From aaf3aad294c3fafa5dc1b7b7bfbbe5dfc53e0011 Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Fri, 14 Feb 2025 14:01:05 -0800 Subject: [PATCH 1/8] Remove logging info, remove energy_func from input_kwargs to allow self.copy() (RotEns) --- src/chilife/RotamerEnsemble.py | 11 ++--------- 1 file changed, 2 insertions(+), 9 deletions(-) diff --git a/src/chilife/RotamerEnsemble.py b/src/chilife/RotamerEnsemble.py index 9521ed2..9d0e133 100644 --- a/src/chilife/RotamerEnsemble.py +++ b/src/chilife/RotamerEnsemble.py @@ -4,7 +4,6 @@ from copy import deepcopy from functools import partial from pathlib import Path -import logging import numpy as np from numpy.typing import ArrayLike from itertools import combinations @@ -117,7 +116,7 @@ def __init__(self, res, site=None, protein=None, chain=None, rotlib=None, **kwar site = 1 icode = "" elif isinstance(site, str): - site_split = re.split('(\D+)',site) + site_split = re.split(r'(\D+)',site) site = site_split[0] icode = site_split[1] if len(site_split) > 1 else "" else: @@ -132,6 +131,7 @@ def __init__(self, res, site=None, protein=None, chain=None, rotlib=None, **kwar self.nataa = "" self.input_kwargs = kwargs self.__dict__.update(assign_defaults(kwargs)) + self.input_kwargs.pop('energy_func', None) self.protein = protein # Convert string arguments for alignment_method to respective function @@ -979,11 +979,6 @@ def trim_rotamers(self, keep_idx: ArrayLike = None) -> None: # normalize weights self.weights /= self.weights.sum() - logging.info( - f"{len(self.weights)} of {len(self._weights)} {self.res} rotamers make up at least " - f"{100 * (1-self.trim_tol):.2f}% of rotamer density for site {self.site}" - ) - @property def centroid(self): """Get the centroid of the whole rotamer ensemble.""" @@ -997,7 +992,6 @@ def evaluate(self): # Calculate total weights (combining internal and external) self.weights, self.partition = scoring.reweight_rotamers(energies, self.temp, self.weights) - logging.info(f"Relative partition function: {self.partition:.3}") # Remove low-weight rotamers from ensemble if self._do_trim: @@ -1070,7 +1064,6 @@ def get_lib(self, rotlib): self.Phi, self.Psi = Phi, Psi # Get library - logging.info(f"Using backbone dependent library with Phi={Phi}, Psi={Psi}") cwd = Path().cwd() was_none = True if rotlib is None else False From c7c0c396beb76df4d4dab13b81fcb7436ee0db30 Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Fri, 14 Feb 2025 14:02:52 -0800 Subject: [PATCH 2/8] Bump version --- src/chilife/__init__.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/src/chilife/__init__.py b/src/chilife/__init__.py index 518ea62..5a526ff 100644 --- a/src/chilife/__init__.py +++ b/src/chilife/__init__.py @@ -26,4 +26,4 @@ # SpinLabel = SpinLabel.SpinLabel # dSpinLabel = dSpinLabel.dSpinLabel -__version__ = '1.1.2' +__version__ = '1.1.3' From df6549d6654f7e2067fff85a2df45a585e2713d6 Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Fri, 14 Feb 2025 16:38:35 -0800 Subject: [PATCH 3/8] Update test --- tests/test_data/cnct.pdb | 272 +++++++++++++++++++-------------------- 1 file changed, 136 insertions(+), 136 deletions(-) diff --git a/tests/test_data/cnct.pdb b/tests/test_data/cnct.pdb index 58738e8..0cbbbe5 100644 --- a/tests/test_data/cnct.pdb +++ b/tests/test_data/cnct.pdb @@ -2840,27 +2840,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.116 1.325 -2.287 0.00 1.00 S -ATOM 6 SD R1M A 1 2.154 2.892 -1.383 0.00 1.00 S -ATOM 7 CE R1M A 1 3.935 2.498 -1.778 0.00 1.00 C -ATOM 8 C3 R1M A 1 4.552 3.662 -2.493 0.00 1.00 C -ATOM 9 C4 R1M A 1 4.986 4.792 -1.909 0.00 1.00 C -ATOM 10 C2 R1M A 1 4.764 3.692 -4.003 0.00 1.00 C -ATOM 11 C5 R1M A 1 5.570 5.786 -2.880 0.00 1.00 C -ATOM 12 N1 R1M A 1 5.399 5.032 -4.150 0.00 1.00 N -ATOM 13 C9 R1M A 1 5.726 2.618 -4.542 0.00 1.00 C -ATOM 14 C8 R1M A 1 3.443 3.672 -4.795 0.00 1.00 C -ATOM 15 C7 R1M A 1 7.065 6.065 -2.640 0.00 1.00 C -ATOM 16 C6 R1M A 1 4.780 7.105 -2.949 0.00 1.00 C -ATOM 17 O1 R1M A 1 5.747 5.500 -5.271 0.00 1.00 O -TER -ENDMDL -MODEL 136 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 2.858 0.071 -0.247 0.00 1.00 S ATOM 6 SD R1M A 1 3.352 -1.950 -0.102 0.00 1.00 S ATOM 7 CE R1M A 1 4.291 -2.268 -1.684 0.00 1.00 C @@ -2876,6 +2855,27 @@ ATOM 16 C6 R1M A 1 4.223 -6.895 -3.057 0.00 1.00 C ATOM 17 O1 R1M A 1 2.284 -5.502 -4.846 0.00 1.00 O TER ENDMDL +MODEL 136 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.116 1.325 -2.287 0.00 1.00 S +ATOM 6 SD R1M A 1 2.154 2.892 -1.383 0.00 1.00 S +ATOM 7 CE R1M A 1 3.935 2.498 -1.778 0.00 1.00 C +ATOM 8 C3 R1M A 1 4.552 3.662 -2.493 0.00 1.00 C +ATOM 9 C4 R1M A 1 4.986 4.792 -1.909 0.00 1.00 C +ATOM 10 C2 R1M A 1 4.764 3.692 -4.003 0.00 1.00 C +ATOM 11 C5 R1M A 1 5.570 5.786 -2.880 0.00 1.00 C +ATOM 12 N1 R1M A 1 5.399 5.032 -4.150 0.00 1.00 N +ATOM 13 C9 R1M A 1 5.726 2.618 -4.542 0.00 1.00 C +ATOM 14 C8 R1M A 1 3.443 3.672 -4.795 0.00 1.00 C +ATOM 15 C7 R1M A 1 7.065 6.065 -2.640 0.00 1.00 C +ATOM 16 C6 R1M A 1 4.780 7.105 -2.949 0.00 1.00 C +ATOM 17 O1 R1M A 1 5.747 5.500 -5.271 0.00 1.00 O +TER +ENDMDL MODEL 137 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3155,27 +3155,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.073 -1.209 -2.370 0.00 1.00 S -ATOM 6 SD R1M A 1 2.695 -0.675 -3.567 0.00 1.00 S -ATOM 7 CE R1M A 1 1.996 0.682 -4.642 0.00 1.00 C -ATOM 8 C3 R1M A 1 3.047 1.725 -4.868 0.00 1.00 C -ATOM 9 C4 R1M A 1 3.417 2.663 -3.980 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.836 1.840 -6.169 0.00 1.00 C -ATOM 11 C5 R1M A 1 4.508 3.572 -4.485 0.00 1.00 C -ATOM 12 N1 R1M A 1 4.713 2.998 -5.841 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.715 0.621 -6.501 0.00 1.00 C -ATOM 14 C8 R1M A 1 2.952 2.205 -7.377 0.00 1.00 C -ATOM 15 C7 R1M A 1 5.813 3.466 -3.673 0.00 1.00 C -ATOM 16 C6 R1M A 1 4.067 5.043 -4.604 0.00 1.00 C -ATOM 17 O1 R1M A 1 5.553 3.470 -6.659 0.00 1.00 O -TER -ENDMDL -MODEL 151 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 1.310 1.513 -2.056 0.00 1.00 S ATOM 6 SD R1M A 1 -0.353 1.333 -3.301 0.00 1.00 S ATOM 7 CE R1M A 1 0.349 1.685 -4.994 0.00 1.00 C @@ -3191,6 +3170,27 @@ ATOM 16 C6 R1M A 1 4.145 -0.869 -6.535 0.00 1.00 C ATOM 17 O1 R1M A 1 1.742 -2.440 -7.347 0.00 1.00 O TER ENDMDL +MODEL 151 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.073 -1.209 -2.370 0.00 1.00 S +ATOM 6 SD R1M A 1 2.695 -0.675 -3.567 0.00 1.00 S +ATOM 7 CE R1M A 1 1.996 0.682 -4.642 0.00 1.00 C +ATOM 8 C3 R1M A 1 3.047 1.725 -4.868 0.00 1.00 C +ATOM 9 C4 R1M A 1 3.417 2.663 -3.980 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.836 1.840 -6.169 0.00 1.00 C +ATOM 11 C5 R1M A 1 4.508 3.572 -4.485 0.00 1.00 C +ATOM 12 N1 R1M A 1 4.713 2.998 -5.841 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.715 0.621 -6.501 0.00 1.00 C +ATOM 14 C8 R1M A 1 2.952 2.205 -7.377 0.00 1.00 C +ATOM 15 C7 R1M A 1 5.813 3.466 -3.673 0.00 1.00 C +ATOM 16 C6 R1M A 1 4.067 5.043 -4.604 0.00 1.00 C +ATOM 17 O1 R1M A 1 5.553 3.470 -6.659 0.00 1.00 O +TER +ENDMDL MODEL 152 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3596,27 +3596,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.113 -1.261 -2.325 0.00 1.00 S -ATOM 6 SD R1M A 1 3.119 -1.786 -2.538 0.00 1.00 S -ATOM 7 CE R1M A 1 3.304 -3.226 -1.363 0.00 1.00 C -ATOM 8 C3 R1M A 1 2.849 -4.481 -2.042 0.00 1.00 C -ATOM 9 C4 R1M A 1 1.575 -4.899 -2.131 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.808 -5.448 -2.729 0.00 1.00 C -ATOM 11 C5 R1M A 1 1.419 -6.196 -2.883 0.00 1.00 C -ATOM 12 N1 R1M A 1 2.840 -6.469 -3.222 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.570 -4.859 -3.929 0.00 1.00 C -ATOM 14 C8 R1M A 1 4.790 -6.117 -1.749 0.00 1.00 C -ATOM 15 C7 R1M A 1 0.596 -6.055 -4.176 0.00 1.00 C -ATOM 16 C6 R1M A 1 0.864 -7.341 -2.014 0.00 1.00 C -ATOM 17 O1 R1M A 1 3.203 -7.498 -3.860 0.00 1.00 O -TER -ENDMDL -MODEL 172 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 2.858 -0.057 -0.249 0.00 1.00 S ATOM 6 SD R1M A 1 3.370 1.960 -0.111 0.00 1.00 S ATOM 7 CE R1M A 1 4.094 2.327 -1.792 0.00 1.00 C @@ -3632,6 +3611,27 @@ ATOM 16 C6 R1M A 1 8.845 3.177 -1.713 0.00 1.00 C ATOM 17 O1 R1M A 1 8.548 0.393 -2.746 0.00 1.00 O TER ENDMDL +MODEL 172 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.113 -1.261 -2.325 0.00 1.00 S +ATOM 6 SD R1M A 1 3.119 -1.786 -2.538 0.00 1.00 S +ATOM 7 CE R1M A 1 3.304 -3.226 -1.363 0.00 1.00 C +ATOM 8 C3 R1M A 1 2.849 -4.481 -2.042 0.00 1.00 C +ATOM 9 C4 R1M A 1 1.575 -4.899 -2.131 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.808 -5.448 -2.729 0.00 1.00 C +ATOM 11 C5 R1M A 1 1.419 -6.196 -2.883 0.00 1.00 C +ATOM 12 N1 R1M A 1 2.840 -6.469 -3.222 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.570 -4.859 -3.929 0.00 1.00 C +ATOM 14 C8 R1M A 1 4.790 -6.117 -1.749 0.00 1.00 C +ATOM 15 C7 R1M A 1 0.596 -6.055 -4.176 0.00 1.00 C +ATOM 16 C6 R1M A 1 0.864 -7.341 -2.014 0.00 1.00 C +ATOM 17 O1 R1M A 1 3.203 -7.498 -3.860 0.00 1.00 O +TER +ENDMDL MODEL 173 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3995,19 +3995,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 0.880 -0.852 -2.594 0.00 1.00 S -ATOM 6 SD R1M A 1 2.065 0.237 -3.920 0.00 1.00 S -ATOM 7 CE R1M A 1 0.829 0.859 -5.174 0.00 1.00 C -ATOM 8 C3 R1M A 1 0.062 2.004 -4.587 0.00 1.00 C -ATOM 9 C4 R1M A 1 -0.884 1.899 -3.638 0.00 1.00 C -ATOM 10 C2 R1M A 1 0.278 3.453 -5.010 0.00 1.00 C -ATOM 11 C5 R1M A 1 -1.478 3.226 -3.234 0.00 1.00 C -ATOM 12 N1 R1M A 1 -0.708 4.133 -4.124 0.00 1.00 N -ATOM 13 C9 R1M A 1 1.683 4.008 -4.719 0.00 1.00 C -ATOM 14 C8 R1M A 1 -0.105 3.711 -6.480 0.00 1.00 C -ATOM 15 C7 R1M A 1 -1.210 3.590 -1.762 0.00 1.00 C -ATOM 16 C6 R1M A 1 -2.981 3.340 -3.552 0.00 1.00 C -ATOM 17 O1 R1M A 1 -0.888 5.384 -4.141 0.00 1.00 O +ATOM 5 SG R1M A 1 1.146 -1.301 -2.287 0.00 1.00 S +ATOM 6 SD R1M A 1 1.767 -0.271 -3.990 0.00 1.00 S +ATOM 7 CE R1M A 1 3.500 -0.911 -4.259 0.00 1.00 C +ATOM 8 C3 R1M A 1 4.413 -0.317 -3.231 0.00 1.00 C +ATOM 9 C4 R1M A 1 4.526 0.993 -2.956 0.00 1.00 C +ATOM 10 C2 R1M A 1 5.338 -1.158 -2.356 0.00 1.00 C +ATOM 11 C5 R1M A 1 5.520 1.295 -1.863 0.00 1.00 C +ATOM 12 N1 R1M A 1 5.975 -0.084 -1.544 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.619 -2.141 -1.414 0.00 1.00 C +ATOM 14 C8 R1M A 1 6.425 -1.890 -3.164 0.00 1.00 C +ATOM 15 C7 R1M A 1 4.880 1.932 -0.617 0.00 1.00 C +ATOM 16 C6 R1M A 1 6.716 2.137 -2.345 0.00 1.00 C +ATOM 17 O1 R1M A 1 6.851 -0.324 -0.665 0.00 1.00 O TER ENDMDL MODEL 191 @@ -4016,27 +4016,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 0.985 1.134 -2.444 0.00 1.00 S -ATOM 6 SD R1M A 1 1.475 2.994 -1.639 0.00 1.00 S -ATOM 7 CE R1M A 1 -0.193 3.793 -1.383 0.00 1.00 C -ATOM 8 C3 R1M A 1 -0.189 5.157 -2.002 0.00 1.00 C -ATOM 9 C4 R1M A 1 -0.263 5.414 -3.319 0.00 1.00 C -ATOM 10 C2 R1M A 1 -0.100 6.441 -1.183 0.00 1.00 C -ATOM 11 C5 R1M A 1 -0.247 6.886 -3.648 0.00 1.00 C -ATOM 12 N1 R1M A 1 -0.148 7.451 -2.277 0.00 1.00 N -ATOM 13 C9 R1M A 1 -1.282 6.679 -0.226 0.00 1.00 C -ATOM 14 C8 R1M A 1 1.235 6.580 -0.427 0.00 1.00 C -ATOM 15 C7 R1M A 1 -1.544 7.374 -4.318 0.00 1.00 C -ATOM 16 C6 R1M A 1 0.980 7.311 -4.474 0.00 1.00 C -ATOM 17 O1 R1M A 1 -0.087 8.694 -2.056 0.00 1.00 O -TER -ENDMDL -MODEL 192 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 0.906 0.982 -2.539 0.00 1.00 S ATOM 6 SD R1M A 1 1.360 2.925 -1.932 0.00 1.00 S ATOM 7 CE R1M A 1 -0.289 3.793 -2.039 0.00 1.00 C @@ -4052,25 +4031,46 @@ ATOM 16 C6 R1M A 1 -2.844 5.651 1.611 0.00 1.00 C ATOM 17 O1 R1M A 1 -0.219 7.070 1.669 0.00 1.00 O TER ENDMDL +MODEL 192 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 0.985 1.134 -2.444 0.00 1.00 S +ATOM 6 SD R1M A 1 1.475 2.994 -1.639 0.00 1.00 S +ATOM 7 CE R1M A 1 -0.193 3.793 -1.383 0.00 1.00 C +ATOM 8 C3 R1M A 1 -0.189 5.157 -2.002 0.00 1.00 C +ATOM 9 C4 R1M A 1 -0.263 5.414 -3.319 0.00 1.00 C +ATOM 10 C2 R1M A 1 -0.100 6.441 -1.183 0.00 1.00 C +ATOM 11 C5 R1M A 1 -0.247 6.886 -3.648 0.00 1.00 C +ATOM 12 N1 R1M A 1 -0.148 7.451 -2.277 0.00 1.00 N +ATOM 13 C9 R1M A 1 -1.282 6.679 -0.226 0.00 1.00 C +ATOM 14 C8 R1M A 1 1.235 6.580 -0.427 0.00 1.00 C +ATOM 15 C7 R1M A 1 -1.544 7.374 -4.318 0.00 1.00 C +ATOM 16 C6 R1M A 1 0.980 7.311 -4.474 0.00 1.00 C +ATOM 17 O1 R1M A 1 -0.087 8.694 -2.056 0.00 1.00 O +TER +ENDMDL MODEL 193 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.146 -1.301 -2.287 0.00 1.00 S -ATOM 6 SD R1M A 1 1.767 -0.271 -3.990 0.00 1.00 S -ATOM 7 CE R1M A 1 3.500 -0.911 -4.259 0.00 1.00 C -ATOM 8 C3 R1M A 1 4.413 -0.317 -3.231 0.00 1.00 C -ATOM 9 C4 R1M A 1 4.526 0.993 -2.956 0.00 1.00 C -ATOM 10 C2 R1M A 1 5.338 -1.158 -2.356 0.00 1.00 C -ATOM 11 C5 R1M A 1 5.520 1.295 -1.863 0.00 1.00 C -ATOM 12 N1 R1M A 1 5.975 -0.084 -1.544 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.619 -2.141 -1.414 0.00 1.00 C -ATOM 14 C8 R1M A 1 6.425 -1.890 -3.164 0.00 1.00 C -ATOM 15 C7 R1M A 1 4.880 1.932 -0.617 0.00 1.00 C -ATOM 16 C6 R1M A 1 6.716 2.137 -2.345 0.00 1.00 C -ATOM 17 O1 R1M A 1 6.851 -0.324 -0.665 0.00 1.00 O +ATOM 5 SG R1M A 1 0.880 -0.852 -2.594 0.00 1.00 S +ATOM 6 SD R1M A 1 2.065 0.237 -3.920 0.00 1.00 S +ATOM 7 CE R1M A 1 0.829 0.859 -5.174 0.00 1.00 C +ATOM 8 C3 R1M A 1 0.062 2.004 -4.587 0.00 1.00 C +ATOM 9 C4 R1M A 1 -0.884 1.899 -3.638 0.00 1.00 C +ATOM 10 C2 R1M A 1 0.278 3.453 -5.010 0.00 1.00 C +ATOM 11 C5 R1M A 1 -1.478 3.226 -3.234 0.00 1.00 C +ATOM 12 N1 R1M A 1 -0.708 4.133 -4.124 0.00 1.00 N +ATOM 13 C9 R1M A 1 1.683 4.008 -4.719 0.00 1.00 C +ATOM 14 C8 R1M A 1 -0.105 3.711 -6.480 0.00 1.00 C +ATOM 15 C7 R1M A 1 -1.210 3.590 -1.762 0.00 1.00 C +ATOM 16 C6 R1M A 1 -2.981 3.340 -3.552 0.00 1.00 C +ATOM 17 O1 R1M A 1 -0.888 5.384 -4.141 0.00 1.00 O TER ENDMDL MODEL 194 @@ -4352,19 +4352,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.067 -1.200 -2.378 0.00 1.00 S -ATOM 6 SD R1M A 1 0.409 -0.016 -3.963 0.00 1.00 S -ATOM 7 CE R1M A 1 -1.113 -0.918 -4.557 0.00 1.00 C -ATOM 8 C3 R1M A 1 -2.282 0.019 -4.541 0.00 1.00 C -ATOM 9 C4 R1M A 1 -2.354 1.184 -5.203 0.00 1.00 C -ATOM 10 C2 R1M A 1 -3.556 -0.258 -3.749 0.00 1.00 C -ATOM 11 C5 R1M A 1 -3.660 1.911 -5.004 0.00 1.00 C -ATOM 12 N1 R1M A 1 -4.348 0.955 -4.097 0.00 1.00 N -ATOM 13 C9 R1M A 1 -4.333 -1.511 -4.192 0.00 1.00 C -ATOM 14 C8 R1M A 1 -3.323 -0.286 -2.227 0.00 1.00 C -ATOM 15 C7 R1M A 1 -4.472 2.070 -6.304 0.00 1.00 C -ATOM 16 C6 R1M A 1 -3.499 3.270 -4.300 0.00 1.00 C -ATOM 17 O1 R1M A 1 -5.507 1.165 -3.641 0.00 1.00 O +ATOM 5 SG R1M A 1 1.119 -1.268 -2.318 0.00 1.00 S +ATOM 6 SD R1M A 1 0.510 -0.169 -3.982 0.00 1.00 S +ATOM 7 CE R1M A 1 2.127 0.346 -4.760 0.00 1.00 C +ATOM 8 C3 R1M A 1 2.119 1.826 -4.985 0.00 1.00 C +ATOM 9 C4 R1M A 1 1.228 2.493 -5.739 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.148 2.767 -4.367 0.00 1.00 C +ATOM 11 C5 R1M A 1 1.464 3.982 -5.774 0.00 1.00 C +ATOM 12 N1 R1M A 1 2.665 4.071 -4.900 0.00 1.00 N +ATOM 13 C9 R1M A 1 3.133 2.817 -2.828 0.00 1.00 C +ATOM 14 C8 R1M A 1 4.578 2.512 -4.878 0.00 1.00 C +ATOM 15 C7 R1M A 1 0.313 4.796 -5.156 0.00 1.00 C +ATOM 16 C6 R1M A 1 1.805 4.510 -7.180 0.00 1.00 C +ATOM 17 O1 R1M A 1 3.243 5.166 -4.649 0.00 1.00 O TER ENDMDL MODEL 208 @@ -4394,19 +4394,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.119 -1.268 -2.318 0.00 1.00 S -ATOM 6 SD R1M A 1 0.510 -0.169 -3.982 0.00 1.00 S -ATOM 7 CE R1M A 1 2.127 0.346 -4.760 0.00 1.00 C -ATOM 8 C3 R1M A 1 2.119 1.826 -4.985 0.00 1.00 C -ATOM 9 C4 R1M A 1 1.228 2.493 -5.739 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.148 2.767 -4.367 0.00 1.00 C -ATOM 11 C5 R1M A 1 1.464 3.982 -5.774 0.00 1.00 C -ATOM 12 N1 R1M A 1 2.665 4.071 -4.900 0.00 1.00 N -ATOM 13 C9 R1M A 1 3.133 2.817 -2.828 0.00 1.00 C -ATOM 14 C8 R1M A 1 4.578 2.512 -4.878 0.00 1.00 C -ATOM 15 C7 R1M A 1 0.313 4.796 -5.156 0.00 1.00 C -ATOM 16 C6 R1M A 1 1.805 4.510 -7.180 0.00 1.00 C -ATOM 17 O1 R1M A 1 3.243 5.166 -4.649 0.00 1.00 O +ATOM 5 SG R1M A 1 1.067 -1.200 -2.378 0.00 1.00 S +ATOM 6 SD R1M A 1 0.409 -0.016 -3.963 0.00 1.00 S +ATOM 7 CE R1M A 1 -1.113 -0.918 -4.557 0.00 1.00 C +ATOM 8 C3 R1M A 1 -2.282 0.019 -4.541 0.00 1.00 C +ATOM 9 C4 R1M A 1 -2.354 1.184 -5.203 0.00 1.00 C +ATOM 10 C2 R1M A 1 -3.556 -0.258 -3.749 0.00 1.00 C +ATOM 11 C5 R1M A 1 -3.660 1.911 -5.004 0.00 1.00 C +ATOM 12 N1 R1M A 1 -4.348 0.955 -4.097 0.00 1.00 N +ATOM 13 C9 R1M A 1 -4.333 -1.511 -4.192 0.00 1.00 C +ATOM 14 C8 R1M A 1 -3.323 -0.286 -2.227 0.00 1.00 C +ATOM 15 C7 R1M A 1 -4.472 2.070 -6.304 0.00 1.00 C +ATOM 16 C6 R1M A 1 -3.499 3.270 -4.300 0.00 1.00 C +ATOM 17 O1 R1M A 1 -5.507 1.165 -3.641 0.00 1.00 O TER ENDMDL MODEL 210 From 640f7dc50b2d57ac526f84a8260af955747c9b06 Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Sat, 15 Feb 2025 12:29:01 -0800 Subject: [PATCH 4/8] Refactor mutate. Clean up repack code. Fix broken test --- src/chilife/chilife.py | 42 +++++------------------ src/chilife/protein_utils.py | 61 +++++++++++++++++++++++++--------- tests/test_data/mutate_dSL.pdb | 6 ---- 3 files changed, 55 insertions(+), 54 deletions(-) diff --git a/src/chilife/chilife.py b/src/chilife/chilife.py index bb0fafe..b2bbde2 100644 --- a/src/chilife/chilife.py +++ b/src/chilife/chilife.py @@ -1482,9 +1482,7 @@ def repack( if repack_radius is None: repack_radius = max([SL.clash_radius for SL in spin_labels]) # Construct a new spin labeled protein and preallocate variables to retain monte carlo trajectory - spin_label_str = " or ".join( - f"( {spin_label.selstr} )" for spin_label in spin_labels - ) + spin_label_str = " or ".join(f"( {spin_label.selstr} )" for spin_label in spin_labels) protein = mutate(protein, *spin_labels, **kwargs).atoms # Determine the residues near the spin label that will be repacked @@ -1518,43 +1516,31 @@ def repack( traj = np.empty((repetitions, *protein.positions.shape)) deltaEs = [] - sample_freq = np.array( - [len(res.dihedral_atoms) for res in repack_residue_libraries], dtype=np.float64 - ) + + sample_freq = np.array([len(res.dihedral_atoms) for res in repack_residue_libraries], dtype=np.float64) mean = sample_freq[sample_freq > 1].mean() sample_freq[sample_freq == 1] = mean sample_freq /= sample_freq.sum() - count = 0 - acount = 0 - bcount = 0 - bidx = 0 + count, acount, bcount, bidx = 0, 0, 0, 0 schedule = repetitions / (len(temp) + 1) with tqdm(total=repetitions) as pbar: while count < repetitions: # Randomly select a residue from the repacked residues - SiteLibrary = repack_residue_libraries[ - np.random.choice(len(repack_residue_libraries), p=sample_freq) - ] + SiteLibrary = repack_residue_libraries[np.random.choice(len(repack_residue_libraries), p=sample_freq)] if not hasattr(SiteLibrary, "dummy_label"): SiteLibrary.dummy_label = SiteLibrary.copy() SiteLibrary.dummy_label._protein = protein - SiteLibrary.dummy_label.mask = np.isin( - protein.ix, SiteLibrary.clash_ignore_idx - ) - SiteLibrary.dummy_label._coords = np.atleast_3d( - [protein.atoms[SiteLibrary.dummy_label.mask].positions] - ) + SiteLibrary.dummy_label.mask = np.isin(protein.ix, SiteLibrary.clash_ignore_idx) + SiteLibrary.dummy_label._coords = np.atleast_3d([protein.atoms[SiteLibrary.dummy_label.mask].positions]) with np.errstate(divide="ignore"): SiteLibrary.dummy_label.E0 = energy_func(SiteLibrary.dummy_label) - \ KT[temp[bidx]] * np.log(SiteLibrary.current_weight) DummyLabel = SiteLibrary.dummy_label - coords, weight = SiteLibrary.sample(off_rotamer=off_rotamer) - with np.errstate(divide="ignore"): DummyLabel._coords = np.atleast_3d([coords]) E1 = energy_func(DummyLabel) - KT[temp[bidx]] * np.log(weight) @@ -1564,18 +1550,10 @@ def repack( acount += 1 # Metropolis-Hastings criteria - if (E1 < DummyLabel.E0 or np.exp(-deltaE / KT[temp[bidx]]) > np.random.rand()): deltaEs.append(deltaE) - try: - protein.atoms[DummyLabel.mask].positions = coords - DummyLabel.E0 = E1 - - except ValueError as err: - print(SiteLibrary.name) - print(SiteLibrary.atom_names) - - raise ValueError(err) + protein.atoms[DummyLabel.mask].positions = coords + DummyLabel.E0 = E1 traj[count] = protein.atoms.positions SiteLibrary.update_weight(weight) @@ -1585,8 +1563,6 @@ def repack( if bcount > schedule: bcount = 0 bidx = np.minimum(bidx + 1, len(temp) - 1) - else: - continue logging.info(f"Total counts: {acount}") diff --git a/src/chilife/protein_utils.py b/src/chilife/protein_utils.py index fa6c67d..b536410 100644 --- a/src/chilife/protein_utils.py +++ b/src/chilife/protein_utils.py @@ -480,8 +480,9 @@ def mutate( *ensembles: 'RotamerEnsemble', add_missing_atoms: bool = True, rotamer_index: Union[int, str, None] = None, - ignore_waters = True -) -> MDAnalysis.Universe: + use_H: bool = None, + ignore_waters: bool = None + ) -> MDAnalysis.Universe: """Create a new Universe where the native residue is replaced with the highest probability rotamer from a RotamerEnsemble or SpinLabel object. @@ -511,24 +512,19 @@ def mutate( if isinstance(lib, (re.RotamerEnsemble, dre.dRotamerEnsemble)): temp_ensemble.append(lib) else: - raise TypeError( - f"mutate only accepts RotamerEnsemble, SpinLabel and dSpinLabel objects, not {lib}." - ) + raise TypeError(f"mutate only accepts (d)RotamerEnsemble and (d)SpinLabel objects, not {lib}.") ensembles = temp_ensemble if add_missing_atoms: - if len(ensembles) > 0 and all(not hasattr(lib, "H_mask") for lib in ensembles): - use_H = True - elif any(not hasattr(lib, "H_mask") for lib in ensembles): - raise AttributeError( - "User provided some ensembles with hydrogen atoms and some without. Make sure all " - "ensembles either do or do not use hydrogen" - ) - else: - use_H = False + use_H = use_H if use_H is not None else param_from_rotlibs('use_H', ensembles) + ignore_waters = ignore_waters if ignore_waters