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NMR Restraints Grid |
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Result table
(Save to zip file containing files for each block)
image | mrblock_id | pdb_id | cing | stage | program | type | subtype |
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373140 |
1drn ![]() ![]() |
cing | 4-filtered-FRED | STAR | entry | full |
data_FRED_restraints_with_modified_coordinates_PDB_code_1drn # This FRED archive file contains, for PDB entry <1drn>: # # - Coordinates and sequence information from the PDB mmCIF file # - NMR restraints from the PDB MR file # # In this file, the coordinates and NMR restraints share the same atom names, # and in this way can differ from the data deposited at the wwPDB. To achieve # this aim, the NMR restraints were parsed from their original format files, and # the coordinates and NMR restraints information were subsequently harmonized. # # Due to the complexity of this harmonization process and the filtering process # used in creating these files, the NMR restraints information in these files # may differ significantly from that in the originally deposited file. Other # modifications could have occurred to the NMR restraints information, or data # could have been lost because of parsing or conversion errors. The PDB file # remains the authoritative reference for the atomic coordinates and the # originally deposited restraints files remain the primary reference for these # data. # # This file is generated at the BioMagResBank (BMRB) in collaboration with the # PDBe (formerly MSD) group at the European Bioinformatics Institute (EBI) and # the CMBI/IMM group at the Radboud University of Nijmegen. # # Several software packages were used to produce this file: # # - Wattos (BMRB and CMBI/IMM). # - FormatConverter and NMRStarExport (PDBe). # - CCPN framework (http://www.ccpn.ac.uk/). # # More information about this process can be found in the references below. # Please cite the original reference for this PDB entry. # # JF Doreleijers, A Nederveen, W Vranken, J Lin, AM Bonvin, R Kaptein, JL # Markley, and EL Ulrich (2005). BioMagResBank databases DOCR and FRED # containing converted and filtered sets of experimental NMR restraints and # coordinates from over 500 protein PDB structures. J. Biomol. NMR 32, 1-12. # # WF Vranken, W Boucher, TJ Stevens, RH Fogh, A Pajon, M Llinas, EL Ulrich, JL # Markley, J Ionides, ED Laue (2005). The CCPN data model for NMR spectroscopy: # development of a software pipeline. Proteins 59, 687-696. # # JF Doreleijers, W Vranken, C Penkett, J Lin, CF Schulte, G Vuister, G Vriend, # JL Markley, EL Ulrich. BioMagResBank database `NMR Restraints Grid` with # curated sets of experimental NMR restraints for over 4,000 protein and nucleic # acid PDB entries. (in preparation) save_Conversion_project_for_entry_Name_1 _Study_list.Sf_category study_list _Study_list.Entry_ID 1 _Study_list.ID 1 loop_ _Study.ID _Study.Name _Study.Type _Study.Details _Study.Entry_ID _Study.Study_list_ID 1 "Conversion project for entry 1" NMR . 1 1 stop_ save_ save_originalConstraints_1 _Entry.Sf_category entry_information _Entry.ID 1 _Entry.Title "Data for entry 1" _Entry.NMR_STAR_version 3.1.0.8 _Entry.Experimental_method NMR _Entry.Details . save_ save_assembly_1drn _Assembly.Sf_category assembly _Assembly.Entry_ID 1 _Assembly.ID 1 _Assembly.Name 1drn _Assembly.Number_of_components 2 _Assembly.Organic_ligands . _Assembly.Metal_ions . _Assembly.Paramagnetic . _Assembly.Thiol_state "not present" _Assembly.Molecular_mass 5201.84 loop_ _Entity_assembly.ID _Entity_assembly.Entity_assembly_name _Entity_assembly.Entity_ID _Entity_assembly.Entity_label _Entity_assembly.Asym_ID _Entity_assembly.Details _Entity_assembly.Entry_ID _Entity_assembly.Assembly_ID 1 . 