NMR Restraints Grid |
Result table
image | mrblock_id | pdb_id | cing | in_recoord | in_dress | stage | program | type | subtype | subsubtype |
470698 | 1aoy | cing | recoord | dress | 4-filtered-FRED | Wattos | check | violation | dihedral angle |
data_1aoy save_distance_constraint_statistics_1 _TA_constraint_stats_list.Sf_category torsion_angle_constraint_statistics _TA_constraint_stats_list.Constraint_count 60 _TA_constraint_stats_list.Viol_count 97 _TA_constraint_stats_list.Viol_total 2592.42 _TA_constraint_stats_list.Viol_max 7.81 _TA_constraint_stats_list.Viol_rms 0.41 _TA_constraint_stats_list.Viol_average_all_restraints 0.08 _TA_constraint_stats_list.Viol_average_violations_only 1.16 _TA_constraint_stats_list.Cutoff_violation_report 5.00 _TA_constraint_stats_list.Details ; Description of the tags in this list: * 1 * Administrative tag * 2 * ID of the restraint list. * 3 * Number of restraints in list. * 4 * Number of violated restraints (each model violation is used). * 5 * Sum of violations in degrees. * 6 * Maximum violation of a restraint without averaging in any way. * 7 * Rms of violations over all restraints. * 8 * Average violation over all restraints. * 9 * Average violation over violated restraints. This violation is averaged over only those models in which the restraint is violated. Threshold for reporting violations (degrees) in the last columns of the next table. * 10 * This tag. Description of the tags in the per restraint table below: * 1 * Restraint ID within restraint list. * 2 * Torsion angle name where available. * 3 * First atom's: * 4 * Chain identifier (can be absent if none defined) * 5 * Residue number * 6 * Residue name * 7 * Name of (pseudo-)atom * 8 * Second thru fourth atom's identifiers occupy columns 7 thru 18. * 19 * Lower bound (degrees) * 20 * Upper bound (degrees) * 21 * Average angle in ensemble of models * 22 * Minimum angle in ensemble of models (counter clockwise from range) * 23 * Maximum angle in ensemble of models (clockwise from range) * 24 * Maximum violation (without any averaging) * 25 * Model number with the maximum violation * 26 * Number of models with a violation above cutoff * 27 * List of models with a violation above cutoff. See description above. * 28 * Administrative tag * 29 * Administrative tag ; loop_ _TA_constraint_stats.Restraint_ID _TA_constraint_stats.Torsion_angle_name _TA_constraint_stats.Entity_assembly_ID_1 _TA_constraint_stats.Comp_index_ID_1 _TA_constraint_stats.Comp_ID_1 _TA_constraint_stats.Atom_ID_1 _TA_constraint_stats.Entity_assembly_ID_2 _TA_constraint_stats.Comp_index_ID_2 _TA_constraint_stats.Comp_ID_2 _TA_constraint_stats.Atom_ID_2 _TA_constraint_stats.Entity_assembly_ID_3 _TA_constraint_stats.Comp_index_ID_3 _TA_constraint_stats.Comp_ID_3 _TA_constraint_stats.Atom_ID_3 _TA_constraint_stats.Entity_assembly_ID_4 _TA_constraint_stats.Comp_index_ID_4 _TA_constraint_stats.Comp_ID_4 _TA_constraint_stats.Atom_ID_4 _TA_constraint_stats.Angle_lower_bound_val _TA_constraint_stats.Angle_upper_bound_val _TA_constraint_stats.Angle_average _TA_constraint_stats.Angle_minimum _TA_constraint_stats.Angle_maximum _TA_constraint_stats.Max_violation _TA_constraint_stats.Max_violation_model_number _TA_constraint_stats.Over_cutoff_violation_count _TA_constraint_stats.Over_cutoff_violation_per_model 1 . 1 7 GLN C 1 8 GLU N 1 8 GLU CA 1 8 GLU C -80.00 -40.00 -76.61 -81.85 -68.06 1.85 6 0 "[ . 1 . 2 ]" 2 . 1 9 GLU C 1 10 LEU N 1 10 LEU CA 1 10 LEU C -80.00 -40.00 -60.16 -53.20 -55.63 . . 0 "[ . 1 . 2 ]" 3 . 1 10 LEU C 1 11 VAL N 1 11 VAL CA 1 11 VAL C -80.00 -40.00 -73.86 -78.39 -80.25 1.00 1 0 "[ . 1 . 2 ]" 4 . 1 11 VAL C 1 12 LYS N 1 12 LYS CA 1 12 LYS C -80.00 -40.00 -57.72 -60.95 -63.37 . . 0 "[ . 1 . 2 ]" 5 . 1 12 LYS C 1 13 ALA N 1 13 ALA CA 1 13 ALA C -80.00 -40.00 -63.86 -75.24 -57.75 . . 0 "[ . 1 . 2 ]" 6 . 1 13 ALA C 1 14 PHE N 1 14 PHE CA 1 14 PHE C -80.00 -40.00 -54.47 -58.81 -48.65 . . 0 "[ . 1 . 2 ]" 7 . 1 14 PHE C 1 15 LYS N 1 15 LYS CA 1 15 LYS C -80.00 -40.00 -55.61 -54.24 -54.53 . . 0 "[ . 1 . 2 ]" 8 . 1 15 LYS C 1 16 ALA N 1 16 ALA CA 1 16 ALA C -80.00 -40.00 -61.94 -62.32 -62.85 . . 0 "[ . 1 . 2 ]" 9 . 1 16 ALA C 1 17 LEU N 1 17 LEU CA 1 17 LEU C -80.00 -40.00 -54.85 -59.20 -50.84 . . 0 "[ . 1 . 2 ]" 10 . 1 17 LEU C 1 18 LEU N 1 18 LEU CA 1 18 LEU C -80.00 -40.00 -67.02 -73.68 -59.12 . . 0 "[ . 1 . 2 ]" 11 . 1 18 LEU C 1 19 LYS N 1 19 LYS CA 1 19 LYS C -80.00 -40.00 -61.65 -67.68 -56.06 . . 0 "[ . 1 . 2 ]" 12 . 1 21 GLU C 1 22 LYS N 1 22 LYS CA 1 22 LYS C -140.00 -100.00 -138.15 -142.15 -124.30 2.15 2 0 "[ . 1 . 2 ]" 13 . 1 23 PHE C 1 24 SER N 1 24 SER CA 1 24 SER C -160.00 -80.00 -99.54 -112.31 -78.98 1.02 18 0 "[ . 1 . 2 ]" 14 . 1 24 SER C 1 25 SER N 1 25 SER CA 1 25 SER C -160.00 -80.00 -135.19 -137.06 -143.61 0.18 1 0 "[ . 1 . 2 ]" 15 . 1 25 SER C 1 26 GLN N 1 26 GLN CA 1 26 GLN C -80.00 -40.00 -61.20 -68.19 -54.54 . . 0 "[ . 1 . 