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15_protein_ligand_docking.ipynb
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"_view_name": "OutputView",
"layout": "IPY_MODEL_61845f063a354dd897135e72e4ceadbe",
"msg_id": "",
"outputs": [
{
"output_type": "display_data",
"data": {
"application/3dmoljs_load.v0": "<div id=\"3dmolviewer_16920164299252748\" style=\"position: relative; width: 600px; height: 480px;\">\n <p id=\"3dmolwarning_16920164299252748\" 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 //this is to ignore the existence of requirejs amd\n var savedexports, savedmodule;\n if (typeof exports !== 'undefined') savedexports = exports;\n else exports = {}\n if (typeof module !== 'undefined') savedmodule = module;\n else module = {}\n\n var tag = document.createElement('script');\n tag.src = uri;\n tag.async = true;\n tag.onload = () => {\n exports = savedexports;\n module = savedmodule;\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://cdnjs.cloudflare.com/ajax/libs/3Dmol/2.0.3/3Dmol-min.js');\n}\n\nvar viewer_16920164299252748 = null;\nvar warn = document.getElementById(\"3dmolwarning_16920164299252748\");\nif(warn) {\n warn.parentNode.removeChild(warn);\n}\n$3Dmolpromise.then(function() {\nviewer_16920164299252748 = $3Dmol.createViewer(document.getElementById(\"3dmolviewer_16920164299252748\"),{backgroundColor:\"white\"});\n$3Dmol.download(\"1000\", viewer_16920164299252748, {}, function() {\nviewer_16920164299252748.zoomTo();\n\tviewer_16920164299252748.addBox({\"center\": {\"x\": 0, \"y\": 0, \"z\": 0}, \"dimensions\": {\"w\": 0, \"h\": 0, \"d\": 0}, \"color\": \"blue\", \"opacity\": 0.6});\n\tviewer_16920164299252748.addModel(\"ATOM 1 N PRO A 1 29.361 39.686 5.862 1.00 38.10 N \\nATOM 2 CA PRO A 1 30.307 38.663 5.319 1.00 40.62 C \\nATOM 3 C PRO A 1 29.760 38.071 4.022 1.00 42.64 C \\nATOM 4 O PRO A 1 28.600 38.302 3.676 1.00 43.40 O \\nATOM 5 CB PRO A 1 30.508 37.541 6.342 1.00 37.87 C \\nATOM 6 CG PRO A 1 29.296 37.591 7.162 1.00 38.40 C \\nATOM 7 CD PRO A 1 28.778 39.015 7.019 1.00 38.74 C \\nATOM 8 N GLN A 2 30.607 37.334 3.305 1.00 41.76 N \\nATOM 9 CA GLN A 2 30.158 36.492 2.199 1.00 41.30 C \\nATOM 10 C GLN A 2 30.298 35.041 2.643 1.00 41.38 C \\nATOM 11 O GLN A 2 31.401 34.494 2.763 1.00 43.09 O \\nATOM 12 CB GLN A 2 30.970 36.738 0.926 1.00 40.81 C \\nATOM 13 CG GLN A 2 30.625 35.783 -0.201 1.00 46.61 C \\nATOM 14 CD GLN A 2 31.184 36.217 -1.549 1.00 50.36 C \\nATOM 15 OE1 GLN A 2 32.006 35.518 -2.156 1.00 53.89 O \\nATOM 16 NE2 GLN A 2 30.684 37.339 -2.061 1.00 51.46 N \\nATOM 17 N ILE A 3 29.160 34.436 2.919 1.00 37.80 N \\nATOM 18 CA ILE A 3 29.123 33.098 3.397 1.00 34.13 C \\nATOM 19 C ILE A 3 28.968 32.155 2.198 1.00 33.19 C \\nATOM 20 O ILE A 3 28.088 32.330 1.368 1.00 32.74 O \\nATOM 21 CB ILE A 3 27.977 32.995 4.409 1.00 34.34 C \\nATOM 22 CG1 ILE A 3 28.341 33.820 5.652 1.00 33.95 C \\nATOM 23 CG2 ILE A 3 27.692 31.548 4.745 1.00 33.06 C \\nATOM 24 CD1 ILE A 3 27.264 33.884 6.696 1.00 32.50 C \\nATOM 25 N THR A 4 29.891 31.210 2.066 1.00 31.65 N \\nATOM 26 CA THR A 4 29.774 30.143 1.062 1.00 30.14 C \\nATOM 27 C THR A 4 28.986 28.975 1.658 1.00 29.74 C \\nATOM 28 O THR A 4 28.690 28.948 2.875 1.00 27.88 O \\nATOM 29 CB THR A 4 31.165 29.618 0.634 1.00 29.24 C \\nATOM 30 OG1 THR A 4 31.866 29.209 1.815 1.00 27.60 O \\nATOM 31 CG2 THR A 4 31.980 30.688 -0.085 1.00 26.26 C \\nATOM 32 N LEU A 5 28.641 28.019 0.803 1.00 29.27 N \\nATOM 33 CA LEU A 5 27.644 27.003 1.144 1.00 30.12 C \\nATOM 34 C LEU A 5 28.204 25.559 1.071 1.00 32.98 C \\nATOM 35 O LEU A 5 27.446 24.583 0.969 1.00 32.32 O \\nATOM 36 CB LEU A 5 26.411 27.139 0.226 1.00 26.21 C \\nATOM 37 CG LEU A 5 25.676 28.479 0.352 1.00 24.56 C \\nATOM 38 CD1 LEU A 5 24.624 28.624 -0.753 1.00 20.74 C \\nATOM 39 CD2 LEU A 5 25.088 28.590 1.745 1.00 21.87 C \\nATOM 40 N TRP A 6 29.528 25.436 1.146 1.00 31.52 N \\nATOM 41 CA TRP A 6 30.177 24.150 1.279 1.00 30.82 C \\nATOM 42 C TRP A 6 29.837 23.488 2.611 1.00 31.90 C \\nATOM 43 O TRP A 6 29.706 22.271 2.673 1.00 33.26 O \\nATOM 44 CB TRP A 6 31.685 24.301 1.109 1.00 28.66 C \\nATOM 45 CG TRP A 6 32.152 24.955 -0.189 1.00 26.42 C \\nATOM 46 CD1 TRP A 6 32.681 26.216 -0.345 1.00 28.49 C \\nATOM 47 CD2 TRP A 6 32.274 24.314 -1.478 1.00 28.47 C \\nATOM 48 NE1 TRP A 6 33.102 26.385 -1.655 1.00 29.88 N \\nATOM 49 CE2 TRP A 6 32.864 25.258 -2.369 1.00 28.86 C \\nATOM 50 CE3 TRP A 6 31.949 23.035 -1.986 1.00 25.06 C \\nATOM 51 CZ2 TRP A 6 33.093 24.968 -3.717 1.00 32.14 C \\nATOM 52 CZ3 TRP A 6 32.195 22.755 -3.294 1.00 27.41 C \\nATOM 53 CH2 TRP A 6 32.754 23.722 -4.169 1.00 30.03 C \\nATOM 54 N GLN A 7 29.667 24.280 3.667 1.00 33.01 N \\nATOM 55 CA GLN A 7 29.141 23.799 4.960 1.00 32.37 C \\nATOM 56 C GLN A 7 27.747 24.395 5.208 1.00 29.95 C \\nATOM 57 O GLN A 7 27.349 25.330 4.547 1.00 26.55 O \\nATOM 58 CB GLN A 7 30.072 24.227 6.100 1.00 38.12 C \\nATOM 59 CG GLN A 7 31.512 23.694 5.995 1.00 48.91 C \\nATOM 60 CD GLN A 7 32.521 24.750 5.469 1.00 59.75 C \\nATOM 61 OE1 GLN A 7 32.666 25.860 6.038 1.00 61.83 O \\nATOM 62 NE2 GLN A 7 33.268 24.374 4.419 1.00 59.99 N \\nATOM 63 N ARG A 8 26.992 23.877 6.169 1.00 27.34 N \\nATOM 64 CA ARG A 8 25.757 24.566 6.593 1.00 29.87 C \\nATOM 65 C ARG A 8 26.029 26.025 6.996 1.00 31.94 C \\nATOM 66 O ARG A 8 26.947 26.291 7.775 1.00 33.83 O \\nATOM 67 CB ARG A 8 25.087 23.849 7.776 1.00 28.16 C \\nATOM 68 CG ARG A 8 24.646 22.409 7.505 1.00 27.47 C \\nATOM 69 CD ARG A 8 23.728 21.896 8.637 1.00 25.45 C \\nATOM 70 NE ARG A 8 22.952 20.730 8.230 1.00 23.06 N \\nATOM 71 CZ ARG A 8 22.367 19.871 9.064 1.00 28.80 C \\nATOM 72 NH1 ARG A 8 22.376 20.074 10.370 1.00 30.95 N \\nATOM 73 NH2 ARG A 8 21.776 18.789 8.589 1.00 26.02 N \\nATOM 74 N PRO A 9 25.123 26.955 6.645 1.00 30.21 N \\nATOM 75 CA PRO A 9 25.491 28.352 6.938 1.00 29.48 C \\nATOM 76 C PRO A 9 25.127 28.763 8.364 1.00 29.45 C \\nATOM 77 O PRO A 9 24.136 29.472 8.578 1.00 28.45 O \\nATOM 78 CB PRO A 9 24.719 29.176 5.916 1.00 27.88 C \\nATOM 79 CG PRO A 9 23.625 28.254 5.407 1.00 28.12 C \\nATOM 80 CD PRO A 9 24.096 26.855 5.591 1.00 31.64 C \\nATOM 81 N LEU A 10 25.905 28.285 9.330 1.00 28.83 N \\nATOM 82 CA LEU A 10 25.653 28.510 10.750 1.00 31.57 C \\nATOM 83 C LEU A 10 26.383 29.770 11.208 1.00 30.48 C \\nATOM 84 O LEU A 10 27.567 29.927 10.938 1.00 31.00 O \\nATOM 85 CB LEU A 10 26.120 27.284 11.573 1.00 31.09 C \\nATOM 86 CG LEU A 10 25.161 26.082 11.544 1.00 35.91 C \\nATOM 87 CD1 LEU A 10 25.895 24.743 11.662 1.00 40.15 C \\nATOM 88 CD2 LEU A 10 24.206 26.196 12.696 1.00 40.51 C \\nATOM 89 N VAL A 11 25.667 30.672 11.872 1.00 30.80 N \\nATOM 90 CA VAL A 11 26.267 31.854 12.497 1.00 30.14 C \\nATOM 91 C VAL A 11 25.818 31.957 13.955 1.00 33.13 C \\nATOM 92 O VAL A 11 24.929 31.184 14.402 1.00 34.48 O \\nATOM 93 CB VAL A 11 25.824 33.131 11.791 1.00 27.12 C \\nATOM 94 CG1 VAL A 11 26.270 33.089 10.323 1.00 28.48 C \\nATOM 95 CG2 VAL A 11 24.333 33.275 11.879 1.00 26.29 C \\nATOM 96 N THR A 12 26.397 32.913 14.700 1.00 32.34 N \\nATOM 97 CA THR A 12 26.001 33.143 16.102 1.00 32.56 C \\nATOM 98 C THR A 12 24.915 34.200 16.204 1.00 33.07 C \\nATOM 99 O THR A 12 25.010 35.279 15.610 1.00 33.62 O \\nATOM 100 CB THR A 12 27.201 33.565 16.998 1.00 33.81 C \\nATOM 101 OG1 THR A 12 28.330 32.709 16.751 1.00 40.47 O \\nATOM 102 CG2 THR A 12 26.827 33.430 18.450 1.00 34.22 C \\nATOM 103 N ILE A 13 23.848 33.868 16.909 1.00 31.84 N \\nATOM 104 CA ILE A 13 22.842 34.875 17.206 1.00 32.26 C \\nATOM 105 C ILE A 13 22.770 35.114 18.707 1.00 33.69 C \\nATOM 106 O ILE A 13 23.328 34.363 19.500 1.00 30.43 O \\nATOM 107 CB ILE A 13 21.413 34.460 16.661 1.00 32.80 C \\nATOM 108 CG1 ILE A 13 20.878 33.229 17.431 1.00 31.81 C \\nATOM 109 CG2 ILE A 13 21.510 34.194 15.162 1.00 27.69 C \\nATOM 110 CD1 ILE A 13 19.353 33.201 17.603 1.00 32.46 C \\nATOM 111 N LYS A 14 22.106 36.199 19.087 1.00 36.78 N \\nATOM 112 CA LYS A 14 21.894 36.545 20.492 1.00 38.20 C \\nATOM 113 C LYS A 14 20.442 36.943 20.615 1.00 37.51 C \\nATOM 114 O LYS A 14 19.960 37.808 19.873 1.00 33.78 O \\nATOM 115 CB LYS A 14 22.777 37.724 20.896 1.00 43.07 C \\nATOM 116 CG LYS A 14 22.727 38.056 22.383 1.00 50.67 C \\nATOM 117 CD LYS A 14 23.270 39.450 22.678 1.00 56.97 C \\nATOM 118 CE LYS A 14 24.814 39.490 22.755 1.00 62.89 C \\nATOM 119 NZ LYS A 14 25.394 40.891 22.572 1.00 69.50 N \\nATOM 120 N ILE A 15 19.739 36.267 21.512 1.00 40.26 N \\nATOM 121 CA ILE A 15 18.345 36.563 21.813 1.00 46.34 C \\nATOM 122 C ILE A 15 18.224 36.327 23.316 1.00 49.77 C \\nATOM 123 O ILE A 15 18.886 35.449 23.864 1.00 52.38 O \\nATOM 124 CB ILE A 15 17.380 35.592 21.022 1.00 45.04 C \\nATOM 125 CG1 ILE A 15 15.935 35.812 21.435 1.00 46.91 C \\nATOM 126 CG2 ILE A 15 17.745 34.137 21.266 1.00 47.78 C \\nATOM 127 CD1 ILE A 15 14.929 35.116 20.526 1.00 50.24 C \\nATOM 128 N GLY A 16 17.446 37.139 24.012 1.00 53.37 N \\nATOM 129 CA GLY A 16 17.356 36.968 25.459 1.00 56.32 C \\nATOM 130 C GLY A 16 18.711 36.871 26.160 1.00 56.91 C \\nATOM 131 O GLY A 16 18.866 36.162 27.153 1.00 55.53 O \\nATOM 132 N GLY A 17 19.671 37.659 25.697 1.00 57.90 N \\nATOM 133 CA GLY A 17 20.970 37.660 26.340 1.00 59.71 C \\nATOM 134 C GLY A 17 21.680 36.316 26.278 1.00 60.57 C \\nATOM 135 O GLY A 17 22.785 36.163 26.794 1.00 63.20 O \\nATOM 136 N GLN A 18 21.093 35.361 25.572 1.00 59.37 N \\nATOM 137 CA GLN A 18 21.780 34.106 25.263 1.00 58.98 C \\nATOM 138 C GLN A 18 22.500 34.159 23.907 1.00 56.87 C \\nATOM 139 O GLN A 18 21.937 34.624 22.915 1.00 56.84 O \\nATOM 140 CB GLN A 18 20.776 32.957 25.228 1.00 63.37 C \\nATOM 141 CG GLN A 18 19.599 33.116 26.176 1.00 67.60 C \\nATOM 142 CD GLN A 18 19.556 31.997 27.179 1.00 72.39 C \\nATOM 143 OE1 GLN A 18 20.393 31.944 28.082 1.00 76.16 O \\nATOM 144 NE2 GLN A 18 18.647 31.035 26.975 1.00 74.55 N \\nATOM 145 N LEU A 19 23.733 33.672 23.848 1.00 53.88 N \\nATOM 146 CA LEU A 19 24.334 33.365 22.552 1.00 49.32 C \\nATOM 147 C LEU A 19 23.896 31.963 22.106 1.00 46.38 C \\nATOM 148 O LEU A 19 23.975 31.020 22.863 1.00 43.18 O \\nATOM 149 CB LEU A 19 25.869 33.432 22.625 1.00 47.14 C \\nATOM 150 CG LEU A 19 26.561 34.761 22.968 1.00 46.02 C \\nATOM 151 CD1 LEU A 19 28.007 34.629 22.620 1.00 46.45 C \\nATOM 152 CD2 LEU A 19 25.983 35.913 22.194 1.00 46.45 C \\nATOM 153 N LYS A 20 23.416 31.855 20.876 1.00 44.76 N \\nATOM 154 CA LYS A 20 23.006 30.584 20.266 1.00 44.52 C \\nATOM 155 C LYS A 20 23.626 30.463 18.874 1.00 42.87 C \\nATOM 156 O LYS A 20 24.024 31.460 18.283 1.00 41.39 O \\nATOM 157 CB LYS A 20 21.494 30.523 20.107 1.00 43.50 C \\nATOM 158 CG LYS A 20 20.778 29.875 21.264 1.00 46.90 C \\nATOM 159 CD LYS A 20 19.868 30.857 21.939 1.00 49.38 C \\nATOM 160 CE LYS A 20 19.112 30.168 23.043 1.00 54.07 C \\nATOM 161 NZ LYS A 20 18.467 28.892 22.571 1.00 60.37 N \\nATOM 162 N GLU A 21 23.725 29.250 18.342 1.00 41.75 N \\nATOM 163 CA GLU A 21 24.053 29.117 16.931 1.00 40.02 C \\nATOM 164 C GLU A 21 22.822 28.761 16.150 1.00 35.18 C \\nATOM 165 O GLU A 21 21.879 28.136 16.672 1.00 30.96 O \\nATOM 166 CB GLU A 21 25.197 28.130 16.679 1.00 45.21 C \\nATOM 167 CG GLU A 21 25.035 26.716 17.168 1.00 55.20 C \\nATOM 168 CD GLU A 21 25.878 25.743 16.334 1.00 63.88 C \\nATOM 169 OE1 GLU A 21 27.022 26.130 15.972 1.00 67.73 O \\nATOM 170 OE2 GLU A 21 25.379 24.639 15.983 1.00 60.14 O \\nATOM 171 N ALA A 22 22.778 29.268 14.927 1.00 30.04 N \\nATOM 172 CA ALA A 22 21.553 29.189 14.165 1.00 26.79 C \\nATOM 173 C ALA A 22 21.870 29.183 12.682 1.00 26.36 C \\nATOM 174 O ALA A 22 22.975 29.578 12.252 1.00 24.88 O \\nATOM 175 CB ALA A 22 20.625 30.359 14.524 1.00 22.80 C \\nATOM 176 N LEU A 23 20.893 28.726 11.903 1.00 25.58 N \\nATOM 177 CA LEU A 23 21.047 28.473 10.476 1.00 25.08 C \\nATOM 178 C LEU A 23 20.381 29.596 9.664 1.00 23.67 C \\nATOM 179 O LEU A 23 19.231 29.943 9.912 1.00 25.94 O \\nATOM 180 CB LEU A 23 20.382 27.135 10.174 1.00 27.31 C \\nATOM 181 CG LEU A 23 20.532 26.573 8.786 1.00 27.99 C \\nATOM 182 CD1 LEU A 23 21.939 26.039 8.621 1.00 29.29 C \\nATOM 183 CD2 LEU A 23 19.490 25.490 8.627 1.00 31.05 C \\nATOM 184 N LEU A 24 21.122 30.163 8.715 1.00 21.67 N \\nATOM 185 CA LEU A 24 20.617 31.144 7.775 1.00 18.03 C \\nATOM 186 C LEU A 24 19.940 30.412 6.617 1.00 19.77 C \\nATOM 187 O LEU A 24 20.567 29.833 5.740 1.00 20.40 O \\nATOM 188 CB LEU A 24 21.767 32.023 7.262 1.00 15.36 C \\nATOM 189 CG LEU A 24 22.647 32.673 8.359 1.00 18.86 C \\nATOM 190 CD1 LEU A 24 23.698 33.581 7.738 1.00 16.70 C \\nATOM 191 CD2 LEU A 24 21.797 33.496 9.368 1.00 18.96 C \\nATOM 192 N ASP A 25 18.626 30.444 6.627 1.00 18.83 N \\nATOM 193 CA ASP A 25 17.853 29.516 5.837 1.00 18.91 C \\nATOM 194 C ASP A 25 16.945 30.292 4.886 1.00 16.83 C \\nATOM 195 O ASP A 25 15.843 30.678 5.237 1.00 17.64 O \\nATOM 196 CB ASP A 25 17.047 28.642 6.811 1.00 16.55 C \\nATOM 197 CG ASP A 25 16.316 27.513 6.146 1.00 21.74 C \\nATOM 198 OD1 ASP A 25 16.236 27.458 4.905 1.00 22.87 O \\nATOM 199 OD2 ASP A 25 15.762 26.696 6.882 1.00 24.00 O \\nATOM 200 N THR A 26 17.364 30.439 3.645 1.00 15.44 N \\nATOM 201 CA THR A 26 16.548 31.148 2.684 1.00 15.16 C \\nATOM 202 C THR A 26 15.302 30.382 2.289 1.00 15.12 C \\nATOM 203 O THR A 26 14.412 30.939 1.615 1.00 12.07 O \\nATOM 204 CB THR A 26 17.328 31.419 1.447 1.00 17.69 C \\nATOM 205 OG1 THR A 26 17.693 30.177 0.863 1.00 16.60 O \\nATOM 206 CG2 THR A 26 18.601 32.197 1.773 1.00 13.90 C \\nATOM 207 N GLY A 27 15.213 29.111 2.702 1.00 17.61 N \\nATOM 208 CA GLY A 27 14.043 28.331 2.349 1.00 14.06 C \\nATOM 209 C GLY A 27 12.958 28.456 3.394 1.00 13.84 C \\nATOM 210 O GLY A 27 11.832 28.015 3.171 1.00 14.08 O \\nATOM 211 N ALA A 28 13.301 28.967 4.569 1.00 12.94 N \\nATOM 212 CA ALA A 28 12.324 29.192 5.642 1.00 13.20 C \\nATOM 213 C ALA A 28 11.629 30.567 5.554 1.00 17.23 C \\nATOM 214 O ALA A 28 12.303 31.618 5.504 1.00 15.43 O \\nATOM 215 CB ALA A 28 13.031 29.084 6.978 1.00 12.92 C \\nATOM 216 N ASP A 29 10.296 30.560 5.587 1.00 17.65 N \\nATOM 217 CA ASP A 29 9.512 31.798 5.651 1.00 19.68 C \\nATOM 218 C ASP A 29 9.632 32.481 6.994 1.00 21.65 C \\nATOM 219 O ASP A 29 9.671 33.706 7.056 1.00 26.39 O \\nATOM 220 CB ASP A 29 8.029 31.534 5.402 1.00 18.61 C \\nATOM 221 CG ASP A 29 7.752 31.004 4.015 1.00 23.38 C \\nATOM 222 OD1 ASP A 29 8.591 31.192 3.104 1.00 23.84 O \\nATOM 223 OD2 ASP A 29 6.661 30.410 3.833 1.00 24.58 O \\nATOM 224 N ASP A 30 9.698 31.685 8.062 1.00 23.67 N \\nATOM 225 CA ASP A 30 9.718 32.168 9.444 1.00 22.55 C \\nATOM 226 C ASP A 30 10.988 31.819 10.163 1.00 20.55 C \\nATOM 227 O ASP A 30 11.818 31.072 9.679 1.00 22.98 O \\nATOM 228 CB ASP A 30 8.549 31.585 10.214 1.00 24.31 C \\nATOM 229 CG ASP A 30 7.254 31.916 9.579 1.00 25.77 C \\nATOM 230 OD1 ASP A 30 6.951 33.118 9.473 1.00 37.03 O \\nATOM 231 OD2 ASP A 30 6.561 31.008 9.099 1.00 33.64 O \\nATOM 232 N THR A 31 11.161 32.408 11.326 1.00 21.65 N \\nATOM 233 CA THR A 31 12.248 32.053 12.215 1.00 19.28 C \\nATOM 234 C THR A 31 11.707 31.128 13.318 1.00 20.65 C \\nATOM 235 O THR A 31 10.660 31.408 13.910 1.00 21.27 O \\nATOM 236 CB THR A 31 12.896 33.338 12.795 1.00 21.21 C \\nATOM 237 OG1 THR A 31 13.451 34.082 11.707 1.00 17.85 O \\nATOM 238 CG2 THR A 31 14.027 32.992 13.816 1.00 20.08 C \\nATOM 239 N VAL A 32 12.390 30.005 13.537 1.00 19.73 N \\nATOM 240 CA VAL A 32 11.893 28.983 14.419 1.00 20.18 C \\nATOM 241 C VAL A 32 13.036 28.655 15.292 1.00 18.49 C \\nATOM 242 O VAL A 32 14.067 28.221 14.821 1.00 21.86 O \\nATOM 243 CB VAL A 32 11.528 27.683 13.690 1.00 20.27 C \\nATOM 244 CG1 VAL A 32 10.656 26.825 14.592 1.00 21.42 C \\nATOM 245 CG2 VAL A 32 10.805 27.963 12.423 1.00 20.29 C \\nATOM 246 N LEU A 33 12.899 28.904 16.576 1.00 21.84 N \\nATOM 247 CA LEU A 33 13.996 28.594 17.500 1.00 24.48 C \\nATOM 248 C LEU A 33 13.571 27.454 18.396 1.00 25.37 C \\nATOM 249 O LEU A 33 12.363 27.234 18.612 1.00 25.11 O \\nATOM 250 CB LEU A 33 14.337 29.799 18.375 1.00 24.32 C \\nATOM 251 CG LEU A 33 14.849 31.061 17.691 1.00 28.97 C \\nATOM 252 CD1 LEU A 33 15.091 32.156 18.733 1.00 31.03 C \\nATOM 253 CD2 LEU A 33 16.139 30.718 16.927 1.00 30.18 C \\nATOM 254 N GLU A 34 14.568 26.722 18.889 1.00 29.09 N \\nATOM 255 CA GLU A 34 14.390 25.650 19.874 1.00 32.79 C \\nATOM 256 C GLU A 34 13.739 26.125 21.160 1.00 33.96 C \\nATOM 257 O GLU A 34 13.982 27.222 21.618 1.00 34.70 O \\nATOM 258 CB GLU A 34 15.727 25.007 20.190 1.00 36.48 C \\nATOM 259 CG GLU A 34 16.297 24.250 18.988 1.00 43.49 C \\nATOM 260 CD GLU A 34 17.726 23.801 19.191 1.00 49.89 C \\nATOM 261 OE1 GLU A 34 18.134 23.657 20.375 1.00 52.23 O \\nATOM 262 OE2 GLU A 34 18.443 23.614 18.182 1.00 53.58 O \\nATOM 263 N GLU A 35 12.865 25.288 21.703 1.00 32.88 N \\nATOM 264 CA GLU A 35 12.183 25.482 22.981 1.00 33.85 C \\nATOM 265 C GLU A 35 12.971 26.329 23.986 1.00 34.72 C \\nATOM 266 O GLU A 35 13.981 25.861 24.497 1.00 34.03 O \\nATOM 267 CB GLU A 35 11.941 24.114 23.581 1.00 35.16 C \\nATOM 268 CG GLU A 35 10.800 24.049 24.516 1.00 39.66 C \\nATOM 269 CD GLU A 35 9.489 24.067 23.809 1.00 45.60 C \\nATOM 270 OE1 GLU A 35 9.134 23.066 23.120 1.00 50.36 O \\nATOM 271 OE2 GLU A 35 8.758 25.047 24.035 1.00 47.94 O \\nATOM 272 N MET A 36 12.495 27.556 24.269 1.00 33.77 N \\nATOM 273 CA MET A 36 13.101 28.479 25.261 1.00 32.08 C \\nATOM 274 C MET A 36 12.013 29.437 25.755 1.00 33.50 C \\nATOM 275 O MET A 36 10.969 29.535 25.133 1.00 33.82 O \\nATOM 276 CB MET A 36 14.216 29.306 24.621 1.00 31.77 C \\nATOM 277 CG MET A 36 13.741 30.341 23.590 1.00 33.78 C \\nATOM 278 SD MET A 36 15.123 31.051 22.667 1.00 38.76 S \\nATOM 279 CE MET A 36 15.783 32.224 23.828 1.00 34.69 C \\nATOM 280 N SER A 37 12.249 30.179 26.852 1.00 34.23 N \\nATOM 281 CA SER A 37 11.163 31.036 27.460 1.00 33.81 C \\nATOM 282 C SER A 37 11.347 32.442 26.960 1.00 32.96 C \\nATOM 283 O SER A 37 12.475 32.929 27.007 1.00 32.62 O \\nATOM 284 CB SER A 37 11.300 31.071 28.976 1.00 34.02 C \\nATOM 285 OG SER A 37 9.948 31.148 29.559 1.00 38.20 O \\nATOM 286 N LEU A 38 10.330 33.112 26.459 1.00 35.12 N \\nATOM 287 CA LEU A 38 10.566 34.476 26.033 1.00 38.10 C \\nATOM 288 C LEU A 38 9.594 35.375 26.756 1.00 42.61 C \\nATOM 289 O LEU A 38 8.616 34.906 27.343 1.00 41.25 O \\nATOM 290 CB LEU A 38 10.409 34.626 24.500 1.00 35.60 C \\nATOM 291 CG LEU A 38 11.559 34.187 23.577 1.00 33.68 C \\nATOM 292 CD1 LEU A 38 11.171 34.399 22.132 1.00 33.91 C \\nATOM 293 CD2 LEU A 38 12.807 34.964 23.875 1.00 34.05 C \\nATOM 294 N PRO A 39 9.929 36.666 26.880 1.00 45.17 N \\nATOM 295 CA PRO A 39 8.980 37.700 27.301 1.00 45.32 C \\nATOM 296 C PRO A 39 7.760 37.785 26.410 1.00 44.13 C \\nATOM 297 O PRO A 39 7.866 37.883 25.194 1.00 44.57 O \\nATOM 298 CB PRO A 39 9.778 38.989 27.220 1.00 48.51 C \\nATOM 299 CG PRO A 39 11.021 38.637 26.370 1.00 47.48 C \\nATOM 300 CD PRO A 39 11.291 37.226 26.725 1.00 48.21 C \\nATOM 301 N GLY A 40 6.601 37.811 27.029 1.00 43.26 N \\nATOM 302 CA GLY A 40 5.419 38.218 26.302 1.00 44.04 C \\nATOM 303 C GLY A 40 4.430 37.094 26.331 1.00 46.02 C \\nATOM 304 O GLY A 40 4.591 36.107 27.055 1.00 48.40 O \\nATOM 305 N ARG A 41 3.289 37.341 25.729 1.00 47.22 N \\nATOM 306 CA ARG A 41 2.382 36.252 25.509 1.00 48.14 C \\nATOM 307 C ARG A 41 2.606 35.713 24.096 1.00 45.12 C \\nATOM 308 O ARG A 41 3.225 36.383 23.273 1.00 43.73 O \\nATOM 309 CB ARG A 41 0.956 36.719 25.748 1.00 53.98 C \\nATOM 310 CG ARG A 41 0.288 36.021 26.959 1.00 61.76 C \\nATOM 311 CD ARG A 41 0.118 36.953 28.169 1.00 64.66 C \\nATOM 312 NE ARG A 41 1.356 37.143 28.933 1.00 67.95 N \\nATOM 313 CZ ARG A 41 1.830 38.332 29.318 1.00 69.74 C \\nATOM 314 NH1 ARG A 41 1.161 39.450 29.040 1.00 69.56 N \\nATOM 315 NH2 ARG A 41 2.973 38.402 29.994 1.00 68.51 N \\nATOM 316 N TRP A 42 2.145 34.493 23.834 1.00 42.00 N \\nATOM 317 CA TRP A 42 2.295 33.862 22.533 1.00 40.42 C \\nATOM 318 C TRP A 42 0.934 33.419 21.959 1.00 40.51 C \\nATOM 319 O TRP A 42 0.031 33.049 22.694 1.00 41.61 O \\nATOM 320 CB TRP A 42 3.207 32.645 22.642 1.00 42.08 C \\nATOM 321 CG TRP A 42 2.946 31.783 23.787 1.00 42.80 C \\nATOM 322 CD1 TRP A 42 3.473 31.896 25.041 1.00 46.14 C \\nATOM 323 CD2 TRP A 42 1.989 30.710 23.857 1.00 44.40 C \\nATOM 324 NE1 TRP A 42 2.882 30.973 25.884 1.00 48.15 N \\nATOM 325 CE2 TRP A 42 1.966 30.246 25.193 1.00 45.80 C \\nATOM 326 CE3 TRP A 42 1.129 30.108 22.909 1.00 44.14 C \\nATOM 327 CZ2 TRP A 42 1.117 29.219 25.618 1.00 47.06 C \\nATOM 328 CZ3 TRP A 42 0.313 29.091 23.334 1.00 45.02 C \\nATOM 329 CH2 TRP A 42 0.305 28.651 24.686 1.00 47.76 C \\nATOM 330 N LYS A 43 0.781 33.465 20.639 1.00 39.07 N \\nATOM 331 CA LYS A 43 -0.305 32.776 19.928 1.00 38.61 C \\nATOM 332 C LYS A 43 0.220 31.412 19.477 1.00 38.09 C \\nATOM 333 O LYS A 43 1.400 31.270 19.145 1.00 37.97 O \\nATOM 334 CB LYS A 43 -0.739 33.603 18.700 1.00 40.22 C \\nATOM 335 CG LYS A 43 -1.311 34.967 19.027 1.00 40.71 C \\nATOM 336 CD LYS A 43 -1.066 35.945 17.886 1.00 46.25 C \\nATOM 337 CE LYS A 43 -1.726 37.319 18.156 1.00 53.77 C \\nATOM 338 NZ LYS A 43 -0.979 38.292 19.067 1.00 55.67 N \\nATOM 339 N PRO A 44 -0.601 30.363 19.541 1.00 36.78 N \\nATOM 340 CA PRO A 44 -0.088 29.114 18.966 1.00 36.73 C \\nATOM 341 C PRO A 44 -0.275 29.085 17.454 1.00 35.93 C \\nATOM 342 O PRO A 44 -1.185 29.721 16.929 1.00 35.84 O \\nATOM 343 CB PRO A 44 -0.893 28.021 19.667 1.00 37.26 C \\nATOM 344 CG PRO A 44 -2.170 28.683 20.012 1.00 38.05 C \\nATOM 345 CD PRO A 44 -1.825 30.129 20.325 1.00 40.15 C \\nATOM 346 N LYS A 45 0.586 28.336 16.762 1.00 34.68 N \\nATOM 347 CA LYS A 45 0.634 28.302 15.290 1.00 31.98 C \\nATOM 348 C LYS A 45 1.025 26.869 14.873 1.00 29.00 C \\nATOM 349 O LYS A 45 1.711 26.163 15.608 1.00 27.87 O \\nATOM 350 CB LYS A 45 1.693 29.299 14.799 1.00 31.87 C \\nATOM 351 CG LYS A 45 1.495 29.822 13.396 1.00 32.85 C \\nATOM 352 CD LYS A 45 2.628 30.791 12.986 1.00 39.51 C \\nATOM 353 CE LYS A 45 2.662 31.103 11.471 1.00 38.60 C \\nATOM 354 NZ LYS A 45 1.837 32.301 11.181 1.00 45.48 N \\nATOM 355 N MET A 46 0.570 26.438 13.707 1.00 28.78 N \\nATOM 356 CA MET A 46 1.091 25.232 13.081 1.00 28.75 C \\nATOM 357 C MET A 46 1.899 25.638 11.874 1.00 26.81 C \\nATOM 358 O MET A 46 1.385 26.292 10.965 1.00 28.48 O \\nATOM 359 CB MET A 46 -0.047 24.319 12.624 1.00 30.70 C \\nATOM 360 CG MET A 46 -0.970 23.867 13.745 1.00 34.30 C \\nATOM 361 SD MET A 46 -0.348 22.459 14.681 1.00 42.21 S \\nATOM 362 CE MET A 46 -0.585 21.081 13.426 1.00 43.40 C \\nATOM 363 N ILE A 47 3.167 25.258 11.849 1.00 25.63 N \\nATOM 364 CA ILE A 47 3.978 25.464 10.655 1.00 25.64 C \\nATOM 365 C ILE A 47 4.420 24.140 10.114 1.00 23.79 C \\nATOM 366 O ILE A 47 4.667 23.248 10.887 1.00 25.39 O \\nATOM 367 CB ILE A 47 5.234 26.259 10.953 1.00 25.82 C \\nATOM 368 CG1 ILE A 47 5.959 25.628 12.127 1.00 27.41 C \\nATOM 369 CG2 ILE A 47 4.898 27.703 11.148 1.00 29.47 C \\nATOM 370 CD1 ILE A 47 7.369 26.170 12.291 1.00 33.28 C \\nATOM 371 N GLY A 48 4.567 24.042 8.795 1.00 23.56 N \\nATOM 372 CA GLY A 48 4.886 22.777 8.145 1.00 28.25 C \\nATOM 373 C GLY A 48 6.265 22.720 7.521 1.00 30.81 C \\nATOM 374 O GLY A 48 6.723 23.689 6.900 1.00 30.06 O \\nATOM 375 N GLY A 49 7.015 21.688 7.884 1.00 31.96 N \\nATOM 376 CA GLY A 49 8.313 21.471 7.276 1.00 33.92 C \\nATOM 377 C GLY A 49 8.221 20.379 6.232 1.00 37.71 C \\nATOM 378 O GLY A 49 7.177 20.197 5.583 1.00 36.71 O \\nATOM 379 N ILE A 50 9.309 19.619 6.155 1.00 39.37 N \\nATOM 380 CA ILE A 50 9.537 18.544 5.194 1.00 40.56 C \\nATOM 381 C ILE A 50 8.802 17.261 5.658 1.00 39.02 C \\nATOM 382 O ILE A 50 8.143 16.589 4.863 1.00 40.72 O \\nATOM 383 CB ILE A 50 11.095 18.362 5.046 1.00 40.75 C \\nATOM 384 CG1 ILE A 50 11.553 18.874 3.682 1.00 39.18 C \\nATOM 385 CG2 ILE A 50 11.521 16.945 5.317 1.00 42.58 C \\nATOM 386 CD1 ILE A 50 10.910 18.225 2.567 1.00 39.03 C \\nATOM 387 N GLY A 51 8.865 16.952 6.945 1.00 35.64 N \\nATOM 388 CA GLY A 51 8.174 15.771 7.405 1.00 37.36 C \\nATOM 389 C GLY A 51 6.812 16.062 7.983 1.00 38.38 C \\nATOM 390 O GLY A 51 6.408 15.342 8.870 1.00 42.43 O \\nATOM 391 N GLY A 52 6.141 17.132 7.563 1.00 35.83 N \\nATOM 392 CA GLY A 52 4.855 17.480 8.157 1.00 34.71 C \\nATOM 393 C GLY A 52 4.884 18.624 9.170 1.00 32.77 C \\nATOM 394 O GLY A 52 5.873 19.342 9.280 1.00 33.65 O \\nATOM 395 N PHE A 53 3.806 18.788 9.925 1.00 31.50 N \\nATOM 396 CA PHE A 53 3.593 19.996 10.731 1.00 30.76 C \\nATOM 397 C PHE A 53 4.015 19.881 12.194 1.00 31.86 C \\nATOM 398 O PHE A 53 3.930 18.810 12.781 1.00 36.37 O \\nATOM 399 CB PHE A 53 2.121 20.351 10.670 1.00 28.77 C \\nATOM 400 CG PHE A 53 1.760 21.152 9.484 1.00 30.51 C \\nATOM 401 CD1 PHE A 53 1.725 20.567 8.216 1.00 27.94 C \\nATOM 402 CD2 PHE A 53 1.556 22.518 9.607 1.00 30.74 C \\nATOM 403 CE1 PHE A 53 1.500 21.332 7.075 1.00 29.27 C \\nATOM 404 CE2 PHE A 53 1.327 23.302 8.496 1.00 32.36 C \\nATOM 405 CZ PHE A 53 1.290 22.718 7.212 1.00 28.01 C \\nATOM 406 N ILE A 54 4.483 20.969 12.792 1.00 28.86 N \\nATOM 407 CA ILE A 54 4.689 21.005 14.248 1.00 28.83 C \\nATOM 408 C ILE A 54 3.921 22.179 14.858 1.00 29.53 C \\nATOM 409 O ILE A 54 3.575 23.139 14.182 1.00 28.42 O \\nATOM 410 CB ILE A 54 6.199 21.155 14.625 1.00 28.74 C \\nATOM 411 CG1 ILE A 54 6.796 22.408 13.939 1.00 27.76 C \\nATOM 412 CG2 ILE A 54 6.967 19.888 14.203 1.00 28.78 C \\nATOM 413 CD1 ILE A 54 8.110 22.821 14.465 1.00 23.65 C \\nATOM 414 N LYS A 55 3.632 22.095 16.145 1.00 31.86 N \\nATOM 415 CA LYS A 55 2.968 23.196 16.823 1.00 31.37 C \\nATOM 416 C LYS A 55 4.038 24.093 17.449 1.00 31.40 C \\nATOM 417 O LYS A 55 4.949 23.610 18.157 1.00 30.39 O \\nATOM 418 CB LYS A 55 2.021 22.661 17.895 1.00 34.83 C \\nATOM 419 CG LYS A 55 0.974 23.665 18.300 1.00 41.25 C \\nATOM 420 CD LYS A 55 0.006 23.101 19.304 1.00 48.65 C \\nATOM 421 CE LYS A 55 -0.580 24.217 20.149 1.00 52.68 C \\nATOM 422 NZ LYS A 55 0.439 24.751 21.104 1.00 56.46 N \\nATOM 423 N VAL A 56 3.953 25.391 17.185 1.00 27.17 N \\nATOM 424 CA VAL A 56 4.927 26.319 17.754 1.00 26.79 C \\nATOM 425 C VAL A 56 4.225 27.378 18.556 1.00 25.98 C \\nATOM 426 O VAL A 56 3.023 27.557 18.455 1.00 28.45 O \\nATOM 427 CB VAL A 56 5.769 27.009 16.663 1.00 23.58 C \\nATOM 428 CG1 VAL A 56 6.791 26.027 16.120 1.00 24.00 C \\nATOM 429 CG2 VAL A 56 4.881 27.551 15.567 1.00 19.88 C \\nATOM 430 N ARG A 57 4.978 28.079 19.377 1.00 27.52 N \\nATOM 431 CA ARG A 57 4.459 29.271 20.026 1.00 29.29 C \\nATOM 432 C ARG A 57 5.038 30.502 19.335 1.00 26.53 C \\nATOM 433 O ARG A 57 6.242 30.596 19.138 1.00 26.51 O \\nATOM 434 CB ARG A 57 4.824 29.245 21.505 1.00 33.25 C \\nATOM 435 CG ARG A 57 4.168 28.102 22.260 1.00 39.60 C \\nATOM 436 CD ARG A 57 4.656 28.068 23.693 1.00 44.47 C \\nATOM 437 NE ARG A 57 6.032 27.573 23.790 1.00 50.18 N \\nATOM 438 CZ ARG A 57 7.027 28.273 24.317 1.00 49.84 C \\nATOM 439 NH1 ARG A 57 6.825 29.532 24.678 1.00 51.65 N \\nATOM 440 NH2 ARG A 57 8.223 27.723 24.467 1.00 52.43 N \\nATOM 441 N GLN A 58 4.171 31.431 18.958 1.00 25.48 N \\nATOM 442 CA GLN A 58 4.570 32.596 18.172 1.00 27.73 C \\nATOM 443 C GLN A 58 4.681 33.818 19.085 1.00 30.15 C \\nATOM 444 O GLN A 58 3.694 34.242 19.683 1.00 33.75 O \\nATOM 445 CB GLN A 58 3.539 32.859 17.094 1.00 26.15 C \\nATOM 446 CG GLN A 58 3.736 34.104 16.321 1.00 29.09 C \\nATOM 447 CD GLN A 58 2.500 34.473 15.541 1.00 37.13 C \\nATOM 448 OE1 GLN A 58 1.530 33.703 15.489 1.00 40.89 O \\nATOM 449 NE2 GLN A 58 2.508 35.651 14.940 1.00 39.09 N \\nATOM 450 N TYR A 59 5.883 34.378 19.196 1.00 32.83 N \\nATOM 451 CA TYR A 59 6.097 35.658 19.896 1.00 34.57 C \\nATOM 452 C TYR A 59 6.304 36.752 18.835 1.00 35.86 C \\nATOM 453 O TYR A 59 6.923 36.513 17.800 1.00 38.78 O \\nATOM 454 CB TYR A 59 7.354 35.588 20.765 1.00 33.06 C \\nATOM 455 CG TYR A 59 7.213 34.624 21.955 1.00 36.56 C \\nATOM 456 CD1 TYR A 59 7.479 33.237 21.805 1.00 37.53 C \\nATOM 457 CD2 TYR A 59 6.795 35.087 23.223 1.00 33.33 C \\nATOM 458 CE1 TYR A 59 7.345 32.365 22.871 1.00 34.69 C \\nATOM 459 CE2 TYR A 59 6.638 34.224 24.268 1.00 33.09 C \\nATOM 460 CZ TYR A 59 6.926 32.869 24.102 1.00 33.21 C \\nATOM 461 OH TYR A 59 6.967 32.076 25.200 1.00 40.16 O \\nATOM 462 N ASP A 60 5.767 37.940 19.049 1.00 37.21 N \\nATOM 463 CA ASP A 60 6.022 39.045 18.125 1.00 36.50 C \\nATOM 464 C ASP A 60 7.025 40.015 18.725 1.00 35.62 C \\nATOM 465 O ASP A 60 7.340 39.951 19.900 1.00 33.30 O \\nATOM 466 CB ASP A 60 4.719 39.777 17.832 1.00 43.82 C \\nATOM 467 CG ASP A 60 3.699 38.899 17.148 1.00 49.03 C \\nATOM 468 OD1 ASP A 60 3.989 38.368 16.050 1.00 53.15 O \\nATOM 469 OD2 ASP A 60 2.570 38.799 17.672 1.00 54.18 O \\nATOM 470 N GLN A 61 7.529 40.913 17.896 1.00 35.15 N \\nATOM 471 CA GLN A 61 8.337 42.060 18.331 1.00 37.27 C \\nATOM 472 C GLN A 61 9.535 41.630 19.179 1.00 36.83 C \\nATOM 473 O GLN A 61 9.777 42.191 20.264 1.00 39.02 O \\nATOM 474 CB GLN A 61 7.471 43.051 19.131 1.00 41.54 C \\nATOM 475 CG GLN A 61 7.718 44.555 18.814 1.00 53.40 C \\nATOM 476 CD GLN A 61 7.182 45.552 19.907 1.00 61.08 C \\nATOM 477 OE1 GLN A 61 7.936 46.461 20.398 1.00 65.46 O \\nATOM 478 NE2 GLN A 61 5.892 45.377 20.306 1.00 58.46 N \\nATOM 479 N ILE A 62 10.283 40.645 18.676 1.00 33.10 N \\nATOM 480 CA ILE A 62 11.484 40.115 19.328 1.00 33.95 C \\nATOM 481 C ILE A 62 12.745 40.584 18.614 1.00 35.70 C \\nATOM 482 O ILE A 62 12.830 40.485 17.396 1.00 38.95 O \\nATOM 483 CB ILE A 62 11.465 38.545 19.309 1.00 33.50 C \\nATOM 484 CG1 ILE A 62 10.152 38.035 19.930 1.00 31.68 C \\nATOM 485 CG2 ILE A 62 12.688 37.973 20.027 1.00 33.86 C \\nATOM 486 CD1 ILE A 62 9.966 38.380 21.363 1.00 35.62 C \\nATOM 487 N LEU A 63 13.722 41.086 19.369 1.00 38.14 N \\nATOM 488 CA LEU A 63 15.038 41.476 18.822 1.00 41.38 C \\nATOM 489 C LEU A 63 16.033 40.304 18.862 1.00 42.34 C \\nATOM 490 O LEU A 63 16.195 39.661 19.897 1.00 43.91 O \\nATOM 491 CB LEU A 63 15.631 42.666 19.619 1.00 41.40 C \\nATOM 492 CG LEU A 63 16.776 43.426 18.914 1.00 42.58 C \\nATOM 493 CD1 LEU A 63 16.560 44.922 18.993 1.00 46.33 C \\nATOM 494 CD2 LEU A 63 18.103 43.062 19.558 1.00 45.30 C \\nATOM 495 N ILE A 64 16.686 40.036 17.738 1.00 44.21 N \\nATOM 496 CA ILE A 64 17.760 39.039 17.653 1.00 46.55 C \\nATOM 497 C ILE A 64 18.991 39.753 17.116 1.00 46.30 C \\nATOM 498 O ILE A 64 18.862 40.632 16.288 1.00 45.60 O \\nATOM 499 CB ILE A 64 17.390 37.875 16.634 1.00 48.42 C \\nATOM 500 CG1 ILE A 64 16.127 37.137 17.110 1.00 51.56 C \\nATOM 501 CG2 ILE A 64 18.551 36.857 16.518 1.00 45.78 C \\nATOM 502 CD1 ILE A 64 16.194 35.643 16.885 1.00 52.26 C \\nATOM 503 N GLU A 65 20.181 39.387 17.573 1.00 48.38 N \\nATOM 504 CA GLU A 65 21.406 39.983 17.036 1.00 52.65 C \\nATOM 505 C GLU A 65 22.192 39.019 16.135 1.00 53.34 C \\nATOM 506 O GLU A 65 22.866 38.128 16.631 1.00 57.14 O \\nATOM 507 CB GLU A 65 22.307 40.439 18.180 1.00 53.39 C \\nATOM 508 CG GLU A 65 21.987 41.843 18.676 1.00 58.82 C \\nATOM 509 CD GLU A 65 23.228 42.558 19.187 1.00 61.85 C \\nATOM 510 OE1 GLU A 65 24.094 42.925 18.348 1.00 62.51 O \\nATOM 511 OE2 GLU A 65 23.348 42.730 20.429 1.00 63.85 O \\nATOM 512 N ILE A 66 22.148 39.215 14.823 1.00 54.18 N \\nATOM 513 CA ILE A 66 22.818 38.327 13.863 1.00 53.69 C \\nATOM 514 C ILE A 66 24.123 38.945 13.303 1.00 55.63 C \\nATOM 515 O ILE A 66 24.114 39.903 12.521 1.00 55.17 O \\nATOM 516 CB ILE A 66 21.831 37.964 12.694 1.00 53.26 C \\nATOM 517 CG1 ILE A 66 20.481 37.516 13.278 1.00 50.35 C \\nATOM 518 CG2 ILE A 66 22.444 36.880 11.799 1.00 51.36 C \\nATOM 519 CD1 ILE A 66 19.263 38.072 12.560 1.00 49.54 C \\nATOM 520 N CYS A 67 25.251 38.396 13.731 1.00 57.47 N \\nATOM 521 CA CYS A 67 26.590 38.871 13.351 1.00 59.30 C \\nATOM 522 C CYS A 67 26.798 40.370 13.560 1.00 58.98 C \\nATOM 523 O CYS A 67 27.461 41.045 12.763 1.00 59.83 O \\nATOM 524 CB CYS A 67 26.907 38.497 11.905 1.00 60.45 C \\nATOM 525 SG CYS A 67 27.274 36.734 11.705 1.00 66.26 S \\nATOM 526 N GLY A 68 26.239 40.887 14.650 1.00 58.28 N \\nATOM 527 CA GLY A 68 26.319 42.307 14.938 1.00 56.53 C \\nATOM 528 C GLY A 68 24.980 42.946 14.665 1.00 54.84 C \\nATOM 529 O GLY A 68 24.371 43.518 15.561 1.00 55.20 O \\nATOM 530 N HIS A 69 24.449 42.689 13.479 1.00 52.63 N \\nATOM 531 CA HIS A 69 23.251 43.368 13.013 1.00 49.83 C \\nATOM 532 C HIS A 69 22.009 43.025 13.836 1.00 49.49 C \\nATOM 533 O HIS A 69 21.626 41.865 13.958 1.00 50.24 O \\nATOM 534 CB HIS A 69 22.975 43.009 11.568 1.00 48.37 C \\nATOM 535 CG HIS A 69 24.157 43.172 10.639 1.00 48.55 C \\nATOM 536 ND1 HIS A 69 25.294 42.398 10.762 1.00 46.92 N \\nATOM 537 CD2 HIS A 69 24.283 43.886 9.518 1.00 47.07 C \\nATOM 538 CE1 HIS A 69 26.075 42.630 9.723 1.00 45.30 C \\nATOM 539 NE2 HIS A 69 25.505 43.532 8.946 1.00 49.32 N \\nATOM 540 N LYS A 70 21.364 44.050 14.376 1.00 48.04 N \\nATOM 541 