yangkky · May 14, 2022 05:06
diff --git a/alphafold2.ipynb b/alphafold2.ipynb
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  "metadata": {
    "accelerator": "GPU",
    "colab": {
      "name": "AlphaFold2.ipynb",
      "provenance": [],
      "collapsed_sections": [],
      "toc_visible": true,
      "include_colab_link": true
    },
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      "nbconvert_exporter": "python",
      "pygments_lexer": "ipython3",
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  "cells": [
    {
      "cell_type": "markdown",
      "metadata": {
        "id": "view-in-github",
        "colab_type": "text"
      },
      "source": [
        "<a href=\"https://colab.research.google.com/gist/yangkky/336db6c8021f9a2aab7699f1b34fce40/alphafold2.ipynb\" target=\"_parent\"><img src=\"https://colab.research.google.com/assets/colab-badge.svg\" alt=\"Open In Colab\"/></a>"
      ]
    },
    {
      "cell_type": "markdown",
      "metadata": {
        "id": "G4yBrceuFbf3"
      },
      "source": [
        "<img src=\"https://raw.githubusercontent.com/sokrypton/ColabFold/main/.github/ColabFold_Marv_Logo_Small.png\" height=\"200\" align=\"right\" style=\"height:240px\">\n",
        "\n",
        "##ColabFold: AlphaFold2 using MMseqs2\n",
        "\n",
        "Easy to use protein structure and complex prediction using [AlphaFold2](https://www.nature.com/articles/s41586-021-03819-2) and [Alphafold2-multimer](https://www.biorxiv.org/content/10.1101/2021.10.04.463034v1). Sequence alignments/templates are generated through [MMseqs2](mmseqs.com) and [HHsearch](https://github.com/soedinglab/hh-suite). For more details, see <a href=\"#Instructions\">bottom</a> of the notebook, checkout the [ColabFold GitHub](https://github.com/sokrypton/ColabFold) and read our manuscript. Old versions: [v1.0](https://colab.research.google.com/github/sokrypton/ColabFold/blob/v1.0-alpha/AlphaFold2.ipynb), [v1.1](https://colab.research.google.com/github/sokrypton/ColabFold/blob/v1.1-premultimer/AlphaFold2.ipynb), [v1.2](https://colab.research.google.com/github/sokrypton/ColabFold/blob/v1.2.0/AlphaFold2.ipynb), [v1.3](https://colab.research.google.com/github/sokrypton/ColabFold/blob/v1.3.0/AlphaFold2.ipynb)\n",
        "\n",
        "[Mirdita M, Schütze K, Moriwaki Y, Heo L, Ovchinnikov S, Steinegger M. ColabFold - Making protein folding accessible to all.\n",
        "*bioRxiv*, 2021](https://www.biorxiv.org/content/10.1101/2021.08.15.456425v2) "
      ]
    },
    {
      "cell_type": "code",
      "metadata": {
        "id": "kOblAo-xetgx",
        "cellView": "form"
      },
      "source": [
        "#@title Input protein sequence(s), then hit `Runtime` -> `Run all`\n",
        "from google.colab import files\n",
        "import os.path\n",
        "import re\n",
        "import hashlib\n",
        "import random\n",
        "\n",
        "def add_hash(x,y):\n",
        "  return x+\"_\"+hashlib.sha1(y.encode()).hexdigest()[:5]\n",
        "\n",
        "query_sequence = 'TNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCG:STIEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNITEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNPDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNVQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYAD' #@param {type:\"string\"}\n",
        "#@markdown  - Use `:` to specify inter-protein chainbreaks for **modeling complexes** (supports homo- and hetro-oligomers). For example **PI...SK:PI...SK** for a homodimer\n",
        "\n",
        "# remove whitespaces\n",
        "query_sequence = \"\".join(query_sequence.split())\n",
        "\n",
        "jobname = 'rbd' #@param {type:\"string\"}\n",
        "# remove whitespaces\n",
        "basejobname = \"\".join(jobname.split())\n",
        "basejobname = re.sub(r'\\W+', '', basejobname)\n",
        "jobname = add_hash(basejobname, query_sequence)\n",
        "while os.path.isfile(f\"{jobname}.csv\"):\n",
        "  jobname = add_hash(basejobname, ''.join(random.sample(query_sequence,len(query_sequence))))\n",
        "\n",
        "with open(f\"{jobname}.csv\", \"w\") as text_file:\n",
        "    text_file.write(f\"id,sequence\\n{jobname},{query_sequence}\")\n",
        "\n",
        "queries_path=f\"{jobname}.csv\"\n",
        "\n",
        "# number of models to use\n",
        "use_amber = False #@param {type:\"boolean\"}\n",
        "template_mode = \"none\" #@param [\"none\", \"pdb70\",\"custom\"]\n",
        "#@markdown - \"none\" = no template information is used, \"pdb70\" = detect templates in pdb70, \"custom\" - upload and search own templates (PDB or mmCIF format, see [notes below](#custom_templates))\n",
        "\n",
        "if template_mode == \"pdb70\":\n",
        "  use_templates = True\n",
        "  custom_template_path = None\n",
        "elif template_mode == \"custom\":\n",
        "  custom_template_path = f\"{jobname}_template\"\n",
        "  os.mkdir(custom_template_path)\n",
        "  uploaded = files.upload()\n",
        "  use_templates = True\n",
        "  for fn in uploaded.keys():\n",
        "    os.rename(fn, f\"{jobname}_template/{fn}\")\n",
        "else:\n",
        "  custom_template_path = None\n",
        "  use_templates = False\n"
      ],
      "execution_count": null,
      "outputs": []
    },
    {
      "cell_type": "code",
      "source": [
        "#@markdown ### MSA options (custom MSA upload, single sequence, pairing mode)\n",
        "msa_mode = \"MMseqs2 (UniRef+Environmental)\" #@param [\"MMseqs2 (UniRef+Environmental)\", \"MMseqs2 (UniRef only)\",\"single_sequence\",\"custom\"]\n",
        "pair_mode = \"unpaired+paired\" #@param [\"unpaired+paired\",\"paired\",\"unpaired\"] {type:\"string\"}\n",
        "#@markdown - \"unpaired+paired\" = pair sequences from same species + unpaired MSA, \"unpaired\" = seperate MSA for each chain, \"paired\" - only use paired sequences.\n",
        "\n",
        "# decide which a3m to use\n",
        "if msa_mode.startswith(\"MMseqs2\"):\n",
        "  a3m_file = f\"{jobname}.a3m\"\n",
        "elif msa_mode == \"custom\":\n",
        "  a3m_file = f\"{jobname}.custom.a3m\"\n",
        "  if not os.path.isfile(a3m_file):\n",
        "    custom_msa_dict = files.upload()\n",
        "    custom_msa = list(custom_msa_dict.keys())[0]\n",
        "    header = 0\n",
        "    import fileinput\n",
        "    for line in fileinput.FileInput(custom_msa,inplace=1):\n",
        "      if line.startswith(\">\"):\n",
        "         header = header + 1\n",
        "      if not line.rstrip():\n",
        "        continue\n",
        "      if line.startswith(\">\") == False and header == 1:\n",
        "         query_sequence = line.rstrip()\n",
        "      print(line, end='')\n",
        "\n",
        "    os.rename(custom_msa, a3m_file)\n",
        "    queries_path=a3m_file\n",
        "    print(f\"moving {custom_msa} to {a3m_file}\")\n",
        "else:\n",
        "  a3m_file = f\"{jobname}.single_sequence.a3m\"\n",
        "  with open(a3m_file, \"w\") as text_file:\n",
        "    text_file.write(\">1\\n%s\" % query_sequence)"
      ],
      "metadata": {
        "cellView": "form",
        "id": "C2_sh2uAonJH"
      },
      "execution_count": null,
      "outputs": []
    },
    {
      "cell_type": "code",
      "source": [
        "#@markdown ### Advanced settings\n",
        "model_type = \"auto\" #@param [\"auto\", \"AlphaFold2-ptm\", \"AlphaFold2-multimer-v1\", \"AlphaFold2-multimer-v2\"]\n",
        "num_recycles = 3 #@param [1,3,6,12,24,48] {type:\"raw\"}\n",
        "#@markdown  - \"auto\" = protein structure prediction using \"AlphaFold2-ptm\" and complex prediction \"AlphaFold-multimer-v2\". For complexes \"AlphaFold-multimer-v[1,2]\" and \"AlphaFold-ptm\" can be used.\n",
        "save_to_google_drive = False #@param {type:\"boolean\"}\n",
        "#@markdown -  if the save_to_google_drive option was selected, the result zip will be uploaded to your Google Drive\n",
        "\n",
        "#@markdown Don't forget to hit `Runtime` -> `Run all` after updating the form.\n",
        "\n",
        "if save_to_google_drive:\n",
        "  from pydrive.drive import GoogleDrive\n",
        "  from pydrive.auth import GoogleAuth\n",
        "  from google.colab import auth\n",
        "  from oauth2client.client import GoogleCredentials\n",
        "  auth.authenticate_user()\n",
        "  gauth = GoogleAuth()\n",
        "  gauth.credentials = GoogleCredentials.get_application_default()\n",
        "  drive = GoogleDrive(gauth)\n",
        "  print(\"You are logged into Google Drive and are good to go!\")"
      ],
      "metadata": {
        "cellView": "form",
        "id": "ADDuaolKmjGW"
      },
      "execution_count": null,
      "outputs": []
    },
    {
      "cell_type": "code",
      "metadata": {
        "id": "iccGdbe_Pmt9",
        "pycharm": {
          "name": "#%%\n"
        },
        "cellView": "form",
        "colab": {
          "base_uri": "https://localhost:8080/"
        },
        "outputId": "56ac0d7e-ed8d-4371-9a21-e08f0247f484"
      },
      "source": [
        "#@title Install dependencies\n",
        "%%bash -s $use_amber $use_templates\n",
        "\n",
        "set -e\n",
        "\n",
        "USE_AMBER=$1\n",
        "USE_TEMPLATES=$2\n",
        "\n",
        "if [ ! -f COLABFOLD_READY ]; then\n",
        "  # install dependencies\n",
        "  # We have to use \"--no-warn-conflicts\" because colab already has a lot preinstalled with requirements different to ours\n",
        "  pip install --no-warn-conflicts -q \"colabfold[alphafold] @ git+https://github.com/sokrypton/ColabFold\"\n",
        "  pip install --upgrade \"jax[cuda]<0.3.0\" -f https://storage.googleapis.com/jax-releases/jax_releases.html\n",
        "  touch COLABFOLD_READY\n",
        "fi\n",
        "\n",
        "# setup conda\n",
        "if [ ${USE_AMBER} == \"True\" ] || [ ${USE_TEMPLATES} == \"True\" ]; then\n",
        "  if [ ! -f CONDA_READY ]; then\n",
        "    wget -qnc https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh\n",
        "    bash Miniconda3-latest-Linux-x86_64.sh -bfp /usr/local 2>&1 1>/dev/null\n",
        "    rm Miniconda3-latest-Linux-x86_64.sh\n",
        "    touch CONDA_READY\n",
        "  fi\n",
        "fi\n",
        "# setup template search\n",
        "if [ ${USE_TEMPLATES} == \"True\" ] && [ ! -f HH_READY ]; then\n",
        "  conda install -y -q -c conda-forge -c bioconda kalign2=2.04 hhsuite=3.3.0 python=3.7 2>&1 1>/dev/null\n",
        "  touch HH_READY\n",
        "fi\n",
        "# setup openmm for amber refinement\n",
        "if [ ${USE_AMBER} == \"True\" ] && [ ! -f AMBER_READY ]; then\n",
        "  conda install -y -q -c conda-forge openmm=7.5.1 python=3.7 pdbfixer 2>&1 1>/dev/null\n",
        "  touch AMBER_READY\n",
        "fi"
      ],
      "execution_count": null,
      "outputs": [
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "Looking in links: https://storage.googleapis.com/jax-releases/jax_releases.html\n",
            "Requirement already satisfied: jax[cuda]<0.3.0 in /usr/local/lib/python3.7/dist-packages (0.2.28)\n",
            "Requirement already satisfied: opt-einsum in /usr/local/lib/python3.7/dist-packages (from jax[cuda]<0.3.0) (3.3.0)\n",
            "Requirement already satisfied: scipy>=1.2.1 in /usr/local/lib/python3.7/dist-packages (from jax[cuda]<0.3.0) (1.4.1)\n",
            "Requirement already satisfied: numpy>=1.19 in /usr/local/lib/python3.7/dist-packages (from jax[cuda]<0.3.0) (1.21.6)\n",
            "Requirement already satisfied: typing-extensions in /usr/local/lib/python3.7/dist-packages (from jax[cuda]<0.3.0) (4.2.0)\n",
            "Requirement already satisfied: absl-py in /usr/local/lib/python3.7/dist-packages (from jax[cuda]<0.3.0) (0.13.0)\n",
            "Collecting jaxlib==0.1.76+cuda11.cudnn82\n",
            "  Downloading https://storage.googleapis.com/jax-releases/cuda11/jaxlib-0.1.76%2Bcuda11.cudnn82-cp37-none-manylinux2010_x86_64.whl (153.1 MB)\n",
            "Requirement already satisfied: flatbuffers<3.0,>=1.12 in /usr/local/lib/python3.7/dist-packages (from jaxlib==0.1.76+cuda11.cudnn82->jax[cuda]<0.3.0) (2.0)\n",
            "Requirement already satisfied: six in /usr/local/lib/python3.7/dist-packages (from absl-py->jax[cuda]<0.3.0) (1.15.0)\n",
            "Installing collected packages: jaxlib\n",
            "  Attempting uninstall: jaxlib\n",
            "    Found existing installation: jaxlib 0.3.7+cuda11.cudnn805\n",
            "    Uninstalling jaxlib-0.3.7+cuda11.cudnn805:\n",
            "      Successfully uninstalled jaxlib-0.3.7+cuda11.cudnn805\n",
            "Successfully installed jaxlib-0.1.76+cuda11.cudnn82\n"
          ]
        }
      ]
    },
    {
      "cell_type": "code",
      "metadata": {
        "id": "_sztQyz29DIC",
        "cellView": "form",
        "colab": {
          "base_uri": "https://localhost:8080/",
          "height": 1000
        },
        "outputId": "76bf7b71-2b8e-4a21-ce3d-0c7565d9d61c"
      },
      "source": [
        "#@title Run Prediction\n",
        "\n",
        "import sys\n",
        "\n",
        "from colabfold.download import download_alphafold_params, default_data_dir\n",
        "from colabfold.utils import setup_logging\n",
        "from colabfold.batch import get_queries, run, set_model_type\n",
        "K80_chk = !nvidia-smi | grep \"Tesla K80\" | wc -l\n",
        "if \"1\" in K80_chk:\n",
        "  print(\"WARNING: found GPU Tesla K80: limited to total length < 1000\")\n",
        "  if \"TF_FORCE_UNIFIED_MEMORY\" in os.environ:\n",
        "    del os.environ[\"TF_FORCE_UNIFIED_MEMORY\"]\n",
        "  if \"XLA_PYTHON_CLIENT_MEM_FRACTION\" in os.environ:\n",
        "    del os.environ[\"XLA_PYTHON_CLIENT_MEM_FRACTION\"]\n",
        "\n",
        "from colabfold.colabfold import plot_protein\n",
        "from pathlib import Path\n",
        "import matplotlib.pyplot as plt\n",
        "\n",
        "\n",
        "# For some reason we need that to get pdbfixer to import\n",
        "if use_amber and '/usr/local/lib/python3.7/site-packages/' not in sys.path:\n",
        "    sys.path.insert(0, '/usr/local/lib/python3.7/site-packages/')\n",
        "\n",
        "def prediction_callback(unrelaxed_protein, length, prediction_result, input_features, type):\n",
        "  fig = plot_protein(unrelaxed_protein, Ls=length, dpi=100)\n",
        "  plt.show()\n",
        "  plt.close()\n",
        "\n",
        "result_dir=\".\"\n",
        "setup_logging(Path(\".\").joinpath(\"log.txt\"))\n",
        "queries, is_complex = get_queries(queries_path)\n",
        "model_type = set_model_type(is_complex, model_type)\n",
        "download_alphafold_params(model_type, Path(\".\"))\n",
        "run(\n",
        "    queries=queries,\n",
        "    result_dir=result_dir,\n",
        "    use_templates=use_templates,\n",
        "    custom_template_path=custom_template_path,\n",
        "    use_amber=use_amber,\n",
        "    msa_mode=msa_mode,    \n",
        "    model_type=model_type,\n",
        "    num_models=5,\n",
        "    num_recycles=num_recycles,\n",
        "    model_order=[1, 2, 3, 4, 5],\n",
        "    is_complex=is_complex,\n",
        "    data_dir=Path(\".\"),\n",
        "    keep_existing_results=False,\n",
        "    recompile_padding=1.0,\n",
        "    rank_by=\"auto\",\n",
        "    pair_mode=pair_mode,\n",
        "    stop_at_score=float(100),\n",
        "    prediction_callback=prediction_callback,\n",
        ")"
      ],
      "execution_count": null,
      "outputs": [
        {
          "output_type": "stream",
          "name": "stderr",
          "text": [
            "Downloading alphafold2 weights to .: 100%|██████████| 3.82G/3.82G [00:31<00:00, 129MB/s]\n"
          ]
        },
        {
          "output_type": "stream",
          "name": "stdout",
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        {
          "output_type": "stream",
          "name": "stderr",
          "text": [
            "RUNNING:   3%|▎         | 8/300 [elapsed: 00:08 remaining: 05:13]"
          ]
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-13 23:12:13,567 Sleeping for 10s. Reason: RUNNING\n"
          ]
        },
        {
          "output_type": "stream",
          "name": "stderr",
          "text": [
            "COMPLETE: 100%|██████████| 300/300 [elapsed: 00:19 remaining: 00:00]\n"
          ]
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-13 23:12:25,652 Running model_1\n",
            "2022-05-13 23:26:47,731 model_1 took 862.1s (3 recycles) with pLDDT 81.5 and ptmscore 0.738\n"
          ]
        },
        {
          "output_type": "display_data",
          "data": {
            "text/plain": [
              "<Figure size 600x300 with 2 Axes>"
            ],
            "image/png": 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\n"
          },
          "metadata": {
            "needs_background": "light"
          }
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-13 23:27:52,309 Running model_2\n",
            "2022-05-13 23:39:16,243 model_2 took 683.9s (3 recycles) with pLDDT 82.1 and ptmscore 0.746\n"
          ]
        },
        {
          "output_type": "display_data",
          "data": {
            "text/plain": [
              "<Figure size 600x300 with 2 Axes>"
            ],
            "image/png": 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\n"
          },
          "metadata": {
            "needs_background": "light"
          }
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-13 23:40:19,755 Running model_3\n",
            "2022-05-13 23:51:43,524 model_3 took 683.8s (3 recycles) with pLDDT 83.9 and ptmscore 0.736\n"
          ]
        },
        {
          "output_type": "display_data",
          "data": {
            "text/plain": [
              "<Figure size 600x300 with 2 Axes>"
            ],
            "image/png": 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\n"
          },
          "metadata": {
            "needs_background": "light"
          }
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-13 23:52:47,270 Running model_4\n",
            "2022-05-14 00:04:11,407 model_4 took 684.1s (3 recycles) with pLDDT 83.1 and ptmscore 0.745\n"
          ]
        },
        {
          "output_type": "display_data",
          "data": {
            "text/plain": [
              "<Figure size 600x300 with 2 Axes>"
            ],
            "image/png": 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\n"
          },
          "metadata": {
            "needs_background": "light"
          }
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-14 00:05:14,739 Running model_5\n",
            "2022-05-14 00:16:38,210 model_5 took 683.5s (3 recycles) with pLDDT 82.3 and ptmscore 0.734\n"
          ]
        },
        {
          "output_type": "display_data",
          "data": {
            "text/plain": [
              "<Figure size 600x300 with 2 Axes>"
            ],
            "image/png": 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\n"
          },
          "metadata": {
            "needs_background": "light"
          }
        },
        {
          "output_type": "stream",
          "name": "stdout",
          "text": [
            "2022-05-14 00:17:41,379 reranking models by multimer\n",
            "2022-05-14 00:17:47,223 Done\n"
          ]
        }
      ]
    },
    {
      "cell_type": "code",
      "metadata": {
        "id": "KK7X9T44pWb7",
        "cellView": "form",
        "colab": {
          "base_uri": "https://localhost:8080/",
          "height": 497
        },
        "outputId": "085c662c-fafe-4560-9cb6-b31db084359c"
      },
      "source": [
        "#@title Display 3D structure {run: \"auto\"}\n",
        "import py3Dmol\n",
        "import glob\n",
        "import matplotlib.pyplot as plt\n",
        "rank_num = 1 #@param [\"1\", \"2\", \"3\", \"4\", \"5\"] {type:\"raw\"}\n",
        "color = \"lDDT\" #@param [\"chain\", \"lDDT\", \"rainbow\"]\n",
        "show_sidechains = False #@param {type:\"boolean\"}\n",
        "show_mainchains = False #@param {type:\"boolean\"}\n",
        "\n",
        "jobname_prefix = \".custom\" if msa_mode == \"custom\" else \"\"\n",
        "if use_amber:\n",
        "  pdb_filename = f\"{jobname}{jobname_prefix}_relaxed_rank_{rank_num}_model_*.pdb\"\n",
        "else:\n",
        "  pdb_filename = f\"{jobname}{jobname_prefix}_unrelaxed_rank_{rank_num}_model_*.pdb\"\n",
        "\n",
        "pdb_file = glob.glob(pdb_filename)\n",
        "\n",
        "def show_pdb(rank_num=1, show_sidechains=False, show_mainchains=False, color=\"lDDT\"):\n",
        "  model_name = f\"rank_{rank_num}\"\n",
        "  view = py3Dmol.view(js='https://3dmol.org/build/3Dmol.js',)\n",
        "  view.addModel(open(pdb_file[0],'r').read(),'pdb')\n",
        "\n",
        "  if color == \"lDDT\":\n",
        "    view.setStyle({'cartoon': {'colorscheme': {'prop':'b','gradient': 'roygb','min':50,'max':90}}})\n",
        "  elif color == \"rainbow\":\n",
        "    view.setStyle({'cartoon': {'color':'spectrum'}})\n",
        "  elif color == \"chain\":\n",
        "    chains = len(queries[0][1]) + 1 if is_complex else 1\n",
        "    for n,chain,color in zip(range(chains),list(\"ABCDEFGH\"),\n",
        "                     [\"lime\",\"cyan\",\"magenta\",\"yellow\",\"salmon\",\"white\",\"blue\",\"orange\"]):\n",
        "      view.setStyle({'chain':chain},{'cartoon': {'color':color}})\n",
        "  if show_sidechains:\n",
        "    BB = ['C','O','N']\n",
        "    view.addStyle({'and':[{'resn':[\"GLY\",\"PRO\"],'invert':True},{'atom':BB,'invert':True}]},\n",
        "                        {'stick':{'colorscheme':f\"WhiteCarbon\",'radius':0.3}})\n",
        "    view.addStyle({'and':[{'resn':\"GLY\"},{'atom':'CA'}]},\n",
        "                        {'sphere':{'colorscheme':f\"WhiteCarbon\",'radius':0.3}})\n",
        "    view.addStyle({'and':[{'resn':\"PRO\"},{'atom':['C','O'],'invert':True}]},\n",
        "                        {'stick':{'colorscheme':f\"WhiteCarbon\",'radius':0.3}})  \n",
        "  if show_mainchains:\n",
        "    BB = ['C','O','N','CA']\n",
        "    view.addStyle({'atom':BB},{'stick':{'colorscheme':f\"WhiteCarbon\",'radius':0.3}})\n",
        "\n",
        "  view.zoomTo()\n",
        "  return view\n",
        "\n",
        "\n",
        "show_pdb(rank_num,show_sidechains, show_mainchains, color).show()\n",
        "\n",
        "\n"
      ],
      "execution_count": null,
      "outputs": [
        {
          "output_type": "display_data",
          "data": {
            "application/3dmoljs_load.v0": "<div id=\"3dmolviewer_16524874672751665\"  style=\"position: relative; width: 640px; height: 480px\">\n        <p id=\"3dmolwarning_16524874672751665\" style=\"background-color:#ffcccc;color:black\">You appear to be running in JupyterLab (or JavaScript failed to load for some other reason).  You need to install the 3dmol extension: <br>\n        <tt>jupyter labextension install jupyterlab_3dmol</tt></p>\n        </div>\n<script>\n\nvar loadScriptAsync = function(uri){\n  return new Promise((resolve, reject) => {\n    var tag = document.createElement('script');\n    tag.src = uri;\n    tag.async = true;\n    tag.onload = () => {\n      resolve();\n    };\n  var firstScriptTag = document.getElementsByTagName('script')[0];\n  firstScriptTag.parentNode.insertBefore(tag, firstScriptTag);\n});\n};\n\nif(typeof $3Dmolpromise === 'undefined') {\n$3Dmolpromise = null;\n  $3Dmolpromise = loadScriptAsync('https://3dmol.org/build/3Dmol.js');\n}\n\nvar viewer_16524874672751665 = null;\nvar warn = document.getElementById(\"3dmolwarning_16524874672751665\");\nif(warn) {\n    warn.parentNode.removeChild(warn);\n}\n$3Dmolpromise.then(function() {\nviewer_16524874672751665 = $3Dmol.createViewer($(\"#3dmolviewer_16524874672751665\"),{backgroundColor:\"white\"});\nviewer_16524874672751665.zoomTo();\n\tviewer_16524874672751665.addModel(\"MODEL     1                                                                     \\nATOM      1  N   THR B   1      12.785 -33.488 -44.066  1.00 42.26           N  \\nATOM      2  CA  THR B   1      12.372 -34.419 -43.022  1.00 42.26           C  \\nATOM      3  C   THR B   1      11.844 -33.666 -41.804  1.00 42.26           C  \\nATOM      4  CB  THR B   1      13.534 -35.335 -42.598  1.00 42.26           C  \\nATOM      5  O   THR B   1      12.496 -32.746 -41.306  1.00 42.26           O  \\nATOM      6  CG2 THR B   1      13.558 -36.614 -43.429  1.00 42.26           C  \\nATOM      7  OG1 THR B   1      14.774 -34.639 -42.778  1.00 42.26           O  \\nATOM      8  N   ASN B   2      10.552 -33.745 -41.612  1.00 62.05           N  \\nATOM      9  CA  ASN B   2       9.881 -33.076 -40.503  1.00 62.05           C  \\nATOM     10  C   ASN B   2      10.205 -33.741 -39.168  1.00 62.05           C  \\nATOM     11  CB  ASN B   2       8.368 -33.049 -40.729  1.00 62.05           C  \\nATOM     12  O   ASN B   2       9.742 -34.849 -38.893  1.00 62.05           O  \\nATOM     13  CG  ASN B   2       7.715 -31.802 -40.164  1.00 62.05           C  \\nATOM     14  ND2 ASN B   2       6.392 -31.735 -40.249  1.00 62.05           N  \\nATOM     15  OD1 ASN B   2       8.395 -30.907 -39.656  1.00 62.05           O  \\nATOM     16  N   LEU B   3      11.212 -33.163 -38.382  1.00 72.91           N  \\nATOM     17  CA  LEU B   3      11.600 -33.697 -37.081  1.00 72.91           C  \\nATOM     18  C   LEU B   3      10.504 -33.460 -36.047  1.00 72.91           C  \\nATOM     19  CB  LEU B   3      12.910 -33.060 -36.608  1.00 72.91           C  \\nATOM     20  O   LEU B   3       9.865 -32.406 -36.044  1.00 72.91           O  \\nATOM     21  CG  LEU B   3      14.199 -33.676 -37.154  1.00 72.91           C  \\nATOM     22  CD1 LEU B   3      15.323 -32.646 -37.147  1.00 72.91           C  \\nATOM     23  CD2 LEU B   3      14.589 -34.907 -36.342  1.00 72.91           C  \\nATOM     24  N   CYS B   4      10.241 -34.487 -35.180  1.00 77.40           N  \\nATOM     25  CA  CYS B   4       9.247 -34.363 -34.120  1.00 77.40           C  \\nATOM     26  C   CYS B   4       9.632 -33.263 -33.138  1.00 77.40           C  \\nATOM     27  CB  CYS B   4       9.087 -35.689 -33.377  1.00 77.40           C  \\nATOM     28  O   CYS B   4      10.807 -33.110 -32.799  1.00 77.40           O  \\nATOM     29  SG  CYS B   4       8.255 -36.968 -34.342  1.00 77.40           S  \\nATOM     30  N   PRO B   5       8.753 -32.409 -32.626  1.00 77.83           N  \\nATOM     31  CA  PRO B   5       9.031 -31.249 -31.776  1.00 77.83           C  \\nATOM     32  C   PRO B   5       9.141 -31.615 -30.297  1.00 77.83           C  \\nATOM     33  CB  PRO B   5       7.829 -30.334 -32.024  1.00 77.83           C  \\nATOM     34  O   PRO B   5       8.498 -30.986 -29.452  1.00 77.83           O  \\nATOM     35  CG  PRO B   5       6.698 -31.264 -32.326  1.00 77.83           C  \\nATOM     36  CD  PRO B   5       7.255 -32.499 -32.973  1.00 77.83           C  \\nATOM     37  N   PHE B   6      10.000 -32.501 -30.000  1.00 77.56           N  \\nATOM     38  CA  PHE B   6      10.167 -32.891 -28.605  1.00 77.56           C  \\nATOM     39  C   PHE B   6      10.729 -31.737 -27.784  1.00 77.56           C  \\nATOM     40  CB  PHE B   6      11.087 -34.111 -28.493  1.00 77.56           C  \\nATOM     41  O   PHE B   6      10.470 -31.638 -26.583  1.00 77.56           O  \\nATOM     42  CG  PHE B   6      10.468 -35.386 -28.999  1.00 77.56           C  \\nATOM     43  CD1 PHE B   6       9.406 -35.976 -28.323  1.00 77.56           C  \\nATOM     44  CD2 PHE B   6      10.948 -35.995 -30.151  1.00 77.56           C  \\nATOM     45  CE1 PHE B   6       8.831 -37.156 -28.790  1.00 77.56           C  \\nATOM     46  CE2 PHE B   6      10.379 -37.175 -30.623  1.00 77.56           C  \\nATOM     47  CZ  PHE B   6       9.321 -37.754 -29.940  1.00 77.56           C  \\nATOM     48  N   GLY B   7      11.414 -30.825 -28.418  1.00 76.07           N  \\nATOM     49  CA  GLY B   7      11.972 -29.647 -27.773  1.00 76.07           C  \\nATOM     50  C   GLY B   7      10.915 -28.732 -27.186  1.00 76.07           C  \\nATOM     51  O   GLY B   7      11.126 -28.127 -26.132  1.00 76.07           O  \\nATOM     52  N   GLU B   8       9.723 -28.632 -27.830  1.00 75.69           N  \\nATOM     53  CA  GLU B   8       8.620 -27.797 -27.363  1.00 75.69           C  \\nATOM     54  C   GLU B   8       8.079 -28.295 -26.026  1.00 75.69           C  \\nATOM     55  CB  GLU B   8       7.498 -27.758 -28.404  1.00 75.69           C  \\nATOM     56  O   GLU B   8       7.603 -27.503 -25.210  1.00 75.69           O  \\nATOM     57  CG  GLU B   8       7.831 -26.930 -29.636  1.00 75.69           C  \\nATOM     58  CD  GLU B   8       6.709 -26.904 -30.662  1.00 75.69           C  \\nATOM     59  OE1 GLU B   8       6.940 -26.444 -31.803  1.00 75.69           O  \\nATOM     60  OE2 GLU B   8       5.589 -27.346 -30.322  1.00 75.69           O  \\nATOM     61  N   VAL B   9       8.159 -29.577 -25.811  1.00 79.83           N  \\nATOM     62  CA  VAL B   9       7.645 -30.173 -24.582  1.00 79.83           C  \\nATOM     63  C   VAL B   9       8.692 -30.062 -23.477  1.00 79.83           C  \\nATOM     64  CB  VAL B   9       7.245 -31.651 -24.792  1.00 79.83           C  \\nATOM     65  O   VAL B   9       8.391 -29.607 -22.371  1.00 79.83           O  \\nATOM     66  CG1 VAL B   9       6.749 -32.266 -23.485  1.00 79.83           C  \\nATOM     67  CG2 VAL B   9       6.178 -31.765 -25.879  1.00 79.83           C  \\nATOM     68  N   PHE B  10       9.935 -30.314 -23.762  1.00 78.15           N  \\nATOM     69  CA  PHE B  10      10.992 -30.405 -22.762  1.00 78.15           C  \\nATOM     70  C   PHE B  10      11.491 -29.018 -22.373  1.00 78.15           C  \\nATOM     71  CB  PHE B  10      12.156 -31.254 -23.284  1.00 78.15           C  \\nATOM     72  O   PHE B  10      12.011 -28.826 -21.272  1.00 78.15           O  \\nATOM     73  CG  PHE B  10      11.870 -32.731 -23.298  1.00 78.15           C  \\nATOM     74  CD1 PHE B  10      12.020 -33.494 -22.146  1.00 78.15           C  \\nATOM     75  CD2 PHE B  10      11.452 -33.358 -24.465  1.00 78.15           C  \\nATOM     76  CE1 PHE B  10      11.757 -34.862 -22.157  1.00 78.15           C  \\nATOM     77  CE2 PHE B  10      11.187 -34.725 -24.483  1.00 78.15           C  \\nATOM     78  CZ  PHE B  10      11.341 -35.475 -23.328  1.00 78.15           C  \\nATOM     79  N   ASN B  11      11.252 -28.043 -23.186  1.00 71.59           N  \\nATOM     80  CA  ASN B  11      11.773 -26.701 -22.945  1.00 71.59           C  \\nATOM     81  C   ASN B  11      10.651 -25.707 -22.661  1.00 71.59           C  \\nATOM     82  CB  ASN B  11      12.612 -26.229 -24.135  1.00 71.59           C  \\nATOM     83  O   ASN B  11      10.859 -24.494 -22.728  1.00 71.59           O  \\nATOM     84  CG  ASN B  11      13.881 -27.039 -24.312  1.00 71.59           C  \\nATOM     85  ND2 ASN B  11      14.279 -27.252 -25.561  1.00 71.59           N  \\nATOM     86  OD1 ASN B  11      14.499 -27.470 -23.335  1.00 71.59           O  \\nATOM     87  N   ALA B  12       9.480 -26.290 -22.433  1.00 71.21           N  \\nATOM     88  CA  ALA B  12       8.356 -25.417 -22.104  1.00 71.21           C  \\nATOM     89  C   ALA B  12       8.659 -24.574 -20.869  1.00 71.21           C  \\nATOM     90  CB  ALA B  12       7.089 -26.242 -21.883  1.00 71.21           C  \\nATOM     91  O   ALA B  12       9.329 -25.037 -19.942  1.00 71.21           O  \\nATOM     92  N   THR B  13       8.318 -23.333 -20.929  1.00 60.99           N  \\nATOM     93  CA  THR B  13       8.581 -22.405 -19.835  1.00 60.99           C  \\nATOM     94  C   THR B  13       7.598 -22.628 -18.689  1.00 60.99           C  \\nATOM     95  CB  THR B  13       8.496 -20.943 -20.310  1.00 60.99           C  \\nATOM     96  O   THR B  13       7.897 -22.308 -17.536  1.00 60.99           O  \\nATOM     97  CG2 THR B  13       9.814 -20.487 -20.927  1.00 60.99           C  \\nATOM     98  OG1 THR B  13       7.457 -20.824 -21.289  1.00 60.99           O  \\nATOM     99  N   ARG B  14       6.457 -23.187 -19.109  1.00 60.50           N  \\nATOM    100  CA  ARG B  14       5.433 -23.451 -18.103  1.00 60.50           C  \\nATOM    101  C   ARG B  14       5.079 -24.933 -18.058  1.00 60.50           C  \\nATOM    102  CB  ARG B  14       4.178 -22.621 -18.383  1.00 60.50           C  \\nATOM    103  O   ARG B  14       4.810 -25.545 -19.094  1.00 60.50           O  \\nATOM    104  CG  ARG B  14       4.311 -21.155 -18.001  1.00 60.50           C  \\nATOM    105  CD  ARG B  14       3.024 -20.385 -18.265  1.00 60.50           C  \\nATOM    106  NE  ARG B  14       3.167 -18.969 -17.937  1.00 60.50           N  \\nATOM    107  NH1 ARG B  14       0.968 -18.429 -18.396  1.00 60.50           N  \\nATOM    108  NH2 ARG B  14       2.427 -16.810 -17.684  1.00 60.50           N  \\nATOM    109  CZ  ARG B  14       2.187 -18.073 -18.007  1.00 60.50           C  \\nATOM    110  N   PHE B  15       5.249 -25.509 -16.885  1.00 68.79           N  \\nATOM    111  CA  PHE B  15       4.777 -26.867 -16.641  1.00 68.79           C  \\nATOM    112  C   PHE B  15       3.559 -26.861 -15.725  1.00 68.79           C  \\nATOM    113  CB  PHE B  15       5.890 -27.723 -16.029  1.00 68.79           C  \\nATOM    114  O   PHE B  15       3.529 -26.137 -14.728  1.00 68.79           O  \\nATOM    115  CG  PHE B  15       6.657 -28.534 -17.039  1.00 68.79           C  \\nATOM    116  CD1 PHE B  15       6.714 -29.919 -16.941  1.00 68.79           C  \\nATOM    117  CD2 PHE B  15       7.321 -27.910 -18.087  1.00 68.79           C  \\nATOM    118  CE1 PHE B  15       7.424 -30.671 -17.874  1.00 68.79           C  \\nATOM    119  CE2 PHE B  15       8.032 -28.655 -19.024  1.00 68.79           C  \\nATOM    120  CZ  PHE B  15       8.083 -30.036 -18.914  1.00 68.79           C  \\nATOM    121  N   ALA B  16       2.515 -27.451 -16.162  1.00 67.46           N  \\nATOM    122  CA  ALA B  16       1.300 -27.555 -15.358  1.00 67.46           C  \\nATOM    123  C   ALA B  16       1.536 -28.411 -14.117  1.00 67.46           C  \\nATOM    124  CB  ALA B  16       0.159 -28.133 -16.191  1.00 67.46           C  \\nATOM    125  O   ALA B  16       2.471 -29.214 -14.077  1.00 67.46           O  \\nATOM    126  N   SER B  17       0.801 -28.142 -13.078  1.00 67.59           N  \\nATOM    127  CA  SER B  17       0.754 -29.099 -11.978  1.00 67.59           C  \\nATOM    128  C   SER B  17       0.249 -30.459 -12.449  1.00 67.59           C  \\nATOM    129  CB  SER B  17      -0.139 -28.578 -10.851  1.00 67.59           C  \\nATOM    130  O   SER B  17      -0.443 -30.552 -13.465  1.00 67.59           O  \\nATOM    131  OG  SER B  17      -1.284 -29.398 -10.695  1.00 67.59           O  \\nATOM    132  N   VAL B  18       0.629 -31.475 -11.714  1.00 69.83           N  \\nATOM    133  CA  VAL B  18       0.235 -32.830 -12.085  1.00 69.83           C  \\nATOM    134  C   VAL B  18      -1.286 -32.918 -12.181  1.00 69.83           C  \\nATOM    135  CB  VAL B  18       0.767 -33.872 -11.077  1.00 69.83           C  \\nATOM    136  O   VAL B  18      -1.820 -33.727 -12.945  1.00 69.83           O  \\nATOM    137  CG1 VAL B  18       0.094 -33.700  -9.716  1.00 69.83           C  \\nATOM    138  CG2 VAL B  18       0.550 -35.288 -11.608  1.00 69.83           C  \\nATOM    139  N   TYR B  19      -1.989 -32.001 -11.537  1.00 64.69           N  \\nATOM    140  CA  TYR B  19      -3.447 -32.026 -11.539  1.00 64.69           C  \\nATOM    141  C   TYR B  19      -4.001 -31.455 -12.839  1.00 64.69           C  \\nATOM    142  CB  TYR B  19      -4.000 -31.240 -10.346  1.00 64.69           C  \\nATOM    143  O   TYR B  19      -5.185 -31.618 -13.142  1.00 64.69           O  \\nATOM    144  CG  TYR B  19      -3.410 -31.654  -9.020  1.00 64.69           C  \\nATOM    145  CD1 TYR B  19      -3.760 -32.866  -8.429  1.00 64.69           C  \\nATOM    146  CD2 TYR B  19      -2.504 -30.836  -8.356  1.00 64.69           C  \\nATOM    147  CE1 TYR B  19      -3.221 -33.251  -7.206  1.00 64.69           C  \\nATOM    148  CE2 TYR B  19      -1.958 -31.211  -7.133  1.00 64.69           C  \\nATOM    149  OH  TYR B  19      -1.785 -32.795  -5.356  1.00 64.69           O  \\nATOM    150  CZ  TYR B  19      -2.322 -32.419  -6.567  1.00 64.69           C  \\nATOM    151  N   ALA B  20      -3.169 -30.825 -13.569  1.00 64.84           N  \\nATOM    152  CA  ALA B  20      -3.527 -30.223 -14.850  1.00 64.84           C  \\nATOM    153  C   ALA B  20      -2.510 -30.584 -15.929  1.00 64.84           C  \\nATOM    154  CB  ALA B  20      -3.636 -28.706 -14.713  1.00 64.84           C  \\nATOM    155  O   ALA B  20      -2.178 -29.756 -16.781  1.00 64.84           O  \\nATOM    156  N   TRP B  21      -1.986 -31.779 -15.750  1.00 74.59           N  \\nATOM    157  CA  TRP B  21      -0.944 -32.192 -16.684  1.00 74.59           C  \\nATOM    158  C   TRP B  21      -1.356 -31.898 -18.123  1.00 74.59           C  \\nATOM    159  CB  TRP B  21      -0.638 -33.684 -16.523  1.00 74.59           C  \\nATOM    160  O   TRP B  21      -2.547 -31.873 -18.442  1.00 74.59           O  \\nATOM    161  CG  TRP B  21      -1.826 -34.575 -16.725  1.00 74.59           C  \\nATOM    162  CD1 TRP B  21      -2.674 -35.049 -15.762  1.00 74.59           C  \\nATOM    163  CD2 TRP B  21      -2.295 -35.104 -17.969  1.00 74.59           C  \\nATOM    164  CE2 TRP B  21      -3.433 -35.891 -17.685  1.00 74.59           C  \\nATOM    165  CE3 TRP B  21      -1.863 -34.989 -19.297  1.00 74.59           C  \\nATOM    166  NE1 TRP B  21      -3.643 -35.840 -16.334  1.00 74.59           N  \\nATOM    167  CH2 TRP B  21      -3.702 -36.430 -19.974  1.00 74.59           C  \\nATOM    168  CZ2 TRP B  21      -4.146 -36.560 -18.684  1.00 74.59           C  \\nATOM    169  CZ3 TRP B  21      -2.574 -35.655 -20.288  1.00 74.59           C  \\nATOM    170  N   ASN B  22      -0.407 -31.631 -19.016  1.00 75.27           N  \\nATOM    171  CA  ASN B  22      -0.587 -31.356 -20.437  1.00 75.27           C  \\nATOM    172  C   ASN B  22      -0.203 -32.559 -21.295  1.00 75.27           C  \\nATOM    173  CB  ASN B  22       0.224 -30.127 -20.853  1.00 75.27           C  \\nATOM    174  O   ASN B  22       0.758 -33.265 -20.985  1.00 75.27           O  \\nATOM    175  CG  ASN B  22      -0.443 -28.825 -20.453  1.00 75.27           C  \\nATOM    176  ND2 ASN B  22       0.362 -27.797 -20.211  1.00 75.27           N  \\nATOM    177  OD1 ASN B  22      -1.671 -28.744 -20.363  1.00 75.27           O  \\nATOM    178  N   ARG B  23      -1.046 -32.858 -22.268  1.00 81.83           N  \\nATOM    179  CA  ARG B  23      -0.718 -33.906 -23.229  1.00 81.83           C  \\nATOM    180  C   ARG B  23      -0.577 -33.333 -24.636  1.00 81.83           C  \\nATOM    181  CB  ARG B  23      -1.786 -35.002 -23.215  1.00 81.83           C  \\nATOM    182  O   ARG B  23      -1.455 -32.609 -25.108  1.00 81.83           O  \\nATOM    183  CG  ARG B  23      -1.605 -36.052 -24.299  1.00 81.83           C  \\nATOM    184  CD  ARG B  23      -2.421 -37.305 -24.013  1.00 81.83           C  \\nATOM    185  NE  ARG B  23      -1.870 -38.062 -22.892  1.00 81.83           N  \\nATOM    186  NH1 ARG B  23      -3.422 -39.769 -23.015  1.00 81.83           N  \\nATOM    187  NH2 ARG B  23      -1.779 -39.819 -21.416  1.00 81.83           N  \\nATOM    188  CZ  ARG B  23      -2.358 -39.215 -22.444  1.00 81.83           C  \\nATOM    189  N   LYS B  24       0.526 -33.545 -25.199  1.00 85.67           N  \\nATOM    190  CA  LYS B  24       0.771 -33.200 -26.597  1.00 85.67           C  \\nATOM    191  C   LYS B  24       0.910 -34.453 -27.457  1.00 85.67           C  \\nATOM    192  CB  LYS B  24       2.025 -32.335 -26.725  1.00 85.67           C  \\nATOM    193  O   LYS B  24       1.660 -35.368 -27.112  1.00 85.67           O  \\nATOM    194  CG  LYS B  24       2.274 -31.808 -28.130  1.00 85.67           C  \\nATOM    195  CD  LYS B  24       3.346 -30.727 -28.141  1.00 85.67           C  \\nATOM    196  CE  LYS B  24       3.538 -30.142 -29.534  1.00 85.67           C  \\nATOM    197  NZ  LYS B  24       4.445 -28.955 -29.516  1.00 85.67           N  \\nATOM    198  N   ARG B  25       0.097 -34.565 -28.536  1.00 86.13           N  \\nATOM    199  CA  ARG B  25       0.212 -35.653 -29.502  1.00 86.13           C  \\nATOM    200  C   ARG B  25       1.219 -35.311 -30.594  1.00 86.13           C  \\nATOM    201  CB  ARG B  25      -1.150 -35.966 -30.125  1.00 86.13           C  \\nATOM    202  O   ARG B  25       1.089 -34.287 -31.268  1.00 86.13           O  \\nATOM    203  CG  ARG B  25      -1.138 -37.162 -31.063  1.00 86.13           C  \\nATOM    204  CD  ARG B  25      -2.516 -37.432 -31.651  1.00 86.13           C  \\nATOM    205  NE  ARG B  25      -2.457 -38.403 -32.740  1.00 86.13           N  \\nATOM    206  NH1 ARG B  25      -4.653 -38.110 -33.396  1.00 86.13           N  \\nATOM    207  NH2 ARG B  25      -3.310 -39.603 -34.503  1.00 86.13           N  \\nATOM    208  CZ  ARG B  25      -3.473 -38.703 -33.544  1.00 86.13           C  \\nATOM    209  N   ILE B  26       2.189 -36.049 -30.714  1.00 85.04           N  \\nATOM    210  CA  ILE B  26       3.224 -35.873 -31.727  1.00 85.04           C  \\nATOM    211  C   ILE B  26       3.102 -36.966 -32.785  1.00 85.04           C  \\nATOM    212  CB  ILE B  26       4.637 -35.889 -31.100  1.00 85.04           C  \\nATOM    213  O   ILE B  26       3.179 -38.156 -32.469  1.00 85.04           O  \\nATOM    214  CG1 ILE B  26       4.741 -34.836 -29.991  1.00 85.04           C  \\nATOM    215  CG2 ILE B  26       5.706 -35.664 -32.173  1.00 85.04           C  \\nATOM    216  CD1 ILE B  26       5.983 -34.974 -29.121  1.00 85.04           C  \\nATOM    217  N   SER B  27       2.774 -36.605 -34.064  1.00 80.50           N  \\nATOM    218  CA  SER B  27       2.575 -37.562 -35.148  1.00 80.50           C  \\nATOM    219  C   SER B  27       3.173 -37.049 -36.454  1.00 80.50           C  \\nATOM    220  CB  SER B  27       1.086 -37.853 -35.339  1.00 80.50           C  \\nATOM    221  O   SER B  27       3.615 -35.901 -36.532  1.00 80.50           O  \\nATOM    222  OG  SER B  27       0.349 -36.649 -35.459  1.00 80.50           O  \\nATOM    223  N   ASN B  28       3.295 -38.032 -37.485  1.00 74.56           N  \\nATOM    224  CA  ASN B  28       3.683 -37.734 -38.859  1.00 74.56           C  \\nATOM    225  C   ASN B  28       5.020 -37.001 -38.918  1.00 74.56           C  \\nATOM    226  CB  ASN B  28       2.597 -36.913 -39.558  1.00 74.56           C  \\nATOM    227  O   ASN B  28       5.145 -35.980 -39.598  1.00 74.56           O  \\nATOM    228  CG  ASN B  28       1.465 -37.772 -40.086  1.00 74.56           C  \\nATOM    229  ND2 ASN B  28       0.326 -37.147 -40.364  1.00 74.56           N  \\nATOM    230  OD1 ASN B  28       1.612 -38.987 -40.243  1.00 74.56           O  \\nATOM    231  N   CYS B  29       5.931 -37.395 -38.075  1.00 77.31           N  \\nATOM    232  CA  CYS B  29       7.270 -36.816 -38.067  1.00 77.31           C  \\nATOM    233  C   CYS B  29       8.318 -37.870 -37.734  1.00 77.31           C  \\nATOM    234  CB  CYS B  29       7.351 -35.667 -37.062  1.00 77.31           C  \\nATOM    235  O   CYS B  29       7.978 -39.007 -37.401  1.00 77.31           O  \\nATOM    236  SG  CYS B  29       7.017 -36.166 -35.359  1.00 77.31           S  \\nATOM    237  N   VAL B  30       9.600 -37.521 -38.025  1.00 72.05           N  \\nATOM    238  CA  VAL B  30      10.723 -38.401 -37.719  1.00 72.05           C  \\nATOM    239  C   VAL B  30      11.201 -38.153 -36.290  1.00 72.05           C  \\nATOM    240  CB  VAL B  30      11.889 -38.200 -38.714  1.00 72.05           C  \\nATOM    241  O   VAL B  30      11.533 -37.022 -35.928  1.00 72.05           O  \\nATOM    242  CG1 VAL B  30      13.063 -39.111 -38.360  1.00 72.05           C  \\nATOM    243  CG2 VAL B  30      11.420 -38.460 -40.144  1.00 72.05           C  \\nATOM    244  N   ALA B  31      11.061 -39.204 -35.510  1.00 69.15           N  \\nATOM    245  CA  ALA B  31      11.458 -39.096 -34.108  1.00 69.15           C  \\nATOM    246  C   ALA B  31      12.976 -39.010 -33.973  1.00 69.15           C  \\nATOM    247  CB  ALA B  31      10.922 -40.281 -33.310  1.00 69.15           C  \\nATOM    248  O   ALA B  31      13.703 -39.830 -34.539  1.00 69.15           O  \\nATOM    249  N   ASP B  32      13.487 -37.893 -33.500  1.00 71.62           N  \\nATOM    250  CA  ASP B  32      14.889 -37.748 -33.123  1.00 71.62           C  \\nATOM    251  C   ASP B  32      15.043 -37.647 -31.607  1.00 71.62           C  \\nATOM    252  CB  ASP B  32      15.502 -36.518 -33.796  1.00 71.62           C  \\nATOM    253  O   ASP B  32      14.948 -36.557 -31.039  1.00 71.62           O  \\nATOM    254  CG  ASP B  32      16.986 -36.365 -33.516  1.00 71.62           C  \\nATOM    255  OD1 ASP B  32      17.600 -37.298 -32.955  1.00 71.62           O  \\nATOM    256  OD2 ASP B  32      17.547 -35.301 -33.856  1.00 71.62           O  \\nATOM    257  N   TYR B  33      15.321 -38.785 -30.984  1.00 70.32           N  \\nATOM    258  CA  TYR B  33      15.376 -38.833 -29.527  1.00 70.32           C  \\nATOM    259  C   TYR B  33      16.765 -38.467 -29.020  1.00 70.32           C  \\nATOM    260  CB  TYR B  33      14.986 -40.225 -29.021  1.00 70.32           C  \\nATOM    261  O   TYR B  33      17.005 -38.441 -27.811  1.00 70.32           O  \\nATOM    262  CG  TYR B  33      13.549 -40.594 -29.303  1.00 70.32           C  \\nATOM    263  CD1 TYR B  33      12.508 -40.035 -28.565  1.00 70.32           C  \\nATOM    264  CD2 TYR B  33      13.231 -41.502 -30.307  1.00 70.32           C  \\nATOM    265  CE1 TYR B  33      11.183 -40.373 -28.821  1.00 70.32           C  \\nATOM    266  CE2 TYR B  33      11.909 -41.847 -30.571  1.00 70.32           C  \\nATOM    267  OH  TYR B  33       9.584 -41.616 -30.082  1.00 70.32           O  \\nATOM    268  CZ  TYR B  33      10.894 -41.278 -29.824  1.00 70.32           C  \\nATOM    269  N   SER B  34      17.698 -38.272 -30.027  1.00 66.87           N  \\nATOM    270  CA  SER B  34      19.045 -37.861 -29.644  1.00 66.87           C  \\nATOM    271  C   SER B  34      19.021 -36.564 -28.842  1.00 66.87           C  \\nATOM    272  CB  SER B  34      19.925 -37.687 -30.883  1.00 66.87           C  \\nATOM    273  O   SER B  34      19.925 -36.303 -28.046  1.00 66.87           O  \\nATOM    274  OG  SER B  34      19.265 -36.904 -31.862  1.00 66.87           O  \\nATOM    275  N   VAL B  35      17.907 -35.778 -29.053  1.00 65.00           N  \\nATOM    276  CA  VAL B  35      17.758 -34.506 -28.353  1.00 65.00           C  \\nATOM    277  C   VAL B  35      17.588 -34.757 -26.856  1.00 65.00           C  \\nATOM    278  CB  VAL B  35      16.560 -33.696 -28.896  1.00 65.00           C  \\nATOM    279  O   VAL B  35      17.939 -33.907 -26.034  1.00 65.00           O  \\nATOM    280  CG1 VAL B  35      16.374 -32.406 -28.099  1.00 65.00           C  \\nATOM    281  CG2 VAL B  35      16.754 -33.388 -30.380  1.00 65.00           C  \\nATOM    282  N   LEU B  36      17.037 -35.849 -26.490  1.00 65.03           N  \\nATOM    283  CA  LEU B  36      16.792 -36.214 -25.099  1.00 65.03           C  \\nATOM    284  C   LEU B  36      18.098 -36.550 -24.387  1.00 65.03           C  \\nATOM    285  CB  LEU B  36      15.832 -37.404 -25.019  1.00 65.03           C  \\nATOM    286  O   LEU B  36      18.231 -36.318 -23.183  1.00 65.03           O  \\nATOM    287  CG  LEU B  36      14.422 -37.177 -25.566  1.00 65.03           C  \\nATOM    288  CD1 LEU B  36      13.697 -38.508 -25.732  1.00 65.03           C  \\nATOM    289  CD2 LEU B  36      13.637 -36.245 -24.649  1.00 65.03           C  \\nATOM    290  N   TYR B  37      19.022 -37.116 -25.216  1.00 58.91           N  \\nATOM    291  CA  TYR B  37      20.296 -37.557 -24.659  1.00 58.91           C  \\nATOM    292  C   TYR B  37      21.238 -36.377 -24.452  1.00 58.91           C  \\nATOM    293  CB  TYR B  37      20.953 -38.595 -25.574  1.00 58.91           C  \\nATOM    294  O   TYR B  37      22.105 -36.412 -23.575  1.00 58.91           O  \\nATOM    295  CG  TYR B  37      20.146 -39.861 -25.733  1.00 58.91           C  \\nATOM    296  CD1 TYR B  37      20.053 -40.786 -24.696  1.00 58.91           C  \\nATOM    297  CD2 TYR B  37      19.476 -40.134 -26.920  1.00 58.91           C  \\nATOM    298  CE1 TYR B  37      19.313 -41.954 -24.838  1.00 58.91           C  \\nATOM    299  CE2 TYR B  37      18.733 -41.300 -27.074  1.00 58.91           C  \\nATOM    300  OH  TYR B  37      17.922 -43.357 -26.176  1.00 58.91           O  \\nATOM    301  CZ  TYR B  37      18.657 -42.202 -26.029  1.00 58.91           C  \\nATOM    302  N   ASN B  38      21.123 -35.412 -25.306  1.00 49.49           N  \\nATOM    303  CA  ASN B  38      22.016 -34.260 -25.244  1.00 49.49           C  \\nATOM    304  C   ASN B  38      21.522 -33.221 -24.242  1.00 49.49           C  \\nATOM    305  CB  ASN B  38      22.173 -33.628 -26.629  1.00 49.49           C  \\nATOM    306  O   ASN B  38      22.250 -32.287 -23.900  1.00 49.49           O  \\nATOM    307  CG  ASN B  38      23.079 -34.435 -27.539  1.00 49.49           C  \\nATOM    308  ND2 ASN B  38      22.899 -34.278 -28.845  1.00 49.49           N  \\nATOM    309  OD1 ASN B  38      23.932 -35.194 -27.072  1.00 49.49           O  \\nATOM    310  N   SER B  39      20.290 -33.233 -24.008  1.00 47.61           N  \\nATOM    311  CA  SER B  39      19.682 -32.217 -23.155  1.00 47.61           C  \\nATOM    312  C   SER B  39      19.980 -32.480 -21.683  1.00 47.61           C  \\nATOM    313  CB  SER B  39      18.170 -32.165 -23.377  1.00 47.61           C  \\nATOM    314  O   SER B  39      20.544 -33.519 -21.334  1.00 47.61           O  \\nATOM    315  OG  SER B  39      17.502 -33.053 -22.497  1.00 47.61           O  \\nATOM    316  N   ALA B  40      19.294 -32.026 -20.644  1.00 51.35           N  \\nATOM    317  CA  ALA B  40      19.223 -31.812 -19.201  1.00 51.35           C  \\nATOM    318  C   ALA B  40      19.657 -33.061 -18.439  1.00 51.35           C  \\nATOM    319  CB  ALA B  40      17.808 -31.409 -18.792  1.00 51.35           C  \\nATOM    320  O   ALA B  40      19.643 -34.166 -18.987  1.00 51.35           O  \\nATOM    321  N   SER B  41      20.695 -32.979 -17.613  1.00 61.79           N  \\nATOM    322  CA  SER B  41      20.970 -33.899 -16.513  1.00 61.79           C  \\nATOM    323  C   SER B  41      19.679 -34.443 -15.912  1.00 61.79           C  \\nATOM    324  CB  SER B  41      21.796 -33.206 -15.428  1.00 61.79           C  \\nATOM    325  O   SER B  41      19.157 -33.887 -14.943  1.00 61.79           O  \\nATOM    326  OG  SER B  41      23.025 -32.736 -15.954  1.00 61.79           O  \\nATOM    327  N   PHE B  42      18.934 -35.323 -16.699  1.00 74.68           N  \\nATOM    328  CA  PHE B  42      17.709 -35.928 -16.191  1.00 74.68           C  \\nATOM    329  C   PHE B  42      17.988 -36.748 -14.938  1.00 74.68           C  \\nATOM    330  CB  PHE B  42      17.061 -36.811 -17.262  1.00 74.68           C  \\nATOM    331  O   PHE B  42      18.976 -37.483 -14.878  1.00 74.68           O  \\nATOM    332  CG  PHE B  42      16.737 -36.081 -18.537  1.00 74.68           C  \\nATOM    333  CD1 PHE B  42      15.878 -34.988 -18.530  1.00 74.68           C  \\nATOM    334  CD2 PHE B  42      17.292 -36.486 -19.744  1.00 74.68           C  \\nATOM    335  CE1 PHE B  42      15.577 -34.310 -19.709  1.00 74.68           C  \\nATOM    336  CE2 PHE B  42      16.995 -35.814 -20.926  1.00 74.68           C  \\nATOM    337  CZ  PHE B  42      16.137 -34.726 -20.906  1.00 74.68           C  \\nATOM    338  N   SER B  43      17.252 -36.473 -13.958  1.00 79.25           N  \\nATOM    339  CA  SER B  43      17.346 -37.290 -12.753  1.00 79.25           C  \\nATOM    340  C   SER B  43      16.747 -38.675 -12.976  1.00 79.25           C  \\nATOM    341  CB  SER B  43      16.640 -36.603 -11.583  1.00 79.25           C  \\nATOM    342  O   SER B  43      17.158 -39.645 -12.335  1.00 79.25           O  \\nATOM    343  OG  SER B  43      16.034 -35.392 -12.002  1.00 79.25           O  \\nATOM    344  N   THR B  44      15.767 -38.708 -13.811  1.00 82.91           N  \\nATOM    345  CA  THR B  44      15.097 -39.955 -14.160  1.00 82.91           C  \\nATOM    346  C   THR B  44      14.890 -40.054 -15.669  1.00 82.91           C  \\nATOM    347  CB  THR B  44      13.739 -40.079 -13.444  1.00 82.91           C  \\nATOM    348  O   THR B  44      14.422 -39.104 -16.300  1.00 82.91           O  \\nATOM    349  CG2 THR B  44      13.043 -41.387 -13.808  1.00 82.91           C  \\nATOM    350  OG1 THR B  44      13.947 -40.040 -12.027  1.00 82.91           O  \\nATOM    351  N   PHE B  45      15.414 -41.146 -16.253  1.00 86.85           N  \\nATOM    352  CA  PHE B  45      15.146 -41.556 -17.626  1.00 86.85           C  \\nATOM    353  C   PHE B  45      14.906 -43.059 -17.705  1.00 86.85           C  \\nATOM    354  CB  PHE B  45      16.309 -41.162 -18.543  1.00 86.85           C  \\nATOM    355  O   PHE B  45      15.852 -43.839 -17.832  1.00 86.85           O  \\nATOM    356  CG  PHE B  45      16.006 -41.319 -20.008  1.00 86.85           C  \\nATOM    357  CD1 PHE B  45      14.935 -42.096 -20.432  1.00 86.85           C  \\nATOM    358  CD2 PHE B  45      16.794 -40.690 -20.963  1.00 86.85           C  \\nATOM    359  CE1 PHE B  45      14.653 -42.244 -21.788  1.00 86.85           C  \\nATOM    360  CE2 PHE B  45      16.518 -40.833 -22.320  1.00 86.85           C  \\nATOM    361  CZ  PHE B  45      15.448 -41.611 -22.730  1.00 86.85           C  \\nATOM    362  N   LYS B  46      13.624 -43.466 -17.538  1.00 88.37           N  \\nATOM    363  CA  LYS B  46      13.240 -44.874 -17.508  1.00 88.37           C  \\nATOM    364  C   LYS B  46      12.213 -45.187 -18.592  1.00 88.37           C  \\nATOM    365  CB  LYS B  46      12.682 -45.249 -16.134  1.00 88.37           C  \\nATOM    366  O   LYS B  46      11.222 -44.470 -18.742  1.00 88.37           O  \\nATOM    367  CG  LYS B  46      13.691 -45.927 -15.219  1.00 88.37           C  \\nATOM    368  CD  LYS B  46      13.057 -46.346 -13.899  1.00 88.37           C  \\nATOM    369  CE  LYS B  46      14.083 -46.955 -12.954  1.00 88.37           C  \\nATOM    370  NZ  LYS B  46      13.473 -47.336 -11.645  1.00 88.37           N  \\nATOM    371  N   CYS B  47      12.512 -46.157 -19.360  1.00 88.48           N  \\nATOM    372  CA  CYS B  47      11.582 -46.590 -20.398  1.00 88.48           C  \\nATOM    373  C   CYS B  47      10.962 -47.937 -20.048  1.00 88.48           C  \\nATOM    374  CB  CYS B  47      12.292 -46.681 -21.749  1.00 88.48           C  \\nATOM    375  O   CYS B  47      11.588 -48.756 -19.373  1.00 88.48           O  \\nATOM    376  SG  CYS B  47      12.817 -45.082 -22.404  1.00 88.48           S  \\nATOM    377  N   TYR B  48       9.736 -48.170 -20.389  1.00 89.20           N  \\nATOM    378  CA  TYR B  48       8.981 -49.396 -20.160  1.00 89.20           C  \\nATOM    379  C   TYR B  48       8.478 -49.982 -21.474  1.00 89.20           C  \\nATOM    380  CB  TYR B  48       7.800 -49.133 -19.220  1.00 89.20           C  \\nATOM    381  O   TYR B  48       7.893 -49.270 -22.294  1.00 89.20           O  \\nATOM    382  CG  TYR B  48       8.202 -48.540 -17.892  1.00 89.20           C  \\nATOM    383  CD1 TYR B  48       8.522 -49.357 -16.810  1.00 89.20           C  \\nATOM    384  CD2 TYR B  48       8.262 -47.161 -17.715  1.00 89.20           C  \\nATOM    385  CE1 TYR B  48       8.891 -48.815 -15.583  1.00 89.20           C  \\nATOM    386  CE2 TYR B  48       8.630 -46.608 -16.493  1.00 89.20           C  \\nATOM    387  OH  TYR B  48       9.307 -46.899 -14.223  1.00 89.20           O  \\nATOM    388  CZ  TYR B  48       8.942 -47.442 -15.435  1.00 89.20           C  \\nATOM    389  N   GLY B  49       8.684 -51.270 -21.726  1.00 84.50           N  \\nATOM    390  CA  GLY B  49       8.209 -51.931 -22.931  1.00 84.50           C  \\nATOM    391  C   GLY B  49       9.087 -51.670 -24.140  1.00 84.50           C  \\nATOM    392  O   GLY B  49       8.838 -52.207 -25.221  1.00 84.50           O  \\nATOM    393  N   VAL B  50      10.101 -50.798 -23.930  1.00 81.74           N  \\nATOM    394  CA  VAL B  50      11.066 -50.500 -24.982  1.00 81.74           C  \\nATOM    395  C   VAL B  50      12.430 -50.203 -24.363  1.00 81.74           C  \\nATOM    396  CB  VAL B  50      10.606 -49.310 -25.854  1.00 81.74           C  \\nATOM    397  O   VAL B  50      12.515 -49.779 -23.208  1.00 81.74           O  \\nATOM    398  CG1 VAL B  50       9.347 -49.672 -26.640  1.00 81.74           C  \\nATOM    399  CG2 VAL B  50      10.363 -48.077 -24.987  1.00 81.74           C  \\nATOM    400  N   SER B  51      13.484 -50.562 -25.119  1.00 77.74           N  \\nATOM    401  CA  SER B  51      14.835 -50.249 -24.665  1.00 77.74           C  \\nATOM    402  C   SER