O   . GLU A 137 ? 0.2719 0.3362 0.4016 -0.0043 -0.0083 -0.0107 829  GLU A O   \n1013 C  CB  . GLU A 137 ? 0.2417 0.3127 0.3766 -0.0018 -0.0029 -0.0103 829  GLU A CB  \n1014 C  CG  . GLU A 137 ? 0.3239 0.3920 0.4559 -0.0013 -0.0041 -0.0121 829  GLU A CG  \n1015 C  CD  . GLU A 137 ? 0.3011 0.3689 0.4336 -0.0002 -0.0038 -0.0127 829  GLU A CD  \n1016 O  OE1 . GLU A 137 ? 0.3522 0.4214 0.4866 -0.0001 -0.0029 -0.0114 829  GLU A OE1 \n1017 O  OE2 . GLU A 137 ? 0.2614 0.3266 0.3918 0.0006  -0.0049 -0.0144 829  GLU A OE2 \n1018 N  N   . ASP A 138 ? 0.2938 0.3631 0.4331 -0.0046 -0.0082 -0.0072 830  ASP A N   \n1019 C  CA  . ASP A 138 ? 0.3482 0.4150 0.4885 -0.0061 -0.0120 -0.0063 830  ASP A CA  \n1020 C  C   . ASP A 138 ? 0.3156 0.3800 0.4526 -0.0065 -0.0138 -0.0067 830  ASP A C   \n1021 O  O   . ASP A 138 ? 0.3396 0.3992 0.4729 -0.0077 -0.0169 -0.0071 830  ASP A O   \n1022 C  CB  . ASP A 138 ? 0.3161 0.3864 0.4643 -0.0069 -0.0127 -0.0037 830  ASP A CB  \n1023 C  CG  . ASP A 138 ? 0.3517 0.4220 0.5013 -0.0076 -0.0123 -0.0029 830  ASP A CG  \n1024 O  OD1 . ASP A 138 ? 0.3534 0.4276 0.5086 -0.0080 -0.0106 -0.0011 830  ASP A OD1 \n1025 O  OD2 . ASP A 138 ? 0.3670 0.4331 0.5118 -0.0077 -0.0135 -0.0042 830  ASP A OD2 \n1026 N  N   . ARG A 139 ? 0.2447 0.3112 0.3820 -0.0057 -0.0120 -0.0067 831  ARG A N   \n1027 C  CA  . ARG A 139 ? 0.2861 0.3495 0.4191 -0.0063 -0.0137 -0.0072 831  ARG A CA  \n1028 C  C   . ARG A 139 ? 0.3278 0.3880 0.4524 -0.0066 -0.0122 -0.0094 831  ARG A C   \n1029 O  O   . ARG A 139 ? 0.3677 0.4246 0.4871 -0.0076 -0.0132 -0.0099 831  ARG A O   \n1030 C  CB  . ARG A 139 ? 0.3281 0.3942 0.4641 -0.0053 -0.0129 -0.0063 831  ARG A CB  \n1031 C  CG  . ARG A 139 ? 0.5493 0.6181 0.6935 -0.0049 -0.0150 -0.0043 831  ARG A CG  \n1032 C  CD  . ARG A 139 ? 0.6223 0.6872 0.7664 -0.0066 -0.0200 -0.0036 831  ARG A CD  \n1033 N  NE  . ARG A 139 ? 0.7011 0.7682 0.8531 -0.0064 -0.0231 -0.0017 831  ARG A NE  \n1034 C  CZ  . ARG A 139 ? 0.6608 0.7280 0.8142 -0.0051 -0.0242 -0.0015 831  ARG A CZ  \n1035 N  NH1 . ARG A 139 ? 0.4717 0.5413 0.6335 -0.0046 -0.0273 0.0000  831  ARG A NH1 \n1036 N  NH2 . ARG A 139 ? 0.8824 0.9473 1.0291 -0.0044 -0.0223 -0.0028 831  ARG A NH2 \n1037 N  N   . ARG A 140 ? 0.3438 0.4049 0.4673 -0.0059 -0.0099 -0.0108 832  ARG A N   \n1038 C  CA  . ARG A 140 ? 0.2688 0.3284 0.3860 -0.0060 -0.0077 -0.0130 832  ARG A CA  \n1039 C  C   . ARG A 140 ? 0.2808 0.3420 0.3960 -0.0063 -0.0057 -0.0132 832  ARG A C   \n1040 O  O   . ARG A 140 ? 0.4504 0.5093 0.5596 -0.0075 -0.0049 -0.0143 832  ARG A O   \n1041 C  CB  . ARG A 140 ? 0.2841 0.3375 0.3945 -0.0071 -0.0098 -0.0141 832  ARG A CB  \n1042 C  CG  . ARG A 140 ? 0.4358 0.4866 0.5476 -0.0069 -0.0124 -0.0139 832  ARG A CG  \n1043 C  CD  . ARG A 140 ? 0.5166 0.5598 0.6205 -0.0080 -0.0149 -0.0150 832  ARG A CD  \n1044 N  NE  . ARG A 140 ? 0.5085 0.5499 0.6058 -0.0072 -0.0117 -0.0178 832  ARG A NE  \n1045 C  CZ  . ARG A 140 ? 0.7086 0.7431 0.7968 -0.0081 -0.0123 -0.0193 832  ARG A CZ  \n1046 N  NH1 . ARG A 140 ? 0.7962 0.8305 0.8795 -0.0070 -0.0083 -0.0220 832  ARG A NH1 \n1047 N  NH2 . ARG A 140 ? 0.6245 0.6521 0.7082 -0.0099 -0.0168 -0.0182 832  ARG A NH2 \n1048 N  N   . LEU A 141 ? 0.2907 0.3555 0.4103 -0.0055 -0.0048 -0.0120 833  LEU A N   \n1049 C  CA  . LEU A 141 ? 0.3721 0.4378 0.4899 -0.0058 -0.0034 -0.0119 833  LEU A CA  \n1050 C  C   . LEU A 141 ? 0.3766 0.4462 0.4969 -0.0047 -0.0007 -0.0122 833  LEU A C   \n1051 O  O   . LEU A 141 ? 0.3213 0.3928 0.4457 -0.0034 -0.0004 -0.0112 833  LEU A O   \n1052 C  CB  . LEU A 141 ? 0.3742 0.4393 0.4941 -0.0055 -0.0054 -0.0102 833  LEU A CB  \n1053 C  CG  . LEU A 141 ? 0.4258 0.4891 0.5419 -0.0061 -0.0056 -0.0099 833  LEU A CG  \n1054 C  CD1 . LEU A 141 ? 0.5465 0.6095 0.6662 -0.0049 -0.0076 -0.0085 833  LEU A CD1 \n1055 C  CD2 . LEU A 141 ? 0.6011 0.6667 0.7163 -0.0060 -0.0028 -0.0103 833  LEU A CD2 \n1056 N  N   . VAL A 142 ? 0.2756 0.3463 0.3933 -0.0052 0.0011  -0.0136 834  VAL A N   \n1057 C  CA  . VAL A 142 ? 0.2583 0.3323 0.3784 -0.0044 0.0029  -0.0139 834  VAL A CA  \n1058 C  C   . VAL A 142 ? 0.2312 0.3049 0.3502 -0.0050 0.0028  -0.0126 834  VAL A C   \n1059 O  O   . VAL A 142 ? 0.2926 0.3642 0.4076 -0.0066 0.0022  -0.0124 834  VAL A O   \n1060 C  CB  . VAL A 142 ? 0.2625 0.3387 0.3815 -0.0049 0.0049  -0.0157 834  VAL A CB  \n1061 C  CG1 . VAL A 142 ? 0.2351 0.3148 0.3580 -0.0039 0.0059  -0.0158 834  VAL A CG1 \n1062 C  CG2 . VAL A 142 ? 0.2941 0.3690 0.4126 -0.0041 0.0049  -0.0172 834  VAL A CG2 \n1063 N  N   . HIS A 143 ? 0.2424 0.3173 0.3641 -0.0037 0.0031  -0.0119 835  HIS A N   \n1064 C  CA  . HIS A 143 ? 0.2303 0.3038 0.3504 -0.0037 0.0029  -0.0108 835  HIS A CA  \n1065 C  C   . HIS A 143 ? 0.2785 0.3524 0.3958 -0.0054 0.0033  -0.0111 835  HIS A C   \n1066 O  O   . HIS A 143 ? 0.2772 0.3489 0.3905 -0.0070 0.0026  -0.0107 835  HIS A O   \n1067 C  CB  . HIS A 143 ? 0.2254 0.2991 0.3477 -0.0020 0.0035  -0.0101 835  HIS A CB  \n1068 C  CG  . HIS A 143 ? 0.2639 0.3350 0.3840 -0.0013 0.0033  -0.0090 835  HIS A CG  \n1069 N  ND1 . HIS A 143 ? 0.2639 0.3331 0.3801 -0.0022 0.0028  -0.0089 835  HIS A ND1 \n1070 C  CD2 . HIS A 143 ? 0.3124 0.3823 0.4335 0.0003  0.0037  -0.0082 835  HIS A CD2 \n1071 C  CE1 . HIS A 143 ? 0.2792 0.3452 0.3931 -0.0010 0.0026  -0.0081 835  HIS A CE1 \n1072 N  NE2 . HIS A 143 ? 0.2829 0.3498 0.4002 0.0008  0.0035  -0.0078 835  HIS A NE2 \n1073 N  N   . ARG A 144 ? 0.2578 0.3346 0.3775 -0.0053 0.0043  -0.0119 836  ARG A N   \n1074 C  CA  . ARG A 144 ? 0.2466 0.3254 0.3657 -0.0070 0.0048  -0.0121 836  ARG A CA  \n1075 C  C   . ARG A 144 ? 0.3245 0.4013 0.4417 -0.0075 0.0037  -0.0108 836  ARG A C   \n1076 O  O   . ARG A 144 ? 0.3320 0.4106 0.4494 -0.0093 0.0036  -0.0108 836  ARG A O   \n1077 C  CB  . ARG A 144 ? 0.3143 0.3933 0.4301 -0.0095 0.0055  -0.0126 836  ARG A CB  \n1078 C  CG  . ARG A 144 ? 0.3063 0.3864 0.4226 -0.0093 0.0068  -0.0141 836  ARG A CG  \n1079 C  CD  . ARG A 144 ? 0.3889 0.4679 0.5002 -0.0120 0.0077  -0.0144 836  ARG A CD  \n1080 N  NE  . ARG A 144 ? 0.3925 0.4712 0.5027 -0.0116 0.0089  -0.0160 836  ARG A NE  \n1081 C  CZ  . ARG A 144 ? 0.4796 0.5540 0.5869 -0.0112 0.0073  -0.0159 836  ARG A CZ  \n1082 N  NH1 . ARG A 144 ? 0.4962 0.5672 0.6027 -0.0109 0.0047  -0.0144 836  ARG A NH1 \n1083 N  NH2 . ARG A 144 ? 0.5225 0.5957 0.6277 -0.0110 0.0083  -0.0175 836  ARG A NH2 \n1084 N  N   . ASP A 145 ? 0.2918 0.3649 0.4072 -0.0060 0.0028  -0.0099 837  ASP A N   \n1085 C  CA  . ASP A 145 ? 0.3226 0.3922 0.4347 -0.0061 0.0017  -0.0089 837  ASP A CA  \n1086 C  C   . ASP A 145 ? 0.2545 0.3213 0.3662 -0.0036 0.0019  -0.0083 837  ASP A C   \n1087 O  O   . ASP A 145 ? 0.2949 0.3572 0.4025 -0.0028 0.0014  -0.0076 837  ASP A O   \n1088 C  CB  . ASP A 145 ? 0.3879 0.4540 0.4949 -0.0078 0.0005  -0.0082 837  ASP A CB  \n1089 C  CG  . ASP A 145 ? 0.4482 0.5099 0.5507 -0.0084 -0.0011 -0.0072 837  ASP A CG  \n1090 O  OD1 . ASP A 145 ? 0.4477 0.5045 0.5450 -0.0087 -0.0024 -0.0066 837  ASP A OD1 \n1091 O  OD2 . ASP A 145 ? 0.4400 0.5023 0.5435 -0.0087 -0.0015 -0.0070 837  ASP A OD2 \n1092 N  N   . LEU A 146 ? 0.2286 0.2974 0.3440 -0.0023 0.0028  -0.0087 838  LEU A N   \n1093 C  CA  . LEU A 146 ? 0.2692 0.3353 0.3837 -0.0004 0.0034  -0.0081 838  LEU A CA  \n1094 C  C   . LEU A 146 ? 0.3420 0.4044 0.4528 -0.0006 0.0024  -0.0076 838  LEU A C   \n1095 O  O   . LEU A 146 ? 0.2428 0.3066 0.3549 -0.0017 0.0011  -0.0079 838  LEU A O   \n1096 C  CB  . LEU A 146 ? 0.2292 0.2976 0.3477 0.0004  0.0043  -0.0084 838  LEU A CB  \n1097 C  CG  . LEU A 146 ? 0.2123 0.2779 0.3295 0.0018  0.0055  -0.0075 838  LEU A CG  \n1098 C  CD1 . LEU A 146 ? 0.2430 0.3078 0.3599 0.0029  0.0070  -0.0069 838  LEU A CD1 \n1099 C  CD2 . LEU A 146 ? 0.2684 0.3358 0.3892 0.0019  0.0058  -0.0077 838  LEU A CD2 \n1100 N  N   . ALA A 147 ? 0.2679 0.3253 0.3740 0.0005  0.0029  -0.0069 839  ALA A N   \n1101 C  CA  . ALA A 147 ? 0.2880 0.3398 0.3884 0.0005  0.0017  -0.0063 839  ALA A CA  \n1102 C  C   . ALA A 147 ? 0.2938 0.3407 0.3896 0.0026  0.0036  -0.0059 839  ALA A C   \n1103 O  O   . ALA A 147 ? 0.3003 0.3488 0.3980 0.0039  0.0053  -0.0061 839  ALA A O   \n1104 C  CB  . ALA A 147 ? 0.2913 0.3414 0.3888 -0.0014 -0.0006 -0.0061 839  ALA A CB  \n1105 N  N   . ALA A 148 ? 0.2782 0.3191 0.3681 0.0031  0.0035  -0.0055 840  ALA A N   \n1106 C  CA  . ALA A 148 ? 0.3170 0.3526 0.4015 0.0053  0.0060  -0.0053 840  ALA A CA  \n1107 C  C   . ALA A 148 ? 0.3748 0.4080 0.4564 0.0065  0.0060  -0.0056 840  ALA A C   \n1108 O  O   . ALA A 148 ? 0.2922 0.3251 0.3738 0.0090  0.0088  -0.0058 840  ALA A O   \n1109 C  CB  . ALA A 148 ? 0.3648 0.3926 0.4413 0.0053  0.0054  -0.0048 840  ALA A CB  \n1110 N  N   . ARG A 149 ? 0.2988 0.3306 0.3783 0.0048  0.0028  -0.0055 841  ARG A N   \n1111 C  CA  . ARG A 149 ? 0.3912 0.4204 0.4679 0.0056  0.0020  -0.0057 841  ARG A CA  \n1112 C  C   . ARG A 149 ? 0.3389 0.3737 0.4220 0.0067  0.0033  -0.0062 841  ARG A C   \n1113 O  O   . ARG A 149 ? 0.3461 0.3780 0.4270 0.0086  0.0033  -0.0065 841  ARG A O   \n1114 C  CB  . ARG A 149 ? 0.3254 0.3523 0.3989 0.0026  -0.0018 -0.0052 841  ARG A CB  \n1115 C  CG  . ARG A 149 ? 0.3017 0.3362 0.3821 0.0000  -0.0028 -0.0053 841  ARG A CG  \n1116 C  CD  . ARG A 149 ? 0.3369 0.3701 0.4149 -0.0035 -0.0061 -0.0045 841  ARG A CD  \n1117 N  NE  . ARG A 149 ? 0.3541 0.3954 0.4393 -0.0058 -0.0058 -0.0048 841  ARG A NE  \n1118 C  CZ  . ARG A 149 ? 0.4556 0.5014 0.5456 -0.0069 -0.0060 -0.0048 841  ARG A CZ  \n1119 N  NH1 . ARG A 149 ? 0.3996 0.4418 0.4875 -0.0064 -0.0071 -0.0044 841  ARG A NH1 \n1120 N  NH2 . ARG A 149 ? 0.3827 0.4359 0.4793 -0.0084 -0.0051 -0.0054 841  ARG A NH2 \n1121 N  N   . ASN A 150 ? 0.2986 0.3407 0.3894 0.0056  0.0041  -0.0062 842  ASN A N   \n1122 C  CA  . ASN A 150 ? 0.3323 0.3794 0.4292 0.0061  0.0046  -0.0065 842  ASN A CA  \n1123 C  C   . ASN A 150 ? 0.2613 0.3121 0.3636 0.0081  0.0076  -0.0065 842  ASN A C   \n1124 O  O   . ASN A 150 ? 0.2997 0.3555 0.4083 0.0079  0.0077  -0.0065 842  ASN A O   \n1125 C  CB  . ASN A 150 ? 0.3173 0.3690 0.4177 0.0033  0.0030  -0.0067 842  ASN A CB  \n1126 C  CG  . ASN A 150 ? 0.4294 0.4782 0.5252 0.0011  0.0004  -0.0065 842  ASN A CG  \n1127 O  OD1 . ASN A 150 ? 0.3412 0.3850 0.4324 0.0020  -0.0007 -0.0064 842  ASN A OD1 \n1128 N  ND2 . ASN A 150 ? 0.3278 0.3796 0.4250 -0.0017 -0.0004 -0.0066 842  ASN A ND2 \n1129 N  N   . VAL A 151 ? 0.2519 0.2996 0.3511 0.0097  0.0099  -0.0063 843  VAL A N   \n1130 C  CA  . VAL A 151 ? 0.3401 0.3906 0.4435 0.0116  0.0135  -0.0060 843  VAL A CA  \n1131 C  C   . VAL A 151 ? 0.3500 0.3961 0.4494 0.0148  0.0154  -0.0064 843  VAL A C   \n1132 O  O   . VAL A 151 ? 0.3605 0.3996 0.4514 0.0154  0.0152  -0.0066 843  VAL A O   \n1133 C  CB  . VAL A 151 ? 0.3035 0.3535 0.4057 0.0107  0.0152  -0.0055 843  VAL A CB  \n1134 C  CG1 . VAL A 151 ? 0.2925 0.3456 0.3991 0.0120  0.0192  -0.0050 843  VAL A CG1 \n1135 C  CG2 . VAL A 151 ? 0.2531 0.3066 0.3588 0.0080  0.0128  -0.0055 843  VAL A CG2 \n1136 N  N   . LEU A 152 ? 0.3408 0.3908 0.4464 0.0170  0.0170  -0.0065 844  LEU A N   \n1137 C  CA  . LEU A 152 ? 0.3145 0.3611 0.4176 0.0208  0.0189  -0.0072 844  LEU A CA  \n1138 C  C   . LEU A 152 ? 0.3522 0.4021 0.4594 0.0230  0.0242  -0.0070 844  LEU A C   \n1139 O  O   . LEU A 152 ? 0.3217 0.3784 0.4370 0.0217  0.0255  -0.0062 844  LEU A O   \n1140 C  CB  . LEU A 152 ? 0.3413 0.3893 0.4485 0.0221  0.0160  -0.0077 844  LEU A CB  \n1141 C  CG  . LEU A 152 ? 0.3468 0.3911 0.4492 0.0196  0.0110  -0.0077 844  LEU A CG  \n1142 C  CD1 . LEU A 152 ? 0.3691 0.4127 0.4733 0.0208  0.0079  -0.0081 844  LEU A CD1 \n1143 C  CD2 . LEU A 152 ? 0.4076 0.4436 0.4991 0.0191  0.0101  -0.0079 844  LEU A CD2 \n1144 N  N   . VAL A 153 ? 0.3750 0.4196 0.4762 0.0261  0.0272  -0.0078 845  VAL A N   \n1145 C  CA  . VAL A 153 ? 0.4231 0.4704 0.5273 0.0284  0.0332  -0.0078 845  VAL A CA  \n1146 C  C   . VAL A 153 ? 0.4480 0.5015 0.5621 0.0320  0.0348  -0.0083 845  VAL A C   \n1147 O  O   . VAL A 153 ? 0.4598 0.5093 0.5712 0.0355  0.0340  -0.0095 845  VAL A O   \n1148 C  CB  . VAL A 153 ? 0.4368 0.4746 0.5284 0.0301  0.0362  -0.0085 845  VAL A CB  \n1149 C  CG1 . VAL A 153 ? 0.3912 0.4315 0.4848 0.0323  0.0433  -0.0085 845  VAL A CG1 \n1150 C  CG2 . VAL A 153 ? 0.3953 0.4271 0.4781 0.0264  0.0337  -0.0077 845  VAL A CG2 \n1151 N  N   . LYS A 154 ? 0.3941 0.4571 0.5201 0.0311  0.0365  -0.0073 846  LYS A N   \n1152 C  CA  . LYS A 154 ? 0.4828 0.5529 0.6200 0.0345  0.0386  -0.0075 846  LYS A CA  \n1153 C  C   . LYS A 154 ? 0.4150 0.4851 0.5509 0.0375  0.0460  -0.0080 846  LYS A C   \n1154 O  O   . LYS A 154 ? 0.4911 0.5598 0.6270 0.0422  0.0480  -0.0095 846  LYS A O   \n1155 C  CB  . LYS A 154 ? 0.3972 0.4772 0.5476 0.0320  0.0372  -0.0060 846  LYS A CB  \n1156 C  CG  . LYS A 154 ? 0.5679 0.6557 0.7315 0.0353  0.0380  -0.0061 846  LYS A CG  \n1157 C  CD  . LYS A 154 ? 0.6311 0.7286 0.8073 0.0323  0.0381  -0.0042 846  LYS A CD  \n1158 C  CE  . LYS A 154 ? 0.8648 0.9683 1.0532 0.0337  0.0340  -0.0040 846  LYS A CE  \n1159 N  NZ  . LYS A 154 ? 0.6703 0.7794 0.8681 0.0386  0.0380  -0.0046 846  LYS A NZ  \n1160 N  N   . THR A 155 ? 0.3995 0.4706 0.5335 0.0348  0.0499  -0.0068 847  THR A N   \n1161 C  CA  . THR A 155 ? 0.4406 0.5088 0.5687 0.0366  0.0571  -0.0072 847  THR A CA  \n1162 C  C   . THR A 155 ? 0.5646 0.6256 0.6811 0.0326  0.0570  -0.0064 847  THR A C   \n1163 O  O   . THR A 155 ? 0.5342 0.5963 0.6518 0.0287  0.0525  -0.0053 847  THR A O   \n1164 C  CB  . THR A 155 ? 0.4591 0.5379 0.5997 0.0372  0.0634  -0.0063 847  THR A CB  \n1165 O  OG1 . THR A 155 ? 0.4338 0.5175 0.5788 0.0320  0.0631  -0.0041 847  THR A OG1 \n1166 C  CG2 . THR A 155 ? 0.5178 0.6057 0.6732 0.0406  0.0622  -0.0068 847  THR A CG2 \n1167 N  N   . PRO A 156 ? 0.5518 0.6051 0.6568 0.0338  0.0617  -0.0069 848  PRO A N   \n1168 C  CA  . PRO A 156 ? 0.5172 0.5631 0.6111 0.0299  0.0613  -0.0059 848  PRO A CA  \n1169 C  C   . PRO A 156 ? 0.5173 0.5702 0.6187 0.0253  0.0609  -0.0039 848  PRO A C   \n1170 O  O   . PRO A 156 ? 0.5339 0.5819 0.6290 0.0218  0.0575  -0.0031 848  PRO A O   \n1171 C  CB  . PRO A 156 ? 0.5562 0.5957 0.6402 0.0320  0.0684  -0.0066 848  PRO A CB  \n1172 C  CG  . PRO A 156 ? 0.6456 0.6839 0.7296 0.0377  0.0702  -0.0087 848  PRO A CG  \n1173 C  CD  . PRO A 156 ? 0.6294 0.6780 0.7288 0.0389  0.0666  -0.0088 848  PRO A CD  \n1174 N  N   . GLN A 157 ? 0.4885 0.5522 0.6033 0.0253  0.0640  -0.0030 849  GLN A N   \n1175 C  CA  . GLN A 157 ? 0.4706 0.5402 0.5921 0.0207  0.0632  -0.0009 849  GLN A CA  \n1176 C  C   . GLN A 157 ? 0.4699 0.5470 0.6032 0.0194  0.0572  -0.0004 849  GLN A C   \n1177 O  O   . GLN A 157 ? 0.5003 0.5829 0.6406 0.0160  0.0563  0.0012  849  GLN A O   \n1178 C  CB  . GLN A 157 ? 0.6706 0.7463 0.7977 0.0200  0.0707  0.0004  849  GLN A CB  \n1179 C  CG  . GLN A 157 ? 0.7676 0.8513 0.9050 0.0242  0.0758  -0.0003 849  GLN A CG  \n1180 C  CD  . GLN A 157 ? 0.7219 0.7984 0.8491 0.0288  0.0809  -0.0023 849  GLN A CD  \n1181 O  OE1 . GLN A 157 ? 0.7378 0.8149 0.8677 0.0335  0.0804  -0.0042 849  GLN A OE1 \n1182 N  NE2 . GLN A 157 ? 0.7377 0.8063 0.8521 0.0274  0.0855  -0.0020 849  GLN A NE2 \n1183 N  N   . HIS A 158 ? 0.4787 0.5549 0.6128 0.0218  0.0529  -0.0018 850  HIS A N   \n1184 C  CA  . HIS A 158 ? 0.3820 0.4638 0.5254 0.0208  0.0472  -0.0015 850  HIS A CA  \n1185 C  C   . HIS A 158 ? 0.3816 0.4571 0.5181 0.0215  0.0417  -0.0029 850  HIS A C   \n1186 O  O   . HIS A 158 ? 0.4160 0.4887 0.5502 0.0249  0.0414  -0.0043 850  HIS A O   \n1187 C  CB  . HIS A 158 ? 0.5193 0.6100 0.6759 0.0233  0.0486  -0.0014 850  HIS A CB  \n1188 C  CG  . HIS A 158 ? 0.6223 0.7185 0.7886 0.0217  0.0430  -0.0008 850  HIS A CG  \n1189 N  ND1 . HIS A 158 ? 0.7603 0.8659 0.9405 0.0217  0.0435  0.0003  850  HIS A ND1 \n1190 C  CD2 . HIS A 158 ? 0.5044 0.5978 0.6681 0.0200  0.0368  -0.0011 850  HIS A CD2 \n1191 C  CE1 . HIS A 158 ? 0.6793 0.7865 0.8640 0.0201  0.0374  0.0006  850  HIS A CE1 \n1192 N  NE2 . HIS A 158 ? 0.5429 0.6428 0.7175 0.0191  0.0336  -0.0003 850  HIS A NE2 \n1193 N  N   . VAL A 159 ? 0.3189 0.3921 0.4522 0.0183  0.0373  -0.0026 851  VAL A N   \n1194 C  CA  . VAL A 159 ? 0.2849 0.3532 0.4125 0.0183  0.0323  -0.0037 851  VAL A CA  \n1195 C  C   . VAL A 159 ? 0.3025 0.3753 0.4369 0.0164  0.0276  -0.0034 851  VAL A C   \n1196 O  O   . VAL A 159 ? 0.3993 0.4774 0.5408 0.0145  0.0274  -0.0024 851  VAL A O   \n1197 C  CB  . VAL A 159 ? 0.2840 0.3445 0.4004 0.0166  0.0311  -0.0038 851  VAL A CB  \n1198 C  CG1 . VAL A 159 ? 0.3096 0.3638 0.4174 0.0184  0.0353  -0.0041 851  VAL A CG1 \n1199 C  CG2 . VAL A 159 ? 0.3150 0.3771 0.4328 0.0132  0.0301  -0.0028 851  VAL A CG2 \n1200 N  N   . LYS A 160 ? 0.2576 0.3277 0.3893 0.0169  0.0238  -0.0043 852  LYS A N   \n1201 C  CA  . LYS A 160 ? 0.3099 0.3830 0.4465 0.0153  0.0195  -0.0043 852  LYS A CA  \n1202 C  C   . LYS A 160 ? 0.3318 0.4003 0.4614 0.0136  0.0160  -0.0050 852  LYS A C   \n1203 O  O   . LYS A 160 ? 0.3538 0.4169 0.4761 0.0146  0.0157  -0.0056 852  LYS A O   \n1204 C  CB  . LYS A 160 ? 0.3028 0.3780 0.4449 0.0178  0.0184  -0.0046 852  LYS A CB  \n1205 C  CG  . LYS A 160 ? 0.3747 0.4558 0.5258 0.0199  0.0219  -0.0039 852  LYS A CG  \n1206 C  CD  . LYS A 160 ? 0.4201 0.5032 0.5773 0.0226  0.0199  -0.0044 852  LYS A CD  \n1207 C  CE  . LYS A 160 ? 0.4913 0.5779 0.6553 0.0205  0.0152  -0.0036 852  LYS A CE  \n1208 N  NZ  . LYS A 160 ? 0.5999 0.6891 0.7716 0.0232  0.0131  -0.0037 852  LYS A NZ  \n1209 N  N   . ILE A 161 ? 0.2815 0.3522 0.4134 0.0112  0.0132  -0.0049 853  ILE A N   \n1210 C  CA  . ILE A 161 ? 0.3166 0.3845 0.4432 0.0093  0.0104  -0.0056 853  ILE A CA  \n1211 C  C   . ILE A 161 ? 0.3359 0.4024 0.4618 0.0093  0.0075  -0.0060 853  ILE A C   \n1212 O  O   . ILE A 161 ? 0.3347 0.4037 0.4659 0.0100  0.0064  -0.0057 853  ILE A O   \n1213 C  CB  . ILE A 161 ? 0.2598 0.3303 0.3886 0.0068  0.0093  -0.0056 853  ILE A CB  \n1214 C  CG1 . ILE A 161 ? 0.2723 0.3431 0.4012 0.0066  0.0115  -0.0051 853  ILE A CG1 \n1215 C  CG2 . ILE A 161 ? 0.3457 0.4144 0.4703 0.0050  0.0071  -0.0064 853  ILE A CG2 \n1216 C  CD1 . ILE A 161 ? 0.3945 0.4682 0.5275 0.0049  0.0106  -0.0049 853  ILE A CD1 \n1217 N  N   . THR A 162 ? 0.2592 0.3215 0.3785 0.0085  0.0059  -0.0064 854  THR A N   \n1218 C  CA  . THR A 162 ? 0.2861 0.3459 0.4029 0.0078  0.0029  -0.0067 854  THR A CA  \n1219 C  C   . THR A 162 ? 0.2984 0.3569 0.4106 0.0046  0.0013  -0.0069 854  THR A C   \n1220 O  O   . THR A 162 ? 0.3447 0.4046 0.4566 0.0035  0.0024  -0.0070 854  THR A O   \n1221 C  CB  . THR A 162 ? 0.2564 0.3112 0.3691 0.0103  0.0025  -0.0068 854  THR A CB  \n1222 O  OG1 . THR A 162 ? 0.2685 0.3207 0.3796 0.0098  -0.0009 -0.0069 854  THR A OG1 \n1223 C  CG2 . THR A 162 ? 0.3036 0.3532 0.4084 0.0099  0.0027  -0.0070 854  THR A CG2 \n1224 N  N   . ASP A 163 ? 0.2771 0.3330 0.3861 0.0031  -0.0013 -0.0070 855  ASP A N   \n1225 C  CA  . ASP A 163 ? 0.3725 0.4269 0.4764 -0.0001 -0.0025 -0.0071 855  ASP A CA  \n1226 C  C   . ASP A 163 ? 0.2956 0.3544 0.4023 -0.0023 -0.0017 -0.0076 855  ASP A C   \n1227 O  O   . ASP A 163 ? 0.4732 0.5325 0.5774 -0.0047 -0.0016 -0.0078 855  ASP A O   \n1228 C  CB  . ASP A 163 ? 0.3851 0.4371 0.4849 -0.0004 -0.0020 -0.0069 855  ASP A CB  \n1229 C  CG  . ASP A 163 ? 0.5026 0.5505 0.5959 -0.0032 -0.0042 -0.0066 855  ASP A CG  \n1230 O  OD1 . ASP A 163 ? 0.4714 0.5158 0.5615 -0.0038 -0.0064 -0.0064 855  ASP A OD1 \n1231 O  OD2 . ASP A 163 ? 0.4940 0.5419 0.5854 -0.0050 -0.0042 -0.0063 855  ASP A OD2 \n1232 N  N   . PHE A 164 ? 0.3455 0.4071 0.4571 -0.0013 -0.0013 -0.0077 856  PHE A N   \n1233 C  CA  . PHE A 164 ? 0.2923 0.3570 0.4059 -0.0028 -0.0007 -0.0084 856  PHE A CA  \n1234 C  C   . PHE A 164 ? 0.4270 0.4895 0.5366 -0.0052 -0.0024 -0.0087 856  PHE A C   \n1235 O  O   . PHE A 164 ? 0.3875 0.4466 0.4953 -0.0052 -0.0047 -0.0082 856  PHE A O   \n1236 C  CB  . PHE A 164 ? 0.3394 0.4067 0.4588 -0.0013 -0.0003 -0.0082 856  PHE A CB  \n1237 C  CG  . PHE A 164 ? 0.4110 0.4775 0.5332 0.0000  -0.0018 -0.0074 856  PHE A CG  \n1238 C  CD1 . PHE A 164 ? 0.4347 0.5018 0.5598 0.0025  -0.0007 -0.0068 856  PHE A CD1 \n1239 C  CD2 . PHE A 164 ? 0.3824 0.4474 0.5044 -0.0009 -0.0044 -0.0074 856  PHE A CD2 \n1240 C  CE1 . PHE A 164 ? 0.3572 0.4246 0.4864 0.0041  -0.0019 -0.0062 856  PHE A CE1 \n1241 C  CE2 . PHE A 164 ? 0.4610 0.5256 0.5868 0.0004  -0.0064 -0.0066 856  PHE A CE2 \n1242 C  CZ  . PHE A 164 ? 