CA LYS A 70 20.030 43.883 14.945 1.00 44.00 C \\nATOM 542 C LYS A 70 18.929 43.698 13.882 1.00 40.53 C \\nATOM 543 O LYS A 70 19.000 44.197 12.761 1.00 37.44 O \\nATOM 544 CB LYS A 70 19.667 45.075 15.840 1.00 46.06 C \\nATOM 545 CG LYS A 70 20.422 45.141 17.154 1.00 48.65 C \\nATOM 546 CD LYS A 70 19.885 46.281 18.036 1.00 52.10 C \\nATOM 547 CE LYS A 70 20.905 46.699 19.095 1.00 52.81 C \\nATOM 548 NZ LYS A 70 20.376 47.817 19.946 1.00 57.49 N \\nATOM 549 N ALA A 71 17.879 43.010 14.305 1.00 37.00 N \\nATOM 550 CA ALA A 71 16.703 42.737 13.499 1.00 33.57 C \\nATOM 551 C ALA A 71 15.600 42.546 14.556 1.00 31.56 C \\nATOM 552 O ALA A 71 15.880 42.175 15.705 1.00 34.29 O \\nATOM 553 CB ALA A 71 16.937 41.464 12.683 1.00 28.40 C \\nATOM 554 N ILE A 72 14.366 42.881 14.219 1.00 28.94 N \\nATOM 555 CA ILE A 72 13.233 42.663 15.111 1.00 26.93 C \\nATOM 556 C ILE A 72 12.196 41.969 14.237 1.00 25.42 C \\nATOM 557 O ILE A 72 12.083 42.266 13.025 1.00 23.83 O \\nATOM 558 CB ILE A 72 12.635 44.019 15.609 1.00 34.11 C \\nATOM 559 CG1 ILE A 72 13.664 44.777 16.446 1.00 39.50 C \\nATOM 560 CG2 ILE A 72 11.353 43.782 16.409 1.00 34.28 C \\nATOM 561 CD1 ILE A 72 13.437 46.286 16.451 1.00 44.26 C \\nATOM 562 N GLY A 73 11.457 41.034 14.821 1.00 23.40 N \\nATOM 563 CA GLY A 73 10.359 40.420 14.090 1.00 22.07 C \\nATOM 564 C GLY A 73 9.750 39.238 14.835 1.00 24.48 C \\nATOM 565 O GLY A 73 10.019 39.007 16.009 1.00 24.29 O \\nATOM 566 N THR A 74 8.853 38.524 14.181 1.00 23.67 N \\nATOM 567 CA THR A 74 8.224 37.361 14.786 1.00 24.46 C \\nATOM 568 C THR A 74 9.169 36.194 14.895 1.00 25.63 C \\nATOM 569 O THR A 74 9.964 35.908 14.007 1.00 25.67 O \\nATOM 570 CB THR A 74 6.961 36.929 14.010 1.00 24.94 C \\nATOM 571 OG1 THR A 74 6.030 38.013 14.001 1.00 29.61 O \\nATOM 572 CG2 THR A 74 6.287 35.760 14.688 1.00 19.06 C \\nATOM 573 N VAL A 75 9.085 35.534 16.025 1.00 25.14 N \\nATOM 574 CA VAL A 75 9.944 34.420 16.291 1.00 26.87 C \\nATOM 575 C VAL A 75 9.018 33.325 16.795 1.00 27.97 C \\nATOM 576 O VAL A 75 8.104 33.576 17.594 1.00 27.87 O \\nATOM 577 CB VAL A 75 11.002 34.791 17.336 1.00 25.74 C \\nATOM 578 CG1 VAL A 75 11.638 33.561 17.884 1.00 27.82 C \\nATOM 579 CG2 VAL A 75 12.070 35.661 16.648 1.00 21.53 C \\nATOM 580 N LEU A 76 9.200 32.127 16.258 1.00 27.21 N \\nATOM 581 CA LEU A 76 8.353 30.995 16.628 1.00 25.80 C \\nATOM 582 C LEU A 76 9.229 30.084 17.483 1.00 24.05 C \\nATOM 583 O LEU A 76 10.409 29.923 17.194 1.00 23.89 O \\nATOM 584 CB LEU A 76 7.937 30.247 15.365 1.00 24.57 C \\nATOM 585 CG LEU A 76 7.222 30.919 14.207 1.00 24.94 C \\nATOM 586 CD1 LEU A 76 6.909 29.914 13.139 1.00 21.47 C \\nATOM 587 CD2 LEU A 76 5.961 31.526 14.713 1.00 22.70 C \\nATOM 588 N VAL A 77 8.689 29.507 18.538 1.00 22.25 N \\nATOM 589 CA VAL A 77 9.519 28.691 19.405 1.00 25.77 C \\nATOM 590 C VAL A 77 8.852 27.309 19.499 1.00 25.41 C \\nATOM 591 O VAL A 77 7.621 27.241 19.608 1.00 21.46 O \\nATOM 592 CB VAL A 77 9.648 29.353 20.800 1.00 26.64 C \\nATOM 593 CG1 VAL A 77 10.306 28.419 21.773 1.00 24.10 C \\nATOM 594 CG2 VAL A 77 10.426 30.686 20.648 1.00 24.74 C \\nATOM 595 N GLY A 78 9.637 26.227 19.375 1.00 23.37 N \\nATOM 596 CA GLY A 78 9.027 24.918 19.185 1.00 25.28 C \\nATOM 597 C GLY A 78 10.005 23.782 18.984 1.00 24.69 C \\nATOM 598 O GLY A 78 11.215 24.012 19.065 1.00 27.34 O \\nATOM 599 N PRO A 79 9.538 22.542 18.758 1.00 24.96 N \\nATOM 600 CA PRO A 79 10.442 21.388 18.731 1.00 26.27 C \\nATOM 601 C PRO A 79 11.136 21.242 17.389 1.00 27.30 C \\nATOM 602 O PRO A 79 10.748 20.397 16.559 1.00 30.31 O \\nATOM 603 CB PRO A 79 9.515 20.215 18.995 1.00 26.15 C \\nATOM 604 CG PRO A 79 8.239 20.616 18.339 1.00 27.52 C \\nATOM 605 CD PRO A 79 8.170 22.144 18.383 1.00 27.77 C \\nATOM 606 N THR A 80 12.138 22.078 17.162 1.00 27.82 N \\nATOM 607 CA THR A 80 12.910 22.043 15.936 1.00 27.04 C \\nATOM 608 C THR A 80 14.280 21.503 16.325 1.00 28.49 C \\nATOM 609 O THR A 80 14.692 21.666 17.473 1.00 33.89 O \\nATOM 610 CB THR A 80 13.031 23.467 15.319 1.00 24.34 C \\nATOM 611 OG1 THR A 80 13.971 23.419 14.244 1.00 28.59 O \\nATOM 612 CG2 THR A 80 13.542 24.478 16.300 1.00 17.97 C \\nATOM 613 N PRO A 81 14.915 20.725 15.449 1.00 27.56 N \\nATOM 614 CA PRO A 81 16.233 20.170 15.766 1.00 28.35 C \\nATOM 615 C PRO A 81 17.352 21.205 15.795 1.00 32.18 C \\nATOM 616 O PRO A 81 18.306 21.085 16.567 1.00 35.74 O \\nATOM 617 CB PRO A 81 16.467 19.139 14.669 1.00 28.05 C \\nATOM 618 CG PRO A 81 15.477 19.489 13.607 1.00 24.27 C \\nATOM 619 CD PRO A 81 14.331 20.114 14.238 1.00 24.21 C \\nATOM 620 N VAL A 82 17.220 22.219 14.948 1.00 31.78 N \\nATOM 621 CA VAL A 82 18.236 23.243 14.762 1.00 30.36 C \\nATOM 622 C VAL A 82 17.549 24.626 14.801 1.00 29.01 C \\nATOM 623 O VAL A 82 16.328 24.735 14.569 1.00 28.83 O \\nATOM 624 CB VAL A 82 18.969 23.017 13.388 1.00 27.70 C \\nATOM 625 CG1 VAL A 82 18.009 22.769 12.263 1.00 25.82 C \\nATOM 626 CG2 VAL A 82 19.843 24.144 13.080 1.00 29.05 C \\nATOM 627 N ASN A 83 18.292 25.671 15.167 1.00 28.44 N \\nATOM 628 CA ASN A 83 17.731 27.051 15.193 1.00 23.14 C \\nATOM 629 C ASN A 83 17.799 27.628 13.799 1.00 20.40 C \\nATOM 630 O ASN A 83 18.794 27.456 13.113 1.00 22.72 O \\nATOM 631 CB ASN A 83 18.508 27.950 16.161 1.00 23.96 C \\nATOM 632 CG ASN A 83 18.236 27.600 17.636 1.00 19.36 C \\nATOM 633 OD1 ASN A 83 17.102 27.381 18.051 1.00 24.75 O \\nATOM 634 ND2 ASN A 83 19.287 27.475 18.398 1.00 23.07 N \\nATOM 635 N ILE A 84 16.729 28.283 13.370 1.00 19.46 N \\nATOM 636 CA ILE A 84 16.588 28.651 11.955 1.00 18.70 C \\nATOM 637 C ILE A 84 16.190 30.132 11.811 1.00 15.24 C \\nATOM 638 O ILE A 84 15.178 30.600 12.384 1.00 16.01 O \\nATOM 639 CB ILE A 84 15.504 27.755 11.242 1.00 18.01 C \\nATOM 640 CG1 ILE A 84 16.049 26.365 11.040 1.00 21.46 C \\nATOM 641 CG2 ILE A 84 15.081 28.324 9.932 1.00 18.09 C \\nATOM 642 CD1 ILE A 84 14.957 25.345 11.321 1.00 21.77 C \\nATOM 643 N ILE A 85 16.991 30.863 11.053 1.00 17.41 N \\nATOM 644 CA ILE A 85 16.710 32.257 10.821 1.00 17.84 C \\nATOM 645 C ILE A 85 16.155 32.252 9.420 1.00 18.00 C \\nATOM 646 O ILE A 85 16.857 31.950 8.464 1.00 16.33 O \\nATOM 647 CB ILE A 85 17.999 33.119 10.844 1.00 19.87 C \\nATOM 648 CG1 ILE A 85 18.724 32.983 12.207 1.00 21.72 C \\nATOM 649 CG2 ILE A 85 17.653 34.600 10.517 1.00 19.84 C \\nATOM 650 CD1 ILE A 85 17.830 33.204 13.418 1.00 23.27 C \\nATOM 651 N GLY A 86 14.888 32.608 9.302 1.00 17.67 N \\nATOM 652 CA GLY A 86 14.238 32.655 8.011 1.00 19.47 C \\nATOM 653 C GLY A 86 14.181 34.034 7.393 1.00 20.59 C \\nATOM 654 O GLY A 86 14.714 34.991 7.894 1.00 19.31 O \\nATOM 655 N ARG A 87 13.398 34.131 6.334 1.00 19.04 N \\nATOM 656 CA ARG A 87 13.370 35.302 5.456 1.00 21.43 C \\nATOM 657 C ARG A 87 12.931 36.548 6.216 1.00 20.84 C \\nATOM 658 O ARG A 87 13.429 37.633 5.958 1.00 24.40 O \\nATOM 659 CB ARG A 87 12.459 35.018 4.263 1.00 15.37 C \\nATOM 660 CG ARG A 87 13.030 34.044 3.318 1.00 18.83 C \\nATOM 661 CD ARG A 87 12.310 34.101 1.966 1.00 21.67 C \\nATOM 662 NE ARG A 87 10.903 33.713 2.088 1.00 21.37 N \\nATOM 663 CZ ARG A 87 9.899 34.575 2.137 1.00 22.28 C \\nATOM 664 NH1 ARG A 87 10.126 35.860 1.922 1.00 20.00 N \\nATOM 665 NH2 ARG A 87 8.657 34.143 2.300 1.00 21.02 N \\nATOM 666 N ASN A 88 12.063 36.352 7.198 1.00 21.72 N \\nATOM 667 CA ASN A 88 11.458 37.455 7.919 1.00 19.12 C \\nATOM 668 C ASN A 88 12.511 38.266 8.653 1.00 21.99 C \\nATOM 669 O ASN A 88 12.419 39.481 8.723 1.00 24.63 O \\nATOM 670 CB ASN A 88 10.359 36.959 8.863 1.00 17.71 C \\nATOM 671 CG ASN A 88 10.892 36.309 10.125 1.00 23.05 C \\nATOM 672 OD1 ASN A 88 11.577 35.273 10.065 1.00 24.51 O \\nATOM 673 ND2 ASN A 88 10.446 36.809 11.283 1.00 21.17 N \\nATOM 674 N LEU A 89 13.551 37.601 9.136 1.00 21.73 N \\nATOM 675 CA LEU A 89 14.633 38.337 9.729 1.00 21.46 C \\nATOM 676 C LEU A 89 15.802 38.487 8.783 1.00 21.01 C \\nATOM 677 O LEU A 89 16.580 39.394 8.941 1.00 22.81 O \\nATOM 678 CB LEU A 89 15.096 37.687 11.029 1.00 24.37 C \\nATOM 679 CG LEU A 89 14.146 37.555 12.221 1.00 26.43 C \\nATOM 680 CD1 LEU A 89 14.939 37.022 13.434 1.00 27.76 C \\nATOM 681 CD2 LEU A 89 13.508 38.913 12.527 1.00 29.10 C \\nATOM 682 N LEU A 90 15.910 37.651 7.761 1.00 18.04 N \\nATOM 683 CA LEU A 90 17.078 37.773 6.865 1.00 21.90 C \\nATOM 684 C LEU A 90 17.048 39.068 6.049 1.00 22.24 C \\nATOM 685 O LEU A 90 18.098 39.613 5.652 1.00 20.42 O \\nATOM 686 CB LEU A 90 17.200 36.561 5.913 1.00 21.44 C \\nATOM 687 CG LEU A 90 17.754 35.226 6.440 1.00 19.50 C \\nATOM 688 CD1 LEU A 90 17.798 34.207 5.340 1.00 20.48 C \\nATOM 689 CD2 LEU A 90 19.138 35.441 7.022 1.00 15.96 C \\nATOM 690 N THR A 91 15.835 39.547 5.808 1.00 20.88 N \\nATOM 691 CA THR A 91 15.653 40.738 4.985 1.00 25.31 C \\nATOM 692 C THR A 91 16.137 41.999 5.772 1.00 25.69 C \\nATOM 693 O THR A 91 16.848 42.870 5.252 1.00 29.29 O \\nATOM 694 CB THR A 91 14.157 40.860 4.594 1.00 21.94 C \\nATOM 695 OG1 THR A 91 13.342 40.810 5.786 1.00 20.91 O \\nATOM 696 CG2 THR A 91 13.740 39.709 3.681 1.00 24.44 C \\nATOM 697 N GLN A 92 15.842 42.001 7.064 1.00 23.55 N \\nATOM 698 CA GLN A 92 16.170 43.099 7.967 1.00 23.15 C \\nATOM 699 C GLN A 92 17.650 43.315 8.126 1.00 25.63 C \\nATOM 700 O GLN A 92 18.071 44.440 8.459 1.00 29.05 O \\nATOM 701 CB GLN A 92 15.580 42.837 9.347 1.00 17.48 C \\nATOM 702 CG GLN A 92 14.081 42.603 9.325 1.00 12.58 C \\nATOM 703 CD GLN A 92 13.318 43.811 8.800 1.00 23.01 C \\nATOM 704 OE1 GLN A 92 12.836 43.807 7.683 1.00 24.98 O \\nATOM 705 NE2 GLN A 92 13.349 44.892 9.543 1.00 15.18 N \\nATOM 706 N ILE A 93 18.444 42.266 7.913 1.00 25.00 N \\nATOM 707 CA ILE A 93 19.887 42.417 8.035 1.00 25.37 C \\nATOM 708 C ILE A 93 20.530 42.555 6.677 1.00 24.18 C \\nATOM 709 O ILE A 93 21.744 42.639 6.577 1.00 26.26 O \\nATOM 710 CB ILE A 93 20.557 41.231 8.872 1.00 24.44 C \\nATOM 711 CG1 ILE A 93 20.472 39.878 8.113 1.00 24.46 C \\nATOM 712 CG2 ILE A 93 19.926 41.182 10.272 1.00 22.23 C \\nATOM 713 CD1 ILE A 93 21.520 38.796 8.533 1.00 24.68 C \\nATOM 714 N GLY A 94 19.713 42.563 5.636 1.00 24.04 N \\nATOM 715 CA GLY A 94 20.226 42.870 4.327 1.00 25.09 C \\nATOM 716 C GLY A 94 20.843 41.689 3.611 1.00 27.08 C \\nATOM 717 O GLY A 94 21.680 41.866 2.723 1.00 28.80 O \\nATOM 718 N CYS A 95 20.294 40.507 3.844 1.00 27.02 N \\nATOM 719 CA CYS A 95 20.890 39.296 3.297 1.00 26.34 C \\nATOM 720 C CYS A 95 20.407 39.005 1.897 1.00 26.35 C \\nATOM 721 O CYS A 95 19.217 39.101 1.606 1.00 28.34 O \\nATOM 722 CB CYS A 95 20.585 38.134 4.215 1.00 27.62 C \\nATOM 723 SG CYS A 95 21.505 36.663 3.848 1.00 32.32 S \\nATOM 724 N THR A 96 21.339 38.698 1.005 1.00 27.53 N \\nATOM 725 CA THR A 96 20.969 38.276 -0.346 1.00 27.51 C \\nATOM 726 C THR A 96 21.721 37.024 -0.758 1.00 27.27 C \\nATOM 727 O THR A 96 22.753 36.645 -0.178 1.00 27.30 O \\nATOM 728 CB THR A 96 21.298 39.331 -1.459 1.00 28.47 C \\nATOM 729 OG1 THR A 96 22.688 39.698 -1.364 1.00 28.16 O \\nATOM 730 CG2 THR A 96 20.405 40.560 -1.303 1.00 26.73 C \\nATOM 731 N LEU A 97 21.183 36.413 -1.805 1.00 28.68 N \\nATOM 732 CA LEU A 97 21.718 35.228 -2.473 1.00 26.62 C \\nATOM 733 C LEU A 97 22.314 35.753 -3.779 1.00 25.49 C \\nATOM 734 O LEU A 97 21.616 36.396 -4.577 1.00 23.96 O \\nATOM 735 CB LEU A 97 20.518 34.349 -2.810 1.00 24.94 C \\nATOM 736 CG LEU A 97 20.318 32.897 -2.464 1.00 28.32 C \\nATOM 737 CD1 LEU A 97 21.285 32.388 -1.422 1.00 27.79 C \\nATOM 738 CD2 LEU A 97 18.896 32.782 -2.010 1.00 26.48 C \\nATOM 739 N ASN A 98 23.577 35.469 -4.026 1.00 26.29 N \\nATOM 740 CA ASN A 98 24.207 35.904 -5.257 1.00 29.12 C \\nATOM 741 C ASN A 98 24.863 34.748 -5.999 1.00 29.85 C \\nATOM 742 O ASN A 98 25.635 33.982 -5.396 1.00 26.89 O \\nATOM 743 CB ASN A 98 25.229 36.991 -4.938 1.00 33.75 C \\nATOM 744 CG ASN A 98 24.609 38.190 -4.212 1.00 40.13 C \\nATOM 745 OD1 ASN A 98 24.263 38.112 -3.019 1.00 43.34 O \\nATOM 746 ND2 ASN A 98 24.354 39.252 -4.955 1.00 42.07 N \\nATOM 747 N PHE A 99 24.539 34.602 -7.287 1.00 31.14 N \\nATOM 748 CA PHE A 99 25.376 33.754 -8.172 1.00 35.14 C \\nATOM 749 C PHE A 99 25.726 34.383 -9.544 1.00 34.93 C \\nATOM 750 O PHE A 99 24.797 34.890 -10.226 1.00 36.66 O \\nATOM 751 CB PHE A 99 24.743 32.354 -8.375 1.00 32.92 C \\nATOM 752 CG PHE A 99 23.328 32.389 -8.856 1.00 31.47 C \\nATOM 753 CD1 PHE A 99 22.303 32.588 -7.961 1.00 29.83 C \\nATOM 754 CD2 PHE A 99 23.029 32.118 -10.181 1.00 28.13 C \\nATOM 755 CE1 PHE A 99 21.000 32.515 -8.357 1.00 27.98 C \\nATOM 756 CE2 PHE A 99 21.730 32.028 -10.613 1.00 25.49 C \\nATOM 757 CZ PHE A 99 20.700 32.221 -9.700 1.00 27.25 C \\nTER\\nATOM 759 N PRO B 1 22.659 36.727 -10.823 1.00 48.12 N \\nATOM 760 CA PRO B 1 21.708 37.741 -10.269 1.00 43.36 C \\nATOM 761 C PRO B 1 21.931 37.939 -8.779 1.00 39.59 C \\nATOM 762 O PRO B 1 22.755 37.283 -8.190 1.00 37.70 O \\nATOM 763 CB PRO B 1 20.263 37.289 -10.512 1.00 46.58 C \\nATOM 764 CG PRO B 1 20.385 35.811 -10.891 1.00 48.47 C \\nATOM 765 CD PRO B 1 21.753 35.755 -11.555 1.00 50.98 C \\nATOM 766 N GLN B 2 21.203 38.873 -8.191 1.00 36.85 N \\nATOM 767 CA GLN B 2 21.156 39.043 -6.744 1.00 37.15 C \\nATOM 768 C GLN B 2 19.698 38.882 -6.389 1.00 36.43 C \\nATOM 769 O GLN B 2 18.850 39.538 -6.975 1.00 39.41 O \\nATOM 770 CB GLN B 2 21.625 40.447 -6.329 1.00 38.60 C \\nATOM 771 CG GLN B 2 21.353 40.777 -4.865 1.00 39.92 C \\nATOM 772 CD GLN B 2 22.139 41.975 -4.358 1.00 44.52 C \\nATOM 773 OE1 GLN B 2 21.577 42.881 -3.752 1.00 48.57 O \\nATOM 774 NE2 GLN B 2 23.450 41.976 -4.586 1.00 45.25 N \\nATOM 775 N ILE B 3 19.405 38.008 -5.448 1.00 32.18 N \\nATOM 776 CA ILE B 3 18.037 37.742 -5.100 1.00 30.91 C \\nATOM 777 C ILE B 3 17.832 38.164 -3.660 1.00 28.84 C \\nATOM 778 O ILE B 3 18.457 37.631 -2.746 1.00 28.43 O \\nATOM 779 CB ILE B 3 17.694 36.224 -5.238 1.00 33.01 C \\nATOM 780 CG1 ILE B 3 17.788 35.772 -6.692 1.00 35.76 C \\nATOM 781 CG2 ILE B 3 16.284 35.967 -4.750 1.00 31.17 C \\nATOM 782 CD1 ILE B 3 18.183 34.327 -6.802 1.00 36.59 C \\nATOM 783 N THR B 4 16.960 39.132 -3.461 1.00 24.52 N \\nATOM 784 CA THR B 4 16.635 39.571 -2.117 1.00 26.46 C \\nATOM 785 C THR B 4 15.555 38.634 -1.627 1.00 23.26 C \\nATOM 786 O THR B 4 15.066 37.784 -2.372 1.00 23.16 O \\nATOM 787 CB THR B 4 16.147 41.074 -2.110 1.00 30.32 C \\nATOM 788 OG1 THR B 4 15.093 41.256 -3.079 1.00 32.67 O \\nATOM 789 CG2 THR B 4 17.283 42.019 -2.472 1.00 30.57 C \\nATOM 790 N LEU B 5 15.157 38.761 -0.379 1.00 21.95 N \\nATOM 791 CA LEU B 5 14.466 37.636 0.259 1.00 21.45 C \\nATOM 792 C LEU B 5 13.125 38.065 0.821 1.00 22.43 C \\nATOM 793 O LEU B 5 12.585 37.446 1.733 1.00 22.26 O \\nATOM 794 CB LEU B 5 15.340 37.047 1.374 1.00 18.69 C \\nATOM 795 CG LEU B 5 16.622 36.365 0.892 1.00 18.41 C \\nATOM 796 CD1 LEU B 5 17.455 35.953 2.080 1.00 16.32 C \\nATOM 797 CD2 LEU B 5 16.248 35.136 -0.006 1.00 16.07 C \\nATOM 798 N TRP B 6 12.567 39.127 0.262 1.00 21.66 N \\nATOM 799 CA TRP B 6 11.260 39.582 0.682 1.00 21.58 C \\nATOM 800 C TRP B 6 10.196 38.601 0.218 1.00 21.21 C \\nATOM 801 O TRP B 6 9.192 38.404 0.903 1.00 22.05 O \\nATOM 802 CB TRP B 6 11.004 40.992 0.135 1.00 19.59 C \\nATOM 803 CG TRP B 6 12.065 42.014 0.478 1.00 18.40 C \\nATOM 804 CD1 TRP B 6 13.157 42.366 -0.279 1.00 17.80 C \\nATOM 805 CD2 TRP B 6 12.209 42.716 1.739 1.00 14.37 C \\nATOM 806 NE1 TRP B 6 13.979 43.196 0.470 1.00 17.13 N \\nATOM 807 CE2 TRP B 6 13.433 43.441 1.686 1.00 17.08 C \\nATOM 808 CE3 TRP B 6 11.443 42.805 2.913 1.00 17.33 C \\nATOM 809 CZ2 TRP B 6 13.914 44.211 2.785 1.00 16.59 C \\nATOM 810 CZ3 TRP B 6 11.903 43.585 3.953 1.00 15.43 C \\nATOM 811 CH2 TRP B 6 13.148 44.273 3.896 1.00 18.86 C \\nATOM 812 N GLN B 7 10.396 38.008 -0.958 1.00 23.30 N \\nATOM 813 CA GLN B 7 9.518 36.960 -1.516 1.00 24.55 C \\nATOM 814 C GLN B 7 10.321 35.670 -1.433 1.00 23.64 C \\nATOM 815 O GLN B 7 11.546 35.694 -1.298 1.00 23.66 O \\nATOM 816 CB GLN B 7 9.215 37.238 -3.000 1.00 32.55 C \\nATOM 817 CG GLN B 7 8.278 38.433 -3.326 1.00 41.57 C \\nATOM 818 CD GLN B 7 7.629 38.332 -4.744 1.00 50.90 C \\nATOM 819 OE1 GLN B 7 8.319 38.100 -5.754 1.00 55.87 O \\nATOM 820 NE2 GLN B 7 6.307 38.532 -4.814 1.00 51.09 N \\nATOM 821 N ARG B 8 9.661 34.528 -1.525 1.00 21.29 N \\nATOM 822 CA ARG B 8 10.385 33.251 -1.642 1.00 20.70 C \\nATOM 823 C ARG B 8 11.348 33.305 -2.780 1.00 19.16 C \\nATOM 824 O ARG B 8 10.964 33.682 -3.906 1.00 22.46 O \\nATOM 825 CB ARG B 8 9.435 32.061 -1.862 1.00 21.59 C \\nATOM 826 CG ARG B 8 8.623 31.716 -0.644 1.00 27.03 C \\nATOM 827 CD ARG B 8 7.828 30.471 -0.844 1.00 28.48 C \\nATOM 828 NE ARG B 8 7.143 30.102 0.378 1.00 38.82 N \\nATOM 829 CZ ARG B 8 6.523 28.938 0.561 1.00 45.44 C \\nATOM 830 NH1 ARG B 8 6.476 28.028 -0.411 1.00 47.55 N \\nATOM 831 NH2 ARG B 8 5.925 28.688 1.719 1.00 49.71 N \\nATOM 832 N PRO B 9 12.533 32.711 -2.598 1.00 18.31 N \\nATOM 833 CA PRO B 9 13.443 32.743 -3.746 1.00 16.67 C \\nATOM 834 C PRO B 9 13.174 31.592 -4.703 1.00 18.20 C \\nATOM 835 O PRO B 9 13.897 30.587 -4.698 1.00 17.79 O \\nATOM 836 CB PRO B 9 14.813 32.658 -3.125 1.00 15.13 C \\nATOM 837 CG PRO B 9 14.564 31.823 -1.917 1.00 13.81 C \\nATOM 838 CD PRO B 9 13.238 32.289 -1.373 1.00 15.31 C \\nATOM 839 N LEU B 10 12.134 31.727 -5.504 1.00 18.74 N \\nATOM 840 CA LEU B 10 11.816 30.740 -6.534 1.00 24.75 C \\nATOM 841 C LEU B 10 12.459 31.075 -7.877 1.00 28.33 C \\nATOM 842 O LEU B 10 12.274 32.150 -8.406 1.00 34.15 O \\nATOM 843 CB LEU B 10 10.303 30.637 -6.738 1.00 22.30 C \\nATOM 844 CG LEU B 10 9.483 30.307 -5.497 1.00 26.19 C \\nATOM 845 CD1 LEU B 10 8.028 30.334 -5.876 1.00 26.68 C \\nATOM 846 CD2 LEU B 10 9.845 28.975 -4.951 1.00 25.72 C \\nATOM 847 N VAL B 11 13.225 30.141 -8.420 1.00 29.04 N \\nATOM 848 CA VAL B 11 13.759 30.227 -9.768 1.00 25.94 C \\nATOM 849 C VAL B 11 13.103 29.153 -10.641 1.00 28.64 C \\nATOM 850 O VAL B 11 12.381 28.285 -10.135 1.00 26.28 O \\nATOM 851 CB VAL B 11 15.253 29.988 -9.735 1.00 26.71 C \\nATOM 852 CG1 VAL B 11 15.898 31.108 -8.939 1.00 26.27 C \\nATOM 853 CG2 VAL B 11 15.573 28.635 -9.104 1.00 23.17 C \\nATOM 854 N THR B 12 13.346 29.214 -11.949 1.00 29.16 N \\nATOM 855 CA THR B 12 12.809 28.220 -12.873 1.00 29.59 C \\nATOM 856 C THR B 12 13.951 27.253 -13.210 1.00 27.37 C \\nATOM 857 O THR B 12 15.089 27.656 -13.442 1.00 28.24 O \\nATOM 858 CB THR B 12 12.259 28.907 -14.158 1.00 33.38 C \\nATOM 859 OG1 THR B 12 11.693 27.933 -15.028 1.00 41.16 O \\nATOM 860 CG2 THR B 12 13.341 29.639 -14.925 1.00 37.24 C \\nATOM 861 N ILE B 13 13.684 25.961 -13.124 1.00 27.04 N \\nATOM 862 CA ILE B 13 14.708 24.966 -13.446 1.00 26.55 C \\nATOM 863 C ILE B 13 14.230 24.165 -14.639 1.00 28.05 C \\nATOM 864 O ILE B 13 13.014 24.057 -14.918 1.00 25.03 O \\nATOM 865 CB ILE B 13 14.993 23.953 -12.269 1.00 25.84 C \\nATOM 866 CG1 ILE B 13 13.699 23.190 -11.870 1.00 28.87 C \\nATOM 867 CG2 ILE B 13 15.564 24.705 -11.094 1.00 20.54 C \\nATOM 868 CD1 ILE B 13 13.900 22.077 -10.834 1.00 29.32 C \\nATOM 869 N LYS B 14 15.186 23.630 -15.378 1.00 27.45 N \\nATOM 870 CA LYS B 14 14.828 22.733 -16.464 1.00 26.92 C \\nATOM 871 C LYS B 14 15.482 21.387 -16.141 1.00 26.01 C \\nATOM 872 O LYS B 14 16.690 21.305 -15.886 1.00 24.75 O \\nATOM 873 CB LYS B 14 15.340 23.256 -17.814 1.00 25.93 C \\nATOM 874 CG LYS B 14 14.868 22.447 -18.992 1.00 27.04 C \\nATOM 875 CD LYS B 14 14.687 23.295 -20.194 1.00 32.12 C \\nATOM 876 CE LYS B 14 15.979 23.453 -20.922 1.00 34.02 C \\nATOM 877 NZ LYS B 14 15.739 23.451 -22.389 1.00 41.05 N \\nATOM 878 N ILE B 15 14.660 20.354 -16.136 1.00 26.74 N \\nATOM 879 CA ILE B 15 15.108 18.999 -15.906 1.00 30.24 C \\nATOM 880 C ILE B 15 14.188 18.067 -16.702 1.00 33.16 C \\nATOM 881 O ILE B 15 12.968 18.199 -16.719 1.00 31.38 O \\nATOM 882 CB ILE B 15 15.090 18.663 -14.360 1.00 31.34 C \\nATOM 883 CG1 ILE B 15 15.694 17.283 -14.101 1.00 32.33 C \\nATOM 884 CG2 ILE B 15 13.682 18.760 -13.780 1.00 28.02 C \\nATOM 885 CD1 ILE B 15 16.011 17.036 -12.625 1.00 33.84 C \\nATOM 886 N GLY B 16 14.799 17.159 -17.438 1.00 36.75 N \\nATOM 887 CA GLY B 16 14.024 16.279 -18.286 1.00 39.96 C \\nATOM 888 C GLY B 16 13.311 17.029 -19.391 1.00 40.86 C \\nATOM 889 O GLY B 16 12.318 16.549 -19.924 1.00 42.44 O \\nATOM 890 N GLY B 17 13.887 18.145 -19.823 1.00 40.79 N \\nATOM 891 CA GLY B 17 13.243 18.938 -20.850 1.00 37.08 C \\nATOM 892 C GLY B 17 12.009 19.638 -20.345 1.00 35.82 C \\nATOM 893 O GLY B 17 11.392 20.369 -21.084 1.00 37.78 O \\nATOM 894 N GLN B 18 11.676 19.486 -19.073 1.00 32.85 N \\nATOM 895 CA GLN B 18 10.572 20.249 -18.515 1.00 35.03 C \\nATOM 896 C GLN B 18 11.056 21.466 -17.699 1.00 34.53 C \\nATOM 897 O GLN B 18 12.196 21.494 -17.175 1.00 33.51 O \\nATOM 898 CB GLN B 18 9.708 19.388 -17.619 1.00 40.01 C \\nATOM 899 CG GLN B 18 8.936 18.297 -18.309 1.00 47.43 C \\nATOM 900 CD GLN B 18 9.088 16.973 -17.566 1.00 53.35 C \\nATOM 901 OE1 GLN B 18 9.813 16.078 -18.014 1.00 55.74 O \\nATOM 902 NE2 GLN B 18 8.488 16.884 -16.371 1.00 54.03 N \\nATOM 903 N LEU B 19 10.186 22.475 -17.590 1.00 32.63 N \\nATOM 904 CA LEU B 19 10.450 23.647 -16.749 1.00 29.37 C \\nATOM 905 C LEU B 19 9.631 23.511 -15.483 1.00 28.10 C \\nATOM 906 O LEU B 19 8.432 23.277 -15.551 1.00 29.04 O \\nATOM 907 CB LEU B 19 10.010 24.932 -17.474 1.00 28.40 C \\nATOM 908 CG LEU B 19 10.775 25.419 -18.723 1.00 26.42 C \\nATOM 909 CD1 LEU B 19 10.226 26.727 -19.190 1.00 22.91 C \\nATOM 910 CD2 LEU B 19 12.241 25.543 -18.395 1.00 23.99 C \\nATOM 911 N LYS B 20 10.273 23.619 -14.329 1.00 28.58 N \\nATOM 912 CA LYS B 20 9.576 23.583 -13.044 1.00 25.77 C \\nATOM 913 C LYS B 20 10.018 24.784 -12.260 1.00 26.35 C \\nATOM 914 O LYS B 20 10.998 25.429 -12.605 1.00 25.15 O \\nATOM 915 CB LYS B 20 9.970 22.364 -12.236 1.00 29.54 C \\nATOM 916 CG LYS B 20 10.281 21.123 -13.051 1.00 36.66 C \\nATOM 917 CD LYS B 20 9.037 20.289 -13.305 1.00 41.68 C \\nATOM 918 CE LYS B 20 9.400 18.836 -13.595 1.00 45.08 C \\nATOM 919 NZ LYS B 20 9.672 18.102 -12.328 1.00 46.33 N \\nATOM 920 N GLU B 21 9.324 25.048 -11.162 1.00 24.88 N \\nATOM 921 CA GLU B 21 9.705 26.075 -10.199 1.00 25.39 C \\nATOM 922 C GLU B 21 10.311 25.408 -8.990 1.00 23.31 C \\nATOM 923 O GLU B 21 9.847 24.351 -8.547 1.00 25.34 O \\nATOM 924 CB GLU B 21 8.468 26.848 -9.767 1.00 32.42 C \\nATOM 925 CG GLU B 21 8.676 28.343 -9.687 1.00 47.17 C \\nATOM 926 CD GLU B 21 7.419 29.111 -10.041 1.00 57.11 C \\nATOM 927 OE1 GLU B 21 6.374 28.877 -9.383 1.00 62.83 O \\nATOM 928 OE2 GLU B 21 7.461 29.911 -11.004 1.00 64.02 O \\nATOM 929 N ALA B 22 11.348 26.008 -8.443 1.00 16.20 N \\nATOM 930 CA ALA B 22 12.025 25.431 -7.271 1.00 14.52 C \\nATOM 931 C ALA B 22 12.472 26.569 -6.331 1.00 15.55 C \\nATOM 932 O ALA B 22 12.709 27.701 -6.765 1.00 17.95 O \\nATOM 933 CB ALA B 22 13.248 24.643 -7.708 1.00 11.99 C \\nATOM 934 N LEU B 23 12.560 26.257 -5.054 1.00 14.37 N \\nATOM 935 CA LEU B 23 13.017 27.151 -4.001 1.00 15.39 C \\nATOM 936 C LEU B 23 14.518 27.005 -3.822 1.00 15.08 C \\nATOM 937 O LEU B 23 15.008 25.915 -3.588 1.00 14.05 O \\nATOM 938 CB LEU B 23 12.330 26.721 -2.741 1.00 16.68 C \\nATOM 939 CG LEU B 23 12.592 27.472 -1.469 1.00 20.94 C \\nATOM 940 CD1 LEU B 23 12.006 28.877 -1.562 1.00 18.77 C \\nATOM 941 CD2 LEU B 23 11.917 26.658 -0.379 1.00 21.23 C \\nATOM 942 N LEU B 24 15.266 28.090 -3.963 1.00 13.16 N \\nATOM 943 CA LEU B 24 16.672 28.114 -3.511 1.00 17.92 C \\nATOM 944 C LEU B 24 16.809 28.098 -1.992 1.00 18.17 C \\nATOM 945 O LEU B 24 16.417 29.019 -1.338 1.00 19.32 O \\nATOM 946 CB LEU B 24 17.416 29.342 -4.065 1.00 17.42 C \\nATOM 947 CG LEU B 24 17.444 29.528 -5.585 1.00 19.17 C \\nATOM 948 CD1 LEU B 24 18.151 30.843 -5.884 1.00 20.12 C \\nATOM 949 CD2 LEU B 24 18.170 28.385 -6.270 1.00 19.21 C \\nATOM 950 N ASP B 25 17.407 27.054 -1.437 1.00 19.08 N \\nATOM 951 CA ASP B 25 17.227 26.751 -0.026 1.00 18.20 C \\nATOM 952 C ASP B 25 18.555 26.446 0.653 1.00 19.09 C \\nATOM 953 O ASP B 25 19.003 25.309 0.692 1.00 18.68 O \\nATOM 954 CB ASP B 25 16.258 25.572 0.084 1.00 18.15 C \\nATOM 955 CG ASP B 25 15.759 25.336 1.493 1.00 20.90 C \\nATOM 956 OD1 ASP B 25 16.399 25.780 2.453 1.00 23.13 O \\nATOM 957 OD2 ASP B 25 14.731 24.675 1.645 1.00 22.18 O \\nATOM 958 N THR B 26 19.163 27.455 1.257 1.00 14.92 N \\nATOM 959 CA THR B 26 20.441 27.290 1.920 1.00 13.68 C \\nATOM 960 C THR B 26 20.319 26.393 3.168 1.00 15.84 C \\nATOM 961 O THR B 26 21.316 25.867 3.637 1.00 18.69 O \\nATOM 962 CB THR B 26 21.063 28.678 2.282 1.00 15.43 C \\nATOM 963 OG1 THR B 26 20.188 29.407 3.146 1.00 15.52 O \\nATOM 964 CG2 THR B 26 21.279 29.499 1.024 1.00 15.01 C \\nATOM 965 N GLY B 27 19.106 26.199 3.688 1.00 13.19 N \\nATOM 966 CA GLY B 27 18.957 25.372 4.876 1.00 13.54 C \\nATOM 967 C GLY B 27 18.845 23.903 4.520 1.00 17.44 C \\nATOM 968 O GLY B 27 18.660 23.054 5.417 1.00 18.85 O \\nATOM 969 N ALA B 28 18.819 23.600 3.217 1.00 17.91 N \\nATOM 970 CA ALA B 28 18.721 22.211 2.738 1.00 18.89 C \\nATOM 971 C ALA B 28 20.089 21.661 2.292 1.00 20.66 C \\nATOM 972 O ALA B 28 20.749 22.243 1.403 1.00 22.38 O \\nATOM 973 CB ALA B 28 17.682 22.117 1.578 1.00 13.77 C \\nATOM 974 N ASP B 29 20.536 20.559 2.918 1.00 20.64 N \\nATOM 975 CA ASP B 29 21.779 19.912 2.496 1.00 14.85 C \\nATOM 976 C ASP B 29 21.693 19.374 1.107 1.00 14.01 C \\nATOM 977 O ASP B 29 22.642 19.502 0.361 1.00 17.76 O \\nATOM 978 CB ASP B 29 22.169 18.827 3.447 1.00 15.99 C \\nATOM 979 CG ASP B 29 22.272 19.337 4.844 1.00 22.55 C \\nATOM 980 OD1 ASP B 29 22.714 20.482 5.029 1.00 27.81 O \\nATOM 981 OD2 ASP B 29 21.836 18.647 5.778 1.00 29.43 O \\nATOM 982 N ASP B 30 20.524 18.868 0.719 1.00 16.70 N \\nATOM 983 CA ASP B 30 20.355 18.227 -0.584 1.00 15.10 C \\nATOM 984 C ASP B 30 19.212 18.807 -1.371 1.00 16.38 C \\nATOM 985 O ASP B 30 18.383 19.523 -0.846 1.00 17.11 O \\nATOM 986 CB ASP B 30 20.084 16.745 -0.413 1.00 21.76 C \\nATOM 987 CG ASP B 30 21.023 16.088 0.586 1.00 25.41 C \\nATOM 988 OD1 ASP B 30 22.233 15.970 0.265 1.00 25.58 O \\nATOM 989 OD2 ASP B 30 20.531 15.682 1.672 1.00 27.89 O \\nATOM 990 N THR B 31 19.152 18.428 -2.643 1.00 18.44 N \\nATOM 991 CA THR B 31 18.113 18.843 -3.603 1.00 15.45 C \\nATOM 992 C THR B 31 17.019 17.743 -3.682 1.00 19.23 C \\nATOM 993 O THR B 31 17.342 16.586 -3.904 1.00 18.95 O \\nATOM 994 CB THR B 31 18.810 19.051 -4.967 1.00 12.28 C \\nATOM 995 OG1 THR B 31 19.740 20.123 -4.831 1.00 13.54 O \\nATOM 996 CG2 THR B 31 17.844 19.330 -6.078 1.00 10.95 C \\nATOM 997 N VAL B 32 15.750 18.102 -3.440 1.00 19.53 N \\nATOM 998 CA VAL B 32 14.628 17.162 -3.514 1.00 18.71 C \\nATOM 999 C VAL B 32 13.618 17.726 -4.436 1.00 19.01 C \\nATOM 1000 O VAL B 32 13.169 18.861 -4.263 1.00 19.90 O \\nATOM 1001 CB VAL B 32 13.781 17.005 -2.245 1.00 20.49 C \\nATOM 1002 CG1 VAL B 32 13.297 15.592 -2.184 1.00 26.38 C \\nATOM 1003 CG2 VAL B 32 14.518 17.455 -1.007 1.00 20.87 C \\nATOM 1004 N LEU B 33 13.199 16.926 -5.401 1.00 22.78 N \\nATOM 1005 CA LEU B 33 12.141 17.335 -6.327 1.00 23.84 C \\nATOM 1006 C LEU B 33 10.876 16.500 -6.065 1.00 27.19 C \\nATOM 1007 O LEU B 33 10.948 15.389 -5.534 1.00 26.71 O \\nATOM 1008 CB LEU B 33 12.618 17.139 -7.766 1.00 21.02 C \\nATOM 1009 CG LEU B 33 13.889 17.846 -8.247 1.00 20.79 C \\nATOM 1010 CD1 LEU B 33 13.942 17.794 -9.731 1.00 21.64 C \\nATOM 1011 CD2 LEU B 33 13.897 19.266 -7.782 1.00 23.27 C \\nATOM 1012 N GLU B 34 9.719 17.083 -6.361 1.00 26.46 N \\nATOM 1013 CA GLU B 34 8.442 16.392 -6.346 1.00 26.40 C \\nATOM 1014 C GLU B 34 8.514 15.172 -7.224 1.00 26.66 C \\nATOM 1015 O GLU B 34 9.413 15.013 -8.040 1.00 26.75 O \\nATOM 1016 CB GLU B 34 7.316 17.305 -6.819 1.00 24.89 C \\nATOM 1017 CG GLU B 34 6.914 18.362 -5.808 1.00 31.34 C \\nATOM 1018 CD GLU B 34 6.205 19.552 -6.439 1.00 32.62 C \\nATOM 1019 OE1 GLU B 34 6.323 19.742 -7.666 1.00 39.77 O \\nATOM 1020 OE2 GLU B 34 5.613 20.369 -5.715 1.00 39.65 O \\nATOM 1021 N GLU B 35 7.526 14.309 -7.044 1.00 30.87 N \\nATOM 1022 CA GLU B 35 7.425 13.006 -7.682 1.00 32.05 C \\nATOM 1023 C GLU B 35 7.528 13.141 -9.172 1.00 32.29 C \\nATOM 1024 O GLU B 35 6.660 13.711 -9.819 1.00 37.80 O \\nATOM 1025 CB GLU B 35 6.100 12.361 -7.297 1.00 35.17 C \\nATOM 1026 CG GLU B 35 5.907 10.953 -7.838 1.00 44.03 C \\nATOM 1027 CD GLU B 35 7.182 10.093 -7.854 1.00 44.48 C \\nATOM 1028 OE1 GLU B 35 7.743 9.853 -6.766 1.00 38.16 O \\nATOM 1029 OE2 GLU B 35 7.521 9.561 -8.946 1.00 46.13 O \\nATOM 1030 N MET B 36 8.627 12.651 -9.705 1.00 31.85 N \\nATOM 1031 CA MET B 36 8.791 12.578 -11.145 1.00 33.53 C \\nATOM 1032 C MET B 36 9.583 11.322 -11.483 1.00 33.93 C \\nATOM 1033 O MET B 36 10.100 10.637 -10.616 1.00 36.78 O \\nATOM 1034 CB MET B 36 9.546 13.808 -11.654 1.00 35.97 C \\nATOM 1035 CG MET B 36 10.867 14.095 -11.014 1.00 35.75 C \\nATOM 1036 SD MET B 36 11.575 15.547 -11.778 1.00 43.16 S \\nATOM 1037 CE MET B 36 11.710 15.108 -13.551 1.00 42.89 C \\nATOM 1038 N SER B 37 9.657 11.016 -12.763 1.00 33.54 N \\nATOM 1039 CA SER B 37 10.411 9.858 -13.218 1.00 35.84 C \\nATOM 1040 C SER B 37 11.673 10.374 -13.825 1.00 34.42 C \\nATOM 1041 O SER B 37 11.636 11.272 -14.685 1.00 33.84 O \\nATOM 1042 CB SER B 37 9.573 9.049 -14.221 1.00 38.59 C \\nATOM 1043 OG SER B 37 8.330 8.594 -13.579 1.00 41.47 O \\nATOM 1044 N LEU B 38 12.793 9.884 -13.330 1.00 35.38 N \\nATOM 1045 CA LEU B 38 14.091 10.261 -13.857 1.00 34.72 C \\nATOM 1046 C LEU B 38 14.818 9.018 -14.330 1.00 36.10 C \\nATOM 1047 O LEU B 38 14.416 7.898 -13.995 1.00 35.71 O \\nATOM 1048 CB LEU B 38 14.866 10.942 -12.759 1.00 30.77 C \\nATOM 1049 CG LEU B 38 14.480 12.376 -12.556 1.00 26.92 C \\nATOM 1050 CD1 LEU B 38 15.159 12.900 -11.300 1.00 29.33 C \\nATOM 1051 CD2 LEU B 38 14.955 13.131 -13.766 1.00 27.40 C \\nATOM 1052 N PRO B 39 15.767 9.161 -15.261 1.00 39.43 N \\nATOM 1053 CA PRO B 39 16.525 8.031 -15.798 1.00 40.91 C \\nATOM 1054 C PRO B 39 17.366 7.241 -14.777 1.00 41.38 C \\nATOM 1055 O PRO B 39 17.943 7.817 -13.847 1.00 42.07 O \\nATOM 1056 CB PRO B 39 17.407 8.673 -16.857 1.00 41.75 C \\nATOM 1057 CG PRO B 39 17.532 10.100 -16.423 1.00 41.42 C \\nATOM 1058 CD PRO B 39 16.150 10.405 -15.968 1.00 42.37 C \\nATOM 1059 N GLY B 40 17.477 5.932 -14.999 1.00 35.62 N \\nATOM 1060 CA GLY B 40 18.494 5.171 -14.302 1.00 33.54 C \\nATOM 1061 C GLY B 40 18.048 4.556 -12.995 1.00 29.12 C \\nATOM 1062 O GLY B 40 16.865 4.438 -12.729 1.00 28.38 O \\nATOM 1063 N ARG B 41 19.000 3.939 -12.313 1.00 27.66 N \\nATOM 1064 CA ARG B 41 18.722 3.282 -11.042 1.00 28.95 C \\nATOM 1065 C ARG B 41 18.615 4.306 -9.916 1.00 30.49 C \\nATOM 1066 O ARG B 41 19.168 5.390 -10.018 1.00 31.54 O \\nATOM 1067 CB ARG B 41 19.852 2.333 -10.662 1.00 28.94 C \\nATOM 1068 CG ARG B 41 20.359 1.417 -11.726 1.00 34.11 C \\nATOM 1069 CD ARG B 41 20.905 0.188 -11.023 1.00 34.17 C \\nATOM 1070 NE ARG B 41 19.927 -0.864 -11.169 1.00 38.61 N \\nATOM 1071 CZ ARG B 41 19.354 -1.538 -10.177 1.00 35.13 C \\nATOM 1072 NH1 ARG B 41 19.839 -1.513 -8.939 1.00 27.84 N \\nATOM 1073 NH2 ARG B 41 18.333 -2.314 -10.472 1.00 27.82 N \\nATOM 1074 N TRP B 42 17.989 3.918 -8.810 1.00 27.94 N \\nATOM 1075 CA TRP B 42 17.920 4.766 -7.634 1.00 28.18 C \\nATOM 1076 C TRP B 42 18.295 3.969 -6.380 1.00 30.79 C \\nATOM 1077 O TRP B 42 18.163 2.742 -6.361 1.00 28.97 O \\nATOM 1078 CB TRP B 42 16.525 5.338 -7.459 1.00 24.28 C \\nATOM 1079 CG TRP B 42 15.444 4.372 -7.312 1.00 18.74 C \\nATOM 1080 CD1 TRP B 42 14.681 3.834 -8.299 1.00 16.49 C \\nATOM 1081 CD2 TRP B 42 14.840 3.957 -6.079 1.00 18.74 C \\nATOM 1082 NE1 TRP B 42 13.640 3.121 -7.756 1.00 16.06 N \\nATOM 1083 CE2 TRP B 42 13.719 3.166 -6.402 1.00 14.09 C \\nATOM 1084 CE3 TRP B 42 15.154 4.180 -4.715 1.00 20.09 C \\nATOM 1085 CZ2 TRP B 42 12.881 2.589 -5.411 1.00 18.75 C \\nATOM 1086 CZ3 TRP B 42 14.300 3.625 -3.745 1.00 22.86 C \\nATOM 1087 CH2 TRP B 42 13.168 2.842 -4.106 1.00 20.90 C \\nATOM 1088 N LYS B 43 18.801 4.689 -5.365 1.00 31.89 N \\nATOM 1089 CA LYS B 43 19.180 4.182 -4.032 1.00 30.18 C \\nATOM 1090 C LYS B 43 18.127 4.736 -3.089 1.00 27.53 C \\nATOM 1091 O LYS B 43 17.442 5.729 -3.400 1.00 25.86 O \\nATOM 1092 CB LYS B 43 20.561 4.731 -3.581 1.00 33.16 C \\nATOM 1093 CG LYS B 43 21.777 4.400 -4.445 1.00 40.56 C \\nATOM 1094 CD LYS B 43 22.996 5.295 -4.048 1.00 49.90 C \\nATOM 1095 CE LYS B 43 24.193 5.280 -5.063 1.00 52.53 C \\nATOM 1096 NZ LYS B 43 25.251 6.324 -4.725 1.00 52.90 N \\nATOM 1097 N PRO B 44 18.053 4.208 -1.878 1.00 25.82 N \\nATOM 1098 CA PRO B 44 17.102 4.804 -0.946 1.00 25.30 C \\nATOM 1099 C PRO B 44 17.754 5.853 -0.023 1.00 27.71 C \\nATOM 1100 O PRO B 44 18.929 5.769 0.330 1.00 25.94 O \\nATOM 1101 CB PRO B 44 16.596 3.610 -0.171 1.00 25.59 C \\nATOM 1102 CG PRO B 44 17.803 2.676 -0.117 1.00 26.07 C \\nATOM 1103 CD PRO B 44 18.649 2.962 -1.335 1.00 27.58 C \\nATOM 1104 N LYS B 45 16.974 6.847 0.381 1.00 29.96 