is not None else param_from_rotlibs('ignore_waters', ensembles) + + missing_residues = get_missing_residues(protein, + ignore={res.site for res in ensembles}, + use_H=use_H, + ignore_waters=ignore_waters) - missing_residues = get_missing_residues(protein, ignore={res.site for res in ensembles}, use_H=use_H, ignore_waters=ignore_waters) ensembles = list(ensembles) + missing_residues label_sites = {} @@ -671,6 +667,41 @@ def randomize_rotamers( protein.atoms[~mask].positions = coords +def param_from_rotlibs(param: str, ensembles: List['RotamerEnsemble']): + """ + Get the value of a parameter used across a set of rotamer ensembles if that parameter is consistent. If the + parameter is not the same value for all rotamer ensembles, an AttributeError will be thrown. + Parameters + ---------- + param : str + The name of the parameter. + ensembles : List[RotamerEnsembles] + The rotamer ensembles to search for the parameter int + + Returns + ------- + param_value: Any + The value of the parameter across all the rotamer libarries. + """ + # If there are no residues being mutated just return defaults + if len(ensembles) == 0: + defaults = {} + defaults.update(re.assign_defaults(defaults)) + return defaults[param] + + # Otherise check to make sure they are all the same + ensemble_params = [getattr(ensemble, param, None) for ensemble in ensembles] + if all(e == ensemble_params[0] for e in ensemble_params[1:]): + param_value = ensemble_params[0] + return param_value + + # And return an error if they are not + else: + raise AttributeError(f"User provided ensembles with different {param} parameters. Make sure all " + f"ensembles use the same value for {param}") + + + def get_sas_res( protein: Union[mda.Universe, mda.AtomGroup], cutoff: float = 30, diff --git a/tests/test_data/mutate_dSL.pdb b/tests/test_data/mutate_dSL.pdb index b274197..e3f8faa 100644 --- a/tests/test_data/mutate_dSL.pdb +++ b/tests/test_data/mutate_dSL.pdb @@ -456,10 +456,4 @@ ATOM 454 CG GLU A 56 14.232 -4.803 -3.291 1.00 1.00 C ATOM 455 CD GLU A 56 14.363 -3.443 -2.631 1.00 1.00 C ATOM 456 OE1 GLU A 56 15.479 -2.991 -2.314 1.00 1.00 O ATOM 457 OE2 GLU A 56 13.303 -2.811 -2.442 1.00 1.00 O -ATOM 458 H GLU A 56 16.960 -7.985 -5.406 1.00 1.00 H -ATOM 459 HA GLU A 56 14.709 -7.633 -3.576 1.00 1.00 H -ATOM 460 3HB GLU A 56 16.099 -5.720 -2.644 1.00 1.00 H -ATOM 461 2HB GLU A 56 16.193 -4.992 -4.232 1.00 1.00 H -ATOM 462 2HG GLU A 56 13.536 -5.385 -2.665 1.00 1.00 H -ATOM 463 3HG GLU A 56 13.679 -4.577 -4.218 1.00 1.00 H TER From 168bfc2bf4eeafa9665343b17d6f0056abd4552e Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Mon, 17 Feb 2025 11:27:52 -0800 Subject: [PATCH 5/8] Add 2 new examples --- .../.AR1A.xtc_offsets.lock | 0 .../.AR1A.xtc_offsets.npz | Bin 0 -> 2908 bytes .../12 - Analyzing MD Simulations.ipynb | 139 ++ .../1ubq_A28CYR.pdb | 1259 +++++++++++++++++ .../12 - Analyzing MD simulations/AR1A.pdb | 102 ++ .../12 - Analyzing MD simulations/AR1A.xtc | Bin 0 -> 75108 bytes .../13 - OpenMM Score Function.ipynb | 225 +++ .../13 - OpenMM score function/system.pdb | 1234 ++++++++++++++++ 8 files changed, 2959 insertions(+) create mode 100644 examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.lock create mode 100644 examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz create mode 100644 examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb create mode 100644 examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb create mode 100644 examples/12 - Analyzing MD simulations/AR1A.pdb create mode 100644 examples/12 - Analyzing MD simulations/AR1A.xtc create mode 100644 examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb create mode 100644 examples/13 - OpenMM score function/system.pdb diff --git a/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.lock b/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.lock new file mode 100644 index 00000000..e69de29 diff --git a/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz b/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz new file mode 100644 index 0000000000000000000000000000000000000000..d42e9cc40a3a0f18043a68b5f4688629bfb3dbd0 GIT binary patch literal 2908 zcmciE0dSjR9LMoDUDl>;MmO0O+sxZ(B}l0Wt%=jQn9`cqWtjD}y(V2s)J3(2Iqg+j~qi)`J-}mjUy}8@ryt(&2dEPhAoB#7Z z&->obQ8q(cAh6{M>zso9fU;!^2BD$0*6$AZPp$WD&PI=yJ=)S5$lbZt1w+Q|)t0ZS&GIiYzBt#LePA z-m;Xs1)GL%!8DA|z%eaa($TBbAJfqu$;7;Dbm_5k77iVSh8%Rv#_$|W9D};KSUL|| z=VPA{g#~C^h`~kJeH@N2MyrUvT-?0`M^8XYK6*~Xm_EAU@7XXSbipk&%#6z3TLBj83xb6ZX1rDi`MhdTY_E7F?Bwg?dZAyqbqReLNr{2 z&WkZphW+KJTZ#5dG33CW%Wz^97CSMx8snGa*cE75gWjt!wiZ(rC|->fmDo{*gVkuL zL5B-l-I%CFtp`i$FnA5duf=gMTI$i$fSo=}UWZ0MUKzml>v6CN4MB8nz{p1I--PcHq-n7kW}QFPvm?f2op{iuHcOCQ9Rhp=}iPCSgok76K(@yBrNaV+dY?-Lk% z5=Wjw@oB7h2BXhnGLFXQ(D^(@y0QNS)W3w~Js5r&6R)7Q7fW8l=GU?N4IJ;o!Z*?T z7Iq~t^)}|cgH`<)eHVw`L*oEC-^cI=*#9BwK0^D)82SWzhHzpJ7JrI?B<}tUQ=g+a zj1^yE$5%M87xiCb={MN=E%v2Q_zrE~V{jDXKj8R}XdOe}PuR5&M}9`}7p(XdJAT8# z{b=|d9e-eW0uz6t_5j)i&A~4%8th9$trl%FF_4b&3>?#8VHSF`F{a1VEHodDo*d=; zY#f<`c?NXN#hvqTcs?4BMaKdRFT}(m)Go%7$$Q2ve)yS5~w|tv*w#z9vw&ezJV!{U)d$ zzWmxF3poEl`AyNayE3-zSw3|LU90YCQ->g@wED{GK*RdUl&0Q$)x!^>?thyDoAj(W z$~0*OLIIDDK+u#^q`YS7u+GSb9zU4@yP>|cb(ir*+QCpsi`i->AmDhm*-U8 uGu1AVAYq)m@)7AOhun5Y+01nLvRdi$h2**{x%C&A@3wvb literal 0 HcmV?d00001 diff --git a/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb b/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb new file mode 100644 index 00000000..cc98480 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb @@ -0,0 +1,139 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "e61814d1b09f68d6", + "metadata": {}, + "source": [ + "# Analyzing MD simulations" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "635b8ce8-68d6-49e1-83ed-eda68ebba1e9", + "metadata": { + "jupyter": { + "is_executing": true + } + }, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "C:\\Program Files\\Python312\\Lib\\site-packages\\tqdm\\auto.py:21: TqdmWarning: IProgress not found. Please update jupyter and ipywidgets. See https://ipywidgets.readthedocs.io/en/stable/user_install.html\n", + " from .autonotebook import tqdm as notebook_tqdm\n" + ] + } + ], + "source": [ + "import numpy as np\n", + "import matplotlib.pyplot as plt\n", + "import chilife as xl " + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "2531db84-2221-49a5-bd59-db9051c5bb79", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Rotamer ensemble with 237 members\n", + " Name: 2CYR_from_traj\n", + " Label: CYR\n", + " Site: 2\n", + " Dihedral definitions:\n", + " ['N', 'CA', 'CB', 'SG']\n", + " ['CA', 'CB', 'SG', 'S1L']\n", + " ['CB', 'SG', 'S1L', 'C1L']\n", + " ['SG', 'S1L', 'C1L', 'C1R']\n", + " ['S1L', 'C1L', 'C1R', 'C2R']\n", + " spin atoms:\n", + " ['NN' 'ON']\n" + ] + } + ], + "source": [ + "traj = xl.load_protein('AR1A.pdb', 'AR1A.xtc')\n", + "SL = xl.SpinLabel.from_trajectory(traj, 2, spin_atoms = ['NN', 'ON'], use_H=True)\n", + "print(SL)" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "48c7f84b-693e-4319-b074-2699ddee22ed", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, axs = plt.subplots(1, 5, figsize=(15,3), subplot_kw=dict(projection=\"polar\"))\n", + "\n", + "for i, ax in enumerate(axs):\n", + " ax.hist(np.deg2rad(SL.dihedrals[:,i]), bins = np.linspace(-np.pi, np.pi, 37))\n", + " ax.set_yticklabels([])\n", + "plt.tight_layout()\n", + "plt.show()\n" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "3c117cd4-724d-45bd-84b3-fb42f76f4151", + "metadata": {}, + "outputs": [], + "source": [ + "SL.to_rotlib('CYR', 'Cstom MTSL (R1) rotamer library', \"An MTSL/R1 rotamer library made with well tempered metadynamics\") " + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "c0175707-43fb-4d45-9f5e-1d0fbaf75a45", + "metadata": {}, + "outputs": [], + "source": [ + "prot = xl.fetch('1ubq')\n", + "\n", + "SL = xl.SpinLabel('CYR', 28, prot)\n", + "xl.save(prot, SL)\n" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": " Python 3.12", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.12.3" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb b/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb new file mode 100644 index 00000000..f7e0a71 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb @@ -0,0 +1,1259 @@ +HEADER 1ubq +ATOM 1 N MET A 1 27.340 24.430 2.614 1.00 1.00 N +ATOM 2 CA MET A 1 26.266 25.413 2.842 1.00 1.00 C +ATOM 3 C MET A 1 26.913 26.639 3.531 1.00 1.00 C +ATOM 4 O MET A 1 27.886 26.463 4.263 1.00 1.00 O +ATOM 5 CB MET A 1 25.112 24.880 3.649 1.00 1.00 C +ATOM 6 CG MET A 1 25.353 24.860 5.134 1.00 1.00 C +ATOM 7 SD MET A 1 23.930 23.959 5.904 1.00 1.00 S +ATOM 8 CE MET A 1 24.447 23.984 7.620 1.00 1.00 C +ATOM 9 N GLN A 2 26.335 27.770 3.258 1.00 1.00 N +ATOM 10 CA GLN A 2 26.850 29.021 3.898 1.00 1.00 C +ATOM 11 C GLN A 2 26.100 29.253 5.202 1.00 1.00 C +ATOM 12 O GLN A 2 24.865 29.024 5.330 1.00 1.00 O +ATOM 13 CB GLN A 2 26.733 30.148 2.905 1.00 1.00 C +ATOM 14 CG GLN A 2 26.882 31.546 3.409 1.00 1.00 C +ATOM 15 CD GLN A 2 26.786 32.562 2.270 1.00 1.00 C +ATOM 16 OE1 GLN A 2 27.783 33.160 1.870 1.00 1.00 O +ATOM 17 NE2 GLN A 2 25.562 32.733 1.806 1.00 1.00 N +ATOM 18 N ILE A 3 26.849 29.656 6.217 1.00 1.00 N +ATOM 19 CA ILE A 3 26.235 30.058 7.497 1.00 1.00 C +ATOM 20 C ILE A 3 26.882 31.428 7.862 1.00 1.00 C +ATOM 21 O ILE A 3 27.906 31.711 7.264 1.00 1.00 O +ATOM 22 CB ILE A 3 26.344 29.050 8.645 1.00 1.00 C +ATOM 23 CG1 ILE A 3 27.810 28.748 8.999 1.00 1.00 C +ATOM 24 CG2 ILE A 3 25.491 27.771 8.287 1.00 1.00 C +ATOM 25 CD1 ILE A 3 27.967 28.087 10.417 1.00 1.00 C +ATOM 26 N PHE A 4 26.214 32.097 8.771 1.00 1.00 N +ATOM 27 CA PHE A 4 26.772 33.436 9.197 1.00 1.00 C +ATOM 28 C PHE A 4 27.151 33.362 10.650 1.00 1.00 C +ATOM 29 O PHE A 4 26.350 32.778 11.395 1.00 1.00 O +ATOM 30 CB PHE A 4 25.695 34.498 8.946 1.00 1.00 C +ATOM 31 CG PHE A 4 25.288 34.609 7.499 1.00 1.00 C +ATOM 32 CD1 PHE A 4 24.147 33.966 7.038 1.00 1.00 C +ATOM 33 CD2 PHE A 4 26.136 35.346 6.640 1.00 1.00 C +ATOM 34 CE1 PHE A 4 23.812 34.031 5.677 1.00 1.00 C +ATOM 35 CE2 PHE A 4 25.810 35.392 5.267 1.00 1.00 C +ATOM 36 CZ PHE A 4 24.620 34.778 4.853 1.00 1.00 C +ATOM 37 N VAL A 5 28.260 33.943 11.096 1.00 1.00 N +ATOM 38 CA VAL A 5 28.605 33.965 12.503 1.00 1.00 C +ATOM 39 C VAL A 5 28.638 35.461 12.900 1.00 1.00 C +ATOM 40 O VAL A 5 29.522 36.103 12.320 1.00 1.00 O +ATOM 41 CB VAL A 5 29.963 33.317 12.814 1.00 1.00 C +ATOM 42 CG1 VAL A 5 30.211 33.394 14.304 1.00 1.00 C +ATOM 43 CG2 VAL A 5 29.957 31.838 12.352 1.00 1.00 C +ATOM 44 N LYS A 6 27.751 35.867 13.740 1.00 1.00 N +ATOM 45 CA LYS A 6 27.691 37.315 14.143 1.00 1.00 C +ATOM 46 C LYS A 6 28.469 37.475 15.420 1.00 1.00 C +ATOM 47 O LYS A 6 28.213 36.753 16.411 1.00 1.00 O +ATOM 48 CB LYS A 6 26.219 37.684 14.307 1.00 1.00 C +ATOM 49 CG LYS A 6 25.884 39.139 14.615 1.00 1.00 C +ATOM 50 CD LYS A 6 24.348 39.296 14.642 1.00 1.00 C +ATOM 51 CE LYS A 6 23.865 40.723 14.749 1.00 1.00 C +ATOM 52 NZ LYS A 6 22.375 40.720 14.907 1.00 1.00 N +ATOM 53 N THR A 7 29.426 38.430 15.446 1.00 1.00 N +ATOM 54 CA THR A 7 30.225 38.643 16.662 1.00 1.00 C +ATOM 55 C THR A 7 29.664 39.839 17.434 1.00 1.00 C +ATOM 56 O THR A 7 28.850 40.565 16.859 1.00 1.00 O +ATOM 57 CB THR A 7 31.744 38.879 16.299 1.00 1.00 C +ATOM 58 OG1 THR A 7 31.737 40.257 15.824 1.00 1.00 O +ATOM 59 CG2 THR A 7 32.260 37.969 15.171 1.00 1.00 C +ATOM 60 N LEU A 8 30.132 40.069 18.642 1.00 1.00 N +ATOM 61 CA LEU A 8 29.607 41.180 19.467 1.00 1.00 C +ATOM 62 C LEU A 8 30.075 42.538 18.984 1.00 1.00 C +ATOM 63 O LEU A 8 29.586 43.570 19.483 1.00 1.00 O +ATOM 64 CB LEU A 8 29.919 40.890 20.938 1.00 1.00 C +ATOM 65 CG LEU A 8 29.183 39.722 21.581 1.00 1.00 C +ATOM 66 CD1 LEU A 8 29.308 39.750 23.095 1.00 1.00 C +ATOM 67 CD2 LEU A 8 27.700 39.721 21.228 1.00 1.00 C +ATOM 68 N THR A 9 30.991 42.571 17.998 1.00 1.00 N +ATOM 69 CA THR A 9 31.422 43.940 17.553 1.00 1.00 C +ATOM 70 C THR A 9 30.755 44.351 16.277 1.00 1.00 C +ATOM 71 O THR A 9 31.207 45.268 15.566 1.00 1.00 O +ATOM 72 CB THR A 9 32.979 43.918 17.445 1.00 1.00 C +ATOM 73 OG1 THR A 9 33.174 43.067 16.265 1.00 1.00 O +ATOM 74 CG2 THR A 9 33.657 43.319 18.672 1.00 1.00 C +ATOM 75 N GLY A 10 29.721 43.673 15.885 1.00 1.00 N +ATOM 76 CA GLY A 10 28.978 43.960 14.678 1.00 1.00 C +ATOM 77 C GLY A 10 29.604 43.507 13.393 1.00 1.00 C +ATOM 78 O GLY A 10 29.219 43.981 12.301 1.00 1.00 O +ATOM 79 N LYS A 11 30.563 42.623 13.495 1.00 1.00 N +ATOM 80 CA LYS A 11 31.191 42.012 12.331 1.00 1.00 C +ATOM 81 C LYS A 11 30.459 40.666 12.130 1.00 1.00 C +ATOM 82 O LYS A 11 30.253 39.991 13.133 1.00 1.00 O +ATOM 83 CB LYS A 11 32.672 41.717 12.505 1.00 1.00 C +ATOM 84 CG LYS A 11 33.280 41.086 11.227 1.00 1.00 C +ATOM 85 CD LYS A 11 34.762 40.799 11.470 1.00 1.00 C +ATOM 86 CE LYS A 11 35.614 40.847 10.240 1.00 1.00 C +ATOM 87 NZ LYS A 11 35.100 40.073 9.101 1.00 1.00 N +ATOM 88 N THR A 12 30.163 40.338 10.886 1.00 1.00 N +ATOM 89 CA THR A 12 29.542 39.020 10.653 1.00 1.00 C +ATOM 90 C THR A 12 30.494 38.261 9.729 1.00 1.00 C +ATOM 91 O THR A 12 30.849 38.850 8.706 1.00 1.00 O +ATOM 92 CB THR A 12 28.113 39.049 10.015 1.00 1.00 C +ATOM 93 OG1 THR A 12 27.280 39.722 10.996 1.00 1.00 O +ATOM 94 CG2 THR A 12 27.588 37.635 9.715 1.00 1.00 C +ATOM 95 N ILE A 13 30.795 37.015 10.095 1.00 1.00 N +ATOM 96 CA ILE A 13 31.720 36.289 9.176 1.00 1.00 C +ATOM 97 C ILE A 13 30.955 35.211 8.459 1.00 1.00 C +ATOM 98 O ILE A 13 30.025 34.618 9.040 1.00 1.00 O +ATOM 99 CB ILE A 13 32.995 35.883 9.934 1.00 1.00 C +ATOM 100 CG1 ILE A 13 33.306 34.381 9.840 1.00 1.00 C +ATOM 101 CG2 ILE A 13 33.109 36.381 11.435 1.00 1.00 C +ATOM 102 CD1 ILE A 13 34.535 34.028 10.720 1.00 1.00 C +ATOM 103 N THR A 14 31.244 34.986 7.197 1.00 1.00 N +ATOM 104 CA THR A 14 30.505 33.884 6.512 1.00 1.00 C +ATOM 105 C THR A 14 31.409 32.680 6.446 1.00 1.00 C +ATOM 106 O THR A 14 32.619 32.812 6.125 1.00 1.00 O +ATOM 107 CB THR A 14 30.091 34.393 5.078 1.00 1.00 C +ATOM 108 OG1 THR A 14 31.440 34.513 4.487 1.00 1.00 O +ATOM 109 CG2 THR A 14 29.420 35.756 5.119 1.00 1.00 C +ATOM 110 N LEU A 15 30.884 31.485 6.666 1.00 1.00 N +ATOM 111 CA LEU A 15 31.677 30.275 6.639 1.00 1.00 C +ATOM 112 C LEU A 15 31.022 29.288 5.665 1.00 1.00 C +ATOM 113 O LEU A 15 29.809 29.395 5.545 1.00 1.00 O +ATOM 114 CB LEU A 15 31.562 29.686 8.045 1.00 1.00 C +ATOM 115 CG LEU A 15 32.631 29.444 9.060 1.00 1.00 C +ATOM 116 CD1 LEU A 15 33.814 30.390 9.030 1.00 1.00 C +ATOM 117 CD2 LEU A 15 31.945 29.449 10.436 1.00 1.00 C +ATOM 118 N GLU A 16 31.834 28.412 5.125 1.00 1.00 N +ATOM 119 CA GLU A 16 31.220 27.341 4.275 1.00 1.00 C +ATOM 120 C GLU A 16 31.440 26.079 5.080 1.00 1.00 C +ATOM 121 O GLU A 16 32.576 25.802 5.461 1.00 1.00 O +ATOM 122 CB GLU A 16 31.827 27.262 2.894 1.00 1.00 C +ATOM 123 CG GLU A 16 31.363 28.410 1.962 1.00 1.00 C +ATOM 124 CD GLU A 16 31.671 28.291 0.498 1.00 1.00 C +ATOM 125 OE1 GLU A 16 30.869 28.621 -0.366 1.00 1.00 O +ATOM 126 OE2 GLU A 16 32.835 27.861 0.278 1.00 1.00 O +ATOM 127 N VAL A 17 30.310 25.458 5.384 1.00 1.00 N +ATOM 128 CA VAL A 17 30.288 24.245 6.193 1.00 1.00 C +ATOM 129 C VAL A 17 29.279 23.227 5.641 1.00 1.00 C +ATOM 130 O VAL A 17 28.478 23.522 4.725 1.00 1.00 O +ATOM 131 CB VAL A 17 29.903 24.590 7.665 1.00 1.00 C +ATOM 132 CG1 VAL A 17 30.862 25.496 8.389 1.00 1.00 C +ATOM 133 CG2 VAL A 17 28.476 25.135 7.705 1.00 1.00 C +ATOM 134 N GLU A 18 29.380 22.057 6.232 1.00 1.00 N +ATOM 135 CA GLU A 18 28.468 20.940 5.980 1.00 1.00 C +ATOM 136 C GLU A 18 27.819 20.609 7.316 1.00 1.00 C +ATOM 137 O GLU A 18 28.449 20.674 8.360 1.00 1.00 O +ATOM 138 CB GLU A 18 29.213 19.697 5.506 1.00 1.00 C +ATOM 139 CG GLU A 18 29.728 19.755 4.060 1.00 1.00 C +ATOM 140 CD GLU A 18 28.754 20.061 2.978 1.00 1.00 C +ATOM 141 OE1 GLU A 18 27.546 19.992 2.985 1.00 1.00 O +ATOM 142 OE2 GLU A 18 29.336 20.423 1.904 1.00 1.00 O +ATOM 143 N PRO A 19 26.559 20.220 7.288 1.00 1.00 N +ATOM 144 CA PRO A 19 25.829 19.825 8.494 1.00 1.00 C +ATOM 145 C PRO A 19 26.541 18.732 9.251 1.00 1.00 C +ATOM 146 O PRO A 19 26.333 18.536 10.457 1.00 1.00 O +ATOM 147 CB PRO A 19 24.469 19.332 7.952 1.00 1.00 C +ATOM 148 CG PRO A 19 24.299 20.134 6.704 1.00 1.00 C +ATOM 149 CD PRO A 19 25.714 20.108 6.073 1.00 1.00 C +ATOM 150 N SER A 20 27.361 17.959 8.559 1.00 1.00 N +ATOM 151 CA SER A 20 28.054 16.835 9.210 1.00 1.00 C +ATOM 152 C SER A 20 29.258 17.318 9.984 1.00 1.00 C +ATOM 153 O SER A 20 29.930 16.477 10.606 1.00 1.00 O +ATOM 154 CB SER A 20 28.523 15.820 8.182 1.00 1.00 C +ATOM 155 OG SER A 20 28.946 16.445 6.967 1.00 1.00 O +ATOM 156 N ASP A 21 29.599 18.599 9.828 1.00 1.00 N +ATOM 157 CA ASP A 21 30.796 19.083 10.566 1.00 1.00 C +ATOM 158 C ASP A 21 30.491 19.162 12.040 1.00 1.00 C +ATOM 159 O ASP A 21 29.367 19.523 12.441 1.00 1.00 O +ATOM 160 CB ASP A 21 31.155 20.515 10.048 1.00 1.00 C +ATOM 161 CG ASP A 21 31.923 20.436 8.755 1.00 1.00 C +ATOM 162 OD1 ASP A 21 32.493 19.374 8.456 1.00 1.00 O +ATOM 163 OD2 ASP A 21 31.838 21.402 7.968 1.00 1.00 O +ATOM 164 N THR A 22 31.510 18.936 12.852 1.00 1.00 N +ATOM 165 CA THR A 22 31.398 19.064 14.286 1.00 1.00 C +ATOM 166 C THR A 22 31.593 20.553 14.655 1.00 1.00 C +ATOM 167 O THR A 22 32.159 21.311 13.861 1.00 1.00 O +ATOM 168 CB THR A 22 32.492 18.193 14.995 1.00 1.00 C +ATOM 169 OG1 THR A 22 33.778 18.739 14.516 1.00 1.00 O +ATOM 170 CG2 THR A 22 32.352 16.700 14.630 1.00 1.00 C +ATOM 171 N ILE A 23 31.113 20.863 15.860 1.00 1.00 N +ATOM 172 CA ILE A 23 31.288 22.201 16.417 1.00 1.00 C +ATOM 173 C ILE A 23 32.776 22.519 16.577 1.00 1.00 C +ATOM 174 O ILE A 23 33.233 23.659 16.384 1.00 1.00 O +ATOM 175 CB ILE A 23 30.520 22.300 17.764 1.00 1.00 C +ATOM 176 CG1 ILE A 23 29.006 22.043 17.442 1.00 1.00 C +ATOM 177 CG2 ILE A 23 30.832 23.699 18.358 1.00 1.00 C +ATOM 178 CD1 ILE A 23 28.407 22.948 16.366 1.00 1.00 C +ATOM 179 N GLU A 24 33.548 21.526 16.950 1.00 1.00 N +ATOM 180 CA GLU A 24 35.031 21.722 17.069 1.00 1.00 C +ATOM 181 C GLU A 24 35.615 22.190 15.759 1.00 1.00 C +ATOM 182 O GLU A 24 36.532 23.046 15.724 1.00 1.00 O +ATOM 183 CB GLU A 24 35.667 20.383 17.447 1.00 1.00 C +ATOM 184 CG GLU A 24 37.128 20.293 17.872 1.00 1.00 C +ATOM 185 CD GLU A 24 37.561 18.851 18.082 1.00 1.00 C +ATOM 186 OE1 GLU A 24 37.758 18.024 17.195 1.00 1.00 O +ATOM 187 OE2 GLU A 24 37.628 18.599 19.313 1.00 1.00 O +ATOM 188 N ASN A 25 35.139 21.624 14.662 1.00 1.00 N +ATOM 189 CA ASN A 25 35.590 21.945 13.302 1.00 1.00 C +ATOM 190 C ASN A 25 35.238 23.382 12.920 1.00 1.00 C +ATOM 191 O ASN A 25 36.066 24.109 12.333 1.00 1.00 O +ATOM 192 CB ASN A 25 35.064 20.957 12.255 1.00 1.00 C +ATOM 193 CG ASN A 25 35.541 21.418 10.871 1.00 1.00 C +ATOM 194 OD1 ASN A 25 36.772 21.623 10.676 1.00 1.00 O +ATOM 195 ND2 ASN A 25 34.628 21.595 9.920 1.00 1.00 N +ATOM 196 N VAL A 26 34.007 23.745 13.250 1.00 1.00 N +ATOM 197 CA VAL A 26 33.533 25.097 12.978 1.00 1.00 C +ATOM 198 C VAL A 26 34.441 26.099 13.684 1.00 1.00 C +ATOM 199 O VAL A 26 34.883 27.090 13.093 1.00 1.00 O +ATOM 200 CB VAL A 26 32.060 25.257 13.364 1.00 1.00 C +ATOM 201 CG1 VAL A 26 31.684 26.749 13.342 1.00 1.00 C +ATOM 202 CG2 VAL A 26 31.152 24.421 12.477 1.00 1.00 C +ATOM 203 N LYS A 27 34.734 25.822 14.949 1.00 1.00 N +ATOM 204 CA LYS A 27 35.596 26.715 15.736 1.00 1.00 C +ATOM 205 C LYS A 27 36.975 26.826 15.107 1.00 1.00 C +ATOM 206 O LYS A 27 37.579 27.926 15.159 1.00 1.00 O +ATOM 207 CB LYS A 27 35.715 26.203 17.172 1.00 1.00 C +ATOM 208 CG LYS A 27 34.343 26.445 17.898 1.00 1.00 C +ATOM 209 CD LYS A 27 34.509 26.077 19.360 1.00 1.00 C +ATOM 210 CE LYS A 27 33.206 26.311 20.122 1.00 1.00 C +ATOM 211 NZ LYS A 27 33.455 25.910 21.546 1.00 1.00 N +ATOM 212 N ALA A 28 37.499 25.743 14.571 1.00 1.00 N +ATOM 213 CA ALA A 28 38.794 25.761 13.880 1.00 1.00 C +ATOM 214 C ALA A 28 38.728 26.591 12.611 1.00 1.00 C +ATOM 215 O ALA A 28 39.704 27.346 12.277 1.00 1.00 O +ATOM 216 CB ALA A 28 39.285 24.336 13.566 1.00 1.00 C +ATOM 217 N LYS A 29 37.633 26.543 11.867 1.00 1.00 N +ATOM 218 CA LYS A 29 37.471 27.391 10.668 1.00 1.00 C +ATOM 219 C LYS A 29 37.441 28.882 11.052 1.00 1.00 C +ATOM 220 O LYS A 29 38.020 29.772 10.382 1.00 1.00 O +ATOM 221 CB LYS A 29 36.193 27.058 9.911 1.00 1.00 C +ATOM 222 CG LYS A 29 36.153 25.620 9.409 1.00 1.00 C +ATOM 223 CD LYS A 29 34.758 25.280 8.900 1.00 1.00 C +ATOM 224 CE LYS A 29 34.793 24.264 7.767 1.00 1.00 C +ATOM 225 NZ LYS A 29 34.914 24.944 6.441 1.00 1.00 N +ATOM 226 N ILE A 30 36.811 29.170 12.192 1.00 1.00 N +ATOM 227 CA ILE A 30 36.731 30.570 12.645 1.00 1.00 C +ATOM 228 C ILE A 30 38.148 30.981 13.069 1.00 1.00 C +ATOM 229 O ILE A 30 38.544 32.150 12.856 1.00 1.00 O +ATOM 230 CB ILE A 30 35.708 30.776 13.806 1.00 1.00 C +ATOM 231 CG1 ILE A 30 34.228 30.630 13.319 1.00 1.00 C +ATOM 232 CG2 ILE A 30 35.874 32.138 14.512 1.00 1.00 C +ATOM 233 CD1 ILE A 30 33.284 30.504 14.552 1.00 1.00 C +ATOM 234 N GLN A 31 38.883 30.110 13.713 1.00 1.00 N +ATOM 235 CA GLN A 31 40.269 30.508 14.115 1.00 1.00 C +ATOM 236 C GLN A 31 41.092 30.808 12.851 1.00 1.00 C +ATOM 237 O GLN A 31 41.828 31.808 12.681 1.00 1.00 O +ATOM 238 CB GLN A 31 40.996 29.399 14.865 1.00 1.00 C +ATOM 239 CG GLN A 31 42.445 29.848 15.182 1.00 1.00 C +ATOM 240 CD GLN A 31 43.090 28.828 16.095 1.00 1.00 C +ATOM 241 OE1 GLN A 31 42.770 27.655 15.906 1.00 1.00 O +ATOM 242 NE2 GLN A 31 43.898 29.252 17.050 1.00 1.00 N +ATOM 243 N ASP A 32 41.001 29.878 11.931 1.00 1.00 N +ATOM 244 CA ASP A 32 41.718 30.022 10.643 1.00 1.00 C +ATOM 245 C ASP A 32 41.399 31.338 9.967 1.00 1.00 C +ATOM 246 O ASP A 32 42.260 32.036 9.381 1.00 1.00 O +ATOM 247 CB ASP A 32 41.398 28.780 9.810 1.00 1.00 C +ATOM 248 CG ASP A 32 42.626 28.557 8.928 