1 $DNA_RNA__5__D__GP_GP_AP_GP_A__R_P_UP_GP_AP_C__3__ A . 1 1 2 . 2 $DNA__5__D__GP_TP_CP_AP_TP_CP_TP_CP_C__3__ B . 1 1 stop_ save_ save_DNA_RNA__5__D__GP_GP_AP_GP_A__R_P_UP_GP_AP_C__3__ _Entity.Sf_category entity _Entity.Entry_ID 1 _Entity.ID 1 _Entity.Name "DNA RNA 5 D GP GP AP GP A R P UP GP AP C 3 " _Entity.Type polymer _Entity.Polymer_type polydeoxyribonucleotide _Entity.Polymer_seq_one_letter_code GGAGAXGAC _Entity.Number_of_monomers 9 loop_ _Entity_comp_index.ID _Entity_comp_index.Comp_ID _Entity_comp_index.Comp_label _Entity_comp_index.Entry_ID _Entity_comp_index.Entity_ID 1 DG . 1 1 2 DG . 1 1 3 DA . 1 1 4 DG . 1 1 5 DA . 1 1 6 DU $DU 1 1 7 DG . 1 1 8 DA . 1 1 9 DC . 1 1 stop_ loop_ _Entity_poly_seq.Mon_ID _Entity_poly_seq.Num _Entity_poly_seq.Comp_index_ID _Entity_poly_seq.Entry_ID _Entity_poly_seq.Entity_ID DG 1 1 1 1 DG 2 2 1 1 DA 3 3 1 1 DG 4 4 1 1 DA 5 5 1 1 DU 6 6 1 1 DG 7 7 1 1 DA 8 8 1 1 DC 9 9 1 1 stop_ save_ save_DNA__5__D__GP_TP_CP_AP_TP_CP_TP_CP_C__3__ _Entity.Sf_category entity _Entity.Entry_ID 1 _Entity.ID 2 _Entity.Name "DNA 5 D GP TP CP AP TP CP TP CP C 3 " _Entity.Type polymer _Entity.Polymer_type polydeoxyribonucleotide _Entity.Polymer_seq_one_letter_code GTCATCTCC _Entity.Number_of_monomers 9 loop_ _Entity_comp_index.ID _Entity_comp_index.Comp_ID _Entity_comp_index.Comp_label _Entity_comp_index.Entry_ID _Entity_comp_index.Entity_ID 1 DG . 1 2 2 DT . 1 2 3 DC . 1 2 4 DA . 1 2 5 DT . 1 2 6 DC . 1 2 7 DT . 1 2 8 DC . 1 2 9 DC . 1 2 stop_ loop_ _Entity_poly_seq.Mon_ID _Entity_poly_seq.Num _Entity_poly_seq.Comp_index_ID _Entity_poly_seq.Entry_ID _Entity_poly_seq.Entity_ID DG 1 1 1 2 DT 2 2 1 2 DC 3 3 1 2 DA 4 4 1 2 DT 5 5 1 2 DC 6 6 1 2 DT 7 7 1 2 DC 8 8 1 2 DC 9 9 1 2 stop_ save_ save_DU _Chem_comp.Sf_category chem_comp _Chem_comp.Entry_ID 1 _Chem_comp.ID DU _Chem_comp.Type non-polymer save_ save_conformer_family_coord_set_1 _Conformer_family_coord_set.Sf_category conformer_family_coord_set _Conformer_family_coord_set.Entry_ID 1 _Conformer_family_coord_set.ID 1 loop_ _Atom_site.Model_ID _Atom_site.ID _Atom_site.Label_entity_assembly_ID _Atom_site.Label_entity_ID _Atom_site.Label_comp_index_ID _Atom_site.Label_comp_ID _Atom_site.Label_atom_ID _Atom_site.Type_symbol _Atom_site.Cartn_x _Atom_site.Cartn_y _Atom_site.Cartn_z _Atom_site.Occupancy _Atom_site.Uncertainty _Atom_site.PDBX_label_asym_ID _Atom_site.PDB_strand_ID _Atom_site.PDB_ins_code _Atom_site.PDB_residue_no _Atom_site.PDB_residue_name _Atom_site.PDB_atom_name _Atom_site.Entry_ID _Atom_site.Conformer_family_coord_set_ID 1 1 1 1 1 DG C1' C 6.093 -6.080 12.452 1.00 . A A . 1 DG C1' 1 1 1 2 1 1 1 DG C2 C 1.957 -7.442 12.257 1.00 . A A . 1 DG C2 1 1 1 3 1 1 1 DG C2' C 7.082 -5.554 11.424 1.00 . A A . 1 DG C2' 1 1 1 4 1 1 1 DG C3' C 8.437 -5.527 12.132 1.00 . A A . 1 DG C3' 1 1 1 5 1 1 1 DG C4 C 3.557 -5.894 12.347 1.00 . A A . 1 DG C4 1 1 1 6 1 1 1 DG C4' C 8.117 -5.646 13.613 1.00 . A A . 1 DG C4' 1 1 1 7 1 1 1 DG C5 C 2.670 -4.832 12.392 1.00 . A A . 1 DG C5 1 1 1 8 1 1 1 DG C5' C 8.499 -4.363 14.345 1.00 . A A . 1 DG C5' 1 1 1 9 1 1 1 DG C6 C 1.273 -5.087 12.371 1.00 . A A . 1 DG C6 1 1 1 10 1 1 1 DG C8 C 4.587 -4.012 12.445 1.00 . A A . 1 DG C8 1 1 1 11 1 1 1 DG N1 N 1.005 -6.446 12.300 1.00 . A A . 1 DG N1 1 1 1 12 1 1 1 DG N2 N 1.504 -8.688 12.181 1.00 . A A . 1 DG N2 1 1 1 13 1 1 1 DG N3 N 3.270 -7.214 12.280 1.00 . A A . 1 DG N3 1 1 1 14 1 1 1 DG N7 N 3.359 -3.616 12.454 1.00 . A A . 1 DG N7 1 1 1 15 1 1 1 DG N9 N 4.818 -5.345 12.389 1.00 . A A . 1 DG N9 1 1 1 16 1 1 1 DG O3' O 9.255 -6.630 11.716 1.00 . A A . 1 DG O3' 1 1 1 17 1 1 1 DG O4' O 6.703 -5.921 13.752 1.00 . A A . 1 DG O4' 1 1 1 18 1 1 1 DG O5' O 7.748 -3.242 13.873 1.00 . A A . 