N \\nATOM 1105 CA LYS B 45 17.443 7.812 1.371 1.00 28.39 C \\nATOM 1106 C LYS B 45 16.334 8.328 2.257 1.00 27.43 C \\nATOM 1107 O LYS B 45 15.192 8.470 1.828 1.00 26.93 O \\nATOM 1108 CB LYS B 45 18.177 8.988 0.701 1.00 27.50 C \\nATOM 1109 CG LYS B 45 19.183 9.659 1.670 1.00 27.69 C \\nATOM 1110 CD LYS B 45 20.095 10.640 1.011 1.00 25.34 C \\nATOM 1111 CE LYS B 45 20.751 11.491 2.069 1.00 32.56 C \\nATOM 1112 NZ LYS B 45 21.413 12.705 1.509 1.00 32.92 N \\nATOM 1113 N MET B 46 16.672 8.585 3.514 1.00 29.02 N \\nATOM 1114 CA MET B 46 15.755 9.281 4.404 1.00 31.16 C \\nATOM 1115 C MET B 46 16.373 10.584 4.732 1.00 29.75 C \\nATOM 1116 O MET B 46 17.542 10.636 5.104 1.00 29.99 O \\nATOM 1117 CB MET B 46 15.562 8.530 5.708 1.00 38.22 C \\nATOM 1118 CG MET B 46 14.763 7.266 5.540 1.00 45.23 C \\nATOM 1119 SD MET B 46 13.357 7.367 6.566 1.00 52.02 S \\nATOM 1120 CE MET B 46 14.146 6.922 8.167 1.00 49.41 C \\nATOM 1121 N ILE B 47 15.582 11.636 4.604 1.00 30.87 N \\nATOM 1122 CA ILE B 47 16.003 12.986 4.955 1.00 29.85 C \\nATOM 1123 C ILE B 47 15.018 13.507 5.961 1.00 27.34 C \\nATOM 1124 O ILE B 47 13.822 13.222 5.884 1.00 26.79 O \\nATOM 1125 CB ILE B 47 16.040 13.915 3.699 1.00 29.30 C \\nATOM 1126 CG1 ILE B 47 14.745 13.761 2.918 1.00 25.99 C \\nATOM 1127 CG2 ILE B 47 17.229 13.534 2.782 1.00 28.73 C \\nATOM 1128 CD1 ILE B 47 14.742 14.561 1.698 1.00 27.41 C \\nATOM 1129 N GLY B 48 15.542 14.239 6.941 1.00 31.53 N \\nATOM 1130 CA GLY B 48 14.714 14.799 8.014 1.00 31.93 C \\nATOM 1131 C GLY B 48 14.762 16.314 8.114 1.00 33.10 C \\nATOM 1132 O GLY B 48 15.803 16.952 7.888 1.00 30.88 O \\nATOM 1133 N GLY B 49 13.583 16.896 8.239 1.00 32.08 N \\nATOM 1134 CA GLY B 49 13.484 18.319 8.459 1.00 34.90 C \\nATOM 1135 C GLY B 49 12.647 18.565 9.672 1.00 35.58 C \\nATOM 1136 O GLY B 49 12.880 17.976 10.721 1.00 36.70 O \\nATOM 1137 N ILE B 50 11.850 19.611 9.584 1.00 35.37 N \\nATOM 1138 CA ILE B 50 10.858 19.974 10.594 1.00 35.93 C \\nATOM 1139 C ILE B 50 9.707 18.988 10.393 1.00 35.51 C \\nATOM 1140 O ILE B 50 9.341 18.670 9.251 1.00 34.79 O \\nATOM 1141 CB ILE B 50 10.365 21.453 10.316 1.00 36.57 C \\nATOM 1142 CG1 ILE B 50 11.556 22.421 10.394 1.00 38.14 C \\nATOM 1143 CG2 ILE B 50 9.299 21.862 11.270 1.00 34.90 C \\nATOM 1144 CD1 ILE B 50 11.936 22.850 11.773 1.00 36.99 C \\nATOM 1145 N GLY B 51 9.164 18.455 11.474 1.00 32.76 N \\nATOM 1146 CA GLY B 51 8.011 17.583 11.313 1.00 34.23 C \\nATOM 1147 C GLY B 51 8.360 16.130 11.054 1.00 37.16 C \\nATOM 1148 O GLY B 51 7.494 15.283 11.167 1.00 40.75 O \\nATOM 1149 N GLY B 52 9.638 15.842 10.818 1.00 36.36 N \\nATOM 1150 CA GLY B 52 10.123 14.474 10.792 1.00 35.14 C \\nATOM 1151 C GLY B 52 10.860 14.080 9.524 1.00 35.06 C \\nATOM 1152 O GLY B 52 11.419 14.930 8.826 1.00 33.99 O \\nATOM 1153 N PHE B 53 10.878 12.788 9.221 1.00 33.56 N \\nATOM 1154 CA PHE B 53 11.638 12.302 8.079 1.00 33.93 C \\nATOM 1155 C PHE B 53 10.739 11.914 6.924 1.00 33.07 C \\nATOM 1156 O PHE B 53 9.601 11.543 7.137 1.00 35.98 O \\nATOM 1157 CB PHE B 53 12.458 11.126 8.531 1.00 35.25 C \\nATOM 1158 CG PHE B 53 13.464 11.471 9.564 1.00 39.11 C \\nATOM 1159 CD1 PHE B 53 13.092 11.697 10.886 1.00 40.72 C \\nATOM 1160 CD2 PHE B 53 14.789 11.625 9.189 1.00 40.77 C \\nATOM 1161 CE1 PHE B 53 14.036 12.076 11.825 1.00 42.79 C \\nATOM 1162 CE2 PHE B 53 15.753 12.001 10.078 1.00 41.95 C \\nATOM 1163 CZ PHE B 53 15.392 12.225 11.421 1.00 44.36 C \\nATOM 1164 N ILE B 54 11.204 12.078 5.695 1.00 30.50 N \\nATOM 1165 CA ILE B 54 10.538 11.431 4.563 1.00 28.82 C \\nATOM 1166 C ILE B 54 11.513 10.453 3.866 1.00 28.68 C \\nATOM 1167 O ILE B 54 12.727 10.529 4.052 1.00 30.25 O \\nATOM 1168 CB ILE B 54 9.923 12.446 3.500 1.00 25.49 C \\nATOM 1169 CG1 ILE B 54 10.968 13.414 2.964 1.00 24.37 C \\nATOM 1170 CG2 ILE B 54 8.754 13.195 4.090 1.00 27.89 C \\nATOM 1171 CD1 ILE B 54 10.571 14.020 1.616 1.00 16.71 C \\nATOM 1172 N LYS B 55 10.983 9.503 3.111 1.00 29.03 N \\nATOM 1173 CA LYS B 55 11.816 8.478 2.482 1.00 31.48 C \\nATOM 1174 C LYS B 55 11.862 8.988 1.074 1.00 28.45 C \\nATOM 1175 O LYS B 55 10.827 9.256 0.525 1.00 28.39 O \\nATOM 1176 CB LYS B 55 11.062 7.136 2.489 1.00 38.52 C \\nATOM 1177 CG LYS B 55 11.699 5.963 3.273 1.00 45.52 C \\nATOM 1178 CD LYS B 55 13.070 5.502 2.689 1.00 51.68 C \\nATOM 1179 CE LYS B 55 12.949 4.923 1.253 1.00 55.32 C \\nATOM 1180 NZ LYS B 55 13.964 5.445 0.291 1.00 51.46 N \\nATOM 1181 N VAL B 56 13.024 9.137 0.474 1.00 25.88 N \\nATOM 1182 CA VAL B 56 13.072 9.652 -0.897 1.00 26.87 C \\nATOM 1183 C VAL B 56 13.885 8.719 -1.786 1.00 26.06 C \\nATOM 1184 O VAL B 56 14.547 7.817 -1.279 1.00 29.12 O \\nATOM 1185 CB VAL B 56 13.757 11.033 -0.959 1.00 27.47 C \\nATOM 1186 CG1 VAL B 56 12.766 12.134 -0.523 1.00 27.66 C \\nATOM 1187 CG2 VAL B 56 15.032 11.016 -0.119 1.00 29.79 C \\nATOM 1188 N ARG B 57 13.889 8.977 -3.102 1.00 24.26 N \\nATOM 1189 CA ARG B 57 14.697 8.220 -4.083 1.00 21.61 C \\nATOM 1190 C ARG B 57 15.894 9.023 -4.591 1.00 20.76 C \\nATOM 1191 O ARG B 57 15.735 10.066 -5.210 1.00 24.14 O \\nATOM 1192 CB ARG B 57 13.862 7.854 -5.298 1.00 20.35 C \\nATOM 1193 CG ARG B 57 12.767 6.845 -5.041 1.00 26.15 C \\nATOM 1194 CD ARG B 57 12.224 6.316 -6.354 1.00 24.10 C \\nATOM 1195 NE ARG B 57 10.944 6.937 -6.617 1.00 34.58 N \\nATOM 1196 CZ ARG B 57 10.717 7.776 -7.614 1.00 31.59 C \\nATOM 1197 NH1 ARG B 57 11.534 7.792 -8.658 1.00 33.77 N \\nATOM 1198 NH2 ARG B 57 9.555 8.403 -7.678 1.00 29.56 N \\nATOM 1199 N GLN B 58 17.095 8.516 -4.388 1.00 19.42 N \\nATOM 1200 CA GLN B 58 18.306 9.218 -4.819 1.00 21.62 C \\nATOM 1201 C GLN B 58 18.742 8.833 -6.226 1.00 23.18 C \\nATOM 1202 O GLN B 58 19.157 7.694 -6.438 1.00 26.34 O \\nATOM 1203 CB GLN B 58 19.465 8.920 -3.861 1.00 20.63 C \\nATOM 1204 CG GLN B 58 20.738 9.622 -4.271 1.00 18.81 C \\nATOM 1205 CD GLN B 58 21.825 9.463 -3.248 1.00 20.16 C \\nATOM 1206 OE1 GLN B 58 21.554 9.424 -2.048 1.00 28.16 O \\nATOM 1207 NE2 GLN B 58 23.045 9.365 -3.692 1.00 21.91 N \\nATOM 1208 N TYR B 59 18.705 9.773 -7.167 1.00 21.35 N \\nATOM 1209 CA TYR B 59 19.361 9.587 -8.464 1.00 19.01 C \\nATOM 1210 C TYR B 59 20.689 10.330 -8.544 1.00 21.82 C \\nATOM 1211 O TYR B 59 20.860 11.368 -7.943 1.00 25.32 O \\nATOM 1212 CB TYR B 59 18.472 10.082 -9.563 1.00 18.59 C \\nATOM 1213 CG TYR B 59 17.116 9.383 -9.609 1.00 15.73 C \\nATOM 1214 CD1 TYR B 59 16.157 9.612 -8.615 1.00 15.43 C \\nATOM 1215 CD2 TYR B 59 16.814 8.484 -10.637 1.00 19.10 C \\nATOM 1216 CE1 TYR B 59 14.959 8.977 -8.640 1.00 16.84 C \\nATOM 1217 CE2 TYR B 59 15.647 7.851 -10.673 1.00 19.50 C \\nATOM 1218 CZ TYR B 59 14.704 8.066 -9.679 1.00 22.02 C \\nATOM 1219 OH TYR B 59 13.561 7.307 -9.711 1.00 23.01 O \\nATOM 1220 N ASP B 60 21.665 9.797 -9.258 1.00 26.17 N \\nATOM 1221 CA ASP B 60 22.959 10.470 -9.336 1.00 25.69 C \\nATOM 1222 C ASP B 60 23.303 10.921 -10.737 1.00 27.15 C \\nATOM 1223 O ASP B 60 22.793 10.396 -11.707 1.00 26.71 O \\nATOM 1224 CB ASP B 60 24.042 9.554 -8.834 1.00 30.50 C \\nATOM 1225 CG ASP B 60 23.843 9.184 -7.407 1.00 36.31 C \\nATOM 1226 OD1 ASP B 60 23.463 10.074 -6.620 1.00 37.41 O \\nATOM 1227 OD2 ASP B 60 24.107 8.012 -7.044 1.00 40.37 O \\nATOM 1228 N GLN B 61 24.189 11.897 -10.837 1.00 27.15 N \\nATOM 1229 CA GLN B 61 24.622 12.478 -12.111 1.00 29.27 C \\nATOM 1230 C GLN B 61 23.474 12.903 -13.022 1.00 28.21 C \\nATOM 1231 O GLN B 61 23.492 12.665 -14.229 1.00 29.57 O \\nATOM 1232 CB GLN B 61 25.596 11.549 -12.869 1.00 35.98 C \\nATOM 1233 CG GLN B 61 26.892 12.283 -13.369 1.00 45.09 C \\nATOM 1234 CD GLN B 61 28.007 11.392 -13.985 1.00 50.40 C \\nATOM 1235 OE1 GLN B 61 28.747 11.845 -14.875 1.00 49.27 O \\nATOM 1236 NE2 GLN B 61 28.197 10.173 -13.442 1.00 55.52 N \\nATOM 1237 N ILE B 62 22.493 13.589 -12.452 1.00 26.57 N \\nATOM 1238 CA ILE B 62 21.380 14.141 -13.224 1.00 24.82 C \\nATOM 1239 C ILE B 62 21.710 15.575 -13.686 1.00 25.46 C \\nATOM 1240 O ILE B 62 22.247 16.373 -12.924 1.00 25.12 O \\nATOM 1241 CB ILE B 62 20.090 14.147 -12.331 1.00 24.26 C \\nATOM 1242 CG1 ILE B 62 19.709 12.702 -11.952 1.00 23.74 C \\nATOM 1243 CG2 ILE B 62 18.950 14.826 -13.045 1.00 21.48 C \\nATOM 1244 CD1 ILE B 62 19.068 11.933 -13.057 1.00 23.09 C \\nATOM 1245 N LEU B 63 21.400 15.900 -14.931 1.00 25.95 N \\nATOM 1246 CA LEU B 63 21.600 17.263 -15.431 1.00 29.84 C \\nATOM 1247 C LEU B 63 20.386 18.085 -15.052 1.00 30.58 C \\nATOM 1248 O LEU B 63 19.260 17.703 -15.355 1.00 31.36 O \\nATOM 1249 CB LEU B 63 21.769 17.265 -16.962 1.00 32.16 C \\nATOM 1250 CG LEU B 63 21.792 18.587 -17.759 1.00 33.80 C \\nATOM 1251 CD1 LEU B 63 22.903 19.529 -17.300 1.00 36.66 C \\nATOM 1252 CD2 LEU B 63 21.997 18.246 -19.205 1.00 38.83 C \\nATOM 1253 N ILE B 64 20.626 19.203 -14.381 1.00 31.59 N \\nATOM 1254 CA ILE B 64 19.548 20.111 -14.029 1.00 31.52 C \\nATOM 1255 C ILE B 64 20.089 21.523 -14.223 1.00 33.29 C \\nATOM 1256 O ILE B 64 21.175 21.858 -13.763 1.00 33.56 O \\nATOM 1257 CB ILE B 64 19.107 19.880 -12.540 1.00 29.35 C \\nATOM 1258 CG1 ILE B 64 18.216 20.990 -12.036 1.00 30.67 C \\nATOM 1259 CG2 ILE B 64 20.311 19.766 -11.655 1.00 34.19 C \\nATOM 1260 CD1 ILE B 64 17.324 20.544 -10.930 1.00 34.50 C \\nATOM 1261 N GLU B 65 19.327 22.330 -14.953 1.00 35.37 N \\nATOM 1262 CA GLU B 65 19.661 23.719 -15.251 1.00 34.26 C \\nATOM 1263 C GLU B 65 18.938 24.686 -14.338 1.00 33.11 C \\nATOM 1264 O GLU B 65 17.700 24.745 -14.345 1.00 32.35 O \\nATOM 1265 CB GLU B 65 19.282 24.017 -16.688 1.00 37.05 C \\nATOM 1266 CG GLU B 65 20.180 25.011 -17.326 1.00 48.15 C \\nATOM 1267 CD GLU B 65 19.960 25.126 -18.805 1.00 54.00 C \\nATOM 1268 OE1 GLU B 65 19.601 24.094 -19.445 1.00 54.40 O \\nATOM 1269 OE2 GLU B 65 20.214 26.241 -19.314 1.00 59.11 O \\nATOM 1270 N ILE B 66 19.709 25.427 -13.547 1.00 34.12 N \\nATOM 1271 CA ILE B 66 19.159 26.431 -12.654 1.00 36.05 C \\nATOM 1272 C ILE B 66 19.519 27.864 -13.127 1.00 37.57 C \\nATOM 1273 O ILE B 66 20.684 28.254 -13.167 1.00 36.67 O \\nATOM 1274 CB ILE B 66 19.663 26.199 -11.203 1.00 33.70 C \\nATOM 1275 CG1 ILE B 66 19.566 24.717 -10.848 1.00 32.55 C \\nATOM 1276 CG2 ILE B 66 18.824 27.018 -10.232 1.00 33.60 C \\nATOM 1277 CD1 ILE B 66 20.510 24.280 -9.745 1.00 35.00 C \\nATOM 1278 N CYS B 67 18.504 28.630 -13.516 1.00 41.68 N \\nATOM 1279 CA CYS B 67 18.684 29.971 -14.104 1.00 44.87 C \\nATOM 1280 C CYS B 67 19.685 29.990 -15.245 1.00 44.44 C \\nATOM 1281 O CYS B 67 20.565 30.852 -15.294 1.00 42.31 O \\nATOM 1282 CB CYS B 67 19.124 30.970 -13.037 1.00 48.45 C \\nATOM 1283 SG CYS B 67 17.736 31.542 -12.037 1.00 54.18 S \\nATOM 1284 N GLY B 68 19.562 29.010 -16.143 1.00 43.24 N \\nATOM 1285 CA GLY B 68 20.485 28.891 -17.256 1.00 41.28 C \\nATOM 1286 C GLY B 68 21.899 28.603 -16.811 1.00 41.98 C \\nATOM 1287 O GLY B 68 22.843 28.970 -17.493 1.00 46.85 O \\nATOM 1288 N HIS B 69 22.059 28.002 -15.633 1.00 40.00 N \\nATOM 1289 CA HIS B 69 23.354 27.479 -15.197 1.00 36.63 C \\nATOM 1290 C HIS B 69 23.178 25.984 -15.087 1.00 34.62 C \\nATOM 1291 O HIS B 69 22.307 25.523 -14.354 1.00 32.72 O \\nATOM 1292 CB HIS B 69 23.711 27.993 -13.810 1.00 39.25 C \\nATOM 1293 CG HIS B 69 23.976 29.473 -13.740 1.00 44.38 C \\nATOM 1294 ND1 HIS B 69 25.177 29.994 -13.361 1.00 46.88 N \\nATOM 1295 CD2 HIS B 69 23.114 30.512 -13.920 1.00 45.80 C \\nATOM 1296 CE1 HIS B 69 25.058 31.325 -13.286 1.00 50.18 C \\nATOM 1297 NE2 HIS B 69 23.849 31.652 -13.613 1.00 47.74 N \\nATOM 1298 N LYS B 70 23.995 25.240 -15.820 1.00 33.27 N \\nATOM 1299 CA LYS B 70 23.935 23.791 -15.800 1.00 31.17 C \\nATOM 1300 C LYS B 70 24.749 23.243 -14.652 1.00 29.41 C \\nATOM 1301 O LYS B 70 25.875 23.676 -14.403 1.00 29.56 O \\nATOM 1302 CB LYS B 70 24.423 23.212 -17.115 1.00 32.71 C \\nATOM 1303 CG LYS B 70 23.463 23.445 -18.279 1.00 34.39 C \\nATOM 1304 CD LYS B 70 24.261 23.524 -19.576 1.00 44.19 C \\nATOM 1305 CE LYS B 70 23.377 23.737 -20.816 1.00 48.61 C \\nATOM 1306 NZ LYS B 70 22.863 22.443 -21.404 1.00 54.35 N \\nATOM 1307 N ALA B 71 24.104 22.353 -13.909 1.00 24.69 N \\nATOM 1308 CA ALA B 71 24.689 21.612 -12.802 1.00 23.65 C \\nATOM 1309 C ALA B 71 24.391 20.156 -13.159 1.00 24.51 C \\nATOM 1310 O ALA B 71 23.339 19.865 -13.735 1.00 24.89 O \\nATOM 1311 CB ALA B 71 23.991 21.992 -11.485 1.00 16.65 C \\nATOM 1312 N ILE B 72 25.330 19.253 -12.902 1.00 25.50 N \\nATOM 1313 CA ILE B 72 25.048 17.816 -13.016 1.00 24.06 C \\nATOM 1314 C ILE B 72 25.312 17.246 -11.637 1.00 22.15 C \\nATOM 1315 O ILE B 72 26.442 17.315 -11.167 1.00 23.87 O \\nATOM 1316 CB ILE B 72 26.029 17.094 -13.983 1.00 24.38 C \\nATOM 1317 CG1 ILE B 72 26.092 17.805 -15.333 1.00 26.24 C \\nATOM 1318 CG2 ILE B 72 25.615 15.649 -14.171 1.00 23.69 C \\nATOM 1319 CD1 ILE B 72 27.241 17.224 -16.197 1.00 23.26 C \\nATOM 1320 N GLY B 73 24.303 16.690 -10.975 1.00 19.12 N \\nATOM 1321 CA GLY B 73 24.545 16.248 -9.616 1.00 19.31 C \\nATOM 1322 C GLY B 73 23.470 15.337 -9.095 1.00 19.37 C \\nATOM 1323 O GLY B 73 22.674 14.852 -9.881 1.00 21.87 O \\nATOM 1324 N THR B 74 23.517 15.041 -7.794 1.00 19.61 N \\nATOM 1325 CA THR B 74 22.568 14.162 -7.116 1.00 19.07 C \\nATOM 1326 C THR B 74 21.280 14.889 -6.829 1.00 22.17 C \\nATOM 1327 O THR B 74 21.299 16.005 -6.275 1.00 19.62 O \\nATOM 1328 CB THR B 74 23.128 13.638 -5.748 1.00 19.04 C \\nATOM 1329 OG1 THR B 74 24.323 12.880 -5.961 1.00 24.28 O \\nATOM 1330 CG2 THR B 74 22.071 12.763 -5.030 1.00 17.43 C \\nATOM 1331 N VAL B 75 20.177 14.227 -7.192 1.00 18.83 N \\nATOM 1332 CA VAL B 75 18.832 14.773 -7.068 1.00 20.46 C \\nATOM 1333 C VAL B 75 17.989 13.688 -6.360 1.00 22.85 C \\nATOM 1334 O VAL B 75 17.993 12.504 -6.743 1.00 20.15 O \\nATOM 1335 CB VAL B 75 18.229 15.113 -8.501 1.00 22.69 C \\nATOM 1336 CG1 VAL B 75 16.760 15.421 -8.434 1.00 19.10 C \\nATOM 1337 CG2 VAL B 75 18.967 16.317 -9.099 1.00 18.68 C \\nATOM 1338 N LEU B 76 17.295 14.086 -5.303 1.00 21.32 N \\nATOM 1339 CA LEU B 76 16.390 13.196 -4.575 1.00 19.82 C \\nATOM 1340 C LEU B 76 14.972 13.423 -5.073 1.00 21.74 C \\nATOM 1341 O LEU B 76 14.652 14.514 -5.518 1.00 25.18 O \\nATOM 1342 CB LEU B 76 16.450 13.476 -3.067 1.00 16.45 C \\nATOM 1343 CG LEU B 76 17.787 13.595 -2.330 1.00 15.15 C \\nATOM 1344 CD1 LEU B 76 17.591 13.640 -0.845 1.00 14.83 C \\nATOM 1345 CD2 LEU B 76 18.678 12.463 -2.705 1.00 20.59 C \\nATOM 1346 N VAL B 77 14.135 12.391 -5.049 1.00 23.03 N \\nATOM 1347 CA VAL B 77 12.749 12.509 -5.485 1.00 17.63 C \\nATOM 1348 C VAL B 77 11.826 11.894 -4.472 1.00 17.51 C \\nATOM 1349 O VAL B 77 12.052 10.766 -3.999 1.00 16.69 O \\nATOM 1350 CB VAL B 77 12.502 11.835 -6.868 1.00 18.16 C \\nATOM 1351 CG1 VAL B 77 11.065 12.148 -7.398 1.00 20.02 C \\nATOM 1352 CG2 VAL B 77 13.593 12.322 -7.843 1.00 16.66 C \\nATOM 1353 N GLY B 78 10.778 12.616 -4.125 1.00 16.55 N \\nATOM 1354 CA GLY B 78 10.004 12.229 -2.965 1.00 20.06 C \\nATOM 1355 C GLY B 78 8.832 13.128 -2.672 1.00 21.31 C \\nATOM 1356 O GLY B 78 8.614 14.117 -3.393 1.00 24.13 O \\nATOM 1357 N PRO B 79 8.032 12.814 -1.646 1.00 19.47 N \\nATOM 1358 CA PRO B 79 6.887 13.664 -1.350 1.00 21.78 C \\nATOM 1359 C PRO B 79 7.292 14.915 -0.550 1.00 21.89 C \\nATOM 1360 O PRO B 79 7.007 15.036 0.638 1.00 22.16 O \\nATOM 1361 CB PRO B 79 5.951 12.742 -0.594 1.00 17.28 C \\nATOM 1362 CG PRO B 79 6.838 11.781 0.040 1.00 20.54 C \\nATOM 1363 CD PRO B 79 8.096 11.665 -0.739 1.00 20.64 C \\nATOM 1364 N THR B 80 7.997 15.816 -1.220 1.00 24.38 N \\nATOM 1365 CA THR B 80 8.324 17.137 -0.702 1.00 22.15 C \\nATOM 1366 C THR B 80 7.227 18.114 -1.090 1.00 20.84 C \\nATOM 1367 O THR B 80 6.528 17.896 -2.080 1.00 20.99 O \\nATOM 1368 CB THR B 80 9.677 17.594 -1.299 1.00 21.20 C \\nATOM 1369 OG1 THR B 80 9.952 18.951 -0.924 1.00 22.05 O \\nATOM 1370 CG2 THR B 80 9.688 17.449 -2.825 1.00 13.16 C \\nATOM 1371 N PRO B 81 6.922 19.074 -0.214 1.00 24.57 N \\nATOM 1372 CA PRO B 81 5.896 20.066 -0.556 1.00 24.68 C \\nATOM 1373 C PRO B 81 6.244 20.969 -1.727 1.00 26.51 C \\nATOM 1374 O PRO B 81 5.343 21.294 -2.509 1.00 32.43 O \\nATOM 1375 CB PRO B 81 5.694 20.874 0.729 1.00 22.89 C \\nATOM 1376 CG PRO B 81 6.274 19.954 1.831 1.00 24.08 C \\nATOM 1377 CD PRO B 81 7.387 19.243 1.190 1.00 21.46 C \\nATOM 1378 N VAL B 82 7.520 21.355 -1.868 1.00 23.91 N \\nATOM 1379 CA VAL B 82 7.990 22.207 -2.983 1.00 24.09 C \\nATOM 1380 C VAL B 82 9.255 21.636 -3.581 1.00 21.54 C \\nATOM 1381 O VAL B 82 9.973 20.911 -2.929 1.00 26.47 O \\nATOM 1382 CB VAL B 82 8.375 23.616 -2.484 1.00 26.47 C \\nATOM 1383 CG1 VAL B 82 7.122 24.513 -2.361 1.00 26.39 C \\nATOM 1384 CG2 VAL B 82 9.101 23.485 -1.163 1.00 24.12 C \\nATOM 1385 N ASN B 83 9.588 21.960 -4.812 1.00 16.61 N \\nATOM 1386 CA ASN B 83 10.914 21.521 -5.319 1.00 16.90 C \\nATOM 1387 C ASN B 83 11.922 22.373 -4.576 1.00 19.55 C \\nATOM 1388 O ASN B 83 11.716 23.574 -4.429 1.00 18.36 O \\nATOM 1389 CB ASN B 83 11.068 21.763 -6.823 1.00 16.55 C \\nATOM 1390 CG ASN B 83 10.096 20.950 -7.647 1.00 22.00 C \\nATOM 1391 OD1 ASN B 83 10.013 19.733 -7.494 1.00 23.24 O \\nATOM 1392 ND2 ASN B 83 9.305 21.627 -8.498 1.00 22.85 N \\nATOM 1393 N ILE B 84 12.983 21.755 -4.066 1.00 17.31 N \\nATOM 1394 CA ILE B 84 13.979 22.449 -3.233 1.00 13.51 C \\nATOM 1395 C ILE B 84 15.345 22.255 -3.870 1.00 19.87 C \\nATOM 1396 O ILE B 84 15.779 21.111 -4.072 1.00 20.54 O \\nATOM 1397 CB ILE B 84 14.041 21.833 -1.837 1.00 10.82 C \\nATOM 1398 CG1 ILE B 84 12.754 22.151 -1.088 1.00 13.42 C \\nATOM 1399 CG2 ILE B 84 15.323 22.264 -1.122 1.00 11.48 C \\nATOM 1400 CD1 ILE B 84 12.438 21.217 0.060 1.00 20.08 C \\nATOM 1401 N ILE B 85 16.044 23.346 -4.167 1.00 19.47 N \\nATOM 1402 CA ILE B 85 17.441 23.243 -4.575 1.00 19.69 C \\nATOM 1403 C ILE B 85 18.305 23.504 -3.345 1.00 22.78 C \\nATOM 1404 O ILE B 85 18.262 24.613 -2.802 1.00 24.74 O \\nATOM 1405 CB ILE B 85 17.805 24.332 -5.644 1.00 18.51 C \\nATOM 1406 CG1 ILE B 85 16.809 24.299 -6.827 1.00 19.44 C \\nATOM 1407 CG2 ILE B 85 19.271 24.191 -6.067 1.00 14.76 C \\nATOM 1408 CD1 ILE B 85 16.672 22.956 -7.581 1.00 22.90 C \\nATOM 1409 N GLY B 86 19.121 22.530 -2.936 1.00 19.72 N \\nATOM 1410 CA GLY B 86 19.857 22.642 -1.690 1.00 14.65 C \\nATOM 1411 C GLY B 86 21.324 22.800 -1.940 1.00 13.18 C \\nATOM 1412 O GLY B 86 21.750 22.958 -3.056 1.00 13.07 O \\nATOM 1413 N ARG B 87 22.117 22.755 -0.887 1.00 11.71 N \\nATOM 1414 CA ARG B 87 23.533 23.126 -0.985 1.00 14.23 C \\nATOM 1415 C ARG B 87 24.413 22.356 -1.973 1.00 19.73 C \\nATOM 1416 O ARG B 87 25.398 22.903 -2.461 1.00 17.28 O \\nATOM 1417 CB ARG B 87 24.171 23.147 0.403 1.00 15.02 C \\nATOM 1418 CG ARG B 87 23.646 24.256 1.283 1.00 8.76 C \\nATOM 1419 CD ARG B 87 24.429 24.306 2.576 1.00 16.02 C \\nATOM 1420 NE ARG B 87 24.362 23.068 3.371 1.00 21.61 N \\nATOM 1421 CZ ARG B 87 25.357 22.185 3.495 1.00 21.15 C \\nATOM 1422 NH1 ARG B 87 26.467 22.303 2.795 1.00 18.57 N \\nATOM 1423 NH2 ARG B 87 25.255 21.190 4.368 1.00 26.79 N \\nATOM 1424 N ASN B 88 24.074 21.101 -2.275 1.00 18.56 N \\nATOM 1425 CA ASN B 88 24.950 20.312 -3.132 1.00 17.41 C \\nATOM 1426 C ASN B 88 24.980 20.893 -4.527 1.00 19.59 C \\nATOM 1427 O ASN B 88 26.015 20.853 -5.202 1.00 20.40 O \\nATOM 1428 CB ASN B 88 24.512 18.849 -3.197 1.00 19.90 C \\nATOM 1429 CG ASN B 88 23.126 18.649 -3.777 1.00 15.28 C \\nATOM 1430 OD1 ASN B 88 22.167 19.280 -3.351 1.00 22.61 O \\nATOM 1431 ND2 ASN B 88 23.020 17.775 -4.767 1.00 16.65 N \\nATOM 1432 N LEU B 89 23.863 21.490 -4.949 1.00 20.98 N \\nATOM 1433 CA LEU B 89 23.811 22.125 -6.273 1.00 21.49 C \\nATOM 1434 C LEU B 89 24.018 23.645 -6.231 1.00 20.99 C \\nATOM 1435 O LEU B 89 24.321 24.242 -7.236 1.00 21.25 O \\nATOM 1436 CB LEU B 89 22.457 21.815 -6.962 1.00 20.00 C \\nATOM 1437 CG LEU B 89 22.219 20.372 -7.436 1.00 17.87 C \\nATOM 1438 CD1 LEU B 89 20.937 20.300 -8.243 1.00 20.88 C \\nATOM 1439 CD2 LEU B 89 23.408 19.901 -8.273 1.00 17.17 C \\nATOM 1440 N LEU B 90 23.819 24.255 -5.075 1.00 20.01 N \\nATOM 1441 CA LEU B 90 24.020 25.701 -4.954 1.00 22.17 C \\nATOM 1442 C LEU B 90 25.511 26.005 -5.072 1.00 19.95 C \\nATOM 1443 O LEU B 90 25.907 26.959 -5.732 1.00 21.08 O \\nATOM 1444 CB LEU B 90 23.430 26.234 -3.624 1.00 17.71 C \\nATOM 1445 CG LEU B 90 21.900 26.309 -3.475 1.00 16.96 C \\nATOM 1446 CD1 LEU B 90 21.487 26.779 -2.081 1.00 11.88 C \\nATOM 1447 CD2 LEU B 90 21.358 27.241 -4.506 1.00 18.70 C \\nATOM 1448 N THR B 91 26.336 25.143 -4.491 1.00 23.70 N \\nATOM 1449 CA THR B 91 27.785 25.304 -4.546 1.00 23.96 C \\nATOM 1450 C THR B 91 28.270 25.184 -5.969 1.00 24.81 C \\nATOM 1451 O THR B 91 29.168 25.903 -6.378 1.00 26.72 O \\nATOM 1452 CB THR B 91 28.501 24.261 -3.669 1.00 21.26 C \\nATOM 1453 OG1 THR B 91 27.898 22.990 -3.894 1.00 25.49 O \\nATOM 1454 CG2 THR B 91 28.366 24.579 -2.208 1.00 17.64 C \\nATOM 1455 N GLN B 92 27.619 24.323 -6.741 1.00 25.95 N \\nATOM 1456 CA GLN B 92 28.009 24.110 -8.150 1.00 27.31 C \\nATOM 1457 C GLN B 92 27.823 25.361 -8.999 1.00 27.97 C \\nATOM 1458 O GLN B 92 28.719 25.701 -9.794 1.00 30.31 O \\nATOM 1459 CB GLN B 92 27.226 22.956 -8.793 1.00 24.09 C \\nATOM 1460 CG GLN B 92 27.720 21.588 -8.406 1.00 25.97 C \\nATOM 1461 CD GLN B 92 27.313 20.496 -9.421 1.00 27.56 C \\nATOM 1462 OE1 GLN B 92 27.138 20.746 -10.620 1.00 26.23 O \\nATOM 1463 NE2 GLN B 92 27.230 19.281 -8.941 1.00 27.50 N \\nATOM 1464 N ILE B 93 26.683 26.043 -8.820 1.00 28.73 N \\nATOM 1465 CA ILE B 93 26.362 27.233 -9.606 1.00 28.11 C \\nATOM 1466 C ILE B 93 26.904 28.524 -8.963 1.00 30.61 C \\nATOM 1467 O ILE B 93 26.574 29.627 -9.385 1.00 32.40 O \\nATOM 1468 CB ILE B 93 24.838 27.349 -9.857 1.00 23.33 C \\nATOM 1469 CG1 ILE B 93 24.103 27.648 -8.559 1.00 25.74 C \\nATOM 1470 CG2 ILE B 93 24.300 26.092 -10.460 1.00 21.29 C \\nATOM 1471 CD1 ILE B 93 22.672 28.017 -8.785 1.00 27.65 C \\nATOM 1472 N GLY B 94 27.741 28.369 -7.949 1.00 30.93 N \\nATOM 1473 CA GLY B 94 28.481 29.498 -7.421 1.00 31.94 C \\nATOM 1474 C GLY B 94 27.749 30.439 -6.488 1.00 30.20 C \\nATOM 1475 O GLY B 94 28.177 31.555 -6.261 1.00 31.24 O \\nATOM 1476 N CYS B 95 26.808 29.899 -5.748 1.00 27.82 N \\nATOM 1477 CA CYS B 95 25.895 30.718 -5.004 1.00 26.76 C \\nATOM 1478 C CYS B 95 26.408 30.993 -3.598 1.00 27.20 C \\nATOM 1479 O CYS B 95 26.769 30.065 -2.870 1.00 27.85 O \\nATOM 1480 CB CYS B 95 24.578 29.989 -4.978 1.00 27.09 C \\nATOM 1481 SG CYS B 95 23.221 30.929 -4.410 1.00 36.34 S \\nATOM 1482 N THR B 96 26.473 32.277 -3.244 1.00 26.04 N \\nATOM 1483 CA THR B 96 26.794 32.734 -1.882 1.00 25.60 C \\nATOM 1484 C THR B 96 25.672 33.544 -1.205 1.00 24.26 C \\nATOM 1485 O THR B 96 24.760 34.079 -1.852 1.00 23.28 O \\nATOM 1486 CB THR B 96 28.051 33.660 -1.858 1.00 27.82 C \\nATOM 1487 OG1 THR B 96 27.888 34.689 -2.857 1.00 31.12 O \\nATOM 1488 CG2 THR B 96 29.316 32.870 -2.141 1.00 24.73 C \\nATOM 1489 N LEU B 97 25.759 33.617 0.119 1.00 24.54 N \\nATOM 1490 CA LEU B 97 24.902 34.468 0.963 1.00 27.92 C \\nATOM 1491 C LEU B 97 25.714 35.689 1.398 1.00 30.25 C \\nATOM 1492 O LEU B 97 26.854 35.558 1.870 1.00 29.52 O \\nATOM 1493 CB LEU B 97 24.489 33.718 2.236 1.00 27.18 C \\nATOM 1494 CG LEU B 97 23.211 32.901 2.344 1.00 22.23 C \\nATOM 1495 CD1 LEU B 97 23.114 32.358 3.719 1.00 23.52 C \\nATOM 1496 CD2 LEU B 97 22.037 33.773 2.076 1.00 20.87 C \\nATOM 1497 N ASN B 98 25.121 36.868 1.264 1.00 32.20 N \\nATOM 1498 CA ASN B 98 25.870 38.101 1.449 1.00 34.86 C \\nATOM 1499 C ASN B 98 25.102 39.038 2.370 1.00 34.26 C \\nATOM 1500 O ASN B 98 23.889 39.124 2.261 1.00 36.18 O \\nATOM 1501 CB ASN B 98 26.140 38.756 0.086 1.00 31.24 C \\nATOM 1502 CG ASN B 98 27.048 37.921 -0.814 1.00 33.93 C \\nATOM 1503 OD1 ASN B 98 28.268 37.895 -0.630 1.00 37.15 O \\nATOM 1504 ND2 ASN B 98 26.455 37.192 -1.754 1.00 33.06 N \\nATOM 1505 N PHE B 99 25.809 39.706 3.283 1.00 36.76 N \\nATOM 1506 CA PHE B 99 25.267 40.855 4.034 1.00 36.49 C \\nATOM 1507 C PHE B 99 26.351 41.742 4.659 1.00 35.50 C \\nATOM 1508 O PHE B 99 27.448 41.208 5.013 1.00 37.49 O \\nATOM 1509 CB PHE B 99 24.284 40.418 5.127 1.00 34.88 C \\nATOM 1510 CG PHE B 99 24.859 39.479 6.130 1.00 36.75 C \\nATOM 1511 CD1 PHE B 99 25.061 38.150 5.808 1.00 37.04 C \\nATOM 1512 CD2 PHE B 99 25.071 39.890 7.436 1.00 38.13 C \\nATOM 1513 CE1 PHE B 99 25.450 37.240 6.756 1.00 37.02 C \\nATOM 1514 CE2 PHE B 99 25.473 38.988 8.409 1.00 37.11 C \\nATOM 1515 CZ PHE B 99 25.658 37.663 8.073 1.00 36.24 C \\nTER\\nEND\",\"pdb\");\n\tviewer_16920164299252748.setStyle({\"cartoon\": {\"color\": 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"text/html": "<div id=\"3dmolviewer_16920164299252748\" style=\"position: relative; width: 600px; height: 480px;\">\n <p id=\"3dmolwarning_16920164299252748\" 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 //this is to ignore the existence of requirejs amd\n var savedexports, savedmodule;\n if (typeof exports !== 'undefined') savedexports = exports;\n else exports = {}\n if (typeof module !== 'undefined') savedmodule = module;\n else module = {}\n\n var tag = document.createElement('script');\n tag.src = uri;\n tag.async = true;\n tag.onload = () => {\n exports = savedexports;\n module = savedmodule;\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://cdnjs.cloudflare.com/ajax/libs/3Dmol/2.0.3/3Dmol-min.js');\n}\n\nvar viewer_16920164299252748 = null;\nvar warn = document.getElementById(\"3dmolwarning_16920164299252748\");\nif(warn) {\n warn.parentNode.removeChild(warn);\n}\n$3Dmolpromise.then(function() {\nviewer_16920164299252748 = $3Dmol.createViewer(document.getElementById(\"3dmolviewer_16920164299252748\"),{backgroundColor:\"white\"});\n$3Dmol.download(\"1000\", viewer_16920164299252748, {}, function() {\nviewer_16920164299252748.zoomTo();\n\tviewer_16920164299252748.addBox({\"center\": {\"x\": 0, \"y\": 0, \"z\": 0}, \"dimensions\": {\"w\": 0, \"h\": 0, \"d\": 0}, \"color\": \"blue\", \"opacity\": 0.6});\n\tviewer_16920164299252748.addModel(\"ATOM 1 N PRO A 1 29.361 39.686 5.862 1.00 38.10 N \\nATOM 2 CA PRO A 1 30.307 38.663 5.319 1.00 40.62 C \\nATOM 3 C PRO A 1 29.760 38.071 4.022 1.00 42.64 C \\nATOM 4 O PRO A 1 28.600 38.302 3.676 1.00 43.40 O \\nATOM 5 CB PRO A 1 30.508 37.541 6.342 1.00 37.87 C \\nATOM 6 CG PRO A 1 29.296 37.591 7.162 1.00 38.40 C \\nATOM 7 CD PRO A 1 28.778 39.015 7.019 1.00 38.74 C \\nATOM 8 N GLN A 2 30.607 37.334 3.305 1.00 41.76 N \\nATOM 9 CA GLN A 2 30.158 36.492 2.199 1.00 41.30 C \\nATOM 10 C GLN A 2 30.298 35.041 2.643 1.00 41.38 C \\nATOM 11 O GLN A 2 31.401 34.494 2.763 1.00 43.09 O \\nATOM 12 CB GLN A 2 30.970 36.738 0.926 1.00 40.81 C \\nATOM 13 CG GLN A 2 30.625 35.783 -0.201 1.00 46.61 C \\nATOM 14 CD GLN A 2 31.184 36.217 -1.549 1.00 50.36 C \\nATOM 15 OE1 GLN A 2 32.006 35.518 -2.156 1.00 53.89 O \\nATOM 16 NE2 GLN A 2 30.684 37.339 -2.061 1.00 51.46 N \\nATOM 17 N ILE A 3 29.160 34.436 2.919 1.00 37.80 N \\nATOM 18 CA ILE A 3 29.123 33.098 3.397 1.00 34.13 C \\nATOM 19 C ILE A 3 28.968 32.155 2.198 1.00 33.19 C \\nATOM 20 O ILE A 3 28.088 32.330 1.368 1.00 32.74 O \\nATOM 21 CB ILE A 3 27.977 32.995 4.409 1.00 34.34 C \\nATOM 22 CG1 ILE A 3 28.341 33.820 5.652 1.00 33.95 C \\nATOM 23 CG2 ILE A 3 27.692 31.548 4.745 1.00 33.06 C \\nATOM 24 CD1 ILE A 3 27.264 33.884 6.696 1.00 32.50 C \\nATOM 25 N THR A 4 29.891 31.210 2.066 1.00 31.65 N \\nATOM 26 CA THR A 4 29.774 30.143 1.062 1.00 30.14 C \\nATOM 27 C THR A 4 28.986 28.975 1.658 1.00 29.74 C \\nATOM 28 O THR A 4 28.690 28.948 2.875 1.00 27.88 O \\nATOM 29 CB THR A 4 31.165 29.618 0.634 1.00 29.24 C \\nATOM 30 OG1 THR A 4 31.866 29.209 1.815 1.00 27.60 O \\nATOM 31 CG2 THR A 4 31.980 30.688 -0.085 1.00 26.26 C \\nATOM 32 N LEU A 5 28.641 28.019 0.803 1.00 29.27 N \\nATOM 33 CA LEU A 5 27.644 27.003 1.144 1.00 30.12 C \\nATOM 34 C LEU A 5 28.204 25.559 1.071 1.00 32.98 C \\nATOM 35 O LEU A 5 27.446 24.583 0.969 1.00 32.32 O \\nATOM 36 CB LEU A 5 26.411 27.139 0.226 1.00 26.21 C \\nATOM 37 CG LEU A 5 25.676 28.479 0.352 1.00 24.56 C \\nATOM 38 CD1 LEU A 5 24.624 28.624 -0.753 1.00 20.74 C \\nATOM 39 CD2 LEU A 5 25.088 28.590 1.745 1.00 21.87 C \\nATOM 40 N TRP A 6 29.528 25.436 1.146 1.00 31.52 N \\nATOM 41 CA TRP A 6 30.177 24.150 1.279 1.00 30.82 C \\nATOM 42 C TRP A 6 29.837 23.488 2.611 1.00 31.90 C \\nATOM 43 O TRP A 6 29.706 22.271 2.673 1.00 33.26 O \\nATOM 44 CB TRP A 6 31.685 24.301 1.109 1.00 28.66 C \\nATOM 45 CG TRP A 6 32.152 24.955 -0.189 1.00 26.42 C \\nATOM 46 CD1 TRP A 6 32.681 26.216 -0.345 1.00 28.49 C \\nATOM 47 CD2 TRP A 6 32.274 24.314 -1.478 1.00 28.47 C \\nATOM 48 NE1 TRP A 6 33.102 26.385 -1.655 1.00 29.88 N \\nATOM 49 CE2 TRP A 6 32.864 25.258 -2.369 1.00 28.86 C \\nATOM 50 CE3 TRP A 6 31.949 23.035 -1.986 1.00 25.06 C \\nATOM 51 CZ2 TRP A 6 33.093 24.968 -3.717 1.00 32.14 C \\nATOM 52 CZ3 TRP A 6 32.195 22.755 -3.294 1.00 27.41 C \\nATOM 53 CH2 TRP A 6 32.754 23.722 -4.169 1.00 30.03 C \\nATOM 54 N GLN A 7 29.667 24.280 3.667 1.00 33.01 N \\nATOM 55 CA GLN A 7 29.141 23.799 4.960 1.00 32.37 C \\nATOM 56 C GLN A 7 27.747 24.395 5.208 1.00 29.95 C \\nATOM 57 O GLN A 7 27.349 25.330 4.547 1.00 26.55 O \\nATOM 58 CB GLN A 7 30.072 24.227 6.100 1.00 38.12 C \\nATOM 59 CG GLN A 7 31.512 23.694 5.995 1.00 48.91 C \\nATOM 60 CD GLN A 7 32.521 24.750 5.469 1.00 59.75 C \\nATOM 61 OE1 GLN A 7 32.666 25.860 6.038 1.00 61.83 O \\nATOM 62 NE2 GLN A 7 33.268 24.374 4.419 1.00 59.99 N \\nATOM 63 N ARG A 8 26.992 23.877 6.169 1.00 27.34 N \\nATOM 64 CA ARG A 8 25.757 24.566 6.593 1.00 29.87 C \\nATOM 65 C ARG A 8 26.029 26.025 6.996 1.00 31.94 C \\nATOM 66 O ARG A 8 26.947 26.291 7.775 1.00 33.83 O \\nATOM 67 CB ARG A 8 25.087 23.849 7.776 1.00 28.16 C \\nATOM 68 CG ARG A 8 24.646 22.409 7.505 1.00 27.47 C \\nATOM 69 CD ARG A 8 23.728 21.896 8.637 1.00 25.45 C \\nATOM 70 NE ARG A 8 22.952 20.730 8.230 1.00 23.06 N \\nATOM 71 CZ ARG A 8 22.367 19.871 9.064 1.00 28.80 C \\nATOM 72 NH1 ARG A 8 22.376 20.074 10.370 1.00 30.95 N \\nATOM 73 NH2 ARG A 8 21.776 18.789 8.589 1.00 26.02 N \\nATOM 74 N PRO A 9 25.123 26.955 6.645 1.00 30.21 N \\nATOM 75 CA PRO A 9 25.491 28.352 6.938 1.00 29.48 C \\nATOM 76 C PRO A 9 25.127 28.763 8.364 1.00 29.45 C \\nATOM 77 O PRO A 9 24.136 29.472 8.578 1.00 28.45 O \\nATOM 78 CB PRO A 9 24.719 29.176 5.916 1.00 27.88 C \\nATOM 79 CG PRO A 9 23.625 28.254 5.407 1.00 28.12 C \\nATOM 80 CD PRO A 9 24.096 26.855 5.591 1.00 31.64 C \\nATOM 81 N LEU A 10 25.905 28.285 9.330 1.00 28.83 N \\nATOM 82 CA LEU A 10 25.653 28.510 10.750 1.00 31.57 C \\nATOM 83 C LEU A 10 26.383 29.770 11.208 1.00 30.48 C \\nATOM 84 O LEU A 10 27.567 29.927 10.938 1.00 31.00 O \\nATOM 85 CB LEU A 10 26.120 27.284 11.573 1.00 31.09 C \\nATOM 86 CG LEU A 10 25.161 26.082 11.544 1.00 35.91 C \\nATOM 87 CD1 LEU A 10 25.895 24.743 11.662 1.00 40.15 C \\nATOM 88 CD2 LEU A 10 24.206 26.196 12.696 1.00 40.51 C \\nATOM 89 N VAL A 11 25.667 30.672 11.872 1.00 30.80 N \\nATOM 90 CA VAL A 11 26.267 31.854 12.497 1.00 30.14 C \\nATOM 91 C VAL A 11 25.818 31.957 13.955 1.00 33.13 C \\nATOM 92 O VAL A 11 24.929 31.184 14.402 1.00 34.48 O \\nATOM 93 CB VAL A 11 25.824 33.131 11.791 1.00 27.12 C \\nATOM 94 CG1 VAL A 11 26.270 33.089 10.323 1.00 28.48 C \\nATOM 95 CG2 VAL A 11 24.333 33.275 11.879 1.00 26.29 C \\nATOM 96 N THR A 12 26.397 32.913 14.700 1.00 32.34 N \\nATOM 97 CA THR A 12 26.001 33.143 16.102 1.00 32.56 C \\nATOM 98 C THR A 12 24.915 34.200 16.204 1.00 33.07 C \\nATOM 99 O THR A 12 25.010 35.279 15.610 1.00 33.62 O \\nATOM 100 CB THR A 12 27.201 33.565 16.998 1.00 33.81 C \\nATOM 101 OG1 THR A 12 28.330 32.709 16.751 1.00 40.47 O \\nATOM 102 CG2 THR A 12 26.827 33.430 18.450 1.00 34.22 C \\nATOM 103 N ILE A 13 23.848 33.868 16.909 1.00 31.84 N \\nATOM 104 CA ILE A 13 22.842 34.875 17.206 1.00 32.26 C \\nATOM 105 C ILE A 13 22.770 35.114 18.707 1.00 33.69 C \\nATOM 106 O ILE A 13 23.328 34.363 19.500 1.00 30.43 O \\nATOM 107 CB ILE A 13 21.413 34.460 16.661 1.00 32.80 C \\nATOM 108 CG1 ILE A 13 20.878 33.229 17.431 1.00 31.81 C \\nATOM 109 CG2 ILE A 13 21.510 34.194 15.162 1.00 27.69 C \\nATOM 110 CD1 ILE A 13 19.353 33.201 17.603 1.00 32.46 C \\nATOM 111 N LYS A 14 22.106 36.199 19.087 1.00 36.78 N \\nATOM 112 CA LYS A 14 21.894 36.545 20.492 1.00 38.20 C \\nATOM 113 C LYS A 14 20.442 36.943 20.615 1.00 37.51 C \\nATOM 114 O LYS A 14 19.960 37.808 19.873 1.00 33.78 O \\nATOM 115 CB LYS A 14 22.777 37.724 20.896 1.00 43.07 C \\nATOM 116 CG LYS A 14 22.727 38.056 22.383 1.00 50.67 C \\nATOM 117 CD LYS A 14 23.270 39.450 22.678 1.00 56.97 C \\nATOM 118 CE LYS A 14 24.814 39.490 22.755 1.00 62.89 C \\nATOM 119 NZ LYS A 14 25.394 40.891 22.572 1.00 69.50 N \\nATOM 120 N ILE A 15 19.739 36.267 21.512 1.00 40.26 N \\nATOM 121 CA ILE A 15 18.345 36.563 21.813 1.00 46.34 C \\nATOM 122 C ILE A 15 18.224 36.327 23.316 1.00 49.77 C \\nATOM 123 O ILE A 15 18.886 35.449 23.864 1.00 52.38 O \\nATOM 124 CB ILE A 15 17.380 35.592 21.022 1.00 45.04 C \\nATOM 125 CG1 ILE A 15 15.935 35.812 21.435 1.00 46.91 C \\nATOM 126 CG2 ILE A 15 17.745 34.137 21.266 1.00 47.78 C \\nATOM 127 CD1 ILE A 15 14.929 35.116 20.526 1.00 50.24 C \\nATOM 128 N GLY A 16 17.446 37.139 24.012 1.00 53.37 N \\nATOM 129 CA GLY A 16 17.356 36.968 25.459 1.00 56.32 C \\nATOM 130 C GLY A 16 18.711 36.871 26.160 1.00 56.91 C \\nATOM 131 O GLY A 16 18.866 36.162 27.153 1.00 55.53 O \\nATOM 132 N GLY A 17 19.671 37.659 25.697 1.00 57.90 N \\nATOM 133 CA GLY A 17 20.970 37.660 26.340 1.00 59.71 C \\nATOM 134 C GLY A 17 21.680 36.316 26.278 1.00 60.57 C \\nATOM 135 O GLY A 17 22.785 36.163 26.794 1.00 63.20 O \\nATOM 136 N GLN A 18 21.093 35.361 25.572 1.00 59.37 N \\nATOM 137 CA GLN A 18 21.780 34.106 25.263 1.00 58.98 C \\nATOM 138 C GLN A 18 22.500 34.159 23.907 1.00 56.87 C \\nATOM 139 O GLN A 18 21.937 34.624 22.915 1.00 56.84 O \\nATOM 140 CB GLN A 18 20.776 32.957 25.228 1.00 63.37 C \\nATOM 141 CG GLN A 18 19.599 33.116 26.176 1.00 67.60 C \\nATOM 142 CD GLN A 18 19.556 31.997 27.179 1.00 72.39 C \\nATOM 143 OE1 GLN A 18 20.393 31.944 28.082 1.00 76.16 O \\nATOM 144 NE2 GLN A 18 18.647 31.035 26.975 1.00 74.55 N \\nATOM 145 N LEU A 19 23.733 33.672 23.848 1.00 53.88 N \\nATOM 146 CA LEU A 19 24.334 33.365 22.552 1.00 49.32 C \\nATOM 147 C LEU A 19 23.896 31.963 22.106 1.00 46.38 C \\nATOM 148 O LEU A 19 23.975 31.020 22.863 1.00 43.18 O \\nATOM 149 CB LEU A 19 25.869 33.432 22.625 1.00 47.14 C \\nATOM 150 CG LEU A 19 26.561 34.761 22.968 1.00 46.02 C \\nATOM 151 CD1 LEU A 19 28.007 34.629 22.620 1.00 46.45 C \\nATOM 152 CD2 LEU A 19 25.983 35.913 22.194 1.00 46.45 C \\nATOM 153 N LYS A 20 23.416 31.855 20.876 1.00 44.76 N \\nATOM 154 CA LYS A 20 23.006 30.584 20.266 1.00 44.52 C \\nATOM 155 C LYS A 20 23.626 30.463 18.874 1.00 42.87 C \\nATOM 156 O LYS A 20 24.024 31.460 18.283 1.00 41.39 O \\nATOM 157 CB LYS A 20 21.494 30.523 20.107 1.00 43.50 C \\nATOM 158 CG LYS A 20 20.778 29.875 21.264 1.00 46.90 C \\nATOM 159 CD LYS A 20 19.868 30.857 21.939 1.00 49.38 C \\nATOM 160 CE LYS A 20 19.112 30.168 23.043 1.00 54.07 C \\nATOM 161 NZ LYS A 20 18.467 28.892 22.571 1.00 60.37 N \\nATOM 162 N GLU A 21 23.725 29.250 18.342 1.00 41.75 N \\nATOM 163 CA GLU A 21 24.053 29.117 16.931 1.00 40.02 C \\nATOM 164 C GLU A 21 22.822 28.761 16.150 1.00 35.18 C \\nATOM 165 O GLU A 21 21.879 28.136 16.672 1.00 30.96 O \\nATOM 166 CB GLU A 21 25.197 28.130 16.679 1.00 45.21 C \\nATOM 167 CG GLU A 21 25.035 26.716 17.168 1.00 55.20 C \\nATOM 168 CD GLU A 21 25.878 25.743 16.334 1.00 63.88 C \\nATOM 169 OE1 GLU A 21 27.022 26.130 15.972 1.00 67.73 O \\nATOM 170 OE2 GLU A 21 25.379 24.639 15.983 1.00 60.14 O \\nATOM 171 N ALA A 22 22.778 29.268 14.927 1.00 30.04 N \\nATOM 172 CA ALA A 22 21.553 29.189 14.165 1.00 26.79 C \\nATOM 173 C ALA A 22 21.870 29.183 12.682 1.00 26.36 C \\nATOM 174 O ALA A 22 22.975 29.578 12.252 1.00 24.88 O \\nATOM 175 CB ALA A 22 20.625 30.359 14.524 1.00 22.80 C \\nATOM 176 N LEU A 23 20.893 28.726 11.903 1.00 25.58 N \\nATOM 177 CA LEU A 23 21.047 28.473 10.476 1.00 25.08 C \\nATOM 178 C LEU A 23 20.381 29.596 9.664 1.00 23.67 C \\nATOM 179 O LEU A 23 19.231 29.943 9.912 1.00 25.94 O \\nATOM 180 CB LEU A 23 20.382 27.135 10.174 1.00 27.31 C \\nATOM 181 CG LEU A 23 20.532 26.573 8.786 1.00 27.99 C \\nATOM 182 CD1 LEU A 23 21.939 26.039 8.621 1.00 29.29 C \\nATOM 183 CD2 LEU A 23 19.490 25.490 8.627 1.00 31.05 C \\nATOM 184 N LEU A 24 21.122 30.163 8.715 1.00 21.67 N \\nATOM 185 CA LEU A 24 20.617 31.144 7.775 1.00 18.03 C \\nATOM 186 C LEU A 24 19.940 30.412 6.617 1.00 19.77 C \\nATOM 187 O LEU A 24 20.567 29.833 5.740 1.00 20.40 O \\nATOM 188 CB LEU A 24 21.767 32.023 7.262 1.00 15.36 C \\nATOM 189 CG LEU A 24 22.647 32.673 8.359 1.00 18.86 C \\nATOM 190 CD1 LEU A 24 23.698 33.581 7.738 1.00 16.70 C \\nATOM 191 CD2 LEU A 24 21.797 33.496 9.368 1.00 18.96 C \\nATOM 192 N ASP A 25 18.626 30.444 6.627 1.00 18.83 N \\nATOM 193 CA ASP A 25 17.853 29.516 5.837 1.00 18.91 C \\nATOM 194 C ASP A 25 16.945 30.292 4.886 1.00 16.83 C \\nATOM 195 O ASP A 25 15.843 30.678 5.237 1.00 17.64 O \\nATOM 196 CB ASP A 25 17.047 28.642 6.811 1.00 16.55 C \\nATOM 197 CG ASP A 25 16.316 27.513 6.146 1.00 21.74 C \\nATOM 198 OD1 ASP A 25 16.236 27.458 4.905 1.00 22.87 O \\nATOM 199 OD2 ASP A 25 15.762 26.696 6.882 1.00 24.00 O \\nATOM 200 N THR A 26 17.364 30.439 3.645 1.00 15.44 N \\nATOM 201 CA THR A 26 16.548 31.148 2.684 1.00 15.16 C \\nATOM 202 C THR A 26 15.302 30.382 2.289 1.00 15.12 C \\nATOM 203 O THR A 26 14.412 30.939 1.615 1.00 12.07 O \\nATOM 204 CB THR A 26 17.328 31.419 1.447 1.00 17.69 C \\nATOM 205 OG1 THR A 26 17.693 30.177 0.863 1.00 16.60 O \\nATOM 206 CG2 THR A 26 18.601 32.197 1.773 1.00 13.90 C \\nATOM 207 N GLY A 27 15.213 29.111 2.702 1.00 17.61 N \\nATOM 208 CA GLY A 27 14.043 28.331 2.349 1.00 14.06 C \\nATOM 209 C GLY A 27 12.958 28.456 3.394 1.00 13.84 C \\nATOM 210 O GLY A 27 11.832 28.015 3.171 1.00 14.08 O \\nATOM 211 N ALA A 28 13.301 28.967 4.569 1.00 12.94 N \\nATOM 212 CA ALA A 28 12.324 29.192 5.642 1.00 13.20 C \\nATOM 213 C ALA A 28 11.629 30.567 5.554 1.00 17.23 C \\nATOM 214 O ALA A 28 12.303 31.618 5.504 1.00 15.43 O \\nATOM 215 CB ALA A 28 13.031 29.084 6.978 1.00 12.92 C \\nATOM 216 N ASP A 29 10.296 30.560 5.587 1.00 17.65 N \\nATOM 217 CA ASP A 29 9.512 31.798 5.651 1.00 19.68 C \\nATOM 218 C ASP A 29 9.632 32.481 6.994 1.00 21.65 C \\nATOM 219 O ASP A 29 9.671 33.706 7.056 1.00 26.39 O \\nATOM 220 CB ASP A 29 8.029 31.534 5.402 1.00 18.61 C \\nATOM 221 CG ASP A 29 7.752 31.004 4.015 1.00 23.38 C \\nATOM 222 OD1 ASP A 29 8.591 31.192 3.104 1.00 23.84 O \\nATOM 223 OD2 ASP A 29 6.661 30.410 3.833 1.00 24.58 O \\nATOM 224 N ASP A 30 9.698 31.685 8.062 1.00 23.67 N \\nATOM 225 CA ASP A 30 9.718 32.168 9.444 1.00 22.55 C \\nATOM 226 C ASP A 30 10.988 31.819 10.163 1.00 20.55 C \\nATOM 227 O ASP A 30 11.818 31.072 9.679 1.00 22.98 O \\nATOM 228 CB ASP A 30 8.549 31.585 10.214 1.00 24.31 C \\nATOM 229 CG ASP A 30 7.254 31.916 9.579 1.00 25.77 C \\nATOM 230 OD1 ASP A 30 6.951 33.118 9.473 1.00 37.03 O \\nATOM 231 OD2 ASP A 30 6.561 31.008 9.099 1.00 33.64 O \\nATOM 232 N THR A 31 11.161 32.408 11.326 1.00 21.65 N \\nATOM 233 CA THR A 31 12.248 32.053 12.215 1.00 19.28 C \\nATOM 234 C THR A 31 11.707 31.128 13.318 1.00 20.65 C \\nATOM 235 O THR A 31 10.660 31.408 13.910 1.00 21.27 O \\nATOM 236 CB THR A 31 12.896 33.338 12.795 1.00 21.21 C \\nATOM 237 OG1 THR A 31 13.451 34.082 11.707 1.00 17.85 O \\nATOM 238 CG2 THR A 31 14.027 32.992 13.816 1.00 20.08 C \\nATOM 239 N VAL A 32 12.390 30.005 13.537 1.00 19.73 N \\nATOM 240 CA VAL A 32 11.893 28.983 14.419 1.00 20.18 C \\nATOM 241 C VAL A 32 13.036 28.655 15.292 1.00 18.49 C \\nATOM 242 O VAL A 32 14.067 28.221 14.821 1.00 21.86 O \\nATOM 243 CB VAL A 32 11.528 27.683 13.690 1.00 20.27 C \\nATOM 244 CG1 VAL A 32 10.656 26.825 14.592 1.00 21.42 C \\nATOM 245 CG2 VAL A 32 10.805 27.963 12.423 1.00 20.29 C \\nATOM 246 N LEU A 33 12.899 28.904 16.576 1.00 21.84 N \\nATOM 247 CA LEU A 33 13.996 28.594 17.500 1.00 24.48 C \\nATOM 248 C LEU A 33 13.571 27.454 18.396 1.00 25.37 C \\nATOM 249 O LEU A 33 12.363 27.234 18.612 1.00 25.11 O \\nATOM 250 CB LEU A 33 14.337 29.799 18.375 1.00 24.32 C \\nATOM 251 CG LEU A 33 14.849 31.061 17.691 1.00 28.97 C \\nATOM 252 CD1 LEU A 33 15.091 32.156 18.733 1.00 31.03 C \\nATOM 253 CD2 LEU A 33 16.139 30.718 16.927 1.00 30.18 C \\nATOM 254 N GLU A 34 14.568 26.722 18.889 1.00 29.09 N \\nATOM 255 CA GLU A 34 14.390 25.650 19.874 1.00 32.79 C \\nATOM 256 C GLU A 34 13.739 26.125 21.160 1.00 33.96 C \\nATOM 257 O GLU A 34 13.982 27.222 21.618 1.00 34.70 O \\nATOM 258 CB GLU A 34 15.727 25.007 20.190 1.00 36.48 C \\nATOM 259 CG GLU A 34 16.297 24.250 18.988 1.00 43.49 C \\nATOM 260 CD GLU A 34 17.726 23.801 19.191 1.00 49.89 C \\nATOM 261 OE1 GLU A 34 18.134 23.657 20.375 1.00 52.23 O \\nATOM 262 OE2 GLU A 34 18.443 23.614 18.182 1.00 53.58 O \\nATOM 263 N GLU A 35 12.865 25.288 21.703 1.00 32.88 N \\nATOM 264 CA GLU A 35 12.183 25.482 22.981 1.00 33.85 C \\nATOM 265 C GLU A 35 12.971 26.329 23.986 1.00 34.72 C \\nATOM 266 O GLU A 35 13.981 25.861 24.497 1.00 34.03 O \\nATOM 267 CB GLU A 35 11.941 24.114 23.581 1.00 35.16 C \\nATOM 268 CG GLU A 35 10.800 24.049 24.516 1.00 39.66 C \\nATOM 269 CD GLU A 35 9.489 24.067 23.809 1.00 45.60 C \\nATOM 270 OE1 GLU A 35 9.134 23.066 23.120 1.00 50.36 O \\nATOM 271 OE2 GLU A 35 8.758 25.047 24.035 1.00 47.94 O \\nATOM 272 N MET A 36 12.495 27.556 24.269 1.00 33.77 N \\nATOM 273 CA MET A 36 13.101 28.479 25.261 1.00 32.08 C \\nATOM 274 C MET A 36 12.013 29.437 25.755 1.00 33.50 C \\nATOM 275 O MET A 36 10.969 29.535 25.133 1.00 33.82 O \\nATOM 276 CB MET A 36 14.216 29.306 24.621 1.00 31.77 C \\nATOM 277 CG MET A 36 13.741 30.341 23.590 1.00 33.78 C \\nATOM 278 SD MET A 36 15.123 31.051 22.667 1.00 38.76 S \\nATOM 279 CE MET A 36 15.783 32.224 23.828 1.00 34.69 C \\nATOM 280 N SER A 37 12.249 30.179 26.852 1.00 34.23 N \\nATOM 281 CA SER A 37 11.163 31.036 27.460 1.00 33.81 C \\nATOM 282 C SER A 37 11.347 32.442 26.960 1.00 32.96 C \\nATOM 283 O SER A 37 12.475 32.929 27.007 1.00 32.62 O \\nATOM 284 CB SER A 37 11.300 31.071 28.976 1.00 34.02 C \\nATOM 285 OG SER A 37 9.948 31.148 29.559 1.00 38.20 O \\nATOM 286 N LEU A 38 10.330 33.112 26.459 1.00 35.12 N \\nATOM 287 CA LEU A 38 10.566 34.476 26.033 1.00 38.10 C \\nATOM 288 C LEU A 38 9.594 35.375 26.756 1.00 42.61 C \\nATOM 289 O LEU A 38 8.616 34.906 27.343 1.00 41.25 O \\nATOM 290 CB LEU A 38 10.409 34.626 24.500 1.00 35.60 C \\nATOM 291 CG LEU A 38 11.559 34.187 23.577 1.00 33.68 C \\nATOM 292 CD1 LEU A 38 11.171 34.399 22.132 1.00 33.91 C \\nATOM 293 CD2 LEU A 38 12.807 34.964 23.875 1.00 34.05 C \\nATOM 294 N PRO A 39 9.929 36.666 26.880 1.00 45.17 N \\nATOM 295 CA PRO A 39 8.980 37.700 27.301 1.00 45.32 C \\nATOM 296 C PRO A 39 7.760 37.785 26.410 1.00 44.13 C \\nATOM 297 O PRO A 39 7.866 37.883 25.194 1.00 44.57 O \\nATOM 298 CB PRO A 39 9.778 38.989 27.220 1.00 48.51 C \\nATOM 299 CG PRO A 39 11.021 38.637 26.370 1.00 47.48 C \\nATOM 300 CD PRO A 39 11.291 37.226 26.725 1.00 48.21 C \\nATOM 301 N GLY A 40 6.601 37.811 27.029 1.00 43.26 N \\nATOM 302 CA GLY A 40 5.419 38.218 26.302 1.00 44.04 C \\nATOM 303 C GLY A 40 4.430 37.094 26.331 1.00 46.02 C \\nATOM 304 O GLY A 40 4.591 36.107 27.055 1.00 48.40 O \\nATOM 305 N ARG A 41 3.289 37.341 25.729 1.00 47.22 N \\nATOM 306 CA ARG A 41 2.382 36.252 25.509 1.00 48.14 C \\nATOM 307 C ARG A 41 2.606 35.713 24.096 1.00 45.12 C \\nATOM 308 O ARG A 41 3.225 36.383 23.273 1.00 43.73 O \\nATOM 309 CB ARG A 41 0.956 36.719 25.748 1.00 53.98 C \\nATOM 310 CG ARG A 41 0.288 36.021 26.959 1.00 61.76 C \\nATOM 311 CD ARG A 41 0.118 36.953 28.169 1.00 64.66 C \\nATOM 312 NE ARG A 41 1.356 37.143 28.933 1.00 67.95 N \\nATOM 313 CZ ARG A 41 1.830 38.332 29.318 1.00 69.74 C \\nATOM 314 NH1 ARG A 41 1.161 39.450 29.040 1.00 69.56 N \\nATOM 315 NH2 ARG A 41 2.973 38.402 29.994 1.00 68.51 N \\nATOM 316 N TRP A 42 2.145 34.493 23.834 1.00 42.00 N \\nATOM 317 CA TRP A 42 2.295 33.862 22.533 1.00 40.42 C \\nATOM 318 C TRP A 42 0.934 33.419 21.959 1.00 40.51 C \\nATOM 319 O TRP A 42 0.031 33.049 22.694 1.00 41.61 O \\nATOM 320 CB TRP A 42 3.207 32.645 22.642 1.00 42.08 C \\nATOM 321 CG TRP A 42 2.946 31.783 23.787 1.00 42.80 C \\nATOM 322 CD1 TRP A 42 3.473 31.896 25.041 1.00 46.14 C \\nATOM 323 CD2 TRP A 42 1.989 30.710 23.857 1.00 44.40 C \\nATOM 324 NE1 TRP A 42 2.882 30.973 25.884 1.00 48.15 N \\nATOM 325 CE2 TRP A 42 1.966 30.246 25.193 1.00 45.80 C \\nATOM 326 CE3 TRP A 42 1.129 30.108 22.909 1.00 44.14 C \\nATOM 327 CZ2 TRP A 42 1.117 29.219 25.618 1.00 47.06 C \\nATOM 328 CZ3 TRP A 42 0.313 29.091 23.334 1.00 45.02 C \\nATOM 329 CH2 TRP A 42 0.305 28.651 24.686 1.00 47.76 C \\nATOM 330 N LYS A 43 0.781 33.465 20.639 1.00 39.07 N \\nATOM 331 CA LYS A 43 -0.305 32.776 19.928 1.00 38.61 C \\nATOM 332 C LYS A 43 0.220 31.412 19.477 1.00 38.09 C \\nATOM 333 O LYS A 43 1.400 31.270 19.145 1.00 37.97 O \\nATOM 334 CB LYS A 43 -0.739 33.603 18.700 1.00 40.22 C \\nATOM 335 CG LYS A 43 -1.311 34.967 19.027 1.00 40.71 C \\nATOM 336 CD LYS A 43 -1.066 35.945 17.886 1.00 46.25 C \\nATOM 337 CE LYS A 43 -1.726 37.319 18.156 1.00 53.77 C \\nATOM 338 NZ LYS A 43 -0.979 38.292 19.067 1.00 55.67 N \\nATOM 339 N PRO A 44 -0.601 30.363 19.541 1.00 36.78 N \\nATOM 340 CA PRO A 44 -0.088 29.114 18.966 1.00 36.73 C \\nATOM 341 C PRO A 44 -0.275 29.085 17.454 1.00 35.93 C \\nATOM 342 O PRO A 44 -1.185 29.721 16.929 1.00 35.84 O \\nATOM 343 CB PRO A 44 -0.893 28.021 19.667 1.00 37.26 C \\nATOM 344 CG PRO A 44 -2.170 28.683 20.012 1.00 38.05 C \\nATOM 345 CD PRO A 44 -1.825 30.129 20.325 1.00 40.15 C \\nATOM 346 N LYS A 45 0.586 28.336 16.762 1.00 34.68 N \\nATOM 347 CA LYS A 45 0.634 28.302 15.290 1.00 31.98 C \\nATOM 348 C LYS A 45 1.025 26.869 14.873 1.00 29.00 C \\nATOM 349 O LYS A 45 1.711 26.163 15.608 1.00 27.87 O \\nATOM 350 CB LYS A 45 1.693 29.299 14.799 1.00 31.87 C \\nATOM 351 CG LYS A 45 1.495 29.822 13.396 1.00 32.85 C \\nATOM 352 CD LYS A 45 2.628 30.791 12.986 1.00 39.51 C \\nATOM 353 CE LYS A 45 2.662 31.103 11.471 1.00 38.60 C \\nATOM 354 NZ LYS A 45 1.837 32.301 11.181 1.00 45.48 N \\nATOM 355 N MET A 46 0.570 26.438 13.707 1.00 28.78 N \\nATOM 356 CA MET A 46 1.091 25.232 13.081 1.00 28.75 C \\nATOM 357 C MET A 46 1.899 25.638 11.874 1.00 26.81 C \\nATOM 358 O MET A 46 1.385 26.292 10.965 1.00 28.48 O \\nATOM 359 CB MET A 46 -0.047 24.319 12.624 1.00 30.70 C \\nATOM 360 CG MET A 46 -0.970 23.867 13.745 1.00 34.30 C \\nATOM 361 SD MET A 46 -0.348 22.459 14.681 1.00 42.21 S \\nATOM 362 CE MET A 46 -0.585 21.081 13.426 1.00 43.40 C \\nATOM 363 N ILE A 47 3.167 25.258 11.849 1.00 25.63 N \\nATOM 364 CA ILE A 47 3.978 25.464 10.655 1.00 25.64 C \\nATOM 365 C ILE A 47 4.420 24.140 10.114 1.00 23.79 C \\nATOM 366 O ILE A 47 4.667 23.248 10.887 1.00 25.39 O \\nATOM 367 CB ILE A 47 5.234 26.259 10.953 1.00 25.82 C \\nATOM 368 CG1 ILE A 47 5.959 25.628 12.127 1.00 27.41 C \\nATOM 369 CG2 ILE A 47 4.898 27.703 11.148 1.00 29.47 C \\nATOM 370 CD1 ILE A 47 7.369 26.170 12.291 1.00 33.28 C \\nATOM 371 N GLY A 48 4.567 24.042 8.795 1.00 23.56 N \\nATOM 372 CA GLY A 48 4.886 22.777 8.145 1.00 28.25 C \\nATOM 373 C GLY A 48 6.265 22.720 7.521 1.00 30.81 C \\nATOM 374 O GLY A 48 6.723 23.689 6.900 1.00 30.06 O \\nATOM 375 N GLY A 49 7.015 21.688 7.884 1.00 31.96 N \\nATOM 376 CA GLY A 49 8.313 21.471 7.276 1.00 33.92 C \\nATOM 377 C GLY A 49 8.221 20.379 6.232 1.00 37.71 C \\nATOM 378 O GLY A 49 7.177 20.197 5.583 1.00 36.71 O \\nATOM 379 N ILE A 50 9.309 19.619 6.155 1.00 39.37 N \\nATOM 380 CA ILE A 50 9.537 18.544 5.194 1.00 40.56 C \\nATOM 381 C ILE A 50 8.802 17.261 5.658 1.00 39.02 C \\nATOM 382 O ILE A 50 8.143 16.589 4.863 1.00 40.72 O \\nATOM 383 CB ILE A 50 11.095 18.362 5.046 1.00 40.75 C \\nATOM 384 CG1 ILE A 50 11.553 18.874 3.682 1.00 39.18 C \\nATOM 385 CG2 ILE A 50 11.521 16.945 5.317 1.00 42.58 C \\nATOM 386 CD1 ILE A 50 10.910 18.225 2.567 1.00 39.03 C \\nATOM 387 N GLY A 51 8.865 16.952 6.945 1.00 35.64 N \\nATOM 388 CA GLY A 51 8.174 15.771 7.405 1.00 37.36 C \\nATOM 389 C GLY A 51 6.812 16.062 7.983 1.00 38.38 C \\nATOM 390 O GLY A 51 6.408 15.342 8.870 1.00 42.43 O \\nATOM 391 N GLY A 52 6.141 17.132 7.563 1.00 35.83 N \\nATOM 392 CA GLY A 52 4.855 17.480 8.157 1.00 34.71 C \\nATOM 393 C GLY A 52 4.884 18.624 9.170 1.00 32.77 C \\nATOM 394 O GLY A 52 5.873 19.342 9.280 1.00 33.65 O \\nATOM 395 N PHE A 53 3.806 18.788 9.925 1.00 31.50 N \\nATOM 396 CA PHE A 53 3.593 19.996 10.731 1.00 30.76 C \\nATOM 397 C PHE A 53 4.015 19.881 12.194 1.00 31.86 C \\nATOM 398 O PHE A 53 3.930 18.810 12.781 1.00 36.37 O \\nATOM 399 CB PHE A 53 2.121 20.351 10.670 1.00 28.77 C \\nATOM 400 CG PHE A 53 1.760 21.152 9.484 1.00 30.51 C \\nATOM 401 CD1 PHE A 53 1.725 20.567 8.216 1.00 27.94 C \\nATOM 402 CD2 PHE A 53 1.556 22.518 9.607 1.00 30.74 C \\nATOM 403 CE1 PHE A 53 1.500 21.332 7.075 1.00 29.27 C \\nATOM 404 CE2 PHE A 53 1.327 23.302 8.496 1.00 32.36 C \\nATOM 405 CZ PHE A 53 1.290 22.718 7.212 1.00 28.01 C \\nATOM 406 N ILE A 54 4.483 20.969 12.792 1.00 28.86 N \\nATOM 407 CA ILE A 54 4.689 21.005 14.248 1.00 28.83 C \\nATOM 408 C ILE A 54 3.921 22.179 14.858 1.00 29.53 C \\nATOM 409 O ILE A 54 3.575 23.139 14.182 1.00 28.42 O \\nATOM 410 CB ILE A 54 6.199 21.155 14.625 1.00 28.74 C \\nATOM 411 CG1 ILE A 54 6.796 22.408 13.939 1.00 27.76 C \\nATOM 412 CG2 ILE A 54 6.967 19.888 14.203 1.00 28.78 C \\nATOM 413 CD1 ILE A 54 8.110 22.821 14.465 1.00 23.65 C \\nATOM 414 N LYS A 55 3.632 22.095 16.145 1.00 31.86 N \\nATOM 415 CA LYS A 55 2.968 23.196 16.823 1.00 31.37 C \\nATOM 416 C LYS A 55 4.038 24.093 17.449 1.00 31.40 C \\nATOM 417 O LYS A 55 4.949 23.610 18.157 1.00 30.39 O \\nATOM 418 CB LYS A 55 2.021 22.661 17.895 1.00 34.83 C \\nATOM 419 CG LYS A 55 0.974 23.665 18.300 1.00 41.25 C \\nATOM 420 CD LYS A 55 0.006 23.101 19.304 1.00 48.65 C \\nATOM 421 CE LYS A 55 -0.580 24.217 20.149 1.00 52.68 C \\nATOM 422 NZ LYS A 55 0.439 24.751 21.104 1.00 56.46 N \\nATOM 423 N VAL A 56 3.953 25.391 17.185 1.00 27.17 N \\nATOM 424 CA VAL A 56 4.927 26.319 17.754 1.00 26.79 C \\nATOM 425 C VAL A 56 4.225 27.378 18.556 1.00 25.98 C \\nATOM 426 O VAL A 56 3.023 27.557 18.455 1.00 28.45 O \\nATOM 427 CB VAL A 56 5.769 27.009 16.663 1.00 23.58 C \\nATOM 428 CG1 VAL A 56 6.791 26.027 16.120 1.00 24.00 C \\nATOM 429 CG2 VAL A 56 4.881 27.551 15.567 1.00 19.88 C \\nATOM 430 N ARG A 57 4.978 28.079 19.377 1.00 27.52 N \\nATOM 431 CA ARG A 57 4.459 29.271 20.026 1.00 29.29 C \\nATOM 432 C ARG A 57 5.038 30.502 19.335 1.00 26.53 C \\nATOM 433 O ARG A 57 6.242 30.596 19.138 1.00 26.51 O \\nATOM 434 CB ARG A 57 4.824 29.245 21.505 1.00 33.25 C \\nATOM 435 CG ARG A 57 4.168 28.102 22.260 1.00 39.60 C \\nATOM 436 CD ARG A 57 4.656 28.068 23.693 1.00 44.47 C \\nATOM 437 NE ARG A 57 6.032 27.573 23.790 1.00 50.18 N \\nATOM 438 CZ ARG A 57 7.027 28.273 24.317 1.00 49.84 C \\nATOM 439 NH1 ARG A 57 6.825 29.532 24.678 1.00 51.65 N \\nATOM 440 NH2 ARG A 57 8.223 27.723 24.467 1.00 52.43 N \\nATOM 441 N GLN A 58 4.171 31.431 18.958 1.00 25.48 N \\nATOM 442 CA GLN A 58 4.570 32.596 18.172 1.00 27.73 C \\nATOM 443 C GLN A 58 4.681 33.818 19.085 1.00 30.15 C \\nATOM 444 O GLN A 58 3.694 34.242 19.683 1.00 33.75 O \\nATOM 445 CB GLN A 58 3.539 32.859 17.094 1.00 26.15 C \\nATOM 446 CG GLN A 58 3.736 34.104 16.321 1.00 29.09 C \\nATOM 447 CD GLN A 58 2.500 34.473 15.541 1.00 37.13 C \\nATOM 448 OE1 GLN A 58 1.530 33.703 15.489 1.00 40.89 O \\nATOM 449 NE2 GLN A 58 2.508 35.651 14.940 1.00 39.09 N \\nATOM 450 N TYR A 59 5.883 34.378 19.196 1.00 32.83 N \\nATOM 451 CA TYR A 59 6.097 35.658 19.896 1.00 34.57 C \\nATOM 452 C TYR A 59 6.304 36.752 18.835 1.00 35.86 C \\nATOM 453 O TYR A 59 6.923 36.513 17.800 1.00 38.78 O \\nATOM 454 CB TYR A 59 7.354 35.588 20.765 1.00 33.06 C \\nATOM 455 CG TYR A 59 7.213 34.624 21.955 1.00 36.56 C \\nATOM 456 CD1 TYR A 59 7.479 33.237 21.805 1.00 37.53 C \\nATOM 457 CD2 TYR A 59 6.795 35.087 23.223 1.00 33.33 C \\nATOM 458 CE1 TYR A 59 7.345 32.365 22.871 1.00 34.69 C \\nATOM 459 CE2 TYR A 59 6.638 34.224 24.268 1.00 33.09 C \\nATOM 460 CZ TYR A 59 6.926 32.869 24.102 1.00 33.21 C \\nATOM 461 OH TYR A 59 6.967 32.076 25.200 1.00 40.16 O \\nATOM 462 N ASP A 60 5.767 37.940 19.049 1.00 37.21 N \\nATOM 463 CA ASP A 60 6.022 39.045 18.125 1.00 36.50 C \\nATOM 464 C ASP A 60 7.025 40.015 18.725 1.00 35.62 C \\nATOM 465 O ASP A 60 7.340 39.951 19.900 1.00 33.30 O \\nATOM 466 CB ASP A 60 4.719 39.777 17.832 1.00 43.82 C \\nATOM 467 CG ASP A 60 3.699 38.899 17.148 1.00 49.03 C \\nATOM 468 OD1 ASP A 60 3.989 38.368 16.050 1.00 53.15 O \\nATOM 469 OD2 ASP A 60 2.570 38.799 17.672 1.00 54.18 O \\nATOM 470 N GLN A 61 7.529 40.913 17.896 1.00 35.15 N \\nATOM 471 CA GLN A 61 8.337 42.060 18.331 1.00 37.27 C \\nATOM 472 C GLN A 61 9.535 41.630 19.179 1.00 36.83 C \\nATOM 473 O GLN A 61 9.777 42.191 20.264 1.00 39.02 O \\nATOM 474 CB GLN A 61 7.471 43.051 19.131 1.00 41.54 C \\nATOM 475 CG GLN A 61 7.718 44.555 18.814 1.00 53.40 C \\nATOM 476 CD GLN A 61 7.182 45.552 19.907 1.00 61.08 C \\nATOM 477 OE1 GLN A 61 7.936 46.461 20.398 1.00 65.46 O \\nATOM 478 NE2 GLN A 61 5.892 45.377 20.306 1.00 58.46 N \\nATOM 479 N ILE A 62 10.283 40.645 18.676 1.00 33.10 N \\nATOM 480 CA ILE A 62 11.484 40.115 19.328 1.00 33.95 C \\nATOM 481 C ILE A 62 12.745 40.584 18.614 1.00 35.70 C \\nATOM 482 O ILE A 62 12.830 40.485 17.396 1.00 38.95 O \\nATOM 483 CB ILE A 62 11.465 38.545 19.309 1.00 33.50 C \\nATOM 484 CG1 ILE A 62 10.152 38.035 19.930 1.00 31.68 C \\nATOM 485 CG2 ILE A 62 12.688 37.973 20.027 1.00 33.86 C \\nATOM 486 CD1 ILE A 62 9.966 38.380 21.363 1.00 35.62 C \\nATOM 487 N LEU A 63 13.722 41.086 19.369 1.00 38.14 N \\nATOM 488 CA LEU A 63 15.038 41.476 18.822 1.00 41.38 C \\nATOM 489 C LEU A 63 16.033 40.304 18.862 1.00 42.34 C \\nATOM 490 O LEU A 63 16.195 39.661 19.897 1.00 43.91 O \\nATOM 491 CB LEU A 63 15.631 42.666 19.619 1.00 41.40 C \\nATOM 492 CG LEU A 63 16.776 43.426 18.914 1.00 42.58 C \\nATOM 493 CD1 LEU A 63 16.560 44.922 18.993 1.00 46.33 C \\nATOM 494 CD2 LEU A 63 18.103 43.062 19.558 1.00 45.30 C \\nATOM 495 N ILE A 64 16.686 40.036 17.738 1.00 44.21 N \\nATOM 496 CA ILE A 64 17.760 39.039 17.653 1.00 46.55 C \\nATOM 497 C ILE A 64 18.991 39.753 17.116 1.00 46.30 C \\nATOM 498 O ILE A 64 18.862 40.632 16.288 1.00 45.60 O \\nATOM 499 CB ILE A 64 17.390 37.875 16.634 1.00 48.42 C \\nATOM 500 CG1 ILE A 64 16.127 37.137 17.110 1.00 51.56 C \\nATOM 501 CG2 ILE A 64 18.551 36.857 16.518 1.00 45.78 C \\nATOM 502 CD1 ILE A 64 16.194 35.643 16.885 1.00 52.26 C \\nATOM 503 N GLU A 65 20.181 39.387 17.573 1.00 48.38 N \\nATOM 504 CA GLU A 65 21.406 39.983 17.036 1.00 52.65 C \\nATOM 505 C GLU A 65 22.192 39.019 16.135 1.00 53.34 C \\nATOM 506 O GLU A 65 22.866 38.128 16.631 1.00 57.14 O \\nATOM 507 CB GLU A 65 22.307 40.439 18.180 1.00 53.39 C \\nATOM 508 CG GLU A 65 21.987 41.843 18.676 1.00 58.82 C \\nATOM 509 CD GLU A 65 23.228 42.558 19.187 1.00 61.85 C \\nATOM 510 OE1 GLU A 65 24.094 42.925 18.348 1.00 62.51 O \\nATOM 511 OE2 GLU A 65 23.348 42.730 20.429 1.00 63.85 O \\nATOM 512 N ILE A 66 22.148 39.215 14.823 1.00 54.18 N \\nATOM 513 CA ILE A 66 22.818 38.327 13.863 1.00 53.69 C \\nATOM 514 C ILE A 66 24.123 38.945 13.303 1.00 55.63 C \\nATOM 515 O ILE A 66 24.114 39.903 12.521 1.00 55.17 O \\nATOM 516 CB ILE A 66 21.831 37.964 12.694 1.00 53.26 C \\nATOM 517 CG1 ILE A 66 20.481 37.516 13.278 1.00 50.35 C \\nATOM 518 CG2 ILE A 66 22.444 36.880 11.799 1.00 51.36 C \\nATOM 519 CD1 ILE A 66 19.263 38.072 12.560 1.00 49.54 C \\nATOM 520 N CYS A 67 25.251 38.396 13.731 1.00 57.47 N \\nATOM 521 CA CYS A 67 26.590 38.871 13.351 1.00 59.30 C \\nATOM 522 C CYS A 67 26.798 40.370 13.560 1.00 58.98 C \\nATOM 523 O CYS A 67 27.461 41.045 12.763 1.00 59.83 O \\nATOM 524 CB CYS A 67 26.907 38.497 11.905 1.00 60.45 C \\nATOM 525 SG CYS A 67 27.274 36.734 11.705 1.00 66.26 S \\nATOM 526 N GLY A 68 26.239 40.887 14.650 1.00 58.28 N \\nATOM 527 CA GLY A 68 26.319 42.307 14.938 1.00 56.53 C \\nATOM 528 C GLY A 68 24.980 42.946 14.665 1.00 54.84 C \\nATOM 529 O GLY A 68 24.371 43.518 15.561 1.00 55.20 O \\nATOM 530 N HIS A 69 24.449 42.689 13.479 1.00 52.63 N \\nATOM 531 CA HIS A 69 23.251 43.368 13.013 1.00 49.83 C \\nATOM 532 C HIS A 69 22.009 43.025 13.836 1.00 49.49 C \\nATOM 533 O HIS A 69 21.626 41.865 13.958 1.00 50.24 O \\nATOM 534 CB HIS A 69 22.975 43.009 11.568 1.00 48.37 C \\nATOM 535 CG HIS A 69 24.157 43.172 10.639 1.00 48.55 C \\nATOM 536 ND1 HIS A 69 25.294 42.398 10.762 1.00 46.92 N \\nATOM 537 CD2 HIS A 69 24.283 43.886 9.518 1.00 47.07 C \\nATOM 538 CE1 HIS A 69 26.075 42.630 9.723 1.00 45.30 C \\nATOM 539 NE2 HIS A 69 25.505 43.532 8.946 1.00 49.32 N \\nATOM 540 N LYS A 70 21.364 44.050 14.376 1.00 48.04 N \\nATOM 541 CA LYS A 70 20.030 43.883 14.945 1.00 44.00 C \\nATOM 542 C LYS A 70 18.929 43.698 13.882 1.00 40.53 C \\nATOM 543 O LYS A 70 19.000 44.197 12.761 1.00 37.44 O \\nATOM 544 CB LYS A 70 19.667 45.075 15.840 1.00 46.06 C \\nATOM 545 CG LYS A 70 20.422 45.141 17.154 1.00 48.65 C \\nATOM 546 CD LYS A 70 19.885 46.281 18.036 1.00 52.10 C \\nATOM 547 CE LYS A 70 20.905 46.699 19.095 1.00 52.81 C \\nATOM 548 NZ LYS A 70 20.376 47.817 19.946 1.00 57.49 N \\nATOM 549 N ALA A 71 17.879 43.010 14.305 1.00 37.00 N \\nATOM 550 CA ALA A 71 16.703 42.737 13.499 1.00 33.57 C \\nATOM 551 C ALA A 71 15.600 42.546 14.556 1.00 31.56 C \\nATOM 552 O ALA A 71 15.880 42.175 15.705 1.00 34.29 O \\nATOM 553 CB ALA A 71 16.937 41.464 12.683 1.00 28.40 C \\nATOM 554 N ILE A 72 14.366 42.881 14.219 1.00 28.94 N \\nATOM 555 CA ILE A 72 13.233 42.663 15.111 1.00 26.93 C \\nATOM 556 C ILE A 72 12.196 41.969 14.237 1.00 25.42 C \\nATOM 557 O ILE A 72 12.083 42.266 13.025 1.00 23.83 O \\nATOM 558 CB ILE A 72 12.635 44.019 15.609 1.00 34.11 C \\nATOM 559 CG1 ILE A 72 13.664 44.777 16.446 1.00 39.50 C \\nATOM 560 CG2 ILE A 72 11.353 43.782 16.409 1.00 34.28 C \\nATOM 561 CD1 ILE A 72 13.437 46.286 16.451 1.00 44.26 C \\nATOM 562 N GLY A 73 11.457 41.034 14.821 1.00 23.40 N \\nATOM 563 CA GLY A 73 10.359 40.420 14.090 1.00 22.07 C \\nATOM 564 C GLY A 73 9.750 39.238 14.835 1.00 24.48 C \\nATOM 565 O GLY A 73 10.019 39.007 16.009 1.00 24.29 O \\nATOM 566 N THR A 74 8.853 38.524 14.181 1.00 23.67 N \\nATOM 567 CA THR A 74 8.224 37.361 14.786 1.00 24.46 C \\nATOM 568 C THR A 74 9.169 36.194 14.895 1.00 25.63 C \\nATOM 569 O THR A 74 9.964 35.908 14.007 1.00 25.67 O \\nATOM 570 CB THR A 74 6.961 36.929 14.010 1.00 24.94 C \\nATOM 571 OG1 THR A 74 6.030 38.013 14.001 1.00 29.61 O \\nATOM 572 CG2 THR A 74 6.287 35.760 14.688 1.00 19.06 C \\nATOM 573 N VAL A 75 9.085 35.534 16.025 1.00 25.14 N \\nATOM 574 CA VAL A 75 9.944 34.420 16.291 1.00 26.87 C \\nATOM 575 C VAL A 75 9.018 33.325 16.795 1.00 27.97 C \\nATOM 576 O VAL A 75 8.104 33.576 17.594 1.00 27.87 O \\nATOM 577 CB VAL A 75 11.002 34.791 17.336 1.00 25.74 C \\nATOM 578 CG1 VAL A 75 11.638 33.561 17.884 1.00 27.82 C \\nATOM 579 CG2 VAL A 75 12.070 35.661 16.648 1.00 21.53 C \\nATOM 580 N LEU A 76 9.200 32.127 16.258 1.00 27.21 N \\nATOM 581 CA LEU A 76 8.353 30.995 16.628 1.00 25.80 C \\nATOM 582 C LEU A 76 9.229 30.084 17.483 1.00 24.05 C \\nATOM 583 O LEU A 76 10.409 29.923 17.194 1.00 23.89 O \\nATOM 584 CB LEU A 76 7.937 30.247 15.365 1.00 24.57 C \\nATOM 585 CG LEU A 76 7.222 30.919 14.207 1.00 24.94 C \\nATOM 586 CD1 LEU A 76 6.909 29.914 13.139 1.00 21.47 C \\nATOM 587 CD2 LEU A 76 5.961 31.526 14.713 1.00 22.70 C \\nATOM 588 N VAL A 77 8.689 29.507 18.538 1.00 22.25 N \\nATOM 589 CA VAL A 77 9.519 28.691 19.405 1.00 25.77 C \\nATOM 590 C VAL A 77 8.852 27.309 19.499 1.00 25.41 C \\nATOM 591 O VAL A 77 7.621 27.241 19.608 1.00 21.46 O \\nATOM 592 CB VAL A 77 9.648 29.353 20.800 1.00 26.64 C \\nATOM 593 CG1 VAL A 77 10.306 28.419 21.773 1.00 24.10 C \\nATOM 594 CG2 VAL A 77 10.426 30.686 20.648 1.00 24.74 C \\nATOM 595 N GLY A 78 9.637 26.227 19.375 1.00 23.37 N \\nATOM 596 CA GLY A 78 9.027 24.918 19.185 1.00 25.28 C \\nATOM 597 C GLY A 78 10.005 23.782 18.984 1.00 24.69 C \\nATOM 598 O GLY A 78 11.215 24.012 19.065 1.00 27.34 O \\nATOM 599 N PRO A 79 9.538 22.542 18.758 1.00 24.96 N \\nATOM 600 CA PRO A 79 10.442 21.388 18.731 1.00 26.27 C \\nATOM 601 C PRO A 79 11.136 21.242 17.389 1.00 27.30 C \\nATOM 602 O PRO A 79 10.748 20.397 16.559 1.00 30.31 O \\nATOM 603 CB PRO A 79 9.515 20.215 18.995 1.00 26.15 C \\nATOM 604 CG PRO A 79 8.239 20.616 18.339 1.00 27.52 C \\nATOM 605 CD PRO A 79 8.170 22.144 18.383 1.00 27.77 C \\nATOM 606 N THR A 80 12.138 22.078 17.162 1.00 27.82 N \\nATOM 607 CA THR A 80 12.910 22.043 15.936 1.00 27.04 C \\nATOM 608 C THR A 80 14.280 21.503 16.325 1.00 28.49 C \\nATOM 609 O THR A 80 14.692 21.666 17.473 1.00 33.89 O \\nATOM 610 CB THR A 80 13.031 23.467 15.319 1.00 24.34 C \\nATOM 611 OG1 THR A 80 13.971 23.419 14.244 1.00 28.59 O \\nATOM 612 CG2 THR A 80 13.542 24.478 16.300 1.00 17.97 C \\nATOM 613 N PRO A 81 14.915 20.725 15.449 1.00 27.56 N \\nATOM 614 CA PRO A 81 16.233 20.170 15.766 1.00 28.35 C \\nATOM 615 C PRO A 81 17.352 21.205 15.795 1.00 32.18 C \\nATOM 616 O PRO A 81 18.306 21.085 16.567 1.00 35.74 O \\nATOM 617 CB PRO A 81 16.467 19.139 14.669 1.00 28.05 C \\nATOM 618 CG PRO A 81 15.477 19.489 13.607 1.00 24.27 C \\nATOM 619 CD PRO A 81 14.331 20.114 14.238 1.00 24.21 C \\nATOM 620 N VAL A 82 17.220 22.219 14.948 1.00 31.78 N \\nATOM 621 CA VAL A 82 18.236 23.243 14.762 1.00 30.36 C \\nATOM 622 C VAL A 82 17.549 24.626 14.801 1.00 29.01 C \\nATOM 623 O VAL A 82 16.328 24.735 14.569 1.00 28.83 O \\nATOM 624 CB VAL A 82 18.969 23.017 13.388 1.00 27.70 C \\nATOM 625 CG1 VAL A 82 18.009 22.769 12.263 1.00 25.82 C \\nATOM 626 CG2 VAL A 82 19.843 24.144 13.080 1.00 29.05 C \\nATOM 627 N ASN A 83 18.292 25.671 15.167 1.00 28.44 N \\nATOM 628 CA ASN A 83 17.731 27.051 15.193 1.00 23.14 C \\nATOM 629 C ASN A 83 17.799 27.628 13.799 1.00 20.40 C \\nATOM 630 O ASN A 83 18.794 27.456 13.113 1.00 22.72 O \\nATOM 631 CB ASN A 83 18.508 27.950 16.161 1.00 23.96 C \\nATOM 632 CG ASN A 83 18.236 27.600 17.636 1.00 19.36 C \\nATOM 633 OD1 ASN A 83 17.102 27.381 18.051 1.00 24.75 O \\nATOM 634 ND2 ASN A 83 19.287 27.475 18.398 1.00 23.07 N \\nATOM 635 N ILE A 84 16.729 28.283 13.370 1.00 19.46 N \\nATOM 636 CA ILE A 84 16.588 28.651 11.955 1.00 18.70 C \\nATOM 637 C ILE A 84 16.190 30.132 11.811 1.00 15.24 C \\nATOM 638 O ILE A 84 15.178 30.600 12.384 1.00 16.01 O \\nATOM 639 CB ILE A 84 15.504 27.755 11.242 1.00 18.01 C \\nATOM 640 CG1 ILE A 84 16.049 26.365 11.040 1.00 21.46 C \\nATOM 641 CG2 ILE A 84 15.081 28.324 9.932 1.00 18.09 C \\nATOM 642 CD1 ILE A 84 14.957 25.345 11.321 1.00 21.77 C \\nATOM 643 N ILE A 85 16.991 30.863 11.053 1.00 17.41 N \\nATOM 644 CA ILE A 85 16.710 32.257 10.821 1.00 17.84 C \\nATOM 645 C ILE A 85 16.155 32.252 9.420 1.00 18.00 C \\nATOM 646 O ILE A 85 16.857 31.950 8.464 1.00 16.33 O \\nATOM 647 CB ILE A 85 17.999 33.119 10.844 1.00 19.87 C \\nATOM 648 CG1 ILE A 85 18.724 32.983 12.207 1.00 21.72 C \\nATOM 649 CG2 ILE A 85 17.653 34.600 10.517 1.00 19.84 C \\nATOM 650 CD1 ILE A 85 17.830 33.204 13.418 1.00 23.27 C \\nATOM 651 N GLY A 86 14.888 32.608 9.302 1.00 17.67 N \\nATOM 652 CA GLY A 86 14.238 32.655 8.011 1.00 19.47 C \\nATOM 653 C GLY A 86 14.181 34.034 7.393 1.00 20.59 C \\nATOM 654 O GLY A 86 14.714 34.991 7.894 1.00 19.31 O \\nATOM 655 N ARG A 87 13.398 34.131 6.334 1.00 19.04 N \\nATOM 656 CA ARG A 87 13.370 35.302 5.456 1.00 21.43 C \\nATOM 657 C ARG A 87 12.931 36.548 6.216 1.00 20.84 C \\nATOM 658 O ARG A 87 13.429 37.633 5.958 1.00 24.40 O \\nATOM 659 CB ARG A 87 12.459 35.018 4.263 1.00 15.37 C \\nATOM 660 CG ARG A 87 13.030 34.044 3.318 1.00 18.83 C \\nATOM 661 CD ARG A 87 12.310 34.101 1.966 1.00 21.67 C \\nATOM 662 NE ARG A 87 10.903 33.713 2.088 1.00 21.37 N \\nATOM 663 CZ ARG A 87 9.899 34.575 2.137 1.00 22.28 C \\nATOM 664 NH1 ARG A 87 10.126 35.860 1.922 1.00 20.00 N \\nATOM 665 NH2 ARG A 87 8.657 34.143 2.300 1.00 21.02 N \\nATOM 666 N ASN A 88 12.063 36.352 7.198 1.00 21.72 N \\nATOM 667 CA ASN A 88 11.458 37.455 7.919 1.00 19.12 C \\nATOM 668 C ASN A 88 12.511 38.266 8.653 1.00 21.99 C \\nATOM 669 O ASN A 88 12.419 39.481 8.723 1.00 24.63 O \\nATOM 670 CB ASN A 88 10.359 36.959 8.863 1.00 17.71 C \\nATOM 671 CG ASN A 88 10.892 36.309 10.125 1.00 23.05 C \\nATOM 672 OD1 ASN A 88 11.577 35.273 10.065 1.00 24.51 O \\nATOM 673 ND2 ASN A 88 10.446 36.809 11.283 1.00 21.17 N \\nATOM 674 N LEU A 89 13.551 37.601 9.136 1.00 21.73 N \\nATOM 675 CA LEU A 89 14.633 38.337 9.729 1.00 21.46 C \\nATOM 676 C LEU A 89 15.802 38.487 8.783 1.00 21.01 C \\nATOM 677 O LEU A 89 16.580 39.394 8.941 1.00 22.81 O \\nATOM 678 CB LEU A 89 15.096 37.687 11.029 1.00 24.37 C \\nATOM 679 CG LEU A 89 14.146 37.555 12.221 1.00 26.43 C \\nATOM 680 CD1 LEU A 89 14.939 37.022 13.434 1.00 27.76 C \\nATOM 681 CD2 LEU A 89 13.508 38.913 12.527 1.00 29.10 C \\nATOM 682 N LEU A 90 15.910 37.651 7.761 1.00 18.04 N \\nATOM 683 CA LEU A 90 17.078 37.773 6.865 1.00 21.90 C \\nATOM 684 C LEU A 90 17.048 39.068 6.049 1.00 22.24 C \\nATOM 685 O LEU A 90 18.098 39.613 5.652 1.00 20.42 O \\nATOM 686 CB LEU A 90 17.200 36.561 5.913 1.00 21.44 C \\nATOM 687 CG LEU A 90 17.754 35.226 6.440 1.00 19.50 C \\nATOM 688 CD1 LEU A 90 17.798 34.207 5.340 1.00 20.48 C \\nATOM 689 CD2 LEU A 90 