0.3281 0.3944 0.4581 0.0031  -0.0051 -0.0061 856  PHE A CZ  \n1243 N  N   . GLY A 165 ? 0.3466 0.4107 0.4547 -0.0073 -0.0012 -0.0095 857  GLY A N   \n1244 C  CA  . GLY A 165 ? 0.3407 0.4025 0.4441 -0.0098 -0.0020 -0.0099 857  GLY A CA  \n1245 C  C   . GLY A 165 ? 0.3942 0.4527 0.4913 -0.0124 -0.0028 -0.0095 857  GLY A C   \n1246 O  O   . GLY A 165 ? 0.4113 0.4668 0.5031 -0.0149 -0.0034 -0.0096 857  GLY A O   \n1247 N  N   . LEU A 166 ? 0.4096 0.4675 0.5061 -0.0121 -0.0030 -0.0088 858  LEU A N   \n1248 C  CA  . LEU A 166 ? 0.3812 0.4352 0.4713 -0.0148 -0.0043 -0.0081 858  LEU A CA  \n1249 C  C   . LEU A 166 ? 0.4139 0.4714 0.5031 -0.0180 -0.0019 -0.0085 858  LEU A C   \n1250 O  O   . LEU A 166 ? 0.4059 0.4608 0.4894 -0.0215 -0.0022 -0.0081 858  LEU A O   \n1251 C  CB  . LEU A 166 ? 0.4737 0.5250 0.5629 -0.0133 -0.0056 -0.0072 858  LEU A CB  \n1252 C  CG  . LEU A 166 ? 0.5130 0.5574 0.5949 -0.0149 -0.0085 -0.0063 858  LEU A CG  \n1253 C  CD1 . LEU A 166 ? 0.5555 0.5952 0.6346 -0.0145 -0.0113 -0.0061 858  LEU A CD1 \n1254 C  CD2 . LEU A 166 ? 0.4102 0.4521 0.4917 -0.0124 -0.0094 -0.0058 858  LEU A CD2 \n1255 N  N   . ALA A 167 ? 0.3981 0.4613 0.4931 -0.0169 0.0003  -0.0091 859  ALA A N   \n1256 C  CA  . ALA A 167 ? 0.4244 0.4923 0.5207 -0.0193 0.0027  -0.0097 859  ALA A CA  \n1257 C  C   . ALA A 167 ? 0.4541 0.5224 0.5478 -0.0211 0.0045  -0.0107 859  ALA A C   \n1258 O  O   . ALA A 167 ? 0.4212 0.4910 0.5125 -0.0244 0.0063  -0.0108 859  ALA A O   \n1259 C  CB  . ALA A 167 ? 0.3835 0.4571 0.4870 -0.0172 0.0042  -0.0104 859  ALA A CB  \n1260 N  N   . LYS A 168 ? 0.3944 0.4610 0.4883 -0.0191 0.0040  -0.0115 860  LYS A N   \n1261 C  CA  . LYS A 168 ? 0.4631 0.5280 0.5527 -0.0207 0.0051  -0.0125 860  LYS A CA  \n1262 C  C   . LYS A 168 ? 0.4276 0.4859 0.5084 -0.0240 0.0032  -0.0114 860  LYS A C   \n1263 O  O   . LYS A 168 ? 0.5035 0.5608 0.5790 -0.0272 0.0051  -0.0118 860  LYS A O   \n1264 C  CB  . LYS A 168 ? 0.5459 0.6094 0.6373 -0.0180 0.0041  -0.0132 860  LYS A CB  \n1265 C  CG  . LYS A 168 ? 0.6211 0.6798 0.7055 -0.0198 0.0039  -0.0140 860  LYS A CG  \n1266 C  CD  . LYS A 168 ? 0.6370 0.6961 0.7238 -0.0176 0.0042  -0.0153 860  LYS A CD  \n1267 C  CE  . LYS A 168 ? 0.7906 0.8452 0.8695 -0.0195 0.0052  -0.0165 860  LYS A CE  \n1268 N  NZ  . LYS A 168 ? 0.8792 0.9347 0.9600 -0.0173 0.0064  -0.0183 860  LYS A NZ  \n1269 N  N   . LEU A 169 ? 0.4018 0.4553 0.4810 -0.0231 -0.0004 -0.0102 861  LEU A N   \n1270 C  CA  . LEU A 169 ? 0.4997 0.5455 0.5702 -0.0258 -0.0033 -0.0092 861  LEU A CA  \n1271 C  C   . LEU A 169 ? 0.5116 0.5569 0.5769 -0.0301 -0.0020 -0.0084 861  LEU A C   \n1272 O  O   . LEU A 169 ? 0.5070 0.5471 0.5639 -0.0338 -0.0026 -0.0080 861  LEU A O   \n1273 C  CB  . LEU A 169 ? 0.5362 0.5777 0.6073 -0.0234 -0.0075 -0.0081 861  LEU A CB  \n1274 C  CG  . LEU A 169 ? 0.7381 0.7708 0.8009 -0.0253 -0.0117 -0.0070 861  LEU A CG  \n1275 C  CD1 . LEU A 169 ? 0.9177 0.9452 0.9743 -0.0274 -0.0130 -0.0073 861  LEU A CD1 \n1276 C  CD2 . LEU A 169 ? 0.5587 0.5890 0.6249 -0.0215 -0.0151 -0.0064 861  LEU A CD2 \n1277 N  N   . LEU A 170 ? 0.5120 0.5625 0.5823 -0.0299 -0.0005 -0.0081 862  LEU A N   \n1278 C  CA  . LEU A 170 ? 0.5600 0.6107 0.6268 -0.0341 0.0000  -0.0070 862  LEU A CA  \n1279 C  C   . LEU A 170 ? 0.5690 0.6265 0.6378 -0.0368 0.0048  -0.0079 862  LEU A C   \n1280 O  O   . LEU A 170 ? 0.5828 0.6420 0.6501 -0.0408 0.0059  -0.0069 862  LEU A O   \n1281 C  CB  . LEU A 170 ? 0.5311 0.5827 0.6014 -0.0327 -0.0016 -0.0060 862  LEU A CB  \n1282 C  CG  . LEU A 170 ? 0.5454 0.5893 0.6117 -0.0309 -0.0062 -0.0050 862  LEU A CG  \n1283 C  CD1 . LEU A 170 ? 0.5737 0.6185 0.6432 -0.0291 -0.0070 -0.0044 862  LEU A CD1 \n1284 C  CD2 . LEU A 170 ? 0.5706 0.6061 0.6267 -0.0348 -0.0091 -0.0037 862  LEU A CD2 \n1285 N  N   . GLY A 171 ? 0.5806 0.6421 0.6532 -0.0347 0.0077  -0.0097 863  GLY A N   \n1286 C  CA  . GLY A 171 ? 0.5244 0.5922 0.5990 -0.0365 0.0127  -0.0110 863  GLY A CA  \n1287 C  C   . GLY A 171 ? 0.4499 0.5273 0.5347 -0.0354 0.0152  -0.0115 863  GLY A C   \n1288 O  O   . GLY A 171 ? 0.5782 0.6617 0.6654 -0.0377 0.0192  -0.0121 863  GLY A O   \n1289 N  N   . ALA A 172 ? 0.4607 0.5396 0.5517 -0.0318 0.0129  -0.0113 864  ALA A N   \n1290 C  CA  . ALA A 172 ? 0.4768 0.5635 0.5771 -0.0306 0.0140  -0.0116 864  ALA A CA  \n1291 C  C   . ALA A 172 ? 0.4245 0.5179 0.5314 -0.0280 0.0177  -0.0139 864  ALA A C   \n1292 O  O   . ALA A 172 ? 0.4703 0.5705 0.5856 -0.0268 0.0185  -0.0144 864  ALA A O   \n1293 C  CB  . ALA A 172 ? 0.4623 0.5470 0.5654 -0.0278 0.0105  -0.0106 864  ALA A CB  \n1294 N  N   . GLU A 173 ? 0.4016 0.4925 0.5046 -0.0270 0.0192  -0.0154 865  GLU A N   \n1295 C  CA  . GLU A 173 ? 0.4931 0.5890 0.6008 -0.0245 0.0228  -0.0180 865  GLU A CA  \n1296 C  C   . GLU A 173 ? 0.5388 0.6389 0.6452 -0.0276 0.0278  -0.0190 865  GLU A C   \n1297 O  O   . GLU A 173 ? 0.4377 0.5427 0.5481 -0.0255 0.0314  -0.0213 865  GLU A O   \n1298 C  CB  . GLU A 173 ? 0.4546 0.5449 0.5583 -0.0217 0.0217  -0.0192 865  GLU A CB  \n1299 C  CG  . GLU A 173 ? 0.6108 0.6977 0.7164 -0.0188 0.0175  -0.0182 865  GLU A CG  \n1300 C  CD  . GLU A 173 ? 0.7760 0.8593 0.8803 -0.0160 0.0166  -0.0194 865  GLU A CD  \n1301 O  OE1 . GLU A 173 ? 0.6465 0.7296 0.7549 -0.0133 0.0143  -0.0191 865  GLU A OE1 \n1302 O  OE2 . GLU A 173 ? 0.7467 0.8270 0.8454 -0.0168 0.0182  -0.0207 865  GLU A OE2 \n1303 N  N   . GLU A 174 ? 0.5312 0.6292 0.6318 -0.0324 0.0280  -0.0172 866  GLU A N   \n1304 C  CA  . GLU A 174 ? 0.5210 0.6227 0.6192 -0.0363 0.0330  -0.0177 866  GLU A CA  \n1305 C  C   . GLU A 174 ? 0.4482 0.5565 0.5523 -0.0398 0.0334  -0.0159 866  GLU A C   \n1306 O  O   . GLU A 174 ? 0.4220 0.5289 0.5283 -0.0398 0.0290  -0.0140 866  GLU A O   \n1307 C  CB  . GLU A 174 ? 0.5265 0.6187 0.6110 -0.0401 0.0329  -0.0170 866  GLU A CB  \n1308 C  CG  . GLU A 174 ? 0.6357 0.7215 0.7136 -0.0376 0.0332  -0.0190 866  GLU A CG  \n1309 C  CD  . GLU A 174 ? 0.8191 0.8985 0.8963 -0.0341 0.0276  -0.0184 866  GLU A CD  \n1310 O  OE1 . GLU A 174 ? 0.9575 1.0343 1.0336 -0.0310 0.0274  -0.0201 866  GLU A OE1 \n1311 O  OE2 . GLU A 174 ? 0.8109 0.8879 0.8886 -0.0345 0.0233  -0.0163 866  GLU A OE2 \n1312 N  N   . LYS A 175 ? 0.3976 0.5130 0.5043 -0.0428 0.0387  -0.0165 867  LYS A N   \n1313 C  CA  . LYS A 175 ? 0.5223 0.6461 0.6372 -0.0460 0.0394  -0.0148 867  LYS A CA  \n1314 C  C   . LYS A 175 ? 0.4677 0.5855 0.5746 -0.0519 0.0363  -0.0116 867  LYS A C   \n1315 O  O   . LYS A 175 ? 0.4393 0.5603 0.5516 -0.0540 0.0336  -0.0095 867  LYS A O   \n1316 C  CB  . LYS A 175 ? 0.3908 0.5254 0.5125 -0.0473 0.0467  -0.0165 867  LYS A CB  \n1317 C  CG  . LYS A 175 ? 0.4489 0.5804 0.5599 -0.0517 0.0519  -0.0169 867  LYS A CG  \n1318 C  CD  . LYS A 175 ? 0.4183 0.5576 0.5339 -0.0494 0.0595  -0.0202 867  LYS A CD  \n1319 C  CE  . LYS A 175 ? 0.4244 0.5564 0.5256 -0.0523 0.0640  -0.0212 867  LYS A CE  \n1320 N  NZ  . LYS A 175 ? 0.4857 0.6032 0.5734 -0.0511 0.0591  -0.0210 867  LYS A NZ  \n1321 N  N   . GLU A 176 ? 0.4400 0.5481 0.5337 -0.0545 0.0360  -0.0111 868  GLU A N   \n1322 C  CA  . GLU A 176 ? 0.5289 0.6301 0.6131 -0.0605 0.0334  -0.0082 868  GLU A CA  \n1323 C  C   . GLU A 176 ? 0.5488 0.6451 0.6333 -0.0598 0.0264  -0.0060 868  GLU A C   \n1324 O  O   . GLU A 176 ? 0.4754 0.5723 0.5600 -0.0642 0.0246  -0.0036 868  GLU A O   \n1325 C  CB  . GLU A 176 ? 0.6021 0.6923 0.6715 -0.0625 0.0335  -0.0084 868  GLU A CB  \n1326 C  CG  . GLU A 176 ? 0.6207 0.7137 0.6858 -0.0658 0.0405  -0.0096 868  GLU A CG  \n1327 C  CD  . GLU A 176 ? 0.6491 0.7473 0.7193 -0.0607 0.0453  -0.0132 868  GLU A CD  \n1328 O  OE1 . GLU A 176 ? 0.4811 0.5775 0.5545 -0.0549 0.0423  -0.0146 868  GLU A OE1 \n1329 O  OE2 . GLU A 176 ? 0.5551 0.6590 0.6257 -0.0626 0.0522  -0.0146 868  GLU A OE2 \n1330 N  N   . TYR A 177 ? 0.5147 0.6061 0.5991 -0.0544 0.0228  -0.0069 869  TYR A N   \n1331 C  CA  . TYR A 177 ? 0.5059 0.5931 0.5913 -0.0525 0.0169  -0.0054 869  TYR A CA  \n1332 C  C   . TYR A 177 ? 0.5519 0.6465 0.6467 -0.0535 0.0162  -0.0042 869  TYR A C   \n1333 O  O   . TYR A 177 ? 0.5002 0.5905 0.5919 -0.0560 0.0122  -0.0020 869  TYR A O   \n1334 C  CB  . TYR A 177 ? 0.5505 0.6351 0.6380 -0.0460 0.0150  -0.0069 869  TYR A CB  \n1335 C  CG  . TYR A 177 ? 0.4925 0.5731 0.5810 -0.0435 0.0100  -0.0058 869  TYR A CG  \n1336 C  CD1 . TYR A 177 ? 0.4194 0.5054 0.5170 -0.0402 0.0096  -0.0062 869  TYR A CD1 \n1337 C  CD2 . TYR A 177 ? 0.5127 0.5835 0.5924 -0.0444 0.0057  -0.0042 869  TYR A CD2 \n1338 C  CE1 . TYR A 177 ? 0.4150 0.4964 0.5121 -0.0380 0.0054  -0.0052 869  TYR A CE1 \n1339 C  CE2 . TYR A 177 ? 0.4952 0.5620 0.5751 -0.0418 0.0017  -0.0034 869  TYR A CE2 \n1340 C  CZ  . TYR A 177 ? 0.4832 0.5552 0.5715 -0.0387 0.0018  -0.0039 869  TYR A CZ  \n1341 O  OH  . TYR A 177 ? 0.4906 0.5578 0.5779 -0.0363 -0.0016 -0.0031 869  TYR A OH  \n1342 N  N   . HIS A 178 ? 0.4673 0.5724 0.5732 -0.0515 0.0198  -0.0058 870  HIS A N   \n1343 C  CA  . HIS A 178 ? 0.4297 0.5423 0.5461 -0.0519 0.0186  -0.0049 870  HIS A CA  \n1344 C  C   . HIS A 178 ? 0.5297 0.6474 0.6476 -0.0586 0.0202  -0.0029 870  HIS A C   \n1345 O  O   . HIS A 178 ? 0.4814 0.6004 0.6030 -0.0610 0.0168  -0.0008 870  HIS A O   \n1346 C  CB  . HIS A 178 ? 0.4690 0.5906 0.5970 -0.0470 0.0213  -0.0074 870  HIS A CB  \n1347 C  CG  . HIS A 178 ? 0.4917 0.6084 0.6187 -0.0410 0.0192  -0.0089 870  HIS A CG  \n1348 N  ND1 . HIS A 178 ? 0.5360 0.6488 0.6577 -0.0384 0.0211  -0.0107 870  HIS A ND1 \n1349 C  CD2 . HIS A 178 ? 0.4446 0.5593 0.5748 -0.0374 0.0152  -0.0087 870  HIS A CD2 \n1350 C  CE1 . HIS A 178 ? 0.4307 0.5401 0.5533 -0.0337 0.0184  -0.0114 870  HIS A CE1 \n1351 N  NE2 . HIS A 178 ? 0.6096 0.7200 0.7370 -0.0330 0.0151  -0.0103 870  HIS A NE2 \n1352 N  N   . ALA A 179 ? 0.5363 0.6565 0.6510 -0.0618 0.0254  -0.0035 871  ALA A N   \n1353 C  CA  . ALA A 179 ? 0.5903 0.7151 0.7053 -0.0690 0.0277  -0.0014 871  ALA A CA  \n1354 C  C   . ALA A 179 ? 0.6575 0.7714 0.7610 -0.0740 0.0225  0.0016  871  ALA A C   \n1355 O  O   . ALA A 179 ? 0.5472 0.6637 0.6523 -0.0797 0.0215  0.0042  871  ALA A O   \n1356 C  CB  . ALA A 179 ? 0.5564 0.6851 0.6688 -0.0712 0.0351  -0.0030 871  ALA A CB  \n1357 N  N   . GLU A 180 ? 0.5940 0.6957 0.6862 -0.0718 0.0189  0.0015  872  GLU A N   \n1358 C  CA  . GLU A 180 ? 0.6530 0.7428 0.7330 -0.0756 0.0136  0.0041  872  GLU A CA  \n1359 C  C   . GLU A 180 ? 0.6943 0.7789 0.7750 -0.0733 0.0070  0.0054  872  GLU A C   \n1360 O  O   . GLU A 180 ? 0.7354 0.8086 0.8057 -0.0743 0.0021  0.0068  872  GLU A O   \n1361 C  CB  . GLU A 180 ? 0.8126 0.8916 0.8800 -0.0745 0.0130  0.0032  872  GLU A CB  \n1362 C  CG  . GLU A 180 ? 0.9310 1.0104 0.9920 -0.0792 0.0181  0.0030  872  GLU A CG  \n1363 C  CD  . GLU A 180 ? 1.1978 1.2687 1.2495 -0.0764 0.0181  0.0013  872  GLU A CD  \n1364 O  OE1 . GLU A 180 ? 1.2640 1.3250 1.3096 -0.0736 0.0125  0.0016  872  GLU A OE1 \n1365 O  OE2 . GLU A 180 ? 1.1870 1.2609 1.2374 -0.0770 0.0236  -0.0003 872  GLU A OE2 \n1366 N  N   . GLY A 181 ? 0.6818 0.7741 0.7741 -0.0701 0.0068  0.0047  873  GLY A N   \n1367 C  CA  . GLY A 181 ? 0.6288 0.7164 0.7216 -0.0683 0.0009  0.0060  873  GLY A CA  \n1368 C  C   . GLY A 181 ? 0.5118 0.5940 0.6035 -0.0611 -0.0012 0.0042  873  GLY A C   \n1369 O  O   . GLY A 181 ? 0.5353 0.6130 0.6267 -0.0591 -0.0055 0.0050  873  GLY A O   \n1370 N  N   . GLY A 182 ? 0.4618 0.5441 0.5526 -0.0574 0.0018  0.0020  874  GLY A N   \n1371 C  CA  . GLY A 182 ? 0.5354 0.6132 0.6255 -0.0509 0.0002  0.0005  874  GLY A CA  \n1372 C  C   . GLY A 182 ? 0.5326 0.6163 0.6326 -0.0470 0.0001  -0.0003 874  GLY A C   \n1373 O  O   . GLY A 182 ? 0.4218 0.5153 0.5312 -0.0477 0.0028  -0.0009 874  GLY A O   \n1374 N  N   . LYS A 183 ? 0.4603 0.5380 0.5582 -0.0429 -0.0030 -0.0005 875  LYS A N   \n1375 C  CA  . LYS A 183 ? 0.5038 0.5852 0.6093 -0.0393 -0.0037 -0.0012 875  LYS A CA  \n1376 C  C   . LYS A 183 ? 0.5168 0.5968 0.6228 -0.0338 -0.0025 -0.0031 875  LYS A C   \n1377 O  O   . LYS A 183 ? 0.4771 0.5517 0.5770 -0.0324 -0.0023 -0.0035 875  LYS A O   \n1378 C  CB  . LYS A 183 ? 0.6708 0.7458 0.7730 -0.0398 -0.0086 0.0005  875  LYS A CB  \n1379 C  CG  . LYS A 183 ? 0.7606 0.8365 0.8626 -0.0457 -0.0107 0.0028  875  LYS A CG  \n1380 C  CD  . LYS A 183 ? 0.7992 0.8849 0.9128 -0.0468 -0.0105 0.0030  875  LYS A CD  \n1381 C  CE  . LYS A 183 ? 0.8655 0.9518 0.9792 -0.0530 -0.0133 0.0056  875  LYS A CE  \n1382 N  NZ  . LYS A 183 ? 0.8241 0.9172 0.9483 -0.0537 -0.0153 0.0063  875  LYS A NZ  \n1383 N  N   . VAL A 184 ? 0.4556 0.5405 0.5692 -0.0308 -0.0019 -0.0041 876  VAL A N   \n1384 C  CA  . VAL A 184 ? 0.4440 0.5281 0.5589 -0.0259 -0.0009 -0.0057 876  VAL A CA  \n1385 C  C   . VAL A 184 ? 0.3896 0.4716 0.5065 -0.0234 -0.0035 -0.0053 876  VAL A C   \n1386 O  O   . VAL A 184 ? 0.4569 0.5402 0.5764 -0.0253 -0.0058 -0.0043 876  VAL A O   \n1387 C  CB  . VAL A 184 ? 0.3765 0.4680 0.4978 -0.0245 0.0028  -0.0077 876  VAL A CB  \n1388 C  CG1 . VAL A 184 ? 0.4138 0.5039 0.5300 -0.0259 0.0051  -0.0083 876  VAL A CG1 \n1389 C  CG2 . VAL A 184 ? 0.4331 0.5334 0.5629 -0.0264 0.0042  -0.0080 876  VAL A CG2 \n1390 N  N   . PRO A 185 ? 0.3997 0.4778 0.5147 -0.0196 -0.0035 -0.0060 877  PRO A N   \n1391 C  CA  . PRO A 185 ? 0.3479 0.4220 0.4622 -0.0175 -0.0059 -0.0056 877  PRO A CA  \n1392 C  C   . PRO A 185 ? 0.3583 0.4380 0.4807 -0.0162 -0.0060 -0.0064 877  PRO A C   \n1393 O  O   . PRO A 185 ? 0.3013 0.3809 0.4253 -0.0132 -0.0051 -0.0074 877  PRO A O   \n1394 C  CB  . PRO A 185 ? 0.3924 0.4613 0.5022 -0.0142 -0.0049 -0.0060 877  PRO A CB  \n1395 C  CG  . PRO A 185 ? 0.3646 0.4377 0.4770 -0.0138 -0.0021 -0.0072 877  PRO A CG  \n1396 C  CD  . PRO A 185 ? 0.4643 0.5410 0.5772 -0.0174 -0.0015 -0.0070 877  PRO A CD  \n1397 N  N   . ILE A 186 ? 0.2826 0.3670 0.4102 -0.0186 -0.0073 -0.0059 878  ILE A N   \n1398 C  CA  . ILE A 186 ? 0.3351 0.4260 0.4719 -0.0173 -0.0074 -0.0070 878  ILE A CA  \n1399 C  C   . ILE A 186 ? 0.2910 0.3776 0.4274 -0.0141 -0.0096 -0.0072 878  ILE A C   \n1400 O  O   . ILE A 186 ? 0.2894 0.3799 0.4316 -0.0117 -0.0089 -0.0086 878  ILE A O   \n1401 C  CB  . ILE A 186 ? 0.3264 0.4229 0.4697 -0.0205 -0.0093 -0.0060 878  ILE A CB  \n1402 C  CG1 . ILE A 186 ? 0.3768 0.4798 0.5224 -0.0237 -0.0060 -0.0061 878  ILE A CG1 \n1403 C  CG2 . ILE A 186 ? 0.3291 0.4311 0.4820 -0.0184 -0.0106 -0.0070 878  ILE A CG2 \n1404 C  CD1 . ILE A 186 ? 0.4177 0.5295 0.5707 -0.0222 -0.0015 -0.0084 878  ILE A CD1 \n1405 N  N   . LYS A 187 ? 0.3059 0.3839 0.4348 -0.0142 -0.0125 -0.0058 879  LYS A N   \n1406 C  CA  . LYS A 187 ? 0.2655 0.3382 0.3926 -0.0119 -0.0149 -0.0057 879  LYS A CA  \n1407 C  C   . LYS A 187 ? 0.2496 0.3199 0.3741 -0.0089 -0.0122 -0.0067 879  LYS A C   \n1408 O  O   . LYS A 187 ? 0.3014 0.3677 0.4244 -0.0071 -0.0136 -0.0067 879  LYS A O   \n1409 C  CB  . LYS A 187 ? 0.3044 0.3677 0.4233 -0.0132 -0.0187 -0.0039 879  LYS A CB  \n1410 C  CG  . LYS A 187 ? 0.4207 0.4863 0.5439 -0.0162 -0.0228 -0.0027 879  LYS A CG  \n1411 C  CD  . LYS A 187 ? 0.4529 0.5080 0.5661 -0.0180 -0.0266 -0.0008 879  LYS A CD  \n1412 C  CE  . LYS A 187 ? 0.3576 0.4147 0.4755 -0.0214 -0.0314 0.0006  879  LYS A CE  \n1413 N  NZ  . LYS A 187 ? 0.3886 0.4340 0.4956 -0.0232 -0.0359 0.0025  879  LYS A NZ  \n1414 N  N   . TRP A 188 ? 0.2492 0.3218 0.3731 -0.0086 -0.0088 -0.0074 880  TRP A N   \n1415 C  CA  . TRP A 188 ? 0.3357 0.4076 0.4588 -0.0061 -0.0063 -0.0082 880  TRP A CA  \n1416 C  C   . TRP A 188 ? 0.3177 0.3968 0.4477 -0.0053 -0.0042 -0.0099 880  TRP A C   \n1417 O  O   . TRP A 188 ? 0.3613 0.4399 0.4913 -0.0035 -0.0028 -0.0107 880  TRP A O   \n1418 C  CB  . TRP A 188 ? 0.2820 0.3500 0.3989 -0.0061 -0.0046 -0.0077 880  TRP A CB  \n1419 C  CG  . TRP A 188 ? 0.3075 0.3672 0.4168 -0.0054 -0.0058 -0.0066 880  TRP A CG  \n1420 C  CD1 . TRP A 188 ? 0.3092 0.3646 0.4150 -0.0034 -0.0046 -0.0064 880  TRP A CD1 \n1421 C  CD2 . TRP A 188 ? 0.3521 0.4065 0.4560 -0.0070 -0.0084 -0.0054 880  TRP A CD2 \n1422 N  NE1 . TRP A 188 ? 0.3136 0.3612 0.4117 -0.0033 -0.0058 -0.0054 880  TRP A NE1 \n1423 C  CE2 . TRP A 188 ? 0.3401 0.3865 0.4365 -0.0054 -0.0084 -0.0048 880  TRP A CE2 \n1424 C  CE3 . TRP A 188 ? 0.3467 0.4023 0.4511 -0.0098 -0.0106 -0.0047 880  TRP A CE3 \n1425 C  CZ2 . TRP A 188 ? 0.3533 0.3916 0.4417 -0.0062 -0.0108 -0.0038 880  TRP A CZ2 \n1426 C  CZ3 . TRP A 188 ? 0.3428 0.3906 0.4398 -0.0110 -0.0136 -0.0034 880  TRP A CZ3 \n1427 C  CH2 . TRP A 188 ? 0.2822 0.3212 0.3710 -0.0090 -0.0138 -0.0031 880  TRP A CH2 \n1428 N  N   . MET A 189 ? 0.2739 0.3593 0.4094 -0.0067 -0.0040 -0.0106 881  MET A N   \n1429 C  CA  . MET A 189 ? 0.2628 0.3543 0.4031 -0.0060 -0.0012 -0.0124 881  MET A CA  \n1430 C  C   . MET A 189 ? 0.2804 0.3752 0.4271 -0.0037 -0.0017 -0.0139 881  MET A C   \n1431 O  O   . MET A 189 ? 0.2816 0.3772 0.4321 -0.0034 -0.0044 -0.0136 881  MET A O   \n1432 C  CB  . MET A 189 ? 0.2925 0.3892 0.4348 -0.0088 0.0004  -0.0125 881  MET A CB  \n1433 C  CG  . MET A 189 ? 0.3302 0.4235 0.4656 -0.0109 0.0014  -0.0114 881  MET A CG  \n1434 S  SD  . MET A 189 ? 0.3900 0.4880 0.5268 -0.0152 0.0023  -0.0108 881  MET A SD  \n1435 C  CE  . MET A 189 ? 0.3248 0.4309 0.4676 -0.0146 0.0065  -0.0132 881  MET A CE  \n1436 N  N   . ALA A 190 ? 0.2680 0.3642 0.4158 -0.0019 0.0002  -0.0155 882  ALA A N   \n1437 C  CA  . ALA A 190 ? 0.2123 0.3113 0.3659 0.0007  -0.0003 -0.0173 882  ALA A CA  \n1438 C  C   . ALA A 190 ? 0.2428 0.3498 0.4041 0.0002  0.0007  -0.0185 882  ALA A C   \n1439 O  O   . ALA A 190 ? 0.2364 0.3471 0.3976 -0.0020 0.0031  -0.0183 882  ALA A O   \n1440 C  CB  . ALA A 190 ? 0.1870 0.2851 0.3392 0.0024  0.0016  -0.0188 882  ALA A CB  \n1441 N  N   . LEU A 191 ? 0.2775 0.3873 0.4455 0.0025  -0.0010 -0.0197 883  LEU A N   \n1442 C  CA  . LEU A 191 ? 0.2827 0.4014 0.4599 0.0024  0.0000  -0.0209 883  LEU A CA  \n1443 C  C   . LEU A 191 ? 0.3034 0.4277 0.4818 0.0023  0.0053  -0.0228 883  LEU A C   \n1444 O  O   . LEU A 191 ? 0.2609 0.3916 0.4430 0.0000  0.0077  -0.0227 883  LEU A O   \n1445 C  CB  . LEU A 191 ? 0.2667 0.3873 0.4516 0.0057  -0.0030 -0.0222 883  LEU A CB  \n1446 C  CG  . LEU A 191 ? 0.2574 0.3879 0.4540 0.0058  -0.0027 -0.0231 883  LEU A CG  \n1447 C  CD1 . LEU A 191 ? 0.3202 0.4530 0.5173 0.0014  -0.0034 -0.0207 883  LEU A CD1 \n1448 C  CD2 . LEU A 191 ? 0.2599 0.3904 0.4634 0.0091  -0.0073 -0.0240 883  LEU A CD2 \n1449 N  N   . GLU A 192 ? 0.1794 0.3005 0.3538 0.0044  0.0070  -0.0244 884  GLU A N   \n1450 C  CA  . GLU A 192 ? 0.1909 0.3153 0.3643 0.0043  0.0118  -0.0263 884  GLU A CA  \n1451 C  C   . GLU A 192 ? 0.2346 0.3580 0.4015 0.0001  0.0141  -0.0247 884  GLU A C   \n1452 O  O   . GLU A 192 ? 0.2105 0.3377 0.3770 -0.0012 0.0181  -0.0258 884  GLU A O   \n1453 C  CB  . GLU A 192 ? 0.2434 0.3636 0.4134 0.0075  0.0123  -0.0283 884  GLU A CB  \n1454 C  CG  . GLU A 192 ? 0.2629 0.3745 0.4240 0.0066  0.0106  -0.0268 884  GLU A CG  \n1455 C  CD  . GLU A 192 ? 0.2790 0.3854 0.4393 0.0076  0.0063  -0.0252 884  GLU A CD  \n1456 O  OE1 . GLU A 192 ? 0.2264 0.3342 0.3916 0.0085  0.0037  -0.0249 884  GLU A OE1 \n1457 O  OE2 . GLU A 192 ? 0.2177 0.3181 0.3721 0.0071  0.0053  -0.0241 884  GLU A OE2 \n1458 N  N   . SER A 193 ? 0.2973 0.4149 0.4585 -0.0017 0.0115  -0.0222 885  SER A N   \n1459 C  CA  . SER A 193 ? 0.2356 0.3513 0.3905 -0.0054 0.0127  -0.0206 885  SER A CA  \n1460 C  C   . SER A 193 ? 0.2550 0.3762 0.4139 -0.0086 0.0131  -0.0195 885  SER A C   \n1461 O  O   . SER A 193 ? 0.2761 0.3991 0.4325 -0.0117 0.0158  -0.0192 885  SER A O   \n1462 C  CB  . SER A 193 ? 0.2489 0.3569 0.3974 -0.0059 0.0098  -0.0185 885  SER A CB  \n1463 O  OG  . SER A 193 ? 0.2896 0.3934 0.4354 -0.0034 0.0093  -0.0192 885  SER A OG  \n1464 N  N   . ILE A 194 ? 0.2248 0.3478 0.3894 -0.0081 0.0101  -0.0187 886  ILE A N   \n1465 C  CA  . ILE A 194 ? 0.2811 0.4095 0.4510 -0.0111 0.0095  -0.0174 886  ILE A CA  \n1466 C  C   . ILE A 194 ? 0.2770 0.4151 0.4545 -0.0114 0.0138  -0.0193 886  ILE A C   \n1467 O  O   . ILE A 194 ? 0.3094 0.4513 0.4867 -0.0153 0.0163  -0.0184 886  ILE A O   \n1468 C  CB  . ILE A 194 ? 0.3578 0.4856 0.5325 -0.0101 0.0046  -0.0164 886  ILE A CB  \n1469 C  CG1 . ILE A 194 ? 0.3072 0.4248 0.4729 -0.0103 0.0011  -0.0145 886  ILE A CG1 \n1470 C  CG2 . ILE A 194 ? 0.3112 0.4454 0.4928 -0.0134 0.0036  -0.0151 886  ILE A CG2 \n1471 C  CD1 . ILE A 194 ? 0.2950 0.4095 0.4629 -0.0089 -0.0037 -0.0136 886  ILE A CD1 \n1472 N  N   . LEU A 195 ? 0.2906 0.4324 0.4742 -0.0073 0.0151  -0.0219 887  LEU A N   \n1473 C  CA  . LEU A 195 ? 