1 DG O5' 1 1 1 19 1 1 1 DG O6 O 0.350 -4.279 12.418 1.00 . A A . 1 DG O6 1 1 1 20 1 1 2 DG C1' C 5.209 -8.063 8.093 1.00 . A A . 2 DG C1' 1 1 1 21 1 1 2 DG C2 C 1.043 -6.892 8.412 1.00 . A A . 2 DG C2 1 1 1 22 1 1 2 DG C2' C 6.375 -7.895 7.132 1.00 . A A . 2 DG C2' 1 1 1 23 1 1 2 DG C3' C 7.245 -9.097 7.399 1.00 . A A . 2 DG C3' 1 1 1 24 1 1 2 DG C4 C 3.237 -6.527 8.551 1.00 . A A . 2 DG C4 1 1 1 25 1 1 2 DG C4' C 6.981 -9.416 8.856 1.00 . A A . 2 DG C4' 1 1 1 26 1 1 2 DG C5 C 3.097 -5.207 8.949 1.00 . A A . 2 DG C5 1 1 1 27 1 1 2 DG C5' C 8.135 -8.922 9.724 1.00 . A A . 2 DG C5' 1 1 1 28 1 1 2 DG C6 C 1.790 -4.656 9.098 1.00 . A A . 2 DG C6 1 1 1 29 1 1 2 DG C8 C 5.151 -5.599 8.860 1.00 . A A . 2 DG C8 1 1 1 30 1 1 2 DG N1 N 0.808 -5.592 8.802 1.00 . A A . 2 DG N1 1 1 1 31 1 1 2 DG N2 N -0.028 -7.640 8.174 1.00 . A A . 2 DG N2 1 1 1 32 1 1 2 DG N3 N 2.260 -7.416 8.269 1.00 . A A . 2 DG N3 1 1 1 33 1 1 2 DG N7 N 4.353 -4.620 9.145 1.00 . A A . 2 DG N7 1 1 1 34 1 1 2 DG N9 N 4.589 -6.778 8.491 1.00 . A A . 2 DG N9 1 1 1 35 1 1 2 DG O3' O 6.886 -10.227 6.569 1.00 . A A . 2 DG O3' 1 1 1 36 1 1 2 DG O4' O 5.733 -8.776 9.231 1.00 . A A . 2 DG O4' 1 1 1 37 1 1 2 DG O5' O 8.371 -7.520 9.542 1.00 . A A . 2 DG O5' 1 1 1 38 1 1 2 DG O6 O 1.468 -3.515 9.429 1.00 . A A . 2 DG O6 1 1 1 39 1 1 2 DG OP1 O 10.798 -7.781 10.112 1.00 . A A . 2 DG OP1 1 1 1 40 1 1 2 DG OP2 O 9.822 -5.476 9.563 1.00 . A A . 2 DG OP2 1 1 1 41 1 1 2 DG P P 9.676 -6.817 10.173 1.00 . A A . 2 DG P 1 1 1 42 1 1 3 DA C1' C 1.041 -8.351 4.674 1.00 . A A . 3 DA C1' 1 1 1 43 1 1 3 DA C2 C -1.899 -5.204 5.400 1.00 . A A . 3 DA C2 1 1 1 44 1 1 3 DA C2' C 1.853 -8.569 3.416 1.00 . A A . 3 DA C2' 1 1 1 45 1 1 3 DA C3' C 2.607 -9.871 3.597 1.00 . A A . 3 DA C3' 1 1 1 46 1 1 3 DA C4 C 0.136 -6.059 5.330 1.00 . A A . 3 DA C4 1 1 1 47 1 1 3 DA C4' C 2.294 -10.326 5.002 1.00 . A A . 3 DA C4' 1 1 1 48 1 1 3 DA C5 C 0.721 -4.898 5.783 1.00 . A A . 3 DA C5 1 1 1 49 1 1 3 DA C5' C 3.575 -10.681 5.764 1.00 . A A . 3 DA C5' 1 1 1 50 1 1 3 DA C6 C -0.137 -3.829 6.053 1.00 . A A . 3 DA C6 1 1 1 51 1 1 3 DA C8 C 2.260 -6.266 5.483 1.00 . A A . 3 DA C8 1 1 1 52 1 1 3 DA N1 N -1.451 -4.024 5.846 1.00 . A A . 3 DA N1 1 1 1 53 1 1 3 DA N3 N -1.175 -6.280 5.115 1.00 . A A . 3 DA N3 1 1 1 54 1 1 3 DA N6 N 0.288 -2.651 6.512 1.00 . A A . 3 DA N6 1 1 1 55 1 1 3 DA N7 N 2.107 -5.048 5.878 1.00 . A A . 3 DA N7 1 1 1 56 1 1 3 DA N9 N 1.158 -6.958 5.137 1.00 . A A . 3 DA N9 1 1 1 57 1 1 3 DA O3' O 2.190 -10.859 2.638 1.00 . A A . 3 DA O3' 1 1 1 58 1 1 3 DA O4' O 1.541 -9.278 5.660 1.00 . A A . 3 DA O4' 1 1 1 59 1 1 3 DA O5' O 4.591 -9.673 5.631 1.00 . A A . 3 DA O5' 1 1 1 60 1 1 3 DA OP1 O 6.038 -11.394 4.513 1.00 . A A . 3 DA OP1 1 1 1 61 1 1 3 DA OP2 O 6.664 -8.913 4.434 1.00 . A A . 3 DA OP2 1 1 1 62 1 1 3 DA P P 6.090 -10.066 5.165 1.00 . A A . 3 DA P 1 1 1 63 1 1 4 DG C1' C -1.940 -6.839 1.132 1.00 . A A . 4 DG C1' 1 1 1 64 1 1 4 DG C2 C -3.146 -2.779 2.154 1.00 . A A . 4 DG C2 1 1 1 65 1 1 4 DG C2' C -1.608 -7.393 -0.234 1.00 . A A . 4 DG C2' 1 1 1 66 1 1 4 DG C3' C -1.803 -8.878 -0.121 1.00 . A A . 4 DG C3' 1 1 1 67 1 1 4 DG C4 C -1.660 -4.387 1.749 1.00 . A A . 4 DG C4 1 1 1 68 1 1 4 DG C4' C -1.732 -9.162 1.372 1.00 . A A . 4 DG C4' 1 1 1 69 1 1 4 DG C5 C -0.562 -3.578 1.994 1.00 . A A . 4 DG C5 1 1 1 70 1 1 4 DG C5' C -0.539 -10.061 1.696 1.00 . A A . 4 DG C5' 1 1 1 71 1 1 4 DG C6 C -0.764 -2.220 2.364 1.00 . A A . 4 DG C6 1 1 1 72 1 1 4 DG C8 C 0.177 -5.463 1.486 1.00 . A A . 4 DG C8 1 1 1 73 1 1 4 DG N1 N -2.114 -1.904 2.419 1.00 . A A . 4 DG N1 1 1 1 74 1 1 4 DG N2 N -4.376 -2.286 2.237 1.00 . A A . 4 DG N2 1 1 1 75 1 1 4 DG N3 N -2.968 -4.053 1.811 1.00 . A A . 4 DG N3 1 1 1 76 1 1 4 DG N7 N 0.626 -4.298 1.818 1.00 . A A . 