1.00 1.00 C +ATOM 249 OD1 ASP A 32 43.666 28.262 9.539 1.00 1.00 O +ATOM 250 OD2 ASP A 32 42.430 28.812 7.728 1.00 1.00 O +ATOM 251 N LYS A 33 40.117 31.750 9.988 1.00 1.00 N +ATOM 252 CA LYS A 33 39.808 32.994 9.233 1.00 1.00 C +ATOM 253 C LYS A 33 39.837 34.271 9.995 1.00 1.00 C +ATOM 254 O LYS A 33 40.164 35.323 9.345 1.00 1.00 O +ATOM 255 CB LYS A 33 38.615 32.801 8.320 1.00 1.00 C +ATOM 256 CG LYS A 33 37.220 32.822 8.827 1.00 1.00 C +ATOM 257 CD LYS A 33 36.351 33.613 7.838 1.00 1.00 C +ATOM 258 CE LYS A 33 36.322 32.944 6.477 1.00 1.00 C +ATOM 259 NZ LYS A 33 35.768 33.945 5.489 1.00 1.00 N +ATOM 260 N GLU A 34 39.655 34.335 11.285 1.00 1.00 N +ATOM 261 CA GLU A 34 39.676 35.547 12.072 1.00 1.00 C +ATOM 262 C GLU A 34 40.675 35.527 13.200 1.00 1.00 C +ATOM 263 O GLU A 34 40.814 36.528 13.911 1.00 1.00 O +ATOM 264 CB GLU A 34 38.290 35.814 12.698 1.00 1.00 C +ATOM 265 CG GLU A 34 37.156 35.985 11.688 1.00 1.00 C +ATOM 266 CD GLU A 34 37.192 37.361 11.033 1.00 1.00 C +ATOM 267 OE1 GLU A 34 37.519 38.360 11.645 1.00 1.00 O +ATOM 268 OE2 GLU A 34 36.861 37.320 9.822 1.00 1.00 O +ATOM 269 N GLY A 35 41.317 34.393 13.432 1.00 1.00 N +ATOM 270 CA GLY A 35 42.345 34.269 14.431 1.00 1.00 C +ATOM 271 C GLY A 35 41.949 34.076 15.842 1.00 1.00 C +ATOM 272 O GLY A 35 42.829 34.000 16.739 1.00 1.00 O +ATOM 273 N ILE A 36 40.642 33.916 16.112 1.00 1.00 N +ATOM 274 CA ILE A 36 40.226 33.716 17.509 1.00 1.00 C +ATOM 275 C ILE A 36 40.449 32.278 17.945 1.00 1.00 C +ATOM 276 O ILE A 36 39.936 31.336 17.315 1.00 1.00 O +ATOM 277 CB ILE A 36 38.693 34.106 17.595 1.00 1.00 C +ATOM 278 CG1 ILE A 36 38.471 35.546 17.045 1.00 1.00 C +ATOM 279 CG2 ILE A 36 38.146 33.932 19.027 1.00 1.00 C +ATOM 280 CD1 ILE A 36 36.958 35.746 16.680 1.00 1.00 C +ATOM 281 N PRO A 37 41.189 32.085 19.031 1.00 1.00 N +ATOM 282 CA PRO A 37 41.461 30.751 19.594 1.00 1.00 C +ATOM 283 C PRO A 37 40.168 30.026 19.918 1.00 1.00 C +ATOM 284 O PRO A 37 39.264 30.662 20.521 1.00 1.00 O +ATOM 285 CB PRO A 37 42.195 31.142 20.913 1.00 1.00 C +ATOM 286 CG PRO A 37 42.904 32.414 20.553 1.00 1.00 C +ATOM 287 CD PRO A 37 41.822 33.188 19.813 1.00 1.00 C +ATOM 288 N PRO A 38 40.059 28.758 19.607 1.00 1.00 N +ATOM 289 CA PRO A 38 38.817 28.020 19.889 1.00 1.00 C +ATOM 290 C PRO A 38 38.421 28.048 21.341 1.00 1.00 C +ATOM 291 O PRO A 38 37.213 28.036 21.704 1.00 1.00 O +ATOM 292 CB PRO A 38 39.090 26.629 19.325 1.00 1.00 C +ATOM 293 CG PRO A 38 40.082 26.904 18.198 1.00 1.00 C +ATOM 294 CD PRO A 38 41.035 27.909 18.879 1.00 1.00 C +ATOM 295 N ASP A 39 39.374 28.090 22.240 1.00 1.00 N +ATOM 296 CA ASP A 39 39.063 28.063 23.695 1.00 1.00 C +ATOM 297 C ASP A 39 38.365 29.335 24.159 1.00 1.00 C +ATOM 298 O ASP A 39 37.684 29.390 25.221 1.00 1.00 O +ATOM 299 CB ASP A 39 40.340 27.692 24.468 1.00 1.00 C +ATOM 300 CG ASP A 39 40.559 28.585 25.675 1.00 1.00 C +ATOM 301 OD1 ASP A 39 40.716 29.809 25.456 1.00 1.00 O +ATOM 302 OD2 ASP A 39 40.549 28.090 26.840 1.00 1.00 O +ATOM 303 N GLN A 40 38.419 30.373 23.341 1.00 1.00 N +ATOM 304 CA GLN A 40 37.738 31.637 23.712 1.00 1.00 C +ATOM 305 C GLN A 40 36.334 31.742 23.087 1.00 1.00 C +ATOM 306 O GLN A 40 35.574 32.618 23.483 1.00 1.00 O +ATOM 307 CB GLN A 40 38.528 32.854 23.182 1.00 1.00 C +ATOM 308 CG GLN A 40 39.919 32.854 23.840 1.00 1.00 C +ATOM 309 CD GLN A 40 40.760 34.036 23.394 1.00 1.00 C +ATOM 310 OE1 GLN A 40 41.975 34.008 23.624 1.00 1.00 O +ATOM 311 NE2 GLN A 40 40.140 35.007 22.775 1.00 1.00 N +ATOM 312 N GLN A 41 36.000 30.860 22.172 1.00 1.00 N +ATOM 313 CA GLN A 41 34.738 30.875 21.473 1.00 1.00 C +ATOM 314 C GLN A 41 33.589 30.189 22.181 1.00 1.00 C +ATOM 315 O GLN A 41 33.580 29.009 22.499 1.00 1.00 O +ATOM 316 CB GLN A 41 34.876 30.237 20.066 1.00 1.00 C +ATOM 317 CG GLN A 41 36.012 30.860 19.221 1.00 1.00 C +ATOM 318 CD GLN A 41 36.083 30.194 17.875 1.00 1.00 C +ATOM 319 OE1 GLN A 41 35.048 29.702 17.393 1.00 1.00 O +ATOM 320 NE2 GLN A 41 37.228 30.126 17.233 1.00 1.00 N +ATOM 321 N ARG A 42 32.478 30.917 22.269 1.00 1.00 N +ATOM 322 CA ARG A 42 31.200 30.329 22.780 1.00 1.00 C +ATOM 323 C ARG A 42 30.210 30.509 21.650 1.00 1.00 C +ATOM 324 O ARG A 42 29.978 31.726 21.269 1.00 1.00 O +ATOM 325 CB ARG A 42 30.847 30.931 24.118 1.00 1.00 C +ATOM 326 CG ARG A 42 29.412 30.796 24.598 1.00 1.00 C +ATOM 327 CD ARG A 42 29.271 31.314 26.016 1.00 1.00 C +ATOM 328 NE ARG A 42 27.875 31.317 26.443 1.00 1.00 N +ATOM 329 CZ ARG A 42 27.132 32.423 26.574 1.00 1.00 C +ATOM 330 NH1 ARG A 42 27.630 33.656 26.461 1.00 1.00 N +ATOM 331 NH2 ARG A 42 25.810 32.299 26.732 1.00 1.00 N +ATOM 332 N LEU A 43 29.694 29.436 21.054 1.00 1.00 N +ATOM 333 CA LEU A 43 28.762 29.573 19.906 1.00 1.00 C +ATOM 334 C LEU A 43 27.331 29.317 20.364 1.00 1.00 C +ATOM 335 O LEU A 43 27.101 28.346 21.097 1.00 1.00 O +ATOM 336 CB LEU A 43 29.151 28.655 18.755 1.00 1.00 C +ATOM 337 CG LEU A 43 30.416 28.912 17.980 1.00 1.00 C +ATOM 338 CD1 LEU A 43 30.738 27.693 17.122 1.00 1.00 C +ATOM 339 CD2 LEU A 43 30.205 30.168 17.129 1.00 1.00 C +ATOM 340 N ILE A 44 26.436 30.232 20.004 1.00 1.00 N +ATOM 341 CA ILE A 44 25.034 30.170 20.401 1.00 1.00 C +ATOM 342 C ILE A 44 24.101 30.149 19.196 1.00 1.00 C +ATOM 343 O ILE A 44 24.196 30.948 18.287 1.00 1.00 O +ATOM 344 CB ILE A 44 24.639 31.426 21.286 1.00 1.00 C +ATOM 345 CG1 ILE A 44 25.646 31.670 22.421 1.00 1.00 C +ATOM 346 CG2 ILE A 44 23.181 31.309 21.824 1.00 1.00 C +ATOM 347 CD1 ILE A 44 25.778 30.436 23.356 1.00 1.00 C +ATOM 348 N PHE A 45 23.141 29.187 19.241 1.00 1.00 N +ATOM 349 CA PHE A 45 22.126 29.062 18.183 1.00 1.00 C +ATOM 350 C PHE A 45 20.835 28.629 18.904 1.00 1.00 C +ATOM 351 O PHE A 45 20.821 27.734 19.749 1.00 1.00 O +ATOM 352 CB PHE A 45 22.494 28.057 17.109 1.00 1.00 C +ATOM 353 CG PHE A 45 21.447 27.869 16.026 1.00 1.00 C +ATOM 354 CD1 PHE A 45 21.325 28.813 15.005 1.00 1.00 C +ATOM 355 CD2 PHE A 45 20.638 26.735 16.053 1.00 1.00 C +ATOM 356 CE1 PHE A 45 20.369 28.648 14.001 1.00 1.00 C +ATOM 357 CE2 PHE A 45 19.677 26.539 15.051 1.00 1.00 C +ATOM 358 CZ PHE A 45 19.593 27.465 14.021 1.00 1.00 C +ATOM 359 N ALA A 46 19.810 29.378 18.578 1.00 1.00 N +ATOM 360 CA ALA A 46 18.443 29.143 19.083 1.00 1.00 C +ATOM 361 C ALA A 46 18.453 28.941 20.591 1.00 1.00 C +ATOM 362 O ALA A 46 17.860 27.994 21.128 1.00 1.00 O +ATOM 363 CB ALA A 46 17.864 27.977 18.346 1.00 1.00 C +ATOM 364 N GLY A 47 19.172 29.808 21.243 1.00 1.00 N +ATOM 365 CA GLY A 47 19.399 29.894 22.655 1.00 1.00 C +ATOM 366 C GLY A 47 20.083 28.729 23.321 1.00 1.00 C +ATOM 367 O GLY A 47 19.991 28.584 24.561 1.00 1.00 O +ATOM 368 N LYS A 48 20.801 27.931 22.578 1.00 1.00 N +ATOM 369 CA LYS A 48 21.550 26.796 23.133 1.00 1.00 C +ATOM 370 C LYS A 48 23.046 27.087 22.913 1.00 1.00 C +ATOM 371 O LYS A 48 23.383 27.627 21.870 1.00 1.00 O +ATOM 372 CB LYS A 48 21.242 25.519 22.391 1.00 1.00 C +ATOM 373 CG LYS A 48 19.762 25.077 22.455 1.00 1.00 C +ATOM 374 CD LYS A 48 19.634 23.885 21.531 1.00 1.00 C +ATOM 375 CE LYS A 48 18.791 24.221 20.313 1.00 1.00 C +ATOM 376 NZ LYS A 48 17.440 24.655 20.827 1.00 1.00 N +ATOM 377 N GLN A 49 23.880 26.727 23.851 1.00 1.00 N +ATOM 378 CA GLN A 49 25.349 26.872 23.643 1.00 1.00 C +ATOM 379 C GLN A 49 25.743 25.586 22.922 1.00 1.00 C +ATOM 380 O GLN A 49 25.325 24.489 23.378 1.00 1.00 O +ATOM 381 CB GLN A 49 26.070 27.025 24.960 1.00 1.00 C +ATOM 382 CG GLN A 49 27.553 27.356 24.695 1.00 1.00 C +ATOM 383 CD GLN A 49 28.262 27.576 26.020 1.00 1.00 C +ATOM 384 OE1 GLN A 49 29.189 26.840 26.335 1.00 1.00 O +ATOM 385 NE2 GLN A 49 27.777 28.585 26.739 1.00 1.00 N +ATOM 386 N LEU A 50 26.465 25.689 21.833 1.00 1.00 N +ATOM 387 CA LEU A 50 26.826 24.521 21.012 1.00 1.00 C +ATOM 388 C LEU A 50 27.994 23.781 21.643 1.00 1.00 C +ATOM 389 O LEU A 50 28.904 24.444 22.098 1.00 1.00 O +ATOM 390 CB LEU A 50 27.043 24.992 19.571 1.00 1.00 C +ATOM 391 CG LEU A 50 25.931 25.844 18.959 1.00 1.00 C +ATOM 392 CD1 LEU A 50 26.203 26.083 17.471 1.00 1.00 C +ATOM 393 CD2 LEU A 50 24.577 25.190 19.079 1.00 1.00 C +ATOM 394 N GLU A 51 27.942 22.448 21.648 1.00 1.00 N +ATOM 395 CA GLU A 51 29.015 21.657 22.288 1.00 1.00 C +ATOM 396 C GLU A 51 29.942 21.106 21.240 1.00 1.00 C +ATOM 397 O GLU A 51 29.470 20.677 20.190 1.00 1.00 O +ATOM 398 CB GLU A 51 28.348 20.540 23.066 1.00 1.00 C +ATOM 399 CG GLU A 51 29.247 19.456 23.705 1.00 1.00 C +ATOM 400 CD GLU A 51 28.722 19.047 25.066 1.00 1.00 C +ATOM 401 OE1 GLU A 51 29.139 18.132 25.746 1.00 1.00 O +ATOM 402 OE2 GLU A 51 27.777 19.842 25.367 1.00 1.00 O +ATOM 403 N ASP A 52 31.233 21.090 21.459 1.00 1.00 N +ATOM 404 CA ASP A 52 32.262 20.670 20.514 1.00 1.00 C +ATOM 405 C ASP A 52 32.128 19.364 19.750 1.00 1.00 C +ATOM 406 O ASP A 52 32.546 19.317 18.558 1.00 1.00 O +ATOM 407 CB ASP A 52 33.638 20.716 21.242 1.00 1.00 C +ATOM 408 CG ASP A 52 34.174 22.129 21.354 1.00 1.00 C +ATOM 409 OD1 ASP A 52 35.252 22.322 21.958 1.00 1.00 O +ATOM 410 OD2 ASP A 52 33.544 23.086 20.883 1.00 1.00 O +ATOM 411 N GLY A 53 31.697 18.311 20.406 1.00 1.00 N +ATOM 412 CA GLY A 53 31.568 16.962 19.825 1.00 1.00 C +ATOM 413 C GLY A 53 30.320 16.698 19.051 1.00 1.00 C +ATOM 414 O GLY A 53 30.198 15.657 18.366 1.00 1.00 O +ATOM 415 N ARG A 54 29.340 17.594 19.076 1.00 1.00 N +ATOM 416 CA ARG A 54 28.108 17.439 18.276 1.00 1.00 C +ATOM 417 C ARG A 54 28.375 17.999 16.887 1.00 1.00 C +ATOM 418 O ARG A 54 29.326 18.786 16.690 1.00 1.00 O +ATOM 419 CB ARG A 54 26.926 18.191 18.892 1.00 1.00 C +ATOM 420 CG ARG A 54 26.621 17.799 20.352 1.00 1.00 C +ATOM 421 CD ARG A 54 26.010 16.370 20.280 1.00 1.00 C +ATOM 422 NE ARG A 54 26.975 15.521 20.942 1.00 1.00 N +ATOM 423 CZ ARG A 54 27.603 14.423 20.655 1.00 1.00 C +ATOM 424 NH1 ARG A 54 27.479 13.733 19.537 1.00 1.00 N +ATOM 425 NH2 ARG A 54 28.519 13.967 21.550 1.00 1.00 N +ATOM 426 N THR A 55 27.510 17.689 15.954 1.00 1.00 N +ATOM 427 CA THR A 55 27.574 18.192 14.563 1.00 1.00 C +ATOM 428 C THR A 55 26.482 19.280 14.432 1.00 1.00 C +ATOM 429 O THR A 55 25.609 19.388 15.287 1.00 1.00 O +ATOM 430 CB THR A 55 27.299 17.055 13.533 1.00 1.00 C +ATOM 431 OG1 THR A 55 25.925 16.611 13.913 1.00 1.00 O +ATOM 432 CG2 THR A 55 28.236 15.864 13.558 1.00 1.00 C +ATOM 433 N LEU A 56 26.585 20.063 13.378 1.00 1.00 N +ATOM 434 CA LEU A 56 25.594 21.109 13.072 1.00 1.00 C +ATOM 435 C LEU A 56 24.241 20.436 12.857 1.00 1.00 C +ATOM 436 O LEU A 56 23.264 20.951 13.329 1.00 1.00 O +ATOM 437 CB LEU A 56 26.084 21.888 11.833 1.00 1.00 C +ATOM 438 CG LEU A 56 27.426 22.616 11.902 1.00 1.00 C +ATOM 439 CD1 LEU A 56 27.718 23.341 10.578 1.00 1.00 C +ATOM 440 CD2 LEU A 56 27.380 23.721 12.955 1.00 1.00 C +ATOM 441 N SER A 57 24.240 19.233 12.246 1.00 1.00 N +ATOM 442 CA SER A 57 22.924 18.583 12.025 1.00 1.00 C +ATOM 443 C SER A 57 22.229 18.244 13.325 1.00 1.00 C +ATOM 444 O SER A 57 20.963 18.253 13.395 1.00 1.00 O +ATOM 445 CB SER A 57 23.059 17.326 11.154 1.00 1.00 C +ATOM 446 OG SER A 57 23.914 16.395 11.755 1.00 1.00 O +ATOM 447 N ASP A 58 22.997 17.978 14.366 1.00 1.00 N +ATOM 448 CA ASP A 58 22.418 17.638 15.693 1.00 1.00 C +ATOM 449 C ASP A 58 21.460 18.737 16.163 1.00 1.00 C +ATOM 450 O ASP A 58 20.497 18.506 16.900 1.00 1.00 O +ATOM 451 CB ASP A 58 23.461 17.331 16.741 1.00 1.00 C +ATOM 452 CG ASP A 58 24.184 16.016 16.619 1.00 1.00 C +ATOM 453 OD1 ASP A 58 25.303 15.894 17.152 1.00 1.00 O +ATOM 454 OD2 ASP A 58 23.572 15.107 15.975 1.00 1.00 O +ATOM 455 N TYR A 59 21.846 19.954 15.905 1.00 1.00 N +ATOM 456 CA TYR A 59 21.079 21.149 16.251 1.00 1.00 C +ATOM 457 C TYR A 59 20.142 21.590 15.149 1.00 1.00 C +ATOM 458 O TYR A 59 19.499 22.645 15.321 1.00 1.00 O +ATOM 459 CB TYR A 59 22.085 22.254 16.581 1.00 1.00 C +ATOM 460 CG TYR A 59 22.945 21.951 17.785 1.00 1.00 C +ATOM 461 CD1 TYR A 59 24.272 21.544 17.644 1.00 1.00 C +ATOM 462 CD2 TYR A 59 22.437 22.157 19.065 1.00 1.00 C +ATOM 463 CE1 TYR A 59 25.052 21.285 18.776 1.00 1.00 C +ATOM 464 CE2 TYR A 59 23.204 21.907 20.192 1.00 1.00 C +ATOM 465 CZ TYR A 59 24.517 21.470 20.030 1.00 1.00 C +ATOM 466 OH TYR A 59 25.248 21.302 21.191 1.00 1.00 O +ATOM 467 N ASN A 60 19.993 20.884 14.049 1.00 1.00 N +ATOM 468 CA ASN A 60 19.065 21.352 12.999 1.00 1.00 C +ATOM 469 C ASN A 60 19.442 22.745 12.510 1.00 1.00 C +ATOM 470 O ASN A 60 18.571 23.610 12.289 1.00 1.00 O +ATOM 471 CB ASN A 60 17.586 21.282 13.461 1.00 1.00 C +ATOM 472 CG ASN A 60 16.576 21.258 12.315 1.00 1.00 C +ATOM 473 OD1 ASN A 60 15.440 21.819 12.378 1.00 1.00 O +ATOM 474 ND2 ASN A 60 16.924 20.586 11.216 1.00 1.00 N +ATOM 475 N ILE A 61 20.717 22.964 12.260 1.00 1.00 N +ATOM 476 CA ILE A 61 21.184 24.263 11.690 1.00 1.00 C +ATOM 477 C ILE A 61 21.110 24.111 10.173 1.00 1.00 C +ATOM 478 O ILE A 61 21.841 23.198 9.686 1.00 1.00 O +ATOM 479 CB ILE A 61 22.650 24.516 12.172 1.00 1.00 C +ATOM 480 CG1 ILE A 61 22.662 24.819 13.699 1.00 1.00 C +ATOM 481 CG2 ILE A 61 23.376 25.645 11.409 1.00 1.00 C +ATOM 482 CD1 ILE A 61 24.123 24.981 14.195 1.00 1.00 C +ATOM 483 N GLN A 62 20.291 24.875 9.507 1.00 1.00 N +ATOM 484 CA GLN A 62 20.081 24.773 8.033 1.00 1.00 C +ATOM 485 C GLN A 62 20.822 25.914 7.332 1.00 1.00 C +ATOM 486 O GLN A 62 21.323 26.830 8.008 1.00 1.00 O +ATOM 487 CB GLN A 62 18.599 24.736 7.727 1.00 1.00 C +ATOM 488 CG GLN A 62 17.819 23.434 7.900 1.00 1.00 C +ATOM 489 CD GLN A 62 16.509 23.529 7.116 1.00 1.00 C +ATOM 490 OE1 GLN A 62 15.446 22.980 7.433 1.00 1.00 O +ATOM 491 NE2 GLN A 62 16.539 24.293 6.009 1.00 1.00 N +ATOM 492 N LYS A 63 20.924 25.862 6.006 1.00 1.00 N +ATOM 493 CA LYS A 63 21.656 26.847 5.240 1.00 1.00 C +ATOM 494 C LYS A 63 21.127 28.240 5.574 1.00 1.00 C +ATOM 495 O LYS A 63 19.958 28.465 5.842 1.00 1.00 O +ATOM 496 CB LYS A 63 21.631 26.642 3.731 1.00 1.00 C +ATOM 497 CG LYS A 63 20.210 26.423 3.175 1.00 1.00 C +ATOM 498 CD LYS A 63 20.268 26.589 1.656 1.00 1.00 C +ATOM 499 CE LYS A 63 19.202 25.857 0.891 1.00 1.00 C +ATOM 500 NZ LYS A 63 17.884 26.544 1.075 1.00 1.00 N +ATOM 501 N GLU A 64 22.099 29.163 5.605 1.00 1.00 N +ATOM 502 CA GLU A 64 21.907 30.563 5.881 1.00 1.00 C +ATOM 503 C GLU A 64 21.466 30.953 7.261 1.00 1.00 C +ATOM 504 O GLU A 64 21.066 32.112 7.533 1.00 1.00 O +ATOM 505 CB GLU A 64 21.023 31.223 4.784 1.00 1.00 C +ATOM 506 CG GLU A 64 21.861 31.342 3.474 1.00 1.00 C +ATOM 507 CD GLU A 64 21.156 30.726 2.311 1.00 1.00 C +ATOM 508 OE1 GLU A 64 19.942 30.793 2.170 1.00 1.00 O +ATOM 509 OE2 GLU A 64 21.954 30.152 1.535 1.00 1.00 O +ATOM 510 N SER A 65 21.674 30.034 8.191 1.00 1.00 N +ATOM 511 CA SER A 65 21.419 30.253 9.620 1.00 1.00 C +ATOM 512 C SER A 65 22.504 31.228 10.136 1.00 1.00 C +ATOM 513 O SER A 65 23.579 31.321 9.554 1.00 1.00 O +ATOM 514 CB SER A 65 21.637 28.923 10.353 1.00 1.00 C +ATOM 515 OG SER A 65 20.544 28.047 10.059 1.00 1.00 O +ATOM 516 N THR A 66 22.241 31.873 11.241 1.00 1.00 N +ATOM 517 CA THR A 66 23.212 32.762 11.891 1.00 1.00 C +ATOM 518 C THR A 66 23.509 32.224 13.290 1.00 1.00 C +ATOM 519 O THR A 66 22.544 31.942 14.034 1.00 1.00 O +ATOM 520 CB THR A 66 22.699 34.267 11.985 1.00 1.00 C +ATOM 521 OG1 THR A 66 22.495 34.690 10.589 1.00 1.00 O +ATOM 522 CG2 THR A 66 23.727 35.131 12.722 1.00 1.00 C +ATOM 523 N LEU A 67 24.790 32.021 13.618 1.00 1.00 N +ATOM 524 CA LEU A 67 25.149 31.609 14.980 1.00 1.00 C +ATOM 525 C LEU A 67 25.698 32.876 15.669 1.00 1.00 C +ATOM 526 O LEU A 67 26.158 33.730 14.894 1.00 1.00 O +ATOM 527 CB LEU A 67 26.310 30.594 14.967 1.00 1.00 C +ATOM 528 CG LEU A 67 26.290 29.480 13.960 1.00 1.00 C +ATOM 529 CD1 LEU A 67 27.393 28.442 14.229 1.00 1.00 C +ATOM 530 CD2 LEU A 67 24.942 28.807 13.952 1.00 1.00 C +ATOM 531 N HIS A 68 25.621 32.945 16.950 1.00 1.00 N +ATOM 532 CA HIS A 68 26.179 34.127 17.650 1.00 1.00 C +ATOM 533 C HIS A 68 27.475 33.651 18.304 1.00 1.00 C +ATOM 534 O HIS A 68 27.507 32.587 18.958 1.00 1.00 O +ATOM 535 CB HIS A 68 25.214 34.565 18.780 1.00 1.00 C +ATOM 536 CG HIS A 68 23.978 35.121 18.126 1.00 1.00 C +ATOM 537 ND1 HIS A 68 23.853 36.432 17.781 1.00 1.00 N +ATOM 538 CD2 HIS A 68 22.824 34.514 17.782 1.00 1.00 C +ATOM 539 CE1 HIS A 68 22.674 36.627 17.200 1.00 1.00 C +ATOM 540 NE2 HIS A 68 22.045 35.455 17.173 1.00 1.00 N +ATOM 541 N LEU A 69 28.525 34.447 18.189 1.00 1.00 N +ATOM 542 CA LEU A 69 29.801 34.145 18.829 1.00 1.00 C +ATOM 543 C LEU A 69 30.052 35.042 20.004 1.00 1.00 C +ATOM 544 O LEU A 69 30.105 36.305 19.788 1.00 1.00 O +ATOM 545 CB LEU A 69 30.925 34.304 17.753 1.00 1.00 C +ATOM 546 CG LEU A 69 32.345 34.183 18.358 1.00 1.00 C +ATOM 547 CD1 LEU A 69 32.555 32.783 18.870 1.00 1.00 C +ATOM 548 CD2 LEU A 69 33.361 34.491 17.245 1.00 1.00 C +ATOM 549 N VAL A 70 30.124 34.533 21.191 1.00 1.00 N +ATOM 550 CA VAL A 70 30.479 35.369 22.374 1.00 1.00 C +ATOM 551 C VAL A 70 31.901 34.910 22.728 1.00 1.00 C +ATOM 552 O VAL A 70 32.190 33.696 22.635 1.00 1.00 O +ATOM 553 CB VAL A 70 29.472 35.181 23.498 1.00 1.00 C +ATOM 554 CG1 VAL A 70 29.821 35.957 24.765 1.00 1.00 C +ATOM 555 CG2 VAL A 70 28.049 35.454 23.071 1.00 1.00 C +ATOM 556 N LEU A 71 32.763 35.831 23.090 1.00 1.00 N +ATOM 557 CA LEU A 71 34.145 35.472 23.481 1.00 1.00 C +ATOM 558 C LEU A 71 34.239 35.353 24.979 1.00 1.00 C +ATOM 559 O LEU A 71 33.707 36.197 25.728 1.00 1.00 O +ATOM 560 CB LEU A 71 35.114 36.564 22.907 1.00 1.00 C +ATOM 561 CG LEU A 71 35.926 35.979 21.737 1.00 1.00 C +ATOM 562 CD1 LEU A 71 35.003 35.084 20.920 1.00 1.00 C +ATOM 563 CD2 LEU A 71 36.533 37.087 20.917 1.00 1.00 C +ATOM 564 N ARG A 72 34.930 34.384 25.451 1.00 1.00 N +ATOM 565 CA ARG A 72 35.161 34.174 26.896 1.00 1.00 C +ATOM 566 C ARG A 72 36.671 34.296 27.089 1.00 1.00 C +ATOM 567 O ARG A 72 37.305 33.233 26.795 1.00 1.00 O +ATOM 568 CB ARG A 72 34.717 32.760 27.286 1.00 1.00 C +ATOM 569 CG ARG A 72 35.752 32.054 28.160 1.00 1.00 C +ATOM 570 CD ARG A 72 35.612 30.577 28.044 1.00 1.00 C +ATOM 571 NE ARG A 72 35.040 30.252 26.730 1.00 1.00 N +ATOM 572 CZ ARG A 72 34.338 29.103 26.650 1.00 1.00 C +ATOM 573 NH1 ARG A 72 34.110 28.437 27.768 1.00 1.00 N +ATOM 574 NH2 ARG A 72 34.014 28.657 25.457 1.00 1.00 N +ATOM 575 N LEU A 73 37.197 35.397 27.513 1.00 1.00 N +ATOM 576 CA LEU A 73 38.668 35.502 27.680 1.00 1.00 C +ATOM 577 C LEU A 73 39.076 34.931 29.031 1.00 1.00 C +ATOM 578 O LEU A 73 38.297 34.946 29.996 1.00 1.00 O +ATOM 579 CB LEU A 73 39.080 36.941 27.406 1.00 1.00 C +ATOM 580 CG LEU A 73 39.502 37.340 26.002 1.00 1.00 C +ATOM 581 CD1 LEU A 73 38.684 36.647 24.923 1.00 1.00 C +ATOM 582 CD2 LEU A 73 39.337 38.854 25.862 1.00 1.00 C +ATOM 583 N ARG A 74 40.294 34.412 29.045 1.00 1.00 N +ATOM 584 CA ARG A 74 40.873 33.802 30.253 1.00 1.00 C +ATOM 585 C ARG A 74 41.765 34.829 30.944 1.00 1.00 C +ATOM 586 O ARG A 74 42.945 34.994 30.583 1.00 1.00 O +ATOM 587 CB ARG A 74 41.651 32.529 29.923 1.00 1.00 C +ATOM 588 CG ARG A 74 41.608 31.444 30.989 1.00 1.00 C +ATOM 589 CD ARG A 74 41.896 30.080 30.456 1.00 1.00 C +ATOM 590 NE ARG A 74 43.311 29.735 30.563 1.00 1.00 N +ATOM 591 CZ ARG A 74 44.174 29.905 29.554 1.00 1.00 C +ATOM 592 NH1 ARG A 74 43.754 30.312 28.356 1.00 1.00 N +ATOM 593 NH2 ARG A 74 45.477 29.726 29.763 1.00 1.00 N +ATOM 594 N GLY A 75 41.165 35.531 31.898 1.00 1.00 N +ATOM 595 CA GLY A 75 41.845 36.550 32.686 1.00 1.00 C +ATOM 596 C GLY A 75 41.251 37.941 32.588 1.00 1.00 C +ATOM 597 O GLY A 75 41.102 38.523 31.500 1.00 1.00 O +ATOM 598 N GLY A 76 40.946 38.472 33.757 1.00 1.00 N +ATOM 599 CA GLY A 76 40.373 39.813 33.944 1.00 1.00 C +ATOM 600 C GLY A 76 40.031 39.992 35.432 1.00 1.00 C +ATOM 601 O GLY A 76 38.933 40.525 35.687 1.00 1.00 O +ATOM 602 OXT GLY A 76 40.862 39.575 36.251 1.00 1.00 O +ATOM 603 O HOH A 77 45.747 30.081 19.708 1.00 1.00 O +ATOM 604 O HOH A 78 19.168 31.868 17.050 1.00 1.00 O +ATOM 605 O HOH A 79 32.010 38.387 19.636 1.00 1.00 O +ATOM 606 O HOH A 80 42.084 27.361 21.953 1.00 1.00 O +ATOM 607 O HOH A 81 21.314 20.644 8.719 1.00 1.00 O +ATOM 608 O HOH A 82 31.965 38.637 3.699 1.00 1.00 O +ATOM 609 O HOH A 83 27.707 15.908 4.653 1.00 1.00 O +ATOM 610 O HOH A 84 19.969 32.720 14.769 1.00 1.00 O +ATOM 611 O HOH A 85 29.847 13.577 10.864 1.00 1.00 O +ATOM 612 O HOH A 86 23.893 27.864 1.501 1.00 1.00 O +ATOM 613 O HOH A 87 19.638 23.312 4.775 1.00 1.00 O +ATOM 614 O HOH A 88 34.628 29.369 4.779 1.00 1.00 O +ATOM 615 O HOH A 89 42.240 24.744 25.707 1.00 1.00 O +ATOM 616 O HOH A 90 30.290 42.500 8.820 1.00 1.00 O +ATOM 617 O HOH A 91 24.512 39.162 10.841 1.00 1.00 O +ATOM 618 O HOH A 92 26.557 43.450 19.940 1.00 1.00 O +ATOM 619 O HOH A 93 42.535 22.385 13.872 1.00 1.00 O +ATOM 620 O HOH A 94 42.440 26.381 12.686 1.00 1.00 O +ATOM 621 O HOH A 95 22.651 14.457 13.085 1.00 1.00 O +ATOM 622 O HOH A 96 35.325 26.551 23.202 1.00 1.00 O +ATOM 623 O HOH A 97 23.629 20.940 3.146 1.00 1.00 O +ATOM 624 O HOH A 98 25.928 21.774 2.325 1.00 1.00 O +ATOM 625 O HOH A 99 33.388 21.973 5.659 1.00 1.00 O +ATOM 626 O HOH A 100 18.326 23.911 17.697 1.00 1.00 O +ATOM 627 O HOH A 101 18.160 27.072 10.662 1.00 1.00 O +ATOM 628 O HOH A 102 34.746 17.167 18.219 1.00 1.00 O +ATOM 629 O HOH A 103 19.801 32.364 20.210 1.00 1.00 O +ATOM 630 O HOH A 104 30.285 26.829 22.191 1.00 1.00 O +ATOM 631 O HOH A 105 44.612 32.306 16.961 1.00 1.00 O +ATOM 632 O HOH A 106 16.287 25.999 13.142 1.00 1.00 O +ATOM 633 O HOH A 107 27.101 42.135 15.494 1.00 1.00 O +ATOM 634 O HOH A 108 37.209 23.795 21.367 1.00 1.00 O +ATOM 635 O HOH A 109 19.582 32.034 -0.685 1.00 1.00 O +ATOM 636 O HOH A 110 28.824 25.094 0.886 1.00 1.00 O +ATOM 637 O HOH A 111 25.146 19.162 25.323 1.00 1.00 O +ATOM 638 O HOH A 112 20.747 37.769 14.674 1.00 1.00 O +ATOM 639 O HOH A 113 16.035 17.841 8.765 1.00 1.00 O +ATOM 640 O HOH A 114 35.712 46.814 12.926 1.00 1.00 O +ATOM 641 O HOH A 115 15.570 27.475 7.482 1.00 1.00 O +ATOM 642 O HOH A 