19.138 35.441 7.022 1.00 15.96 C \\nATOM 690 N THR A 91 15.835 39.547 5.808 1.00 20.88 N \\nATOM 691 CA THR A 91 15.653 40.738 4.985 1.00 25.31 C \\nATOM 692 C THR A 91 16.137 41.999 5.772 1.00 25.69 C \\nATOM 693 O THR A 91 16.848 42.870 5.252 1.00 29.29 O \\nATOM 694 CB THR A 91 14.157 40.860 4.594 1.00 21.94 C \\nATOM 695 OG1 THR A 91 13.342 40.810 5.786 1.00 20.91 O \\nATOM 696 CG2 THR A 91 13.740 39.709 3.681 1.00 24.44 C \\nATOM 697 N GLN A 92 15.842 42.001 7.064 1.00 23.55 N \\nATOM 698 CA GLN A 92 16.170 43.099 7.967 1.00 23.15 C \\nATOM 699 C GLN A 92 17.650 43.315 8.126 1.00 25.63 C \\nATOM 700 O GLN A 92 18.071 44.440 8.459 1.00 29.05 O \\nATOM 701 CB GLN A 92 15.580 42.837 9.347 1.00 17.48 C \\nATOM 702 CG GLN A 92 14.081 42.603 9.325 1.00 12.58 C \\nATOM 703 CD GLN A 92 13.318 43.811 8.800 1.00 23.01 C \\nATOM 704 OE1 GLN A 92 12.836 43.807 7.683 1.00 24.98 O \\nATOM 705 NE2 GLN A 92 13.349 44.892 9.543 1.00 15.18 N \\nATOM 706 N ILE A 93 18.444 42.266 7.913 1.00 25.00 N \\nATOM 707 CA ILE A 93 19.887 42.417 8.035 1.00 25.37 C \\nATOM 708 C ILE A 93 20.530 42.555 6.677 1.00 24.18 C \\nATOM 709 O ILE A 93 21.744 42.639 6.577 1.00 26.26 O \\nATOM 710 CB ILE A 93 20.557 41.231 8.872 1.00 24.44 C \\nATOM 711 CG1 ILE A 93 20.472 39.878 8.113 1.00 24.46 C \\nATOM 712 CG2 ILE A 93 19.926 41.182 10.272 1.00 22.23 C \\nATOM 713 CD1 ILE A 93 21.520 38.796 8.533 1.00 24.68 C \\nATOM 714 N GLY A 94 19.713 42.563 5.636 1.00 24.04 N \\nATOM 715 CA GLY A 94 20.226 42.870 4.327 1.00 25.09 C \\nATOM 716 C GLY A 94 20.843 41.689 3.611 1.00 27.08 C \\nATOM 717 O GLY A 94 21.680 41.866 2.723 1.00 28.80 O \\nATOM 718 N CYS A 95 20.294 40.507 3.844 1.00 27.02 N \\nATOM 719 CA CYS A 95 20.890 39.296 3.297 1.00 26.34 C \\nATOM 720 C CYS A 95 20.407 39.005 1.897 1.00 26.35 C \\nATOM 721 O CYS A 95 19.217 39.101 1.606 1.00 28.34 O \\nATOM 722 CB CYS A 95 20.585 38.134 4.215 1.00 27.62 C \\nATOM 723 SG CYS A 95 21.505 36.663 3.848 1.00 32.32 S \\nATOM 724 N THR A 96 21.339 38.698 1.005 1.00 27.53 N \\nATOM 725 CA THR A 96 20.969 38.276 -0.346 1.00 27.51 C \\nATOM 726 C THR A 96 21.721 37.024 -0.758 1.00 27.27 C \\nATOM 727 O THR A 96 22.753 36.645 -0.178 1.00 27.30 O \\nATOM 728 CB THR A 96 21.298 39.331 -1.459 1.00 28.47 C \\nATOM 729 OG1 THR A 96 22.688 39.698 -1.364 1.00 28.16 O \\nATOM 730 CG2 THR A 96 20.405 40.560 -1.303 1.00 26.73 C \\nATOM 731 N LEU A 97 21.183 36.413 -1.805 1.00 28.68 N \\nATOM 732 CA LEU A 97 21.718 35.228 -2.473 1.00 26.62 C \\nATOM 733 C LEU A 97 22.314 35.753 -3.779 1.00 25.49 C \\nATOM 734 O LEU A 97 21.616 36.396 -4.577 1.00 23.96 O \\nATOM 735 CB LEU A 97 20.518 34.349 -2.810 1.00 24.94 C \\nATOM 736 CG LEU A 97 20.318 32.897 -2.464 1.00 28.32 C \\nATOM 737 CD1 LEU A 97 21.285 32.388 -1.422 1.00 27.79 C \\nATOM 738 CD2 LEU A 97 18.896 32.782 -2.010 1.00 26.48 C \\nATOM 739 N ASN A 98 23.577 35.469 -4.026 1.00 26.29 N \\nATOM 740 CA ASN A 98 24.207 35.904 -5.257 1.00 29.12 C \\nATOM 741 C ASN A 98 24.863 34.748 -5.999 1.00 29.85 C \\nATOM 742 O ASN A 98 25.635 33.982 -5.396 1.00 26.89 O \\nATOM 743 CB ASN A 98 25.229 36.991 -4.938 1.00 33.75 C \\nATOM 744 CG ASN A 98 24.609 38.190 -4.212 1.00 40.13 C \\nATOM 745 OD1 ASN A 98 24.263 38.112 -3.019 1.00 43.34 O \\nATOM 746 ND2 ASN A 98 24.354 39.252 -4.955 1.00 42.07 N \\nATOM 747 N PHE A 99 24.539 34.602 -7.287 1.00 31.14 N \\nATOM 748 CA PHE A 99 25.376 33.754 -8.172 1.00 35.14 C \\nATOM 749 C PHE A 99 25.726 34.383 -9.544 1.00 34.93 C \\nATOM 750 O PHE A 99 24.797 34.890 -10.226 1.00 36.66 O \\nATOM 751 CB PHE A 99 24.743 32.354 -8.375 1.00 32.92 C \\nATOM 752 CG PHE A 99 23.328 32.389 -8.856 1.00 31.47 C \\nATOM 753 CD1 PHE A 99 22.303 32.588 -7.961 1.00 29.83 C \\nATOM 754 CD2 PHE A 99 23.029 32.118 -10.181 1.00 28.13 C \\nATOM 755 CE1 PHE A 99 21.000 32.515 -8.357 1.00 27.98 C \\nATOM 756 CE2 PHE A 99 21.730 32.028 -10.613 1.00 25.49 C \\nATOM 757 CZ PHE A 99 20.700 32.221 -9.700 1.00 27.25 C \\nTER\\nATOM 759 N PRO B 1 22.659 36.727 -10.823 1.00 48.12 N \\nATOM 760 CA PRO B 1 21.708 37.741 -10.269 1.00 43.36 C \\nATOM 761 C PRO B 1 21.931 37.939 -8.779 1.00 39.59 C \\nATOM 762 O PRO B 1 22.755 37.283 -8.190 1.00 37.70 O \\nATOM 763 CB PRO B 1 20.263 37.289 -10.512 1.00 46.58 C \\nATOM 764 CG PRO B 1 20.385 35.811 -10.891 1.00 48.47 C \\nATOM 765 CD PRO B 1 21.753 35.755 -11.555 1.00 50.98 C \\nATOM 766 N GLN B 2 21.203 38.873 -8.191 1.00 36.85 N \\nATOM 767 CA GLN B 2 21.156 39.043 -6.744 1.00 37.15 C \\nATOM 768 C GLN B 2 19.698 38.882 -6.389 1.00 36.43 C \\nATOM 769 O GLN B 2 18.850 39.538 -6.975 1.00 39.41 O \\nATOM 770 CB GLN B 2 21.625 40.447 -6.329 1.00 38.60 C \\nATOM 771 CG GLN B 2 21.353 40.777 -4.865 1.00 39.92 C \\nATOM 772 CD GLN B 2 22.139 41.975 -4.358 1.00 44.52 C \\nATOM 773 OE1 GLN B 2 21.577 42.881 -3.752 1.00 48.57 O \\nATOM 774 NE2 GLN B 2 23.450 41.976 -4.586 1.00 45.25 N \\nATOM 775 N ILE B 3 19.405 38.008 -5.448 1.00 32.18 N \\nATOM 776 CA ILE B 3 18.037 37.742 -5.100 1.00 30.91 C \\nATOM 777 C ILE B 3 17.832 38.164 -3.660 1.00 28.84 C \\nATOM 778 O ILE B 3 18.457 37.631 -2.746 1.00 28.43 O \\nATOM 779 CB ILE B 3 17.694 36.224 -5.238 1.00 33.01 C \\nATOM 780 CG1 ILE B 3 17.788 35.772 -6.692 1.00 35.76 C \\nATOM 781 CG2 ILE B 3 16.284 35.967 -4.750 1.00 31.17 C \\nATOM 782 CD1 ILE B 3 18.183 34.327 -6.802 1.00 36.59 C \\nATOM 783 N THR B 4 16.960 39.132 -3.461 1.00 24.52 N \\nATOM 784 CA THR B 4 16.635 39.571 -2.117 1.00 26.46 C \\nATOM 785 C THR B 4 15.555 38.634 -1.627 1.00 23.26 C \\nATOM 786 O THR B 4 15.066 37.784 -2.372 1.00 23.16 O \\nATOM 787 CB THR B 4 16.147 41.074 -2.110 1.00 30.32 C \\nATOM 788 OG1 THR B 4 15.093 41.256 -3.079 1.00 32.67 O \\nATOM 789 CG2 THR B 4 17.283 42.019 -2.472 1.00 30.57 C \\nATOM 790 N LEU B 5 15.157 38.761 -0.379 1.00 21.95 N \\nATOM 791 CA LEU B 5 14.466 37.636 0.259 1.00 21.45 C \\nATOM 792 C LEU B 5 13.125 38.065 0.821 1.00 22.43 C \\nATOM 793 O LEU B 5 12.585 37.446 1.733 1.00 22.26 O \\nATOM 794 CB LEU B 5 15.340 37.047 1.374 1.00 18.69 C \\nATOM 795 CG LEU B 5 16.622 36.365 0.892 1.00 18.41 C \\nATOM 796 CD1 LEU B 5 17.455 35.953 2.080 1.00 16.32 C \\nATOM 797 CD2 LEU B 5 16.248 35.136 -0.006 1.00 16.07 C \\nATOM 798 N TRP B 6 12.567 39.127 0.262 1.00 21.66 N \\nATOM 799 CA TRP B 6 11.260 39.582 0.682 1.00 21.58 C \\nATOM 800 C TRP B 6 10.196 38.601 0.218 1.00 21.21 C \\nATOM 801 O TRP B 6 9.192 38.404 0.903 1.00 22.05 O \\nATOM 802 CB TRP B 6 11.004 40.992 0.135 1.00 19.59 C \\nATOM 803 CG TRP B 6 12.065 42.014 0.478 1.00 18.40 C \\nATOM 804 CD1 TRP B 6 13.157 42.366 -0.279 1.00 17.80 C \\nATOM 805 CD2 TRP B 6 12.209 42.716 1.739 1.00 14.37 C \\nATOM 806 NE1 TRP B 6 13.979 43.196 0.470 1.00 17.13 N \\nATOM 807 CE2 TRP B 6 13.433 43.441 1.686 1.00 17.08 C \\nATOM 808 CE3 TRP B 6 11.443 42.805 2.913 1.00 17.33 C \\nATOM 809 CZ2 TRP B 6 13.914 44.211 2.785 1.00 16.59 C \\nATOM 810 CZ3 TRP B 6 11.903 43.585 3.953 1.00 15.43 C \\nATOM 811 CH2 TRP B 6 13.148 44.273 3.896 1.00 18.86 C \\nATOM 812 N GLN B 7 10.396 38.008 -0.958 1.00 23.30 N \\nATOM 813 CA GLN B 7 9.518 36.960 -1.516 1.00 24.55 C \\nATOM 814 C GLN B 7 10.321 35.670 -1.433 1.00 23.64 C \\nATOM 815 O GLN B 7 11.546 35.694 -1.298 1.00 23.66 O \\nATOM 816 CB GLN B 7 9.215 37.238 -3.000 1.00 32.55 C \\nATOM 817 CG GLN B 7 8.278 38.433 -3.326 1.00 41.57 C \\nATOM 818 CD GLN B 7 7.629 38.332 -4.744 1.00 50.90 C \\nATOM 819 OE1 GLN B 7 8.319 38.100 -5.754 1.00 55.87 O \\nATOM 820 NE2 GLN B 7 6.307 38.532 -4.814 1.00 51.09 N \\nATOM 821 N ARG B 8 9.661 34.528 -1.525 1.00 21.29 N \\nATOM 822 CA ARG B 8 10.385 33.251 -1.642 1.00 20.70 C \\nATOM 823 C ARG B 8 11.348 33.305 -2.780 1.00 19.16 C \\nATOM 824 O ARG B 8 10.964 33.682 -3.906 1.00 22.46 O \\nATOM 825 CB ARG B 8 9.435 32.061 -1.862 1.00 21.59 C \\nATOM 826 CG ARG B 8 8.623 31.716 -0.644 1.00 27.03 C \\nATOM 827 CD ARG B 8 7.828 30.471 -0.844 1.00 28.48 C \\nATOM 828 NE ARG B 8 7.143 30.102 0.378 1.00 38.82 N \\nATOM 829 CZ ARG B 8 6.523 28.938 0.561 1.00 45.44 C \\nATOM 830 NH1 ARG B 8 6.476 28.028 -0.411 1.00 47.55 N \\nATOM 831 NH2 ARG B 8 5.925 28.688 1.719 1.00 49.71 N \\nATOM 832 N PRO B 9 12.533 32.711 -2.598 1.00 18.31 N \\nATOM 833 CA PRO B 9 13.443 32.743 -3.746 1.00 16.67 C \\nATOM 834 C PRO B 9 13.174 31.592 -4.703 1.00 18.20 C \\nATOM 835 O PRO B 9 13.897 30.587 -4.698 1.00 17.79 O \\nATOM 836 CB PRO B 9 14.813 32.658 -3.125 1.00 15.13 C \\nATOM 837 CG PRO B 9 14.564 31.823 -1.917 1.00 13.81 C \\nATOM 838 CD PRO B 9 13.238 32.289 -1.373 1.00 15.31 C \\nATOM 839 N LEU B 10 12.134 31.727 -5.504 1.00 18.74 N \\nATOM 840 CA LEU B 10 11.816 30.740 -6.534 1.00 24.75 C \\nATOM 841 C LEU B 10 12.459 31.075 -7.877 1.00 28.33 C \\nATOM 842 O LEU B 10 12.274 32.150 -8.406 1.00 34.15 O \\nATOM 843 CB LEU B 10 10.303 30.637 -6.738 1.00 22.30 C \\nATOM 844 CG LEU B 10 9.483 30.307 -5.497 1.00 26.19 C \\nATOM 845 CD1 LEU B 10 8.028 30.334 -5.876 1.00 26.68 C \\nATOM 846 CD2 LEU B 10 9.845 28.975 -4.951 1.00 25.72 C \\nATOM 847 N VAL B 11 13.225 30.141 -8.420 1.00 29.04 N \\nATOM 848 CA VAL B 11 13.759 30.227 -9.768 1.00 25.94 C \\nATOM 849 C VAL B 11 13.103 29.153 -10.641 1.00 28.64 C \\nATOM 850 O VAL B 11 12.381 28.285 -10.135 1.00 26.28 O \\nATOM 851 CB VAL B 11 15.253 29.988 -9.735 1.00 26.71 C \\nATOM 852 CG1 VAL B 11 15.898 31.108 -8.939 1.00 26.27 C \\nATOM 853 CG2 VAL B 11 15.573 28.635 -9.104 1.00 23.17 C \\nATOM 854 N THR B 12 13.346 29.214 -11.949 1.00 29.16 N \\nATOM 855 CA THR B 12 12.809 28.220 -12.873 1.00 29.59 C \\nATOM 856 C THR B 12 13.951 27.253 -13.210 1.00 27.37 C \\nATOM 857 O THR B 12 15.089 27.656 -13.442 1.00 28.24 O \\nATOM 858 CB THR B 12 12.259 28.907 -14.158 1.00 33.38 C \\nATOM 859 OG1 THR B 12 11.693 27.933 -15.028 1.00 41.16 O \\nATOM 860 CG2 THR B 12 13.341 29.639 -14.925 1.00 37.24 C \\nATOM 861 N ILE B 13 13.684 25.961 -13.124 1.00 27.04 N \\nATOM 862 CA ILE B 13 14.708 24.966 -13.446 1.00 26.55 C \\nATOM 863 C ILE B 13 14.230 24.165 -14.639 1.00 28.05 C \\nATOM 864 O ILE B 13 13.014 24.057 -14.918 1.00 25.03 O \\nATOM 865 CB ILE B 13 14.993 23.953 -12.269 1.00 25.84 C \\nATOM 866 CG1 ILE B 13 13.699 23.190 -11.870 1.00 28.87 C \\nATOM 867 CG2 ILE B 13 15.564 24.705 -11.094 1.00 20.54 C \\nATOM 868 CD1 ILE B 13 13.900 22.077 -10.834 1.00 29.32 C \\nATOM 869 N LYS B 14 15.186 23.630 -15.378 1.00 27.45 N \\nATOM 870 CA LYS B 14 14.828 22.733 -16.464 1.00 26.92 C \\nATOM 871 C LYS B 14 15.482 21.387 -16.141 1.00 26.01 C \\nATOM 872 O LYS B 14 16.690 21.305 -15.886 1.00 24.75 O \\nATOM 873 CB LYS B 14 15.340 23.256 -17.814 1.00 25.93 C \\nATOM 874 CG LYS B 14 14.868 22.447 -18.992 1.00 27.04 C \\nATOM 875 CD LYS B 14 14.687 23.295 -20.194 1.00 32.12 C \\nATOM 876 CE LYS B 14 15.979 23.453 -20.922 1.00 34.02 C \\nATOM 877 NZ LYS B 14 15.739 23.451 -22.389 1.00 41.05 N \\nATOM 878 N ILE B 15 14.660 20.354 -16.136 1.00 26.74 N \\nATOM 879 CA ILE B 15 15.108 18.999 -15.906 1.00 30.24 C \\nATOM 880 C ILE B 15 14.188 18.067 -16.702 1.00 33.16 C \\nATOM 881 O ILE B 15 12.968 18.199 -16.719 1.00 31.38 O \\nATOM 882 CB ILE B 15 15.090 18.663 -14.360 1.00 31.34 C \\nATOM 883 CG1 ILE B 15 15.694 17.283 -14.101 1.00 32.33 C \\nATOM 884 CG2 ILE B 15 13.682 18.760 -13.780 1.00 28.02 C \\nATOM 885 CD1 ILE B 15 16.011 17.036 -12.625 1.00 33.84 C \\nATOM 886 N GLY B 16 14.799 17.159 -17.438 1.00 36.75 N \\nATOM 887 CA GLY B 16 14.024 16.279 -18.286 1.00 39.96 C \\nATOM 888 C GLY B 16 13.311 17.029 -19.391 1.00 40.86 C \\nATOM 889 O GLY B 16 12.318 16.549 -19.924 1.00 42.44 O \\nATOM 890 N GLY B 17 13.887 18.145 -19.823 1.00 40.79 N \\nATOM 891 CA GLY B 17 13.243 18.938 -20.850 1.00 37.08 C \\nATOM 892 C GLY B 17 12.009 19.638 -20.345 1.00 35.82 C \\nATOM 893 O GLY B 17 11.392 20.369 -21.084 1.00 37.78 O \\nATOM 894 N GLN B 18 11.676 19.486 -19.073 1.00 32.85 N \\nATOM 895 CA GLN B 18 10.572 20.249 -18.515 1.00 35.03 C \\nATOM 896 C GLN B 18 11.056 21.466 -17.699 1.00 34.53 C \\nATOM 897 O GLN B 18 12.196 21.494 -17.175 1.00 33.51 O \\nATOM 898 CB GLN B 18 9.708 19.388 -17.619 1.00 40.01 C \\nATOM 899 CG GLN B 18 8.936 18.297 -18.309 1.00 47.43 C \\nATOM 900 CD GLN B 18 9.088 16.973 -17.566 1.00 53.35 C \\nATOM 901 OE1 GLN B 18 9.813 16.078 -18.014 1.00 55.74 O \\nATOM 902 NE2 GLN B 18 8.488 16.884 -16.371 1.00 54.03 N \\nATOM 903 N LEU B 19 10.186 22.475 -17.590 1.00 32.63 N \\nATOM 904 CA LEU B 19 10.450 23.647 -16.749 1.00 29.37 C \\nATOM 905 C LEU B 19 9.631 23.511 -15.483 1.00 28.10 C \\nATOM 906 O LEU B 19 8.432 23.277 -15.551 1.00 29.04 O \\nATOM 907 CB LEU B 19 10.010 24.932 -17.474 1.00 28.40 C \\nATOM 908 CG LEU B 19 10.775 25.419 -18.723 1.00 26.42 C \\nATOM 909 CD1 LEU B 19 10.226 26.727 -19.190 1.00 22.91 C \\nATOM 910 CD2 LEU B 19 12.241 25.543 -18.395 1.00 23.99 C \\nATOM 911 N LYS B 20 10.273 23.619 -14.329 1.00 28.58 N \\nATOM 912 CA LYS B 20 9.576 23.583 -13.044 1.00 25.77 C \\nATOM 913 C LYS B 20 10.018 24.784 -12.260 1.00 26.35 C \\nATOM 914 O LYS B 20 10.998 25.429 -12.605 1.00 25.15 O \\nATOM 915 CB LYS B 20 9.970 22.364 -12.236 1.00 29.54 C \\nATOM 916 CG LYS B 20 10.281 21.123 -13.051 1.00 36.66 C \\nATOM 917 CD LYS B 20 9.037 20.289 -13.305 1.00 41.68 C \\nATOM 918 CE LYS B 20 9.400 18.836 -13.595 1.00 45.08 C \\nATOM 919 NZ LYS B 20 9.672 18.102 -12.328 1.00 46.33 N \\nATOM 920 N GLU B 21 9.324 25.048 -11.162 1.00 24.88 N \\nATOM 921 CA GLU B 21 9.705 26.075 -10.199 1.00 25.39 C \\nATOM 922 C GLU B 21 10.311 25.408 -8.990 1.00 23.31 C \\nATOM 923 O GLU B 21 9.847 24.351 -8.547 1.00 25.34 O \\nATOM 924 CB GLU B 21 8.468 26.848 -9.767 1.00 32.42 C \\nATOM 925 CG GLU B 21 8.676 28.343 -9.687 1.00 47.17 C \\nATOM 926 CD GLU B 21 7.419 29.111 -10.041 1.00 57.11 C \\nATOM 927 OE1 GLU B 21 6.374 28.877 -9.383 1.00 62.83 O \\nATOM 928 OE2 GLU B 21 7.461 29.911 -11.004 1.00 64.02 O \\nATOM 929 N ALA B 22 11.348 26.008 -8.443 1.00 16.20 N \\nATOM 930 CA ALA B 22 12.025 25.431 -7.271 1.00 14.52 C \\nATOM 931 C ALA B 22 12.472 26.569 -6.331 1.00 15.55 C \\nATOM 932 O ALA B 22 12.709 27.701 -6.765 1.00 17.95 O \\nATOM 933 CB ALA B 22 13.248 24.643 -7.708 1.00 11.99 C \\nATOM 934 N LEU B 23 12.560 26.257 -5.054 1.00 14.37 N \\nATOM 935 CA LEU B 23 13.017 27.151 -4.001 1.00 15.39 C \\nATOM 936 C LEU B 23 14.518 27.005 -3.822 1.00 15.08 C \\nATOM 937 O LEU B 23 15.008 25.915 -3.588 1.00 14.05 O \\nATOM 938 CB LEU B 23 12.330 26.721 -2.741 1.00 16.68 C \\nATOM 939 CG LEU B 23 12.592 27.472 -1.469 1.00 20.94 C \\nATOM 940 CD1 LEU B 23 12.006 28.877 -1.562 1.00 18.77 C \\nATOM 941 CD2 LEU B 23 11.917 26.658 -0.379 1.00 21.23 C \\nATOM 942 N LEU B 24 15.266 28.090 -3.963 1.00 13.16 N \\nATOM 943 CA LEU B 24 16.672 28.114 -3.511 1.00 17.92 C \\nATOM 944 C LEU B 24 16.809 28.098 -1.992 1.00 18.17 C \\nATOM 945 O LEU B 24 16.417 29.019 -1.338 1.00 19.32 O \\nATOM 946 CB LEU B 24 17.416 29.342 -4.065 1.00 17.42 C \\nATOM 947 CG LEU B 24 17.444 29.528 -5.585 1.00 19.17 C \\nATOM 948 CD1 LEU B 24 18.151 30.843 -5.884 1.00 20.12 C \\nATOM 949 CD2 LEU B 24 18.170 28.385 -6.270 1.00 19.21 C \\nATOM 950 N ASP B 25 17.407 27.054 -1.437 1.00 19.08 N \\nATOM 951 CA ASP B 25 17.227 26.751 -0.026 1.00 18.20 C \\nATOM 952 C ASP B 25 18.555 26.446 0.653 1.00 19.09 C \\nATOM 953 O ASP B 25 19.003 25.309 0.692 1.00 18.68 O \\nATOM 954 CB ASP B 25 16.258 25.572 0.084 1.00 18.15 C \\nATOM 955 CG ASP B 25 15.759 25.336 1.493 1.00 20.90 C \\nATOM 956 OD1 ASP B 25 16.399 25.780 2.453 1.00 23.13 O \\nATOM 957 OD2 ASP B 25 14.731 24.675 1.645 1.00 22.18 O \\nATOM 958 N THR B 26 19.163 27.455 1.257 1.00 14.92 N \\nATOM 959 CA THR B 26 20.441 27.290 1.920 1.00 13.68 C \\nATOM 960 C THR B 26 20.319 26.393 3.168 1.00 15.84 C \\nATOM 961 O THR B 26 21.316 25.867 3.637 1.00 18.69 O \\nATOM 962 CB THR B 26 21.063 28.678 2.282 1.00 15.43 C \\nATOM 963 OG1 THR B 26 20.188 29.407 3.146 1.00 15.52 O \\nATOM 964 CG2 THR B 26 21.279 29.499 1.024 1.00 15.01 C \\nATOM 965 N GLY B 27 19.106 26.199 3.688 1.00 13.19 N \\nATOM 966 CA GLY B 27 18.957 25.372 4.876 1.00 13.54 C \\nATOM 967 C GLY B 27 18.845 23.903 4.520 1.00 17.44 C \\nATOM 968 O GLY B 27 18.660 23.054 5.417 1.00 18.85 O \\nATOM 969 N ALA B 28 18.819 23.600 3.217 1.00 17.91 N \\nATOM 970 CA ALA B 28 18.721 22.211 2.738 1.00 18.89 C \\nATOM 971 C ALA B 28 20.089 21.661 2.292 1.00 20.66 C \\nATOM 972 O ALA B 28 20.749 22.243 1.403 1.00 22.38 O \\nATOM 973 CB ALA B 28 17.682 22.117 1.578 1.00 13.77 C \\nATOM 974 N ASP B 29 20.536 20.559 2.918 1.00 20.64 N \\nATOM 975 CA ASP B 29 21.779 19.912 2.496 1.00 14.85 C \\nATOM 976 C ASP B 29 21.693 19.374 1.107 1.00 14.01 C \\nATOM 977 O ASP B 29 22.642 19.502 0.361 1.00 17.76 O \\nATOM 978 CB ASP B 29 22.169 18.827 3.447 1.00 15.99 C \\nATOM 979 CG ASP B 29 22.272 19.337 4.844 1.00 22.55 C \\nATOM 980 OD1 ASP B 29 22.714 20.482 5.029 1.00 27.81 O \\nATOM 981 OD2 ASP B 29 21.836 18.647 5.778 1.00 29.43 O \\nATOM 982 N ASP B 30 20.524 18.868 0.719 1.00 16.70 N \\nATOM 983 CA ASP B 30 20.355 18.227 -0.584 1.00 15.10 C \\nATOM 984 C ASP B 30 19.212 18.807 -1.371 1.00 16.38 C \\nATOM 985 O ASP B 30 18.383 19.523 -0.846 1.00 17.11 O \\nATOM 986 CB ASP B 30 20.084 16.745 -0.413 1.00 21.76 C \\nATOM 987 CG ASP B 30 21.023 16.088 0.586 1.00 25.41 C \\nATOM 988 OD1 ASP B 30 22.233 15.970 0.265 1.00 25.58 O \\nATOM 989 OD2 ASP B 30 20.531 15.682 1.672 1.00 27.89 O \\nATOM 990 N THR B 31 19.152 18.428 -2.643 1.00 18.44 N \\nATOM 991 CA THR B 31 18.113 18.843 -3.603 1.00 15.45 C \\nATOM 992 C THR B 31 17.019 17.743 -3.682 1.00 19.23 C \\nATOM 993 O THR B 31 17.342 16.586 -3.904 1.00 18.95 O \\nATOM 994 CB THR B 31 18.810 19.051 -4.967 1.00 12.28 C \\nATOM 995 OG1 THR B 31 19.740 20.123 -4.831 1.00 13.54 O \\nATOM 996 CG2 THR B 31 17.844 19.330 -6.078 1.00 10.95 C \\nATOM 997 N VAL B 32 15.750 18.102 -3.440 1.00 19.53 N \\nATOM 998 CA VAL B 32 14.628 17.162 -3.514 1.00 18.71 C \\nATOM 999 C VAL B 32 13.618 17.726 -4.436 1.00 19.01 C \\nATOM 1000 O VAL B 32 13.169 18.861 -4.263 1.00 19.90 O \\nATOM 1001 CB VAL B 32 13.781 17.005 -2.245 1.00 20.49 C \\nATOM 1002 CG1 VAL B 32 13.297 15.592 -2.184 1.00 26.38 C \\nATOM 1003 CG2 VAL B 32 14.518 17.455 -1.007 1.00 20.87 C \\nATOM 1004 N LEU B 33 13.199 16.926 -5.401 1.00 22.78 N \\nATOM 1005 CA LEU B 33 12.141 17.335 -6.327 1.00 23.84 C \\nATOM 1006 C LEU B 33 10.876 16.500 -6.065 1.00 27.19 C \\nATOM 1007 O LEU B 33 10.948 15.389 -5.534 1.00 26.71 O \\nATOM 1008 CB LEU B 33 12.618 17.139 -7.766 1.00 21.02 C \\nATOM 1009 CG LEU B 33 13.889 17.846 -8.247 1.00 20.79 C \\nATOM 1010 CD1 LEU B 33 13.942 17.794 -9.731 1.00 21.64 C \\nATOM 1011 CD2 LEU B 33 13.897 19.266 -7.782 1.00 23.27 C \\nATOM 1012 N GLU B 34 9.719 17.083 -6.361 1.00 26.46 N \\nATOM 1013 CA GLU B 34 8.442 16.392 -6.346 1.00 26.40 C \\nATOM 1014 C GLU B 34 8.514 15.172 -7.224 1.00 26.66 C \\nATOM 1015 O GLU B 34 9.413 15.013 -8.040 1.00 26.75 O \\nATOM 1016 CB GLU B 34 7.316 17.305 -6.819 1.00 24.89 C \\nATOM 1017 CG GLU B 34 6.914 18.362 -5.808 1.00 31.34 C \\nATOM 1018 CD GLU B 34 6.205 19.552 -6.439 1.00 32.62 C \\nATOM 1019 OE1 GLU B 34 6.323 19.742 -7.666 1.00 39.77 O \\nATOM 1020 OE2 GLU B 34 5.613 20.369 -5.715 1.00 39.65 O \\nATOM 1021 N GLU B 35 7.526 14.309 -7.044 1.00 30.87 N \\nATOM 1022 CA GLU B 35 7.425 13.006 -7.682 1.00 32.05 C \\nATOM 1023 C GLU B 35 7.528 13.141 -9.172 1.00 32.29 C \\nATOM 1024 O GLU B 35 6.660 13.711 -9.819 1.00 37.80 O \\nATOM 1025 CB GLU B 35 6.100 12.361 -7.297 1.00 35.17 C \\nATOM 1026 CG GLU B 35 5.907 10.953 -7.838 1.00 44.03 C \\nATOM 1027 CD GLU B 35 7.182 10.093 -7.854 1.00 44.48 C \\nATOM 1028 OE1 GLU B 35 7.743 9.853 -6.766 1.00 38.16 O \\nATOM 1029 OE2 GLU B 35 7.521 9.561 -8.946 1.00 46.13 O \\nATOM 1030 N MET B 36 8.627 12.651 -9.705 1.00 31.85 N \\nATOM 1031 CA MET B 36 8.791 12.578 -11.145 1.00 33.53 C \\nATOM 1032 C MET B 36 9.583 11.322 -11.483 1.00 33.93 C \\nATOM 1033 O MET B 36 10.100 10.637 -10.616 1.00 36.78 O \\nATOM 1034 CB MET B 36 9.546 13.808 -11.654 1.00 35.97 C \\nATOM 1035 CG MET B 36 10.867 14.095 -11.014 1.00 35.75 C \\nATOM 1036 SD MET B 36 11.575 15.547 -11.778 1.00 43.16 S \\nATOM 1037 CE MET B 36 11.710 15.108 -13.551 1.00 42.89 C \\nATOM 1038 N SER B 37 9.657 11.016 -12.763 1.00 33.54 N \\nATOM 1039 CA SER B 37 10.411 9.858 -13.218 1.00 35.84 C \\nATOM 1040 C SER B 37 11.673 10.374 -13.825 1.00 34.42 C \\nATOM 1041 O SER B 37 11.636 11.272 -14.685 1.00 33.84 O \\nATOM 1042 CB SER B 37 9.573 9.049 -14.221 1.00 38.59 C \\nATOM 1043 OG SER B 37 8.330 8.594 -13.579 1.00 41.47 O \\nATOM 1044 N LEU B 38 12.793 9.884 -13.330 1.00 35.38 N \\nATOM 1045 CA LEU B 38 14.091 10.261 -13.857 1.00 34.72 C \\nATOM 1046 C LEU B 38 14.818 9.018 -14.330 1.00 36.10 C \\nATOM 1047 O LEU B 38 14.416 7.898 -13.995 1.00 35.71 O \\nATOM 1048 CB LEU B 38 14.866 10.942 -12.759 1.00 30.77 C \\nATOM 1049 CG LEU B 38 14.480 12.376 -12.556 1.00 26.92 C \\nATOM 1050 CD1 LEU B 38 15.159 12.900 -11.300 1.00 29.33 C \\nATOM 1051 CD2 LEU B 38 14.955 13.131 -13.766 1.00 27.40 C \\nATOM 1052 N PRO B 39 15.767 9.161 -15.261 1.00 39.43 N \\nATOM 1053 CA PRO B 39 16.525 8.031 -15.798 1.00 40.91 C \\nATOM 1054 C PRO B 39 17.366 7.241 -14.777 1.00 41.38 C \\nATOM 1055 O PRO B 39 17.943 7.817 -13.847 1.00 42.07 O \\nATOM 1056 CB PRO B 39 17.407 8.673 -16.857 1.00 41.75 C \\nATOM 1057 CG PRO B 39 17.532 10.100 -16.423 1.00 41.42 C \\nATOM 1058 CD PRO B 39 16.150 10.405 -15.968 1.00 42.37 C \\nATOM 1059 N GLY B 40 17.477 5.932 -14.999 1.00 35.62 N \\nATOM 1060 CA GLY B 40 18.494 5.171 -14.302 1.00 33.54 C \\nATOM 1061 C GLY B 40 18.048 4.556 -12.995 1.00 29.12 C \\nATOM 1062 O GLY B 40 16.865 4.438 -12.729 1.00 28.38 O \\nATOM 1063 N ARG B 41 19.000 3.939 -12.313 1.00 27.66 N \\nATOM 1064 CA ARG B 41 18.722 3.282 -11.042 1.00 28.95 C \\nATOM 1065 C ARG B 41 18.615 4.306 -9.916 1.00 30.49 C \\nATOM 1066 O ARG B 41 19.168 5.390 -10.018 1.00 31.54 O \\nATOM 1067 CB ARG B 41 19.852 2.333 -10.662 1.00 28.94 C \\nATOM 1068 CG ARG B 41 20.359 1.417 -11.726 1.00 34.11 C \\nATOM 1069 CD ARG B 41 20.905 0.188 -11.023 1.00 34.17 C \\nATOM 1070 NE ARG B 41 19.927 -0.864 -11.169 1.00 38.61 N \\nATOM 1071 CZ ARG B 41 19.354 -1.538 -10.177 1.00 35.13 C \\nATOM 1072 NH1 ARG B 41 19.839 -1.513 -8.939 1.00 27.84 N \\nATOM 1073 NH2 ARG B 41 18.333 -2.314 -10.472 1.00 27.82 N \\nATOM 1074 N TRP B 42 17.989 3.918 -8.810 1.00 27.94 N \\nATOM 1075 CA TRP B 42 17.920 4.766 -7.634 1.00 28.18 C \\nATOM 1076 C TRP B 42 18.295 3.969 -6.380 1.00 30.79 C \\nATOM 1077 O TRP B 42 18.163 2.742 -6.361 1.00 28.97 O \\nATOM 1078 CB TRP B 42 16.525 5.338 -7.459 1.00 24.28 C \\nATOM 1079 CG TRP B 42 15.444 4.372 -7.312 1.00 18.74 C \\nATOM 1080 CD1 TRP B 42 14.681 3.834 -8.299 1.00 16.49 C \\nATOM 1081 CD2 TRP B 42 14.840 3.957 -6.079 1.00 18.74 C \\nATOM 1082 NE1 TRP B 42 13.640 3.121 -7.756 1.00 16.06 N \\nATOM 1083 CE2 TRP B 42 13.719 3.166 -6.402 1.00 14.09 C \\nATOM 1084 CE3 TRP B 42 15.154 4.180 -4.715 1.00 20.09 C \\nATOM 1085 CZ2 TRP B 42 12.881 2.589 -5.411 1.00 18.75 C \\nATOM 1086 CZ3 TRP B 42 14.300 3.625 -3.745 1.00 22.86 C \\nATOM 1087 CH2 TRP B 42 13.168 2.842 -4.106 1.00 20.90 C \\nATOM 1088 N LYS B 43 18.801 4.689 -5.365 1.00 31.89 N \\nATOM 1089 CA LYS B 43 19.180 4.182 -4.032 1.00 30.18 C \\nATOM 1090 C LYS B 43 18.127 4.736 -3.089 1.00 27.53 C \\nATOM 1091 O LYS B 43 17.442 5.729 -3.400 1.00 25.86 O \\nATOM 1092 CB LYS B 43 20.561 4.731 -3.581 1.00 33.16 C \\nATOM 1093 CG LYS B 43 21.777 4.400 -4.445 1.00 40.56 C \\nATOM 1094 CD LYS B 43 22.996 5.295 -4.048 1.00 49.90 C \\nATOM 1095 CE LYS B 43 24.193 5.280 -5.063 1.00 52.53 C \\nATOM 1096 NZ LYS B 43 25.251 6.324 -4.725 1.00 52.90 N \\nATOM 1097 N PRO B 44 18.053 4.208 -1.878 1.00 25.82 N \\nATOM 1098 CA PRO B 44 17.102 4.804 -0.946 1.00 25.30 C \\nATOM 1099 C PRO B 44 17.754 5.853 -0.023 1.00 27.71 C \\nATOM 1100 O PRO B 44 18.929 5.769 0.330 1.00 25.94 O \\nATOM 1101 CB PRO B 44 16.596 3.610 -0.171 1.00 25.59 C \\nATOM 1102 CG PRO B 44 17.803 2.676 -0.117 1.00 26.07 C \\nATOM 1103 CD PRO B 44 18.649 2.962 -1.335 1.00 27.58 C \\nATOM 1104 N LYS B 45 16.974 6.847 0.381 1.00 29.96 N \\nATOM 1105 CA LYS B 45 17.443 7.812 1.371 1.00 28.39 C \\nATOM 1106 C LYS B 45 16.334 8.328 2.257 1.00 27.43 C \\nATOM 1107 O LYS B 45 15.192 8.470 1.828 1.00 26.93 O \\nATOM 1108 CB LYS B 45 18.177 8.988 0.701 1.00 27.50 C \\nATOM 1109 CG LYS B 45 19.183 9.659 1.670 1.00 27.69 C \\nATOM 1110 CD LYS B 45 20.095 10.640 1.011 1.00 25.34 C \\nATOM 1111 CE LYS B 45 20.751 11.491 2.069 1.00 32.56 C \\nATOM 1112 NZ LYS B 45 21.413 12.705 1.509 1.00 32.92 N \\nATOM 1113 N MET B 46 16.672 8.585 3.514 1.00 29.02 N \\nATOM 1114 CA MET B 46 15.755 9.281 4.404 1.00 31.16 C \\nATOM 1115 C MET B 46 16.373 10.584 4.732 1.00 29.75 C \\nATOM 1116 O MET B 46 17.542 10.636 5.104 1.00 29.99 O \\nATOM 1117 CB MET B 46 15.562 8.530 5.708 1.00 38.22 C \\nATOM 1118 CG MET B 46 14.763 7.266 5.540 1.00 45.23 C \\nATOM 1119 SD MET B 46 13.357 7.367 6.566 1.00 52.02 S \\nATOM 1120 CE MET B 46 14.146 6.922 8.167 1.00 49.41 C \\nATOM 1121 N ILE B 47 15.582 11.636 4.604 1.00 30.87 N \\nATOM 1122 CA ILE B 47 16.003 12.986 4.955 1.00 29.85 C \\nATOM 1123 C ILE B 47 15.018 13.507 5.961 1.00 27.34 C \\nATOM 1124 O ILE B 47 13.822 13.222 5.884 1.00 26.79 O \\nATOM 1125 CB ILE B 47 16.040 13.915 3.699 1.00 29.30 C \\nATOM 1126 CG1 ILE B 47 14.745 13.761 2.918 1.00 25.99 C \\nATOM 1127 CG2 ILE B 47 17.229 13.534 2.782 1.00 28.73 C \\nATOM 1128 CD1 ILE B 47 14.742 14.561 1.698 1.00 27.41 C \\nATOM 1129 N GLY B 48 15.542 14.239 6.941 1.00 31.53 N \\nATOM 1130 CA GLY B 48 14.714 14.799 8.014 1.00 31.93 C \\nATOM 1131 C GLY B 48 14.762 16.314 8.114 1.00 33.10 C \\nATOM 1132 O GLY B 48 15.803 16.952 7.888 1.00 30.88 O \\nATOM 1133 N GLY B 49 13.583 16.896 8.239 1.00 32.08 N \\nATOM 1134 CA GLY B 49 13.484 18.319 8.459 1.00 34.90 C \\nATOM 1135 C GLY B 49 12.647 18.565 9.672 1.00 35.58 C \\nATOM 1136 O GLY B 49 12.880 17.976 10.721 1.00 36.70 O \\nATOM 1137 N ILE B 50 11.850 19.611 9.584 1.00 35.37 N \\nATOM 1138 CA ILE B 50 10.858 19.974 10.594 1.00 35.93 C \\nATOM 1139 C ILE B 50 9.707 18.988 10.393 1.00 35.51 C \\nATOM 1140 O ILE B 50 9.341 18.670 9.251 1.00 34.79 O \\nATOM 1141 CB ILE B 50 10.365 21.453 10.316 1.00 36.57 C \\nATOM 1142 CG1 ILE B 50 11.556 22.421 10.394 1.00 38.14 C \\nATOM 1143 CG2 ILE B 50 9.299 21.862 11.270 1.00 34.90 C \\nATOM 1144 CD1 ILE B 50 11.936 22.850 11.773 1.00 36.99 C \\nATOM 1145 N GLY B 51 9.164 18.455 11.474 1.00 32.76 N \\nATOM 1146 CA GLY B 51 8.011 17.583 11.313 1.00 34.23 C \\nATOM 1147 C GLY B 51 8.360 16.130 11.054 1.00 37.16 C \\nATOM 1148 O GLY B 51 7.494 15.283 11.167 1.00 40.75 O \\nATOM 1149 N GLY B 52 9.638 15.842 10.818 1.00 36.36 N \\nATOM 1150 CA GLY B 52 10.123 14.474 10.792 1.00 35.14 C \\nATOM 1151 C GLY B 52 10.860 14.080 9.524 1.00 35.06 C \\nATOM 1152 O GLY B 52 11.419 14.930 8.826 1.00 33.99 O \\nATOM 1153 N PHE B 53 10.878 12.788 9.221 1.00 33.56 N \\nATOM 1154 CA PHE B 53 11.638 12.302 8.079 1.00 33.93 C \\nATOM 1155 C PHE B 53 10.739 11.914 6.924 1.00 33.07 C \\nATOM 1156 O PHE B 53 9.601 11.543 7.137 1.00 35.98 O \\nATOM 1157 CB PHE B 53 12.458 11.126 8.531 1.00 35.25 C \\nATOM 1158 CG PHE B 53 13.464 11.471 9.564 1.00 39.11 C \\nATOM 1159 CD1 PHE B 53 13.092 11.697 10.886 1.00 40.72 C \\nATOM 1160 CD2 PHE B 53 14.789 11.625 9.189 1.00 40.77 C \\nATOM 1161 CE1 PHE B 53 14.036 12.076 11.825 1.00 42.79 C \\nATOM 1162 CE2 PHE B 53 15.753 12.001 10.078 1.00 41.95 C \\nATOM 1163 CZ PHE B 53 15.392 12.225 11.421 1.00 44.36 C \\nATOM 1164 N ILE B 54 11.204 12.078 5.695 1.00 30.50 N \\nATOM 1165 CA ILE B 54 10.538 11.431 4.563 1.00 28.82 C \\nATOM 1166 C ILE B 54 11.513 10.453 3.866 1.00 28.68 C \\nATOM 1167 O ILE B 54 12.727 10.529 4.052 1.00 30.25 O \\nATOM 1168 CB ILE B 54 9.923 12.446 3.500 1.00 25.49 C \\nATOM 1169 CG1 ILE B 54 10.968 13.414 2.964 1.00 24.37 C \\nATOM 1170 CG2 ILE B 54 8.754 13.195 4.090 1.00 27.89 C \\nATOM 1171 CD1 ILE B 54 10.571 14.020 1.616 1.00 16.71 C \\nATOM 1172 N LYS B 55 10.983 9.503 3.111 1.00 29.03 N \\nATOM 1173 CA LYS B 55 11.816 8.478 2.482 1.00 31.48 C \\nATOM 1174 C LYS B 55 11.862 8.988 1.074 1.00 28.45 C \\nATOM 1175 O LYS B 55 10.827 9.256 0.525 1.00 28.39 O \\nATOM 1176 CB LYS B 55 11.062 7.136 2.489 1.00 38.52 C \\nATOM 1177 CG LYS B 55 11.699 5.963 3.273 1.00 45.52 C \\nATOM 1178 CD LYS B 55 13.070 5.502 2.689 1.00 51.68 C \\nATOM 1179 CE LYS B 55 12.949 4.923 1.253 1.00 55.32 C \\nATOM 1180 NZ LYS B 55 13.964 5.445 0.291 1.00 51.46 N \\nATOM 1181 N VAL B 56 13.024 9.137 0.474 1.00 25.88 N \\nATOM 1182 CA VAL B 56 13.072 9.652 -0.897 1.00 26.87 C \\nATOM 1183 C VAL B 56 13.885 8.719 -1.786 1.00 26.06 C \\nATOM 1184 O VAL B 56 14.547 7.817 -1.279 1.00 29.12 O \\nATOM 1185 CB VAL B 56 13.757 11.033 -0.959 1.00 27.47 C \\nATOM 1186 CG1 VAL B 56 12.766 12.134 -0.523 1.00 27.66 C \\nATOM 1187 CG2 VAL B 56 15.032 11.016 -0.119 1.00 29.79 C \\nATOM 1188 N ARG B 57 13.889 8.977 -3.102 1.00 24.26 N \\nATOM 1189 CA ARG B 57 14.697 8.220 -4.083 1.00 21.61 C \\nATOM 1190 C ARG B 57 15.894 9.023 -4.591 1.00 20.76 C \\nATOM 1191 O ARG B 57 15.735 10.066 -5.210 1.00 24.14 O \\nATOM 1192 CB ARG B 57 13.862 7.854 -5.298 1.00 20.35 C \\nATOM 1193 CG ARG B 57 12.767 6.845 -5.041 1.00 26.15 C \\nATOM 1194 CD ARG B 57 12.224 6.316 -6.354 1.00 24.10 C \\nATOM 1195 NE ARG B 57 10.944 6.937 -6.617 1.00 34.58 N \\nATOM 1196 CZ ARG B 57 10.717 7.776 -7.614 1.00 31.59 C \\nATOM 1197 NH1 ARG B 57 11.534 7.792 -8.658 1.00 33.77 N \\nATOM 1198 NH2 ARG B 57 9.555 8.403 -7.678 1.00 29.56 N \\nATOM 1199 N GLN B 58 17.095 8.516 -4.388 1.00 19.42 N \\nATOM 1200 CA GLN B 58 18.306 9.218 -4.819 1.00 21.62 C \\nATOM 1201 C GLN B 58 18.742 8.833 -6.226 1.00 23.18 C \\nATOM 1202 O GLN B 58 19.157 7.694 -6.438 1.00 26.34 O \\nATOM 1203 CB GLN B 58 19.465 8.920 -3.861 1.00 20.63 C \\nATOM 1204 CG GLN B 58 20.738 9.622 -4.271 1.00 18.81 C \\nATOM 1205 CD GLN B 58 21.825 9.463 -3.248 1.00 20.16 C \\nATOM 1206 OE1 GLN B 58 21.554 9.424 -2.048 1.00 28.16 O \\nATOM 1207 NE2 GLN B 58 23.045 9.365 -3.692 1.00 21.91 N \\nATOM 1208 N TYR B 59 18.705 9.773 -7.167 1.00 21.35 N \\nATOM 1209 CA TYR B 59 19.361 9.587 -8.464 1.00 19.01 C \\nATOM 1210 C TYR B 59 20.689 10.330 -8.544 1.00 21.82 C \\nATOM 1211 O TYR B 59 20.860 11.368 -7.943 1.00 25.32 O \\nATOM 1212 CB TYR B 59 18.472 10.082 -9.563 1.00 18.59 C \\nATOM 1213 CG TYR B 59 17.116 9.383 -9.609 1.00 15.73 C \\nATOM 1214 CD1 TYR B 59 16.157 9.612 -8.615 1.00 15.43 C \\nATOM 1215 CD2 TYR B 59 16.814 8.484 -10.637 1.00 19.10 C \\nATOM 1216 CE1 TYR B 59 14.959 8.977 -8.640 1.00 16.84 C \\nATOM 1217 CE2 TYR B 59 15.647 7.851 -10.673 1.00 19.50 C \\nATOM 1218 CZ TYR B 59 14.704 8.066 -9.679 1.00 22.02 C \\nATOM 1219 OH TYR B 59 13.561 7.307 -9.711 1.00 23.01 O \\nATOM 1220 N ASP B 60 21.665 9.797 -9.258 1.00 26.17 N \\nATOM 1221 CA ASP B 60 22.959 10.470 -9.336 1.00 25.69 C \\nATOM 1222 C ASP B 60 23.303 10.921 -10.737 1.00 27.15 C \\nATOM 1223 O ASP B 60 22.793 10.396 -11.707 1.00 26.71 O \\nATOM 1224 CB ASP B 60 24.042 9.554 -8.834 1.00 30.50 C \\nATOM 1225 CG ASP B 60 23.843 9.184 -7.407 1.00 36.31 C \\nATOM 1226 OD1 ASP B 60 23.463 10.074 -6.620 1.00 37.41 O \\nATOM 1227 OD2 ASP B 60 24.107 8.012 -7.044 1.00 40.37 O \\nATOM 1228 N GLN B 61 24.189 11.897 -10.837 1.00 27.15 N \\nATOM 1229 CA GLN B 61 24.622 12.478 -12.111 1.00 29.27 C \\nATOM 1230 C GLN B 61 23.474 12.903 -13.022 1.00 28.21 C \\nATOM 1231 O GLN B 61 23.492 12.665 -14.229 1.00 29.57 O \\nATOM 1232 CB GLN B 61 25.596 11.549 -12.869 1.00 35.98 C \\nATOM 1233 CG GLN B 61 26.892 12.283 -13.369 1.00 45.09 C \\nATOM 1234 CD GLN B 61 28.007 11.392 -13.985 1.00 50.40 C \\nATOM 1235 OE1 GLN B 61 28.747 11.845 -14.875 1.00 49.27 O \\nATOM 1236 NE2 GLN B 61 28.197 10.173 -13.442 1.00 55.52 N \\nATOM 1237 N ILE B 62 22.493 13.589 -12.452 1.00 26.57 N \\nATOM 1238 CA ILE B 62 21.380 14.141 -13.224 1.00 24.82 C \\nATOM 1239 C ILE B 62 21.710 15.575 -13.686 1.00 25.46 C \\nATOM 1240 O ILE B 62 22.247 16.373 -12.924 1.00 25.12 O \\nATOM 1241 CB ILE B 62 20.090 14.147 -12.331 1.00 24.26 C \\nATOM 1242 CG1 ILE B 62 19.709 12.702 -11.952 1.00 23.74 C \\nATOM 1243 CG2 ILE B 62 18.950 14.826 -13.045 1.00 21.48 C \\nATOM 1244 CD1 ILE B 62 19.068 11.933 -13.057 1.00 23.09 C \\nATOM 1245 N LEU B 63 21.400 15.900 -14.931 1.00 25.95 N \\nATOM 1246 CA LEU B 63 21.600 17.263 -15.431 1.00 29.84 C \\nATOM 1247 C LEU B 63 20.386 18.085 -15.052 1.00 30.58 C \\nATOM 1248 O LEU B 63 19.260 17.703 -15.355 1.00 31.36 O \\nATOM 1249 CB LEU B 63 21.769 17.265 -16.962 1.00 32.16 C \\nATOM 1250 CG LEU B 63 21.792 18.587 -17.759 1.00 33.80 C \\nATOM 