4 DG N7 1 1 1 77 1 1 4 DG N9 N -1.161 -5.625 1.422 1.00 . A A . 4 DG N9 1 1 1 78 1 1 4 DG O3' O -3.077 -9.290 -0.651 1.00 . A A . 4 DG O3' 1 1 1 79 1 1 4 DG O4' O -1.641 -7.892 2.063 1.00 . A A . 4 DG O4' 1 1 1 80 1 1 4 DG O5' O 0.672 -9.575 1.100 1.00 . A A . 4 DG O5' 1 1 1 81 1 1 4 DG O6 O 0.078 -1.364 2.625 1.00 . A A . 4 DG O6 1 1 1 82 1 1 4 DG OP1 O 1.694 -11.733 0.338 1.00 . A A . 4 DG OP1 1 1 1 83 1 1 4 DG OP2 O 3.140 -9.642 0.656 1.00 . A A . 4 DG OP2 1 1 1 84 1 1 4 DG P P 2.001 -10.489 1.077 1.00 . A A . 4 DG P 1 1 1 85 1 1 5 DA C1' C -5.016 -3.615 -1.613 1.00 . A A . 5 DA C1' 1 1 1 86 1 1 5 DA C2 C -3.490 0.315 -0.453 1.00 . A A . 5 DA C2 1 1 1 87 1 1 5 DA C2' C -5.237 -4.097 -3.032 1.00 . A A . 5 DA C2' 1 1 1 88 1 1 5 DA C3' C -6.036 -5.384 -2.932 1.00 . A A . 5 DA C3' 1 1 1 89 1 1 5 DA C4 C -3.303 -1.812 -1.030 1.00 . A A . 5 DA C4 1 1 1 90 1 1 5 DA C4' C -6.066 -5.721 -1.453 1.00 . A A . 5 DA C4' 1 1 1 91 1 1 5 DA C5 C -1.933 -1.802 -0.902 1.00 . A A . 5 DA C5 1 1 1 92 1 1 5 DA C5' C -5.531 -7.134 -1.213 1.00 . A A . 5 DA C5' 1 1 1 93 1 1 5 DA C6 C -1.349 -0.595 -0.507 1.00 . A A . 5 DA C6 1 1 1 94 1 1 5 DA C8 C -2.458 -3.726 -1.496 1.00 . A A . 5 DA C8 1 1 1 95 1 1 5 DA N1 N -2.168 0.449 -0.290 1.00 . A A . 5 DA N1 1 1 1 96 1 1 5 DA N3 N -4.146 -0.782 -0.820 1.00 . A A . 5 DA N3 1 1 1 97 1 1 5 DA N6 N -0.035 -0.446 -0.336 1.00 . A A . 5 DA N6 1 1 1 98 1 1 5 DA N7 N -1.396 -3.054 -1.207 1.00 . A A . 5 DA N7 1 1 1 99 1 1 5 DA N9 N -3.648 -3.089 -1.418 1.00 . A A . 5 DA N9 1 1 1 100 1 1 5 DA O3' O -7.363 -5.185 -3.444 1.00 . A A . 5 DA O3' 1 1 1 101 1 1 5 DA O4' O -5.276 -4.735 -0.747 1.00 . A A . 5 DA O4' 1 1 1 102 1 1 5 DA O5' O -4.196 -7.295 -1.718 1.00 . A A . 5 DA O5' 1 1 1 103 1 1 5 DA OP1 O -4.748 -9.616 -2.495 1.00 . A A . 5 DA OP1 1 1 1 104 1 1 5 DA OP2 O -2.454 -8.584 -2.981 1.00 . A A . 5 DA OP2 1 1 1 105 1 1 5 DA P P -3.615 -8.759 -2.079 1.00 . A A . 5 DA P 1 1 1 106 1 1 6 DU C1' C -5.126 0.300 -4.081 1.00 . A A . 6 U C1' 1 1 1 107 1 1 6 DU C2 C -2.838 0.988 -3.562 1.00 . A A . 6 U C2 1 1 1 108 1 1 6 DU C2' C -5.605 0.339 -5.507 1.00 . A A . 6 U C2' 1 1 1 109 1 1 6 DU C3' C -7.001 -0.249 -5.481 1.00 . A A . 6 U C3' 1 1 1 110 1 1 6 DU C4 C -0.957 -0.589 -3.732 1.00 . A A . 6 U C4 1 1 1 111 1 1 6 DU C4' C -7.209 -0.736 -4.051 1.00 . A A . 6 U C4' 1 1 1 112 1 1 6 DU C5 C -1.916 -1.577 -4.175 1.00 . A A . 6 U C5 1 1 1 113 1 1 6 DU C5' C -7.810 -2.146 -4.005 1.00 . A A . 6 U C5' 1 1 1 114 1 1 6 DU C6 C -3.231 -1.255 -4.297 1.00 . A A . 6 U C6 1 1 1 115 1 1 6 DU N1 N -3.688 -0.013 -3.994 1.00 . A A . 6 U N1 1 1 1 116 1 1 6 DU N3 N -1.508 0.647 -3.455 1.00 . A A . 6 U N3 1 1 1 117 1 1 6 DU O2 O -3.234 2.119 -3.289 1.00 . A A . 6 U O2 1 1 1 118 1 1 6 DU O3' O -8.011 0.712 -5.838 1.00 . A A . 6 U O3' 1 1 1 119 1 1 6 DU O4 O 0.249 -0.776 -3.598 1.00 . A A . 6 U O4 1 1 1 120 1 1 6 DU O4' O -5.930 -0.672 -3.393 1.00 . A A . 6 U O4' 1 1 1 121 1 1 6 DU O5' O -7.099 -3.082 -4.826 1.00 . A A . 6 U O5' 1 1 1 122 1 1 6 DU OP1 O -9.056 -4.611 -5.206 1.00 . A A . 6 U OP1 1 1 1 123 1 1 6 DU OP2 O -6.687 -5.334 -5.859 1.00 . A A . 6 U OP2 1 1 1 124 1 1 6 DU P P -7.600 -4.617 -4.940 1.00 . A A . 6 U P 1 1 1 125 1 1 7 DG C1' C -4.252 4.836 -5.722 1.00 . A A . 7 G C1' 1 1 1 126 1 1 7 DG C2 C -0.006 5.482 -5.207 1.00 . A A . 7 G C2 1 1 1 127 1 1 7 DG C2' C -4.510 5.466 -7.056 1.00 . A A . 7 G C2' 1 1 1 128 1 1 7 DG C3' C -5.962 5.225 -7.376 1.00 . A A . 7 G C3' 1 1 1 129 1 1 7 DG C4 C -1.793 4.233 -5.634 1.00 . A A . 7 G C4 1 1 1 130 1 1 7 DG C4' C -6.566 4.727 -6.075 1.00 . A A . 7 G C4' 1 1 1 131 1 1 7 DG C5 C -1.069 3.067 -5.821 1.00 . A A . 7 G C5 1 1 1 132 1 1 7 DG C5' C -7.676 3.695 -6.318 1.00 . A A . 7 G C5' 1 1 1 133 1 1 7 DG C6 C 0.348 3.097 -5.686 1.00 . A A . 