116 33.447 21.075 2.918 1.00 1.00 O +ATOM 643 O HOH A 117 41.116 39.021 13.061 1.00 1.00 O +ATOM 644 O HOH A 118 32.346 13.689 18.912 1.00 1.00 O +ATOM 645 O HOH A 119 31.197 13.048 7.920 1.00 1.00 O +ATOM 646 O HOH A 120 42.853 39.375 29.308 1.00 1.00 O +ATOM 647 O HOH A 121 39.646 23.959 9.699 1.00 1.00 O +ATOM 648 O HOH A 122 34.405 45.181 13.420 1.00 1.00 O +ATOM 649 O HOH A 123 26.517 24.300 27.592 1.00 1.00 O +ATOM 650 O HOH A 124 40.740 38.734 9.602 1.00 1.00 O +ATOM 651 O HOH A 125 31.494 18.276 23.170 1.00 1.00 O +ATOM 652 O HOH A 126 37.752 30.947 1.059 1.00 1.00 O +ATOM 653 O HOH A 127 31.771 16.941 7.511 1.00 1.00 O +ATOM 654 O HOH A 128 41.628 24.537 10.145 1.00 1.00 O +ATOM 655 O HOH A 129 28.988 22.175 -1.744 1.00 1.00 O +ATOM 656 O HOH A 130 14.882 16.539 10.692 1.00 1.00 O +ATOM 657 O HOH A 131 32.589 40.385 7.523 1.00 1.00 O +ATOM 658 O HOH A 132 38.363 30.369 5.579 1.00 1.00 O +ATOM 659 O HOH A 133 27.841 46.062 17.589 1.00 1.00 O +ATOM 660 O HOH A 134 37.667 43.421 17.000 1.00 1.00 O +TER +HEADER A28CYR +MODEL 0 +ATOM 0 N CYR A 28 37.481 25.749 14.571 1.00 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 1.00 1.00 C +ATOM 2 CB CYR A 28 39.337 24.290 13.871 1.00 1.00 C +ATOM 3 SG CYR A 28 41.143 24.265 13.554 1.00 1.00 S +ATOM 4 S1L CYR A 28 41.874 22.539 14.307 1.00 1.00 S +ATOM 5 C1L CYR A 28 43.071 22.028 12.955 1.00 1.00 C +ATOM 6 C1R CYR A 28 44.447 22.557 13.119 1.00 1.00 C +ATOM 7 C2R CYR A 28 45.005 23.573 12.393 1.00 1.00 C +ATOM 8 C1 CYR A 28 45.443 22.100 14.210 1.00 1.00 C +ATOM 9 C2 CYR A 28 46.472 23.796 12.682 1.00 1.00 C +ATOM 10 NN CYR A 28 46.662 22.823 13.738 1.00 1.00 N +ATOM 11 ON CYR A 28 47.754 22.636 14.359 1.00 1.00 O +ATOM 12 C2D CYR A 28 46.630 25.354 13.120 1.00 1.00 C +ATOM 13 C1D CYR A 28 44.994 22.478 15.607 1.00 1.00 C +ATOM 14 C2A CYR A 28 47.460 23.445 11.640 1.00 1.00 C +ATOM 15 C1A CYR A 28 45.770 20.613 14.162 1.00 1.00 C +ATOM 16 C CYR A 28 38.718 26.591 12.616 1.00 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 1.00 1.00 O +TER +ENDMDL +MODEL 1 +ATOM 0 N CYR A 28 37.443 25.778 14.545 0.81 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.81 1.00 C +ATOM 2 CB CYR A 28 39.297 24.299 13.639 0.81 1.00 C +ATOM 3 SG CYR A 28 41.100 24.277 13.627 0.81 1.00 S +ATOM 4 S1L CYR A 28 41.378 22.418 14.366 0.81 1.00 S +ATOM 5 C1L CYR A 28 41.085 21.497 12.913 0.81 1.00 C +ATOM 6 C1R CYR A 28 42.160 21.696 11.882 0.81 1.00 C +ATOM 7 C2R CYR A 28 42.039 22.252 10.682 0.81 1.00 C +ATOM 8 C1 CYR A 28 43.603 21.177 12.132 0.81 1.00 C +ATOM 9 C2 CYR A 28 43.229 22.259 9.861 0.81 1.00 C +ATOM 10 NN CYR A 28 44.179 21.552 10.774 0.81 1.00 N +ATOM 11 ON CYR A 28 45.414 21.404 10.543 0.81 1.00 O +ATOM 12 C2D CYR A 28 43.749 23.665 9.758 0.81 1.00 C +ATOM 13 C1D CYR A 28 44.484 21.924 13.216 0.81 1.00 C +ATOM 14 C2A CYR A 28 43.288 21.533 8.536 0.81 1.00 C +ATOM 15 C1A CYR A 28 43.644 19.727 12.258 0.81 1.00 C +ATOM 16 C CYR A 28 38.669 26.606 12.618 0.81 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.81 1.00 O +TER +ENDMDL +MODEL 2 +ATOM 0 N CYR A 28 37.533 25.729 14.575 0.80 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.80 1.00 C +ATOM 2 CB CYR A 28 39.395 24.385 13.530 0.80 1.00 C +ATOM 3 SG CYR A 28 41.157 24.268 13.548 0.80 1.00 S +ATOM 4 S1L CYR A 28 41.643 22.347 13.064 0.80 1.00 S +ATOM 5 C1L CYR A 28 42.621 22.464 11.550 0.80 1.00 C +ATOM 6 C1R CYR A 28 44.043 22.725 11.965 0.80 1.00 C +ATOM 7 C2R CYR A 28 44.558 23.916 12.092 0.80 1.00 C +ATOM 8 C1 CYR A 28 45.072 21.548 12.185 0.80 1.00 C +ATOM 9 C2 CYR A 28 46.020 23.944 12.408 0.80 1.00 C +ATOM 10 NN CYR A 28 46.243 22.423 12.556 0.80 1.00 N +ATOM 11 ON CYR A 28 47.461 22.029 12.720 0.80 1.00 O +ATOM 12 C2D CYR A 28 46.235 24.692 13.681 0.80 1.00 C +ATOM 13 C1D CYR A 28 44.886 20.668 13.455 0.80 1.00 C +ATOM 14 C2A CYR A 28 46.947 24.569 11.335 0.80 1.00 C +ATOM 15 C1A CYR A 28 45.360 20.644 10.993 0.80 1.00 C +ATOM 16 C CYR A 28 38.753 26.589 12.602 0.80 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.80 1.00 O +TER +ENDMDL +MODEL 3 +ATOM 0 N CYR A 28 37.417 25.782 14.552 0.60 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.60 1.00 C +ATOM 2 CB CYR A 28 39.232 24.310 13.528 0.60 1.00 C +ATOM 3 SG CYR A 28 40.996 24.195 13.201 0.60 1.00 S +ATOM 4 S1L CYR A 28 41.113 22.404 12.342 0.60 1.00 S +ATOM 5 C1L CYR A 28 40.902 22.700 10.587 0.60 1.00 C +ATOM 6 C1R CYR A 28 41.649 21.701 9.707 0.60 1.00 C +ATOM 7 C2R CYR A 28 42.660 22.053 8.929 0.60 1.00 C +ATOM 8 C1 CYR A 28 41.403 20.210 9.539 0.60 1.00 C +ATOM 9 C2 CYR A 28 43.181 21.048 8.029 0.60 1.00 C +ATOM 10 NN CYR A 28 42.231 19.939 8.398 0.60 1.00 N +ATOM 11 ON CYR A 28 42.425 18.730 8.022 0.60 1.00 O +ATOM 12 C2D CYR A 28 44.665 20.754 8.232 0.60 1.00 C +ATOM 13 C1D CYR A 28 41.736 19.403 10.885 0.60 1.00 C +ATOM 14 C2A CYR A 28 42.872 21.483 6.574 0.60 1.00 C +ATOM 15 C1A CYR A 28 39.941 19.936 9.072 0.60 1.00 C +ATOM 16 C CYR A 28 38.662 26.610 12.615 0.60 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.60 1.00 O +TER +ENDMDL +MODEL 4 +ATOM 0 N CYR A 28 37.461 25.775 14.540 0.54 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.54 1.00 C +ATOM 2 CB CYR A 28 39.266 24.359 13.587 0.54 1.00 C +ATOM 3 SG CYR A 28 40.095 23.385 14.967 0.54 1.00 S +ATOM 4 S1L CYR A 28 40.505 21.614 14.069 0.54 1.00 S +ATOM 5 C1L CYR A 28 41.998 21.944 13.114 0.54 1.00 C +ATOM 6 C1R CYR A 28 43.117 22.296 13.973 0.54 1.00 C +ATOM 7 C2R CYR A 28 43.607 23.561 14.205 0.54 1.00 C +ATOM 8 C1 CYR A 28 43.874 21.124 14.655 0.54 1.00 C +ATOM 9 C2 CYR A 28 44.785 23.470 15.131 0.54 1.00 C +ATOM 10 NN CYR A 28 44.902 21.916 15.324 0.54 1.00 N +ATOM 11 ON CYR A 28 45.835 21.399 15.997 0.54 1.00 O +ATOM 12 C2D CYR A 28 44.314 24.064 16.420 0.54 1.00 C +ATOM 13 C1D CYR A 28 43.032 20.354 15.730 0.54 1.00 C +ATOM 14 C2A CYR A 28 46.086 24.056 14.518 0.54 1.00 C +ATOM 15 C1A CYR A 28 44.652 20.184 13.668 0.54 1.00 C +ATOM 16 C CYR A 28 38.671 26.620 12.595 0.54 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.54 1.00 O +TER +ENDMDL +MODEL 5 +ATOM 0 N CYR A 28 37.521 25.717 14.600 0.46 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.46 1.00 C +ATOM 2 CB CYR A 28 39.259 24.273 13.574 0.46 1.00 C +ATOM 3 SG CYR A 28 40.156 23.938 12.039 0.46 1.00 S +ATOM 4 S1L CYR A 28 40.489 21.879 12.104 0.46 1.00 S +ATOM 5 C1L CYR A 28 42.219 21.792 12.682 0.46 1.00 C +ATOM 6 C1R CYR A 28 42.248 21.617 14.152 0.46 1.00 C +ATOM 7 C2R CYR A 28 42.618 22.504 15.084 0.46 1.00 C +ATOM 8 C1 CYR A 28 41.809 20.281 14.801 0.46 1.00 C +ATOM 9 C2 CYR A 28 42.628 21.969 16.464 0.46 1.00 C +ATOM 10 NN CYR A 28 42.196 20.536 16.231 0.46 1.00 N +ATOM 11 ON CYR A 28 42.317 19.672 17.175 0.46 1.00 O +ATOM 12 C2D CYR A 28 41.519 22.604 17.442 0.46 1.00 C +ATOM 13 C1D CYR A 28 40.267 19.967 14.820 0.46 1.00 C +ATOM 14 C2A CYR A 28 44.084 21.949 17.054 0.46 1.00 C +ATOM 15 C1A CYR A 28 42.593 19.143 14.229 0.46 1.00 C +ATOM 16 C CYR A 28 38.772 26.609 12.561 0.46 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.46 1.00 O +TER +ENDMDL +MODEL 6 +ATOM 0 N CYR A 28 37.577 25.754 14.514 0.41 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.41 1.00 C +ATOM 2 CB CYR A 28 39.241 24.337 13.465 0.41 1.00 C +ATOM 3 SG CYR A 28 41.013 24.053 12.912 0.41 1.00 S +ATOM 4 S1L CYR A 28 41.890 24.063 14.664 0.41 1.00 S +ATOM 5 C1L CYR A 28 42.237 22.268 15.087 0.41 1.00 C +ATOM 6 C1R CYR A 28 43.009 22.073 16.337 0.41 1.00 C +ATOM 7 C2R CYR A 28 44.261 21.555 16.436 0.41 1.00 C +ATOM 8 C1 CYR A 28 42.411 22.439 17.717 0.41 1.00 C +ATOM 9 C2 CYR A 28 44.775 21.575 17.910 0.41 1.00 C +ATOM 10 NN CYR A 28 43.545 22.144 18.614 0.41 1.00 N +ATOM 11 ON CYR A 28 43.472 22.074 19.921 0.41 1.00 O +ATOM 12 C2D CYR A 28 45.871 22.625 18.047 0.41 1.00 C +ATOM 13 C1D CYR A 28 42.189 23.933 17.960 0.41 1.00 C +ATOM 14 C2A CYR A 28 45.128 20.190 18.463 0.41 1.00 C +ATOM 15 C1A CYR A 28 41.263 21.571 18.016 0.41 1.00 C +ATOM 16 C CYR A 28 38.711 26.579 12.638 0.41 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.41 1.00 O +TER +ENDMDL +MODEL 7 +ATOM 0 N CYR A 28 37.540 25.729 14.572 0.30 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.30 1.00 C +ATOM 2 CB CYR A 28 39.224 24.313 13.522 0.30 1.00 C +ATOM 3 SG CYR A 28 40.910 23.742 13.911 0.30 1.00 S +ATOM 4 S1L CYR A 28 41.988 24.148 12.396 0.30 1.00 S +ATOM 5 C1L CYR A 28 42.903 25.640 12.811 0.30 1.00 C +ATOM 6 C1R CYR A 28 44.319 25.380 13.238 0.30 1.00 C +ATOM 7 C2R CYR A 28 44.747 25.431 14.525 0.30 1.00 C +ATOM 8 C1 CYR A 28 45.405 25.153 12.282 0.30 1.00 C +ATOM 9 C2 CYR A 28 46.277 25.288 14.650 0.30 1.00 C +ATOM 10 NN CYR A 28 46.569 25.108 13.250 0.30 1.00 N +ATOM 11 ON CYR A 28 47.718 24.775 12.829 0.30 1.00 O +ATOM 12 C2D CYR A 28 46.575 23.990 15.451 0.30 1.00 C +ATOM 13 C1D CYR A 28 45.404 23.810 11.628 0.30 1.00 C +ATOM 14 C2A CYR A 28 47.046 26.512 15.209 0.30 1.00 C +ATOM 15 C1A CYR A 28 45.683 26.245 11.207 0.30 1.00 C +ATOM 16 C CYR A 28 38.753 26.598 12.588 0.30 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.30 1.00 O +TER +ENDMDL +MODEL 8 +ATOM 0 N CYR A 28 37.529 25.669 14.672 0.29 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.29 1.00 C +ATOM 2 CB CYR A 28 39.484 24.389 13.775 0.29 1.00 C +ATOM 3 SG CYR A 28 39.361 23.596 12.085 0.29 1.00 S +ATOM 4 S1L CYR A 28 40.890 22.278 12.039 0.29 1.00 S +ATOM 5 C1L CYR A 28 42.185 23.263 11.196 0.29 1.00 C +ATOM 6 C1R CYR A 28 43.347 22.415 10.704 0.29 1.00 C +ATOM 7 C2R CYR A 28 44.629 22.415 11.112 0.29 1.00 C +ATOM 8 C1 CYR A 28 43.198 21.468 9.523 0.29 1.00 C +ATOM 9 C2 CYR A 28 45.545 21.456 10.561 0.29 1.00 C +ATOM 10 NN CYR A 28 44.638 20.978 9.486 0.29 1.00 N +ATOM 11 ON CYR A 28 45.044 19.901 8.929 0.29 1.00 O +ATOM 12 C2D CYR A 28 45.801 20.312 11.589 0.29 1.00 C +ATOM 13 C1D CYR A 28 42.331 20.283 9.911 0.29 1.00 C +ATOM 14 C2A CYR A 28 46.812 21.999 9.865 0.29 1.00 C +ATOM 15 C1A CYR A 28 42.714 21.954 8.185 0.29 1.00 C +ATOM 16 C CYR A 28 38.853 26.580 12.564 0.29 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.29 1.00 O +TER +ENDMDL +MODEL 9 +ATOM 0 N CYR A 28 37.472 25.816 14.470 0.26 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.26 1.00 C +ATOM 2 CB CYR A 28 39.136 24.321 13.557 0.26 1.00 C +ATOM 3 SG CYR A 28 40.876 24.014 13.061 0.26 1.00 S +ATOM 4 S1L CYR A 28 40.807 24.502 11.065 0.26 1.00 S +ATOM 5 C1L CYR A 28 42.374 25.331 10.801 0.26 1.00 C +ATOM 6 C1R CYR A 28 43.637 24.471 11.037 0.26 1.00 C +ATOM 7 C2R CYR A 28 44.321 24.419 12.197 0.26 1.00 C +ATOM 8 C1 CYR A 28 44.226 23.599 9.960 0.26 1.00 C +ATOM 9 C2 CYR A 28 45.537 23.548 12.149 0.26 1.00 C +ATOM 10 NN CYR A 28 45.482 23.143 10.724 0.26 1.00 N +ATOM 11 ON CYR A 28 46.146 22.127 10.387 0.26 1.00 O +ATOM 12 C2D CYR A 28 45.431 22.318 13.122 0.26 1.00 C +ATOM 13 C1D CYR A 28 43.377 22.314 9.768 0.26 1.00 C +ATOM 14 C2A CYR A 28 46.893 24.278 12.336 0.26 1.00 C +ATOM 15 C1A CYR A 28 44.660 24.315 8.658 0.26 1.00 C +ATOM 16 C CYR A 28 38.597 26.638 12.604 0.26 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.26 1.00 O +TER +ENDMDL +MODEL 10 +ATOM 0 N CYR A 28 37.507 25.748 14.560 0.21 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.21 1.00 C +ATOM 2 CB CYR A 28 39.197 24.297 13.462 0.21 1.00 C +ATOM 3 SG CYR A 28 40.766 24.102 12.667 0.21 1.00 S +ATOM 4 S1L CYR A 28 42.127 25.061 13.881 0.21 1.00 S +ATOM 5 C1L CYR A 28 42.227 24.076 15.471 0.21 1.00 C +ATOM 6 C1R CYR A 28 43.515 24.077 16.234 0.21 1.00 C +ATOM 7 C2R CYR A 28 44.696 24.639 15.919 0.21 1.00 C +ATOM 8 C1 CYR A 28 43.544 23.239 17.558 0.21 1.00 C +ATOM 9 C2 CYR A 28 45.710 24.543 16.983 0.21 1.00 C +ATOM 10 NN CYR A 28 44.871 23.730 17.983 0.21 1.00 N +ATOM 11 ON CYR A 28 45.415 23.187 19.046 0.21 1.00 O +ATOM 12 C2D CYR A 28 46.027 25.909 17.574 0.21 1.00 C +ATOM 13 C1D CYR A 28 42.490 23.786 18.503 0.21 1.00 C +ATOM 14 C2A CYR A 28 46.904 23.743 16.551 0.21 1.00 C +ATOM 15 C1A CYR A 28 43.540 21.718 17.340 0.21 1.00 C +ATOM 16 C CYR A 28 38.722 26.578 12.635 0.21 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.21 1.00 O +TER +ENDMDL +MODEL 11 +ATOM 0 N CYR A 28 37.591 25.668 14.642 0.20 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.20 1.00 C +ATOM 2 CB CYR A 28 39.469 24.375 13.678 0.20 1.00 C +ATOM 3 SG CYR A 28 39.569 23.249 15.087 0.20 1.00 S +ATOM 4 S1L CYR A 28 41.089 23.996 16.107 0.20 1.00 S +ATOM 5 C1L CYR A 28 42.509 23.020 15.698 0.20 1.00 C +ATOM 6 C1R CYR A 28 43.058 22.148 16.757 0.20 1.00 C +ATOM 7 C2R CYR A 28 44.082 22.418 17.555 0.20 1.00 C +ATOM 8 C1 CYR A 28 42.395 20.786 16.999 0.20 1.00 C +ATOM 9 C2 CYR A 28 44.275 21.314 18.535 0.20 1.00 C +ATOM 10 NN CYR A 28 43.274 20.311 18.158 0.20 1.00 N +ATOM 11 ON CYR A 28 43.048 19.204 18.777 0.20 1.00 O +ATOM 12 C2D CYR A 28 43.961 21.793 19.987 0.20 1.00 C +ATOM 13 C1D CYR A 28 40.882 20.668 17.376 0.20 1.00 C +ATOM 14 C2A CYR A 28 45.694 20.678 18.564 0.20 1.00 C +ATOM 15 C1A CYR A 28 42.808 19.875 15.817 0.20 1.00 C +ATOM 16 C CYR A 28 38.860 26.548 12.611 0.20 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.20 1.00 O +TER +ENDMDL +MODEL 12 +ATOM 0 N CYR A 28 37.504 25.821 14.446 0.19 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.19 1.00 C +ATOM 2 CB CYR A 28 39.065 24.309 13.591 0.19 1.00 C +ATOM 3 SG CYR A 28 40.825 23.927 13.176 0.19 1.00 S +ATOM 4 S1L CYR A 28 40.958 23.981 11.081 0.19 1.00 S +ATOM 5 C1L CYR A 28 42.154 25.392 10.792 0.19 1.00 C +ATOM 6 C1R CYR A 28 43.499 25.180 11.343 0.19 1.00 C +ATOM 7 C2R CYR A 28 44.120 25.793 12.397 0.19 1.00 C +ATOM 8 C1 CYR A 28 44.413 24.204 10.662 0.19 1.00 C +ATOM 9 C2 CYR A 28 45.570 25.316 12.589 0.19 1.00 C +ATOM 10 NN CYR A 28 45.585 24.236 11.508 0.19 1.00 N +ATOM 11 ON CYR A 28 46.644 23.529 11.416 0.19 1.00 O +ATOM 12 C2D CYR A 28 45.708 24.766 14.011 0.19 1.00 C +ATOM 13 C1D CYR A 28 44.060 22.764 10.562 0.19 1.00 C +ATOM 14 C2A CYR A 28 46.654 26.355 12.439 0.19 1.00 C +ATOM 15 C1A CYR A 28 44.840 24.746 9.249 0.19 1.00 C +ATOM 16 C CYR A 28 38.581 26.660 12.579 0.19 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.19 1.00 O +TER +ENDMDL +MODEL 13 +ATOM 0 N CYR A 28 37.437 25.756 14.583 0.17 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.17 1.00 C +ATOM 2 CB CYR A 28 39.288 24.313 13.397 0.17 1.00 C +ATOM 3 SG CYR A 28 39.545 23.101 14.781 0.17 1.00 S +ATOM 4 S1L CYR A 28 41.012 24.079 15.801 0.17 1.00 S +ATOM 5 C1L CYR A 28 42.468 23.209 15.212 0.17 1.00 C +ATOM 6 C1R CYR A 28 43.676 23.380 16.058 0.17 1.00 C +ATOM 7 C2R CYR A 28 44.568 24.382 16.091 0.17 1.00 C +ATOM 8 C1 CYR A 28 44.011 22.372 17.044 0.17 1.00 C +ATOM 9 C2 CYR A 28 45.667 24.193 17.031 0.17 1.00 C +ATOM 10 NN CYR A 28 45.356 22.858 17.546 0.17 1.00 N +ATOM 11 ON CYR A 28 46.231 22.205 18.251 0.17 1.00 O +ATOM 12 C2D CYR A 28 45.436 25.158 18.208 0.17 1.00 C +ATOM 13 C1D CYR A 28 42.989 22.259 18.218 0.17 1.00 C +ATOM 14 C2A CYR A 28 47.127 24.435 16.533 0.17 1.00 C +ATOM 15 C1A CYR A 28 44.295 20.959 16.504 0.17 1.00 C +ATOM 16 C CYR A 28 38.703 26.625 12.571 0.17 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.17 1.00 O +TER +ENDMDL +MODEL 14 +ATOM 0 N CYR A 28 37.544 25.696 14.622 0.16 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.16 1.00 C +ATOM 2 CB CYR A 28 39.395 24.298 13.731 0.16 1.00 C +ATOM 3 SG CYR A 28 39.178 23.370 12.206 0.16 1.00 S +ATOM 4 S1L CYR A 28 39.898 21.593 12.771 0.16 1.00 S +ATOM 5 C1L CYR A 28 41.705 21.870 12.700 0.16 1.00 C +ATOM 6 C1R CYR A 28 42.437 21.761 13.973 0.16 1.00 C +ATOM 7 C2R CYR A 28 42.869 22.771 14.678 0.16 1.00 C +ATOM 8 C1 CYR A 28 42.749 20.487 14.529 0.16 1.00 C +ATOM 9 C2 CYR A 28 43.643 22.438 15.852 0.16 1.00 C +ATOM 10 NN CYR A 28 43.594 20.955 15.719 0.16 1.00 N +ATOM 11 ON CYR A 28 43.838 20.189 16.757 0.16 1.00 O +ATOM 12 C2D CYR A 28 43.012 22.940 17.152 0.16 1.00 C +ATOM 13 C1D CYR A 28 41.476 19.770 15.027 0.16 1.00 C +ATOM 14 C2A CYR A 28 45.101 23.017 15.633 0.16 1.00 C +ATOM 15 C1A CYR A 28 43.619 19.587 13.661 0.16 1.00 C +ATOM 16 C CYR A 28 38.810 26.572 12.599 0.16 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.16 1.00 O +TER +ENDMDL +MODEL 15 +ATOM 0 N CYR A 28 37.491 25.761 14.547 0.14 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.14 1.00 C +ATOM 2 CB CYR A 28 39.225 24.276 13.481 0.14 1.00 C +ATOM 3 SG CYR A 28 39.596 23.414 15.026 0.14 1.00 S +ATOM 4 S1L CYR A 28 39.701 21.426 14.436 0.14 1.00 S +ATOM 5 C1L CYR A 28 41.469 21.019 14.497 0.14 1.00 C +ATOM 6 C1R CYR A 28 42.211 21.467 15.772 0.14 1.00 C +ATOM 7 C2R CYR A 28 43.230 22.299 15.761 0.14 1.00 C +ATOM 8 C1 CYR A 28 41.915 21.008 17.131 0.14 1.00 C +ATOM 9 C2 CYR A 28 43.761 22.693 17.046 0.14 1.00 C +ATOM 10 NN CYR A 28 42.972 21.827 17.907 0.14 1.00 N +ATOM 11 ON CYR A 28 42.958 22.126 19.144 0.14 1.00 O +ATOM 12 C2D CYR A 28 43.431 24.231 17.136 0.14 1.00 C +ATOM 13 C1D CYR A 28 40.558 21.360 17.734 0.14 1.00 C +ATOM 14 C2A CYR A 28 45.273 22.329 17.163 0.14 1.00 C +ATOM 15 C1A CYR A 28 42.252 19.522 17.398 0.14 1.00 C +ATOM 16 C CYR A 28 38.697 26.603 12.609 0.14 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.14 1.00 O +TER +ENDMDL +MODEL 16 +ATOM 0 N CYR A 28 37.495 25.747 14.566 0.09 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.09 1.00 C +ATOM 2 CB CYR A 28 39.156 24.329 13.538 0.09 1.00 C +ATOM 3 SG CYR A 28 39.591 23.435 15.077 0.09 1.00 S +ATOM 4 S1L CYR A 28 39.291 21.547 14.353 0.09 1.00 S +ATOM 5 C1L CYR A 28 40.903 21.186 13.540 0.09 1.00 C +ATOM 6 C1R CYR A 28 42.106 21.057 14.451 0.09 1.00 C +ATOM 7 C2R CYR A 28 43.104 21.952 14.512 0.09 1.00 C +ATOM 8 C1 CYR A 28 42.310 19.879 15.327 0.09 1.00 C +ATOM 9 C2 CYR A 28 44.236 21.591 15.486 0.09 1.00 C +ATOM 10 NN CYR A 28 43.802 20.178 15.731 0.09 1.00 N +ATOM 11 ON CYR A 28 44.585 19.329 16.248 0.09 1.00 O +ATOM 12 C2D CYR A 28 44.326 22.321 16.831 0.09 1.00 C +ATOM 13 C1D CYR A 28 41.421 19.751 16.567 0.09 1.00 C +ATOM 14 C2A CYR A 28 45.604 21.681 14.712 0.09 1.00 C +ATOM 15 C1A CYR A 28 42.321 18.551 14.583 0.09 1.00 C +ATOM 16 C CYR A 28 38.721 26.585 12.625 0.09 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.09 1.00 O +TER +ENDMDL +MODEL 17 +ATOM 0 N CYR A 28 37.508 25.791 14.492 0.08 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.08 1.00 C +ATOM 2 CB CYR A 28 39.237 24.300 13.568 0.08 1.00 C +ATOM 3 SG CYR A 28 40.259 23.693 15.057 0.08 1.00 S +ATOM 4 S1L CYR A 28 39.276 21.888 15.234 0.08 1.00 S +ATOM 5 C1L CYR A 28 40.021 20.768 13.994 0.08 1.00 C +ATOM 6 C1R CYR A 28 41.528 20.827 13.837 0.08 1.00 C +ATOM 7 C2R CYR A 28 42.228 21.403 12.873 0.08 1.00 C +ATOM 8 C1 CYR A 28 42.560 20.134 14.879 0.08 1.00 C +ATOM 9 C2 CYR A 28 43.672 21.112 12.865 0.08 1.00 C +ATOM 10 NN CYR A 28 43.807 20.266 14.081 0.08 1.00 N +ATOM 11 ON CYR A 28 44.858 19.638 14.532 0.08 1.00 O +ATOM 12 C2D CYR A 28 44.598 22.361 12.962 0.08 1.00 C +ATOM 13 C1D CYR A 28 42.819 20.913 16.206 0.08 1.00 C +ATOM 14 C2A CYR A 28 44.054 20.303 11.603 0.08 1.00 C +ATOM 15 C1A CYR A 28 42.262 18.680 15.156 0.08 1.00 C +ATOM 16 C CYR A 28 38.644 26.613 12.619 0.08 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.08 1.00 O +TER +ENDMDL +MODEL 18 +ATOM 0 N CYR A 28 37.542 25.754 14.531 0.07 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.07 1.00 C +ATOM 2 CB CYR A 28 39.261 24.370 13.677 0.07 1.00 C +ATOM 3 SG CYR A 28 39.877 23.445 15.213 0.07 1.00 S +ATOM 4 S1L CYR A 28 41.247 24.742 16.003 0.07 1.00 S +ATOM 5 C1L CYR A 28 42.916 24.055 15.785 0.07 1.00 C +ATOM 6 C1R CYR A 28 43.594 23.810 17.118 0.07 1.00 C +ATOM 7 C2R CYR A 28 43.130 24.064 18.396 0.07 1.00 C +ATOM 8 C1 CYR A 28 45.021 23.127 17.107 0.07 1.00 C +ATOM 9 C2 CYR A 28 44.039 23.597 19.487 0.07 1.00 C +ATOM 10 NN CYR A 28 45.026 22.811 18.562 0.07 1.00 N +ATOM 11 ON CYR A 28 46.077 22.276 19.080 0.07 1.00 O +ATOM 12 C2D CYR A 28 43.460 22.540 20.446 0.07 1.00 C +ATOM 13 C1D CYR A 28 45.048 21.808 16.307 0.07 1.00 C +ATOM 14 C2A CYR A 28 44.772 24.795 20.123 0.07 1.00 C +ATOM 15 C1A CYR A 28 46.189 24.058 16.780 0.07 1.00 C +ATOM 16 C CYR A 28 38.708 26.607 12.596 0.07 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.07 1.00 O +TER +ENDMDL +MODEL 19 +ATOM 0 N CYR A 28 37.511 25.762 14.535 0.07 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.07 1.00 C +ATOM 2 CB CYR A 28 39.201 24.456 13.294 0.07 1.00 C +ATOM 3 SG CYR A 28 40.928 24.290 12.752 0.07 1.00 S +ATOM 4 S1L CYR A 28 41.276 22.362 12.480 0.07 1.00 S +ATOM 5 C1L CYR A 28 40.505 22.097 10.882 0.07 1.00 C +ATOM 6 C1R CYR A 28 40.798 20.716 10.297 0.07 1.00 C +ATOM 7 C2R CYR A 28 41.667 20.452 9.325 0.07 1.00 C +ATOM 8 C1 CYR A 28 40.096 19.427 10.874 0.07 1.00 C +ATOM 9 C2 CYR A 28 41.624 19.018 8.850 0.07 1.00 C +ATOM 10 NN CYR A 28 40.681 18.453 9.899 0.07 1.00 N +ATOM 11 ON CYR A 28 40.343 17.192 9.845 0.07 1.00 O +ATOM 12 C2D CYR A 28 42.903 18.283 8.995 0.07 1.00 C +ATOM 13 C1D CYR A 28 40.786 19.110 12.292 0.07 1.00 C +ATOM 14 C2A CYR A 28 41.025 18.734 7.488 0.07 1.00 C +ATOM 15 C1A CYR A 28 38.607 19.329 10.930 0.07 1.00 C +ATOM 16 C CYR A 28 38.697 26.582 12.640 0.07 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.07 1.00 O +TER +ENDMDL +MODEL 20 +ATOM 0 N CYR A 28 37.505 25.730 14.588 0.06 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.06 1.00 C +ATOM 2 CB CYR A 28 39.212 24.295 13.499 0.06 1.00 C +ATOM 3 SG CYR A 28 39.431 23.250 14.944 0.06 1.00 S +ATOM 4 S1L CYR A 28 40.701 24.072 16.272 0.06 1.00 S +ATOM 5 C1L CYR A 28 42.291 24.128 15.382 0.06 1.00 C +ATOM 6 C1R CYR A 28 43.214 22.945 15.691 0.06 1.00 C +ATOM 7 C2R CYR A 28 44.293 23.098 16.428 0.06 1.00 C +ATOM 8 C1 CYR A 28 43.042 21.475 15.189 0.06 1.00 C +ATOM 9 C2 CYR A 28 45.203 21.924 16.566 0.06 1.00 