1251 CD1 LEU B 63 22.903 19.529 -17.300 1.00 36.66 C \\nATOM 1252 CD2 LEU B 63 21.997 18.246 -19.205 1.00 38.83 C \\nATOM 1253 N ILE B 64 20.626 19.203 -14.381 1.00 31.59 N \\nATOM 1254 CA ILE B 64 19.548 20.111 -14.029 1.00 31.52 C \\nATOM 1255 C ILE B 64 20.089 21.523 -14.223 1.00 33.29 C \\nATOM 1256 O ILE B 64 21.175 21.858 -13.763 1.00 33.56 O \\nATOM 1257 CB ILE B 64 19.107 19.880 -12.540 1.00 29.35 C \\nATOM 1258 CG1 ILE B 64 18.216 20.990 -12.036 1.00 30.67 C \\nATOM 1259 CG2 ILE B 64 20.311 19.766 -11.655 1.00 34.19 C \\nATOM 1260 CD1 ILE B 64 17.324 20.544 -10.930 1.00 34.50 C \\nATOM 1261 N GLU B 65 19.327 22.330 -14.953 1.00 35.37 N \\nATOM 1262 CA GLU B 65 19.661 23.719 -15.251 1.00 34.26 C \\nATOM 1263 C GLU B 65 18.938 24.686 -14.338 1.00 33.11 C \\nATOM 1264 O GLU B 65 17.700 24.745 -14.345 1.00 32.35 O \\nATOM 1265 CB GLU B 65 19.282 24.017 -16.688 1.00 37.05 C \\nATOM 1266 CG GLU B 65 20.180 25.011 -17.326 1.00 48.15 C \\nATOM 1267 CD GLU B 65 19.960 25.126 -18.805 1.00 54.00 C \\nATOM 1268 OE1 GLU B 65 19.601 24.094 -19.445 1.00 54.40 O \\nATOM 1269 OE2 GLU B 65 20.214 26.241 -19.314 1.00 59.11 O \\nATOM 1270 N ILE B 66 19.709 25.427 -13.547 1.00 34.12 N \\nATOM 1271 CA ILE B 66 19.159 26.431 -12.654 1.00 36.05 C \\nATOM 1272 C ILE B 66 19.519 27.864 -13.127 1.00 37.57 C \\nATOM 1273 O ILE B 66 20.684 28.254 -13.167 1.00 36.67 O \\nATOM 1274 CB ILE B 66 19.663 26.199 -11.203 1.00 33.70 C \\nATOM 1275 CG1 ILE B 66 19.566 24.717 -10.848 1.00 32.55 C \\nATOM 1276 CG2 ILE B 66 18.824 27.018 -10.232 1.00 33.60 C \\nATOM 1277 CD1 ILE B 66 20.510 24.280 -9.745 1.00 35.00 C \\nATOM 1278 N CYS B 67 18.504 28.630 -13.516 1.00 41.68 N \\nATOM 1279 CA CYS B 67 18.684 29.971 -14.104 1.00 44.87 C \\nATOM 1280 C CYS B 67 19.685 29.990 -15.245 1.00 44.44 C \\nATOM 1281 O CYS B 67 20.565 30.852 -15.294 1.00 42.31 O \\nATOM 1282 CB CYS B 67 19.124 30.970 -13.037 1.00 48.45 C \\nATOM 1283 SG CYS B 67 17.736 31.542 -12.037 1.00 54.18 S \\nATOM 1284 N GLY B 68 19.562 29.010 -16.143 1.00 43.24 N \\nATOM 1285 CA GLY B 68 20.485 28.891 -17.256 1.00 41.28 C \\nATOM 1286 C GLY B 68 21.899 28.603 -16.811 1.00 41.98 C \\nATOM 1287 O GLY B 68 22.843 28.970 -17.493 1.00 46.85 O \\nATOM 1288 N HIS B 69 22.059 28.002 -15.633 1.00 40.00 N \\nATOM 1289 CA HIS B 69 23.354 27.479 -15.197 1.00 36.63 C \\nATOM 1290 C HIS B 69 23.178 25.984 -15.087 1.00 34.62 C \\nATOM 1291 O HIS B 69 22.307 25.523 -14.354 1.00 32.72 O \\nATOM 1292 CB HIS B 69 23.711 27.993 -13.810 1.00 39.25 C \\nATOM 1293 CG HIS B 69 23.976 29.473 -13.740 1.00 44.38 C \\nATOM 1294 ND1 HIS B 69 25.177 29.994 -13.361 1.00 46.88 N \\nATOM 1295 CD2 HIS B 69 23.114 30.512 -13.920 1.00 45.80 C \\nATOM 1296 CE1 HIS B 69 25.058 31.325 -13.286 1.00 50.18 C \\nATOM 1297 NE2 HIS B 69 23.849 31.652 -13.613 1.00 47.74 N \\nATOM 1298 N LYS B 70 23.995 25.240 -15.820 1.00 33.27 N \\nATOM 1299 CA LYS B 70 23.935 23.791 -15.800 1.00 31.17 C \\nATOM 1300 C LYS B 70 24.749 23.243 -14.652 1.00 29.41 C \\nATOM 1301 O LYS B 70 25.875 23.676 -14.403 1.00 29.56 O \\nATOM 1302 CB LYS B 70 24.423 23.212 -17.115 1.00 32.71 C \\nATOM 1303 CG LYS B 70 23.463 23.445 -18.279 1.00 34.39 C \\nATOM 1304 CD LYS B 70 24.261 23.524 -19.576 1.00 44.19 C \\nATOM 1305 CE LYS B 70 23.377 23.737 -20.816 1.00 48.61 C \\nATOM 1306 NZ LYS B 70 22.863 22.443 -21.404 1.00 54.35 N \\nATOM 1307 N ALA B 71 24.104 22.353 -13.909 1.00 24.69 N \\nATOM 1308 CA ALA B 71 24.689 21.612 -12.802 1.00 23.65 C \\nATOM 1309 C ALA B 71 24.391 20.156 -13.159 1.00 24.51 C \\nATOM 1310 O ALA B 71 23.339 19.865 -13.735 1.00 24.89 O \\nATOM 1311 CB ALA B 71 23.991 21.992 -11.485 1.00 16.65 C \\nATOM 1312 N ILE B 72 25.330 19.253 -12.902 1.00 25.50 N \\nATOM 1313 CA ILE B 72 25.048 17.816 -13.016 1.00 24.06 C \\nATOM 1314 C ILE B 72 25.312 17.246 -11.637 1.00 22.15 C \\nATOM 1315 O ILE B 72 26.442 17.315 -11.167 1.00 23.87 O \\nATOM 1316 CB ILE B 72 26.029 17.094 -13.983 1.00 24.38 C \\nATOM 1317 CG1 ILE B 72 26.092 17.805 -15.333 1.00 26.24 C \\nATOM 1318 CG2 ILE B 72 25.615 15.649 -14.171 1.00 23.69 C \\nATOM 1319 CD1 ILE B 72 27.241 17.224 -16.197 1.00 23.26 C \\nATOM 1320 N GLY B 73 24.303 16.690 -10.975 1.00 19.12 N \\nATOM 1321 CA GLY B 73 24.545 16.248 -9.616 1.00 19.31 C \\nATOM 1322 C GLY B 73 23.470 15.337 -9.095 1.00 19.37 C \\nATOM 1323 O GLY B 73 22.674 14.852 -9.881 1.00 21.87 O \\nATOM 1324 N THR B 74 23.517 15.041 -7.794 1.00 19.61 N \\nATOM 1325 CA THR B 74 22.568 14.162 -7.116 1.00 19.07 C \\nATOM 1326 C THR B 74 21.280 14.889 -6.829 1.00 22.17 C \\nATOM 1327 O THR B 74 21.299 16.005 -6.275 1.00 19.62 O \\nATOM 1328 CB THR B 74 23.128 13.638 -5.748 1.00 19.04 C \\nATOM 1329 OG1 THR B 74 24.323 12.880 -5.961 1.00 24.28 O \\nATOM 1330 CG2 THR B 74 22.071 12.763 -5.030 1.00 17.43 C \\nATOM 1331 N VAL B 75 20.177 14.227 -7.192 1.00 18.83 N \\nATOM 1332 CA VAL B 75 18.832 14.773 -7.068 1.00 20.46 C \\nATOM 1333 C VAL B 75 17.989 13.688 -6.360 1.00 22.85 C \\nATOM 1334 O VAL B 75 17.993 12.504 -6.743 1.00 20.15 O \\nATOM 1335 CB VAL B 75 18.229 15.113 -8.501 1.00 22.69 C \\nATOM 1336 CG1 VAL B 75 16.760 15.421 -8.434 1.00 19.10 C \\nATOM 1337 CG2 VAL B 75 18.967 16.317 -9.099 1.00 18.68 C \\nATOM 1338 N LEU B 76 17.295 14.086 -5.303 1.00 21.32 N \\nATOM 1339 CA LEU B 76 16.390 13.196 -4.575 1.00 19.82 C \\nATOM 1340 C LEU B 76 14.972 13.423 -5.073 1.00 21.74 C \\nATOM 1341 O LEU B 76 14.652 14.514 -5.518 1.00 25.18 O \\nATOM 1342 CB LEU B 76 16.450 13.476 -3.067 1.00 16.45 C \\nATOM 1343 CG LEU B 76 17.787 13.595 -2.330 1.00 15.15 C \\nATOM 1344 CD1 LEU B 76 17.591 13.640 -0.845 1.00 14.83 C \\nATOM 1345 CD2 LEU B 76 18.678 12.463 -2.705 1.00 20.59 C \\nATOM 1346 N VAL B 77 14.135 12.391 -5.049 1.00 23.03 N \\nATOM 1347 CA VAL B 77 12.749 12.509 -5.485 1.00 17.63 C \\nATOM 1348 C VAL B 77 11.826 11.894 -4.472 1.00 17.51 C \\nATOM 1349 O VAL B 77 12.052 10.766 -3.999 1.00 16.69 O \\nATOM 1350 CB VAL B 77 12.502 11.835 -6.868 1.00 18.16 C \\nATOM 1351 CG1 VAL B 77 11.065 12.148 -7.398 1.00 20.02 C \\nATOM 1352 CG2 VAL B 77 13.593 12.322 -7.843 1.00 16.66 C \\nATOM 1353 N GLY B 78 10.778 12.616 -4.125 1.00 16.55 N \\nATOM 1354 CA GLY B 78 10.004 12.229 -2.965 1.00 20.06 C \\nATOM 1355 C GLY B 78 8.832 13.128 -2.672 1.00 21.31 C \\nATOM 1356 O GLY B 78 8.614 14.117 -3.393 1.00 24.13 O \\nATOM 1357 N PRO B 79 8.032 12.814 -1.646 1.00 19.47 N \\nATOM 1358 CA PRO B 79 6.887 13.664 -1.350 1.00 21.78 C \\nATOM 1359 C PRO B 79 7.292 14.915 -0.550 1.00 21.89 C \\nATOM 1360 O PRO B 79 7.007 15.036 0.638 1.00 22.16 O \\nATOM 1361 CB PRO B 79 5.951 12.742 -0.594 1.00 17.28 C \\nATOM 1362 CG PRO B 79 6.838 11.781 0.040 1.00 20.54 C \\nATOM 1363 CD PRO B 79 8.096 11.665 -0.739 1.00 20.64 C \\nATOM 1364 N THR B 80 7.997 15.816 -1.220 1.00 24.38 N \\nATOM 1365 CA THR B 80 8.324 17.137 -0.702 1.00 22.15 C \\nATOM 1366 C THR B 80 7.227 18.114 -1.090 1.00 20.84 C \\nATOM 1367 O THR B 80 6.528 17.896 -2.080 1.00 20.99 O \\nATOM 1368 CB THR B 80 9.677 17.594 -1.299 1.00 21.20 C \\nATOM 1369 OG1 THR B 80 9.952 18.951 -0.924 1.00 22.05 O \\nATOM 1370 CG2 THR B 80 9.688 17.449 -2.825 1.00 13.16 C \\nATOM 1371 N PRO B 81 6.922 19.074 -0.214 1.00 24.57 N \\nATOM 1372 CA PRO B 81 5.896 20.066 -0.556 1.00 24.68 C \\nATOM 1373 C PRO B 81 6.244 20.969 -1.727 1.00 26.51 C \\nATOM 1374 O PRO B 81 5.343 21.294 -2.509 1.00 32.43 O \\nATOM 1375 CB PRO B 81 5.694 20.874 0.729 1.00 22.89 C \\nATOM 1376 CG PRO B 81 6.274 19.954 1.831 1.00 24.08 C \\nATOM 1377 CD PRO B 81 7.387 19.243 1.190 1.00 21.46 C \\nATOM 1378 N VAL B 82 7.520 21.355 -1.868 1.00 23.91 N \\nATOM 1379 CA VAL B 82 7.990 22.207 -2.983 1.00 24.09 C \\nATOM 1380 C VAL B 82 9.255 21.636 -3.581 1.00 21.54 C \\nATOM 1381 O VAL B 82 9.973 20.911 -2.929 1.00 26.47 O \\nATOM 1382 CB VAL B 82 8.375 23.616 -2.484 1.00 26.47 C \\nATOM 1383 CG1 VAL B 82 7.122 24.513 -2.361 1.00 26.39 C \\nATOM 1384 CG2 VAL B 82 9.101 23.485 -1.163 1.00 24.12 C \\nATOM 1385 N ASN B 83 9.588 21.960 -4.812 1.00 16.61 N \\nATOM 1386 CA ASN B 83 10.914 21.521 -5.319 1.00 16.90 C \\nATOM 1387 C ASN B 83 11.922 22.373 -4.576 1.00 19.55 C \\nATOM 1388 O ASN B 83 11.716 23.574 -4.429 1.00 18.36 O \\nATOM 1389 CB ASN B 83 11.068 21.763 -6.823 1.00 16.55 C \\nATOM 1390 CG ASN B 83 10.096 20.950 -7.647 1.00 22.00 C \\nATOM 1391 OD1 ASN B 83 10.013 19.733 -7.494 1.00 23.24 O \\nATOM 1392 ND2 ASN B 83 9.305 21.627 -8.498 1.00 22.85 N \\nATOM 1393 N ILE B 84 12.983 21.755 -4.066 1.00 17.31 N \\nATOM 1394 CA ILE B 84 13.979 22.449 -3.233 1.00 13.51 C \\nATOM 1395 C ILE B 84 15.345 22.255 -3.870 1.00 19.87 C \\nATOM 1396 O ILE B 84 15.779 21.111 -4.072 1.00 20.54 O \\nATOM 1397 CB ILE B 84 14.041 21.833 -1.837 1.00 10.82 C \\nATOM 1398 CG1 ILE B 84 12.754 22.151 -1.088 1.00 13.42 C \\nATOM 1399 CG2 ILE B 84 15.323 22.264 -1.122 1.00 11.48 C \\nATOM 1400 CD1 ILE B 84 12.438 21.217 0.060 1.00 20.08 C \\nATOM 1401 N ILE B 85 16.044 23.346 -4.167 1.00 19.47 N \\nATOM 1402 CA ILE B 85 17.441 23.243 -4.575 1.00 19.69 C \\nATOM 1403 C ILE B 85 18.305 23.504 -3.345 1.00 22.78 C \\nATOM 1404 O ILE B 85 18.262 24.613 -2.802 1.00 24.74 O \\nATOM 1405 CB ILE B 85 17.805 24.332 -5.644 1.00 18.51 C \\nATOM 1406 CG1 ILE B 85 16.809 24.299 -6.827 1.00 19.44 C \\nATOM 1407 CG2 ILE B 85 19.271 24.191 -6.067 1.00 14.76 C \\nATOM 1408 CD1 ILE B 85 16.672 22.956 -7.581 1.00 22.90 C \\nATOM 1409 N GLY B 86 19.121 22.530 -2.936 1.00 19.72 N \\nATOM 1410 CA GLY B 86 19.857 22.642 -1.690 1.00 14.65 C \\nATOM 1411 C GLY B 86 21.324 22.800 -1.940 1.00 13.18 C \\nATOM 1412 O GLY B 86 21.750 22.958 -3.056 1.00 13.07 O \\nATOM 1413 N ARG B 87 22.117 22.755 -0.887 1.00 11.71 N \\nATOM 1414 CA ARG B 87 23.533 23.126 -0.985 1.00 14.23 C \\nATOM 1415 C ARG B 87 24.413 22.356 -1.973 1.00 19.73 C \\nATOM 1416 O ARG B 87 25.398 22.903 -2.461 1.00 17.28 O \\nATOM 1417 CB ARG B 87 24.171 23.147 0.403 1.00 15.02 C \\nATOM 1418 CG ARG B 87 23.646 24.256 1.283 1.00 8.76 C \\nATOM 1419 CD ARG B 87 24.429 24.306 2.576 1.00 16.02 C \\nATOM 1420 NE ARG B 87 24.362 23.068 3.371 1.00 21.61 N \\nATOM 1421 CZ ARG B 87 25.357 22.185 3.495 1.00 21.15 C \\nATOM 1422 NH1 ARG B 87 26.467 22.303 2.795 1.00 18.57 N \\nATOM 1423 NH2 ARG B 87 25.255 21.190 4.368 1.00 26.79 N \\nATOM 1424 N ASN B 88 24.074 21.101 -2.275 1.00 18.56 N \\nATOM 1425 CA ASN B 88 24.950 20.312 -3.132 1.00 17.41 C \\nATOM 1426 C ASN B 88 24.980 20.893 -4.527 1.00 19.59 C \\nATOM 1427 O ASN B 88 26.015 20.853 -5.202 1.00 20.40 O \\nATOM 1428 CB ASN B 88 24.512 18.849 -3.197 1.00 19.90 C \\nATOM 1429 CG ASN B 88 23.126 18.649 -3.777 1.00 15.28 C \\nATOM 1430 OD1 ASN B 88 22.167 19.280 -3.351 1.00 22.61 O \\nATOM 1431 ND2 ASN B 88 23.020 17.775 -4.767 1.00 16.65 N \\nATOM 1432 N LEU B 89 23.863 21.490 -4.949 1.00 20.98 N \\nATOM 1433 CA LEU B 89 23.811 22.125 -6.273 1.00 21.49 C \\nATOM 1434 C LEU B 89 24.018 23.645 -6.231 1.00 20.99 C \\nATOM 1435 O LEU B 89 24.321 24.242 -7.236 1.00 21.25 O \\nATOM 1436 CB LEU B 89 22.457 21.815 -6.962 1.00 20.00 C \\nATOM 1437 CG LEU B 89 22.219 20.372 -7.436 1.00 17.87 C \\nATOM 1438 CD1 LEU B 89 20.937 20.300 -8.243 1.00 20.88 C \\nATOM 1439 CD2 LEU B 89 23.408 19.901 -8.273 1.00 17.17 C \\nATOM 1440 N LEU B 90 23.819 24.255 -5.075 1.00 20.01 N \\nATOM 1441 CA LEU B 90 24.020 25.701 -4.954 1.00 22.17 C \\nATOM 1442 C LEU B 90 25.511 26.005 -5.072 1.00 19.95 C \\nATOM 1443 O LEU B 90 25.907 26.959 -5.732 1.00 21.08 O \\nATOM 1444 CB LEU B 90 23.430 26.234 -3.624 1.00 17.71 C \\nATOM 1445 CG LEU B 90 21.900 26.309 -3.475 1.00 16.96 C \\nATOM 1446 CD1 LEU B 90 21.487 26.779 -2.081 1.00 11.88 C \\nATOM 1447 CD2 LEU B 90 21.358 27.241 -4.506 1.00 18.70 C \\nATOM 1448 N THR B 91 26.336 25.143 -4.491 1.00 23.70 N \\nATOM 1449 CA THR B 91 27.785 25.304 -4.546 1.00 23.96 C \\nATOM 1450 C THR B 91 28.270 25.184 -5.969 1.00 24.81 C \\nATOM 1451 O THR B 91 29.168 25.903 -6.378 1.00 26.72 O \\nATOM 1452 CB THR B 91 28.501 24.261 -3.669 1.00 21.26 C \\nATOM 1453 OG1 THR B 91 27.898 22.990 -3.894 1.00 25.49 O \\nATOM 1454 CG2 THR B 91 28.366 24.579 -2.208 1.00 17.64 C \\nATOM 1455 N GLN B 92 27.619 24.323 -6.741 1.00 25.95 N \\nATOM 1456 CA GLN B 92 28.009 24.110 -8.150 1.00 27.31 C \\nATOM 1457 C GLN B 92 27.823 25.361 -8.999 1.00 27.97 C \\nATOM 1458 O GLN B 92 28.719 25.701 -9.794 1.00 30.31 O \\nATOM 1459 CB GLN B 92 27.226 22.956 -8.793 1.00 24.09 C \\nATOM 1460 CG GLN B 92 27.720 21.588 -8.406 1.00 25.97 C \\nATOM 1461 CD GLN B 92 27.313 20.496 -9.421 1.00 27.56 C \\nATOM 1462 OE1 GLN B 92 27.138 20.746 -10.620 1.00 26.23 O \\nATOM 1463 NE2 GLN B 92 27.230 19.281 -8.941 1.00 27.50 N \\nATOM 1464 N ILE B 93 26.683 26.043 -8.820 1.00 28.73 N \\nATOM 1465 CA ILE B 93 26.362 27.233 -9.606 1.00 28.11 C \\nATOM 1466 C ILE B 93 26.904 28.524 -8.963 1.00 30.61 C \\nATOM 1467 O ILE B 93 26.574 29.627 -9.385 1.00 32.40 O \\nATOM 1468 CB ILE B 93 24.838 27.349 -9.857 1.00 23.33 C \\nATOM 1469 CG1 ILE B 93 24.103 27.648 -8.559 1.00 25.74 C \\nATOM 1470 CG2 ILE B 93 24.300 26.092 -10.460 1.00 21.29 C \\nATOM 1471 CD1 ILE B 93 22.672 28.017 -8.785 1.00 27.65 C \\nATOM 1472 N GLY B 94 27.741 28.369 -7.949 1.00 30.93 N \\nATOM 1473 CA GLY B 94 28.481 29.498 -7.421 1.00 31.94 C \\nATOM 1474 C GLY B 94 27.749 30.439 -6.488 1.00 30.20 C \\nATOM 1475 O GLY B 94 28.177 31.555 -6.261 1.00 31.24 O \\nATOM 1476 N CYS B 95 26.808 29.899 -5.748 1.00 27.82 N \\nATOM 1477 CA CYS B 95 25.895 30.718 -5.004 1.00 26.76 C \\nATOM 1478 C CYS B 95 26.408 30.993 -3.598 1.00 27.20 C \\nATOM 1479 O CYS B 95 26.769 30.065 -2.870 1.00 27.85 O \\nATOM 1480 CB CYS B 95 24.578 29.989 -4.978 1.00 27.09 C \\nATOM 1481 SG CYS B 95 23.221 30.929 -4.410 1.00 36.34 S \\nATOM 1482 N THR B 96 26.473 32.277 -3.244 1.00 26.04 N \\nATOM 1483 CA THR B 96 26.794 32.734 -1.882 1.00 25.60 C \\nATOM 1484 C THR B 96 25.672 33.544 -1.205 1.00 24.26 C \\nATOM 1485 O THR B 96 24.760 34.079 -1.852 1.00 23.28 O \\nATOM 1486 CB THR B 96 28.051 33.660 -1.858 1.00 27.82 C \\nATOM 1487 OG1 THR B 96 27.888 34.689 -2.857 1.00 31.12 O \\nATOM 1488 CG2 THR B 96 29.316 32.870 -2.141 1.00 24.73 C \\nATOM 1489 N LEU B 97 25.759 33.617 0.119 1.00 24.54 N \\nATOM 1490 CA LEU B 97 24.902 34.468 0.963 1.00 27.92 C \\nATOM 1491 C LEU B 97 25.714 35.689 1.398 1.00 30.25 C \\nATOM 1492 O LEU B 97 26.854 35.558 1.870 1.00 29.52 O \\nATOM 1493 CB LEU B 97 24.489 33.718 2.236 1.00 27.18 C \\nATOM 1494 CG LEU B 97 23.211 32.901 2.344 1.00 22.23 C \\nATOM 1495 CD1 LEU B 97 23.114 32.358 3.719 1.00 23.52 C \\nATOM 1496 CD2 LEU B 97 22.037 33.773 2.076 1.00 20.87 C \\nATOM 1497 N ASN B 98 25.121 36.868 1.264 1.00 32.20 N \\nATOM 1498 CA ASN B 98 25.870 38.101 1.449 1.00 34.86 C \\nATOM 1499 C ASN B 98 25.102 39.038 2.370 1.00 34.26 C \\nATOM 1500 O ASN B 98 23.889 39.124 2.261 1.00 36.18 O \\nATOM 1501 CB ASN B 98 26.140 38.756 0.086 1.00 31.24 C \\nATOM 1502 CG ASN B 98 27.048 37.921 -0.814 1.00 33.93 C \\nATOM 1503 OD1 ASN B 98 28.268 37.895 -0.630 1.00 37.15 O \\nATOM 1504 ND2 ASN B 98 26.455 37.192 -1.754 1.00 33.06 N \\nATOM 1505 N PHE B 99 25.809 39.706 3.283 1.00 36.76 N \\nATOM 1506 CA PHE B 99 25.267 40.855 4.034 1.00 36.49 C \\nATOM 1507 C PHE B 99 26.351 41.742 4.659 1.00 35.50 C \\nATOM 1508 O PHE B 99 27.448 41.208 5.013 1.00 37.49 O \\nATOM 1509 CB PHE B 99 24.284 40.418 5.127 1.00 34.88 C \\nATOM 1510 CG PHE B 99 24.859 39.479 6.130 1.00 36.75 C \\nATOM 1511 CD1 PHE B 99 25.061 38.150 5.808 1.00 37.04 C \\nATOM 1512 CD2 PHE B 99 25.071 39.890 7.436 1.00 38.13 C \\nATOM 1513 CE1 PHE B 99 25.450 37.240 6.756 1.00 37.02 C \\nATOM 1514 CE2 PHE B 99 25.473 38.988 8.409 1.00 37.11 C \\nATOM 1515 CZ PHE B 99 25.658 37.663 8.073 1.00 36.24 C \\nTER\\nEND\",\"pdb\");\n\tviewer_16920164299252748.setStyle({\"cartoon\": {\"color\": 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"<a href=\"https://colab.research.google.com/github/francescopatane96/Computer_aided_drug_discovery_kit/blob/main/15_protein_ligand_docking.ipynb\" target=\"_parent\"><img src=\"https://colab.research.google.com/assets/colab-badge.svg\" alt=\"Open In Colab\"/></a>"
]
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{
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"source": [
"pip install nglview redo"
],
"metadata": {
"colab": {
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"id": "rFPP5e1PWmyA",
"outputId": "beb5fd5e-765d-4fb3-c19d-78cc661924a0"
},
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{
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"text": [
" Building wheel for nglview (pyproject.toml) ... \u001b[?25l\u001b[?25hdone\n",
" Created wheel for nglview: filename=nglview-3.0.6-py3-none-any.whl size=10096109 sha256=e4999d21943fde78cdeb37240c8ac9185ea95973cca55f2b5415b4853852d9ba\n",
" Stored in directory: /root/.cache/pip/wheels/48/56/11/f23486e3ce7371bd7e216b0e1643057a435ecfc413666020a4\n",
"Successfully built nglview\n",
"Installing collected packages: redo, jedi, nglview\n",
"Successfully installed jedi-0.19.0 nglview-3.0.6 redo-2.0.4\n"
]
}
]
},
{
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"source": [
"#!apt install libopenbabel-dev"
],
"metadata": {
"id": "r82nVNUQW86u"
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"outputs": []
},
{
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"id": "gKUN2tNvWvCw"
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"metadata": {
"id": "Nt7PmNNYYItf"
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"source": [
"#Installing py3Dmol using pip\n",
"!pip install py3Dmol rdkit\n",
"#Installing biopython using pip\n",
"!pip install biopython\n",
"#Installing pdb2pqr v3.0 using pip\n",
"!pip install pdb2pqr\n",
"#We will also install kora for using RDkit\n",
"!pip install kora"
],
"metadata": {
"id": "0uyvdnPqyYlV"
},
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"#Install conda using the new conda-colab library\n",
"!pip install -q condacolab\n",
"import condacolab\n",
"condacolab.install_miniconda()\n",
"\n",
"#Install MGLtools and OpenBabel from\n",
"#the bioconda repository\n",
"!conda update -n base -c defaults conda\n",
"!conda install -c conda-forge -c bioconda mgltools openbabel zlib --yes"
],
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"⏬ Downloading https://repo.anaconda.com/miniconda/Miniconda3-py310_23.3.1-0-Linux-x86_64.sh...\n",
"📦 Installing...\n",
"📌 Adjusting configuration...\n",
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"⏲ Done in 0:00:18\n",
"🔁 Restarting kernel...\n",
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\b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\bfailed with initial frozen solve. Retrying with flexible solve.\n",
"Solving environment: / \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\bdone\n",
"\n",
"\n",
"==> WARNING: A newer version of conda exists. <==\n",
" current version: 23.3.1\n",
" latest version: 23.7.2\n",
"\n",
"Please update conda by running\n",
"\n",
" $ conda update -n base -c defaults conda\n",
"\n",
"Or to minimize the number of packages updated during conda update use\n",
"\n",
" conda install conda=23.7.2\n",
"\n",
"\n",
"Collecting package metadata (repodata.json): \\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ 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\b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\bdone\n",
"Solving environment: / \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ 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\b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\bfailed with initial frozen solve. Retrying with flexible solve.\n",
"Solving environment: | \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| 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\b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\bdone\n",
"\n",
"\n",
"==> WARNING: A newer version of conda exists. <==\n",
" current version: 23.3.1\n",
" latest version: 23.7.2\n",
"\n",
"Please update conda by running\n",
"\n",
" $ conda update -n base -c defaults conda\n",
"\n",
"Or to minimize the number of packages updated during conda update use\n",
"\n",
" conda install conda=23.7.2\n",
"\n",
"\n",
"\n",
"## Package Plan ##\n",
"\n",
" environment location: /usr/local\n",
"\n",
" added / updated specs:\n",
" - mgltools\n",
" - openbabel\n",
" - zlib\n",
"\n",
"\n",
"The following packages will be downloaded:\n",
"\n",
" package | build\n",
" ---------------------------|-----------------\n",
" _libgcc_mutex-0.1 | conda_forge 3 KB conda-forge\n",
" _openmp_mutex-4.5 | 2_gnu 23 KB conda-forge\n",
" ca-certificates-2023.7.22 | hbcca054_0 146 KB conda-forge\n",
" cairo-1.16.0 | hbbf8b49_1016 1.1 MB conda-forge\n",
" certifi-2023.7.22 | pyhd8ed1ab_0 150 KB conda-forge\n",
" conda-23.7.2 | py310hff52083_0 1006 KB conda-forge\n",
" cryptography-39.0.2 | py310h34c0648_0 1.4 MB conda-forge\n",
" expat-2.5.0 | hcb278e6_1 134 KB conda-forge\n",
" font-ttf-dejavu-sans-mono-2.37| hab24e00_0 388 KB conda-forge\n",
" font-ttf-inconsolata-3.000 | h77eed37_0 94 KB conda-forge\n",
" font-ttf-source-code-pro-2.038| h77eed37_0 684 KB conda-forge\n",
" font-ttf-ubuntu-0.83 | hab24e00_0 1.9 MB conda-forge\n",
" fontconfig-2.14.2 | h14ed4e7_0 266 KB conda-forge\n",
" fonts-conda-ecosystem-1 | 0 4 KB conda-forge\n",
" fonts-conda-forge-1 | 0 4 KB conda-forge\n",
" freetype-2.12.1 | hca18f0e_1 611 KB conda-forge\n",
" gettext-0.21.1 | h27087fc_0 4.1 MB conda-forge\n",
" icu-72.1 | hcb278e6_0 11.4 MB conda-forge\n",
" libexpat-2.5.0 | hcb278e6_1 76 KB conda-forge\n",
" libgcc-ng-13.1.0 | he5830b7_0 758 KB conda-forge\n",
" libglib-2.76.4 | hebfc3b9_0 2.6 MB conda-forge\n",
" libgomp-13.1.0 | he5830b7_0 409 KB conda-forge\n",
" libiconv-1.17 | h166bdaf_0 1.4 MB conda-forge\n",
" libnsl-2.0.0 | h7f98852_0 31 KB conda-forge\n",
" libpng-1.6.39 | h753d276_0 276 KB conda-forge\n",
" libsqlite-3.42.0 | h2797004_0 809 KB conda-forge\n",
" libstdcxx-ng-13.1.0 | hfd8a6a1_0 3.7 MB conda-forge\n",
" libuuid-2.38.1 | h0b41bf4_0 33 KB conda-forge\n",
" libxcb-1.15 | h0b41bf4_0 375 KB conda-forge\n",
" libxml2-2.11.5 | h0d562d8_0 688 KB conda-forge\n",
" libzlib-1.2.13 | hd590300_5 60 KB conda-forge\n",
" mgltools-1.5.7 | h9ee0642_1 107.0 MB bioconda\n",
" openbabel-3.1.1 | py310h956b46e_7 5.0 MB conda-forge\n",
" openssl-3.1.2 | hd590300_0 2.5 MB conda-forge\n",
" pcre2-10.40 | hc3806b6_0 2.3 MB conda-forge\n",
" pixman-0.40.0 | h36c2ea0_0 627 KB conda-forge\n",
" pthread-stubs-0.4 | h36c2ea0_1001 5 KB conda-forge\n",
" python-3.10.12 |hd12c33a_0_cpython 24.4 MB conda-forge\n",
" python_abi-3.10 | 3_cp310 6 KB conda-forge\n",
" xorg-kbproto-1.0.7 | h7f98852_1002 27 KB conda-forge\n",
" xorg-libice-1.1.1 | hd590300_0 57 KB conda-forge\n",
" xorg-libsm-1.2.4 | h7391055_0 27 KB conda-forge\n",
" xorg-libx11-1.8.6 | h8ee46fc_0 809 KB conda-forge\n",
" xorg-libxau-1.0.11 | hd590300_0 14 KB conda-forge\n",
" xorg-libxdmcp-1.1.3 | h7f98852_0 19 KB conda-forge\n",
" xorg-libxext-1.3.4 | h0b41bf4_2 49 KB conda-forge\n",
" xorg-libxrender-0.9.11 | hd590300_0 37 KB conda-forge\n",
" xorg-renderproto-0.11.1 | h7f98852_1002 9 KB conda-forge\n",
" xorg-xextproto-7.3.0 | h0b41bf4_1003 30 KB conda-forge\n",
" xorg-xproto-7.0.31 | h7f98852_1007 73 KB conda-forge\n",
" zlib-1.2.13 | hd590300_5 91 KB conda-forge\n",
" ------------------------------------------------------------\n",
" Total: 177.3 MB\n",
"\n",
"The following NEW packages will be INSTALLED:\n",
"\n",
" cairo conda-forge/linux-64::cairo-1.16.0-hbbf8b49_1016 \n",
" expat conda-forge/linux-64::expat-2.5.0-hcb278e6_1 \n",
" font-ttf-dejavu-s~ conda-forge/noarch::font-ttf-dejavu-sans-mono-2.37-hab24e00_0 \n",
" font-ttf-inconsol~ conda-forge/noarch::font-ttf-inconsolata-3.000-h77eed37_0 \n",
" font-ttf-source-c~ conda-forge/noarch::font-ttf-source-code-pro-2.038-h77eed37_0 \n",
" font-ttf-ubuntu conda-forge/noarch::font-ttf-ubuntu-0.83-hab24e00_0 \n",
" fontconfig conda-forge/linux-64::fontconfig-2.14.2-h14ed4e7_0 \n",
" fonts-conda-ecosy~ conda-forge/noarch::fonts-conda-ecosystem-1-0 \n",
" fonts-conda-forge conda-forge/noarch::fonts-conda-forge-1-0 \n",
" freetype conda-forge/linux-64::freetype-2.12.1-hca18f0e_1 \n",
" gettext conda-forge/linux-64::gettext-0.21.1-h27087fc_0 \n",
" icu conda-forge/linux-64::icu-72.1-hcb278e6_0 \n",
" libexpat conda-forge/linux-64::libexpat-2.5.0-hcb278e6_1 \n",
" libglib conda-forge/linux-64::libglib-2.76.4-hebfc3b9_0 \n",
" libiconv conda-forge/linux-64::libiconv-1.17-h166bdaf_0 \n",
" libnsl conda-forge/linux-64::libnsl-2.0.0-h7f98852_0 \n",
" libpng conda-forge/linux-64::libpng-1.6.39-h753d276_0 \n",
" libsqlite conda-forge/linux-64::libsqlite-3.42.0-h2797004_0 \n",
" libxcb conda-forge/linux-64::libxcb-1.15-h0b41bf4_0 \n",
" libxml2 conda-forge/linux-64::libxml2-2.11.5-h0d562d8_0 \n",
" libzlib conda-forge/linux-64::libzlib-1.2.13-hd590300_5 \n",
" mgltools bioconda/linux-64::mgltools-1.5.7-h9ee0642_1 \n",
" openbabel conda-forge/linux-64::openbabel-3.1.1-py310h956b46e_7 \n",
" pcre2 conda-forge/linux-64::pcre2-10.40-hc3806b6_0 \n",
" pixman conda-forge/linux-64::pixman-0.40.0-h36c2ea0_0 \n",
" pthread-stubs conda-forge/linux-64::pthread-stubs-0.4-h36c2ea0_1001 \n",
" python_abi conda-forge/linux-64::python_abi-3.10-3_cp310 \n",
" xorg-kbproto conda-forge/linux-64::xorg-kbproto-1.0.7-h7f98852_1002 \n",
" xorg-libice conda-forge/linux-64::xorg-libice-1.1.1-hd590300_0 \n",
" xorg-libsm conda-forge/linux-64::xorg-libsm-1.2.4-h7391055_0 \n",
" xorg-libx11 conda-forge/linux-64::xorg-libx11-1.8.6-h8ee46fc_0 \n",
" xorg-libxau conda-forge/linux-64::xorg-libxau-1.0.11-hd590300_0 \n",
" xorg-libxdmcp conda-forge/linux-64::xorg-libxdmcp-1.1.3-h7f98852_0 \n",
" xorg-libxext conda-forge/linux-64::xorg-libxext-1.3.4-h0b41bf4_2 \n",
" xorg-libxrender conda-forge/linux-64::xorg-libxrender-0.9.11-hd590300_0 \n",
" xorg-renderproto conda-forge/linux-64::xorg-renderproto-0.11.1-h7f98852_1002 \n",
" xorg-xextproto conda-forge/linux-64::xorg-xextproto-7.3.0-h0b41bf4_1003 \n",
" xorg-xproto conda-forge/linux-64::xorg-xproto-7.0.31-h7f98852_1007 \n",
"\n",
"The following packages will be UPDATED:\n",
"\n",
" ca-certificates pkgs/main::ca-certificates-2023.01.10~ --> conda-forge::ca-certificates-2023.7.22-hbcca054_0 \n",
" certifi pkgs/main/linux-64::certifi-2022.12.7~ --> conda-forge/noarch::certifi-2023.7.22-pyhd8ed1ab_0 \n",
" conda pkgs/main::conda-23.3.1-py310h06a4308~ --> conda-forge::conda-23.7.2-py310hff52083_0 \n",
" cryptography pkgs/main::cryptography-39.0.1-py310h~ --> conda-forge::cryptography-39.0.2-py310h34c0648_0 \n",
" libgcc-ng pkgs/main::libgcc-ng-11.2.0-h1234567_1 --> conda-forge::libgcc-ng-13.1.0-he5830b7_0 \n",
" libgomp pkgs/main::libgomp-11.2.0-h1234567_1 --> conda-forge::libgomp-13.1.0-he5830b7_0 \n",
" libstdcxx-ng pkgs/main::libstdcxx-ng-11.2.0-h12345~ --> conda-forge::libstdcxx-ng-13.1.0-hfd8a6a1_0 \n",
" libuuid pkgs/main::libuuid-1.41.5-h5eee18b_0 --> conda-forge::libuuid-2.38.1-h0b41bf4_0 \n",
" openssl pkgs/main::openssl-1.1.1t-h7f8727e_0 --> conda-forge::openssl-3.1.2-hd590300_0 \n",
" python pkgs/main::python-3.10.10-h7a1cb2a_2 --> conda-forge::python-3.10.12-hd12c33a_0_cpython \n",
" zlib pkgs/main::zlib-1.2.13-h5eee18b_0 --> conda-forge::zlib-1.2.13-hd590300_5 \n",
"\n",
"The following packages will be SUPERSEDED by a higher-priority channel:\n",
"\n",
" _libgcc_mutex pkgs/main::_libgcc_mutex-0.1-main --> conda-forge::_libgcc_mutex-0.1-conda_forge \n",
" _openmp_mutex pkgs/main::_openmp_mutex-5.1-1_gnu --> conda-forge::_openmp_mutex-4.5-2_gnu \n",
"\n",
"\n",
"\n",
"Downloading and Extracting Packages\n",
"cairo-1.16.0 | 1.1 MB | : 0% 0/1 [00:00<?, ?it/s]\n",
"libiconv-1.17 | 1.4 MB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\n",
"\n",
"python_abi-3.10 | 6 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\n",
"\n",
"\n",
"gettext-0.21.1 | 4.1 MB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"expat-2.5.0 | 134 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"cryptography-39.0.2 | 1.4 MB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"font-ttf-inconsolata | 94 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"pthread-stubs-0.4 | 5 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"conda-23.7.2 | 1006 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
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"libexpat-2.5.0 | 76 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
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"\n",
"_openmp_mutex-4.5 | 23 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
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"xorg-renderproto-0.1 | 9 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"\n",
"\n",
"pixman-0.40.0 | 627 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"\n",
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"libxml2-2.11.5 | 688 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"font-ttf-source-code | 684 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"xorg-libice-1.1.1 | 57 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"certifi-2023.7.22 | 150 KB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"openbabel-3.1.1 | 5.0 MB | : 0% 0/1 [00:00<?, ?it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"\n",
"\n",
"gettext-0.21.1 | 4.1 MB | : 0% 0.003792041342138226/1 [00:00<00:28, 28.19s/it]\u001b[A\u001b[A\u001b[A\n",
"libiconv-1.17 | 1.4 MB | : 1% 0.011296443385402878/1 [00:00<00:10, 10.27s/it]\u001b[A\n",
"\n",
"cairo-1.16.0 | 1.1 MB | : 1% 0.014787056992985534/1 [00:00<00:08, 8.94s/it]\n",
"\n",
"\n",
"\n",
"expat-2.5.0 | 134 KB | : 12% 0.11978534559651406/1 [00:00<00:00, 1.04s/it]\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
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"\n",
"cryptography-39.0.2 | 1.4 MB | : 1% 0.011392675283026347/1 [00:00<00:11, 11.98s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"pthread-stubs-0.4 | 5 KB | : 100% 1.0/1 [00:00<00:00, 6.61it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"font-ttf-inconsolata | 94 KB | : 17% 0.16972961773541903/1 [00:00<00:00, 1.08s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"conda-23.7.2 | 1006 KB | : 2% 0.01590755288358378/1 [00:00<00:11, 11.27s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"python_abi-3.10 | 6 KB | : 100% 1.0/1 [00:00<00:00, 8.12it/s]\u001b[A\u001b[A\n",
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"libexpat-2.5.0 | 76 KB | : 21% 0.2101051551679918/1 [00:00<00:00, 1.08it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"xorg-renderproto-0.1 | 9 KB | : 100% 1.0/1 [00:00<00:00, 4.64it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"_openmp_mutex-4.5 | 23 KB | : 69% 0.6936200838237162/1 [00:00<00:00, 3.04it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"pixman-0.40.0 | 627 KB | : 3% 0.025499595343335617/1 [00:00<00:08, 9.12s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"libxml2-2.11.5 | 688 KB | : 2% 0.02324037561349258/1 [00:00<00:09, 10.19s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 0% 0.0001460770757894392/1 [00:00<29:54, 1794.38s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"expat-2.5.0 | 134 KB | : 100% 1.0/1 [00:00<00:00, 3.76it/s] \u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"expat-2.5.0 | 134 KB | : 100% 1.0/1 [00:00<00:00, 3.76it/s]\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"font-ttf-source-code | 684 KB | : 2% 0.02337852839697837/1 [00:00<00:11, 11.70s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"certifi-2023.7.22 | 150 KB | : 11% 0.10653419250801412/1 [00:00<00:02, 2.61s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"xorg-libice-1.1.1 | 57 KB | : 28% 0.2802168670577571/1 [00:00<00:00, 1.00s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"openbabel-3.1.1 | 5.0 MB | : 0% 0.00314422742375047/1 [00:00<01:29, 89.51s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 11% 0.11306365666102594/1 [00:00<00:05, 6.76s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 13% 0.12883998084628537/1 [00:01<00:05, 6.77s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 20% 0.20144028751363666/1 [00:01<00:03, 4.75s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 22% 0.22305969473047366/1 [00:01<00:03, 4.82s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 30% 0.3036942405662441/1 [00:01<00:02, 4.08s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 33% 0.3307184995872904/1 [00:01<00:02, 3.96s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 36% 0.35745060445675775/1 [00:01<00:02, 3.96s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 63% 0.6255020385303787/1 [00:02<00:01, 2.97s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 69% 0.6926974933935207/1 [00:03<00:00, 3.23s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 72% 0.7241040646882502/1 [00:03<00:00, 3.31s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 76% 0.7559488672103479/1 [00:03<00:00, 3.27s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 81% 0.8091209227977038/1 [00:05<00:03, 17.12s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 84% 0.8430108043808536/1 [00:05<00:01, 12.46s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"xorg-renderproto-0.1 | 9 KB | : 100% 1.0/1 [00:05<00:00, 4.64it/s]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"mgltools-1.5.7 | 107.0 MB | : 88% 0.8792379191766345/1 [00:05<00:01, 9.20s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"_openmp_mutex-4.5 | 23 KB | : 100% 1.0/1 [00:05<00:00, 6.70s/it] \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"_openmp_mutex-4.5 | 23 KB | : 100% 1.0/1 [00:05<00:00, 6.70s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"mgltools-1.5.7 | 107.0 MB | : 92% 0.9154650339724155/1 [00:05<00:00, 7.11s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 95% 0.9531529195260908/1 [00:05<00:00, 5.66s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"mgltools-1.5.7 | 107.0 MB | : 99% 0.9868967240334513/1 [00:05<00:00, 4.87s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