7 G C6 1 1 1 134 1 1 7 DG C8 C -3.083 2.590 -6.108 1.00 . A A . 7 G C8 1 1 1 135 1 1 7 DG N1 N 0.796 4.372 -5.372 1.00 . A A . 7 G N1 1 1 1 136 1 1 7 DG N2 N 0.608 6.620 -4.912 1.00 . A A . 7 G N2 1 1 1 137 1 1 7 DG N3 N -1.328 5.462 -5.329 1.00 . A A . 7 G N3 1 1 1 138 1 1 7 DG N7 N -1.928 2.005 -6.130 1.00 . A A . 7 G N7 1 1 1 139 1 1 7 DG N9 N -3.112 3.908 -5.821 1.00 . A A . 7 G N9 1 1 1 140 1 1 7 DG O3' O -6.598 6.427 -7.839 1.00 . A A . 7 G O3' 1 1 1 141 1 1 7 DG O4' O -5.474 4.188 -5.299 1.00 . A A . 7 G O4' 1 1 1 142 1 1 7 DG O5' O -7.288 2.664 -7.239 1.00 . A A . 7 G O5' 1 1 1 143 1 1 7 DG O6 O 1.156 2.172 -5.794 1.00 . A A . 7 G O6 1 1 1 144 1 1 7 DG OP1 O -9.556 1.640 -7.585 1.00 . A A . 7 G OP1 1 1 1 145 1 1 7 DG OP2 O -7.429 0.377 -8.257 1.00 . A A . 7 G OP2 1 1 1 146 1 1 7 DG P P -8.139 1.294 -7.337 1.00 . A A . 7 G P 1 1 1 147 1 1 8 DA C1' C -1.820 9.254 -8.250 1.00 . A A . 8 A C1' 1 1 1 148 1 1 8 DA C2 C 1.893 6.949 -8.373 1.00 . A A . 8 A C2 1 1 1 149 1 1 8 DA C2' C -1.777 10.049 -9.516 1.00 . A A . 8 A C2' 1 1 1 150 1 1 8 DA C3' C -3.211 10.179 -9.945 1.00 . A A . 8 A C3' 1 1 1 151 1 1 8 DA C4 C -0.298 7.222 -8.526 1.00 . A A . 8 A C4 1 1 1 152 1 1 8 DA C4' C -3.998 10.091 -8.645 1.00 . A A . 8 A C4' 1 1 1 153 1 1 8 DA C5 C -0.522 5.888 -8.773 1.00 . A A . 8 A C5 1 1 1 154 1 1 8 DA C5' C -5.318 9.337 -8.831 1.00 . A A . 8 A C5' 1 1 1 155 1 1 8 DA C6 C 0.603 5.059 -8.804 1.00 . A A . 8 A C6 1 1 1 156 1 1 8 DA C8 C -2.386 6.816 -8.799 1.00 . A A . 8 A C8 1 1 1 157 1 1 8 DA N1 N 1.804 5.633 -8.599 1.00 . A A . 8 A N1 1 1 1 158 1 1 8 DA N3 N 0.891 7.822 -8.316 1.00 . A A . 8 A N3 1 1 1 159 1 1 8 DA N6 N 0.527 3.742 -8.999 1.00 . A A . 8 A N6 1 1 1 160 1 1 8 DA N7 N -1.885 5.637 -8.949 1.00 . A A . 8 A N7 1 1 1 161 1 1 8 DA N9 N -1.533 7.833 -8.535 1.00 . A A . 8 A N9 1 1 1 162 1 1 8 DA O3' O -3.444 11.411 -10.643 1.00 . A A . 8 A O3' 1 1 1 163 1 1 8 DA O4' O -3.144 9.425 -7.683 1.00 . A A . 8 A O4' 1 1 1 164 1 1 8 DA O5' O -5.112 7.968 -9.203 1.00 . A A . 8 A O5' 1 1 1 165 1 1 8 DA OP1 O -7.549 7.733 -9.759 1.00 . A A . 8 A OP1 1 1 1 166 1 1 8 DA OP2 O -5.920 5.803 -10.174 1.00 . A A . 8 A OP2 1 1 1 167 1 1 8 DA P P -6.360 6.951 -9.350 1.00 . A A . 8 A P 1 1 1 168 1 1 9 DC C1' C 1.770 9.485 -11.857 1.00 . A A . 9 C C1' 1 1 1 169 1 1 9 DC C2 C 1.721 7.054 -12.131 1.00 . A A . 9 C C2 1 1 1 170 1 1 9 DC C2' C 2.173 10.179 -13.138 1.00 . A A . 9 C C2' 1 1 1 171 1 1 9 DC C3' C 1.237 11.350 -13.256 1.00 . A A . 9 C C3' 1 1 1 172 1 1 9 DC C4 C -0.288 5.910 -12.525 1.00 . A A . 9 C C4 1 1 1 173 1 1 9 DC C4' C 0.809 11.642 -11.830 1.00 . A A . 9 C C4' 1 1 1 174 1 1 9 DC C5 C -1.018 7.142 -12.550 1.00 . A A . 9 C C5 1 1 1 175 1 1 9 DC C5' C -0.627 12.164 -11.774 1.00 . A A . 9 C C5' 1 1 1 176 1 1 9 DC C6 C -0.323 8.282 -12.369 1.00 . A A . 9 C C6 1 1 1 177 1 1 9 DC N1 N 1.020 8.248 -12.150 1.00 . A A . 9 C N1 1 1 1 178 1 1 9 DC N3 N 1.034 5.898 -12.323 1.00 . A A . 9 C N3 1 1 1 179 1 1 9 DC N4 N -0.924 4.753 -12.705 1.00 . A A . 9 C N4 1 1 1 180 1 1 9 DC O2 O 2.938 7.053 -11.961 1.00 . A A . 9 C O2 1 1 1 181 1 1 9 DC O3' O 1.881 12.482 -13.858 1.00 . A A . 9 C O3' 1 1 1 182 1 1 9 DC O4' O 0.963 10.413 -11.089 1.00 . A A . 9 C O4' 1 1 1 183 1 1 9 DC O5' O -1.564 11.229 -12.319 1.00 . A A . 9 C O5' 1 1 1 184 1 1 9 DC OP1 O -3.396 12.909 -12.657 1.00 . A A . 9 C OP1 1 1 1 185 1 1 9 DC OP2 O -3.855 10.400 -12.903 1.00 . A A . 9 C OP2 1 1 1 186 1 1 9 DC P P -3.150 11.514 -12.228 1.00 . A A . 9 C P 1 1 1 187 2 2 1 DG C1' C 7.318 0.908 -12.509 1.00 . B B . 10 DG C1' 1 1 1 188 2 2 1 DG C2 C 4.910 4.530 -12.186 1.00 . B B . 10 DG C2 1 1 1 189 2 2 1 DG C2' C 7.818 0.552 -11.119 1.00 . B B . 10 DG C2' 1 1 1 190 2 2 1 DG C3' C 8.796 -0.599 -11.298 1.00 . B B . 10 DG C3' 1 1 1 191 2 2 1 DG C4 C 5.210 2.335 -12.416 1.00 . B B . 