0.3182 0.4701 0.5106 -0.0067 0.0194  -0.0241 887  LEU A CA  \n1474 C  C   . LEU A 195 ? 0.3433 0.4957 0.5302 -0.0074 0.0253  -0.0257 887  LEU A C   \n1475 O  O   . LEU A 195 ? 0.2164 0.3764 0.4078 -0.0093 0.0296  -0.0264 887  LEU A O   \n1476 C  CB  . LEU A 195 ? 0.2674 0.4231 0.4692 -0.0015 0.0182  -0.0264 887  LEU A CB  \n1477 C  CG  . LEU A 195 ? 0.3812 0.5361 0.5887 -0.0007 0.0120  -0.0249 887  LEU A CG  \n1478 C  CD1 . LEU A 195 ? 0.3693 0.5250 0.5834 0.0046  0.0099  -0.0273 887  LEU A CD1 \n1479 C  CD2 . LEU A 195 ? 0.3279 0.4907 0.5440 -0.0042 0.0111  -0.0232 887  LEU A CD2 \n1480 N  N   . HIS A 196 ? 0.2235 0.3676 0.4005 -0.0064 0.0253  -0.0262 888  HIS A N   \n1481 C  CA  . HIS A 196 ? 0.2116 0.3547 0.3828 -0.0065 0.0302  -0.0281 888  HIS A CA  \n1482 C  C   . HIS A 196 ? 0.2601 0.3939 0.4187 -0.0088 0.0296  -0.0268 888  HIS A C   \n1483 O  O   . HIS A 196 ? 0.2582 0.3890 0.4104 -0.0086 0.0325  -0.0283 888  HIS A O   \n1484 C  CB  . HIS A 196 ? 0.2642 0.4072 0.4376 -0.0011 0.0313  -0.0314 888  HIS A CB  \n1485 C  CG  . HIS A 196 ? 0.2815 0.4343 0.4675 0.0016  0.0330  -0.0335 888  HIS A CG  \n1486 N  ND1 . HIS A 196 ? 0.3202 0.4817 0.5112 0.0006  0.0388  -0.0350 888  HIS A ND1 \n1487 C  CD2 . HIS A 196 ? 0.2806 0.4359 0.4755 0.0053  0.0295  -0.0342 888  HIS A CD2 \n1488 C  CE1 . HIS A 196 ? 0.3149 0.4847 0.5185 0.0040  0.0389  -0.0366 888  HIS A CE1 \n1489 N  NE2 . HIS A 196 ? 0.3203 0.4861 0.5262 0.0069  0.0329  -0.0362 888  HIS A NE2 \n1490 N  N   . ARG A 197 ? 0.2220 0.3511 0.3772 -0.0107 0.0255  -0.0240 889  ARG A N   \n1491 C  CA  . ARG A 197 ? 0.3218 0.4424 0.4663 -0.0128 0.0242  -0.0225 889  ARG A CA  \n1492 C  C   . ARG A 197 ? 0.2542 0.3690 0.3942 -0.0097 0.0237  -0.0239 889  ARG A C   \n1493 O  O   . ARG A 197 ? 0.2898 0.3990 0.4216 -0.0111 0.0242  -0.0238 889  ARG A O   \n1494 C  CB  . ARG A 197 ? 0.3107 0.4315 0.4495 -0.0173 0.0274  -0.0220 889  ARG A CB  \n1495 C  CG  . ARG A 197 ? 0.3310 0.4577 0.4744 -0.0210 0.0279  -0.0203 889  ARG A CG  \n1496 C  CD  . ARG A 197 ? 0.4083 0.5334 0.5441 -0.0261 0.0306  -0.0194 889  ARG A CD  \n1497 N  NE  . ARG A 197 ? 0.3870 0.5168 0.5263 -0.0304 0.0304  -0.0173 889  ARG A NE  \n1498 C  CZ  . ARG A 197 ? 0.5005 0.6383 0.6441 -0.0335 0.0349  -0.0176 889  ARG A CZ  \n1499 N  NH1 . ARG A 197 ? 0.3863 0.5280 0.5305 -0.0324 0.0405  -0.0201 889  ARG A NH1 \n1500 N  NH2 . ARG A 197 ? 0.4104 0.5519 0.5573 -0.0378 0.0339  -0.0152 889  ARG A NH2 \n1501 N  N   . ILE A 198 ? 0.2439 0.3596 0.3892 -0.0058 0.0222  -0.0252 890  ILE A N   \n1502 C  CA  . ILE A 198 ? 0.2918 0.4016 0.4333 -0.0030 0.0209  -0.0262 890  ILE A CA  \n1503 C  C   . ILE A 198 ? 0.2535 0.3579 0.3926 -0.0031 0.0168  -0.0239 890  ILE A C   \n1504 O  O   . ILE A 198 ? 0.2518 0.3573 0.3951 -0.0024 0.0145  -0.0228 890  ILE A O   \n1505 C  CB  . ILE A 198 ? 0.2880 0.4004 0.4356 0.0012  0.0209  -0.0286 890  ILE A CB  \n1506 C  CG1 . ILE A 198 ? 0.3485 0.4661 0.4983 0.0021  0.0256  -0.0314 890  ILE A CG1 \n1507 C  CG2 . ILE A 198 ? 0.2516 0.3569 0.3949 0.0035  0.0185  -0.0291 890  ILE A CG2 \n1508 C  CD1 . ILE A 198 ? 0.2529 0.3755 0.4117 0.0063  0.0257  -0.0338 890  ILE A CD1 \n1509 N  N   . TYR A 199 ? 0.2700 0.3684 0.4023 -0.0039 0.0159  -0.0232 891  TYR A N   \n1510 C  CA  . TYR A 199 ? 0.3025 0.3962 0.4329 -0.0037 0.0127  -0.0212 891  TYR A CA  \n1511 C  C   . TYR A 199 ? 0.2632 0.3523 0.3910 -0.0022 0.0116  -0.0217 891  TYR A C   \n1512 O  O   . TYR A 199 ? 0.3002 0.3866 0.4231 -0.0030 0.0124  -0.0225 891  TYR A O   \n1513 C  CB  . TYR A 199 ? 0.3225 0.4135 0.4479 -0.0066 0.0122  -0.0193 891  TYR A CB  \n1514 C  CG  . TYR A 199 ? 0.3393 0.4329 0.4660 -0.0087 0.0122  -0.0181 891  TYR A CG  \n1515 C  CD1 . TYR A 199 ? 0.3133 0.4057 0.4414 -0.0082 0.0099  -0.0165 891  TYR A CD1 \n1516 C  CD2 . TYR A 199 ? 0.3412 0.4380 0.4671 -0.0114 0.0146  -0.0185 891  TYR A CD2 \n1517 C  CE1 . TYR A 199 ? 0.4019 0.4955 0.5302 -0.0103 0.0093  -0.0153 891  TYR A CE1 \n1518 C  CE2 . TYR A 199 ? 0.3614 0.4602 0.4883 -0.0138 0.0142  -0.0170 891  TYR A CE2 \n1519 C  CZ  . TYR A 199 ? 0.3740 0.4710 0.5020 -0.0132 0.0112  -0.0154 891  TYR A CZ  \n1520 O  OH  . TYR A 199 ? 0.4616 0.5594 0.5897 -0.0157 0.0102  -0.0139 891  TYR A OH  \n1521 N  N   . THR A 200 ? 0.2709 0.3588 0.4014 -0.0002 0.0095  -0.0213 892  THR A N   \n1522 C  CA  . THR A 200 ? 0.2838 0.3673 0.4125 0.0008  0.0078  -0.0214 892  THR A CA  \n1523 C  C   . THR A 200 ? 0.2458 0.3276 0.3758 0.0009  0.0057  -0.0193 892  THR A C   \n1524 O  O   . THR A 200 ? 0.2389 0.3221 0.3704 0.0005  0.0056  -0.0181 892  THR A O   \n1525 C  CB  . THR A 200 ? 0.2441 0.3279 0.3752 0.0035  0.0077  -0.0235 892  THR A CB  \n1526 O  OG1 . THR A 200 ? 0.2600 0.3458 0.3958 0.0048  0.0064  -0.0230 892  THR A OG1 \n1527 C  CG2 . THR A 200 ? 0.3017 0.3885 0.4328 0.0041  0.0107  -0.0261 892  THR A CG2 \n1528 N  N   . HIS A 201 ? 0.2657 0.3440 0.3949 0.0014  0.0040  -0.0187 893  HIS A N   \n1529 C  CA  . HIS A 201 ? 0.3067 0.3839 0.4376 0.0015  0.0026  -0.0168 893  HIS A CA  \n1530 C  C   . HIS A 201 ? 0.2350 0.3129 0.3684 0.0028  0.0022  -0.0169 893  HIS A C   \n1531 O  O   . HIS A 201 ? 0.2163 0.2936 0.3500 0.0026  0.0019  -0.0153 893  HIS A O   \n1532 C  CB  . HIS A 201 ? 0.2608 0.3348 0.3910 0.0011  0.0009  -0.0159 893  HIS A CB  \n1533 C  CG  . HIS A 201 ? 0.2817 0.3544 0.4095 -0.0002 0.0006  -0.0155 893  HIS A CG  \n1534 N  ND1 . HIS A 201 ? 0.2949 0.3683 0.4230 -0.0011 0.0007  -0.0140 893  HIS A ND1 \n1535 C  CD2 . HIS A 201 ? 0.3002 0.3703 0.4247 -0.0008 0.0000  -0.0166 893  HIS A CD2 \n1536 C  CE1 . HIS A 201 ? 0.2813 0.3526 0.4066 -0.0023 -0.0001 -0.0140 893  HIS A CE1 \n1537 N  NE2 . HIS A 201 ? 0.3474 0.4165 0.4702 -0.0023 -0.0007 -0.0154 893  HIS A NE2 \n1538 N  N   . GLN A 202 ? 0.2662 0.3453 0.4011 0.0043  0.0022  -0.0189 894  GLN A N   \n1539 C  CA  . GLN A 202 ? 0.3008 0.3805 0.4384 0.0057  0.0011  -0.0192 894  GLN A CA  \n1540 C  C   . GLN A 202 ? 0.2660 0.3491 0.4055 0.0052  0.0018  -0.0189 894  GLN A C   \n1541 O  O   . GLN A 202 ? 0.2166 0.2987 0.3572 0.0056  0.0002  -0.0182 894  GLN A O   \n1542 C  CB  . GLN A 202 ? 0.2712 0.3506 0.4104 0.0080  0.0003  -0.0216 894  GLN A CB  \n1543 C  CG  . GLN A 202 ? 0.2451 0.3195 0.3817 0.0084  -0.0013 -0.0216 894  GLN A CG  \n1544 C  CD  . GLN A 202 ? 0.3119 0.3828 0.4476 0.0074  -0.0032 -0.0192 894  GLN A CD  \n1545 O  OE1 . GLN A 202 ? 0.2739 0.3437 0.4081 0.0056  -0.0030 -0.0173 894  GLN A OE1 \n1546 N  NE2 . GLN A 202 ? 0.2825 0.3516 0.4191 0.0085  -0.0052 -0.0192 894  GLN A NE2 \n1547 N  N   . SER A 203 ? 0.2305 0.3167 0.3698 0.0039  0.0037  -0.0193 895  SER A N   \n1548 C  CA  . SER A 203 ? 0.2693 0.3576 0.4093 0.0026  0.0039  -0.0183 895  SER A CA  \n1549 C  C   . SER A 203 ? 0.2776 0.3623 0.4141 0.0014  0.0032  -0.0160 895  SER A C   \n1550 O  O   . SER A 203 ? 0.2485 0.3325 0.3848 0.0011  0.0022  -0.0150 895  SER A O   \n1551 C  CB  . SER A 203 ? 0.3224 0.4150 0.4630 0.0011  0.0061  -0.0191 895  SER A CB  \n1552 O  OG  . SER A 203 ? 0.2522 0.3429 0.3883 -0.0004 0.0073  -0.0187 895  SER A OG  \n1553 N  N   . ASP A 204 ? 0.2664 0.3487 0.4003 0.0011  0.0036  -0.0152 896  ASP A N   \n1554 C  CA  . ASP A 204 ? 0.2404 0.3196 0.3717 0.0007  0.0033  -0.0133 896  ASP A CA  \n1555 C  C   . ASP A 204 ? 0.1875 0.2642 0.3189 0.0016  0.0023  -0.0125 896  ASP A C   \n1556 O  O   . ASP A 204 ? 0.2167 0.2909 0.3457 0.0014  0.0022  -0.0113 896  ASP A O   \n1557 C  CB  . ASP A 204 ? 0.2905 0.3686 0.4209 0.0004  0.0037  -0.0127 896  ASP A CB  \n1558 C  CG  . ASP A 204 ? 0.3267 0.4052 0.4550 -0.0008 0.0042  -0.0128 896  ASP A CG  \n1559 O  OD1 . ASP A 204 ? 0.2851 0.3625 0.4128 -0.0011 0.0038  -0.0125 896  ASP A OD1 \n1560 O  OD2 . ASP A 204 ? 0.2647 0.3443 0.3917 -0.0019 0.0046  -0.0130 896  ASP A OD2 \n1561 N  N   . VAL A 205 ? 0.1864 0.2627 0.3196 0.0026  0.0014  -0.0133 897  VAL A N   \n1562 C  CA  . VAL A 205 ? 0.1757 0.2486 0.3080 0.0032  0.0000  -0.0126 897  VAL A CA  \n1563 C  C   . VAL A 205 ? 0.2591 0.3309 0.3907 0.0033  -0.0012 -0.0124 897  VAL A C   \n1564 O  O   . VAL A 205 ? 0.2232 0.2909 0.3514 0.0030  -0.0018 -0.0110 897  VAL A O   \n1565 C  CB  . VAL A 205 ? 0.1789 0.2506 0.3127 0.0042  -0.0015 -0.0136 897  VAL A CB  \n1566 C  CG1 . VAL A 205 ? 0.1852 0.2526 0.3174 0.0046  -0.0035 -0.0129 897  VAL A CG1 \n1567 C  CG2 . VAL A 205 ? 0.2414 0.3121 0.3747 0.0035  -0.0009 -0.0130 897  VAL A CG2 \n1568 N  N   . TRP A 206 ? 0.1984 0.2739 0.3332 0.0035  -0.0017 -0.0137 898  TRP A N   \n1569 C  CA  . TRP A 206 ? 0.2443 0.3194 0.3794 0.0032  -0.0035 -0.0133 898  TRP A CA  \n1570 C  C   . TRP A 206 ? 0.2272 0.2994 0.3576 0.0018  -0.0030 -0.0116 898  TRP A C   \n1571 O  O   . TRP A 206 ? 0.2115 0.2788 0.3382 0.0016  -0.0047 -0.0105 898  TRP A O   \n1572 C  CB  . TRP A 206 ? 0.2139 0.2952 0.3546 0.0033  -0.0034 -0.0149 898  TRP A CB  \n1573 C  CG  . TRP A 206 ? 0.1837 0.2658 0.3263 0.0026  -0.0056 -0.0144 898  TRP A CG  \n1574 C  CD1 . TRP A 206 ? 0.2347 0.3144 0.3738 0.0008  -0.0064 -0.0128 898  TRP A CD1 \n1575 C  CD2 . TRP A 206 ? 0.2264 0.3119 0.3755 0.0038  -0.0078 -0.0156 898  TRP A CD2 \n1576 N  NE1 . TRP A 206 ? 0.2215 0.3027 0.3644 0.0004  -0.0093 -0.0127 898  TRP A NE1 \n1577 C  CE2 . TRP A 206 ? 0.2218 0.3071 0.3715 0.0023  -0.0101 -0.0144 898  TRP A CE2 \n1578 C  CE3 . TRP A 206 ? 0.2560 0.3445 0.4105 0.0062  -0.0082 -0.0176 898  TRP A CE3 \n1579 C  CZ2 . TRP A 206 ? 0.2724 0.3612 0.4291 0.0030  -0.0130 -0.0150 898  TRP A CZ2 \n1580 C  CZ3 . TRP A 206 ? 0.2655 0.3578 0.4272 0.0073  -0.0107 -0.0185 898  TRP A CZ3 \n1581 C  CH2 . TRP A 206 ? 0.2477 0.3402 0.4107 0.0056  -0.0131 -0.0171 898  TRP A CH2 \n1582 N  N   . SER A 207 ? 0.2085 0.2825 0.3379 0.0009  -0.0009 -0.0115 899  SER A N   \n1583 C  CA  . SER A 207 ? 0.2061 0.2771 0.3308 0.0000  -0.0005 -0.0102 899  SER A CA  \n1584 C  C   . SER A 207 ? 0.2428 0.3088 0.3633 0.0007  0.0001  -0.0090 899  SER A C   \n1585 O  O   . SER A 207 ? 0.2326 0.2940 0.3480 0.0005  0.0000  -0.0080 899  SER A O   \n1586 C  CB  . SER A 207 ? 0.2226 0.2961 0.3471 -0.0009 0.0010  -0.0103 899  SER A CB  \n1587 O  OG  . SER A 207 ? 0.3026 0.3809 0.4306 -0.0019 0.0010  -0.0114 899  SER A OG  \n1588 N  N   . TYR A 208 ? 0.2420 0.3087 0.3642 0.0014  0.0011  -0.0091 900  TYR A N   \n1589 C  CA  . TYR A 208 ? 0.2237 0.2863 0.3428 0.0018  0.0022  -0.0079 900  TYR A CA  \n1590 C  C   . TYR A 208 ? 0.2569 0.3143 0.3721 0.0018  0.0005  -0.0074 900  TYR A C   \n1591 O  O   . TYR A 208 ? 0.2346 0.2873 0.3444 0.0017  0.0016  -0.0063 900  TYR A O   \n1592 C  CB  . TYR A 208 ? 0.2786 0.3430 0.4007 0.0019  0.0030  -0.0080 900  TYR A CB  \n1593 C  CG  . TYR A 208 ? 0.2518 0.3129 0.3715 0.0018  0.0045  -0.0065 900  TYR A CG  \n1594 C  CD1 . TYR A 208 ? 0.2530 0.3102 0.3705 0.0015  0.0032  -0.0060 900  TYR A CD1 \n1595 C  CD2 . TYR A 208 ? 0.3118 0.3738 0.4316 0.0019  0.0072  -0.0056 900  TYR A CD2 \n1596 C  CE1 . TYR A 208 ? 0.3283 0.3825 0.4431 0.0008  0.0050  -0.0045 900  TYR A CE1 \n1597 C  CE2 . TYR A 208 ? 0.2675 0.3274 0.3859 0.0016  0.0093  -0.0042 900  TYR A CE2 \n1598 C  CZ  . TYR A 208 ? 0.3254 0.3813 0.4408 0.0008  0.0084  -0.0036 900  TYR A CZ  \n1599 O  OH  . TYR A 208 ? 0.3145 0.3683 0.4279 0.0000  0.0108  -0.0021 900  TYR A OH  \n1600 N  N   . GLY A 209 ? 0.2667 0.3246 0.3842 0.0019  -0.0021 -0.0082 901  GLY A N   \n1601 C  CA  . GLY A 209 ? 0.2484 0.3005 0.3621 0.0018  -0.0047 -0.0076 901  GLY A CA  \n1602 C  C   . GLY A 209 ? 0.2556 0.3041 0.3645 0.0012  -0.0055 -0.0068 901  GLY A C   \n1603 O  O   . GLY A 209 ? 0.2543 0.2957 0.3565 0.0009  -0.0063 -0.0058 901  GLY A O   \n1604 N  N   . VAL A 210 ? 0.2625 0.3151 0.3742 0.0007  -0.0057 -0.0073 902  VAL A N   \n1605 C  CA  . VAL A 210 ? 0.2244 0.2733 0.3314 -0.0001 -0.0071 -0.0066 902  VAL A CA  \n1606 C  C   . VAL A 210 ? 0.2572 0.3008 0.3569 0.0002  -0.0044 -0.0057 902  VAL A C   \n1607 O  O   . VAL A 210 ? 0.2896 0.3259 0.3819 0.0000  -0.0053 -0.0048 902  VAL A O   \n1608 C  CB  . VAL A 210 ? 0.2599 0.3144 0.3714 -0.0012 -0.0077 -0.0071 902  VAL A CB  \n1609 C  CG1 . VAL A 210 ? 0.2876 0.3371 0.3938 -0.0026 -0.0101 -0.0060 902  VAL A CG1 \n1610 C  CG2 . VAL A 210 ? 0.2210 0.2817 0.3407 -0.0011 -0.0094 -0.0082 902  VAL A CG2 \n1611 N  N   . THR A 211 ? 0.2530 0.3003 0.3550 0.0008  -0.0012 -0.0059 903  THR A N   \n1612 C  CA  . THR A 211 ? 0.2645 0.3083 0.3615 0.0017  0.0017  -0.0053 903  THR A CA  \n1613 C  C   . THR A 211 ? 0.2164 0.2538 0.3074 0.0021  0.0028  -0.0045 903  THR A C   \n1614 O  O   . THR A 211 ? 0.2578 0.2885 0.3411 0.0025  0.0037  -0.0039 903  THR A O   \n1615 C  CB  . THR A 211 ? 0.2349 0.2845 0.3372 0.0024  0.0044  -0.0057 903  THR A CB  \n1616 O  OG1 . THR A 211 ? 0.2518 0.3059 0.3578 0.0017  0.0033  -0.0064 903  THR A OG1 \n1617 C  CG2 . THR A 211 ? 0.2580 0.3053 0.3570 0.0038  0.0075  -0.0052 903  THR A CG2 \n1618 N  N   . VAL A 212 ? 0.2426 0.2813 0.3365 0.0018  0.0028  -0.0044 904  VAL A N   \n1619 C  CA  . VAL A 212 ? 0.2678 0.3003 0.3557 0.0016  0.0037  -0.0034 904  VAL A CA  \n1620 C  C   . VAL A 212 ? 0.3394 0.3633 0.4191 0.0010  0.0007  -0.0030 904  VAL A C   \n1621 O  O   . VAL A 212 ? 0.2939 0.3104 0.3649 0.0010  0.0023  -0.0022 904  VAL A O   \n1622 C  CB  . VAL A 212 ? 0.2888 0.3234 0.3808 0.0010  0.0030  -0.0034 904  VAL A CB  \n1623 C  CG1 . VAL A 212 ? 0.3699 0.3967 0.4545 0.0001  0.0031  -0.0022 904  VAL A CG1 \n1624 C  CG2 . VAL A 212 ? 0.3306 0.3718 0.4290 0.0012  0.0060  -0.0034 904  VAL A CG2 \n1625 N  N   . TRP A 213 ? 0.2856 0.3104 0.3680 0.0005  -0.0037 -0.0035 905  TRP A N   \n1626 C  CA  . TRP A 213 ? 0.2986 0.3156 0.3743 -0.0002 -0.0075 -0.0029 905  TRP A CA  \n1627 C  C   . TRP A 213 ? 0.2931 0.3046 0.3609 0.0000  -0.0063 -0.0025 905  TRP A C   \n1628 O  O   . TRP A 213 ? 0.3043 0.3058 0.3618 -0.0003 -0.0071 -0.0018 905  TRP A O   \n1629 C  CB  . TRP A 213 ? 0.3086 0.3302 0.3915 -0.0007 -0.0122 -0.0035 905  TRP A CB  \n1630 C  CG  . TRP A 213 ? 0.3462 0.3602 0.4237 -0.0018 -0.0174 -0.0028 905  TRP A CG  \n1631 C  CD1 . TRP A 213 ? 0.3501 0.3587 0.4256 -0.0022 -0.0216 -0.0024 905  TRP A CD1 \n1632 C  CD2 . TRP A 213 ? 0.3405 0.3508 0.4139 -0.0028 -0.0198 -0.0022 905  TRP A CD2 \n1633 N  NE1 . TRP A 213 ? 0.3245 0.3263 0.3950 -0.0033 -0.0264 -0.0015 905  TRP A NE1 \n1634 C  CE2 . TRP A 213 ? 0.3770 0.3799 0.4463 -0.0038 -0.0254 -0.0014 905  TRP A CE2 \n1635 C  CE3 . TRP A 213 ? 0.3516 0.3636 0.4242 -0.0031 -0.0182 -0.0022 905  TRP A CE3 \n1636 C  CZ2 . TRP A 213 ? 0.3816 0.3788 0.4460 -0.0053 -0.0295 -0.0005 905  TRP A CZ2 \n1637 C  CZ3 . TRP A 213 ? 0.3452 0.3513 0.4125 -0.0045 -0.0221 -0.0014 905  TRP A CZ3 \n1638 C  CH2 . TRP A 213 ? 0.3738 0.3728 0.4373 -0.0057 -0.0277 -0.0005 905  TRP A CH2 \n1639 N  N   . GLU A 214 ? 0.2689 0.2858 0.3406 0.0004  -0.0046 -0.0030 906  GLU A N   \n1640 C  CA  . GLU A 214 ? 0.3126 0.3240 0.3769 0.0009  -0.0037 -0.0028 906  GLU A CA  \n1641 C  C   . GLU A 214 ? 0.3525 0.3579 0.4089 0.0023  0.0005  -0.0026 906  GLU A C   \n1642 O  O   . GLU A 214 ? 0.3749 0.3710 0.4210 0.0027  0.0005  -0.0022 906  GLU A O   \n1643 C  CB  . GLU A 214 ? 0.3406 0.3589 0.4104 0.0014  -0.0021 -0.0035 906  GLU A CB  \n1644 C  CG  . GLU A 214 ? 0.3056 0.3293 0.3816 -0.0001 -0.0055 -0.0037 906  GLU A CG  \n1645 C  CD  . GLU A 214 ? 0.2970 0.3255 0.3762 0.0000  -0.0038 -0.0042 906  GLU A CD  \n1646 O  OE1 . GLU A 214 ? 0.3344 0.3583 0.4081 -0.0002 -0.0050 -0.0039 906  GLU A OE1 \n1647 O  OE2 . GLU A 214 ? 0.3234 0.3593 0.4098 0.0004  -0.0018 -0.0048 906  GLU A OE2 \n1648 N  N   . LEU A 215 ? 0.3417 0.3524 0.4031 0.0030  0.0044  -0.0027 907  LEU A N   \n1649 C  CA  . LEU A 215 ? 0.3738 0.3807 0.4296 0.0042  0.0094  -0.0023 907  LEU A CA  \n1650 C  C   . LEU A 215 ? 0.3713 0.3676 0.4163 0.0032  0.0087  -0.0015 907  LEU A C   \n1651 O  O   . LEU A 215 ? 0.3895 0.3773 0.4240 0.0041  0.0110  -0.0013 907  LEU A O   \n1652 C  CB  . LEU A 215 ? 0.3539 0.3695 0.4188 0.0045  0.0130  -0.0023 907  LEU A CB  \n1653 C  CG  . LEU A 215 ? 0.3402 0.3647 0.4141 0.0056  0.0141  -0.0030 907  LEU A CG  \n1654 C  CD1 . LEU A 215 ? 0.3761 0.4074 0.4573 0.0058  0.0176  -0.0027 907  LEU A CD1 \n1655 C  CD2 . LEU A 215 ? 0.3543 0.3759 0.4240 0.0076  0.0155  -0.0035 907  LEU A CD2 \n1656 N  N   . MET A 216 ? 0.4067 0.4030 0.4538 0.0015  0.0053  -0.0010 908  MET A N   \n1657 C  CA  . MET A 216 ? 0.4104 0.3966 0.4477 0.0002  0.0039  -0.0001 908  MET A CA  \n1658 C  C   . MET A 216 ? 0.4198 0.3949 0.4463 -0.0003 -0.0003 0.0001  908  MET A C   \n1659 O  O   . MET A 216 ? 0.4184 0.3826 0.4337 -0.0013 -0.0011 0.0009  908  MET A O   \n1660 C  CB  . MET A 216 ? 0.3638 0.3527 0.4068 -0.0011 0.0004  0.0001  908  MET A CB  \n1661 C  CG  . MET A 216 ? 0.3814 0.3793 0.4335 -0.0011 0.0037  0.0000  908  MET A CG  \n1662 S  SD  . MET A 216 ? 0.4694 0.4642 0.5153 -0.0015 0.0107  0.0012  908  MET A SD  \n1663 C  CE  . MET A 216 ? 0.4280 0.4357 0.4878 -0.0014 0.0135  0.0011  908  MET A CE  \n1664 N  N   . THR A 217 ? 0.4389 0.4162 0.4685 0.0000  -0.0035 -0.0003 909  THR A N   \n1665 C  CA  . THR A 217 ? 0.4027 0.3697 0.4226 -0.0008 -0.0081 0.0000  909  THR A CA  \n1666 C  C   . THR A 217 ? 0.4574 0.4193 0.4692 0.0007  -0.0048 -0.0003 909  THR A C   \n1667 O  O   . THR A 217 ? 0.4372 0.3901 0.4403 0.0003  -0.0083 0.0000  909  THR A O   \n1668 C  CB  . THR A 217 ? 0.3820 0.3542 0.4101 -0.0019 -0.0141 0.0000  909  THR A CB  \n1669 O  OG1 . THR A 217 ? 0.4039 0.3859 0.4407 -0.0011 -0.0119 -0.0007 909  THR A OG1 \n1670 C  CG2 . THR A 217 ? 0.4312 0.4083 0.4678 -0.0030 -0.0179 0.0001  909  THR A CG2 \n1671 N  N   . PHE A 218 ? 0.4201 0.3877 0.4353 0.0027  0.0015  -0.0009 910  PHE A N   \n1672 C  CA  . PHE A 218 ? 0.5089 0.4731 0.5182 0.0050  0.0051  -0.0017 910  PHE A CA  \n1673 C  C   . PHE A 218 ? 0.4800 0.4459 0.4920 0.0049  0.0011  -0.0020 910  PHE A C   \n1674 O  O   . PHE A 218 ? 0.4512 0.4083 0.4535 0.0058  0.0002  -0.0022 910  PHE A O   \n1675 C  CB  . PHE A 218 ? 0.5081 0.4577 0.5008 0.0055  0.0068  -0.0014 910  PHE A CB  \n1676 C  CG  . PHE A 218 ? 0.4744 0.4225 0.4641 0.0051  0.0112  -0.0009 910  PHE A CG  \n1677 C  CD1 . PHE A 218 ? 0.5609 0.5151 0.5545 0.0069  0.0188  -0.0014 910  PHE A CD1 \n1678 C  CD2 . PHE A 218 ? 0.5242 0.4647 0.5075 0.0025  0.0075  0.0001  910  PHE A CD2 \n1679 C  CE1 . PHE A 218 ? 0.5072 0.4603 0.4983 0.0059  0.0230  -0.0006 910  PHE A CE1 \n1680 C  CE2 . PHE A 218 ? 0.5194 0.4576 0.4989 0.0016  0.0114  0.0008  910  PHE A CE2 \n1681 C  CZ  . PHE A 218 ? 0.5210 0.4657 0.5043 0.0031  0.0194  0.0005  910  PHE A CZ  \n1682 N  N   . GLY A 219 ? 0.3825 0.3592 0.4070 0.0038  -0.0010 -0.0021 911  GLY A N   \n1683 C  CA  . GLY A 219 ? 0.3826 0.3628 0.4111 0.0033  -0.0037 -0.0023 911  GLY A CA  \n1684 C  C   . GLY A 219 ? 0.3959 0.3723 0.4225 0.0007  -0.0104 -0.0015 911  GLY A C   \n1685 O  O   . GLY A 219 ? 0.3953 0.3699 0.4200 0.0001  -0.0128 -0.0014 911  GLY A O   \n1686 N  N   . SER A 220 ? 0.4351 0.4103 0.4626 -0.0009 -0.0138 -0.0008 912  SER A N   \n1687 C  CA  . SER A 220 ? 0.4092 0.3841 0.4392 -0.0036 -0.0204 0.0000  912  SER A CA  \n1688 C  C   . SER A 220 ? 0.3741 0.3617 0.4173 -0.0046 -0.0210 -0.0003 912  SER A C   \n1689 O  O   . SER A 220 ? 0.3525 0.3497 0.4044 -0.0036 -0.0173 -0.0012 912  SER A O   \n1690 C  CB  . SER A 220 ? 0.4691 0.4409 0.4990 -0.0047 -0.0242 0.0006  912  SER A CB  \n1691 O  OG  . SER A 220 ? 0.4822 0.4405 0.4979 -0.0044 -0.0243 0.0011  912  SER A OG  \n1692 N  N   . LYS A 221 ? 0.4242 0.4114 0.4685 -0.0071 -0.0260 0.0004  913  LYS A N   \n1693 C  CA  . LYS A 221 ? 0.4383 0.4369 0.4943 -0.0088 -0.0267 0.0003  913  LYS A CA  \n1694 C  C   . LYS A 221 ? 0.4370 0.4437 0.5039 -0.0096 -0.0287 0.0001  913  LYS A C   \n1695 O  O   . LYS A 221 ? 0.3920 0.3943 0.4578 -0.0108 -0.0336 0.0010  913  LYS A O   \n1696 C  CB  . LYS A 221 ? 0.4642 0.4587 0.5165 -0.0115 -0.0311 0.0015  913  LYS A CB  \n1697 C  CG  . LYS A 221 ? 0.5168 0.5046 0.5598 -0.0107 -0.0295 0.0014  913  LYS A CG  \n1698 C  CD  . LYS A 221 ? 0.6868 0.6690 0.7250 -0.0139 -0.0348 0.0028  913  LYS A CD  \n1699 C  CE  . LYS A 221 ? 0.7861 0.7795 0.8356 -0.0170 -0.0358 0.0033  913  LYS A CE  \n1700 N  NZ  . LYS A 221 ? 0.9970 0.9850 1.0419 -0.0208 -0.0412 0.0050  913  LYS A NZ  \n1701 N  N   . PRO A 222 ? 0.4009 0.4187 0.4782 -0.0087 -0.0253 -0.0009 914  PRO A N   \n1702 C  CA  . PRO A 222 ? 0.3311 0.3559 0.4184 -0.0087 -0.0269 -0.0014 914  PRO A CA  \n1703 C  C   . PRO A 222 ? 0.3990 0.4284 0.4934 -0.0113 -0.0314 -0.0007 914  PRO A C   \n1704 O  O   . PRO A 222 ? 