B  51      15.209 -48.807 -24.992  1.00 77.74           C  \\nATOM    403  CB  SER B  51      15.848 -51.204 -25.298  1.00 77.74           C  \\nATOM    404  O   SER B  51      14.992 -48.344 -26.114  1.00 77.74           O  \\nATOM    405  OG  SER B  51      17.172 -50.744 -25.086  1.00 77.74           O  \\nATOM    406  N   PRO B  52      15.744 -48.044 -24.007  1.00 75.02           N  \\nATOM    407  CA  PRO B  52      16.164 -46.662 -24.251  1.00 75.02           C  \\nATOM    408  C   PRO B  52      17.172 -46.544 -25.391  1.00 75.02           C  \\nATOM    409  CB  PRO B  52      16.794 -46.245 -22.919  1.00 75.02           C  \\nATOM    410  O   PRO B  52      17.183 -45.541 -26.109  1.00 75.02           O  \\nATOM    411  CG  PRO B  52      16.451 -47.349 -21.972  1.00 75.02           C  \\nATOM    412  CD  PRO B  52      15.964 -48.526 -22.767  1.00 75.02           C  \\nATOM    413  N   THR B  53      18.022 -47.582 -25.664  1.00 72.21           N  \\nATOM    414  CA  THR B  53      19.077 -47.552 -26.670  1.00 72.21           C  \\nATOM    415  C   THR B  53      18.503 -47.791 -28.063  1.00 72.21           C  \\nATOM    416  CB  THR B  53      20.163 -48.602 -26.372  1.00 72.21           C  \\nATOM    417  O   THR B  53      19.164 -47.520 -29.068  1.00 72.21           O  \\nATOM    418  CG2 THR B  53      20.970 -48.224 -25.134  1.00 72.21           C  \\nATOM    419  OG1 THR B  53      19.542 -49.875 -26.154  1.00 72.21           O  \\nATOM    420  N   LYS B  54      17.271 -48.215 -28.083  1.00 71.92           N  \\nATOM    421  CA  LYS B  54      16.679 -48.562 -29.371  1.00 71.92           C  \\nATOM    422  C   LYS B  54      15.573 -47.582 -29.750  1.00 71.92           C  \\nATOM    423  CB  LYS B  54      16.129 -49.988 -29.342  1.00 71.92           C  \\nATOM    424  O   LYS B  54      14.799 -47.838 -30.675  1.00 71.92           O  \\nATOM    425  CG  LYS B  54      17.195 -51.060 -29.171  1.00 71.92           C  \\nATOM    426  CD  LYS B  54      17.091 -52.130 -30.250  1.00 71.92           C  \\nATOM    427  CE  LYS B  54      18.170 -53.192 -30.092  1.00 71.92           C  \\nATOM    428  NZ  LYS B  54      18.076 -54.240 -31.152  1.00 71.92           N  \\nATOM    429  N   LEU B  55      15.504 -46.458 -29.031  1.00 75.73           N  \\nATOM    430  CA  LEU B  55      14.404 -45.524 -29.247  1.00 75.73           C  \\nATOM    431  C   LEU B  55      14.438 -44.963 -30.665  1.00 75.73           C  \\nATOM    432  CB  LEU B  55      14.465 -44.380 -28.232  1.00 75.73           C  \\nATOM    433  O   LEU B  55      13.391 -44.775 -31.288  1.00 75.73           O  \\nATOM    434  CG  LEU B  55      13.666 -44.576 -26.942  1.00 75.73           C  \\nATOM    435  CD1 LEU B  55      14.307 -43.795 -25.799  1.00 75.73           C  \\nATOM    436  CD2 LEU B  55      12.216 -44.149 -27.140  1.00 75.73           C  \\nATOM    437  N   ASN B  56      15.644 -44.750 -31.119  1.00 69.00           N  \\nATOM    438  CA  ASN B  56      15.800 -44.151 -32.440  1.00 69.00           C  \\nATOM    439  C   ASN B  56      15.439 -45.136 -33.548  1.00 69.00           C  \\nATOM    440  CB  ASN B  56      17.228 -43.636 -32.631  1.00 69.00           C  \\nATOM    441  O   ASN B  56      15.220 -44.737 -34.693  1.00 69.00           O  \\nATOM    442  CG  ASN B  56      17.476 -42.323 -31.915  1.00 69.00           C  \\nATOM    443  ND2 ASN B  56      18.731 -42.066 -31.568  1.00 69.00           N  \\nATOM    444  OD1 ASN B  56      16.547 -41.548 -31.675  1.00 69.00           O  \\nATOM    445  N   ASP B  57      15.335 -46.486 -33.131  1.00 68.82           N  \\nATOM    446  CA  ASP B  57      15.076 -47.530 -34.117  1.00 68.82           C  \\nATOM    447  C   ASP B  57      13.592 -47.886 -34.164  1.00 68.82           C  \\nATOM    448  CB  ASP B  57      15.907 -48.778 -33.809  1.00 68.82           C  \\nATOM    449  O   ASP B  57      13.166 -48.686 -34.999  1.00 68.82           O  \\nATOM    450  CG  ASP B  57      17.403 -48.526 -33.879  1.00 68.82           C  \\nATOM    451  OD1 ASP B  57      17.840 -47.664 -34.672  1.00 68.82           O  \\nATOM    452  OD2 ASP B  57      18.151 -49.199 -33.138  1.00 68.82           O  \\nATOM    453  N   LEU B  58      12.841 -47.252 -33.351  1.00 69.37           N  \\nATOM    454  CA  LEU B  58      11.433 -47.617 -33.236  1.00 69.37           C  \\nATOM    455  C   LEU B  58      10.576 -46.785 -34.184  1.00 69.37           C  \\nATOM    456  CB  LEU B  58      10.947 -47.432 -31.796  1.00 69.37           C  \\nATOM    457  O   LEU B  58      10.897 -45.628 -34.464  1.00 69.37           O  \\nATOM    458  CG  LEU B  58      11.519 -48.400 -30.758  1.00 69.37           C  \\nATOM    459  CD1 LEU B  58      11.255 -47.881 -29.348  1.00 69.37           C  \\nATOM    460  CD2 LEU B  58      10.925 -49.792 -30.940  1.00 69.37           C  \\nATOM    461  N   CYS B  59       9.604 -47.424 -34.835  1.00 67.38           N  \\nATOM    462  CA  CYS B  59       8.595 -46.750 -35.645  1.00 67.38           C  \\nATOM    463  C   CYS B  59       7.278 -46.630 -34.887  1.00 67.38           C  \\nATOM    464  CB  CYS B  59       8.372 -47.500 -36.957  1.00 67.38           C  \\nATOM    465  O   CYS B  59       6.789 -47.612 -34.325  1.00 67.38           O  \\nATOM    466  SG  CYS B  59       9.783 -47.435 -38.083  1.00 67.38           S  \\nATOM    467  N   PHE B  60       6.833 -45.388 -34.751  1.00 71.75           N  \\nATOM    468  CA  PHE B  60       5.593 -45.166 -34.015  1.00 71.75           C  \\nATOM    469  C   PHE B  60       4.580 -44.421 -34.876  1.00 71.75           C  \\nATOM    470  CB  PHE B  60       5.864 -44.384 -32.727  1.00 71.75           C  \\nATOM    471  O   PHE B  60       4.956 -43.640 -35.751  1.00 71.75           O  \\nATOM    472  CG  PHE B  60       7.293 -44.459 -32.260  1.00 71.75           C  \\nATOM    473  CD1 PHE B  60       7.726 -45.516 -31.469  1.00 71.75           C  \\nATOM    474  CD2 PHE B  60       8.204 -43.471 -32.613  1.00 71.75           C  \\nATOM    475  CE1 PHE B  60       9.048 -45.587 -31.035  1.00 71.75           C  \\nATOM    476  CE2 PHE B  60       9.526 -43.536 -32.184  1.00 71.75           C  \\nATOM    477  CZ  PHE B  60       9.946 -44.595 -31.394  1.00 71.75           C  \\nATOM    478  N   THR B  61       3.280 -44.801 -34.689  1.00 74.99           N  \\nATOM    479  CA  THR B  61       2.223 -44.029 -35.333  1.00 74.99           C  \\nATOM    480  C   THR B  61       2.045 -42.678 -34.644  1.00 74.99           C  \\nATOM    481  CB  THR B  61       0.887 -44.793 -35.322  1.00 74.99           C  \\nATOM    482  O   THR B  61       1.985 -41.641 -35.307  1.00 74.99           O  \\nATOM    483  CG2 THR B  61       0.183 -44.689 -36.671  1.00 74.99           C  \\nATOM    484  OG1 THR B  61       1.136 -46.174 -35.032  1.00 74.99           O  \\nATOM    485  N   ASN B  62       1.981 -42.737 -33.335  1.00 81.40           N  \\nATOM    486  CA  ASN B  62       1.829 -41.550 -32.500  1.00 81.40           C  \\nATOM    487  C   ASN B  62       2.653 -41.657 -31.220  1.00 81.40           C  \\nATOM    488  CB  ASN B  62       0.355 -41.315 -32.164  1.00 81.40           C  \\nATOM    489  O   ASN B  62       2.845 -42.752 -30.690  1.00 81.40           O  \\nATOM    490  CG  ASN B  62      -0.497 -41.097 -33.399  1.00 81.40           C  \\nATOM    491  ND2 ASN B  62      -1.514 -41.934 -33.573  1.00 81.40           N  \\nATOM    492  OD1 ASN B  62      -0.244 -40.184 -34.190  1.00 81.40           O  \\nATOM    493  N   VAL B  63       3.251 -40.465 -30.813  1.00 85.57           N  \\nATOM    494  CA  VAL B  63       3.837 -40.333 -29.484  1.00 85.57           C  \\nATOM    495  C   VAL B  63       3.061 -39.293 -28.678  1.00 85.57           C  \\nATOM    496  CB  VAL B  63       5.330 -39.943 -29.558  1.00 85.57           C  \\nATOM    497  O   VAL B  63       2.774 -38.201 -29.174  1.00 85.57           O  \\nATOM    498  CG1 VAL B  63       5.914 -39.771 -28.156  1.00 85.57           C  \\nATOM    499  CG2 VAL B  63       6.117 -40.993 -30.342  1.00 85.57           C  \\nATOM    500  N   TYR B  64       2.592 -39.690 -27.575  1.00 88.09           N  \\nATOM    501  CA  TYR B  64       1.952 -38.751 -26.660  1.00 88.09           C  \\nATOM    502  C   TYR B  64       2.922 -38.300 -25.575  1.00 88.09           C  \\nATOM    503  CB  TYR B  64       0.711 -39.382 -26.022  1.00 88.09           C  \\nATOM    504  O   TYR B  64       3.557 -39.128 -24.918  1.00 88.09           O  \\nATOM    505  CG  TYR B  64      -0.363 -39.750 -27.016  1.00 88.09           C  \\nATOM    506  CD1 TYR B  64      -1.362 -38.842 -27.359  1.00 88.09           C  \\nATOM    507  CD2 TYR B  64      -0.381 -41.005 -27.614  1.00 88.09           C  \\nATOM    508  CE1 TYR B  64      -2.356 -39.177 -28.273  1.00 88.09           C  \\nATOM    509  CE2 TYR B  64      -1.369 -41.351 -28.530  1.00 88.09           C  \\nATOM    510  OH  TYR B  64      -3.331 -40.769 -29.759  1.00 88.09           O  \\nATOM    511  CZ  TYR B  64      -2.350 -40.432 -28.853  1.00 88.09           C  \\nATOM    512  N   ALA B  65       3.092 -36.939 -25.441  1.00 89.15           N  \\nATOM    513  CA  ALA B  65       3.981 -36.364 -24.434  1.00 89.15           C  \\nATOM    514  C   ALA B  65       3.185 -35.668 -23.334  1.00 89.15           C  \\nATOM    515  CB  ALA B  65       4.956 -35.385 -25.082  1.00 89.15           C  \\nATOM    516  O   ALA B  65       2.648 -34.577 -23.543  1.00 89.15           O  \\nATOM    517  N   ASP B  66       3.097 -36.279 -22.205  1.00 88.49           N  \\nATOM    518  CA  ASP B  66       2.494 -35.666 -21.026  1.00 88.49           C  \\nATOM    519  C   ASP B  66       3.540 -34.922 -20.198  1.00 88.49           C  \\nATOM    520  CB  ASP B  66       1.798 -36.723 -20.167  1.00 88.49           C  \\nATOM    521  O   ASP B  66       4.650 -35.420 -19.998  1.00 88.49           O  \\nATOM    522  CG  ASP B  66       0.689 -37.451 -20.905  1.00 88.49           C  \\nATOM    523  OD1 ASP B  66       0.222 -36.950 -21.951  1.00 88.49           O  \\nATOM    524  OD2 ASP B  66       0.275 -38.533 -20.435  1.00 88.49           O  \\nATOM    525  N   SER B  67       3.193 -33.610 -19.809  1.00 85.21           N  \\nATOM    526  CA  SER B  67       4.152 -32.816 -19.048  1.00 85.21           C  \\nATOM    527  C   SER B  67       3.503 -32.202 -17.812  1.00 85.21           C  \\nATOM    528  CB  SER B  67       4.748 -31.712 -19.923  1.00 85.21           C  \\nATOM    529  O   SER B  67       2.350 -31.770 -17.860  1.00 85.21           O  \\nATOM    530  OG  SER B  67       3.732 -30.851 -20.408  1.00 85.21           O  \\nATOM    531  N   PHE B  68       4.162 -32.232 -16.760  1.00 80.27           N  \\nATOM    532  CA  PHE B  68       3.679 -31.670 -15.504  1.00 80.27           C  \\nATOM    533  C   PHE B  68       4.818 -31.527 -14.502  1.00 80.27           C  \\nATOM    534  CB  PHE B  68       2.567 -32.544 -14.915  1.00 80.27           C  \\nATOM    535  O   PHE B  68       5.932 -31.993 -14.749  1.00 80.27           O  \\nATOM    536  CG  PHE B  68       2.894 -34.012 -14.898  1.00 80.27           C  \\nATOM    537  CD1 PHE B  68       2.494 -34.840 -15.940  1.00 80.27           C  \\nATOM    538  CD2 PHE B  68       3.602 -34.566 -13.839  1.00 80.27           C  \\nATOM    539  CE1 PHE B  68       2.796 -36.200 -15.927  1.00 80.27           C  \\nATOM    540  CE2 PHE B  68       3.907 -35.924 -13.819  1.00 80.27           C  \\nATOM    541  CZ  PHE B  68       3.502 -36.739 -14.863  1.00 80.27           C  \\nATOM    542  N   VAL B  69       4.553 -30.796 -13.459  1.00 77.76           N  \\nATOM    543  CA  VAL B  69       5.539 -30.613 -12.399  1.00 77.76           C  \\nATOM    544  C   VAL B  69       5.067 -31.315 -11.127  1.00 77.76           C  \\nATOM    545  CB  VAL B  69       5.798 -29.116 -12.116  1.00 77.76           C  \\nATOM    546  O   VAL B  69       3.879 -31.281 -10.796  1.00 77.76           O  \\nATOM    547  CG1 VAL B  69       5.936 -28.866 -10.616  1.00 77.76           C  \\nATOM    548  CG2 VAL B  69       7.047 -28.642 -12.857  1.00 77.76           C  \\nATOM    549  N   ILE B  70       5.978 -32.031 -10.457  1.00 78.64           N  \\nATOM    550  CA  ILE B  70       5.698 -32.707  -9.196  1.00 78.64           C  \\nATOM    551  C   ILE B  70       6.878 -32.532  -8.243  1.00 78.64           C  \\nATOM    552  CB  ILE B  70       5.402 -34.208  -9.413  1.00 78.64           C  \\nATOM    553  O   ILE B  70       7.926 -32.012  -8.632  1.00 78.64           O  \\nATOM    554  CG1 ILE B  70       6.600 -34.897 -10.078  1.00 78.64           C  \\nATOM    555  CG2 ILE B  70       4.132 -34.394 -10.247  1.00 78.64           C  \\nATOM    556  CD1 ILE B  70       6.507 -36.417 -10.097  1.00 78.64           C  \\nATOM    557  N   ARG B  71       6.642 -32.936  -7.014  1.00 76.10           N  \\nATOM    558  CA  ARG B  71       7.749 -32.953  -6.063  1.00 76.10           C  \\nATOM    559  C   ARG B  71       8.740 -34.063  -6.394  1.00 76.10           C  \\nATOM    560  CB  ARG B  71       7.228 -33.124  -4.634  1.00 76.10           C  \\nATOM    561  O   ARG B  71       8.351 -35.120  -6.896  1.00 76.10           O  \\nATOM    562  CG  ARG B  71       6.503 -31.903  -4.092  1.00 76.10           C  \\nATOM    563  CD  ARG B  71       6.100 -32.087  -2.635  1.00 76.10           C  \\nATOM    564  NE  ARG B  71       5.303 -33.296  -2.445  1.00 76.10           N  \\nATOM    565  NH1 ARG B  71       4.331 -32.593  -0.471  1.00 76.10           N  \\nATOM    566  NH2 ARG B  71       3.803 -34.644  -1.346  1.00 76.10           N  \\nATOM    567  CZ  ARG B  71       4.481 -33.508  -1.421  1.00 76.10           C  \\nATOM    568  N   GLY B  72      10.017 -33.770  -6.131  1.00 81.01           N  \\nATOM    569  CA  GLY B  72      11.069 -34.737  -6.400  1.00 81.01           C  \\nATOM    570  C   GLY B  72      10.773 -36.113  -5.834  1.00 81.01           C  \\nATOM    571  O   GLY B  72      11.021 -37.127  -6.491  1.00 81.01           O  \\nATOM    572  N   ASP B  73      10.200 -36.229  -4.653  1.00 80.34           N  \\nATOM    573  CA  ASP B  73       9.955 -37.504  -3.986  1.00 80.34           C  \\nATOM    574  C   ASP B  73       8.782 -38.242  -4.627  1.00 80.34           C  \\nATOM    575  CB  ASP B  73       9.688 -37.287  -2.495  1.00 80.34           C  \\nATOM    576  O   ASP B  73       8.524 -39.404  -4.309  1.00 80.34           O  \\nATOM    577  CG  ASP B  73       8.750 -36.125  -2.223  1.00 80.34           C  \\nATOM    578  OD1 ASP B  73       8.349 -35.428  -3.180  1.00 80.34           O  \\nATOM    579  OD2 ASP B  73       8.411 -35.902  -1.041  1.00 80.34           O  \\nATOM    580  N   GLU B  74       8.117 -37.564  -5.504  1.00 82.19           N  \\nATOM    581  CA  GLU B  74       6.950 -38.176  -6.133  1.00 82.19           C  \\nATOM    582  C   GLU B  74       7.298 -38.750  -7.503  1.00 82.19           C  \\nATOM    583  CB  GLU B  74       5.813 -37.158  -6.262  1.00 82.19           C  \\nATOM    584  O   GLU B  74       6.494 -39.465  -8.105  1.00 82.19           O  \\nATOM    585  CG  GLU B  74       5.252 -36.690  -4.928  1.00 82.19           C  \\nATOM    586  CD  GLU B  74       4.288 -35.521  -5.059  1.00 82.19           C  \\nATOM    587  OE1 GLU B  74       3.468 -35.305  -4.138  1.00 82.19           O  \\nATOM    588  OE2 GLU B  74       4.354 -34.817  -6.091  1.00 82.19           O  \\nATOM    589  N   VAL B  75       8.416 -38.498  -8.004  1.00 87.74           N  \\nATOM    590  CA  VAL B  75       8.827 -38.906  -9.344  1.00 87.74           C  \\nATOM    591  C   VAL B  75       8.757 -40.427  -9.465  1.00 87.74           C  \\nATOM    592  CB  VAL B  75      10.252 -38.410  -9.676  1.00 87.74           C  \\nATOM    593  O   VAL B  75       8.343 -40.955 -10.499  1.00 87.74           O  \\nATOM    594  CG1 VAL B  75      10.751 -39.034 -10.978  1.00 87.74           C  \\nATOM    595  CG2 VAL B  75      10.277 -36.885  -9.767  1.00 87.74           C  \\nATOM    596  N   ARG B  76       9.137 -41.194  -8.448  1.00 85.92           N  \\nATOM    597  CA  ARG B  76       9.189 -42.652  -8.457  1.00 85.92           C  \\nATOM    598  C   ARG B  76       7.794 -43.249  -8.616  1.00 85.92           C  \\nATOM    599  CB  ARG B  76       9.839 -43.175  -7.175  1.00 85.92           C  \\nATOM    600  O   ARG B  76       7.651 -44.417  -8.982  1.00 85.92           O  \\nATOM    601  CG  ARG B  76       9.199 -42.648  -5.900  1.00 85.92           C  \\nATOM    602  CD  ARG B  76       9.900 -43.178  -4.657  1.00 85.92           C  \\nATOM    603  NE  ARG B  76       9.271 -42.688  -3.434  1.00 85.92           N  \\nATOM    604  NH1 ARG B  76      11.086 -43.131  -2.076  1.00 85.92           N  \\nATOM    605  NH2 ARG B  76       9.184 -42.209  -1.189  1.00 85.92           N  \\nATOM    606  CZ  ARG B  76       9.848 -42.677  -2.236  1.00 85.92           C  \\nATOM    607  N   GLN B  77       6.822 -42.360  -8.317  1.00 85.75           N  \\nATOM    608  CA  GLN B  77       5.445 -42.837  -8.387  1.00 85.75           C  \\nATOM    609  C   GLN B  77       4.951 -42.883  -9.830  1.00 85.75           C  \\nATOM    610  CB  GLN B  77       4.525 -41.950  -7.546  1.00 85.75           C  \\nATOM    611  O   GLN B  77       3.901 -43.462 -10.115  1.00 85.75           O  \\nATOM    612  CG  GLN B  77       4.814 -42.007  -6.052  1.00 85.75           C  \\nATOM    613  CD  GLN B  77       3.865 -41.148  -5.237  1.00 85.75           C  \\nATOM    614  NE2 GLN B  77       4.341 -40.654  -4.100  1.00 85.75           N  \\nATOM    615  OE1 GLN B  77       2.713 -40.931  -5.628  1.00 85.75           O  \\nATOM    616  N   ILE B  78       5.709 -42.309 -10.728  1.00 89.63           N  \\nATOM    617  CA  ILE B  78       5.327 -42.325 -12.136  1.00 89.63           C  \\nATOM    618  C   ILE B  78       5.887 -43.577 -12.808  1.00 89.63           C  \\nATOM    619  CB  ILE B  78       5.818 -41.057 -12.869  1.00 89.63           C  \\nATOM    620  O   ILE B  78       6.914 -43.517 -13.487  1.00 89.63           O  \\nATOM    621  CG1 ILE B  78       5.417 -39.800 -12.089  1.00 89.63           C  \\nATOM    622  CG2 ILE B  78       5.269 -41.014 -14.298  1.00 89.63           C  \\nATOM    623  CD1 ILE B  78       5.353 -38.538 -12.939  1.00 89.63           C  \\nATOM    624  N   ALA B  79       5.332 -44.730 -12.614  1.00 88.24           N  \\nATOM    625  CA  ALA B  79       5.711 -46.032 -13.156  1.00 88.24           C  \\nATOM    626  C   ALA B  79       4.483 -46.907 -13.391  1.00 88.24           C  \\nATOM    627  CB  ALA B  79       6.690 -46.735 -12.219  1.00 88.24           C  \\nATOM    628  O   ALA B  79       3.454 -46.732 -12.734  1.00 88.24           O  \\nATOM    629  N   PRO B  80       4.631 -47.820 -14.437  1.00 87.33           N  \\nATOM    630  CA  PRO B  80       3.492 -48.693 -14.730  1.00 87.33           C  \\nATOM    631  C   PRO B  80       3.018 -49.475 -13.506  1.00 87.33           C  \\nATOM    632  CB  PRO B  80       4.038 -49.637 -15.803  1.00 87.33           C  \\nATOM    633  O   PRO B  80       3.833 -50.062 -12.791  1.00 87.33           O  \\nATOM    634  CG  PRO B  80       5.233 -48.932 -16.360  1.00 87.33           C  \\nATOM    635  CD  PRO B  80       5.803 -48.044 -15.292  1.00 87.33           C  \\nATOM    636  N   GLY B  81       1.748 -49.477 -13.317  1.00 77.47           N  \\nATOM    637  CA  GLY B  81       1.123 -50.259 -12.262  1.00 77.47           C  \\nATOM    638  C   GLY B  81       1.270 -49.632 -10.888  1.00 77.47           C  \\nATOM    639  O   GLY B  81       0.727 -50.142  -9.906  1.00 77.47           O  \\nATOM    640  N   GLN B  82       2.067 -48.560 -10.821  1.00 78.52           N  \\nATOM    641  CA  GLN B  82       2.277 -47.907  -9.534  1.00 78.52           C  \\nATOM    642  C   GLN B  82       1.042 -47.117  -9.110  1.00 78.52           C  \\nATOM    643  CB  GLN B  82       3.496 -46.985  -9.591  1.00 78.52           C  \\nATOM    644  O   GLN B  82       0.358 -46.528  -9.949  1.00 78.52           O  \\nATOM    645  CG  GLN B  82       4.827 -47.716  -9.469  1.00 78.52           C  \\nATOM    646  CD  GLN B  82       5.069 -48.265  -8.075  1.00 78.52           C  \\nATOM    647  NE2 GLN B  82       5.723 -49.419  -7.998  1.00 78.52           N  \\nATOM    648  OE1 GLN B  82       4.672 -47.656  -7.076  1.00 78.52           O  \\nATOM    649  N   THR B  83       0.740 -47.257  -7.723  1.00 71.15           N  \\nATOM    650  CA  THR B  83      -0.341 -46.510  -7.088  1.00 71.15           C  \\nATOM    651  C   THR B  83       0.210 -45.549  -6.039  1.00 71.15           C  \\nATOM    652  CB  THR B  83      -1.365 -47.456  -6.435  1.00 71.15           C  \\nATOM    653  O   THR B  83       1.356 -45.685  -5.605  1.00 71.15           O  \\nATOM    654  CG2 THR B  83      -2.167 -48.211  -7.489  1.00 71.15           C  \\nATOM    655  OG1 THR B  83      -0.674 -48.402  -5.609  1.00 71.15           O  \\nATOM    656  N   GLY B  84      -0.066 -44.198  -6.118  1.00 67.57           N  \\nATOM    657  CA  GLY B  84       0.385 -43.185  -5.177  1.00 67.57           C  \\nATOM    658  C   GLY B  84      -0.377 -41.879  -5.297  1.00 67.57           C  \\nATOM    659  O   GLY B  84      -1.504 -41.855  -5.795  1.00 67.57           O  \\nATOM    660  N   LYS B  85       0.292 -40.837  -4.701  1.00 63.92           N  \\nATOM    661  CA  LYS B  85      -0.331 -39.517  -4.641  1.00 63.92           C  \\nATOM    662  C   LYS B  85      -0.674 -39.007  -6.038  1.00 63.92           C  \\nATOM    663  CB  LYS B  85       0.588 -38.522  -3.931  1.00 63.92           C  \\nATOM    664  O   LYS B  85      -1.696 -38.344  -6.228  1.00 63.92           O  \\nATOM    665  CG  LYS B  85       0.314 -38.381  -2.441  1.00 63.92           C  \\nATOM    666  CD  LYS B  85       1.173 -37.290  -1.816  1.00 63.92           C  \\nATOM    667  CE  LYS B  85       0.932 -37.177  -0.316  1.00 63.92           C  \\nATOM    668  NZ  LYS B  85       1.781 -36.117   0.304  1.00 63.92           N  \\nATOM    669  N   ILE B  86       0.118 -39.386  -6.992  1.00 70.25           N  \\nATOM    670  CA  ILE B  86      -0.071 -38.889  -8.350  1.00 70.25           C  \\nATOM    671  C   ILE B  86      -1.337 -39.495  -8.950  1.00 70.25           C  \\nATOM    672  CB  ILE B  86       1.150 -39.207  -9.243  1.00 70.25           C  \\nATOM    673  O   ILE B  86      -2.067 -38.823  -9.684  1.00 70.25           O  \\nATOM    674  CG1 ILE B  86       2.410 -38.538  -8.682  1.00 70.25           C  \\nATOM    675  CG2 ILE B  86       0.892 -38.766 -10.687  1.00 70.25           C  \\nATOM    676  CD1 ILE B  86       3.553 -38.434  -9.682  1.00 70.25           C  \\nATOM    677  N   ALA B  87      -1.452 -40.851  -8.649  1.00 68.01           N  \\nATOM    678  CA  ALA B  87      -2.642 -41.542  -9.138  1.00 68.01           C  \\nATOM    679  C   ALA B  87      -3.914 -40.886  -8.608  1.00 68.01           C  \\nATOM    680  CB  ALA B  87      -2.602 -43.016  -8.742  1.00 68.01           C  \\nATOM    681  O   ALA B  87      -4.962 -40.935  -9.256  1.00 68.01           O  \\nATOM    682  N   ASP B  88      -3.742 -40.328  -7.469  1.00 59.83           N  \\nATOM    683  CA  ASP B  88      -4.874 -39.630  -6.867  1.00 59.83           C  \\nATOM    684  C   ASP B  88      -5.257 -38.398  -7.684  1.00 59.83           C  \\nATOM    685  CB  ASP B  88      -4.551 -39.226  -5.427  1.00 59.83           C  \\nATOM    686  O   ASP B  88      -6.378 -37.897  -7.574  1.00 59.83           O  \\nATOM    687  CG  ASP B  88      -4.474 -40.412  -4.482  1.00 59.83           C  \\nATOM    688  OD1 ASP B  88      -4.973 -41.504  -4.830  1.00 59.83           O  \\nATOM    689  OD2 ASP B  88      -3.910 -40.253  -3.377  1.00 59.83           O  \\nATOM    690  N   TYR B  89      -4.351 -38.129  -8.595  1.00 58.86           N  \\nATOM    691  CA  TYR B  89      -4.572 -36.930  -9.396  1.00 58.86           C  \\nATOM    692  C   TYR B  89      -4.914 -37.292 -10.836  1.00 58.86           C  \\nATOM    693  CB  TYR B  89      -3.335 -36.027  -9.364  1.00 58.86           C  \\nATOM    694  O   TYR B  89      -4.545 -36.573 -11.768  1.00 58.86           O  \\nATOM    695  CG  TYR B  89      -2.929 -35.603  -7.973  1.00 58.86           C  \\nATOM    696  CD1 TYR B  89      -3.679 -34.669  -7.261  1.00 58.86           C  \\nATOM    697  CD2 TYR B  89      -1.794 -36.133  -7.369  1.00 58.86           C  \\nATOM    698  CE1 TYR B  89      -3.307 -34.274  -5.981  1.00 58.86           C  \\nATOM    699  CE2 TYR B  89      -1.413 -35.746  -6.089  1.00 58.86           C  \\nATOM    700  OH  TYR B  89      -1.802 -34.429  -4.136  1.00 58.86           O  \\nATOM    701  CZ  TYR B  89      -2.175 -34.817  -5.403  1.00 58.86           C  \\nATOM    702  N   ASN B  90      -5.451 -38.462 -11.036  1.00 63.70           N  \\nATOM    703  CA  ASN B  90      -5.970 -39.014 -12.283  1.00 63.70           C  \\nATOM    704  C   ASN B  90      -4.865 -39.189 -13.321  1.00 63.70           C  \\nATOM    705  CB  ASN B  90      -7.086 -38.128 -12.839  1.00 63.70           C  \\nATOM    706  O   ASN B  90      -5.087 -38.967 -14.512  1.00 63.70           O  \\nATOM    707  CG  ASN B  90      -8.465 -38.718 -12.619  1.00 63.70           C  \\nATOM    708  ND2 ASN B  90      -9.498 -37.950 -12.945  1.00 63.70           N  \\nATOM    709  OD1 ASN B  90      -8.601 -39.855 -12.159  1.00 63.70           O  \\nATOM    710  N   TYR B  91      -3.742 -39.216 -12.825  1.00 76.74           N  \\nATOM    711  CA  TYR B  91      -2.668 -39.585 -13.740  1.00 76.74           C  \\nATOM    712  C   TYR B  91      -2.023 -40.901 -13.321  1.00 76.74           C  \\nATOM    713  CB  TYR B  91      -1.608 -38.481 -13.800  1.00 76.74           C  \\nATOM    714  O   TYR B  91      -1.440 -40.998 -12.239  1.00 76.74           O  \\nATOM    715  CG  TYR B  91      -0.587 -38.678 -14.894  1.00 76.74           C  \\nATOM    716  CD1 TYR B  91       0.621 -39.322 -14.638  1.00 76.74           C  \\nATOM    717  CD2 TYR B  91      -0.828 -38.219 -16.184  1.00 76.74           C  \\nATOM    718  CE1 TYR B  91       1.566 -39.504 -15.643  1.00 76.74           C  \\nATOM    719  CE2 TYR B  91       0.110 -38.396 -17.197  1.00 76.74           C  \\nATOM    720  OH  TYR B  91       2.233 -39.216 -17.915  1.00 76.74           O  \\nATOM    721  CZ  TYR B  91       1.301 -39.039 -16.917  1.00 76.74           C  \\nATOM    722  N   LYS B  92      -2.230 -41.924 -14.157  1.00 80.31           N  \\nATOM    723  CA  LYS B  92      -1.655 -43.246 -13.924  1.00 80.31           C  \\nATOM    724  C   LYS B  92      -1.211 -43.890 -15.234  1.00 80.31           C  \\nATOM    725  CB  LYS B  92      -2.659 -44.150 -13.208  1.00 80.31           C  \\nATOM    726  O   LYS B  92      -1.884 -43.754 -16.258  1.00 80.31           O  \\nATOM    727  CG  LYS B  92      -2.090 -45.499 -12.792  1.00 80.31           C  \\nATOM    728  CD  LYS B  92      -3.139 -46.357 -12.096  1.00 80.31           C  \\nATOM    729  CE  LYS B  92      -2.591 -47.733 -11.742  1.00 80.31           C  \\nATOM    730  NZ  LYS B  92      -3.620 -48.583 -11.072  1.00 80.31           N  \\nATOM    731  N   LEU B  93      -0.036 -44.573 -15.129  1.00 87.19           N  \\nATOM    732  CA  LEU B  93       0.409 -45.319 -16.301  1.00 87.19           C  \\nATOM    733  C   LEU B  93      -0.165 -46.731 -16.297  1.00 87.19           C  \\nATOM    734  CB  LEU B  93       1.938 -45.377 -16.351  1.00 87.19           C  \\nATOM    735  O   LEU B  93      -0.156 -47.407 -15.265  1.00 87.19           O  \\nATOM    736  CG  LEU B  93       2.665 -44.035 -16.456  1.00 87.19           C  \\nATOM    737  CD1 LEU B  93       4.175 -44.247 -16.435  1.00 87.19           C  \\nATOM    738  CD2 LEU B  93       2.241 -43.295 -17.721  1.00 87.19           C  \\nATOM    739  N   PRO B  94      -0.710 -47.254 -17.375  1.00 85.26           N  \\nATOM    740  CA  PRO B  94      -1.216 -48.627 -17.437  1.00 85.26           C  \\nATOM    741  C   PRO B  94      -0.122 -49.670 -17.216  1.00 85.26           C  \\nATOM    742  CB  PRO B  94      -1.788 -48.728 -18.854  1.00 85.26           C  \\nATOM    743  O   PRO B  94       1.058 -49.389 -17.440  1.00 85.26           O  \\nATOM    744  CG  PRO B  94      -1.331 -47.482 -19.540  1.00 85.26           C  \\nATOM    745  CD  PRO B  94      -0.738 -46.561 -18.512  1.00 85.26           C  \\nATOM    746  N   ASP B  95      -0.586 -50.897 -16.836  1.00 86.22           N  \\nATOM    747  CA  ASP B  95       0.344 -51.992 -16.576  1.00 86.22           C  \\nATOM    748  C   ASP B  95       1.139 -52.347 -17.831  1.00 86.22           C  \\nATOM    749  CB  ASP B  95      -0.405 -53.223 -16.062  1.00 86.22           C  \\nATOM    750  O   ASP B  95       2.300 -52.752 -17.744  1.00 86.22           O  \\nATOM    751  CG  ASP B  95      -0.950 -53.040 -14.656  1.00 86.22           C  \\nATOM    752  OD1 ASP B  95      -0.425 -52.191 -13.904  1.00 86.22           O  \\nATOM    753  OD2 ASP B  95      -1.910 -53.755 -14.296  1.00 86.22           O  \\nATOM    754  N   ASP B  96       0.527 -52.227 -18.972  1.00 85.47           N  \\nATOM    755  CA  ASP B  96       1.162 -52.587 -20.236  1.00 85.47           C  \\nATOM    756  C   ASP B  96       1.756 -51.359 -20.922  1.00 85.47           C  \\nATOM    757  CB  ASP B  96       0.158 -53.274 -21.165  1.00 85.47           C  \\nATOM    758  O   ASP B  96       1.827 -51.301 -22.151  1.00 85.47           O  \\nATOM    759  CG  ASP B  96      -1.043 -52.402 -21.488  1.00 85.47           C  \\nATOM    760  OD1 ASP B  96      -1.251 -51.374 -20.808  1.00 85.47           O  \\nATOM    761  OD2 ASP B  96      -1.789 -52.748 -22.429  1.00 85.47           O  \\nATOM    762  N   PHE B  97       2.073 -50.333 -20.131  1.00 88.87           N  \\nATOM    763  CA  PHE B  97       2.588 -49.062 -20.625  1.00 88.87           C  \\nATOM    764  C   PHE B  97       3.845 -49.274 -21.460  1.00 88.87           C  \\nATOM    765  CB  PHE B  97       2.885 -48.112 -19.461  1.00 88.87           C  \\nATOM    766  O   PHE B  97       4.720 -50.058 -21.085  1.00 88.87           O  \\nATOM    767  CG  PHE B  97       3.534 -46.821 -19.881  1.00 88.87           C  \\nATOM    768  CD1 PHE B  97       4.874 -46.577 -19.603  1.00 88.87           C  \\nATOM    769  CD2 PHE B  97       2.804 -45.850 -20.556  1.00 88.87           C  \\nATOM    770  CE1 PHE B  97       5.477 -45.383 -19.991  1.00 88.87           C  \\nATOM    771  CE2 PHE B  97       3.401 -44.655 -20.947  1.00 88.87           C  \\nATOM    772  CZ  PHE B  97       4.737 -44.423 -20.663  1.00 88.87           C  \\nATOM    773  N   THR B  98       3.891 -48.753 -22.623  1.00 87.85           N  \\nATOM    774  CA  THR B  98       5.064 -48.698 -23.488  1.00 87.85           C  \\nATOM    775  C   THR B  98       5.485 -47.252 -23.737  1.00 87.85           C  \\nATOM    776  CB  THR B  98       4.798 -49.397 -24.834  1.00 87.85           C  \\nATOM    777  O   THR B  98       4.780 -46.503 -24.417  1.00 87.85           O  \\nATOM    778  CG2 THR B  98       6.087 -49.564 -25.631  1.00 87.85           C  \\nATOM    779  OG1 THR B  98       4.228 -50.689 -24.591  1.00 87.85           O  \\nATOM    780  N   GLY B  99       6.513 -46.852 -23.167  1.00 89.28           N  \\nATOM    781  CA  GLY B  99       7.006 -45.489 -23.282  1.00 89.28           C  \\nATOM    782  C   GLY B  99       8.115 -45.170 -22.297  1.00 89.28           C  \\nATOM    783  O   GLY B  99       8.776 -46.075 -21.784  1.00 89.28           O  \\nATOM    784  N   CYS B 100       8.410 -43.798 -22.150  1.00 89.28           N  \\nATOM    785  CA  CYS B 100       9.513 -43.382 -21.292  1.00 89.28           C  \\nATOM    786  C   CYS B 100       9.064 -42.308 -20.309  1.00 89.28           C  \\nATOM    787  CB  CYS B 100      10.679 -42.862 -22.132  1.00 89.28           C  \\nATOM    788  O   CYS B 100       8.236 -41.459 -20.645  1.00 89.28           O  \\nATOM    789  SG  CYS B 100      11.371 -44.093 -23.259  1.00 89.28           S  \\nATOM    790  N   VAL B 101       9.548 -42.415 -19.083  1.00 91.33           N  \\nATOM    791  CA  VAL B 101       9.359 -41.396 -18.055  1.00 91.33           C  \\nATOM    792  C   VAL B 101      10.660 -40.623 -17.850  1.00 91.33           C  \\nATOM    793  CB  VAL B 101       8.892 -42.017 -16.720  1.00 91.33           C  \\nATOM    794  O   VAL B 101      11.693 -41.209 -17.518  1.00 91.33           O  \\nATOM    795  CG1 VAL B 101       8.730 -40.938 -15.651  1.00 91.33           C  \\nATOM    796  CG2 VAL B 101       7.583 -42.780 -16.916  1.00 91.33           C  \\nATOM    797  N   ILE B 102      10.537 -39.283 -18.084  1.00 90.73           N  \\nATOM    798  CA  ILE B 102      11.692 -38.402 -17.955  1.00 90.73           C  \\nATOM    799  C   ILE B 102      11.406 -37.324 -16.912  1.00 90.73           C  \\nATOM    800  CB  ILE B 102      12.063 -37.754 -19.308  1.00 90.73           C  \\nATOM    801  O   ILE B 102      10.346 -36.694 -16.937  1.00 90.73           O  \\nATOM    802  CG1 ILE B 102      12.228 -38.829 -20.388  1.00 90.73           C  \\nATOM    803  CG2 ILE B 102      13.335 -36.912 -19.173  1.00 90.73           C  \\nATOM    804  CD1 ILE B 102      11.854 -38.363 -21.788  1.00 90.73           C  \\nATOM    805  N   ALA B 103      12.236 -37.199 -15.962  1.00 90.71           N  \\nATOM    806  CA  ALA B 103      12.058 -36.203 -14.908  1.00 90.71           C  \\nATOM    807  C   ALA B 103      13.380 -35.521 -14.568  1.00 90.71           C  \\nATOM    808  CB  ALA B 103      11.461 -36.850 -13.661  1.00 90.71           C  \\nATOM    809  O   ALA B 103      14.443 -36.142 -14.641  1.00 90.71           O  \\nATOM    810  N   TRP B 104      13.310 -34.208 -14.247  1.00 86.84           N  \\nATOM    811  CA  TRP B 104      14.513 -33.485 -13.851  1.00 86.84           C  \\nATOM    812  C   TRP B 104      14.182 -32.383 -12.849  1.00 86.84           C  \\nATOM    813  CB  TRP B 104      15.209 -32.885 -15.076  1.00 86.84           C  \\nATOM    814  O   TRP B 104      13.061 -31.868 -12.832  1.00 86.84           O  \\nATOM    815  CG  TRP B 104      14.425 -31.801 -15.752  1.00 86.84           C  \\nATOM    816  CD1 TRP B 104      14.573 -30.452 -15.587  1.00 86.84           C  \\nATOM    817  CD2 TRP B 104      13.367 -31.976 -16.699  1.00 86.84           C  \\nATOM    818  CE2 TRP B 104      12.918 -30.688 -17.067  1.00 86.84           C  \\nATOM    819  CE3 TRP B 104      12.754 -33.098 -17.273  1.00 86.84           C  \\nATOM    820  NE1 TRP B 104      13.669 -29.777 -16.375  1.00 86.84           N  \\nATOM    821  CH2 TRP B 104      11.301 -31.606 -18.531  1.00 86.84           C  \\nATOM    822  CZ2 TRP B 104      11.883 -30.492 -17.984  1.00 86.84           C  \\nATOM    823  CZ3 TRP B 104      11.725 -32.900 -18.186  1.00 86.84           C  \\nATOM    824  N   ASN B 105      15.119 -32.257 -11.933  1.00 79.81           N  \\nATOM    825  CA  ASN B 105      14.977 -31.198 -10.941  1.00 79.81           C  \\nATOM    826  C   ASN B 105      15.000 -29.816 -11.588  1.00 79.81           C  \\nATOM    827  CB  ASN B 105      16.074 -31.305  -9.879  1.00 79.81           C  \\nATOM    828  O   ASN B 105      15.936 -29.483 -12.317  1.00 79.81           O  \\nATOM    829  CG  ASN B 105      15.849 -30.368  -8.709  1.00 79.81           C  \\nATOM    830  ND2 ASN B 105      16.031 -30.878  -7.497  1.00 79.81           N  \\nATOM    831  OD1 ASN B 105      15.513 -29.195  -8.894  1.00 79.81           O  \\nATOM    832  N   SER B 106      13.866 -29.139 -11.410  1.00 74.27           N  \\nATOM    833  CA  SER B 106      13.748 -27.844 -12.072  1.00 74.27           C  \\nATOM    834  C   SER B 106      13.765 -26.703 -11.061  1.00 74.27           C  \\nATOM    835  CB  SER B 106      12.466 -27.781 -12.903  1.00 74.27           C  \\nATOM    836  O   SER B 106      13.213 -25.630 -11.318  1.00 74.27           O  \\nATOM    837  OG  SER B 106      11.329 -28.027 -12.093  1.00 74.27           O  \\nATOM    838  N   ASN B 107      14.150 -27.065  -9.872  1.00 66.82           N  \\nATOM    839  CA  ASN B 107      14.167 -26.073  -8.802  1.00 66.82           C  \\nATOM    840  C   ASN B 107      14.844 -24.780  -9.248  1.00 66.82           C  \\nATOM    841  CB  ASN B 107      14.862 -26.635  -7.560  1.00 66.82           C  \\nATOM    842  O   ASN B 107      14.351 -23.686  -8.966  1.00 66.82           O  \\nATOM    843  CG  ASN B 107      14.698 -25.743  -6.345  1.00 66.82           C  \\nATOM    844  ND2 ASN B 107      15.776 -25.562  -5.592  1.00 66.82           N  \\nATOM    845  OD1 ASN B 107      13.610 -25.221  -6.085  1.00 66.82           O  \\nATOM    846  N   ASN B 108      15.994 -24.966  -9.812  1.00 60.15           N  \\nATOM    847  CA  ASN B 108      16.753 -23.796 -10.241  1.00 60.15           C  \\nATOM    848  C   ASN B 108      15.981 -22.972 -11.267  1.00 60.15           C  \\nATOM    849  CB  ASN B 108      18.110 -24.217 -10.810  1.00 60.15           C  \\nATOM    850  O   ASN B 108      16.196 -21.765 -11.389  1.00 60.15           O  \\nATOM    851  CG  ASN B 108      18.351 -25.710 -10.704  1.00 60.15           C  \\nATOM    852  ND2 ASN B 108      19.271 -26.221 -11.513  1.00 60.15           N  \\nATOM    853  OD1 ASN B 108      17.714 -26.398  -9.902  1.00 60.15           O  \\nATOM    854  N   LEU B 109      15.156 -23.711 -12.012  1.00 59.04           N  \\nATOM    855  CA  LEU B 109      14.349 -23.071 -13.045  1.00 59.04           C  \\nATOM    856  C   LEU B 109      13.070 -22.489 -12.452  1.00 59.04           C  \\nATOM    857  CB  LEU B 109      14.003 -24.071 -14.152  1.00 59.04           C  \\nATOM    858  O   LEU B 109      12.678 -21.370 -12.788  1.00 59.04           O  \\nATOM    859  CG  LEU B 109      15.113 -24.378 -15.158  1.00 59.04           C  \\nATOM    860  CD1 LEU B 109      14.910 -25.762 -15.765  1.00 59.04           C  \\nATOM    861  CD2 LEU B 109      15.158 -23.312 -16.248  1.00 59.04           C  \\nATOM    862  N   ASP B 110      12.533 -23.348 -11.538  1.00 57.43           N  \\nATOM    863  CA  ASP B 110      11.200 -23.029 -11.036  1.00 57.43           C  \\nATOM    864  C   ASP B 110      11.278 -22.154  -9.787  1.00 57.43           C  \\nATOM    865  CB  ASP B 110      10.419 -24.310 -10.732  1.00 57.43           C  \\nATOM    866  O   ASP B 110      10.341 -21.413  -9.483  1.00 57.43           O  \\nATOM    867  CG  ASP B 110      10.037 -25.082 -11.983  1.00 57.43           C  \\nATOM    868  OD1 ASP B 110       9.741 -24.452 -13.022  1.00 57.43           O  \\nATOM    869  OD2 ASP B 110      10.028 -26.330 -11.929  1.00 57.43           O  \\nATOM    870  N   SER B 111      12.323 -22.375  -8.930  1.00 47.64           N  \\nATOM    871  CA  SER B 111      12.470 -21.620  -7.690  1.00 47.64           C  \\nATOM    872  C   SER B 111      13.015 -20.221  -7.957  1.00 47.64           C  \\nATOM    873  CB  SER B 111      13.391 -22.358  -6.718  1.00 47.64           C  \\nATOM    874  O   SER B 111      12.884 -19.327  -7.117  1.00 47.64           O  \\nATOM    875  OG  SER B 111      14.592 -22.750  -7.361  1.00 47.64           O  \\nATOM    876  N   LYS B 112      14.001 -20.106  -8.798  1.00 39.34           N  \\nATOM    877  CA  LYS B 112      14.701 -18.843  -9.013  1.00 39.34           C  \\nATOM    878  C   LYS B 112      13.771 -17.796  -9.620  1.00 39.34           C  \\nATOM    879  CB  LYS B 112      15.917 -19.050  -9.916  1.00 39.34           C  \\nATOM    880  O   LYS B 112      14.174 -16.651  -9.837  1.00 39.34           O  \\nATOM    881  CG  LYS B 112      17.075 -19.770  -9.240  1.00 39.34           C  \\nATOM    882  CD  LYS B 112      18.328 -19.751 -10.106  1.00 39.34           C  \\nATOM    883  CE  LYS B 112      19.481 -20.488  -9.439  1.00 39.34           C  \\nATOM    884  NZ  LYS B 112      20.709 -20.479 -10.289  1.00 39.34           N  \\nATOM    885  N   VAL B 113      12.810 -18.317 -10.202  1.00 34.83           N  \\nATOM    886  CA  VAL B 113      12.024 -17.222 -10.762  1.00 34.83           C  \\nATOM    887  C   VAL B 113      11.482 -16.346  -9.635  1.00 34.83           C  \\nATOM    888  CB  VAL B 113      10.861 -17.746 -11.635  1.00 34.83           C  \\nATOM    889  O   VAL B 113      10.814 -16.839  -8.723  1.00 34.83           O  \\nATOM    890  CG1 VAL B 113      10.248 -16.613 -12.455  1.00 34.83           C  \\nATOM    891  CG2 VAL B 113      11.346 -18.870 -12.549  1.00 34.83           C  \\nATOM    892  N   GLY B 114      12.331 -15.588  -9.110  1.00 30.45           N  \\nATOM    893  CA  GLY B 114      11.999 -14.615  -8.081  1.00 30.45           C  \\nATOM    894  C   GLY B 114      10.521 -14.273  -8.039  1.00 30.45           C  \\nATOM    895  O   GLY B 114      10.069 -13.564  -7.137  1.00 30.45           O  \\nATOM    896  N   GLY B 115      10.133 -13.720  -9.179  1.00 28.73           N  \\nATOM    897  CA  GLY B 115       8.792 -13.159  -9.126  1.00 28.73           C  \\nATOM    898  C   GLY B 115       7.755 -14.137  -8.608  1.00 28.73           C  \\nATOM    899  O   GLY B 115       8.029 -15.333  -8.486  1.00 28.73           O  \\nATOM    900  N   ASN B 116       6.846 -13.561  -7.951  1.00 28.63           N  \\nATOM    901  CA  ASN B 116       5.770 -14.268  -7.264  1.00 28.63           C  \\nATOM    902  C   ASN B 116       5.438 -15.589  -7.953  1.00 28.63           C  \\nATOM    903  CB  ASN B 116       4.522 -13.388  -7.172  1.00 28.63           C  \\nATOM    904  O   ASN B 116       5.505 -16.651  -7.333  1.00 28.63           O  \\nATOM    905  CG  ASN B 116       4.339 -12.777  -5.797  1.00 28.63           C  \\nATOM    906  ND2 ASN B 116       3.560 -11.704  -5.724  1.00 28.63           N  \\nATOM    907  OD1 ASN B 116       4.893 -13.265  -4.808  1.00 28.63           O  \\nATOM    908  N   TYR B 117       4.365 -15.548  -8.491  1.00 31.25           N  \\nATOM    909  CA  TYR B 117       3.185 -16.369  -8.740  1.00 31.25           C  \\nATOM    910  C   TYR B 117       3.380 -17.247  -9.970  1.00 31.25           C  \\nATOM    911  CB  TYR B 117       1.945 -15.488  -8.918  1.00 31.25           C  \\nATOM    912  O   TYR B 117       2.411 -17.762 -10.533  1.00 31.25           O  \\nATOM    913  CG  TYR B 117       1.605 -14.664  -7.700  1.00 31.25           C  \\nATOM    914  CD1 TYR B 117       0.905 -15.222  -6.632  1.00 31.25           C  \\nATOM    915  CD2 TYR B 117       1.981 -13.328  -7.614  1.00 31.25           C  \\nATOM    916  CE1 TYR B 117       0.588 -14.467  -5.508  1.00 31.25           C  \\nATOM    917  CE2 TYR B 117       1.668 -12.564  -6.495  1.00 31.25           C  \\nATOM    918  OH  TYR B 117       0.661 -12.388  -4.338  1.00 31.25           O  \\nATOM    919  CZ  TYR B 117       0.973 -13.141  -5.448  1.00 31.25           C  \\nATOM    920  N   ASN B 118       4.537 -16.908 -10.572  1.00 31.11           N  \\nATOM    921  CA  ASN B 118       4.303 -17.385 -11.930  1.00 31.11           C  \\nATOM    922  C   ASN B 118       4.167 -18.905 -11.975  1.00 31.11           C  \\nATOM    923  CB  ASN B 118       5.427 -16.925 -12.862  1.00 31.11           C  \\nATOM    924  O   ASN B 118       4.006 -19.486 -13.050  1.00 31.11           O  \\nATOM    925  CG  ASN B 118       5.242 -15.498 -13.339  1.00 31.11           C  \\nATOM    926  ND2 ASN B 118       6.333 -14.866 -13.755  1.00 31.11           N  \\nATOM    927  OD1 ASN B 118       4.128 -14.967 -13.332  1.00 31.11           O  \\nATOM    928  N   TYR B 119       5.061 -19.508 -11.255  1.00 35.31           N  \\nATOM    929  CA  TYR B 119       4.729 -20.892 -11.572  1.00 35.31           C  \\nATOM    930  C   TYR B 119       3.305 -21.223 -11.142  1.00 35.31           C  \\nATOM    931  CB  TYR B 119       5.714 -21.850 -10.896  1.00 35.31           C  \\nATOM    932  O   TYR B 119       2.969 -21.128  -9.959  1.00 35.31           O  \\nATOM    933  CG  TYR B 119       7.152 -21.627 -11.300  1.00 35.31           C  \\nATOM    934  CD1 TYR B 119       7.659 -22.177 -12.475  1.00 35.31           C  \\nATOM    935  CD2 TYR B 119       8.005 -20.866 -10.508  1.00 35.31           C  \\nATOM    936  CE1 TYR B 119       8.983 -21.975 -12.850  1.00 35.31           C  \\nATOM    937  CE2 TYR B 119       9.331 -20.658 -10.873  1.00 35.31           C  \\nATOM    938  OH  TYR B 119      11.122 -21.013 -12.411  1.00 35.31           O  \\nATOM    939  CZ  TYR B 119       9.810 -21.216 -12.044  1.00 35.31           C  \\nATOM    940  N   LEU B 120       2.491 -20.488 -11.891  1.00 35.48           N  \\nATOM    941  CA  LEU B 120       1.065 -20.610 -11.613  1.00 35.48           C  \\nATOM    942  C   LEU B 120       0.660 -22.074 -11.481  1.00 35.48           C  \\nATOM    943  CB  LEU B 120       0.243 -19.939 -12.717  1.00 35.48           C  \\nATOM    944  O   LEU B 120       0.653 -22.813 -12.468  1.00 35.48           O  \\nATOM    945  CG  LEU B 120       0.229 -18.409 -12.716  1.00 35.48           C  \\nATOM    946  CD1 LEU B 120      -0.139 -17.882 -14.099  1.00 35.48           C  \\nATOM    947  CD2 LEU B 120      -0.741 -17.884 -11.662  1.00 35.48           C  \\nATOM    948  N   TYR B 121       1.468 -22.760 -10.689  1.00 39.30           N  \\nATOM    949  CA  TYR B 121       0.883 -24.078 -10.471  1.00 39.30           C  \\nATOM    950  C   TYR B 121      -0.540 -23.962  -9.939  1.00 39.30           C  \\nATOM    951  CB  TYR B 121       1.740 -24.892  -9.496  1.00 39.30           C  \\nATOM    952  O   TYR B 121      -0.878 -22.990  -9.258  1.00 39.30           O  \\nATOM    953  CG  TYR B 121       3.187 -25.007  -9.910  1.00 39.30           C  \\nATOM    954  CD1 TYR B 121       3.593 -25.966 -10.835  1.00 39.30           C  \\nATOM    955  CD2 TYR B 121       4.150 -24.158  -9.377  1.00 39.30           C  \\nATOM    956  CE1 TYR B 121       4.925 -26.077 -11.218  1.00 39.30           C  \\nATOM    957  CE2 TYR B 121       5.486 -24.260  -9.752  1.00 39.30           C  \\nATOM    958  OH  TYR B 121       7.184 -25.326 -11.048  1.00 39.30           O  \\nATOM    959  CZ  TYR B 121       5.863 -25.221 -10.672  1.00 39.30           C  \\nATOM    960  N   ARG B 122      -1.483 -24.330 -10.703  1.00 38.29           N  \\nATOM    961  CA  ARG B 122      -2.866 -24.220 -10.248  1.00 38.29           C  \\nATOM    962  C   ARG B 122      -2.961 -24.408  -8.737  1.00 38.29           C  \\nATOM    963  CB  ARG B 122      -3.750 -25.246 -10.960  1.00 38.29           C  \\nATOM    964  O   ARG B 122      -2.531 -25.433  -8.206  1.00 38.29           O  \\nATOM    965  CG  ARG B 122      -4.499 -24.687 -12.159  1.00 38.29           C  \\nATOM    966  CD  ARG B 122      -5.433 -25.720 -12.773  1.00 38.29           C  \\nATOM    967  NE  ARG B 122      -6.064 -25.221 -13.991  1.00 38.29           N  \\nATOM    968  NH1 ARG B 122      -7.529 -26.994 -14.207  1.00 38.29           N  \\nATOM    969  NH2 ARG B 122      -7.547 -25.293 -15.743  1.00 38.29           N  \\nATOM    970  CZ  ARG B 122      -7.045 -25.837 -14.644  1.00 38.29           C  \\nATOM    971  N   LEU B 123      -2.778 -23.356  -7.989  1.00 36.67           N  \\nATOM    972  CA  LEU B 123      -2.654 -23.297  -6.537  1.00 36.67           C  \\nATOM    973  C   LEU B 123      -3.596 -24.293  -5.869  1.00 36.67           C  \\nATOM    974  CB  LEU B 123      -2.947 -21.882  -6.031  1.00 36.67           C  \\nATOM    975  O   LEU B 123      -3.180 -25.059  -4.997  1.00 36.67           O  \\nATOM    976  CG  LEU B 123      -1.761 -21.110  -5.449  1.00 36.67           C  \\nATOM    977  CD1 LEU B 123      -1.669 -19.725  -6.081  1.00 36.67           C  \\nATOM    978  CD2 LEU B 123      -1.884 -21.006  -3.933  1.00 36.67           C  \\nATOM    979  N   PHE B 124      -4.875 -23.871  -5.620  1.00 34.11           N  \\nATOM    980  CA  PHE B 124      -5.909 -24.513  -4.818  1.00 34.11           C  \\nATOM    981  C   PHE B 124      -6.934 -25.206  -5.708  1.00 34.11           C  \\nATOM    982  CB  PHE B 124      -6.605 -23.488  -3.916  1.00 34.11           C  \\nATOM    983  O   PHE B 124      -7.253 -24.717  -6.793  1.00 34.11           O  \\nATOM    984  CG  PHE B 124      -5.767 -23.036  -2.751  1.00 34.11           C  \\nATOM    985  CD1 PHE B 124      -5.688 -23.802  -1.595  1.00 34.11           C  \\nATOM    986  CD2 PHE B 124      -5.056 -21.845  -2.813  1.00 34.11           C  \\nATOM    987  CE1 PHE B 124      -4.913 -23.386  -0.515  1.00 34.11           C  \\nATOM    988  CE2 PHE B 124      -4.279 -21.422  -1.738  1.00 34.11           C  \\nATOM    989  CZ  PHE B 124      -4.210 -22.194  -0.590  1.00 34.11           C  \\nATOM    990  N   ARG B 125      -6.959 -26.479  -5.545  1.00 41.13           N  \\nATOM    991  CA  ARG B 125      -8.109 -27.183  -6.104  1.00 41.13           C  \\nATOM    992  C   ARG B 125      -9.391 -26.808  -5.367  1.00 41.13           C  \\nATOM    993  CB  ARG B 125      -7.894 -28.697  -6.044  1.00 41.13           C  \\nATOM    994  O   ARG B 125      -9.420 -26.783  -4.135  1.00 41.13           O  \\nATOM    995  CG  ARG B 125      -8.168 -29.410  -7.359  1.00 41.13           C  \\nATOM    996  CD  ARG B 125      -8.038 -30.920  -7.219  1.00 41.13           C  \\nATOM    997  NE  ARG B 125      -8.501 -31.614  -8.417  1.00 41.13           N  \\nATOM    998  NH1 ARG B 125      -8.233 -33.736  -7.543  1.00 41.13           N  \\nATOM    999  NH2 ARG B 125      -9.017 -33.462  -9.679  1.00 41.13           N  \\nATOM   1000  CZ  ARG B 125      -8.582 -32.936  -8.544  1.00 41.13           C  \\nATOM   1001  N   LYS B 126     -10.292 -26.151  -6.005  1.00 37.69           N  \\nATOM   1002  CA  LYS B 126     -11.554 -25.845  -5.339  1.00 37.69           C  \\nATOM   1003  C   LYS B 126     -12.188 -27.104  -4.755  1.00 37.69           C  \\nATOM   1004  CB  LYS B 126     -12.525 -25.172  -6.311  1.00 37.69           C  \\nATOM   1005  O   LYS B 126     -12.752 -27.071  -3.659  1.00 37.69           O  \\nATOM   1006  CG  LYS B 126     -12.815 -23.714  -5.986  1.00 37.69           C  \\nATOM   1007  CD  LYS B 126     -13.867 -23.132  -6.922  1.00 37.69           C  \\nATOM   1008  CE  LYS B 126     -14.171 -21.678  -6.587  1.00 37.69           C  \\nATOM   1009  NZ  LYS B 126     -15.190 -21.098  -7.512  1.00 37.69           N  \\nATOM   1010  N   SER B 127     -12.246 -28.209  -5.506  1.00 41.19           N  \\nATOM   1011  CA  SER B 127     -12.872 -29.472  -5.128  1.00 41.19           C  \\nATOM   1012  C   SER B 127     -11.948 -30.653  -5.408  1.00 41.19           C  \\nATOM   1013  CB  SER B 127     -14.194 -29.660  -5.872  1.00 41.19           C  \\nATOM   1014  O   SER B 127     -10.995 -30.532  -6.180  1.00 41.19           O  \\nATOM   1015  OG  SER B 127     -14.013 -29.494  -7.268  1.00 41.19           O  \\nATOM   1016  N   ASN B 128     -12.117 -31.554  -4.395  1.00 44.39           N  \\nATOM   1017  CA  ASN B 128     -11.400 -32.796  -4.662  1.00 44.39           C  \\nATOM   1018  C   ASN B 128     -11.665 -33.304  -6.076  1.00 44.39           C  \\nATOM   1019  CB  ASN B 128     -11.777 -33.866  -3.634  1.00 44.39           C  \\nATOM   1020  O   ASN B 128     -12.785 -33.197  -6.579  1.00 44.39           O  \\nATOM   1021  CG  ASN B 128     -11.200 -33.584  -2.260  1.00 44.39           C  \\nATOM   1022  ND2 ASN B 128     -11.863 -34.086  -1.225  1.00 44.39           N  \\nATOM   1023  OD1 ASN B 128     -10.168 -32.921  -2.131  1.00 44.39           O  \\nATOM   1024  N   LEU B 129     -10.669 -33.580  -6.780  1.00 50.62           N  \\nATOM   1025  CA  LEU B 129     -10.848 -34.141  -8.115  1.00 50.62           C  \\nATOM   1026  C   LEU B 129     -11.457 -35.537  -8.041  1.00 50.62           C  \\nATOM   1027  CB  LEU B 129      -9.511 -34.193  -8.858  1.00 50.62           C  \\nATOM   1028  O   LEU B 129     -11.112 -36.323  -7.156  1.00 50.62           O  \\nATOM   1029  CG  LEU B 129      -8.938 -32.852  -9.318  1.00 50.62           C  \\nATOM   1030  CD1 LEU B 129      -7.451 -32.990  -9.631  1.00 50.62           C  \\nATOM   1031  CD2 LEU B 129      -9.699 -32.333 -10.534  1.00 50.62           C  \\nATOM   1032  N   LYS B 130     -12.614 -35.733  -8.630  1.00 50.60           N  \\nATOM   1033  CA  LYS B 130     -13.124 -37.093  -8.774  1.00 50.60           C  \\nATOM   1034  C   LYS B 130     -12.142 -37.969  -9.548  1.00 50.60           C  \\nATOM   1035  CB  LYS B 130     -14.483 -37.086  -9.474  1.00 50.60           C  \\nATOM   1036  O   LYS B 130     -11.287 -37.460 -10.274  1.00 50.60           O  \\nATOM   1037  CG  LYS B 130     -15.581 -36.387  -8.686  1.00 50.60           C  \\nATOM   1038  CD  LYS B 130     -16.938 -36.537  -9.363  1.00 50.60           C  \\nATOM   1039  CE  LYS B 130     -18.032 -35.811  -8.592  1.00 50.60           C  \\nATOM   1040  NZ  LYS B 130     -19.359 -35.935  -9.265  1.00 50.60           N  \\nATOM   1041  N   PRO B 131     -12.167 -39.312  -9.309  1.00 49.65           N  \\nATOM   1042  CA  PRO B 131     -11.348 -40.205 -10.132  1.00 49.65           C  \\nATOM   1043  C   PRO B 131     -11.479 -39.916 -11.626  1.00 49.65           C  \\nATOM   1044  CB  PRO B 131     -11.894 -41.595  -9.796  1.00 49.65           C  \\nATOM   1045  O   PRO B 131     -12.580 -39.647 -12.112  1.00 49.65           O  \\nATOM   1046  CG  PRO B 131     -12.561 -41.432  -8.468  1.00 49.65           C  \\nATOM   1047  CD  PRO B 131     -13.050 -40.017  -8.351  1.00 49.65           C  \\nATOM   1048  N   PHE B 132     -10.381 -39.621 -12.311  1.00 48.87           N  \\nATOM   1049  CA  PHE B 132     -10.252 -39.423 -13.750  1.00 48.87           C  \\nATOM   1050  C   PHE B 132     -10.576 -37.982 -14.129  1.00 48.87           C  \\nATOM   1051  CB  PHE B 132     -11.170 -40.385 -14.511  1.00 48.87           C  \\nATOM   1052  O   PHE B 132     -10.798 -37.679 -15.303  1.00 48.87           O  \\nATOM   1053  CG  PHE B 132     -10.946 -41.833 -14.172  1.00 48.87           C  \\nATOM   1054  CD1 PHE B 132      -9.823 -42.505 -14.637  1.00 48.87           C  \\nATOM   1055  CD2 PHE B 132     -11.860 -42.524 -13.387  1.00 48.87           C  \\nATOM   1056  CE1 PHE B 132      -9.613 -43.846 -14.325  1.00 48.87           C  \\nATOM   1057  CE2 PHE B 132     -11.658 -43.864 -13.070  1.00 48.87           C  \\nATOM   1058  CZ  PHE B 132     -10.534 -44.524 -13.541  1.00 48.87           C  \\nATOM   1059  N   GLU B 133     -10.768 -37.122 -13.045  1.00 54.35           N  \\nATOM   1060  CA  GLU B 133     -11.010 -35.708 -13.318  1.00 54.35           C  \\nATOM   1061  C   GLU B 133      -9.704 -34.920 -13.346  1.00 54.35           C  \\nATOM   1062  CB  GLU B 133     -11.961 -35.114 -12.277  1.00 54.35           C  \\nATOM   1063  O   GLU B 133      -8.748 -35.268 -12.648  1.00 54.35           O  \\nATOM   1064  CG  GLU B 133     -12.925 -34.081 -12.843  1.00 54.35           C  \\nATOM   1065  CD  GLU B 133     -13.864 -33.499 -11.797  1.00 54.35           C  \\nATOM   1066  OE1 GLU B 133     -14.655 -32.588 -12.131  1.00 54.35           O  \\nATOM   1067  OE2 GLU B 133     -13.806 -33.958 -10.635  1.00 54.35           O  \\nATOM   1068  N   ARG B 134      -9.457 -34.022 -14.241  1.00 55.63           N  \\nATOM   1069  CA  ARG B 134      -8.314 -33.121 -14.352  1.00 55.63           C  \\nATOM   1070  C   ARG B 134      -8.689 -31.706 -13.926  1.00 55.63           C  \\nATOM   1071  CB  ARG B 134      -7.775 -33.111 -15.784  1.00 55.63           C  \\nATOM   1072  O   ARG B 134      -9.825 -31.271 -14.126  1.00 55.63           O  \\nATOM   1073  CG  ARG B 134      -6.900 -34.309 -16.121  1.00 55.63           C  \\nATOM   1074  CD  ARG B 134      -6.335 -34.215 -17.531  1.00 55.63           C  \\nATOM   1075  NE  ARG B 134      -4.950 -33.753 -17.527  1.00 55.63           N  \\nATOM   1076  NH1 ARG B 134      -4.870 -33.321 -19.795  1.00 55.63           N  \\nATOM   1077  NH2 ARG B 134      -3.028 -32.939 -18.485  1.00 55.63           N  \\nATOM   1078  CZ  ARG B 134      -4.285 -33.339 -18.603  1.00 55.63           C  \\nATOM   1079  N   ASP B 135      -7.798 -31.143 -13.005  1.00 52.49           N  \\nATOM   1080  CA  ASP B 135      -7.999 -29.737 -12.668  1.00 52.49           C  \\nATOM   1081  C   ASP B 135      -7.582 -28.830 -13.824  1.00 52.49           C  \\nATOM   1082  CB  ASP B 135      -7.219 -29.371 -11.404  1.00 52.49           C  \\nATOM   1083  O   ASP B 135      -6.404 -28.491 -13.960  1.00 52.49           O  \\nATOM   1084  CG  ASP B 135      -7.539 -27.978 -10.892  1.00 52.49           C  \\nATOM   1085  OD1 ASP B 135      -8.348 -27.266 -11.525  1.00 52.49           O  \\nATOM   1086  OD2 ASP B 135      -6.975 -27.587  -9.846  1.00 52.49           O  \\nATOM   1087  N   ILE B 136      -8.416 -28.655 -14.652  1.00 44.10           N  \\nATOM   1088  CA  ILE B 136      -8.086 -27.854 -15.826  1.00 44.10           C  \\nATOM   1089  C   ILE B 136      -8.485 -26.400 -15.588  1.00 44.10           C  \\nATOM   1090  CB  ILE B 136      -8.779 -28.399 -17.095  1.00 44.10           C  \\nATOM   1091  O   ILE B 136      -8.599 -25.617 -16.534  1.00 44.10           O  \\nATOM   1092  CG1 ILE B 136     -10.098 -29.089 -16.729  1.00 44.10           C  \\nATOM   1093  CG2 ILE B 136      -7.850 -29.356 -17.848  1.00 44.10           C  \\nATOM   1094  CD1 ILE B 136     -10.974 -29.425 -17.928  1.00 44.10           C  \\nATOM   1095  N   SER B 137      -8.619 -26.132 -14.216  1.00 43.45           N  \\nATOM   1096  CA  SER B 