C +ATOM 10 NN CYR A 28 44.366 20.982 15.702 0.06 1.00 N +ATOM 11 ON CYR A 28 44.731 19.750 15.770 0.06 1.00 O +ATOM 12 C2D CYR A 28 45.063 21.370 18.056 0.06 1.00 C +ATOM 13 C1D CYR A 28 41.849 20.526 15.757 0.06 1.00 C +ATOM 14 C2A CYR A 28 46.663 22.156 16.093 0.06 1.00 C +ATOM 15 C1A CYR A 28 43.063 21.222 13.647 0.06 1.00 C +ATOM 16 C CYR A 28 38.750 26.578 12.619 0.06 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.06 1.00 O +TER +ENDMDL +MODEL 21 +ATOM 0 N CYR A 28 37.486 25.731 14.596 0.05 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.05 1.00 C +ATOM 2 CB CYR A 28 39.276 24.335 13.487 0.05 1.00 C +ATOM 3 SG CYR A 28 41.024 24.207 13.107 0.05 1.00 S +ATOM 4 S1L CYR A 28 41.670 22.591 14.089 0.05 1.00 S +ATOM 5 C1L CYR A 28 40.629 21.202 13.454 0.05 1.00 C +ATOM 6 C1R CYR A 28 41.183 19.833 13.729 0.05 1.00 C +ATOM 7 C2R CYR A 28 41.878 19.055 12.929 0.05 1.00 C +ATOM 8 C1 CYR A 28 40.787 19.201 15.134 0.05 1.00 C +ATOM 9 C2 CYR A 28 42.391 17.802 13.582 0.05 1.00 C +ATOM 10 NN CYR A 28 41.907 18.046 15.023 0.05 1.00 N +ATOM 11 ON CYR A 28 41.819 17.087 15.869 0.05 1.00 O +ATOM 12 C2D CYR A 28 43.930 17.768 13.422 0.05 1.00 C +ATOM 13 C1D CYR A 28 41.195 19.986 16.396 0.05 1.00 C +ATOM 14 C2A CYR A 28 41.750 16.533 13.027 0.05 1.00 C +ATOM 15 C1A CYR A 28 39.324 18.806 15.183 0.05 1.00 C +ATOM 16 C CYR A 28 38.746 26.620 12.556 0.05 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.05 1.00 O +TER +ENDMDL +MODEL 22 +ATOM 0 N CYR A 28 37.460 25.777 14.538 0.04 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.04 1.00 C +ATOM 2 CB CYR A 28 39.369 24.334 13.642 0.04 1.00 C +ATOM 3 SG CYR A 28 40.917 24.313 12.560 0.04 1.00 S +ATOM 4 S1L CYR A 28 41.487 22.327 12.575 0.04 1.00 S +ATOM 5 C1L CYR A 28 42.905 22.092 13.657 0.04 1.00 C +ATOM 6 C1R CYR A 28 42.650 22.528 15.034 0.04 1.00 C +ATOM 7 C2R CYR A 28 42.946 23.591 15.683 0.04 1.00 C +ATOM 8 C1 CYR A 28 41.852 21.617 15.940 0.04 1.00 C +ATOM 9 C2 CYR A 28 42.566 23.709 17.160 0.04 1.00 C +ATOM 10 NN CYR A 28 41.909 22.400 17.249 0.04 1.00 N +ATOM 11 ON CYR A 28 41.312 22.056 18.342 0.04 1.00 O +ATOM 12 C2D CYR A 28 41.549 24.901 17.471 0.04 1.00 C +ATOM 13 C1D CYR A 28 40.321 21.186 15.685 0.04 1.00 C +ATOM 14 C2A CYR A 28 43.635 23.667 18.266 0.04 1.00 C +ATOM 15 C1A CYR A 28 42.720 20.400 16.303 0.04 1.00 C +ATOM 16 C CYR A 28 38.666 26.637 12.570 0.04 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.04 1.00 O +TER +ENDMDL +MODEL 23 +ATOM 0 N CYR A 28 37.561 25.705 14.599 0.04 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.04 1.00 C +ATOM 2 CB CYR A 28 39.329 24.350 13.453 0.04 1.00 C +ATOM 3 SG CYR A 28 39.240 23.263 14.798 0.04 1.00 S +ATOM 4 S1L CYR A 28 41.090 23.555 15.770 0.04 1.00 S +ATOM 5 C1L CYR A 28 42.297 22.784 14.671 0.04 1.00 C +ATOM 6 C1R CYR A 28 43.155 21.661 15.303 0.04 1.00 C +ATOM 7 C2R CYR A 28 44.338 21.725 15.841 0.04 1.00 C +ATOM 8 C1 CYR A 28 42.571 20.314 15.356 0.04 1.00 C +ATOM 9 C2 CYR A 28 44.875 20.476 16.441 0.04 1.00 C +ATOM 10 NN CYR A 28 43.646 19.646 16.170 0.04 1.00 N +ATOM 11 ON CYR A 28 43.754 18.357 16.389 0.04 1.00 O +ATOM 12 C2D CYR A 28 44.860 20.447 18.016 0.04 1.00 C +ATOM 13 C1D CYR A 28 41.178 20.197 16.085 0.04 1.00 C +ATOM 14 C2A CYR A 28 46.118 19.854 15.834 0.04 1.00 C +ATOM 15 C1A CYR A 28 42.461 19.610 14.002 0.04 1.00 C +ATOM 16 C CYR A 28 38.796 26.561 12.623 0.04 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.04 1.00 O +TER +ENDMDL +MODEL 24 +ATOM 0 N CYR A 28 37.551 25.727 14.570 0.03 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.03 1.00 C +ATOM 2 CB CYR A 28 39.298 24.288 13.668 0.03 1.00 C +ATOM 3 SG CYR A 28 41.069 24.169 14.112 0.03 1.00 S +ATOM 4 S1L CYR A 28 42.022 24.457 12.340 0.03 1.00 S +ATOM 5 C1L CYR A 28 42.803 26.092 12.492 0.03 1.00 C +ATOM 6 C1R CYR A 28 44.287 26.116 12.801 0.03 1.00 C +ATOM 7 C2R CYR A 28 44.863 26.187 14.027 0.03 1.00 C +ATOM 8 C1 CYR A 28 45.330 26.080 11.685 0.03 1.00 C +ATOM 9 C2 CYR A 28 46.316 26.159 14.039 0.03 1.00 C +ATOM 10 NN CYR A 28 46.497 26.366 12.574 0.03 1.00 N +ATOM 11 ON CYR A 28 47.603 26.589 12.100 0.03 1.00 O +ATOM 12 C2D CYR A 28 46.947 24.881 14.607 0.03 1.00 C +ATOM 13 C1D CYR A 28 45.594 24.716 11.049 0.03 1.00 C +ATOM 14 C2A CYR A 28 46.746 27.318 14.969 0.03 1.00 C +ATOM 15 C1A CYR A 28 45.298 27.219 10.658 0.03 1.00 C +ATOM 16 C CYR A 28 38.758 26.583 12.609 0.03 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.03 1.00 O +TER +ENDMDL +MODEL 25 +ATOM 0 N CYR A 28 37.481 25.705 14.640 0.01 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.01 1.00 C +ATOM 2 CB CYR A 28 39.357 24.374 13.601 0.01 1.00 C +ATOM 3 SG CYR A 28 40.538 24.156 12.153 0.01 1.00 S +ATOM 4 S1L CYR A 28 40.982 22.280 12.316 0.01 1.00 S +ATOM 5 C1L CYR A 28 39.652 21.516 11.362 0.01 1.00 C +ATOM 6 C1R CYR A 28 39.711 20.008 11.313 0.01 1.00 C +ATOM 7 C2R CYR A 28 40.348 19.317 10.393 0.01 1.00 C +ATOM 8 C1 CYR A 28 39.025 19.143 12.422 0.01 1.00 C +ATOM 9 C2 CYR A 28 40.181 17.856 10.501 0.01 1.00 C +ATOM 10 NN CYR A 28 39.521 17.862 11.923 0.01 1.00 N +ATOM 11 ON CYR A 28 39.071 16.743 12.385 0.01 1.00 O +ATOM 12 C2D CYR A 28 41.532 17.149 10.595 0.01 1.00 C +ATOM 13 C1D CYR A 28 39.747 19.346 13.764 0.01 1.00 C +ATOM 14 C2A CYR A 28 39.270 17.120 9.464 0.01 1.00 C +ATOM 15 C1A CYR A 28 37.455 19.171 12.499 0.01 1.00 C +ATOM 16 C CYR A 28 38.790 26.632 12.515 0.01 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.01 1.00 O +TER +ENDMDL +MODEL 26 +ATOM 0 N CYR A 28 37.504 25.801 14.477 0.01 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.01 1.00 C +ATOM 2 CB CYR A 28 39.331 24.359 13.465 0.01 1.00 C +ATOM 3 SG CYR A 28 40.279 23.560 14.706 0.01 1.00 S +ATOM 4 S1L CYR A 28 39.082 21.974 15.067 0.01 1.00 S +ATOM 5 C1L CYR A 28 39.814 20.777 13.915 0.01 1.00 C +ATOM 6 C1R CYR A 28 41.169 20.345 14.373 0.01 1.00 C +ATOM 7 C2R CYR A 28 42.287 20.475 13.668 0.01 1.00 C +ATOM 8 C1 CYR A 28 41.451 19.692 15.777 0.01 1.00 C +ATOM 9 C2 CYR A 28 43.523 19.997 14.377 0.01 1.00 C +ATOM 10 NN CYR A 28 42.921 19.511 15.632 0.01 1.00 N +ATOM 11 ON CYR A 28 43.744 19.220 16.560 0.01 1.00 O +ATOM 12 C2D CYR A 28 44.454 21.237 14.492 0.01 1.00 C +ATOM 13 C1D CYR A 28 41.141 20.510 17.070 0.01 1.00 C +ATOM 14 C2A CYR A 28 44.259 18.852 13.657 0.01 1.00 C +ATOM 15 C1A CYR A 28 40.796 18.313 15.864 0.01 1.00 C +ATOM 16 C CYR A 28 38.628 26.601 12.646 0.01 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.01 1.00 O +TER +ENDMDL +HEADER A28CYR_density +ATOM 0 NEN CYR A 28 47.208 22.730 14.048 1.00 1.00 N +ATOM 1 NEN CYR A 28 44.796 21.478 10.658 0.65 1.00 N +ATOM 2 NEN CYR A 28 46.852 22.226 12.638 0.98 1.00 N +ATOM 3 NEN CYR A 28 42.328 19.335 8.210 0.38 1.00 N +ATOM 4 NEN CYR A 28 45.368 21.658 15.660 0.73 1.00 N +ATOM 5 NEN CYR A 28 42.256 20.104 16.703 0.34 1.00 N +ATOM 6 NEN CYR A 28 43.508 22.109 19.267 0.36 1.00 N +ATOM 7 NEN CYR A 28 47.143 24.941 13.039 0.23 1.00 N +ATOM 8 NEN CYR A 28 44.841 20.439 9.207 0.36 1.00 N +ATOM 9 NEN CYR A 28 45.814 22.635 10.556 0.46 1.00 N +ATOM 10 NEN CYR A 28 45.143 23.459 18.515 0.24 1.00 N +ATOM 11 NEN CYR A 28 43.161 19.757 18.467 0.23 1.00 N +ATOM 12 NEN CYR A 28 46.114 23.883 11.462 0.25 1.00 N +ATOM 13 NEN CYR A 28 45.793 22.532 17.898 0.42 1.00 N +ATOM 14 NEN CYR A 28 43.716 20.572 16.238 0.44 1.00 N +ATOM 15 NEN CYR A 28 42.965 21.976 18.526 0.30 1.00 N +ATOM 16 NEN CYR A 28 44.193 19.754 15.990 0.23 1.00 N +ATOM 17 NEN CYR A 28 44.333 19.952 14.307 0.28 1.00 N +ATOM 18 NEN CYR A 28 45.552 22.544 18.821 0.31 1.00 N +ATOM 19 NEN CYR A 28 40.512 17.822 9.872 0.12 1.00 N +ATOM 20 NEN CYR A 28 44.549 20.366 15.736 0.37 1.00 N +ATOM 21 NEN CYR A 28 41.863 17.566 15.446 0.05 1.00 N +ATOM 22 NEN CYR A 28 41.610 22.228 17.796 0.03 1.00 N +ATOM 23 NEN CYR A 28 43.700 19.002 16.279 0.12 1.00 N +ATOM 24 NEN CYR A 28 47.050 26.478 12.337 0.02 1.00 N +ATOM 25 NEN CYR A 28 39.296 17.303 12.154 0.03 1.00 N +ATOM 26 NEN CYR A 28 43.333 19.365 16.096 0.23 1.00 N +TER diff --git a/examples/12 - Analyzing MD simulations/AR1A.pdb b/examples/12 - Analyzing MD simulations/AR1A.pdb new file mode 100644 index 00000000..0516ee0 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/AR1A.pdb @@ -0,0 +1,102 @@ +TITLE MDANALYSIS FRAME 0: Created by PDBWriter +CRYST1 32.118 32.118 32.118 90.00 90.00 90.00 P 1 1 +ATOM 1 N ALA A 1 12.660 11.970 16.210 1.00 0.00 A N +ATOM 2 H ALA A 1 13.160 12.560 16.910 1.00 0.00 A H +ATOM 3 H2 ALA A 1 12.630 10.980 16.530 1.00 0.00 A H +ATOM 4 H3 ALA A 1 11.720 12.410 16.130 1.00 0.00 A H +ATOM 5 CA ALA A 1 13.400 12.080 14.860 1.00 0.00 A C +ATOM 6 HA ALA A 1 14.300 11.510 15.050 1.00 0.00 A H +ATOM 7 CB ALA A 1 12.420 11.430 13.770 1.00 0.00 A C +ATOM 8 HB1 ALA A 1 11.480 11.990 13.610 1.00 0.00 A H +ATOM 9 HB2 ALA A 1 12.270 10.410 14.180 1.00 0.00 A H +ATOM 10 HB3 ALA A 1 12.960 11.400 12.800 1.00 0.00 A H +ATOM 11 C ALA A 1 13.560 13.620 14.580 1.00 0.00 A C +ATOM 12 O ALA A 1 13.070 14.460 15.340 1.00 0.00 A O +HETATM 13 N CYR A 2 14.410 13.960 13.600 1.00 0.00 A N +HETATM 14 HN CYR A 2 14.910 13.270 13.090 1.00 0.00 A H +HETATM 15 CA CYR A 2 14.520 15.410 13.230 1.00 0.00 A C +HETATM 16 HA CYR A 2 14.880 15.990 14.070 1.00 0.00 A H +HETATM 17 CB CYR A 2 15.780 15.450 12.490 1.00 0.00 A C +HETATM 18 HB1 CYR A 2 15.660 14.740 11.640 1.00 0.00 A H +HETATM 19 HB2 CYR A 2 15.980 16.410 11.970 1.00 0.00 A H +HETATM 20 SG CYR A 2 17.350 15.030 13.310 1.00 0.00 A S +HETATM 21 S1L CYR A 2 17.420 15.990 15.120 1.00 0.00 A S +HETATM 22 C1L CYR A 2 17.980 17.660 14.690 1.00 0.00 A C +HETATM 23 H1L CYR A 2 18.360 17.790 13.650 1.00 0.00 A H +HETATM 24 H1M CYR A 2 17.020 18.200 14.550 1.00 0.00 A H +HETATM 25 C1R CYR A 2 18.750 18.380 15.800 1.00 0.00 A C +HETATM 26 C2R CYR A 2 18.320 19.400 16.570 1.00 0.00 A C +HETATM 27 H2R CYR A 2 17.280 19.750 16.590 1.00 0.00 A H +HETATM 28 C1 CYR A 2 20.080 17.920 16.000 1.00 0.00 A C +HETATM 29 C2 CYR A 2 19.430 19.890 17.350 1.00 0.00 A C +HETATM 30 NN CYR A 2 20.550 19.100 16.750 1.00 0.00 A N +HETATM 31 ON CYR A 2 21.750 19.170 17.220 1.00 0.00 A O +HETATM 32 C2D CYR A 2 19.170 19.560 18.890 1.00 0.00 A C +HETATM 33 H2D CYR A 2 19.250 18.470 19.120 1.00 0.00 A H +HETATM 34 H2E CYR A 2 20.030 20.020 19.410 1.00 0.00 A H +HETATM 35 H2F CYR A 2 18.180 20.020 19.110 1.00 0.00 A H +HETATM 36 C1D CYR A 2 20.120 16.650 16.910 1.00 0.00 A C +HETATM 37 H1D CYR A 2 21.110 16.480 17.380 1.00 0.00 A H +HETATM 38 H1E CYR A 2 19.360 16.660 17.730 1.00 0.00 A H +HETATM 39 H1F CYR A 2 19.950 15.780 16.240 1.00 0.00 A H +HETATM 40 C2A CYR A 2 19.770 21.450 17.230 1.00 0.00 A C +HETATM 41 H2A CYR A 2 19.410 21.810 16.240 1.00 0.00 A H +HETATM 42 H2B CYR A 2 19.260 21.950 18.080 1.00 0.00 A H +HETATM 43 H2C CYR A 2 20.840 21.630 17.430 1.00 0.00 A H +HETATM 44 C1A CYR A 2 20.970 17.760 14.760 1.00 0.00 A C +HETATM 45 H1A CYR A 2 20.440 17.220 13.950 1.00 0.00 A H +HETATM 46 H1B CYR A 2 21.180 18.750 14.300 1.00 0.00 A H +HETATM 47 H1C CYR A 2 21.880 17.210 15.100 1.00 0.00 A H +HETATM 48 C CYR A 2 13.310 16.140 12.590 1.00 0.00 A C +HETATM 49 O CYR A 2 12.710 15.700 11.660 1.00 0.00 A O +ATOM 50 N ALA A 3 13.010 17.380 13.110 1.00 0.00 A N +ATOM 51 H ALA A 3 13.460 17.770 13.900 1.00 0.00 A H +ATOM 52 CA ALA A 3 12.020 18.290 12.700 1.00 0.00 A C +ATOM 53 HA ALA A 3 11.030 17.860 12.550 1.00 0.00 A H +ATOM 54 CB ALA A 3 11.890 19.350 13.670 1.00 0.00 A C +ATOM 55 HB1 ALA A 3 12.930 19.710 13.800 1.00 0.00 A H +ATOM 56 HB2 ALA A 3 11.510 18.940 14.620 1.00 0.00 A H +ATOM 57 HB3 ALA A 3 11.180 20.180 13.430 1.00 0.00 A H +ATOM 58 C ALA A 3 12.320 18.950 11.290 1.00 0.00 A C +ATOM 59 O ALA A 3 11.490 18.830 10.350 1.00 0.00 A O +ATOM 60 OXT ALA A 3 13.330 19.750 11.160 1.00 0.00 A O +CONECT 11 13 +CONECT 13 11 14 15 +CONECT 14 13 +CONECT 15 13 16 17 48 +CONECT 16 15 +CONECT 17 15 18 19 20 +CONECT 18 17 +CONECT 19 17 +CONECT 20 17 21 +CONECT 21 20 22 +CONECT 22 21 23 24 25 +CONECT 23 22 +CONECT 24 22 +CONECT 25 22 26 28 +CONECT 26 25 27 29 +CONECT 27 26 +CONECT 28 25 30 36 44 +CONECT 29 26 30 32 40 +CONECT 30 28 29 31 +CONECT 31 30 +CONECT 32 29 33 34 35 +CONECT 33 32 +CONECT 34 32 +CONECT 35 32 +CONECT 36 28 37 38 39 +CONECT 37 36 +CONECT 38 36 +CONECT 39 36 +CONECT 40 29 41 42 43 +CONECT 41 40 +CONECT 42 40 +CONECT 43 40 +CONECT 44 28 45 46 47 +CONECT 45 44 +CONECT 46 44 +CONECT 47 44 +CONECT 48 15 49 50 +CONECT 49 48 +CONECT 50 48 +END diff --git a/examples/12 - Analyzing MD simulations/AR1A.xtc b/examples/12 - Analyzing MD simulations/AR1A.xtc new file mode 100644 index 0000000000000000000000000000000000000000..8fe08491ac7d4cbe5521f0eab009bfd678c59b34 GIT binary patch literal 75108 zcmZ^r1ys~c_s8i5X{5WmBvoVqk?uyiLkU4tq`Q=E>F#ck?(XgsL`gCD&-y;#`~J_v zoOAcLcl6FV^YMG<&dlx#1B2WT0|O%p3snAGf-u{X2aCb5XO7VO=$!26Me;2Ma-lvb$3ZrE=YF@&925 ze*w5L!@$6w18yb2o`dmHLF^xPniOg{bQhxySe?`~Hk9zNcpk4n8vs(kV!TbovwHlcnNVRhMph}`qP*ug+U_Pih4AvFG8QvOC`(hKOQF}ELAtz;zK26 z=_Nl+Y5k@62?^>Qb^M-1h9CF+7yI3c>JAa_e8;q9*V*jusLpLBK&t>&87O(BaW!L36GTt#(y{F!g zA;(cpV|h6ImE!Q>rs6bOG-0fgV-u-Je(6hqhr~9KY6va)rj7Xr&vxy0ow__itaCAcG_&)l_Tsh1 zPIrX)ke9o2$N5qb-x+K17yL>CyfgeE9hqi#RNcm~4Q2Qov*KKzA-*qCWsjCh6Xbb> zECt4bgjomqrW@oSLgZG#ld9*KSj$~`5sBWhX_+K?PN&8f?uTk+!-fqeZ1_&ES}k-&(+ct;=>%5E9k^9d1pal2SgLSn982YMt83H|Ec 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+ "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/examples/13 - OpenMM score function/system.pdb b/examples/13 - OpenMM score function/system.pdb new file mode 100644 index 00000000..08ab1dd --- /dev/null +++ b/examples/13 - OpenMM score function/system.pdb @@ -0,0 +1,1234 @@ +REMARK 1 CREATED WITH OPENMM 8.2, 2025-02-14 +ATOM 1 N MET A 1 27.340 24.430 2.614 1.00 0.00 N +ATOM 2 H MET A 1 27.334 24.273 1.417 1.00 0.00 H +ATOM 3 H2 MET A 1 27.062 23.301 2.907 1.00 0.00 H +ATOM 4 H3 MET A 1 28.520 24.587 2.714 1.00 0.00 H +ATOM 5 CA MET A 1 26.266 25.413 2.842 1.00 0.00 C +ATOM 6 HA MET A 1 26.052 25.842 1.746 1.00 0.00 H +ATOM 7 C MET A 1 26.913 26.639 3.531 1.00 0.00 C +ATOM 8 O MET A 1 27.886 26.463 4.263 1.00 0.00 O +ATOM 9 CB MET A 1 25.112 24.880 3.649 1.00 0.00 C +ATOM 10 HB2 MET A 1 24.756 23.715 3.625 1.00 0.00 H +ATOM 11 HB3 MET A 1 24.327 25.248 2.803 1.00 0.00 H +ATOM 12 CG MET A 1 25.353 24.860 5.134 1.00 0.00 C +ATOM 13 HG2 MET A 1 26.074 23.978 5.455 1.00 0.00 H +ATOM 14 HG3 MET A 1 25.220 25.971 5.523 1.00 0.00 H +ATOM 15 SD MET A 1 23.930 23.959 5.904 1.00 0.00 S +ATOM 16 CE MET A 1 24.447 23.984 7.620 1.00 0.00 C +ATOM 17 HE1 MET A 1 25.223 23.087 7.705 1.00 0.00 H +ATOM 18 HE2 MET A 1 24.829 24.957 8.183 1.00 0.00 H +ATOM 19 HE3 MET A 1 23.328 23.672 7.881 1.00 0.00 H +ATOM 20 N GLN A 2 26.335 27.770 3.258 1.00 0.00 N +ATOM 21 H GLN A 2 25.459 27.967 2.476 1.00 0.00 H +ATOM 22 CA GLN A 2 26.850 29.021 3.898 1.00 0.00 C +ATOM 23 HA GLN A 2 28.028 28.875 3.896 1.00 0.00 H +ATOM 24 C GLN A 2 26.100 29.253 5.202 1.00 0.00 C +ATOM 25 O GLN A 2 24.865 29.024 5.330 1.00 0.00 O +ATOM 26 CB GLN A 2 26.733 30.148 2.905 1.00 0.00 C +ATOM 27 HB2 GLN A 2 27.482 30.061 1.972 1.00 0.00 H +ATOM 28 HB3 GLN A 2 25.686 30.133 2.327 1.00 0.00 H +ATOM 29 CG GLN A 2 26.882 31.546 3.409 1.00 0.00 C +ATOM 30 HG2 GLN A 2 26.114 32.013 4.190 1.00 0.00 H +ATOM 31 HG3 GLN A 2 28.008 31.737 3.747 1.00 0.00 H +ATOM 32 CD GLN A 2 26.786 32.562 2.270 1.00 0.00 C +ATOM 33 OE1 GLN A 2 27.783 33.160 1.870 1.00 0.00 O +ATOM 34 NE2 GLN A 2 25.562 32.733 1.806 1.00 0.00 N +ATOM 35 HE21 GLN A 2 24.554 33.310 2.072 1.00 0.00 H +ATOM 36 HE22 GLN A 2 25.554 32.810 0.611 1.00 0.00 H +ATOM 37 N ILE A 3 26.849 29.656 6.217 1.00 0.00 N +ATOM 38 H ILE A 3 27.891 30.092 5.880 1.00 0.00 H +ATOM 39 CA ILE A 3 26.235 30.058 7.497 1.00 0.00 C +ATOM 40 HA ILE A 3 25.157 30.484 7.237 1.00 0.00 H +ATOM 41 C ILE A 3 26.882 31.428 7.862 1.00 0.00 C +ATOM 42 O ILE A 3 27.906 31.711 7.264 1.00 0.00 O +ATOM 43 CB ILE A 3 26.344 29.050 8.645 1.00 0.00 C +ATOM 44 HB ILE A 3 25.744 29.373 9.618 1.00 0.00 H +ATOM 45 CG1 ILE A 3 27.810 28.748 8.999 1.00 0.00 C +ATOM 46 HG12 ILE A 3 28.366 29.785 9.203 1.00 0.00 H +ATOM 47 HG13 ILE A 3 28.491 28.240 8.168 1.00 0.00 H +ATOM 48 CG2 ILE A 3 25.491 27.771 8.287 1.00 0.00 C +ATOM 49 HG21 ILE A 3 25.240 27.143 9.268 1.00 0.00 H +ATOM 50 HG22 ILE A 3 26.108 27.117 7.506 1.00 0.00 H +ATOM 51 HG23 ILE A 3 24.443 27.967 7.752 1.00 0.00 H +ATOM 52 CD1 ILE A 3 27.967 28.087 10.417 1.00 0.00 C +ATOM 53 HD11 ILE A 3 28.468 28.932 11.098 1.00 0.00 H +ATOM 54 HD12 ILE A 3 26.965 27.699 10.936 1.00 0.00 H +ATOM 55 HD13 ILE A 3 28.690 27.141 10.496 1.00 0.00 H +ATOM 56 N PHE A 4 26.214 32.097 8.771 1.00 0.00 N +ATOM 57 H PHE A 4 25.689 31.580 9.695 1.00 0.00 H +ATOM 58 CA PHE A 4 26.772 33.436 9.197 1.00 0.00 C +ATOM 59 HA PHE A 4 27.670 33.811 8.519 1.00 0.00 H +ATOM 60 C PHE A 4 27.151 33.362 10.650 1.00 0.00 C +ATOM 61 O PHE A 4 26.350 32.778 11.395 1.00 0.00 O +ATOM 62 CB PHE A 4 25.695 34.498 8.946 1.00 0.00 C +ATOM 63 HB2 PHE A 4 26.117 35.569 9.241 1.00 0.00 H +ATOM 64 HB3 PHE A 4 24.629 34.521 9.479 1.00 0.00 H +ATOM 65 CG PHE A 4 25.288 34.609 7.499 1.00 0.00 C +ATOM 66 CD1 PHE A 4 24.147 33.966 7.038 1.00 0.00 C +ATOM 67 HD1 PHE A 4 23.164 34.020 7.705 1.00 0.00 H +ATOM 68 CD2 PHE A 4 26.136 35.346 6.640 1.00 0.00 C +ATOM 69 HD2 PHE A 4 26.253 36.520 6.842 1.00 0.00 H +ATOM 70 CE1 PHE A 4 23.812 34.031 5.677 1.00 0.00 C +ATOM 71 HE1 PHE A 4 22.694 34.372 5.458 1.00 0.00 H +ATOM 72 CE2 PHE A 4 25.810 35.392 5.267 1.00 0.00 C +ATOM 73 HE2 PHE A 4 26.048 36.320 4.560 1.00 0.00 H +ATOM 74 CZ PHE A 4 24.620 34.778 4.853 1.00 0.00 C +ATOM 75 HZ PHE A 4 24.112 35.279 3.901 1.00 0.00 H +ATOM 76 N VAL A 5 28.260 33.943 11.096 1.00 0.00 N +ATOM 77 H VAL A 5 28.799 34.817 10.504 1.00 0.00 H +ATOM 78 CA VAL A 5 28.605 33.965 12.503 1.00 0.00 C +ATOM 79 HA VAL A 5 27.829 33.378 13.179 1.00 0.00 H +ATOM 80 C VAL A 5 28.638 35.461 12.900 1.00 0.00 C +ATOM 81 O VAL A 5 29.522 36.103 12.320 1.00 0.00 O +ATOM 82 CB VAL A 5 29.963 33.317 12.814 1.00 0.00 C +ATOM 83 HB VAL A 5 30.906 33.846 12.317 1.00 0.00 H +ATOM 84 CG1 VAL A 5 30.211 33.394 14.304 1.00 0.00 C +ATOM 85 HG11 VAL A 5 29.285 33.625 15.018 1.00 0.00 H +ATOM 86 HG12 VAL A 5 31.041 34.244 14.444 1.00 0.00 H +ATOM 87 HG13 VAL A 5 30.656 32.347 14.666 1.00 0.00 H +ATOM 88 CG2 VAL A 5 29.957 31.838 12.352 1.00 0.00 C +ATOM 89 HG21 VAL A 5 31.065 31.809 11.911 1.00 0.00 H +ATOM 90 HG22 VAL A 5 29.226 31.645 11.428 1.00 0.00 H +ATOM 91 HG23 VAL A 5 29.762 30.942 13.114 1.00 0.00 H +ATOM 92 N LYS A 6 27.751 35.867 13.740 1.00 0.00 N +ATOM 93 H LYS A 6 27.464 35.268 14.716 1.00 0.00 H +ATOM 94 CA LYS A 6 27.691 37.315 14.143 1.00 0.00 C +ATOM 95 HA LYS A 6 27.997 38.108 13.314 1.00 0.00 H +ATOM 96 C LYS A 6 28.469 37.475 15.420 1.00 0.00 C +ATOM 97 O LYS A 6 28.213 36.753 16.411 1.00 0.00 O +ATOM 98 CB LYS A 6 26.219 37.684 14.307 1.00 0.00 C +ATOM 99 HB2 LYS A 6 25.661 36.988 15.097 1.00 0.00 H +ATOM 100 HB3 LYS A 6 25.715 37.566 13.228 1.00 0.00 H +ATOM 101 CG LYS A 6 25.884 39.139 14.615 1.00 0.00 C +ATOM 102 HG2 LYS A 6 26.212 39.529 15.695 1.00 0.00 H +ATOM 103 HG3 LYS A 6 26.245 39.965 13.834 1.00 0.00 H +ATOM 104 CD LYS A 6 24.348 39.296 14.642 1.00 0.00 C +ATOM 105 HD2 LYS A 6 23.868 38.833 15.635 1.00 0.00 H +ATOM 106 HD3 LYS A 6 23.776 38.828 13.702 1.00 0.00 H +ATOM 107 CE LYS A 6 23.865 40.723 14.749 1.00 0.00 C +ATOM 108 HE2 LYS A 6 23.839 41.415 13.759 1.00 0.00 H +ATOM 109 HE3 LYS A 6 24.381 41.301 15.682 1.00 0.00 H +ATOM 110 NZ LYS A 6 22.375 40.720 14.907 1.00 0.00 N +ATOM 111 HZ1 LYS A 6 21.985 41.826 15.172 1.00 0.00 H +ATOM 112 HZ2 LYS A 6 21.794 40.031 15.696 1.00 0.00 H +ATOM 113 HZ3 LYS A 6 21.810 40.503 13.871 1.00 0.00 H +ATOM 114 N THR A 7 29.426 38.430 15.446 1.00 0.00 N +ATOM 115 H THR A 7 29.076 39.436 14.930 1.00 0.00 H +ATOM 116 CA THR A 7 30.225 38.643 16.662 1.00 0.00 C +ATOM 117 HA THR A 7 30.057 37.815 17.496 1.00 0.00 H +ATOM 118 C THR A 7 29.664 39.839 17.434 1.00 0.00 C +ATOM 119 O THR A 7 28.850 40.565 16.859 1.00 0.00 O +ATOM 120 CB THR A 7 31.744 38.879 16.299 1.00 0.00 C +ATOM 121 HB THR A 7 32.501 38.817 17.222 1.00 0.00 H +ATOM 122 OG1 THR A 7 31.737 40.257 15.824 1.00 0.00 O +ATOM 123 HG1 THR A 7 32.821 40.753 15.861 1.00 0.00 H +ATOM 124 CG2 THR A 7 32.260 37.969 15.171 1.00 0.00 C +ATOM 125 HG21 THR A 7 32.170 37.927 13.968 1.00 0.00 H +ATOM 126 HG22 THR A 7 31.856 36.936 15.614 1.00 0.00 H +ATOM 127 HG23 THR A 7 33.442 38.143 15.328 1.00 0.00 H +ATOM 128 N LEU A 8 30.132 40.069 18.642 1.00 0.00 N +ATOM 129 H LEU A 8 31.036 39.485 19.146 1.00 0.00 H +ATOM 130 CA LEU A 8 29.607 41.180 19.467 1.00 0.00 C +ATOM 131 HA LEU A 8 28.460 41.422 19.254 1.00 0.00 H +ATOM 132 C LEU A 8 30.075 42.538 18.984 1.00 0.00 C +ATOM 133 O LEU A 8 29.586 43.570 19.483 1.00 0.00 O +ATOM 134 CB LEU A 8 29.919 40.890 20.938 1.00 0.00 C +ATOM 135 HB2 LEU A 8 29.551 41.889 21.487 1.00 0.00 H +ATOM 136 HB3 LEU A 8 31.080 40.846 21.221 1.00 0.00 H +ATOM 137 CG LEU A 8 29.183 39.722 21.581 1.00 0.00 C +ATOM 138 HG LEU A 8 29.657 38.707 21.190 1.00 0.00 H +ATOM 139 CD1 LEU A 8 29.308 39.750 23.095 1.00 0.00 C +ATOM 140 HD11 LEU A 8 30.404 39.437 23.462 1.00 0.00 H +ATOM 141 HD12 LEU A 8 28.500 39.141 23.737 1.00 0.00 H +ATOM 142 HD13 LEU A 8 29.182 40.844 23.577 1.00 0.00 H +ATOM 143 CD2 LEU A 8 27.700 39.721 21.228 1.00 0.00 C +ATOM 144 HD21 LEU A 8 27.241 38.624 21.384 1.00 0.00 H +ATOM 145 HD22 LEU A 8 27.138 40.001 20.207 1.00 0.00 H +ATOM 146 HD23 LEU A 8 27.098 40.377 22.035 1.00 0.00 H +ATOM 147 N THR A 9 30.991 42.571 17.998 1.00 0.00 N +ATOM 148 H THR A 9 31.868 41.771 18.083 1.00 0.00 H +ATOM 149 CA THR A 9 31.422 43.940 17.553 1.00 0.00 C +ATOM 150 HA THR A 9 