10 DG C4 1 1 1 192 2 2 1 DG C4' C 8.765 -0.927 -12.783 1.00 . B B . 10 DG C4' 1 1 1 193 2 2 1 DG C5 C 3.857 2.059 -12.538 1.00 . B B . 10 DG C5 1 1 1 194 2 2 1 DG C5' C 8.596 -2.427 -13.003 1.00 . B B . 10 DG C5' 1 1 1 195 2 2 1 DG C6 C 2.918 3.127 -12.482 1.00 . B B . 10 DG C6 1 1 1 196 2 2 1 DG C8 C 4.859 0.234 -12.677 1.00 . B B . 10 DG C8 1 1 1 197 2 2 1 DG N1 N 3.550 4.346 -12.301 1.00 . B B . 10 DG N1 1 1 1 198 2 2 1 DG N2 N 5.321 5.780 -12.010 1.00 . B B . 10 DG N2 1 1 1 199 2 2 1 DG N3 N 5.800 3.538 -12.239 1.00 . B B . 10 DG N3 1 1 1 200 2 2 1 DG N7 N 3.649 0.685 -12.706 1.00 . B B . 10 DG N7 1 1 1 201 2 2 1 DG N9 N 5.860 1.126 -12.513 1.00 . B B . 10 DG N9 1 1 1 202 2 2 1 DG O3' O 10.121 -0.221 -10.898 1.00 . B B . 10 DG O3' 1 1 1 203 2 2 1 DG O4' O 7.682 -0.180 -13.378 1.00 . B B . 10 DG O4' 1 1 1 204 2 2 1 DG O5' O 7.455 -2.937 -12.308 1.00 . B B . 10 DG O5' 1 1 1 205 2 2 1 DG O6 O 1.693 3.079 -12.583 1.00 . B B . 10 DG O6 1 1 1 206 2 2 2 DT C1' C 7.400 4.512 -8.499 1.00 . B B . 11 DT C1' 1 1 1 207 2 2 2 DT C2 C 4.956 4.522 -8.550 1.00 . B B . 11 DT C2 1 1 1 208 2 2 2 DT C2' C 8.207 4.077 -7.301 1.00 . B B . 11 DT C2' 1 1 1 209 2 2 2 DT C3' C 9.639 4.034 -7.749 1.00 . B B . 11 DT C3' 1 1 1 210 2 2 2 DT C4 C 3.683 2.431 -8.796 1.00 . B B . 11 DT C4 1 1 1 211 2 2 2 DT C4' C 9.589 4.107 -9.265 1.00 . B B . 11 DT C4' 1 1 1 212 2 2 2 DT C5 C 4.953 1.741 -8.788 1.00 . B B . 11 DT C5 1 1 1 213 2 2 2 DT C5' C 10.209 2.855 -9.876 1.00 . B B . 11 DT C5' 1 1 1 214 2 2 2 DT C6 C 6.109 2.422 -8.668 1.00 . B B . 11 DT C6 1 1 1 215 2 2 2 DT C7 C 4.986 0.222 -8.937 1.00 . B B . 11 DT C7 1 1 1 216 2 2 2 DT N1 N 6.123 3.783 -8.560 1.00 . B B . 11 DT N1 1 1 1 217 2 2 2 DT N3 N 3.788 3.802 -8.670 1.00 . B B . 11 DT N3 1 1 1 218 2 2 2 DT O2 O 4.949 5.743 -8.423 1.00 . B B . 11 DT O2 1 1 1 219 2 2 2 DT O3' O 10.381 5.135 -7.202 1.00 . B B . 11 DT O3' 1 1 1 220 2 2 2 DT O4 O 2.584 1.898 -8.915 1.00 . B B . 11 DT O4 1 1 1 221 2 2 2 DT O4' O 8.207 4.249 -9.661 1.00 . B B . 11 DT O4' 1 1 1 222 2 2 2 DT O5' O 9.649 1.665 -9.307 1.00 . B B . 11 DT O5' 1 1 1 223 2 2 2 DT OP1 O 11.883 0.531 -9.286 1.00 . B B . 11 DT OP1 1 1 1 224 2 2 2 DT OP2 O 9.789 -0.689 -8.457 1.00 . B B . 11 DT OP2 1 1 1 225 2 2 2 DT P P 10.432 0.261 -9.392 1.00 . B B . 11 DT P 1 1 1 226 2 2 3 DC C1' C 5.555 6.824 -4.543 1.00 . B B . 12 DC C1' 1 1 1 227 2 2 3 DC C2 C 3.919 5.056 -4.914 1.00 . B B . 12 DC C2 1 1 1 228 2 2 3 DC C2' C 6.262 7.106 -3.234 1.00 . B B . 12 DC C2' 1 1 1 229 2 2 3 DC C3' C 7.455 7.978 -3.560 1.00 . B B . 12 DC C3' 1 1 1 230 2 2 3 DC C4 C 4.572 2.820 -5.147 1.00 . B B . 12 DC C4 1 1 1 231 2 2 3 DC C4' C 7.510 8.032 -5.071 1.00 . B B . 12 DC C4' 1 1 1 232 2 2 3 DC C5 C 5.939 3.170 -4.888 1.00 . B B . 12 DC C5 1 1 1 233 2 2 3 DC C5' C 8.857 7.519 -5.588 1.00 . B B . 12 DC C5' 1 1 1 234 2 2 3 DC C6 C 6.214 4.461 -4.647 1.00 . B B . 12 DC C6 1 1 1 235 2 2 3 DC N1 N 5.233 5.395 -4.673 1.00 . B B . 12 DC N1 1 1 1 236 2 2 3 DC N3 N 3.617 3.753 -5.149 1.00 . B B . 12 DC N3 1 1 1 237 2 2 3 DC N4 N 4.236 1.554 -5.394 1.00 . B B . 12 DC N4 1 1 1 238 2 2 3 DC O2 O 3.051 5.917 -4.894 1.00 . B B . 12 DC O2 1 1 1 239 2 2 3 DC O3' O 7.286 9.297 -3.014 1.00 . B B . 12 DC O3' 1 1 1 240 2 2 3 DC O4' O 6.429 7.241 -5.602 1.00 . B B . 12 DC O4' 1 1 1 241 2 2 3 DC O5' O 9.038 6.123 -5.303 1.00 . B B . 12 DC O5' 1 1 1 242 2 2 3 DC OP1 O 11.537 6.348 -5.337 1.00 . B B . 12 DC OP1 1 1 1 243 2 2 3 DC OP2 O 10.431 4.074 -4.927 1.00 . B B . 12 DC OP2 1 1 1 244 2 2 3 DC P P 10.444 5.389 -5.608 1.00 . B B . 12 DC P 1 1 1 245 2 2 4 DA C1' C 1.890 7.375 -1.267 1.00 . B B . 13 DA C1' 1 1 1 246 2 2 4 DA C2 C -0.782 4.141 -2.504 1.00 . B B . 13 DA C2 1 1 1 247 2 2 4 DA C2' C 2.505 7.731 0.069 1.00 . B B . 