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"\n",
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"libxml2-2.11.5 | 688 KB | : 100% 1.0/1 [00:05<00:00, 5.94s/it] \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"libxml2-2.11.5 | 688 KB | : 100% 1.0/1 [00:05<00:00, 5.94s/it]\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"\n",
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"\n",
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" \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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" \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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" \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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" \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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" \u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
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"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\n",
"\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\u001b[A\n",
"Preparing transaction: \\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\bdone\n",
"Verifying transaction: - \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\bdone\n",
"Executing transaction: / \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\b/ \b\b- \b\b\\ \b\b| \b\bdone\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Download and extract Autodock Vina from SCRIPPS\n",
"#Then, we set up an alias for vina to be treated as a native binary\n",
"%%bash\n",
"wget https://vina.scripps.edu/wp-content/uploads/sites/55/2020/12/autodock_vina_1_1_2_linux_x86.tgz\n",
"tar xzvf autodock_vina_1_1_2_linux_x86.tgz"
],
"metadata": {
"id": "BzqepbD6ypGu"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"%alias vina /content/autodock_vina_1_1_2_linux_x86/bin/vina\n",
"%alias vina_split /content/autodock_vina_1_1_2_linux_x86/bin/vina_split"
],
"metadata": {
"id": "0ZAUiLFSyqm4"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 17,
"referenced_widgets": [
"d78340b9fccc4477893f77ecc16dc9ce"
]
},
"id": "mdIC4sA-6-1E",
"outputId": "64ade1cb-c914-4837-d865-7a748130dea0"
},
"outputs": [
{
"output_type": "display_data",
"data": {
"text/plain": [],
"application/vnd.jupyter.widget-view+json": {
"version_major": 2,
"version_minor": 0,
"model_id": "d78340b9fccc4477893f77ecc16dc9ce"
}
},
"metadata": {}
}
],
"source": [
"# import libraries\n",
"import warnings\n",
"from pathlib import Path\n",
"import subprocess\n",
"import py3Dmol\n",
"\n",
"import nglview as nv\n",
"from openbabel import pybel\n",
"\n",
"from opencadd.structure.core import Structure"
]
},
{
"cell_type": "code",
"source": [
"# retrieve structure from the Protein Data Bank\n",
"pdb_id = \"2ito\"\n",
"structure = Structure.from_pdbid(pdb_id)\n",
"# element information maybe missing, but important for subsequent PDBQT conversion\n",
"if not hasattr(structure.atoms, \"elements\"):\n",
" structure.add_TopologyAttr(\"elements\", structure.atoms.types)\n",
"structure\n",
"# NBVAL_CHECK_OUTPUT"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "_gVxiy1LYY7M",
"outputId": "70525db6-8fc1-4aa9-a63e-d35b235cd349"
},
"execution_count": null,
"outputs": [
{
"output_type": "execute_result",
"data": {
"text/plain": [
"<Universe with 2484 atoms>"
]
},
"metadata": {},
"execution_count": 4
}
]
},
{
"cell_type": "code",
"source": [
"# write the protein file to disk\n",
"protein = structure.select_atoms(\"protein\")\n",
"protein.write(\"protein.pdb\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "znMowSJ8Ybrq",
"outputId": "ca6ce261-b9fe-4328-d482-3412c646072c"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stderr",
"text": [
"/usr/local/lib/python3.10/dist-packages/MDAnalysis/coordinates/PDB.py:1151: UserWarning: Found no information for attr: 'chainIDs' Using default value of ''\n",
" warnings.warn(\"Found no information for attr: '{}'\"\n",
"/usr/local/lib/python3.10/dist-packages/MDAnalysis/coordinates/PDB.py:1151: UserWarning: Found no information for attr: 'record_types' Using default value of 'ATOM'\n",
" warnings.warn(\"Found no information for attr: '{}'\"\n",
"/usr/local/lib/python3.10/dist-packages/MDAnalysis/coordinates/PDB.py:1151: UserWarning: Found no information for attr: 'formalcharges' Using default value of '0'\n",
" warnings.warn(\"Found no information for attr: '{}'\"\n",
"/usr/local/lib/python3.10/dist-packages/MDAnalysis/coordinates/PDB.py:1198: UserWarning: Found missing chainIDs. Corresponding atoms will use value of 'X'\n",
" warnings.warn(\"Found missing chainIDs.\"\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"def pdb_to_pdbqt(pdb_path, pdbqt_path, pH=7.4):\n",
" \"\"\"\n",
" Convert a PDB file to a PDBQT file needed by docking programs of the AutoDock family.\n",
"\n",
" Parameters\n",
" ----------\n",
" pdb_path: str or pathlib.Path\n",
" Path to input PDB file.\n",
" pdbqt_path: str or pathlib.path\n",
" Path to output PDBQT file.\n",
" pH: float\n",
" Protonation at given pH.\n",
" \"\"\"\n",
" molecule = list(pybel.readfile(\"pdb\", str(pdb_path)))[0]\n",
" # add hydrogens at given pH\n",
" molecule.OBMol.CorrectForPH(pH)\n",
" molecule.addh()\n",
" # add partial charges to each atom\n",
" for atom in molecule.atoms:\n",
" atom.OBAtom.GetPartialCharge()\n",
" molecule.write(\"pdbqt\", str(pdbqt_path), overwrite=True)\n",
" return"
],
"metadata": {
"id": "XrTQ1GB5YorG"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"# convert protein to PDBQT format\n",
"pdb_to_pdbqt(\"protein.pdb\", \"protein.pdbqt\")"
],
"metadata": {
"id": "gOgfTGfJYqTU"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"# define ligand SMILES for protein-ligand complex of interest\n",
"smiles = \"COC1=C(C=C2C(=C1)N=CN=C2NC3=CC(=C(C=C3)F)Cl)OCCCN4CCOCC4\""
],
"metadata": {
"id": "a-ST7mfLYzjb"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"! apt-get install pymol"
],
"metadata": {
"id": "RA6pZ5BnfroI"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"#!wget -O 1OYT.pdb https://files.rcsb.org/download/1oyt.pdb\n",
"com_file = open('fetch_and_clean.pml','w')\n",
"com_file.write('''\n",
"load protein.pdb\n",
"remove resn HOH\n",
"h_add elem O or elem N\n",
"select 1OYT-FSN, resn FSN #Create a selection called 1OYT-FSN from the ligand\n",
"select 1OYT-receptor, 1OYT and not 1OYT-FSN #Select all that is not the ligand\n",
"save 1OYT-FSN.pdb, 1OYT-FSN\n",
"save 1OYT-receptor.pdb, 1OYT-receptor\n",
"''')\n",
"com_file.close()"
],
"metadata": {
"id": "cTxqYV0Zfuyw"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!pymol -c fetch_and_clean.pml"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "AN0ajVqggINu",
"outputId": "06163876-4cc8-4eaf-a535-d45385dc6943"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
" PyMOL(TM) Molecular Graphics System, Version 2.5.0.\n",
" Copyright (c) Schrodinger, LLC.\n",
" All Rights Reserved.\n",
" \n",
" Created by Warren L. DeLano, Ph.D. \n",
" \n",
" PyMOL is user-supported open-source software. Although some versions\n",
" are freely available, PyMOL is not in the public domain.\n",
" \n",
" If PyMOL is helpful in your work or study, then please volunteer \n",
" support for our ongoing efforts to create open and affordable scientific\n",
" software by purchasing a PyMOL Maintenance and/or Support subscription.\n",
"\n",
" More information can be found at \"http://www.pymol.org\".\n",
" \n",
" Enter \"help\" for a list of commands.\n",
" Enter \"help <command-name>\" for information on a specific command.\n",
"\n",
" Hit ESC anytime to toggle between text and graphics.\n",
"\n",
" Detected 2 CPU cores. Enabled multithreaded rendering.\n",
"PyMOL>load protein.pdb\n",
" Warning: 'protein' may become a reserved selection keyword in the future\n",
"TITLE MDANALYSIS FRAME 0: Created by PDBWriter\n",
" ObjectMolecule: Read crystal symmetry information.\n",
" CmdLoad: \"\" loaded as \"protein\".\n",
"PyMOL>remove resn HOH\n",
"PyMOL>h_add elem O or elem N\n",
"PyMOL>select 1OYT-FSN, resn FSN #Create a selection called 1OYT-FSN from the ligand\n",
" Selector: selection \"1OYT-FSN\" defined with 0 atoms.\n",
"PyMOL>select 1OYT-receptor, 1OYT and not 1OYT-FSN #Select all that is not the ligand\n",
" Selector: selection \"1OYT-receptor\" defined with 0 atoms.\n",
"PyMOL>save 1OYT-FSN.pdb, 1OYT-FSN\n",
" Save: wrote \"1OYT-FSN.pdb\".\n",
"PyMOL>save 1OYT-receptor.pdb, 1OYT-receptor\n",
" Save: wrote \"1OYT-receptor.pdb\".\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"!obabel 1OYT-receptor.pdb -xr -O 1OYT-receptor.pdbqt\n",
"!obabel 1OYT-FSN.pdb -O 1OYT-FSN.pdbqt"
],
"metadata": {
"id": "QzXaJqgCgYlQ"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"def smiles_to_pdbqt(smiles, pdbqt_path, pH=7.4):\n",
" \"\"\"\n",
" Convert a SMILES string to a PDBQT file needed by docking programs of the AutoDock family.\n",
"\n",
" Parameters\n",
" ----------\n",
" smiles: str\n",
" SMILES string.\n",
" pdbqt_path: str or pathlib.path\n",
" Path to output PDBQT file.\n",
" pH: float\n",
" Protonation at given pH.\n",
" \"\"\"\n",
" molecule = pybel.readstring(\"smi\", smiles)\n",
" # add hydrogens at given pH\n",
" molecule.OBMol.CorrectForPH(pH)\n",
" molecule.addh()\n",
" # generate 3D coordinates\n",
" molecule.make3D(forcefield=\"mmff94s\", steps=10000)\n",
" # add partial charges to each atom\n",
" for atom in molecule.atoms:\n",
" atom.OBAtom.GetPartialCharge()\n",
" molecule.write(\"pdbqt\", str(pdbqt_path), overwrite=True)\n",
" return"
],
"metadata": {
"id": "vD3kGiifY07w"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"# convert the ligand into PDBQT format\n",
"smiles_to_pdbqt(smiles, \"ligand.pdbqt\")"
],
"metadata": {
"id": "kCPlv2E1Y247"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"ligand_resname = \"IRE\"\n",
"ligand = structure.select_atoms(f\"resname {ligand_resname}\")\n",
"pocket_center = (ligand.positions.max(axis=0) + ligand.positions.min(axis=0)) / 2\n",
"pocket_size = ligand.positions.max(axis=0) - ligand.positions.min(axis=0) + 5"
],
"metadata": {
"id": "YFosiRpMZMKe"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"def run_smina(\n",
" ligand_path, protein_path, out_path, pocket_center, pocket_size, num_poses=10, exhaustiveness=8\n",
"):\n",
" \"\"\"\n",
" Perform docking with Smina.\n",
"\n",
" Parameters\n",
" ----------\n",
" ligand_path: str or pathlib.Path\n",
" Path to ligand PDBQT file that should be docked.\n",
" protein_path: str or pathlib.Path\n",
" Path to protein PDBQT file that should be docked to.\n",
" out_path: str or pathlib.Path\n",
" Path to which docking poses should be saved, SDF or PDB format.\n",
" pocket_center: iterable of float or int\n",
" Coordinates defining the center of the binding site.\n",
" pocket_size: iterable of float or int\n",
" Lengths of edges defining the binding site.\n",
" num_poses: int\n",
" Maximum number of poses to generate.\n",
" exhaustiveness: int\n",
" Accuracy of docking calculations.\n",
"\n",
" Returns\n",
" -------\n",
" output_text: str\n",
" The output of the Smina calculation.\n",
" \"\"\"\n",
" output_text = subprocess.check_output(\n",
" [\n",
" \"smina\",\n",
" \"--ligand\",\n",
" str(ligand_path),\n",
" \"--receptor\",\n",
" str(protein_path),\n",
" \"--out\",\n",
" str(out_path),\n",
" \"--center_x\",\n",
" str(pocket_center[0]),\n",
" \"--center_y\",\n",
" str(pocket_center[1]),\n",
" \"--center_z\",\n",
" str(pocket_center[2]),\n",
" \"--size_x\",\n",
" str(pocket_size[0]),\n",
" \"--size_y\",\n",
" str(pocket_size[1]),\n",
" \"--size_z\",\n",
" str(pocket_size[2]),\n",
" \"--num_modes\",\n",
" str(num_poses),\n",
" \"--exhaustiveness\",\n",
" str(exhaustiveness),\n",
" ],\n",
" universal_newlines=True, # needed to capture output text\n",
" )\n",
" return output_text"
],
"metadata": {
"id": "afjcuPgUZaIS"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!wget https://sourceforge.net/projects/smina/files/smina.static/download -O smina.static"
],
"metadata": {
"id": "UBP7bpB8asPF"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!chmod u+x smina.static"
],
"metadata": {
"id": "XHjutg3-c_WQ"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!./smina.static"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "I_TFL5oRdBCC",
"outputId": "2a461e3d-b1d8-4c1e-f7ce-ce16020ca68a"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"Missing receptor.\n",
"\n",
"Correct usage:\n",
"\n",
"Input:\n",
" -r [ --receptor ] arg rigid part of the receptor (PDBQT)\n",
" --flex arg flexible side chains, if any (PDBQT)\n",
" -l [ --ligand ] arg ligand(s)\n",
" --flexres arg flexible side chains specified by comma \n",
" separated list of chain:resid or \n",
" chain:resid:icode\n",
" --flexdist_ligand arg Ligand to use for flexdist\n",
" --flexdist arg set all side chains within specified distance \n",
" to flexdist_ligand to flexible\n",
"\n",
"Search space (required):\n",
" --center_x arg X coordinate of the center\n",
" --center_y arg Y coordinate of the center\n",
" --center_z arg Z coordinate of the center\n",
" --size_x arg size in the X dimension (Angstroms)\n",
" --size_y arg size in the Y dimension (Angstroms)\n",
" --size_z arg size in the Z dimension (Angstroms)\n",
" --autobox_ligand arg Ligand to use for autobox\n",
" --autobox_add arg Amount of buffer space to add to auto-generated\n",
" box (default +4 on all six sides)\n",
" --no_lig no ligand; for sampling/minimizing flexible \n",
" residues\n",
"\n",
"Scoring and minimization options:\n",
" --scoring arg specify alternative builtin scoring function\n",
" --custom_scoring arg custom scoring function file\n",
" --custom_atoms arg custom atom type parameters file\n",
" --score_only score provided ligand pose\n",
" --local_only local search only using autobox (you probably \n",
" want to use --minimize)\n",
" --minimize energy minimization\n",
" --randomize_only generate random poses, attempting to avoid \n",
" clashes\n",
" --minimize_iters arg (=0) number iterations of steepest descent; default \n",
" scales with rotors and usually isn't sufficient\n",
" for convergence\n",
" --accurate_line use accurate line search\n",
" --minimize_early_term Stop minimization before convergence conditions\n",
" are fully met.\n",
" --approximation arg approximation (linear, spline, or exact) to use\n",
" --factor arg approximation factor: higher results in a \n",
" finer-grained approximation\n",
" --force_cap arg max allowed force; lower values more gently \n",
" minimize clashing structures\n",
" --user_grid arg Autodock map file for user grid data based \n",
" calculations\n",
" --user_grid_lambda arg (=-1) Scales user_grid and functional scoring\n",
" --print_terms Print all available terms with default \n",
" parameterizations\n",
" --print_atom_types Print all available atom types\n",
"\n",
"Output (optional):\n",
" -o [ --out ] arg output file name, format taken from file \n",
" extension\n",
" --out_flex arg output file for flexible receptor residues\n",
" --log arg optionally, write log file\n",
" --atom_terms arg optionally write per-atom interaction term \n",
" values\n",
" --atom_term_data embedded per-atom interaction terms in output \n",
" sd data\n",
"\n",
"Misc (optional):\n",
" --cpu arg the number of CPUs to use (the default is to \n",
" try to detect the number of CPUs or, failing \n",
" that, use 1)\n",
" --seed arg explicit random seed\n",
" --exhaustiveness arg (=8) exhaustiveness of the global search (roughly \n",
" proportional to time)\n",
" --num_modes arg (=9) maximum number of binding modes to generate\n",
" --energy_range arg (=3) maximum energy difference between the best \n",
" binding mode and the worst one displayed \n",
" (kcal/mol)\n",
" --min_rmsd_filter arg (=1) rmsd value used to filter final poses to remove\n",
" redundancy\n",
" -q [ --quiet ] Suppress output messages\n",
" --addH arg automatically add hydrogens in ligands (on by \n",
" default)\n",
"\n",
"Configuration file (optional):\n",
" --config arg the above options can be put here\n",
"\n",
"Information (optional):\n",
" --help display usage summary\n",
" --help_hidden display usage summary with hidden options\n",
" --version display program version\n",
"\n"
]
}
]
},
{
"cell_type": "markdown",
"source": [
"alternative"
],
"metadata": {
"id": "rq64zFXDoUOk"
}
},
{
"cell_type": "code",
"source": [
"#Downloading the PDB files using biopython\n",
"import os\n",
"from Bio.PDB import *\n",
"pdbid = ['1hsg']\n",
"pdbl = PDBList()\n",
"for s in pdbid:\n",
" pdbl.retrieve_pdb_file(s, pdir='.', file_format =\"pdb\", overwrite=True)\n",
" os.rename(\"pdb\"+s+\".ent\", s+\".pdb\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "YwY_x0-MoV3T",
"outputId": "b231c29d-6a2a-4b16-b3ab-3fdca0b2c560"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"Downloading PDB structure '1hsg'...\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#This script will create a folder called \"single-docking\" for our experiment\n",
"#Then, it will print all \"ATOM\" and \"TER\" lines from a given PDB into a new file\n",
"\n",
"#Let's make a folder first. We need to import the os and path library\n",
"import os\n",
"from pathlib import Path\n",
"\n",
"#Then, we define the path of the folder we want to create.\n",
"#Notice that the HOME folder for a hosted runtime in colab is /content/\n",
"singlepath = Path(\"/content/single-dock/\")\n",
"\n",
"#Now, we create the folder using the os.mkdir() command\n",
"#The if conditional is just to check whether the folder already exists\n",
"#In which case, python returns an error\n",
"if os.path.exists(singlepath):\n",
" print(\"path already exists\")\n",
"if not os.path.exists(singlepath):\n",
" os.mkdir(singlepath)\n",
" print(\"path was succesfully created\")\n",
"\n",
"#Now we assign a variable \"protein\" with the name and extension of our pdb\n",
"protein = \"1hsg.pdb\"\n",
"\n",
"#And we use the following script to selectively print the lines that contain the\n",
"#string \"ATOM\" and \"TER\" into a new file inside our recently created folder\n",
"with open(singlepath / \"1hsg_prot.pdb\",\"w\") as g:\n",
" f = open(protein,'r')\n",
" for line in f:\n",
" row = line.split()\n",
" if row[0] == \"ATOM\":\n",
" g.write(line)\n",
" elif row[0] == \"TER\":\n",
" g.write(\"TER\\n\")\n",
" g.write(\"END\")\n",
" print(\"file successfully created\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "r_eT75W-osjY",
"outputId": "bf0131e2-7d97-4417-d79c-bf6924f78c79"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"path was succesfully created\n",
"file successfully created\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Parameterizing and adding Gasteiger charges into our protein using MGLtools\n",
"!prepare_receptor4.py -r $singlepath/1hsg_prot.pdb -o $singlepath/1hsg_prot.pdbqt -A hydrogens -U nphs_lps -v"
],
"metadata": {
"id": "h52witMNoxI9"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!pdb2pqr30"
],
"metadata": {
"id": "-qlHcrxco4E-"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"#First, using pdb2pqr to parameterize our receptor with AMBER99ff, maintaining\n",
"#the chain IDs and setting up the receptor at a pH of 7.4\n",
"!pdb2pqr30 --ff AMBER --keep-chain --titration-state-method propka --with-ph 7.4 $singlepath/1hsg_prot.pdb $singlepath/1hsg_prot.pqr\n",
"\n",
"#Then, convert the .pqr file into a .pdbqt file while deleting non-polar\n",
"#hydrogens but without changing the AMBER parameters added to the protein\n",
"!prepare_receptor4.py -r $singlepath/1hsg_prot.pqr -o $singlepath/1hsg_prot.pdbqt -C -U nphs_lps -v"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "Cx37HUzQo9qL",
"outputId": "2d81cbd7-cc64-485a-fe8b-8e558b4368e8"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"INFO:PDB2PQR v3.6.1: biomolecular structure conversion software.\n",
"INFO:Please cite: Jurrus E, et al. Improvements to the APBS biomolecular solvation software suite. Protein Sci 27 112-128 (2018).\n",
"INFO:Please cite: Dolinsky TJ, et al. PDB2PQR: expanding and upgrading automated preparation of biomolecular structures for molecular simulations. Nucleic Acids Res 35 W522-W525 (2007).\n",
"INFO:Checking and transforming input arguments.\n",
"INFO:Loading topology files.\n",
"INFO:Loading molecule: /content/single-dock/1hsg_prot.pdb\n",
"INFO:Setting up molecule.\n",
"INFO:Created biomolecule object with 198 residues and 1514 atoms.\n",
"INFO:Setting termini states for biomolecule chains.\n",
"INFO:Loading forcefield.\n",
"INFO:Loading hydrogen topology definitions.\n",
"WARNING:Missing atom OXT in residue PHE A 99\n",
"WARNING:Missing atom OXT in residue PHE B 99\n",
"WARNING:Missing atom OXT in residue PHE A 99\n",
"WARNING:Missing atom OXT in residue PHE B 99\n",
"INFO:Attempting to repair 2 missing atoms in biomolecule.\n",
"WARNING:Missing atom OXT in residue PHE A 99\n",
"WARNING:Missing atom OXT in residue PHE B 99\n",
"INFO:Added atom OXT to residue PHE A 99 at coordinates 26.780, 34.489, -10.125\n",
"INFO:Added atom OXT to residue PHE B 99 at coordinates 26.380, 42.929, 4.902\n",
"INFO:Updating disulfide bridges.\n",
"INFO:Debumping biomolecule.\n",
"INFO:Assigning titration states with PROPKA.\n",
"INFO:\n",
"propka3.5.0 2023-08-14\n",
"\n",
"-------------------------------------------------------------------------------\n",
"-- --\n",
"-- PROPKA: A PROTEIN PKA PREDICTOR --\n",
"-- --\n",
"-- VERSION 1.0, 04/25/2004, IOWA CITY --\n",
"-- BY HUI LI --\n",
"-- --\n",
"-- VERSION 2.0, 11/05/2007, IOWA CITY/COPENHAGEN --\n",
"-- BY DELPHINE C. BAS AND DAVID M. ROGERS --\n",
"-- --\n",
"-- VERSION 3.0, 01/06/2011, COPENHAGEN --\n",
"-- BY MATS H.M. OLSSON AND CHRESTEN R. SONDERGARD --\n",
"-- --\n",
"-- VERSION 3.1, 07/01/2011, COPENHAGEN --\n",
"-- BY CHRESTEN R. SONDERGARD AND MATS H.M. OLSSON --\n",
"-- --\n",
"-- VERSION 3.2, 06/17/2020, PLANET EARTH --\n",
"-- SEE ABOVE FOR AUTHORS --\n",
"-- --\n",
"-------------------------------------------------------------------------------\n",
"\n",
"\n",
"-------------------------------------------------------------------------------\n",
"References:\n",
"\n",
"Very Fast Empirical Prediction and Rationalization of Protein pKa Values.\n",
"Hui Li, Andrew D. Robertson and Jan H. Jensen. PROTEINS: Structure, Function,\n",
"and Bioinformatics. 61:704-721 (2005)\n",
"\n",
"Very Fast Prediction and Rationalization of pKa Values for Protein-Ligand\n",
"Complexes. Delphine C. Bas, David M. Rogers and Jan H. Jensen. PROTEINS:\n",
"Structure, Function, and Bioinformatics 73:765-783 (2008)\n",
"\n",
"PROPKA3: Consistent Treatment of Internal and Surface Residues in Empirical\n",
"pKa predictions. Mats H.M. Olsson, Chresten R. Sondergard, Michal Rostkowski,\n",
"and Jan H. Jensen. Journal of Chemical Theory and Computation, 7(2):525-537\n",
"(2011)\n",
"\n",
"Improved Treatment of Ligands and Coupling Effects in Empirical Calculation\n",
"and Rationalization of pKa Values. Chresten R. Sondergaard, Mats H.M. Olsson,\n",
"Michal Rostkowski, and Jan H. Jensen. Journal of Chemical Theory and\n",
"Computation, (2011)\n",
"-------------------------------------------------------------------------------\n",
"\n",
"\n",
"\n",
"INFO:Coupling map:\n",
"\n",
"INFO:Calculating pKas for Conformation container 1A with 1790 atoms and 470 groups\n",
"INFO:pKa determinants:\n",
"\n",
"--------- ----- ------ --------------------- -------------- -------------- --------------\n",
" DESOLVATION EFFECTS SIDECHAIN BACKBONE COULOMBIC\n",
" RESIDUE pKa BURIED REGULAR RE HYDROGEN BOND HYDROGEN BOND INTERACTION\n",
"--------- ----- ------ --------- --------- -------------- -------------- --------------\n",
"\n",
"ASP 25 A 5.07* 100 % 2.85 580 0.14 0 -0.89 ASP 25 B -0.60 GLY 27 A 0.03 ASP 29 A\n",
"ASP 25 A 0.00 XXX 0 X -0.17 ALA 28 A 0.01 ASP 29 B\n",
"ASP 25 A 0.00 XXX 0 X -0.09 GLY 27 B 0.00 XXX 0 X\n",
"\n",
"ASP 29 A 2.40 40 % 1.05 392 0.10 0 -0.62 ARG 87 A 0.00 XXX 0 X -0.01 LYS 45 A\n",
"ASP 29 A -1.00 ARG 8 B 0.00 XXX 0 X -0.42 ARG 87 A\n",
"ASP 29 A 0.00 XXX 0 X 0.00 XXX 0 X -0.50 ARG 8 B\n",
"\n",
"ASP 30 A 4.77 48 % 1.09 417 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.28 LYS 45 A\n",
"ASP 30 A 0.00 XXX 0 X 0.00 XXX 0 X -0.08 ARG 87 A\n",
"ASP 30 A 0.00 XXX 0 X 0.00 XXX 0 X -0.03 ARG 8 B\n",
"ASP 30 A 0.00 XXX 0 X 0.00 XXX 0 X 0.26 ASP 29 A\n",
"\n",
"ASP 60 A 2.87 0 % 0.37 254 0.00 0 -0.00 LYS 43 A 0.00 XXX 0 X -0.27 LYS 43 A\n",
"ASP 60 A -0.36 GLN 58 A 0.00 XXX 0 X -0.04 LYS 45 A\n",
"ASP 60 A -0.63 THR 74 A 0.00 XXX 0 X 0.00 XXX 0 X\n",
"\n",
"GLU 21 A 4.74 0 % 0.25 237 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.01 ARG 8 A\n",
"\n",
"GLU 34 A 4.92 9 % 0.46 306 0.09 0 0.00 XXX 0 X 0.00 XXX 0 X -0.17 LYS 20 A\n",
"GLU 34 A 0.00 XXX 0 X 0.00 XXX 0 X 0.04 GLU 21 A\n",
"\n",
"GLU 35 A 3.66 0 % 0.31 271 0.00 0 -0.83 ARG 57 A 0.00 XXX 0 X -0.03 LYS 55 A\n",
"GLU 35 A 0.00 XXX 0 X 0.00 XXX 0 X -0.29 ARG 57 A\n",
"\n",
"GLU 65 A 3.95 0 % 0.30 208 0.00 0 -0.31 LYS 14 A 0.00 XXX 0 X -0.17 LYS 70 A\n",
"GLU 65 A 0.00 XXX 0 X 0.00 XXX 0 X -0.01 HIS 69 A\n",
"GLU 65 A 0.00 XXX 0 X 0.00 XXX 0 X -0.37 LYS 14 A\n",
"\n",
"C- 99 A 2.09 0 % 0.30 259 0.00 0 -0.82 N+ 1 B 0.00 XXX 0 X -0.20 HIS 69 B\n",
"C- 99 A 0.00 XXX 0 X 0.00 XXX 0 X -0.38 N+ 1 B\n",
"\n",
"HIS 69 A 6.86 0 % -0.37 268 0.00 0 0.00 XXX 0 X 0.27 ILE 66 A -0.12 N+ 1 A\n",
"HIS 69 A 0.00 XXX 0 X 0.35 CYS 67 A 0.01 GLU 65 A\n",
"HIS 69 A 0.00 XXX 0 X 0.00 XXX 0 X 0.22 C- 99 B\n",
"\n",
"CYS 67 A 9.73 20 % 0.81 336 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.12 N+ 1 A\n",
"CYS 67 A 0.00 XXX 0 X 0.00 XXX 0 X 0.04 C- 99 B\n",
"\n",
"CYS 95 A 11.62 71 % 2.62 481 0.00 0 0.00 XXX 0 X -0.06 ASN 98 B -0.05 N+ 1 A\n",
"CYS 95 A 0.00 XXX 0 X 0.00 XXX 0 X 0.01 CYS 67 A\n",
"CYS 95 A 0.00 XXX 0 X 0.00 XXX 0 X 0.10 C- 99 B\n",
"\n",
"TYR 59 A 9.70 0 % 0.65 274 0.00 0 -0.27 ARG 57 A -0.33 LEU 38 A 0.05 GLU 35 A\n",
"TYR 59 A 0.00 XXX 0 X 0.00 XXX 0 X -0.03 ARG 41 A\n",
"TYR 59 A 0.00 XXX 0 X 0.00 XXX 0 X -0.38 ARG 57 A\n",
"\n",
"LYS 14 A 10.98 0 % -0.20 162 0.00 0 0.31 GLU 65 A 0.00 XXX 0 X 0.37 GLU 65 A\n",
"\n",
"LYS 20 A 10.11 13 % -0.57 317 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.17 GLU 34 A\n",
"\n",
"LYS 43 A 10.62 0 % -0.16 174 0.00 0 0.00 ASP 60 A 0.00 XXX 0 X 0.27 ASP 60 A\n",
"\n",
"LYS 45 A 10.59 0 % -0.24 276 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.01 ASP 29 A\n",
"LYS 45 A 0.00 XXX 0 X 0.00 XXX 0 X 0.28 ASP 30 A\n",
"LYS 45 A 0.00 XXX 0 X 0.00 XXX 0 X 0.04 ASP 60 A\n",
"\n",
"LYS 55 A 10.18 0 % -0.29 213 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.03 GLU 35 A\n",
"LYS 55 A 0.00 XXX 0 X 0.00 XXX 0 X -0.06 ARG 57 A\n",
"\n",
"LYS 70 A 10.52 0 % -0.12 150 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.17 GLU 65 A\n",
"LYS 70 A 0.00 XXX 0 X 0.00 XXX 0 X -0.03 LYS 14 A\n",
"\n",
"ARG 8 A 14.00 18 % -0.41 331 0.00 0 1.37 ASP 29 B 0.00 XXX 0 X 0.01 GLU 21 A\n",
"ARG 8 A 0.00 XXX 0 X 0.00 XXX 0 X 0.03 ASP 30 B\n",
"ARG 8 A 0.00 XXX 0 X 0.00 XXX 0 X 0.50 ASP 29 B\n",
"\n",
"ARG 41 A 12.43 0 % -0.10 113 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.03 TYR 59 A\n",
"\n",
"ARG 57 A 13.76 2 % -0.51 287 0.00 0 0.83 GLU 35 A 0.00 XXX 0 X 0.29 GLU 35 A\n",
"ARG 57 A 0.27 TYR 59 A 0.00 XXX 0 X 0.38 TYR 59 A\n",
"\n",
"ARG 87 A 12.42 29 % -1.05 363 0.00 0 0.62 ASP 29 A 0.00 XXX 0 X 0.08 ASP 30 A\n",
"ARG 87 A 0.00 XXX 0 X 0.00 XXX 0 X -0.15 ARG 8 B\n",
"ARG 87 A 0.00 XXX 0 X 0.00 XXX 0 X 0.42 ASP 29 A\n",
"\n",
"N+ 1 A 8.97 0 % -0.43 242 0.00 0 0.85 C- 99 B 0.00 XXX 0 X 0.12 CYS 67 A\n",
"N+ 1 A 0.00 XXX 0 X 0.00 XXX 0 X 0.05 CYS 95 A\n",
"N+ 1 A 0.00 XXX 0 X 0.00 XXX 0 X 0.38 C- 99 B\n",
"\n",
"ASP 25 B 9.06* 100 % 2.81 578 0.19 0 0.89 ASP 25 A -0.44 GLY 27 B -0.01 ARG 8 B\n",
"ASP 25 B 0.00 XXX 0 X -0.04 ALA 28 B 0.01 ASP 29 A\n",
"ASP 25 B 0.00 XXX 0 X 0.00 XXX 0 X 0.04 ASP 29 B\n",
"ASP 25 B 0.00 XXX 0 X 0.00 XXX 0 X 1.81 ASP 25 A\n",
"\n",
"ASP 29 B 1.88 40 % 1.09 392 0.10 0 -1.37 ARG 8 A 0.00 XXX 0 X -0.09 LYS 45 B\n",
"ASP 29 B -0.72 ARG 87 B 0.00 XXX 0 X -0.50 ARG 8 A\n",
"ASP 29 B 0.00 XXX 0 X 0.00 XXX 0 X -0.44 ARG 87 B\n",
"\n",
"ASP 30 B 3.98 50 % 1.20 420 0.00 0 -0.63 LYS 45 B 0.00 XXX 0 X -0.03 ARG 8 A\n",
"ASP 30 B 0.00 XXX 0 X 0.00 XXX 0 X -0.10 ARG 87 B\n",
"ASP 30 B 0.00 XXX 0 X 0.00 XXX 0 X 0.28 ASP 29 B\n",
"ASP 30 B 0.00 XXX 0 X 0.00 XXX 0 X -0.54 LYS 45 B\n",
"\n",
"ASP 60 B 1.93 0 % 0.48 272 0.00 0 -0.76 GLN 58 B 0.00 XXX 0 X -0.02 LYS 45 B\n",
"ASP 60 B -0.55 THR 74 B 0.00 XXX 0 X -0.38 LYS 43 B\n",
"ASP 60 B -0.65 LYS 43 B 0.00 XXX 0 X 0.00 XXX 0 X\n",
"\n",
"GLU 21 B 4.69 0 % 0.19 227 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.00 XXX 0 X\n",
"\n",
"GLU 34 B 4.85 9 % 0.41 306 0.06 0 0.00 XXX 0 X 0.00 XXX 0 X -0.12 LYS 20 B\n",
"\n",
"GLU 35 B 3.81 0 % 0.42 258 0.00 0 -0.72 ARG 57 B 0.00 XXX 0 X -0.01 LYS 20 B\n",
"GLU 35 B 0.00 XXX 0 X 0.00 XXX 0 X -0.38 ARG 57 B\n",
"\n",
"GLU 65 B 4.30 0 % 0.35 218 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.21 LYS 14 B\n",
"GLU 65 B 0.00 XXX 0 X 0.00 XXX 0 X -0.31 LYS 70 B\n",
"GLU 65 B 0.00 XXX 0 X 0.00 XXX 0 X -0.03 HIS 69 B\n",
"\n",
"C- 99 B 1.99 0 % 0.31 259 0.00 0 -0.85 N+ 1 A -0.08 PHE 99 B -0.22 HIS 69 A\n",
"C- 99 B 0.00 XXX 0 X 0.00 XXX 0 X -0.38 N+ 1 A\n",
"\n",
"HIS 69 B 6.22 0 % -0.40 268 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.11 N+ 1 B\n",
"HIS 69 B 0.00 XXX 0 X 0.00 XXX 0 X 0.20 C- 99 A\n",
"HIS 69 B 0.00 XXX 0 X 0.00 XXX 0 X 0.03 GLU 65 B\n",
"\n",
"CYS 67 B 9.91 25 % 0.97 351 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.10 N+ 1 B\n",
"CYS 67 B 0.00 XXX 0 X 0.00 XXX 0 X 0.04 C- 99 A\n",
"\n",
"CYS 95 B 11.61 71 % 2.51 479 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.05 N+ 1 B\n",
"CYS 95 B 0.00 XXX 0 X 0.00 XXX 0 X 0.12 C- 99 A\n",
"CYS 95 B 0.00 XXX 0 X 0.00 XXX 0 X 0.03 CYS 67 B\n",
"\n",
"TYR 59 B 9.91 0 % 0.66 278 0.00 0 -0.50 ARG 57 B 0.00 XXX 0 X 0.13 GLU 35 B\n",
"TYR 59 B 0.00 XXX 0 X 0.00 XXX 0 X -0.38 ARG 57 B\n",
"\n",
"LYS 14 B 10.48 0 % -0.14 154 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.21 GLU 65 B\n",
"LYS 14 B 0.00 XXX 0 X 0.00 XXX 0 X -0.10 LYS 70 B\n",
"\n",
"LYS 20 B 9.81 19 % -0.82 335 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.12 GLU 34 B\n",
"LYS 20 B 0.00 XXX 0 X 0.00 XXX 0 X 0.01 GLU 35 B\n",
"\n",
"LYS 43 B 11.30 0 % -0.23 199 0.00 0 0.65 ASP 60 B 0.00 XXX 0 X 0.38 ASP 60 B\n",
"\n",
"LYS 45 B 11.07 22 % -0.70 343 0.00 0 0.63 ASP 30 B 0.00 XXX 0 X 0.09 ASP 29 B\n",
"LYS 45 B 0.00 XXX 0 X 0.00 XXX 0 X 0.02 ASP 60 B\n",
"LYS 45 B 0.00 XXX 0 X 0.00 XXX 0 X -0.01 LYS 43 B\n",
"LYS 45 B 0.00 XXX 0 X 0.00 XXX 0 X 0.54 ASP 30 B\n",
"\n",
"LYS 55 B 9.85 0 % -0.61 246 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X -0.03 ARG 57 B\n",
"\n",
"LYS 70 B 10.63 0 % -0.18 167 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.31 GLU 65 B\n",
"\n",
"ARG 8 B 13.58 20 % -0.45 336 0.00 0 1.00 ASP 29 A 0.00 XXX 0 X 0.03 ASP 30 A\n",
"ARG 8 B 0.00 XXX 0 X 0.00 XXX 0 X 0.01 ASP 25 B\n",
"ARG 8 B 0.00 XXX 0 X 0.00 XXX 0 X 0.50 ASP 29 A\n",