31.210 44.894 18.239 1.00 0.00 H +ATOM 151 C THR A 9 30.755 44.351 16.277 1.00 0.00 C +ATOM 152 O THR A 9 31.207 45.268 15.566 1.00 0.00 O +ATOM 153 CB THR A 9 32.979 43.918 17.445 1.00 0.00 C +ATOM 154 HB THR A 9 33.428 45.006 17.237 1.00 0.00 H +ATOM 155 OG1 THR A 9 33.174 43.067 16.265 1.00 0.00 O +ATOM 156 HG1 THR A 9 34.243 43.203 15.742 1.00 0.00 H +ATOM 157 CG2 THR A 9 33.657 43.319 18.672 1.00 0.00 C +ATOM 158 HG21 THR A 9 33.155 43.351 19.759 1.00 0.00 H +ATOM 159 HG22 THR A 9 34.564 44.099 18.816 1.00 0.00 H +ATOM 160 HG23 THR A 9 34.274 42.293 18.602 1.00 0.00 H +ATOM 161 N GLY A 10 29.721 43.673 15.885 1.00 0.00 N +ATOM 162 H GLY A 10 28.836 43.566 16.678 1.00 0.00 H +ATOM 163 CA GLY A 10 28.978 43.960 14.678 1.00 0.00 C +ATOM 164 HA2 GLY A 10 27.880 43.518 14.533 1.00 0.00 H +ATOM 165 HA3 GLY A 10 28.832 45.147 14.646 1.00 0.00 H +ATOM 166 C GLY A 10 29.604 43.507 13.393 1.00 0.00 C +ATOM 167 O GLY A 10 29.219 43.981 12.301 1.00 0.00 O +ATOM 168 N LYS A 11 30.563 42.623 13.495 1.00 0.00 N +ATOM 169 H LYS A 11 31.326 42.785 14.385 1.00 0.00 H +ATOM 170 CA LYS A 11 31.191 42.012 12.331 1.00 0.00 C +ATOM 171 HA LYS A 11 31.109 42.825 11.462 1.00 0.00 H +ATOM 172 C LYS A 11 30.459 40.666 12.130 1.00 0.00 C +ATOM 173 O LYS A 11 30.253 39.991 13.133 1.00 0.00 O +ATOM 174 CB LYS A 11 32.672 41.717 12.505 1.00 0.00 C +ATOM 175 HB2 LYS A 11 33.017 41.032 13.415 1.00 0.00 H +ATOM 176 HB3 LYS A 11 33.201 42.782 12.642 1.00 0.00 H +ATOM 177 CG LYS A 11 33.280 41.086 11.227 1.00 0.00 C +ATOM 178 HG2 LYS A 11 33.154 41.912 10.374 1.00 0.00 H +ATOM 179 HG3 LYS A 11 32.824 40.045 10.878 1.00 0.00 H +ATOM 180 CD LYS A 11 34.762 40.799 11.470 1.00 0.00 C +ATOM 181 HD2 LYS A 11 35.324 41.606 12.153 1.00 0.00 H +ATOM 182 HD3 LYS A 11 34.971 39.781 12.059 1.00 0.00 H +ATOM 183 CE LYS A 11 35.614 40.847 10.240 1.00 0.00 C +ATOM 184 HE2 LYS A 11 35.682 41.996 9.900 1.00 0.00 H +ATOM 185 HE3 LYS A 11 36.769 40.598 10.429 1.00 0.00 H +ATOM 186 NZ LYS A 11 35.100 40.073 9.101 1.00 0.00 N +ATOM 187 HZ1 LYS A 11 33.992 40.151 8.654 1.00 0.00 H +ATOM 188 HZ2 LYS A 11 35.730 40.581 8.208 1.00 0.00 H +ATOM 189 HZ3 LYS A 11 35.385 38.920 8.989 1.00 0.00 H +ATOM 190 N THR A 12 30.163 40.338 10.886 1.00 0.00 N +ATOM 191 H THR A 12 30.110 41.130 9.999 1.00 0.00 H +ATOM 192 CA THR A 12 29.542 39.020 10.653 1.00 0.00 C +ATOM 193 HA THR A 12 29.491 38.458 11.692 1.00 0.00 H +ATOM 194 C THR A 12 30.494 38.261 9.729 1.00 0.00 C +ATOM 195 O THR A 12 30.849 38.850 8.706 1.00 0.00 O +ATOM 196 CB THR A 12 28.113 39.049 10.015 1.00 0.00 C +ATOM 197 HB THR A 12 27.977 39.723 9.037 1.00 0.00 H +ATOM 198 OG1 THR A 12 27.280 39.722 10.996 1.00 0.00 O +ATOM 199 HG1 THR A 12 27.216 40.931 10.863 1.00 0.00 H +ATOM 200 CG2 THR A 12 27.588 37.635 9.715 1.00 0.00 C +ATOM 201 HG21 THR A 12 27.489 36.889 10.630 1.00 0.00 H +ATOM 202 HG22 THR A 12 26.457 37.954 9.459 1.00 0.00 H +ATOM 203 HG23 THR A 12 28.118 37.311 8.694 1.00 0.00 H +ATOM 204 N ILE A 13 30.795 37.015 10.095 1.00 0.00 N +ATOM 205 H ILE A 13 30.867 36.558 11.175 1.00 0.00 H +ATOM 206 CA ILE A 13 31.720 36.289 9.176 1.00 0.00 C +ATOM 207 HA ILE A 13 32.061 37.015 8.292 1.00 0.00 H +ATOM 208 C ILE A 13 30.955 35.211 8.459 1.00 0.00 C +ATOM 209 O ILE A 13 30.025 34.618 9.040 1.00 0.00 O +ATOM 210 CB ILE A 13 32.995 35.883 9.934 1.00 0.00 C +ATOM 211 HB ILE A 13 33.863 36.482 9.373 1.00 0.00 H +ATOM 212 CG1 ILE A 13 33.306 34.381 9.840 1.00 0.00 C +ATOM 213 HG12 ILE A 13 33.235 34.146 8.681 1.00 0.00 H +ATOM 214 HG13 ILE A 13 32.420 33.755 10.327 1.00 0.00 H +ATOM 215 CG2 ILE A 13 33.109 36.381 11.435 1.00 0.00 C +ATOM 216 HG21 ILE A 13 32.878 35.656 12.357 1.00 0.00 H +ATOM 217 HG22 ILE A 13 34.258 36.668 11.604 1.00 0.00 H +ATOM 218 HG23 ILE A 13 32.761 37.513 11.600 1.00 0.00 H +ATOM 219 CD1 ILE A 13 34.535 34.028 10.720 1.00 0.00 C +ATOM 220 HD11 ILE A 13 34.467 32.833 10.732 1.00 0.00 H +ATOM 221 HD12 ILE A 13 35.393 34.556 10.070 1.00 0.00 H +ATOM 222 HD13 ILE A 13 34.674 34.251 11.886 1.00 0.00 H +ATOM 223 N THR A 14 31.244 34.986 7.197 1.00 0.00 N +ATOM 224 H THR A 14 32.125 35.478 6.568 1.00 0.00 H +ATOM 225 CA THR A 14 30.505 33.884 6.512 1.00 0.00 C +ATOM 226 HA THR A 14 29.385 33.779 6.878 1.00 0.00 H +ATOM 227 C THR A 14 31.409 32.680 6.446 1.00 0.00 C +ATOM 228 O THR A 14 32.619 32.812 6.125 1.00 0.00 O +ATOM 229 CB THR A 14 30.091 34.393 5.078 1.00 0.00 C +ATOM 230 HB THR A 14 29.690 33.676 4.217 1.00 0.00 H +ATOM 231 OG1 THR A 14 31.440 34.513 4.487 1.00 0.00 O +ATOM 232 HG1 THR A 14 31.600 35.475 3.774 1.00 0.00 H +ATOM 233 CG2 THR A 14 29.420 35.756 5.119 1.00 0.00 C +ATOM 234 HG21 THR A 14 28.275 35.721 5.444 1.00 0.00 H +ATOM 235 HG22 THR A 14 29.863 36.776 5.554 1.00 0.00 H +ATOM 236 HG23 THR A 14 29.310 36.033 3.954 1.00 0.00 H +ATOM 237 N LEU A 15 30.884 31.485 6.666 1.00 0.00 N +ATOM 238 H LEU A 15 29.730 31.442 6.889 1.00 0.00 H +ATOM 239 CA LEU A 15 31.677 30.275 6.639 1.00 0.00 C +ATOM 240 HA LEU A 15 32.701 30.541 6.095 1.00 0.00 H +ATOM 241 C LEU A 15 31.022 29.288 5.665 1.00 0.00 C +ATOM 242 O LEU A 15 29.809 29.395 5.545 1.00 0.00 O +ATOM 243 CB LEU A 15 31.562 29.686 8.045 1.00 0.00 C +ATOM 244 HB2 LEU A 15 30.995 30.554 8.635 1.00 0.00 H +ATOM 245 HB3 LEU A 15 31.005 28.661 7.882 1.00 0.00 H +ATOM 246 CG LEU A 15 32.631 29.444 9.060 1.00 0.00 C +ATOM 247 HG LEU A 15 33.280 28.477 8.783 1.00 0.00 H +ATOM 248 CD1 LEU A 15 33.814 30.390 9.030 1.00 0.00 C +ATOM 249 HD11 LEU A 15 34.609 30.367 9.917 1.00 0.00 H +ATOM 250 HD12 LEU A 15 33.505 31.521 8.816 1.00 0.00 H +ATOM 251 HD13 LEU A 15 34.463 30.096 8.063 1.00 0.00 H +ATOM 252 CD2 LEU A 15 31.945 29.449 10.436 1.00 0.00 C +ATOM 253 HD21 LEU A 15 32.172 28.310 10.724 1.00 0.00 H +ATOM 254 HD22 LEU A 15 32.561 30.177 11.147 1.00 0.00 H +ATOM 255 HD23 LEU A 15 30.767 29.577 10.583 1.00 0.00 H +ATOM 256 N GLU A 16 31.834 28.412 5.125 1.00 0.00 N +ATOM 257 H GLU A 16 33.008 28.538 4.980 1.00 0.00 H +ATOM 258 CA GLU A 16 31.220 27.341 4.275 1.00 0.00 C +ATOM 259 HA GLU A 16 30.107 27.565 3.928 1.00 0.00 H +ATOM 260 C GLU A 16 31.440 26.079 5.080 1.00 0.00 C +ATOM 261 O GLU A 16 32.576 25.802 5.461 1.00 0.00 O +ATOM 262 CB GLU A 16 31.827 27.262 2.894 1.00 0.00 C +ATOM 263 HB2 GLU A 16 31.503 26.278 2.293 1.00 0.00 H +ATOM 264 HB3 GLU A 16 33.020 27.223 2.835 1.00 0.00 H +ATOM 265 CG GLU A 16 31.363 28.410 1.962 1.00 0.00 C +ATOM 266 HG2 GLU A 16 30.194 28.620 1.851 1.00 0.00 H +ATOM 267 HG3 GLU A 16 31.925 29.434 2.219 1.00 0.00 H +ATOM 268 CD GLU A 16 31.671 28.291 0.498 1.00 0.00 C +ATOM 269 OE1 GLU A 16 30.869 28.621 -0.366 1.00 0.00 O +ATOM 270 OE2 GLU A 16 32.835 27.861 0.278 1.00 0.00 O +ATOM 271 N VAL A 17 30.310 25.458 5.384 1.00 0.00 N +ATOM 272 H VAL A 17 29.428 26.225 5.543 1.00 0.00 H +ATOM 273 CA VAL A 17 30.288 24.245 6.193 1.00 0.00 C +ATOM 274 HA VAL A 17 31.294 23.735 5.807 1.00 0.00 H +ATOM 275 C VAL A 17 29.279 23.227 5.641 1.00 0.00 C +ATOM 276 O VAL A 17 28.478 23.522 4.725 1.00 0.00 O +ATOM 277 CB VAL A 17 29.903 24.590 7.665 1.00 0.00 C +ATOM 278 HB VAL A 17 29.998 23.537 8.208 1.00 0.00 H +ATOM 279 CG1 VAL A 17 30.862 25.496 8.389 1.00 0.00 C +ATOM 280 HG11 VAL A 17 31.483 24.754 9.097 1.00 0.00 H +ATOM 281 HG12 VAL A 17 31.612 25.993 7.608 1.00 0.00 H +ATOM 282 HG13 VAL A 17 30.425 26.358 9.090 1.00 0.00 H +ATOM 283 CG2 VAL A 17 28.476 25.135 7.705 1.00 0.00 C +ATOM 284 HG21 VAL A 17 27.726 24.263 7.370 1.00 0.00 H +ATOM 285 HG22 VAL A 17 28.170 25.424 8.823 1.00 0.00 H +ATOM 286 HG23 VAL A 17 28.161 26.062 7.029 1.00 0.00 H +ATOM 287 N GLU A 18 29.380 22.057 6.232 1.00 0.00 N +ATOM 288 H GLU A 18 30.513 21.679 6.290 1.00 0.00 H +ATOM 289 CA GLU A 18 28.468 20.940 5.980 1.00 0.00 C +ATOM 290 HA GLU A 18 27.784 21.326 5.090 1.00 0.00 H +ATOM 291 C GLU A 18 27.819 20.609 7.316 1.00 0.00 C +ATOM 292 O GLU A 18 28.449 20.674 8.360 1.00 0.00 O +ATOM 293 CB GLU A 18 29.213 19.697 5.506 1.00 0.00 C +ATOM 294 HB2 GLU A 18 28.530 18.760 5.250 1.00 0.00 H +ATOM 295 HB3 GLU A 18 30.106 19.330 6.213 1.00 0.00 H +ATOM 296 CG GLU A 18 29.728 19.755 4.060 1.00 0.00 C +ATOM 297 HG2 GLU A 18 30.731 20.385 3.881 1.00 0.00 H +ATOM 298 HG3 GLU A 18 30.138 18.680 3.732 1.00 0.00 H +ATOM 299 CD GLU A 18 28.754 20.061 2.978 1.00 0.00 C +ATOM 300 OE1 GLU A 18 27.546 19.992 2.985 1.00 0.00 O +ATOM 301 OE2 GLU A 18 29.336 20.423 1.904 1.00 0.00 O +ATOM 302 N PRO A 19 26.559 20.220 7.288 1.00 0.00 N +ATOM 303 CA PRO A 19 25.829 19.825 8.494 1.00 0.00 C +ATOM 304 HA PRO A 19 25.425 20.811 9.011 1.00 0.00 H +ATOM 305 C PRO A 19 26.541 18.732 9.251 1.00 0.00 C +ATOM 306 O PRO A 19 26.333 18.536 10.457 1.00 0.00 O +ATOM 307 CB PRO A 19 24.469 19.332 7.952 1.00 0.00 C +ATOM 308 HB2 PRO A 19 24.345 18.180 7.625 1.00 0.00 H +ATOM 309 HB3 PRO A 19 23.601 19.590 8.766 1.00 0.00 H +ATOM 310 CG PRO A 19 24.299 20.134 6.704 1.00 0.00 C +ATOM 311 HG2 PRO A 19 23.575 21.068 6.877 1.00 0.00 H +ATOM 312 HG3 PRO A 19 23.613 19.598 5.875 1.00 0.00 H +ATOM 313 CD PRO A 19 25.714 20.108 6.073 1.00 0.00 C +ATOM 314 HD2 PRO A 19 25.537 20.883 5.182 1.00 0.00 H +ATOM 315 HD3 PRO A 19 25.863 19.098 5.452 1.00 0.00 H +ATOM 316 N SER A 20 27.361 17.959 8.559 1.00 0.00 N +ATOM 317 H SER A 20 26.815 17.533 7.585 1.00 0.00 H +ATOM 318 CA SER A 20 28.054 16.835 9.210 1.00 0.00 C +ATOM 319 HA SER A 20 27.357 16.143 9.886 1.00 0.00 H +ATOM 320 C SER A 20 29.258 17.318 9.984 1.00 0.00 C +ATOM 321 O SER A 20 29.930 16.477 10.606 1.00 0.00 O +ATOM 322 CB SER A 20 28.523 15.820 8.182 1.00 0.00 C +ATOM 323 HB2 SER A 20 29.260 14.981 8.613 1.00 0.00 H +ATOM 324 HB3 SER A 20 27.655 15.135 7.716 1.00 0.00 H +ATOM 325 OG SER A 20 28.946 16.445 6.967 1.00 0.00 O +ATOM 326 HG SER A 20 29.988 16.018 6.577 1.00 0.00 H +ATOM 327 N ASP A 21 29.599 18.599 9.828 1.00 0.00 N +ATOM 328 H ASP A 21 28.754 19.363 10.134 1.00 0.00 H +ATOM 329 CA ASP A 21 30.796 19.083 10.566 1.00 0.00 C +ATOM 330 HA ASP A 21 31.631 18.287 10.261 1.00 0.00 H +ATOM 331 C ASP A 21 30.491 19.162 12.040 1.00 0.00 C +ATOM 332 O ASP A 21 29.367 19.523 12.441 1.00 0.00 O +ATOM 333 CB ASP A 21 31.155 20.515 10.048 1.00 0.00 C +ATOM 334 HB2 ASP A 21 31.942 20.921 10.838 1.00 0.00 H +ATOM 335 HB3 ASP A 21 30.353 21.371 9.865 1.00 0.00 H +ATOM 336 CG ASP A 21 31.923 20.436 8.755 1.00 0.00 C +ATOM 337 OD1 ASP A 21 32.493 19.374 8.456 1.00 0.00 O +ATOM 338 OD2 ASP A 21 31.838 21.402 7.968 1.00 0.00 O +ATOM 339 N THR A 22 31.510 18.936 12.852 1.00 0.00 N +ATOM 340 H THR A 22 32.390 18.279 12.396 1.00 0.00 H +ATOM 341 CA THR A 22 31.398 19.064 14.286 1.00 0.00 C +ATOM 342 HA THR A 22 30.550 18.291 14.568 1.00 0.00 H +ATOM 343 C THR A 22 31.593 20.553 14.655 1.00 0.00 C +ATOM 344 O THR A 22 32.159 21.311 13.861 1.00 0.00 O +ATOM 345 CB THR A 22 32.492 18.193 14.995 1.00 0.00 C +ATOM 346 HB THR A 22 32.721 18.092 16.162 1.00 0.00 H +ATOM 347 OG1 THR A 22 33.778 18.739 14.516 1.00 0.00 O +ATOM 348 HG1 THR A 22 34.659 17.943 14.517 1.00 0.00 H +ATOM 349 CG2 THR A 22 32.352 16.700 14.630 1.00 0.00 C +ATOM 350 HG21 THR A 22 31.374 16.115 14.264 1.00 0.00 H +ATOM 351 HG22 THR A 22 33.131 16.341 13.788 1.00 0.00 H +ATOM 352 HG23 THR A 22 32.672 16.018 15.566 1.00 0.00 H +ATOM 353 N ILE A 23 31.113 20.863 15.860 1.00 0.00 N +ATOM 354 H ILE A 23 31.196 19.977 16.639 1.00 0.00 H +ATOM 355 CA ILE A 23 31.288 22.201 16.417 1.00 0.00 C +ATOM 356 HA ILE A 23 30.888 22.895 15.542 1.00 0.00 H +ATOM 357 C ILE A 23 32.776 22.519 16.577 1.00 0.00 C +ATOM 358 O ILE A 23 33.233 23.659 16.384 1.00 0.00 O +ATOM 359 CB ILE A 23 30.520 22.300 17.764 1.00 0.00 C +ATOM 360 HB ILE A 23 30.733 21.378 18.475 1.00 0.00 H +ATOM 361 CG1 ILE A 23 29.006 22.043 17.442 1.00 0.00 C +ATOM 362 HG12 ILE A 23 28.687 20.961 17.066 1.00 0.00 H +ATOM 363 HG13 ILE A 23 28.521 22.233 18.510 1.00 0.00 H +ATOM 364 CG2 ILE A 23 30.832 23.699 18.358 1.00 0.00 C +ATOM 365 HG21 ILE A 23 30.847 24.479 17.455 1.00 0.00 H +ATOM 366 HG22 ILE A 23 31.845 23.696 18.985 1.00 0.00 H +ATOM 367 HG23 ILE A 23 30.010 24.061 19.144 1.00 0.00 H +ATOM 368 CD1 ILE A 23 28.407 22.948 16.366 1.00 0.00 C +ATOM 369 HD11 ILE A 23 28.387 22.249 15.389 1.00 0.00 H +ATOM 370 HD12 ILE A 23 27.266 23.181 16.635 1.00 0.00 H +ATOM 371 HD13 ILE A 23 28.911 23.999 16.095 1.00 0.00 H +ATOM 372 N GLU A 24 33.548 21.526 16.950 1.00 0.00 N +ATOM 373 H GLU A 24 33.396 21.341 18.112 1.00 0.00 H +ATOM 374 CA GLU A 24 35.031 21.722 17.069 1.00 0.00 C +ATOM 375 HA GLU A 24 35.474 22.436 17.914 1.00 0.00 H +ATOM 376 C GLU A 24 35.615 22.190 15.759 1.00 0.00 C +ATOM 377 O GLU A 24 36.532 23.046 15.724 1.00 0.00 O +ATOM 378 CB GLU A 24 35.667 20.383 17.447 1.00 0.00 C +ATOM 379 HB2 GLU A 24 34.602 19.899 17.173 1.00 0.00 H +ATOM 380 HB3 GLU A 24 35.876 19.194 17.450 1.00 0.00 H +ATOM 381 CG GLU A 24 37.128 20.293 17.872 1.00 0.00 C +ATOM 382 HG2 GLU A 24 38.009 20.536 17.104 1.00 0.00 H +ATOM 383 HG3 GLU A 24 37.416 20.917 18.848 1.00 0.00 H +ATOM 384 CD GLU A 24 37.561 18.851 18.082 1.00 0.00 C +ATOM 385 OE1 GLU A 24 37.758 18.024 17.195 1.00 0.00 O +ATOM 386 OE2 GLU A 24 37.628 18.599 19.313 1.00 0.00 O +ATOM 387 N ASN A 25 35.139 21.624 14.662 1.00 0.00 N +ATOM 388 H ASN A 25 34.886 20.465 14.764 1.00 0.00 H +ATOM 389 CA ASN A 25 35.590 21.945 13.302 1.00 0.00 C +ATOM 390 HA ASN A 25 36.767 21.768 13.403 1.00 0.00 H +ATOM 391 C ASN A 25 35.238 23.382 12.920 1.00 0.00 C +ATOM 392 O ASN A 25 36.066 24.109 12.333 1.00 0.00 O +ATOM 393 CB ASN A 25 35.064 20.957 12.255 1.00 0.00 C +ATOM 394 HB2 ASN A 25 35.705 19.955 12.376 1.00 0.00 H +ATOM 395 HB3 ASN A 25 33.950 20.635 12.026 1.00 0.00 H +ATOM 396 CG ASN A 25 35.541 21.418 10.871 1.00 0.00 C +ATOM 397 OD1 ASN A 25 36.772 21.623 10.676 1.00 0.00 O +ATOM 398 ND2 ASN A 25 34.628 21.595 9.920 1.00 0.00 N +ATOM 399 HD21 ASN A 25 33.732 22.394 9.898 1.00 0.00 H +ATOM 400 HD22 ASN A 25 35.002 20.905 9.028 1.00 0.00 H +ATOM 401 N VAL A 26 34.007 23.745 13.250 1.00 0.00 N +ATOM 402 H VAL A 26 33.263 22.995 13.772 1.00 0.00 H +ATOM 403 CA VAL A 26 33.533 25.097 12.978 1.00 0.00 C +ATOM 404 HA VAL A 26 33.566 25.187 11.800 1.00 0.00 H +ATOM 405 C VAL A 26 34.441 26.099 13.684 1.00 0.00 C +ATOM 406 O VAL A 26 34.883 27.090 13.093 1.00 0.00 O +ATOM 407 CB VAL A 26 32.060 25.257 13.364 1.00 0.00 C +ATOM 408 HB VAL A 26 31.809 24.983 14.493 1.00 0.00 H +ATOM 409 CG1 VAL A 26 31.684 26.749 13.342 1.00 0.00 C +ATOM 410 HG11 VAL A 26 31.055 27.038 14.313 1.00 0.00 H +ATOM 411 HG12 VAL A 26 32.516 27.585 13.195 1.00 0.00 H +ATOM 412 HG13 VAL A 26 30.858 26.942 12.496 1.00 0.00 H +ATOM 413 CG2 VAL A 26 31.152 24.421 12.477 1.00 0.00 C +ATOM 414 HG21 VAL A 26 31.241 23.234 12.402 1.00 0.00 H +ATOM 415 HG22 VAL A 26 31.240 24.815 11.354 1.00 0.00 H +ATOM 416 HG23 VAL A 26 30.078 24.765 12.860 1.00 0.00 H +ATOM 417 N LYS A 27 34.734 25.822 14.949 1.00 0.00 N +ATOM 418 H LYS A 27 34.647 24.742 15.420 1.00 0.00 H +ATOM 419 CA LYS A 27 35.596 26.715 15.736 1.00 0.00 C +ATOM 420 HA LYS A 27 35.024 27.751 15.670 1.00 0.00 H +ATOM 421 C LYS A 27 36.975 26.826 15.107 1.00 0.00 C +ATOM 422 O LYS A 27 37.579 27.926 15.159 1.00 0.00 O +ATOM 423 CB LYS A 27 35.715 26.203 17.172 1.00 0.00 C +ATOM 424 HB2 LYS A 27 36.105 25.060 17.207 1.00 0.00 H +ATOM 425 HB3 LYS A 27 36.581 26.889 17.704 1.00 0.00 H +ATOM 426 CG LYS A 27 34.343 26.445 17.898 1.00 0.00 C +ATOM 427 HG2 LYS A 27 34.059 27.604 17.888 1.00 0.00 H +ATOM 428 HG3 LYS A 27 33.450 25.796 17.449 1.00 0.00 H +ATOM 429 CD LYS A 27 34.509 26.077 19.360 1.00 0.00 C +ATOM 430 HD2 LYS A 27 34.713 24.899 19.469 1.00 0.00 H +ATOM 431 HD3 LYS A 27 35.464 26.456 19.976 1.00 0.00 H +ATOM 432 CE LYS A 27 33.206 26.311 20.122 1.00 0.00 C +ATOM 433 HE2 LYS A 27 32.154 25.781 19.919 1.00 0.00 H +ATOM 434 HE3 LYS A 27 33.015 27.492 20.338 1.00 0.00 H +ATOM 435 NZ LYS A 27 33.455 25.910 21.546 1.00 0.00 N +ATOM 436 HZ1 LYS A 27 33.273 26.782 22.345 1.00 0.00 H +ATOM 437 HZ2 LYS A 27 34.503 25.456 21.914 1.00 0.00 H +ATOM 438 HZ3 LYS A 27 32.687 25.136 22.051 1.00 0.00 H +ATOM 439 N ALA A 28 37.499 25.743 14.571 1.00 0.00 N +ATOM 440 H ALA A 28 37.472 24.658 15.041 1.00 0.00 H +ATOM 441 CA ALA A 28 38.794 25.761 13.880 1.00 0.00 C +ATOM 442 HA ALA A 28 39.695 26.088 14.587 1.00 0.00 H +ATOM 443 C ALA A 28 38.728 26.591 12.611 1.00 0.00 C +ATOM 444 O ALA A 28 39.704 27.346 12.277 1.00 0.00 O +ATOM 445 CB ALA A 28 39.285 24.336 13.566 1.00 0.00 C +ATOM 446 HB1 ALA A 28 38.729 23.581 12.821 1.00 0.00 H +ATOM 447 HB2 ALA A 28 39.672 23.674 14.485 1.00 0.00 H +ATOM 448 HB3 ALA A 28 40.313 24.500 12.963 1.00 0.00 H +ATOM 449 N LYS A 29 37.633 26.543 11.867 1.00 0.00 N +ATOM 450 H LYS A 29 36.837 25.689 11.956 1.00 0.00 H +ATOM 451 CA LYS A 29 37.471 27.391 10.668 1.00 0.00 C +ATOM 452 HA LYS A 29 38.405 27.135 9.969 1.00 0.00 H +ATOM 453 C LYS A 29 37.441 28.882 11.052 1.00 0.00 C +ATOM 454 O LYS A 29 38.020 29.772 10.382 1.00 0.00 O +ATOM 455 CB LYS A 29 36.193 27.058 9.911 1.00 0.00 C +ATOM 456 HB2 LYS A 29 35.296 27.635 10.440 1.00 0.00 H +ATOM 457 HB3 LYS A 29 36.307 27.669 8.885 1.00 0.00 H +ATOM 458 CG LYS A 29 36.153 25.620 9.409 1.00 0.00 C +ATOM 459 HG2 LYS A 29 36.604 24.730 10.070 1.00 0.00 H +ATOM 460 HG3 LYS A 29 36.901 25.565 8.469 1.00 0.00 H +ATOM 461 CD LYS A 29 34.758 25.280 8.900 1.00 0.00 C +ATOM 462 HD2 LYS A 29 33.875 25.935 8.384 1.00 0.00 H +ATOM 463 HD3 LYS A 29 34.359 25.364 10.032 1.00 0.00 H +ATOM 464 CE LYS A 29 34.793 24.264 7.767 1.00 0.00 C +ATOM 465 HE2 LYS A 29 33.884 23.528 7.512 1.00 0.00 H +ATOM 466 HE3 LYS A 29 35.767 23.572 7.949 1.00 0.00 H +ATOM 467 NZ LYS A 29 34.914 24.944 6.441 1.00 0.00 N +ATOM 468 HZ1 LYS A 29 34.628 24.144 5.580 1.00 0.00 H +ATOM 469 HZ2 LYS A 29 34.574 26.071 6.185 1.00 0.00 H +ATOM 470 HZ3 LYS A 29 36.105 24.959 6.169 1.00 0.00 H +ATOM 471 N ILE A 30 36.811 29.170 12.192 1.00 0.00 N +ATOM 472 H ILE A 30 36.471 28.358 12.973 1.00 0.00 H +ATOM 473 CA ILE A 30 36.731 30.570 12.645 1.00 0.00 C +ATOM 474 HA ILE A 30 36.381 31.276 11.759 1.00 0.00 H +ATOM 475 C ILE A 30 38.148 30.981 13.069 1.00 0.00 C +ATOM 476 O ILE A 30 38.544 32.150 12.856 1.00 0.00 O +ATOM 477 CB ILE A 30 35.708 30.776 13.806 1.00 0.00 C +ATOM 478 HB ILE A 30 35.833 29.957 14.651 1.00 0.00 H +ATOM 479 CG1 ILE A 30 34.228 30.630 13.319 1.00 0.00 C +ATOM 480 HG12 ILE A 30 33.819 31.594 12.759 1.00 0.00 H +ATOM 481 HG13 ILE A 30 34.185 29.617 12.700 1.00 0.00 H +ATOM 482 CG2 ILE A 30 35.874 32.138 14.512 1.00 0.00 C +ATOM 483 HG21 ILE A 30 35.051 32.932 14.156 1.00 0.00 H +ATOM 484 HG22 ILE A 30 36.911 32.710 14.374 1.00 0.00 H +ATOM 485 HG23 ILE A 30 35.739 32.060 15.696 1.00 0.00 H +ATOM 486 CD1 ILE A 30 33.284 30.504 14.552 1.00 0.00 C +ATOM 487 HD11 ILE A 30 32.227 30.259 14.056 1.00 0.00 H +ATOM 488 HD12 ILE A 30 33.191 31.494 15.205 1.00 0.00 H +ATOM 489 HD13 ILE A 30 33.472 29.644 15.355 1.00 0.00 H +ATOM 490 N GLN A 31 38.883 30.110 13.713 1.00 0.00 N +ATOM 491 H GLN A 31 38.882 28.931 13.706 1.00 0.00 H +ATOM 492 CA GLN A 31 40.269 30.508 14.115 1.00 0.00 C +ATOM 493 HA GLN A 31 40.111 31.498 14.749 1.00 0.00 H +ATOM 494 C GLN A 31 41.092 30.808 12.851 1.00 0.00 C +ATOM 495 O GLN A 31 41.828 31.808 12.681 1.00 0.00 O +ATOM 496 CB GLN A 31 40.996 29.399 14.865 1.00 0.00 C +ATOM 497 HB2 GLN A 31 41.239 28.333 14.384 1.00 0.00 H +ATOM 498 HB3 GLN A 31 40.441 29.213 15.897 1.00 0.00 H +ATOM 499 CG GLN A 31 42.445 29.848 15.182 1.00 0.00 C +ATOM 500 HG2 GLN A 31 42.548 30.980 15.647 1.00 0.00 H +ATOM 501 HG3 GLN A 31 43.270 29.680 14.289 1.00 0.00 H +ATOM 502 CD GLN A 31 43.090 28.828 16.095 1.00 0.00 C +ATOM 503 OE1 GLN A 31 42.770 27.655 15.906 1.00 0.00 O +ATOM 504 NE2 GLN A 31 43.898 29.252 17.050 1.00 0.00 N +ATOM 505 HE21 GLN A 31 44.919 28.803 16.611 1.00 0.00 H +ATOM 506 HE22 GLN A 31 44.347 29.667 18.068 1.00 0.00 H +ATOM 507 N ASP A 32 41.001 29.878 11.931 1.00 0.00 N +ATOM 508 H ASP A 32 41.597 28.917 12.297 1.00 0.00 H +ATOM 509 CA ASP A 32 41.718 30.022 10.643 1.00 0.00 C +ATOM 510 HA ASP A 32 42.889 30.189 10.811 1.00 0.00 H +ATOM 511 C ASP A 32 41.399 31.338 9.967 1.00 0.00 C +ATOM 512 O ASP A 32 42.260 32.036 9.381 1.00 0.00 O +ATOM 513 CB ASP A 32 41.398 28.780 9.810 1.00 0.00 C +ATOM 514 HB2 ASP A 32 41.304 27.650 10.189 1.00 0.00 H +ATOM 515 HB3 ASP A 32 40.482 28.952 9.065 1.00 0.00 H +ATOM 516 CG ASP A 32 42.626 28.557 8.928 1.00 0.00 C +ATOM 517 OD1 ASP A 32 43.666 28.262 9.539 1.00 0.00 O +ATOM 518 OD2 ASP A 32 42.430 28.812 7.728 1.00 0.00 O +ATOM 519 N LYS A 33 40.117 31.750 9.988 1.00 0.00 N +ATOM 520 H LYS A 33 39.242 31.231 10.573 1.00 0.00 H +ATOM 521 CA LYS A 33 39.808 32.994 9.233 1.00 0.00 C +ATOM 522 HA LYS A 33 40.742 33.220 8.517 1.00 0.00 H +ATOM 523 C LYS A 33 39.837 34.271 9.995 1.00 0.00 C +ATOM 524 O LYS A 33 40.164 35.323 9.345 1.00 0.00 O +ATOM 525 CB LYS A 33 38.615 32.801 8.320 1.00 0.00 C +ATOM 526 HB2 LYS A 33 38.932 31.771 7.796 1.00 0.00 H +ATOM 527 HB3 LYS A 33 38.872 33.551 7.418 1.00 0.00 H +ATOM 528 CG LYS A 33 37.220 32.822 8.827 1.00 0.00 C +ATOM 529 HG2 LYS A 33 36.792 31.715 8.696 1.00 0.00 H +ATOM 530 HG3 LYS A 33 37.245 32.986 10.000 1.00 0.00 H +ATOM 531 CD LYS A 33 36.351 33.613 7.838 1.00 0.00 C +ATOM 532 HD2 LYS A 33 35.202 33.885 7.922 1.00 0.00 H +ATOM 533 HD3 LYS A 33 36.835 34.691 7.668 1.00 0.00 H +ATOM 534 CE LYS A 33 36.322 32.944 6.477 1.00 0.00 C +ATOM 535 HE2 LYS A 33 37.313 32.604 5.898 1.00 0.00 H +ATOM 536 HE3 LYS A 33 35.619 31.990 6.327 1.00 0.00 H +ATOM 537 NZ LYS A 33 35.768 33.945 5.489 1.00 0.00 N +ATOM 538 HZ1 LYS A 33 36.604 34.753 5.185 1.00 0.00 H +ATOM 539 HZ2 LYS A 33 35.671 33.342 4.454 1.00 0.00 H +ATOM 540 HZ3 LYS A 33 34.783 34.621 5.528 1.00 0.00 H +ATOM 541 N GLU A 34 39.655 34.335 11.285 1.00 0.00 N +ATOM 