137      -9.050 -24.755 -13.997  1.00 43.45           C  \\nATOM   1097  C   SER B 137      -7.905 -23.774 -14.222  1.00 43.45           C  \\nATOM   1098  CB  SER B 137      -9.607 -24.586 -12.583  1.00 43.45           C  \\nATOM   1099  O   SER B 137      -6.757 -24.062 -13.875  1.00 43.45           O  \\nATOM   1100  OG  SER B 137      -8.820 -23.672 -11.839  1.00 43.45           O  \\nATOM   1101  N   THR B 138      -7.844 -22.878 -15.064  1.00 36.45           N  \\nATOM   1102  CA  THR B 138      -6.913 -21.800 -15.379  1.00 36.45           C  \\nATOM   1103  C   THR B 138      -7.002 -20.687 -14.340  1.00 36.45           C  \\nATOM   1104  CB  THR B 138      -7.183 -21.221 -16.780  1.00 36.45           C  \\nATOM   1105  O   THR B 138      -6.416 -19.617 -14.517  1.00 36.45           O  \\nATOM   1106  CG2 THR B 138      -6.845 -22.234 -17.869  1.00 36.45           C  \\nATOM   1107  OG1 THR B 138      -8.567 -20.866 -16.886  1.00 36.45           O  \\nATOM   1108  N   GLU B 139      -7.719 -20.856 -13.309  1.00 32.42           N  \\nATOM   1109  CA  GLU B 139      -7.986 -19.739 -12.407  1.00 32.42           C  \\nATOM   1110  C   GLU B 139      -6.799 -19.481 -11.482  1.00 32.42           C  \\nATOM   1111  CB  GLU B 139      -9.248 -20.004 -11.582  1.00 32.42           C  \\nATOM   1112  O   GLU B 139      -6.281 -20.407 -10.855  1.00 32.42           O  \\nATOM   1113  CG  GLU B 139     -10.542 -19.718 -12.329  1.00 32.42           C  \\nATOM   1114  CD  GLU B 139     -11.781 -19.864 -11.460  1.00 32.42           C  \\nATOM   1115  OE1 GLU B 139     -12.907 -19.668 -11.970  1.00 32.42           O  \\nATOM   1116  OE2 GLU B 139     -11.624 -20.175 -10.258  1.00 32.42           O  \\nATOM   1117  N   ILE B 140      -5.927 -18.571 -11.873  1.00 32.69           N  \\nATOM   1118  CA  ILE B 140      -4.826 -18.068 -11.057  1.00 32.69           C  \\nATOM   1119  C   ILE B 140      -5.379 -17.383  -9.810  1.00 32.69           C  \\nATOM   1120  CB  ILE B 140      -3.933 -17.091 -11.854  1.00 32.69           C  \\nATOM   1121  O   ILE B 140      -6.323 -16.593  -9.894  1.00 32.69           O  \\nATOM   1122  CG1 ILE B 140      -3.418 -17.761 -13.133  1.00 32.69           C  \\nATOM   1123  CG2 ILE B 140      -2.771 -16.594 -10.990  1.00 32.69           C  \\nATOM   1124  CD1 ILE B 140      -2.601 -16.839 -14.029  1.00 32.69           C  \\nATOM   1125  N   TYR B 141      -5.216 -17.927  -8.770  1.00 31.64           N  \\nATOM   1126  CA  TYR B 141      -5.673 -17.200  -7.591  1.00 31.64           C  \\nATOM   1127  C   TYR B 141      -5.037 -15.817  -7.523  1.00 31.64           C  \\nATOM   1128  CB  TYR B 141      -5.352 -17.986  -6.316  1.00 31.64           C  \\nATOM   1129  O   TYR B 141      -3.830 -15.670  -7.730  1.00 31.64           O  \\nATOM   1130  CG  TYR B 141      -6.067 -17.473  -5.090  1.00 31.64           C  \\nATOM   1131  CD1 TYR B 141      -5.433 -16.606  -4.202  1.00 31.64           C  \\nATOM   1132  CD2 TYR B 141      -7.376 -17.854  -4.816  1.00 31.64           C  \\nATOM   1133  CE1 TYR B 141      -6.087 -16.132  -3.070  1.00 31.64           C  \\nATOM   1134  CE2 TYR B 141      -8.040 -17.386  -3.687  1.00 31.64           C  \\nATOM   1135  OH  TYR B 141      -8.041 -16.060  -1.702  1.00 31.64           O  \\nATOM   1136  CZ  TYR B 141      -7.389 -16.526  -2.822  1.00 31.64           C  \\nATOM   1137  N   GLN B 142      -5.707 -14.777  -7.846  1.00 27.47           N  \\nATOM   1138  CA  GLN B 142      -5.324 -13.373  -7.745  1.00 27.47           C  \\nATOM   1139  C   GLN B 142      -5.214 -12.936  -6.287  1.00 27.47           C  \\nATOM   1140  CB  GLN B 142      -6.330 -12.488  -8.483  1.00 27.47           C  \\nATOM   1141  O   GLN B 142      -6.166 -13.079  -5.517  1.00 27.47           O  \\nATOM   1142  CG  GLN B 142      -5.881 -12.080  -9.880  1.00 27.47           C  \\nATOM   1143  CD  GLN B 142      -6.904 -11.219 -10.598  1.00 27.47           C  \\nATOM   1144  NE2 GLN B 142      -6.503 -10.633 -11.721  1.00 27.47           N  \\nATOM   1145  OE1 GLN B 142      -8.046 -11.083 -10.147  1.00 27.47           O  \\nATOM   1146  N   ALA B 143      -3.928 -12.857  -5.802  1.00 28.05           N  \\nATOM   1147  CA  ALA B 143      -3.706 -12.301  -4.470  1.00 28.05           C  \\nATOM   1148  C   ALA B 143      -4.374 -10.937  -4.327  1.00 28.05           C  \\nATOM   1149  CB  ALA B 143      -2.211 -12.191  -4.182  1.00 28.05           C  \\nATOM   1150  O   ALA B 143      -4.259 -10.086  -5.212  1.00 28.05           O  \\nATOM   1151  N   GLY B 144      -5.538 -10.830  -4.033  1.00 26.39           N  \\nATOM   1152  CA  GLY B 144      -6.090  -9.521  -3.719  1.00 26.39           C  \\nATOM   1153  C   GLY B 144      -5.085  -8.589  -3.070  1.00 26.39           C  \\nATOM   1154  O   GLY B 144      -4.021  -9.027  -2.627  1.00 26.39           O  \\nATOM   1155  N   SER B 145      -4.606  -7.521  -3.664  1.00 27.20           N  \\nATOM   1156  CA  SER B 145      -3.667  -6.458  -3.320  1.00 27.20           C  \\nATOM   1157  C   SER B 145      -3.576  -6.268  -1.809  1.00 27.20           C  \\nATOM   1158  CB  SER B 145      -4.080  -5.143  -3.983  1.00 27.20           C  \\nATOM   1159  O   SER B 145      -2.778  -5.463  -1.327  1.00 27.20           O  \\nATOM   1160  OG  SER B 145      -5.462  -5.151  -4.299  1.00 27.20           O  \\nATOM   1161  N   THR B 146      -4.671  -5.942  -1.053  1.00 28.38           N  \\nATOM   1162  CA  THR B 146      -4.581  -5.351   0.277  1.00 28.38           C  \\nATOM   1163  C   THR B 146      -3.722  -6.216   1.196  1.00 28.38           C  \\nATOM   1164  CB  THR B 146      -5.976  -5.162   0.901  1.00 28.38           C  \\nATOM   1165  O   THR B 146      -3.624  -7.429   1.001  1.00 28.38           O  \\nATOM   1166  CG2 THR B 146      -6.376  -3.691   0.918  1.00 28.38           C  \\nATOM   1167  OG1 THR B 146      -6.938  -5.899   0.136  1.00 28.38           O  \\nATOM   1168  N   PRO B 147      -2.726  -5.774   1.957  1.00 28.63           N  \\nATOM   1169  CA  PRO B 147      -2.265  -6.719   2.978  1.00 28.63           C  \\nATOM   1170  C   PRO B 147      -3.327  -7.751   3.349  1.00 28.63           C  \\nATOM   1171  CB  PRO B 147      -1.939  -5.817   4.171  1.00 28.63           C  \\nATOM   1172  O   PRO B 147      -4.524  -7.485   3.218  1.00 28.63           O  \\nATOM   1173  CG  PRO B 147      -2.277  -4.436   3.710  1.00 28.63           C  \\nATOM   1174  CD  PRO B 147      -2.857  -4.523   2.327  1.00 28.63           C  \\nATOM   1175  N   CYS B 148      -3.223  -9.202   3.196  1.00 33.74           N  \\nATOM   1176  CA  CYS B 148      -4.289 -10.165   3.451  1.00 33.74           C  \\nATOM   1177  C   CYS B 148      -5.217  -9.672   4.555  1.00 33.74           C  \\nATOM   1178  CB  CYS B 148      -3.703 -11.523   3.833  1.00 33.74           C  \\nATOM   1179  O   CYS B 148      -6.008 -10.445   5.098  1.00 33.74           O  \\nATOM   1180  SG  CYS B 148      -2.954 -12.409   2.449  1.00 33.74           S  \\nATOM   1181  N   ASN B 149      -4.818  -8.759   5.231  1.00 30.92           N  \\nATOM   1182  CA  ASN B 149      -5.523  -8.594   6.498  1.00 30.92           C  \\nATOM   1183  C   ASN B 149      -6.969  -8.158   6.282  1.00 30.92           C  \\nATOM   1184  CB  ASN B 149      -4.793  -7.589   7.392  1.00 30.92           C  \\nATOM   1185  O   ASN B 149      -7.783  -8.210   7.206  1.00 30.92           O  \\nATOM   1186  CG  ASN B 149      -3.348  -7.974   7.644  1.00 30.92           C  \\nATOM   1187  ND2 ASN B 149      -2.532  -6.997   8.022  1.00 30.92           N  \\nATOM   1188  OD1 ASN B 149      -2.969  -9.138   7.499  1.00 30.92           O  \\nATOM   1189  N   GLY B 150      -7.282  -6.910   5.723  1.00 28.38           N  \\nATOM   1190  CA  GLY B 150      -8.706  -6.617   5.760  1.00 28.38           C  \\nATOM   1191  C   GLY B 150      -9.527  -7.531   4.871  1.00 28.38           C  \\nATOM   1192  O   GLY B 150      -9.006  -8.505   4.323  1.00 28.38           O  \\nATOM   1193  N   VAL B 151     -10.894  -7.508   4.644  1.00 27.05           N  \\nATOM   1194  CA  VAL B 151     -11.708  -8.365   3.789  1.00 27.05           C  \\nATOM   1195  C   VAL B 151     -10.989  -8.606   2.463  1.00 27.05           C  \\nATOM   1196  CB  VAL B 151     -13.104  -7.752   3.534  1.00 27.05           C  \\nATOM   1197  O   VAL B 151     -11.142  -9.665   1.850  1.00 27.05           O  \\nATOM   1198  CG1 VAL B 151     -14.015  -8.758   2.833  1.00 27.05           C  \\nATOM   1199  CG2 VAL B 151     -13.728  -7.285   4.848  1.00 27.05           C  \\nATOM   1200  N   GLU B 152     -10.296  -7.650   1.944  1.00 27.49           N  \\nATOM   1201  CA  GLU B 152      -9.818  -7.757   0.569  1.00 27.49           C  \\nATOM   1202  C   GLU B 152      -8.475  -8.480   0.507  1.00 27.49           C  \\nATOM   1203  CB  GLU B 152      -9.698  -6.371  -0.068  1.00 27.49           C  \\nATOM   1204  O   GLU B 152      -7.833  -8.519  -0.545  1.00 27.49           O  \\nATOM   1205  CG  GLU B 152     -11.032  -5.661  -0.251  1.00 27.49           C  \\nATOM   1206  CD  GLU B 152     -10.890  -4.163  -0.468  1.00 27.49           C  \\nATOM   1207  OE1 GLU B 152     -11.916  -3.481  -0.690  1.00 27.49           O  \\nATOM   1208  OE2 GLU B 152      -9.742  -3.667  -0.417  1.00 27.49           O  \\nATOM   1209  N   GLY B 153      -7.754  -8.676   1.624  1.00 29.17           N  \\nATOM   1210  CA  GLY B 153      -6.422  -9.260   1.646  1.00 29.17           C  \\nATOM   1211  C   GLY B 153      -6.341 -10.590   0.921  1.00 29.17           C  \\nATOM   1212  O   GLY B 153      -5.403 -11.362   1.131  1.00 29.17           O  \\nATOM   1213  N   PHE B 154      -7.346 -11.116   0.541  1.00 28.52           N  \\nATOM   1214  CA  PHE B 154      -7.342 -12.480   0.024  1.00 28.52           C  \\nATOM   1215  C   PHE B 154      -6.200 -12.680  -0.965  1.00 28.52           C  \\nATOM   1216  CB  PHE B 154      -8.680 -12.806  -0.646  1.00 28.52           C  \\nATOM   1217  O   PHE B 154      -5.902 -13.811  -1.356  1.00 28.52           O  \\nATOM   1218  CG  PHE B 154      -9.709 -13.371   0.296  1.00 28.52           C  \\nATOM   1219  CD1 PHE B 154      -9.682 -14.714   0.652  1.00 28.52           C  \\nATOM   1220  CD2 PHE B 154     -10.703 -12.559   0.826  1.00 28.52           C  \\nATOM   1221  CE1 PHE B 154     -10.633 -15.240   1.524  1.00 28.52           C  \\nATOM   1222  CE2 PHE B 154     -11.657 -13.077   1.697  1.00 28.52           C  \\nATOM   1223  CZ  PHE B 154     -11.620 -14.418   2.044  1.00 28.52           C  \\nATOM   1224  N   ASN B 155      -5.774 -11.625  -1.643  1.00 28.55           N  \\nATOM   1225  CA  ASN B 155      -5.087 -11.933  -2.893  1.00 28.55           C  \\nATOM   1226  C   ASN B 155      -3.626 -12.303  -2.653  1.00 28.55           C  \\nATOM   1227  CB  ASN B 155      -5.183 -10.754  -3.863  1.00 28.55           C  \\nATOM   1228  O   ASN B 155      -2.765 -12.025  -3.490  1.00 28.55           O  \\nATOM   1229  CG  ASN B 155      -6.493 -10.731  -4.626  1.00 28.55           C  \\nATOM   1230  ND2 ASN B 155      -6.850  -9.567  -5.157  1.00 28.55           N  \\nATOM   1231  OD1 ASN B 155      -7.179 -11.750  -4.737  1.00 28.55           O  \\nATOM   1232  N   CYS B 156      -3.225 -12.501  -1.394  1.00 30.10           N  \\nATOM   1233  CA  CYS B 156      -1.792 -12.766  -1.334  1.00 30.10           C  \\nATOM   1234  C   CYS B 156      -1.444 -14.051  -2.075  1.00 30.10           C  \\nATOM   1235  CB  CYS B 156      -1.325 -12.861   0.118  1.00 30.10           C  \\nATOM   1236  O   CYS B 156      -1.997 -15.112  -1.780  1.00 30.10           O  \\nATOM   1237  SG  CYS B 156      -1.505 -11.320   1.043  1.00 30.10           S  \\nATOM   1238  N   TYR B 157      -1.259 -14.037  -3.273  1.00 30.47           N  \\nATOM   1239  CA  TYR B 157      -1.087 -15.115  -4.241  1.00 30.47           C  \\nATOM   1240  C   TYR B 157       0.322 -15.691  -4.171  1.00 30.47           C  \\nATOM   1241  CB  TYR B 157      -1.378 -14.615  -5.659  1.00 30.47           C  \\nATOM   1242  O   TYR B 157       1.306 -14.948  -4.218  1.00 30.47           O  \\nATOM   1243  CG  TYR B 157      -2.160 -15.595  -6.500  1.00 30.47           C  \\nATOM   1244  CD1 TYR B 157      -1.509 -16.513  -7.321  1.00 30.47           C  \\nATOM   1245  CD2 TYR B 157      -3.550 -15.603  -6.476  1.00 30.47           C  \\nATOM   1246  CE1 TYR B 157      -2.225 -17.417  -8.099  1.00 30.47           C  \\nATOM   1247  CE2 TYR B 157      -4.277 -16.502  -7.250  1.00 30.47           C  \\nATOM   1248  OH  TYR B 157      -4.321 -18.296  -8.824  1.00 30.47           O  \\nATOM   1249  CZ  TYR B 157      -3.607 -17.404  -8.056  1.00 30.47           C  \\nATOM   1250  N   PHE B 158       0.632 -16.541  -3.286  1.00 33.59           N  \\nATOM   1251  CA  PHE B 158       1.960 -17.099  -3.515  1.00 33.59           C  \\nATOM   1252  C   PHE B 158       1.881 -18.337  -4.400  1.00 33.59           C  \\nATOM   1253  CB  PHE B 158       2.635 -17.447  -2.185  1.00 33.59           C  \\nATOM   1254  O   PHE B 158       1.415 -19.391  -3.961  1.00 33.59           O  \\nATOM   1255  CG  PHE B 158       2.945 -16.248  -1.329  1.00 33.59           C  \\nATOM   1256  CD1 PHE B 158       4.085 -15.487  -1.560  1.00 33.59           C  \\nATOM   1257  CD2 PHE B 158       2.095 -15.881  -0.294  1.00 33.59           C  \\nATOM   1258  CE1 PHE B 158       4.373 -14.377  -0.770  1.00 33.59           C  \\nATOM   1259  CE2 PHE B 158       2.376 -14.772   0.499  1.00 33.59           C  \\nATOM   1260  CZ  PHE B 158       3.517 -14.022   0.261  1.00 33.59           C  \\nATOM   1261  N   PRO B 159       2.017 -18.317  -5.607  1.00 35.80           N  \\nATOM   1262  CA  PRO B 159       1.674 -19.379  -6.555  1.00 35.80           C  \\nATOM   1263  C   PRO B 159       2.369 -20.701  -6.239  1.00 35.80           C  \\nATOM   1264  CB  PRO B 159       2.150 -18.820  -7.898  1.00 35.80           C  \\nATOM   1265  O   PRO B 159       1.712 -21.742  -6.147  1.00 35.80           O  \\nATOM   1266  CG  PRO B 159       2.954 -17.610  -7.545  1.00 35.80           C  \\nATOM   1267  CD  PRO B 159       2.729 -17.296  -6.093  1.00 35.80           C  \\nATOM   1268  N   LEU B 160       3.740 -20.867  -6.192  1.00 41.99           N  \\nATOM   1269  CA  LEU B 160       4.462 -22.135  -6.162  1.00 41.99           C  \\nATOM   1270  C   LEU B 160       4.197 -22.880  -4.859  1.00 41.99           C  \\nATOM   1271  CB  LEU B 160       5.965 -21.900  -6.334  1.00 41.99           C  \\nATOM   1272  O   LEU B 160       4.071 -24.107  -4.855  1.00 41.99           O  \\nATOM   1273  CG  LEU B 160       6.443 -21.576  -7.750  1.00 41.99           C  \\nATOM   1274  CD1 LEU B 160       7.864 -21.024  -7.716  1.00 41.99           C  \\nATOM   1275  CD2 LEU B 160       6.366 -22.815  -8.637  1.00 41.99           C  \\nATOM   1276  N   GLN B 161       4.192 -22.235  -3.807  1.00 38.13           N  \\nATOM   1277  CA  GLN B 161       4.018 -22.771  -2.461  1.00 38.13           C  \\nATOM   1278  C   GLN B 161       2.649 -23.428  -2.304  1.00 38.13           C  \\nATOM   1279  CB  GLN B 161       4.194 -21.669  -1.416  1.00 38.13           C  \\nATOM   1280  O   GLN B 161       2.513 -24.432  -1.602  1.00 38.13           O  \\nATOM   1281  CG  GLN B 161       5.554 -21.684  -0.730  1.00 38.13           C  \\nATOM   1282  CD  GLN B 161       5.952 -20.324  -0.188  1.00 38.13           C  \\nATOM   1283  NE2 GLN B 161       7.181 -20.221   0.309  1.00 38.13           N  \\nATOM   1284  OE1 GLN B 161       5.163 -19.375  -0.215  1.00 38.13           O  \\nATOM   1285  N   SER B 162       1.814 -23.088  -3.000  1.00 39.37           N  \\nATOM   1286  CA  SER B 162       0.451 -23.600  -2.907  1.00 39.37           C  \\nATOM   1287  C   SER B 162       0.345 -25.000  -3.503  1.00 39.37           C  \\nATOM   1288  CB  SER B 162      -0.525 -22.660  -3.616  1.00 39.37           C  \\nATOM   1289  O   SER B 162      -0.599 -25.736  -3.208  1.00 39.37           O  \\nATOM   1290  OG  SER B 162      -0.230 -21.307  -3.313  1.00 39.37           O  \\nATOM   1291  N   TYR B 163       1.413 -25.425  -4.215  1.00 49.29           N  \\nATOM   1292  CA  TYR B 163       1.426 -26.751  -4.822  1.00 49.29           C  \\nATOM   1293  C   TYR B 163       2.369 -27.685  -4.073  1.00 49.29           C  \\nATOM   1294  CB  TYR B 163       1.839 -26.664  -6.295  1.00 49.29           C  \\nATOM   1295  O   TYR B 163       2.712 -28.760  -4.569  1.00 49.29           O  \\nATOM   1296  CG  TYR B 163       0.739 -26.176  -7.206  1.00 49.29           C  \\nATOM   1297  CD1 TYR B 163      -0.192 -27.062  -7.743  1.00 49.29           C  \\nATOM   1298  CD2 TYR B 163       0.629 -24.828  -7.532  1.00 49.29           C  \\nATOM   1299  CE1 TYR B 163      -1.206 -26.617  -8.585  1.00 49.29           C  \\nATOM   1300  CE2 TYR B 163      -0.381 -24.372  -8.373  1.00 49.29           C  \\nATOM   1301  OH  TYR B 163      -2.294 -24.826  -9.726  1.00 49.29           O  \\nATOM   1302  CZ  TYR B 163      -1.293 -25.272  -8.893  1.00 49.29           C  \\nATOM   1303  N   GLY B 164       2.827 -27.302  -3.053  1.00 49.78           N  \\nATOM   1304  CA  GLY B 164       3.652 -28.143  -2.200  1.00 49.78           C  \\nATOM   1305  C   GLY B 164       5.124 -28.099  -2.563  1.00 49.78           C  \\nATOM   1306  O   GLY B 164       5.910 -28.923  -2.090  1.00 49.78           O  \\nATOM   1307  N   PHE B 165       5.442 -27.219  -3.484  1.00 59.74           N  \\nATOM   1308  CA  PHE B 165       6.846 -27.092  -3.857  1.00 59.74           C  \\nATOM   1309  C   PHE B 165       7.592 -26.209  -2.865  1.00 59.74           C  \\nATOM   1310  CB  PHE B 165       6.978 -26.519  -5.272  1.00 59.74           C  \\nATOM   1311  O   PHE B 165       7.092 -25.156  -2.465  1.00 59.74           O  \\nATOM   1312  CG  PHE B 165       6.274 -27.333  -6.324  1.00 59.74           C  \\nATOM   1313  CD1 PHE B 165       6.759 -28.580  -6.699  1.00 59.74           C  \\nATOM   1314  CD2 PHE B 165       5.126 -26.850  -6.939  1.00 59.74           C  \\nATOM   1315  CE1 PHE B 165       6.110 -29.335  -7.673  1.00 59.74           C  \\nATOM   1316  CE2 PHE B 165       4.471 -27.599  -7.913  1.00 59.74           C  \\nATOM   1317  CZ  PHE B 165       4.965 -28.841  -8.279  1.00 59.74           C  \\nATOM   1318  N   GLN B 166       8.724 -26.788  -2.302  1.00 49.05           N  \\nATOM   1319  CA  GLN B 166       9.611 -26.031  -1.425  1.00 49.05           C  \\nATOM   1320  C   GLN B 166      11.042 -26.034  -1.954  1.00 49.05           C  \\nATOM   1321  CB  GLN B 166       9.574 -26.598  -0.005  1.00 49.05           C  \\nATOM   1322  O   GLN B 166      11.756 -27.031  -1.822  1.00 49.05           O  \\nATOM   1323  CG  GLN B 166       8.275 -26.316   0.737  1.00 49.05           C  \\nATOM   1324  CD  GLN B 166       8.450 -26.301   2.244  1.00 49.05           C  \\nATOM   1325  NE2 GLN B 166       7.540 -25.628   2.940  1.00 49.05           N  \\nATOM   1326  OE1 GLN B 166       9.395 -26.890   2.778  1.00 49.05           O  \\nATOM   1327  N   PRO B 167      11.452 -24.968  -2.574  1.00 50.69           N  \\nATOM   1328  CA  PRO B 167      12.753 -24.936  -3.246  1.00 50.69           C  \\nATOM   1329  C   PRO B 167      13.920 -25.127  -2.280  1.00 50.69           C  \\nATOM   1330  CB  PRO B 167      12.789 -23.542  -3.877  1.00 50.69           C  \\nATOM   1331  O   PRO B 167      14.994 -25.580  -2.686  1.00 50.69           O  \\nATOM   1332  CG  PRO B 167      11.422 -22.983  -3.649  1.00 50.69           C  \\nATOM   1333  CD  PRO B 167      10.701 -23.870  -2.675  1.00 50.69           C  \\nATOM   1334  N   THR B 168      13.689 -24.950  -0.941  1.00 47.53           N  \\nATOM   1335  CA  THR B 168      14.813 -24.958  -0.011  1.00 47.53           C  \\nATOM   1336  C   THR B 168      14.742 -26.170   0.914  1.00 47.53           C  \\nATOM   1337  CB  THR B 168      14.851 -23.669   0.830  1.00 47.53           C  \\nATOM   1338  O   THR B 168      15.617 -26.364   1.760  1.00 47.53           O  \\nATOM   1339  CG2 THR B 168      15.151 -22.453  -0.040  1.00 47.53           C  \\nATOM   1340  OG1 THR B 168      13.581 -23.484   1.469  1.00 47.53           O  \\nATOM   1341  N   ASN B 169      13.704 -27.119   0.929  1.00 48.63           N  \\nATOM   1342  CA  ASN B 169      13.472 -28.228   1.848  1.00 48.63           C  \\nATOM   1343  C   ASN B 169      14.032 -29.537   1.300  1.00 48.63           C  \\nATOM   1344  CB  ASN B 169      11.978 -28.373   2.147  1.00 48.63           C  \\nATOM   1345  O   ASN B 169      13.607 -30.619   1.710  1.00 48.63           O  \\nATOM   1346  CG  ASN B 169      11.501 -27.412   3.218  1.00 48.63           C  \\nATOM   1347  ND2 ASN B 169      10.273 -27.606   3.685  1.00 48.63           N  \\nATOM   1348  OD1 ASN B 169      12.229 -26.502   3.621  1.00 48.63           O  \\nATOM   1349  N   GLY B 170      15.060 -29.692   0.557  1.00 62.44           N  \\nATOM   1350  CA  GLY B 170      15.631 -30.910   0.007  1.00 62.44           C  \\nATOM   1351  C   GLY B 170      15.147 -31.215  -1.398  1.00 62.44           C  \\nATOM   1352  O   GLY B 170      14.070 -30.768  -1.800  1.00 62.44           O  \\nATOM   1353  N   VAL B 171      15.852 -31.914  -2.073  1.00 70.49           N  \\nATOM   1354  CA  VAL B 171      15.616 -32.177  -3.489  1.00 70.49           C  \\nATOM   1355  C   VAL B 171      14.262 -32.859  -3.670  1.00 70.49           C  \\nATOM   1356  CB  VAL B 171      16.737 -33.049  -4.098  1.00 70.49           C  \\nATOM   1357  O   VAL B 171      13.616 -32.705  -4.709  1.00 70.49           O  \\nATOM   1358  CG1 VAL B 171      17.824 -32.174  -4.721  1.00 70.49           C  \\nATOM   1359  CG2 VAL B 171      17.333 -33.971  -3.035  1.00 70.49           C  \\nATOM   1360  N   GLY B 172      13.767 -33.562  -2.541  1.00 74.60           N  \\nATOM   1361  CA  GLY B 172      12.488 -34.249  -2.614  1.00 74.60           C  \\nATOM   1362  C   GLY B 172      11.305 -33.301  -2.683  1.00 74.60           C  \\nATOM   1363  O   GLY B 172      10.242 -33.662  -3.193  1.00 74.60           O  \\nATOM   1364  N   TYR B 173      11.465 -32.044  -2.199  1.00 65.66           N  \\nATOM   1365  CA  TYR B 173      10.383 -31.067  -2.165  1.00 65.66           C  \\nATOM   1366  C   TYR B 173      10.537 -30.043  -3.283  1.00 65.66           C  \\nATOM   1367  CB  TYR B 173      10.343 -30.356  -0.808  1.00 65.66           C  \\nATOM   1368  O   TYR B 173       9.694 -29.157  -3.443  1.00 65.66           O  \\nATOM   1369  CG  TYR B 173       9.927 -31.251   0.334  1.00 65.66           C  \\nATOM   1370  CD1 TYR B 173       8.582 -31.464   0.624  1.00 65.66           C  \\nATOM   1371  CD2 TYR B 173      10.879 -31.885   1.125  1.00 65.66           C  \\nATOM   1372  CE1 TYR B 173       8.194 -32.286   1.677  1.00 65.66           C  \\nATOM   1373  CE2 TYR B 173      10.503 -32.710   2.181  1.00 65.66           C  \\nATOM   1374  OH  TYR B 173       8.783 -33.719   3.491  1.00 65.66           O  \\nATOM   1375  CZ  TYR B 173       9.161 -32.904   2.448  1.00 65.66           C  \\nATOM   1376  N   GLN B 174      11.567 -30.180  -3.920  1.00 70.64           N  \\nATOM   1377  CA  GLN B 174      11.810 -29.269  -5.033  1.00 70.64           C  \\nATOM   1378  C   GLN B 174      11.002 -29.674  -6.263  1.00 70.64           C  \\nATOM   1379  CB  GLN B 174      13.300 -29.225  -5.375  1.00 70.64           C  \\nATOM   1380  O   GLN B 174      10.594 -30.830  -6.390  1.00 70.64           O  \\nATOM   1381  CG  GLN B 174      14.165 -28.616  -4.280  1.00 70.64           C  \\nATOM   1382  CD  GLN B 174      15.634 -28.556  -4.657  1.00 70.64           C  \\nATOM   1383  NE2 GLN B 174      16.421 -27.840  -3.862  1.00 70.64           N  \\nATOM   1384  OE1 GLN B 174      16.057 -29.148  -5.655  1.00 70.64           O  \\nATOM   1385  N   PRO B 175      10.677 -28.767  -7.106  1.00 74.90           N  \\nATOM   1386  CA  PRO B 175       9.912 -29.083  -8.315  1.00 74.90           C  \\nATOM   1387  C   PRO B 175      10.714 -29.903  -9.323  1.00 74.90           C  \\nATOM   1388  CB  PRO B 175       9.565 -27.705  -8.884  1.00 74.90           C  \\nATOM   1389  O   PRO B 175      11.875 -29.587  -9.597  1.00 74.90           O  \\nATOM   1390  CG  PRO B 175      10.545 -26.772  -8.249  1.00 74.90           C  \\nATOM   1391  CD  PRO B 175      11.063 -27.408  -6.991  1.00 74.90           C  \\nATOM   1392  N   TYR B 176      10.086 -30.963  -9.683  1.00 80.52           N  \\nATOM   1393  CA  TYR B 176      10.594 -31.768 -10.788  1.00 80.52           C  \\nATOM   1394  C   TYR B 176       9.658 -31.697 -11.989  1.00 80.52           C  \\nATOM   1395  CB  TYR B 176      10.775 -33.226 -10.353  1.00 80.52           C  \\nATOM   1396  O   TYR B 176       8.452 -31.919 -11.858  1.00 80.52           O  \\nATOM   1397  CG  TYR B 176      12.093 -33.495  -9.669  1.00 80.52           C  \\nATOM   1398  CD1 TYR B 176      13.010 -34.394 -10.209  1.00 80.52           C  \\nATOM   1399  CD2 TYR B 176      12.424 -32.852  -8.480  1.00 80.52           C  \\nATOM   1400  CE1 TYR B 176      14.225 -34.647  -9.580  1.00 80.52           C  \\nATOM   1401  CE2 TYR B 176      13.636 -33.098  -7.843  1.00 80.52           C  \\nATOM   1402  OH  TYR B 176      15.730 -34.241  -7.774  1.00 80.52           O  \\nATOM   1403  CZ  TYR B 176      14.529 -33.995  -8.400  1.00 80.52           C  \\nATOM   1404  N   ARG B 177      10.228 -31.206 -13.013  1.00 83.29           N  \\nATOM   1405  CA  ARG B 177       9.469 -31.305 -14.255  1.00 83.29           C  \\nATOM   1406  C   ARG B 177       9.493 -32.730 -14.798  1.00 83.29           C  \\nATOM   1407  CB  ARG B 177      10.021 -30.336 -15.302  1.00 83.29           C  \\nATOM   1408  O   ARG B 177      10.533 -33.391 -14.777  1.00 83.29           O  \\nATOM   1409  CG  ARG B 177       9.759 -28.872 -14.985  1.00 83.29           C  \\nATOM   1410  CD  ARG B 177      10.220 -27.960 -16.113  1.00 83.29           C  \\nATOM   1411  NE  ARG B 177       9.919 -26.559 -15.831  1.00 83.29           N  \\nATOM   1412  NH1 ARG B 177      10.765 -25.760 -17.826  1.00 83.29           N  \\nATOM   1413  NH2 ARG B 177       9.868 -24.310 -16.294  1.00 83.29           N  \\nATOM   1414  CZ  ARG B 177      10.184 -25.546 -16.651  1.00 83.29           C  \\nATOM   1415  N   VAL B 178       8.300 -33.208 -15.168  1.00 88.54           N  \\nATOM   1416  CA  VAL B 178       8.152 -34.573 -15.661  1.00 88.54           C  \\nATOM   1417  C   VAL B 178       7.576 -34.552 -17.075  1.00 88.54           C  \\nATOM   1418  CB  VAL B 178       7.254 -35.419 -14.732  1.00 88.54           C  \\nATOM   1419  O   VAL B 178       6.652 -33.788 -17.365  1.00 88.54           O  \\nATOM   1420  CG1 VAL B 178       7.111 -36.842 -15.267  1.00 88.54           C  \\nATOM   1421  CG2 VAL B 178       7.818 -35.432 -13.312  1.00 88.54           C  \\nATOM   1422  N   VAL B 179       8.186 -35.345 -17.957  1.00 90.57           N  \\nATOM   1423  CA  VAL B 179       7.631 -35.617 -19.279  1.00 90.57           C  \\nATOM   1424  C   VAL B 179       7.481 -37.123 -19.477  1.00 90.57           C  \\nATOM   1425  CB  VAL B 179       8.511 -35.017 -20.399  1.00 90.57           C  \\nATOM   1426  O   VAL B 179       8.449 -37.874 -19.336  1.00 90.57           O  \\nATOM   1427  CG1 VAL B 179       7.956 -35.381 -21.775  1.00 90.57           C  \\nATOM   1428  CG2 VAL B 179       8.611 -33.501 -20.244  1.00 90.57           C  \\nATOM   1429  N   VAL B 180       6.277 -37.625 -19.692  1.00 91.71           N  \\nATOM   1430  CA  VAL B 180       5.992 -39.025 -19.987  1.00 91.71           C  \\nATOM   1431  C   VAL B 180       5.720 -39.194 -21.480  1.00 91.71           C  \\nATOM   1432  CB  VAL B 180       4.793 -39.546 -19.164  1.00 91.71           C  \\nATOM   1433  O   VAL B 180       4.780 -38.603 -22.017  1.00 91.71           O  \\nATOM   1434  CG1 VAL B 180       4.526 -41.019 -19.471  1.00 91.71           C  \\nATOM   1435  CG2 VAL B 180       5.043 -39.345 -17.671  1.00 91.71           C  \\nATOM   1436  N   LEU B 181       6.569 -39.932 -22.090  1.00 89.87           N  \\nATOM   1437  CA  LEU B 181       6.370 -40.253 -23.499  1.00 89.87           C  \\nATOM   1438  C   LEU B 181       5.683 -41.605 -23.656  1.00 89.87           C  \\nATOM   1439  CB  LEU B 181       7.709 -40.258 -24.242  1.00 89.87           C  \\nATOM   1440  O   LEU B 181       6.219 -42.632 -23.231  1.00 89.87           O  \\nATOM   1441  CG  LEU B 181       8.510 -38.955 -24.205  1.00 89.87           C  \\nATOM   1442  CD1 LEU B 181       9.890 -39.164 -24.819  1.00 89.87           C  \\nATOM   1443  CD2 LEU B 181       7.759 -37.844 -24.930  1.00 89.87           C  \\nATOM   1444  N   SER B 182       4.502 -41.659 -24.179  1.00 89.90           N  \\nATOM   1445  CA  SER B 182       3.771 -42.885 -24.479  1.00 89.90           C  \\nATOM   1446  C   SER B 182       3.793 -43.190 -25.974  1.00 89.90           C  \\nATOM   1447  CB  SER B 182       2.325 -42.781 -23.993  1.00 89.90           C  \\nATOM   1448  O   SER B 182       3.420 -42.346 -26.790  1.00 89.90           O  \\nATOM   1449  OG  SER B 182       2.085 -43.686 -22.929  1.00 89.90           O  \\nATOM   1450  N   PHE B 183       4.190 -44.404 -26.305  1.00 86.34           N  \\nATOM   1451  CA  PHE B 183       4.389 -44.770 -27.702  1.00 86.34           C  \\nATOM   1452  C   PHE B 183       3.233 -45.624 -28.208  1.00 86.34           C  \\nATOM   1453  CB  PHE B 183       5.713 -45.519 -27.880  1.00 86.34           C  \\nATOM   1454  O   PHE B 183       2.833 -46.588 -27.552  1.00 86.34           O  \\nATOM   1455  CG  PHE B 183       6.901 -44.799 -27.302  1.00 86.34           C  \\nATOM   1456  CD1 PHE B 183       7.290 -43.561 -27.798  1.00 86.34           C  \\nATOM   1457  CD2 PHE B 183       7.628 -45.361 -26.260  1.00 86.34           C  \\nATOM   1458  CE1 PHE B 183       8.389 -42.892 -27.264  1.00 86.34           C  \\nATOM   1459  CE2 PHE B 183       8.728 -44.698 -25.722  1.00 86.34           C  \\nATOM   1460  CZ  PHE B 183       9.107 -43.464 -26.226  1.00 86.34           C  \\nATOM   1461  N   GLU B 184       2.615 -45.248 -29.249  1.00 81.31           N  \\nATOM   1462  CA  GLU B 184       1.735 -46.117 -30.024  1.00 81.31           C  \\nATOM   1463  C   GLU B 184       2.486 -46.776 -31.177  1.00 81.31           C  \\nATOM   1464  CB  GLU B 184       0.536 -45.330 -30.558  1.00 81.31           C  \\nATOM   1465  O   GLU B 184       2.791 -46.124 -32.179  1.00 81.31           O  \\nATOM   1466  CG  GLU B 184      -0.679 -46.193 -30.865  1.00 81.31           C  \\nATOM   1467  CD  GLU B 184      -1.876 -45.392 -31.353  1.00 81.31           C  \\nATOM   1468  OE1 GLU B 184      -2.884 -46.003 -31.774  1.00 81.31           O  \\nATOM   1469  OE2 GLU B 184      -1.805 -44.144 -31.314  1.00 81.31           O  \\nATOM   1470  N   LEU B 185       2.845 -48.055 -31.002  1.00 68.92           N  \\nATOM   1471  CA  LEU B 185       3.705 -48.744 -31.958  1.00 68.92           C  \\nATOM   1472  C   LEU B 185       2.924 -49.140 -33.206  1.00 68.92           C  \\nATOM   1473  CB  LEU B 185       4.331 -49.986 -31.318  1.00 68.92           C  \\nATOM   1474  O   LEU B 185       1.726 -49.422 -33.130  1.00 68.92           O  \\nATOM   1475  CG  LEU B 185       5.319 -49.737 -30.178  1.00 68.92           C  \\nATOM   1476  CD1 LEU B 185       5.535 -51.015 -29.375  1.00 68.92           C  \\nATOM   1477  CD2 LEU B 185       6.643 -49.211 -30.722  1.00 68.92           C  \\nATOM   1478  N   LEU B 186       3.496 -48.955 -34.426  1.00 61.26           N  \\nATOM   1479  CA  LEU B 186       2.909 -49.405 -35.684  1.00 61.26           C  \\nATOM   1480  C   LEU B 186       2.848 -50.928 -35.741  1.00 61.26           C  \\nATOM   1481  CB  LEU B 186       3.712 -48.870 -36.872  1.00 61.26           C  \\nATOM   1482  O   LEU B 186       3.825 -51.605 -35.411  1.00 61.26           O  \\nATOM   1483  CG  LEU B 186       3.090 -47.702 -37.640  1.00 61.26           C  \\nATOM   1484  CD1 LEU B 186       4.133 -46.620 -37.894  1.00 61.26           C  \\nATOM   1485  CD2 LEU B 186       2.484 -48.187 -38.952  1.00 61.26           C  \\nATOM   1486  N   HIS B 187       1.676 -51.595 -35.577  1.00 51.05           N  \\nATOM   1487  CA  HIS B 187       1.557 -53.034 -35.780  1.00 51.05           C  \\nATOM   1488  C   HIS B 187       1.863 -53.414 -37.225  1.00 51.05           C  \\nATOM   1489  CB  HIS B 187       0.156 -53.515 -35.397  1.00 51.05           C  \\nATOM   1490  O   HIS B 187       1.328 -54.399 -37.739  1.00 51.05           O  \\nATOM   1491  CG  HIS B 187      -0.120 -53.449 -33.928  1.00 51.05           C  \\nATOM   1492  CD2 HIS B 187      -0.960 -52.661 -33.216  1.00 51.05           C  \\nATOM   1493  ND1 HIS B 187       0.513 -54.264 -33.015  1.00 51.05           N  \\nATOM   1494  CE1 HIS B 187       0.072 -53.980 -31.801  1.00 51.05           C  \\nATOM   1495  NE2 HIS B 187      -0.822 -53.011 -31.895  1.00 51.05           N  \\nATOM   1496  N   ALA B 188       2.501 -52.618 -37.945  1.00 45.29           N  \\nATOM   1497  CA  ALA B 188       2.644 -53.020 -39.342  1.00 45.29           C  \\nATOM   1498  C   ALA B 188       3.796 -54.006 -39.514  1.00 45.29           C  \\nATOM   1499  CB  ALA B 188       2.860 -51.796 -40.229  1.00 45.29           C  \\nATOM   1500  O   ALA B 188       4.726 -54.031 -38.704  1.00 45.29           O  \\nATOM   1501  N   PRO B 189       3.697 -55.098 -40.468  1.00 36.85           N  \\nATOM   1502  CA  PRO B 189       4.831 -55.996 -40.696  1.00 36.85           C  \\nATOM   1503  C   PRO B 189       6.160 -55.252 -40.809  1.00 36.85           C  \\nATOM   1504  CB  PRO B 189       4.476 -56.683 -42.017  1.00 36.85           C  \\nATOM   1505  O   PRO B 189       6.181 -54.019 -40.831  1.00 36.85           O  \\nATOM   1506  CG  PRO B 189       3.264 -55.960 -42.510  1.00 36.85           C  \\nATOM   1507  CD  PRO B 189       2.851 -54.958 -41.471  1.00 36.85           C  \\nATOM   1508  N   ALA B 190       7.366 -55.911 -41.444  1.00 37.55           N  \\nATOM   1509  CA  ALA B 190       8.766 -55.520 -41.589  1.00 37.55           C  \\nATOM   1510  C   ALA B 190       8.885 -54.103 -42.143  1.00 37.55           C  \\nATOM   1511  CB  ALA B 190       9.504 -56.505 -42.492  1.00 37.55           C  \\nATOM   1512  O   ALA B 190       8.686 -53.880 -43.340  1.00 37.55           O  \\nATOM   1513  N   THR B 191       8.159 -53.187 -41.612  1.00 36.60           N  \\nATOM   1514  CA  THR B 191       8.340 -51.927 -42.324  1.00 36.60           C  \\nATOM   1515  C   THR B 191       9.639 -51.248 -41.901  1.00 36.60           C  \\nATOM   1516  CB  THR B 191       7.156 -50.973 -42.080  1.00 36.60           C  \\nATOM   1517  O   THR B 191      10.038 -51.328 -40.737  1.00 36.60           O  \\nATOM   1518  CG2 THR B 191       6.555 -50.495 -43.398  1.00 36.60           C  \\nATOM   1519  OG1 THR B 191       6.146 -51.656 -41.327  1.00 36.60           O  \\nATOM   1520  N   VAL B 192      10.650 -51.172 -42.852  1.00 34.99           N  \\nATOM   1521  CA  VAL B 192      11.800 -50.296 -42.651  1.00 34.99           C  \\nATOM   1522  C   VAL B 192      11.328 -48.931 -42.154  1.00 34.99           C  \\nATOM   1523  CB  VAL B 192      12.624 -50.135 -43.948  1.00 34.99           C  \\nATOM   1524  O   VAL B 192      10.454 -48.309 -42.763  1.00 34.99           O  \\nATOM   1525  CG1 VAL B 192      13.902 -49.341 -43.680  1.00 34.99           C  \\nATOM   1526  CG2 VAL B 192      12.956 -51.502 -44.542  1.00 34.99           C  \\nATOM   1527  N   CYS B 193      11.342 -48.744 -41.028  1.00 39.83           N  \\nATOM   1528  CA  CYS B 193      11.009 -47.435 -40.478  1.00 39.83           C  \\nATOM   1529  C   CYS B 193      11.642 -46.320 -41.301  1.00 39.83           C  \\nATOM   1530  CB  CYS B 193      11.468 -47.332 -39.024  1.00 39.83           C  \\nATOM   1531  O   CYS B 193      12.858 -46.307 -41.504  1.00 39.83           O  \\nATOM   1532  SG  CYS B 193      10.448 -48.275 -37.869  1.00 39.83           S  \\nATOM   1533  N   GLY B 194      11.053 -45.804 -42.485  1.00 32.08           N  \\nATOM   1534  CA  GLY B 194      11.623 -44.672 -43.198  1.00 32.08           C  \\nATOM   1535  C   GLY B 194      12.208 -43.619 -42.275  1.00 32.08           C  \\nATOM   1536  O   GLY B 194      11.830 -43.533 -41.105  1.00 32.08           O  \\nTER    1537      GLY B 194                                                      \\nATOM   1538  N   SER C   1     -43.802  -5.422  14.012  1.00 65.84           N  \\nATOM   1539  CA  SER C   1     -42.434  -4.920  14.091  1.00 65.84           C  \\nATOM   1540  C   SER C   1     -42.133  -3.955  12.949  1.00 65.84           C  \\nATOM   1541  CB  SER C   1     -41.436  -6.078  14.068  1.00 65.84           C  \\nATOM   1542  O   SER C   1     -42.506  -4.208  11.801  1.00 65.84           O  \\nATOM   1543  OG  SER C   1     -40.104  -5.594  14.062  1.00 65.84           O  \\nATOM   1544  N   THR C   2     -41.699  -2.795  13.198  1.00 85.63           N  \\nATOM   1545  CA  THR C   2     -41.320  -1.808  12.193  1.00 85.63           C  \\nATOM   1546  C   THR C   2     -40.178  -2.330  11.326  1.00 85.63           C  \\nATOM   1547  CB  THR C   2     -40.905  -0.476  12.846  1.00 85.63           C  \\nATOM   1548  O   THR C   2     -39.505  -3.296  11.692  1.00 85.63           O  \\nATOM   1549  CG2 THR C   2     -42.036   0.098  13.692  1.00 85.63           C  \\nATOM   1550  OG1 THR C   2     -39.762  -0.697  13.682  1.00 85.63           O  \\nATOM   1551  N   ILE C   3     -40.033  -1.902  10.157  1.00 90.43           N  \\nATOM   1552  CA  ILE C   3     -38.951  -2.255   9.244  1.00 90.43           C  \\nATOM   1553  C   ILE C   3     -37.606  -2.079   9.946  1.00 90.43           C  \\nATOM   1554  CB  ILE C   3     -38.998  -1.403   7.955  1.00 90.43           C  \\nATOM   1555  O   ILE C   3     -36.698  -2.895   9.772  1.00 90.43           O  \\nATOM   1556  CG1 ILE C   3     -40.214  -1.788   7.105  1.00 90.43           C  \\nATOM   1557  CG2 ILE C   3     -37.701  -1.558   7.157  1.00 90.43           C  \\nATOM   1558  CD1 ILE C   3     -40.469  -0.853   5.930  1.00 90.43           C  \\nATOM   1559  N   GLU C   4     -37.480  -1.094  10.717  1.00 91.27           N  \\nATOM   1560  CA  GLU C   4     -36.246  -0.819  11.446  1.00 91.27           C  \\nATOM   1561  C   GLU C   4     -35.964  -1.903  12.482  1.00 91.27           C  \\nATOM   1562  CB  GLU C   4     -36.317   0.551  12.125  1.00 91.27           C  \\nATOM   1563  O   GLU C   4     -34.826  -2.359  12.617  1.00 91.27           O  \\nATOM   1564  CG  GLU C   4     -35.014   0.978  12.785  1.00 91.27           C  \\nATOM   1565  CD  GLU C   4     -34.996   2.445  13.184  1.00 91.27           C  \\nATOM   1566  OE1 GLU C   4     -35.081   2.746  14.397  1.00 91.27           O  \\nATOM   1567  OE2 GLU C   4     -34.897   3.301  12.277  1.00 91.27           O  \\nATOM   1568  N   GLU C   5     -36.963  -2.326  13.275  1.00 93.20           N  \\nATOM   1569  CA  GLU C   5     -36.787  -3.384  14.264  1.00 93.20           C  \\nATOM   1570  C   GLU C   5     -36.404  -4.703  13.599  1.00 93.20           C  \\nATOM   1571  CB  GLU C   5     -38.063  -3.564  15.092  1.00 93.20           C  \\nATOM   1572  O   GLU C   5     -35.565  -5.444  14.115  1.00 93.20           O  \\nATOM   1573  CG  GLU C   5     -38.184  -2.588  16.253  1.00 93.20           C  \\nATOM   1574  CD  GLU C   5     -39.491  -2.725  17.018  1.00 93.20           C  \\nATOM   1575  OE1 GLU C   5     -39.635  -2.095  18.091  1.00 93.20           O  \\nATOM   1576  OE2 GLU C   5     -40.377  -3.468  16.541  1.00 93.20           O  \\nATOM   1577  N   GLN C   6     -37.020  -4.977  12.440  1.00 94.71           N  \\nATOM   1578  CA  GLN C   6     -36.677  -6.175  11.682  1.00 94.71           C  \\nATOM   1579  C   GLN C   6     -35.233  -6.123  11.191  1.00 94.71           C  \\nATOM   1580  CB  GLN C   6     -37.628  -6.352  10.497  1.00 94.71           C  \\nATOM   1581  O   GLN C   6     -34.528  -7.133  11.211  1.00 94.71           O  \\nATOM   1582  CG  GLN C   6     -39.053  -6.710  10.899  1.00 94.71           C  \\nATOM   1583  CD  GLN C   6     -40.001  -6.762   9.717  1.00 94.71           C  \\nATOM   1584  NE2 GLN C   6     -41.299  -6.811   9.999  1.00 94.71           N  \\nATOM   1585  OE1 GLN C   6     -39.572  -6.757   8.559  1.00 94.71           O  \\nATOM   1586  N   ALA C   7     -34.846  -4.949  10.736  1.00 95.20           N  \\nATOM   1587  CA  ALA C   7     -33.476  -4.751  10.271  1.00 95.20           C  \\nATOM   1588  C   ALA C   7     -32.476  -4.964  11.404  1.00 95.20           C  \\nATOM   1589  CB  ALA C   7     -33.312  -3.354   9.678  1.00 95.20           C  \\nATOM   1590  O   ALA C   7     -31.427  -5.581  11.207  1.00 95.20           O  \\nATOM   1591  N   LYS C   8     -32.800  -4.486  12.578  1.00 95.23           N  \\nATOM   1592  CA  LYS C   8     -31.945  -4.655  13.749  1.00 95.23           C  \\nATOM   1593  C   LYS C   8     -31.770  -6.132  14.093  1.00 95.23           C  \\nATOM   1594  CB  LYS C   8     -32.521  -3.902  14.949  1.00 95.23           C  \\nATOM   1595  O   LYS C   8     -30.661  -6.576  14.398  1.00 95.23           O  \\nATOM   1596  CG  LYS C   8     -32.159  -2.425  14.984  1.00 95.23           C  \\nATOM   1597  CD  LYS C   8     -32.758  -1.732  16.201  1.00 95.23           C  \\nATOM   1598  CE  LYS C   8     -32.475  -0.236  16.190  1.00 95.23           C  \\nATOM   1599  NZ  LYS C   8     -33.142   0.464  17.328  1.00 95.23           N  \\nATOM   1600  N   THR C   9     -32.867  -6.861  14.054  1.00 95.41           N  \\nATOM   1601  CA  THR C   9     -32.819  -8.294  14.321  1.00 95.41           C  \\nATOM   1602  C   THR C   9     -31.964  -9.010  13.280  1.00 95.41           C  \\nATOM   1603  CB  THR C   9     -34.232  -8.906  14.338  1.00 95.41           C  \\nATOM   1604  O   THR C   9     -31.153  -9.874  13.622  1.00 95.41           O  \\nATOM   1605  CG2 THR C   9     -34.182 -10.396  14.663  1.00 95.41           C  \\nATOM   1606  OG1 THR C   9     -35.023  -8.239  15.328  1.00 95.41           O  \\nATOM   1607  N   PHE C  10     -32.158  -8.607  12.058  1.00 96.17           N  \\nATOM   1608  CA  PHE C  10     -31.374  -9.163  10.962  1.00 96.17           C  \\nATOM   1609  C   PHE C  10     -29.887  -8.905  11.174  1.00 96.17           C  \\nATOM   1610  CB  PHE C  10     -31.824  -8.571   9.623  1.00 96.17           C  \\nATOM   1611  O   PHE C  10     -29.071  -9.823  11.070  1.00 96.17           O  \\nATOM   1612  CG  PHE C  10     -30.854  -8.809   8.497  1.00 96.17           C  \\nATOM   1613  CD1 PHE C  10     -30.030  -7.786   8.043  1.00 96.17           C  \\nATOM   1614  CD2 PHE C  10     -30.766 -10.056   7.893  1.00 96.17           C  \\nATOM   1615  CE1 PHE C  10     -29.131  -8.004   7.002  1.00 96.17           C  \\nATOM   1616  CE2 PHE C  10     -29.870 -10.281   6.852  1.00 96.17           C  \\nATOM   1617  CZ  PHE C  10     -29.054  -9.253   6.407  1.00 96.17           C  \\nATOM   1618  N   LEU C  11     -29.515  -7.723  11.551  1.00 96.50           N  \\nATOM   1619  CA  LEU C  11     -28.120  -7.320  11.698  1.00 96.50           C  \\nATOM   1620  C   LEU C  11     -27.493  -7.970  12.926  1.00 96.50           C  \\nATOM   1621  CB  LEU C  11     -28.010  -5.797  11.800  1.00 96.50           C  \\nATOM   1622  O   LEU C  11     -26.303  -8.292  12.924  1.00 96.50           O  \\nATOM   1623  CG  LEU C  11     -28.213  -5.014  10.502  1.00 96.50           C  \\nATOM   1624  CD1 LEU C  11     -28.306  -3.520  10.793  1.00 96.50           C  \\nATOM   1625  CD2 LEU C  11     -27.082  -5.302   9.521  1.00 96.50           C  \\nATOM   1626  N   ASP C  12     -28.289  -8.129  13.970  1.00 95.51           N  \\nATOM   1627  CA  ASP C  12     -27.789  -8.818  15.156  1.00 95.51           C  \\nATOM   1628  C   ASP C  12     -27.392 -10.256  14.829  1.00 95.51           C  \\nATOM   1629  CB  ASP C  12     -28.839  -8.802  16.268  1.00 95.51           C  \\nATOM   1630  O   ASP C  12     -26.333 -10.724  15.252  1.00 95.51           O  \\nATOM   1631  CG  ASP C  12     -28.958  -7.451  16.952  1.00 95.51           C  \\nATOM   1632  OD1 ASP C  12     -28.066  -6.595  16.771  1.00 95.51           O  \\nATOM   1633  OD2 ASP C  12     -29.952  -7.242  17.681  1.00 95.51           O  \\nATOM   1634  N   LYS C  13     -28.224 -10.896  14.061  1.00 95.93           N  \\nATOM   1635  CA  LYS C  13     -27.920 -12.254  13.621  1.00 95.93           C  \\nATOM   1636  C   LYS C  13     -26.706 -12.274  12.696  1.00 95.93           C  \\nATOM   1637  CB  LYS C  13     -29.127 -12.873  12.915  1.00 95.93           C  \\nATOM   1638  O   LYS C  13     -25.828 -13.128  12.832  1.00 95.93           O  \\nATOM   1639  CG  LYS C  13     -28.940 -14.335  12.536  1.00 95.93           C  \\nATOM   1640  CD  LYS C  13     -30.187 -14.903  11.869  1.00 95.93           C  \\nATOM   1641  CE  LYS C  13     -29.969 -16.337  11.404  1.00 95.93           C  \\nATOM   1642  NZ  LYS C  13     -31.169 -16.879  10.700  1.00 95.93           N  \\nATOM   1643  N   PHE C  14     -26.679 -11.348  11.768  1.00 94.97           N  \\nATOM   1644  CA  PHE C  14     -25.551 -11.227  10.852  1.00 94.97           C  \\nATOM   1645  C   PHE C  14     -24.245 -11.062  11.619  1.00 94.97           C  \\nATOM   1646  CB  PHE C  14     -25.754 -10.043   9.901  1.00 94.97           C  \\nATOM   1647  O   PHE C  14     -23.264 -11.755  11.342  1.00 94.97           O  \\nATOM   1648  CG  PHE C  14     -24.528  -9.687   9.104  1.00 94.97           C  \\nATOM   1649  CD1 PHE C  14     -23.660  -8.695   9.544  1.00 94.97           C  \\nATOM   1650  CD2 PHE C  14     -24.243 -10.345   7.915  1.00 94.97           C  \\nATOM   1651  CE1 PHE C  14     -22.524  -8.363   8.809  1.00 94.97           C  \\nATOM   1652  CE2 PHE C  14     -23.110 -10.020   7.175  1.00 94.97           C  \\nATOM   1653  CZ  PHE C  14     -22.253  -9.028   7.623  1.00 94.97           C  \\nATOM   1654  N   ASN C  15     -24.226 -10.154  12.565  1.00 93.96           N  \\nATOM   1655  CA  ASN C  15     -23.021  -9.843  13.326  1.00 93.96           C  \\nATOM   1656  C   ASN C  15     -22.478 -11.074  14.045  1.00 93.96           C  \\nATOM   1657  CB  ASN C  15     -23.294  -8.720  14.329  1.00 93.96           C  \\nATOM   1658  O   ASN C  15     -21.268 -11.306  14.060  1.00 93.96           O  \\nATOM   1659  CG  ASN C  15     -23.322  -7.351  13.679  1.00 93.96           C  \\nATOM   1660  ND2 ASN C  15     -24.267  -6.516  14.096  1.00 93.96           N  \\nATOM   1661  OD1 ASN C  15     -22.503  -7.046  12.808  1.00 93.96           O  \\nATOM   1662  N   HIS C  16     -23.316 -11.858  14.609  1.00 93.94           N  \\nATOM   1663  CA  HIS C  16     -22.905 -13.059  15.327  1.00 93.94           C  \\nATOM   1664  C   HIS C  16     -22.325 -14.099  14.375  1.00 93.94           C  \\nATOM   1665  CB  HIS C  16     -24.087 -13.652  16.097  1.00 93.94           C  \\nATOM   1666  O   HIS C  16     -21.234 -14.623  14.612  1.00 93.94           O  \\nATOM   1667  CG  HIS C  16     -23.680 -14.576  17.201  1.00 93.94           C  \\nATOM   1668  CD2 HIS C  16     -24.416 -15.378  18.006  1.00 93.94           C  \\nATOM   1669  ND1 HIS C  16     -22.367 -14.745  17.584  1.00 93.94           N  \\nATOM   1670  CE1 HIS C  16     -22.313 -15.615  18.579  1.00 93.94           C  \\nATOM   1671  NE2 HIS C  16     -23.544 -16.014  18.854  1.00 93.94           N  \\nATOM   1672  N   GLU C  17     -22.974 -14.317  13.238  1.00 95.21           N  \\nATOM   1673  CA  GLU C  17     -22.554 -15.338  12.282  1.00 95.21           C  \\nATOM   1674  C   GLU C  17     -21.325 -14.887  11.498  1.00 95.21           C  \\nATOM   1675  CB  GLU C  17     -23.696 -15.676  11.320  1.00 95.21           C  \\nATOM   1676  O   GLU C  17     -20.420 -15.684  11.240  1.00 95.21           O  \\nATOM   1677  CG  GLU C  17     -24.854 -16.414  11.976  1.00 95.21           C  \\nATOM   1678  CD  GLU C  17     -25.986 -16.731  11.012  1.00 95.21           C  \\nATOM   1679  OE1 GLU C  17     -27.042 -17.234  11.460  1.00 95.21           O  \\nATOM   1680  OE2 GLU C  17     -25.817 -16.475   9.799  1.00 95.21           O  \\nATOM   1681  N   ALA C  18     -21.347 -13.629  11.164  1.00 90.36           N  \\nATOM   1682  CA  ALA C  18     -20.237 -13.077  10.393  1.00 90.36           C  \\nATOM   1683  C   ALA C  18     -18.930 -13.160  11.176  1.00 90.36           C  \\nATOM   1684  CB  ALA C  18     -20.528 -11.630  10.002  1.00 90.36           C  \\nATOM   1685  O   ALA C  18     -17.881 -13.484  10.613  1.00 90.36           O  \\nATOM   1686  N   GLU C  19     -18.968 -12.895  12.447  1.00 91.39           N  \\nATOM   1687  CA  GLU C  19     -17.784 -12.919  13.300  1.00 91.39           C  \\nATOM   1688  C   GLU C  19     -17.116 -14.291  13.280  1.00 91.39           C  \\nATOM   1689  CB  GLU C  19     -18.148 -12.532  14.736  1.00 91.39           C  \\nATOM   1690  O   GLU C  19     -15.899 -14.392  13.113  1.00 91.39           O  \\nATOM   1691  CG  GLU C  19     -16.942 -12.273  15.628  1.00 91.39           C  \\nATOM   1692  CD  GLU C  19     -17.303 -11.606  16.946  1.00 91.39           C  \\nATOM   1693  OE1 GLU C  19     -16.452 -10.884  17.514  1.00 91.39           O  \\nATOM   1694  OE2 GLU C  19     -18.445 -11.809  17.415  1.00 91.39           O  \\nATOM   1695  N   ASP C  20     -17.859 -15.344  13.391  1.00 93.21           N  \\nATOM   1696  CA  ASP C  20     -17.332 -16.705  13.427  1.00 93.21           C  \\nATOM   1697  C   ASP C  20     -16.735 -17.099  12.078  1.00 93.21           C  \\nATOM   1698  CB  ASP C  20     -18.429 -17.695  13.827  1.00 93.21           C  \\nATOM   1699  O   ASP C  20     -15.602 -17.582  12.012  1.00 93.21           O  \\nATOM   1700  CG  ASP C  20     -18.629 -17.782  15.329  1.00 93.21           C  \\nATOM   1701  OD1 ASP C  20     -17.819 -17.207  16.088  1.00 93.21           O  \\nATOM   1702  OD2 ASP C  20     -19.605 -18.435  15.759  1.00 93.21           O  \\nATOM   1703  N   LEU C  21     -17.480 -16.858  11.030  1.00 87.01           N  \\nATOM   1704  CA  LEU C  21     -17.030 -17.237   9.696  1.00 87.01           C  \\nATOM   1705  C   LEU C  21     -15.814 -16.418   9.278  1.00 87.01           C  \\nATOM   1706  CB  LEU C  21     -18.159 -17.053   8.677  1.00 87.01           C  \\nATOM   1707  O   LEU C  21     -14.879 -16.949   8.675  1.00 87.01           O  \\nATOM   1708  CG  LEU C  21     -19.275 -18.099   8.706  1.00 87.01           C  \\nATOM   1709  CD1 LEU C  21     -20.441 -17.653   7.830  1.00 87.01           C  \\nATOM   1710  CD2 LEU C  21     -18.748 -19.456   8.253  1.00 87.01           C  \\nATOM   1711  N   PHE C  22     -15.874 -15.195   9.651  1.00 84.22           N  \\nATOM   1712  CA  PHE C  22     -14.750 -14.322   9.333  1.00 84.22           C  \\nATOM   1713  C   PHE C  22     -13.494 -14.766  10.073  1.00 84.22           C  \\nATOM   1714  CB  PHE C  22     -15.081 -12.868   9.684  1.00 84.22           C  \\nATOM   1715  O   PHE C  22     -12.405 -14.797   9.496  1.00 84.22           O  \\nATOM   1716  CG  PHE C  22     -13.928 -11.920   9.492  1.00 84.22           C  \\nATOM   1717  CD1 PHE C  22     -13.224 -11.429  10.584  1.00 84.22           C  \\nATOM   1718  CD2 PHE C  22     -13.547 -11.521   8.217  1.00 84.22           C  \\nATOM   1719  CE1 PHE C  22     -12.157 -10.551  10.409  1.00 84.22           C  \\nATOM   1720  CE2 PHE C  22     -12.482 -10.644   8.034  1.00 84.22           C  \\nATOM   1721  CZ  PHE C  22     -11.788 -10.160   9.132  1.00 84.22           C  \\nATOM   1722  N   TYR C  23     -13.636 -15.054  11.338  1.00 90.40           N  \\nATOM   1723  CA  TYR C  23     -12.506 -15.501  12.144  1.00 90.40           C  \\nATOM   1724  C   TYR C  23     -11.874 -16.753  11.550  1.00 90.40           C  \\nATOM   1725  CB  TYR C  23     -12.948 -15.773  13.585  1.00 90.40           C  \\nATOM   1726  O   TYR C  23     -10.651 -16.833  11.410  1.00 90.40           O  \\nATOM   1727  CG  TYR C  23     -11.821 -16.194  14.497  1.00 90.40           C  \\nATOM   1728  CD1 TYR C  23     -11.797 -17.465  15.067  1.00 90.40           C  \\nATOM   1729  CD2 TYR C  23     -10.778 -15.321  14.791  1.00 90.40           C  \\nATOM   1730  CE1 TYR C  23     -10.761 -17.856  15.909  1.00 90.40           C  \\nATOM   1731  CE2 TYR C  23      -9.737 -15.702  15.632  1.00 90.40           C  \\nATOM   1732  OH  TYR C  23      -8.710 -17.351  17.017  1.00 90.40           O  \\nATOM   1733  CZ  TYR C  23      -9.737 -16.969  16.184  1.00 90.40           C  \\nATOM   1734  N   GLN C  24     -12.653 -17.721  11.124  1.00 89.40           N  \\nATOM   1735  CA  GLN C  24     -12.155 -18.957  10.529  1.00 89.40           C  \\nATOM   1736  C   GLN C  24     -11.440 -18.683   9.209  1.00 89.40           C  \\nATOM   1737  CB  GLN C  24     -13.299 -19.948  10.311  1.00 89.40           C  \\nATOM   1738  O   GLN C  24     -10.385 -19.259   8.937  1.00 89.40           O  \\nATOM   1739  CG  GLN C  24     -13.864 -20.529  11.600  1.00 89.40           C  \\nATOM   1740  CD  GLN C  24     -12.812 -21.230  12.438  1.00 89.40           C  \\nATOM   1741  NE2 GLN C  24     -12.939 -21.128  13.757  1.00 89.40           N  \\nATOM   1742  OE1 GLN C  24     -11.892 -21.859  11.905  1.00 89.40           O  \\nATOM   1743  N   SER C  25     -12.069 -17.845   8.475  1.00 78.33           N  \\nATOM   1744  CA  SER C  25     -11.455 -17.473   7.205  1.00 78.33           C  \\nATOM   1745  C   SER C  25     -10.136 -16.738   7.422  1.00 78.33           C  \\nATOM   1746  CB  SER C  25     -12.405 -16.601   6.384  1.00 78.33           C  \\nATOM   1747  O   SER C  25      -9.152 -17.000   6.728  1.00 78.33           O  \\nATOM   1748  OG  SER C  25     -11.791 -16.186   5.176  1.00 78.33           O  \\nATOM   1749  N   SER C  26     -10.132 -15.838   8.359  1.00 81.48           N  \\nATOM   1750  CA  SER C  26      -8.930 -15.072   8.670  1.00 81.48           C  \\nATOM   1751  C   SER C  26      -7.826 -15.973   9.214  1.00 81.48           C  \\nATOM   1752  CB  SER C  26      -9.244 -13.970   9.682  1.00 81.48           C  \\nATOM   1753  O   SER C  26      -6.653 -15.796   8.880  1.00 81.48           O  \\nATOM   1754  OG  SER C  26     -10.128 -13.012   9.125  1.00 81.48           O  \\nATOM   1755  N   LEU C  27      -8.184 -16.920  10.053  1.00 88.97           N  \\nATOM   1756  CA  LEU C  27      -7.224 -17.873  10.600  1.00 88.97           C  \\nATOM   1757  C   LEU C  27      -6.588 -18.702   9.489  1.00 88.97           C  \\nATOM   1758  CB  LEU C  27      -7.903 -18.795  11.616  1.00 88.97           C  \\nATOM   1759  O   LEU C  27      -5.375 -18.927   9.492  1.00 88.97           O  \\nATOM   1760  CG  LEU C  27      -6.985 -19.481  12.628  1.00 88.97           C  \\nATOM   1761  CD1 LEU C  27      -6.690 -18.544  13.795  1.00 88.97           C  \\nATOM   1762  CD2 LEU C  27      -7.610 -20.780  13.124  1.00 88.97           C  \\nATOM   1763  N   ALA C  28      -7.444 -19.200   8.578  1.00 79.08           N  \\nATOM   1764  CA  ALA C  28      -6.943 -19.971   7.444  1.00 79.08           C  \\nATOM   1765  C   ALA C  28      -5.982 -19.141   6.598  1.00 79.08           C  \\nATOM   1766  CB  ALA C  28      -8.103 -20.473   6.588  1.00 79.08           C  \\nATOM   1767  O   ALA C  28      -4.944 -19.639   6.157  1.00 79.08           O  \\nATOM   1768  N   SER C  29      -6.289 -17.911   6.425  1.00 72.97           N  \\nATOM   1769  CA  SER C  29      -5.420 -17.003   5.684  1.00 72.97           C  \\nATOM   1770  C   SER C  29      -4.111 -16.760   6.428  1.00 72.97           C  \\nATOM   1771  CB  SER C  29      -6.126 -15.671   5.431  1.00 72.97           C  \\nATOM   1772  O   SER C  29      -3.038 -16.757   5.822  1.00 72.97           O  \\nATOM   1773  OG  SER C  29      -5.341 -14.835   4.599  1.00 72.97           O  \\nATOM   1774  N   TRP C  30      -4.220 -16.537   7.694  1.00 81.88           N  \\nATOM   1775  CA  TRP C  30      -3.032 -16.379   8.527  1.00 81.88           C  \\nATOM   1776  C   TRP C  30      -2.126 -17.602   8.419  1.00 81.88           C  \\nATOM   1777  CB  TRP C  30      -3.426 -16.147   9.988  1.00 81.88           C  \\nATOM   1778  O   TRP C  30      -0.921 -17.471   8.194  1.00 81.88           O  \\nATOM   1779  CG  TRP C  30      -2.262 -16.093  10.931  1.00 81.88           C  \\nATOM   1780  CD1 TRP C  30      -1.724 -17.134  11.636  1.00 81.88           C  \\nATOM   1781  CD2 TRP C  30      -1.494 -14.936  11.276  1.00 81.88           C  \\nATOM   1782  CE2 TRP C  30      -0.505 -15.349  12.196  1.00 81.88           C  \\nATOM   1783  CE3 TRP C  30      -1.546 -13.589  10.894  1.00 81.88           C  \\nATOM   1784  NE1 TRP C  30      -0.667 -16.693  12.399  1.00 81.88           N  \\nATOM   1785  CH2 TRP C  30       0.352 -13.148  12.351  1.00 81.88           C  \\nATOM   1786  CZ2 TRP C  30       0.425 -14.461  12.741  1.00 81.88           C  \\nATOM   1787  CZ3 TRP C  30      -0.619 -12.706  11.438  1.00 81.88           C  \\nATOM   1788  N   ASN C  31      -2.681 -18.733   8.562  1.00 83.69           N  \\nATOM   1789  CA  ASN C  31      -1.915 -19.973   8.501  1.00 83.69           C  \\nATOM   1790  C   ASN C  31      -1.189 -20.119   7.167  1.00 83.69           C  \\nATOM   1791  CB  ASN C  31      -2.825 -21.179   8.745  1.00 83.69           C  \\nATOM   1792  O   ASN C  31      -0.046 -20.578   7.124  1.00 83.69           O  \\nATOM   1793  CG  ASN C  31      -3.284 -21.282  10.186  1.00 83.69           C  \\nATOM   1794  ND2 ASN C  31      -4.389 -21.985  10.408  1.00 83.69           N  \\nATOM   1795  OD1 ASN C  31      -2.651 -20.735  11.093  1.00 83.69           O  \\nATOM   1796  N   TYR C  32      -1.833 -19.748   6.162  1.00 69.61           N  \\nATOM   1797  CA  TYR C  32      -1.211 -19.812   4.844  1.00 69.61           C  \\nATOM   1798  C   TYR C  32      -0.054 -18.827   4.738  1.00 69.61           C  \\nATOM   1799  CB  TYR C  32      -2.243 -19.526   3.749  1.00 69.61           C  \\nATOM   1800  O   TYR C  32       1.028 -19.179   4.262  1.00 69.61           O  \\nATOM   1801  CG  TYR C  32      -1.633 -19.283   2.390  1.00 69.61           C  \\nATOM   1802  CD1 TYR C  32      -1.637 -18.011   1.820  1.00 69.61           C  \\nATOM   1803  CD2 TYR C  32      -1.054 -20.323   1.672  1.00 69.61           C  \\nATOM   1804  CE1 TYR C  32      -1.078 -17.783   0.567  1.00 69.61           C  \\nATOM   1805  CE2 TYR C  32      -0.492 -20.106   0.418  1.00 69.61           C  \\nATOM   1806  OH  TYR C  32       0.046 -18.614  -1.366  1.00 69.61           O  \\nATOM   1807  CZ  TYR C  32      -0.509 -18.835  -0.125  1.00 69.61           C  \\nATOM   1808  N   ASN C  33      -0.249 -17.603   5.206  1.00 67.72           N  \\nATOM   1809  CA  ASN C  33       0.749 -16.549   5.053  1.00 67.72           C  \\nATOM   1810  C   ASN C  33       1.963 -16.794   5.945  1.00 67.72           C  \\nATOM   1811  CB  ASN C  33       0.135 -15.181   5.356  1.00 67.72           C  \\nATOM   1812  O   ASN C  33       3.050 -16.279   5.675  1.00 67.72           O  \\nATOM   1813  CG  ASN C  33      -0.709 -14.653   4.212  1.00 67.72           C  \\nATOM   1814  ND2 ASN C  33      -2.024 -14.794   4.331  1.00 67.72           N  \\nATOM   1815  OD1 ASN C  33      -0.183 -14.125   3.229  1.00 67.72           O  \\nATOM   1816  N   THR C  34       1.791 -17.538   6.985  1.00 76.78           N  \\nATOM   1817  CA  THR C  34       2.897 -17.791   7.901  1.00 76.78           C  \\nATOM   1818  C   THR C  34       3.513 -19.163   7.640  1.00 76.78           C  \\nATOM   1819  CB  THR C  34       2.438 -17.702   9.369  1.00 76.78           C  \\nATOM   1820  O   THR C  34       4.601 -19.465   8.134  1.00 76.78           O  \\nATOM   1821  CG2 THR C  34       2.016 -16.282   9.728  1.00 76.78           C  \\nATOM   1822  OG1 THR C  34       1.327 -18.585   9.570  1.00 76.78           O  \\nATOM   1823  N   ASN C  35       2.816 -19.917   6.955  1.00 76.49           N  \\nATOM   1824  CA  ASN C  35       3.256 -21.240   6.526  1.00 76.49           C  \\nATOM   1825  C   ASN C  35       2.643 -21.627   5.183  1.00 76.49           C  \\nATOM   1826  CB  ASN C  35       2.917 -22.289   7.587  1.00 76.49           C  \\nATOM   1827  O   ASN C  35       1.585 -22.257   5.138  1.00 76.49           O  \\nATOM   1828  CG  ASN C  35       3.542 -23.639   7.294  1.00 76.49           C  \\nATOM   1829  ND2 ASN C  35       3.124 -24.659   8.034  1.00 76.49           N  \\nATOM   1830  OD1 ASN C  35       4.393 -23.764   6.410  1.00 76.49           O  \\nATOM   1831  N   ILE C  36       3.423 -21.343   4.161  1.00 60.44           N  \\nATOM   1832  CA  ILE C  36       2.903 -21.498   2.807  1.00 60.44           C  \\nATOM   1833  C   ILE C  36       3.017 -22.957   2.374  1.00 60.44           C  \\nATOM   1834  CB  ILE C  36       3.646 -20.583   1.808  1.00 60.44           C  \\nATOM   1835  O   ILE C  36       4.103 -23.425   2.025  1.00 60.44           O  \\nATOM   1836  CG1 ILE C  36       3.501 -19.113   2.220  1.00 60.44           C  \\nATOM   1837  CG2 ILE C  36       3.130 -20.806   0.384  1.00 60.44           C  \\nATOM   1838  CD1 ILE C  36       4.360 -18.155   1.407  1.00 60.44           C  \\nATOM   1839  N   THR C  37       1.923 -23.725   2.447  1.00 61.60           N  \\nATOM   1840  CA  THR C  37       1.821 -25.123   2.042  1.00 61.60           C  \\nATOM   1841  C   THR C  37       0.562 -25.355   1.212  1.00 61.60           C  \\nATOM   1842  CB  THR C  37       1.814 -26.060   3.264  1.00 61.60           C  \\nATOM   1843  O   THR C  37      -0.357 -24.532   1.224  1.00 61.60           O  \\nATOM   1844  CG2 THR C  37       3.026 -25.811   4.155  1.00 61.60           C  \\nATOM   1845  OG1 THR C  37       0.621 -25.833   4.025  1.00 61.60           O  \\nATOM   1846  N   GLU C  38       0.563 -26.415   0.568  1.00 54.83           N  \\nATOM   1847  CA  GLU C  38      -0.609 -26.796  -0.213  1.00 54.83           C  \\nATOM   1848  C   GLU C  38      -1.836 -26.963   0.678  1.00 54.83           C  \\nATOM   1849  CB  GLU C  38      -0.342 -28.089  -0.988  1.00 54.83           C  \\nATOM   1850  O   GLU C  38      -2.935 -26.537   0.317  1.00 54.83           O  \\nATOM   1851  CG  GLU C  38      -1.417 -28.426  -2.011  1.00 54.83           C  \\nATOM   1852  CD  GLU C  38      -1.528 -27.398  -3.126  1.00 54.83           C  \\nATOM   1853  OE1 GLU C  38      -2.593 -27.324  -3.780  1.00 54.83           O  \\nATOM   1854  OE2 GLU C  38      -0.542 -26.661  -3.348  1.00 54.83           O  \\nATOM   1855  N   GLU C  39      -1.602 -27.619   1.721  1.00 70.44           N  \\nATOM   1856  CA  GLU C  39      -2.692 -27.839   2.667  1.00 70.44           C  \\nATOM   1857  C   GLU C  39      -3.294 -26.516   3.133  1.00 70.44           C  \\nATOM   1858  CB  GLU C  39      -2.203 -28.647   3.872  1.00 70.44           C  \\nATOM   1859  O   GLU C  39      -4.515 -26.351   3.135  1.00 70.44           O  \\nATOM   1860  CG  GLU C  39      -3.295 -28.961   4.885  1.00 70.44           C  \\nATOM   1861  CD  GLU C  39      -2.792 -29.750   6.084  1.00 70.44           C  \\nATOM   1862  OE1 GLU C  39      -3.581 -29.995   7.024  1.00 70.44           O  \\nATOM   1863  OE2 GLU C  39      -1.598 -30.125   6.083  1.00 70.44           O  \\nATOM   1864  N   ASN C  40      -2.469 -25.556   3.456  1.00 71.16           N  \\nATOM   1865  CA  ASN C  40      -2.944 -24.294   4.013  1.00 71.16           C  \\nATOM   1866  C   ASN C  40      -3.619 -23.431   2.951  1.00 71.16           C  \\nATOM   1867  CB  ASN C  40      -1.793 -23.528   4.667  1.00 71.16           C  \\nATOM   1868  O   ASN C  40      -4.553 -22.686   3.251  1.00 71.16           O  \\nATOM   1869  CG  ASN C  40      -1.448 -24.056   6.045  1.00 71.16           C  \\nATOM   1870  ND2 ASN C  40      -0.219 -23.810   6.484  1.00 71.16           N  \\nATOM   1871  OD1 ASN C  40      -2.279 -24.680   6.710  1.00 71.16           O  \\nATOM   1872  N   VAL C  41      -3.175 -23.569   1.793  1.00 62.00           N  \\nATOM   1873  CA  VAL C  41      -3.829 -22.816   0.728  1.00 62.00           C  \\nATOM   1874  C   VAL C  41      -5.228 -23.375   0.483  1.00 62.00           C  \\nATOM   1875  CB  VAL C  41      -3.005 -22.849  -0.579  1.00 62.00           C  \\nATOM   1876  O   VAL C  41      -6.176 -22.618   0.262  1.00 62.00           O  \\nATOM   1877  CG1 VAL C  41      -3.923 -22.774  -1.798  1.00 62.00           C  \\nATOM   1878  CG2 VAL C  41      -1.990 -21.708  -0.599  1.00 62.00           C  \\nATOM   1879  N   GLN C  42      -5.340 -24.650   0.432  1.00 65.71           N  \\nATOM   1880  CA  GLN C  42      -6.649 -25.274   0.270  1.00 65.71           C  \\nATOM   1881  C   GLN C  42      -7.593 -24.873   1.400  1.00 65.71           C  \\nATOM   1882  CB  GLN C  42      -6.514 -26.797   0.214  1.00 65.71           C  \\nATOM   1883  O   GLN C  42      -8.754 -24.538   1.157  1.00 65.71           O  \\nATOM   1884  CG  GLN C  42      -7.801 -27.514  -0.171  1.00 65.71           C  \\nATOM   1885  CD  GLN C  42      -8.292 -27.137  -1.557  1.00 65.71           C  \\nATOM   1886  NE2 GLN C  42      -9.594 -27.274  -1.782  1.00 65.71           N  \\nATOM   1887  OE1 GLN C  42      -7.506 -26.726  -2.417  1.00 65.71           O  \\nATOM   1888  N   ASN C  43      -7.068 -24.928   2.562  1.00 75.07           N  \\nATOM   1889  CA  ASN C  43      -7.867 -24.523   3.714  1.00 75.07           C  \\nATOM   1890  C   ASN C  43      -8.308 -23.066   3.605  1.00 75.07           C  \\nATOM   1891  CB  ASN C  43      -7.088 -24.746   5.012  1.00 75.07           C  \\nATOM   1892  O   ASN C  43      -9.447 -22.732   3.938  1.00 75.07           O  \\nATOM   1893  CG  ASN C  43      -6.899 -26.215   5.335  1.00 75.07           C  \\nATOM   1894  ND2 ASN C  43      -5.939 -26.513   6.202  1.00 75.07           N  \\nATOM   1895  OD1 ASN C  43      -7.610 -27.075   4.808  1.00 75.07           O  \\nATOM   1896  N   MET C  44      -7.429 -22.198   3.212  1.00 68.57           N  \\nATOM   1897  CA  MET C  44      -7.736 -20.781   3.037  1.00 68.57           C  \\nATOM   1898  C   MET C  44      -8.816 -20.585   1.979  1.00 68.57           C  \\nATOM   1899  CB  MET C  44      -6.478 -20.001   2.651  1.00 68.57           C  \\nATOM   1900  O   MET C  44      -9.768 -19.831   2.190  1.00 68.57           O  \\nATOM   1901  CG  MET C  44      -6.707 -18.506   2.497  1.00 68.57           C  \\nATOM   1902  SD  MET C  44      -5.211 -17.624   1.905  1.00 68.57           S  \\nATOM   1903  CE  MET C  44      -5.186 -18.164   0.173  1.00 68.57           C  \\nATOM   1904  N   ASN C  45      -8.685 -21.306   0.888  1.00 61.86           N  \\nATOM   1905  CA  ASN C  45      -9.665 -21.195  -0.187  1.00 61.86           C  \\nATOM   1906  C   ASN C  45     -11.041 -21.683   0.257  1.00 61.86           C  \\nATOM   1907  CB  ASN C  45      -9.199 -21.970  -1.421  1.00 61.86           C  \\nATOM   1908  O   ASN C  45     -12.054 -21.041  -0.027  1.00 61.86           O  \\nATOM   1909  CG  ASN C  45      -8.029 -21.306  -2.121  1.00 61.86           C  \\nATOM   1910  ND2 ASN C  45      -7.295 -22.079  -2.912  1.00 61.86           N  \\nATOM   1911  OD1 ASN C  45      -7.788 -20.108  -1.951  1.00 61.86           O  \\nATOM   1912  N   ASN C  46     -11.042 -22.806   0.903  1.00 69.93           N  \\nATOM   1913  CA  ASN C  46     -12.302 -23.356   1.391  1.00 69.93           C  \\nATOM   1914  C   ASN C  46     -12.994 -22.399   2.358  1.00 69.93           C  \\nATOM   1915  CB  ASN C  46     -12.074 -24.713   2.059  1.00 69.93           C  \\nATOM   1916  O   ASN C  46     -14.186 -22.121   2.218  1.00 69.93           O  \\nATOM   1917  CG  ASN C  46     -11.702 -25.797   1.066  1.00 69.93           C  \\nATOM   1918  ND2 ASN C  46     -11.151 -26.897   1.567  1.00 69.93           N  \\nATOM   1919  OD1 ASN C  46     -11.906 -25.647  -0.141  1.00 69.93           O  \\nATOM   1920  N   ALA C  47     -12.187 -21.960   3.264  1.00 74.11           N  \\nATOM   1921  CA  ALA C  47     -12.740 -21.030   4.244  1.00 74.11           C  \\nATOM   1922  C   ALA C  47     -13.166 -19.723   3.581  1.00 74.11           C  \\nATOM   1923  CB  ALA C  47     -11.724 -20.756   5.350  1.00 74.11           C  \\nATOM   1924  O   ALA C  47     -14.188 -19.138   3.948  1.00 74.11           O  \\nATOM   1925  N   GLY C  48     -12.432 -19.232   2.645  1.00 67.46           N  \\nATOM   1926  CA  GLY C  48     -12.770 -18.036   1.889  1.00 67.46           C  \\nATOM   1927  C   GLY C  48     -14.056 -18.174   1.097  1.00 67.46           C  \\nATOM   1928  O   GLY C  48     -14.855 -17.237   1.033  1.00 67.46           O  \\nATOM   1929  N   ASP C  49     -14.224 -19.339   0.489  1.00 64.92           N  \\nATOM   1930  CA  ASP C  49     -15.441 -19.602  -0.272  1.00 64.92           C  \\nATOM   1931  C   ASP C  49     -16.672 -19.573   0.631  1.00 64.92           C  \\nATOM   1932  CB  ASP C  49     -15.346 -20.951  -0.988  1.00 64.92           C  \\nATOM   1933  O   ASP C  49     -17.715 -19.039   0.251  1.00 64.92           O  \\nATOM   1934  CG  ASP C  49     -14.398 -20.928  -2.174  1.00 64.92           C  \\nATOM   1935  OD1 ASP C  49     -14.004 -19.828  -2.618  1.00 64.92           O  \\nATOM   1936  OD2 ASP C  49     -14.043 -22.019  -2.670  1.00 64.92           O  \\nATOM   1937  N   LYS C  50     -16.532 -20.187   1.763  1.00 75.35           N  \\nATOM   1938  CA  LYS C  50     -17.631 -20.185   2.723  1.00 75.35           C  \\nATOM   1939  C   LYS C  50     -17.980 -18.763   3.156  1.00 75.35           C  \\nATOM   1940  CB  LYS C  50     -17.279 -21.033   3.946  1.00 75.35           C  \\nATOM   1941  O   LYS C  50     -19.156 -18.400   3.222  1.00 75.35           O  \\nATOM   1942  CG  LYS C  50     -17.296 -22.532   3.685  1.00 75.35           C  \\nATOM   1943  CD  LYS C  50     -16.996 -23.323   4.952  1.00 75.35           C  \\nATOM   1944  CE  LYS C  50     -16.924 -24.819   4.674  1.00 75.35           C  \\nATOM   1945  NZ  LYS C  50     -16.548 -25.592   5.895  1.00 75.35           N  \\nATOM   1946  N   TRP C  51     -17.024 -17.974   3.456  1.00 73.98           N  \\nATOM   1947  CA  TRP C  51     -17.222 -16.585   3.856  1.00 73.98           C  \\nATOM   1948  C   TRP C  51     -17.872 -15.783   2.733  1.00 73.98           C  \\nATOM   1949  CB  TRP C  51     -15.889 -15.944   4.252  1.00 73.98           C  \\nATOM   1950  O   TRP C  51     -18.852 -15.069   2.959  1.00 73.98           O  \\nATOM   1951  CG  TRP C  51     -15.948 -14.453   4.393  1.00 73.98           C  \\nATOM   1952  CD1 TRP C  51     -15.199 -13.531   3.716  1.00 73.98           C  \\nATOM   1953  CD2 TRP C  51     -16.801 -13.711   5.270  1.00 73.98           C  \\nATOM   1954  CE2 TRP C  51     -16.515 -12.342   5.071  1.00 73.98           C  \\nATOM   1955  CE3 TRP C  51     -17.781 -14.071   6.205  1.00 73.98           C  \\nATOM   1956  NE1 TRP C  51     -15.536 -12.259   4.119  1.00 73.98           N  \\nATOM   1957  CH2 TRP C  51     -18.129 -11.711   6.684  1.00 73.98           C  \\nATOM   1958  CZ2 TRP C  51     -17.176 -11.332   5.775  1.00 73.98           C  \\nATOM   1959  CZ3 TRP C  51     -18.436 -13.064   6.904  1.00 73.98           C  \\nATOM   1960  N   SER C  52     -17.351 -15.919   1.511  1.00 65.87           N  \\nATOM   1961  CA  SER C  52     -17.877 -15.198   0.356  1.00 65.87           C  \\nATOM   1962  C   SER C  52     -19.332 -15.567   0.091  1.00 65.87           C  \\nATOM   1963  CB  SER C  52     -17.034 -15.487  -0.887  1.00 65.87           C  \\nATOM   1964  O   SER C  52     -20.153 -14.698  -0.211  1.00 65.87           O  \\nATOM   1965  OG  SER C  52     -15.761 -14.873  -0.785  1.00 65.87           O  \\nATOM   1966  N   ALA C  53     -19.635 -16.850   0.161  1.00 70.87           N  \\nATOM   1967  CA  ALA C  53     -21.007 -17.311  -0.036  1.00 70.87           C  \\nATOM   1968  C   ALA C  53     -21.940 -16.721   1.018  1.00 70.87           C  \\nATOM   1969  CB  ALA C  53     -21.066 -18.836  -0.001  1.00 70.87           C  \\nATOM   1970  O   ALA C  53     -23.052 -16.292   0.702  1.00 70.87           O  \\nATOM   1971  N   PHE C  54     -21.504 -16.734   2.233  1.00 79.54           N  \\nATOM   1972  CA  PHE C  54     -22.276 -16.163   3.330  1.00 79.54           C  \\nATOM   1973  C   PHE C  54     -22.534 -14.680   3.097  1.00 79.54           C  \\nATOM   1974  CB  PHE C  54     -21.549 -16.366   4.664  1.00 79.54           C  \\nATOM   1975  O   PHE C  54     -23.668 -14.214   3.221  1.00 79.54           O  \\nATOM   1976  CG  PHE C  54     -22.166 -15.614   5.812  1.00 79.54           C  \\nATOM   1977  CD1 PHE C  54     -21.593 -14.436   6.277  1.00 79.54           C  \\nATOM   1978  CD2 PHE C  54     -23.319 -16.084   6.426  1.00 79.54           C  \\nATOM   1979  CE1 PHE C  54     -22.162 -13.738   7.340  1.00 79.54           C  \\nATOM   1980  CE2 PHE C  54     -23.893 -15.392   7.489  1.00 79.54           C  \\nATOM   1981  CZ  PHE C  54     -23.312 -14.219   7.944  1.00 79.54           C  \\nATOM   1982  N   LEU C  55     -21.533 -13.900   2.752  1.00 75.39           N  \\nATOM   1983  CA  LEU C  55     -21.654 -12.461   2.541  1.00 75.39           C  \\nATOM   1984  C   LEU C  55     -22.601 -12.159   1.385  1.00 75.39           C  \\nATOM   1985  CB  LEU C  55     -20.281 -11.842   2.268  1.00 75.39           C  \\nATOM   1986  O   LEU C  55     -23.402 -11.224   1.460  1.00 75.39           O  \\nATOM   1987  CG  LEU C  55     -19.454 -11.459   3.495  1.00 75.39           C  \\nATOM   1988  CD1 LEU C  55     -18.033 -11.088   3.082  1.00 75.39           C  \\nATOM   1989  CD2 LEU C  55     -20.114 -10.308   4.248  1.00 75.39           C  \\nATOM   1990  N   LYS C  56     -22.448 -12.928   0.323  1.00 72.49           N  \\nATOM   1991  CA  LYS C  56     -23.329 -12.756  -0.828  1.00 72.49           C  \\nATOM   1992  C   LYS C  56     -24.789 -12.970  -0.438  1.00 72.49           C  \\nATOM   1993  CB  LYS C  56     -22.940 -13.719  -1.951  1.00 72.49           C  \\nATOM   1994  O   LYS C  56     -25.660 -12.182  -0.814  1.00 72.49           O  \\nATOM   1995  CG  LYS C  56     -23.691 -13.485  -3.254  1.00 72.49           C  \\nATOM   1996  CD  LYS C  56     -23.190 -14.405  -4.360  1.00 72.49           C  \\nATOM   1997  CE  LYS C  56     -23.991 -14.226  -5.643  1.00 72.49           C  \\nATOM   1998  NZ  LYS C  56     -23.499 -15.122  -6.732  1.00 72.49           N  \\nATOM   1999  N   GLU C  57     -25.062 -14.050   0.275  1.00 82.98           N  \\nATOM   2000  CA  GLU C  57     -26.416 -14.350   0.731  1.00 82.98           C  \\nATOM   2001  C   GLU C  57     -26.955 -13.237   1.625  1.00 82.98           C  \\nATOM   2002  CB  GLU C  57     -26.449 -15.686   1.477  1.00 82.98           C  \\nATOM   2003  O   GLU C  57     -28.083 -12.776   1.440  1.00 82.98           O  \\nATOM   2004  CG  GLU C  57     -27.843 -16.113   1.913  1.00 82.98           C  \\nATOM   2005  CD  GLU C  57     -27.853 -17.409   2.707  1.00 82.98           C  \\nATOM   2006  OE1 GLU C  57     -28.945 -17.858   3.123  1.00 82.98           O  \\nATOM   2007  OE2 GLU C  57     -26.759 -17.980   2.917  1.00 82.98           O  \\nATOM   2008  N   GLN C  58     -26.153 -12.802   2.539  1.00 87.06           N  \\nATOM   2009  CA  GLN C  58     -26.571 -11.770   3.482  1.00 87.06           C  \\nATOM   2010  C   GLN C  58     -26.749 -10.426   2.783  1.00 87.06           C  \\nATOM   2011  CB  GLN C  58     -25.558 -11.640   4.621  1.00 87.06           C  \\nATOM   2012  O   GLN C  58     -27.610  -9.631   3.165  1.00 87.06           O  \\nATOM   2013  CG  GLN C  58     -25.453 -12.882   5.496  1.00 87.06           C  \\nATOM   2014  CD  GLN C  58     -26.786 -13.297   6.088  1.00 87.06           C  \\nATOM   2015  NE2 GLN C  58     -27.198 -14.531   5.818  1.00 87.06           N  \\nATOM   2016  OE1 GLN C  58     -27.442 -12.514   6.784  1.00 87.06           O  \\nATOM   2017  N   SER C  59     -25.930 -10.124   1.824  1.00 79.86           N  \\nATOM   2018  CA  SER C  59     -26.070  -8.907   1.031  1.00 79.86           C  \\nATOM   2019  C   SER C  59     -27.400  -8.881   0.286  1.00 79.86           C  \\nATOM   2020  CB  SER C  59     -24.916  -8.780   0.036  1.00 79.86           C  \\nATOM   2021  O   SER C  59     -28.070  -7.848   0.236  1.00 79.86           O  \\nATOM   2022  OG  SER C  59     -25.054  -7.607  -0.748  1.00 79.86           O  \\nATOM   2023  N   THR C  60     -27.827 -10.012  -0.280  1.00 83.34           N  \\nATOM   2024  CA  THR C  60     -29.107 -10.137  -0.968  1.00 83.34           C  \\nATOM   2025  C   THR C  60     -30.266  -9.895  -0.005  1.00 83.34           C  \\nATOM   2026  CB  THR C  60     -29.259 -11.524  -1.620  1.00 83.34           C  \\nATOM   2027  O   THR C  60     -31.200  -9.155  -0.321  1.00 83.34           O  \\nATOM   2028  CG2 THR C  60     -30.602 -11.655  -2.329  1.00 83.34           C  \\nATOM   2029  OG1 THR C  60     -28.207 -11.715  -2.574  1.00 83.34           O  \\nATOM   2030  N   LEU C  61     -30.193 -10.452   1.159  1.00 91.25           N  \\nATOM   2031  CA  LEU C  61     -31.236 -10.282   2.165  1.00 91.25           C  \\nATOM   2032  C   LEU C  61     -31.316  -8.830   2.624  1.00 91.25           C  \\nATOM   2033  CB  LEU C  61     -30.976 -11.195   3.366  1.00 91.25           C  \\nATOM   2034  O   LEU C  61     -32.408  -8.311   2.870  1.00 91.25           O  \\nATOM   2035  CG  LEU C  61     -31.162 -12.695   3.129  1.00 91.25           C  \\nATOM   2036  CD1 LEU C  61     -30.698 -13.485   4.348  1.00 91.25           C  \\nATOM   2037  CD2 LEU C  61     -32.618 -13.009   2.804  1.00 91.25           C  \\nATOM   2038  N   ALA C  62     -30.212  -8.202   2.728  1.00 90.03           N  \\nATOM   2039  CA  ALA C  62     -30.147  -6.822   3.201  1.00 90.03           C  \\nATOM   2040  C   ALA C  62     -30.860  -5.878   2.238  1.00 90.03           C  \\nATOM   2041  CB  ALA C  62     -28.694  -6.391   3.386  1.00 90.03           C  \\nATOM   2042  O   ALA C  62     -31.288  -4.789   2.628  1.00 90.03           O  \\nATOM   2043  N   GLN C  63     -30.929  -6.310   0.952  1.00 87.96           N  \\nATOM   2044  CA  GLN C  63     -31.568  -5.492  -0.073  1.00 87.96           C  \\nATOM   2045  C   GLN C  63     -33.056  -5.313   0.214  1.00 87.96           C  \\nATOM   2046  CB  GLN C  63     -31.372  -6.113  -1.456  1.00 87.96           C  \\nATOM   2047  O   GLN C  63     -33.698  -4.420  -0.343  1.00 87.96           O  \\nATOM   2048  CG  GLN C  63     -29.923  -6.125  -1.925  1.00 87.96           C  \\nATOM   2049  CD  GLN C  63     -29.369  -4.731  -2.154  1.00 87.96           C  \\nATOM   2050  NE2 GLN C  63     -28.046  -4.616  -2.184  1.00 87.96           N  \\nATOM   2051  OE1 GLN C  63     -30.124  -3.765  -2.305  1.00 87.96           O  \\nATOM   2052  N   MET C  64     -33.635  -6.080   1.023  1.00 91.00           N  \\nATOM   2053  CA  MET C  64     -35.057  -6.042   1.351  1.00 91.00           C  \\nATOM   2054  C   MET C  64     -35.368  -4.880   2.289  1.00 91.00           C  \\nATOM   2055  CB  MET C  64     -35.499  -7.361   1.988  1.00 91.00           C  \\nATOM   2056  O   MET C  64     -36.533  -4.522   2.476  1.00 91.00           O  \\nATOM   2057  CG  MET C  64     -35.429  -8.550   1.045  1.00 91.00           C  \\nATOM   2058  SD  MET C  64     -35.911 -10.123   1.859  1.00 91.00           S  \\nATOM   2059  CE  MET C  64     -35.005  -9.964   3.423  1.00 91.00           C  \\nATOM   2060  N   TYR C  65     -34.399  -4.298   2.842  1.00 93.34           N  \\nATOM   2061  CA  TYR C  65     -34.595  -3.197   3.779  1.00 93.34           C  \\nATOM   2062  C   TYR C  65     -34.251  -1.862   3.130  1.00 93.34           C  \\nATOM   2063  CB  TYR C  65     -33.743  -3.402   5.035  1.00 93.34           C  \\nATOM   2064  O   TYR C  65     -33.075  -1.542   2.938  1.00 93.34           O  \\nATOM   2065  CG  TYR C  65     -34.013  -4.706   5.746  1.00 93.34           C  \\nATOM   2066  CD1 TYR C  65     -35.104  -4.841   6.602  1.00 93.34           C  \\nATOM   2067  CD2 TYR C  65     -33.179  -5.804   5.565  1.00 93.34           C  \\nATOM   2068  CE1 TYR C  65     -35.356  -6.040   7.261  1.00 93.34           C  \\nATOM   2069  CE2 TYR C  65     -33.421  -7.007   6.218  1.00 93.34           C  \\nATOM   2070  OH  TYR C  65     -34.756  -8.305   7.713  1.00 93.34           O  \\nATOM   2071  CZ  TYR C  65     -34.511  -7.116   7.063  1.00 93.34           C  \\nATOM   2072  N   PRO C  66     -35.197  -1.035   2.828  1.00 91.48           N  \\nATOM   2073  CA  PRO C  66     -34.944   0.282   2.238  1.00 91.48           C  \\nATOM   2074  C   PRO C  66     -34.272   1.246   3.214  1.00 91.48           C  \\nATOM   2075  CB  PRO C  66     -36.344   0.774   1.861  1.00 91.48           C  \\nATOM   2076  O   PRO C  66     -34.808   1.510   4.293  1.00 91.48           O  \\nATOM   2077  CG  PRO C  66     -37.251  -0.368   2.188  1.00 91.48           C  \\nATOM   2078  CD  PRO C  66     -36.456  -1.418   2.909  1.00 91.48           C  \\nATOM   2079  N   LEU C  67     -33.207   1.835   2.816  1.00 87.47           N  \\nATOM   2080  CA  LEU C  67     -32.387   2.680   3.678  1.00 87.47           C  \\nATOM   2081  C   LEU C  67     -33.157   3.921   4.115  1.00 87.47           C  \\nATOM   2082  CB  LEU C  67     -31.100   3.091   2.958  1.00 87.47           C  \\nATOM   2083  O   LEU C  67     -32.954   4.425   5.222  1.00 87.47           O  \\nATOM   2084  CG  LEU C  67     -30.103   1.970   2.657  1.00 87.47           C  \\nATOM   2085  CD1 LEU C  67     -28.913   2.515   1.875  1.00 87.47           C  \\nATOM   2086  CD2 LEU C  67     -29.641   1.304   3.948  1.00 87.47           C  \\nATOM   2087  N   GLN C  68     -34.076   4.407   3.259  1.00 86.50           N  \\nATOM   2088  CA  GLN C  68     -34.838   5.623   3.526  1.00 86.50           C  \\nATOM   2089  C   GLN C  68     -35.782   5.432   4.709  1.00 86.50           C  \\nATOM   2090  CB  GLN C  68     -35.628   6.045   2.286  1.00 86.50           C  \\nATOM   2091  O   GLN C  68     -36.185   6.404   5.351  1.00 86.50           O  \\nATOM   2092  CG  GLN C  68     -34.755   6.400   1.091  1.00 86.50           C  \\nATOM   2093  CD  GLN C  68     -34.645   5.269   0.087  1.00 86.50           C  \\nATOM   2094  NE2 GLN C  68     -33.779   5.439  -0.907  1.00 86.50           N  \\nATOM   2095  OE1 GLN C  68     -35.332   4.249   0.203  1.00 86.50           O  \\nATOM   2096  N   GLU C  69     -36.119   4.216   5.034  1.00 90.03           N  \\nATOM   2097  CA  GLU C  69     -37.057   3.911   6.111  1.00 90.03           C  \\nATOM   2098  C   GLU C  69     -36.324   3.635   7.420  1.00 90.03           C  \\nATOM   2099  CB  GLU C  69     -37.935   2.714   5.737  1.00 90.03           C  \\nATOM   2100  O   GLU C  69     -36.953   3.363   8.445  1.00 90.03           O  \\nATOM   2101  CG  GLU C  69     -38.870   2.979   4.566  1.00 90.03           C  \\nATOM   2102  CD  GLU C  69     -39.801   1.815   4.266  1.00 90.03           C  \\nATOM   2103  OE1 GLU C  69     -40.194   1.639   3.091  1.00 90.03           O  \\nATOM   2104  OE2 GLU C  69     -40.140   1.072   5.215  1.00 90.03           O  \\nATOM   2105  N   ILE C  70     -35.043   3.697   7.367  1.00 91.04           N  \\nATOM   2106  CA  ILE C  70     -34.228   3.437   8.549  1.00 91.04           C  \\nATOM   2107  C   ILE C  70     -33.771   4.759   9.161  1.00 91.04           C  \\nATOM   2108  CB  ILE C  70     -33.007   2.553   8.210  1.00 91.04           C  \\nATOM   2109  O   ILE C  70     -33.049   5.529   8.523  1.00 91.04           O  \\nATOM   2110  CG1 ILE C  70     -33.454   1.285   7.473  1.00 91.04           C  \\nATOM   2111  CG2 ILE C  70     -32.226   2.202   9.479  1.00 91.04           C  \\nATOM   2112  CD1 ILE C  70     -34.358   0.377   8.295  1.00 91.04           C  \\nATOM   2113  N   GLN C  71     -34.138   5.016  10.452  1.00 87.06           N  \\nATOM   2114  CA  GLN C  71     -33.816   6.277  11.112  1.00 87.06           C  \\nATOM   2115  C   GLN C  71     -32.520   6.165  11.909  1.00 87.06           C  \\nATOM   2116  CB  GLN C  71     -34.960   6.711  12.028  1.00 87.06           C  \\nATOM   2117  O   GLN C  71     -31.712   7.096  11.925  1.00 87.06           O  \\nATOM   2118  CG  GLN C  71     -36.191   7.209  11.282  1.00 87.06           C  \\nATOM   2119  CD  GLN C  71     -36.944   8.284  12.043  1.00 87.06           C  \\nATOM   2120  NE2 GLN C  71     -37.792   9.025  11.338  1.00 87.06           N  \\nATOM   2121  OE1 GLN C  71     -36.766   8.446  13.254  1.00 87.06           O  \\nATOM   2122  N   ASN C  72     -32.325   4.965  12.572  1.00 88.10           N  \\nATOM   2123  CA  ASN C  72     -31.104   4.751  13.341  1.00 88.10           C  \\nATOM   2124  C   ASN C  72     -29.871   4.731  12.442  1.00 88.10           C  \\nATOM   2125  CB  ASN C  72     -31.196   3.452  14.145  1.00 88.10           C  \\nATOM   2126  O   ASN C  72     -29.759   3.885  11.553  1.00 88.10           O  \\nATOM   2127  CG  ASN C  72     -29.990   3.230  15.036  1.00 88.10           C  \\nATOM   2128  ND2 ASN C  72     -30.202   3.283  16.346  1.00 88.10           N  \\nATOM   2129  OD1 ASN C  72     -28.876   3.015  14.551  1.00 88.10           O  \\nATOM   2130  N   LEU C  73     -28.970   5.599  12.667  1.00 85.43           N  \\nATOM   2131  CA  LEU C  73     -27.809   5.805  11.808  1.00 85.43           C  \\nATOM   2132  C   LEU C  73     -26.925   4.562  11.782  1.00 85.43           C  \\nATOM   2133  CB  LEU C  73     -26.998   7.013  12.283  1.00 85.43           C  \\nATOM   2134  O   LEU C  73     -26.444   4.160  10.720  1.00 85.43           O  \\nATOM   2135  CG  LEU C  73     -25.753   7.358  11.464  1.00 85.43           C  \\nATOM   2136  CD1 LEU C  73     -26.141   7.701  10.030  1.00 85.43           C  \\nATOM   2137  CD2 LEU C  73     -24.992   8.512  12.108  1.00 85.43           C  \\nATOM   2138  N   THR C  74     -26.674   3.982  12.907  1.00 88.64           N  \\nATOM   2139  CA  THR C  74     -25.813   2.809  13.003  1.00 88.64           C  \\nATOM   2140  C   THR C  74     -26.380   1.653  12.184  1.00 88.64           C  \\nATOM   2141  CB  THR C  74     -25.636   2.365  14.467  1.00 88.64           C  \\nATOM   2142  O   THR C  74     -25.644   0.979  11.460  1.00 88.64           O  \\nATOM   2143  CG2 THR C  74     -24.734   1.139  14.565  1.00 88.64           C  \\nATOM   2144  OG1 THR C  74     -25.051   3.436  15.218  1.00 88.64           O  \\nATOM   2145  N   VAL C  75     -27.722   1.460  12.284  1.00 92.69           N  \\nATOM   2146  CA  VAL C  75     -28.398   0.419  11.517  1.00 92.69           C  \\nATOM   2147  C   VAL C  75     -28.315   0.739  10.026  1.00 92.69           C  \\nATOM   2148  CB  VAL C  75     -29.874   0.265  11.948  1.00 92.69           C  \\nATOM   2149  O   VAL C  75     -28.010  -0.136   9.213  1.00 92.69           O  \\nATOM   2150  CG1 VAL C  75     -30.608  -0.706  11.024  1.00 92.69           C  \\nATOM   2151  CG2 VAL C  75     -29.960  -0.204  13.399  1.00 92.69           C  \\nATOM   2152  N   LYS C  76     -28.518   1.960   9.755  1.00 89.49           N  \\nATOM   2153  CA  LYS C  76     -28.485   2.402   8.364  1.00 89.49           C  \\nATOM   2154  C   LYS C  76     -27.114   2.156   7.741  1.00 89.49           C  \\nATOM   2155  CB  LYS C  76     -28.848   3.884   8.263  1.00 89.49           C  \\nATOM   2156  O   LYS C  76     -27.017   1.647   6.622  1.00 89.49           O  \\nATOM   2157  CG  LYS C  76     -29.056   4.375   6.838  1.00 89.49           C  \\nATOM   2158  CD  LYS C  76     -29.570   5.809   6.810  1.00 89.49           C  \\nATOM   2159  CE  LYS C  76     -29.871   6.268   5.390  1.00 89.49           C  \\nATOM   2160  NZ  LYS C  76     -30.468   7.637   5.365  1.00 89.49           N  \\nATOM   2161  N   LEU C  77     -26.046   2.495   8.424  1.00 86.85           N  \\nATOM   2162  CA  LEU C  77     -24.683   2.338   7.928  1.00 86.85           C  \\nATOM   2163  C   LEU C  77     -24.349   0.866   7.714  1.00 86.85           C  \\nATOM   2164  CB  LEU C  77     -23.682   2.965   8.902  1.00 86.85           C  \\nATOM   2165  O   LEU C  77     -23.688   0.511   6.735  1.00 86.85           O  \\nATOM   2166  CG  LEU C  77     -23.656   4.493   8.958  1.00 86.85           C  \\nATOM   2167  CD1 LEU C  77     -22.725   4.967  10.069  1.00 86.85           C  \\nATOM   2168  CD2 LEU C  77     -23.229   5.070   7.613  1.00 86.85           C  \\nATOM   2169  N   GLN C  78     -24.708   0.021   8.579  1.00 90.54           N  \\nATOM   2170  CA  GLN C  78     -24.477  -1.413   8.433  1.00 90.54           C  \\nATOM   2171  C   GLN C  78     -25.191  -1.962   7.201  1.00 90.54           C  \\nATOM   2172  CB  GLN C  78     -24.938  -2.161   9.685  1.00 90.54           C  \\nATOM   2173  O   GLN C  78     -24.606  -2.720   6.425  1.00 90.54           O  \\nATOM   2174  CG  GLN C  78     -24.100  -1.866  10.921  1.00 90.54           C  \\nATOM   2175  CD  GLN C  78     -24.564  -2.638  12.142  1.00 90.54           C  \\nATOM   2176  NE2 GLN C  78     -25.314  -1.972  13.015  1.00 90.54           N  \\nATOM   2177  OE1 GLN C  78     -24.251  -3.822  12.300  1.00 90.54           O  \\nATOM   2178  N   LEU C  79     -26.481  -1.570   7.059  1.00 90.29           N  \\nATOM   2179  CA  LEU C  79     -27.259  -2.028   5.913  1.00 90.29           C  \\nATOM   2180  C   LEU C  79     -26.640  -1.544   4.606  1.00 90.29           C  \\nATOM   2181  CB  LEU C  79     -28.707  -1.540   6.018  1.00 90.29           C  \\nATOM   2182  O   LEU C  79     -26.540  -2.306   3.642  1.00 90.29           O  \\nATOM   2183  CG  LEU C  79     -29.618  -2.321   6.966  1.00 90.29           C  \\nATOM   2184  CD1 LEU C  79     -30.954  -1.602   7.128  1.00 90.29           C  \\nATOM   2185  CD2 LEU C  79     -29.829  -3.743   6.456  1.00 90.29           C  \\nATOM   2186  N   GLN C  80     -26.258  -0.280   4.630  1.00 83.24           N  \\nATOM   2187  CA  GLN C  80     -25.618   0.292   3.450  1.00 83.24           C  \\nATOM   2188  C   GLN C  80     -24.355  -0.480   3.080  1.00 83.24           C  \\nATOM   2189  CB  GLN C  80     -25.283   1.766   3.683  1.00 83.24           C  \\nATOM   2190  O   GLN C  80     -24.139  -0.802   1.910  1.00 83.24           O  \\nATOM   2191  CG  GLN C  80     -24.830   2.500   2.428  1.00 83.24           C  \\nATOM   2192  CD  GLN C  80     -24.602   3.981   2.664  1.00 83.24           C  \\nATOM   2193  NE2 GLN C  80     -24.164   4.686   1.626  1.00 83.24           N  \\nATOM   2194  OE1 GLN C  80     -24.819   4.488   3.769  1.00 83.24           O  \\nATOM   2195  N   ALA C  81     -23.512  -0.792   4.032  1.00 78.05           N  \\nATOM   2196  CA  ALA C  81     -22.270  -1.530   3.815  1.00 78.05           C  \\nATOM   2197  C   ALA C  81     -22.549  -2.915   3.239  1.00 78.05           C  \\nATOM   2198  CB  ALA C  81     -21.487  -1.647   5.120  1.00 78.05           C  \\nATOM   2199  O   ALA C  81     -21.855  -3.365   2.324  1.00 78.05           O  \\nATOM   2200  N   LEU C  82     -23.490  -3.550   3.776  1.00 82.00           N  \\nATOM   2201  CA  LEU C  82     -23.823  -4.903   3.342  1.00 82.00           C  \\nATOM   2202  C   LEU C  82     -24.447  -4.890   1.951  1.00 82.00           C  \\nATOM   2203  CB  LEU C  82     -24.779  -5.565   4.337  1.00 82.00           C  \\nATOM   2204  O   LEU C  82     -24.181  -5.778   1.138  1.00 82.00           O  \\nATOM   2205  CG  LEU C  82     -24.717  -7.091   4.425  1.00 82.00           C  \\nATOM   2206  CD1 LEU C  82     -23.406  -7.532   5.067  1.00 82.00           C  \\nATOM   2207  CD2 LEU C  82     -25.910  -7.631   5.206  1.00 82.00           C  \\nATOM   2208  N   GLN C  83     -25.351  -3.937   1.713  1.00 79.05           N  \\nATOM   2209  CA  GLN C  83     -26.034  -3.847   0.426  1.00 79.05           C  \\nATOM   2210  C   GLN C  83     -25.047  -3.556  -0.701  1.00 79.05           C  \\nATOM   2211  CB  GLN C  83     -27.117  -2.768   0.468  1.00 79.05           C  \\nATOM   2212  O   GLN C  83     -25.260  -3.971  -1.842  1.00 79.05           O  \\nATOM   2213  CG  GLN C  83     -28.297  -3.116   1.365  1.00 79.05           C  \\nATOM   2214  CD  GLN C  83     -29.317  -1.996   1.454  1.00 79.05           C  \\nATOM   2215  NE2 GLN C  83     -30.341  -2.191   2.277  1.00 79.05           N  \\nATOM   2216  OE1 GLN C  83     -29.184  -0.963   0.789  1.00 79.05           O  \\nATOM   2217  N   GLN C  84     -23.910  -2.888  -0.380  1.00 67.10           N  \\nATOM   2218  CA  GLN C  84     -22.906  -2.512  -1.369  1.00 67.10           C  \\nATOM   2219  C   GLN C  84     -21.969  -3.678  -1.672  1.00 67.10           C  \\nATOM   2220  CB  GLN C  84     -22.101  -1.304  -0.887  1.00 67.10           C  \\nATOM   2221  O   GLN C  84     -21.323  -3.705  -2.722  1.00 67.10           O  \\nATOM   2222  CG  GLN C  84     -22.852   0.017  -0.994  1.00 67.10           C  \\nATOM   2223  CD  GLN C  84     -22.025   1.201  -0.528  1.00 67.10           C  \\nATOM   2224  NE2 GLN C  84     -22.585   2.400  -0.651  1.00 67.10           N  \\nATOM   2225  OE1 GLN C  84     -20.894   1.040  -0.061  1.00 67.10           O  \\nATOM   2226  N   ASN C  85     -21.649  -4.703  -0.815  1.00 57.35           N  \\nATOM   2227  CA  ASN C  85     -20.744  -5.840  -0.946  1.00 57.35           C  \\nATOM   2228  C   ASN C  85     -21.296  -6.888  -1.909  1.00 57.35           C  \\nATOM   2229  CB  ASN C  85     -20.469  -6.468   0.422  1.00 57.35           C  \\nATOM   2230  O   ASN C  85     -20.543  -7.706  -2.440  1.00 57.35           O  \\nATOM   2231  CG  ASN C  85     -19.216  -5.918   1.075  1.00 57.35           C  \\nATOM   2232  ND2 ASN C  85     -19.119  -6.068   2.391  1.00 57.35           N  \\nATOM   2233  OD1 ASN C  85     -18.343  -5.363   0.403  1.00 57.35           O  \\nATOM   2234  N   GLY C  86     -22.498  -7.050  -2.273  1.00 45.58           N  \\nATOM   2235  CA  GLY C  86     -23.136  -8.245  -2.802  1.00 45.58           C  \\nATOM   2236  C   GLY C  86     -23.251  -8.239  -4.315  1.00 45.58           C  \\nATOM   2237  O   GLY C  86     -23.342  -9.298  -4.940  1.00 45.58           O  \\nATOM   2238  N   SER C  87     -23.479  -7.389  -5.045  1.00 46.28           N  \\nATOM   2239  CA  SER C  87     -24.042  -7.744  -6.344  1.00 46.28           C  \\nATOM   2240  C   SER C  87     -22.997  -7.629  -7.449  1.00 46.28           C  \\nATOM   2241  CB  SER C  87     -25.242  -6.855  -6.671  1.00 46.28           C  \\nATOM   2242  O   SER C  87     -22.327  -6.602  -7.572  1.00 46.28           O  \\nATOM   2243  OG  SER C  87     -24.865  -5.488  -6.686  1.00 46.28           O  \\nATOM   2244  N   SER C  88     -22.245  -8.944  -7.622  1.00 54.51           N  \\nATOM   2245  CA  SER C  88     -21.584  -8.854  -8.920  1.00 54.51           C  \\nATOM   2246  C   SER C  88     -22.573  -8.478 -10.019  1.00 54.51           C  \\nATOM   2247  CB  SER C  88     -20.904 -10.179  -9.268  1.00 54.51           C  \\nATOM   2248  O   SER C  88     -23.530  -9.210 -10.277  1.00 54.51           O  \\nATOM   2249  OG  SER C  88     -21.775 -11.011 -10.014  1.00 54.51           O  \\nATOM   2250  N   VAL C  89     -22.559  -7.201 -10.296  1.00 68.05           N  \\nATOM   2251  CA  VAL C  89     -23.497  -6.663 -11.277  1.00 68.05           C  \\nATOM   2252  C   VAL C  89     -23.076  -7.087 -12.682  1.00 68.05           C  \\nATOM   2253  CB  VAL C  89     -23.587  -5.123 -11.190  1.00 68.05           C  \\nATOM   2254  O   VAL C  89     -23.881  -7.050 -13.615  1.00 68.05           O  \\nATOM   2255  CG1 VAL C  89     -24.990  -4.642 -11.558  1.00 68.05           C  \\nATOM   2256  CG2 VAL C  89     -23.206  -4.644  -9.790  1.00 68.05           C  \\nATOM   2257  N   LEU C  90     -21.880  -7.772 -12.763  1.00 74.39           N  \\nATOM   2258  CA  LEU C  90     -21.441  -8.237 -14.074  1.00 74.39           C  \\nATOM   2259  C   LEU C  90     -22.005  -9.621 -14.378  1.00 74.39           C  \\nATOM   2260  CB  LEU C  90     -19.912  -8.269 -14.146  1.00 74.39           C  \\nATOM   2261  O   LEU C  90     -22.331 -10.378 -13.461  1.00 74.39           O  \\nATOM   2262  CG  LEU C  90     -19.201  -6.917 -14.072  1.00 74.39           C  \\nATOM   2263  CD1 LEU C  90     -17.690  -7.115 -14.016  1.00 74.39           C  \\nATOM   2264  CD2 LEU C  90     -19.587  -6.044 -15.261  1.00 74.39           C  \\nATOM   2265  N   SER C  91     -22.176  -9.927 -15.726  1.00 84.03           N  \\nATOM   2266  CA  SER C  91     -22.521 -11.291 -16.113  1.00 84.03           C  \\nATOM   2267  C   SER C  91     -21.473 -12.286 -15.626  1.00 84.03           C  \\nATOM   2268  CB  SER C  91     -22.669 -11.397 -17.632  1.00 84.03           C  \\nATOM   2269  O   SER C  91     -20.329 -11.911 -15.362  1.00 84.03           O  \\nATOM   2270  OG  SER C  91     -21.409 -11.278 -18.269  1.00 84.03           O  \\nATOM   2271  N   GLU C  92     -21.846 -13.450 -15.424  1.00 73.67           N  \\nATOM   2272  CA  GLU C  92     -20.934 -14.493 -14.963  1.00 73.67           C  \\nATOM   2273  C   GLU C  92     -19.681 -14.553 -15.832  1.00 73.67           C  \\nATOM   2274  CB  GLU C  92     -21.634 -15.854 -14.954  1.00 73.67           C  \\nATOM   2275  O   GLU C  92     -18.567 -14.663 -15.317  1.00 73.67           O  \\nATOM   2276  CG  GLU C  92     -20.854 -16.942 -14.229  1.00 73.67           C  \\nATOM   2277  CD  GLU C  92     -21.616 -18.253 -14.118  1.00 73.67           C  \\nATOM   2278  OE1 GLU C  92     -21.082 -19.216 -13.522  1.00 73.67           O  \\nATOM   2279  OE2 GLU C  92     -22.754 -18.319 -14.632  1.00 73.67           O  \\nATOM   2280  N   ASP C  93     -19.846 -14.486 -17.117  1.00 81.17           N  \\nATOM   2281  CA  ASP C  93     -18.725 -14.548 -18.050  1.00 81.17           C  \\nATOM   2282  C   ASP C  93     -17.786 -13.359 -17.860  1.00 81.17           C  \\nATOM   2283  CB  ASP C  93     -19.230 -14.595 -19.494  1.00 81.17           C  \\nATOM   2284  O   ASP C  93     -16.564 -13.523 -17.836  1.00 81.17           O  \\nATOM   2285  CG  ASP C  93     -19.820 -15.942 -19.872  1.00 81.17           C  \\nATOM   2286  OD1 ASP C  93     -19.551 -16.944 -19.175  1.00 81.17           O  \\nATOM   2287  OD2 ASP C  93     -20.559 -16.003 -20.878  1.00 81.17           O  \\nATOM   2288  N   LYS C  94     -18.301 -12.209 -17.696  1.00 85.12           N  \\nATOM   2289  CA  LYS C  94     -17.499 -11.000 -17.527  1.00 85.12           C  \\nATOM   2290  C   LYS C  94     -16.803 -10.987 -16.169  1.00 85.12           C  \\nATOM   2291  CB  LYS C  94     -18.370  -9.752 -17.682  1.00 85.12           C  \\nATOM   2292  O   LYS C  94     -15.666 -10.526 -16.053  1.00 85.12           O  \\nATOM   2293  CG  LYS C  94     -18.774  -9.453 -19.118  1.00 85.12           C  \\nATOM   2294  CD  LYS C  94     -19.558  -8.151 -19.218  1.00 85.12           C  \\nATOM   2295  CE  LYS C  94     -19.881  -7.802 -20.665  1.00 85.12           C  \\nATOM   2296  NZ  LYS C  94     -20.694  -6.553 -20.765  1.00 85.12           N  \\nATOM   2297  N   SER C  95     -17.521 -11.493 -15.212  1.00 72.82           N  \\nATOM   2298  CA  SER C  95     -16.928 -11.612 -13.884  1.00 72.82           C  \\nATOM   2299  C   SER C  95     -15.732 -12.559 -13.896  1.00 72.82           C  \\nATOM   2300  CB  SER C  95     -17.967 -12.102 -12.874  1.00 72.82           C  \\nATOM   2301  O   SER C  95     -14.699 -12.270 -13.287  1.00 72.82           O  \\nATOM   2302  OG  SER C  95     -17.493 -11.943 -11.548  1.00 72.82           O  \\nATOM   2303  N   LYS C  96     -15.863 -13.628 -14.547  1.00 68.80           N  \\nATOM   2304  CA  LYS C  96     -14.770 -14.587 -14.682  1.00 68.80           C  \\nATOM   2305  C   LYS C  96     -13.591 -13.974 -15.433  1.00 68.80           C  \\nATOM   2306  CB  LYS C  96     -15.249 -15.850 -15.400  1.00 68.80           C  \\nATOM   2307  O   LYS C  96     -12.436 -14.161 -15.045  1.00 68.80           O  \\nATOM   2308  CG  LYS C  96     -16.052 -16.795 -14.519  1.00 68.80           C  \\nATOM   2309  CD  LYS C  96     -16.464 -18.051 -15.276  1.00 68.80           C  \\nATOM   2310  CE  LYS C  96     -17.369 -18.941 -14.435  1.00 68.80           C  \\nATOM   2311  NZ  LYS C  96     -17.840 -20.133 -15.201  1.00 68.80           N  \\nATOM   2312  N   ARG C  97     -13.975 -13.315 -16.495  1.00 81.49           N  \\nATOM   2313  CA  ARG C  97     -12.931 -12.655 -17.271  1.00 81.49           C  \\nATOM   2314  C   ARG C  97     -12.199 -11.614 -16.430  1.00 81.49           C  \\nATOM   2315  CB  ARG C  97     -13.523 -11.997 -18.520  1.00 81.49           C  \\nATOM   2316  O   ARG C  97     -10.969 -11.536 -16.462  1.00 81.49           O  \\nATOM   2317  CG  ARG C  97     -12.502 -11.257 -19.369  1.00 81.49           C  \\nATOM   2318  CD  ARG C  97     -11.408 -12.186 -19.874  1.00 81.49           C  \\nATOM   2319  NE  ARG C  97     -10.457 -11.484 -20.732  1.00 81.49           N  \\nATOM   2320  NH1 ARG C  97      -8.773 -13.048 -20.497  1.00 81.49           N  \\nATOM   2321  NH2 ARG C  97      -8.446 -11.192 -21.801  1.00 81.49           N  \\nATOM   2322  CZ  ARG C  97      -9.228 -11.910 -21.008  1.00 81.49           C  \\nATOM   2323  N   LEU C  98     -12.893 -10.777 -15.696  1.00 78.21           N  \\nATOM   2324  CA  LEU C  98     -12.288  -9.777 -14.823  1.00 78.21           C  \\nATOM   2325  C   LEU C  98     -11.364 -10.434 -13.803  1.00 78.21           C  \\nATOM   2326  CB  LEU C  98     -13.371  -8.970 -14.102  1.00 78.21           C  \\nATOM   2327  O   LEU C  98     -10.243  -9.970 -13.585  1.00 78.21           O  \\nATOM   2328  CG  LEU C  98     -12.882  -7.902 -13.122  1.00 78.21           C  \\nATOM   2329  CD1 LEU C  98     -11.986  -6.897 -13.838  1.00 78.21           C  \\nATOM   2330  CD2 LEU C  98     -14.064  -7.198 -12.464  1.00 78.21           C  \\nATOM   2331  N   ASN C  99     -11.787 -11.468 -13.229  1.00 66.81           N  \\nATOM   2332  CA  ASN C  99     -10.975 -12.199 -12.263  1.00 66.81           C  \\nATOM   2333  C   ASN C  99      -9.696 -12.736 -12.899  1.00 66.81           C  \\nATOM   2334  CB  ASN C  99     -11.779 -13.342 -11.641  1.00 66.81           C  \\nATOM   2335  O   ASN C  99      -8.625 -12.684 -12.291  1.00 66.81           O  \\nATOM   2336  CG  ASN C  99     -12.699 -12.873 -10.531  1.00 66.81           C  \\nATOM   2337  ND2 ASN C  99     -13.841 -13.534 -10.387  1.00 66.81           N  \\nATOM   2338  OD1 ASN C  99     -12.386 -11.922  -9.809  1.00 66.81           O  \\nATOM   2339  N   THR C 100      -9.835 -13.241 -14.078  1.00 68.18           N  \\nATOM   2340  CA  THR C 100      -8.675 -13.742 -14.808  1.00 68.18           C  \\nATOM   2341  C   THR C 100      -7.673 -12.620 -15.066  1.00 68.18           C  \\nATOM   2342  CB  THR C 100      -9.091 -14.380 -16.146  1.00 68.18           C  \\nATOM   2343  O   THR C 100      -6.469 -12.800 -14.871  1.00 68.18           O  \\nATOM   2344  CG2 THR C 100      -7.872 -14.842 -16.938  1.00 68.18           C  \\nATOM   2345  OG1 THR C 100      -9.935 -15.509 -15.888  1.00 68.18           O  \\nATOM   2346  N   ILE C 101      -8.177 -11.494 -15.474  1.00 78.64           N  \\nATOM   2347  CA  ILE C 101      -7.336 -10.338 -15.765  1.00 78.64           C  \\nATOM   2348  C   ILE C 101      -6.604  -9.900 -14.498  1.00 78.64           C  \\nATOM   2349  CB  ILE C 101      -8.164  -9.166 -16.338  1.00 78.64           C  \\nATOM   2350  O   ILE C 101      -5.388  -9.694 -14.515  1.00 78.64           O  \\nATOM   2351  CG1 ILE C 101      -8.622  -9.484 -17.766  1.00 78.64           C  \\nATOM   2352  CG2 ILE C 101      -7.358  -7.865 -16.298  1.00 78.64           C  \\nATOM   2353  CD1 ILE C 101      -9.676  -8.527 -18.305  1.00 78.64           C  \\nATOM   2354  N   LEU C 102      -7.327  -9.727 -13.429  1.00 71.67           N  \\nATOM   2355  CA  LEU C 102      -6.744  -9.291 -12.165  1.00 71.67           C  \\nATOM   2356  C   LEU C 102      -5.682 -10.276 -11.688  1.00 71.67           C  \\nATOM   2357  CB  LEU C 102      -7.831  -9.137 -11.097  1.00 71.67           C  \\nATOM   2358  O   LEU C 102      -4.597  -9.870 -11.265  1.00 71.67           O  \\nATOM   2359  CG  LEU C 102      -8.759  -7.930 -11.243  1.00 71.67           C  \\nATOM   2360  CD1 LEU C 102      -9.939  -8.050 -10.285  1.00 71.67           C  \\nATOM   2361  CD2 LEU C 102      -7.993  -6.634 -10.998  1.00 71.67           C  \\nATOM   2362  N   ASN C 103      -5.938 -11.532 -11.853  1.00 64.52           N  \\nATOM   2363  CA  ASN C 103      -4.987 -12.562 -11.449  1.00 64.52           C  \\nATOM   2364  C   ASN C 103      -3.753 -12.569 -12.346  1.00 64.52           C  \\nATOM   2365  CB  ASN C 103      -5.653 -13.939 -11.452  1.00 64.52           C  \\nATOM   2366  O   ASN C 103      -2.630 -12.726 -11.864  1.00 64.52           O  \\nATOM   2367  CG  ASN C 103      -6.629 -14.119 -10.306  1.00 64.52           C  \\nATOM   2368  ND2 ASN C 103      -7.579 -15.031 -10.473  1.00 64.52           N  \\nATOM   2369  OD1 ASN C 103      -6.530 -13.442  -9.279  1.00 64.52           O  \\nATOM   2370  N   THR C 104      -4.031 -12.419 -13.586  1.00 71.32           N  \\nATOM   2371  CA  THR C 104      -2.930 -12.423 -14.543  1.00 71.32           C  \\nATOM   2372  C   THR C 104      -2.018 -11.219 -14.323  1.00 71.32           C  \\nATOM   2373  CB  THR C 104      -3.450 -12.418 -15.992  1.00 71.32           C  \\nATOM   2374  O   THR C 104      -0.793 -11.354 -14.322  1.00 71.32           O  \\nATOM   2375  CG2 THR C 104      -2.301 -12.532 -16.989  1.00 71.32           C  \\nATOM   2376  OG1 THR C 104      -4.340 -13.526 -16.178  1.00 71.32           O  \\nATOM   2377  N   MET C 105      -2.602 -10.048 -14.124  1.00 77.81           N  \\nATOM   2378  CA  MET C 105      -1.801  -8.859 -13.850  1.00 77.81           C  \\nATOM   2379  C   MET C 105      -0.978  -9.038 -12.578  1.00 77.81           C  \\nATOM   2380  CB  MET C 105      -2.695  -7.624 -13.724  1.00 77.81           C  \\nATOM   2381  O   MET C 105       0.210  -8.712 -12.552  1.00 77.81           O  \\nATOM   2382  CG  MET C 105      -3.215  -7.105 -15.054  1.00 77.81           C  \\nATOM   2383  SD  MET C 105      -3.954  -5.431 -14.916  1.00 77.81           S  \\nATOM   2384  CE  MET C 105      -5.325  -5.780 -13.780  1.00 77.81           C  \\nATOM   2385  N   SER C 106      -1.585  -9.510 -11.569  1.00 64.89           N  \\nATOM   2386  CA  SER C 106      -0.896  -9.759 -10.307  1.00 64.89           C  \\nATOM   2387  C   SER C 106       0.256 -10.741 -10.491  1.00 64.89           C  \\nATOM   2388  CB  SER C 106      -1.873 -10.297  -9.260  1.00 64.89           C  \\nATOM   2389  O   SER C 106       1.344 -10.537  -9.949  1.00 64.89           O  \\nATOM   2390  OG  SER C 106      -1.212 -10.528  -8.028  1.00 64.89           O  \\nATOM   2391  N   THR C 107       0.033 -11.747 -11.325  1.00 63.98           N  \\nATOM   2392  CA  THR C 107       1.040 -12.771 -11.581  1.00 63.98           C  \\nATOM   2393  C   THR C 107       2.211 -12.192 -12.370  1.00 63.98           C  \\nATOM   2394  CB  THR C 107       0.440 -13.964 -12.348  1.00 63.98           C  \\nATOM   2395  O   THR C 107       3.372 -12.430 -12.032  1.00 63.98           O  \\nATOM   2396  CG2 THR C 107       1.505 -15.011 -12.657  1.00 63.98           C  \\nATOM   2397  OG1 THR C 107      -0.590 -14.566 -11.554  1.00 63.98           O  \\nATOM   2398  N   ILE C 108       1.864 -11.468 -13.343  1.00 72.54           N  \\nATOM   2399  CA  ILE C 108       2.903 -10.850 -14.161  1.00 72.54           C  \\nATOM   2400  C   ILE C 108       3.776  -9.949 -13.290  1.00 72.54           C  \\nATOM   2401  CB  ILE C 108       2.297 -10.042 -15.329  1.00 72.54           C  \\nATOM   2402  O   ILE C 108       5.006 -10.018 -13.353  1.00 72.54           O  \\nATOM   2403  CG1 ILE C 108       1.671 -10.985 -16.363  1.00 72.54           C  \\nATOM   2404  CG2 ILE C 108       3.359  -9.148 -15.976  1.00 72.54           C  \\nATOM   2405  CD1 ILE C 108       0.843 -10.277 -17.427  1.00 72.54           C  \\nATOM   2406  N   TYR C 109       3.184  -9.182 -12.441  1.00 73.92           N  \\nATOM   2407  CA  TYR C 109       3.915  -8.267 -11.572  1.00 73.92           C  \\nATOM   2408  C   TYR C 109       4.802  -9.033 -10.597  1.00 73.92           C  \\nATOM   2409  CB  TYR C 109       2.945  -7.368 -10.800  1.00 73.92           C  \\nATOM   2410  O   TYR C 109       5.977  -8.701 -10.425  1.00 73.92           O  \\nATOM   2411  CG  TYR C 109       3.630  -6.368  -9.900  1.00 73.92           C  \\nATOM   2412  CD1 TYR C 109       4.022  -6.717  -8.610  1.00 73.92           C  \\nATOM   2413  CD2 TYR C 109       3.886  -5.073 -10.338  1.00 73.92           C  \\nATOM   2414  CE1 TYR C 109       4.652  -5.798  -7.777  1.00 73.92           C  \\nATOM   2415  CE2 TYR C 109       4.515  -4.146  -9.514  1.00 73.92           C  \\nATOM   2416  OH  TYR C 109       5.517  -3.604  -7.416  1.00 73.92           O  \\nATOM   2417  CZ  TYR C 109       4.894  -4.517  -8.237  1.00 73.92           C  \\nATOM   2418  N   SER C 110       4.317 -10.010 -10.009  1.00 62.43           N  \\nATOM   2419  CA  SER C 110       4.979 -10.709  -8.913  1.00 62.43           C  \\nATOM   2420  C   SER C 110       6.093 -11.615  -9.427  1.00 62.43           C  \\nATOM   2421  CB  SER C 110       3.967 -11.534  -8.115  1.00 62.43           C  \\nATOM   2422  O   SER C 110       7.058 -11.889  -8.711  1.00 62.43           O  \\nATOM   2423  OG  SER C 110       2.995 -10.695  -7.515  1.00 62.43           O  \\nATOM   2424  N   THR C 111       5.964 -12.012 -10.715  1.00 61.63           N  \\nATOM   2425  CA  THR C 111       6.914 -13.006 -11.199  1.00 61.63           C  \\nATOM   2426  C   THR C 111       7.828 -12.407 -12.265  1.00 61.63           C  \\nATOM   2427  CB  THR C 111       6.190 -14.238 -11.774  1.00 61.63           C  \\nATOM   2428  O   THR C 111       8.760 -13.065 -12.731  1.00 61.63           O  \\nATOM   2429  CG2 THR C 111       5.299 -14.892 -10.723  1.00 61.63           C  \\nATOM   2430  OG1 THR C 111       5.380 -13.833 -12.885  1.00 61.63           O  \\nATOM   2431  N   GLY C 112       7.449 -11.214 -12.639  1.00 70.62           N  \\nATOM   2432  CA  GLY C 112       8.273 -10.597 -13.666  1.00 70.62           C  \\nATOM   2433  C   GLY C 112       9.741 -10.525 -13.290  1.00 70.62           C  \\nATOM   2434  O   GLY C 112      10.080 -10.195 -12.152  1.00 70.62           O  \\nATOM   2435  N   LYS C 113      10.650 -10.985 -14.157  1.00 76.37           N  \\nATOM   2436  CA  LYS C 113      12.099 -10.913 -13.995  1.00 76.37           C  \\nATOM   2437  C   LYS C 113      12.755 -10.249 -15.203  1.00 76.37           C  \\nATOM   2438  CB  LYS C 113      12.686 -12.309 -13.782  1.00 76.37           C  \\nATOM   2439  O   LYS C 113      12.276 -10.388 -16.330  1.00 76.37           O  \\nATOM   2440  CG  LYS C 113      12.209 -12.993 -12.509  1.00 76.37           C  \\nATOM   2441  CD  LYS C 113      12.817 -14.382 -12.359  1.00 76.37           C  \\nATOM   2442  CE  LYS C 113      12.296 -15.090 -11.116  1.00 76.37           C  \\nATOM   2443  NZ  LYS C 113      12.862 -16.465 -10.984  1.00 76.37           N  \\nATOM   2444  N   VAL C 114      13.764  -9.554 -14.895  1.00 81.71           N  \\nATOM   2445  CA  VAL C 114      14.546  -8.956 -15.972  1.00 81.71           C  \\nATOM   2446  C   VAL C 114      15.997  -9.423 -15.878  1.00 81.71           C  \\nATOM   2447  CB  VAL C 114      14.478  -7.413 -15.934  1.00 81.71           C  \\nATOM   2448  O   VAL C 114      16.562  -9.496 -14.784  1.00 81.71           O  \\nATOM   2449  CG1 VAL C 114      13.059  -6.928 -16.220  1.00 81.71           C  \\nATOM   2450  CG2 VAL C 114      14.963  -6.892 -14.582  1.00 81.71           C  \\nATOM   2451  N   CYS C 115      16.526  -9.812 -17.028  1.00 80.08           N  \\nATOM   2452  CA  CYS C 115      17.868 -10.382 -17.064  1.00 80.08           C  \\nATOM   2453  C   CYS C 115      18.893  -9.338 -17.488  1.00 80.08           C  \\nATOM   2454  CB  CYS C 115      17.918 -11.576 -18.017  1.00 80.08           C  \\nATOM   2455  O   CYS C 115      18.608  -8.491 -18.337  1.00 80.08           O  \\nATOM   2456  SG  CYS C 115      16.811 -12.926 -17.553  1.00 80.08           S  \\nATOM   2457  N   ASN C 116      20.030  -9.377 -16.775  1.00 76.12           N  \\nATOM   2458  CA  ASN C 116      21.160  -8.518 -17.115  1.00 76.12           C  \\nATOM   2459  C   ASN C 116      21.700  -8.827 -18.508  1.00 76.12           C  \\nATOM   2460  CB  ASN C 116      22.271  -8.655 -16.072  1.00 76.12           C  \\nATOM   2461  O   ASN C 116      22.075  -9.965 -18.795  1.00 76.12           O  \\nATOM   2462  CG  ASN C 116      23.354  -7.606 -16.232  1.00 76.12           C  \\nATOM   2463  ND2 ASN C 116      24.037  -7.288 -15.138  1.00 76.12           N  \\nATOM   2464  OD1 ASN C 116      23.574  -7.085 -17.328  1.00 76.12           O  \\nATOM   2465  N   PRO C 117      21.772  -7.820 -19.361  1.00 74.25           N  \\nATOM   2466  CA  PRO C 117      22.262  -8.057 -20.721  1.00 74.25           C  \\nATOM   2467  C   PRO C 117      23.705  -8.556 -20.749  1.00 74.25           C  \\nATOM   2468  CB  PRO C 117      22.147  -6.681 -21.382  1.00 74.25           C  \\nATOM   2469  O   PRO C 117      24.086  -9.301 -21.655  1.00 74.25           O  \\nATOM   2470  CG  PRO C 117      21.695  -5.768 -20.288  1.00 74.25           C  \\nATOM   2471  CD  PRO C 117      21.360  -6.598 -19.082  1.00 74.25           C  \\nATOM   2472  N   ASP C 118      24.563  -8.108 -19.802  1.00 75.93           N  \\nATOM   2473  CA  ASP C 118      25.975  -8.474 -19.743  1.00 75.93           C  \\nATOM   2474  C   ASP C 118      26.159  -9.856 -19.122  1.00 75.93           C  \\nATOM   2475  CB  ASP C 118      26.767  -7.431 -18.950  1.00 75.93           C  \\nATOM   2476  O   ASP C 118      27.194 -10.497 -19.316  1.00 75.93           O  \\nATOM   2477  CG  ASP C 118      26.776  -6.065 -19.612  1.00 75.93           C  \\nATOM   2478  OD1 ASP C 118      26.766  -5.991 -20.860  1.00 75.93           O  \\nATOM   2479  OD2 ASP C 118      26.798  -5.052 -18.880  1.00 75.93           O  \\nATOM   2480  N   ASN C 119      25.124 -10.313 -18.326  1.00 77.16           N  \\nATOM   2481  CA  ASN C 119      25.089 -11.627 -17.692  1.00 77.16           C  \\nATOM   2482  C   ASN C 119      23.682 -12.217 -17.704  1.00 77.16           C  \\nATOM   2483  CB  ASN C 119      25.618 -11.546 -16.258  1.00 77.16           C  \\nATOM   2484  O   ASN C 119      22.970 -12.159 -16.699  1.00 77.16           O  \\nATOM   2485  CG  ASN C 119      25.825 -12.912 -15.634  1.00 77.16           C  \\nATOM   2486  ND2 ASN C 119      26.292 -12.932 -14.392  1.00 77.16           N  \\nATOM   2487  OD1 ASN C 119      25.568 -13.941 -16.264  1.00 77.16           O  \\nATOM   2488  N   PRO C 120      23.299 -12.751 -18.774  1.00 69.19           N  \\nATOM   2489  CA  PRO C 120      21.928 -13.216 -18.997  1.00 69.19           C  \\nATOM   2490  C   PRO C 120      21.489 -14.268 -17.982  1.00 69.19           C  \\nATOM   2491  CB  PRO C 120      21.981 -13.808 -20.408  1.00 69.19           C  \\nATOM   2492  O   PRO C 120      20.292 -14.527 -17.833  1.00 69.19           O  \\nATOM   2493  CG  PRO C 120      23.246 -13.272 -20.999  1.00 69.19           C  \\nATOM   2494  CD  PRO C 120      24.132 -12.800 -19.882  1.00 69.19           C  \\nATOM   2495  N   GLN C 121      22.378 -14.876 -17.214  1.00 66.09           N  \\nATOM   2496  CA  GLN C 121      22.034 -15.863 -16.196  1.00 66.09           C  \\nATOM   2497  C   GLN C 121      21.556 -15.187 -14.914  1.00 66.09           C  \\nATOM   2498  CB  GLN C 121      23.230 -16.768 -15.898  1.00 66.09           C  \\nATOM   2499  O   GLN C 121      20.937 -15.828 -14.062  1.00 66.09           O  \\nATOM   2500  CG  GLN C 121      23.591 -17.707 -17.042  1.00 66.09           C  \\nATOM   2501  CD  GLN C 121      24.376 -18.920 -16.580  1.00 66.09           C  \\nATOM   2502  NE2 GLN C 121      24.666 -19.827 -17.506  1.00 66.09           N  \\nATOM   2503  OE1 GLN C 121      24.721 -19.040 -15.400  1.00 66.09           O  \\nATOM   2504  N   GLU C 122      21.831 -13.906 -14.892  1.00 73.07           N  \\nATOM   2505  CA  GLU C 122      21.413 -13.152 -13.714  1.00 73.07           C  \\nATOM   2506  C   GLU C 122      20.108 -12.405 -13.971  1.00 73.07           C  \\nATOM   2507  CB  GLU C 122      22.507 -12.169 -13.289  1.00 73.07           C  \\nATOM   2508  O   GLU C 122      20.105 -11.350 -14.610  1.00 73.07           O  \\nATOM   2509  CG  GLU C 122      22.251 -11.508 -11.942  1.00 73.07           C  \\nATOM   2510  CD  GLU C 122      23.307 -10.480 -11.568  1.00 73.07           C  \\nATOM   2511  OE1 GLU C 122      23.294  -9.988 -10.417  1.00 73.07           O  \\nATOM   2512  OE2 GLU C 122      24.154 -10.164 -12.433  1.00 73.07           O  \\nATOM   2513  N   CYS C 123      19.077 -12.993 -13.606  1.00 76.24           N  \\nATOM   2514  CA  CYS C 123      17.766 -12.365 -13.726  1.00 76.24           C  \\nATOM   2515  C   CYS C 123      17.254 -11.906 -12.366  1.00 76.24           C  \\nATOM   2516  CB  CYS C 123      16.765 -13.331 -14.358  1.00 76.24           C  \\nATOM   2517  O   CYS C 123      17.342 -12.645 -11.383  1.00 76.24           O  \\nATOM   2518  SG  CYS C 123      17.180 -13.805 -16.051  1.00 76.24           S  \\nATOM   2519  N   LEU C 124      16.786 -10.683 -12.382  1.00 75.61           N  \\nATOM   2520  CA  LEU C 124      16.401 -10.098 -11.102  1.00 75.61           C  \\nATOM   2521  C   LEU C 124      14.892  -9.889 -11.032  1.00 75.61           C  \\nATOM   2522  CB  LEU C 124      17.124  -8.767 -10.881  1.00 75.61           C  \\nATOM   2523  O   LEU C 124      14.268  -9.501 -12.022  1.00 75.61           O  \\nATOM   2524  CG  LEU C 124      18.649  -8.832 -10.780  1.00 75.61           C  \\nATOM   2525  CD1 LEU C 124      19.235  -7.426 -10.703  1.00 75.61           C  \\nATOM   2526  CD2 LEU C 124      19.070  -9.660  -9.571  1.00 75.61           C  \\nATOM   2527  N   LEU C 125      14.341 -10.232  -9.940  1.00 69.78           N  \\nATOM   2528  CA  LEU C 125      12.986  -9.813  -9.597  1.00 69.78           C  \\nATOM   2529  C   LEU C 125      12.958  -8.343  -9.192  1.00 69.78           C  \\nATOM   2530  CB  LEU C 125      12.430 -10.677  -8.462  1.00 69.78           C  \\nATOM   2531  O   LEU C 125      14.010  -7.722  -9.020  1.00 69.78           O  \\nATOM   2532  CG  LEU C 125      12.241 -12.163  -8.772  1.00 69.78           C  \\nATOM   2533  CD1 LEU C 125      12.086 -12.958  -7.479  1.00 69.78           C  \\nATOM   2534  CD2 LEU C 125      11.035 -12.371  -9.681  1.00 69.78           C  \\nATOM   2535  N   LEU C 126      11.733  -7.883  -9.139  1.00 71.75           N  \\nATOM   2536  CA  LEU C 126      11.627  -6.511  -8.656  1.00 71.75           C  \\nATOM   2537  C   LEU C 126      12.162  -6.392  -7.233  1.00 71.75           C  \\nATOM   2538  CB  LEU C 126      10.173  -6.034  -8.710  1.00 71.75           C  \\nATOM   2539  O   LEU C 126      13.030  -5.561  -6.959  1.00 71.75           O  \\nATOM   2540  CG  LEU C 126       9.909  -4.607  -8.226  1.00 71.75           C  \\nATOM   2541  CD1 LEU C 126      10.620  -3.602  -9.126  1.00 71.75           C  \\nATOM   2542  CD2 LEU C 126       8.411  -4.326  -8.180  1.00 71.75           C  \\nATOM   2543  N   GLU C 127      11.576  -7.229  -6.270  1.00 58.09           N  \\nATOM   2544  CA  GLU C 127      12.003  -7.288  -4.875  1.00 58.09           C  \\nATOM   2545  C   GLU C 127      12.275  -8.726  -4.442  1.00 58.09           C  \\nATOM   2546  CB  GLU C 127      10.950  -6.654  -3.963  1.00 58.09           C  \\nATOM   2547  O   GLU C 127      11.398  -9.586  -4.544  1.00 58.09           O  \\nATOM   2548  CG  GLU C 127      10.912  -5.134  -4.031  1.00 58.09           C  \\nATOM   2549  CD  GLU C 127       9.889  -4.516  -3.091  1.00 58.09           C  \\nATOM   2550  OE1 GLU C 127       9.706  -3.278  -3.122  1.00 58.09           O  \\nATOM   2551  OE2 GLU C 127       9.266  -5.277  -2.317  1.00 58.09           O  \\nATOM   2552  N   PRO C 128      13.441  -9.161  -4.019  1.00 59.70           N  \\nATOM   2553  CA  PRO C 128      14.670  -8.367  -3.953  1.00 59.70           C  \\nATOM   2554  C   PRO C 128      15.408  -8.310  -5.289  1.00 59.70           C  \\nATOM   2555  CB  PRO C 128      15.505  -9.096  -2.898  1.00 59.70           C  \\nATOM   2556  O   PRO C 128      15.181  -9.154  -6.160  1.00 59.70           O  \\nATOM   2557  CG  PRO C 128      15.090 -10.528  -3.005  1.00 59.70           C  \\nATOM   2558  CD  PRO C 128      13.649 -10.577  -3.424  1.00 59.70           C  \\nATOM   2559  N   GLY C 129      16.017  -7.220  -5.694  1.00 76.23           N  \\nATOM   2560  CA  GLY C 129      16.860  -7.133  -6.875  1.00 76.23           C  \\nATOM   2561  C   GLY C 129      16.937  -5.732  -7.452  1.00 76.23           C  \\nATOM   2562  O   GLY C 129      17.794  -4.939  -7.057  1.00 76.23           O  \\nATOM   2563  N   LEU C 130      15.903  -5.523  -8.310  1.00 82.31           N  \\nATOM   2564  CA  LEU C 130      15.910  -4.249  -9.020  1.00 82.31           C  \\nATOM   2565  C   LEU C 130      15.762  -3.083  -8.048  1.00 82.31           C  \\nATOM   2566  CB  LEU C 130      14.787  -4.208 -10.059  1.00 82.31           C  \\nATOM   2567  O   LEU C 130      16.412  -2.048  -8.210  1.00 82.31           O  \\nATOM   2568  CG  LEU C 130      14.867  -5.239 -11.186  1.00 82.31           C  \\nATOM   2569  CD1 LEU C 130      13.638  -5.140 -12.084  1.00 82.31           C  \\nATOM   2570  CD2 LEU C 130      16.145  -5.049 -11.996  1.00 82.31           C  \\nATOM   2571  N   ASN C 131      14.931  -3.245  -7.004  1.00 76.24           N  \\nATOM   2572  CA  ASN C 131      14.724  -2.178  -6.030  1.00 76.24           C  \\nATOM   2573  C   ASN C 131      16.003  -1.870  -5.257  1.00 76.24           C  \\nATOM   2574  CB  ASN C 131      13.595  -2.544  -5.065  1.00 76.24           C  \\nATOM   2575  O   ASN C 131      16.243  -0.723  -4.877  1.00 76.24           O  \\nATOM   2576  CG  ASN C 131      13.866  -3.830  -4.309  1.00 76.24           C  \\nATOM   2577  ND2 ASN C 131      13.187  -4.010  -3.182  1.00 76.24           N  \\nATOM   2578  OD1 ASN C 131      14.680  -4.654  -4.734  1.00 76.24           O  \\nATOM   2579  N   GLU C 132      16.829  -2.867  -5.030  1.00 77.21           N  \\nATOM   2580  CA  GLU C 132      18.097  -2.668  -4.335  1.00 77.21           C  \\nATOM   2581  C   GLU C 132      19.066  -1.845  -5.180  1.00 77.21           C  \\nATOM   2582  CB  GLU C 132      18.729  -4.014  -3.973  1.00 77.21           C  \\nATOM   2583  O   GLU C 132      19.798  -1.005  -4.652  1.00 77.21           O  \\nATOM   2584  CG  GLU C 132      18.005  -4.752  -2.855  1.00 77.21           C  \\nATOM   2585  CD  GLU C 132      18.681  -6.055  -2.461  1.00 77.21           C  \\nATOM   2586  OE1 GLU C 132      18.223  -6.710  -1.497  1.00 77.21           O  \\nATOM   2587  OE2 GLU C 132      19.678  -6.425  -3.121  1.00 77.21           O  \\nATOM   2588  N   ILE C 133      19.049  -2.162  -6.433  1.00 87.79           N  \\nATOM   2589  CA  ILE C 133      19.882  -1.380  -7.340  1.00 87.79           C  \\nATOM   2590  C   ILE C 133      19.460   0.087  -7.292  1.00 87.79           C  \\nATOM   2591  CB  ILE C 133      19.798  -1.915  -8.787  1.00 87.79           C  \\nATOM   2592  O   ILE C 133      20.301   0.977  -7.145  1.00 87.79           O  \\nATOM   2593  CG1 ILE C 133      20.444  -3.302  -8.882  1.00 87.79           C  \\nATOM   2594  CG2 ILE C 133      20.455  -0.936  -9.764  1.00 87.79           C  \\nATOM   2595  CD1 ILE C 133      20.230  -3.994 -10.221  1.00 87.79           C  \\nATOM   2596  N   MET C 134      18.187   0.350  -7.358  1.00 90.78           N  \\nATOM   2597  CA  MET C 134      17.667   1.714  -7.347  1.00 90.78           C  \\nATOM   2598  C   MET C 134      17.987   2.409  -6.027  1.00 90.78           C  \\nATOM   2599  CB  MET C 134      16.156   1.716  -7.585  1.00 90.78           C  \\nATOM   2600  O   MET C 134      18.284   3.604  -6.006  1.00 90.78           O  \\nATOM   2601  CG  MET C 134      15.754   1.244  -8.973  1.00 90.78           C  \\nATOM   2602  SD  MET C 134      16.480   2.277 -10.305  1.00 90.78           S  \\nATOM   2603  CE  MET C 134      15.476   3.778 -10.128  1.00 90.78           C  \\nATOM   2604  N   ALA C 135      18.036   1.668  -4.949  1.00 81.62           N  \\nATOM   2605  CA  ALA C 135      18.235   2.222  -3.612  1.00 81.62           C  \\nATOM   2606  C   ALA C 135      19.712   2.497  -3.346  1.00 81.62           C  \\nATOM   2607  CB  ALA C 135      17.674   1.274  -2.554  1.00 81.62           C  \\nATOM   2608  O   ALA C 135      20.059   3.489  -2.701  1.00 81.62           O  \\nATOM   2609  N   ASN C 136      20.660   1.690  -3.972  1.00 86.08           N  \\nATOM   2610  CA  ASN C 136      22.031   1.697  -3.471  1.00 86.08           C  \\nATOM   2611  C   ASN C 136      23.023   2.100  -4.559  1.00 86.08           C  \\nATOM   2612  CB  ASN C 136      22.400   0.327  -2.898  1.00 86.08           C  \\nATOM   2613  O   ASN C 136      24.096   2.627  -4.261  1.00 86.08           O  \\nATOM   2614  CG  ASN C 136      21.552  -0.051  -1.699  1.00 86.08           C  \\nATOM   2615  ND2 ASN C 136      21.046  -1.278  -1.695  1.00 86.08           N  \\nATOM   2616  OD1 ASN C 136      21.354   0.753  -0.785  1.00 86.08           O  \\nATOM   2617  N   SER C 137      22.734   1.815  -5.796  1.00 91.54           N  \\nATOM   2618  CA  SER C 137      23.694   2.072  -6.865  1.00 91.54           C  \\nATOM   2619  C   SER C 137      23.752   3.555  -7.212  1.00 91.54           C  \\nATOM   2620  CB  SER C 137      23.337   1.262  -8.112  1.00 91.54           C  \\nATOM   2621  O   SER C 137      22.725   4.237  -7.220  1.00 91.54           O  \\nATOM   2622  OG  SER C 137      24.187   1.602  -9.194  1.00 91.54           O  \\nATOM   2623  N   LEU C 138      24.927   4.025  -7.489  1.00 94.49           N  \\nATOM   2624  CA  LEU C 138      25.107   5.385  -7.986  1.00 94.49           C  \\nATOM   2625  C   LEU C 138      25.451   5.379  -9.472  1.00 94.49           C  \\nATOM   2626  CB  LEU C 138      26.207   6.102  -7.199  1.00 94.49           C  \\nATOM   2627  O   LEU C 138      25.689   6.435 -10.063  1.00 94.49           O  \\nATOM   2628  CG  LEU C 138      25.890   6.435  -5.741  1.00 94.49           C  \\nATOM   2629  CD1 LEU C 138      27.095   7.086  -5.071  1.00 94.49           C  \\nATOM   2630  CD2 LEU C 138      24.668   7.344  -5.653  1.00 94.49           C  \\nATOM   2631  N   ASP C 139      25.532   4.224 -10.056  1.00 93.99           N  \\nATOM   2632  CA  ASP C 139      25.842   4.095 -11.476  1.00 93.99           C  \\nATOM   2633  C   ASP C 139      24.633   4.453 -12.337  1.00 93.99           C  \\nATOM   2634  CB  ASP C 139      26.314   2.676 -11.797  1.00 93.99           C  \\nATOM   2635  O   ASP C 139      23.598   3.787 -12.270  1.00 93.99           O  \\nATOM   2636  CG  ASP C 139      26.738   2.504 -13.245  1.00 93.99           C  \\nATOM   2637  OD1 ASP C 139      25.863   2.334 -14.121  1.00 93.99           O  \\nATOM   2638  OD2 ASP C 139      27.959   2.536 -13.512  1.00 93.99           O  \\nATOM   2639  N   TYR C 140      24.807   5.471 -13.196  1.00 94.13           N  \\nATOM   2640  CA  TYR C 140      23.740   5.988 -14.046  1.00 94.13           C  \\nATOM   2641  C   TYR C 140      23.142   4.881 -14.906  1.00 94.13           C  \\nATOM   2642  CB  TYR C 140      24.264   7.117 -14.940  1.00 94.13           C  \\nATOM   2643  O   TYR C 140      21.924   4.684 -14.916  1.00 94.13           O  \\nATOM   2644  CG  TYR C 140      23.217   7.703 -15.855  1.00 94.13           C  \\nATOM   2645  CD1 TYR C 140      22.962   7.142 -17.104  1.00 94.13           C  \\nATOM   2646  CD2 TYR C 140      22.480   8.819 -15.473  1.00 94.13           C  \\nATOM   2647  CE1 TYR C 140      22.000   7.680 -17.952  1.00 94.13           C  \\nATOM   2648  CE2 TYR C 140      21.515   9.366 -16.312  1.00 94.13           C  \\nATOM   2649  OH  TYR C 140      20.327   9.326 -18.382  1.00 94.13           O  \\nATOM   2650  CZ  TYR C 140      21.282   8.790 -17.547  1.00 94.13           C  \\nATOM   2651  N   ASN C 141      23.968   4.091 -15.566  1.00 92.96           N  \\nATOM   2652  CA  ASN C 141      23.538   3.102 -16.549  1.00 92.96           C  \\nATOM   2653  C   ASN C 141      22.905   1.886 -15.879  1.00 92.96           C  \\nATOM   2654  CB  ASN C 141      24.714   2.672 -17.428  1.00 92.96           C  \\nATOM   2655  O   ASN C 141      21.972   1.290 -16.420  1.00 92.96           O  \\nATOM   2656  CG  ASN C 141      25.177   3.772 -18.363  1.00 92.96           C  \\nATOM   2657  ND2 ASN C 141      26.486   3.979 -18.433  1.00 92.96           N  \\nATOM   2658  OD1 ASN C 141      24.364   4.430 -19.017  1.00 92.96           O  \\nATOM   2659  N   GLU C 142      23.444   1.563 -14.775  1.00 93.63           N  \\nATOM   2660  CA  GLU C 142      22.857   0.446 -14.041  1.00 93.63           C  \\nATOM   2661  C   GLU C 142      21.439   0.771 -13.580  1.00 93.63           C  \\nATOM   2662  CB  GLU C 142      23.729   0.076 -12.838  1.00 93.63           C  \\nATOM   2663  O   GLU C 142      20.535  -0.057 -13.705  1.00 93.63           O  \\nATOM   2664  CG  GLU C 142      23.343  -1.242 -12.181  1.00 93.63           C  \\nATOM   2665  CD  GLU C 142      24.266  -1.635 -11.038  1.00 93.63           C  \\nATOM   2666  OE1 GLU C 142      24.426  -2.849 -10.778  1.00 93.63           O  \\nATOM   2667  OE2 GLU C 142      24.834  -0.722 -10.398  1.00 93.63           O  \\nATOM   2668  N   ARG C 143      21.228   2.002 -13.078  1.00 95.04           N  \\nATOM   2669  CA  ARG C 143      19.895   2.433 -12.669  1.00 95.04           C  \\nATOM   2670  C   ARG C 143      18.953   2.510 -13.865  1.00 95.04           C  \\nATOM   2671  CB  ARG C 143      19.961   3.790 -11.965  1.00 95.04           C  \\nATOM   2672  O   ARG C 143      17.782   2.138 -13.765  1.00 95.04           O  \\nATOM   2673  CG  ARG C 143      20.568   3.732 -10.572  1.00 95.04           C  \\nATOM   2674  CD  ARG C 143      20.483   5.077  -9.864  1.00 95.04           C  \\nATOM   2675  NE  ARG C 143      20.938   4.987  -8.479  1.00 95.04           N  \\nATOM   2676  NH1 ARG C 143      20.170   7.080  -7.873  1.00 95.04           N  \\nATOM   2677  NH2 ARG C 143      21.231   5.753  -6.334  1.00 95.04           N  \\nATOM   2678  CZ  ARG C 143      20.779   5.940  -7.565  1.00 95.04           C  \\nATOM   2679  N   LEU C 144      19.476   2.999 -14.951  1.00 94.91           N  \\nATOM   2680  CA  LEU C 144      18.681   3.089 -16.171  1.00 94.91           C  \\nATOM   2681  C   LEU C 144      18.238   1.705 -16.635  1.00 94.91           C  \\nATOM   2682  CB  LEU C 144      19.477   3.781 -17.280  1.00 94.91           C  \\nATOM   2683  O   LEU C 144      17.079   1.512 -17.007  1.00 94.91           O  \\nATOM   2684  CG  LEU C 144      18.755   3.971 -18.616  1.00 94.91           C  \\nATOM   2685  CD1 LEU C 144      17.482   4.786 -18.419  1.00 94.91           C  \\nATOM   2686  CD2 LEU C 144      19.675   4.641 -19.630  1.00 94.91           C  \\nATOM   2687  N   TRP C 145      19.128   0.777 -16.607  1.00 94.21           N  \\nATOM   2688  CA  TRP C 145      18.805  -0.592 -16.994  1.00 94.21           C  \\nATOM   2689  C   TRP C 145      17.701  -1.162 -16.110  1.00 94.21           C  \\nATOM   2690  CB  TRP C 145      20.049  -1.481 -16.916  1.00 94.21           C  \\nATOM   2691  O   TRP C 145      16.734  -1.742 -16.610  1.00 94.21           O  \\nATOM   2692  CG  TRP C 145      19.752  -2.950 -16.962  1.00 94.21           C  \\nATOM   2693  CD1 TRP C 145      19.412  -3.688 -18.062  1.00 94.21           C  \\nATOM   2694  CD2 TRP C 145      19.764  -3.859 -15.857  1.00 94.21           C  \\nATOM   2695  CE2 TRP C 145      19.422  -5.133 -16.360  1.00 94.21           C  \\nATOM   2696  CE3 TRP C 145      20.032  -3.719 -14.488  1.00 94.21           C  \\nATOM   2697  NE1 TRP C 145      19.213  -5.002 -17.706  1.00 94.21           N  \\nATOM   2698  CH2 TRP C 145      19.608  -6.098 -14.207  1.00 94.21           C  \\nATOM   2699  CZ2 TRP C 145      19.341  -6.263 -15.542  1.00 94.21           C  \\nATOM   2700  CZ3 TRP C 145      19.951  -4.844 -13.675  1.00 94.21           C  \\nATOM   2701  N   ALA C 146      17.908  -1.029 -14.808  1.00 92.30           N  \\nATOM   2702  CA  ALA C 146      16.917  -1.545 -13.867  1.00 92.30           C  \\nATOM   2703  C   ALA C 146      15.543  -0.935 -14.127  1.00 92.30           C  \\nATOM   2704  CB  ALA C 146      17.354  -1.271 -12.430  1.00 92.30           C  \\nATOM   2705  O   ALA C 146      14.547  -1.655 -14.235  1.00 92.30           O  \\nATOM   2706  N   TRP C 147      15.464   0.343 -14.242  1.00 95.62           N  \\nATOM   2707  CA  TRP C 147      14.227   1.090 -14.447  1.00 95.62           C  \\nATOM   2708  C   TRP C 147      13.566   0.698 -15.764  1.00 95.62           C  \\nATOM   2709  CB  TRP C 147      14.498   2.597 -14.425  1.00 95.62           C  \\nATOM   2710  O   TRP C 147      12.389   0.332 -15.790  1.00 95.62           O  \\nATOM   2711  CG  TRP C 147      13.259   3.439 -14.484  1.00 95.62           C  \\nATOM   2712  CD1 TRP C 147      12.534   3.914 -13.426  1.00 95.62           C  \\nATOM   2713  CD2 TRP C 147      12.596   3.902 -15.664  1.00 95.62           C  \\nATOM   2714  CE2 TRP C 147      11.475   4.654 -15.246  1.00 95.62           C  \\nATOM   2715  CE3 TRP C 147      12.841   3.755 -17.036  1.00 95.62           C  \\nATOM   2716  NE1 TRP C 147      11.461   4.645 -13.878  1.00 95.62           N  \\nATOM   2717  CH2 TRP C 147      10.864   5.098 -17.489  1.00 95.62           C  \\nATOM   2718  CZ2 TRP C 147      10.601   5.258 -16.153  1.00 95.62           C  \\nATOM   2719  CZ3 TRP C 147      11.970   4.357 -17.937  1.00 95.62           C  \\nATOM   2720  N   GLU C 148      14.251   0.724 -16.899  1.00 95.96           N  \\nATOM   2721  CA  GLU C 148      13.720   0.492 -18.239  1.00 95.96           C  \\nATOM   2722  C   GLU C 148      13.340  -0.973 -18.436  1.00 95.96           C  \\nATOM   2723  CB  GLU C 148      14.736   0.920 -19.301  1.00 95.96           C  \\nATOM   2724  O   GLU C 148      12.297  -1.276 -19.018  1.00 95.96           O  \\nATOM   2725  CG  GLU C 148      14.369   0.486 -20.713  1.00 95.96           C  \\nATOM   2726  CD  GLU C 148      13.029   1.031 -21.179  1.00 95.96           C  \\nATOM   2727  OE1 GLU C 148      12.457   0.488 -22.152  1.00 95.96           O  \\nATOM   2728  OE2 GLU C 148      12.547   2.011 -20.568  1.00 95.96           O  \\nATOM   2729  N   SER C 149      14.149  -1.867 -17.942  1.00 93.77           N  \\nATOM   2730  CA  SER C 149      13.912  -3.288 -18.179  1.00 93.77           C  \\nATOM   2731  C   SER C 149      12.624  -3.752 -17.508  1.00 93.77           C  \\nATOM   2732  CB  SER C 149      15.090  -4.120 -17.671  1.00 93.77           C  \\nATOM   2733  O   SER C 149      11.910  -4.602 -18.045  1.00 93.77           O  \\nATOM   2734  OG  SER C 149      15.394  -3.793 -16.325  1.00 93.77           O  \\nATOM   2735  N   TRP C 150      12.342  -3.200 -16.369  1.00 93.03           N  \\nATOM   2736  CA  TRP C 150      11.098  -3.541 -15.686  1.00 93.03           C  \\nATOM   2737  C   TRP C 150       9.889  -3.101 -16.504  1.00 93.03           C  \\nATOM   2738  CB  TRP C 150      11.053  -2.896 -14.298  1.00 93.03           C  \\nATOM   2739  O   TRP C 150       8.968  -3.888 -16.734  1.00 93.03           O  \\nATOM   2740  CG  TRP C 150       9.774  -3.139 -13.554  1.00 93.03           C  \\nATOM   2741  CD1 TRP C 150       8.816  -2.216 -13.240  1.00 93.03           C  \\nATOM   2742  CD2 TRP C 150       9.316  -4.388 -13.028  1.00 93.03           C  \\nATOM   2743  CE2 TRP C 150       8.071  -4.148 -12.407  1.00 93.03           C  \\nATOM   2744  CE3 TRP C 150       9.838  -5.688 -13.023  1.00 93.03           C  \\nATOM   2745  NE1 TRP C 150       7.789  -2.817 -12.549  1.00 93.03           N  \\nATOM   2746  CH2 TRP C 150       7.872  -6.426 -11.794  1.00 93.03           C  \\nATOM   2747  CZ2 TRP C 150       7.339  -5.163 -11.785  1.00 93.03           C  \\nATOM   2748  CZ3 TRP C 150       9.108  -6.697 -12.404  1.00 93.03           C  \\nATOM   2749  N   ARG C 151       9.865  -1.915 -16.963  1.00 95.32           N  \\nATOM   2750  CA  ARG C 151       8.757  -1.368 -17.740  1.00 95.32           C  \\nATOM   2751  C   ARG C 151       8.650  -2.052 -19.098  1.00 95.32           C  \\nATOM   2752  CB  ARG C 151       8.925   0.142 -17.925  1.00 95.32           C  \\nATOM   2753  O   ARG C 151       7.547  -2.306 -19.585  1.00 95.32           O  \\nATOM   2754  CG  ARG C 151       8.607   0.955 -16.680  1.00 95.32           C  \\nATOM   2755  CD  ARG C 151       9.176   2.364 -16.766  1.00 95.32           C  \\nATOM   2756  NE  ARG C 151       8.905   3.130 -15.553  1.00 95.32           N  \\nATOM   2757  NH1 ARG C 151      10.794   2.414 -14.432  1.00 95.32           N  \\nATOM   2758  NH2 ARG C 151       9.339   3.869 -13.422  1.00 95.32           N  \\nATOM   2759  CZ  ARG C 151       9.680   3.136 -14.472  1.00 95.32           C  \\nATOM   2760  N   SER C 152       9.790  -2.367 -19.704  1.00 94.14           N  \\nATOM   2761  CA  SER C 152       9.787  -3.005 -21.016  1.00 94.14           C  \\nATOM   2762  C   SER C 152       9.315  -4.452 -20.926  1.00 94.14           C  \\nATOM   2763  CB  SER C 152      11.182  -2.952 -21.641  1.00 94.14           C  \\nATOM   2764  O   SER C 152       8.620  -4.941 -21.819  1.00 94.14           O  \\nATOM   2765  OG  SER C 152      12.086  -3.772 -20.921  1.00 94.14           O  \\nATOM   2766  N   GLU C 153       9.695  -5.110 -19.860  1.00 90.24           N  \\nATOM   2767  CA  GLU C 153       9.372  -6.526 -19.715  1.00 90.24           C  \\nATOM   2768  C   GLU C 153       8.006  -6.716 -19.062  1.00 90.24           C  \\nATOM   2769  CB  GLU C 153      10.450  -7.243 -18.899  1.00 90.24           C  \\nATOM   2770  O   GLU C 153       7.192  -7.513 -19.534  1.00 90.24           O  \\nATOM   2771  CG  GLU C 153      11.693  -7.601 -19.701  1.00 90.24           C  \\nATOM   2772  CD  GLU C 153      11.380  -8.325 -21.001  1.00 90.24           C  \\nATOM   2773  OE1 GLU C 153      12.233  -8.322 -21.917  1.00 90.24           O  \\nATOM   2774  OE2 GLU C 153      10.273  -8.899 -21.104  1.00 90.24           O  \\nATOM   2775  N   VAL C 154       7.740  -6.054 -18.045  1.00 86.52           N  \\nATOM   2776  CA  VAL C 154       6.534  -6.247 -17.247  1.00 86.52           C  \\nATOM   2777  C   VAL C 154       5.457  -5.261 -17.692  1.00 86.52           C  \\nATOM   2778  CB  VAL C 154       6.820  -6.080 -15.738  1.00 86.52           C  \\nATOM   2779  O   VAL C 154       4.323  -5.656 -17.973  1.00 86.52           O  \\nATOM   2780  CG1 VAL C 154       5.518  -6.074 -14.939  1.00 86.52           C  \\nATOM   2781  CG2 VAL C 154       7.748  -7.188 -15.245  1.00 86.52           C  \\nATOM   2782  N   GLY C 155       5.803  -4.050 -17.830  1.00 94.45           N  \\nATOM   2783  CA  GLY C 155       4.850  -3.015 -18.198  1.00 94.45           C  \\nATOM   2784  C   GLY C 155       4.140  -3.297 -19.508  1.00 94.45           C  \\nATOM   2785  O   GLY C 155       2.916  -3.175 -19.596  1.00 94.45           O  \\nATOM   2786  N   LYS C 156       4.821  -3.690 -20.497  1.00 95.18           N  \\nATOM   2787  CA  LYS C 156       4.250  -3.934 -21.819  1.00 95.18           C  \\nATOM   2788  C   LYS C 156       3.297  -5.126 -21.795  1.00 95.18           C  \\nATOM   2789  CB  LYS C 156       5.357  -4.169 -22.847  1.00 95.18           C  \\nATOM   2790  O   LYS C 156       2.283  -5.131 -22.496  1.00 95.18           O  \\nATOM   2791  CG  LYS C 156       6.098  -2.905 -23.258  1.00 95.18           C  \\nATOM   2792  CD  LYS C 156       7.105  -3.183 -24.368  1.00 95.18           C  \\nATOM   2793  CE  LYS C 156       7.772  -1.903 -24.852  1.00 95.18           C  \\nATOM   2794  NZ  LYS C 156       8.740  -2.167 -25.958  1.00 95.18           N  \\nATOM   2795  N   GLN C 157       3.606  -6.082 -20.969  1.00 93.00           N  \\nATOM   2796  CA  GLN C 157       2.732  -7.242 -20.829  1.00 93.00           C  \\nATOM   2797  C   GLN C 157       1.411  -6.860 -20.168  1.00 93.00           C  \\nATOM   2798  CB  GLN C 157       3.425  -8.341 -20.022  1.00 93.00           C  \\nATOM   2799  O   GLN C 157       0.371  -7.456 -20.457  1.00 93.00           O  \\nATOM   2800  CG  GLN C 157       4.590  -8.999 -20.750  1.00 93.00           C  \\nATOM   2801  CD  GLN C 157       5.244 -10.100 -19.937  1.00 93.00           C  \\nATOM   2802  NE2 GLN C 157       6.535  -9.948 -19.665  1.00 93.00           N  \\nATOM   2803  OE1 GLN C 157       4.594 -11.079 -19.557  1.00 93.00           O  \\nATOM   2804  N   LEU C 158       1.413  -5.900 -19.385  1.00 93.40           N  \\nATOM   2805  CA  LEU C 158       0.254  -5.499 -18.594  1.00 93.40           C  \\nATOM   2806  C   LEU C 158      -0.688  -4.624 -19.414  1.00 93.40           C  \\nATOM   2807  CB  LEU C 158       0.698  -4.751 -17.334  1.00 93.40           C  \\nATOM   2808  O   LEU C 158      -1.874  -4.512 -19.095  1.00 93.40           O  \\nATOM   2809  CG  LEU C 158       1.385  -5.589 -16.254  1.00 93.40           C  \\nATOM   2810  CD1 LEU C 158       2.011  -4.684 -15.199  1.00 93.40           C  \\nATOM   2811  CD2 LEU C 158       0.394  -6.557 -15.617  1.00 93.40           C  \\nATOM   2812  N   ARG C 159      -0.254  -4.061 -20.448  1.00 97.18           N  \\nATOM   2813  CA  ARG C 159      -0.995  -3.045 -21.190  1.00 97.18           C  \\nATOM   2814  C   ARG C 159      -2.323  -3.597 -21.697  1.00 97.18           C  \\nATOM   2815  CB  ARG C 159      -0.162  -2.522 -22.362  1.00 97.18           C  \\nATOM   2816  O   ARG C 159      -3.386  -3.065 -21.373  1.00 97.18           O  \\nATOM   2817  CG  ARG C 159      -0.925  -1.591 -23.292  1.00 97.18           C  \\nATOM   2818  CD  ARG C 159      -1.336  -0.305 -22.589  1.00 97.18           C  \\nATOM   2819  NE  ARG C 159      -2.031   0.606 -23.495  1.00 97.18           N  \\nATOM   2820  NH1 ARG C 159      -0.614   2.391 -23.119  1.00 97.18           N  \\nATOM   2821  NH2 ARG C 159      -2.376   2.606 -24.570  1.00 97.18           N  \\nATOM   2822  CZ  ARG C 159      -1.672   1.866 -23.726  1.00 97.18           C  \\nATOM   2823  N   PRO C 160      -2.329  -4.673 -22.448  1.00 96.97           N  \\nATOM   2824  CA  PRO C 160      -3.620  -5.154 -22.946  1.00 96.97           C  \\nATOM   2825  C   PRO C 160      -4.563  -5.581 -21.824  1.00 96.97           C  \\nATOM   2826  CB  PRO C 160      -3.237  -6.350 -23.822  1.00 96.97           C  \\nATOM   2827  O   PRO C 160      -5.781  -5.416 -21.939  1.00 96.97           O  \\nATOM   2828  CG  PRO C 160      -1.860  -6.723 -23.377  1.00 96.97           C  \\nATOM   2829  CD  PRO C 160      -1.160  -5.483 -22.898  1.00 96.97           C  \\nATOM   2830  N   LEU C 161      -4.012  -6.143 -20.796  1.00 93.74           N  \\nATOM   2831  CA  LEU C 161      -4.815  -6.562 -19.652  1.00 93.74           C  \\nATOM   2832  C   LEU C 161      -5.424  -5.356 -18.945  1.00 93.74           C  \\nATOM   2833  CB  LEU C 161      -3.965  -7.370 -18.668  1.00 93.74           C  \\nATOM   2834  O   LEU C 161      -6.602  -5.375 -18.581  1.00 93.74           O  \\nATOM   2835  CG  LEU C 161      -3.406  -8.696 -19.185  1.00 93.74           C  \\nATOM   2836  CD1 LEU C 161      -2.323  -9.217 -18.246  1.00 93.74           C  \\nATOM   2837  CD2 LEU C 161      -4.523  -9.722 -19.343  1.00 93.74           C  \\nATOM   2838  N   TYR C 162      -4.669  -4.366 -18.787  1.00 96.05           N  \\nATOM   2839  CA  TYR C 162      -5.138  -3.168 -18.099  1.00 96.05           C  \\nATOM   2840  C   TYR C 162      -6.255  -2.490 -18.884  1.00 96.05           C  \\nATOM   2841  CB  TYR C 162      -3.983  -2.186 -17.882  1.00 96.05           C  \\nATOM   2842  O   TYR C 162      -7.198  -1.955 -18.296  1.00 96.05           O  \\nATOM   2843  CG  TYR C 162      -4.292  -1.097 -16.884  1.00 96.05           C  \\nATOM   2844  CD1 TYR C 162      -4.530   0.211 -17.302  1.00 96.05           C  \\nATOM   2845  CD2 TYR C 162      -4.345  -1.372 -15.522  1.00 96.05           C  \\nATOM   2846  CE1 TYR C 162      -4.813   1.218 -16.386  1.00 96.05           C  \\nATOM   2847  CE2 TYR C 162      -4.627  -0.372 -14.596  1.00 96.05           C  \\nATOM   2848  OH  TYR C 162      -5.140   1.911 -14.126  1.00 96.05           O  \\nATOM   2849  CZ  TYR C 162      -4.860   0.918 -15.037  1.00 96.05           C  \\nATOM   2850  N   GLU C 163      -6.140  -2.457 -20.177  1.00 97.25           N  \\nATOM   2851  CA  GLU C 163      -7.190  -1.898 -21.023  1.00 97.25           C  \\nATOM   2852  C   GLU C 163      -8.524  -2.599 -20.783  1.00 97.25           C  \\nATOM   2853  CB  GLU C 163      -6.802  -2.000 -22.501  1.00 97.25           C  \\nATOM   2854  O   GLU C 163      -9.552  -1.943 -20.601  1.00 97.25           O  \\nATOM   2855  CG  GLU C 163      -5.665  -1.071 -22.903  1.00 97.25           C  \\nATOM   2856  CD  GLU C 163      -5.303  -1.170 -24.376  1.00 97.25           C  \\nATOM   2857  OE1 GLU C 163      -4.387  -0.445 -24.826  1.00 97.25           O  \\nATOM   2858  OE2 GLU C 163      -5.942  -1.978 -25.087  1.00 97.25           O  \\nATOM   2859  N   GLU C 164      -8.455  -3.890 -20.768  1.00 96.51           N  \\nATOM   2860  CA  GLU C 164      -9.673  -4.658 -20.525  1.00 96.51           C  \\nATOM   2861  C   GLU C 164     -10.165  -4.473 -19.093  1.00 96.51           C  \\nATOM   2862  CB  GLU C 164      -9.439  -6.143 -20.814  1.00 96.51           C  \\nATOM   2863  O   GLU C 164     -11.373  -4.437 -18.846  1.00 96.51           O  \\nATOM   2864  CG  GLU C 164      -9.370  -6.477 -22.297  1.00 96.51           C  \\nATOM   2865  CD  GLU C 164      -9.232  -7.967 -22.570  1.00 96.51           C  \\nATOM   2866  OE1 GLU C 164      -8.281  -8.369 -23.277  1.00 96.51           O  \\nATOM   2867  OE2 GLU C 164     -10.084  -8.737 -22.074  1.00 96.51           O  \\nATOM   2868  N   TYR C 165      -9.250  -4.438 -18.201  1.00 91.34           N  \\nATOM   2869  CA  TYR C 165      -9.541  -4.160 -16.799  1.00 91.34           C  \\nATOM   2870  C   TYR C 165     -10.355  -2.879 -16.655  1.00 91.34           C  \\nATOM   2871  CB  TYR C 165      -8.244  -4.048 -15.992  1.00 91.34           C  \\nATOM   2872  O   TYR C 165     -11.386  -2.864 -15.979  1.00 91.34           O  \\nATOM   2873  CG  TYR C 165      -8.405  -3.312 -14.684  1.00 91.34           C  \\nATOM   2874  CD1 TYR C 165      -8.020  -1.979 -14.561  1.00 91.34           C  \\nATOM   2875  CD2 TYR C 165      -8.940  -3.948 -13.569  1.00 91.34           C  \\nATOM   2876  CE1 TYR C 165      -8.164  -1.297 -13.357  1.00 91.34           C  \\nATOM   2877  CE2 TYR C 165      -9.089  -3.276 -12.360  1.00 91.34           C  \\nATOM   2878  OH  TYR C 165      -8.844  -1.283 -11.070  1.00 91.34           O  \\nATOM   2879  CZ  TYR C 165      -8.699  -1.953 -12.264  1.00 91.34           C  \\nATOM   2880  N   VAL C 166      -9.961  -1.821 -17.312  1.00 96.59           N  \\nATOM   2881  CA  VAL C 166     -10.610  -0.517 -17.227  1.00 96.59           C  \\nATOM   2882  C   VAL C 166     -12.045  -0.620 -17.739  1.00 96.59           C  \\nATOM   2883  CB  VAL C 166      -9.836   0.556 -18.025  1.00 96.59           C  \\nATOM   2884  O   VAL C 166     -12.975  -0.118 -17.103  1.00 96.59           O  \\nATOM   2885  CG1 VAL C 166     -10.671   1.826 -18.173  1.00 96.59           C  \\nATOM   2886  CG2 VAL C 166      -8.502   0.865 -17.347  1.00 96.59           C  \\nATOM   2887  N   VAL C 167     -12.276  -1.320 -18.808  1.00 96.79           N  \\nATOM   2888  CA  VAL C 167     -13.596  -1.468 -19.411  1.00 96.79           C  \\nATOM   2889  C   VAL C 167     -14.519  -2.221 -18.456  1.00 96.79           C  \\nATOM   2890  CB  VAL C 167     -13.521  -2.201 -20.769  1.00 96.79           C  \\nATOM   2891  O   VAL C 167     -15.626  -1.763 -18.163  1.00 96.79           O  \\nATOM   2892  CG1 VAL C 167     -14.920  -2.563 -21.266  1.00 96.79           C  \\nATOM   2893  CG2 VAL C 167     -12.790  -1.342 -21.799  1.00 96.79           C  \\nATOM   2894  N   LEU C 168     -14.032  -3.314 -17.953  1.00 92.03           N  \\nATOM   2895  CA  LEU C 168     -14.855  -4.184 -17.120  1.00 92.03           C  \\nATOM   2896  C   LEU C 168     -15.138  -3.533 -15.770  1.00 92.03           C  \\nATOM   2897  CB  LEU C 168     -14.167  -5.536 -16.913  1.00 92.03           C  \\nATOM   2898  O   LEU C 168     -16.257  -3.617 -15.259  1.00 92.03           O  \\nATOM   2899  CG  LEU C 168     -14.091  -6.451 -18.136  1.00 92.03           C  \\nATOM   2900  CD1 LEU C 168     -13.224  -7.669 -17.833  1.00 92.03           C  \\nATOM   2901  CD2 LEU C 168     -15.488  -6.878 -18.573  1.00 92.03           C  \\nATOM   2902  N   LYS C 169     -14.208  -2.842 -15.206  1.00 90.73           N  \\nATOM   2903  CA  LYS C 169     -14.422  -2.171 -13.927  1.00 90.73           C  \\nATOM   2904  C   LYS C 169     -15.379  -0.992 -14.078  1.00 90.73           C  \\nATOM   2905  CB  LYS C 169     -13.092  -1.694 -13.342  1.00 90.73           C  \\nATOM   2906  O   LYS C 169     -16.177  -0.714 -13.180  1.00 90.73           O  \\nATOM   2907  CG  LYS C 169     -12.270  -2.799 -12.694  1.00 90.73           C  \\nATOM   2908  CD  LYS C 169     -12.917  -3.296 -11.408  1.00 90.73           C  \\nATOM   2909  CE  LYS C 169     -11.996  -4.239 -10.645  1.00 90.73           C  \\nATOM   2910  NZ  LYS C 169     -12.596  -4.670  -9.347  1.00 90.73           N  \\nATOM   2911  N   ASN C 170     -15.244  -0.274 -15.139  1.00 94.83           N  \\nATOM   2912  CA  ASN C 170     -16.204   0.792 -15.402  1.00 94.83           C  \\nATOM   2913  C   ASN C 170     -17.622   0.246 -15.545  1.00 94.83           C  \\nATOM   2914  CB  ASN C 170     -15.808   1.575 -16.656  1.00 94.83           C  \\nATOM   2915  O   ASN C 170     -18.575   0.842 -15.039  1.00 94.83           O  \\nATOM   2916  CG  ASN C 170     -14.863   2.721 -16.354  1.00 94.83           C  \\nATOM   2917  ND2 ASN C 170     -14.323   3.336 -17.400  1.00 94.83           N  \\nATOM   2918  OD1 ASN C 170     -14.620   3.052 -15.191  1.00 94.83           O  \\nATOM   2919  N   GLU C 171     -17.747  -0.831 -16.313  1.00 93.85           N  \\nATOM   2920  CA  GLU C 171     -19.061  -1.453 -16.449  1.00 93.85           C  \\nATOM   2921  C   GLU C 171     -19.623  -1.860 -15.090  1.00 93.85           C  \\nATOM   2922  CB  GLU C 171     -18.986  -2.671 -17.373  1.00 93.85           C  \\nATOM   2923  O   GLU C 171     -20.804  -1.643 -14.810  1.00 93.85           O  \\nATOM   2924  CG  GLU C 171     -20.340  -3.292 -17.684  1.00 93.85           C  \\nATOM   2925  CD  GLU C 171     -20.262  -4.432 -18.687  1.00 93.85           C  \\nATOM   2926  OE1 GLU C 171     -21.207  -5.250 -18.752  1.00 93.85           O  \\nATOM   2927  OE2 GLU C 171     -19.246  -4.508 -19.414  1.00 93.85           O  \\nATOM   2928  N   MET C 172     -18.803  -2.472 -14.283  1.00 86.11           N  \\nATOM   2929  CA  MET C 172     -19.198  -2.850 -12.929  1.00 86.11           C  \\nATOM   2930  C   MET C 172     -19.633  -1.627 -12.128  1.00 86.11           C  \\nATOM   2931  CB  MET C 172     -18.050  -3.563 -12.213  1.00 86.11           C  \\nATOM   2932  O   MET C 172     -20.675  -1.648 -11.471  1.00 86.11           O  \\nATOM   2933  CG  MET C 172     -18.381  -3.981 -10.789  1.00 86.11           C  \\nATOM   2934  SD  MET C 172     -16.891  -4.458  -9.831  1.00 86.11           S  \\nATOM   2935  CE  MET C 172     -16.087  -2.840  -9.662  1.00 86.11           C  \\nATOM   2936  N   ALA C 173     -18.843  -0.552 -12.183  1.00 87.77           N  \\nATOM   2937  CA  ALA C 173     -19.146   0.675 -11.450  1.00 87.77           C  \\nATOM   2938  C   ALA C 173     -20.483   1.262 -11.891  1.00 87.77           C  \\nATOM   2939  CB  ALA C 173     -18.029   1.698 -11.642  1.00 87.77           C  \\nATOM   2940  O   ALA C 173     -21.316   1.623 -11.056  1.00 87.77           O  \\nATOM   2941  N   ARG C 174     -20.725   1.377 -13.134  1.00 92.11           N  \\nATOM   2942  CA  ARG C 174     -21.968   1.932 -13.659  1.00 92.11           C  \\nATOM   2943  C   ARG C 174     -23.167   1.093 -13.231  1.00 92.11           C  \\nATOM   2944  CB  ARG C 174     -21.913   2.026 -15.186  1.00 92.11           C  \\nATOM   2945  O   ARG C 174     -24.236   1.633 -12.938  1.00 92.11           O  \\nATOM   2946  CG  ARG C 174     -20.984   3.113 -15.703  1.00 92.11           C  \\nATOM   2947  CD  ARG C 174     -21.009   3.200 -17.223  1.00 92.11           C  \\nATOM   2948  NE  ARG C 174     -19.854   3.928 -17.740  1.00 92.11           N  \\nATOM   2949  NH1 ARG C 174     -19.675   2.680 -19.676  1.00 92.11           N  \\nATOM   2950  NH2 ARG C 174     -18.203   4.389 -19.268  1.00 92.11           N  \\nATOM   2951  CZ  ARG C 174     -19.247   3.664 -18.894  1.00 92.11           C  \\nATOM   2952  N   ALA C 175     -22.982  -0.220 -13.235  1.00 83.93           N  \\nATOM   2953  CA  ALA C 175     -24.047  -1.117 -12.794  1.00 83.93           C  \\nATOM   2954  C   ALA C 175     -24.390  -0.881 -11.326  1.00 83.93           C  \\nATOM   2955  CB  ALA C 175     -23.642  -2.572 -13.015  1.00 83.93           C  \\nATOM   2956  O   ALA C 175     -25.489  -1.214 -10.877  1.00 83.93           O  \\nATOM   2957  N   ASN C 176     -23.502  -0.345 -10.627  1.00 77.50           N  \\nATOM   2958  CA  ASN C 176     -23.721  -0.035  -9.218  1.00 77.50           C  \\nATOM   2959  C   ASN C 176     -24.015   1.448  -9.009  1.00 77.50           C  \\nATOM   2960  CB  ASN C 176     -22.513  -0.461  -8.381  1.00 77.50           C  \\nATOM   2961  O   ASN C 176     -23.737   1.995  -7.941  1.00 77.50           O  \\nATOM   2962  CG  ASN C 176     -22.459  -1.958  -8.153  1.00 77.50           C  \\nATOM   2963  ND2 ASN C 176     -21.378  -2.587  -8.600  1.00 77.50           N  \\nATOM   2964  OD1 ASN C 176     -23.381  -2.545  -7.581  1.00 77.50           O  \\nATOM   2965  N   HIS C 177     -24.334   2.191 -10.007  1.00 85.58           N  \\nATOM   2966  CA  HIS C 177     -24.851   3.555 -10.003  1.00 85.58           C  \\nATOM   2967  C   HIS C 177     -23.736   4.567  -9.764  1.00 85.58           C  \\nATOM   2968  CB  HIS C 177     -25.939   3.712  -8.939  1.00 85.58           C  \\nATOM   2969  O   HIS C 177     -23.949   5.590  -9.109  1.00 85.58           O  \\nATOM   2970  CG  HIS C 177     -27.076   2.754  -9.097  1.00 85.58           C  \\nATOM   2971  CD2 HIS C 177     -27.481   1.718  -8.324  1.00 85.58           C  \\nATOM   2972  ND1 HIS C 177     -27.949   2.804 -10.163  1.00 85.58           N  \\nATOM   2973  CE1 HIS C 177     -28.844   1.838 -10.038  1.00 85.58           C  \\nATOM   2974  NE2 HIS C 177     -28.582   1.165  -8.930  1.00 85.58           N  \\nATOM   2975  N   TYR C 178     -22.581   4.172 -10.119  1.00 90.71           N  \\nATOM   2976  CA  TYR C 178     -21.468   5.110 -10.200  1.00 90.71           C  \\nATOM   2977  C   TYR C 178     -21.218   5.537 -11.642  1.00 90.71           C  \\nATOM   2978  CB  TYR C 178     -20.197   4.490  -9.611  1.00 90.71           C  \\nATOM   2979  O   TYR C 178     -21.643   4.858 -12.579  1.00 90.71           O  \\nATOM   2980  CG  TYR C 178     -20.293   4.195  -8.134  1.00 90.71           C  \\nATOM   2981  CD1 TYR C 178     -20.067   5.192  -7.189  1.00 90.71           C  \\nATOM   2982  CD2 TYR C 178     -20.611   2.919  -7.681  1.00 90.71           C  \\nATOM   2983  CE1 TYR C 178     -20.152   4.925  -5.826  1.00 90.71           C  \\nATOM   2984  CE2 TYR C 178     -20.699   2.640  -6.321  1.00 90.71           C  \\nATOM   2985  OH  TYR C 178     -20.556   3.377  -4.056  1.00 90.71           O  \\nATOM   2986  CZ  TYR C 178     -20.469   3.648  -5.403  1.00 90.71           C  \\nATOM   2987  N   GLU C 179     -20.633   6.711 -11.835  1.00 96.10           N  \\nATOM   2988  CA  GLU C 179     -20.339   7.191 -13.182  1.00 96.10           C  \\nATOM   2989  C   GLU C 179     -19.229   6.368 -13.831  1.00 96.10           C  \\nATOM   2990  CB  GLU C 179     -19.947   8.670 -13.153  1.00 96.10           C  \\nATOM   2991  O   GLU C 179     -19.274   6.093 -15.032  1.00 96.10           O  \\nATOM   2992  CG  GLU C 179     -21.083   9.600 -12.752  1.00 96.10           C  \\nATOM   2993  CD  GLU C 179     -20.687  11.068 -12.754  1.00 96.10           C  \\nATOM   2994  OE1 GLU C 179     -21.558  11.932 -12.505  1.00 96.10           O  \\nATOM   2995  OE2 GLU C 179     -19.496  11.356 -13.007  1.00 96.10           O  \\nATOM   2996  N   ASP C 180     -18.245   5.996 -13.152  1.00 96.26           N  \\nATOM   2997  CA  ASP C 180     -17.093   5.192 -13.547  1.00 96.26           C  \\nATOM   2998  C   ASP C 180     -16.382   4.614 -12.325  1.00 96.26           C  \\nATOM   2999  CB  ASP C 180     -16.116   6.025 -14.379  1.00 96.26           C  \\nATOM   3000  O   ASP C 180     -16.812   4.830 -11.190  1.00 96.26           O  \\nATOM   3001  CG  ASP C 180     -15.633   7.270 -13.656  1.00 96.26           C  \\nATOM   3002  OD1 ASP C 180     -14.865   7.147 -12.678  1.00 96.26           O  \\nATOM   3003  OD2 ASP C 180     -16.026   8.383 -14.067  1.00 96.26           O  \\nATOM   3004  N   TYR C 181     -15.333   3.867 -12.609  1.00 92.49           N  \\nATOM   3005  CA  TYR C 181     -14.655   3.178 -11.517  1.00 92.49           C  \\nATOM   3006  C   TYR C 181     -13.958   4.171 -10.595  1.00 92.49           C  \\nATOM   3007  CB  TYR C 181     -13.638   2.172 -12.065  1.00 92.49           C  \\nATOM   3008  O   TYR C 181     -13.853   3.939  -9.388  1.00 92.49           O  \\nATOM   3009  CG  TYR C 181     -13.133   1.195 -11.032  1.00 92.49           C  \\nATOM   3010  CD1 TYR C 181     -11.768   0.973 -10.863  1.00 92.49           C  \\nATOM   3011  CD2 TYR C 181     -14.019   0.491 -10.223  1.00 92.49           C  \\nATOM   3012  CE1 TYR C 181     -11.298   0.072  -9.913  1.00 92.49           C  \\nATOM   3013  CE2 TYR C 181     -13.560  -0.413  -9.270  1.00 92.49           C  \\nATOM   3014  OH  TYR C 181     -11.741  -1.507  -8.180  1.00 92.49           O  \\nATOM   3015  CZ  TYR C 181     -12.200  -0.614  -9.122  1.00 92.49           C  \\nATOM   3016  N   GLY C 182     -13.370   5.289 -11.124  1.00 93.64           N  \\nATOM   3017  CA  GLY C 182     -12.853   6.351 -10.276  1.00 93.64           C  \\nATOM   3018  C   GLY C 182     -13.890   6.909  -9.320  1.00 93.64           C  \\nATOM   3019  O   GLY C 182     -13.586   7.185  -8.158  1.00 93.64           O  \\nATOM   3020  N   ASP C 183     -15.092   7.139  -9.827  1.00 94.96           N  \\nATOM   3021  CA  ASP C 183     -16.215   7.576  -9.003  1.00 94.96           C  \\nATOM   3022  C   ASP C 183     -16.531   6.550  -7.917  1.00 94.96           C  \\nATOM   3023  CB  ASP C 183     -17.452   7.823  -9.869  1.00 94.96           C  \\nATOM   3024  O   ASP C 183     -16.822   6.916  -6.776  1.00 94.96           O  \\nATOM   3025  CG  ASP C 183     -18.570   8.526  -9.119  1.00 94.96           C  \\nATOM   3026  OD1 ASP C 183     -18.288   9.469  -8.348  1.00 94.96           O  \\nATOM   3027  OD2 ASP C 183     -19.743   8.133  -9.300  1.00 94.96           O  \\nATOM   3028  N   TYR C 184     -16.449   5.307  -8.288  1.00 88.65           N  \\nATOM   3029  CA  TYR C 184     -16.646   4.229  -7.325  1.00 88.65           C  \\nATOM   3030  C   TYR C 184     -15.648   4.334  -6.178  1.00 88.65           C  \\nATOM   3031  CB  TYR C 184     -16.512   2.865  -8.010  1.00 88.65           C  \\nATOM   3032  O   TYR C 184     -16.032   4.293  -5.007  1.00 88.65           O  \\nATOM   3033  CG  TYR C 184     -16.505   1.701  -7.048  1.00 88.65           C  \\nATOM   3034  CD1 TYR C 184     -15.307   1.169  -6.578  1.00 88.65           C  \\nATOM   3035  CD2 TYR C 184     -17.696   1.132  -6.610  1.00 88.65           C  \\nATOM   3036  CE1 TYR C 184     -15.296   0.095  -5.693  1.00 88.65           C  \\nATOM   3037  CE2 TYR C 184     -17.696   0.058  -5.725  1.00 88.65           C  \\nATOM   3038  OH  TYR C 184     -16.488  -1.515  -4.398  1.00 88.65           O  \\nATOM   3039  CZ  TYR C 184     -16.493  -0.452  -5.273  1.00 88.65           C  \\nATOM   3040  N   TRP C 185     -14.356   4.476  -6.462  1.00 85.74           N  \\nATOM   3041  CA  TRP C 185     -13.320   4.581  -5.439  1.00 85.74           C  \\nATOM   3042  C   TRP C 185     -13.562   5.788  -4.540  1.00 85.74           C  \\nATOM   3043  CB  TRP C 185     -11.935   4.680  -6.085  1.00 85.74           C  \\nATOM   3044  O   TRP C 185     -13.400   5.704  -3.320  1.00 85.74           O  \\nATOM   3045  CG  TRP C 185     -11.334   3.354  -6.444  1.00 85.74           C  \\nATOM   3046  CD1 TRP C 185     -11.653   2.134  -5.914  1.00 85.74           C  \\nATOM   3047  CD2 TRP C 185     -10.305   3.116  -7.409  1.00 85.74           C  \\nATOM   3048  CE2 TRP C 185     -10.049   1.726  -7.413  1.00 85.74           C  \\nATOM   3049  CE3 TRP C 185      -9.575   3.943  -8.273  1.00 85.74           C  \\nATOM   3050  NE1 TRP C 185     -10.884   1.151  -6.493  1.00 85.74           N  \\nATOM   3051  CH2 TRP C 185      -8.392   1.977  -9.084  1.00 85.74           C  \\nATOM   3052  CZ2 TRP C 185      -9.092   1.146  -8.249  1.00 85.74           C  \\nATOM   3053  CZ3 TRP C 185      -8.623   3.363  -9.104  1.00 85.74           C  \\nATOM   3054  N   ARG C 186     -13.929   6.851  -5.097  1.00 92.76           N  \\nATOM   3055  CA  ARG C 186     -14.159   8.069  -4.327  1.00 92.76           C  \\nATOM   3056  C   ARG C 186     -15.375   7.921  -3.418  1.00 92.76           C  \\nATOM   3057  CB  ARG C 186     -14.346   9.268  -5.259  1.00 92.76           C  \\nATOM   3058  O   ARG C 186     -15.544   8.688  -2.468  1.00 92.76           O  \\nATOM   3059  CG  ARG C 186     -13.087   9.663  -6.015  1.00 92.76           C  \\nATOM   3060  CD  ARG C 186     -13.257  10.991  -6.739  1.00 92.76           C  \\nATOM   3061  NE  ARG C 186     -14.303  10.920  -7.756  1.00 92.76           N  \\nATOM   3062  NH1 ARG C 186     -12.949   9.992  -9.381  1.00 92.76           N  \\nATOM   3063  NH2 ARG C 186     -15.153  10.430  -9.832  1.00 92.76           N  \\nATOM   3064  CZ  ARG C 186     -14.133  10.448  -8.987  1.00 92.76           C  \\nATOM   3065  N   GLY C 187     -16.195   6.967  -3.705  1.00 88.86           N  \\nATOM   3066  CA  GLY C 187     -17.343   6.673  -2.863  1.00 88.86           C  \\nATOM   3067  C   GLY C 187     -16.969   6.396  -1.419  1.00 88.86           C  \\nATOM   3068  O   GLY C 187     -17.780   6.597  -0.513  1.00 88.86           O  \\nATOM   3069  N   ASP C 188     -15.750   5.994  -1.200  1.00 83.79           N  \\nATOM   3070  CA  ASP C 188     -15.265   5.707   0.147  1.00 83.79           C  \\nATOM   3071  C   ASP C 188     -15.258   6.968   1.008  1.00 83.79           C  \\nATOM   3072  CB  ASP C 188     -13.862   5.099   0.093  1.00 83.79           C  \\nATOM   3073  O   ASP C 188     -15.259   6.885   2.238  1.00 83.79           O  \\nATOM   3074  CG  ASP C 188     -13.369   4.625   1.449  1.00 83.79           C  \\nATOM   3075  OD1 ASP C 188     -13.836   3.572   1.934  1.00 83.79           O  \\nATOM   3076  OD2 ASP C 188     -12.508   5.313   2.039  1.00 83.79           O  \\nATOM   3077  N   TYR C 189     -15.333   8.098   0.420  1.00 91.96           N  \\nATOM   3078  CA  TYR C 189     -15.240   9.365   1.137  1.00 91.96           C  \\nATOM   3079  C   TYR C 189     -16.603  10.039   1.233  1.00 91.96           C  \\nATOM   3080  CB  TYR C 189     -14.242  10.300   0.448  1.00 91.96           C  \\nATOM   3081  O   TYR C 189     -16.783  10.983   2.005  1.00 91.96           O  \\nATOM   3082  CG  TYR C 189     -12.807   9.845   0.559  1.00 91.96           C  \\nATOM   3083  CD1 TYR C 189     -11.962  10.371   1.534  1.00 91.96           C  \\nATOM   3084  CD2 TYR C 189     -12.293   8.890  -0.311  1.00 91.96           C  \\nATOM   3085  CE1 TYR C 189     -10.639   9.955   1.639  1.00 91.96           C  \\nATOM   3086  CE2 TYR C 189     -10.971   8.467  -0.216  1.00 91.96           C  \\nATOM   3087  OH  TYR C 189      -8.844   8.590   0.860  1.00 91.96           O  \\nATOM   3088  CZ  TYR C 189     -10.153   9.005   0.761  1.00 91.96           C  \\nATOM   3089  N   GLU C 190     -17.545   9.557   0.506  1.00 91.47           N  \\nATOM   3090  CA  GLU C 190     -18.866  10.177   0.447  1.00 91.47           C  \\nATOM   3091  C   GLU C 190     -19.605  10.027   1.773  1.00 91.47           C  \\nATOM   3092  CB  GLU C 190     -19.694   9.570  -0.689  1.00 91.47           C  \\nATOM   3093  O   GLU C 190     -19.601   8.950   2.374  1.00 91.47           O  \\nATOM   3094  CG  GLU C 190     -21.049  10.235  -0.884  1.00 91.47           C  \\nATOM   3095  CD  GLU C 190     -21.879   9.594  -1.985  1.00 91.47           C  \\nATOM   3096  OE1 GLU C 190     -22.507  10.331  -2.779  1.00 91.47           O  \\nATOM   3097  OE2 GLU C 190     -21.901   8.345  -2.054  1.00 91.47           O  \\nATOM   3098  N   VAL C 191     -20.191  11.121   2.262  1.00 89.14           N  \\nATOM   3099  CA  VAL C 191     -21.062  11.155   3.432  1.00 89.14           C  \\nATOM   3100  C   VAL C 191     -22.381  11.837   3.075  1.00 89.14           C  \\nATOM   3101  CB  VAL C 191     -20.390  11.882   4.619  1.00 89.14           C  \\nATOM   3102  O   VAL C 191     -22.389  12.966   2.578  1.00 89.14           O  \\nATOM   3103  CG1 VAL C 191     -21.323  11.918   5.828  1.00 89.14           C  \\nATOM   3104  CG2 VAL C 191     -19.069  11.205   4.979  1.00 89.14           C  \\nATOM   3105  N   ASN C 192     -23.461  11.047   3.354  1.00 81.42           N  \\nATOM   3106  CA  ASN C 192     -24.783  11.598   3.072  1.00 81.42           C  \\nATOM   3107  C   ASN C 192     -25.717  11.453   4.269  1.00 81.42           C  \\nATOM   3108  CB  ASN C 192     -25.392  10.927   1.838  1.00 81.42           C  \\nATOM   3109  O   ASN C 192     -25.661  10.455   4.989  1.00 81.42           O  \\nATOM   3110  CG  ASN C 192     -24.584  11.177   0.580  1.00 81.42           C  \\nATOM   3111  ND2 ASN C 192     -24.461  10.154  -0.258  1.00 81.42           N  \\nATOM   3112  OD1 ASN C 192     -24.075  12.279   0.362  1.00 81.42           O  \\nATOM   3113  N   GLY C 193     -26.544  12.453   4.467  1.00 72.80           N  \\nATOM   3114  CA  GLY C 193     -27.688  12.284   5.349  1.00 72.80           C  \\nATOM   3115  C   GLY C 193     -27.388  12.641   6.792  1.00 72.80           C  \\nATOM   3116  O   GLY C 193     -28.193  12.369   7.685  1.00 72.80           O  \\nATOM   3117  N   VAL C 194     -26.230  13.130   7.068  1.00 73.81           N  \\nATOM   3118  CA  VAL C 194     -25.905  13.567   8.421  1.00 73.81           C  \\nATOM   3119  C   VAL C 194     -25.726  15.084   8.445  1.00 73.81           C  \\nATOM   3120  CB  VAL C 194     -24.631  12.872   8.952  1.00 73.81           C  \\nATOM   3121  O   VAL C 194     -24.834  15.621   7.784  1.00 73.81           O  \\nATOM   3122  CG1 VAL C 194     -24.405  13.210  10.425  1.00 73.81           C  \\nATOM   3123  CG2 VAL C 194     -24.728  11.360   8.756  1.00 73.81           C  \\nATOM   3124  N   ASP C 195     -26.661  15.723   9.153  1.00 77.55           N  \\nATOM   3125  CA  ASP C 195     -26.737  17.181   9.145  1.00 77.55           C  \\nATOM   3126  C   ASP C 195     -25.390  17.804   9.505  1.00 77.55           C  \\nATOM   3127  CB  ASP C 195     -27.817  17.667  10.114  1.00 77.55           C  \\nATOM   3128  O   ASP C 195     -24.861  17.566  10.593  1.00 77.55           O  \\nATOM   3129  CG  ASP C 195     -29.215  17.599   9.527  1.00 77.55           C  \\nATOM   3130  OD1 ASP C 195     -29.355  17.339   8.312  1.00 77.55           O  \\nATOM   3131  OD2 ASP C 195     -30.187  17.811  10.284  1.00 77.55           O  \\nATOM   3132  N   GLY C 196     -24.844  18.593   8.462  1.00 87.13           N  \\nATOM   3133  CA  GLY C 196     -23.646  19.390   8.677  1.00 87.13           C  \\nATOM   3134  C   GLY C 196     -22.364  18.625   8.406  1.00 87.13           C  \\nATOM   3135  O   GLY C 196     -21.270  19.185   8.498  1.00 87.13           O  \\nATOM   3136  N   TYR C 197     -22.448  17.353   7.969  1.00 91.14           N  \\nATOM   3137  CA  TYR C 197     -21.238  16.554   7.813  1.00 91.14           C  \\nATOM   3138  C   TYR C 197     -21.170  15.932   6.423  1.00 91.14           C  \\nATOM   3139  CB  TYR C 197     -21.178  15.456   8.880  1.00 91.14           C  \\nATOM   3140  O   TYR C 197     -20.380  15.016   6.185  1.00 91.14           O  \\nATOM   3141  CG  TYR C 197     -20.947  15.980  10.277  1.00 91.14           C  \\nATOM   3142  CD1 TYR C 197     -19.661  16.265  10.731  1.00 91.14           C  \\nATOM   3143  CD2 TYR C 197     -22.013  16.189  11.145  1.00 91.14           C  \\nATOM   3144  CE1 TYR C 197     -19.444  16.745  12.018  1.00 91.14           C  \\nATOM   3145  CE2 TYR C 197     -21.807  16.669  12.434  1.00 91.14           C  \\nATOM   3146  OH  TYR C 197     -20.311  17.419  14.136  1.00 91.14           O  \\nATOM   3147  CZ  TYR C 197     -20.521  16.944  12.861  1.00 91.14           C  \\nATOM   3148  N   ASP C 198     -21.991  16.415   5.527  1.00 92.53           N  \\nATOM   3149  CA  ASP C 198     -22.033  15.899   4.162  1.00 92.53           C  \\nATOM   3150  C   ASP C 198     -20.707  16.139   3.443  1.00 92.53           C  \\nATOM   3151  CB  ASP C 198     -23.179  16.543   3.380  1.00 92.53           C  \\nATOM   3152  O   ASP C 198     -20.043  17.151   3.677  1.00 92.53           O  \\nATOM   3153  CG  ASP C 198     -24.550  16.133   3.890  1.00 92.53           C  \\nATOM   3154  OD1 ASP C 198     -24.719  14.970   4.316  1.00 92.53           O  \\nATOM   3155  OD2 ASP C 198     -25.469  16.979   3.863  1.00 92.53           O  \\nATOM   3156  N   TYR C 199     -20.308  15.224   2.606  1.00 94.96           N  \\nATOM   3157  CA  TYR C 199     -19.117  15.262   1.765  1.00 94.96           C  \\nATOM   3158  C   TYR C 199     -19.331  14.470   0.481  1.00 94.96           C  \\nATOM   3159  CB  TYR C 199     -17.906  14.710   2.523  1.00 94.96           C  \\nATOM   3160  O   TYR C 199     -19.675  13.286   0.524  1.00 94.96           O  \\nATOM   3161  CG  TYR C 199     -16.583  15.039   1.875  1.00 94.96           C  \\nATOM   3162  CD1 TYR C 199     -16.015  14.185   0.932  1.00 94.96           C  \\nATOM   3163  CD2 TYR C 199     -15.898  16.204   2.205  1.00 94.96           C  \\nATOM   3164  CE1 TYR C 199     -14.795  14.484   0.334  1.00 94.96           C  \\nATOM   3165  CE2 TYR C 199     -14.677  16.512   1.613  1.00 94.96           C  \\nATOM   3166  OH  TYR C 199     -12.927  15.948   0.091  1.00 94.96           O  \\nATOM   3167  CZ  TYR C 199     -14.135  15.648   0.680  1.00 94.96           C  \\nATOM   3168  N   SER C 200     -19.123  15.117  -0.590  1.00 94.92           N  \\nATOM   3169  CA  SER C 200     -19.432  14.481  -1.866  1.00 94.92           C  \\nATOM   3170  C   SER C 200     -18.172  13.947  -2.539  1.00 94.92           C  \\nATOM   3171  CB  SER C 200     -20.140  15.465  -2.799  1.00 94.92           C  \\nATOM   3172  O   SER C 200     -17.061  14.367  -2.208  1.00 94.92           O  \\nATOM   3173  OG  SER C 200     -19.236  16.450  -3.269  1.00 94.92           O  \\nATOM   3174  N   ARG C 201     -18.359  13.028  -3.499  1.00 94.88           N  \\nATOM   3175  CA  ARG C 201     -17.279  12.452  -4.293  1.00 94.88           C  \\nATOM   3176  C   ARG C 201     -16.587  13.521  -5.133  1.00 94.88           C  \\nATOM   3177  CB  ARG C 201     -17.811  11.339  -5.198  1.00 94.88           C  \\nATOM   3178  O   ARG C 201     -15.364  