"\n",
"ARG 41 B 12.43 0 % -0.07 101 0.00 0 0.00 XXX 0 X 0.00 XXX 0 X 0.00 XXX 0 X\n",
"\n",
"ARG 57 B 14.02 0 % -0.47 280 0.00 0 0.72 GLU 35 B 0.00 XXX 0 X 0.38 GLU 35 B\n",
"ARG 57 B 0.50 TYR 59 B 0.00 XXX 0 X 0.38 TYR 59 B\n",
"\n",
"ARG 87 B 12.48 31 % -1.13 369 0.00 0 0.72 ASP 29 B 0.00 XXX 0 X 0.10 ASP 30 B\n",
"ARG 87 B 0.00 XXX 0 X 0.00 XXX 0 X -0.15 ARG 8 A\n",
"ARG 87 B 0.00 XXX 0 X 0.00 XXX 0 X 0.44 ASP 29 B\n",
"\n",
"N+ 1 B 8.98 0 % -0.38 230 0.00 0 0.82 C- 99 A 0.00 XXX 0 X 0.10 CYS 67 B\n",
"N+ 1 B 0.00 XXX 0 X 0.00 XXX 0 X 0.05 CYS 95 B\n",
"N+ 1 B 0.00 XXX 0 X 0.00 XXX 0 X 0.38 C- 99 A\n",
"\n",
"Coupled residues (marked *) were detected.Please rerun PropKa with the --display-coupled-residues \n",
"or -d option for detailed information.\n",
"\n",
"INFO:pKa summary:\n",
"--------------------------------------------------------------------------------------------------------\n",
"SUMMARY OF THIS PREDICTION\n",
" Group pKa model-pKa ligand atom-type\n",
" ASP 25 A 5.07 3.80 \n",
" ASP 29 A 2.40 3.80 \n",
" ASP 30 A 4.77 3.80 \n",
" ASP 60 A 2.87 3.80 \n",
" ASP 25 B 9.06 3.80 \n",
" ASP 29 B 1.88 3.80 \n",
" ASP 30 B 3.98 3.80 \n",
" ASP 60 B 1.93 3.80 \n",
" GLU 21 A 4.74 4.50 \n",
" GLU 34 A 4.92 4.50 \n",
" GLU 35 A 3.66 4.50 \n",
" GLU 65 A 3.95 4.50 \n",
" GLU 21 B 4.69 4.50 \n",
" GLU 34 B 4.85 4.50 \n",
" GLU 35 B 3.81 4.50 \n",
" GLU 65 B 4.30 4.50 \n",
" C- 99 A 2.09 3.20 \n",
" C- 99 B 1.99 3.20 \n",
" HIS 69 A 6.86 6.50 \n",
" HIS 69 B 6.22 6.50 \n",
" CYS 67 A 9.73 9.00 \n",
" CYS 95 A 11.62 9.00 \n",
" CYS 67 B 9.91 9.00 \n",
" CYS 95 B 11.61 9.00 \n",
" TYR 59 A 9.70 10.00 \n",
" TYR 59 B 9.91 10.00 \n",
" LYS 14 A 10.98 10.50 \n",
" LYS 20 A 10.11 10.50 \n",
" LYS 43 A 10.62 10.50 \n",
" LYS 45 A 10.59 10.50 \n",
" LYS 55 A 10.18 10.50 \n",
" LYS 70 A 10.52 10.50 \n",
" LYS 14 B 10.48 10.50 \n",
" LYS 20 B 9.81 10.50 \n",
" LYS 43 B 11.30 10.50 \n",
" LYS 45 B 11.07 10.50 \n",
" LYS 55 B 9.85 10.50 \n",
" LYS 70 B 10.63 10.50 \n",
" ARG 8 A 14.00 12.50 \n",
" ARG 41 A 12.43 12.50 \n",
" ARG 57 A 13.76 12.50 \n",
" ARG 87 A 12.42 12.50 \n",
" ARG 8 B 13.58 12.50 \n",
" ARG 41 B 12.43 12.50 \n",
" ARG 57 B 14.02 12.50 \n",
" ARG 87 B 12.48 12.50 \n",
" N+ 1 A 8.97 8.00 \n",
" N+ 1 B 8.98 8.00 \n",
"\n",
"INFO:PROPKA information:\n",
"--------------------------------------------------------------------------------------------------------\n",
"Free energy of folding (kcal/mol) as a function of pH (using neutral reference)\n",
" 0.00 1.19\n",
" 1.00 0.95\n",
" 2.00 -0.66\n",
" 3.00 -5.03\n",
" 4.00 -8.31\n",
" 5.00 -7.39\n",
" 6.00 -5.57\n",
" 7.00 -3.97\n",
" 8.00 -1.81\n",
" 9.00 1.62\n",
" 10.00 4.93\n",
" 11.00 7.83\n",
" 12.00 10.43\n",
" 13.00 13.15\n",
" 14.00 16.19\n",
"\n",
"The pH of optimum stability is 4.2 for which the free energy is -8.4 kcal/mol at 298K\n",
"The free energy is within 80 % of maximum at pH 3.4 to 5.3\n",
"The free energy is negative in the range 1.8 - 8.5\n",
"\n",
"\n",
"Protein charge of folded and unfolded state as a function of pH\n",
" pH unfolded folded\n",
" 0.00 24.00 23.95\n",
" 0.10 24.00 23.94\n",
" 0.20 24.00 23.92\n",
" 0.30 23.99 23.90\n",
" 0.40 23.99 23.88\n",
" 0.50 23.99 23.85\n",
" 0.60 23.99 23.81\n",
" 0.70 23.99 23.76\n",
" 0.80 23.98 23.71\n",
" 0.90 23.98 23.64\n",
" 1.00 23.97 23.55\n",
" 1.10 23.97 23.45\n",
" 1.20 23.96 23.33\n",
" 1.30 23.94 23.18\n",
" 1.40 23.93 23.01\n",
" 1.50 23.91 22.81\n",
" 1.60 23.89 22.59\n",
" 1.70 23.86 22.34\n",
" 1.80 23.83 22.07\n",
" 1.90 23.78 21.77\n",
" 2.00 23.73 21.46\n",
" 2.10 23.66 21.14\n",
" 2.20 23.58 20.82\n",
" 2.30 23.48 20.49\n",
" 2.40 23.36 20.17\n",
" 2.50 23.21 19.85\n",
" 2.60 23.02 19.53\n",
" 2.70 22.81 19.23\n",
" 2.80 22.55 18.92\n",
" 2.90 22.24 18.63\n",
" 3.00 21.89 18.33\n",
" 3.10 21.48 18.03\n",
" 3.20 21.01 17.72\n",
" 3.30 20.49 17.40\n",
" 3.40 19.91 17.07\n",
" 3.50 19.27 16.72\n",
" 3.60 18.58 16.35\n",
" 3.70 17.84 15.96\n",
" 3.80 17.07 15.55\n",
" 3.90 16.26 15.12\n",
" 4.00 15.44 14.68\n",
" 4.10 14.61 14.21\n",
" 4.20 13.78 13.73\n",
" 4.30 12.96 13.25\n",
" 4.40 12.17 12.75\n",
" 4.50 11.41 12.25\n",
" 4.60 10.69 11.75\n",
" 4.70 10.02 11.25\n",
" 4.80 9.41 10.76\n",
" 4.90 8.85 10.29\n",
" 5.00 8.36 9.84\n",
" 5.10 7.93 9.42\n",
" 5.20 7.56 9.03\n",
" 5.30 7.23 8.67\n",
" 5.40 6.95 8.35\n",
" 5.50 6.70 8.05\n",
" 5.60 6.49 7.79\n",
" 5.70 6.29 7.55\n",
" 5.80 6.12 7.33\n",
" 5.90 5.95 7.13\n",
" 6.00 5.79 6.95\n",
" 6.10 5.64 6.78\n",
" 6.20 5.48 6.62\n",
" 6.30 5.33 6.46\n",
" 6.40 5.17 6.32\n",
" 6.50 5.02 6.17\n",
" 6.60 4.87 6.04\n",
" 6.70 4.72 5.91\n",
" 6.80 4.57 5.79\n",
" 6.90 4.42 5.67\n",
" 7.00 4.28 5.57\n",
" 7.10 4.15 5.47\n",
" 7.20 4.01 5.37\n",
" 7.30 3.87 5.28\n",
" 7.40 3.72 5.20\n",
" 7.50 3.57 5.12\n",
" 7.60 3.41 5.04\n",
" 7.70 3.24 4.96\n",
" 7.80 3.05 4.88\n",
" 7.90 2.85 4.79\n",
" 8.00 2.64 4.69\n",
" 8.10 2.42 4.58\n",
" 8.20 2.18 4.45\n",
" 8.30 1.92 4.31\n",
" 8.40 1.65 4.13\n",
" 8.50 1.36 3.93\n",
" 8.60 1.05 3.70\n",
" 8.70 0.73 3.44\n",
" 8.80 0.38 3.13\n",
" 8.90 0.02 2.79\n",
" 9.00 -0.36 2.41\n",
" 9.10 -0.76 1.99\n",
" 9.20 -1.18 1.54\n",
" 9.30 -1.62 1.03\n",
" 9.40 -2.07 0.49\n",
" 9.50 -2.55 -0.09\n",
" 9.60 -3.07 -0.71\n",
" 9.70 -3.62 -1.37\n",
" 9.80 -4.21 -2.06\n",
" 9.90 -4.84 -2.79\n",
" 10.00 -5.52 -3.53\n",
" 10.10 -6.25 -4.29\n",
" 10.20 -7.02 -5.06\n",
" 10.30 -7.82 -5.83\n",
" 10.40 -8.64 -6.59\n",
" 10.50 -9.47 -7.35\n",
" 10.60 -10.28 -8.09\n",
" 10.70 -11.07 -8.82\n",
" 10.80 -11.81 -9.52\n",
" 10.90 -12.50 -10.19\n",
" 11.00 -13.14 -10.84\n",
" 11.10 -13.72 -11.46\n",
" 11.20 -14.24 -12.05\n",
" 11.30 -14.72 -12.62\n",
" 11.40 -15.15 -13.16\n",
" 11.50 -15.56 -13.67\n",
" 11.60 -15.95 -14.16\n",
" 11.70 -16.33 -14.63\n",
" 11.80 -16.72 -15.08\n",
" 11.90 -17.12 -15.51\n",
" 12.00 -17.53 -15.94\n",
" 12.10 -17.96 -16.35\n",
" 12.20 -18.42 -16.75\n",
" 12.30 -18.90 -17.14\n",
" 12.40 -19.38 -17.52\n",
" 12.50 -19.87 -17.89\n",
" 12.60 -20.36 -18.25\n",
" 12.70 -20.83 -18.59\n",
" 12.80 -21.27 -18.92\n",
" 12.90 -21.67 -19.23\n",
" 13.00 -22.04 -19.53\n",
" 13.10 -22.36 -19.81\n",
" 13.20 -22.64 -20.09\n",
" 13.30 -22.89 -20.37\n",
" 13.40 -23.09 -20.64\n",
" 13.50 -23.26 -20.92\n",
" 13.60 -23.40 -21.19\n",
" 13.70 -23.52 -21.46\n",
" 13.80 -23.61 -21.72\n",
" 13.90 -23.69 -21.98\n",
" 14.00 -23.75 -22.23\n",
"The pI is 9.48 (folded) and 8.90 (unfolded)\n",
"\n",
"--------------------------------------------------------------------------------------------------------\n",
"INFO:Applying pKa values at a pH of 7.40:\n",
"INFO:Adding hydrogens to biomolecule.\n",
"INFO:Debumping biomolecule (again).\n",
"INFO:Optimizing hydrogen bonds\n",
"INFO:Applying force field to biomolecule states.\n",
"INFO:Regenerating headers.\n",
"INFO:Regenerating PDB lines.\n",
"WARNING:Ignoring 465 header lines in output.\n",
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
" File \"/usr/local/bin/prepare_receptor4.py\", line 22\n",
" print \"Usage: prepare_receptor4.py -r filename\"\n",
" ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
"SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Let's make a folder first. We need to import the os and path library\n",
"import os\n",
"from pathlib import Path\n",
"\n",
"#We will first create a path for all ligands that we will use in this tutorial\n",
"#Notice that the HOME folder for a hosted runtime in colab is /content/\n",
"ligandpath = Path(\"/content/ligands/\")\n",
"\n",
"#Now, we create the folder using the os.mkdir() command\n",
"#The if conditional is just to check whether the folder already exists\n",
"#In which case, python returns an error\n",
"if os.path.exists(ligandpath):\n",
" print(\"ligand path already exists\")\n",
"if not os.path.exists(ligandpath):\n",
" os.mkdir(ligandpath)\n",
" print(\"ligand path was succesfully created\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "O1MwqlOLpD0N",
"outputId": "87f15261-d84a-4f89-c88c-e647a3e61f26"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"ligand path was succesfully created\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Downloading Indinavir from the DrugBank database in SMILES format\n",
"!wget https://www.drugbank.ca/structures/small_molecule_drugs/DB00224.smiles -P $ligandpath"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "S3iNAs7ApD3F",
"outputId": "74ff3cd7-842d-492e-dff2-f2f5656182fc"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"--2023-08-14 12:29:22-- https://www.drugbank.ca/structures/small_molecule_drugs/DB00224.smiles\n",
"Resolving www.drugbank.ca (www.drugbank.ca)... 172.66.43.123, 172.66.40.133, 2606:4700:3108::ac42:2885, ...\n",
"Connecting to www.drugbank.ca (www.drugbank.ca)|172.66.43.123|:443... connected.\n",
"HTTP request sent, awaiting response... 301 Moved Permanently\n",
"Location: https://go.drugbank.com/structures/small_molecule_drugs/DB00224.smiles [following]\n",
"--2023-08-14 12:29:23-- https://go.drugbank.com/structures/small_molecule_drugs/DB00224.smiles\n",
"Resolving go.drugbank.com (go.drugbank.com)... 172.66.41.6, 172.66.42.250, 2606:4700:3108::ac42:2afa, ...\n",
"Connecting to go.drugbank.com (go.drugbank.com)|172.66.41.6|:443... connected.\n",
"HTTP request sent, awaiting response... 200 OK\n",
"Length: unspecified [text/plain]\n",
"Saving to: ‘/content/ligands/DB00224.smiles’\n",
"\n",
"\rDB00224.smiles [<=> ] 0 --.-KB/s \rDB00224.smiles [ <=> ] 106 --.-KB/s in 0s \n",
"\n",
"2023-08-14 12:29:23 (16.0 MB/s) - ‘/content/ligands/DB00224.smiles’ saved [106]\n",
"\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Print the SMILES of indinavir to see what it is all about\n",
"print((ligandpath / \"DB00224.smiles\").read_text())"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "VU0haDYKpD52",
"outputId": "bccb0dff-b4fc-4933-9d22-9b716c472b93"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"CC(C)(C)NC(=O)[C@@H]1CN(CC2=CN=CC=C2)CCN1C[C@@H](O)C[C@@H](CC1=CC=CC=C1)C(=O)N[C@@H]1[C@H](O)CC2=CC=CC=C12\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"pip install rdkit"
],
"metadata": {
"id": "2mvv_bSxpQBj"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"#Use the following viewer to load your SMILES as a 3D molecule\n",
"import py3Dmol\n",
"import kora.install.rdkit\n",
"from rdkit import Chem\n",
"from rdkit.Chem import AllChem\n",
"\n",
"def MolTo3DView(mol, size=(300, 300), style=\"stick\", surface=False, opacity=0.5):\n",
" assert style in ('line', 'stick', 'sphere', 'carton')\n",
" mblock = Chem.MolToMolBlock(mol)\n",
" viewer = py3Dmol.view()\n",
" viewer.addModel(mblock, 'mol')\n",
" viewer.setStyle({style:{}})\n",
" if surface:\n",
" viewer.addSurface(py3Dmol.SAS, {'opacity': opacity})\n",
" viewer.zoomTo()\n",
" return viewer\n",
"\n",
"from ipywidgets import interact,fixed,IntSlider\n",
"import ipywidgets\n",
"\n",
"def smi2conf(smiles):\n",
" '''Convert SMILES to rdkit.Mol with 3D coordinates'''\n",
" mol = Chem.MolFromSmiles(smiles)\n",
" if mol is not None:\n",
" mol = Chem.AddHs(mol)\n",
" AllChem.EmbedMolecule(mol)\n",
" AllChem.MMFFOptimizeMolecule(mol, maxIters=200)\n",
" return mol\n",
" else:\n",
" return None\n",
"\n",
"@interact\n",
"def smi2viewer(smi='CC=O'):\n",
" try:\n",
" conf = smi2conf(smi)\n",
" return MolTo3DView(conf).show()\n",
" except:\n",
" return None"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 530,
"referenced_widgets": [
"fb47bc921582481195e31ffcdc9e7ca3",
"1315e38e446f41c9bf46265629138ac3",
"c86f621144444309bde15c50ad66d44a",
"82a2c22fa7544a6cb6648a201fc98157",
"df47fbddb0854829870b53759653de4e",
"9944e9d56ead4cf19ee908975b85f331",
"0f8cb25d37bf493fa78cbd943995181a"
]
},
"id": "5yYeKbgkpNXL",
"outputId": "44aa36a7-4b43-461e-e16a-32883df1315f"
},
"execution_count": null,
"outputs": [
{
"output_type": "display_data",
"data": {
"text/plain": [
"interactive(children=(Text(value='CC=O', description='smi'), Output()), _dom_classes=('widget-interact',))"
],
"application/vnd.jupyter.widget-view+json": {
"version_major": 2,
"version_minor": 0,
"model_id": "fb47bc921582481195e31ffcdc9e7ca3"
}
},
"metadata": {}
}
]
},
{
"cell_type": "code",
"source": [
"#Converting Indinavir from SMILES into a 3D PDB format\n",
"!obabel $ligandpath/DB00224.smiles -O indinavir.mol2 --gen3d best -p 7.4 --canonical"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "DVgL1V7supW9",
"outputId": "1150d818-8ae2-4e74-916f-e2e0c4cec699"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"1 molecule converted\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Parameterizing and adding Gasteiger charges into our protein using MGLtools\n",
"#Adding -z leads to a rigid ligand without any torsions\n",
"!prepare_ligand4.py -l indinavir.mol2 -o $singlepath/indinavir.pdbqt -U nphs_lps -v\n",
"#NOTE: for some reason, MGLtools does not recognize the ligand when inside a different folder\n",
"#Here we are deleting the temporary PDB file required for generating the PDBQT file\n",
"os.remove(\"indinavir.mol2\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "YSc_XK0RwSfM",
"outputId": "0de529a6-9bc2-4c6b-88bf-376c0b5509f7"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
" File \"/usr/local/bin/prepare_ligand4.py\", line 22\n",
" print \"Usage: prepare_ligand4.py -l filename\"\n",
" ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
"SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Converting Indinavir from SMILES into a 3D MOL2 format and perform an energy minimization of the conformer using the GAFF forcefield\n",
"#Then, prepare ligand for docking using the Autodock script\n",
"!obabel $ligandpath/DB00224.smiles -O indinavir.mol2 --gen3d --best --canonical --minimize --ff GAFF --steps 10000 --sd\n",
"!prepare_ligand4.py -l indinavir.mol2 -o $singlepath/indinavir.pdbqt -U nphs_lps -v\n",
"os.remove(\"indinavir.mol2\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "wEFfFxVQwSzp",
"outputId": "6e042253-f3e3-4e23-c8a5-dda73f0b3ea9"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"1 molecule converted\n",
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
" File \"/usr/local/bin/prepare_ligand4.py\", line 22\n",
" print \"Usage: prepare_ligand4.py -l filename\"\n",
" ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
"SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Converting Indinavir from SMILES into a 3D MOL2 format and perform a weighted rotor search for lowest energy conformer\n",
"#Then, prepare ligand for docking using the Autodock script\n",
"!obabel $ligandpath/DB00224.smiles -O indinavir.mol2 --gen3d --best --canonical --conformers --weighted --nconf 50 --ff GAFF\n",
"!prepare_ligand4.py -l indinavir.mol2 -o $singlepath/indinavir.pdbqt -U nphs_lps -v\n",
"os.remove(\"indinavir.mol2\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "8ZnHCj6nwVTC",
"outputId": "ea44b2f6-6893-4573-99e2-6bbe98cbcf4c"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"1 molecule converted\n",
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
" File \"/usr/local/bin/prepare_ligand4.py\", line 22\n",
" print \"Usage: prepare_ligand4.py -l filename\"\n",
" ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
"SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#These definitions will enable loading our protein and then\n",
"#drawing a box with a given size and centroid on the cartesian space\n",
"#This box will enable us to set up the system coordinates for the simulation\n",
"#\n",
"#HINT: The active site of the HIV-2 protease is near the beta strands in green\n",
"#\n",
"#ACKNOWLEDGE: This script is largely based on the one created by Jose Manuel\n",
"#Napoles Duarte, Physics Teacher at the Chemical Sciences Faculty of the\n",
"#Autonomous University of Chihuahua (https://github.com/napoles-uach)\n",
"#\n",
"#First, we define the grid box\n",
"def definegrid(object,bxi,byi,bzi,bxf,byf,bzf):\n",
" object.addBox({'center':{'x':bxi,'y':byi,'z':bzi},'dimensions': {'w':bxf,'h':byf,'d':bzf},'color':'blue','opacity': 0.6})\n",
"\n",
"#Next, we define how the protein will be shown in py3Dmol\n",
"#Note that we are also adding a style representation for active site residues\n",
"def viewprot(object,prot_PDBfile,resids):\n",
" mol1 = open(prot_PDBfile, 'r').read()\n",
" object.addModel(mol1,'pdb')\n",
" object.setStyle({'cartoon': {'color':'spectrum'}})\n",
" object.addStyle({'resi':resids},{'stick':{'colorscheme':'greenCarbon'}})\n",
"\n",
"#Lastly, we combine the box grid and protein into a single viewer\n",
"def viewprotgrid(prot_PDBfile,resids,bxi,byi,bzi,bxf=10,byf=10,bzf=10):\n",
" mol_view = py3Dmol.view(1000,600)\n",
" definegrid(mol_view,bxi,byi,bzi,bxf,byf,bzf)\n",
" viewprot(mol_view,prot_PDBfile,resids)\n",
" mol_view.setBackgroundColor('0xffffff')\n",
" mol_view.zoomTo()\n",
" mol_view.show()"
],
"metadata": {
"id": "WfIZOwnkwVYd"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"from ipywidgets import interact,fixed,IntSlider\n",
"import ipywidgets\n",
"interact(viewprotgrid,\n",
"#ADD YOUR PDB LOCATION AND FILENAME HERE\n",
" prot_PDBfile = ['1hsg_prot.pdb'],\n",
"#ADD THE RESIDUES YOU WANT TO VISUALIZE HERE\n",
" resids = ['82-84'],\n",
" bxi=ipywidgets.IntSlider(min=-100,max=100, step=1),\n",
" byi=ipywidgets.IntSlider(min=-100,max=100, step=1),\n",
" bzi=ipywidgets.IntSlider(min=-100,max=100, step=1),\n",
" bxf=ipywidgets.IntSlider(min=0,max=30, step=1),\n",
" byf=ipywidgets.IntSlider(min=0,max=30, step=1),\n",
" bzf=ipywidgets.IntSlider(min=0,max=30, step=1))"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 770,
"referenced_widgets": [
"0e1846c70f1242858719c53a327f7c09",
"c2c13b24a15a46e3aab32983993b0422",
"d1a5f1e66d4b45ebabe869fa26214719",
"d7b39183eb3d43478dcdcb1644235ff7",
"6eb353da6b784f8ebcbbb2291a6f1bb5",
"72400e6d11974a749918d839dd7c59b2",
"1c2d371f8cb24192b62e68a116622b15",
"e6cdfce6a0a24eb682e9077d6b337630",
"f7c0553f30244bfb9ac1eaa720377d2c",
"5ff9d1252684405abb7b97a9af1d63dc",
"9e5622d030fc41b393eae56d7f3e9ff8",
"6cb6398733b54b82b1ee1fb91bf65d38",
"cbec1944ecf34ee794011acc6f9a5179",
"cb8adc663fe547728a22a228d19c4652",
"5b7dcb65b5ac43b79f43bb74eac080a6",
"a3d02c55b5bb498a91800ab52076f3d4",
"dddebb1abc9240e1a66c9b3714f45dec",
"ecd256738fd54b26a5c49d6c0496816b",
"65e37280bb0a433396d3579c162e008b",
"448fddd4faee4b68bb169aa875228779",
"4c9dc07c23c04fee851fa5ba118f9b99",
"4f1308cffb2a4ba29a2a873890bc744b",
"ec8d1fda9ec843ed89753cadd19a7d44",
"58bc7df83fe14722a9a0f647e91b0941",
"1bbeea8d2a08410bb9fbe5a6b310bef2",
"13c3c4d0632047308e967040cb85ddd9",
"5d5a23e1fa2e49b98b1af4c3bb10575c",
"61845f063a354dd897135e72e4ceadbe"
]
},
"id": "N17htxTWx1a2",
"outputId": "deb04753-0cb8-42f1-985a-13ec74a8a842"
},
"execution_count": null,
"outputs": [
{
"output_type": "display_data",
"data": {
"text/plain": [
"interactive(children=(Dropdown(description='prot_PDBfile', options=('1hsg_prot.pdb',), value='1hsg_prot.pdb'),…"
],
"application/vnd.jupyter.widget-view+json": {
"version_major": 2,
"version_minor": 0,
"model_id": "0e1846c70f1242858719c53a327f7c09"
}
},
"metadata": {}
},
{
"output_type": "execute_result",
"data": {
"text/plain": [
"<function __main__.viewprotgrid(prot_PDBfile, resids, bxi, byi, bzi, bxf=10, byf=10, bzf=10)>"
]
},
"metadata": {},
"execution_count": 26
}
]
},
{
"cell_type": "code",
"source": [
"with open(singlepath / \"config_singledock\",\"w\") as f:\n",
" f.write(\"#CONFIGURATION FILE (options not used are commented) \\n\")\n",
" f.write(\"\\n\")\n",
" f.write(\"#INPUT OPTIONS \\n\")\n",
" f.write(\"receptor = 1hsg_prot.pdbqt \\n\")\n",
" f.write(\"ligand = indinavir.pdbqt \\n\")\n",
" f.write(\"#flex = [flexible residues in receptor in pdbqt format] \\n\")\n",
" f.write(\"#SEARCH SPACE CONFIGURATIONS \\n\")\n",
" f.write(\"#Center of the box (values bxi, byi and bzi) \\n\")\n",
"#CHANGE THE FOLLOWING DATA WITH YOUR BOX CENTER COORDINATES\n",
" f.write(\"center_x = CHANGEME \\n\")\n",
" f.write(\"center_y = CHANGEME \\n\")\n",
" f.write(\"center_z = CHANGEME \\n\")\n",
"#CHANGE THE FOLLOWING DATA WITH YOUR BOX DIMENSIONS\n",
" f.write(\"#Size of the box (values bxf, byf and bzf) \\n\")\n",
" f.write(\"size_x = CHANGEME \\n\")\n",
" f.write(\"size_y = CHANGEME \\n\")\n",
" f.write(\"size_z = CHANGEME \\n\")\n",
" f.write(\"#OUTPUT OPTIONS \\n\")\n",
" f.write(\"#out = \\n\")\n",
" f.write(\"#log = \\n\")\n",
" f.write(\"\\n\")\n",
" f.write(\"#OTHER OPTIONS \\n\")\n",
" f.write(\"#cpu = \\n\")\n",
" f.write(\"#exhaustiveness = \\n\")\n",
" f.write(\"#num_modes = \\n\")\n",
" f.write(\"#energy_range = \\n\")\n",
" f.write(\"#seed = \")"
],
"metadata": {
"id": "bop4QGsqwilQ"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"#Changing directory to the single docking folder\n",
"os.chdir(singlepath)\n",
"#Executing AutoDock Vina with our configuration file\n",
"%vina --config config_singledock --out output.pdbqt --log log.txt\n",
"#Exiting the execution directory\n",
"os.chdir(\"/content/\")"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "chJejQnvx7k9",
"outputId": "4a952e96-2e93-463c-9070-79f851fed950"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"Configuration file parse error: in option 'center_x': invalid option value 'CHANGEME'\n",
"\n",
"Correct usage:\n",
"\n",
"Input:\n",
" --receptor arg rigid part of the receptor (PDBQT)\n",
" --flex arg flexible side chains, if any (PDBQT)\n",
" --ligand arg ligand (PDBQT)\n",
"\n",
"Search space (required):\n",
" --center_x arg X coordinate of the center\n",
" --center_y arg Y coordinate of the center\n",
" --center_z arg Z coordinate of the center\n",
" --size_x arg size in the X dimension (Angstroms)\n",
" --size_y arg size in the Y dimension (Angstroms)\n",
" --size_z arg size in the Z dimension (Angstroms)\n",
"\n",
"Output (optional):\n",
" --out arg output models (PDBQT), the default is chosen based on \n",
" the ligand file name\n",
" --log arg optionally, write log file\n",
"\n",
"Misc (optional):\n",
" --cpu arg the number of CPUs to use (the default is to try to\n",
" detect the number of CPUs or, failing that, use 1)\n",
" --seed arg explicit random seed\n",
" --exhaustiveness arg (=8) exhaustiveness of the global search (roughly \n",
" proportional to time): 1+\n",
" --num_modes arg (=9) maximum number of binding modes to generate\n",
" --energy_range arg (=3) maximum energy difference between the best binding \n",
" mode and the worst one displayed (kcal/mol)\n",
"\n",
"Configuration file (optional):\n",
" --config arg the above options can be put here\n",
"\n",
"Information (optional):\n",
" --help display usage summary\n",
" --help_advanced display usage summary with advanced options\n",
" --version display program version\n",
"\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Here, we will be extracting Indinavir, which is present in the structure of\n",
"#HIV-2 protease (yes! this is a simulation with experimental validation!)\n",
"#The approach is similar to printing the ATOM and TER lines, but we are using\n",
"#the residue name given to the ligand in the experimentally solved structure: MK1\n",
"protein = \"1hsg_prot.pdb\"\n",
"\n",
"with open(singlepath/\"xtal_ligand.pdb\",\"w\") as g:\n",
" f = open(protein,'r')\n",
" for line in f:\n",
" row = line.split()\n",
" if \"MK1\" in row:\n",
" g.write(line)\n",
" g.write(\"END\")"
],
"metadata": {
"id": "H5t5vbwrx-Hw"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"#We need to convert our Autodock Vina results from pdbqt into pdb\n",
"#For this, we use babel\n",
"!obabel -ipdbqt $singlepath/output.pdbqt -opdb -O $singlepath/indinavir_dock.pdb -m"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "rnroLQ0ZyImF",
"outputId": "4e97df21-29cc-4423-becf-f378ccc4e9d3"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"/bin/bash: /usr/local/lib/libtinfo.so.6: no version information available (required by /bin/bash)\n",
"==============================\n",
"*** Open Babel Error in OpenAndSetFormat\n",
" Cannot open /content/single-dock/output.pdbqt\n",
"0 molecules converted\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"view=py3Dmol.view()\n",
"view.setBackgroundColor('white')\n",
"#Loading the target protein as PDB file\n",
"view.addModel(open(singlepath/'1hsg_prot.pdb', 'r').read(),'pdb')\n",
"view.setStyle({'cartoon': {'color':'spectrum'}})\n",
"view.zoomTo()\n",
"#Loading the docking pose\n",
"view.addModel(open(singlepath/'indinavir_dock1.pdb', 'r').read(),'pdb')\n",
"view.setStyle({'model':1},{'stick':{'colorscheme':'greenCarbon'}})\n",
"#Loading the experimentally solved binding mode\n",
"view.addModel(open(singlepath/'xtal_ligand.pdb', 'r').read(),'pdb')\n",
"view.setStyle({'resn':'MK1'},{'stick':{}})\n",
"view.show()"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 248
},
"id": "Wb-WBwG5yL0b",
"outputId": "0a8db289-12a9-48b7-ac08-3de57dd6f6dd"
},
"execution_count": null,
"outputs": [
{
"output_type": "error",
"ename": "FileNotFoundError",
"evalue": "ignored",
"traceback": [
"\u001b[0;31m---------------------------------------------------------------------------\u001b[0m",
"\u001b[0;31mFileNotFoundError\u001b[0m Traceback (most recent call last)",
"\u001b[0;32m<ipython-input-32-620db6ef3c96>\u001b[0m in \u001b[0;36m<cell line: 4>\u001b[0;34m()\u001b[0m\n\u001b[1;32m 2\u001b[0m \u001b[0mview\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0msetBackgroundColor\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m'white'\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 3\u001b[0m \u001b[0;31m#Loading the target protein as PDB file\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m----> 4\u001b[0;31m \u001b[0mview\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0maddModel\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mopen\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0msinglepath\u001b[0m\u001b[0;34m/\u001b[0m\u001b[0;34m'1hsg_prot.pdb'\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0;34m'r'\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mread\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m'pdb'\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 5\u001b[0m \u001b[0mview\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0msetStyle\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m{\u001b[0m\u001b[0;34m'cartoon'\u001b[0m\u001b[0;34m:\u001b[0m \u001b[0;34m{\u001b[0m\u001b[0;34m'color'\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m'spectrum'\u001b[0m\u001b[0;34m}\u001b[0m\u001b[0;34m}\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 6\u001b[0m \u001b[0mview\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mzoomTo\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n",
"\u001b[0;31mFileNotFoundError\u001b[0m: [Errno 2] No such file or directory: '/content/single-dock/1hsg_prot.pdb'"
]
}
]
},
{
"cell_type": "code",
"source": [
"!./smina.static -r protein.pdbqt -l ligand.pdbqt --autobox_ligand ligand.pdbqt --autobox_add 8 --exhaustiveness 16 -o out.pdbqt"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "yFEpGq-IdSy1",
"outputId": "0220b475-a27d-428f-da2a-77f41f1dc806"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
" _______ _______ _________ _ _______ \n",
" ( ____ \\( )\\__ __/( ( /|( ___ )\n",
" | ( \\/| () () | ) ( | \\ ( || ( ) |\n",
" | (_____ | || || | | | | \\ | || (___) |\n",
" (_____ )| |(_)| | | | | (\\ \\) || ___ |\n",
" ) || | | | | | | | \\ || ( ) |\n",
" /\\____) || ) ( |___) (___| ) \\ || ) ( |\n",
" \\_______)|/ \\|\\_______/|/ )_)|/ \\|\n",
"\n",
"\n",
"smina is based off AutoDock Vina. Please cite appropriately.\n",
"\n",
"Weights Terms\n",
"-0.035579 gauss(o=0,_w=0.5,_c=8)\n",
"-0.005156 gauss(o=3,_w=2,_c=8)\n",
"0.840245 repulsion(o=0,_c=8)\n",
"-0.035069 hydrophobic(g=0.5,_b=1.5,_c=8)\n",
"-0.587439 non_dir_h_bond(g=-0.7,_b=0,_c=8)\n",
"1.923 num_tors_div\n",
"\n",
"Using random seed: 1818875544\n",
"\n",
"0% 10 20 30 40 50 60 70 80 90 100%\n",
"|----|----|----|----|----|----|----|----|----|----|\n",
"***************************************************\n",
"\n",
"mode | affinity | dist from best mode\n",
" | (kcal/mol) | rmsd l.b.| rmsd u.b.\n",
"-----+------------+----------+----------\n",
"1 -0.0 0.000 0.000 \n",
"2 0.0 6.921 10.487 \n",
"3 0.0 8.550 11.777 \n",
"4 0.0 6.068 7.431 \n",
"5 0.0 6.175 9.588 \n",
"6 0.0 6.976 9.093 \n",
"7 0.0 5.493 8.512 \n",
"8 0.0 7.598 9.007 \n",
"9 0.0 6.048 8.841 \n",
"Refine time 201.773\n",
"Loop time 201.870\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"#Download and extract Autodock Vina from SCRIPPS\n",
"#Then, we set up an alias for vina to be treated as a native binary\n",
"%%bash\n",
"wget https://vina.scripps.edu/wp-content/uploads/sites/55/2020/12/autodock_vina_1_1_2_linux_x86.tgz\n",
"tar xzvf autodock_vina_1_1_2_linux_x86.tgz"
],
"metadata": {
"id": "Ga3zjly_qENa"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"%alias vina /content/autodock_vina_1_1_2_linux_x86/bin/vina\n",
"%alias vina_split /content/autodock_vina_1_1_2_linux_x86/bin/vina_split"
],
"metadata": {
"id": "mnzr1_LFqF6j"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"def split_sdf_file(sdf_path):\n",
" \"\"\"\n",
" Split an SDF file into seperate files for each molecule.\n",
" Each file is named with consecutive numbers.\n",
"\n",
" Parameters\n",
" ----------\n",
" sdf_path: str or pathlib.Path\n",
" Path to SDF file that should be split.\n",
" \"\"\"\n",
" sdf_path = Path(sdf_path)\n",
" stem = sdf_path.stem\n",
" parent = sdf_path.parent\n",
" molecules = pybel.readfile(\"sdf\", str(sdf_path))\n",
" for i, molecule in enumerate(molecules, 1):\n",
" molecule.write(\"sdf\", str(parent / f\"{stem}_{i}.sdf\"), overwrite=True)\n",
" return"
],
"metadata": {
"id": "mDRURl4Wevzi"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"!obabel out.pdbqt -O out.sdf"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/"
},
"id": "_XH3BJMqe66c",
"outputId": "510d9646-a4c1-42d3-8f89-0b3803425ca9"
},
"execution_count": null,
"outputs": [
{
"output_type": "stream",
"name": "stdout",
"text": [
"9 molecules converted\n"
]
}
]
},
{
"cell_type": "code",
"source": [
"split_sdf_file(\"out.sdf\")"
],
"metadata": {
"id": "xdHasYW5fEnT"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"from google.colab import output\n",
"output.enable_custom_widget_manager()"
],
"metadata": {
"id": "7aR6DP42fOZh"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"docking_pose_id = 1\n",
"view = nv.show_structure_file(\n",
" str(f\"out_{docking_pose_id}.sdf\"),\n",
" representations=[{\"params\": {}, \"type\": \"licorice\"}],\n",
")\n",
"view.add_pdbid(pdb_id)\n",
"view"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 317,
"referenced_widgets": [
"fb26796187134ab89ed5b871c55d2bad",
"ff5003b902e74adbb73b0e3dd5db04dd",
"d2f6005b0da5479a9320b19e576b9f60",
"2aa807c9f8e8411f91f6e81c0c5e99d7",
"1d18f0b333e746618e4daeb49d87c533",
"77521be07ec04fc8a4defe952c946332",
"226cfe6b0c84406384cc13a2cbdefd63",
"4a183d863cb94139831dc66acb610128",
"3f79a1b2ec30427f9b561656329bb937",
"dd5a6dc4d9674441a72dd33983ec0baf",
"71453a348921450f9f0204fe5a996fa0",
"816c25864abb4aa09ff8f8d2576dce03",
"a13895f7079a4c5f98537691efbb82a6"
]
},
"id": "VMqhfsLgfI0h",
"outputId": "436b15db-0913-4ea0-c8fc-d7a005c30e69"
},
"execution_count": null,
"outputs": [
{
"output_type": "display_data",
"data": {
"text/plain": [
"NGLWidget()"
],
"application/vnd.jupyter.widget-view+json": {
"version_major": 2,
"version_minor": 0,
"model_id": "fb26796187134ab89ed5b871c55d2bad"
}
},
"metadata": {
"application/vnd.jupyter.widget-view+json": {
"colab": {
"custom_widget_manager": {
"url": "https://ssl.gstatic.com/colaboratory-static/widgets/colab-cdn-widget-manager/b3e629b1971e1542/manager.min.js"
}
}
}
}
}
]
},
{
"cell_type": "code",
"source": [
"view.render_image(trim=True, factor=2);"
],
"metadata": {
"id": "OkppISrffUT6"
},
"execution_count": null,
"outputs": []
},
{
"cell_type": "code",
"source": [
"view._display_image()"
],
"metadata": {
"colab": {
"base_uri": "https://localhost:8080/",
"height": 511
},
"id": "Yfo1nvuyfVvo",
"outputId": "43095a09-f564-42e6-afa0-b1358e94e789"
},
"execution_count": null,
"outputs": [
{
"output_type": "execute_result",
"data": {
"image/png": 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\n",
"text/plain": [
"<IPython.core.display.Image object>"
]
},
"metadata": {},
"execution_count": 61
}
]
},
{
"cell_type": "code",
"source": [
"from google.colab import output\n",
"output.disable_custom_widget_manager()"
],
"metadata": {
"id": "bqRaFGL-fOZi"
},
"execution_count": null,
"outputs": []
}
]
}