13 DA C2' 1 1 1 248 2 2 4 DA C3' C 2.823 9.206 -0.035 1.00 . B B . 13 DA C3' 1 1 1 249 2 2 4 DA C4 C 1.175 5.033 -1.980 1.00 . B B . 13 DA C4 1 1 1 250 2 2 4 DA C4' C 2.882 9.474 -1.530 1.00 . B B . 13 DA C4' 1 1 1 251 2 2 4 DA C5 C 1.851 3.852 -2.174 1.00 . B B . 13 DA C5 1 1 1 252 2 2 4 DA C5' C 4.276 9.941 -1.946 1.00 . B B . 13 DA C5' 1 1 1 253 2 2 4 DA C6 C 1.087 2.752 -2.568 1.00 . B B . 13 DA C6 1 1 1 254 2 2 4 DA C8 C 3.276 5.258 -1.601 1.00 . B B . 13 DA C8 1 1 1 255 2 2 4 DA N1 N -0.239 2.937 -2.723 1.00 . B B . 13 DA N1 1 1 1 256 2 2 4 DA N3 N -0.149 5.249 -2.127 1.00 . B B . 13 DA N3 1 1 1 257 2 2 4 DA N6 N 1.617 1.553 -2.797 1.00 . B B . 13 DA N6 1 1 1 258 2 2 4 DA N7 N 3.217 4.012 -1.925 1.00 . B B . 13 DA N7 1 1 1 259 2 2 4 DA N9 N 2.121 5.961 -1.602 1.00 . B B . 13 DA N9 1 1 1 260 2 2 4 DA O3' O 1.796 10.014 0.578 1.00 . B B . 13 DA O3' 1 1 1 261 2 2 4 DA O4' O 2.500 8.257 -2.218 1.00 . B B . 13 DA O4' 1 1 1 262 2 2 4 DA O5' O 5.302 9.055 -1.475 1.00 . B B . 13 DA O5' 1 1 1 263 2 2 4 DA OP1 O 6.906 10.963 -1.177 1.00 . B B . 13 DA OP1 1 1 1 264 2 2 4 DA OP2 O 7.615 8.562 -0.636 1.00 . B B . 13 DA OP2 1 1 1 265 2 2 4 DA P P 6.851 9.514 -1.474 1.00 . B B . 13 DA P 1 1 1 266 2 2 5 DT C1' C -2.588 5.898 1.012 1.00 . B B . 14 DT C1' 1 1 1 267 2 2 5 DT C2 C -1.909 3.586 0.576 1.00 . B B . 14 DT C2 1 1 1 268 2 2 5 DT C2' C -2.836 6.389 2.417 1.00 . B B . 14 DT C2' 1 1 1 269 2 2 5 DT C3' C -2.828 7.881 2.373 1.00 . B B . 14 DT C3' 1 1 1 270 2 2 5 DT C4 C 0.454 2.927 0.795 1.00 . B B . 14 DT C4 1 1 1 271 2 2 5 DT C4' C -2.443 8.239 0.955 1.00 . B B . 14 DT C4' 1 1 1 272 2 2 5 DT C5 C 0.710 4.280 1.244 1.00 . B B . 14 DT C5 1 1 1 273 2 2 5 DT C5' C -1.250 9.209 0.919 1.00 . B B . 14 DT C5' 1 1 1 274 2 2 5 DT C6 C -0.292 5.170 1.338 1.00 . B B . 14 DT C6 1 1 1 275 2 2 5 DT C7 C 2.133 4.719 1.590 1.00 . B B . 14 DT C7 1 1 1 276 2 2 5 DT N1 N -1.564 4.850 1.004 1.00 . B B . 14 DT N1 1 1 1 277 2 2 5 DT N3 N -0.873 2.680 0.492 1.00 . B B . 14 DT N3 1 1 1 278 2 2 5 DT O2 O -3.066 3.270 0.317 1.00 . B B . 14 DT O2 1 1 1 279 2 2 5 DT O3' O -4.124 8.405 2.702 1.00 . B B . 14 DT O3' 1 1 1 280 2 2 5 DT O4 O 1.298 2.045 0.663 1.00 . B B . 14 DT O4 1 1 1 281 2 2 5 DT O4' O -2.143 7.026 0.245 1.00 . B B . 14 DT O4' 1 1 1 282 2 2 5 DT O5' O -0.101 8.683 1.609 1.00 . B B . 14 DT O5' 1 1 1 283 2 2 5 DT OP1 O 0.600 10.880 2.609 1.00 . B B . 14 DT OP1 1 1 1 284 2 2 5 DT OP2 O 2.122 8.827 2.772 1.00 . B B . 14 DT OP2 1 1 1 285 2 2 5 DT P P 1.143 9.639 2.013 1.00 . B B . 14 DT P 1 1 1 286 2 2 6 DC C1' C -5.142 2.732 3.511 1.00 . B B . 15 DC C1' 1 1 1 287 2 2 6 DC C2 C -3.303 1.135 3.223 1.00 . B B . 15 DC C2 1 1 1 288 2 2 6 DC C2' C -5.756 2.769 4.898 1.00 . B B . 15 DC C2' 1 1 1 289 2 2 6 DC C3' C -6.553 4.078 4.971 1.00 . B B . 15 DC C3' 1 1 1 290 2 2 6 DC C4 C -1.072 1.795 3.549 1.00 . B B . 15 DC C4 1 1 1 291 2 2 6 DC C4' C -6.503 4.610 3.560 1.00 . B B . 15 DC C4' 1 1 1 292 2 2 6 DC C5 C -1.490 3.116 3.914 1.00 . B B . 15 DC C5 1 1 1 293 2 2 6 DC C5' C -6.410 6.135 3.552 1.00 . B B . 15 DC C5' 1 1 1 294 2 2 6 DC C6 C -2.800 3.375 3.915 1.00 . B B . 15 DC C6 1 1 1 295 2 2 6 DC N1 N -3.703 2.416 3.571 1.00 . B B . 15 DC N1 1 1 1 296 2 2 6 DC N3 N -1.970 0.856 3.223 1.00 . B B . 15 DC N3 1 1 1 297 2 2 6 DC N4 N 0.226 1.494 3.508 1.00 . B B . 15 DC N4 1 1 1 298 2 2 6 DC O2 O -4.136 0.280 2.931 1.00 . B B . 15 DC O2 1 1 1 299 2 2 6 DC O3' O -7.912 3.836 5.364 1.00 . B B . 15 DC O3' 1 1 1 300 2 2 6 DC O4' O -5.366 4.018 2.920 1.00 . B B . 15 DC O4' 1 1 1 301 2 2 6 DC O5' O -5.164 6.581 4.107 1.00 . B B . 15 DC O5' 1 1 1 302 2 2 6 DC OP1 O -6.026 8.936 4.249 1.00 . B B . 15 DC OP1 1 1 1 303 2 2 6 DC OP2 O -3.716 8.325 5.174 1.00 . B B . 15 DC OP2 1 1 1 304 2 2 6 DC P P -4.776 8.147 4.155 1.00 . B B . 