0.3790 0.4121 0.4752 -0.0133 -0.0311 -0.0003 914  PRO A O   \n1705 C  CB  . PRO A 222 ? 0.3862 0.4207 0.4812 -0.0073 -0.0219 -0.0028 914  PRO A CB  \n1706 C  CG  . PRO A 222 ? 0.3979 0.4332 0.4902 -0.0078 -0.0192 -0.0028 914  PRO A CG  \n1707 C  CD  . PRO A 222 ? 0.3830 0.4067 0.4630 -0.0076 -0.0203 -0.0018 914  PRO A CD  \n1708 N  N   . TYR A 223 ? 0.3786 0.4078 0.4770 -0.0115 -0.0358 -0.0004 915  TYR A N   \n1709 C  CA  . TYR A 223 ? 0.3816 0.4160 0.4884 -0.0139 -0.0404 0.0002  915  TYR A CA  \n1710 C  C   . TYR A 223 ? 0.4591 0.4876 0.5592 -0.0170 -0.0433 0.0020  915  TYR A C   \n1711 O  O   . TYR A 223 ? 0.5290 0.5647 0.6359 -0.0196 -0.0439 0.0025  915  TYR A O   \n1712 C  CB  . TYR A 223 ? 0.3680 0.4170 0.4885 -0.0140 -0.0372 -0.0009 915  TYR A CB  \n1713 C  CG  . TYR A 223 ? 0.3113 0.3658 0.4369 -0.0109 -0.0332 -0.0029 915  TYR A CG  \n1714 C  CD1 . TYR A 223 ? 0.3498 0.4063 0.4818 -0.0091 -0.0357 -0.0037 915  TYR A CD1 \n1715 C  CD2 . TYR A 223 ? 0.3966 0.4536 0.5204 -0.0098 -0.0275 -0.0039 915  TYR A CD2 \n1716 C  CE1 . TYR A 223 ? 0.3620 0.4227 0.4979 -0.0063 -0.0324 -0.0055 915  TYR A CE1 \n1717 C  CE2 . TYR A 223 ? 0.3334 0.3947 0.4613 -0.0073 -0.0244 -0.0056 915  TYR A CE2 \n1718 C  CZ  . TYR A 223 ? 0.3187 0.3816 0.4522 -0.0056 -0.0268 -0.0064 915  TYR A CZ  \n1719 O  OH  . TYR A 223 ? 0.3887 0.4551 0.5258 -0.0032 -0.0240 -0.0080 915  TYR A OH  \n1720 N  N   . ASP A 224 ? 0.5151 0.5301 0.6012 -0.0168 -0.0448 0.0028  916  ASP A N   \n1721 C  CA  . ASP A 224 ? 0.5830 0.5895 0.6598 -0.0192 -0.0478 0.0044  916  ASP A CA  \n1722 C  C   . ASP A 224 ? 0.5812 0.5897 0.6643 -0.0227 -0.0546 0.0060  916  ASP A C   \n1723 O  O   . ASP A 224 ? 0.5600 0.5678 0.6470 -0.0227 -0.0590 0.0064  916  ASP A O   \n1724 C  CB  . ASP A 224 ? 0.6434 0.6340 0.7037 -0.0178 -0.0487 0.0047  916  ASP A CB  \n1725 C  CG  . ASP A 224 ? 0.6817 0.6618 0.7302 -0.0196 -0.0511 0.0059  916  ASP A CG  \n1726 O  OD1 . ASP A 224 ? 0.7661 0.7321 0.8011 -0.0192 -0.0537 0.0065  916  ASP A OD1 \n1727 O  OD2 . ASP A 224 ? 0.5865 0.5715 0.6381 -0.0214 -0.0504 0.0062  916  ASP A OD2 \n1728 N  N   . GLY A 225 ? 0.6830 0.6945 0.7678 -0.0259 -0.0555 0.0071  917  GLY A N   \n1729 C  CA  . GLY A 225 ? 0.9298 0.9438 1.0211 -0.0300 -0.0618 0.0090  917  GLY A CA  \n1730 C  C   . GLY A 225 ? 0.8729 0.9039 0.9827 -0.0311 -0.0605 0.0086  917  GLY A C   \n1731 O  O   . GLY A 225 ? 0.7563 0.7930 0.8731 -0.0350 -0.0633 0.0101  917  GLY A O   \n1732 N  N   . ILE A 226 ? 0.7571 0.7962 0.8746 -0.0276 -0.0562 0.0065  918  ILE A N   \n1733 C  CA  . ILE A 226 ? 0.5624 0.6176 0.6970 -0.0276 -0.0538 0.0054  918  ILE A CA  \n1734 C  C   . ILE A 226 ? 0.6378 0.7016 0.7757 -0.0295 -0.0482 0.0051  918  ILE A C   \n1735 O  O   . ILE A 226 ? 0.6158 0.6769 0.7463 -0.0279 -0.0433 0.0040  918  ILE A O   \n1736 C  CB  . ILE A 226 ? 0.6731 0.7322 0.8133 -0.0232 -0.0514 0.0032  918  ILE A CB  \n1737 C  CG1 . ILE A 226 ? 0.7936 0.8458 0.9331 -0.0223 -0.0582 0.0038  918  ILE A CG1 \n1738 C  CG2 . ILE A 226 ? 0.5529 0.6280 0.7088 -0.0225 -0.0475 0.0016  918  ILE A CG2 \n1739 C  CD1 . ILE A 226 ? 0.9994 1.0506 1.1395 -0.0180 -0.0567 0.0020  918  ILE A CD1 \n1740 N  N   . PRO A 227 ? 0.6265 0.7005 0.7753 -0.0331 -0.0490 0.0060  919  PRO A N   \n1741 C  CA  . PRO A 227 ? 0.5769 0.6580 0.7276 -0.0355 -0.0440 0.0060  919  PRO A CA  \n1742 C  C   . PRO A 227 ? 0.5006 0.5904 0.6568 -0.0322 -0.0369 0.0032  919  PRO A C   \n1743 O  O   . PRO A 227 ? 0.3791 0.4759 0.5452 -0.0292 -0.0361 0.0016  919  PRO A O   \n1744 C  CB  . PRO A 227 ? 0.5345 0.6259 0.6978 -0.0400 -0.0464 0.0076  919  PRO A CB  \n1745 C  CG  . PRO A 227 ? 0.6697 0.7568 0.8356 -0.0403 -0.0541 0.0090  919  PRO A CG  \n1746 C  CD  . PRO A 227 ? 0.6948 0.7748 0.8556 -0.0350 -0.0544 0.0072  919  PRO A CD  \n1747 N  N   . ALA A 228 ? 0.4646 0.5533 0.6142 -0.0326 -0.0323 0.0028  920  ALA A N   \n1748 C  CA  . ALA A 228 ? 0.5895 0.6847 0.7422 -0.0299 -0.0259 0.0004  920  ALA A CA  \n1749 C  C   . ALA A 228 ? 0.5724 0.6819 0.7400 -0.0302 -0.0230 -0.0008 920  ALA A C   \n1750 O  O   . ALA A 228 ? 0.4040 0.5184 0.5764 -0.0265 -0.0196 -0.0031 920  ALA A O   \n1751 C  CB  . ALA A 228 ? 0.4500 0.5418 0.5939 -0.0313 -0.0225 0.0005  920  ALA A CB  \n1752 N  N   . SER A 229 ? 0.4367 0.5529 0.6115 -0.0345 -0.0245 0.0007  921  SER A N   \n1753 C  CA  . SER A 229 ? 0.3859 0.5166 0.5758 -0.0347 -0.0213 -0.0004 921  SER A CA  \n1754 C  C   . SER A 229 ? 0.4132 0.5485 0.6137 -0.0305 -0.0235 -0.0019 921  SER A C   \n1755 O  O   . SER A 229 ? 0.4524 0.5991 0.6648 -0.0288 -0.0199 -0.0038 921  SER A O   \n1756 C  CB  . SER A 229 ? 0.4430 0.5803 0.6390 -0.0408 -0.0224 0.0019  921  SER A CB  \n1757 O  OG  . SER A 229 ? 0.4650 0.5994 0.6640 -0.0425 -0.0297 0.0041  921  SER A OG  \n1758 N  N   . GLU A 230 ? 0.3843 0.5101 0.5800 -0.0287 -0.0293 -0.0012 922  GLU A N   \n1759 C  CA  . GLU A 230 ? 0.3692 0.4972 0.5734 -0.0249 -0.0326 -0.0024 922  GLU A CA  \n1760 C  C   . GLU A 230 ? 0.3093 0.4321 0.5081 -0.0197 -0.0304 -0.0047 922  GLU A C   \n1761 O  O   . GLU A 230 ? 0.3589 0.4832 0.5641 -0.0162 -0.0327 -0.0061 922  GLU A O   \n1762 C  CB  . GLU A 230 ? 0.4492 0.5692 0.6514 -0.0264 -0.0410 0.0000  922  GLU A CB  \n1763 C  CG  . GLU A 230 ? 0.6298 0.7560 0.8406 -0.0314 -0.0447 0.0023  922  GLU A CG  \n1764 C  CD  . GLU A 230 ? 0.8229 0.9618 1.0526 -0.0303 -0.0466 0.0016  922  GLU A CD  \n1765 O  OE1 . GLU A 230 ? 1.0418 1.1820 1.2778 -0.0336 -0.0528 0.0039  922  GLU A OE1 \n1766 O  OE2 . GLU A 230 ? 0.6964 0.8438 0.9349 -0.0262 -0.0423 -0.0012 922  GLU A OE2 \n1767 N  N   . ILE A 231 ? 0.3651 0.4822 0.5528 -0.0193 -0.0265 -0.0051 923  ILE A N   \n1768 C  CA  . ILE A 231 ? 0.2896 0.4007 0.4713 -0.0150 -0.0251 -0.0068 923  ILE A CA  \n1769 C  C   . ILE A 231 ? 0.2475 0.3669 0.4386 -0.0112 -0.0218 -0.0097 923  ILE A C   \n1770 O  O   . ILE A 231 ? 0.3079 0.4240 0.4996 -0.0078 -0.0241 -0.0107 923  ILE A O   \n1771 C  CB  . ILE A 231 ? 0.3691 0.4725 0.5378 -0.0153 -0.0218 -0.0065 923  ILE A CB  \n1772 C  CG1 . ILE A 231 ? 0.3609 0.4530 0.5184 -0.0174 -0.0259 -0.0042 923  ILE A CG1 \n1773 C  CG2 . ILE A 231 ? 0.3133 0.4137 0.4786 -0.0113 -0.0194 -0.0084 923  ILE A CG2 \n1774 C  CD1 . ILE A 231 ? 0.3295 0.4124 0.4823 -0.0156 -0.0307 -0.0036 923  ILE A CD1 \n1775 N  N   . SER A 232 ? 0.2474 0.3767 0.4447 -0.0119 -0.0165 -0.0110 924  SER A N   \n1776 C  CA  . SER A 232 ? 0.3373 0.4737 0.5427 -0.0080 -0.0132 -0.0140 924  SER A CA  \n1777 C  C   . SER A 232 ? 0.3233 0.4644 0.5406 -0.0054 -0.0174 -0.0148 924  SER A C   \n1778 O  O   . SER A 232 ? 0.2494 0.3900 0.4691 -0.0011 -0.0177 -0.0169 924  SER A O   \n1779 C  CB  . SER A 232 ? 0.3770 0.5230 0.5867 -0.0094 -0.0067 -0.0152 924  SER A CB  \n1780 O  OG  . SER A 232 ? 0.4008 0.5566 0.6213 -0.0122 -0.0068 -0.0144 924  SER A OG  \n1781 N  N   . SER A 233 ? 0.3645 0.5099 0.5894 -0.0081 -0.0213 -0.0130 925  SER A N   \n1782 C  CA  . SER A 233 ? 0.3453 0.4953 0.5824 -0.0053 -0.0258 -0.0139 925  SER A CA  \n1783 C  C   . SER A 233 ? 0.3232 0.4611 0.5533 -0.0031 -0.0322 -0.0133 925  SER A C   \n1784 O  O   . SER A 233 ? 0.3018 0.4398 0.5371 0.0010  -0.0345 -0.0151 925  SER A O   \n1785 C  CB  . SER A 233 ? 0.4625 0.6213 0.7116 -0.0088 -0.0286 -0.0121 925  SER A CB  \n1786 O  OG  . SER A 233 ? 0.5599 0.7102 0.8006 -0.0131 -0.0334 -0.0088 925  SER A OG  \n1787 N  N   . ILE A 234 ? 0.3309 0.4573 0.5478 -0.0057 -0.0348 -0.0109 926  ILE A N   \n1788 C  CA  . ILE A 234 ? 0.4040 0.5173 0.6111 -0.0042 -0.0398 -0.0102 926  ILE A CA  \n1789 C  C   . ILE A 234 ? 0.3330 0.4431 0.5359 -0.0001 -0.0369 -0.0124 926  ILE A C   \n1790 O  O   . ILE A 234 ? 0.3135 0.4201 0.5182 0.0029  -0.0407 -0.0133 926  ILE A O   \n1791 C  CB  . ILE A 234 ? 0.4687 0.5711 0.6618 -0.0078 -0.0415 -0.0074 926  ILE A CB  \n1792 C  CG1 . ILE A 234 ? 0.5209 0.6210 0.7167 -0.0106 -0.0488 -0.0051 926  ILE A CG1 \n1793 C  CG2 . ILE A 234 ? 0.5683 0.6582 0.7473 -0.0062 -0.0414 -0.0074 926  ILE A CG2 \n1794 C  CD1 . ILE A 234 ? 0.6916 0.7819 0.8747 -0.0145 -0.0505 -0.0025 926  ILE A CD1 \n1795 N  N   . LEU A 235 ? 0.3673 0.4783 0.5647 -0.0001 -0.0306 -0.0133 927  LEU A N   \n1796 C  CA  . LEU A 235 ? 0.3098 0.4185 0.5038 0.0032  -0.0276 -0.0153 927  LEU A CA  \n1797 C  C   . LEU A 235 ? 0.2829 0.3989 0.4882 0.0072  -0.0275 -0.0181 927  LEU A C   \n1798 O  O   . LEU A 235 ? 0.3000 0.4108 0.5032 0.0103  -0.0293 -0.0193 927  LEU A O   \n1799 C  CB  . LEU A 235 ? 0.2930 0.4030 0.4813 0.0021  -0.0212 -0.0158 927  LEU A CB  \n1800 C  CG  . LEU A 235 ? 0.3192 0.4211 0.4957 -0.0007 -0.0210 -0.0134 927  LEU A CG  \n1801 C  CD1 . LEU A 235 ? 0.3372 0.4409 0.5093 -0.0016 -0.0153 -0.0139 927  LEU A CD1 \n1802 C  CD2 . LEU A 235 ? 0.3026 0.3933 0.4701 0.0004  -0.0241 -0.0126 927  LEU A CD2 \n1803 N  N   . GLU A 236 ? 0.3537 0.4815 0.5708 0.0070  -0.0252 -0.0192 928  GLU A N   \n1804 C  CA  . GLU A 236 ? 0.3738 0.5098 0.6029 0.0112  -0.0245 -0.0222 928  GLU A CA  \n1805 C  C   . GLU A 236 ? 0.4014 0.5346 0.6364 0.0138  -0.0318 -0.0222 928  GLU A C   \n1806 O  O   . GLU A 236 ? 0.3668 0.5009 0.6066 0.0183  -0.0326 -0.0247 928  GLU A O   \n1807 C  CB  . GLU A 236 ? 0.3825 0.5325 0.6235 0.0100  -0.0200 -0.0231 928  GLU A CB  \n1808 C  CG  . GLU A 236 ? 0.4376 0.5914 0.6746 0.0090  -0.0121 -0.0243 928  GLU A CG  \n1809 C  CD  . GLU A 236 ? 0.7449 0.9105 0.9904 0.0059  -0.0078 -0.0240 928  GLU A CD  \n1810 O  OE1 . GLU A 236 ? 0.8096 0.9807 1.0555 0.0063  -0.0011 -0.0260 928  GLU A OE1 \n1811 O  OE2 . GLU A 236 ? 0.6572 0.8261 0.9083 0.0027  -0.0111 -0.0218 928  GLU A OE2 \n1812 N  N   . LYS A 237 ? 0.3971 0.5260 0.6309 0.0110  -0.0376 -0.0195 929  LYS A N   \n1813 C  CA  . LYS A 237 ? 0.4089 0.5329 0.6464 0.0130  -0.0457 -0.0192 929  LYS A CA  \n1814 C  C   . LYS A 237 ? 0.4814 0.5910 0.7058 0.0144  -0.0490 -0.0189 929  LYS A C   \n1815 O  O   . LYS A 237 ? 0.4509 0.5543 0.6760 0.0162  -0.0559 -0.0187 929  LYS A O   \n1816 C  CB  . LYS A 237 ? 0.5132 0.6365 0.7531 0.0092  -0.0513 -0.0163 929  LYS A CB  \n1817 C  CG  . LYS A 237 ? 0.3792 0.5176 0.6348 0.0076  -0.0496 -0.0164 929  LYS A CG  \n1818 C  CD  . LYS A 237 ? 0.7216 0.8580 0.9785 0.0033  -0.0558 -0.0131 929  LYS A CD  \n1819 C  CE  . LYS A 237 ? 0.8811 1.0133 1.1438 0.0052  -0.0653 -0.0126 929  LYS A CE  \n1820 N  NZ  . LYS A 237 ? 0.8529 0.9825 1.1168 0.0007  -0.0722 -0.0093 929  LYS A NZ  \n1821 N  N   . GLY A 238 ? 0.3690 0.4731 0.5814 0.0135  -0.0443 -0.0187 930  GLY A N   \n1822 C  CA  . GLY A 238 ? 0.4023 0.4936 0.6022 0.0142  -0.0462 -0.0182 930  GLY A CA  \n1823 C  C   . GLY A 238 ? 0.4049 0.4849 0.5916 0.0107  -0.0484 -0.0151 930  GLY A C   \n1824 O  O   . GLY A 238 ? 0.4413 0.5104 0.6172 0.0108  -0.0499 -0.0144 930  GLY A O   \n1825 N  N   . GLU A 239 ? 0.3176 0.3997 0.5045 0.0074  -0.0486 -0.0133 931  GLU A N   \n1826 C  CA  . GLU A 239 ? 0.3345 0.4052 0.5084 0.0043  -0.0509 -0.0106 931  GLU A CA  \n1827 C  C   . GLU A 239 ? 0.2811 0.3485 0.4443 0.0032  -0.0447 -0.0103 931  GLU A C   \n1828 O  O   . GLU A 239 ? 0.2834 0.3590 0.4505 0.0033  -0.0390 -0.0114 931  GLU A O   \n1829 C  CB  . GLU A 239 ? 0.3812 0.4543 0.5582 0.0011  -0.0537 -0.0088 931  GLU A CB  \n1830 C  CG  . GLU A 239 ? 0.5529 0.6132 0.7156 -0.0018 -0.0564 -0.0062 931  GLU A CG  \n1831 C  CD  . GLU A 239 ? 0.7991 0.8607 0.9648 -0.0051 -0.0605 -0.0043 931  GLU A CD  \n1832 O  OE1 . GLU A 239 ? 0.5916 0.6628 0.7715 -0.0050 -0.0632 -0.0047 931  GLU A OE1 \n1833 O  OE2 . GLU A 239 ? 0.6145 0.6674 0.7686 -0.0078 -0.0609 -0.0024 931  GLU A OE2 \n1834 N  N   . ARG A 240 ? 0.3370 0.3922 0.4871 0.0023  -0.0458 -0.0088 932  ARG A N   \n1835 C  CA  . ARG A 240 ? 0.2919 0.3436 0.4323 0.0017  -0.0401 -0.0085 932  ARG A CA  \n1836 C  C   . ARG A 240 ? 0.3610 0.4019 0.4887 -0.0006 -0.0412 -0.0063 932  ARG A C   \n1837 O  O   . ARG A 240 ? 0.3586 0.3928 0.4831 -0.0017 -0.0468 -0.0050 932  ARG A O   \n1838 C  CB  . ARG A 240 ? 0.2782 0.3264 0.4157 0.0038  -0.0389 -0.0094 932  ARG A CB  \n1839 C  CG  . ARG A 240 ? 0.2771 0.3344 0.4244 0.0064  -0.0365 -0.0119 932  ARG A CG  \n1840 C  CD  . ARG A 240 ? 0.2802 0.3471 0.4322 0.0060  -0.0307 -0.0128 932  ARG A CD  \n1841 N  NE  . ARG A 240 ? 0.2848 0.3588 0.4443 0.0085  -0.0284 -0.0153 932  ARG A NE  \n1842 C  CZ  . ARG A 240 ? 0.4712 0.5539 0.6418 0.0102  -0.0289 -0.0170 932  ARG A CZ  \n1843 N  NH1 . ARG A 240 ? 0.3682 0.4558 0.5437 0.0128  -0.0263 -0.0194 932  ARG A NH1 \n1844 N  NH2 . ARG A 240 ? 0.2781 0.3644 0.4549 0.0092  -0.0320 -0.0164 932  ARG A NH2 \n1845 N  N   . LEU A 241 ? 0.3078 0.3466 0.4280 -0.0012 -0.0361 -0.0059 933  LEU A N   \n1846 C  CA  . LEU A 241 ? 0.2899 0.3176 0.3970 -0.0027 -0.0364 -0.0041 933  LEU A CA  \n1847 C  C   . LEU A 241 ? 0.3058 0.3227 0.4047 -0.0023 -0.0394 -0.0034 933  LEU A C   \n1848 O  O   . LEU A 241 ? 0.3728 0.3908 0.4740 -0.0009 -0.0387 -0.0043 933  LEU A O   \n1849 C  CB  . LEU A 241 ? 0.3298 0.3583 0.4320 -0.0027 -0.0300 -0.0042 933  LEU A CB  \n1850 C  CG  . LEU A 241 ? 0.3165 0.3533 0.4242 -0.0035 -0.0275 -0.0046 933  LEU A CG  \n1851 C  CD1 . LEU A 241 ? 0.2743 0.3138 0.3803 -0.0028 -0.0215 -0.0051 933  LEU A CD1 \n1852 C  CD2 . LEU A 241 ? 0.2660 0.2977 0.3685 -0.0057 -0.0305 -0.0031 933  LEU A CD2 \n1853 N  N   . PRO A 242 ? 0.3400 0.3455 0.4284 -0.0038 -0.0431 -0.0019 934  PRO A N   \n1854 C  CA  . PRO A 242 ? 0.3738 0.3673 0.4527 -0.0040 -0.0467 -0.0010 934  PRO A CA  \n1855 C  C   . PRO A 242 ? 0.3860 0.3737 0.4550 -0.0038 -0.0414 -0.0007 934  PRO A C   \n1856 O  O   . PRO A 242 ? 0.3631 0.3536 0.4301 -0.0037 -0.0355 -0.0008 934  PRO A O   \n1857 C  CB  . PRO A 242 ? 0.4855 0.4687 0.5552 -0.0060 -0.0515 0.0005  934  PRO A CB  \n1858 C  CG  . PRO A 242 ? 0.4641 0.4511 0.5333 -0.0067 -0.0477 0.0006  934  PRO A CG  \n1859 C  CD  . PRO A 242 ? 0.4178 0.4205 0.5020 -0.0057 -0.0444 -0.0008 934  PRO A CD  \n1860 N  N   . GLN A 243 ? 0.3725 0.3520 0.4355 -0.0039 -0.0438 -0.0002 935  GLN A N   \n1861 C  CA  . GLN A 243 ? 0.3597 0.3326 0.4125 -0.0044 -0.0391 0.0004  935  GLN A CA  \n1862 C  C   . GLN A 243 ? 0.4123 0.3765 0.4521 -0.0055 -0.0361 0.0014  935  GLN A C   \n1863 O  O   . GLN A 243 ? 0.4729 0.4268 0.5038 -0.0067 -0.0406 0.0024  935  GLN A O   \n1864 C  CB  . GLN A 243 ? 0.4106 0.3739 0.4573 -0.0050 -0.0433 0.0010  935  GLN A CB  \n1865 C  CG  . GLN A 243 ? 0.4792 0.4350 0.5146 -0.0062 -0.0384 0.0021  935  GLN A CG  \n1866 C  CD  . GLN A 243 ? 0.5311 0.4771 0.5601 -0.0073 -0.0429 0.0029  935  GLN A CD  \n1867 O  OE1 . GLN A 243 ? 0.4912 0.4363 0.5251 -0.0066 -0.0498 0.0024  935  GLN A OE1 \n1868 N  NE2 . GLN A 243 ? 0.4526 0.3909 0.4705 -0.0090 -0.0389 0.0041  935  GLN A NE2 \n1869 N  N   . PRO A 244 ? 0.4594 0.4274 0.4979 -0.0050 -0.0287 0.0012  936  PRO A N   \n1870 C  CA  . PRO A 244 ? 0.5057 0.4650 0.5315 -0.0055 -0.0253 0.0020  936  PRO A CA  \n1871 C  C   . PRO A 244 ? 0.4791 0.4243 0.4903 -0.0069 -0.0259 0.0032  936  PRO A C   \n1872 O  O   . PRO A 244 ? 0.4662 0.4112 0.4781 -0.0074 -0.0254 0.0035  936  PRO A O   \n1873 C  CB  . PRO A 244 ? 0.4335 0.4017 0.4640 -0.0042 -0.0175 0.0013  936  PRO A CB  \n1874 C  CG  . PRO A 244 ? 0.4068 0.3886 0.4528 -0.0033 -0.0181 0.0001  936  PRO A CG  \n1875 C  CD  . PRO A 244 ? 0.4467 0.4272 0.4960 -0.0038 -0.0236 0.0002  936  PRO A CD  \n1876 N  N   . PRO A 245 ? 0.5087 0.4411 0.5060 -0.0077 -0.0275 0.0040  937  PRO A N   \n1877 C  CA  . PRO A 245 ? 0.5432 0.4601 0.5243 -0.0094 -0.0283 0.0052  937  PRO A CA  \n1878 C  C   . PRO A 245 ? 0.5480 0.4646 0.5246 -0.0098 -0.0208 0.0056  937  PRO A C   \n1879 O  O   . PRO A 245 ? 0.5174 0.4251 0.4857 -0.0116 -0.0221 0.0066  937  PRO A O   \n1880 C  CB  . PRO A 245 ? 0.6300 0.5356 0.5977 -0.0096 -0.0290 0.0056  937  PRO A CB  \n1881 C  CG  . PRO A 245 ? 0.6278 0.5407 0.6057 -0.0090 -0.0335 0.0050  937  PRO A CG  \n1882 C  CD  . PRO A 245 ? 0.5241 0.4550 0.5202 -0.0076 -0.0303 0.0038  937  PRO A CD  \n1883 N  N   . ILE A 246 ? 0.4624 0.3885 0.4447 -0.0082 -0.0132 0.0048  938  ILE A N   \n1884 C  CA  . ILE A 246 ? 0.5111 0.4384 0.4909 -0.0087 -0.0057 0.0053  938  ILE A CA  \n1885 C  C   . ILE A 246 ? 0.4991 0.4352 0.4899 -0.0094 -0.0059 0.0055  938  ILE A C   \n1886 O  O   . ILE A 246 ? 0.5462 0.4816 0.5341 -0.0108 -0.0012 0.0064  938  ILE A O   \n1887 C  CB  . ILE A 246 ? 0.4503 0.3843 0.4324 -0.0066 0.0023  0.0045  938  ILE A CB  \n1888 C  CG1 . ILE A 246 ? 0.4676 0.4175 0.4670 -0.0048 0.0028  0.0033  938  ILE A CG1 \n1889 C  CG2 . ILE A 246 ? 0.4951 0.4185 0.4642 -0.0056 0.0030  0.0042  938  ILE A CG2 \n1890 C  CD1 . ILE A 246 ? 0.4473 0.4052 0.4513 -0.0028 0.0106  0.0027  938  ILE A CD1 \n1891 N  N   . CYS A 247 ? 0.4487 0.3927 0.4517 -0.0087 -0.0111 0.0047  939  CYS A N   \n1892 C  CA  . CYS A 247 ? 0.4063 0.3590 0.4199 -0.0088 -0.0109 0.0046  939  CYS A CA  \n1893 C  C   . CYS A 247 ? 0.4783 0.4225 0.4869 -0.0106 -0.0163 0.0055  939  CYS A C   \n1894 O  O   . CYS A 247 ? 0.4223 0.3602 0.4285 -0.0107 -0.0235 0.0054  939  CYS A O   \n1895 C  CB  . CYS A 247 ? 0.4085 0.3738 0.4375 -0.0069 -0.0134 0.0030  939  CYS A CB  \n1896 S  SG  . CYS A 247 ? 0.4672 0.4438 0.5041 -0.0049 -0.0079 0.0019  939  CYS A SG  \n1897 N  N   . THR A 248 ? 0.4268 0.3711 0.4347 -0.0122 -0.0135 0.0064  940  THR A N   \n1898 C  CA  . THR A 248 ? 0.4738 0.4124 0.4804 -0.0135 -0.0195 0.0069  940  THR A CA  \n1899 C  C   . THR A 248 ? 0.4529 0.4015 0.4741 -0.0112 -0.0242 0.0052  940  THR A C   \n1900 O  O   . THR A 248 ? 0.4292 0.3897 0.4614 -0.0092 -0.0214 0.0039  940  THR A O   \n1901 C  CB  . THR A 248 ? 0.4720 0.4094 0.4756 -0.0160 -0.0157 0.0083  940  THR A CB  \n1902 O  OG1 . THR A 248 ? 0.5134 0.4647 0.5296 -0.0150 -0.0107 0.0077  940  THR A OG1 \n1903 C  CG2 . THR A 248 ? 0.5448 0.4722 0.5334 -0.0186 -0.0103 0.0101  940  THR A CG2 \n1904 N  N   . ILE A 249 ? 0.4422 0.3856 0.4634 -0.0113 -0.0311 0.0051  941  ILE A N   \n1905 C  CA  . ILE A 249 ? 0.4685 0.4208 0.5033 -0.0088 -0.0354 0.0033  941  ILE A CA  \n1906 C  C   . ILE A 249 ? 0.3739 0.3375 0.4188 -0.0080 -0.0310 0.0025  941  ILE A C   \n1907 O  O   . ILE A 249 ? 0.4088 0.3826 0.4655 -0.0055 -0.0315 0.0006  941  ILE A O   \n1908 C  CB  . ILE A 249 ? 0.5309 0.4744 0.5633 -0.0086 -0.0441 0.0032  941  ILE A CB  \n1909 C  CG1 . ILE A 249 ? 0.5203 0.4730 0.5671 -0.0052 -0.0487 0.0009  941  ILE A CG1 \n1910 C  CG2 . ILE A 249 ? 0.4799 0.4164 0.5060 -0.0108 -0.0446 0.0044  941  ILE A CG2 \n1911 C  CD1 . ILE A 249 ? 0.5661 0.5217 0.6170 -0.0039 -0.0513 0.0002  941  ILE A CD1 \n1912 N  N   . ASP A 250 ? 0.4504 0.4121 0.4907 -0.0103 -0.0267 0.0039  942  ASP A N   \n1913 C  CA  . ASP A 250 ? 0.4483 0.4198 0.4973 -0.0101 -0.0227 0.0036  942  ASP A CA  \n1914 C  C   . ASP A 250 ? 0.4059 0.3893 0.4639 -0.0082 -0.0180 0.0024  942  ASP A C   \n1915 O  O   . ASP A 250 ? 0.3842 0.3769 0.4524 -0.0066 -0.0176 0.0010  942  ASP A O   \n1916 C  CB  . ASP A 250 ? 0.4351 0.4026 0.4771 -0.0135 -0.0182 0.0058  942  ASP A CB  \n1917 C  CG  . ASP A 250 ? 0.7314 0.6852 0.7615 -0.0162 -0.0222 0.0075  942  ASP A CG  \n1918 O  OD1 . ASP A 250 ? 0.7083 0.6600 0.7396 -0.0171 -0.0256 0.0077  942  ASP A OD1 \n1919 O  OD2 . ASP A 250 ? 0.7888 0.7329 0.8076 -0.0175 -0.0225 0.0085  942  ASP A OD2 \n1920 N  N   . VAL A 251 ? 0.3904 0.3725 0.4435 -0.0084 -0.0145 0.0029  943  VAL A N   \n1921 C  CA  . VAL A 251 ? 0.4005 0.3923 0.4606 -0.0067 -0.0103 0.0019  943  VAL A CA  \n1922 C  C   . VAL A 251 ? 0.3956 0.3920 0.4626 -0.0045 -0.0144 0.0001  943  VAL A C   \n1923 O  O   . VAL A 251 ? 0.3553 0.3615 0.4318 -0.0030 -0.0130 -0.0011 943  VAL A O   \n1924 C  CB  . VAL A 251 ? 0.4723 0.4608 0.5246 -0.0073 -0.0053 0.0028  943  VAL A CB  \n1925 C  CG1 . VAL A 251 ? 0.4211 0.4182 0.4801 -0.0053 -0.0025 0.0017  943  VAL A CG1 \n1926 C  CG2 . VAL A 251 ? 0.4546 0.4418 0.5030 -0.0094 0.0000  0.0045  943  VAL A CG2 \n1927 N  N   . TYR A 252 ? 0.3898 0.3791 0.4520 -0.0044 -0.0194 0.0001  944  TYR A N   \n1928 C  CA  . TYR A 252 ? 0.3769 0.3711 0.4468 -0.0026 -0.0235 -0.0013 944  TYR A CA  \n1929 C  C   . TYR A 252 ? 0.3481 0.3498 0.4287 -0.0009 -0.0257 -0.0030 944  TYR A C   \n1930 O  O   . TYR A 252 ? 0.3501 0.3607 0.4398 0.0006  -0.0255 -0.0045 944  TYR A O   \n1931 C  CB  . TYR A 252 ? 0.3798 0.3645 0.4429 -0.0031 -0.0292 -0.0007 944  TYR A CB  \n1932 C  CG  . TYR A 252 ? 0.3995 0.3896 0.4709 -0.0017 -0.0333 -0.0019 944  TYR A CG  \n1933 C  CD1 . TYR A 252 ? 0.4645 0.4512 0.5382 -0.0011 -0.0404 -0.0023 944  TYR A CD1 \n1934 C  CD2 . TYR A 252 ? 