2 ]" 16 . 1 27 GLY C 1 28 GLU N 1 28 GLU CA 1 28 GLU C -80.00 -40.00 -67.32 -66.00 -66.39 . . 0 "[ . 1 . 2 ]" 17 . 1 29 ILE C 1 30 VAL N 1 30 VAL CA 1 30 VAL C -80.00 -40.00 -63.42 -60.30 -60.54 . . 0 "[ . 1 . 2 ]" 18 . 1 30 VAL C 1 31 ALA N 1 31 ALA CA 1 31 ALA C -80.00 -40.00 -66.10 -77.36 -61.41 . . 0 "[ . 1 . 2 ]" 19 . 1 31 ALA C 1 32 ALA N 1 32 ALA CA 1 32 ALA C -80.00 -40.00 -57.87 -63.51 -52.44 . . 0 "[ . 1 . 2 ]" 20 . 1 32 ALA C 1 33 LEU N 1 33 LEU CA 1 33 LEU C -80.00 -40.00 -69.57 -75.53 -65.67 . . 0 "[ . 1 . 2 ]" 21 . 1 33 LEU C 1 34 GLN N 1 34 GLN CA 1 34 GLN C -80.00 -40.00 -64.85 -67.15 -67.34 . . 0 "[ . 1 . 2 ]" 22 . 1 42 ASN C 1 43 GLN N 1 43 GLN CA 1 43 GLN C -80.00 -40.00 -58.09 -64.00 -52.07 . . 0 "[ . 1 . 2 ]" 23 . 1 43 GLN C 1 44 SER N 1 44 SER CA 1 44 SER C -80.00 -40.00 -63.24 -66.23 -67.43 . . 0 "[ . 1 . 2 ]" 24 . 1 44 SER C 1 45 LYS N 1 45 LYS CA 1 45 LYS C -80.00 -40.00 -62.91 -62.39 -63.02 . . 0 "[ . 1 . 2 ]" 25 . 1 45 LYS C 1 46 VAL N 1 46 VAL CA 1 46 VAL C -80.00 -40.00 -74.42 -81.52 -68.06 1.52 12 0 "[ . 1 . 2 ]" 26 . 1 46 VAL C 1 47 SER N 1 47 SER CA 1 47 SER C -80.00 -40.00 -67.88 -74.22 -56.64 . . 0 "[ . 1 . 2 ]" 27 . 1 47 SER C 1 48 ARG N 1 48 ARG CA 1 48 ARG C -80.00 -40.00 -68.03 -68.80 -69.32 . . 0 "[ . 1 . 2 ]" 28 . 1 48 ARG C 1 49 MET N 1 49 MET CA 1 49 MET C -80.00 -40.00 -65.96 -74.33 -62.24 . . 0 "[ . 1 . 2 ]" 29 . 1 49 MET C 1 50 LEU N 1 50 LEU CA 1 50 LEU C -80.00 -40.00 -61.81 -62.23 -62.35 . . 0 "[ . 1 . 2 ]" 30 . 1 50 LEU C 1 51 THR N 1 51 THR CA 1 51 THR C -80.00 -40.00 -71.92 -69.69 -70.40 . . 0 "[ . 1 . 2 ]" 31 . 1 51 THR C 1 52 LYS N 1 52 LYS CA 1 52 LYS C -80.00 -40.00 -63.28 -71.26 -57.73 . . 0 "[ . 1 . 2 ]" 32 . 1 54 GLY C 1 55 ALA N 1 55 ALA CA 1 55 ALA C -80.00 -40.00 -78.41 -79.50 -79.97 1.51 19 0 "[ . 1 . 2 ]" 33 . 1 55 ALA C 1 56 VAL N 1 56 VAL CA 1 56 VAL C -140.00 -100.00 -120.39 -110.01 -117.84 0.63 4 0 "[ . 1 . 2 ]" 34 . 1 56 VAL C 1 57 ARG N 1 57 ARG CA 1 57 ARG C -160.00 -80.00 -98.60 -90.59 -93.72 . . 0 "[ . 1 . 2 ]" 35 . 1 57 ARG C 1 58 THR N 1 58 THR CA 1 58 THR C -160.00 -80.00 -152.23 -161.41 -131.45 1.41 6 0 "[ . 1 . 2 ]" 36 . 1 59 ARG C 1 60 ASN N 1 60 ASN CA 1 60 ASN C -160.00 -80.00 -89.48 -105.73 -78.58 1.42 12 0 "[ . 1 . 2 ]" 37 . 1 60 ASN C 1 61 ALA N 1 61 ALA CA 1 61 ALA C -80.00 -40.00 -62.98 -74.14 -53.97 . . 0 "[ . 1 . 2 ]" 38 . 1 61 ALA C 1 62 LYS N 1 62 LYS CA 1 62 LYS C -140.00 -100.00 -111.51 -100.18 -102.04 1.07 5 0 "[ . 1 . 