13.504  -5.283  1.00 94.88           O  \\nATOM   3179  CG  ARG C 201     -18.392  10.155  -4.441  1.00 94.88           C  \\nATOM   3180  CD  ARG C 201     -18.891   9.071  -5.386  1.00 94.88           C  \\nATOM   3181  NE  ARG C 201     -20.185   9.417  -5.968  1.00 94.88           N  \\nATOM   3182  NH1 ARG C 201     -20.464   7.401  -7.062  1.00 94.88           N  \\nATOM   3183  NH2 ARG C 201     -22.067   9.031  -7.227  1.00 94.88           N  \\nATOM   3184  CZ  ARG C 201     -20.902   8.616  -6.751  1.00 94.88           C  \\nATOM   3185  N   GLY C 202     -17.290  14.499  -5.689  1.00 95.11           N  \\nATOM   3186  CA  GLY C 202     -16.733  15.623  -6.426  1.00 95.11           C  \\nATOM   3187  C   GLY C 202     -15.905  16.553  -5.560  1.00 95.11           C  \\nATOM   3188  O   GLY C 202     -14.912  17.119  -6.021  1.00 95.11           O  \\nATOM   3189  N   GLN C 203     -16.372  16.744  -4.327  1.00 95.72           N  \\nATOM   3190  CA  GLN C 203     -15.638  17.578  -3.381  1.00 95.72           C  \\nATOM   3191  C   GLN C 203     -14.239  17.023  -3.129  1.00 95.72           C  \\nATOM   3192  CB  GLN C 203     -16.403  17.693  -2.062  1.00 95.72           C  \\nATOM   3193  O   GLN C 203     -13.292  17.785  -2.922  1.00 95.72           O  \\nATOM   3194  CG  GLN C 203     -15.864  18.771  -1.131  1.00 95.72           C  \\nATOM   3195  CD  GLN C 203     -16.802  19.074   0.023  1.00 95.72           C  \\nATOM   3196  NE2 GLN C 203     -16.375  19.958   0.918  1.00 95.72           N  \\nATOM   3197  OE1 GLN C 203     -17.901  18.518   0.108  1.00 95.72           O  \\nATOM   3198  N   LEU C 204     -14.084  15.684  -3.093  1.00 96.74           N  \\nATOM   3199  CA  LEU C 204     -12.768  15.081  -2.914  1.00 96.74           C  \\nATOM   3200  C   LEU C 204     -11.804  15.550  -3.998  1.00 96.74           C  \\nATOM   3201  CB  LEU C 204     -12.872  13.554  -2.933  1.00 96.74           C  \\nATOM   3202  O   LEU C 204     -10.666  15.924  -3.703  1.00 96.74           O  \\nATOM   3203  CG  LEU C 204     -11.559  12.783  -2.779  1.00 96.74           C  \\nATOM   3204  CD1 LEU C 204     -10.906  13.112  -1.441  1.00 96.74           C  \\nATOM   3205  CD2 LEU C 204     -11.801  11.283  -2.908  1.00 96.74           C  \\nATOM   3206  N   ILE C 205     -12.244  15.564  -5.254  1.00 96.19           N  \\nATOM   3207  CA  ILE C 205     -11.414  16.007  -6.368  1.00 96.19           C  \\nATOM   3208  C   ILE C 205     -10.982  17.455  -6.146  1.00 96.19           C  \\nATOM   3209  CB  ILE C 205     -12.158  15.871  -7.716  1.00 96.19           C  \\nATOM   3210  O   ILE C 205      -9.797  17.779  -6.254  1.00 96.19           O  \\nATOM   3211  CG1 ILE C 205     -12.427  14.395  -8.030  1.00 96.19           C  \\nATOM   3212  CG2 ILE C 205     -11.360  16.534  -8.843  1.00 96.19           C  \\nATOM   3213  CD1 ILE C 205     -13.306  14.172  -9.253  1.00 96.19           C  \\nATOM   3214  N   GLU C 206     -11.869  18.281  -5.770  1.00 95.87           N  \\nATOM   3215  CA  GLU C 206     -11.596  19.698  -5.550  1.00 95.87           C  \\nATOM   3216  C   GLU C 206     -10.632  19.900  -4.385  1.00 95.87           C  \\nATOM   3217  CB  GLU C 206     -12.896  20.463  -5.296  1.00 95.87           C  \\nATOM   3218  O   GLU C 206      -9.675  20.670  -4.489  1.00 95.87           O  \\nATOM   3219  CG  GLU C 206     -13.817  20.530  -6.506  1.00 95.87           C  \\nATOM   3220  CD  GLU C 206     -15.182  21.121  -6.189  1.00 95.87           C  \\nATOM   3221  OE1 GLU C 206     -16.074  21.093  -7.067  1.00 95.87           O  \\nATOM   3222  OE2 GLU C 206     -15.360  21.617  -5.054  1.00 95.87           O  \\nATOM   3223  N   ASP C 207     -10.890  19.220  -3.316  1.00 95.92           N  \\nATOM   3224  CA  ASP C 207     -10.069  19.376  -2.119  1.00 95.92           C  \\nATOM   3225  C   ASP C 207      -8.635  18.914  -2.373  1.00 95.92           C  \\nATOM   3226  CB  ASP C 207     -10.672  18.598  -0.948  1.00 95.92           C  \\nATOM   3227  O   ASP C 207      -7.682  19.562  -1.935  1.00 95.92           O  \\nATOM   3228  CG  ASP C 207     -11.883  19.285  -0.341  1.00 95.92           C  \\nATOM   3229  OD1 ASP C 207     -12.189  20.433  -0.726  1.00 95.92           O  \\nATOM   3230  OD2 ASP C 207     -12.534  18.673   0.533  1.00 95.92           O  \\nATOM   3231  N   VAL C 208      -8.499  17.771  -3.057  1.00 95.65           N  \\nATOM   3232  CA  VAL C 208      -7.167  17.259  -3.364  1.00 95.65           C  \\nATOM   3233  C   VAL C 208      -6.427  18.249  -4.261  1.00 95.65           C  \\nATOM   3234  CB  VAL C 208      -7.235  15.872  -4.042  1.00 95.65           C  \\nATOM   3235  O   VAL C 208      -5.249  18.538  -4.037  1.00 95.65           O  \\nATOM   3236  CG1 VAL C 208      -5.886  15.507  -4.660  1.00 95.65           C  \\nATOM   3237  CG2 VAL C 208      -7.671  14.808  -3.037  1.00 95.65           C  \\nATOM   3238  N   GLU C 209      -7.063  18.809  -5.264  1.00 94.59           N  \\nATOM   3239  CA  GLU C 209      -6.463  19.796  -6.156  1.00 94.59           C  \\nATOM   3240  C   GLU C 209      -6.060  21.056  -5.395  1.00 94.59           C  \\nATOM   3241  CB  GLU C 209      -7.428  20.153  -7.290  1.00 94.59           C  \\nATOM   3242  O   GLU C 209      -4.949  21.562  -5.565  1.00 94.59           O  \\nATOM   3243  CG  GLU C 209      -7.524  19.088  -8.373  1.00 94.59           C  \\nATOM   3244  CD  GLU C 209      -8.532  19.427  -9.460  1.00 94.59           C  \\nATOM   3245  OE1 GLU C 209      -8.691  18.628 -10.411  1.00 94.59           O  \\nATOM   3246  OE2 GLU C 209      -9.167  20.500  -9.360  1.00 94.59           O  \\nATOM   3247  N   HIS C 210      -6.916  21.553  -4.558  1.00 96.00           N  \\nATOM   3248  CA  HIS C 210      -6.659  22.765  -3.789  1.00 96.00           C  \\nATOM   3249  C   HIS C 210      -5.498  22.568  -2.820  1.00 96.00           C  \\nATOM   3250  CB  HIS C 210      -7.914  23.192  -3.025  1.00 96.00           C  \\nATOM   3251  O   HIS C 210      -4.594  23.404  -2.749  1.00 96.00           O  \\nATOM   3252  CG  HIS C 210      -7.734  24.445  -2.229  1.00 96.00           C  \\nATOM   3253  CD2 HIS C 210      -7.628  24.643  -0.894  1.00 96.00           C  \\nATOM   3254  ND1 HIS C 210      -7.648  25.691  -2.812  1.00 96.00           N  \\nATOM   3255  CE1 HIS C 210      -7.495  26.603  -1.866  1.00 96.00           C  \\nATOM   3256  NE2 HIS C 210      -7.480  25.993  -0.694  1.00 96.00           N  \\nATOM   3257  N   THR C 211      -5.543  21.479  -2.106  1.00 96.81           N  \\nATOM   3258  CA  THR C 211      -4.490  21.225  -1.129  1.00 96.81           C  \\nATOM   3259  C   THR C 211      -3.146  21.021  -1.823  1.00 96.81           C  \\nATOM   3260  CB  THR C 211      -4.816  19.994  -0.263  1.00 96.81           C  \\nATOM   3261  O   THR C 211      -2.107  21.448  -1.315  1.00 96.81           O  \\nATOM   3262  CG2 THR C 211      -6.019  20.258   0.636  1.00 96.81           C  \\nATOM   3263  OG1 THR C 211      -5.107  18.880  -1.116  1.00 96.81           O  \\nATOM   3264  N   PHE C 212      -3.161  20.395  -2.975  1.00 96.26           N  \\nATOM   3265  CA  PHE C 212      -1.916  20.226  -3.715  1.00 96.26           C  \\nATOM   3266  C   PHE C 212      -1.351  21.575  -4.141  1.00 96.26           C  \\nATOM   3267  CB  PHE C 212      -2.136  19.337  -4.944  1.00 96.26           C  \\nATOM   3268  O   PHE C 212      -0.138  21.788  -4.095  1.00 96.26           O  \\nATOM   3269  CG  PHE C 212      -0.890  19.103  -5.754  1.00 96.26           C  \\nATOM   3270  CD1 PHE C 212      -0.751  19.664  -7.018  1.00 96.26           C  \\nATOM   3271  CD2 PHE C 212       0.142  18.321  -5.252  1.00 96.26           C  \\nATOM   3272  CE1 PHE C 212       0.401  19.448  -7.771  1.00 96.26           C  \\nATOM   3273  CE2 PHE C 212       1.296  18.101  -5.998  1.00 96.26           C  \\nATOM   3274  CZ  PHE C 212       1.424  18.665  -7.258  1.00 96.26           C  \\nATOM   3275  N   GLU C 213      -2.167  22.483  -4.595  1.00 96.49           N  \\nATOM   3276  CA  GLU C 213      -1.720  23.816  -4.989  1.00 96.49           C  \\nATOM   3277  C   GLU C 213      -1.026  24.530  -3.832  1.00 96.49           C  \\nATOM   3278  CB  GLU C 213      -2.900  24.653  -5.490  1.00 96.49           C  \\nATOM   3279  O   GLU C 213      -0.054  25.259  -4.039  1.00 96.49           O  \\nATOM   3280  CG  GLU C 213      -3.375  24.272  -6.885  1.00 96.49           C  \\nATOM   3281  CD  GLU C 213      -2.303  24.438  -7.950  1.00 96.49           C  \\nATOM   3282  OE1 GLU C 213      -2.342  23.712  -8.969  1.00 96.49           O  \\nATOM   3283  OE2 GLU C 213      -1.416  25.301  -7.763  1.00 96.49           O  \\nATOM   3284  N   GLU C 214      -1.479  24.302  -2.682  1.00 97.17           N  \\nATOM   3285  CA  GLU C 214      -0.899  24.926  -1.496  1.00 97.17           C  \\nATOM   3286  C   GLU C 214       0.440  24.290  -1.136  1.00 97.17           C  \\nATOM   3287  CB  GLU C 214      -1.864  24.827  -0.311  1.00 97.17           C  \\nATOM   3288  O   GLU C 214       1.327  24.958  -0.601  1.00 97.17           O  \\nATOM   3289  CG  GLU C 214      -3.129  25.656  -0.477  1.00 97.17           C  \\nATOM   3290  CD  GLU C 214      -4.067  25.565   0.716  1.00 97.17           C  \\nATOM   3291  OE1 GLU C 214      -5.086  24.843   0.633  1.00 97.17           O  \\nATOM   3292  OE2 GLU C 214      -3.780  26.222   1.742  1.00 97.17           O  \\nATOM   3293  N   ILE C 215       0.622  23.041  -1.400  1.00 97.35           N  \\nATOM   3294  CA  ILE C 215       1.829  22.288  -1.076  1.00 97.35           C  \\nATOM   3295  C   ILE C 215       2.899  22.550  -2.132  1.00 97.35           C  \\nATOM   3296  CB  ILE C 215       1.539  20.774  -0.969  1.00 97.35           C  \\nATOM   3297  O   ILE C 215       4.096  22.453  -1.850  1.00 97.35           O  \\nATOM   3298  CG1 ILE C 215       0.678  20.481   0.264  1.00 97.35           C  \\nATOM   3299  CG2 ILE C 215       2.846  19.977  -0.927  1.00 97.35           C  \\nATOM   3300  CD1 ILE C 215       0.006  19.115   0.239  1.00 97.35           C  \\nATOM   3301  N   LYS C 216       2.515  22.902  -3.307  1.00 97.08           N  \\nATOM   3302  CA  LYS C 216       3.347  22.971  -4.505  1.00 97.08           C  \\nATOM   3303  C   LYS C 216       4.588  23.825  -4.264  1.00 97.08           C  \\nATOM   3304  CB  LYS C 216       2.546  23.530  -5.682  1.00 97.08           C  \\nATOM   3305  O   LYS C 216       5.701  23.425  -4.614  1.00 97.08           O  \\nATOM   3306  CG  LYS C 216       3.270  23.445  -7.018  1.00 97.08           C  \\nATOM   3307  CD  LYS C 216       2.377  23.897  -8.167  1.00 97.08           C  \\nATOM   3308  CE  LYS C 216       3.100  23.811  -9.505  1.00 97.08           C  \\nATOM   3309  NZ  LYS C 216       2.273  24.368 -10.617  1.00 97.08           N  \\nATOM   3310  N   PRO C 217       4.482  24.985  -3.606  1.00 97.86           N  \\nATOM   3311  CA  PRO C 217       5.682  25.797  -3.391  1.00 97.86           C  \\nATOM   3312  C   PRO C 217       6.745  25.072  -2.570  1.00 97.86           C  \\nATOM   3313  CB  PRO C 217       5.150  27.020  -2.639  1.00 97.86           C  \\nATOM   3314  O   PRO C 217       7.932  25.127  -2.903  1.00 97.86           O  \\nATOM   3315  CG  PRO C 217       3.739  27.172  -3.106  1.00 97.86           C  \\nATOM   3316  CD  PRO C 217       3.145  25.804  -3.283  1.00 97.86           C  \\nATOM   3317  N   LEU C 218       6.407  24.449  -1.525  1.00 98.56           N  \\nATOM   3318  CA  LEU C 218       7.348  23.660  -0.738  1.00 98.56           C  \\nATOM   3319  C   LEU C 218       7.989  22.570  -1.590  1.00 98.56           C  \\nATOM   3320  CB  LEU C 218       6.646  23.034   0.469  1.00 98.56           C  \\nATOM   3321  O   LEU C 218       9.210  22.400  -1.574  1.00 98.56           O  \\nATOM   3322  CG  LEU C 218       7.468  22.041   1.293  1.00 98.56           C  \\nATOM   3323  CD1 LEU C 218       8.742  22.705   1.804  1.00 98.56           C  \\nATOM   3324  CD2 LEU C 218       6.641  21.494   2.452  1.00 98.56           C  \\nATOM   3325  N   TYR C 219       7.201  21.853  -2.360  1.00 98.14           N  \\nATOM   3326  CA  TYR C 219       7.699  20.780  -3.213  1.00 98.14           C  \\nATOM   3327  C   TYR C 219       8.670  21.319  -4.257  1.00 98.14           C  \\nATOM   3328  CB  TYR C 219       6.538  20.058  -3.904  1.00 98.14           C  \\nATOM   3329  O   TYR C 219       9.709  20.709  -4.522  1.00 98.14           O  \\nATOM   3330  CG  TYR C 219       6.979  19.020  -4.907  1.00 98.14           C  \\nATOM   3331  CD1 TYR C 219       6.836  19.240  -6.275  1.00 98.14           C  \\nATOM   3332  CD2 TYR C 219       7.538  17.817  -4.488  1.00 98.14           C  \\nATOM   3333  CE1 TYR C 219       7.239  18.285  -7.203  1.00 98.14           C  \\nATOM   3334  CE2 TYR C 219       7.944  16.855  -5.407  1.00 98.14           C  \\nATOM   3335  OH  TYR C 219       8.192  16.149  -7.674  1.00 98.14           O  \\nATOM   3336  CZ  TYR C 219       7.792  17.098  -6.760  1.00 98.14           C  \\nATOM   3337  N   GLU C 220       8.343  22.467  -4.871  1.00 98.36           N  \\nATOM   3338  CA  GLU C 220       9.193  23.049  -5.906  1.00 98.36           C  \\nATOM   3339  C   GLU C 220      10.574  23.394  -5.356  1.00 98.36           C  \\nATOM   3340  CB  GLU C 220       8.537  24.297  -6.502  1.00 98.36           C  \\nATOM   3341  O   GLU C 220      11.585  23.190  -6.030  1.00 98.36           O  \\nATOM   3342  CG  GLU C 220       7.371  23.994  -7.433  1.00 98.36           C  \\nATOM   3343  CD  GLU C 220       6.710  25.244  -7.992  1.00 98.36           C  \\nATOM   3344  OE1 GLU C 220       6.109  25.173  -9.088  1.00 98.36           O  \\nATOM   3345  OE2 GLU C 220       6.795  26.302  -7.330  1.00 98.36           O  \\nATOM   3346  N   HIS C 221      10.600  23.935  -4.141  1.00 98.63           N  \\nATOM   3347  CA  HIS C 221      11.883  24.252  -3.525  1.00 98.63           C  \\nATOM   3348  C   HIS C 221      12.648  22.983  -3.163  1.00 98.63           C  \\nATOM   3349  CB  HIS C 221      11.681  25.116  -2.279  1.00 98.63           C  \\nATOM   3350  O   HIS C 221      13.872  22.929  -3.304  1.00 98.63           O  \\nATOM   3351  CG  HIS C 221      11.541  26.575  -2.578  1.00 98.63           C  \\nATOM   3352  CD2 HIS C 221      10.451  27.377  -2.598  1.00 98.63           C  \\nATOM   3353  ND1 HIS C 221      12.615  27.373  -2.908  1.00 98.63           N  \\nATOM   3354  CE1 HIS C 221      12.189  28.608  -3.118  1.00 98.63           C  \\nATOM   3355  NE2 HIS C 221      10.880  28.637  -2.937  1.00 98.63           N  \\nATOM   3356  N   LEU C 222      11.934  21.972  -2.672  1.00 98.61           N  \\nATOM   3357  CA  LEU C 222      12.570  20.684  -2.418  1.00 98.61           C  \\nATOM   3358  C   LEU C 222      13.128  20.091  -3.707  1.00 98.61           C  \\nATOM   3359  CB  LEU C 222      11.574  19.710  -1.783  1.00 98.61           C  \\nATOM   3360  O   LEU C 222      14.273  19.634  -3.740  1.00 98.61           O  \\nATOM   3361  CG  LEU C 222      12.098  18.306  -1.481  1.00 98.61           C  \\nATOM   3362  CD1 LEU C 222      13.214  18.368  -0.443  1.00 98.61           C  \\nATOM   3363  CD2 LEU C 222      10.966  17.403  -1.002  1.00 98.61           C  \\nATOM   3364  N   HIS C 223      12.318  20.099  -4.731  1.00 98.17           N  \\nATOM   3365  CA  HIS C 223      12.719  19.604  -6.043  1.00 98.17           C  \\nATOM   3366  C   HIS C 223      13.981  20.304  -6.535  1.00 98.17           C  \\nATOM   3367  CB  HIS C 223      11.587  19.791  -7.055  1.00 98.17           C  \\nATOM   3368  O   HIS C 223      14.923  19.649  -6.987  1.00 98.17           O  \\nATOM   3369  CG  HIS C 223      11.871  19.184  -8.392  1.00 98.17           C  \\nATOM   3370  CD2 HIS C 223      11.399  18.057  -8.975  1.00 98.17           C  \\nATOM   3371  ND1 HIS C 223      12.742  19.751  -9.297  1.00 98.17           N  \\nATOM   3372  CE1 HIS C 223      12.793  18.997 -10.382  1.00 98.17           C  \\nATOM   3373  NE2 HIS C 223      11.987  17.963 -10.212  1.00 98.17           N  \\nATOM   3374  N   ALA C 224      14.021  21.636  -6.482  1.00 98.17           N  \\nATOM   3375  CA  ALA C 224      15.171  22.423  -6.920  1.00 98.17           C  \\nATOM   3376  C   ALA C 224      16.427  22.037  -6.144  1.00 98.17           C  \\nATOM   3377  CB  ALA C 224      14.887  23.915  -6.758  1.00 98.17           C  \\nATOM   3378  O   ALA C 224      17.504  21.888  -6.727  1.00 98.17           O  \\nATOM   3379  N   TYR C 225      16.291  21.873  -4.867  1.00 98.27           N  \\nATOM   3380  CA  TYR C 225      17.416  21.481  -4.025  1.00 98.27           C  \\nATOM   3381  C   TYR C 225      17.933  20.101  -4.412  1.00 98.27           C  \\nATOM   3382  CB  TYR C 225      17.011  21.492  -2.548  1.00 98.27           C  \\nATOM   3383  O   TYR C 225      19.138  19.909  -4.589  1.00 98.27           O  \\nATOM   3384  CG  TYR C 225      18.098  21.013  -1.617  1.00 98.27           C  \\nATOM   3385  CD1 TYR C 225      18.086  19.716  -1.108  1.00 98.27           C  \\nATOM   3386  CD2 TYR C 225      19.139  21.856  -1.242  1.00 98.27           C  \\nATOM   3387  CE1 TYR C 225      19.085  19.271  -0.249  1.00 98.27           C  \\nATOM   3388  CE2 TYR C 225      20.143  21.422  -0.383  1.00 98.27           C  \\nATOM   3389  OH  TYR C 225      21.099  19.695   0.958  1.00 98.27           O  \\nATOM   3390  CZ  TYR C 225      20.108  20.130   0.107  1.00 98.27           C  \\nATOM   3391  N   VAL C 226      17.029  19.157  -4.563  1.00 97.89           N  \\nATOM   3392  CA  VAL C 226      17.394  17.790  -4.921  1.00 97.89           C  \\nATOM   3393  C   VAL C 226      18.042  17.773  -6.303  1.00 97.89           C  \\nATOM   3394  CB  VAL C 226      16.169  16.850  -4.895  1.00 97.89           C  \\nATOM   3395  O   VAL C 226      19.025  17.063  -6.526  1.00 97.89           O  \\nATOM   3396  CG1 VAL C 226      16.501  15.511  -5.551  1.00 97.89           C  \\nATOM   3397  CG2 VAL C 226      15.688  16.640  -3.460  1.00 97.89           C  \\nATOM   3398  N   ARG C 227      17.463  18.537  -7.209  1.00 97.31           N  \\nATOM   3399  CA  ARG C 227      18.045  18.638  -8.543  1.00 97.31           C  \\nATOM   3400  C   ARG C 227      19.498  19.098  -8.474  1.00 97.31           C  \\nATOM   3401  CB  ARG C 227      17.233  19.598  -9.414  1.00 97.31           C  \\nATOM   3402  O   ARG C 227      20.371  18.511  -9.116  1.00 97.31           O  \\nATOM   3403  CG  ARG C 227      17.726  19.697 -10.849  1.00 97.31           C  \\nATOM   3404  CD  ARG C 227      16.749  20.462 -11.730  1.00 97.31           C  \\nATOM   3405  NE  ARG C 227      16.570  21.836 -11.270  1.00 97.31           N  \\nATOM   3406  NH1 ARG C 227      14.301  21.632 -10.889  1.00 97.31           N  \\nATOM   3407  NH2 ARG C 227      15.362  23.623 -10.482  1.00 97.31           N  \\nATOM   3408  CZ  ARG C 227      15.411  22.361 -10.881  1.00 97.31           C  \\nATOM   3409  N   ALA C 228      19.780  20.126  -7.724  1.00 96.62           N  \\nATOM   3410  CA  ALA C 228      21.135  20.653  -7.584  1.00 96.62           C  \\nATOM   3411  C   ALA C 228      22.082  19.590  -7.033  1.00 96.62           C  \\nATOM   3412  CB  ALA C 228      21.137  21.882  -6.679  1.00 96.62           C  \\nATOM   3413  O   ALA C 228      23.207  19.442  -7.516  1.00 96.62           O  \\nATOM   3414  N   LYS C 229      21.631  18.880  -6.026  1.00 96.96           N  \\nATOM   3415  CA  LYS C 229      22.449  17.829  -5.426  1.00 96.96           C  \\nATOM   3416  C   LYS C 229      22.679  16.684  -6.409  1.00 96.96           C  \\nATOM   3417  CB  LYS C 229      21.794  17.301  -4.149  1.00 96.96           C  \\nATOM   3418  O   LYS C 229      23.781  16.138  -6.487  1.00 96.96           O  \\nATOM   3419  CG  LYS C 229      21.761  18.307  -3.009  1.00 96.96           C  \\nATOM   3420  CD  LYS C 229      23.166  18.686  -2.557  1.00 96.96           C  \\nATOM   3421  CE  LYS C 229      23.134  19.637  -1.368  1.00 96.96           C  \\nATOM   3422  NZ  LYS C 229      24.508  20.041  -0.945  1.00 96.96           N  \\nATOM   3423  N   LEU C 230      21.646  16.368  -7.153  1.00 96.69           N  \\nATOM   3424  CA  LEU C 230      21.765  15.289  -8.128  1.00 96.69           C  \\nATOM   3425  C   LEU C 230      22.686  15.693  -9.275  1.00 96.69           C  \\nATOM   3426  CB  LEU C 230      20.387  14.906  -8.674  1.00 96.69           C  \\nATOM   3427  O   LEU C 230      23.386  14.850  -9.840  1.00 96.69           O  \\nATOM   3428  CG  LEU C 230      19.489  14.093  -7.740  1.00 96.69           C  \\nATOM   3429  CD1 LEU C 230      18.145  13.818  -8.404  1.00 96.69           C  \\nATOM   3430  CD2 LEU C 230      20.172  12.789  -7.342  1.00 96.69           C  \\nATOM   3431  N   MET C 231      22.728  16.926  -9.637  1.00 95.54           N  \\nATOM   3432  CA  MET C 231      23.642  17.420 -10.663  1.00 95.54           C  \\nATOM   3433  C   MET C 231      25.094  17.206 -10.247  1.00 95.54           C  \\nATOM   3434  CB  MET C 231      23.391  18.904 -10.938  1.00 95.54           C  \\nATOM   3435  O   MET C 231      25.959  16.974 -11.093  1.00 95.54           O  \\nATOM   3436  CG  MET C 231      22.129  19.172 -11.742  1.00 95.54           C  \\nATOM   3437  SD  MET C 231      21.770  20.964 -11.910  1.00 95.54           S  \\nATOM   3438  CE  MET C 231      23.231  21.496 -12.847  1.00 95.54           C  \\nATOM   3439  N   ASN C 232      25.377  17.271  -8.964  1.00 94.77           N  \\nATOM   3440  CA  ASN C 232      26.716  16.992  -8.457  1.00 94.77           C  \\nATOM   3441  C   ASN C 232      27.069  15.513  -8.591  1.00 94.77           C  \\nATOM   3442  CB  ASN C 232      26.842  17.437  -6.999  1.00 94.77           C  \\nATOM   3443  O   ASN C 232      28.198  15.170  -8.946  1.00 94.77           O  \\nATOM   3444  CG  ASN C 232      26.742  18.941  -6.837  1.00 94.77           C  \\nATOM   3445  ND2 ASN C 232      26.381  19.386  -5.639  1.00 94.77           N  \\nATOM   3446  OD1 ASN C 232      26.986  19.697  -7.781  1.00 94.77           O  \\nATOM   3447  N   ALA C 233      26.066  14.709  -8.347  1.00 94.13           N  \\nATOM   3448  CA  ALA C 233      26.287  13.266  -8.387  1.00 94.13           C  \\nATOM   3449  C   ALA C 233      26.328  12.757  -9.825  1.00 94.13           C  \\nATOM   3450  CB  ALA C 233      25.200  12.539  -7.599  1.00 94.13           C  \\nATOM   3451  O   ALA C 233      27.026  11.787 -10.127  1.00 94.13           O  \\nATOM   3452  N   TYR C 234      25.548  13.350 -10.678  1.00 94.16           N  \\nATOM   3453  CA  TYR C 234      25.456  12.967 -12.082  1.00 94.16           C  \\nATOM   3454  C   TYR C 234      25.660  14.174 -12.990  1.00 94.16           C  \\nATOM   3455  CB  TYR C 234      24.101  12.317 -12.375  1.00 94.16           C  \\nATOM   3456  O   TYR C 234      24.746  14.576 -13.714  1.00 94.16           O  \\nATOM   3457  CG  TYR C 234      23.795  11.129 -11.495  1.00 94.16           C  \\nATOM   3458  CD1 TYR C 234      24.357   9.881 -11.756  1.00 94.16           C  \\nATOM   3459  CD2 TYR C 234      22.944  11.251 -10.402  1.00 94.16           C  \\nATOM   3460  CE1 TYR C 234      24.077   8.783 -10.950  1.00 94.16           C  \\nATOM   3461  CE2 TYR C 234      22.656  10.160  -9.589  1.00 94.16           C  \\nATOM   3462  OH  TYR C 234      22.946   7.849  -9.068  1.00 94.16           O  \\nATOM   3463  CZ  TYR C 234      23.227   8.932  -9.870  1.00 94.16           C  \\nATOM   3464  N   PRO C 235      26.937  14.489 -13.069  1.00 88.26           N  \\nATOM   3465  CA  PRO C 235      27.197  15.683 -13.876  1.00 88.26           C  \\nATOM   3466  C   PRO C 235      26.844  15.488 -15.349  1.00 88.26           C  \\nATOM   3467  CB  PRO C 235      28.701  15.907 -13.700  1.00 88.26           C  \\nATOM   3468  O   PRO C 235      27.083  14.414 -15.907  1.00 88.26           O  \\nATOM   3469  CG  PRO C 235      29.206  14.643 -13.084  1.00 88.26           C  \\nATOM   3470  CD  PRO C 235      28.036  13.883 -12.527  1.00 88.26           C  \\nATOM   3471  N   SER C 236      26.136  16.335 -16.031  1.00 87.41           N  \\nATOM   3472  CA  SER C 236      25.854  16.377 -17.463  1.00 87.41           C  \\nATOM   3473  C   SER C 236      24.590  15.595 -17.801  1.00 87.41           C  \\nATOM   3474  CB  SER C 236      27.036  15.821 -18.258  1.00 87.41           C  \\nATOM   3475  O   SER C 236      24.179  15.540 -18.962  1.00 87.41           O  \\nATOM   3476  OG  SER C 236      28.223  16.538 -17.964  1.00 87.41           O  \\nATOM   3477  N   TYR C 237      24.094  14.955 -16.803  1.00 91.07           N  \\nATOM   3478  CA  TYR C 237      22.932  14.123 -17.095  1.00 91.07           C  \\nATOM   3479  C   TYR C 237      21.646  14.803 -16.643  1.00 91.07           C  \\nATOM   3480  CB  TYR C 237      23.066  12.756 -16.417  1.00 91.07           C  \\nATOM   3481  O   TYR C 237      20.548  14.324 -16.934  1.00 91.07           O  \\nATOM   3482  CG  TYR C 237      24.063  11.841 -17.086  1.00 91.07           C  \\nATOM   3483  CD1 TYR C 237      23.743  11.175 -18.267  1.00 91.07           C  \\nATOM   3484  CD2 TYR C 237      25.325  11.640 -16.539  1.00 91.07           C  \\nATOM   3485  CE1 TYR C 237      24.657  10.329 -18.886  1.00 91.07           C  \\nATOM   3486  CE2 TYR C 237      26.248  10.796 -17.149  1.00 91.07           C  \\nATOM   3487  OH  TYR C 237      26.814   9.311 -18.929  1.00 91.07           O  \\nATOM   3488  CZ  TYR C 237      25.905  10.147 -18.321  1.00 91.07           C  \\nATOM   3489  N   ILE C 238      21.810  15.867 -15.985  1.00 93.69           N  \\nATOM   3490  CA  ILE C 238      20.635  16.537 -15.438  1.00 93.69           C  \\nATOM   3491  C   ILE C 238      20.638  18.006 -15.855  1.00 93.69           C  \\nATOM   3492  CB  ILE C 238      20.582  16.417 -13.899  1.00 93.69           C  \\nATOM   3493  O   ILE C 238      21.669  18.678 -15.776  1.00 93.69           O  \\nATOM   3494  CG1 ILE C 238      20.476  14.945 -13.481  1.00 93.69           C  \\nATOM   3495  CG2 ILE C 238      19.415  17.232 -13.334  1.00 93.69           C  \\nATOM   3496  CD1 ILE C 238      20.505  14.726 -11.975  1.00 93.69           C  \\nATOM   3497  N   SER C 239      19.571  18.454 -16.330  1.00 92.91           N  \\nATOM   3498  CA  SER C 239      19.386  19.861 -16.671  1.00 92.91           C  \\nATOM   3499  C   SER C 239      19.237  20.719 -15.419  1.00 92.91           C  \\nATOM   3500  CB  SER C 239      18.161  20.039 -17.569  1.00 92.91           C  \\nATOM   3501  O   SER C 239      18.561  20.324 -14.466  1.00 92.91           O  \\nATOM   3502  OG  SER C 239      17.837  21.411 -17.712  1.00 92.91           O  \\nATOM   3503  N   PRO C 240      19.883  21.904 -15.420  1.00 93.92           N  \\nATOM   3504  CA  PRO C 240      19.771  22.791 -14.261  1.00 93.92           C  \\nATOM   3505  C   PRO C 240      18.372  23.382 -14.103  1.00 93.92           C  \\nATOM   3506  CB  PRO C 240      20.796  23.889 -14.557  1.00 93.92           C  \\nATOM   3507  O   PRO C 240      18.054  23.956 -13.058  1.00 93.92           O  \\nATOM   3508  CG  PRO C 240      21.185  23.674 -15.984  1.00 93.92           C  \\nATOM   3509  CD  PRO C 240      20.741  22.300 -16.397  1.00 93.92           C  \\nATOM   3510  N   ILE C 241      17.540  23.247 -15.139  1.00 95.31           N  \\nATOM   3511  CA  ILE C 241      16.224  23.871 -15.053  1.00 95.31           C  \\nATOM   3512  C   ILE C 241      15.148  22.859 -15.440  1.00 95.31           C  \\nATOM   3513  CB  ILE C 241      16.133  25.123 -15.954  1.00 95.31           C  \\nATOM   3514  O   ILE C 241      13.963  23.197 -15.499  1.00 95.31           O  \\nATOM   3515  CG1 ILE C 241      16.340  24.740 -17.424  1.00 95.31           C  \\nATOM   3516  CG2 ILE C 241      17.150  26.180 -15.514  1.00 95.31           C  \\nATOM   3517  CD1 ILE C 241      15.969  25.840 -18.409  1.00 95.31           C  \\nATOM   3518  N   GLY C 242      15.530  21.657 -15.747  1.00 94.86           N  \\nATOM   3519  CA  GLY C 242      14.592  20.682 -16.280  1.00 94.86           C  \\nATOM   3520  C   GLY C 242      14.067  19.722 -15.230  1.00 94.86           C  \\nATOM   3521  O   GLY C 242      14.361  19.871 -14.042  1.00 94.86           O  \\nATOM   3522  N   CYS C 243      13.202  18.829 -15.726  1.00 97.04           N  \\nATOM   3523  CA  CYS C 243      12.669  17.745 -14.909  1.00 97.04           C  \\nATOM   3524  C   CYS C 243      13.766  16.759 -14.528  1.00 97.04           C  \\nATOM   3525  CB  CYS C 243      11.550  17.015 -15.652  1.00 97.04           C  \\nATOM   3526  O   CYS C 243      14.824  16.727 -15.158  1.00 97.04           O  \\nATOM   3527  SG  CYS C 243      10.106  18.047 -15.989  1.00 97.04           S  \\nATOM   3528  N   LEU C 244      13.592  16.047 -13.469  1.00 97.32           N  \\nATOM   3529  CA  LEU C 244      14.534  15.032 -13.009  1.00 97.32           C  \\nATOM   3530  C   LEU C 244      14.273  13.697 -13.699  1.00 97.32           C  \\nATOM   3531  CB  LEU C 244      14.441  14.862 -11.491  1.00 97.32           C  \\nATOM   3532  O   LEU C 244      13.122  13.273 -13.825  1.00 97.32           O  \\nATOM   3533  CG  LEU C 244      14.831  16.077 -10.648  1.00 97.32           C  \\nATOM   3534  CD1 LEU C 244      14.413  15.872  -9.196  1.00 97.32           C  \\nATOM   3535  CD2 LEU C 244      16.331  16.337 -10.746  1.00 97.32           C  \\nATOM   3536  N   PRO C 245      15.276  13.044 -14.219  1.00 97.08           N  \\nATOM   3537  CA  PRO C 245      15.070  11.706 -14.779  1.00 97.08           C  \\nATOM   3538  C   PRO C 245      14.592  10.697 -13.737  1.00 97.08           C  \\nATOM   3539  CB  PRO C 245      16.456  11.328 -15.308  1.00 97.08           C  \\nATOM   3540  O   PRO C 245      15.175  10.599 -12.654  1.00 97.08           O  \\nATOM   3541  CG  PRO C 245      17.167  12.631 -15.481  1.00 97.08           C  \\nATOM   3542  CD  PRO C 245      16.691  13.579 -14.418  1.00 97.08           C  \\nATOM   3543  N   ALA C 246      13.638   9.923 -14.067  1.00 96.87           N  \\nATOM   3544  CA  ALA C 246      12.907   9.056 -13.146  1.00 96.87           C  \\nATOM   3545  C   ALA C 246      13.831   8.013 -12.524  1.00 96.87           C  \\nATOM   3546  CB  ALA C 246      11.747   8.373 -13.867  1.00 96.87           C  \\nATOM   3547  O   ALA C 246      13.688   7.671 -11.348  1.00 96.87           O  \\nATOM   3548  N   HIS C 247      14.811   7.497 -13.249  1.00 96.17           N  \\nATOM   3549  CA  HIS C 247      15.634   6.387 -12.782  1.00 96.17           C  \\nATOM   3550  C   HIS C 247      16.670   6.858 -11.766  1.00 96.17           C  \\nATOM   3551  CB  HIS C 247      16.328   5.702 -13.960  1.00 96.17           C  \\nATOM   3552  O   HIS C 247      17.361   6.041 -11.154  1.00 96.17           O  \\nATOM   3553  CG  HIS C 247      17.381   6.543 -14.609  1.00 96.17           C  \\nATOM   3554  CD2 HIS C 247      18.716   6.357 -14.733  1.00 96.17           C  \\nATOM   3555  ND1 HIS C 247      17.099   7.743 -15.225  1.00 96.17           N  \\nATOM   3556  CE1 HIS C 247      18.219   8.259 -15.703  1.00 96.17           C  \\nATOM   3557  NE2 HIS C 247      19.215   7.437 -15.417  1.00 96.17           N  \\nATOM   3558  N   LEU C 248      16.722   8.165 -11.496  1.00 97.09           N  \\nATOM   3559  CA  LEU C 248      17.731   8.705 -10.591  1.00 97.09           C  \\nATOM   3560  C   LEU C 248      17.108   9.097  -9.256  1.00 97.09           C  \\nATOM   3561  CB  LEU C 248      18.423   9.916 -11.221  1.00 97.09           C  \\nATOM   3562  O   LEU C 248      17.752   9.756  -8.435  1.00 97.09           O  \\nATOM   3563  CG  LEU C 248      19.208   9.656 -12.507  1.00 97.09           C  \\nATOM   3564  CD1 LEU C 248      19.893  10.935 -12.978  1.00 97.09           C  \\nATOM   3565  CD2 LEU C 248      20.229   8.543 -12.295  1.00 97.09           C  \\nATOM   3566  N   LEU C 249      15.883   8.762  -9.026  1.00 95.75           N  \\nATOM   3567  CA  LEU C 249      15.146   9.277  -7.877  1.00 95.75           C  \\nATOM   3568  C   LEU C 249      15.181   8.284  -6.719  1.00 95.75           C  \\nATOM   3569  CB  LEU C 249      13.696   9.580  -8.261  1.00 95.75           C  \\nATOM   3570  O   LEU C 249      14.484   8.467  -5.718  1.00 95.75           O  \\nATOM   3571  CG  LEU C 249      13.483  10.720  -9.258  1.00 95.75           C  \\nATOM   3572  CD1 LEU C 249      12.002  10.862  -9.593  1.00 95.75           C  \\nATOM   3573  CD2 LEU C 249      14.038  12.027  -8.702  1.00 95.75           C  \\nATOM   3574  N   GLY C 250      15.967   7.212  -6.853  1.00 89.24           N  \\nATOM   3575  CA  GLY C 250      16.277   6.369  -5.709  1.00 89.24           C  \\nATOM   3576  C   GLY C 250      15.292   5.230  -5.523  1.00 89.24           C  \\nATOM   3577  O   GLY C 250      15.480   4.376  -4.654  1.00 89.24           O  \\nATOM   3578  N   ASP C 251      14.201   5.296  -6.181  1.00 86.10           N  \\nATOM   3579  CA  ASP C 251      13.275   4.168  -6.167  1.00 86.10           C  \\nATOM   3580  C   ASP C 251      12.729   3.888  -7.566  1.00 86.10           C  \\nATOM   3581  CB  ASP C 251      12.122   4.431  -5.196  1.00 86.10           C  \\nATOM   3582  O   ASP C 251      12.917   4.689  -8.483  1.00 86.10           O  \\nATOM   3583  CG  ASP C 251      11.049   5.333  -5.780  1.00 86.10           C  \\nATOM   3584  OD1 ASP C 251      11.293   5.975  -6.824  1.00 86.10           O  \\nATOM   3585  OD2 ASP C 251       9.950   5.406  -5.188  1.00 86.10           O  \\nATOM   3586  N   MET C 252      12.011   2.729  -7.761  1.00 85.42           N  \\nATOM   3587  CA  MET C 252      11.590   2.267  -9.081  1.00 85.42           C  \\nATOM   3588  C   MET C 252      10.536   3.197  -9.672  1.00 85.42           C  \\nATOM   3589  CB  MET C 252      11.045   0.840  -9.003  1.00 85.42           C  \\nATOM   3590  O   MET C 252      10.437   3.334 -10.893  1.00 85.42           O  \\nATOM   3591  CG  MET C 252      12.105  -0.233  -9.195  1.00 85.42           C  \\nATOM   3592  SD  MET C 252      13.117   0.041 -10.701  1.00 85.42           S  \\nATOM   3593  CE  MET C 252      11.909  -0.395 -11.982  1.00 85.42           C  \\nATOM   3594  N   TRP C 253       9.891   3.950  -8.884  1.00 86.86           N  \\nATOM   3595  CA  TRP C 253       8.766   4.736  -9.380  1.00 86.86           C  \\nATOM   3596  C   TRP C 253       9.038   6.230  -9.231  1.00 86.86           C  \\nATOM   3597  CB  TRP C 253       7.479   4.363  -8.639  1.00 86.86           C  \\nATOM   3598  O   TRP C 253       8.297   7.058  -9.764  1.00 86.86           O  \\nATOM   3599  CG  TRP C 253       7.158   2.899  -8.678  1.00 86.86           C  \\nATOM   3600  CD1 TRP C 253       6.216   2.283  -9.454  1.00 86.86           C  \\nATOM   3601  CD2 TRP C 253       7.776   1.868  -7.902  1.00 86.86           C  \\nATOM   3602  CE2 TRP C 253       7.159   0.648  -8.260  1.00 86.86           C  \\nATOM   3603  CE3 TRP C 253       8.793   1.856  -6.938  1.00 86.86           C  \\nATOM   3604  NE1 TRP C 253       6.212   0.929  -9.208  1.00 86.86           N  \\nATOM   3605  CH2 TRP C 253       8.525  -0.554  -6.747  1.00 86.86           C  \\nATOM   3606  CZ2 TRP C 253       7.527  -0.571  -7.687  1.00 86.86           C  \\nATOM   3607  CZ3 TRP C 253       9.158   0.641  -6.369  1.00 86.86           C  \\nATOM   3608  N   GLY C 254      10.133   6.489  -8.523  1.00 84.70           N  \\nATOM   3609  CA  GLY C 254      10.408   7.889  -8.243  1.00 84.70           C  \\nATOM   3610  C   GLY C 254       9.440   8.501  -7.248  1.00 84.70           C  \\nATOM   3611  O   GLY C 254       9.214   9.713  -7.258  1.00 84.70           O  \\nATOM   3612  N   ARG C 255       8.758   7.609  -6.535  1.00 79.39           N  \\nATOM   3613  CA  ARG C 255       7.757   8.000  -5.549  1.00 79.39           C  \\nATOM   3614  C   ARG C 255       8.413   8.408  -4.234  1.00 79.39           C  \\nATOM   3615  CB  ARG C 255       6.765   6.860  -5.307  1.00 79.39           C  \\nATOM   3616  O   ARG C 255       8.119   9.476  -3.692  1.00 79.39           O  \\nATOM   3617  CG  ARG C 255       5.770   7.135  -4.191  1.00 79.39           C  \\nATOM   3618  CD  ARG C 255       4.933   5.906  -3.866  1.00 79.39           C  \\nATOM   3619  NE  ARG C 255       4.291   6.020  -2.560  1.00 79.39           N  \\nATOM   3620  NH1 ARG C 255       3.062   4.075  -2.762  1.00 79.39           N  \\nATOM   3621  NH2 ARG C 255       2.895   5.349  -0.864  1.00 79.39           N  \\nATOM   3622  CZ  ARG C 255       3.418   5.148  -2.065  1.00 79.39           C  \\nATOM   3623  N   PHE C 256       9.280   7.585  -3.682  1.00 77.36           N  \\nATOM   3624  CA  PHE C 256       9.989   7.870  -2.440  1.00 77.36           C  \\nATOM   3625  C   PHE C 256      11.414   8.330  -2.723  1.00 77.36           C  \\nATOM   3626  CB  PHE C 256      10.006   6.636  -1.533  1.00 77.36           C  \\nATOM   3627  O   PHE C 256      12.179   7.627  -3.386  1.00 77.36           O  \\nATOM   3628  CG  PHE C 256       8.638   6.179  -1.103  1.00 77.36           C  \\nATOM   3629  CD1 PHE C 256       7.918   6.895  -0.155  1.00 77.36           C  \\nATOM   3630  CD2 PHE C 256       8.073   5.034  -1.648  1.00 77.36           C  \\nATOM   3631  CE1 PHE C 256       6.651   6.474   0.245  1.00 77.36           C  \\nATOM   3632  CE2 PHE C 256       6.808   4.608  -1.253  1.00 77.36           C  \\nATOM   3633  CZ  PHE C 256       6.099   5.329  -0.306  1.00 77.36           C  \\nATOM   3634  N   TRP C 257      11.723   9.479  -2.251  1.00 90.88           N  \\nATOM   3635  CA  TRP C 257      13.064  10.023  -2.442  1.00 90.88           C  \\nATOM   3636  C   TRP C 257      13.944   9.742  -1.229  1.00 90.88           C  \\nATOM   3637  CB  TRP C 257      13.000  11.531  -2.704  1.00 90.88           C  \\nATOM   3638  O   TRP C 257      14.985  10.377  -1.049  1.00 90.88           O  \\nATOM   3639  CG  TRP C 257      12.308  11.898  -3.982  1.00 90.88           C  \\nATOM   3640  CD1 TRP C 257      11.659  11.054  -4.839  1.00 90.88           C  \\nATOM   3641  CD2 TRP C 257      12.201  13.208  -4.549  1.00 90.88           C  \\nATOM   3642  CE2 TRP C 257      11.472  13.083  -5.752  1.00 90.88           C  \\nATOM   3643  CE3 TRP C 257      12.651  14.475  -4.156  1.00 90.88           C  \\nATOM   3644  NE1 TRP C 257      11.154  11.761  -5.906  1.00 90.88           N  \\nATOM   3645  CH2 TRP C 257      11.634  15.409  -6.159  1.00 90.88           C  \\nATOM   3646  CZ2 TRP C 257      11.182  14.181  -6.567  1.00 90.88           C  \\nATOM   3647  CZ3 TRP C 257      12.361  15.566  -4.967  1.00 90.88           C  \\nATOM   3648  N   THR C 258      13.473   8.838  -0.374  1.00 77.79           N  \\nATOM   3649  CA  THR C 258      14.141   8.530   0.886  1.00 77.79           C  \\nATOM   3650  C   THR C 258      15.585   8.100   0.642  1.00 77.79           C  \\nATOM   3651  CB  THR C 258      13.396   7.423   1.656  1.00 77.79           C  \\nATOM   3652  O   THR C 258      16.482   8.456   1.409  1.00 77.79           O  \\nATOM   3653  CG2 THR C 258      14.033   7.179   3.021  1.00 77.79           C  \\nATOM   3654  OG1 THR C 258      12.030   7.814   1.842  1.00 77.79           O  \\nATOM   3655  N   ASN C 259      15.844   7.364  -0.432  1.00 82.86           N  \\nATOM   3656  CA  ASN C 259      17.163   6.804  -0.705  1.00 82.86           C  \\nATOM   3657  C   ASN C 259      18.110   7.854  -1.280  1.00 82.86           C  \\nATOM   3658  CB  ASN C 259      17.053   5.611  -1.657  1.00 82.86           C  \\nATOM   3659  O   ASN C 259      19.286   7.572  -1.515  1.00 82.86           O  \\nATOM   3660  CG  ASN C 259      16.381   4.412  -1.015  1.00 82.86           C  \\nATOM   3661  ND2 ASN C 259      15.485   3.768  -1.754  1.00 82.86           N  \\nATOM   3662  OD1 ASN C 259      16.665   4.069   0.135  1.00 82.86           O  \\nATOM   3663  N   LEU C 260      17.615   9.006  -1.423  1.00 93.13           N  \\nATOM   3664  CA  LEU C 260      18.447  10.104  -1.901  1.00 93.13           C  \\nATOM   3665  C   LEU C 260      19.074  10.859  -0.733  1.00 93.13           C  \\nATOM   3666  CB  LEU C 260      17.624  11.066  -2.762  1.00 93.13           C  \\nATOM   3667  O   LEU C 260      19.869  11.778  -0.938  1.00 93.13           O  \\nATOM   3668  CG  LEU C 260      17.086  10.505  -4.079  1.00 93.13           C  \\nATOM   3669  CD1 LEU C 260      16.330  11.585  -4.846  1.00 93.13           C  \\nATOM   3670  CD2 LEU C 260      18.223   9.939  -4.923  1.00 93.13           C  \\nATOM   3671  N   TYR C 261      18.753  10.486   0.447  1.00 89.20           N  \\nATOM   3672  CA  TYR C 261      19.186  11.233   1.622  1.00 89.20           C  \\nATOM   3673  C   TYR C 261      20.706  11.330   1.678  1.00 89.20           C  \\nATOM   3674  CB  TYR C 261      18.657  10.577   2.901  1.00 89.20           C  \\nATOM   3675  O   TYR C 261      21.257  12.408   1.914  1.00 89.20           O  \\nATOM   3676  CG  TYR C 261      18.973  11.353   4.157  1.00 89.20           C  \\nATOM   3677  CD1 TYR C 261      19.808  10.820   5.137  1.00 89.20           C  \\nATOM   3678  CD2 TYR C 261      18.437  12.619   4.366  1.00 89.20           C  \\nATOM   3679  CE1 TYR C 261      20.100  11.531   6.296  1.00 89.20           C  \\nATOM   3680  CE2 TYR C 261      18.722  13.338   5.522  1.00 89.20           C  \\nATOM   3681  OH  TYR C 261      19.840  13.495   7.626  1.00 89.20           O  \\nATOM   3682  CZ  TYR C 261      19.554  12.787   6.480  1.00 89.20           C  \\nATOM   3683  N   SER C 262      21.429  10.244   1.427  1.00 87.83           N  \\nATOM   3684  CA  SER C 262      22.886  10.245   1.513  1.00 87.83           C  \\nATOM   3685  C   SER C 262      23.497  11.232   0.524  1.00 87.83           C  \\nATOM   3686  CB  SER C 262      23.439   8.843   1.254  1.00 87.83           C  \\nATOM   3687  O   SER C 262      24.576  11.776   0.768  1.00 87.83           O  \\nATOM   3688  OG  SER C 262      23.073   8.388  -0.037  1.00 87.83           O  \\nATOM   3689  N   LEU C 263      22.770  11.510  -0.545  1.00 93.54           N  \\nATOM   3690  CA  LEU C 263      23.272  12.408  -1.579  1.00 93.54           C  \\nATOM   3691  C   LEU C 263      22.834  13.844  -1.312  1.00 93.54           C  \\nATOM   3692  CB  LEU C 263      22.784  11.962  -2.960  1.00 93.54           C  \\nATOM   3693  O   LEU C 263      23.397  14.785  -1.877  1.00 93.54           O  \\nATOM   3694  CG  LEU C 263      23.320  10.623  -3.469  1.00 93.54           C  \\nATOM   3695  CD1 LEU C 263      22.615  10.227  -4.762  1.00 93.54           C  \\nATOM   3696  CD2 LEU C 263      24.829  10.696  -3.677  1.00 93.54           C  \\nATOM   3697  N   THR C 264      21.850  14.030  -0.433  1.00 95.57           N  \\nATOM   3698  CA  THR C 264      21.239  15.354  -0.383  1.00 95.57           C  \\nATOM   3699  C   THR C 264      21.369  15.957   1.012  1.00 95.57           C  \\nATOM   3700  CB  THR C 264      19.754  15.300  -0.786  1.00 95.57           C  \\nATOM   3701  O   THR C 264      21.104  17.145   1.208  1.00 95.57           O  \\nATOM   3702  CG2 THR C 264      19.594  14.878  -2.243  1.00 95.57           C  \\nATOM   3703  OG1 THR C 264      19.072  14.357   0.050  1.00 95.57           O  \\nATOM   3704  N   VAL C 265      21.803  15.198   1.982  1.00 94.09           N  \\nATOM   3705  CA  VAL C 265      21.898  15.716   3.343  1.00 94.09           C  \\nATOM   3706  C   VAL C 265      22.827  16.927   3.371  1.00 94.09           C  \\nATOM   3707  CB  VAL C 265      22.400  14.636   4.328  1.00 94.09           C  \\nATOM   3708  O   VAL C 265      23.969  16.852   2.914  1.00 94.09           O  \\nATOM   3709  CG1 VAL C 265      23.799  14.161   3.941  1.00 94.09           C  \\nATOM   3710  CG2 VAL C 265      22.391  15.173   5.758  1.00 94.09           C  \\nATOM   3711  N   PRO C 266      22.368  18.041   3.888  1.00 94.63           N  \\nATOM   3712  CA  PRO C 266      23.149  19.279   3.832  1.00 94.63           C  \\nATOM   3713  C   PRO C 266      24.311  19.290   4.823  1.00 94.63           C  \\nATOM   3714  CB  PRO C 266      22.122  20.360   4.183  1.00 94.63           C  \\nATOM   3715  O   PRO C 266      25.386  19.810   4.513  1.00 94.63           O  \\nATOM   3716  CG  PRO C 266      20.993  19.620   4.824  1.00 94.63           C  \\nATOM   3717  CD  PRO C 266      21.012  18.201   4.332  1.00 94.63           C  \\nATOM   3718  N   PHE C 267      24.110  18.773   6.021  1.00 94.46           N  \\nATOM   3719  CA  PHE C 267      25.137  18.803   7.056  1.00 94.46           C  \\nATOM   3720  C   PHE C 267      25.591  17.392   7.410  1.00 94.46           C  \\nATOM   3721  CB  PHE C 267      24.620  19.518   8.308  1.00 94.46           C  \\nATOM   3722  O   PHE C 267      25.321  16.905   8.510  1.00 94.46           O  \\nATOM   3723  CG  PHE C 267      24.037  20.878   8.033  1.00 94.46           C  \\nATOM   3724  CD1 PHE C 267      24.863  21.968   7.788  1.00 94.46           C  \\nATOM   3725  CD2 PHE C 267      22.661  21.066   8.020  1.00 94.46           C  \\nATOM   3726  CE1 PHE C 267      24.325  23.227   7.533  1.00 94.46           C  \\nATOM   3727  CE2 PHE C 267      22.116  22.322   7.767  1.00 94.46           C  \\nATOM   3728  CZ  PHE C 267      22.950  23.401   7.524  1.00 94.46           C  \\nATOM   3729  N   GLY C 268      26.453  16.812   6.557  1.00 87.86           N  \\nATOM   3730  CA  GLY C 268      26.908  15.434   6.649  1.00 87.86           C  \\nATOM   3731  C   GLY C 268      27.812  15.182   7.841  1.00 87.86           C  \\nATOM   3732  O   GLY C 268      27.972  14.039   8.275  1.00 87.86           O  \\nATOM   3733  N   GLN C 269      28.354  16.248   8.422  1.00 85.94           N  \\nATOM   3734  CA  GLN C 269      29.275  16.142   9.548  1.00 85.94           C  \\nATOM   3735  C   GLN C 269      28.520  15.957  10.861  1.00 85.94           C  \\nATOM   3736  CB  GLN C 269      30.171  17.379   9.627  1.00 85.94           C  \\nATOM   3737  O   GLN C 269      29.102  15.538  11.864  1.00 85.94           O  \\nATOM   3738  CG  GLN C 269      29.422  18.660   9.970  1.00 85.94           C  \\nATOM   3739  CD  GLN C 269      28.730  19.275   8.768  1.00 85.94           C  \\nATOM   3740  NE2 GLN C 269      28.263  20.509   8.921  1.00 85.94           N  \\nATOM   3741  OE1 GLN C 269      28.618  18.646   7.711  1.00 85.94           O  \\nATOM   3742  N   LYS C 270      27.211  16.322  10.802  1.00 85.17           N  \\nATOM   3743  CA  LYS C 270      26.387  16.158  11.996  1.00 85.17           C  \\nATOM   3744  C   LYS C 270      26.015  14.693  12.210  1.00 85.17           C  \\nATOM   3745  CB  LYS C 270      25.122  17.011  11.898  1.00 85.17           C  \\nATOM   3746  O   LYS C 270      26.046  13.896  11.270  1.00 85.17           O  \\nATOM   3747  CG  LYS C 270      25.387  18.509  11.867  1.00 85.17           C  \\nATOM   3748  CD  LYS C 270      25.868  19.020  13.219  1.00 85.17           C  \\nATOM   3749  CE  LYS C 270      25.973  20.539  13.240  1.00 85.17           C  \\nATOM   3750  NZ  LYS C 270      26.430  21.045  14.568  1.00 85.17           N  \\nATOM   3751  N   PRO C 271      25.806  14.358  13.530  1.00 78.31           N  \\nATOM   3752  CA  PRO C 271      25.424  12.970  13.798  1.00 78.31           C  \\nATOM   3753  C   PRO C 271      24.222  12.518  12.972  1.00 78.31           C  \\nATOM   3754  CB  PRO C 271      25.088  12.978  15.292  1.00 78.31           C  \\nATOM   3755  O   PRO C 271      23.299  13.302  12.739  1.00 78.31           O  \\nATOM   3756  CG  PRO C 271      25.844  14.142  15.847  1.00 78.31           C  \\nATOM   3757  CD  PRO C 271      25.933  15.202  14.787  1.00 78.31           C  \\nATOM   3758  N   ASN C 272      24.334  11.289  12.612  1.00 75.43           N  \\nATOM   3759  CA  ASN C 272      23.279  10.684  11.806  1.00 75.43           C  \\nATOM   3760  C   ASN C 272      22.027  10.411  12.634  1.00 75.43           C  \\nATOM   3761  CB  ASN C 272      23.776   9.392  11.153  1.00 75.43           C  \\nATOM   3762  O   ASN C 272      22.110   9.842  13.723  1.00 75.43           O  \\nATOM   3763  CG  ASN C 272      22.838   8.883  10.077  1.00 75.43           C  \\nATOM   3764  ND2 ASN C 272      23.323   7.959   9.256  1.00 75.43           N  \\nATOM   3765  OD1 ASN C 272      21.687   9.316   9.984  1.00 75.43           O  \\nATOM   3766  N   ILE C 273      20.976  10.872  12.203  1.00 79.32           N  \\nATOM   3767  CA  ILE C 273      19.719  10.699  12.923  1.00 79.32           C  \\nATOM   3768  C   ILE C 273      19.204   9.275  12.728  1.00 79.32           C  \\nATOM   3769  CB  ILE C 273      18.657  11.721  12.459  1.00 79.32           C  \\nATOM   3770  O   ILE C 273      18.340   8.813  13.476  1.00 79.32           O  \\nATOM   3771  CG1 ILE C 273      18.964  13.109  13.034  1.00 79.32           C  \\nATOM   3772  CG2 ILE C 273      17.253  11.260  12.859  1.00 79.32           C  \\nATOM   3773  CD1 ILE C 273      18.449  14.260  12.181  1.00 79.32           C  \\nATOM   3774  N   ASP C 274      19.777   8.562  11.883  1.00 80.15           N  \\nATOM   3775  CA  ASP C 274      19.463   7.146  11.718  1.00 80.15           C  \\nATOM   3776  C   ASP C 274      20.098   6.309  12.827  1.00 80.15           C  \\nATOM   3777  CB  ASP C 274      19.931   6.648  10.349  1.00 80.15           C  \\nATOM   3778  O   ASP C 274      21.323   6.187  12.895  1.00 80.15           O  \\nATOM   3779  CG  ASP C 274      19.451   5.243  10.033  1.00 80.15           C  \\nATOM   3780  OD1 ASP C 274      19.251   4.441  10.971  1.00 80.15           O  \\nATOM   3781  OD2 ASP C 274      19.273   4.933   8.835  1.00 80.15           O  \\nATOM   3782  N   VAL C 275      19.330   5.641  13.641  1.00 88.92           N  \\nATOM   3783  CA  VAL C 275      19.801   5.018  14.873  1.00 88.92           C  \\nATOM   3784  C   VAL C 275      19.984   3.518  14.657  1.00 88.92           C  \\nATOM   3785  CB  VAL C 275      18.827   5.272  16.046  1.00 88.92           C  \\nATOM   3786  O   VAL C 275      19.964   2.739  15.613  1.00 88.92           O  \\nATOM   3787  CG1 VAL C 275      18.841   6.745  16.450  1.00 88.92           C  \\nATOM   3788  CG2 VAL C 275      17.414   4.831  15.670  1.00 88.92           C  \\nATOM   3789  N   THR C 276      20.028   3.047  13.475  1.00 86.51           N  \\nATOM   3790  CA  THR C 276      20.218   1.633  13.169  1.00 86.51           C  \\nATOM   3791  C   THR C 276      21.459   1.090  13.872  1.00 86.51           C  \\nATOM   3792  CB  THR C 276      20.342   1.403  11.651  1.00 86.51           C  \\nATOM   3793  O   THR C 276      21.393   0.066  14.556  1.00 86.51           O  \\nATOM   3794  CG2 THR C 276      20.516  -0.079  11.333  1.00 86.51           C  \\nATOM   3795  OG1 THR C 276      19.159   1.884  11.002  1.00 86.51           O  \\nATOM   3796  N   ASP C 277      22.564   1.756  13.752  1.00 90.07           N  \\nATOM   3797  CA  ASP C 277      23.821   1.317  14.351  1.00 90.07           C  \\nATOM   3798  C   ASP C 277      23.708   1.242  15.872  1.00 90.07           C  \\nATOM   3799  CB  ASP C 277      24.962   2.257  13.955  1.00 90.07           C  \\nATOM   3800  O   ASP C 277      24.218   0.307  16.492  1.00 90.07           O  \\nATOM   3801  CG  ASP C 277      25.352   2.132  12.493  1.00 90.07           C  \\nATOM   3802  OD1 ASP C 277      25.038   1.099  11.864  1.00 90.07           O  \\nATOM   3803  OD2 ASP C 277      25.981   3.075  11.965  1.00 90.07           O  \\nATOM   3804  N   ALA C 278      23.039   2.263  16.406  1.00 92.37           N  \\nATOM   3805  CA  ALA C 278      22.839   2.270  17.853  1.00 92.37           C  \\nATOM   3806  C   ALA C 278      22.054   1.042  18.304  1.00 92.37           C  \\nATOM   3807  CB  ALA C 278      22.120   3.546  18.284  1.00 92.37           C  \\nATOM   3808  O   ALA C 278      22.390   0.419  19.314  1.00 92.37           O  \\nATOM   3809  N   MET C 279      21.020   0.688  17.617  1.00 95.88           N  \\nATOM   3810  CA  MET C 279      20.207  -0.480  17.946  1.00 95.88           C  \\nATOM   3811  C   MET C 279      21.026  -1.761  17.840  1.00 95.88           C  \\nATOM   3812  CB  MET C 279      18.986  -0.561  17.028  1.00 95.88           C  \\nATOM   3813  O   MET C 279      20.926  -2.640  18.698  1.00 95.88           O  \\nATOM   3814  CG  MET C 279      17.925   0.487  17.324  1.00 95.88           C  \\nATOM   3815  SD  MET C 279      16.385   0.218  16.364  1.00 95.88           S  \\nATOM   3816  CE  MET C 279      16.979   0.601  14.692  1.00 95.88           C  \\nATOM   3817  N   VAL C 280      21.836  -1.866  16.848  1.00 94.89           N  \\nATOM   3818  CA  VAL C 280      22.688  -3.036  16.661  1.00 94.89           C  \\nATOM   3819  C   VAL C 280      23.700  -3.125  17.802  1.00 94.89           C  \\nATOM   3820  CB  VAL C 280      23.420  -2.993  15.302  1.00 94.89           C  \\nATOM   3821  O   VAL C 280      23.892  -4.194  18.387  1.00 94.89           O  \\nATOM   3822  CG1 VAL C 280      24.466  -4.104  15.217  1.00 94.89           C  \\nATOM   3823  CG2 VAL C 280      22.419  -3.109  14.153  1.00 94.89           C  \\nATOM   3824  N   ASP C 281      24.320  -2.022  18.116  1.00 95.07           N  \\nATOM   3825  CA  ASP C 281      25.328  -1.962  19.170  1.00 95.07           C  \\nATOM   3826  C   ASP C 281      24.734  -2.358  20.520  1.00 95.07           C  \\nATOM   3827  CB  ASP C 281      25.934  -0.560  19.254  1.00 95.07           C  \\nATOM   3828  O   ASP C 281      25.422  -2.943  21.359  1.00 95.07           O  \\nATOM   3829  CG  ASP C 281      26.849  -0.238  18.085  1.00 95.07           C  \\nATOM   3830  OD1 ASP C 281      27.240  -1.166  17.344  1.00 95.07           O  \\nATOM   3831  OD2 ASP C 281      27.184   0.952  17.906  1.00 95.07           O  \\nATOM   3832  N   GLN C 282      23.480  -2.054  20.678  1.00 96.12           N  \\nATOM   3833  CA  GLN C 282      22.801  -2.366  21.931  1.00 96.12           C  \\nATOM   3834  C   GLN C 282      22.143  -3.741  21.873  1.00 96.12           C  \\nATOM   3835  CB  GLN C 282      21.756  -1.297  22.257  1.00 96.12           C  \\nATOM   3836  O   GLN C 282      21.412  -4.125  22.789  1.00 96.12           O  \\nATOM   3837  CG  GLN C 282      22.347   0.083  22.509  1.00 96.12           C  \\nATOM   3838  CD  GLN C 282      21.289   1.126  22.821  1.00 96.12           C  \\nATOM   3839  NE2 GLN C 282      21.545   2.367  22.422  1.00 96.12           N  \\nATOM   3840  OE1 GLN C 282      20.251   0.818  23.414  1.00 96.12           O  \\nATOM   3841  N   ALA C 283      22.286  -4.456  20.775  1.00 96.93           N  \\nATOM   3842  CA  ALA C 283      21.844  -5.835  20.581  1.00 96.93           C  \\nATOM   3843  C   ALA C 283      20.321  -5.931  20.605  1.00 96.93           C  \\nATOM   3844  CB  ALA C 283      22.448  -6.742  21.650  1.00 96.93           C  \\nATOM   3845  O   ALA C 283      19.760  -6.834  21.230  1.00 96.93           O  \\nATOM   3846  N   TRP C 284      19.664  -4.921  20.056  1.00 97.06           N  \\nATOM   3847  CA  TRP C 284      18.215  -5.003  19.904  1.00 97.06           C  \\nATOM   3848  C   TRP C 284      17.826  -6.178  19.013  1.00 97.06           C  \\nATOM   3849  CB  TRP C 284      17.660  -3.699  19.322  1.00 97.06           C  \\nATOM   3850  O   TRP C 284      18.573  -6.551  18.106  1.00 97.06           O  \\nATOM   3851  CG  TRP C 284      17.591  -2.573  20.309  1.00 97.06           C  \\nATOM   3852  CD1 TRP C 284      18.468  -2.312  21.325  1.00 97.06           C  \\nATOM   3853  CD2 TRP C 284      16.586  -1.556  20.375  1.00 97.06           C  \\nATOM   3854  CE2 TRP C 284      16.918  -0.711  21.457  1.00 97.06           C  \\nATOM   3855  CE3 TRP C 284      15.437  -1.278  19.624  1.00 97.06           C  \\nATOM   3856  NE1 TRP C 284      18.069  -1.193  22.019  1.00 97.06           N  \\nATOM   3857  CH2 TRP C 284      15.020   0.645  21.055  1.00 97.06           C  \\nATOM   3858  CZ2 TRP C 284      16.139   0.395  21.806  1.00 97.06           C  \\nATOM   3859  CZ3 TRP C 284      14.664  -0.176  19.973  1.00 97.06           C  \\nATOM   3860  N   ASP C 285      16.746  -6.763  19.300  1.00 96.91           N  \\nATOM   3861  CA  ASP C 285      16.123  -7.755  18.429  1.00 96.91           C  \\nATOM   3862  C   ASP C 285      14.690  -7.356  18.081  1.00 96.91           C  \\nATOM   3863  CB  ASP C 285      16.139  -9.135  19.089  1.00 96.91           C  \\nATOM   3864  O   ASP C 285      14.231  -6.277  18.460  1.00 96.91           O  \\nATOM   3865  CG  ASP C 285      15.362  -9.179  20.393  1.00 96.91           C  \\nATOM   3866  OD1 ASP C 285      14.655  -8.199  20.714  1.00 96.91           O  \\nATOM   3867  OD2 ASP C 285      15.460 -10.200  21.107  1.00 96.91           O  \\nATOM   3868  N   ALA C 286      14.047  -8.133  17.266  1.00 96.04           N  \\nATOM   3869  CA  ALA C 286      12.692  -7.836  16.806  1.00 96.04           C  \\nATOM   3870  C   ALA C 286      11.748  -7.620  17.985  1.00 96.04           C  \\nATOM   3871  CB  ALA C 286      12.175  -8.962  15.913  1.00 96.04           C  \\nATOM   3872  O   ALA C 286      10.955  -6.676  