0.3556 0.3542 0.4328 -0.0011 -0.0303 -0.0026 944  TYR A CD2 \n1935 C  CE1 . TYR A 252 ? 0.4129 0.4057 0.4955 0.0000  -0.0440 -0.0033 944  TYR A CE1 \n1936 C  CE2 . TYR A 252 ? 0.3535 0.3574 0.4384 -0.0004 -0.0338 -0.0035 944  TYR A CE2 \n1937 C  CZ  . TYR A 252 ? 0.3918 0.3934 0.4799 0.0000  -0.0404 -0.0038 944  TYR A CZ  \n1938 O  OH  . TYR A 252 ? 0.3729 0.3809 0.4701 0.0006  -0.0436 -0.0045 944  TYR A OH  \n1939 N  N   . MET A 253 ? 0.3341 0.3315 0.4130 -0.0013 -0.0277 -0.0027 945  MET A N   \n1940 C  CA  . MET A 253 ? 0.3745 0.3777 0.4624 0.0005  -0.0298 -0.0045 945  MET A CA  \n1941 C  C   . MET A 253 ? 0.4277 0.4414 0.5232 0.0013  -0.0248 -0.0055 945  MET A C   \n1942 O  O   . MET A 253 ? 0.3191 0.3397 0.4229 0.0034  -0.0257 -0.0074 945  MET A O   \n1943 C  CB  . MET A 253 ? 0.4580 0.4539 0.5413 -0.0002 -0.0324 -0.0038 945  MET A CB  \n1944 C  CG  . MET A 253 ? 0.6840 0.6707 0.7634 0.0001  -0.0396 -0.0038 945  MET A CG  \n1945 S  SD  . MET A 253 ? 0.8264 0.8198 0.9181 0.0042  -0.0448 -0.0067 945  MET A SD  \n1946 C  CE  . MET A 253 ? 0.3997 0.3933 0.4910 0.0038  -0.0461 -0.0062 945  MET A CE  \n1947 N  N   . ILE A 254 ? 0.3490 0.3635 0.4413 -0.0003 -0.0197 -0.0041 946  ILE A N   \n1948 C  CA  . ILE A 254 ? 0.3593 0.3830 0.4583 0.0002  -0.0157 -0.0049 946  ILE A CA  \n1949 C  C   . ILE A 254 ? 0.2666 0.2970 0.3711 0.0016  -0.0151 -0.0063 946  ILE A C   \n1950 O  O   . ILE A 254 ? 0.2907 0.3281 0.4023 0.0029  -0.0146 -0.0079 946  ILE A O   \n1951 C  CB  . ILE A 254 ? 0.4030 0.4269 0.4986 -0.0015 -0.0104 -0.0032 946  ILE A CB  \n1952 C  CG1 . ILE A 254 ? 0.4918 0.5097 0.5824 -0.0036 -0.0105 -0.0015 946  ILE A CG1 \n1953 C  CG2 . ILE A 254 ? 0.4208 0.4537 0.5237 -0.0009 -0.0071 -0.0039 946  ILE A CG2 \n1954 C  CD1 . ILE A 254 ? 0.4936 0.5123 0.5817 -0.0055 -0.0050 0.0002  946  ILE A CD1 \n1955 N  N   . MET A 255 ? 0.2721 0.2998 0.3724 0.0011  -0.0150 -0.0055 947  MET A N   \n1956 C  CA  . MET A 255 ? 0.3375 0.3705 0.4419 0.0018  -0.0148 -0.0064 947  MET A CA  \n1957 C  C   . MET A 255 ? 0.3105 0.3476 0.4224 0.0034  -0.0187 -0.0082 947  MET A C   \n1958 O  O   . MET A 255 ? 0.3151 0.3602 0.4341 0.0042  -0.0174 -0.0095 947  MET A O   \n1959 C  CB  . MET A 255 ? 0.3529 0.3795 0.4500 0.0009  -0.0158 -0.0052 947  MET A CB  \n1960 C  CG  . MET A 255 ? 0.4305 0.4561 0.5225 0.0002  -0.0111 -0.0042 947  MET A CG  \n1961 S  SD  . MET A 255 ? 0.4945 0.5092 0.5749 -0.0007 -0.0128 -0.0029 947  MET A SD  \n1962 C  CE  . MET A 255 ? 0.4628 0.4691 0.5341 -0.0018 -0.0106 -0.0014 947  MET A CE  \n1963 N  N   . VAL A 256 ? 0.3054 0.3368 0.4157 0.0038  -0.0232 -0.0081 948  VAL A N   \n1964 C  CA  . VAL A 256 ? 0.3051 0.3404 0.4234 0.0058  -0.0272 -0.0099 948  VAL A CA  \n1965 C  C   . VAL A 256 ? 0.2706 0.3128 0.3961 0.0076  -0.0255 -0.0119 948  VAL A C   \n1966 O  O   . VAL A 256 ? 0.2795 0.3292 0.4130 0.0091  -0.0254 -0.0137 948  VAL A O   \n1967 C  CB  . VAL A 256 ? 0.3994 0.4260 0.5141 0.0061  -0.0333 -0.0095 948  VAL A CB  \n1968 C  CG1 . VAL A 256 ? 0.3537 0.3849 0.4780 0.0089  -0.0372 -0.0116 948  VAL A CG1 \n1969 C  CG2 . VAL A 256 ? 0.3693 0.3897 0.4779 0.0045  -0.0357 -0.0078 948  VAL A CG2 \n1970 N  N   . LYS A 257 ? 0.2985 0.3381 0.4208 0.0072  -0.0240 -0.0116 949  LYS A N   \n1971 C  CA  . LYS A 257 ? 0.2857 0.3302 0.4128 0.0086  -0.0223 -0.0132 949  LYS A CA  \n1972 C  C   . LYS A 257 ? 0.2561 0.3089 0.3874 0.0085  -0.0179 -0.0140 949  LYS A C   \n1973 O  O   . LYS A 257 ? 0.2417 0.2999 0.3785 0.0102  -0.0172 -0.0160 949  LYS A O   \n1974 C  CB  . LYS A 257 ? 0.3346 0.3740 0.4567 0.0074  -0.0217 -0.0121 949  LYS A CB  \n1975 C  CG  . LYS A 257 ? 0.5919 0.6226 0.7095 0.0075  -0.0263 -0.0116 949  LYS A CG  \n1976 C  CD  . LYS A 257 ? 0.6076 0.6343 0.7210 0.0057  -0.0255 -0.0104 949  LYS A CD  \n1977 C  CE  . LYS A 257 ? 1.0073 1.0237 1.1137 0.0046  -0.0296 -0.0091 949  LYS A CE  \n1978 N  NZ  . LYS A 257 ? 1.1220 1.1348 1.2242 0.0021  -0.0284 -0.0074 949  LYS A NZ  \n1979 N  N   . CYS A 258 ? 0.2615 0.3145 0.3894 0.0066  -0.0151 -0.0124 950  CYS A N   \n1980 C  CA  . CYS A 258 ? 0.1891 0.2487 0.3199 0.0062  -0.0115 -0.0129 950  CYS A CA  \n1981 C  C   . CYS A 258 ? 0.2333 0.2987 0.3699 0.0070  -0.0121 -0.0143 950  CYS A C   \n1982 O  O   . CYS A 258 ? 0.2581 0.3292 0.3977 0.0068  -0.0095 -0.0151 950  CYS A O   \n1983 C  CB  . CYS A 258 ? 0.1817 0.2394 0.3076 0.0044  -0.0092 -0.0110 950  CYS A CB  \n1984 S  SG  . CYS A 258 ? 0.2879 0.3421 0.4095 0.0033  -0.0067 -0.0094 950  CYS A SG  \n1985 N  N   . TRP A 259 ? 0.2685 0.3323 0.4065 0.0076  -0.0156 -0.0143 951  TRP A N   \n1986 C  CA  . TRP A 259 ? 0.2500 0.3201 0.3947 0.0080  -0.0163 -0.0154 951  TRP A CA  \n1987 C  C   . TRP A 259 ? 0.2550 0.3290 0.4074 0.0106  -0.0185 -0.0176 951  TRP A C   \n1988 O  O   . TRP A 259 ? 0.2780 0.3568 0.4371 0.0111  -0.0200 -0.0183 951  TRP A O   \n1989 C  CB  . TRP A 259 ? 0.3021 0.3690 0.4443 0.0064  -0.0189 -0.0137 951  TRP A CB  \n1990 C  CG  . TRP A 259 ? 0.2727 0.3348 0.4067 0.0043  -0.0170 -0.0117 951  TRP A CG  \n1991 C  CD1 . TRP A 259 ? 0.2509 0.3154 0.3830 0.0034  -0.0129 -0.0114 951  TRP A CD1 \n1992 C  CD2 . TRP A 259 ? 0.2855 0.3392 0.4118 0.0032  -0.0192 -0.0099 951  TRP A CD2 \n1993 N  NE1 . TRP A 259 ? 0.2531 0.3118 0.3778 0.0021  -0.0125 -0.0097 951  TRP A NE1 \n1994 C  CE2 . TRP A 259 ? 0.3042 0.3560 0.4247 0.0019  -0.0160 -0.0088 951  TRP A CE2 \n1995 C  CE3 . TRP A 259 ? 0.2200 0.2668 0.3433 0.0032  -0.0239 -0.0092 951  TRP A CE3 \n1996 C  CZ2 . TRP A 259 ? 0.3191 0.3625 0.4305 0.0009  -0.0166 -0.0072 951  TRP A CZ2 \n1997 C  CZ3 . TRP A 259 ? 0.2888 0.3267 0.4024 0.0018  -0.0248 -0.0074 951  TRP A CZ3 \n1998 C  CH2 . TRP A 259 ? 0.2702 0.3065 0.3777 0.0008  -0.0208 -0.0065 951  TRP A CH2 \n1999 N  N   . MET A 260 ? 0.2803 0.3524 0.4324 0.0124  -0.0186 -0.0188 952  MET A N   \n2000 C  CA  . MET A 260 ? 0.3206 0.3962 0.4796 0.0156  -0.0199 -0.0215 952  MET A CA  \n2001 C  C   . MET A 260 ? 0.3135 0.3985 0.4790 0.0163  -0.0160 -0.0234 952  MET A C   \n2002 O  O   . MET A 260 ? 0.2052 0.2924 0.3682 0.0147  -0.0120 -0.0232 952  MET A O   \n2003 C  CB  . MET A 260 ? 0.3027 0.3728 0.4581 0.0171  -0.0209 -0.0222 952  MET A CB  \n2004 C  CG  . MET A 260 ? 0.3817 0.4426 0.5316 0.0166  -0.0254 -0.0206 952  MET A CG  \n2005 S  SD  . MET A 260 ? 0.5691 0.6234 0.7152 0.0182  -0.0273 -0.0215 952  MET A SD  \n2006 C  CE  . MET A 260 ? 0.5642 0.6158 0.7029 0.0147  -0.0235 -0.0192 952  MET A CE  \n2007 N  N   . ILE A 261 ? 0.2444 0.3353 0.4187 0.0186  -0.0171 -0.0253 953  ILE A N   \n2008 C  CA  . ILE A 261 ? 0.2464 0.3464 0.4268 0.0192  -0.0127 -0.0273 953  ILE A CA  \n2009 C  C   . ILE A 261 ? 0.2375 0.3371 0.4148 0.0204  -0.0091 -0.0291 953  ILE A C   \n2010 O  O   . ILE A 261 ? 0.2538 0.3575 0.4301 0.0190  -0.0046 -0.0296 953  ILE A O   \n2011 C  CB  . ILE A 261 ? 0.2516 0.3585 0.4435 0.0220  -0.0145 -0.0293 953  ILE A CB  \n2012 C  CG1 . ILE A 261 ? 0.4279 0.5360 0.6233 0.0200  -0.0180 -0.0271 953  ILE A CG1 \n2013 C  CG2 . ILE A 261 ? 0.3298 0.4464 0.5282 0.0231  -0.0092 -0.0317 953  ILE A CG2 \n2014 C  CD1 . ILE A 261 ? 0.4645 0.5735 0.6556 0.0155  -0.0158 -0.0247 953  ILE A CD1 \n2015 N  N   . ASP A 262 ? 0.2799 0.3733 0.4543 0.0228  -0.0116 -0.0301 954  ASP A N   \n2016 C  CA  . ASP A 262 ? 0.2390 0.3298 0.4090 0.0239  -0.0094 -0.0316 954  ASP A CA  \n2017 C  C   . ASP A 262 ? 0.2746 0.3605 0.4362 0.0205  -0.0083 -0.0292 954  ASP A C   \n2018 O  O   . ASP A 262 ? 0.2880 0.3672 0.4450 0.0196  -0.0111 -0.0274 954  ASP A O   \n2019 C  CB  . ASP A 262 ? 0.2858 0.3706 0.4551 0.0273  -0.0132 -0.0332 954  ASP A CB  \n2020 C  CG  . ASP A 262 ? 0.4764 0.5571 0.6404 0.0284  -0.0118 -0.0348 954  ASP A CG  \n2021 O  OD1 . ASP A 262 ? 0.4484 0.5227 0.6102 0.0308  -0.0153 -0.0358 954  ASP A OD1 \n2022 O  OD2 . ASP A 262 ? 0.5374 0.6203 0.6986 0.0268  -0.0077 -0.0349 954  ASP A OD2 \n2023 N  N   . ALA A 263 ? 0.2199 0.3094 0.3801 0.0186  -0.0042 -0.0291 955  ALA A N   \n2024 C  CA  . ALA A 263 ? 0.2677 0.3534 0.4211 0.0155  -0.0033 -0.0268 955  ALA A CA  \n2025 C  C   . ALA A 263 ? 0.2579 0.3369 0.4063 0.0158  -0.0049 -0.0266 955  ALA A C   \n2026 O  O   . ALA A 263 ? 0.2919 0.3671 0.4362 0.0136  -0.0056 -0.0242 955  ALA A O   \n2027 C  CB  . ALA A 263 ? 0.2795 0.3694 0.4320 0.0137  0.0007  -0.0271 955  ALA A CB  \n2028 N  N   . ASP A 264 ? 0.2626 0.3402 0.4112 0.0185  -0.0052 -0.0292 956  ASP A N   \n2029 C  CA  . ASP A 264 ? 0.3762 0.4467 0.5199 0.0189  -0.0074 -0.0292 956  ASP A CA  \n2030 C  C   . ASP A 264 ? 0.4501 0.5148 0.5924 0.0187  -0.0116 -0.0275 956  ASP A C   \n2031 O  O   . ASP A 264 ? 0.4075 0.4664 0.5452 0.0174  -0.0134 -0.0261 956  ASP A O   \n2032 C  CB  . ASP A 264 ? 0.3350 0.4043 0.4784 0.0223  -0.0071 -0.0326 956  ASP A CB  \n2033 C  CG  . ASP A 264 ? 0.3851 0.4571 0.5264 0.0217  -0.0030 -0.0340 956  ASP A CG  \n2034 O  OD1 . ASP A 264 ? 0.3800 0.4508 0.5174 0.0186  -0.0021 -0.0321 956  ASP A OD1 \n2035 O  OD2 . ASP A 264 ? 0.3627 0.4378 0.5062 0.0245  -0.0007 -0.0371 956  ASP A OD2 \n2036 N  N   . SER A 265 ? 0.2736 0.3397 0.4196 0.0198  -0.0134 -0.0274 957  SER A N   \n2037 C  CA  . SER A 265 ? 0.3603 0.4200 0.5038 0.0193  -0.0175 -0.0256 957  SER A CA  \n2038 C  C   . SER A 265 ? 0.3157 0.3738 0.4558 0.0157  -0.0170 -0.0223 957  SER A C   \n2039 O  O   . SER A 265 ? 0.3095 0.3614 0.4457 0.0146  -0.0197 -0.0205 957  SER A O   \n2040 C  CB  . SER A 265 ? 0.4242 0.4844 0.5724 0.0222  -0.0206 -0.0271 957  SER A CB  \n2041 O  OG  . SER A 265 ? 0.5549 0.6137 0.7048 0.0260  -0.0221 -0.0302 957  SER A OG  \n2042 N  N   . ARG A 266 ? 0.2434 0.3067 0.3846 0.0140  -0.0135 -0.0214 958  ARG A N   \n2043 C  CA  . ARG A 266 ? 0.2160 0.2783 0.3543 0.0113  -0.0126 -0.0187 958  ARG A CA  \n2044 C  C   . ARG A 266 ? 0.2676 0.3259 0.4016 0.0094  -0.0122 -0.0170 958  ARG A C   \n2045 O  O   . ARG A 266 ? 0.3145 0.3727 0.4485 0.0098  -0.0120 -0.0180 958  ARG A O   \n2046 C  CB  . ARG A 266 ? 0.2130 0.2811 0.3528 0.0101  -0.0092 -0.0185 958  ARG A CB  \n2047 C  CG  . ARG A 266 ? 0.2621 0.3349 0.4066 0.0111  -0.0094 -0.0196 958  ARG A CG  \n2048 C  CD  . ARG A 266 ? 0.1952 0.2733 0.3407 0.0096  -0.0062 -0.0194 958  ARG A CD  \n2049 N  NE  . ARG A 266 ? 0.2241 0.3079 0.3757 0.0107  -0.0063 -0.0210 958  ARG A NE  \n2050 C  CZ  . ARG A 266 ? 0.2250 0.3146 0.3791 0.0100  -0.0034 -0.0218 958  ARG A CZ  \n2051 N  NH1 . ARG A 266 ? 0.2396 0.3349 0.4001 0.0109  -0.0033 -0.0232 958  ARG A NH1 \n2052 N  NH2 . ARG A 266 ? 0.2306 0.3203 0.3809 0.0082  -0.0007 -0.0212 958  ARG A NH2 \n2053 N  N   . PRO A 267 ? 0.2599 0.3150 0.3904 0.0072  -0.0119 -0.0144 959  PRO A N   \n2054 C  CA  . PRO A 267 ? 0.3095 0.3622 0.4373 0.0050  -0.0110 -0.0125 959  PRO A CA  \n2055 C  C   . PRO A 267 ? 0.3162 0.3736 0.4461 0.0044  -0.0083 -0.0126 959  PRO A C   \n2056 O  O   . PRO A 267 ? 0.3135 0.3754 0.4453 0.0050  -0.0065 -0.0135 959  PRO A O   \n2057 C  CB  . PRO A 267 ? 0.2857 0.3361 0.4101 0.0032  -0.0098 -0.0101 959  PRO A CB  \n2058 C  CG  . PRO A 267 ? 0.3652 0.4136 0.4887 0.0044  -0.0119 -0.0108 959  PRO A CG  \n2059 C  CD  . PRO A 267 ? 0.2628 0.3169 0.3916 0.0065  -0.0120 -0.0132 959  PRO A CD  \n2060 N  N   . LYS A 268 ? 0.3090 0.3651 0.4384 0.0029  -0.0083 -0.0114 960  LYS A N   \n2061 C  CA  . LYS A 268 ? 0.3243 0.3840 0.4554 0.0019  -0.0063 -0.0110 960  LYS A CA  \n2062 C  C   . LYS A 268 ? 0.3373 0.3984 0.4687 0.0001  -0.0040 -0.0085 960  LYS A C   \n2063 O  O   . LYS A 268 ? 0.2986 0.3569 0.4281 -0.0009 -0.0039 -0.0069 960  LYS A O   \n2064 C  CB  . LYS A 268 ? 0.3460 0.4037 0.4770 0.0013  -0.0082 -0.0112 960  LYS A CB  \n2065 C  CG  . LYS A 268 ? 0.3999 0.4549 0.5296 0.0035  -0.0104 -0.0138 960  LYS A CG  \n2066 C  CD  . LYS A 268 ? 0.4113 0.4702 0.5422 0.0052  -0.0087 -0.0162 960  LYS A CD  \n2067 C  CE  . LYS A 268 ? 0.5469 0.6043 0.6777 0.0081  -0.0101 -0.0190 960  LYS A CE  \n2068 N  NZ  . LYS A 268 ? 0.6675 0.7196 0.7954 0.0087  -0.0127 -0.0200 960  LYS A NZ  \n2069 N  N   . PHE A 269 ? 0.2494 0.3142 0.3827 -0.0001 -0.0022 -0.0083 961  PHE A N   \n2070 C  CA  . PHE A 269 ? 0.2747 0.3411 0.4089 -0.0010 0.0001  -0.0063 961  PHE A CA  \n2071 C  C   . PHE A 269 ? 0.2178 0.2830 0.3531 -0.0030 0.0000  -0.0042 961  PHE A C   \n2072 O  O   . PHE A 269 ? 0.2735 0.3384 0.4082 -0.0038 0.0020  -0.0026 961  PHE A O   \n2073 C  CB  . PHE A 269 ? 0.3546 0.4246 0.4908 -0.0008 0.0013  -0.0065 961  PHE A CB  \n2074 C  CG  . PHE A 269 ? 0.2468 0.3177 0.3813 0.0003  0.0022  -0.0077 961  PHE A CG  \n2075 C  CD1 . PHE A 269 ? 0.2357 0.3056 0.3680 0.0006  0.0035  -0.0072 961  PHE A CD1 \n2076 C  CD2 . PHE A 269 ? 0.2366 0.3090 0.3711 0.0006  0.0016  -0.0093 961  PHE A CD2 \n2077 C  CE1 . PHE A 269 ? 0.2628 0.3330 0.3934 0.0013  0.0037  -0.0081 961  PHE A CE1 \n2078 C  CE2 . PHE A 269 ? 0.2751 0.3487 0.4084 0.0011  0.0024  -0.0101 961  PHE A CE2 \n2079 C  CZ  . PHE A 269 ? 0.2538 0.3264 0.3854 0.0014  0.0032  -0.0095 961  PHE A CZ  \n2080 N  N   . ARG A 270 ? 0.2391 0.3031 0.3755 -0.0038 -0.0024 -0.0043 962  ARG A N   \n2081 C  CA  . ARG A 270 ? 0.3437 0.4070 0.4819 -0.0063 -0.0029 -0.0020 962  ARG A CA  \n2082 C  C   . ARG A 270 ? 0.3871 0.4461 0.5214 -0.0071 -0.0030 -0.0010 962  ARG A C   \n2083 O  O   . ARG A 270 ? 0.3710 0.4300 0.5056 -0.0092 -0.0011 0.0012  962  ARG A O   \n2084 C  CB  . ARG A 270 ? 0.3955 0.4569 0.5343 -0.0072 -0.0064 -0.0023 962  ARG A CB  \n2085 C  CG  . ARG A 270 ? 0.5484 0.6044 0.6829 -0.0060 -0.0095 -0.0042 962  ARG A CG  \n2086 C  CD  . ARG A 270 ? 0.8560 0.9103 0.9896 -0.0052 -0.0120 -0.0061 962  ARG A CD  \n2087 N  NE  . ARG A 270 ? 0.7125 0.7695 0.8458 -0.0029 -0.0105 -0.0084 962  ARG A NE  \n2088 C  CZ  . ARG A 270 ? 0.7541 0.8091 0.8848 -0.0013 -0.0117 -0.0109 962  ARG A CZ  \n2089 N  NH1 . ARG A 270 ? 0.9286 0.9782 1.0565 -0.0012 -0.0148 -0.0117 962  ARG A NH1 \n2090 N  NH2 . ARG A 270 ? 0.6233 0.6812 0.7538 0.0000  -0.0097 -0.0127 962  ARG A NH2 \n2091 N  N   . GLU A 271 ? 0.3289 0.3840 0.4593 -0.0055 -0.0050 -0.0029 963  GLU A N   \n2092 C  CA  . GLU A 271 ? 0.3474 0.3970 0.4731 -0.0060 -0.0060 -0.0023 963  GLU A CA  \n2093 C  C   . GLU A 271 ? 0.3406 0.3903 0.4640 -0.0062 -0.0028 -0.0012 963  GLU A C   \n2094 O  O   . GLU A 271 ? 0.3190 0.3645 0.4385 -0.0079 -0.0024 0.0004  963  GLU A O   \n2095 C  CB  . GLU A 271 ? 0.4203 0.4665 0.5439 -0.0036 -0.0094 -0.0048 963  GLU A CB  \n2096 C  CG  . GLU A 271 ? 0.4469 0.4906 0.5707 -0.0033 -0.0128 -0.0059 963  GLU A CG  \n2097 C  CD  . GLU A 271 ? 0.7105 0.7524 0.8336 0.0000  -0.0152 -0.0090 963  GLU A CD  \n2098 O  OE1 . GLU A 271 ? 0.6586 0.6971 0.7806 0.0006  -0.0181 -0.0102 963  GLU A OE1 \n2099 O  OE2 . GLU A 271 ? 0.4681 0.5120 0.5919 0.0017  -0.0144 -0.0102 963  GLU A OE2 \n2100 N  N   . LEU A 272 ? 0.2611 0.3145 0.3858 -0.0044 -0.0008 -0.0023 964  LEU A N   \n2101 C  CA  . LEU A 272 ? 0.2754 0.3278 0.3969 -0.0042 0.0017  -0.0016 964  LEU A CA  \n2102 C  C   . LEU A 272 ? 0.2718 0.3264 0.3945 -0.0058 0.0057  0.0005  964  LEU A C   \n2103 O  O   . LEU A 272 ? 0.3063 0.3577 0.4245 -0.0067 0.0079  0.0017  964  LEU A O   \n2104 C  CB  . LEU A 272 ? 0.2685 0.3240 0.3911 -0.0021 0.0022  -0.0033 964  LEU A CB  \n2105 C  CG  . LEU A 272 ? 0.3034 0.3578 0.4255 -0.0005 -0.0008 -0.0053 964  LEU A CG  \n2106 C  CD1 . LEU A 272 ? 0.3016 0.3607 0.4264 0.0006  0.0000  -0.0067 964  LEU A CD1 \n2107 C  CD2 . LEU A 272 ? 0.2926 0.3414 0.4095 -0.0005 -0.0021 -0.0050 964  LEU A CD2 \n2108 N  N   . ILE A 273 ? 0.2961 0.3559 0.4248 -0.0063 0.0064  0.0009  965  ILE A N   \n2109 C  CA  . ILE A 273 ? 0.2701 0.3332 0.4021 -0.0078 0.0100  0.0030  965  ILE A CA  \n2110 C  C   . ILE A 273 ? 0.3250 0.3842 0.4538 -0.0106 0.0104  0.0051  965  ILE A C   \n2111 O  O   . ILE A 273 ? 0.3911 0.4495 0.5175 -0.0116 0.0142  0.0065  965  ILE A O   \n2112 C  CB  . ILE A 273 ? 0.2521 0.3210 0.3919 -0.0082 0.0093  0.0034  965  ILE A CB  \n2113 C  CG1 . ILE A 273 ? 0.2574 0.3297 0.3996 -0.0058 0.0092  0.0017  965  ILE A CG1 \n2114 C  CG2 . ILE A 273 ? 0.2484 0.3215 0.3932 -0.0100 0.0128  0.0058  965  ILE A CG2 \n2115 C  CD1 . ILE A 273 ? 0.3097 0.3854 0.4576 -0.0062 0.0069  0.0017  965  ILE A CD1 \n2116 N  N   . ILE A 274 ? 0.3145 0.3705 0.4426 -0.0120 0.0064  0.0051  966  ILE A N   \n2117 C  CA  . ILE A 274 ? 0.3621 0.4132 0.4865 -0.0152 0.0060  0.0072  966  ILE A CA  \n2118 C  C   . ILE A 274 ? 0.4114 0.4557 0.5270 -0.0153 0.0067  0.0074  966  ILE A C   \n2119 O  O   . ILE A 274 ? 0.3448 0.3869 0.4570 -0.0177 0.0098  0.0094  966  ILE A O   \n2120 C  CB  . ILE A 274 ? 0.4227 0.4703 0.5470 -0.0164 0.0007  0.0070  966  ILE A CB  \n2121 C  CG1 . ILE A 274 ? 0.3830 0.4364 0.5150 -0.0171 0.0000  0.0074  966  ILE A CG1 \n2122 C  CG2 . ILE A 274 ? 0.4307 0.4716 0.5495 -0.0198 -0.0004 0.0091  966  ILE A CG2 \n2123 C  CD1 . ILE A 274 ? 0.4417 0.4913 0.5731 -0.0174 -0.0053 0.0066  966  ILE A CD1 \n2124 N  N   . GLU A 275 ? 0.3273 0.3680 0.4393 -0.0128 0.0039  0.0052  967  GLU A N   \n2125 C  CA  . GLU A 275 ? 0.3401 0.3732 0.4434 -0.0129 0.0034  0.0053  967  GLU A CA  \n2126 C  C   . GLU A 275 ? 0.3016 0.3348 0.4016 -0.0127 0.0083  0.0061  967  GLU A C   \n2127 O  O   . GLU A 275 ? 0.3567 0.3836 0.4491 -0.0147 0.0099  0.0076  967  GLU A O   \n2128 C  CB  . GLU A 275 ? 0.3336 0.3639 0.4355 -0.0101 -0.0010 0.0029  967  GLU A CB  \n2129 C  CG  . GLU A 275 ? 0.4927 0.5139 0.5857 -0.0106 -0.0032 0.0033  967  GLU A CG  \n2130 C  CD  . GLU A 275 ? 0.8241 0.8413 0.9166 -0.0087 -0.0092 0.0014  967  GLU A CD  \n2131 O  OE1 . GLU A 275 ? 0.8806 0.9030 0.9795 -0.0065 -0.0108 -0.0005 967  GLU A OE1 \n2132 O  OE2 . GLU A 275 ? 0.8694 0.8780 0.9547 -0.0094 -0.0123 0.0019  967  GLU A OE2 \n2133 N  N   . PHE A 276 ? 0.2700 0.3091 0.3742 -0.0104 0.0107  0.0050  968  PHE A N   \n2134 C  CA  . PHE A 276 ? 0.2664 0.3049 0.3669 -0.0099 0.0153  0.0054  968  PHE A CA  \n2135 C  C   . PHE A 276 ? 0.3036 0.3451 0.4061 -0.0119 0.0205  0.0075  968  PHE A C   \n2136 O  O   . PHE A 276 ? 0.3829 0.4212 0.4795 -0.0122 0.0247  0.0084  968  PHE A O   \n2137 C  CB  . PHE A 276 ? 0.3189 0.3618 0.4227 -0.0069 0.0161  0.0037  968  PHE A CB  \n2138 C  CG  . PHE A 276 ? 0.2844 0.3229 0.3836 -0.0053 0.0126  0.0021  968  PHE A CG  \n2139 C  CD1 . PHE A 276 ? 0.3144 0.3456 0.4045 -0.0052 0.0132  0.0024  968  PHE A CD1 \n2140 C  CD2 . PHE A 276 ? 0.3501 0.3917 0.4540 -0.0040 0.0088  0.0005  968  PHE A CD2 \n2141 C  CE1 . PHE A 276 ? 0.4421 0.4694 0.5288 -0.0040 0.0093  0.0012  968  PHE A CE1 \n2142 C  CE2 . PHE A 276 ? 0.3153 0.3538 0.4162 -0.0027 0.0056  -0.0007 968  PHE A CE2 \n2143 C  CZ  . PHE A 276 ? 0.3174 0.3490 0.4103 -0.0029 0.0056  -0.0003 968  PHE A CZ  \n2144 N  N   . SER A 277 ? 0.3381 0.3857 0.4488 -0.0133 0.0203  0.0084  969  SER A N   \n2145 C  CA  . SER A 277 ? 0.3733 0.4250 0.4876 -0.0157 0.0253  0.0108  969  SER A CA  \n2146 C  C   . SER A 277 ? 0.3697 0.4144 0.4761 -0.0193 0.0264  0.0128  969  SER A C   \n2147 O  O   . SER A 277 ? 0.3915 0.4365 0.4957 -0.0207 0.0321  0.0143  969  SER A O   \n2148 C  CB  . SER A 277 ? 0.3443 0.4040 0.4698 -0.0168 0.0241  0.0116  969  SER A CB  \n2149 O  OG  . SER A 277 ? 0.3519 0.4183 0.4845 -0.0138 0.0245  0.0102  969  SER A OG  \n2150 N  N   . LYS A 278 ? 0.3604 0.3985 0.4622 -0.0208 0.0210  0.0129  970  LYS A N   \n2151 C  CA  . LYS A 278 ? 0.4328 0.4619 0.5250 -0.0243 0.0206  0.0147  970  LYS A CA  \n2152 C  C   . LYS A 278 ? 0.4602 0.4818 0.5413 -0.0236 0.0232  0.0144  970  LYS A C   \n2153 O  O   . LYS A 278 ? 0.4030 0.4199 0.4771 -0.0265 0.0271  0.0164  970  LYS A O   \n2154 C  CB  . LYS A 278 ? 0.5288 0.5517 0.6183 -0.0249 0.0133  0.0142  970  LYS A CB  \n2155 C  CG  . LYS A 278 ? 0.6577 0.6711 0.7380 -0.0291 0.0118  0.0164  970  LYS A CG  \n2156 C  CD  . LYS A 278 ? 0.8192 0.8235 0.8934 -0.0279 0.0044  0.0149  970  LYS A CD  \n2157 C  CE  . LYS A 278 ? 0.7525 0.7510 0.8192 -0.0254 0.0040  0.0135  970  LYS A CE  \n2158 N  NZ  . LYS A 278 ? 0.7039 0.7009 0.7722 -0.0218 -0.0022 0.0108  970  LYS A NZ  \n2159 N  N   . MET A 279 ? 0.4010 0.4209 0.4801 -0.0200 0.0210  0.0121  971  MET A N   \n2160 C  CA  . MET A 279 ? 0.4611 0.4732 0.5295 -0.0192 0.0227  0.0118  971  MET A CA  \n2161 C  C   . MET A 279 ? 0.4331 0.4487 0.5012 -0.0187 0.0306  0.0124  971  MET A C   \n2162 O  O   . MET A 279 ? 0.4468 0.4550 0.5043 -0.0200 0.0340  0.0133  971  MET A O   \n2163 C  CB  . MET A 279 ? 0.3866 0.3970 0.4543 -0.0157 0.0181  0.0094  971  MET A CB  \n2164 C  CG  . MET A 279 ? 0.4532 0.4578 0.5187 -0.0160 0.0108  0.0088  971  MET A CG  \n2165 S  SD  . MET A 279 ? 