2 ]" 39 . 1 63 MET C 1 64 GLU N 1 64 GLU CA 1 64 GLU C -160.00 -80.00 -93.97 -120.26 -78.99 1.01 12 0 "[ . 1 . 2 ]" 40 . 1 65 MET C 1 66 VAL N 1 66 VAL CA 1 66 VAL C -160.00 -80.00 -117.28 -110.09 -113.53 . . 0 "[ . 1 . 2 ]" 41 . 1 67 TYR C 1 68 CYS N 1 68 CYS CA 1 68 CYS C -160.00 -80.00 -144.05 -158.62 -117.44 . . 0 "[ . 1 . 2 ]" 42 . 1 70 PRO C 1 71 ALA N 1 71 ALA CA 1 71 ALA C -80.00 -40.00 -66.31 -79.59 -48.13 . . 0 "[ . 1 . 2 ]" 43 . 1 10 LEU N 1 10 LEU CA 1 10 LEU CB 1 10 LEU CG 155.00 -155.00 173.99 156.41 -158.60 . . 0 "[ . 1 . 2 ]" 44 . 1 14 PHE N 1 14 PHE CA 1 14 PHE CB 1 14 PHE CG 155.00 -155.00 -164.01 -160.66 -161.93 . . 0 "[ . 1 . 2 ]" 45 . 1 15 LYS N 1 15 LYS CA 1 15 LYS CB 1 15 LYS CG -85.00 -35.00 -54.52 -88.57 -38.78 3.57 3 0 "[ . 1 . 2 ]" 46 . 1 17 LEU N 1 17 LEU CA 1 17 LEU CB 1 17 LEU CG -85.00 -35.00 -68.88 -71.55 -72.62 . . 0 "[ . 1 . 2 ]" 47 . 1 18 LEU N 1 18 LEU CA 1 18 LEU CB 1 18 LEU CG -85.00 -35.00 -57.04 -65.39 -53.02 . . 0 "[ . 1 . 2 ]" 48 . 1 20 GLU N 1 20 GLU CA 1 20 GLU CB 1 20 GLU CG -85.00 -35.00 -77.29 -85.83 -62.19 0.83 20 0 "[ . 1 . 2 ]" 49 . 1 25 SER N 1 25 SER CA 1 25 SER CB 1 25 SER OG 35.00 85.00 45.09 33.79 60.75 1.21 15 0 "[ . 1 . 2 ]" 50 . 1 26 GLN N 1 26 GLN CA 1 26 GLN CB 1 26 GLN CG -85.00 -35.00 -41.50 -52.40 -27.19 7.81 19 1 "[ . 1 . +2 ]" 51 . 1 33 LEU N 1 33 LEU CA 1 33 LEU CB 1 33 LEU CG -85.00 -35.00 -59.81 -56.15 -57.07 . . 0 "[ . 1 . 2 ]" 52 . 1 36 GLN N 1 36 GLN CA 1 36 GLN CB 1 36 GLN CG -85.00 -35.00 -75.03 -84.83 -66.90 . . 0 "[ . 1 . 2 ]" 53 . 1 38 PHE N 1 38 PHE CA 1 38 PHE CB 1 38 PHE CG -85.00 -35.00 -52.87 -58.73 -45.05 . . 0 "[ . 1 . 2 ]" 54 . 1 42 ASN N 1 42 ASN CA 1 42 ASN CB 1 42 ASN CG 35.00 85.00 56.60 61.53 59.76 . . 0 "[ . 1 . 2 ]" 55 . 1 48 ARG N 1 48 ARG CA 1 48 ARG CB 1 48 ARG CG -85.00 -35.00 -80.66 -85.38 -71.59 0.38 7 0 "[ . 1 . 2 ]" 56 . 1 49 MET N 1 49 MET CA 1 49 MET CB 1 49 MET CG -85.00 -35.00 -80.94 -79.69 -81.19 1.05 23 0 "[ . 1 . 2 ]" 57 . 1 50 LEU N 1 50 LEU CA 1 50 LEU CB 1 50 LEU CG -85.00 -35.00 -86.63 -88.06 -81.54 3.06 21 0 "[ . 1 . 2 ]" 58 . 1 53 PHE N 1 53 PHE CA 1 53 PHE CB 1 53 PHE CG -85.00 -35.00 -70.68 -75.18 -66.05 . . 0 "[ . 1 . 2 ]" 59 . 1 62 LYS N 1 62 LYS CA 1 62 LYS CB 1 62 LYS CG -85.00 -35.00 -65.27 -63.99 -65.31 . . 0 "[ . 1 . 2 ]" 60 . 1 65 MET N 1 65 MET CA 1 65 MET CB 1 65 MET CG -85.00 -35.00 -67.33 -85.93 -48.04 0.93 15 0 "[ . 1 . 2 ]" stop_ save_
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