17.987  1.00 96.04           O  \\nATOM   3873  N   GLN C 287      11.815  -8.496  18.941  1.00 96.74           N  \\nATOM   3874  CA  GLN C 287      10.952  -8.403  20.114  1.00 96.74           C  \\nATOM   3875  C   GLN C 287      11.148  -7.073  20.837  1.00 96.74           C  \\nATOM   3876  CB  GLN C 287      11.219  -9.565  21.071  1.00 96.74           C  \\nATOM   3877  O   GLN C 287      10.175  -6.424  21.227  1.00 96.74           O  \\nATOM   3878  CG  GLN C 287      10.091  -9.817  22.063  1.00 96.74           C  \\nATOM   3879  CD  GLN C 287      10.209 -11.161  22.757  1.00 96.74           C  \\nATOM   3880  NE2 GLN C 287       9.259 -11.459  23.637  1.00 96.74           N  \\nATOM   3881  OE1 GLN C 287      11.145 -11.925  22.504  1.00 96.74           O  \\nATOM   3882  N   ARG C 288      12.373  -6.701  21.055  1.00 97.50           N  \\nATOM   3883  CA  ARG C 288      12.673  -5.434  21.715  1.00 97.50           C  \\nATOM   3884  C   ARG C 288      12.096  -4.260  20.932  1.00 97.50           C  \\nATOM   3885  CB  ARG C 288      14.183  -5.260  21.884  1.00 97.50           C  \\nATOM   3886  O   ARG C 288      11.579  -3.308  21.521  1.00 97.50           O  \\nATOM   3887  CG  ARG C 288      14.588  -3.908  22.451  1.00 97.50           C  \\nATOM   3888  CD  ARG C 288      14.189  -3.768  23.914  1.00 97.50           C  \\nATOM   3889  NE  ARG C 288      14.655  -2.507  24.482  1.00 97.50           N  \\nATOM   3890  NH1 ARG C 288      13.813  -2.908  26.595  1.00 97.50           N  \\nATOM   3891  NH2 ARG C 288      14.933  -0.957  26.154  1.00 97.50           N  \\nATOM   3892  CZ  ARG C 288      14.466  -2.127  25.742  1.00 97.50           C  \\nATOM   3893  N   ILE C 289      12.194  -4.265  19.650  1.00 97.24           N  \\nATOM   3894  CA  ILE C 289      11.662  -3.217  18.786  1.00 97.24           C  \\nATOM   3895  C   ILE C 289      10.162  -3.060  19.029  1.00 97.24           C  \\nATOM   3896  CB  ILE C 289      11.934  -3.521  17.296  1.00 97.24           C  \\nATOM   3897  O   ILE C 289       9.676  -1.949  19.249  1.00 97.24           O  \\nATOM   3898  CG1 ILE C 289      13.412  -3.282  16.964  1.00 97.24           C  \\nATOM   3899  CG2 ILE C 289      11.028  -2.674  16.398  1.00 97.24           C  \\nATOM   3900  CD1 ILE C 289      13.808  -3.713  15.558  1.00 97.24           C  \\nATOM   3901  N   PHE C 290       9.452  -4.154  19.069  1.00 97.79           N  \\nATOM   3902  CA  PHE C 290       8.004  -4.107  19.229  1.00 97.79           C  \\nATOM   3903  C   PHE C 290       7.629  -3.755  20.663  1.00 97.79           C  \\nATOM   3904  CB  PHE C 290       7.375  -5.448  18.836  1.00 97.79           C  \\nATOM   3905  O   PHE C 290       6.631  -3.070  20.899  1.00 97.79           O  \\nATOM   3906  CG  PHE C 290       7.218  -5.632  17.351  1.00 97.79           C  \\nATOM   3907  CD1 PHE C 290       6.033  -5.282  16.714  1.00 97.79           C  \\nATOM   3908  CD2 PHE C 290       8.256  -6.156  16.591  1.00 97.79           C  \\nATOM   3909  CE1 PHE C 290       5.885  -5.452  15.339  1.00 97.79           C  \\nATOM   3910  CE2 PHE C 290       8.115  -6.328  15.216  1.00 97.79           C  \\nATOM   3911  CZ  PHE C 290       6.929  -5.977  14.593  1.00 97.79           C  \\nATOM   3912  N   LYS C 291       8.370  -4.207  21.625  1.00 97.60           N  \\nATOM   3913  CA  LYS C 291       8.133  -3.836  23.017  1.00 97.60           C  \\nATOM   3914  C   LYS C 291       8.329  -2.338  23.228  1.00 97.60           C  \\nATOM   3915  CB  LYS C 291       9.058  -4.622  23.947  1.00 97.60           C  \\nATOM   3916  O   LYS C 291       7.577  -1.706  23.972  1.00 97.60           O  \\nATOM   3917  CG  LYS C 291       8.622  -6.060  24.185  1.00 97.60           C  \\nATOM   3918  CD  LYS C 291       9.544  -6.769  25.169  1.00 97.60           C  \\nATOM   3919  CE  LYS C 291       9.084  -8.195  25.439  1.00 97.60           C  \\nATOM   3920  NZ  LYS C 291      10.045  -8.930  26.316  1.00 97.60           N  \\nATOM   3921  N   GLU C 292       9.366  -1.891  22.563  1.00 96.30           N  \\nATOM   3922  CA  GLU C 292       9.593  -0.451  22.645  1.00 96.30           C  \\nATOM   3923  C   GLU C 292       8.440   0.325  22.015  1.00 96.30           C  \\nATOM   3924  CB  GLU C 292      10.913  -0.075  21.968  1.00 96.30           C  \\nATOM   3925  O   GLU C 292       8.047   1.379  22.519  1.00 96.30           O  \\nATOM   3926  CG  GLU C 292      11.398   1.328  22.303  1.00 96.30           C  \\nATOM   3927  CD  GLU C 292      11.639   1.540  23.789  1.00 96.30           C  \\nATOM   3928  OE1 GLU C 292      11.576   2.701  24.255  1.00 96.30           O  \\nATOM   3929  OE2 GLU C 292      11.892   0.538  24.494  1.00 96.30           O  \\nATOM   3930  N   ALA C 293       7.948  -0.152  20.918  1.00 95.32           N  \\nATOM   3931  CA  ALA C 293       6.787   0.473  20.288  1.00 95.32           C  \\nATOM   3932  C   ALA C 293       5.585   0.468  21.228  1.00 95.32           C  \\nATOM   3933  CB  ALA C 293       6.442  -0.239  18.983  1.00 95.32           C  \\nATOM   3934  O   ALA C 293       4.888   1.477  21.360  1.00 95.32           O  \\nATOM   3935  N   GLU C 294       5.321  -0.683  21.840  1.00 96.77           N  \\nATOM   3936  CA  GLU C 294       4.205  -0.777  22.776  1.00 96.77           C  \\nATOM   3937  C   GLU C 294       4.357   0.224  23.919  1.00 96.77           C  \\nATOM   3938  CB  GLU C 294       4.089  -2.198  23.334  1.00 96.77           C  \\nATOM   3939  O   GLU C 294       3.373   0.818  24.365  1.00 96.77           O  \\nATOM   3940  CG  GLU C 294       2.913  -2.393  24.280  1.00 96.77           C  \\nATOM   3941  CD  GLU C 294       2.786  -3.819  24.793  1.00 96.77           C  \\nATOM   3942  OE1 GLU C 294       1.832  -4.525  24.395  1.00 96.77           O  \\nATOM   3943  OE2 GLU C 294       3.648  -4.233  25.601  1.00 96.77           O  \\nATOM   3944  N   LYS C 295       5.592   0.403  24.451  1.00 95.55           N  \\nATOM   3945  CA  LYS C 295       5.836   1.367  25.521  1.00 95.55           C  \\nATOM   3946  C   LYS C 295       5.350   2.759  25.128  1.00 95.55           C  \\nATOM   3947  CB  LYS C 295       7.324   1.411  25.873  1.00 95.55           C  \\nATOM   3948  O   LYS C 295       4.841   3.504  25.968  1.00 95.55           O  \\nATOM   3949  CG  LYS C 295       7.811   0.199  26.653  1.00 95.55           C  \\nATOM   3950  CD  LYS C 295       9.288   0.319  27.008  1.00 95.55           C  \\nATOM   3951  CE  LYS C 295       9.807  -0.944  27.680  1.00 95.55           C  \\nATOM   3952  NZ  LYS C 295      11.276  -0.868  27.943  1.00 95.55           N  \\nATOM   3953  N   PHE C 296       5.563   3.080  23.923  1.00 92.93           N  \\nATOM   3954  CA  PHE C 296       5.093   4.367  23.426  1.00 92.93           C  \\nATOM   3955  C   PHE C 296       3.578   4.476  23.550  1.00 92.93           C  \\nATOM   3956  CB  PHE C 296       5.516   4.568  21.967  1.00 92.93           C  \\nATOM   3957  O   PHE C 296       3.064   5.452  24.100  1.00 92.93           O  \\nATOM   3958  CG  PHE C 296       4.959   5.818  21.340  1.00 92.93           C  \\nATOM   3959  CD1 PHE C 296       3.780   5.779  20.607  1.00 92.93           C  \\nATOM   3960  CD2 PHE C 296       5.616   7.033  21.485  1.00 92.93           C  \\nATOM   3961  CE1 PHE C 296       3.262   6.934  20.025  1.00 92.93           C  \\nATOM   3962  CE2 PHE C 296       5.104   8.192  20.907  1.00 92.93           C  \\nATOM   3963  CZ  PHE C 296       3.928   8.140  20.177  1.00 92.93           C  \\nATOM   3964  N   PHE C 297       2.857   3.525  23.068  1.00 93.49           N  \\nATOM   3965  CA  PHE C 297       1.399   3.526  23.089  1.00 93.49           C  \\nATOM   3966  C   PHE C 297       0.879   3.574  24.520  1.00 93.49           C  \\nATOM   3967  CB  PHE C 297       0.849   2.290  22.371  1.00 93.49           C  \\nATOM   3968  O   PHE C 297      -0.044   4.331  24.826  1.00 93.49           O  \\nATOM   3969  CG  PHE C 297       1.128   2.273  20.892  1.00 93.49           C  \\nATOM   3970  CD1 PHE C 297       0.481   3.157  20.038  1.00 93.49           C  \\nATOM   3971  CD2 PHE C 297       2.039   1.372  20.356  1.00 93.49           C  \\nATOM   3972  CE1 PHE C 297       0.737   3.143  18.669  1.00 93.49           C  \\nATOM   3973  CE2 PHE C 297       2.301   1.352  18.989  1.00 93.49           C  \\nATOM   3974  CZ  PHE C 297       1.648   2.238  18.147  1.00 93.49           C  \\nATOM   3975  N   VAL C 298       1.456   2.814  25.338  1.00 95.33           N  \\nATOM   3976  CA  VAL C 298       1.055   2.783  26.741  1.00 95.33           C  \\nATOM   3977  C   VAL C 298       1.329   4.139  27.387  1.00 95.33           C  \\nATOM   3978  CB  VAL C 298       1.788   1.666  27.516  1.00 95.33           C  \\nATOM   3979  O   VAL C 298       0.549   4.606  28.220  1.00 95.33           O  \\nATOM   3980  CG1 VAL C 298       1.517   1.781  29.015  1.00 95.33           C  \\nATOM   3981  CG2 VAL C 298       1.366   0.292  26.998  1.00 95.33           C  \\nATOM   3982  N   SER C 299       2.395   4.759  27.039  1.00 93.73           N  \\nATOM   3983  CA  SER C 299       2.787   6.046  27.604  1.00 93.73           C  \\nATOM   3984  C   SER C 299       1.747   7.120  27.307  1.00 93.73           C  \\nATOM   3985  CB  SER C 299       4.149   6.479  27.059  1.00 93.73           C  \\nATOM   3986  O   SER C 299       1.641   8.108  28.036  1.00 93.73           O  \\nATOM   3987  OG  SER C 299       4.024   6.994  25.745  1.00 93.73           O  \\nATOM   3988  N   VAL C 300       0.958   6.974  26.269  1.00 93.77           N  \\nATOM   3989  CA  VAL C 300      -0.046   7.979  25.937  1.00 93.77           C  \\nATOM   3990  C   VAL C 300      -1.419   7.517  26.420  1.00 93.77           C  \\nATOM   3991  CB  VAL C 300      -0.083   8.266  24.419  1.00 93.77           C  \\nATOM   3992  O   VAL C 300      -2.437   8.135  26.099  1.00 93.77           O  \\nATOM   3993  CG1 VAL C 300       1.230   8.894  23.956  1.00 93.77           C  \\nATOM   3994  CG2 VAL C 300      -0.369   6.982  23.642  1.00 93.77           C  \\nATOM   3995  N   GLY C 301      -1.456   6.371  27.058  1.00 93.92           N  \\nATOM   3996  CA  GLY C 301      -2.678   5.914  27.698  1.00 93.92           C  \\nATOM   3997  C   GLY C 301      -3.458   4.922  26.856  1.00 93.92           C  \\nATOM   3998  O   GLY C 301      -4.607   4.603  27.167  1.00 93.92           O  \\nATOM   3999  N   LEU C 302      -2.934   4.489  25.751  1.00 95.36           N  \\nATOM   4000  CA  LEU C 302      -3.573   3.460  24.938  1.00 95.36           C  \\nATOM   4001  C   LEU C 302      -3.332   2.074  25.527  1.00 95.36           C  \\nATOM   4002  CB  LEU C 302      -3.051   3.513  23.499  1.00 95.36           C  \\nATOM   4003  O   LEU C 302      -2.357   1.864  26.252  1.00 95.36           O  \\nATOM   4004  CG  LEU C 302      -3.396   4.770  22.699  1.00 95.36           C  \\nATOM   4005  CD1 LEU C 302      -2.687   4.749  21.349  1.00 95.36           C  \\nATOM   4006  CD2 LEU C 302      -4.905   4.891  22.515  1.00 95.36           C  \\nATOM   4007  N   PRO C 303      -4.199   1.177  25.300  1.00 95.59           N  \\nATOM   4008  CA  PRO C 303      -4.107  -0.144  25.926  1.00 95.59           C  \\nATOM   4009  C   PRO C 303      -2.890  -0.937  25.456  1.00 95.59           C  \\nATOM   4010  CB  PRO C 303      -5.406  -0.830  25.493  1.00 95.59           C  \\nATOM   4011  O   PRO C 303      -2.388  -0.707  24.353  1.00 95.59           O  \\nATOM   4012  CG  PRO C 303      -5.893  -0.026  24.331  1.00 95.59           C  \\nATOM   4013  CD  PRO C 303      -5.283   1.344  24.409  1.00 95.59           C  \\nATOM   4014  N   ASN C 304      -2.432  -1.823  26.312  1.00 97.16           N  \\nATOM   4015  CA  ASN C 304      -1.414  -2.792  25.922  1.00 97.16           C  \\nATOM   4016  C   ASN C 304      -1.912  -3.713  24.811  1.00 97.16           C  \\nATOM   4017  CB  ASN C 304      -0.963  -3.615  27.131  1.00 97.16           C  \\nATOM   4018  O   ASN C 304      -3.119  -3.903  24.653  1.00 97.16           O  \\nATOM   4019  CG  ASN C 304      -0.236  -2.780  28.167  1.00 97.16           C  \\nATOM   4020  ND2 ASN C 304      -0.771  -2.744  29.381  1.00 97.16           N  \\nATOM   4021  OD1 ASN C 304       0.798  -2.172  27.877  1.00 97.16           O  \\nATOM   4022  N   MET C 305      -0.896  -4.167  24.049  1.00 97.49           N  \\nATOM   4023  CA  MET C 305      -1.267  -5.222  23.110  1.00 97.49           C  \\nATOM   4024  C   MET C 305      -1.819  -6.438  23.848  1.00 97.49           C  \\nATOM   4025  CB  MET C 305      -0.065  -5.630  22.257  1.00 97.49           C  \\nATOM   4026  O   MET C 305      -1.481  -6.670  25.010  1.00 97.49           O  \\nATOM   4027  CG  MET C 305       0.437  -4.528  21.338  1.00 97.49           C  \\nATOM   4028  SD  MET C 305      -0.818  -4.019  20.099  1.00 97.49           S  \\nATOM   4029  CE  MET C 305      -1.261  -2.383  20.745  1.00 97.49           C  \\nATOM   4030  N   THR C 306      -2.711  -7.204  23.246  1.00 97.04           N  \\nATOM   4031  CA  THR C 306      -3.277  -8.401  23.858  1.00 97.04           C  \\nATOM   4032  C   THR C 306      -2.211  -9.481  24.020  1.00 97.04           C  \\nATOM   4033  CB  THR C 306      -4.449  -8.954  23.025  1.00 97.04           C  \\nATOM   4034  O   THR C 306      -1.175  -9.443  23.354  1.00 97.04           O  \\nATOM   4035  CG2 THR C 306      -5.535  -7.900  22.837  1.00 97.04           C  \\nATOM   4036  OG1 THR C 306      -3.964  -9.358  21.738  1.00 97.04           O  \\nATOM   4037  N   GLN C 307      -2.476 -10.354  24.960  1.00 96.65           N  \\nATOM   4038  CA  GLN C 307      -1.584 -11.497  25.119  1.00 96.65           C  \\nATOM   4039  C   GLN C 307      -1.462 -12.285  23.817  1.00 96.65           C  \\nATOM   4040  CB  GLN C 307      -2.076 -12.411  26.242  1.00 96.65           C  \\nATOM   4041  O   GLN C 307      -0.371 -12.726  23.452  1.00 96.65           O  \\nATOM   4042  CG  GLN C 307      -1.102 -13.526  26.599  1.00 96.65           C  \\nATOM   4043  CD  GLN C 307      -1.582 -14.375  27.761  1.00 96.65           C  \\nATOM   4044  NE2 GLN C 307      -0.786 -15.369  28.138  1.00 96.65           N  \\nATOM   4045  OE1 GLN C 307      -2.660 -14.138  28.316  1.00 96.65           O  \\nATOM   4046  N   GLY C 308      -2.577 -12.471  23.117  1.00 96.86           N  \\nATOM   4047  CA  GLY C 308      -2.585 -13.154  21.833  1.00 96.86           C  \\nATOM   4048  C   GLY C 308      -1.688 -12.497  20.802  1.00 96.86           C  \\nATOM   4049  O   GLY C 308      -1.074 -13.180  19.980  1.00 96.86           O  \\nATOM   4050  N   PHE C 309      -1.567 -11.204  20.829  1.00 97.01           N  \\nATOM   4051  CA  PHE C 309      -0.680 -10.469  19.934  1.00 97.01           C  \\nATOM   4052  C   PHE C 309       0.754 -10.968  20.065  1.00 97.01           C  \\nATOM   4053  CB  PHE C 309      -0.742  -8.967  20.228  1.00 97.01           C  \\nATOM   4054  O   PHE C 309       1.387 -11.322  19.068  1.00 97.01           O  \\nATOM   4055  CG  PHE C 309       0.276  -8.158  19.472  1.00 97.01           C  \\nATOM   4056  CD1 PHE C 309       1.528  -7.902  20.019  1.00 97.01           C  \\nATOM   4057  CD2 PHE C 309      -0.018  -7.652  18.212  1.00 97.01           C  \\nATOM   4058  CE1 PHE C 309       2.473  -7.154  19.321  1.00 97.01           C  \\nATOM   4059  CE2 PHE C 309       0.921  -6.903  17.509  1.00 97.01           C  \\nATOM   4060  CZ  PHE C 309       2.165  -6.654  18.065  1.00 97.01           C  \\nATOM   4061  N   TRP C 310       1.253 -11.063  21.271  1.00 97.21           N  \\nATOM   4062  CA  TRP C 310       2.641 -11.432  21.526  1.00 97.21           C  \\nATOM   4063  C   TRP C 310       2.866 -12.918  21.268  1.00 97.21           C  \\nATOM   4064  CB  TRP C 310       3.034 -11.086  22.965  1.00 97.21           C  \\nATOM   4065  O   TRP C 310       3.926 -13.317  20.779  1.00 97.21           O  \\nATOM   4066  CG  TRP C 310       3.031  -9.617  23.261  1.00 97.21           C  \\nATOM   4067  CD1 TRP C 310       2.149  -8.938  24.056  1.00 97.21           C  \\nATOM   4068  CD2 TRP C 310       3.951  -8.643  22.760  1.00 97.21           C  \\nATOM   4069  CE2 TRP C 310       3.568  -7.392  23.293  1.00 97.21           C  \\nATOM   4070  CE3 TRP C 310       5.064  -8.706  21.911  1.00 97.21           C  \\nATOM   4071  NE1 TRP C 310       2.467  -7.600  24.080  1.00 97.21           N  \\nATOM   4072  CH2 TRP C 310       5.345  -6.304  22.172  1.00 97.21           C  \\nATOM   4073  CZ2 TRP C 310       4.260  -6.214  23.005  1.00 97.21           C  \\nATOM   4074  CZ3 TRP C 310       5.752  -7.532  21.625  1.00 97.21           C  \\nATOM   4075  N   GLU C 311       1.841 -13.695  21.482  1.00 96.68           N  \\nATOM   4076  CA  GLU C 311       1.967 -15.144  21.349  1.00 96.68           C  \\nATOM   4077  C   GLU C 311       1.798 -15.581  19.897  1.00 96.68           C  \\nATOM   4078  CB  GLU C 311       0.943 -15.856  22.236  1.00 96.68           C  \\nATOM   4079  O   GLU C 311       2.419 -16.551  19.459  1.00 96.68           O  \\nATOM   4080  CG  GLU C 311       1.240 -15.752  23.724  1.00 96.68           C  \\nATOM   4081  CD  GLU C 311       0.124 -16.301  24.599  1.00 96.68           C  \\nATOM   4082  OE1 GLU C 311       0.274 -16.307  25.842  1.00 96.68           O  \\nATOM   4083  OE2 GLU C 311      -0.908 -16.730  24.036  1.00 96.68           O  \\nATOM   4084  N   ASN C 312       1.025 -14.808  19.127  1.00 96.82           N  \\nATOM   4085  CA  ASN C 312       0.580 -15.352  17.848  1.00 96.82           C  \\nATOM   4086  C   ASN C 312       1.138 -14.554  16.674  1.00 96.82           C  \\nATOM   4087  CB  ASN C 312      -0.949 -15.391  17.785  1.00 96.82           C  \\nATOM   4088  O   ASN C 312       1.088 -15.008  15.529  1.00 96.82           O  \\nATOM   4089  CG  ASN C 312      -1.552 -16.328  18.812  1.00 96.82           C  \\nATOM   4090  ND2 ASN C 312      -2.683 -15.931  19.385  1.00 96.82           N  \\nATOM   4091  OD1 ASN C 312      -1.007 -17.399  19.090  1.00 96.82           O  \\nATOM   4092  N   SER C 313       1.689 -13.428  16.890  1.00 95.03           N  \\nATOM   4093  CA  SER C 313       2.281 -12.641  15.813  1.00 95.03           C  \\nATOM   4094  C   SER C 313       3.544 -13.305  15.273  1.00 95.03           C  \\nATOM   4095  CB  SER C 313       2.606 -11.227  16.297  1.00 95.03           C  \\nATOM   4096  O   SER C 313       4.196 -14.076  15.979  1.00 95.03           O  \\nATOM   4097  OG  SER C 313       1.420 -10.517  16.607  1.00 95.03           O  \\nATOM   4098  N   MET C 314       3.847 -13.115  14.029  1.00 91.77           N  \\nATOM   4099  CA  MET C 314       5.140 -13.467  13.450  1.00 91.77           C  \\nATOM   4100  C   MET C 314       6.016 -12.229  13.283  1.00 91.77           C  \\nATOM   4101  CB  MET C 314       4.955 -14.163  12.101  1.00 91.77           C  \\nATOM   4102  O   MET C 314       5.807 -11.435  12.364  1.00 91.77           O  \\nATOM   4103  CG  MET C 314       6.246 -14.704  11.508  1.00 91.77           C  \\nATOM   4104  SD  MET C 314       6.028 -15.321   9.794  1.00 91.77           S  \\nATOM   4105  CE  MET C 314       6.168 -13.764   8.873  1.00 91.77           C  \\nATOM   4106  N   LEU C 315       6.968 -12.088  14.118  1.00 95.00           N  \\nATOM   4107  CA  LEU C 315       7.747 -10.855  14.169  1.00 95.00           C  \\nATOM   4108  C   LEU C 315       9.136 -11.064  13.574  1.00 95.00           C  \\nATOM   4109  CB  LEU C 315       7.866 -10.356  15.611  1.00 95.00           C  \\nATOM   4110  O   LEU C 315       9.890 -10.105  13.396  1.00 95.00           O  \\nATOM   4111  CG  LEU C 315       6.553 -10.065  16.339  1.00 95.00           C  \\nATOM   4112  CD1 LEU C 315       6.829  -9.594  17.763  1.00 95.00           C  \\nATOM   4113  CD2 LEU C 315       5.736  -9.028  15.576  1.00 95.00           C  \\nATOM   4114  N   THR C 316       9.476 -12.263  13.382  1.00 91.71           N  \\nATOM   4115  CA  THR C 316      10.760 -12.590  12.773  1.00 91.71           C  \\nATOM   4116  C   THR C 316      10.579 -13.585  11.630  1.00 91.71           C  \\nATOM   4117  CB  THR C 316      11.739 -13.170  13.810  1.00 91.71           C  \\nATOM   4118  O   THR C 316       9.575 -14.298  11.574  1.00 91.71           O  \\nATOM   4119  CG2 THR C 316      12.044 -12.154  14.907  1.00 91.71           C  \\nATOM   4120  OG1 THR C 316      11.161 -14.338  14.404  1.00 91.71           O  \\nATOM   4121  N   ASP C 317      11.521 -13.541  10.750  1.00 77.17           N  \\nATOM   4122  CA  ASP C 317      11.562 -14.528   9.675  1.00 77.17           C  \\nATOM   4123  C   ASP C 317      11.773 -15.935  10.229  1.00 77.17           C  \\nATOM   4124  CB  ASP C 317      12.667 -14.186   8.673  1.00 77.17           C  \\nATOM   4125  O   ASP C 317      12.743 -16.187  10.945  1.00 77.17           O  \\nATOM   4126  CG  ASP C 317      12.635 -15.061   7.433  1.00 77.17           C  \\nATOM   4127  OD1 ASP C 317      11.994 -16.134   7.460  1.00 77.17           O  \\nATOM   4128  OD2 ASP C 317      13.259 -14.676   6.420  1.00 77.17           O  \\nATOM   4129  N   PRO C 318      10.872 -16.839   9.902  1.00 78.78           N  \\nATOM   4130  CA  PRO C 318      11.014 -18.199  10.427  1.00 78.78           C  \\nATOM   4131  C   PRO C 318      12.169 -18.962   9.783  1.00 78.78           C  \\nATOM   4132  CB  PRO C 318       9.672 -18.851  10.087  1.00 78.78           C  \\nATOM   4133  O   PRO C 318      12.408 -20.126  10.118  1.00 78.78           O  \\nATOM   4134  CG  PRO C 318       9.130 -18.040   8.955  1.00 78.78           C  \\nATOM   4135  CD  PRO C 318       9.760 -16.677   8.999  1.00 78.78           C  \\nATOM   4136  N   GLY C 319      12.942 -18.303   9.018  1.00 65.58           N  \\nATOM   4137  CA  GLY C 319      14.090 -18.927   8.381  1.00 65.58           C  \\nATOM   4138  C   GLY C 319      13.710 -20.048   7.431  1.00 65.58           C  \\nATOM   4139  O   GLY C 319      12.725 -19.939   6.697  1.00 65.58           O  \\nATOM   4140  N   ASN C 320      14.579 -21.148   7.385  1.00 57.48           N  \\nATOM   4141  CA  ASN C 320      14.409 -22.255   6.450  1.00 57.48           C  \\nATOM   4142  C   ASN C 320      13.425 -23.292   6.983  1.00 57.48           C  \\nATOM   4143  CB  ASN C 320      15.757 -22.910   6.143  1.00 57.48           C  \\nATOM   4144  O   ASN C 320      13.228 -24.341   6.366  1.00 57.48           O  \\nATOM   4145  CG  ASN C 320      16.617 -22.071   5.218  1.00 57.48           C  \\nATOM   4146  ND2 ASN C 320      17.924 -22.302   5.252  1.00 57.48           N  \\nATOM   4147  OD1 ASN C 320      16.111 -21.222   4.481  1.00 57.48           O  \\nATOM   4148  N   VAL C 321      12.654 -23.055   8.036  1.00 61.71           N  \\nATOM   4149  CA  VAL C 321      11.721 -23.988   8.659  1.00 61.71           C  \\nATOM   4150  C   VAL C 321      10.410 -24.009   7.877  1.00 61.71           C  \\nATOM   4151  CB  VAL C 321      11.455 -23.623  10.137  1.00 61.71           C  \\nATOM   4152  O   VAL C 321       9.881 -25.079   7.568  1.00 61.71           O  \\nATOM   4153  CG1 VAL C 321      10.616 -24.702  10.817  1.00 61.71           C  \\nATOM   4154  CG2 VAL C 321      12.773 -23.418  10.881  1.00 61.71           C  \\nATOM   4155  N   GLN C 322       9.890 -22.821   7.592  1.00 67.82           N  \\nATOM   4156  CA  GLN C 322       8.647 -22.672   6.842  1.00 67.82           C  \\nATOM   4157  C   GLN C 322       8.686 -21.431   5.955  1.00 67.82           C  \\nATOM   4158  CB  GLN C 322       7.451 -22.602   7.792  1.00 67.82           C  \\nATOM   4159  O   GLN C 322       9.299 -20.423   6.314  1.00 67.82           O  \\nATOM   4160  CG  GLN C 322       7.532 -21.463   8.799  1.00 67.82           C  \\nATOM   4161  CD  GLN C 322       6.576 -21.640   9.964  1.00 67.82           C  \\nATOM   4162  NE2 GLN C 322       6.389 -20.581  10.744  1.00 67.82           N  \\nATOM   4163  OE1 GLN C 322       6.010 -22.720  10.160  1.00 67.82           O  \\nATOM   4164  N   LYS C 323       8.124 -21.574   4.791  1.00 59.23           N  \\nATOM   4165  CA  LYS C 323       7.983 -20.432   3.891  1.00 59.23           C  \\nATOM   4166  C   LYS C 323       6.847 -19.517   4.338  1.00 59.23           C  \\nATOM   4167  CB  LYS C 323       7.741 -20.905   2.457  1.00 59.23           C  \\nATOM   4168  O   LYS C 323       5.747 -19.985   4.638  1.00 59.23           O  \\nATOM   4169  CG  LYS C 323       8.939 -21.596   1.823  1.00 59.23           C  \\nATOM   4170  CD  LYS C 323       8.660 -21.985   0.377  1.00 59.23           C  \\nATOM   4171  CE  LYS C 323       9.831 -22.739  -0.237  1.00 59.23           C  \\nATOM   4172  NZ  LYS C 323       9.550 -23.148  -1.646  1.00 59.23           N  \\nATOM   4173  N   ALA C 324       7.236 -18.214   4.486  1.00 66.82           N  \\nATOM   4174  CA  ALA C 324       6.232 -17.276   4.980  1.00 66.82           C  \\nATOM   4175  C   ALA C 324       6.307 -15.948   4.231  1.00 66.82           C  \\nATOM   4176  CB  ALA C 324       6.408 -17.048   6.479  1.00 66.82           C  \\nATOM   4177  O   ALA C 324       7.345 -15.610   3.656  1.00 66.82           O  \\nATOM   4178  N   VAL C 325       5.226 -15.222   4.248  1.00 59.98           N  \\nATOM   4179  CA  VAL C 325       5.209 -13.842   3.774  1.00 59.98           C  \\nATOM   4180  C   VAL C 325       5.906 -12.938   4.789  1.00 59.98           C  \\nATOM   4181  CB  VAL C 325       3.768 -13.346   3.521  1.00 59.98           C  \\nATOM   4182  O   VAL C 325       5.725 -13.098   5.999  1.00 59.98           O  \\nATOM   4183  CG1 VAL C 325       3.770 -11.883   3.081  1.00 59.98           C  \\nATOM   4184  CG2 VAL C 325       3.079 -14.221   2.475  1.00 59.98           C  \\nATOM   4185  N   CYS C 326       6.686 -11.987   4.239  1.00 62.56           N  \\nATOM   4186  CA  CYS C 326       7.487 -11.202   5.172  1.00 62.56           C  \\nATOM   4187  C   CYS C 326       7.109  -9.727   5.109  1.00 62.56           C  \\nATOM   4188  CB  CYS C 326       8.976 -11.370   4.873  1.00 62.56           C  \\nATOM   4189  O   CYS C 326       7.574  -8.927   5.923  1.00 62.56           O  \\nATOM   4190  SG  CYS C 326       9.684 -12.895   5.532  1.00 62.56           S  \\nATOM   4191  N   HIS C 327       6.247  -9.352   4.204  1.00 61.15           N  \\nATOM   4192  CA  HIS C 327       5.815  -7.961   4.133  1.00 61.15           C  \\nATOM   4193  C   HIS C 327       5.043  -7.559   5.386  1.00 61.15           C  \\nATOM   4194  CB  HIS C 327       4.954  -7.730   2.890  1.00 61.15           C  \\nATOM   4195  O   HIS C 327       4.139  -8.276   5.820  1.00 61.15           O  \\nATOM   4196  CG  HIS C 327       4.615  -6.293   2.653  1.00 61.15           C  \\nATOM   4197  CD2 HIS C 327       3.454  -5.615   2.813  1.00 61.15           C  \\nATOM   4198  ND1 HIS C 327       5.536  -5.378   2.189  1.00 61.15           N  \\nATOM   4199  CE1 HIS C 327       4.954  -4.196   2.075  1.00 61.15           C  \\nATOM   4200  NE2 HIS C 327       3.691  -4.312   2.448  1.00 61.15           N  \\nATOM   4201  N   PRO C 328       5.410  -6.429   5.997  1.00 72.52           N  \\nATOM   4202  CA  PRO C 328       4.742  -6.014   7.233  1.00 72.52           C  \\nATOM   4203  C   PRO C 328       3.249  -5.760   7.040  1.00 72.52           C  \\nATOM   4204  CB  PRO C 328       5.471  -4.723   7.612  1.00 72.52           C  \\nATOM   4205  O   PRO C 328       2.862  -4.928   6.215  1.00 72.52           O  \\nATOM   4206  CG  PRO C 328       6.754  -4.770   6.847  1.00 72.52           C  \\nATOM   4207  CD  PRO C 328       6.532  -5.564   5.591  1.00 72.52           C  \\nATOM   4208  N   THR C 329       2.473  -6.402   7.886  1.00 72.93           N  \\nATOM   4209  CA  THR C 329       1.027  -6.225   7.821  1.00 72.93           C  \\nATOM   4210  C   THR C 329       0.396  -6.418   9.197  1.00 72.93           C  \\nATOM   4211  CB  THR C 329       0.388  -7.204   6.819  1.00 72.93           C  \\nATOM   4212  O   THR C 329       0.758  -7.343   9.928  1.00 72.93           O  \\nATOM   4213  CG2 THR C 329       0.726  -6.819   5.382  1.00 72.93           C  \\nATOM   4214  OG1 THR C 329       0.876  -8.527   7.074  1.00 72.93           O  \\nATOM   4215  N   ALA C 330      -0.527  -5.504   9.494  1.00 82.52           N  \\nATOM   4216  CA  ALA C 330      -1.348  -5.653  10.693  1.00 82.52           C  \\nATOM   4217  C   ALA C 330      -2.612  -6.455  10.395  1.00 82.52           C  \\nATOM   4218  CB  ALA C 330      -1.713  -4.284  11.262  1.00 82.52           C  \\nATOM   4219  O   ALA C 330      -3.267  -6.236   9.373  1.00 82.52           O  \\nATOM   4220  N   TRP C 331      -2.977  -7.385  11.342  1.00 84.48           N  \\nATOM   4221  CA  TRP C 331      -4.118  -8.267  11.119  1.00 84.48           C  \\nATOM   4222  C   TRP C 331      -5.112  -8.173  12.272  1.00 84.48           C  \\nATOM   4223  CB  TRP C 331      -3.653  -9.716  10.948  1.00 84.48           C  \\nATOM   4224  O   TRP C 331      -4.741  -8.342  13.436  1.00 84.48           O  \\nATOM   4225  CG  TRP C 331      -2.888  -9.964   9.682  1.00 84.48           C  \\nATOM   4226  CD1 TRP C 331      -1.708  -9.386   9.306  1.00 84.48           C  \\nATOM   4227  CD2 TRP C 331      -3.254 -10.854   8.624  1.00 84.48           C  \\nATOM   4228  CE2 TRP C 331      -2.249 -10.765   7.636  1.00 84.48           C  \\nATOM   4229  CE3 TRP C 331      -4.336 -11.720   8.415  1.00 84.48           C  \\nATOM   4230  NE1 TRP C 331      -1.318  -9.864   8.076  1.00 84.48           N  \\nATOM   4231  CH2 TRP C 331      -3.363 -12.350   6.276  1.00 84.48           C  \\nATOM   4232  CZ2 TRP C 331      -2.294 -11.511   6.455  1.00 84.48           C  \\nATOM   4233  CZ3 TRP C 331      -4.379 -12.461   7.239  1.00 84.48           C  \\nATOM   4234  N   ASP C 332      -6.296  -7.852  11.951  1.00 87.22           N  \\nATOM   4235  CA  ASP C 332      -7.436  -8.108  12.827  1.00 87.22           C  \\nATOM   4236  C   ASP C 332      -8.183  -9.370  12.400  1.00 87.22           C  \\nATOM   4237  CB  ASP C 332      -8.387  -6.910  12.835  1.00 87.22           C  \\nATOM   4238  O   ASP C 332      -8.961  -9.343  11.445  1.00 87.22           O  \\nATOM   4239  CG  ASP C 332      -9.597  -7.120  13.729  1.00 87.22           C  \\nATOM   4240  OD1 ASP C 332      -9.680  -8.166  14.409  1.00 87.22           O  \\nATOM   4241  OD2 ASP C 332     -10.478  -6.233  13.751  1.00 87.22           O  \\nATOM   4242  N   LEU C 333      -8.037 -10.390  13.127  1.00 86.83           N  \\nATOM   4243  CA  LEU C 333      -8.619 -11.670  12.737  1.00 86.83           C  \\nATOM   4244  C   LEU C 333     -10.047 -11.799  13.259  1.00 86.83           C  \\nATOM   4245  CB  LEU C 333      -7.766 -12.829  13.260  1.00 86.83           C  \\nATOM   4246  O   LEU C 333     -10.758 -12.743  12.906  1.00 86.83           O  \\nATOM   4247  CG  LEU C 333      -6.564 -13.226  12.402  1.00 86.83           C  \\nATOM   4248  CD1 LEU C 333      -5.488 -12.147  12.463  1.00 86.83           C  \\nATOM   4249  CD2 LEU C 333      -6.006 -14.572  12.853  1.00 86.83           C  \\nATOM   4250  N   GLY C 334     -10.483 -10.880  14.099  1.00 87.17           N  \\nATOM   4251  CA  GLY C 334     -11.759 -10.974  14.790  1.00 87.17           C  \\nATOM   4252  C   GLY C 334     -11.666 -11.696  16.121  1.00 87.17           C  \\nATOM   4253  O   GLY C 334     -10.640 -12.306  16.432  1.00 87.17           O  \\nATOM   4254  N   LYS C 335     -12.704 -11.527  16.956  1.00 93.25           N  \\nATOM   4255  CA  LYS C 335     -12.804 -12.174  18.261  1.00 93.25           C  \\nATOM   4256  C   LYS C 335     -11.646 -11.767  19.167  1.00 93.25           C  \\nATOM   4257  CB  LYS C 335     -12.837 -13.695  18.105  1.00 93.25           C  \\nATOM   4258  O   LYS C 335     -11.070 -12.605  19.863  1.00 93.25           O  \\nATOM   4259  CG  LYS C 335     -14.077 -14.218  17.394  1.00 93.25           C  \\nATOM   4260  CD  LYS C 335     -14.166 -15.737  17.470  1.00 93.25           C  \\nATOM   4261  CE  LYS C 335     -15.525 -16.242  17.006  1.00 93.25           C  \\nATOM   4262  NZ  LYS C 335     -15.626 -17.729  17.101  1.00 93.25           N  \\nATOM   4263  N   GLY C 336     -11.190 -10.535  19.008  1.00 93.61           N  \\nATOM   4264  CA  GLY C 336     -10.151  -9.981  19.862  1.00 93.61           C  \\nATOM   4265  C   GLY C 336      -8.768 -10.515  19.542  1.00 93.61           C  \\nATOM   4266  O   GLY C 336      -7.847 -10.394  20.353  1.00 93.61           O  \\nATOM   4267  N   ASP C 337      -8.599 -11.146  18.353  1.00 94.58           N  \\nATOM   4268  CA  ASP C 337      -7.322 -11.694  17.905  1.00 94.58           C  \\nATOM   4269  C   ASP C 337      -6.621 -10.738  16.942  1.00 94.58           C  \\nATOM   4270  CB  ASP C 337      -7.527 -13.056  17.239  1.00 94.58           C  \\nATOM   4271  O   ASP C 337      -6.995 -10.644  15.771  1.00 94.58           O  \\nATOM   4272  CG  ASP C 337      -6.224 -13.790  16.976  1.00 94.58           C  \\nATOM   4273  OD1 ASP C 337      -5.144 -13.165  17.059  1.00 94.58           O  \\nATOM   4274  OD2 ASP C 337      -6.276 -15.003  16.681  1.00 94.58           O  \\nATOM   4275  N   PHE C 338      -5.638 -10.113  17.416  1.00 94.27           N  \\nATOM   4276  CA  PHE C 338      -4.864  -9.131  16.667  1.00 94.27           C  \\nATOM   4277  C   PHE C 338      -3.413  -9.576  16.529  1.00 94.27           C  \\nATOM   4278  CB  PHE C 338      -4.930  -7.760  17.347  1.00 94.27           C  \\nATOM   4279  O   PHE C 338      -2.799 -10.020  17.501  1.00 94.27           O  \\nATOM   4280  CG  PHE C 338      -6.328  -7.314  17.679  1.00 94.27           C  \\nATOM   4281  CD1 PHE C 338      -7.159  -6.794  16.695  1.00 94.27           C  \\nATOM   4282  CD2 PHE C 338      -6.811  -7.414  18.977  1.00 94.27           C  \\nATOM   4283  CE1 PHE C 338      -8.454  -6.381  16.999  1.00 94.27           C  \\nATOM   4284  CE2 PHE C 338      -8.104  -7.003  19.290  1.00 94.27           C  \\nATOM   4285  CZ  PHE C 338      -8.923  -6.486  18.299  1.00 94.27           C  \\nATOM   4286  N   ARG C 339      -2.862  -9.423  15.266  1.00 92.31           N  \\nATOM   4287  CA  ARG C 339      -1.512  -9.917  15.013  1.00 92.31           C  \\nATOM   4288  C   ARG C 339      -0.765  -9.000  14.051  1.00 92.31           C  \\nATOM   4289  CB  ARG C 339      -1.556 -11.340  14.453  1.00 92.31           C  \\nATOM   4290  O   ARG C 339      -1.374  -8.157  13.388  1.00 92.31           O  \\nATOM   4291  CG  ARG C 339      -2.379 -12.307  15.291  1.00 92.31           C  \\nATOM   4292  CD  ARG C 339      -2.351 -13.716  14.715  1.00 92.31           C  \\nATOM   4293  NE  ARG C 339      -3.271 -14.604  15.420  1.00 92.31           N  \\nATOM   4294  NH1 ARG C 339      -2.375 -16.552  14.563  1.00 92.31           N  \\nATOM   4295  NH2 ARG C 339      -4.145 -16.642  16.017  1.00 92.31           N  \\nATOM   4296  CZ  ARG C 339      -3.262 -15.931  15.332  1.00 92.31           C  \\nATOM   4297  N   ILE C 340       0.543  -9.199  14.058  1.00 88.52           N  \\nATOM   4298  CA  ILE C 340       1.397  -8.574  13.054  1.00 88.52           C  \\nATOM   4299  C   ILE C 340       2.218  -9.643  12.337  1.00 88.52           C  \\nATOM   4300  CB  ILE C 340       2.329  -7.515  13.684  1.00 88.52           C  \\nATOM   4301  O   ILE C 340       2.673 -10.606  12.959  1.00 88.52           O  \\nATOM   4302  CG1 ILE C 340       1.552  -6.226  13.977  1.00 88.52           C  \\nATOM   4303  CG2 ILE C 340       3.526  -7.237  12.770  1.00 88.52           C  \\nATOM   4304  CD1 ILE C 340       2.391  -5.131  14.621  1.00 88.52           C  \\nATOM   4305  N   LEU C 341       2.254  -9.571  11.057  1.00 79.90           N  \\nATOM   4306  CA  LEU C 341       3.154 -10.353  10.216  1.00 79.90           C  \\nATOM   4307  C   LEU C 341       4.288  -9.486   9.680  1.00 79.90           C  \\nATOM   4308  CB  LEU C 341       2.385 -10.985   9.052  1.00 79.90           C  \\nATOM   4309  O   LEU C 341       4.049  -8.538   8.929  1.00 79.90           O  \\nATOM   4310  CG  LEU C 341       3.163 -11.976   8.185  1.00 79.90           C  \\nATOM   4311  CD1 LEU C 341       2.218 -13.016   7.592  1.00 79.90           C  \\nATOM   4312  CD2 LEU C 341       3.920 -11.243   7.082  1.00 79.90           C  \\nATOM   4313  N   MET C 342       5.494  -9.793  10.182  1.00 81.45           N  \\nATOM   4314  CA  MET C 342       6.642  -8.994   9.764  1.00 81.45           C  \\nATOM   4315  C   MET C 342       7.948  -9.734  10.031  1.00 81.45           C  \\nATOM   4316  CB  MET C 342       6.649  -7.644  10.484  1.00 81.45           C  \\nATOM   4317  O   MET C 342       8.132 -10.308  11.106  1.00 81.45           O  \\nATOM   4318  CG  MET C 342       7.795  -6.735  10.073  1.00 81.45           C  \\nATOM   4319  SD  MET C 342       7.745  -5.111  10.925  1.00 81.45           S  \\nATOM   4320  CE  MET C 342       9.271  -4.367  10.285  1.00 81.45           C  \\nATOM   4321  N   CYS C 343       8.743  -9.780   8.982  1.00 77.29           N  \\nATOM   4322  CA  CYS C 343      10.109 -10.249   9.184  1.00 77.29           C  \\nATOM   4323  C   CYS C 343      11.035  -9.093   9.542  1.00 77.29           C  \\nATOM   4324  CB  CYS C 343      10.624 -10.958   7.932  1.00 77.29           C  \\nATOM   4325  O   CYS C 343      11.711  -8.541   8.671  1.00 77.29           O  \\nATOM   4326  SG  CYS C 343       9.633 -12.389   7.446  1.00 77.29           S  \\nATOM   4327  N   THR C 344      11.118  -8.776  10.734  1.00 87.54           N  \\nATOM   4328  CA  THR C 344      11.707  -7.547  11.256  1.00 87.54           C  \\nATOM   4329  C   THR C 344      13.231  -7.630  11.243  1.00 87.54           C  \\nATOM   4330  CB  THR C 344      11.219  -7.258  12.688  1.00 87.54           C  \\nATOM   4331  O   THR C 344      13.807  -8.630  11.677  1.00 87.54           O  \\nATOM   4332  CG2 THR C 344      11.733  -5.910  13.183  1.00 87.54           C  \\nATOM   4333  OG1 THR C 344       9.786  -7.246  12.704  1.00 87.54           O  \\nATOM   4334  N   LYS C 345      13.828  -6.580  10.640  1.00 83.18           N  \\nATOM   4335  CA  LYS C 345      15.266  -6.349  10.755  1.00 83.18           C  \\nATOM   4336  C   LYS C 345      15.566  -5.247  11.766  1.00 83.18           C  \\nATOM   4337  CB  LYS C 345      15.863  -5.989   9.394  1.00 83.18           C  \\nATOM   4338  O   LYS C 345      14.711  -4.405  12.048  1.00 83.18           O  \\nATOM   4339  CG  LYS C 345      15.643  -7.047   8.322  1.00 83.18           C  \\nATOM   4340  CD  LYS C 345      16.213  -6.608   6.979  1.00 83.18           C  \\nATOM   4341  CE  LYS C 345      15.951  -7.644   5.895  1.00 83.18           C  \\nATOM   4342  NZ  LYS C 345      16.491  -7.210   4.571  1.00 83.18           N  \\nATOM   4343  N   VAL C 346      16.798  -5.333  12.299  1.00 93.64           N  \\nATOM   4344  CA  VAL C 346      17.181  -4.319  13.276  1.00 93.64           C  \\nATOM   4345  C   VAL C 346      17.684  -3.071  12.556  1.00 93.64           C  \\nATOM   4346  CB  VAL C 346      18.261  -4.846  14.247  1.00 93.64           C  \\nATOM   4347  O   VAL C 346      18.892  -2.886  12.390  1.00 93.64           O  \\nATOM   4348  CG1 VAL C 346      18.579  -3.804  15.318  1.00 93.64           C  \\nATOM   4349  CG2 VAL C 346      17.807  -6.155  14.890  1.00 93.64           C  \\nATOM   4350  N   THR C 347      16.761  -2.237  12.143  1.00 83.59           N  \\nATOM   4351  CA  THR C 347      17.007  -0.967  11.469  1.00 83.59           C  \\nATOM   4352  C   THR C 347      16.008   0.091  11.929  1.00 83.59           C  \\nATOM   4353  CB  THR C 347      16.927  -1.122   9.939  1.00 83.59           C  \\nATOM   4354  O   THR C 347      14.938  -0.239  12.444  1.00 83.59           O  \\nATOM   4355  CG2 THR C 347      17.861  -2.224   9.449  1.00 83.59           C  \\nATOM   4356  OG1 THR C 347      15.583  -1.451   9.568  1.00 83.59           O  \\nATOM   4357  N   MET C 348      16.411   1.359  11.783  1.00 85.23           N  \\nATOM   4358  CA  MET C 348      15.483   2.438  12.110  1.00 85.23           C  \\nATOM   4359  C   MET C 348      14.205   2.325  11.286  1.00 85.23           C  \\nATOM   4360  CB  MET C 348      16.138   3.800  11.877  1.00 85.23           C  \\nATOM   4361  O   MET C 348      13.108   2.554  11.798  1.00 85.23           O  \\nATOM   4362  CG  MET C 348      15.238   4.978  12.213  1.00 85.23           C  \\nATOM   4363  SD  MET C 348      16.118   6.586  12.117  1.00 85.23           S  \\nATOM   4364  CE  MET C 348      14.747   7.723  12.462  1.00 85.23           C  \\nATOM   4365  N   ASP C 349      14.326   1.998  10.034  1.00 74.49           N  \\nATOM   4366  CA  ASP C 349      13.165   1.855   9.162  1.00 74.49           C  \\nATOM   4367  C   ASP C 349      12.180   0.832   9.723  1.00 74.49           C  \\nATOM   4368  CB  ASP C 349      13.599   1.448   7.752  1.00 74.49           C  \\nATOM   4369  O   ASP C 349      10.977   1.095   9.795  1.00 74.49           O  \\nATOM   4370  CG  ASP C 349      14.162   2.606   6.948  1.00 74.49           C  \\nATOM   4371  OD1 ASP C 349      14.036   3.771   7.385  1.00 74.49           O  \\nATOM   4372  OD2 ASP C 349      14.735   2.353   5.866  1.00 74.49           O  \\nATOM   4373  N   ASP C 350      12.683  -0.305  10.085  1.00 81.26           N  \\nATOM   4374  CA  ASP C 350      11.810  -1.339  10.634  1.00 81.26           C  \\nATOM   4375  C   ASP C 350      11.273  -0.933  12.005  1.00 81.26           C  \\nATOM   4376  CB  ASP C 350      12.554  -2.672  10.734  1.00 81.26           C  \\nATOM   4377  O   ASP C 350      10.156  -1.302  12.374  1.00 81.26           O  \\nATOM   4378  CG  ASP C 350      12.568  -3.443   9.426  1.00 81.26           C  \\nATOM   4379  OD1 ASP C 350      12.303  -2.844   8.362  1.00 81.26           O  \\nATOM   4380  OD2 ASP C 350      12.844  -4.662   9.460  1.00 81.26           O  \\nATOM   4381  N   PHE C 351      12.116  -0.249  12.752  1.00 92.71           N  \\nATOM   4382  CA  PHE C 351      11.658   0.300  14.023  1.00 92.71           C  \\nATOM   4383  C   PHE C 351      10.438   1.189  13.820  1.00 92.71           C  \\nATOM   4384  CB  PHE C 351      12.779   1.093  14.702  1.00 92.71           C  \\nATOM   4385  O   PHE C 351       9.428   1.033  14.509  1.00 92.71           O  \\nATOM   4386  CG  PHE C 351      12.332   1.854  15.921  1.00 92.71           C  \\nATOM   4387  CD1 PHE C 351      12.273   3.242  15.908  1.00 92.71           C  \\nATOM   4388  CD2 PHE C 351      11.970   1.180  17.080  1.00 92.71           C  \\nATOM   4389  CE1 PHE C 351      11.860   3.949  17.035  1.00 92.71           C  \\nATOM   4390  CE2 PHE C 351      11.556   1.879  18.210  1.00 92.71           C  \\nATOM   4391  CZ  PHE C 351      11.502   3.263  18.186  1.00 92.71           C  \\nATOM   4392  N   LEU C 352      10.476   2.092  12.889  1.00 85.25           N  \\nATOM   4393  CA  LEU C 352       9.366   2.989  12.589  1.00 85.25           C  \\nATOM   4394  C   LEU C 352       8.192   2.221  11.992  1.00 85.25           C  \\nATOM   4395  CB  LEU C 352       9.812   4.091  11.625  1.00 85.25           C  \\nATOM   4396  O   LEU C 352       7.032   2.532  12.275  1.00 85.25           O  \\nATOM   4397  CG  LEU C 352      10.905   5.034  12.133  1.00 85.25           C  \\nATOM   4398  CD1 LEU C 352      11.278   6.043  11.052  1.00 85.25           C  \\nATOM   4399  CD2 LEU C 352      10.449   5.746  13.402  1.00 85.25           C  \\nATOM   4400  N   THR C 353       8.470   1.215  11.148  1.00 79.68           N  \\nATOM   4401  CA  THR C 353       7.429   0.369  10.575  1.00 79.68           C  \\nATOM   4402  C   THR C 353       6.673  -0.376  11.671  1.00 79.68           C  \\nATOM   4403  CB  THR C 353       8.019  -0.644   9.576  1.00 79.68           C  \\nATOM   4404  O   THR C 353       5.452  -0.530  11.596  1.00 79.68           O  \\nATOM   4405  CG2 THR C 353       6.932  -1.544   8.998  1.00 79.68           C  \\nATOM   4406  OG1 THR C 353       8.655   0.065   8.505  1.00 79.68           O  \\nATOM   4407  N   ALA C 354       7.447  -0.877  12.637  1.00 89.71           N  \\nATOM   4408  CA  ALA C 354       6.812  -1.538  13.775  1.00 89.71           C  \\nATOM   4409  C   ALA C 354       5.818  -0.609  14.465  1.00 89.71           C  \\nATOM   4410  CB  ALA C 354       7.868  -2.017  14.769  1.00 89.71           C  \\nATOM   4411  O   ALA C 354       4.694  -1.011  14.773  1.00 89.71           O  \\nATOM   4412  N   HIS C 355       6.227   0.625  14.730  1.00 90.85           N  \\nATOM   4413  CA  HIS C 355       5.326   1.611  15.316  1.00 90.85           C  \\nATOM   4414  C   HIS C 355       4.097   1.824  14.439  1.00 90.85           C  \\nATOM   4415  CB  HIS C 355       6.053   2.939  15.533  1.00 90.85           C  \\nATOM   4416  O   HIS C 355       2.972   1.873  14.941  1.00 90.85           O  \\nATOM   4417  CG  HIS C 355       6.927   2.953  16.746  1.00 90.85           C  \\nATOM   4418  CD2 HIS C 355       6.766   3.548  17.952  1.00 90.85           C  \\nATOM   4419  ND1 HIS C 355       8.138   2.296  16.799  1.00 90.85           N  \\nATOM   4420  CE1 HIS C 355       8.684   2.487  17.988  1.00 90.85           C  \\nATOM   4421  NE2 HIS C 355       7.872   3.243  18.706  1.00 90.85           N  \\nATOM   4422  N   HIS C 356       4.316   1.882  13.160  1.00 82.74           N  \\nATOM   4423  CA  HIS C 356       3.249   2.080  12.185  1.00 82.74           C  \\nATOM   4424  C   HIS C 356       2.246   0.933  12.225  1.00 82.74           C  \\nATOM   4425  CB  HIS C 356       3.830   2.220  10.776  1.00 82.74           C  \\nATOM   4426  O   HIS C 356       1.043   1.160  12.378  1.00 82.74           O  \\nATOM   4427  CG  HIS C 356       2.792   2.288   9.703  1.00 82.74           C  \\nATOM   4428  CD2 HIS C 356       1.949   1.345   9.219  1.00 82.74           C  \\nATOM   4429  ND1 HIS C 356       2.532   3.439   8.991  1.00 82.74           N  \\nATOM   4430  CE1 HIS C 356       1.572   3.200   8.113  1.00 82.74           C  \\nATOM   4431  NE2 HIS C 356       1.201   1.937   8.232  1.00 82.74           N  \\nATOM   4432  N   GLU C 357       2.734  -0.230  12.095  1.00 86.50           N  \\nATOM   4433  CA  GLU C 357       1.848  -1.390  12.049  1.00 86.50           C  \\nATOM   4434  C   GLU C 357       1.116  -1.577  13.375  1.00 86.50           C  \\nATOM   4435  CB  GLU C 357       2.635  -2.655  11.699  1.00 86.50           C  \\nATOM   4436  O   GLU C 357      -0.053  -1.967  13.395  1.00 86.50           O  \\nATOM   4437  CG  GLU C 357       3.220  -2.646  10.294  1.00 86.50           C  \\nATOM   4438  CD  GLU C 357       2.183  -2.383   9.214  1.00 86.50           C  \\nATOM   4439  OE1 GLU C 357       2.473  -1.614   8.269  1.00 86.50           O  \\nATOM   4440  OE2 GLU C 357       1.073  -2.951   9.313  1.00 86.50           O  \\nATOM   4441  N   MET C 358       1.803  -1.362  14.432  1.00 92.81           N  \\nATOM   4442  CA  MET C 358       1.145  -1.458  15.732  1.00 92.81           C  \\nATOM   4443  C   MET C 358       0.108  -0.353  15.900  1.00 92.81           C  \\nATOM   4444  CB  MET C 358       2.174  -1.386  16.862  1.00 92.81           C  \\nATOM   4445  O   MET C 358      -0.838  -0.498  16.677  1.00 92.81           O  \\nATOM   4446  CG  MET C 358       2.986  -2.659  17.034  1.00 92.81           C  \\nATOM   4447  SD  MET C 358       4.122  -2.580  18.472  1.00 92.81           S  \\nATOM   4448  CE  MET C 358       2.933  -2.765  19.830  1.00 92.81           C  \\nATOM   4449  N   GLY C 359       0.364   0.811  15.282  1.00 90.46           N  \\nATOM   4450  CA  GLY C 359      -0.681   1.821  15.220  1.00 90.46           C  \\nATOM   4451  C   GLY C 359      -1.974   1.306  14.618  1.00 90.46           C  \\nATOM   4452  O   GLY C 359      -3.061   1.610  15.115  1.00 90.46           O  \\nATOM   4453  N   HIS C 360      -1.864   0.517  13.576  1.00 85.70           N  \\nATOM   4454  CA  HIS C 360      -3.036  -0.124  12.991  1.00 85.70           C  \\nATOM   4455  C   HIS C 360      -3.732  -1.028  14.003  1.00 85.70           C  \\nATOM   4456  CB  HIS C 360      -2.644  -0.928  11.750  1.00 85.70           C  \\nATOM   4457  O   HIS C 360      -4.960  -1.016  14.111  1.00 85.70           O  \\nATOM   4458  CG  HIS C 360      -2.391  -0.083  10.543  1.00 85.70           C  \\nATOM   4459  CD2 HIS C 360      -1.248   0.179   9.864  1.00 85.70           C  \\nATOM   4460  ND1 HIS C 360      -3.390   0.614   9.899  1.00 85.70           N  \\nATOM   4461  CE1 HIS C 360      -2.872   1.269   8.873  1.00 85.70           C  \\nATOM   4462  NE2 HIS C 360      -1.574   1.022   8.830  1.00 85.70           N  \\nATOM   4463  N   ILE C 361      -2.969  -1.772  14.731  1.00 92.16           N  \\nATOM   4464  CA  ILE C 361      -3.520  -2.698  15.714  1.00 92.16           C  \\nATOM   4465  C   ILE C 361      -4.251  -1.918  16.804  1.00 92.16           C  \\nATOM   4466  CB  ILE C 361      -2.418  -3.585  16.336  1.00 92.16           C  \\nATOM   4467  O   ILE C 361      -5.338  -2.311  17.235  1.00 92.16           O  \\nATOM   4468  CG1 ILE C 361      -1.815  -4.511  15.273  1.00 92.16           C  \\nATOM   4469  CG2 ILE C 361      -2.974  -4.391  17.513  1.00 92.16           C  \\nATOM   4470  CD1 ILE C 361      -2.824  -5.447  14.623  1.00 92.16           C  \\nATOM   4471  N   GLN C 362      -3.640  -0.823  17.261  1.00 95.01           N  \\nATOM   4472  CA  GLN C 362      -4.308   0.027  18.241  1.00 95.01           C  \\nATOM   4473  C   GLN C 362      -5.668   0.493  17.730  1.00 95.01           C  \\nATOM   4474  CB  GLN C 362      -3.436   1.235  18.587  1.00 95.01           C  \\nATOM   4475  O   GLN C 362      -6.646   0.511  18.480  1.00 95.01           O  \\nATOM   4476  CG  GLN C 362      -2.226   0.894  19.447  1.00 95.01           C  \\nATOM   4477  CD  GLN C 362      -2.599   0.557  20.878  1.00 95.01           C  \\nATOM   4478  NE2 GLN C 362      -1.594   0.308  21.710  1.00 95.01           N  \\nATOM   4479  OE1 GLN C 362      -3.782   0.520  21.233  1.00 95.01           O  \\nATOM   4480  N   TYR C 363      -5.733   0.843  16.456  1.00 91.68           N  \\nATOM   4481  CA  TYR C 363      -6.984   1.252  15.828  1.00 91.68           C  \\nATOM   4482  C   TYR C 363      -7.975   0.095  15.785  1.00 91.68           C  \\nATOM   4483  CB  TYR C 363      -6.729   1.774  14.411  1.00 91.68           C  \\nATOM   4484  O   TYR C 363      -9.132   0.245  16.186  1.00 91.68           O  \\nATOM   4485  CG  TYR C 363      -7.787   2.730  13.917  1.00 91.68           C  \\nATOM   4486  CD1 TYR C 363      -7.634   3.406  12.708  1.00 91.68           C  \\nATOM   4487  CD2 TYR C 363      -8.942   2.960  14.657  1.00 91.68           C  \\nATOM   4488  CE1 TYR C 363      -8.605   4.289  12.249  1.00 91.68           C  \\nATOM   4489  CE2 TYR C 363      -9.920   3.842  14.208  1.00 91.68           C  \\nATOM   4490  OH  TYR C 363     -10.708   5.374  12.556  1.00 91.68           O  \\nATOM   4491  CZ  TYR C 363      -9.743   4.500  13.005  1.00 91.68           C  \\nATOM   4492  N   ASP C 364      -7.513  -1.025  15.410  1.00 92.17           N  \\nATOM   4493  CA  ASP C 364      -8.340  -2.227  15.373  1.00 92.17           C  \\nATOM   4494  C   ASP C 364      -8.918  -2.539  16.752  1.00 92.17           C  \\nATOM   4495  CB  ASP C 364      -7.530  -3.420  14.861  1.00 92.17           C  \\nATOM   4496  O   ASP C 364     -10.106  -2.841  16.879  1.00 92.17           O  \\nATOM   4497  CG  ASP C 364      -7.186  -3.313  13.385  1.00 92.17           C  \\nATOM   4498  OD1 ASP C 364      -7.938  -2.661  12.629  1.00 92.17           O  \\nATOM   4499  OD2 ASP C 364      -6.155  -3.889  12.975  1.00 92.17           O  \\nATOM   4500  N   MET C 365      -8.129  -2.480  17.742  1.00 96.12           N  \\nATOM   4501  CA  MET C 365      -8.556  -2.775  19.107  1.00 96.12           C  \\nATOM   4502  C   MET C 365      -9.581  -1.754  19.589  1.00 96.12           C  \\nATOM   4503  CB  MET C 365      -7.355  -2.799  20.054  1.00 96.12           C  \\nATOM   4504  O   MET C 365     -10.547  -2.110  20.267  1.00 96.12           O  \\nATOM   4505  CG  MET C 365      -6.440  -3.995  19.853  1.00 96.12           C  \\nATOM   4506  SD  MET C 365      -4.867  -3.841  20.785  1.00 96.12           S  \\nATOM   4507  CE  MET C 365      -5.508  -3.739  22.480  1.00 96.12           C  \\nATOM   4508  N   ALA C 366      -9.397  -0.531  19.252  1.00 96.19           N  \\nATOM   4509  CA  ALA C 366     -10.234   0.564  19.736  1.00 96.19           C  \\nATOM   4510  C   ALA C 366     -11.668   0.421  19.233  1.00 96.19           C  \\nATOM   4511  CB  ALA C 366      -9.653   1.909  19.305  1.00 96.19           C  \\nATOM   4512  O   ALA C 366     -12.620   0.670  19.976  1.00 96.19           O  \\nATOM   4513  N   TYR C 367     -11.827   0.037  17.963  1.00 94.57           N  \\nATOM   4514  CA  TYR C 367     -13.187  -0.034  17.442  1.00 94.57           C  \\nATOM   4515  C   TYR C 367     -13.699  -1.469  17.446  1.00 94.57           C  \\nATOM   4516  CB  TYR C 367     -13.250   0.539  16.023  1.00 94.57           C  \\nATOM   4517  O   TYR C 367     -14.718  -1.774  16.821  1.00 94.57           O  \\nATOM   4518  CG  TYR C 367     -12.329  -0.153  15.047  1.00 94.57           C  \\nATOM   4519  CD1 TYR C 367     -11.494   0.581  14.208  1.00 94.57           C  \\nATOM   4520  CD2 TYR C 367     -12.293  -1.540  14.963  1.00 94.57           C  \\nATOM   4521  CE1 TYR C 367     -10.644  -0.052  13.306  1.00 94.57           C  \\nATOM   4522  CE2 TYR C 367     -11.447  -2.184  14.065  1.00 94.57           C  \\nATOM   4523  OH  TYR C 367      -9.789  -2.065  12.352  1.00 94.57           O  \\nATOM   4524  CZ  TYR C 367     -10.628  -1.433  13.242  1.00 94.57           C  \\nATOM   4525  N   ALA C 368     -13.024  -2.341  18.114  1.00 93.51           N  \\nATOM   4526  CA  ALA C 368     -13.350  -3.765  18.121  1.00 93.51           C  \\nATOM   4527  C   ALA C 368     -14.745  -4.005  18.689  1.00 93.51           C  \\nATOM   4528  CB  ALA C 368     -12.310  -4.544  18.922  1.00 93.51           C  \\nATOM   4529  O   ALA C 368     -15.376  -5.022  18.392  1.00 93.51           O  \\nATOM   4530  N   ALA C 369     -15.264  -3.088  19.513  1.00 92.74           N  \\nATOM   4531  CA  ALA C 369     -16.571  -3.244  20.148  1.00 92.74           C  \\nATOM   4532  C   ALA C 369     -17.695  -2.871  19.186  1.00 92.74           C  \\nATOM   4533  CB  ALA C 369     -16.653  -2.392  21.412  1.00 92.74           C  \\nATOM   4534  O   ALA C 369     -18.863  -3.178  19.437  1.00 92.74           O  \\nATOM   4535  N   GLN C 370     -17.426  -2.251  18.102  1.00 93.71           N  \\nATOM   4536  CA  GLN C 370     -18.422  -1.880  17.101  1.00 93.71           C  \\nATOM   4537  C   GLN C 370     -18.954  -3.111  16.373  1.00 93.71           C  \\nATOM   4538  CB  GLN C 370     -17.831  -0.890  16.097  1.00 93.71           C  \\nATOM   4539  O   GLN C 370     -18.316  -4.166  16.378  1.00 93.71           O  \\nATOM   4540  CG  GLN C 370     -17.371   0.420  16.722  1.00 93.71           C  \\nATOM   4541  CD  GLN C 370     -18.524   1.269  17.222  1.00 93.71           C  \\nATOM   4542  NE2 GLN C 370     -18.204   2.345  17.933  1.00 93.71           N  \\nATOM   4543  OE1 GLN C 370     -19.694   0.962  16.970  1.00 93.71           O  \\nATOM   4544  N   PRO C 371     -20.200  -2.969  15.787  1.00 93.72           N  \\nATOM   4545  CA  PRO C 371     -20.680  -4.056  14.929  1.00 93.72           C  \\nATOM   4546  C   PRO C 371     -19.705  -4.391  13.802  1.00 93.72           C  \\nATOM   4547  CB  PRO C 371     -21.995  -3.508  14.369  1.00 93.72           C  \\nATOM   4548  O   PRO C 371     -18.958  -3.521  13.347  1.00 93.72           O  \\nATOM   4549  CG  PRO C 371     -22.445  -2.496  15.372  1.00 93.72           C  \\nATOM   4550  CD  PRO C 371     -21.233  -1.823  15.949  1.00 93.72           C  \\nATOM   4551  N   PHE C 372     -19.739  -5.570  13.380  1.00 90.38           N  \\nATOM   4552  CA  PHE C 372     -18.768  -6.163  12.468  1.00 90.38           C  \\nATOM   4553  C   PHE C 372     -18.539  -5.263  11.260  1.00 90.38           C  \\nATOM   4554  CB  PHE C 372     -19.235  -7.549  12.010  1.00 90.38           C  \\nATOM   4555  O   PHE C 372     -17.396  -4.963  10.910  1.00 90.38           O  \\nATOM   4556  CG  PHE C 372     -18.300  -8.212  11.035  1.00 90.38           C  \\nATOM   4557  CD1 PHE C 372     -18.529  -8.130   9.667  1.00 90.38           C  \\nATOM   4558  CD2 PHE C 372     -17.193  -8.918  11.486  1.00 90.38           C  \\nATOM   4559  CE1 PHE C 372     -17.666  -8.744   8.761  1.00 90.38           C  \\nATOM   4560  CE2 PHE C 372     -16.326  -9.534  10.588  1.00 90.38           C  \\nATOM   4561  CZ  PHE C 372     -16.565  -9.446   9.226  1.00 90.38           C  \\nATOM   4562  N   LEU C 373     -19.594  -4.727  10.697  1.00 87.74           N  \\nATOM   4563  CA  LEU C 373     -19.509  -3.984   9.444  1.00 87.74           C  \\nATOM   4564  C   LEU C 373     -18.963  -2.580   9.681  1.00 87.74           C  \\nATOM   4565  CB  LEU C 373     -20.883  -3.903   8.774  1.00 87.74           C  \\nATOM   4566  O   LEU C 373     -18.619  -1.874   