0.5161 0.5209 0.5833 -0.0121 0.0059  0.0061  971  MET A SD  \n2166 C  CE  . MET A 279 ? 0.4972 0.4971 0.5644 -0.0125 -0.0017 0.0055  971  MET A CE  \n2167 N  N   . ALA A 280 ? 0.4161 0.4424 0.4952 -0.0166 0.0333  0.0117  972  ALA A N   \n2168 C  CA  . ALA A 280 ? 0.4731 0.5039 0.5538 -0.0154 0.0406  0.0119  972  ALA A CA  \n2169 C  C   . ALA A 280 ? 0.4662 0.4976 0.5458 -0.0190 0.0464  0.0145  972  ALA A C   \n2170 O  O   . ALA A 280 ? 0.4924 0.5257 0.5709 -0.0182 0.0534  0.0147  972  ALA A O   \n2171 C  CB  . ALA A 280 ? 0.4188 0.4609 0.5125 -0.0126 0.0413  0.0108  972  ALA A CB  \n2172 N  N   . ARG A 281 ? 0.4550 0.4845 0.5346 -0.0229 0.0436  0.0163  973  ARG A N   \n2173 C  CA  . ARG A 281 ? 0.5361 0.5657 0.6142 -0.0274 0.0485  0.0191  973  ARG A CA  \n2174 C  C   . ARG A 281 ? 0.5684 0.5852 0.6300 -0.0296 0.0505  0.0200  973  ARG A C   \n2175 O  O   . ARG A 281 ? 0.5683 0.5844 0.6262 -0.0328 0.0567  0.0220  973  ARG A O   \n2176 C  CB  . ARG A 281 ? 0.5834 0.6152 0.6674 -0.0312 0.0442  0.0209  973  ARG A CB  \n2177 C  CG  . ARG A 281 ? 0.7494 0.7946 0.8497 -0.0308 0.0451  0.0213  973  ARG A CG  \n2178 C  CD  . ARG A 281 ? 0.8217 0.8681 0.9263 -0.0355 0.0419  0.0237  973  ARG A CD  \n2179 N  NE  . ARG A 281 ? 0.8985 0.9407 1.0025 -0.0348 0.0333  0.0225  973  ARG A NE  \n2180 C  CZ  . ARG A 281 ? 0.8865 0.9347 0.9996 -0.0320 0.0296  0.0208  973  ARG A CZ  \n2181 N  NH1 . ARG A 281 ? 0.7091 0.7675 0.8326 -0.0297 0.0329  0.0203  973  ARG A NH1 \n2182 N  NH2 . ARG A 281 ? 0.7409 0.7844 0.8522 -0.0313 0.0225  0.0195  973  ARG A NH2 \n2183 N  N   . ASP A 282 ? 0.5413 0.5479 0.5928 -0.0281 0.0451  0.0185  974  ASP A N   \n2184 C  CA  . ASP A 282 ? 0.4986 0.4912 0.5331 -0.0300 0.0455  0.0192  974  ASP A CA  \n2185 C  C   . ASP A 282 ? 0.5427 0.5289 0.5706 -0.0260 0.0421  0.0167  974  ASP A C   \n2186 O  O   . ASP A 282 ? 0.5649 0.5421 0.5858 -0.0262 0.0351  0.0163  974  ASP A O   \n2187 C  CB  . ASP A 282 ? 0.6211 0.6053 0.6496 -0.0342 0.0396  0.0209  974  ASP A CB  \n2188 C  CG  . ASP A 282 ? 0.6479 0.6162 0.6579 -0.0369 0.0392  0.0220  974  ASP A CG  \n2189 O  OD1 . ASP A 282 ? 0.6299 0.5939 0.6311 -0.0363 0.0451  0.0219  974  ASP A OD1 \n2190 O  OD2 . ASP A 282 ? 0.7711 0.7303 0.7746 -0.0396 0.0327  0.0229  974  ASP A OD2 \n2191 N  N   . PRO A 283 ? 0.5975 0.5884 0.6279 -0.0223 0.0467  0.0152  975  PRO A N   \n2192 C  CA  . PRO A 283 ? 0.4872 0.4746 0.5147 -0.0184 0.0426  0.0129  975  PRO A CA  \n2193 C  C   . PRO A 283 ? 0.6284 0.6002 0.6390 -0.0192 0.0392  0.0128  975  PRO A C   \n2194 O  O   . PRO A 283 ? 0.4577 0.4254 0.4667 -0.0175 0.0326  0.0115  975  PRO A O   \n2195 C  CB  . PRO A 283 ? 0.5322 0.5263 0.5638 -0.0150 0.0493  0.0117  975  PRO A CB  \n2196 C  CG  . PRO A 283 ? 0.5060 0.5031 0.5377 -0.0171 0.0577  0.0134  975  PRO A CG  \n2197 C  CD  . PRO A 283 ? 0.4665 0.4661 0.5028 -0.0215 0.0557  0.0156  975  PRO A CD  \n2198 N  N   . GLN A 284 ? 0.6003 0.5630 0.5983 -0.0221 0.0436  0.0144  976  GLN A N   \n2199 C  CA  . GLN A 284 ? 0.5899 0.5363 0.5701 -0.0230 0.0407  0.0146  976  GLN A CA  \n2200 C  C   . GLN A 284 ? 0.5987 0.5365 0.5742 -0.0256 0.0319  0.0154  976  GLN A C   \n2201 O  O   . GLN A 284 ? 0.6224 0.5475 0.5858 -0.0257 0.0267  0.0152  976  GLN A O   \n2202 C  CB  . GLN A 284 ? 0.6607 0.5995 0.6275 -0.0250 0.0490  0.0158  976  GLN A CB  \n2203 C  CG  . GLN A 284 ? 0.7380 0.6836 0.7084 -0.0212 0.0570  0.0143  976  GLN A CG  \n2204 C  CD  . GLN A 284 ? 0.8428 0.7826 0.8014 -0.0227 0.0666  0.0152  976  GLN A CD  \n2205 O  OE1 . GLN A 284 ? 0.9329 0.8835 0.9002 -0.0221 0.0749  0.0154  976  GLN A OE1 \n2206 N  NE2 . GLN A 284 ? 0.6856 0.6084 0.6245 -0.0247 0.0655  0.0158  976  GLN A NE2 \n2207 N  N   . ARG A 285 ? 0.5647 0.5092 0.5499 -0.0275 0.0297  0.0163  977  ARG A N   \n2208 C  CA  . ARG A 285 ? 0.6036 0.5423 0.5879 -0.0287 0.0204  0.0165  977  ARG A CA  \n2209 C  C   . ARG A 285 ? 0.5732 0.5154 0.5651 -0.0247 0.0135  0.0141  977  ARG A C   \n2210 O  O   . ARG A 285 ? 0.5693 0.5034 0.5568 -0.0247 0.0057  0.0138  977  ARG A O   \n2211 C  CB  . ARG A 285 ? 0.5937 0.5391 0.5870 -0.0313 0.0199  0.0178  977  ARG A CB  \n2212 C  CG  . ARG A 285 ? 0.6103 0.5465 0.5990 -0.0332 0.0111  0.0184  977  ARG A CG  \n2213 C  CD  . ARG A 285 ? 0.7132 0.6555 0.7108 -0.0354 0.0098  0.0195  977  ARG A CD  \n2214 N  NE  . ARG A 285 ? 0.7481 0.6854 0.7465 -0.0345 0.0001  0.0186  977  ARG A NE  \n2215 C  CZ  . ARG A 285 ? 0.8402 0.7802 0.8451 -0.0354 -0.0037 0.0188  977  ARG A CZ  \n2216 N  NH1 . ARG A 285 ? 0.7654 0.7001 0.7704 -0.0338 -0.0123 0.0176  977  ARG A NH1 \n2217 N  NH2 . ARG A 285 ? 0.6082 0.5561 0.6199 -0.0378 0.0007  0.0203  977  ARG A NH2 \n2218 N  N   . TYR A 286 ? 0.5958 0.5499 0.5992 -0.0214 0.0163  0.0125  978  TYR A N   \n2219 C  CA  . TYR A 286 ? 0.5018 0.4615 0.5146 -0.0182 0.0104  0.0105  978  TYR A CA  \n2220 C  C   . TYR A 286 ? 0.5153 0.4728 0.5249 -0.0154 0.0096  0.0090  978  TYR A C   \n2221 O  O   . TYR A 286 ? 0.4182 0.3756 0.4310 -0.0137 0.0032  0.0078  978  TYR A O   \n2222 C  CB  . TYR A 286 ? 0.4485 0.4229 0.4772 -0.0169 0.0121  0.0098  978  TYR A CB  \n2223 C  CG  . TYR A 286 ? 0.4906 0.4660 0.5225 -0.0196 0.0107  0.0111  978  TYR A CG  \n2224 C  CD1 . TYR A 286 ? 0.5238 0.5031 0.5574 -0.0222 0.0167  0.0129  978  TYR A CD1 \n2225 C  CD2 . TYR A 286 ? 0.4921 0.4644 0.5255 -0.0196 0.0032  0.0106  978  TYR A CD2 \n2226 C  CE1 . TYR A 286 ? 0.5139 0.4935 0.5500 -0.0252 0.0149  0.0144  978  TYR A CE1 \n2227 C  CE2 . TYR A 286 ? 0.5520 0.5238 0.5871 -0.0221 0.0014  0.0118  978  TYR A CE2 \n2228 C  CZ  . TYR A 286 ? 0.5952 0.5704 0.6313 -0.0251 0.0071  0.0138  978  TYR A CZ  \n2229 O  OH  . TYR A 286 ? 0.5514 0.5257 0.5891 -0.0280 0.0049  0.0152  978  TYR A OH  \n2230 N  N   . LEU A 287 ? 0.4198 0.3756 0.4232 -0.0149 0.0160  0.0092  979  LEU A N   \n2231 C  CA  . LEU A 287 ? 0.4245 0.3752 0.4216 -0.0127 0.0152  0.0080  979  LEU A CA  \n2232 C  C   . LEU A 287 ? 0.5012 0.4372 0.4802 -0.0143 0.0175  0.0091  979  LEU A C   \n2233 O  O   . LEU A 287 ? 0.5495 0.4840 0.5232 -0.0160 0.0244  0.0102  979  LEU A O   \n2234 C  CB  . LEU A 287 ? 0.4276 0.3890 0.4336 -0.0097 0.0202  0.0067  979  LEU A CB  \n2235 C  CG  . LEU A 287 ? 0.4809 0.4562 0.5036 -0.0081 0.0183  0.0057  979  LEU A CG  \n2236 C  CD1 . LEU A 287 ? 0.4358 0.4197 0.4653 -0.0054 0.0233  0.0046  979  LEU A CD1 \n2237 C  CD2 . LEU A 287 ? 0.3826 0.3574 0.4085 -0.0073 0.0104  0.0046  979  LEU A CD2 \n2238 N  N   . VAL A 288 ? 0.4829 0.4079 0.4522 -0.0141 0.0118  0.0087  980  VAL A N   \n2239 C  CA  . VAL A 288 ? 0.5664 0.4750 0.5164 -0.0157 0.0126  0.0096  980  VAL A CA  \n2240 C  C   . VAL A 288 ? 0.5580 0.4633 0.5021 -0.0131 0.0148  0.0084  980  VAL A C   \n2241 O  O   . VAL A 288 ? 0.5629 0.4653 0.5068 -0.0119 0.0085  0.0076  980  VAL A O   \n2242 C  CB  . VAL A 288 ? 0.5781 0.4738 0.5191 -0.0178 0.0032  0.0105  980  VAL A CB  \n2243 C  CG1 . VAL A 288 ? 0.6715 0.5488 0.5908 -0.0201 0.0042  0.0116  980  VAL A CG1 \n2244 C  CG2 . VAL A 288 ? 0.6096 0.5087 0.5575 -0.0199 0.0000  0.0114  980  VAL A CG2 \n2245 N  N   . ILE A 289 ? 0.5355 0.4412 0.4750 -0.0122 0.0238  0.0082  981  ILE A N   \n2246 C  CA  . ILE A 289 ? 0.5792 0.4820 0.5131 -0.0091 0.0270  0.0068  981  ILE A CA  \n2247 C  C   . ILE A 289 ? 0.7001 0.5883 0.6143 -0.0101 0.0326  0.0073  981  ILE A C   \n2248 O  O   . ILE A 289 ? 0.6502 0.5404 0.5630 -0.0114 0.0401  0.0082  981  ILE A O   \n2249 C  CB  . ILE A 289 ? 0.5966 0.5154 0.5455 -0.0060 0.0333  0.0056  981  ILE A CB  \n2250 C  CG1 . ILE A 289 ? 0.5456 0.4782 0.5129 -0.0052 0.0281  0.0050  981  ILE A CG1 \n2251 C  CG2 . ILE A 289 ? 0.6158 0.5306 0.5580 -0.0026 0.0368  0.0040  981  ILE A CG2 \n2252 C  CD1 . ILE A 289 ? 0.5854 0.5337 0.5680 -0.0030 0.0335  0.0043  981  ILE A CD1 \n2253 N  N   . GLN A 290 ? 0.7198 0.5931 0.6185 -0.0097 0.0289  0.0070  982  GLN A N   \n2254 C  CA  . GLN A 290 ? 0.7420 0.5996 0.6198 -0.0105 0.0342  0.0072  982  GLN A CA  \n2255 C  C   . GLN A 290 ? 0.7877 0.6519 0.6673 -0.0072 0.0454  0.0059  982  GLN A C   \n2256 O  O   . GLN A 290 ? 0.8123 0.6839 0.7001 -0.0034 0.0462  0.0042  982  GLN A O   \n2257 C  CB  . GLN A 290 ? 0.9432 0.7831 0.8042 -0.0105 0.0274  0.0070  982  GLN A CB  \n2258 C  CG  . GLN A 290 ? 1.1835 1.0037 1.0199 -0.0123 0.0309  0.0076  982  GLN A CG  \n2259 C  CD  . GLN A 290 ? 1.2915 1.0931 1.1102 -0.0122 0.0239  0.0073  982  GLN A CD  \n2260 O  OE1 . GLN A 290 ? 1.1338 0.9370 0.9556 -0.0093 0.0215  0.0060  982  GLN A OE1 \n2261 N  NE2 . GLN A 290 ? 1.3825 1.1655 1.1819 -0.0157 0.0203  0.0088  982  GLN A NE2 \n2262 N  N   . GLY A 291 ? 0.8149 0.6765 0.6872 -0.0088 0.0540  0.0067  983  GLY A N   \n2263 C  CA  . GLY A 291 ? 0.8277 0.6956 0.7017 -0.0056 0.0654  0.0054  983  GLY A CA  \n2264 C  C   . GLY A 291 ? 0.8909 0.7805 0.7882 -0.0045 0.0698  0.0054  983  GLY A C   \n2265 O  O   . GLY A 291 ? 0.8003 0.6982 0.7034 -0.0014 0.0785  0.0042  983  GLY A O   \n2266 N  N   . ASP A 292 ? 0.8035 0.7017 0.7138 -0.0070 0.0636  0.0066  984  ASP A N   \n2267 C  CA  . ASP A 292 ? 0.6897 0.6074 0.6220 -0.0063 0.0657  0.0067  984  ASP A CA  \n2268 C  C   . ASP A 292 ? 0.7346 0.6609 0.6718 -0.0058 0.0771  0.0070  984  ASP A C   \n2269 O  O   . ASP A 292 ? 0.7307 0.6703 0.6820 -0.0024 0.0811  0.0058  984  ASP A O   \n2270 C  CB  . ASP A 292 ? 0.5678 0.4891 0.5076 -0.0101 0.0589  0.0085  984  ASP A CB  \n2271 C  CG  . ASP A 292 ? 0.6828 0.6220 0.6445 -0.0089 0.0571  0.0081  984  ASP A CG  \n2272 O  OD1 . ASP A 292 ? 0.7331 0.6822 0.7048 -0.0052 0.0606  0.0067  984  ASP A OD1 \n2273 O  OD2 . ASP A 292 ? 0.7093 0.6519 0.6777 -0.0115 0.0519  0.0093  984  ASP A OD2 \n2274 N  N   . GLU A 293 ? 0.8300 0.7487 0.7556 -0.0095 0.0821  0.0087  985  GLU A N   \n2275 C  CA  . GLU A 293 ? 1.0027 0.9294 0.9324 -0.0099 0.0936  0.0093  985  GLU A CA  \n2276 C  C   . GLU A 293 ? 0.9391 0.8676 0.8676 -0.0044 0.1018  0.0069  985  GLU A C   \n2277 O  O   . GLU A 293 ? 0.9474 0.8905 0.8904 -0.0023 0.1090  0.0065  985  GLU A O   \n2278 C  CB  . GLU A 293 ? 1.1650 1.0799 1.0786 -0.0152 0.0972  0.0115  985  GLU A CB  \n2279 C  CG  . GLU A 293 ? 1.3974 1.3229 1.3185 -0.0176 0.1077  0.0131  985  GLU A CG  \n2280 C  CD  . GLU A 293 ? 1.5493 1.4875 1.4873 -0.0213 0.1042  0.0153  985  GLU A CD  \n2281 O  OE1 . GLU A 293 ? 1.4291 1.3597 1.3618 -0.0253 0.0961  0.0169  985  GLU A OE1 \n2282 O  OE2 . GLU A 293 ? 1.5574 1.5126 1.5137 -0.0202 0.1092  0.0155  985  GLU A OE2 \n2283 N  N   . ARG A 294 ? 0.9454 0.8588 0.8568 -0.0020 0.1001  0.0053  986  ARG A N   \n2284 C  CA  . ARG A 294 ? 1.0036 0.9156 0.9109 0.0034  0.1070  0.0027  986  ARG A CA  \n2285 C  C   . ARG A 294 ? 1.0976 1.0136 1.0132 0.0082  0.1006  0.0006  986  ARG A C   \n2286 O  O   . ARG A 294 ? 1.3179 1.2208 1.2196 0.0107  0.0978  -0.0009 986  ARG A O   \n2287 C  CB  . ARG A 294 ? 1.0660 0.9569 0.9466 0.0030  0.1102  0.0022  986  ARG A CB  \n2288 C  CG  . ARG A 294 ? 1.2138 1.1018 1.0855 0.0000  0.1208  0.0036  986  ARG A CG  \n2289 C  CD  . ARG A 294 ? 1.2418 1.1218 1.1052 -0.0071 0.1162  0.0066  986  ARG A CD  \n2290 N  NE  . ARG A 294 ? 1.4330 1.2896 1.2708 -0.0091 0.1111  0.0068  986  ARG A NE  \n2291 C  CZ  . ARG A 294 ? 1.5835 1.4251 1.4003 -0.0122 0.1169  0.0077  986  ARG A CZ  \n2292 N  NH1 . ARG A 294 ? 1.5502 1.3985 1.3688 -0.0138 0.1287  0.0086  986  ARG A NH1 \n2293 N  NH2 . ARG A 294 ? 1.4309 1.2504 1.2245 -0.0139 0.1109  0.0079  986  ARG A NH2 \n2294 N  N   . MET A 295 ? 1.0734 1.0065 1.0106 0.0091  0.0982  0.0007  987  MET A N   \n2295 C  CA  . MET A 295 ? 0.9874 0.9254 0.9335 0.0132  0.0926  -0.0011 987  MET A CA  \n2296 C  C   . MET A 295 ? 1.0151 0.9701 0.9801 0.0172  0.0979  -0.0022 987  MET A C   \n2297 O  O   . MET A 295 ? 0.8481 0.8175 0.8297 0.0154  0.0990  -0.0008 987  MET A O   \n2298 C  CB  . MET A 295 ? 1.0538 0.9933 1.0060 0.0106  0.0814  -0.0001 987  MET A CB  \n2299 C  CG  . MET A 295 ? 0.9017 0.8253 0.8384 0.0105  0.0736  -0.0007 987  MET A CG  \n2300 S  SD  . MET A 295 ? 0.9838 0.9087 0.9268 0.0066  0.0616  0.0007  987  MET A SD  \n2301 C  CE  . MET A 295 ? 1.0024 0.9063 0.9240 0.0060  0.0545  0.0004  987  MET A CE  \n2302 N  N   . HIS A 296 ? 1.2215 1.1739 1.1835 0.0227  0.1003  -0.0046 988  HIS A N   \n2303 C  CA  . HIS A 296 ? 1.2213 1.1877 1.1991 0.0274  0.1056  -0.0061 988  HIS A CA  \n2304 C  C   . HIS A 296 ? 0.9897 0.9581 0.9739 0.0308  0.0983  -0.0077 988  HIS A C   \n2305 O  O   . HIS A 296 ? 1.0129 0.9685 0.9836 0.0328  0.0946  -0.0091 988  HIS A O   \n2306 C  CB  . HIS A 296 ? 1.4909 1.4523 1.4595 0.0315  0.1162  -0.0079 988  HIS A CB  \n2307 C  CG  . HIS A 296 ? 1.7146 1.6561 1.6601 0.0335  0.1148  -0.0096 988  HIS A CG  \n2308 N  ND1 . HIS A 296 ? 1.6524 1.5779 1.5781 0.0295  0.1136  -0.0084 988  HIS A ND1 \n2309 C  CD2 . HIS A 296 ? 1.6681 1.6020 1.6065 0.0389  0.1138  -0.0122 988  HIS A CD2 \n2310 C  CE1 . HIS A 296 ? 1.5913 1.5005 1.4989 0.0323  0.1119  -0.0102 988  HIS A CE1 \n2311 N  NE2 . HIS A 296 ? 1.5946 1.5085 1.5094 0.0380  0.1121  -0.0126 988  HIS A NE2 \n2312 N  N   . LEU A 297 ? 0.7822 0.7659 0.7861 0.0310  0.0958  -0.0072 989  LEU A N   \n2313 C  CA  . LEU A 297 ? 0.9211 0.9070 0.9312 0.0340  0.0893  -0.0086 989  LEU A CA  \n2314 C  C   . LEU A 297 ? 1.0864 1.0735 1.0982 0.0406  0.0943  -0.0112 989  LEU A C   \n2315 O  O   . LEU A 297 ? 0.8567 0.8540 0.8789 0.0428  0.1019  -0.0114 989  LEU A O   \n2316 C  CB  . LEU A 297 ? 0.8475 0.8472 0.8758 0.0318  0.0840  -0.0074 989  LEU A CB  \n2317 C  CG  . LEU A 297 ? 0.8525 0.8489 0.8785 0.0270  0.0753  -0.0059 989  LEU A CG  \n2318 C  CD1 . LEU A 297 ? 0.8156 0.8254 0.8593 0.0258  0.0710  -0.0052 989  LEU A CD1 \n2319 C  CD2 . LEU A 297 ? 0.6451 0.6285 0.6578 0.0276  0.0689  -0.0069 989  LEU A CD2 \n2320 N  N   . PRO A 298 ? 1.1030 1.0796 1.1047 0.0437  0.0898  -0.0130 990  PRO A N   \n2321 C  CA  . PRO A 298 ? 1.1468 1.1222 1.1483 0.0503  0.0933  -0.0156 990  PRO A CA  \n2322 C  C   . PRO A 298 ? 1.0815 1.0734 1.1044 0.0529  0.0936  -0.0159 990  PRO A C   \n2323 O  O   . PRO A 298 ? 1.0015 1.0022 1.0364 0.0497  0.0877  -0.0144 990  PRO A O   \n2324 C  CB  . PRO A 298 ? 1.1898 1.1517 1.1785 0.0512  0.0851  -0.0166 990  PRO A CB  \n2325 C  CG  . PRO A 298 ? 1.1807 1.1329 1.1573 0.0455  0.0804  -0.0148 990  PRO A CG  \n2326 C  CD  . PRO A 298 ? 1.0711 1.0358 1.0609 0.0408  0.0808  -0.0125 990  PRO A CD  \n2327 N  N   . SER A 299 ? 1.0622 1.0578 1.0896 0.0588  0.1003  -0.0180 991  SER A N   \n2328 C  CA  . SER A 299 ? 1.1644 1.1743 1.2115 0.0623  0.1002  -0.0186 991  SER A CA  \n2329 C  C   . SER A 299 ? 1.1519 1.1608 1.2021 0.0615  0.0895  -0.0185 991  SER A C   \n2330 O  O   . SER A 299 ? 1.1508 1.1469 1.1875 0.0628  0.0847  -0.0197 991  SER A O   \n2331 C  CB  . SER A 299 ? 1.2245 1.2337 1.2715 0.0700  0.1071  -0.0215 991  SER A CB  \n2332 O  OG  . SER A 299 ? 1.1389 1.1625 1.2062 0.0734  0.1071  -0.0220 991  SER A OG  \n2333 N  N   . PRO A 300 ? 1.1896 1.2117 1.2568 0.0589  0.0858  -0.0169 992  PRO A N   \n2334 C  CA  . PRO A 300 ? 1.1501 1.1718 1.2200 0.0570  0.0760  -0.0164 992  PRO A CA  \n2335 C  C   . PRO A 300 ? 1.2577 1.2724 1.3232 0.0620  0.0723  -0.0187 992  PRO A C   \n2336 O  O   . PRO A 300 ? 1.3139 1.3201 1.3708 0.0602  0.0650  -0.0186 992  PRO A O   \n2337 C  CB  . PRO A 300 ? 1.0954 1.1331 1.1855 0.0551  0.0751  -0.0149 992  PRO A CB  \n2338 C  CG  . PRO A 300 ? 1.1592 1.2041 1.2544 0.0534  0.0828  -0.0136 992  PRO A CG  \n2339 C  CD  . PRO A 300 ? 1.2345 1.2721 1.3189 0.0575  0.0907  -0.0154 992  PRO A CD  \n2340 N  N   . THR A 301 ? 1.0058 1.0240 1.0773 0.0682  0.0771  -0.0206 993  THR A N   \n2341 C  CA  . THR A 301 ? 1.1309 1.1427 1.1992 0.0737  0.0734  -0.0229 993  THR A CA  \n2342 C  C   . THR A 301 ? 1.3328 1.3273 1.3804 0.0766  0.0743  -0.0249 993  THR A C   \n2343 O  O   . THR A 301 ? 1.3010 1.2870 1.3424 0.0803  0.0699  -0.0266 993  THR A O   \n2344 C  CB  . THR A 301 ? 1.1084 1.1311 1.1929 0.0797  0.0772  -0.0244 993  THR A CB  \n2345 O  OG1 . THR A 301 ? 1.1895 1.2200 1.2798 0.0811  0.0873  -0.0244 993  THR A OG1 \n2346 C  CG2 . THR A 301 ? 1.0346 1.0696 1.1366 0.0774  0.0714  -0.0228 993  THR A CG2 \n2347 N  N   . ASP A 302 ? 1.4030 1.3914 1.4392 0.0749  0.0797  -0.0246 994  ASP A N   \n2348 C  CA  . ASP A 302 ? 1.2990 1.2692 1.3133 0.0765  0.0798  -0.0260 994  ASP A CA  \n2349 C  C   . ASP A 302 ? 1.1727 1.1328 1.1756 0.0708  0.0706  -0.0244 994  ASP A C   \n2350 O  O   . ASP A 302 ? 1.1835 1.1277 1.1680 0.0712  0.0686  -0.0252 994  ASP A O   \n2351 C  CB  . ASP A 302 ? 1.3105 1.2771 1.3158 0.0767  0.0892  -0.0263 994  ASP A CB  \n2352 C  CG  . ASP A 302 ? 1.3941 1.3683 1.4078 0.0831  0.0992  -0.0284 994  ASP A CG  \n2353 O  OD1 . ASP A 302 ? 1.2311 1.2166 1.2614 0.0869  0.0987  -0.0292 994  ASP A OD1 \n2354 O  OD2 . ASP A 302 ? 1.2450 1.2140 1.2488 0.0844  0.1076  -0.0292 994  ASP A OD2 \n2355 N  N   . SER A 303 ? 1.0468 1.0163 1.0608 0.0657  0.0652  -0.0222 995  SER A N   \n2356 C  CA  . SER A 303 ? 0.9300 0.8923 0.9361 0.0603  0.0567  -0.0206 995  SER A CA  \n2357 C  C   . SER A 303 ? 0.9723 0.9255 0.9718 0.0626  0.0500  -0.0218 995  SER A C   \n2358 O  O   . SER A 303 ? 0.9060 0.8628 0.9127 0.0671  0.0499  -0.0233 995  SER A O   \n2359 C  CB  . SER A 303 ? 0.9694 0.9441 0.9893 0.0548  0.0530  -0.0182 995  SER A CB  \n2360 O  OG  . SER A 303 ? 0.7121 0.6917 0.7406 0.0546  0.0469  -0.0181 995  SER A OG  \n2361 N  N   . ASN A 304 ? 0.9182 0.8593 0.9039 0.0592  0.0440  -0.0210 996  ASN A N   \n2362 C  CA  . ASN A 304 ? 0.9673 0.8986 0.9452 0.0599  0.0369  -0.0217 996  ASN A CA  \n2363 C  C   . ASN A 304 ? 0.9795 0.9208 0.9711 0.0583  0.0316  -0.0208 996  ASN A C   \n2364 O  O   . ASN A 304 ? 0.9483 0.8872 0.9406 0.0619  0.0290  -0.0222 996  ASN A O   \n2365 C  CB  . ASN A 304 ? 0.8458 0.7637 0.8079 0.0554  0.0313  -0.0204 996  ASN A CB  \n2366 C  CG  . ASN A 304 ? 0.9948 0.8992 0.9400 0.0576  0.0355  -0.0215 996  ASN A CG  \n2367 O  OD1 . ASN A 304 ? 0.9191 0.8199 0.8604 0.0636  0.0415  -0.0238 996  ASN A OD1 \n2368 N  ND2 . ASN A 304 ? 0.8242 0.7209 0.7593 0.0528  0.0325  -0.0199 996  ASN A ND2 \n2369 N  N   . PHE A 305 ? 0.8717 0.8238 0.8738 0.0530  0.0301  -0.0187 997  PHE A N   \n2370 C  CA  . PHE A 305 ? 0.5837 0.5446 0.5974 0.0506  0.0251  -0.0178 997  PHE A CA  \n2371 C  C   . PHE A 305 ? 0.6597 0.6282 0.6849 0.0555  0.0270  -0.0191 997  PHE A C   \n2372 O  O   . PHE A 305 ? 0.7922 0.7591 0.8187 0.0560  0.0217  -0.0193 997  PHE A O   \n2373 C  CB  . PHE A 305 ? 0.6989 0.6702 0.7218 0.0449  0.0244  -0.0156 997  PHE A CB  \n2374 C  CG  . PHE A 305 ? 0.5710 0.5466 0.5998 0.0411  0.0179  -0.0145 997  PHE A CG  \n2375 C  CD1 . PHE A 305 ? 0.5133 0.4985 0.5547 0.0421  0.0174  -0.0146 997  PHE A CD1 \n2376 C  CD2 . PHE A 305 ? 0.6193 0.5889 0.6406 0.0364  0.0123  -0.0133 997  PHE A CD2 \n2377 C  CE1 . PHE A 305 ? 0.4505 0.4383 0.4956 0.0385  0.0118  -0.0136 997  PHE A CE1 \n2378 C  CE2 . PHE A 305 ? 0.6139 0.5873 0.6400 0.0328  0.0070  -0.0122 997  PHE A CE2 \n2379 C  CZ  . PHE A 305 ? 0.4722 0.4542 0.5094 0.0338  0.0069  -0.0124 997  PHE A CZ  \n2380 N  N   . TYR A 306 ? 0.5537 0.5301 0.5872 0.0589  0.0342  -0.0198 998  TYR A N   \n2381 C  CA  . TYR A 306 ? 0.6233 0.6085 0.6701 0.0635  0.0360  -0.0210 998  TYR A CA  \n2382 C  C   . TYR A 306 ? 0.6620 0.6372 0.7016 0.0695  0.0342  -0.0233 998  TYR A C   \n2383 O  O   . TYR A 306 ? 0.6307 0.6072 0.6756 0.0707  0.0291  -0.0236 998  TYR A O   \n2384 C  CB  . TYR A 306 ? 0.6187 0.6147 0.6762 0.0658  0.0446  -0.0212 998  TYR A CB  \n2385 C  CG  . TYR A 306 ? 0.6522 0.6584 0.7253 0.0704  0.0460  -0.0221 998  TYR A CG  \n2386 C  CD1 . TYR A 306 ? 0.7964 0.8152 0.8852 0.0677  0.0439  -0.0206 998  TYR A CD1 \n2387 C  CD2 . TYR A 306 ? 0.8168 0.8194 0.8888 0.0777  0.0491  -0.0247 998  TYR A CD2 \n2388 C  CE1 . TYR A 306 ? 0.8622 0.8901 0.9657 0.0717  0.0443  -0.0212 998  TYR A CE1 \n2389 C  CE2 . TYR A 306 ? 0.8160 0.8283 0.9035 0.0822  0.0499  -0.0256 998  TYR A CE2 \n2390 C  CZ  . TYR A 306 ? 0.9878 1.0128 1.0913 0.0789  0.0472  -0.0237 998  TYR A CZ  \n2391 O  OH  . TYR A 306 ? 1.0108 1.0453 1.1301 0.0831  0.0472  -0.0244 998  TYR A OH  \n2392 N  N   . ARG A 307 ? 0.7174 0.6820 0.7441 0.0731  0.0381  -0.0250 999  ARG A N   \n2393 C  CA  . ARG A 307 ? 0.8550 0.8086 0.8730 0.0794  0.0367  -0.0275 999  ARG A CA  \n2394 C  C   . ARG A 307 ? 0.9285 0.8721 0.9382 0.0771  0.0269  -0.0270 999  ARG A C   \n2395 O  O   . ARG A 307 ? 