542 H GLU A 34 39.256 33.384 11.838 1.00 0.00 H +ATOM 543 CA GLU A 34 39.676 35.547 12.072 1.00 0.00 C +ATOM 544 HA GLU A 34 40.133 36.484 11.489 1.00 0.00 H +ATOM 545 C GLU A 34 40.675 35.527 13.200 1.00 0.00 C +ATOM 546 O GLU A 34 40.814 36.528 13.911 1.00 0.00 O +ATOM 547 CB GLU A 34 38.290 35.814 12.698 1.00 0.00 C +ATOM 548 HB2 GLU A 34 38.395 36.850 13.285 1.00 0.00 H +ATOM 549 HB3 GLU A 34 37.906 34.975 13.450 1.00 0.00 H +ATOM 550 CG GLU A 34 37.156 35.985 11.688 1.00 0.00 C +ATOM 551 HG2 GLU A 34 37.364 35.346 10.711 1.00 0.00 H +ATOM 552 HG3 GLU A 34 36.291 36.228 12.470 1.00 0.00 H +ATOM 553 CD GLU A 34 37.192 37.361 11.033 1.00 0.00 C +ATOM 554 OE1 GLU A 34 37.519 38.360 11.645 1.00 0.00 O +ATOM 555 OE2 GLU A 34 36.861 37.320 9.822 1.00 0.00 O +ATOM 556 N GLY A 35 41.317 34.393 13.432 1.00 0.00 N +ATOM 557 H GLY A 35 42.111 34.362 12.519 1.00 0.00 H +ATOM 558 CA GLY A 35 42.345 34.269 14.431 1.00 0.00 C +ATOM 559 HA2 GLY A 35 43.274 33.521 14.323 1.00 0.00 H +ATOM 560 HA3 GLY A 35 42.934 35.311 14.511 1.00 0.00 H +ATOM 561 C GLY A 35 41.949 34.076 15.842 1.00 0.00 C +ATOM 562 O GLY A 35 42.829 34.000 16.739 1.00 0.00 O +ATOM 563 N ILE A 36 40.642 33.916 16.112 1.00 0.00 N +ATOM 564 H ILE A 36 39.865 34.120 15.234 1.00 0.00 H +ATOM 565 CA ILE A 36 40.226 33.716 17.509 1.00 0.00 C +ATOM 566 HA ILE A 36 40.711 34.674 18.028 1.00 0.00 H +ATOM 567 C ILE A 36 40.449 32.278 17.945 1.00 0.00 C +ATOM 568 O ILE A 36 39.936 31.336 17.315 1.00 0.00 O +ATOM 569 CB ILE A 36 38.693 34.106 17.595 1.00 0.00 C +ATOM 570 HB ILE A 36 38.177 33.289 16.903 1.00 0.00 H +ATOM 571 CG1 ILE A 36 38.471 35.546 17.045 1.00 0.00 C +ATOM 572 HG12 ILE A 36 39.032 36.165 16.190 1.00 0.00 H +ATOM 573 HG13 ILE A 36 38.743 36.365 17.875 1.00 0.00 H +ATOM 574 CG2 ILE A 36 38.146 33.932 19.027 1.00 0.00 C +ATOM 575 HG21 ILE A 36 38.221 32.886 19.585 1.00 0.00 H +ATOM 576 HG22 ILE A 36 38.807 34.707 19.655 1.00 0.00 H +ATOM 577 HG23 ILE A 36 37.033 34.357 18.956 1.00 0.00 H +ATOM 578 CD1 ILE A 36 36.958 35.746 16.680 1.00 0.00 C +ATOM 579 HD11 ILE A 36 36.620 36.747 17.243 1.00 0.00 H +ATOM 580 HD12 ILE A 36 36.304 34.753 16.729 1.00 0.00 H +ATOM 581 HD13 ILE A 36 36.804 36.129 15.554 1.00 0.00 H +ATOM 582 N PRO A 37 41.189 32.085 19.031 1.00 0.00 N +ATOM 583 CA PRO A 37 41.461 30.751 19.594 1.00 0.00 C +ATOM 584 HA PRO A 37 42.300 30.371 18.844 1.00 0.00 H +ATOM 585 C PRO A 37 40.168 30.026 19.918 1.00 0.00 C +ATOM 586 O PRO A 37 39.264 30.662 20.521 1.00 0.00 O +ATOM 587 CB PRO A 37 42.195 31.142 20.913 1.00 0.00 C +ATOM 588 HB2 PRO A 37 42.340 29.962 21.113 1.00 0.00 H +ATOM 589 HB3 PRO A 37 42.631 31.302 22.025 1.00 0.00 H +ATOM 590 CG PRO A 37 42.904 32.414 20.553 1.00 0.00 C +ATOM 591 HG2 PRO A 37 43.416 33.130 21.367 1.00 0.00 H +ATOM 592 HG3 PRO A 37 43.898 32.201 19.918 1.00 0.00 H +ATOM 593 CD PRO A 37 41.822 33.188 19.813 1.00 0.00 C +ATOM 594 HD2 PRO A 37 42.489 34.085 19.376 1.00 0.00 H +ATOM 595 HD3 PRO A 37 41.145 33.838 20.544 1.00 0.00 H +ATOM 596 N PRO A 38 40.059 28.758 19.607 1.00 0.00 N +ATOM 597 CA PRO A 38 38.817 28.020 19.889 1.00 0.00 C +ATOM 598 HA PRO A 38 37.791 28.280 19.361 1.00 0.00 H +ATOM 599 C PRO A 38 38.421 28.048 21.341 1.00 0.00 C +ATOM 600 O PRO A 38 37.213 28.036 21.704 1.00 0.00 O +ATOM 601 CB PRO A 38 39.090 26.629 19.325 1.00 0.00 C +ATOM 602 HB2 PRO A 38 39.700 25.983 20.134 1.00 0.00 H +ATOM 603 HB3 PRO A 38 38.270 25.781 19.131 1.00 0.00 H +ATOM 604 CG PRO A 38 40.082 26.904 18.198 1.00 0.00 C +ATOM 605 HG2 PRO A 38 39.574 27.096 17.134 1.00 0.00 H +ATOM 606 HG3 PRO A 38 40.742 25.913 18.053 1.00 0.00 H +ATOM 607 CD PRO A 38 41.035 27.909 18.879 1.00 0.00 C +ATOM 608 HD2 PRO A 38 41.862 27.433 19.602 1.00 0.00 H +ATOM 609 HD3 PRO A 38 41.679 28.261 17.948 1.00 0.00 H +ATOM 610 N ASP A 39 39.374 28.090 22.240 1.00 0.00 N +ATOM 611 H ASP A 39 40.429 27.554 22.085 1.00 0.00 H +ATOM 612 CA ASP A 39 39.063 28.063 23.695 1.00 0.00 C +ATOM 613 HA ASP A 39 38.281 27.189 23.913 1.00 0.00 H +ATOM 614 C ASP A 39 38.365 29.335 24.159 1.00 0.00 C +ATOM 615 O ASP A 39 37.684 29.390 25.221 1.00 0.00 O +ATOM 616 CB ASP A 39 40.340 27.692 24.468 1.00 0.00 C +ATOM 617 HB2 ASP A 39 40.165 26.580 24.869 1.00 0.00 H +ATOM 618 HB3 ASP A 39 41.506 27.662 24.207 1.00 0.00 H +ATOM 619 CG ASP A 39 40.559 28.585 25.675 1.00 0.00 C +ATOM 620 OD1 ASP A 39 40.716 29.809 25.456 1.00 0.00 O +ATOM 621 OD2 ASP A 39 40.549 28.090 26.840 1.00 0.00 O +ATOM 622 N GLN A 40 38.419 30.373 23.341 1.00 0.00 N +ATOM 623 H GLN A 40 39.509 30.388 22.878 1.00 0.00 H +ATOM 624 CA GLN A 40 37.738 31.637 23.712 1.00 0.00 C +ATOM 625 HA GLN A 40 37.688 31.723 24.896 1.00 0.00 H +ATOM 626 C GLN A 40 36.334 31.742 23.087 1.00 0.00 C +ATOM 627 O GLN A 40 35.574 32.618 23.483 1.00 0.00 O +ATOM 628 CB GLN A 40 38.528 32.854 23.182 1.00 0.00 C +ATOM 629 HB2 GLN A 40 38.020 33.840 23.598 1.00 0.00 H +ATOM 630 HB3 GLN A 40 38.624 32.802 22.000 1.00 0.00 H +ATOM 631 CG GLN A 40 39.919 32.854 23.840 1.00 0.00 C +ATOM 632 HG2 GLN A 40 40.771 32.026 23.725 1.00 0.00 H +ATOM 633 HG3 GLN A 40 39.924 33.015 25.024 1.00 0.00 H +ATOM 634 CD GLN A 40 40.760 34.036 23.394 1.00 0.00 C +ATOM 635 OE1 GLN A 40 41.975 34.008 23.624 1.00 0.00 O +ATOM 636 NE2 GLN A 40 40.140 35.007 22.775 1.00 0.00 N +ATOM 637 HE21 GLN A 40 41.041 35.771 22.579 1.00 0.00 H +ATOM 638 HE22 GLN A 40 39.292 35.481 22.096 1.00 0.00 H +ATOM 639 N GLN A 41 36.000 30.860 22.172 1.00 0.00 N +ATOM 640 H GLN A 41 36.307 29.747 22.475 1.00 0.00 H +ATOM 641 CA GLN A 41 34.738 30.875 21.473 1.00 0.00 C +ATOM 642 HA GLN A 41 34.615 32.054 21.498 1.00 0.00 H +ATOM 643 C GLN A 41 33.589 30.189 22.181 1.00 0.00 C +ATOM 644 O GLN A 41 33.580 29.009 22.499 1.00 0.00 O +ATOM 645 CB GLN A 41 34.876 30.237 20.066 1.00 0.00 C +ATOM 646 HB2 GLN A 41 33.784 30.160 19.616 1.00 0.00 H +ATOM 647 HB3 GLN A 41 35.252 29.114 20.157 1.00 0.00 H +ATOM 648 CG GLN A 41 36.012 30.860 19.221 1.00 0.00 C +ATOM 649 HG2 GLN A 41 35.515 31.910 18.882 1.00 0.00 H +ATOM 650 HG3 GLN A 41 37.154 30.944 19.643 1.00 0.00 H +ATOM 651 CD GLN A 41 36.083 30.194 17.875 1.00 0.00 C +ATOM 652 OE1 GLN A 41 35.048 29.702 17.393 1.00 0.00 O +ATOM 653 NE2 GLN A 41 37.228 30.126 17.233 1.00 0.00 N +ATOM 654 HE21 GLN A 41 38.246 29.794 17.742 1.00 0.00 H +ATOM 655 HE22 GLN A 41 37.460 30.111 16.070 1.00 0.00 H +ATOM 656 N ARG A 42 32.478 30.917 22.269 1.00 0.00 N +ATOM 657 H ARG A 42 32.297 31.976 21.775 1.00 0.00 H +ATOM 658 CA ARG A 42 31.200 30.329 22.780 1.00 0.00 C +ATOM 659 HA ARG A 42 31.344 29.182 23.073 1.00 0.00 H +ATOM 660 C ARG A 42 30.210 30.509 21.650 1.00 0.00 C +ATOM 661 O ARG A 42 29.978 31.726 21.269 1.00 0.00 O +ATOM 662 CB ARG A 42 30.847 30.931 24.118 1.00 0.00 C +ATOM 663 HB2 ARG A 42 31.465 30.294 24.924 1.00 0.00 H +ATOM 664 HB3 ARG A 42 31.298 32.019 24.299 1.00 0.00 H +ATOM 665 CG ARG A 42 29.412 30.796 24.598 1.00 0.00 C +ATOM 666 HG2 ARG A 42 28.699 31.511 23.980 1.00 0.00 H +ATOM 667 HG3 ARG A 42 29.351 29.600 24.597 1.00 0.00 H +ATOM 668 CD ARG A 42 29.271 31.314 26.016 1.00 0.00 C +ATOM 669 HD2 ARG A 42 29.819 32.315 26.367 1.00 0.00 H +ATOM 670 HD3 ARG A 42 29.815 30.647 26.846 1.00 0.00 H +ATOM 671 NE ARG A 42 27.875 31.317 26.443 1.00 0.00 N +ATOM 672 HE ARG A 42 27.745 31.014 27.590 1.00 0.00 H +ATOM 673 CZ ARG A 42 27.132 32.423 26.574 1.00 0.00 C +ATOM 674 NH1 ARG A 42 27.630 33.656 26.461 1.00 0.00 N +ATOM 675 HH11 ARG A 42 26.928 34.518 26.036 1.00 0.00 H +ATOM 676 HH12 ARG A 42 28.084 34.094 27.475 1.00 0.00 H +ATOM 677 NH2 ARG A 42 25.810 32.299 26.732 1.00 0.00 N +ATOM 678 HH21 ARG A 42 24.911 33.002 26.391 1.00 0.00 H +ATOM 679 HH22 ARG A 42 25.323 31.677 27.627 1.00 0.00 H +ATOM 680 N LEU A 43 29.694 29.436 21.054 1.00 0.00 N +ATOM 681 H LEU A 43 29.851 28.349 21.507 1.00 0.00 H +ATOM 682 CA LEU A 43 28.762 29.573 19.906 1.00 0.00 C +ATOM 683 HA LEU A 43 28.955 30.658 19.471 1.00 0.00 H +ATOM 684 C LEU A 43 27.331 29.317 20.364 1.00 0.00 C +ATOM 685 O LEU A 43 27.101 28.346 21.097 1.00 0.00 O +ATOM 686 CB LEU A 43 29.151 28.655 18.755 1.00 0.00 C +ATOM 687 HB2 LEU A 43 29.262 27.580 19.252 1.00 0.00 H +ATOM 688 HB3 LEU A 43 28.196 28.694 18.046 1.00 0.00 H +ATOM 689 CG LEU A 43 30.416 28.912 17.980 1.00 0.00 C +ATOM 690 HG LEU A 43 31.327 29.106 18.721 1.00 0.00 H +ATOM 691 CD1 LEU A 43 30.738 27.693 17.122 1.00 0.00 C +ATOM 692 HD11 LEU A 43 29.823 27.274 16.478 1.00 0.00 H +ATOM 693 HD12 LEU A 43 31.133 26.827 17.834 1.00 0.00 H +ATOM 694 HD13 LEU A 43 31.689 27.955 16.448 1.00 0.00 H +ATOM 695 CD2 LEU A 43 30.205 30.168 17.129 1.00 0.00 C +ATOM 696 HD21 LEU A 43 29.504 31.097 17.381 1.00 0.00 H +ATOM 697 HD22 LEU A 43 31.327 30.535 16.955 1.00 0.00 H +ATOM 698 HD23 LEU A 43 29.810 29.853 16.047 1.00 0.00 H +ATOM 699 N ILE A 44 26.436 30.232 20.004 1.00 0.00 N +ATOM 700 H ILE A 44 26.672 31.392 20.074 1.00 0.00 H +ATOM 701 CA ILE A 44 25.034 30.170 20.401 1.00 0.00 C +ATOM 702 HA ILE A 44 24.886 29.145 20.971 1.00 0.00 H +ATOM 703 C ILE A 44 24.101 30.149 19.196 1.00 0.00 C +ATOM 704 O ILE A 44 24.196 30.948 18.287 1.00 0.00 O +ATOM 705 CB ILE A 44 24.639 31.426 21.286 1.00 0.00 C +ATOM 706 HB ILE A 44 24.355 32.285 20.517 1.00 0.00 H +ATOM 707 CG1 ILE A 44 25.646 31.670 22.421 1.00 0.00 C +ATOM 708 HG12 ILE A 44 25.322 32.823 22.264 1.00 0.00 H +ATOM 709 HG13 ILE A 44 26.419 32.156 23.200 1.00 0.00 H +ATOM 710 CG2 ILE A 44 23.181 31.309 21.824 1.00 0.00 C +ATOM 711 HG21 ILE A 44 22.774 30.390 22.464 1.00 0.00 H +ATOM 712 HG22 ILE A 44 22.343 31.612 21.022 1.00 0.00 H +ATOM 713 HG23 ILE A 44 23.057 32.225 22.595 1.00 0.00 H +ATOM 714 CD1 ILE A 44 25.778 30.436 23.356 1.00 0.00 C +ATOM 715 HD11 ILE A 44 24.674 30.049 23.616 1.00 0.00 H +ATOM 716 HD12 ILE A 44 26.743 29.915 22.895 1.00 0.00 H +ATOM 717 HD13 ILE A 44 26.051 30.530 24.518 1.00 0.00 H +ATOM 718 N PHE A 45 23.141 29.187 19.241 1.00 0.00 N +ATOM 719 H PHE A 45 23.194 28.131 19.768 1.00 0.00 H +ATOM 720 CA PHE A 45 22.126 29.062 18.183 1.00 0.00 C +ATOM 721 HA PHE A 45 21.983 30.159 17.743 1.00 0.00 H +ATOM 722 C PHE A 45 20.835 28.629 18.904 1.00 0.00 C +ATOM 723 O PHE A 45 20.821 27.734 19.749 1.00 0.00 O +ATOM 724 CB PHE A 45 22.494 28.057 17.109 1.00 0.00 C +ATOM 725 HB2 PHE A 45 22.912 27.080 16.541 1.00 0.00 H +ATOM 726 HB3 PHE A 45 23.657 28.254 17.356 1.00 0.00 H +ATOM 727 CG PHE A 45 21.447 27.869 16.026 1.00 0.00 C +ATOM 728 CD1 PHE A 45 21.325 28.813 15.005 1.00 0.00 C +ATOM 729 HD1 PHE A 45 21.282 29.975 15.242 1.00 0.00 H +ATOM 730 CD2 PHE A 45 20.638 26.735 16.053 1.00 0.00 C +ATOM 731 HD2 PHE A 45 20.554 25.892 16.880 1.00 0.00 H +ATOM 732 CE1 PHE A 45 20.369 28.648 14.001 1.00 0.00 C +ATOM 733 HE1 PHE A 45 19.669 29.544 13.653 1.00 0.00 H +ATOM 734 CE2 PHE A 45 19.677 26.539 15.051 1.00 0.00 C +ATOM 735 HE2 PHE A 45 18.729 25.828 15.134 1.00 0.00 H +ATOM 736 CZ PHE A 45 19.593 27.465 14.021 1.00 0.00 C +ATOM 737 HZ PHE A 45 18.549 27.512 13.451 1.00 0.00 H +ATOM 738 N ALA A 46 19.810 29.378 18.578 1.00 0.00 N +ATOM 739 H ALA A 46 19.701 30.369 17.927 1.00 0.00 H +ATOM 740 CA ALA A 46 18.443 29.143 19.083 1.00 0.00 C +ATOM 741 HA ALA A 46 17.669 30.051 19.016 1.00 0.00 H +ATOM 742 C ALA A 46 18.453 28.941 20.591 1.00 0.00 C +ATOM 743 O ALA A 46 17.860 27.994 21.128 1.00 0.00 O +ATOM 744 CB ALA A 46 17.864 27.977 18.346 1.00 0.00 C +ATOM 745 HB1 ALA A 46 16.981 27.368 18.882 1.00 0.00 H +ATOM 746 HB2 ALA A 46 17.229 28.527 17.485 1.00 0.00 H +ATOM 747 HB3 ALA A 46 18.457 27.109 17.779 1.00 0.00 H +ATOM 748 N GLY A 47 19.172 29.808 21.243 1.00 0.00 N +ATOM 749 H GLY A 47 19.018 30.951 20.935 1.00 0.00 H +ATOM 750 CA GLY A 47 19.399 29.894 22.655 1.00 0.00 C +ATOM 751 HA2 GLY A 47 19.845 30.904 23.113 1.00 0.00 H +ATOM 752 HA3 GLY A 47 18.305 29.878 23.149 1.00 0.00 H +ATOM 753 C GLY A 47 20.083 28.729 23.321 1.00 0.00 C +ATOM 754 O GLY A 47 19.991 28.584 24.561 1.00 0.00 O +ATOM 755 N LYS A 48 20.801 27.931 22.578 1.00 0.00 N +ATOM 756 H LYS A 48 21.313 28.625 21.771 1.00 0.00 H +ATOM 757 CA LYS A 48 21.550 26.796 23.133 1.00 0.00 C +ATOM 758 HA LYS A 48 21.268 26.671 24.285 1.00 0.00 H +ATOM 759 C LYS A 48 23.046 27.087 22.913 1.00 0.00 C +ATOM 760 O LYS A 48 23.383 27.627 21.870 1.00 0.00 O +ATOM 761 CB LYS A 48 21.242 25.519 22.391 1.00 0.00 C +ATOM 762 HB2 LYS A 48 21.921 24.703 22.950 1.00 0.00 H +ATOM 763 HB3 LYS A 48 21.615 25.534 21.260 1.00 0.00 H +ATOM 764 CG LYS A 48 19.762 25.077 22.455 1.00 0.00 C +ATOM 765 HG2 LYS A 48 18.948 25.945 22.495 1.00 0.00 H +ATOM 766 HG3 LYS A 48 19.625 24.645 23.564 1.00 0.00 H +ATOM 767 CD LYS A 48 19.634 23.885 21.531 1.00 0.00 C +ATOM 768 HD2 LYS A 48 20.647 23.291 21.323 1.00 0.00 H +ATOM 769 HD3 LYS A 48 19.065 23.039 22.169 1.00 0.00 H +ATOM 770 CE LYS A 48 18.791 24.221 20.313 1.00 0.00 C +ATOM 771 HE2 LYS A 48 19.223 24.949 19.479 1.00 0.00 H +ATOM 772 HE3 LYS A 48 18.637 23.183 19.733 1.00 0.00 H +ATOM 773 NZ LYS A 48 17.440 24.655 20.827 1.00 0.00 N +ATOM 774 HZ1 LYS A 48 16.691 24.095 20.069 1.00 0.00 H +ATOM 775 HZ2 LYS A 48 17.046 24.213 21.871 1.00 0.00 H +ATOM 776 HZ3 LYS A 48 16.924 25.731 20.824 1.00 0.00 H +ATOM 777 N GLN A 49 23.880 26.727 23.851 1.00 0.00 N +ATOM 778 H GLN A 49 23.524 26.218 24.866 1.00 0.00 H +ATOM 779 CA GLN A 49 25.349 26.872 23.643 1.00 0.00 C +ATOM 780 HA GLN A 49 25.492 27.849 22.995 1.00 0.00 H +ATOM 781 C GLN A 49 25.743 25.586 22.922 1.00 0.00 C +ATOM 782 O GLN A 49 25.325 24.489 23.378 1.00 0.00 O +ATOM 783 CB GLN A 49 26.070 27.025 24.960 1.00 0.00 C +ATOM 784 HB2 GLN A 49 26.081 26.036 25.639 1.00 0.00 H +ATOM 785 HB3 GLN A 49 25.410 27.736 25.659 1.00 0.00 H +ATOM 786 CG GLN A 49 27.553 27.356 24.695 1.00 0.00 C +ATOM 787 HG2 GLN A 49 27.997 27.873 23.724 1.00 0.00 H +ATOM 788 HG3 GLN A 49 28.047 26.269 24.626 1.00 0.00 H +ATOM 789 CD GLN A 49 28.262 27.576 26.020 1.00 0.00 C +ATOM 790 OE1 GLN A 49 29.189 26.840 26.335 1.00 0.00 O +ATOM 791 NE2 GLN A 49 27.777 28.585 26.739 1.00 0.00 N +ATOM 792 HE21 GLN A 49 28.424 28.479 27.743 1.00 0.00 H +ATOM 793 HE22 GLN A 49 26.692 28.837 27.163 1.00 0.00 H +ATOM 794 N LEU A 50 26.465 25.689 21.833 1.00 0.00 N +ATOM 795 H LEU A 50 27.451 26.311 22.052 1.00 0.00 H +ATOM 796 CA LEU A 50 26.826 24.521 21.012 1.00 0.00 C +ATOM 797 HA LEU A 50 25.950 23.751 21.228 1.00 0.00 H +ATOM 798 C LEU A 50 27.994 23.781 21.643 1.00 0.00 C +ATOM 799 O LEU A 50 28.904 24.444 22.098 1.00 0.00 O +ATOM 800 CB LEU A 50 27.043 24.992 19.571 1.00 0.00 C +ATOM 801 HB2 LEU A 50 27.029 24.036 18.859 1.00 0.00 H +ATOM 802 HB3 LEU A 50 28.079 25.571 19.633 1.00 0.00 H +ATOM 803 CG LEU A 50 25.931 25.844 18.959 1.00 0.00 C +ATOM 804 HG LEU A 50 25.854 26.828 19.627 1.00 0.00 H +ATOM 805 CD1 LEU A 50 26.203 26.083 17.471 1.00 0.00 C +ATOM 806 HD11 LEU A 50 25.771 27.192 17.431 1.00 0.00 H +ATOM 807 HD12 LEU A 50 25.650 25.304 16.752 1.00 0.00 H +ATOM 808 HD13 LEU A 50 27.383 26.157 17.122 1.00 0.00 H +ATOM 809 CD2 LEU A 50 24.577 25.190 19.079 1.00 0.00 C +ATOM 810 HD21 LEU A 50 23.697 25.491 18.330 1.00 0.00 H +ATOM 811 HD22 LEU A 50 24.678 24.011 18.920 1.00 0.00 H +ATOM 812 HD23 LEU A 50 24.123 25.353 20.170 1.00 0.00 H +ATOM 813 N GLU A 51 27.942 22.448 21.648 1.00 0.00 N +ATOM 814 H GLU A 51 27.291 21.760 20.939 1.00 0.00 H +ATOM 815 CA GLU A 51 29.015 21.657 22.288 1.00 0.00 C +ATOM 816 HA GLU A 51 29.565 22.351 23.089 1.00 0.00 H +ATOM 817 C GLU A 51 29.942 21.106 21.240 1.00 0.00 C +ATOM 818 O GLU A 51 29.470 20.677 20.190 1.00 0.00 O +ATOM 819 CB GLU A 51 28.348 20.540 23.066 1.00 0.00 C +ATOM 820 HB2 GLU A 51 27.406 19.883 22.741 1.00 0.00 H +ATOM 821 HB3 GLU A 51 27.870 21.276 23.881 1.00 0.00 H +ATOM 822 CG GLU A 51 29.247 19.456 23.705 1.00 0.00 C +ATOM 823 HG2 GLU A 51 30.327 19.747 24.124 1.00 0.00 H +ATOM 824 HG3 GLU A 51 29.283 18.328 23.330 1.00 0.00 H +ATOM 825 CD GLU A 51 28.722 19.047 25.066 1.00 0.00 C +ATOM 826 OE1 GLU A 51 29.139 18.132 25.746 1.00 0.00 O +ATOM 827 OE2 GLU A 51 27.777 19.842 25.367 1.00 0.00 O +ATOM 828 N ASP A 52 31.233 21.090 21.459 1.00 0.00 N +ATOM 829 H ASP A 52 31.605 21.474 22.522 1.00 0.00 H +ATOM 830 CA ASP A 52 32.262 20.670 20.514 1.00 0.00 C +ATOM 831 HA ASP A 52 32.270 21.698 19.928 1.00 0.00 H +ATOM 832 C ASP A 52 32.128 19.364 19.750 1.00 0.00 C +ATOM 833 O ASP A 52 32.546 19.317 18.558 1.00 0.00 O +ATOM 834 CB ASP A 52 33.638 20.716 21.242 1.00 0.00 C +ATOM 835 HB2 ASP A 52 33.734 20.388 22.401 1.00 0.00 H +ATOM 836 HB3 ASP A 52 34.512 20.107 20.684 1.00 0.00 H +ATOM 837 CG ASP A 52 34.174 22.129 21.354 1.00 0.00 C +ATOM 838 OD1 ASP A 52 35.252 22.322 21.958 1.00 0.00 O +ATOM 839 OD2 ASP A 52 33.544 23.086 20.883 1.00 0.00 O +ATOM 840 N GLY A 53 31.697 18.311 20.406 1.00 0.00 N +ATOM 841 H GLY A 53 31.857 18.218 21.584 1.00 0.00 H +ATOM 842 CA GLY A 53 31.568 16.962 19.825 1.00 0.00 C +ATOM 843 HA2 GLY A 53 32.563 16.808 19.181 1.00 0.00 H +ATOM 844 HA3 GLY A 53 31.546 16.043 20.591 1.00 0.00 H +ATOM 845 C GLY A 53 30.320 16.698 19.051 1.00 0.00 C +ATOM 846 O GLY A 53 30.198 15.657 18.366 1.00 0.00 O +ATOM 847 N ARG A 54 29.340 17.594 19.076 1.00 0.00 N +ATOM 848 H ARG A 54 29.260 18.030 20.180 1.00 0.00 H +ATOM 849 CA ARG A 54 28.108 17.439 18.276 1.00 0.00 C +ATOM 850 HA ARG A 54 27.943 16.276 18.092 1.00 0.00 H +ATOM 851 C ARG A 54 28.375 17.999 16.887 1.00 0.00 C +ATOM 852 O ARG A 54 29.326 18.786 16.690 1.00 0.00 O +ATOM 853 CB ARG A 54 26.926 18.191 18.892 1.00 0.00 C +ATOM 854 HB2 ARG A 54 27.400 19.279 18.828 1.00 0.00 H +ATOM 855 HB3 ARG A 54 25.855 18.077 18.390 1.00 0.00 H +ATOM 856 CG ARG A 54 26.621 17.799 20.352 1.00 0.00 C +ATOM 857 HG2 ARG A 54 27.261 17.718 21.374 1.00 0.00 H +ATOM 858 HG3 ARG A 54 25.825 18.664 20.645 1.00 0.00 H +ATOM 859 CD ARG A 54 26.010 16.370 20.280 1.00 0.00 C +ATOM 860 HD2 ARG A 54 24.976 16.648 20.852 1.00 0.00 H +ATOM 861 HD3 ARG A 54 25.499 15.545 19.564 1.00 0.00 H +ATOM 862 NE ARG A 54 26.975 15.521 20.942 1.00 0.00 N +ATOM 863 HE ARG A 54 26.559 15.332 22.045 1.00 0.00 H +ATOM 864 CZ ARG A 54 27.603 14.423 20.655 1.00 0.00 C +ATOM 865 NH1 ARG A 54 27.479 13.733 19.537 1.00 0.00 N +ATOM 866 HH11 ARG A 54 26.493 13.108 19.283 1.00 0.00 H +ATOM 867 HH12 ARG A 54 28.347 13.208 18.914 1.00 0.00 H +ATOM 868 NH2 ARG A 54 28.519 13.967 21.550 1.00 0.00 N +ATOM 869 HH21 ARG A 54 28.743 12.797 21.609 1.00 0.00 H +ATOM 870 HH22 ARG A 54 29.095 14.451 22.470 1.00 0.00 H +ATOM 871 N THR A 55 27.510 17.689 15.954 1.00 0.00 N +ATOM 872 H THR A 55 26.599 16.940 16.047 1.00 0.00 H +ATOM 873 CA THR A 55 27.574 18.192 14.563 1.00 0.00 C +ATOM 874 HA THR A 55 28.629 18.696 14.412 1.00 0.00 H +ATOM 875 C THR A 55 26.482 19.280 14.432 1.00 0.00 C +ATOM 876 O THR A 55 25.609 19.388 15.287 1.00 0.00 O +ATOM 877 CB THR A 55 27.299 17.055 13.533 1.00 0.00 C +ATOM 878 HB THR A 55 27.315 17.273 12.369 1.00 0.00 H +ATOM 879 OG1 THR A 55 25.925 16.611 13.913 1.00 0.00 O +ATOM 880 HG1 THR A 55 25.723 15.436 13.821 1.00 0.00 H +ATOM 881 CG2 THR A 55 28.236 15.864 13.558 1.00 0.00 C +ATOM 882 HG21 THR A 55 28.535 15.402 14.621 1.00 0.00 H +ATOM 883 HG22 THR A 55 29.252 15.855 12.931 1.00 0.00 H +ATOM 884 HG23 THR A 55 27.758 14.890 13.037 1.00 0.00 H +ATOM 885 N LEU A 56 26.585 20.063 13.378 1.00 0.00 N +ATOM 886 H LEU A 56 27.646 20.562 13.551 1.00 0.00 H +ATOM 887 CA LEU A 56 25.594 21.109 13.072 1.00 0.00 C +ATOM 888 HA LEU A 56 25.429 21.705 14.087 1.00 0.00 H +ATOM 889 C LEU A 56 24.241 20.436 12.857 1.00 0.00 C +ATOM 890 O LEU A 56 23.264 20.951 13.329 1.00 0.00 O +ATOM 891 CB LEU A 56 26.084 21.888 11.833 1.00 0.00 C +ATOM 892 HB2 LEU A 56 26.187 21.000 11.054 1.00 0.00 H +ATOM 893 HB3 LEU A 56 25.266 22.638 11.405 1.00 0.00 H +ATOM 894 CG LEU A 56 27.426 22.616 11.902 1.00 0.00 C +ATOM 895 HG LEU A 56 28.370 21.893 11.898 1.00 0.00 H +ATOM 896 CD1 LEU A 56 27.718 23.341 10.578 1.00 0.00 C +ATOM 897 HD11 LEU A 56 28.882 23.597 10.510 1.00 0.00 H +ATOM 898 HD12 LEU A 56 27.063 24.345 10.621 1.00 0.00 H +ATOM 899 HD13 LEU A 56 27.392 22.656 9.656 1.00 0.00 H +ATOM 900 CD2 LEU A 56 27.380 23.721 12.955 1.00 0.00 C +ATOM 901 HD21 LEU A 56 27.354 24.887 12.683 1.00 0.00 H +ATOM 902 HD22 LEU A 56 28.441 23.522 13.467 1.00 0.00 H +ATOM 903 HD23 LEU A 56 26.554 23.590 13.803 1.00 0.00 H +ATOM 904 N SER A 57 24.240 19.233 12.246 1.00 0.00 N +ATOM 905 H SER A 57 25.196 18.552 12.082 1.00 0.00 H +ATOM 906 CA SER A 57 22.924 18.583 12.025 1.00 0.00 C +ATOM 907 HA SER A 57 22.270 19.260 11.295 1.00 0.00 H +ATOM 908 C SER A 57 22.229 18.244 13.325 1.00 0.00 C +ATOM 909 O SER A 57 20.963 18.253 13.395 1.00 0.00 O +ATOM 910 CB SER A 57 23.059 17.326 11.154 1.00 0.00 C +ATOM 911 HB2 SER A 57 23.154 17.210 9.956 1.00 0.00 H +ATOM 912 HB3 SER A 57 21.997 16.757 11.282 1.00 0.00 H +ATOM 913 OG SER A 57 23.914 16.395 11.755 1.00 0.00 O +ATOM 914 HG SER A 57 24.759 15.963 10.971 1.00 0.00 H +ATOM 915 N ASP A 58 22.997 17.978 14.366 1.00 0.00 N +ATOM 916 H ASP A 58 24.007 17.371 14.217 1.00 0.00 H +ATOM 917 CA ASP A 58 22.418 17.638 15.693 1.00 0.00 C +ATOM 918 HA ASP A 58 21.699 16.689 15.580 1.00 0.00 H +ATOM 919 C ASP A 58 21.460 18.737 16.163 1.00 0.00 C +ATOM 920 O ASP A 58 20.497 18.506 16.900 1.00 0.00 O +ATOM 921 CB ASP A 58 23.461 17.331 16.741 1.00 0.00 C +ATOM 922 HB2 ASP A 58 23.945 18.320 17.186 1.00 0.00 H +ATOM 923 HB3 ASP A 58 22.826 16.936 17.677 1.00 0.00 H +ATOM 924 CG ASP A 58 24.184 16.016 16.619 1.00 0.00 C +ATOM 925 OD1 ASP A 58 25.303 15.894 17.152 1.00 0.00 O +ATOM 926 OD2 ASP A 58 23.572 15.107 15.975 1.00 0.00 O +ATOM 927 N TYR A 59 21.846 19.954 15.905 1.00 0.00 N +ATOM 928 H TYR A 59 23.016 20.103 15.821 1.00 0.00 H +ATOM 929 CA TYR A 59 21.079 21.149 16.251 1.00 0.00 C +ATOM 930 HA TYR A 59 20.280 20.921 17.107 1.00 0.00 H +ATOM 931 C TYR A 59 20.142 21.590 15.149 1.00 0.00 C +ATOM 932 O TYR A 59 19.499 22.645 15.321 1.00 0.00 O +ATOM 933 CB TYR A 59 22.085 22.254 16.581 1.00 0.00 C +ATOM 934 HB2 TYR A 59 21.435 23.194 16.917 1.00 0.00 H +ATOM 935 HB3 TYR A 59 22.847 22.502 15.707 1.00 0.00 H +ATOM 936 CG TYR A 59 22.945 21.951 17.785 1.00 0.00 C +ATOM 937 CD1 TYR A 59 24.272 21.544 17.644 1.00 0.00 C +ATOM 938 HD1 TYR A 59 24.950 21.751 16.696 1.00 0.00 H +ATOM 939 CD2 TYR A 59 22.437 22.157 19.065 1.00 0.00 C +ATOM 940 HD2 TYR A 59 21.255 22.134 19.208 1.00 0.00 H +ATOM 941 CE1 TYR A 59 25.052 21.285 18.776 1.00 0.00 C +ATOM 942 HE1 TYR A 59 26.195 21.139 18.524 1.00 0.00 H +ATOM 943 CE2 TYR A 59 23.204 21.907 20.192 1.00 0.00 C +ATOM 944 HE2 TYR A 59 22.518 21.383 21.013 1.00 0.00 H +ATOM 945 CZ TYR A 59 24.517 21.470 20.030 1.00 0.00 C +ATOM 946 OH TYR A 59 25.248 21.302 21.191 1.00 0.00 O +ATOM 947 HH TYR A 59 24.554 21.063 22.133 1.00 0.00 H +ATOM 948 N ASN A 60 19.993 20.884 14.049 1.00 0.00 N +ATOM 949 H ASN A 60 20.625 20.036 13.540 1.00 0.00 H +ATOM 950 CA ASN A 60 19.065 21.352 12.999 1.00 0.00 C +ATOM 951 HA ASN A 60 19.141 20.626 12.057 1.00 0.00 H +ATOM 952 C ASN A 60 19.442 22.745 12.510 1.00 0.00 C +ATOM 953 O ASN A 60 18.571 23.610 12.289 1.00 0.00 O +ATOM 954 CB ASN A 60 17.586 21.282 13.461 1.00 0.00 C +ATOM 955 HB2 ASN A 60 17.204 22.125 14.212 1.00 0.00 H +ATOM 956 HB3 ASN A 60 17.291 20.256 13.997 1.00 0.00 H +ATOM 957 CG ASN A 60 16.576 21.258 12.315 1.00 0.00 C +ATOM 958 OD1 ASN A 60 15.440 21.819 12.378 1.00 0.00 O +ATOM 959 ND2 ASN A 60 16.924 20.586 11.216 1.00 0.00 N +ATOM 960 HD21 ASN A 60 16.344 19.545 11.118 1.00 0.00 H +ATOM 961 HD22 ASN A 60 17.277 20.801 10.101 1.00 0.00 H +ATOM 962 N ILE A 61 20.717 22.964 12.260 1.00 0.00 N +ATOM 963 H ILE A 61 21.379 22.002 11.992 1.00 0.00 H +ATOM 964 CA ILE A 61 21.184 24.263 11.690 1.00 0.00 C +ATOM 965 HA ILE A 61 20.458 25.109 12.106 1.00 0.00 H +ATOM 966 C ILE A 61 21.110 24.111 10.173 1.00 0.00 C +ATOM 967 O ILE A 61 21.841 23.198 9.686 1.00 0.00 O +ATOM 968 CB ILE A 61 22.650 24.516 12.172 1.00 0.00 C +ATOM 969 HB ILE A 61 23.271 23.529 11.949 1.00 0.00 H +ATOM 970 CG1 ILE A 61 22.662 24.819 13.699 1.00 0.00 C +ATOM 971 HG12 ILE A 61 21.913 24.128 14.308 1.00 0.00 H +ATOM 972 HG13 ILE A 61 22.253 25.938 13.752 1.00 0.00 H +ATOM 973 CG2 ILE A 61 23.376 25.645 11.409 1.00 0.00 C +ATOM 974 HG21 ILE A 61 22.464 26.330 11.066 1.00 0.00 H +ATOM 975 HG22 ILE A 61 23.865 25.094 10.469 1.00 0.00 H +ATOM 976 HG23 ILE A 61 24.225 26.401 11.750 1.00 0.00 H +ATOM 977 CD1 ILE A 61 24.123 24.981 14.195 1.00 0.00 C +ATOM 978 HD11 ILE A 61 24.957 25.247 13.387 1.00 0.00 H +ATOM 979 HD12 ILE A 61 24.091 25.860 15.000 1.00 0.00 H +ATOM 980 HD13 ILE A 61 24.342 24.012 14.859 1.00 0.00 H +ATOM 981 N GLN A 62 20.291 24.875 9.507 1.00 0.00 N +ATOM 982 H GLN A 62 19.491 25.584 10.024 1.00 0.00 H +ATOM 983 CA GLN A 62 20.081 24.773 8.033 1.00 0.00 C +ATOM 984 HA GLN A 62 20.463 23.691 7.711 1.00 0.00 H +ATOM 985 C GLN A 62 20.822 25.914 7.332 1.00 0.00 C +ATOM 986 O GLN A 62 21.323 26.830 8.008 1.00 0.00 O +ATOM 987 CB GLN A 62 18.599 24.736 7.727 1.00 0.00 C +ATOM 988 HB2 GLN A 62 18.542 25.434 6.760 1.00 0.00 H +ATOM 989 HB3 GLN A 62 17.850 25.426 8.367 1.00 0.00 H +ATOM 990 CG GLN A 62 17.819 23.434 7.900 1.00 0.00 C +ATOM 991 HG2 GLN A 62 18.264 22.429 7.434 1.00 0.00 H +ATOM 992 HG3 GLN A 62 17.469 23.172 9.011 1.00 0.00 H +ATOM 993 CD GLN A 62 16.509 23.529 7.116 1.00 0.00 C +ATOM 994 OE1 GLN A 62 15.446 22.980 7.433 1.00 0.00 O +ATOM 995 NE2 GLN A 62 16.539 24.293 6.009 1.00 0.00 N +ATOM 996 HE21 GLN A 62 17.151 24.254 4.990 1.00 0.00 H +ATOM 997 HE22 GLN A 62 15.426 24.614 5.704 1.00 0.00 H +ATOM 998 N LYS A 63 20.924 25.862 6.006 1.00 0.00 N +ATOM 999 H LYS A 63 20.775 24.768 5.562 1.00 0.00 H +ATOM 1000 CA LYS A 63 21.656 26.847 5.240 1.00 0.00 C +ATOM 1001 HA LYS A 63 22.787 26.726 5.581 1.00 0.00 H +ATOM 1002 C LYS A 63 21.127 28.240 5.574 1.00 0.00 C +ATOM 1003 O LYS A 63 19.958 28.465 5.842 1.00 0.00 O +ATOM 1004 CB LYS A 63 21.631 26.642 3.731 1.00 0.00 C +ATOM 1005 HB2 LYS A 63 22.236 27.409 3.048 1.00 0.00 H +ATOM 1006 HB3 LYS A 63 22.164 25.591 3.542 1.00 0.00 H +ATOM 1007 CG LYS A 63 20.210 26.423 3.175 1.00 0.00 C +ATOM 1008 HG2 LYS A 63 19.820 25.316 3.385 1.00 0.00 H +ATOM 1009 HG3 LYS A 63 19.376 27.145 3.635 1.00 0.00 H +ATOM 1010 CD LYS A 63 20.268 26.589 1.656 1.00 0.00 C +ATOM 1011 HD2 LYS A 63 21.265 26.128 1.171 1.00 0.00 H +ATOM 1012 HD3 LYS A 63 20.231 27.724 1.285 1.00 0.00 H +ATOM 1013 CE LYS A 63 19.202 25.857 0.891 1.00 0.00 C +ATOM 1014 HE2 LYS A 63 19.514 25.952 -0.271 1.00 0.00 H +ATOM 1015 HE3 LYS A 63 19.070 24.686 1.148 1.00 0.00 H +ATOM 1016 NZ LYS A 63 17.884 26.544 1.075 1.00 0.00 N +ATOM 1017 HZ1 LYS A 63 17.195 26.028 0.230 1.00 0.00 H +ATOM 1018 HZ2 LYS A 63 17.769 27.732 0.975 1.00 0.00 H +ATOM 1019 HZ3 LYS A 63 17.328 26.298 2.108 1.00 0.00 H +ATOM 1020 N GLU A 64 22.099 29.163 5.605 1.00 0.00 N +ATOM 1021 H GLU A 64 22.778 29.107 4.639 1.00 0.00 H +ATOM 1022 CA GLU A 64 21.907 30.563 5.881 1.00 0.00 C +ATOM 1023 HA GLU A 64 22.921 31.185 5.867 1.00 0.00 H +ATOM 1024 C GLU A 64 21.466 30.953 7.261 1.00 0.00 C +ATOM 1025 O GLU A 64 21.066 32.112 7.533 1.00 0.00 O +ATOM 1026 CB GLU A 64 21.023 31.223 4.784 1.00 0.00 C +ATOM 1027 HB2 GLU A 64 19.995 30.609 4.682 1.00 0.00 H +ATOM 1028 HB3 GLU A 64 20.568 32.290 5.116 1.00 0.00 H +ATOM 1029 CG GLU A 64 21.861 31.342 3.474 1.00 0.00 C +ATOM 1030 HG2 GLU A 64 23.010 31.004 3.413 1.00 0.00 H +ATOM 1031 HG3 GLU A 64 21.688 32.453 3.005 1.00 0.00 H +ATOM 1032 CD GLU A 64 21.156 30.726 2.311 1.00 0.00 C +ATOM 1033 OE1 GLU A 64 19.942 30.793 2.170 1.00 0.00 O +ATOM 1034 OE2 GLU A 64 21.954 30.152 1.535 1.00 0.00 O +ATOM 1035 N SER A 65 21.674 30.034 8.191 1.00 0.00 N +ATOM 1036 H SER A 65 22.309 29.072 7.937 1.00 0.00 H +ATOM 1037 CA SER A 65 21.419 30.253 9.620 1.00 0.00 C +ATOM 1038 HA SER A 65 20.314 30.696 9.701 1.00 0.00 H +ATOM 1039 C SER A 65 22.504 31.228 10.136 1.00 0.00 C +ATOM 1040 O SER A 65 23.579 31.321 9.554 1.00 0.00 O +ATOM 1041 CB SER A 65 21.637 28.923 10.353 1.00 0.00 C +ATOM 1042 HB2 SER A 65 22.725 28.486 10.156 1.00 0.00 H +ATOM 1043 HB3 SER A 65 21.582 29.100 11.529 1.00 0.00 H +ATOM 1044 OG SER A 65 20.544 28.047 10.059 1.00 0.00 O +ATOM 1045 HG SER A 65 19.475 28.456 10.407 1.00 0.00 H +ATOM 1046 N THR A 66 22.241 31.873 11.241 1.00 0.00 N +ATOM 1047 H THR A 66 21.116 32.049 11.585 1.00 0.00 H +ATOM 1048 CA THR A 66 23.212 32.762 11.891 1.00 0.00 C +ATOM 1049 HA THR A 66 24.127 32.954 11.169 1.00 0.00 H +ATOM 1050 C THR A 66 23.509 32.224 13.290 1.00 0.00 C +ATOM 1051 O THR A 66 22.544 31.942 14.034 1.00 0.00 O +ATOM 1052 CB THR A 66 22.699 34.267 11.985 1.00 0.00 C +ATOM 1053 HB THR A 66 21.645 34.399 12.537 1.00 0.00 H +ATOM 1054 OG1 THR A 66 22.495 34.690 10.589 1.00 0.00 O +ATOM 1055 HG1 THR A 66 21.714 35.590 10.494 1.00 0.00 H +ATOM 1056 CG2 THR A 66 23.727 35.131 12.722 1.00 0.00 C +ATOM 1057 HG21 THR A 66 23.488 36.214 12.258 1.00 0.00 H +ATOM 1058 HG22 THR A 66 23.287 35.133 13.836 1.00 0.00 H +ATOM 1059 HG23 THR A 66 24.903 34.979 12.658 1.00 0.00 H +ATOM 1060 N LEU A 67 24.790 32.021 13.618 1.00 0.00 N +ATOM 1061 H LEU A 67 25.802 32.050 13.016 1.00 0.00 H +ATOM 1062 CA LEU A 67 25.149 31.609 14.980 1.00 0.00 C +ATOM 1063 HA LEU A 67 24.159 31.401 15.606 1.00 0.00 H +ATOM 1064 C LEU A 67 25.698 32.876 15.669 1.00 0.00 C +ATOM 1065 O LEU A 67 26.158 33.730 14.894 1.00 0.00 O +ATOM 1066 CB LEU A 67 26.310 30.594 14.967 1.00 0.00 C +ATOM 1067 HB2 LEU A 67 26.262 30.018 16.013 1.00 0.00 H +ATOM 1068 HB3 LEU A 67 27.357 31.160 14.935 1.00 0.00 H +ATOM 1069 CG LEU A 67 26.290 29.480 13.960 1.00 0.00 C +ATOM 1070 HG LEU A 67 26.540 29.916 12.882 1.00 0.00 H +ATOM 1071 CD1 LEU A 67 27.393 28.442 14.229 1.00 0.00 C +ATOM 1072 HD11 LEU A 67 27.131 27.389 14.730 1.00 0.00 H +ATOM 1073 HD12 LEU A 67 28.318 28.871 14.840 1.00 0.00 H +ATOM 1074 HD13 LEU A 67 27.898 28.077 13.211 1.00 0.00 H +ATOM 1075 CD2 LEU A 67 24.942 28.807 13.952 1.00 0.00 C +ATOM 1076 HD21 LEU A 67 23.930 29.298 14.338 1.00 0.00 H +ATOM 1077 HD22 LEU A 67 25.064 27.806 14.580 1.00 0.00 H +ATOM 1078 HD23 LEU A 67 24.681 28.638 12.798 1.00 0.00 H +ATOM 1079 N HIS A 68 25.621 32.945 16.950 1.00 0.00 N +ATOM 1080 H HIS A 68 25.848 31.931 17.517 1.00 0.00 H +ATOM 1081 CA HIS A 68 26.179 34.127 17.650 1.00 0.00 C +ATOM 1082 HA HIS A 68 26.228 35.096 16.968 1.00 0.00 H +ATOM 1083 C HIS A 68 27.475 33.651 18.304 1.00 0.00 C +ATOM 1084 O HIS A 68 27.507 32.587 18.958 1.00 0.00 O +ATOM 1085 CB HIS A 68 25.214 34.565 18.780 1.00 0.00 C +ATOM 1086 HB2 HIS A 68 24.709 34.058 19.737 1.00 0.00 H +ATOM 1087 HB3 HIS A 68 25.652 35.547 19.308 1.00 0.00 H +ATOM 1088 CG HIS A 68 23.978 35.121 18.126 1.00 0.00 C +ATOM 1089 ND1 HIS A 68 23.853 36.432 17.781 1.00 0.00 N +ATOM 1090 HD1 HIS A 68 24.189 37.408 18.373 1.00 0.00 H +ATOM 1091 CD2 HIS A 68 22.824 34.514 17.782 1.00 0.00 C +ATOM 1092 HD2 HIS A 68 21.987 33.751 18.130 1.00 0.00 H +ATOM 1093 CE1 HIS A 68 22.674 36.627 17.200 1.00 0.00 C +ATOM 1094 HE1 HIS A 68 21.791 37.418 17.262 1.00 0.00 H +ATOM 1095 NE2 HIS A 68 22.045 35.455 17.173 1.00 0.00 N +ATOM 1096 N LEU A 69 28.525 34.447 18.189 1.00 0.00 N +ATOM 1097 H LEU A 69 28.163 35.541 18.471 1.00 0.00 H +ATOM 1098 CA LEU A 69 29.801 34.145 18.829 1.00 0.00 C +ATOM 1099 HA LEU A 69 29.750 33.030 19.223 1.00 0.00 H +ATOM 1100 C LEU A 69 30.052 35.042 20.004 1.00 0.00 C +ATOM 1101 O LEU A 69 30.105 36.305 19.788 1.00 0.00 O +ATOM 1102 CB LEU A 69 30.925 34.304 17.753 1.00 0.00 C +ATOM 1103 HB2 LEU A 69 30.769 33.365 17.036 1.00 0.00 H +ATOM 1104 HB3 LEU A 69 30.799 35.352 17.208 1.00 0.00 H +ATOM 1105 CG LEU A 69 32.345 34.183 18.358 1.00 0.00 C +ATOM 1106 HG LEU A 69 32.426 35.147 19.052 1.00 0.00 H +ATOM 1107 CD1 LEU A 69 32.555 32.783 18.870 1.00 0.00 C +ATOM 1108 HD11 LEU A 69 31.710 32.026 19.231 1.00 0.00 H +ATOM 1109 HD12 LEU A 69 33.254 32.977 19.808 1.00 0.00 H +ATOM 1110 HD13 LEU A 69 33.130 32.182 18.012 1.00 0.00 H +ATOM 1111 CD2 LEU A 69 33.361 34.491 17.245 1.00 0.00 C +ATOM 1112 HD21 LEU A 69 33.423 35.648 16.946 1.00 0.00 H +ATOM 1113 HD22 LEU A 69 33.310 33.949 16.183 1.00 0.00 H +ATOM 1114 HD23 LEU A 69 34.388 34.280 17.816 1.00 0.00 H +ATOM 1115 N VAL A 70 30.124 34.533 21.191 1.00 0.00 N +ATOM 1116 H VAL A 70 29.339 33.700 21.551 1.00 0.00 H +ATOM 1117 CA VAL A 70 30.479 35.369 22.374 1.00 0.00 C +ATOM 1118 HA VAL A 70 30.570 36.539 22.174 1.00 0.00 H +ATOM 1119 C VAL A 70 31.901 34.910 22.728 1.00 0.00 C +ATOM 1120 O VAL A 70 32.190 33.696 22.635 1.00 0.00 O +ATOM 1121 CB VAL A 70 29.472 35.181 23.498 1.00 0.00 C +ATOM 1122 HB VAL A 70 29.397 34.114 24.015 1.00 0.00 H +ATOM 1123 CG1 VAL A 70 29.821 35.957 24.765 1.00 0.00 C +ATOM 1124 HG11 VAL A 70 30.481 36.957 24.747 1.00 0.00 H +ATOM 1125 HG12 VAL A 70 28.880 36.390 25.376 1.00 0.00 H +ATOM 1126 HG13 VAL A 70 30.412 35.311 25.585 1.00 0.00 H +ATOM 1127 CG2 VAL A 70 28.049 35.454 23.071 1.00 0.00 C +ATOM 1128 HG21 VAL A 70 27.418 34.497 22.735 1.00 0.00 H +ATOM 1129 HG22 VAL A 70 27.307 35.968 23.860 1.00 0.00 H +ATOM 1130 HG23 VAL A 70 27.945 36.211 22.151 1.00 0.00 H +ATOM 1131 N LEU A 71 32.763 35.831 23.090 1.00 0.00 N +ATOM 1132 H LEU A 71 32.603 36.997 23.269 1.00 0.00 H +ATOM 1133 CA LEU A 71 34.145 35.472 23.481 1.00 0.00 C +ATOM 1134 HA LEU A 71 34.193 34.305 23.284 1.00 0.00 H +ATOM 1135 C LEU A 71 34.239 35.353 24.979 1.00 0.00 C +ATOM 1136 O LEU A 71 33.707 36.197 25.728 1.00 0.00 O +ATOM 1137 CB LEU A 71 35.114 36.564 22.907 1.00 0.00 C +ATOM 1138 HB2 LEU A 71 35.666 36.969 23.897 1.00 0.00 H +ATOM 1139 HB3 LEU A 71 34.668 37.589 22.464 1.00 0.00 H +ATOM 1140 CG LEU A 71 35.926 35.979 21.737 1.00 0.00 C +ATOM 1141 HG LEU A 71 36.865 35.410 22.185 1.00 0.00 H +ATOM 1142 CD1 LEU A 71 35.003 35.084 20.920 1.00 0.00 C +ATOM 1143 HD11 LEU A 71 34.688 35.863 20.064 1.00 0.00 H +ATOM 1144 HD12 LEU A 71 33.927 34.635 21.145 1.00 0.00 H +ATOM 1145 HD13 LEU A 71 35.689 34.166 20.600 1.00 0.00 H +ATOM 1146 CD2 LEU A 71 36.533 37.087 20.917 1.00 0.00 C +ATOM 1147 HD21 LEU A 71 37.574 36.957 20.340 1.00 0.00 H +ATOM 1148 HD22 LEU A 71 35.881 37.681 20.100 1.00 0.00 H +ATOM 1149 HD23 LEU A 71 36.810 38.009 21.642 1.00 0.00 H +ATOM 1150 N ARG A 72 34.930 34.384 25.451 1.00 0.00 N +ATOM 1151 H ARG A 72 35.941 34.253 24.850 1.00 0.00 H +ATOM 1152 CA ARG A 72 35.161 34.174 26.896 1.00 0.00 C +ATOM 1153 HA ARG A 72 34.559 34.922 27.605 1.00 0.00 H +ATOM 1154 C ARG A 72 36.671 34.296 27.089 1.00 0.00 C +ATOM 1155 O ARG A 72 37.305 33.233 26.795 1.00 0.00 O +ATOM 1156 CB ARG A 72 34.717 32.760 27.286 1.00 0.00 C +ATOM 1157 HB2 ARG A 72 33.792 32.907 28.041 1.00 0.00 H +ATOM 1158 HB3 ARG A 72 34.060 32.344 26.382 1.00 0.00 H +ATOM 1159 CG ARG A 72 35.752 32.054 28.160 1.00 0.00 C +ATOM 1160 HG2 ARG A 72 35.401 32.397 29.261 1.00 0.00 H +ATOM 1161 HG3 ARG A 72 36.916 32.091 28.445 1.00 0.00 H +ATOM 1162 CD ARG A 72 35.612 30.577 28.044 1.00 0.00 C +ATOM 1163 HD2 ARG A 72 36.619 29.941 28.156 1.00 0.00 H +ATOM 1164 HD3 ARG A 72 35.036 30.269 29.047 1.00 0.00 H +ATOM 1165 NE ARG A 72 35.040 30.252 26.730 1.00 0.00 N +ATOM 1166 HE ARG A 72 35.440 30.594 25.671 1.00 0.00 H +ATOM 1167 CZ ARG A 72 34.338 29.103 26.650 1.00 0.00 C +ATOM 1168 NH1 ARG A 72 34.110 28.437 27.768 1.00 0.00 N +ATOM 1169 HH11 ARG A 72 33.281 28.609 28.605 1.00 0.00 H +ATOM 1170 HH12 ARG A 72 34.473 27.299 27.860 1.00 0.00 H +ATOM 1171 NH2 ARG A 72 34.014 28.657 25.457 1.00 0.00 N +ATOM 1172 HH21 ARG A 72 34.800 27.988 24.867 1.00 0.00 H +ATOM 1173 HH22 ARG A 72 33.020 28.001 25.472 1.00 0.00 H +ATOM 1174 N LEU A 73 37.197 35.397 27.513 1.00 0.00 N +ATOM 1175 H LEU A 73 36.548 36.144 28.175 1.00 0.00 H +ATOM 1176 CA LEU A 73 38.668 35.502 27.680 1.00 0.00 C +ATOM 1177 HA LEU A 73 39.282 34.798 26.944 1.00 0.00 H +ATOM 1178 C LEU A 73 39.076 34.931 29.031 1.00 0.00 C +ATOM 1179 O LEU A 73 38.297 34.946 29.996 1.00 0.00 O +ATOM 1180 CB LEU A 73 39.080 36.941 27.406 1.00 0.00 C +ATOM 1181 HB2 LEU A 73 39.993 37.207 28.133 1.00 0.00 H +ATOM 1182 HB3 LEU A 73 38.254 37.668 27.878 1.00 0.00 H +ATOM 1183 CG LEU A 73 39.502 37.340 26.002 1.00 0.00 C +ATOM 1184 HG LEU A 73 40.681 37.187 25.864 1.00 0.00 H +ATOM 1185 CD1 LEU A 73 38.684 36.647 24.923 1.00 0.00 C +ATOM 1186 HD11 LEU A 73 37.876 35.805 25.164 1.00 0.00 H +ATOM 1187 HD12 LEU A 73 38.137 37.554 24.347 1.00 0.00 H +ATOM 1188 HD13 LEU A 73 39.628 36.479 24.210 1.00 0.00 H +ATOM 1189 CD2 LEU A 73 39.337 38.854 25.862 1.00 0.00 C +ATOM 1190 HD21 LEU A 73 39.376 39.329 24.757 1.00 0.00 H +ATOM 1191 HD22 LEU A 73 38.370 39.386 26.340 1.00 0.00 H +ATOM 1192 HD23 LEU A 73 40.264 39.421 26.375 1.00 0.00 H +ATOM 1193 N ARG A 74 40.294 34.412 29.045 1.00 0.00 N +ATOM 1194 H ARG A 74 41.172 34.716 28.302 1.00 0.00 H +ATOM 1195 CA ARG A 74 40.873 33.802 30.253 1.00 0.00 C +ATOM 1196 HA ARG A 74 40.009 33.440 30.991 1.00 0.00 H +ATOM 1197 C ARG A 74 41.765 34.829 30.944 1.00 0.00 C +ATOM 1198 O ARG A 74 42.945 34.994 30.583 1.00 0.00 O +ATOM 1199 CB ARG A 74 41.651 32.529 29.923 1.00 0.00 C +ATOM 1200 HB2 ARG A 74 42.782 32.822 29.672 1.00 0.00 H +ATOM 1201 HB3 ARG A 74 41.207 32.119 28.892 1.00 0.00 H +ATOM 1202 CG ARG A 74 41.608 31.444 30.989 1.00 0.00 C +ATOM 1203 HG2 ARG A 74 42.398 31.761 31.830 1.00 0.00 H +ATOM 1204 HG3 ARG A 74 40.637 31.284 31.671 1.00 0.00 H +ATOM 1205 CD ARG A 74 41.896 30.080 30.456 1.00 0.00 C +ATOM 1206 HD2 ARG A 74 41.660 28.918 30.724 1.00 0.00 H +ATOM 1207 HD3 ARG A 74 40.917 30.048 29.744 1.00 0.00 H +ATOM 1208 NE ARG A 74 43.311 29.735 30.563 1.00 0.00 N +ATOM 1209 HE ARG A 74 43.713 29.205 31.549 1.00 0.00 H +ATOM 1210 CZ ARG A 74 44.174 29.905 29.554 1.00 0.00 C +ATOM 1211 NH1 ARG A 74 43.754 30.312 28.356 1.00 0.00 N +ATOM 1212 HH11 ARG A 74 43.551 29.450 27.555 1.00 0.00 H +ATOM 1213 HH12 ARG A 74 44.181 31.281 27.814 1.00 0.00 H +ATOM 1214 NH2 ARG A 74 45.477 29.726 29.763 1.00 0.00 N +ATOM 1215 HH21 ARG A 74 46.070 28.781 29.345 1.00 0.00 H +ATOM 1216 HH22 ARG A 74 46.237 30.435 30.341 1.00 0.00 H +ATOM 1217 N GLY A 75 41.165 35.531 31.898 1.00 0.00 N +ATOM 1218 H GLY A 75 40.092 35.353 32.377 1.00 0.00 H +ATOM 1219 CA GLY A 75 41.845 36.550 32.686 1.00 0.00 C +ATOM 1220 HA2 GLY A 75 41.960 36.069 33.776 1.00 0.00 H +ATOM 1221 HA3 GLY A 75 42.938 36.779 32.239 1.00 0.00 H +ATOM 1222 C GLY A 75 41.251 37.941 32.588 1.00 0.00 C +ATOM 1223 O GLY A 75 41.102 38.523 31.500 1.00 0.00 O +ATOM 1224 N GLY A 76 40.946 38.472 33.757 1.00 0.00 N +ATOM 1225 H GLY A 76 41.132 37.871 34.764 1.00 0.00 H +ATOM 1226 CA GLY A 76 40.373 39.813 33.944 1.00 0.00 C +ATOM 1227 HA2 GLY A 76 39.314 40.020 33.437 1.00 0.00 H +ATOM 1228 HA3 GLY A 76 41.217 40.620 33.700 1.00 0.00 H +ATOM 1229 C GLY A 76 40.031 39.992 35.432 1.00 0.00 C +ATOM 1230 O GLY A 76 38.933 40.525 35.687 1.00 0.00 O +ATOM 1231 OXT GLY A 76 40.862 39.575 36.251 1.00 0.00 O +TER 1232 GLY A 76 +END From bfe1aa3089e0846e2d06623d27f059f85c94c2ce Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Mon, 17 Feb 2025 11:28:33 -0800 Subject: [PATCH 6/8] Update docs to include new examples --- docs/source/examples.rst | 2 ++ docs/source/gallery/12-Analyzing_MD_Simulations.nblink | 3 +++ docs/source/gallery/13-OpenMM_Score_Function.nblink | 3 +++ 3 files changed, 8 insertions(+) create mode 100644 docs/source/gallery/12-Analyzing_MD_Simulations.nblink create mode 100644 docs/source/gallery/13-OpenMM_Score_Function.nblink diff --git a/docs/source/examples.rst b/docs/source/examples.rst index 91d3393..60e7f17 100644 --- a/docs/source/examples.rst +++ b/docs/source/examples.rst @@ -16,3 +16,5 @@ Examples gallery/09-Bifunctional_Labels.nblink gallery/10-Nucleic_acid_labels.nblink gallery/11-Arbitrary_molecular_labels.nblink + gallery/12-Analyzing_MD_Simulations.nblink + gallery/13-OpenMM_Score_Function.nblink diff --git a/docs/source/gallery/12-Analyzing_MD_Simulations.nblink b/docs/source/gallery/12-Analyzing_MD_Simulations.nblink new file mode 100644 index 00000000..5b6b29f --- /dev/null +++ b/docs/source/gallery/12-Analyzing_MD_Simulations.nblink @@ -0,0 +1,3 @@ +{ +"path": "../../../examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb" +} diff --git a/docs/source/gallery/13-OpenMM_Score_Function.nblink b/docs/source/gallery/13-OpenMM_Score_Function.nblink new file mode 100644 index 00000000..964103d --- /dev/null +++ b/docs/source/gallery/13-OpenMM_Score_Function.nblink @@ -0,0 +1,3 @@ +{ +"path": "../../../examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb" +} \ No newline at end of file From a061d1e1155b238d77f80e507b97c8be5cdc4403 Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Mon, 17 Feb 2025 11:33:33 -0800 Subject: [PATCH 7/8] Add new examples to readme updates --- README.md | 15 ++++++++------- 1 file changed, 8 insertions(+), 7 deletions(-) diff --git a/README.md b/README.md index e70defe..8334339 100644 --- a/README.md +++ b/README.md @@ -11,13 +11,14 @@

-| **UPDATES** | -|------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| -| 2024.12.26 : Changes to the "energy funciton" backend. forcefield, forgive factors, etc should all be parts of the energy function now, and not parts of a rotamer library Checkout [Example_07](https://stolllab.github.io/chiLife/gallery/07-Custom_Energy_Function.html) | -| 2024.08.15 : chiLife 1.0 released! | -| 2024.08.15 : chiLife can now be used to create arbitrary peptides with natural and NCAAs. Checkout the `make_peptide` function. | -| 2024.08.15 : chiLife can make NCAA structures from smiles. Checkout `smiles2residue`. Note: Requires RDKit to be installed. | -| chiLife now supports arbitrary backbone attachments including DNA and RNA labels and more! | +| **UPDATES** | +|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| +| 2025.02.17 : Check out our new examples for trajectory analysis [Example_12](https://stolllab.github.io/chiLife/gallery/12-Analyzing_MD_Simulations.html) and using OpenMM for repacking [Example_13](https://stolllab.github.io/chiLife/gallery/07-Custom_Energy_Function.html). | +| 2024.12.26 : Changes to the "energy funciton" backend. forcefield, forgive factors, etc should all be parts of the energy function now, and not parts of a rotamer library Checkout [Example_07](https://stolllab.github.io/chiLife/gallery/13-OpenMM_Score_Function.html) | +| 2024.08.15 : chiLife 1.0 released! | +| 2024.08.15 : chiLife can now be used to create arbitrary peptides with natural and NCAAs. Checkout the `make_peptide` function. | +| 2024.08.15 : chiLife can make NCAA structures from smiles. Checkout `smiles2residue`. Note: Requires RDKit to be installed. | +| chiLife now supports arbitrary backbone attachments including DNA and RNA labels and more! | From 3999af41a67ab973717356ced27736c17d0596ab Mon Sep 17 00:00:00 2001 From: Maxx Tessmer Date: Mon, 17 Feb 2025 11:54:50 -0800 Subject: [PATCH 8/8] Alter test to be more specific --- tests/test_io.py | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/tests/test_io.py b/tests/test_io.py index ca053cd..ea86a53 100644 --- a/tests/test_io.py +++ b/tests/test_io.py @@ -132,11 +132,11 @@ def test_write_protein_with_bonds(): with open('1R1M.pdb', 'r') as f: - lines = "".join(f.readlines()) + lines = "".join([line for line in f if line.startswith("CONECT")]) thash = hashlib.md5(lines.encode("utf-8")).hexdigest() with open('test_data/cnct.pdb', 'r') as f: - lines = "".join(f.readlines()) + lines = "".join([line for line in f if line.startswith("CONECT")]) ahash = hashlib.md5(lines.encode("utf-8")).hexdigest() assert thash == ahash