8.731  1.00 87.74           O  \\nATOM   4567  CG  LEU C 373     -21.431  -5.206   8.192  1.00 87.74           C  \\nATOM   4568  CD1 LEU C 373     -22.906  -5.050   7.837  1.00 87.74           C  \\nATOM   4569  CD2 LEU C 373     -20.623  -5.627   6.969  1.00 87.74           C  \\nATOM   4570  N   LEU C 374     -18.875  -2.179  10.893  1.00 90.35           N  \\nATOM   4571  CA  LEU C 374     -18.439  -0.822  11.203  1.00 90.35           C  \\nATOM   4572  C   LEU C 374     -17.027  -0.823  11.778  1.00 90.35           C  \\nATOM   4573  CB  LEU C 374     -19.405  -0.161  12.191  1.00 90.35           C  \\nATOM   4574  O   LEU C 374     -16.524   0.221  12.202  1.00 90.35           O  \\nATOM   4575  CG  LEU C 374     -20.860  -0.039  11.737  1.00 90.35           C  \\nATOM   4576  CD1 LEU C 374     -21.693   0.656  12.809  1.00 90.35           C  \\nATOM   4577  CD2 LEU C 374     -20.947   0.714  10.414  1.00 90.35           C  \\nATOM   4578  N   ARG C 375     -16.371  -2.003  11.775  1.00 88.40           N  \\nATOM   4579  CA  ARG C 375     -15.024  -2.152  12.315  1.00 88.40           C  \\nATOM   4580  C   ARG C 375     -13.972  -1.862  11.250  1.00 88.40           C  \\nATOM   4581  CB  ARG C 375     -14.823  -3.560  12.880  1.00 88.40           C  \\nATOM   4582  O   ARG C 375     -13.257  -2.766  10.813  1.00 88.40           O  \\nATOM   4583  CG  ARG C 375     -15.731  -3.888  14.055  1.00 88.40           C  \\nATOM   4584  CD  ARG C 375     -15.582  -5.338  14.495  1.00 88.40           C  \\nATOM   4585  NE  ARG C 375     -16.625  -5.724  15.441  1.00 88.40           N  \\nATOM   4586  NH1 ARG C 375     -16.055  -7.962  15.474  1.00 88.40           N  \\nATOM   4587  NH2 ARG C 375     -17.805  -7.201  16.744  1.00 88.40           N  \\nATOM   4588  CZ  ARG C 375     -16.826  -6.962  15.884  1.00 88.40           C  \\nATOM   4589  N   ASN C 376     -13.763  -0.598  10.894  1.00 83.60           N  \\nATOM   4590  CA  ASN C 376     -12.800  -0.074   9.931  1.00 83.60           C  \\nATOM   4591  C   ASN C 376     -12.505   1.402  10.180  1.00 83.60           C  \\nATOM   4592  CB  ASN C 376     -13.302  -0.282   8.501  1.00 83.60           C  \\nATOM   4593  O   ASN C 376     -13.115   2.023  11.053  1.00 83.60           O  \\nATOM   4594  CG  ASN C 376     -12.173  -0.465   7.506  1.00 83.60           C  \\nATOM   4595  ND2 ASN C 376     -12.492  -1.018   6.342  1.00 83.60           N  \\nATOM   4596  OD1 ASN C 376     -11.023  -0.113   7.782  1.00 83.60           O  \\nATOM   4597  N   GLY C 377     -11.453   1.845   9.525  1.00 85.67           N  \\nATOM   4598  CA  GLY C 377     -11.209   3.275   9.614  1.00 85.67           C  \\nATOM   4599  C   GLY C 377     -12.355   4.111   9.076  1.00 85.67           C  \\nATOM   4600  O   GLY C 377     -13.126   3.648   8.233  1.00 85.67           O  \\nATOM   4601  N   ALA C 378     -12.437   5.343   9.516  1.00 90.23           N  \\nATOM   4602  CA  ALA C 378     -13.516   6.234   9.097  1.00 90.23           C  \\nATOM   4603  C   ALA C 378     -13.563   6.362   7.577  1.00 90.23           C  \\nATOM   4604  CB  ALA C 378     -13.351   7.609   9.739  1.00 90.23           C  \\nATOM   4605  O   ALA C 378     -14.640   6.492   6.992  1.00 90.23           O  \\nATOM   4606  N   ASN C 379     -12.546   6.360   6.923  1.00 88.37           N  \\nATOM   4607  CA  ASN C 379     -12.347   6.180   5.489  1.00 88.37           C  \\nATOM   4608  C   ASN C 379     -10.982   5.571   5.185  1.00 88.37           C  \\nATOM   4609  CB  ASN C 379     -12.510   7.512   4.754  1.00 88.37           C  \\nATOM   4610  O   ASN C 379     -10.248   5.193   6.100  1.00 88.37           O  \\nATOM   4611  CG  ASN C 379     -11.429   8.512   5.110  1.00 88.37           C  \\nATOM   4612  ND2 ASN C 379     -11.804   9.782   5.207  1.00 88.37           N  \\nATOM   4613  OD1 ASN C 379     -10.265   8.147   5.295  1.00 88.37           O  \\nATOM   4614  N   GLU C 380     -10.642   5.406   3.992  1.00 79.49           N  \\nATOM   4615  CA  GLU C 380      -9.472   4.623   3.608  1.00 79.49           C  \\nATOM   4616  C   GLU C 380      -8.180   5.327   4.010  1.00 79.49           C  \\nATOM   4617  CB  GLU C 380      -9.477   4.352   2.101  1.00 79.49           C  \\nATOM   4618  O   GLU C 380      -7.121   4.699   4.082  1.00 79.49           O  \\nATOM   4619  CG  GLU C 380      -9.407   5.612   1.250  1.00 79.49           C  \\nATOM   4620  CD  GLU C 380      -9.459   5.331  -0.243  1.00 79.49           C  \\nATOM   4621  OE1 GLU C 380      -9.685   6.276  -1.031  1.00 79.49           O  \\nATOM   4622  OE2 GLU C 380      -9.272   4.155  -0.628  1.00 79.49           O  \\nATOM   4623  N   GLY C 381      -8.200   6.541   4.359  1.00 85.06           N  \\nATOM   4624  CA  GLY C 381      -7.001   7.279   4.722  1.00 85.06           C  \\nATOM   4625  C   GLY C 381      -6.734   7.287   6.215  1.00 85.06           C  \\nATOM   4626  O   GLY C 381      -5.610   7.549   6.649  1.00 85.06           O  \\nATOM   4627  N   PHE C 382      -7.692   6.988   7.059  1.00 89.51           N  \\nATOM   4628  CA  PHE C 382      -7.602   7.148   8.506  1.00 89.51           C  \\nATOM   4629  C   PHE C 382      -6.656   6.115   9.107  1.00 89.51           C  \\nATOM   4630  CB  PHE C 382      -8.988   7.028   9.148  1.00 89.51           C  \\nATOM   4631  O   PHE C 382      -5.787   6.456   9.911  1.00 89.51           O  \\nATOM   4632  CG  PHE C 382      -9.676   8.349   9.359  1.00 89.51           C  \\nATOM   4633  CD1 PHE C 382      -9.955   8.807  10.641  1.00 89.51           C  \\nATOM   4634  CD2 PHE C 382     -10.044   9.135   8.274  1.00 89.51           C  \\nATOM   4635  CE1 PHE C 382     -10.592  10.030  10.839  1.00 89.51           C  \\nATOM   4636  CE2 PHE C 382     -10.681  10.358   8.465  1.00 89.51           C  \\nATOM   4637  CZ  PHE C 382     -10.954  10.803   9.748  1.00 89.51           C  \\nATOM   4638  N   HIS C 383      -6.803   4.812   8.700  1.00 78.84           N  \\nATOM   4639  CA  HIS C 383      -5.895   3.797   9.224  1.00 78.84           C  \\nATOM   4640  C   HIS C 383      -4.442   4.153   8.928  1.00 78.84           C  \\nATOM   4641  CB  HIS C 383      -6.230   2.425   8.637  1.00 78.84           C  \\nATOM   4642  O   HIS C 383      -3.584   4.056   9.808  1.00 78.84           O  \\nATOM   4643  CG  HIS C 383      -6.980   1.537   9.578  1.00 78.84           C  \\nATOM   4644  CD2 HIS C 383      -8.307   1.311   9.721  1.00 78.84           C  \\nATOM   4645  ND1 HIS C 383      -6.351   0.753  10.521  1.00 78.84           N  \\nATOM   4646  CE1 HIS C 383      -7.263   0.082  11.205  1.00 78.84           C  \\nATOM   4647  NE2 HIS C 383      -8.458   0.403  10.739  1.00 78.84           N  \\nATOM   4648  N   GLU C 384      -4.217   4.602   7.728  1.00 79.68           N  \\nATOM   4649  CA  GLU C 384      -2.855   4.952   7.336  1.00 79.68           C  \\nATOM   4650  C   GLU C 384      -2.348   6.159   8.120  1.00 79.68           C  \\nATOM   4651  CB  GLU C 384      -2.784   5.234   5.833  1.00 79.68           C  \\nATOM   4652  O   GLU C 384      -1.191   6.188   8.545  1.00 79.68           O  \\nATOM   4653  CG  GLU C 384      -3.140   4.036   4.965  1.00 79.68           C  \\nATOM   4654  CD  GLU C 384      -2.255   2.826   5.221  1.00 79.68           C  \\nATOM   4655  OE1 GLU C 384      -2.747   1.680   5.111  1.00 79.68           O  \\nATOM   4656  OE2 GLU C 384      -1.060   3.026   5.534  1.00 79.68           O  \\nATOM   4657  N   ALA C 385      -3.188   7.073   8.349  1.00 88.70           N  \\nATOM   4658  CA  ALA C 385      -2.808   8.278   9.082  1.00 88.70           C  \\nATOM   4659  C   ALA C 385      -2.431   7.948  10.523  1.00 88.70           C  \\nATOM   4660  CB  ALA C 385      -3.942   9.299   9.052  1.00 88.70           C  \\nATOM   4661  O   ALA C 385      -1.443   8.467  11.048  1.00 88.70           O  \\nATOM   4662  N   VAL C 386      -3.195   7.089  11.125  1.00 88.23           N  \\nATOM   4663  CA  VAL C 386      -2.926   6.687  12.502  1.00 88.23           C  \\nATOM   4664  C   VAL C 386      -1.584   5.964  12.576  1.00 88.23           C  \\nATOM   4665  CB  VAL C 386      -4.050   5.784  13.059  1.00 88.23           C  \\nATOM   4666  O   VAL C 386      -0.782   6.221  13.478  1.00 88.23           O  \\nATOM   4667  CG1 VAL C 386      -3.633   5.163  14.391  1.00 88.23           C  \\nATOM   4668  CG2 VAL C 386      -5.343   6.581  13.219  1.00 88.23           C  \\nATOM   4669  N   GLY C 387      -1.358   5.077  11.637  1.00 82.04           N  \\nATOM   4670  CA  GLY C 387      -0.054   4.435  11.583  1.00 82.04           C  \\nATOM   4671  C   GLY C 387       1.092   5.421  11.455  1.00 82.04           C  \\nATOM   4672  O   GLY C 387       2.107   5.294  12.143  1.00 82.04           O  \\nATOM   4673  N   GLU C 388       0.912   6.453  10.703  1.00 83.63           N  \\nATOM   4674  CA  GLU C 388       1.966   7.420  10.410  1.00 83.63           C  \\nATOM   4675  C   GLU C 388       2.234   8.324  11.609  1.00 83.63           C  \\nATOM   4676  CB  GLU C 388       1.596   8.264   9.187  1.00 83.63           C  \\nATOM   4677  O   GLU C 388       3.377   8.715  11.856  1.00 83.63           O  \\nATOM   4678  CG  GLU C 388       1.620   7.490   7.877  1.00 83.63           C  \\nATOM   4679  CD  GLU C 388       2.990   6.924   7.539  1.00 83.63           C  \\nATOM   4680  OE1 GLU C 388       3.067   5.938   6.771  1.00 83.63           O  \\nATOM   4681  OE2 GLU C 388       3.994   7.470   8.047  1.00 83.63           O  \\nATOM   4682  N   ILE C 389       1.221   8.670  12.353  1.00 87.67           N  \\nATOM   4683  CA  ILE C 389       1.411   9.542  13.507  1.00 87.67           C  \\nATOM   4684  C   ILE C 389       2.307   8.851  14.533  1.00 87.67           C  \\nATOM   4685  CB  ILE C 389       0.061   9.931  14.150  1.00 87.67           C  \\nATOM   4686  O   ILE C 389       3.167   9.489  15.144  1.00 87.67           O  \\nATOM   4687  CG1 ILE C 389      -0.687  10.929  13.259  1.00 87.67           C  \\nATOM   4688  CG2 ILE C 389       0.277  10.505  15.554  1.00 87.67           C  \\nATOM   4689  CD1 ILE C 389      -2.125  11.185  13.688  1.00 87.67           C  \\nATOM   4690  N   MET C 390       2.141   7.590  14.606  1.00 85.17           N  \\nATOM   4691  CA  MET C 390       2.934   6.849  15.582  1.00 85.17           C  \\nATOM   4692  C   MET C 390       4.394   6.770  15.151  1.00 85.17           C  \\nATOM   4693  CB  MET C 390       2.369   5.441  15.776  1.00 85.17           C  \\nATOM   4694  O   MET C 390       5.299   6.937  15.971  1.00 85.17           O  \\nATOM   4695  CG  MET C 390       0.929   5.419  16.261  1.00 85.17           C  \\nATOM   4696  SD  MET C 390       0.695   6.371  17.812  1.00 85.17           S  \\nATOM   4697  CE  MET C 390      -1.056   6.819  17.652  1.00 85.17           C  \\nATOM   4698  N   SER C 391       4.561   6.547  13.908  1.00 80.04           N  \\nATOM   4699  CA  SER C 391       5.913   6.504  13.360  1.00 80.04           C  \\nATOM   4700  C   SER C 391       6.587   7.869  13.443  1.00 80.04           C  \\nATOM   4701  CB  SER C 391       5.889   6.026  11.908  1.00 80.04           C  \\nATOM   4702  O   SER C 391       7.769   7.964  13.779  1.00 80.04           O  \\nATOM   4703  OG  SER C 391       7.197   6.002  11.364  1.00 80.04           O  \\nATOM   4704  N   LEU C 392       5.896   8.961  13.272  1.00 84.23           N  \\nATOM   4705  CA  LEU C 392       6.425  10.319  13.338  1.00 84.23           C  \\nATOM   4706  C   LEU C 392       6.889  10.653  14.752  1.00 84.23           C  \\nATOM   4707  CB  LEU C 392       5.369  11.329  12.882  1.00 84.23           C  \\nATOM   4708  O   LEU C 392       7.963  11.228  14.937  1.00 84.23           O  \\nATOM   4709  CG  LEU C 392       5.319  11.629  11.383  1.00 84.23           C  \\nATOM   4710  CD1 LEU C 392       4.007  12.318  11.024  1.00 84.23           C  \\nATOM   4711  CD2 LEU C 392       6.510  12.486  10.970  1.00 84.23           C  \\nATOM   4712  N   SER C 393       6.086  10.312  15.670  1.00 85.42           N  \\nATOM   4713  CA  SER C 393       6.412  10.593  17.064  1.00 85.42           C  \\nATOM   4714  C   SER C 393       7.652   9.824  17.508  1.00 85.42           C  \\nATOM   4715  CB  SER C 393       5.232  10.241  17.972  1.00 85.42           C  \\nATOM   4716  O   SER C 393       8.488  10.355  18.242  1.00 85.42           O  \\nATOM   4717  OG  SER C 393       4.151  11.133  17.760  1.00 85.42           O  \\nATOM   4718  N   ALA C 394       7.845   8.631  16.977  1.00 87.42           N  \\nATOM   4719  CA  ALA C 394       8.946   7.752  17.364  1.00 87.42           C  \\nATOM   4720  C   ALA C 394      10.248   8.174  16.688  1.00 87.42           C  \\nATOM   4721  CB  ALA C 394       8.616   6.303  17.017  1.00 87.42           C  \\nATOM   4722  O   ALA C 394      11.334   7.785  17.124  1.00 87.42           O  \\nATOM   4723  N   ALA C 395      10.111   8.998  15.654  1.00 85.89           N  \\nATOM   4724  CA  ALA C 395      11.277   9.364  14.853  1.00 85.89           C  \\nATOM   4725  C   ALA C 395      11.931  10.635  15.387  1.00 85.89           C  \\nATOM   4726  CB  ALA C 395      10.880   9.548  13.390  1.00 85.89           C  \\nATOM   4727  O   ALA C 395      13.054  10.971  15.003  1.00 85.89           O  \\nATOM   4728  N   THR C 396      11.328  11.265  16.318  1.00 87.62           N  \\nATOM   4729  CA  THR C 396      11.861  12.533  16.802  1.00 87.62           C  \\nATOM   4730  C   THR C 396      13.162  12.315  17.570  1.00 87.62           C  \\nATOM   4731  CB  THR C 396      10.846  13.259  17.704  1.00 87.62           C  \\nATOM   4732  O   THR C 396      13.303  11.328  18.295  1.00 87.62           O  \\nATOM   4733  CG2 THR C 396       9.573  13.600  16.935  1.00 87.62           C  \\nATOM   4734  OG1 THR C 396      10.509  12.415  18.811  1.00 87.62           O  \\nATOM   4735  N   PRO C 397      14.095  13.229  17.380  1.00 88.43           N  \\nATOM   4736  CA  PRO C 397      15.343  13.130  18.141  1.00 88.43           C  \\nATOM   4737  C   PRO C 397      15.113  13.103  19.651  1.00 88.43           C  \\nATOM   4738  CB  PRO C 397      16.109  14.390  17.728  1.00 88.43           C  \\nATOM   4739  O   PRO C 397      15.802  12.377  20.371  1.00 88.43           O  \\nATOM   4740  CG  PRO C 397      15.617  14.702  16.351  1.00 88.43           C  \\nATOM   4741  CD  PRO C 397      14.164  14.330  16.269  1.00 88.43           C  \\nATOM   4742  N   LYS C 398      14.155  13.852  20.085  1.00 86.35           N  \\nATOM   4743  CA  LYS C 398      13.819  13.868  21.506  1.00 86.35           C  \\nATOM   4744  C   LYS C 398      13.429  12.476  21.994  1.00 86.35           C  \\nATOM   4745  CB  LYS C 398      12.683  14.855  21.778  1.00 86.35           C  \\nATOM   4746  O   LYS C 398      13.904  12.022  23.038  1.00 86.35           O  \\nATOM   4747  CG  LYS C 398      12.320  14.991  23.250  1.00 86.35           C  \\nATOM   4748  CD  LYS C 398      11.181  15.981  23.455  1.00 86.35           C  \\nATOM   4749  CE  LYS C 398      10.741  16.033  24.912  1.00 86.35           C  \\nATOM   4750  NZ  LYS C 398       9.611  16.989  25.115  1.00 86.35           N  \\nATOM   4751  N   HIS C 399      12.591  11.821  21.270  1.00 88.60           N  \\nATOM   4752  CA  HIS C 399      12.171  10.476  21.647  1.00 88.60           C  \\nATOM   4753  C   HIS C 399      13.335   9.494  21.571  1.00 88.60           C  \\nATOM   4754  CB  HIS C 399      11.024  10.002  20.752  1.00 88.60           C  \\nATOM   4755  O   HIS C 399      13.535   8.689  22.483  1.00 88.60           O  \\nATOM   4756  CG  HIS C 399      10.531   8.630  21.085  1.00 88.60           C  \\nATOM   4757  CD2 HIS C 399      10.618   7.464  20.402  1.00 88.60           C  \\nATOM   4758  ND1 HIS C 399       9.852   8.345  22.250  1.00 88.60           N  \\nATOM   4759  CE1 HIS C 399       9.542   7.060  22.269  1.00 88.60           C  \\nATOM   4760  NE2 HIS C 399       9.995   6.502  21.159  1.00 88.60           N  \\nATOM   4761  N   LEU C 400      14.118   9.538  20.515  1.00 91.74           N  \\nATOM   4762  CA  LEU C 400      15.249   8.639  20.313  1.00 91.74           C  \\nATOM   4763  C   LEU C 400      16.283   8.809  21.421  1.00 91.74           C  \\nATOM   4764  CB  LEU C 400      15.898   8.892  18.950  1.00 91.74           C  \\nATOM   4765  O   LEU C 400      16.883   7.831  21.871  1.00 91.74           O  \\nATOM   4766  CG  LEU C 400      15.047   8.563  17.722  1.00 91.74           C  \\nATOM   4767  CD1 LEU C 400      15.757   9.014  16.449  1.00 91.74           C  \\nATOM   4768  CD2 LEU C 400      14.739   7.071  17.669  1.00 91.74           C  \\nATOM   4769  N   LYS C 401      16.478  10.030  21.821  1.00 90.23           N  \\nATOM   4770  CA  LYS C 401      17.374  10.304  22.940  1.00 90.23           C  \\nATOM   4771  C   LYS C 401      16.826   9.718  24.239  1.00 90.23           C  \\nATOM   4772  CB  LYS C 401      17.595  11.809  23.096  1.00 90.23           C  \\nATOM   4773  O   LYS C 401      17.572   9.129  25.024  1.00 90.23           O  \\nATOM   4774  CG  LYS C 401      18.654  12.176  24.125  1.00 90.23           C  \\nATOM   4775  CD  LYS C 401      18.851  13.684  24.210  1.00 90.23           C  \\nATOM   4776  CE  LYS C 401      19.829  14.059  25.316  1.00 90.23           C  \\nATOM   4777  NZ  LYS C 401      20.028  15.537  25.401  1.00 90.23           N  \\nATOM   4778  N   SER C 402      15.562   9.832  24.492  1.00 89.85           N  \\nATOM   4779  CA  SER C 402      14.911   9.379  25.717  1.00 89.85           C  \\nATOM   4780  C   SER C 402      15.010   7.865  25.869  1.00 89.85           C  \\nATOM   4781  CB  SER C 402      13.442   9.806  25.732  1.00 89.85           C  \\nATOM   4782  O   SER C 402      15.021   7.348  26.988  1.00 89.85           O  \\nATOM   4783  OG  SER C 402      12.671   8.984  24.873  1.00 89.85           O  \\nATOM   4784  N   ILE C 403      15.162   7.153  24.784  1.00 92.46           N  \\nATOM   4785  CA  ILE C 403      15.197   5.699  24.893  1.00 92.46           C  \\nATOM   4786  C   ILE C 403      16.626   5.200  24.695  1.00 92.46           C  \\nATOM   4787  CB  ILE C 403      14.250   5.033  23.869  1.00 92.46           C  \\nATOM   4788  O   ILE C 403      16.855   3.999  24.537  1.00 92.46           O  \\nATOM   4789  CG1 ILE C 403      14.661   5.406  22.440  1.00 92.46           C  \\nATOM   4790  CG2 ILE C 403      12.796   5.429  24.142  1.00 92.46           C  \\nATOM   4791  CD1 ILE C 403      13.916   4.634  21.360  1.00 92.46           C  \\nATOM   4792  N   GLY C 404      17.543   6.151  24.557  1.00 92.66           N  \\nATOM   4793  CA  GLY C 404      18.958   5.820  24.607  1.00 92.66           C  \\nATOM   4794  C   GLY C 404      19.538   5.475  23.248  1.00 92.66           C  \\nATOM   4795  O   GLY C 404      20.587   4.833  23.160  1.00 92.66           O  \\nATOM   4796  N   LEU C 405      18.860   5.810  22.199  1.00 93.39           N  \\nATOM   4797  CA  LEU C 405      19.357   5.490  20.865  1.00 93.39           C  \\nATOM   4798  C   LEU C 405      20.192   6.636  20.306  1.00 93.39           C  \\nATOM   4799  CB  LEU C 405      18.193   5.182  19.919  1.00 93.39           C  \\nATOM   4800  O   LEU C 405      20.932   6.456  19.336  1.00 93.39           O  \\nATOM   4801  CG  LEU C 405      17.466   3.856  20.147  1.00 93.39           C  \\nATOM   4802  CD1 LEU C 405      16.292   3.723  19.184  1.00 93.39           C  \\nATOM   4803  CD2 LEU C 405      18.429   2.684  19.990  1.00 93.39           C  \\nATOM   4804  N   LEU C 406      20.032   7.791  20.845  1.00 91.00           N  \\nATOM   4805  CA  LEU C 406      20.934   8.915  20.618  1.00 91.00           C  \\nATOM   4806  C   LEU C 406      21.717   9.247  21.884  1.00 91.00           C  \\nATOM   4807  CB  LEU C 406      20.151  10.145  20.151  1.00 91.00           C  \\nATOM   4808  O   LEU C 406      21.223   9.046  22.996  1.00 91.00           O  \\nATOM   4809  CG  LEU C 406      19.560  10.078  18.742  1.00 91.00           C  \\nATOM   4810  CD1 LEU C 406      18.715  11.316  18.462  1.00 91.00           C  \\nATOM   4811  CD2 LEU C 406      20.667   9.934  17.704  1.00 91.00           C  \\nATOM   4812  N   SER C 407      22.953   9.700  21.663  1.00 86.15           N  \\nATOM   4813  CA  SER C 407      23.817  10.003  22.799  1.00 86.15           C  \\nATOM   4814  C   SER C 407      23.185  11.051  23.710  1.00 86.15           C  \\nATOM   4815  CB  SER C 407      25.184  10.491  22.319  1.00 86.15           C  \\nATOM   4816  O   SER C 407      22.528  11.979  23.234  1.00 86.15           O  \\nATOM   4817  OG  SER C 407      25.943  11.007  23.400  1.00 86.15           O  \\nATOM   4818  N   PRO C 408      23.482  10.885  24.927  1.00 85.02           N  \\nATOM   4819  CA  PRO C 408      22.989  11.890  25.871  1.00 85.02           C  \\nATOM   4820  C   PRO C 408      23.501  13.294  25.558  1.00 85.02           C  \\nATOM   4821  CB  PRO C 408      23.526  11.401  27.219  1.00 85.02           C  \\nATOM   4822  O   PRO C 408      22.871  14.284  25.939  1.00 85.02           O  \\nATOM   4823  CG  PRO C 408      23.917   9.978  26.980  1.00 85.02           C  \\nATOM   4824  CD  PRO C 408      24.127   9.781  25.506  1.00 85.02           C  \\nATOM   4825  N   ASP C 409      24.593  13.306  24.833  1.00 83.15           N  \\nATOM   4826  CA  ASP C 409      25.204  14.592  24.510  1.00 83.15           C  \\nATOM   4827  C   ASP C 409      24.671  15.137  23.187  1.00 83.15           C  \\nATOM   4828  CB  ASP C 409      26.728  14.462  24.450  1.00 83.15           C  \\nATOM   4829  O   ASP C 409      25.105  16.194  22.725  1.00 83.15           O  \\nATOM   4830  CG  ASP C 409      27.346  14.105  25.790  1.00 83.15           C  \\nATOM   4831  OD1 ASP C 409      26.769  14.458  26.841  1.00 83.15           O  \\nATOM   4832  OD2 ASP C 409      28.421  13.468  25.795  1.00 83.15           O  \\nATOM   4833  N   PHE C 410      23.733  14.345  22.618  1.00 85.40           N  \\nATOM   4834  CA  PHE C 410      23.150  14.809  21.365  1.00 85.40           C  \\nATOM   4835  C   PHE C 410      22.410  16.126  21.566  1.00 85.40           C  \\nATOM   4836  CB  PHE C 410      22.198  13.755  20.790  1.00 85.40           C  \\nATOM   4837  O   PHE C 410      21.590  16.250  22.478  1.00 85.40           O  \\nATOM   4838  CG  PHE C 410      21.555  14.161  19.492  1.00 85.40           C  \\nATOM   4839  CD1 PHE C 410      20.300  14.756  19.478  1.00 85.40           C  \\nATOM   4840  CD2 PHE C 410      22.207  13.947  18.284  1.00 85.40           C  \\nATOM   4841  CE1 PHE C 410      19.702  15.133  18.277  1.00 85.40           C  \\nATOM   4842  CE2 PHE C 410      21.616  14.321  17.080  1.00 85.40           C  \\nATOM   4843  CZ  PHE C 410      20.363  14.913  17.079  1.00 85.40           C  \\nATOM   4844  N   GLN C 411      22.811  17.119  20.865  1.00 83.09           N  \\nATOM   4845  CA  GLN C 411      22.170  18.426  20.951  1.00 83.09           C  \\nATOM   4846  C   GLN C 411      21.439  18.767  19.656  1.00 83.09           C  \\nATOM   4847  CB  GLN C 411      23.201  19.510  21.272  1.00 83.09           C  \\nATOM   4848  O   GLN C 411      22.006  18.653  18.567  1.00 83.09           O  \\nATOM   4849  CG  GLN C 411      23.660  19.512  22.724  1.00 83.09           C  \\nATOM   4850  CD  GLN C 411      24.301  20.824  23.135  1.00 83.09           C  \\nATOM   4851  NE2 GLN C 411      24.457  21.024  24.439  1.00 83.09           N  \\nATOM   4852  OE1 GLN C 411      24.653  21.650  22.288  1.00 83.09           O  \\nATOM   4853  N   GLU C 412      20.186  19.048  19.870  1.00 84.30           N  \\nATOM   4854  CA  GLU C 412      19.413  19.523  18.726  1.00 84.30           C  \\nATOM   4855  C   GLU C 412      19.760  20.971  18.389  1.00 84.30           C  \\nATOM   4856  CB  GLU C 412      17.913  19.391  18.997  1.00 84.30           C  \\nATOM   4857  O   GLU C 412      19.620  21.860  19.232  1.00 84.30           O  \\nATOM   4858  CG  GLU C 412      17.384  17.971  18.854  1.00 84.30           C  \\nATOM   4859  CD  GLU C 412      15.884  17.863  19.078  1.00 84.30           C  \\nATOM   4860  OE1 GLU C 412      15.408  16.780  19.485  1.00 84.30           O  \\nATOM   4861  OE2 GLU C 412      15.180  18.871  18.844  1.00 84.30           O  \\nATOM   4862  N   ASP C 413      20.351  21.203  17.264  1.00 87.89           N  \\nATOM   4863  CA  ASP C 413      20.607  22.548  16.760  1.00 87.89           C  \\nATOM   4864  C   ASP C 413      19.972  22.750  15.386  1.00 87.89           C  \\nATOM   4865  CB  ASP C 413      22.112  22.817  16.688  1.00 87.89           C  \\nATOM   4866  O   ASP C 413      19.247  21.881  14.897  1.00 87.89           O  \\nATOM   4867  CG  ASP C 413      22.844  21.851  15.772  1.00 87.89           C  \\nATOM   4868  OD1 ASP C 413      22.235  21.351  14.802  1.00 87.89           O  \\nATOM   4869  OD2 ASP C 413      24.039  21.585  16.026  1.00 87.89           O  \\nATOM   4870  N   ASN C 414      20.171  23.907  14.884  1.00 91.53           N  \\nATOM   4871  CA  ASN C 414      19.525  24.261  13.625  1.00 91.53           C  \\nATOM   4872  C   ASN C 414      19.920  23.304  12.503  1.00 91.53           C  \\nATOM   4873  CB  ASN C 414      19.860  25.702  13.236  1.00 91.53           C  \\nATOM   4874  O   ASN C 414      19.074  22.886  11.712  1.00 91.53           O  \\nATOM   4875  CG  ASN C 414      18.940  26.245  12.159  1.00 91.53           C  \\nATOM   4876  ND2 ASN C 414      19.464  27.138  11.327  1.00 91.53           N  \\nATOM   4877  OD1 ASN C 414      17.769  25.867  12.077  1.00 91.53           O  \\nATOM   4878  N   GLU C 415      21.154  22.870  12.486  1.00 93.89           N  \\nATOM   4879  CA  GLU C 415      21.656  22.002  11.425  1.00 93.89           C  \\nATOM   4880  C   GLU C 415      21.067  20.598  11.536  1.00 93.89           C  \\nATOM   4881  CB  GLU C 415      23.185  21.935  11.464  1.00 93.89           C  \\nATOM   4882  O   GLU C 415      20.652  20.013  10.533  1.00 93.89           O  \\nATOM   4883  CG  GLU C 415      23.868  23.227  11.040  1.00 93.89           C  \\nATOM   4884  CD  GLU C 415      25.385  23.138  11.059  1.00 93.89           C  \\nATOM   4885  OE1 GLU C 415      26.052  24.014  10.463  1.00 93.89           O  \\nATOM   4886  OE2 GLU C 415      25.912  22.184  11.674  1.00 93.89           O  \\nATOM   4887  N   THR C 416      21.057  20.038  12.691  1.00 90.93           N  \\nATOM   4888  CA  THR C 416      20.489  18.707  12.880  1.00 90.93           C  \\nATOM   4889  C   THR C 416      18.988  18.716  12.605  1.00 90.93           C  \\nATOM   4890  CB  THR C 416      20.750  18.186  14.305  1.00 90.93           C  \\nATOM   4891  O   THR C 416      18.438  17.733  12.104  1.00 90.93           O  \\nATOM   4892  CG2 THR C 416      22.238  17.956  14.544  1.00 90.93           C  \\nATOM   4893  OG1 THR C 416      20.268  19.146  15.254  1.00 90.93           O  \\nATOM   4894  N   GLU C 417      18.373  19.813  12.945  1.00 92.19           N  \\nATOM   4895  CA  GLU C 417      16.946  19.971  12.682  1.00 92.19           C  \\nATOM   4896  C   GLU C 417      16.655  19.955  11.184  1.00 92.19           C  \\nATOM   4897  CB  GLU C 417      16.424  21.268  13.306  1.00 92.19           C  \\nATOM   4898  O   GLU C 417      15.723  19.285  10.735  1.00 92.19           O  \\nATOM   4899  CG  GLU C 417      14.908  21.390  13.292  1.00 92.19           C  \\nATOM   4900  CD  GLU C 417      14.401  22.649  13.978  1.00 92.19           C  \\nATOM   4901  OE1 GLU C 417      13.199  22.972  13.843  1.00 92.19           O  \\nATOM   4902  OE2 GLU C 417      15.213  23.319  14.655  1.00 92.19           O  \\nATOM   4903  N   ILE C 418      17.473  20.688  10.470  1.00 95.69           N  \\nATOM   4904  CA  ILE C 418      17.309  20.743   9.022  1.00 95.69           C  \\nATOM   4905  C   ILE C 418      17.549  19.359   8.423  1.00 95.69           C  \\nATOM   4906  CB  ILE C 418      18.264  21.777   8.384  1.00 95.69           C  \\nATOM   4907  O   ILE C 418      16.809  18.921   7.539  1.00 95.69           O  \\nATOM   4908  CG1 ILE C 418      17.838  23.200   8.758  1.00 95.69           C  \\nATOM   4909  CG2 ILE C 418      18.312  21.601   6.863  1.00 95.69           C  \\nATOM   4910  CD1 ILE C 418      16.422  23.556   8.327  1.00 95.69           C  \\nATOM   4911  N   ASN C 419      18.579  18.687   8.922  1.00 93.41           N  \\nATOM   4912  CA  ASN C 419      18.826  17.326   8.457  1.00 93.41           C  \\nATOM   4913  C   ASN C 419      17.617  16.425   8.693  1.00 93.41           C  \\nATOM   4914  CB  ASN C 419      20.065  16.742   9.140  1.00 93.41           C  \\nATOM   4915  O   ASN C 419      17.211  15.679   7.800  1.00 93.41           O  \\nATOM   4916  CG  ASN C 419      21.359  17.233   8.521  1.00 93.41           C  \\nATOM   4917  ND2 ASN C 419      22.484  16.792   9.071  1.00 93.41           N  \\nATOM   4918  OD1 ASN C 419      21.347  18.002   7.556  1.00 93.41           O  \\nATOM   4919  N   PHE C 420      17.066  16.529   9.845  1.00 90.88           N  \\nATOM   4920  CA  PHE C 420      15.906  15.720  10.200  1.00 90.88           C  \\nATOM   4921  C   PHE C 420      14.721  16.049   9.301  1.00 90.88           C  \\nATOM   4922  CB  PHE C 420      15.528  15.936  11.669  1.00 90.88           C  \\nATOM   4923  O   PHE C 420      14.088  15.150   8.745  1.00 90.88           O  \\nATOM   4924  CG  PHE C 420      14.186  15.364  12.041  1.00 90.88           C  \\nATOM   4925  CD1 PHE C 420      13.095  16.196  12.256  1.00 90.88           C  \\nATOM   4926  CD2 PHE C 420      14.017  13.992  12.175  1.00 90.88           C  \\nATOM   4927  CE1 PHE C 420      11.853  15.669  12.600  1.00 90.88           C  \\nATOM   4928  CE2 PHE C 420      12.778  13.458  12.518  1.00 90.88           C  \\nATOM   4929  CZ  PHE C 420      11.698  14.298  12.732  1.00 90.88           C  \\nATOM   4930  N   LEU C 421      14.422  17.321   9.156  1.00 95.49           N  \\nATOM   4931  CA  LEU C 421      13.276  17.756   8.365  1.00 95.49           C  \\nATOM   4932  C   LEU C 421      13.457  17.384   6.897  1.00 95.49           C  \\nATOM   4933  CB  LEU C 421      13.075  19.267   8.500  1.00 95.49           C  \\nATOM   4934  O   LEU C 421      12.491  17.030   6.218  1.00 95.49           O  \\nATOM   4935  CG  LEU C 421      12.499  19.759   9.828  1.00 95.49           C  \\nATOM   4936  CD1 LEU C 421      12.624  21.275   9.932  1.00 95.49           C  \\nATOM   4937  CD2 LEU C 421      11.044  19.326   9.974  1.00 95.49           C  \\nATOM   4938  N   LEU C 422      14.678  17.479   6.406  1.00 95.99           N  \\nATOM   4939  CA  LEU C 422      14.936  17.087   5.025  1.00 95.99           C  \\nATOM   4940  C   LEU C 422      14.674  15.598   4.826  1.00 95.99           C  \\nATOM   4941  CB  LEU C 422      16.378  17.420   4.634  1.00 95.99           C  \\nATOM   4942  O   LEU C 422      14.060  15.199   3.834  1.00 95.99           O  \\nATOM   4943  CG  LEU C 422      16.781  17.100   3.194  1.00 95.99           C  \\nATOM   4944  CD1 LEU C 422      16.052  18.022   2.222  1.00 95.99           C  \\nATOM   4945  CD2 LEU C 422      18.291  17.220   3.021  1.00 95.99           C  \\nATOM   4946  N   LYS C 423      15.206  14.892   5.746  1.00 89.76           N  \\nATOM   4947  CA  LYS C 423      14.957  13.456   5.650  1.00 89.76           C  \\nATOM   4948  C   LYS C 423      13.461  13.158   5.624  1.00 89.76           C  \\nATOM   4949  CB  LYS C 423      15.619  12.718   6.814  1.00 89.76           C  \\nATOM   4950  O   LYS C 423      12.999  12.343   4.822  1.00 89.76           O  \\nATOM   4951  CG  LYS C 423      15.552  11.202   6.704  1.00 89.76           C  \\nATOM   4952  CD  LYS C 423      16.365  10.525   7.799  1.00 89.76           C  \\nATOM   4953  CE  LYS C 423      16.306   9.007   7.684  1.00 89.76           C  \\nATOM   4954  NZ  LYS C 423      17.031   8.514   6.475  1.00 89.76           N  \\nATOM   4955  N   GLN C 424      12.674  13.757   6.482  1.00 90.59           N  \\nATOM   4956  CA  GLN C 424      11.226  13.583   6.511  1.00 90.59           C  \\nATOM   4957  C   GLN C 424      10.588  14.057   5.208  1.00 90.59           C  \\nATOM   4958  CB  GLN C 424      10.617  14.333   7.696  1.00 90.59           C  \\nATOM   4959  O   GLN C 424       9.715  13.384   4.657  1.00 90.59           O  \\nATOM   4960  CG  GLN C 424      11.020  13.770   9.053  1.00 90.59           C  \\nATOM   4961  CD  GLN C 424      10.516  12.356   9.274  1.00 90.59           C  \\nATOM   4962  NE2 GLN C 424       9.290  12.235   9.771  1.00 90.59           N  \\nATOM   4963  OE1 GLN C 424      11.222  11.381   9.000  1.00 90.59           O  \\nATOM   4964  N   ALA C 425      11.062  15.173   4.731  1.00 95.44           N  \\nATOM   4965  CA  ALA C 425      10.492  15.762   3.522  1.00 95.44           C  \\nATOM   4966  C   ALA C 425      10.712  14.857   2.314  1.00 95.44           C  \\nATOM   4967  CB  ALA C 425      11.096  17.141   3.266  1.00 95.44           C  \\nATOM   4968  O   ALA C 425       9.848  14.756   1.439  1.00 95.44           O  \\nATOM   4969  N   LEU C 426      11.869  14.210   2.195  1.00 92.42           N  \\nATOM   4970  CA  LEU C 426      12.154  13.302   1.090  1.00 92.42           C  \\nATOM   4971  C   LEU C 426      11.160  12.146   1.066  1.00 92.42           C  \\nATOM   4972  CB  LEU C 426      13.582  12.760   1.197  1.00 92.42           C  \\nATOM   4973  O   LEU C 426      10.797  11.656  -0.006  1.00 92.42           O  \\nATOM   4974  CG  LEU C 426      14.709  13.768   0.967  1.00 92.42           C  \\nATOM   4975  CD1 LEU C 426      16.063  13.118   1.227  1.00 92.42           C  \\nATOM   4976  CD2 LEU C 426      14.643  14.331  -0.449  1.00 92.42           C  \\nATOM   4977  N   THR C 427      10.640  11.803   2.189  1.00 81.53           N  \\nATOM   4978  CA  THR C 427       9.736  10.666   2.326  1.00 81.53           C  \\nATOM   4979  C   THR C 427       8.282  11.116   2.224  1.00 81.53           C  \\nATOM   4980  CB  THR C 427       9.957   9.935   3.664  1.00 81.53           C  \\nATOM   4981  O   THR C 427       7.425  10.363   1.757  1.00 81.53           O  \\nATOM   4982  CG2 THR C 427       9.043   8.720   3.784  1.00 81.53           C  \\nATOM   4983  OG1 THR C 427      11.321   9.503   3.746  1.00 81.53           O  \\nATOM   4984  N   ILE C 428       7.991  12.320   2.600  1.00 89.76           N  \\nATOM   4985  CA  ILE C 428       6.604  12.753   2.738  1.00 89.76           C  \\nATOM   4986  C   ILE C 428       6.259  13.740   1.625  1.00 89.76           C  \\nATOM   4987  CB  ILE C 428       6.347  13.393   4.120  1.00 89.76           C  \\nATOM   4988  O   ILE C 428       5.402  13.460   0.782  1.00 89.76           O  \\nATOM   4989  CG1 ILE C 428       6.524  12.352   5.232  1.00 89.76           C  \\nATOM   4990  CG2 ILE C 428       4.951  14.020   4.174  1.00 89.76           C  \\nATOM   4991  CD1 ILE C 428       6.546  12.943   6.635  1.00 89.76           C  \\nATOM   4992  N   VAL C 429       7.025  14.866   1.558  1.00 96.07           N  \\nATOM   4993  CA  VAL C 429       6.726  15.920   0.593  1.00 96.07           C  \\nATOM   4994  C   VAL C 429       7.073  15.444  -0.815  1.00 96.07           C  \\nATOM   4995  CB  VAL C 429       7.491  17.222   0.920  1.00 96.07           C  \\nATOM   4996  O   VAL C 429       6.342  15.722  -1.769  1.00 96.07           O  \\nATOM   4997  CG1 VAL C 429       7.218  18.288  -0.139  1.00 96.07           C  \\nATOM   4998  CG2 VAL C 429       7.107  17.732   2.308  1.00 96.07           C  \\nATOM   4999  N   GLY C 430       8.117  14.693  -0.936  1.00 92.85           N  \\nATOM   5000  CA  GLY C 430       8.566  14.200  -2.228  1.00 92.85           C  \\nATOM   5001  C   GLY C 430       7.583  13.242  -2.875  1.00 92.85           C  \\nATOM   5002  O   GLY C 430       7.587  13.071  -4.096  1.00 92.85           O  \\nATOM   5003  N   THR C 431       6.674  12.641  -2.153  1.00 89.04           N  \\nATOM   5004  CA  THR C 431       5.777  11.607  -2.655  1.00 89.04           C  \\nATOM   5005  C   THR C 431       4.435  12.207  -3.065  1.00 89.04           C  \\nATOM   5006  CB  THR C 431       5.549  10.505  -1.603  1.00 89.04           C  \\nATOM   5007  O   THR C 431       3.716  11.632  -3.885  1.00 89.04           O  \\nATOM   5008  CG2 THR C 431       4.836   9.302  -2.212  1.00 89.04           C  \\nATOM   5009  OG1 THR C 431       6.815  10.083  -1.081  1.00 89.04           O  \\nATOM   5010  N   LEU C 432       4.038  13.365  -2.571  1.00 94.38           N  \\nATOM   5011  CA  LEU C 432       2.697  13.929  -2.674  1.00 94.38           C  \\nATOM   5012  C   LEU C 432       2.330  14.199  -4.129  1.00 94.38           C  \\nATOM   5013  CB  LEU C 432       2.596  15.223  -1.861  1.00 94.38           C  \\nATOM   5014  O   LEU C 432       1.260  13.797  -4.589  1.00 94.38           O  \\nATOM   5015  CG  LEU C 432       2.421  15.063  -0.350  1.00 94.38           C  \\nATOM   5016  CD1 LEU C 432       2.645  16.397   0.354  1.00 94.38           C  \\nATOM   5017  CD2 LEU C 432       1.037  14.508  -0.028  1.00 94.38           C  \\nATOM   5018  N   PRO C 433       3.257  14.782  -4.926  1.00 96.61           N  \\nATOM   5019  CA  PRO C 433       2.886  15.036  -6.320  1.00 96.61           C  \\nATOM   5020  C   PRO C 433       2.645  13.752  -7.110  1.00 96.61           C  \\nATOM   5021  CB  PRO C 433       4.093  15.799  -6.873  1.00 96.61           C  \\nATOM   5022  O   PRO C 433       1.730  13.694  -7.936  1.00 96.61           O  \\nATOM   5023  CG  PRO C 433       4.696  16.474  -5.684  1.00 96.61           C  \\nATOM   5024  CD  PRO C 433       4.536  15.574  -4.492  1.00 96.61           C  \\nATOM   5025  N   PHE C 434       3.457  12.777  -6.844  1.00 94.43           N  \\nATOM   5026  CA  PHE C 434       3.299  11.507  -7.543  1.00 94.43           C  \\nATOM   5027  C   PHE C 434       1.961  10.863  -7.199  1.00 94.43           C  \\nATOM   5028  CB  PHE C 434       4.445  10.553  -7.193  1.00 94.43           C  \\nATOM   5029  O   PHE C 434       1.234  10.416  -8.089  1.00 94.43           O  \\nATOM   5030  CG  PHE C 434       4.324   9.197  -7.835  1.00 94.43           C  \\nATOM   5031  CD1 PHE C 434       3.796   8.123  -7.129  1.00 94.43           C  \\nATOM   5032  CD2 PHE C 434       4.739   8.997  -9.145  1.00 94.43           C  \\nATOM   5033  CE1 PHE C 434       3.682   6.867  -7.721  1.00 94.43           C  \\nATOM   5034  CE2 PHE C 434       4.629   7.745  -9.743  1.00 94.43           C  \\nATOM   5035  CZ  PHE C 434       4.101   6.681  -9.029  1.00 94.43           C  \\nATOM   5036  N   THR C 435       1.606  10.804  -5.935  1.00 90.74           N  \\nATOM   5037  CA  THR C 435       0.351  10.201  -5.499  1.00 90.74           C  \\nATOM   5038  C   THR C 435      -0.841  10.937  -6.105  1.00 90.74           C  \\nATOM   5039  CB  THR C 435       0.233  10.204  -3.964  1.00 90.74           C  \\nATOM   5040  O   THR C 435      -1.786  10.308  -6.586  1.00 90.74           O  \\nATOM   5041  CG2 THR C 435      -1.010   9.449  -3.506  1.00 90.74           C  \\nATOM   5042  OG1 THR C 435       1.393   9.579  -3.400  1.00 90.74           O  \\nATOM   5043  N   TYR C 436      -0.753  12.234  -6.072  1.00 95.48           N  \\nATOM   5044  CA  TYR C 436      -1.792  13.064  -6.670  1.00 95.48           C  \\nATOM   5045  C   TYR C 436      -1.902  12.807  -8.168  1.00 95.48           C  \\nATOM   5046  CB  TYR C 436      -1.509  14.548  -6.414  1.00 95.48           C  \\nATOM   5047  O   TYR C 436      -2.986  12.514  -8.676  1.00 95.48           O  \\nATOM   5048  CG  TYR C 436      -2.374  15.480  -7.228  1.00 95.48           C  \\nATOM   5049  CD1 TYR C 436      -1.809  16.355  -8.153  1.00 95.48           C  \\nATOM   5050  CD2 TYR C 436      -3.756  15.488  -7.074  1.00 95.48           C  \\nATOM   5051  CE1 TYR C 436      -2.601  17.217  -8.905  1.00 95.48           C  \\nATOM   5052  CE2 TYR C 436      -4.558  16.346  -7.819  1.00 95.48           C  \\nATOM   5053  OH  TYR C 436      -4.761  18.056  -9.472  1.00 95.48           O  \\nATOM   5054  CZ  TYR C 436      -3.972  17.205  -8.731  1.00 95.48           C  \\nATOM   5055  N   MET C 437      -0.861  12.875  -8.852  1.00 97.18           N  \\nATOM   5056  CA  MET C 437      -0.833  12.729 -10.304  1.00 97.18           C  \\nATOM   5057  C   MET C 437      -1.340  11.353 -10.723  1.00 97.18           C  \\nATOM   5058  CB  MET C 437       0.583  12.950 -10.840  1.00 97.18           C  \\nATOM   5059  O   MET C 437      -2.121  11.236 -11.669  1.00 97.18           O  \\nATOM   5060  CG  MET C 437       0.690  12.836 -12.352  1.00 97.18           C  \\nATOM   5061  SD  MET C 437       1.083  11.130 -12.902  1.00 97.18           S  \\nATOM   5062  CE  MET C 437       2.894  11.171 -12.803  1.00 97.18           C  \\nATOM   5063  N   LEU C 438      -0.857  10.291 -10.100  1.00 95.31           N  \\nATOM   5064  CA  LEU C 438      -1.239   8.924 -10.438  1.00 95.31           C  \\nATOM   5065  C   LEU C 438      -2.752   8.748 -10.360  1.00 95.31           C  \\nATOM   5066  CB  LEU C 438      -0.549   7.927  -9.503  1.00 95.31           C  \\nATOM   5067  O   LEU C 438      -3.373   8.248 -11.301  1.00 95.31           O  \\nATOM   5068  CG  LEU C 438      -0.998   6.470  -9.615  1.00 95.31           C  \\nATOM   5069  CD1 LEU C 438      -0.658   5.914 -10.994  1.00 95.31           C  \\nATOM   5070  CD2 LEU C 438      -0.355   5.626  -8.520  1.00 95.31           C  \\nATOM   5071  N   GLU C 439      -3.299   9.160  -9.256  1.00 94.25           N  \\nATOM   5072  CA  GLU C 439      -4.737   8.974  -9.084  1.00 94.25           C  \\nATOM   5073  C   GLU C 439      -5.527   9.860 -10.044  1.00 94.25           C  \\nATOM   5074  CB  GLU C 439      -5.148   9.268  -7.639  1.00 94.25           C  \\nATOM   5075  O   GLU C 439      -6.560   9.445 -10.572  1.00 94.25           O  \\nATOM   5076  CG  GLU C 439      -6.396   8.521  -7.191  1.00 94.25           C  \\nATOM   5077  CD  GLU C 439      -6.213   7.012  -7.157  1.00 94.25           C  \\nATOM   5078  OE1 GLU C 439      -7.212   6.275  -7.321  1.00 94.25           O  \\nATOM   5079  OE2 GLU C 439      -5.061   6.563  -6.965  1.00 94.25           O  \\nATOM   5080  N   LYS C 440      -5.067  11.112 -10.210  1.00 96.63           N  \\nATOM   5081  CA  LYS C 440      -5.707  11.983 -11.192  1.00 96.63           C  \\nATOM   5082  C   LYS C 440      -5.709  11.342 -12.577  1.00 96.63           C  \\nATOM   5083  CB  LYS C 440      -5.006  13.341 -11.244  1.00 96.63           C  \\nATOM   5084  O   LYS C 440      -6.734  11.336 -13.262  1.00 96.63           O  \\nATOM   5085  CG  LYS C 440      -5.677  14.350 -12.164  1.00 96.63           C  \\nATOM   5086  CD  LYS C 440      -5.049  15.731 -12.032  1.00 96.63           C  \\nATOM   5087  CE  LYS C 440      -5.736  16.747 -12.935  1.00 96.63           C  \\nATOM   5088  NZ  LYS C 440      -5.445  18.150 -12.512  1.00 96.63           N  \\nATOM   5089  N   TRP C 441      -4.583  10.835 -13.000  1.00 98.11           N  \\nATOM   5090  CA  TRP C 441      -4.483  10.150 -14.284  1.00 98.11           C  \\nATOM   5091  C   TRP C 441      -5.464   8.984 -14.357  1.00 98.11           C  \\nATOM   5092  CB  TRP C 441      -3.055   9.647 -14.516  1.00 98.11           C  \\nATOM   5093  O   TRP C 441      -6.177   8.826 -15.350  1.00 98.11           O  \\nATOM   5094  CG  TRP C 441      -2.855   8.970 -15.839  1.00 98.11           C  \\nATOM   5095  CD1 TRP C 441      -2.508   9.560 -17.022  1.00 98.11           C  \\nATOM   5096  CD2 TRP C 441      -2.996   7.573 -16.113  1.00 98.11           C  \\nATOM   5097  CE2 TRP C 441      -2.718   7.386 -17.485  1.00 98.11           C  \\nATOM   5098  CE3 TRP C 441      -3.330   6.459 -15.330  1.00 98.11           C  \\nATOM   5099  NE1 TRP C 441      -2.423   8.612 -18.016  1.00 98.11           N  \\nATOM   5100  CH2 TRP C 441      -3.093   5.056 -17.303  1.00 98.11           C  \\nATOM   5101  CZ2 TRP C 441      -2.764   6.128 -18.091  1.00 98.11           C  \\nATOM   5102  CZ3 TRP C 441      -3.375   5.208 -15.936  1.00 98.11           C  \\nATOM   5103  N   ARG C 442      -5.572   8.135 -13.362  1.00 97.17           N  \\nATOM   5104  CA  ARG C 442      -6.453   6.971 -13.357  1.00 97.17           C  \\nATOM   5105  C   ARG C 442      -7.917   7.392 -13.433  1.00 97.17           C  \\nATOM   5106  CB  ARG C 442      -6.216   6.123 -12.105  1.00 97.17           C  \\nATOM   5107  O   ARG C 442      -8.706   6.783 -14.158  1.00 97.17           O  \\nATOM   5108  CG  ARG C 442      -4.913   5.341 -12.129  1.00 97.17           C  \\nATOM   5109  CD  ARG C 442      -4.769   4.446 -10.906  1.00 97.17           C  \\nATOM   5110  NE  ARG C 442      -5.745   3.360 -10.915  1.00 97.17           N  \\nATOM   5111  NH1 ARG C 442      -5.371   2.729  -8.724  1.00 97.17           N  \\nATOM   5112  NH2 ARG C 442      -6.916   1.611  -9.996  1.00 97.17           N  \\nATOM   5113  CZ  ARG C 442      -6.008   2.569  -9.878  1.00 97.17           C  \\nATOM   5114  N   TRP C 443      -8.245   8.450 -12.655  1.00 96.99           N  \\nATOM   5115  CA  TRP C 443      -9.615   8.949 -12.726  1.00 96.99           C  \\nATOM   5116  C   TRP C 443      -9.958   9.396 -14.143  1.00 96.99           C  \\nATOM   5117  CB  TRP C 443      -9.816  10.110 -11.749  1.00 96.99           C  \\nATOM   5118  O   TRP C 443     -11.055   9.124 -14.638  1.00 96.99           O  \\nATOM   5119  CG  TRP C 443      -9.728   9.713 -10.306  1.00 96.99           C  \\nATOM   5120  CD1 TRP C 443      -9.817   8.449  -9.792  1.00 96.99           C  \\nATOM   5121  CD2 TRP C 443      -9.540  10.588  -9.189  1.00 96.99           C  \\nATOM   5122  CE2 TRP C 443      -9.523   9.785  -8.027  1.00 96.99           C  \\nATOM   5123  CE3 TRP C 443      -9.382  11.974  -9.058  1.00 96.99           C  \\nATOM   5124  NE1 TRP C 443      -9.694   8.486  -8.422  1.00 96.99           N  \\nATOM   5125  CH2 TRP C 443      -9.202  11.683  -6.650  1.00 96.99           C  \\nATOM   5126  CZ2 TRP C 443      -9.354  10.324  -6.749  1.00 96.99           C  \\nATOM   5127  CZ3 TRP C 443      -9.215  12.509  -7.786  1.00 96.99           C  \\nATOM   5128  N   MET C 444      -9.051  10.106 -14.767  1.00 98.07           N  \\nATOM   5129  CA  MET C 444      -9.272  10.573 -16.133  1.00 98.07           C  \\nATOM   5130  C   MET C 444      -9.389   9.398 -17.098  1.00 98.07           C  \\nATOM   5131  CB  MET C 444      -8.139  11.502 -16.574  1.00 98.07           C  \\nATOM   5132  O   MET C 444     -10.199   9.430 -18.026  1.00 98.07           O  \\nATOM   5133  CG  MET C 444      -8.102  12.823 -15.824  1.00 98.07           C  \\nATOM   5134  SD  MET C 444      -6.641  13.841 -16.266  1.00 98.07           S  \\nATOM   5135  CE  MET C 444      -7.087  14.325 -17.957  1.00 98.07           C  \\nATOM   5136  N   VAL C 445      -8.577   8.357 -16.893  1.00 98.22           N  \\nATOM   5137  CA  VAL C 445      -8.641   7.156 -17.720  1.00 98.22           C  \\nATOM   5138  C   VAL C 445      -9.994   6.473 -17.537  1.00 98.22           C  \\nATOM   5139  CB  VAL C 445      -7.497   6.173 -17.383  1.00 98.22           C  \\nATOM   5140  O   VAL C 445     -10.666   6.140 -18.516  1.00 98.22           O  \\nATOM   5141  CG1 VAL C 445      -7.785   4.790 -17.965  1.00 98.22           C  \\nATOM   5142  CG2 VAL C 445      -6.164   6.708 -17.903  1.00 98.22           C  \\nATOM   5143  N   PHE C 446     -10.463   6.299 -16.358  1.00 97.83           N  \\nATOM   5144  CA  PHE C 446     -11.735   5.645 -16.071  1.00 97.83           C  \\nATOM   5145  C   PHE C 446     -12.898   6.454 -16.631  1.00 97.83           C  \\nATOM   5146  CB  PHE C 446     -11.910   5.448 -14.562  1.00 97.83           C  \\nATOM   5147  O   PHE C 446     -13.893   5.886 -17.086  1.00 97.83           O  \\nATOM   5148  CG  PHE C 446     -11.009   4.394 -13.978  1.00 97.83           C  \\nATOM   5149  CD1 PHE C 446     -10.916   3.137 -14.563  1.00 97.83           C  \\nATOM   5150  CD2 PHE C 446     -10.253   4.661 -12.843  1.00 97.83           C  \\nATOM   5151  CE1 PHE C 446     -10.082   2.160 -14.025  1.00 97.83           C  \\nATOM   5152  CE2 PHE C 446      -9.418   3.689 -12.300  1.00 97.83           C  \\nATOM   5153  CZ  PHE C 446      -9.334   2.439 -12.891  1.00 97.83           C  \\nATOM   5154  N   LYS C 447     -12.782   7.757 -16.533  1.00 97.14           N  \\nATOM   5155  CA  LYS C 447     -13.820   8.653 -17.035  1.00 97.14           C  \\nATOM   5156  C   LYS C 447     -13.848   8.662 -18.560  1.00 97.14           C  \\nATOM   5157  CB  LYS C 447     -13.605  10.072 -16.506  1.00 97.14           C  \\nATOM   5158  O   LYS C 447     -14.810   9.141 -19.166  1.00 97.14           O  \\nATOM   5159  CG  LYS C 447     -14.804  10.990 -16.692  1.00 97.14           C  \\nATOM   5160  CD  LYS C 447     -14.582  12.342 -16.027  1.00 97.14           C  \\nATOM   5161  CE  LYS C 447     -15.783  13.260 -16.209  1.00 97.14           C  \\nATOM   5162  NZ  LYS C 447     -15.569  14.587 -15.557  1.00 97.14           N  \\nATOM   5163  N   GLY C 448     -12.767   8.192 -19.208  1.00 97.17           N  \\nATOM   5164  CA  GLY C 448     -12.670   8.180 -20.659  1.00 97.17           C  \\nATOM   5165  C   GLY C 448     -12.165   9.489 -21.235  1.00 97.17           C  \\nATOM   5166  O   GLY C 448     -12.305   9.742 -22.433  1.00 97.17           O  \\nATOM   5167  N   GLU C 449     -11.595  10.356 -20.455  1.00 97.47           N  \\nATOM   5168  CA  GLU C 449     -11.090  11.660 -20.874  1.00 97.47           C  \\nATOM   5169  C   GLU C 449      -9.767  11.525 -21.622  1.00 97.47           C  \\nATOM   5170  CB  GLU C 449     -10.919  12.584 -19.666  1.00 97.47           C  \\nATOM   5171  O   GLU C 449      -9.379  12.421 -22.375  1.00 97.47           O  \\nATOM   5172  CG  GLU C 449     -12.233  13.057 -19.062  1.00 97.47           C  \\nATOM   5173  CD  GLU C 449     -12.048  13.935 -17.835  1.00 97.47           C  \\nATOM   5174  OE1 GLU C 449     -13.062  14.363 -17.237  1.00 97.47           O  \\nATOM   5175  OE2 GLU C 449     -10.881  14.197 -17.468  1.00 97.47           O  \\nATOM   5176  N   ILE C 450      -9.052  10.438 -21.397  1.00 98.18           N  \\nATOM   5177  CA  ILE C 450      -7.821  10.152 -22.125  1.00 98.18           C  \\nATOM   5178  C   ILE C 450      -8.037   8.962 -23.057  1.00 98.18           C  \\nATOM   5179  CB  ILE C 450      -6.647   9.872 -21.160  1.00 98.18           C  \\nATOM   5180  O   ILE C 450      -8.232   7.834 -22.598  1.00 98.18           O  \\nATOM   5181  CG1 ILE C 450      -6.547  10.978 -20.104  1.00 98.18           C  \\nATOM   5182  CG2 ILE C 450      -5.333   9.735 -21.935  1.00 98.18           C  \\nATOM   5183  CD1 ILE C 450      -5.562  10.677 -18.983  1.00 98.18           C  \\nATOM   5184  N   PRO C 451      -7.955   9.232 -24.345  1.00 96.36           N  \\nATOM   5185  CA  PRO C 451      -8.084   8.094 -25.259  1.00 96.36           C  \\nATOM   5186  C   PRO C 451      -6.994   7.044 -25.051  1.00 96.36           C  \\nATOM   5187  CB  PRO C 451      -7.965   8.738 -26.642  1.00 96.36           C  \\nATOM   5188  O   PRO C 451      -5.854   7.388 -24.729  1.00 96.36           O  \\nATOM   5189  CG  PRO C 451      -8.198  10.195 -26.407  1.00 96.36           C  \\nATOM   5190  CD  PRO C 451      -7.835  10.513 -24.985  1.00 96.36           C  \\nATOM   5191  N   LYS C 452      -7.309   5.779 -25.282  1.00 94.46           N  \\nATOM   5192  CA  LYS C 452      -6.422   4.648 -25.025  1.00 94.46           C  \\nATOM   5193  C   LYS C 452      -5.088   4.821 -25.745  1.00 94.46           C  \\nATOM   5194  CB  LYS C 452      -7.084   3.338 -25.456  1.00 94.46           C  \\nATOM   5195  O   LYS C 452      -4.043   4.413 -25.234  1.00 94.46           O  \\nATOM   5196  CG  LYS C 452      -8.198   2.873 -24.530  1.00 94.46           C  \\nATOM   5197  CD  LYS C 452      -8.783   1.542 -24.983  1.00 94.46           C  \\nATOM   5198  CE  LYS C 452      -9.993   1.148 -24.146  1.00 94.46           C  \\nATOM   5199  NZ  LYS C 452     -10.613  -0.121 -24.632  1.00 94.46           N  \\nATOM   5200  N   ASP C 453      -5.078   5.367 -26.905  1.00 96.39           N  \\nATOM   5201  CA  ASP C 453      -3.863   5.506 -27.701  1.00 96.39           C  \\nATOM   5202  C   ASP C 453      -3.040   6.707 -27.241  1.00 96.39           C  \\nATOM   5203  CB  ASP C 453      -4.206   5.641 -29.186  1.00 96.39           C  \\nATOM   5204  O   ASP C 453      -2.032   7.050 -27.863  1.00 96.39           O  \\nATOM   5205  CG  ASP C 453      -5.086   6.842 -29.485  1.00 96.39           C  \\nATOM   5206  OD1 ASP C 453      -5.737   7.367 -28.556  1.00 96.39           O  \\nATOM   5207  OD2 ASP C 453      -5.132   7.265 -30.660  1.00 96.39           O  \\nATOM   5208  N   GLN C 454      -3.434   7.323 -26.152  1.00 97.93           N  \\nATOM   5209  CA  GLN C 454      -2.707   8.473 -25.622  1.00 97.93           C  \\nATOM   5210  C   GLN C 454      -2.427   8.307 -24.131  1.00 97.93           C  \\nATOM   5211  CB  GLN C 454      -3.490   9.763 -25.869  1.00 97.93           C  \\nATOM   5212  O   GLN C 454      -2.118   9.280 -23.441  1.00 97.93           O  \\nATOM   5213  CG  GLN C 454      -3.615  10.134 -27.341  1.00 97.93           C  \\nATOM   5214  CD  GLN C 454      -4.349  11.445 -27.555  1.00 97.93           C  \\nATOM   5215  NE2 GLN C 454      -4.621  11.773 -28.814  1.00 97.93           N  \\nATOM   5216  OE1 GLN C 454      -4.669  12.156 -26.598  1.00 97.93           O  \\nATOM   5217  N   TRP C 455      -2.639   7.118 -23.606  1.00 98.08           N  \\nATOM   5218  CA  TRP C 455      -2.471   6.884 -22.176  1.00 98.08           C  \\nATOM   5219  C   TRP C 455      -1.053   7.226 -21.731  1.00 98.08           C  \\nATOM   5220  CB  TRP C 455      -2.792   5.428 -21.828  1.00 98.08           C  \\nATOM   5221  O   TRP C 455      -0.861   7.977 -20.772  1.00 98.08           O  \\nATOM   5222  CG  TRP C 455      -4.258   5.140 -21.705  1.00 98.08           C  \\nATOM   5223  CD1 TRP C 455      -5.292   5.979 -22.015  1.00 98.08           C  \\nATOM   5224  CD2 TRP C 455      -4.854   3.927 -21.233  1.00 98.08           C  \\nATOM   5225  CE2 TRP C 455      -6.255   4.102 -21.285  1.00 98.08           C  \\nATOM   5226  CE3 TRP C 455      -4.339   2.708 -20.772  1.00 98.08           C  \\nATOM   5227  NE1 TRP C 455      -6.495   5.361 -21.765  1.00 98.08           N  \\nATOM   5228  CH2 TRP C 455      -6.617   1.919 -20.445  1.00 98.08           C  \\nATOM   5229  CZ2 TRP C 455      -7.147   3.102 -20.892  1.00 98.08           C  \\nATOM   5230  CZ3 TRP C 455      -5.228   1.714 -20.382  1.00 98.08           C  \\nATOM   5231  N   MET C 456      -0.054   6.705 -22.393  1.00 98.16           N  \\nATOM   5232  CA  MET C 456       1.333   6.928 -21.995  1.00 98.16           C  \\nATOM   5233  C   MET C 456       1.754   8.368 -22.270  1.00 98.16           C  \\nATOM   5234  CB  MET C 456       2.265   5.961 -22.728  1.00 98.16           C  \\nATOM   5235  O   MET C 456       2.500   8.961 -21.489  1.00 98.16           O  \\nATOM   5236  CG  MET C 456       2.179   4.529 -22.228  1.00 98.16           C  \\nATOM   5237  SD  MET C 456       2.353   4.409 -20.405  1.00 98.16           S  \\nATOM   5238  CE  MET C 456       3.332   5.901 -20.078  1.00 98.16           C  \\nATOM   5239  N   LYS C 457       1.308   8.854 -23.441  1.00 97.23           N  \\nATOM   5240  CA  LYS C 457       1.592  10.255 -23.736  1.00 97.23           C  \\nATOM   5241  C   LYS C 457       1.118  11.163 -22.604  1.00 97.23           C  \\nATOM   5242  CB  LYS C 457       0.933  10.671 -25.052  1.00 97.23           C  \\nATOM   5243  O   LYS C 457       1.888  11.975 -22.088  1.00 97.23           O  \\nATOM   5244  CG  LYS C 457       1.223  12.107 -25.463  1.00 97.23           C  \\nATOM   5245  CD  LYS C 457       0.552  12.457 -26.785  1.00 97.23           C  \\nATOM   5246  CE  LYS C 457       0.782  13.914 -27.161  1.00 97.23           C  \\nATOM   5247  NZ  LYS C 457       0.095  14.272 -28.438  1.00 97.23           N  \\nATOM   5248  N   LYS C 458      -0.129  11.036 -22.208  1.00 98.50           N  \\nATOM   5249  CA  LYS C 458      -0.701  11.867 -21.153  1.00 98.50           C  \\nATOM   5250  C   LYS C 458      -0.042  11.578 -19.808  1.00 98.50           C  \\nATOM   5251  CB  LYS C 458      -2.212  11.645 -21.054  1.00 98.50           C  \\nATOM   5252  O   LYS C 458       0.127  12.482 -18.986  1.00 98.50           O  \\nATOM   5253  CG  LYS C 458      -2.937  12.691 -20.221  1.00 98.50           C  \\nATOM   5254  CD  LYS C 458      -2.860  14.070 -20.863  1.00 98.50           C  \\nATOM   5255  CE  LYS C 458      -3.641  15.105 -20.064  1.00 98.50           C  \\nATOM   5256  NZ  LYS C 458      -3.540  16.466 -20.672  1.00 98.50           N  \\nATOM   5257  N   TRP C 459       0.296  10.317 -19.545  1.00 98.01           N  \\nATOM   5258  CA  TRP C 459       1.001   9.946 -18.322  1.00 98.01           C  \\nATOM   5259  C   TRP C 459       2.278  10.764 -18.159  1.00 98.01           C  \\nATOM   5260  CB  TRP C 459       1.335   8.452 -18.326