0.7012 0.6425 0.7131 0.0810  0.0233  -0.0283 999  ARG A O   \n2396 C  CB  . ARG A 307 ? 0.9740 0.9158 0.9767 0.0830  0.0423  -0.0293 999  ARG A CB  \n2397 C  CG  . ARG A 307 ? 0.9624 0.9122 0.9726 0.0881  0.0527  -0.0309 999  ARG A CG  \n2398 C  CD  . ARG A 307 ? 1.1962 1.1316 1.1893 0.0932  0.0575  -0.0334 999  ARG A CD  \n2399 N  NE  . ARG A 307 ? 1.2909 1.2335 1.2903 0.0984  0.0684  -0.0352 999  ARG A NE  \n2400 C  CZ  . ARG A 307 ? 1.1736 1.1212 1.1823 0.1060  0.0723  -0.0377 999  ARG A CZ  \n2401 N  NH1 . ARG A 307 ? 1.0498 1.0047 1.0644 0.1101  0.0829  -0.0390 999  ARG A NH1 \n2402 N  NH2 . ARG A 307 ? 0.9480 0.8934 0.9601 0.1095  0.0657  -0.0389 999  ARG A NH2 \n2403 N  N   . ALA A 308 ? 0.7442 0.6822 0.7448 0.0705  0.0226  -0.0250 1000 ALA A N   \n2404 C  CA  . ALA A 308 ? 0.8914 0.8215 0.8849 0.0663  0.0134  -0.0238 1000 ALA A CA  \n2405 C  C   . ALA A 308 ? 0.9300 0.8682 0.9354 0.0649  0.0086  -0.0230 1000 ALA A C   \n2406 O  O   . ALA A 308 ? 0.8472 0.7773 0.8462 0.0638  0.0016  -0.0228 1000 ALA A O   \n2407 C  CB  . ALA A 308 ? 0.5397 0.4677 0.5269 0.0589  0.0109  -0.0214 1000 ALA A CB  \n2408 N  N   . LEU A 309 ? 0.5935 0.5469 0.6153 0.0647  0.0120  -0.0224 1001 LEU A N   \n2409 C  CA  . LEU A 309 ? 0.5147 0.4758 0.5478 0.0631  0.0077  -0.0216 1001 LEU A CA  \n2410 C  C   . LEU A 309 ? 0.6766 0.6404 0.7181 0.0698  0.0082  -0.0235 1001 LEU A C   \n2411 O  O   . LEU A 309 ? 0.6805 0.6418 0.7232 0.0700  0.0020  -0.0235 1001 LEU A O   \n2412 C  CB  . LEU A 309 ? 0.5725 0.5480 0.6186 0.0586  0.0101  -0.0197 1001 LEU A CB  \n2413 C  CG  . LEU A 309 ? 0.5529 0.5297 0.5978 0.0510  0.0053  -0.0175 1001 LEU A CG  \n2414 C  CD1 . LEU A 309 ? 0.6187 0.5872 0.6508 0.0476  0.0047  -0.0167 1001 LEU A CD1 \n2415 C  CD2 . LEU A 309 ? 0.5059 0.4968 0.5648 0.0481  0.0077  -0.0162 1001 LEU A CD2 \n2416 N  N   . MET A 310 ? 0.6670 0.6361 0.7145 0.0753  0.0156  -0.0251 1002 MET A N   \n2417 C  CA  . MET A 310 ? 0.7759 0.7525 0.8369 0.0814  0.0172  -0.0266 1002 MET A CA  \n2418 C  C   . MET A 310 ? 0.8752 0.8422 0.9299 0.0895  0.0178  -0.0296 1002 MET A C   \n2419 O  O   . MET A 310 ? 0.7655 0.7355 0.8294 0.0943  0.0156  -0.0308 1002 MET A O   \n2420 C  CB  . MET A 310 ? 0.7211 0.7130 0.7973 0.0821  0.0250  -0.0262 1002 MET A CB  \n2421 C  CG  . MET A 310 ? 0.8481 0.8499 0.9318 0.0747  0.0244  -0.0234 1002 MET A CG  \n2422 S  SD  . MET A 310 ? 0.8166 0.8200 0.9049 0.0698  0.0148  -0.0216 1002 MET A SD  \n2423 C  CE  . MET A 310 ? 0.8744 0.8854 0.9788 0.0759  0.0136  -0.0229 1002 MET A CE  \n2424 N  N   . ASP A 311 ? 0.9365 0.8916 0.9755 0.0912  0.0203  -0.0308 1003 ASP A N   \n2425 C  CA  . ASP A 311 ? 1.1948 1.1396 1.2260 0.0994  0.0219  -0.0341 1003 ASP A CA  \n2426 C  C   . ASP A 311 ? 1.1255 1.0573 1.1479 0.1012  0.0126  -0.0349 1003 ASP A C   \n2427 O  O   . ASP A 311 ? 1.1393 1.0642 1.1587 0.1088  0.0129  -0.0378 1003 ASP A O   \n2428 C  CB  . ASP A 311 ? 1.1500 1.0846 1.1655 0.1006  0.0275  -0.0352 1003 ASP A CB  \n2429 C  CG  . ASP A 311 ? 1.2027 1.1484 1.2268 0.1027  0.0384  -0.0357 1003 ASP A CG  \n2430 O  OD1 . ASP A 311 ? 1.1370 1.0982 1.1768 0.0993  0.0407  -0.0338 1003 ASP A OD1 \n2431 O  OD2 . ASP A 311 ? 1.4065 1.3447 1.4208 0.1075  0.0445  -0.0379 1003 ASP A OD2 \n2432 N  N   . GLU A 312 ? 1.0995 1.0280 1.1177 0.0941  0.0047  -0.0325 1004 GLU A N   \n2433 C  CA  . GLU A 312 ? 1.2079 1.1246 1.2180 0.0943  -0.0045 -0.0327 1004 GLU A CA  \n2434 C  C   . GLU A 312 ? 1.1771 1.0982 1.1993 0.1009  -0.0063 -0.0345 1004 GLU A C   \n2435 O  O   . GLU A 312 ? 1.0493 0.9855 1.0893 0.1013  -0.0036 -0.0339 1004 GLU A O   \n2436 C  CB  . GLU A 312 ? 1.2077 1.1246 1.2158 0.0850  -0.0114 -0.0294 1004 GLU A CB  \n2437 C  CG  . GLU A 312 ? 1.2246 1.1282 1.2222 0.0836  -0.0212 -0.0291 1004 GLU A CG  \n2438 C  CD  . GLU A 312 ? 1.3187 1.2237 1.3149 0.0741  -0.0269 -0.0258 1004 GLU A CD  \n2439 O  OE1 . GLU A 312 ? 1.0602 0.9566 1.0502 0.0721  -0.0348 -0.0252 1004 GLU A OE1 \n2440 O  OE2 . GLU A 312 ? 1.0657 0.9800 1.0666 0.0687  -0.0234 -0.0240 1004 GLU A OE2 \n2441 N  N   . GLU A 313 ? 1.2401 1.1473 1.2526 0.1061  -0.0114 -0.0365 1005 GLU A N   \n2442 C  CA  . GLU A 313 ? 1.3509 1.2601 1.3737 0.1134  -0.0139 -0.0386 1005 GLU A CA  \n2443 C  C   . GLU A 313 ? 1.3670 1.2826 1.4002 0.1091  -0.0212 -0.0364 1005 GLU A C   \n2444 O  O   . GLU A 313 ? 1.4257 1.3496 1.4739 0.1138  -0.0217 -0.0374 1005 GLU A O   \n2445 C  CB  . GLU A 313 ? 1.3511 1.2418 1.3587 0.1197  -0.0184 -0.0413 1005 GLU A CB  \n2446 C  CG  . GLU A 313 ? 1.4030 1.2900 1.4061 0.1280  -0.0100 -0.0447 1005 GLU A CG  \n2447 C  CD  . GLU A 313 ? 1.4556 1.3215 1.4394 0.1332  -0.0146 -0.0473 1005 GLU A CD  \n2448 O  OE1 . GLU A 313 ? 1.2632 1.1232 1.2395 0.1395  -0.0079 -0.0501 1005 GLU A OE1 \n2449 O  OE2 . GLU A 313 ? 1.3645 1.2187 1.3395 0.1308  -0.0248 -0.0464 1005 GLU A OE2 \n2450 N  N   . ASP A 314 ? 1.5115 1.4232 1.5368 0.1000  -0.0267 -0.0335 1006 ASP A N   \n2451 C  CA  . ASP A 314 ? 1.5722 1.4894 1.6053 0.0947  -0.0330 -0.0311 1006 ASP A CA  \n2452 C  C   . ASP A 314 ? 1.4561 1.3925 1.5094 0.0942  -0.0278 -0.0303 1006 ASP A C   \n2453 O  O   . ASP A 314 ? 1.3729 1.3149 1.4371 0.0941  -0.0321 -0.0297 1006 ASP A O   \n2454 C  CB  . ASP A 314 ? 1.5887 1.4996 1.6096 0.0848  -0.0378 -0.0282 1006 ASP A CB  \n2455 C  CG  . ASP A 314 ? 1.5604 1.4523 1.5633 0.0840  -0.0461 -0.0283 1006 ASP A CG  \n2456 O  OD1 . ASP A 314 ? 1.4088 1.2927 1.4103 0.0902  -0.0506 -0.0302 1006 ASP A OD1 \n2457 O  OD2 . ASP A 314 ? 1.4157 1.3007 1.4062 0.0771  -0.0484 -0.0264 1006 ASP A OD2 \n2458 N  N   . MET A 315 ? 1.2051 1.1505 1.2626 0.0935  -0.0190 -0.0302 1007 MET A N   \n2459 C  CA  . MET A 315 ? 1.1385 1.1017 1.2148 0.0940  -0.0131 -0.0296 1007 MET A CA  \n2460 C  C   . MET A 315 ? 1.2377 1.2057 1.3253 0.1037  -0.0090 -0.0325 1007 MET A C   \n2461 O  O   . MET A 315 ? 1.3695 1.3422 1.4596 0.1075  -0.0003 -0.0339 1007 MET A O   \n2462 C  CB  . MET A 315 ? 1.0381 1.0079 1.1136 0.0898  -0.0054 -0.0285 1007 MET A CB  \n2463 C  CG  . MET A 315 ? 0.8406 0.8029 0.9019 0.0818  -0.0082 -0.0264 1007 MET A CG  \n2464 S  SD  . MET A 315 ? 0.8532 0.8189 0.9172 0.0730  -0.0155 -0.0234 1007 MET A SD  \n2465 C  CE  . MET A 315 ? 0.7163 0.7010 0.7988 0.0708  -0.0095 -0.0220 1007 MET A CE  \n2466 N  N   . ASP A 316 ? 1.3918 1.3585 1.4860 0.1076  -0.0154 -0.0333 1008 ASP A N   \n2467 C  CA  . ASP A 316 ? 1.3811 1.3507 1.4855 0.1176  -0.0130 -0.0363 1008 ASP A CA  \n2468 C  C   . ASP A 316 ? 1.2967 1.2857 1.4229 0.1198  -0.0054 -0.0361 1008 ASP A C   \n2469 O  O   . ASP A 316 ? 1.2923 1.2873 1.4204 0.1218  0.0041  -0.0370 1008 ASP A O   \n2470 C  CB  . ASP A 316 ? 1.5407 1.5023 1.6457 0.1208  -0.0233 -0.0370 1008 ASP A CB  \n2471 C  CG  . ASP A 316 ? 1.5026 1.4633 1.6144 0.1321  -0.0217 -0.0407 1008 ASP A CG  \n2472 O  OD1 . ASP A 316 ? 0.9855 0.9578 1.1165 0.1362  -0.0221 -0.0411 1008 ASP A OD1 \n2473 O  OD2 . ASP A 316 ? 1.4722 1.4205 1.5703 0.1370  -0.0203 -0.0432 1008 ASP A OD2 \n2474 N  N   . ASP A 317 ? 1.2479 1.2462 1.3899 0.1192  -0.0101 -0.0349 1009 ASP A N   \n2475 C  CA  . ASP A 317 ? 1.2146 1.2316 1.3785 0.1206  -0.0043 -0.0343 1009 ASP A CA  \n2476 C  C   . ASP A 317 ? 1.1221 1.1469 1.2920 0.1116  -0.0074 -0.0308 1009 ASP A C   \n2477 O  O   . ASP A 317 ? 0.8749 0.8976 1.0474 0.1092  -0.0163 -0.0295 1009 ASP A O   \n2478 C  CB  . ASP A 317 ? 1.2222 1.2441 1.4022 0.1289  -0.0070 -0.0363 1009 ASP A CB  \n2479 C  CG  . ASP A 317 ? 1.3698 1.3878 1.5478 0.1389  -0.0013 -0.0402 1009 ASP A CG  \n2480 O  OD1 . ASP A 317 ? 1.2606 1.2696 1.4365 0.1452  -0.0074 -0.0424 1009 ASP A OD1 \n2481 O  OD2 . ASP A 317 ? 1.3719 1.3954 1.5501 0.1405  0.0093  -0.0411 1009 ASP A OD2 \n2482 N  N   . VAL A 318 ? 1.1107 1.1436 1.2818 0.1069  -0.0001 -0.0293 1010 VAL A N   \n2483 C  CA  . VAL A 318 ? 0.9458 0.9838 1.1185 0.0980  -0.0025 -0.0261 1010 VAL A CA  \n2484 C  C   . VAL A 318 ? 0.9217 0.9768 1.1124 0.0964  0.0032  -0.0246 1010 VAL A C   \n2485 O  O   . VAL A 318 ? 0.9048 0.9681 1.1038 0.1007  0.0116  -0.0257 1010 VAL A O   \n2486 C  CB  . VAL A 318 ? 0.9821 1.0111 1.1362 0.0917  -0.0015 -0.0251 1010 VAL A CB  \n2487 C  CG1 . VAL A 318 ? 1.0631 1.0754 1.2000 0.0916  -0.0088 -0.0259 1010 VAL A CG1 \n2488 C  CG2 . VAL A 318 ? 0.9500 0.9808 1.0999 0.0932  0.0083  -0.0261 1010 VAL A CG2 \n2489 N  N   . VAL A 319 ? 0.7884 0.8483 0.9844 0.0900  -0.0012 -0.0220 1011 VAL A N   \n2490 C  CA  . VAL A 319 ? 0.7216 0.7965 0.9330 0.0869  0.0028  -0.0200 1011 VAL A CA  \n2491 C  C   . VAL A 319 ? 0.8856 0.9594 1.0883 0.0784  0.0028  -0.0178 1011 VAL A C   \n2492 O  O   . VAL A 319 ? 0.7692 0.8361 0.9642 0.0738  -0.0042 -0.0167 1011 VAL A O   \n2493 C  CB  . VAL A 319 ? 0.7737 0.8567 1.0028 0.0878  -0.0032 -0.0190 1011 VAL A CB  \n2494 C  CG1 . VAL A 319 ? 0.8115 0.9085 1.0547 0.0834  0.0001  -0.0166 1011 VAL A CG1 \n2495 C  CG2 . VAL A 319 ? 0.6617 0.7479 0.9024 0.0967  -0.0028 -0.0212 1011 VAL A CG2 \n2496 N  N   . ASP A 320 ? 0.8943 0.9746 1.0983 0.0765  0.0108  -0.0171 1012 ASP A N   \n2497 C  CA  . ASP A 320 ? 0.9051 0.9855 1.1025 0.0691  0.0117  -0.0152 1012 ASP A CA  \n2498 C  C   . ASP A 320 ? 0.8442 0.9289 1.0489 0.0641  0.0053  -0.0130 1012 ASP A C   \n2499 O  O   . ASP A 320 ? 0.7356 0.8291 0.9560 0.0656  0.0038  -0.0123 1012 ASP A O   \n2500 C  CB  . ASP A 320 ? 0.9345 1.0230 1.1359 0.0685  0.0211  -0.0147 1012 ASP A CB  \n2501 C  CG  . ASP A 320 ? 1.1620 1.2475 1.3527 0.0621  0.0224  -0.0133 1012 ASP A CG  \n2502 O  OD1 . ASP A 320 ? 1.2353 1.3109 1.4108 0.0617  0.0231  -0.0142 1012 ASP A OD1 \n2503 O  OD2 . ASP A 320 ? 1.1828 1.2757 1.3807 0.0576  0.0226  -0.0114 1012 ASP A OD2 \n2504 N  N   . ALA A 321 ? 0.5800 0.6584 0.7737 0.0583  0.0016  -0.0120 1013 ALA A N   \n2505 C  CA  . ALA A 321 ? 0.6606 0.7410 0.8583 0.0534  -0.0043 -0.0102 1013 ALA A CA  \n2506 C  C   . ALA A 321 ? 0.7590 0.8517 0.9715 0.0514  -0.0017 -0.0084 1013 ALA A C   \n2507 O  O   . ALA A 321 ? 0.7342 0.8301 0.9551 0.0497  -0.0072 -0.0071 1013 ALA A O   \n2508 C  CB  . ALA A 321 ? 0.7095 0.7819 0.8927 0.0476  -0.0069 -0.0096 1013 ALA A CB  \n2509 N  N   . ASP A 322 ? 0.6516 0.7502 0.8662 0.0513  0.0060  -0.0082 1014 ASP A N   \n2510 C  CA  . ASP A 322 ? 0.8273 0.9376 1.0556 0.0493  0.0092  -0.0064 1014 ASP A CA  \n2511 C  C   . ASP A 322 ? 0.8225 0.9420 1.0687 0.0536  0.0089  -0.0063 1014 ASP A C   \n2512 O  O   . ASP A 322 ? 0.9168 1.0441 1.1756 0.0512  0.0063  -0.0044 1014 ASP A O   \n2513 C  CB  . ASP A 322 ? 0.9484 1.0616 1.1736 0.0485  0.0179  -0.0063 1014 ASP A CB  \n2514 C  CG  . ASP A 322 ? 0.9938 1.0991 1.2034 0.0441  0.0180  -0.0062 1014 ASP A CG  \n2515 O  OD1 . ASP A 322 ? 1.1208 1.2225 1.3216 0.0450  0.0234  -0.0071 1014 ASP A OD1 \n2516 O  OD2 . ASP A 322 ? 1.0642 1.1666 1.2703 0.0398  0.0126  -0.0053 1014 ASP A OD2 \n2517 N  N   . GLU A 323 ? 0.7600 0.8784 1.0073 0.0599  0.0113  -0.0084 1015 GLU A N   \n2518 C  CA  . GLU A 323 ? 0.9332 1.0605 1.1980 0.0651  0.0114  -0.0087 1015 GLU A CA  \n2519 C  C   . GLU A 323 ? 0.8977 1.0222 1.1676 0.0658  0.0011  -0.0085 1015 GLU A C   \n2520 O  O   . GLU A 323 ? 0.8178 0.9513 1.1049 0.0675  -0.0012 -0.0076 1015 GLU A O   \n2521 C  CB  . GLU A 323 ? 0.9994 1.1254 1.2624 0.0723  0.0175  -0.0114 1015 GLU A CB  \n2522 C  CG  . GLU A 323 ? 1.2026 1.3410 1.4854 0.0779  0.0213  -0.0119 1015 GLU A CG  \n2523 C  CD  . GLU A 323 ? 1.3718 1.5076 1.6513 0.0854  0.0276  -0.0149 1015 GLU A CD  \n2524 O  OE1 . GLU A 323 ? 1.4469 1.5725 1.7086 0.0855  0.0310  -0.0163 1015 GLU A OE1 \n2525 O  OE2 . GLU A 323 ? 1.4349 1.5786 1.7296 0.0915  0.0290  -0.0160 1015 GLU A OE2 \n2526 N  N   . TYR A 324 ? 0.7778 0.8895 1.0324 0.0642  -0.0050 -0.0091 1016 TYR A N   \n2527 C  CA  . TYR A 324 ? 0.7955 0.9016 1.0509 0.0642  -0.0153 -0.0088 1016 TYR A CA  \n2528 C  C   . TYR A 324 ? 0.8272 0.9353 1.0860 0.0577  -0.0208 -0.0063 1016 TYR A C   \n2529 O  O   . TYR A 324 ? 0.9020 1.0115 1.1703 0.0581  -0.0279 -0.0054 1016 TYR A O   \n2530 C  CB  . TYR A 324 ? 0.9663 1.0574 1.2032 0.0645  -0.0195 -0.0103 1016 TYR A CB  \n2531 C  CG  . TYR A 324 ? 0.9966 1.0793 1.2290 0.0619  -0.0300 -0.0095 1016 TYR A CG  \n2532 C  CD1 . TYR A 324 ? 1.0568 1.1350 1.2801 0.0548  -0.0334 -0.0079 1016 TYR A CD1 \n2533 C  CD2 . TYR A 324 ? 0.8997 0.9781 1.1360 0.0666  -0.0367 -0.0105 1016 TYR A CD2 \n2534 C  CE1 . TYR A 324 ? 1.1146 1.1843 1.3324 0.0522  -0.0426 -0.0072 1016 TYR A CE1 \n2535 C  CE2 . TYR A 324 ? 0.9442 1.0137 1.1751 0.0638  -0.0466 -0.0097 1016 TYR A CE2 \n2536 C  CZ  . TYR A 324 ? 1.1348 1.1998 1.3559 0.0564  -0.0493 -0.0080 1016 TYR A CZ  \n2537 O  OH  . TYR A 324 ? 1.0923 1.1476 1.3063 0.0534  -0.0587 -0.0072 1016 TYR A OH  \n2538 N  N   . LEU A 325 ? 0.8852 0.9924 1.1356 0.0521  -0.0179 -0.0052 1017 LEU A N   \n2539 C  CA  . LEU A 325 ? 0.8728 0.9807 1.1242 0.0460  -0.0225 -0.0031 1017 LEU A CA  \n2540 C  C   . LEU A 325 ? 0.8820 1.0022 1.1468 0.0439  -0.0178 -0.0013 1017 LEU A C   \n2541 O  O   . LEU A 325 ? 0.9603 1.0889 1.2414 0.0449  -0.0201 0.0000  1017 LEU A O   \n2542 C  CB  . LEU A 325 ? 1.1072 1.2053 1.3403 0.0410  -0.0233 -0.0031 1017 LEU A CB  \n2543 C  CG  . LEU A 325 ? 1.3628 1.4608 1.5937 0.0346  -0.0258 -0.0014 1017 LEU A CG  \n2544 C  CD1 . LEU A 325 ? 1.4320 1.5260 1.6651 0.0327  -0.0351 -0.0003 1017 LEU A CD1 \n2545 C  CD2 . LEU A 325 ? 1.2948 1.3856 1.5092 0.0310  -0.0236 -0.0020 1017 LEU A CD2 \n2546 C  C1  . W32 B .   ? 0.3488 0.3979 0.4502 -0.0021 -0.0090 -0.0069 1101 W32 A C1  \n2547 C  C2  . W32 B .   ? 0.3304 0.3824 0.4388 0.0006  -0.0086 -0.0068 1101 W32 A C2  \n2548 C  C3  . W32 B .   ? 0.3084 0.3425 0.3969 0.0079  -0.0063 -0.0070 1101 W32 A C3  \n2549 C  C4  . W32 B .   ? 0.3327 0.3768 0.4287 -0.0018 -0.0102 -0.0066 1101 W32 A C4  \n2550 C  C5  . W32 B .   ? 0.3174 0.3543 0.4079 0.0049  -0.0078 -0.0067 1101 W32 A C5  \n2551 C  C6  . W32 B .   ? 0.3119 0.3574 0.4166 0.0048  -0.0099 -0.0067 1101 W32 A C6  \n2552 C  C7  . W32 B .   ? 0.3057 0.3331 0.3928 0.0119  -0.0105 -0.0074 1101 W32 A C7  \n2553 C  C8  . W32 B .   ? 0.3558 0.3896 0.4565 0.0258  0.0003  -0.0094 1101 W32 A C8  \n2554 C  C9  . W32 B .   ? 0.4116 0.4324 0.4927 0.0225  -0.0010 -0.0092 1101 W32 A C9  \n2555 C  C10 . W32 B .   ? 0.2743 0.3251 0.3848 0.0040  -0.0089 -0.0066 1101 W32 A C10 \n2556 C  C11 . W32 B .   ? 0.3278 0.3571 0.4143 0.0114  -0.0073 -0.0074 1101 W32 A C11 \n2557 C  C12 . W32 B .   ? 0.3650 0.4069 0.4621 0.0017  -0.0109 -0.0066 1101 W32 A C12 \n2558 C  C13 . W32 B .   ? 0.3118 0.3462 0.4019 0.0051  -0.0108 -0.0067 1101 W32 A C13 \n2559 C  C14 . W32 B .   ? 0.3293 0.3590 0.4181 0.0086  -0.0125 -0.0070 1101 W32 A C14 \n2560 C  C15 . W32 B .   ? 0.3358 0.3580 0.4212 0.0274  0.0021  -0.0101 1101 W32 A C15 \n2561 C  C16 . W32 B .   ? 0.4117 0.4379 0.4987 0.0196  -0.0029 -0.0086 1101 W32 A C16 \n2562 C  C17 . W32 B .   ? 0.4094 0.4229 0.4802 0.0202  -0.0026 -0.0089 1101 W32 A C17 \n2563 C  C18 . W32 B .   ? 0.3766 0.3848 0.4408 0.0216  -0.0008 -0.0092 1101 W32 A C18 \n2564 C  C19 . W32 B .   ? 0.5119 0.5121 0.5659 0.0185  -0.0041 -0.0086 1101 W32 A C19 \n2565 C  C20 . W32 B .   ? 0.4085 0.4176 0.4743 0.0256  0.0042  -0.0100 1101 W32 A C20 \n2566 C  C21 . W32 B .   ? 0.3992 0.4070 0.4671 0.0306  0.0046  -0.0112 1101 W32 A C21 \n2567 C  C22 . W32 B .   ? 1.0864 1.0790 1.1254 0.0035  -0.0118 -0.0045 1101 W32 A C22 \n2568 C  C23 . W32 B .   ? 0.6635 0.6600 0.7102 0.0099  -0.0106 -0.0066 1101 W32 A C23 \n2569 C  C24 . W32 B .   ? 0.7736 0.7706 0.8194 0.0090  -0.0088 -0.0063 1101 W32 A C24 \n2570 C  C25 . W32 B .   ? 0.2907 0.3458 0.4100 0.0068  -0.0081 -0.0064 1101 W32 A C25 \n2571 N  N26 . W32 B .   ? 0.3345 0.3640 0.4305 0.0291  0.0030  -0.0102 1101 W32 A N26 \n2572 N  N27 . W32 B .   ? 0.3665 0.3987 0.4627 0.0212  -0.0024 -0.0087 1101 W32 A N27 \n2573 N  N28 . W32 B .   ? 0.3585 0.3756 0.4385 0.0312  0.0051  -0.0111 1101 W32 A N28 \n2574 N  N29 . W32 B .   ? 0.3213 0.3467 0.4044 0.0147  -0.0055 -0.0079 1101 W32 A N29 \n2575 N  N30 . W32 B .   ? 0.4898 0.4922 0.5444 0.0136  -0.0073 -0.0075 1101 W32 A N30 \n2576 O  O31 . W32 B .   ? 0.6301 0.6221 0.6755 0.0204  -0.0040 -0.0090 1101 W32 A O31 \n2577 O  O32 . W32 B .   ? 0.7976 0.7911 0.8373 0.0001  -0.0162 -0.0040 1101 W32 A O32 \n2578 O  O33 . W32 B .   ? 1.0303 1.0076 1.0557 0.0072  -0.0152 -0.0054 1101 W32 A O33 \n2579 O  O34 . W32 B .   ? 0.3399 0.3755 0.4303 0.0020  -0.0125 -0.0064 1101 W32 A O34 \n2580 F  F35 . W32 B .   ? 0.3839 0.4435 0.5071 0.0076  -0.0044 -0.0063 1101 W32 A F35 \n2581 F  F36 . W32 B .   ? 0.3739 0.4273 0.4947 0.0101  -0.0087 -0.0064 1101 W32 A F36 \n2582 F  F37 . W32 B .   ? 0.3464 0.4030 0.4690 0.0054  -0.0102 -0.0061 1101 W32 A F37 \n2583 S  S38 . W32 B .   ? 1.0567 1.0459 1.0932 0.0047  -0.0136 -0.0050 1101 W32 A S38 \n2584 CL CL1 . W32 B .   ? 0.3946 0.4202 0.4828 0.0089  -0.0173 -0.0069 1101 W32 A CL1 \n# \nloop_\n_pdbx_poly_seq_scheme.asym_id \n_pdbx_poly_seq_scheme.entity_id \n_pdbx_poly_seq_scheme.seq_id \n_pdbx_poly_seq_scheme.mon_id \n_pdbx_poly_seq_scheme.ndb_seq_num \n_pdbx_poly_seq_scheme.pdb_seq_num \n_pdbx_poly_seq_scheme.auth_seq_num \n_pdbx_poly_seq_scheme.pdb_mon_id \n_pdbx_poly_seq_scheme.auth_mon_id \n_pdbx_poly_seq_scheme.pdb_strand_id \n_pdbx_poly_seq_scheme.pdb_ins_code \n_pdbx_poly_seq_scheme.hetero \nA 1 1   GLY 1   693  ?    ?   ?   A . n \nA 1 2   ALA 2   694  ?    ?   ?   A . n \nA 1 3   MET 3   695  ?    ?   ?   A . n \nA 1 4   GLY 4   696  ?    ?   ?   A . n \nA 1 5   GLU 5   697  ?    ?   ?   A . n \nA 1 6   ALA 6   698  ?    ?   ?   A . n \nA 1 7   PRO 7   699  ?    ?   ?   A . n \nA 1 8   ASN 8   700  ?    ?   ?   A . n \nA 1 9   GLN 9   701  701  GLN GLN A . n \nA 1 10  ALA 10  702  702  ALA ALA A . n \nA 1 11  LEU 11  703  703  LEU LEU A . n \nA 1 12  LEU 12  704  704  LEU LEU A . n \nA 1 13  ARG 13  705  705  ARG ARG A . n \nA 1 14  ILE 14  706  706  ILE ILE A . n \nA 1 15  LEU 15  707  707  LEU LEU A . n \nA 1 16  LYS 16  708  708  LYS LYS A . n \nA 1 17  GLU 17  709  709  GLU GLU A . n \nA 1 18  THR 18  710  710  THR THR A . n \nA 1 19  GLU 19  711  711  GLU GLU A . n \nA 1 20  PHE 20  712  712  PHE PHE A . n \nA 1 21  LYS 21  713  713  LYS LYS A . n \nA 1 22  LYS 22  714  714  LYS LYS A . n \nA 1 23  ILE 23  715  715  ILE ILE A . n \nA 1 24  LYS 24  716  716  LYS LYS A . n \nA 1 25  VAL 25  717  717  VAL VAL A . n \nA 1 26  LEU 26  718  718  LEU LEU A . n \nA 1 27  GLY 27  719  719  GLY GLY A . n \nA 1 28  SER 28  720  720  SER SER A . n \nA 1 29  GLY 29  721  721  GLY GLY A . n \nA 1 30  ALA 30  722  722  ALA ALA A . n \nA 1 31  PHE 31  723  723  PHE PHE A . n \nA 1 32  GLY 32  724  724  GLY GLY A . n \nA 1 33  THR 33  725  725  THR THR A . n \nA 1 34  VAL 34  726  726  VAL VAL A . n \nA 1 35  TYR 35  727  727  TYR TYR A . n \nA 1 36  LYS 36  728  728  LYS LYS A . n \nA 1 37  GLY 37  729  729  GLY GLY A . n \nA 1 38  LEU 38  730  730  LEU LEU A . n \nA 1 39  TRP 39  731  731  TRP TRP A . n \nA 1 40  ILE 40  732  732  ILE ILE A . n \nA 1 41  PRO 41  733  733  PRO PRO A . n \nA 1 42  GLU 42  734  734  GLU GLU A . n \nA 1 43  GLY 43  735  735  GLY GLY A . n \nA 1 44  GLU 44  736  736  GLU GLU A . n \nA 1 45  LYS 45  737  737  LYS LYS A . n \nA 1 46  VAL 46  738  738  VAL VAL A . n \nA 1 47  LYS 47  739  739  LYS LYS A . n \nA 1 48  ILE 48  740  740  ILE ILE A . n \nA 1 49  PRO 49  741  741  PRO PRO A . n \nA 1 50  VAL 50  742  742  VAL VAL A . n \nA 1 51  ALA 51  743  743  ALA ALA A . n \nA 1 52  ILE 52  744  744  ILE ILE A . n \nA 1 53  LYS 53  745  745  LYS LYS A . n \nA 1 54  GLU 54  746  746  GLU GLU A . n \nA 1 55  LEU 55  747  747  LEU LEU A . n \nA 1 56  ARG 56  748  748  ARG ARG A . n \nA 1 57  GLU 57  749  749  GLU GLU A . n \nA 1 58  ALA 58  750  750  ALA ALA A . n \nA 1 59  THR 59  751  751  THR THR A . n \nA 1 60  SER 60  752  752  SER SER A . n \nA 1 61  PRO 61  753  753  PRO PRO A . n \nA 1 62  LYS 62  754  754  LYS LYS A . n \nA 1 63  ALA 63  755  755  ALA ALA A . n \nA 1 64  ASN 64  756  756  ASN ASN A . n \nA 1 65  LYS 65  757  757  LYS LYS A . n \nA 1 66  GLU 66  758  758  GLU GLU A . n \nA 1 67  ILE 67  759  759  ILE ILE A . n \nA 1 68  LEU 68  760  760  LEU LEU A . n \nA 1 69  ASP 69  761  761  ASP ASP A . n \nA 1 70  GLU 70  762  762  GLU GLU A . n \nA 1 71  ALA 71  763  763  ALA ALA A . n \nA 1 72  TYR 72  764  764  TYR TYR A . n \nA 1 73  VAL 73  765  765  VAL VAL A . n \nA 1 74  MET 74  766  766  MET MET A . n \nA 1 75  ALA 75  767  767  ALA ALA A . n \nA 1 76  SER 76  768  768  SER SER A . n \nA 1 77  VAL 77  769  769  VAL VAL A . n \nA 1 78  ASP 78  770  770  ASP ASP A . n \nA 1 79  ASN 79  771  771  ASN ASN A . n \nA 1 80  PRO 80  772  772  PRO PRO A . n \nA 1 81  HIS 81  773  773  HIS HIS A . n \nA 1 82  VAL 82  774  774  VAL VAL A . n \nA 1 83  CYS 83  775  775  CYS CYS A . n \nA 1 84  ARG 84  776  776  ARG ARG A . n \nA 1 85  LEU 85  777  777  LEU LEU A . n \nA 1 86  LEU 86  778  778  LEU LEU A . n \nA 1 87  GLY 87  779  779  GLY GLY A . n \nA 1 88  ILE 88  780  780  ILE ILE A . n \nA 1 89  CYS 89  781  781  CYS CYS A . n \nA 1 90  LEU 90  782  782  LEU LEU A . n \nA 1 91  THR 91  783  783  THR THR A . n \nA 1 92  SER 92  784  784  SER SER A . n \nA 1 93  THR 93  785  785  THR THR A . n \nA 1 94  VAL 94  786  786  VAL VAL A . n \nA 1 95  GLN 95  787  787  GLN GLN A . n \nA 1 96  LEU 96  788  788  LEU LEU A . n \nA 1 97  ILE 97  789  789  ILE ILE A . n \nA 1 98  THR 98  790  790  THR THR A . n \nA 1 99  GLN 99  791  791  GLN GLN A . n \nA 1 100 LEU 100 792  792  LEU LEU A . n \nA 1 101 MET 101 793  793  MET MET A . n \nA 1 102 PRO 102 794  794  PRO PRO A . n \nA 1 103 PHE 103 795  795  PHE PHE A . n \nA 1 104 GLY 104 796  796  GLY GLY A . n \nA 1 105 CYS 105 797  797  CYS CYS A . n \nA 1 106 LEU 106 798  798  LEU LEU A . n \nA 1 107 LEU 107 799  799  LEU LEU A . n \nA 1 108 ASP 108 800  800  ASP ASP A . n \nA 1 109 TYR 109 801  801  TYR TYR A . n \nA 1 110 VAL 110 802  802  VAL VAL A . n \nA 1 111 ARG 111 803  803  ARG ARG A . n \nA 1 112 GLU 112 804  804  GLU GLU A . n \nA 1 113 HIS 113 805  805  HIS HIS A . n \nA 1 114 LYS 114 806  806  LYS LYS A . n \nA 1 115 ASP 115 807  807  ASP ASP A . n \nA 1 116 ASN 116 808  808  ASN ASN A . n \nA 1 117 ILE 117 809  809  ILE ILE A . n \nA 1 118 GLY 118 810  810  GLY GLY A . n \nA 1 119 SER 119 811  811  SER SER A . n \nA 1 120 GLN 120 812  812  GLN GLN A . n \nA 1 121 TYR 121 813  813  TYR TYR A . n \nA 1 122 LEU 122 814  814  LEU LEU A . n \nA 1 123 LEU 123 815  815  LEU LEU A . n \nA 1 124 ASN 124 816  816  ASN ASN A . n \nA 1 125 TRP 125 817  817  TRP TRP A . n \nA 1 126 CYS 126 818  818  CYS CYS A . n \nA 1 127 VAL 127 819  819  VAL VAL A . n \nA 1 128 GLN 128 820  820  GLN GLN A . n \nA 1 129 ILE 129 821  821  ILE ILE A . n \nA 1 130 ALA 130 822  822  ALA ALA A . n \nA 1 131 LYS 131 823  823  LYS LYS A . n \nA 1 132 GLY 132 824  824  GLY GLY A . n \nA 1 133 MET 133 825  825  MET MET A . n \nA 1 134 ASN 134 826  826  ASN ASN A . n \nA 1 135 TYR 135 827  827  TYR TYR A . n \nA 1 136 LEU 136 828  828  LEU LEU A . n \nA 1 137 GLU 137 829  829  GLU GLU A . n \nA 1 138 ASP 138 830  830  ASP ASP A . n \nA 1 139 ARG 139 831  831  ARG ARG A . n \nA 1 140 ARG 140 832  832  ARG ARG A . n \nA 1 141 LEU 141 833  833  LEU LEU A . n \nA 1 142 VAL 142 834  834  VAL VAL A . n \nA 1 143 HIS 143 835  835  HIS HIS A . n \nA 1 144 ARG 144 836  836  ARG ARG A . n \nA 1 145 ASP 145 837  837  ASP ASP A . n \nA 1 146 LEU 146 838  838  LEU LEU A . n \nA 1 147 ALA 147 839  839  ALA ALA A . n \nA 1 148 ALA 148 840  840  ALA ALA A . n \nA 1 149 ARG 149 841  841  ARG ARG A . n \nA 1 150 ASN 150 842  842  ASN ASN A . n \nA 1 151 VAL 151 843  843  VAL VAL A . n \nA 1 152 LEU 152 844  844  LEU LEU A . n \nA 1 153 VAL 153 845  845  VAL VAL A . n \nA 1 154 LYS 154 846  846  LYS LYS A . n \nA 1 155 THR 155 847  847  THR THR A . n \nA 1 156 PRO 156 848  848  PRO PRO A . n \nA 1 157 GLN 157 849  849  GLN GLN A . n \nA 1 158 HIS 158 850  850  HIS HIS A . n \nA 1 159 VAL 159 851  851  VAL VAL A . n \nA 1 160 LYS 160 852  852  LYS LYS A . n \nA 1 161 ILE 161 853  853  ILE ILE A . n \nA 1 162 THR 162 854  854  THR THR A . n \nA 1 163 ASP 163 855  855  ASP ASP A . n \nA 1 164 PHE 164 856  856  PHE PHE A . n \nA 1 165 GLY 165 857  857  GLY GLY A . n \nA 1 166 LEU 166 858  858  LEU LEU A . n \nA 1 167 ALA 167 859  859  ALA ALA A . n \nA 1 168 LYS 168 860  860  LYS LYS A . n \nA 1 169 LEU 169 861  861  LEU LEU A . n \nA 1 170 LEU 170 862  862  LEU LEU A . n \nA 1 171 GLY 171 863  863  GLY GLY A . n \nA 1 172 ALA 172 864  864  ALA ALA A . n \nA 1 173 GLU 173 865  865  GLU GLU A . n \nA 1 174 GLU 174 866  866  GLU GLU A . n \nA 1 175 LYS 175 867  867  LYS LYS A . n \nA 1 176 GLU 176 868  868  GLU GLU A . n \nA 1 177 TYR 177 869  869  TYR TYR A . n \nA 1 178 HIS 178 870  870  HIS HIS A . n \nA 1 179 ALA 179 871  871  ALA ALA A . n \nA 1 180 GLU 180 872  872  GLU GLU A . n \nA 1 181 GLY 181 873  873  GLY GLY A . n \nA 1 182 GLY 182 874  874  GLY GLY A . n \nA 1 183 LYS 183 875  875  LYS LYS A . n \nA 1 184 VAL 184 876  876  VAL VAL A . n \nA 1 185 PRO 185 877  877  PRO PRO A . n \nA 1 186 ILE 186 878  878  ILE ILE A . n \nA 1 187 LYS 187 879  879  LYS LYS A . n \nA 1 188 TRP 188 880  880  TRP TRP A . n \nA 1 189 MET 189 881  881  MET MET A . n \nA 1 190 ALA 190 882  882  ALA ALA A . n \nA 1 191 LEU 191 883  883  LEU LEU A . n \nA 1 192 GLU 192 884  884  GLU GLU A . n \nA 1 193 SER 193 885  885  SER SER A . n \nA 1 194 ILE 194 886  886  ILE ILE A . n \nA 1 195 LEU 195 887  887  LEU LEU A . n \nA 1 196 HIS 196 888  888  HIS HIS A . n \nA 1 197 ARG 197 889  889  ARG ARG A . n \nA 1 198 ILE 198 890  890  ILE ILE A . n \nA 1 199 TYR 199 891  891  TYR TYR A . n \nA 1 200 THR 200 892  892  THR THR A . n \nA 1 201 HIS 201 893  893  HIS HIS A . n \nA 1 202 GLN 202 894  894  GLN GLN A . n \nA 1 203 SER 203 895  895  SER SER A . n \nA 1 204 ASP 204 896  896  ASP ASP A . n \nA 1 205 VAL 205 897  897  VAL VAL A . n \nA 1 206 TRP 206 898  898  TRP TRP A . n \nA 1 207 SER 207 899  899  SER SER A . n \nA 1 208 TYR 208 900  900  TYR TYR A . n \nA 1 209 GLY 209 901  901  GLY GLY A . n \nA 1 210 VAL 210 902  902  VAL VAL A . n \nA 1 211 THR 211 903  903  THR THR A . n \nA 1 212 VAL 212 904  904  VAL VAL A . n \nA 1 213 TRP 213 905  905  TRP TRP A . n \nA 1 214 GLU 214 906  906  GLU GLU A . n \nA 1 215 LEU 215 907  907  LEU LEU A . n \nA 1 216 MET 216 908  908  MET MET A . n \nA 1 217 THR 217 909  909  THR THR A . n \nA 1 218 PHE 218 910  910  PHE PHE A . n \nA 1 219 GLY 219 911  911  GLY GLY A . n \nA 1 220 SER 220 912  912  SER SER A . n \nA 1 221 LYS 221 913  913  LYS LYS A . n \nA 1 222 PRO 222 914  914  PRO PRO A . n \nA 1 223 TYR 223 915  915  TYR TYR A . n \nA 1 224 ASP 224 916  916  ASP ASP A . n \nA 1 225 GLY 225 917  917  GLY GLY A . n \nA 1 226 ILE 226 918  918  ILE ILE A . n \nA 1 227 PRO 227 919  919  PRO PRO A . n \nA 1 228 ALA 228 920  920  ALA ALA A . n \nA 1 229 SER 229 921  921  SER SER A . n \nA 1 230 GLU 230 922  922  GLU GLU A . n \nA 1 231 ILE 231 923  923  ILE ILE A . n \nA 1 232 SER 232 924  924  SER SER A . n \nA 1 233 SER 233 925  925  SER SER A . n \nA 1 234 ILE 234 926  926  ILE ILE A . n \nA 1 235 LEU 235 927  927  LEU LEU A . n \nA 1 236 GLU 236 928  928  GLU GLU A . n \nA 1 237 LYS 237 929  929  LYS LYS A . n \nA 1 238 GLY 238 930  930  GLY GLY A . n \nA 1 239 GLU 239 931  931  GLU GLU A . n \nA 1 240 ARG 240 932  932  ARG ARG A . n \nA 1 241 LEU 241 933  933  LEU LEU A . n \nA 1 242 PRO 242 934  934  PRO PRO A . n \nA 1 243 GLN 243 935  935  GLN GLN A . n \nA 1 244 PRO 244 936  936  PRO PRO A . n \nA 1 245 PRO 245 937  937  PRO PRO A . n \nA 1 246 ILE 246 938  938  ILE ILE A . n \nA 1 247 CYS 247 939  939  CYS CYS A . n \nA 1 248 THR 248 940  940  THR THR A . n \nA 1 249 ILE 249 941  941  ILE ILE A . n \nA 1 250 ASP 250 942  942  ASP ASP A . n \nA 1 251 VAL 251 943  943  VAL VAL A . n \nA 1 252 TYR 252 944  944  TYR TYR A . n \nA 1 253 MET 253 945  945  MET MET A . n \nA 1 254 ILE 254 946  946  ILE ILE A . n \nA 1 255 MET 255 947  947  MET MET A . n \nA 1 256 VAL 256 948  948  VAL VAL A . n \nA 1 257 LYS 257 949  949  LYS LYS A . n \nA 1 258 CYS 258 950  950  CYS CYS A . n \nA 1 259 TRP 259 951  951  TRP TRP A . n \nA 1 260 MET 260 952  952  MET MET A . n \nA 1 261 ILE 261 953  953  ILE ILE A . n \nA 1 262 ASP 262 954  954  ASP ASP A . n \nA 1 263 ALA 263 955  955  ALA ALA A . n \nA 1 264 ASP 264 956  956  ASP ASP A . n \nA 1 265 SER 265 957  957  SER SER A . n \nA 1 266 ARG 266 958  958  ARG ARG A . n \nA 1 267 PRO 267 959  959  PRO PRO A . n \nA 1 268 LYS 268 960  960  LYS LYS A . n \nA 1 269 PHE 269 961  961  PHE PHE A . n \nA 1 270 ARG 270 962  962  ARG ARG A . n \nA 1 271 GLU 271 963  963  GLU GLU A . n \nA 1 272 LEU 272 964  964  LEU LEU A . n \nA 1 273 ILE 273 965  965  ILE ILE A . n \nA 1 274 ILE 274 966  966  ILE ILE A . n \nA 1 275 GLU 275 967  967  GLU GLU A . n \nA 1 276 PHE 276 968  968  PHE PHE A . n \nA 1 277 SER 277 969  969  SER SER A . n \nA 1 278 LYS 278 970  970  LYS LYS A . n \nA 1 279 MET 279 971  971  MET MET A . n \nA 1 280 ALA 280 972  972  ALA ALA A . n \nA 1 281 ARG 281 973  973  ARG ARG A . n \nA 1 282 ASP 282 974  974  ASP ASP A . n \nA 1 283 PRO 283 975  975  PRO PRO A . n \nA 1 284 GLN 284 976  976  GLN GLN A . n \nA 1 285 ARG 285 977  977  ARG ARG A . n \nA 1 286 TYR 286 978  978  TYR TYR A . n \nA 1 287 LEU 287 979  979  LEU LEU A . n \nA 1 288 VAL 288 980  980  VAL VAL A . n \nA 1 289 ILE 289 981  981  ILE ILE A . n \nA 1 290 GLN 290 982  982  GLN GLN A . n \nA 1 291 GLY 291 983  983  GLY GLY A . n \nA 1 292 ASP 292 984  984  ASP ASP A . n \nA 1 293 GLU 293 985  985  GLU GLU A . n \nA 1 294 ARG 294 986  986  ARG ARG A . n \nA 1 295 MET 295 987  987  MET MET A . n \nA 1 296 HIS 296 988  988  HIS HIS A . n \nA 1 297 LEU 297 989  989  LEU LEU A . n \nA 1 298 PRO 298 990  990  PRO PRO A . n \nA 1 299 SER 299 991  991  SER SER A . n \nA 1 300 PRO 300 992  992  PRO PRO A . n \nA 1 301 THR 301 993  993  THR THR A . n \nA 1 302 ASP 302 994  994  ASP ASP A . n \nA 1 303 SER 303 995  995  SER SER A . n \nA 1 304 ASN 304 996  996  ASN ASN A . n \nA 1 305 PHE 305 997  997  PHE PHE A . n \nA 1 306 TYR 306 998  998  TYR TYR A . n \nA 1 307 ARG 307 999  999  ARG ARG A . n \nA 1 308 ALA 308 1000 1000 ALA ALA A . n \nA 1 309 LEU 309 1001 1001 LEU LEU A . n \nA 1 310 MET 310 1002 1002 MET MET A . n \nA 1 311 ASP 311 1003 1003 ASP ASP A . n \nA 1 312 GLU 312 1004 1004 GLU GLU A . n \nA 1 313 GLU 313 1005 1005 GLU GLU A . n \nA 1 314 ASP 314 1006 1006 ASP ASP A . n \nA 1 315 MET 315 1007 1007 MET MET A . n \nA 1 316 ASP 316 1008 1008 ASP ASP A . n \nA 1 317 ASP 317 1009 1009 ASP ASP A . n \nA 1 318 VAL 318 1010 1010 VAL VAL A . n \nA 1 319 VAL 319 1011 1011 VAL VAL A . n \nA 1 320 ASP 320 1012 1012 ASP ASP A . n \nA 1 321 ALA 321 1013 1013 ALA ALA A . n \nA 1 322 ASP 322 1014 1014 ASP ASP A . n \nA 1 323 GLU 323 1015 1015 GLU GLU A . n \nA 1 324 TYR 324 1016 1016 TYR TYR A . n \nA 1 325 LEU 325 1017 1017 LEU LEU A . n \nA 1 326 ILE 326 1018 ?    ?   ?   A . n \nA 1 327 PRO 327 1019 ?    ?   ?   A . n \nA 1 328 GLN 328 1020 ?    ?   ?   A . n \nA 1 329 GLN 329 1021 ?    ?   ?   A . n \nA 1 330 GLY 330 1022 ?    ?   ?   A . n \n# \n_pdbx_struct_assembly.id                   1 \n_pdbx_struct_assembly.details              author_and_software_defined_assembly \n_pdbx_struct_assembly.method_details       PISA \n_pdbx_struct_assembly.oligomeric_details   monomeric \n_pdbx_struct_assembly.oligomeric_count     1 \n# \n_pdbx_struct_assembly_gen.assembly_id       1 \n_pdbx_struct_assembly_gen.oper_expression   1 \n_pdbx_struct_assembly_gen.asym_id_list      A,B,C,D \n# \n_pdbx_struct_oper_list.id                   1 \n_pdbx_struct_oper_list.type                 'identity operation' \n_pdbx_struct_oper_list.name                 1_555 \n_pdbx_struct_oper_list.symmetry_operation   x,y,z \n_pdbx_struct_oper_list.matrix[1][1]         1.0000000000 \n_pdbx_struct_oper_list.matrix[1][2]         0.0000000000 \n_pdbx_struct_oper_list.matrix[1][3]         0.0000000000 \n_pdbx_struct_oper_list.vector[1]            0.0000000000 \n_pdbx_struct_oper_list.matrix[2][1]         0.0000000000 \n_pdbx_struct_oper_list.matrix[2][2]         1.0000000000 \n_pdbx_struct_oper_list.matrix[2][3]         0.0000000000 \n_pdbx_struct_oper_list.vector[2]            0.0000000000 \n_pdbx_struct_oper_list.matrix[3][1]         0.0000000000 \n_pdbx_struct_oper_list.matrix[3][2]         0.0000000000 \n_pdbx_struct_oper_list.matrix[3][3]         1.0000000000 \n_pdbx_struct_oper_list.vector[3]            0.0000000000 \n# \nloop_\n_pdbx_audit_revision_history.ordinal \n_pdbx_audit_revision_history.data_content_type \n_pdbx_audit_revision_history.major_revision \n_pdbx_audit_revision_history.minor_revision \n_pdbx_audit_revision_history.revision_date \n1 'Structure model' 1 0 2013-03-06 \n2 'Structure model' 1 1 2013-08-14 \n# \n_pdbx_audit_revision_details.ordinal             1 \n_pdbx_audit_revision_details.revision_ordinal    1 \n_pdbx_audit_revision_details.data_content_type   'Structure model' \n_pdbx_audit_revision_details.provider            repository \n_pdbx_audit_revision_details.type                'Initial release' \n_pdbx_audit_revision_details.description         ? \n# \n_pdbx_audit_revision_group.ordinal             1 \n_pdbx_audit_revision_group.revision_ordinal    2 \n_pdbx_audit_revision_group.data_content_type   'Structure model' \n_pdbx_audit_revision_group.group               'Database references' \n# \n_pdbx_refine_tls.pdbx_refine_id   'X-RAY DIFFRACTION' \n_pdbx_refine_tls.id               1 \n_pdbx_refine_tls.details          ? \n_pdbx_refine_tls.method           refined \n_pdbx_refine_tls.origin_x         18.7873 \n_pdbx_refine_tls.origin_y         25.9155 \n_pdbx_refine_tls.origin_z         14.3167 \n_pdbx_refine_tls.T[1][1]          0.0200 \n_pdbx_refine_tls.T[2][2]          0.0753 \n_pdbx_refine_tls.T[3][3]          0.1267 \n_pdbx_refine_tls.T[1][2]          0.0062 \n_pdbx_refine_tls.T[1][3]          0.0065 \n_pdbx_refine_tls.T[2][3]          -0.0066 \n_pdbx_refine_tls.L[1][1]          0.1474 \n_pdbx_refine_tls.L[2][2]          0.8224 \n_pdbx_refine_tls.L[3][3]          0.5626 \n_pdbx_refine_tls.L[1][2]          0.1030 \n_pdbx_refine_tls.L[1][3]          0.2626 \n_pdbx_refine_tls.L[2][3]          -0.0418 \n_pdbx_refine_tls.S[1][1]          -0.0344 \n_pdbx_refine_tls.S[1][2]          -0.0030 \n_pdbx_refine_tls.S[1][3]          -0.0099 \n_pdbx_refine_tls.S[2][1]          0.0695 \n_pdbx_refine_tls.S[2][2]          0.0195 \n_pdbx_refine_tls.S[2][3]          0.0685 \n_pdbx_refine_tls.S[3][1]          -0.0921 \n_pdbx_refine_tls.S[3][2]          -0.0269 \n_pdbx_refine_tls.S[3][3]          0.0149 \n# \nloop_\n_pdbx_refine_tls_group.pdbx_refine_id \n_pdbx_refine_tls_group.id \n_pdbx_refine_tls_group.refine_tls_id \n_pdbx_refine_tls_group.beg_auth_asym_id \n_pdbx_refine_tls_group.beg_auth_seq_id \n_pdbx_refine_tls_group.beg_label_asym_id \n_pdbx_refine_tls_group.beg_label_seq_id \n_pdbx_refine_tls_group.end_auth_asym_id \n_pdbx_refine_tls_group.end_auth_seq_id \n_pdbx_refine_tls_group.end_label_asym_id \n_pdbx_refine_tls_group.end_label_seq_id \n_pdbx_refine_tls_group.selection \n_pdbx_refine_tls_group.selection_details \n'X-RAY DIFFRACTION' 1 1 A 701  ? ? A 1017 ? ? ? ? \n'X-RAY DIFFRACTION' 2 1 A 1101 ? ? A 1101 ? ? ? ? \n# \nloop_\n_software.name \n_software.classification \n_software.version \n_software.citation_id \n_software.pdbx_ordinal \nADSC     'data collection' Quantum  ? 1 \nMOLREP   phasing           .        ? 2 \nREFMAC   refinement        5.7.0029 ? 3 \nHKL-2000 'data reduction'  .        ? 4 \nHKL-2000 'data scaling'    .        ? 5 \n# \nloop_\n_pdbx_validate_torsion.id \n_pdbx_validate_torsion.PDB_model_num \n_pdbx_validate_torsion.auth_comp_id \n_pdbx_validate_torsion.auth_asym_id \n_pdbx_validate_torsion.auth_seq_id \n_pdbx_validate_torsion.PDB_ins_code \n_pdbx_validate_torsion.label_alt_id \n_pdbx_validate_torsion.phi \n_pdbx_validate_torsion.psi \n1 1 LEU A 718  ? ? -97.29  -61.72  \n2 1 THR A 783  ? ? -137.24 -130.68 \n3 1 ARG A 836  ? ? 76.05   -4.36   \n4 1 ASP A 837  ? ? -148.74 39.52   \n5 1 ARG A 986  ? ? -100.19 60.75   \n6 1 ASP A 1008 ? ? -70.75  -90.39  \n# \nloop_\n_pdbx_unobs_or_zero_occ_residues.id \n_pdbx_unobs_or_zero_occ_residues.PDB_model_num \n_pdbx_unobs_or_zero_occ_residues.polymer_flag \n_pdbx_unobs_or_zero_occ_residues.occupancy_flag \n_pdbx_unobs_or_zero_occ_residues.auth_asym_id \n_pdbx_unobs_or_zero_occ_residues.auth_comp_id \n_pdbx_unobs_or_zero_occ_residues.auth_seq_id \n_pdbx_unobs_or_zero_occ_residues.PDB_ins_code \n_pdbx_unobs_or_zero_occ_residues.label_asym_id \n_pdbx_unobs_or_zero_occ_residues.label_comp_id \n_pdbx_unobs_or_zero_occ_residues.label_seq_id \n1  1 Y 1 A GLY 693  ? A GLY 1   \n2  1 Y 1 A ALA 694  ? A ALA 2   \n3  1 Y 1 A MET 695  ? A MET 3   \n4  1 Y 1 A GLY 696  ? A GLY 4   \n5  1 Y 1 A GLU 697  ? A GLU 5   \n6  1 Y 1 A ALA 698  ? A ALA 6   \n7  1 Y 1 A PRO 699  ? A PRO 7   \n8  1 Y 1 A ASN 700  ? A ASN 8   \n9  1 Y 1 A ILE 1018 ? A ILE 326 \n10 1 Y 1 A PRO 1019 ? A PRO 327 \n11 1 Y 1 A GLN 1020 ? A GLN 328 \n12 1 Y 1 A GLN 1021 ? A GLN 329 \n13 1 Y 1 A GLY 1022 ? A GLY 330 \n# \nloop_\n_pdbx_entity_nonpoly.entity_id \n_pdbx_entity_nonpoly.name \n_pdbx_entity_nonpoly.comp_id \n2 \n;4-({3-chloro-4-[3-(trifluoromethyl)phenoxy]phenyl}amino)-N-[2-(methylsulfonyl)ethyl]-8,9-dihydro-7H-pyrimido[4,5-b]azepine-6-carboxamide\n;\nW32 \n3 'SULFATE ION' SO4 \n4 water HOH \n# \nloop_\n_pdbx_nonpoly_scheme.asym_id \n_pdbx_nonpoly_scheme.entity_id \n_pdbx_nonpoly_scheme.mon_id \n_pdbx_nonpoly_scheme.ndb_seq_num \n_pdbx_nonpoly_scheme.pdb_seq_num \n_pdbx_nonpoly_scheme.auth_seq_num \n_pdbx_nonpoly_scheme.pdb_mon_id \n_pdbx_nonpoly_scheme.auth_mon_id \n_pdbx_nonpoly_scheme.pdb_strand_id \n_pdbx_nonpoly_scheme.pdb_ins_code \nB 2 W32 1  1101 1101 W32 LIG A . \nC 3 SO4 1  1102 1102 SO4 SO4 A . \nD 4 HOH 1  2001 2001 HOH HOH A . \nD 4 HOH 2  2002 2002 HOH HOH A . \nD 4 HOH 3  2003 2003 HOH HOH A . \nD 4 HOH 4  2004 2004 HOH HOH A . \nD 4 HOH 5  2005 2005 HOH HOH A . \nD 4 HOH 6  2006 2006 HOH HOH A . \nD 4 HOH 7  2007 2007 HOH HOH A . \nD 4 HOH 8  2008 2008 HOH HOH A . \nD 4 HOH 9  2009 2009 HOH HOH A . \nD 4 HOH 10 2010 2010 HOH HOH A . \nD 4 HOH 11 2011 2011 HOH HOH A . \nD 4 HOH 12 2012 2012 HOH HOH A . \nD 4 HOH 13 2013 2013 HOH HOH A . \nD 4 HOH 14 2014 2014 HOH HOH A . \nD 4 HOH 15 2015 2015 HOH HOH A . \nD 4 HOH 16 2016 2016 HOH HOH A . \nD 4 HOH 17 2017 2017 HOH HOH A . \nD 4 HOH 18 2018 2018 HOH HOH A . \nD 4 HOH 19 2019 2019 HOH HOH A . \nD 4 HOH 20 2020 2020 HOH HOH A . \nD 4 HOH 21 2021 2021 HOH HOH A . \nD 4 HOH 22 2022 2022 HOH HOH A . \nD 4 HOH 23 2023 2023 HOH HOH A . \nD 4 HOH 24 2024 2024 HOH HOH A . \nD 4 HOH 25 2025 2025 HOH HOH A . \nD 4 HOH 26 2026 2026 HOH HOH A . \nD 4 HOH 27 2027 2027 HOH HOH A . \nD 4 HOH 28 2028 2028 HOH HOH A . \nD 4 HOH 29 2029 2029 HOH HOH A . \nD 4 HOH 30 2030 2030 HOH HOH A . \nD 4 HOH 31 2031 2031 HOH HOH A . \nD 4 HOH 32 2032 2032 HOH HOH A . \nD 4 HOH 33 2033 2033 HOH HOH A . \nD 4 HOH 34 2034 2034 HOH HOH A . \nD 4 HOH 35 2035 2035 HOH HOH A . \nD 4 HOH 36 2036 2036 HOH HOH A . \nD 4 HOH 37 2037 2037 HOH HOH A . \nD 4 HOH 38 2038 2038 HOH HOH A . \nD 4 HOH 39 2039 2039 HOH HOH A . \nD 4 HOH 40 2040 2040 HOH HOH A . \nD 4 HOH 41 2041 2041 HOH HOH A . \nD 4 HOH 42 2042 2042 HOH HOH A . \nD 4 HOH 43 2043 2043 HOH HOH A . \nD 4 HOH 44 2044 2044 HOH HOH A . \nD 4 HOH 45 2045 2045 HOH HOH A . \nD 4 HOH 46 2046 2046 HOH HOH A . \nD 4 HOH 47 2047 2047 HOH HOH A . \nD 4 HOH 48 2048 2048 HOH HOH A . \nD 4 HOH 49 2049 2049 HOH HOH A . \nD 4 HOH 50 2050 2050 HOH HOH A . \nD 4 HOH 51 2051 2051 HOH HOH A . \nD 4 HOH 52 2052 2052 HOH HOH A . \nD 4 HOH 53 2053 2053 HOH HOH A . \nD 4 HOH 54 2054 2054 HOH HOH A . \nD 4 HOH 55 2055 2055 HOH HOH A . \nD 4 HOH 56 2056 2056 HOH HOH A . \nD 4 HOH 57 2057 2057 HOH HOH A . \nD 4 HOH 58 2058 2058 HOH HOH A . \nD 4 HOH 59 2059 2059 HOH HOH A . \nD 4 HOH 60 2060 2060 HOH HOH A . \nD 4 HOH 61 2061 2061 HOH HOH A . \nD 4 HOH 62 2062 2062 HOH HOH A . \nD 4 HOH 63 2063 2063 HOH HOH A . \nD 4 HOH 64 2064 2064 HOH HOH A . \nD 4 HOH 65 2065 2065 HOH HOH A . \nD 4 HOH 66 2066 2066 HOH HOH A . \nD 4 HOH 67 2067 2067 HOH HOH A . \nD 4 HOH 68 2068 2068 HOH HOH A . \nD 4 HOH 69 2069 2069 HOH HOH A . \nD 4 HOH 70 2070 2070 HOH HOH A . \nD 4 HOH 71 2071 2071 HOH HOH A . \nD 4 HOH 72 2072 2072 HOH HOH A . \nD 4 HOH 73 2073 2073 HOH HOH A . \nD 4 HOH 74 2074 2074 HOH HOH A . \nD 4 HOH 75 2075 2075 HOH HOH A . \nD 4 HOH 76 2076 2076 HOH HOH A . \nD 4 HOH 77 2077 2077 HOH HOH A . \nD 4 HOH 78 2078 2078 HOH HOH A . \nD 4 HOH 79 2079 2079 HOH HOH A . \nD 4 HOH 80 2080 2080 HOH HOH A . \nD 4 HOH 81 2081 2081 HOH HOH A . \nD 4 HOH 82 2082 2082 HOH HOH A . \n# \n",
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