15 DC P 1 1 1 305 2 2 7 DT C1' C -6.419 -1.781 5.885 1.00 . B B . 16 DT C1' 1 1 1 306 2 2 7 DT C2 C -4.042 -2.251 6.096 1.00 . B B . 16 DT C2 1 1 1 307 2 2 7 DT C2' C -7.311 -1.964 7.094 1.00 . B B . 16 DT C2' 1 1 1 308 2 2 7 DT C3' C -8.624 -1.290 6.759 1.00 . B B . 16 DT C3' 1 1 1 309 2 2 7 DT C4 C -2.484 -0.555 6.961 1.00 . B B . 16 DT C4 1 1 1 310 2 2 7 DT C4' C -8.401 -0.611 5.415 1.00 . B B . 16 DT C4' 1 1 1 311 2 2 7 DT C5 C -3.636 0.300 7.148 1.00 . B B . 16 DT C5 1 1 1 312 2 2 7 DT C5' C -8.765 0.869 5.475 1.00 . B B . 16 DT C5' 1 1 1 313 2 2 7 DT C6 C -4.866 -0.127 6.818 1.00 . B B . 16 DT C6 1 1 1 314 2 2 7 DT C7 C -3.462 1.702 7.734 1.00 . B B . 16 DT C7 1 1 1 315 2 2 7 DT N1 N -5.075 -1.367 6.297 1.00 . B B . 16 DT N1 1 1 1 316 2 2 7 DT N3 N -2.790 -1.799 6.439 1.00 . B B . 16 DT N3 1 1 1 317 2 2 7 DT O2 O -4.225 -3.386 5.666 1.00 . B B . 16 DT O2 1 1 1 318 2 2 7 DT O3' O -9.679 -2.253 6.651 1.00 . B B . 16 DT O3' 1 1 1 319 2 2 7 DT O4 O -1.321 -0.253 7.212 1.00 . B B . 16 DT O4 1 1 1 320 2 2 7 DT O4' O -7.021 -0.781 5.050 1.00 . B B . 16 DT O4' 1 1 1 321 2 2 7 DT O5' O -7.977 1.568 6.446 1.00 . B B . 16 DT O5' 1 1 1 322 2 2 7 DT OP1 O -9.711 3.282 7.016 1.00 . B B . 16 DT OP1 1 1 1 323 2 2 7 DT OP2 O -7.283 3.572 7.780 1.00 . B B . 16 DT OP2 1 1 1 324 2 2 7 DT P P -8.262 3.120 6.765 1.00 . B B . 16 DT P 1 1 1 325 2 2 8 DC C1' C -5.227 -6.166 8.409 1.00 . B B . 17 DC C1' 1 1 1 326 2 2 8 DC C2 C -2.885 -5.478 8.702 1.00 . B B . 17 DC C2 1 1 1 327 2 2 8 DC C2' C -6.079 -6.563 9.595 1.00 . B B . 17 DC C2' 1 1 1 328 2 2 8 DC C3' C -7.513 -6.536 9.119 1.00 . B B . 17 DC C3' 1 1 1 329 2 2 8 DC C4 C -2.359 -3.282 9.349 1.00 . B B . 17 DC C4 1 1 1 330 2 2 8 DC C4' C -7.407 -6.265 7.639 1.00 . B B . 17 DC C4' 1 1 1 331 2 2 8 DC C5 C -3.755 -2.946 9.430 1.00 . B B . 17 DC C5 1 1 1 332 2 2 8 DC C5' C -8.553 -5.372 7.146 1.00 . B B . 17 DC C5' 1 1 1 333 2 2 8 DC C6 C -4.638 -3.912 9.147 1.00 . B B . 17 DC C6 1 1 1 334 2 2 8 DC N1 N -4.230 -5.149 8.783 1.00 . B B . 17 DC N1 1 1 1 335 2 2 8 DC N3 N -1.970 -4.514 8.995 1.00 . B B . 17 DC N3 1 1 1 336 2 2 8 DC N4 N -1.427 -2.372 9.633 1.00 . B B . 17 DC N4 1 1 1 337 2 2 8 DC O2 O -2.540 -6.614 8.383 1.00 . B B . 17 DC O2 1 1 1 338 2 2 8 DC O3' O -8.170 -7.787 9.370 1.00 . B B . 17 DC O3' 1 1 1 339 2 2 8 DC O4' O -6.124 -5.666 7.409 1.00 . B B . 17 DC O4' 1 1 1 340 2 2 8 DC O5' O -8.678 -4.179 7.933 1.00 . B B . 17 DC O5' 1 1 1 341 2 2 8 DC OP1 O -11.143 -4.123 7.440 1.00 . B B . 17 DC OP1 1 1 1 342 2 2 8 DC OP2 O -10.103 -2.478 9.108 1.00 . B B . 17 DC OP2 1 1 1 343 2 2 8 DC P P -10.011 -3.265 7.858 1.00 . B B . 17 DC P 1 1 1 344 2 2 9 DC C1' C -3.720 -9.874 12.110 1.00 . B B . 18 DC C1' 1 1 1 345 2 2 9 DC C2 C -2.038 -8.096 12.243 1.00 . B B . 18 DC C2 1 1 1 346 2 2 9 DC C2' C -4.371 -10.389 13.380 1.00 . B B . 18 DC C2' 1 1 1 347 2 2 9 DC C3' C -5.730 -10.921 12.979 1.00 . B B . 18 DC C3' 1 1 1 348 2 2 9 DC C4 C -2.670 -5.846 12.472 1.00 . B B . 18 DC C4 1 1 1 349 2 2 9 DC C4' C -5.733 -10.906 11.475 1.00 . B B . 18 DC C4' 1 1 1 350 2 2 9 DC C5 C -4.053 -6.201 12.474 1.00 . B B . 18 DC C5 1 1 1 351 2 2 9 DC C5' C -7.065 -10.386 10.944 1.00 . B B . 18 DC C5' 1 1 1 352 2 2 9 DC C6 C -4.361 -7.508 12.357 1.00 . B B . 18 DC C6 1 1 1 353 2 2 9 DC N1 N -3.379 -8.446 12.242 1.00 . B B . 18 DC N1 1 1 1 354 2 2 9 DC N3 N -1.717 -6.779 12.359 1.00 . B B . 18 DC N3 1 1 1 355 2 2 9 DC N4 N -2.318 -4.568 12.583 1.00 . B B . 18 DC N4 1 1 1 356 2 2 9 DC O2 O -1.170 -8.961 12.151 1.00 . B B . 18 DC O2 1 1 1 357 2 2 9 DC O3' O -5.929 -12.244 13.473 1.00 . B B . 18 DC O3' 1 1 1 358 2 2 9 DC O4' O -4.646 -10.078 11.030 1.00 . B B . 18 DC O4' 1 1 1 359 2 2 9 DC O5' O -7.300 -9.038 11.374 1.00 . B B . 18 DC O5' 1 1 1 360 2 2 9 DC OP1 O -9.729 -9.158 10.773 1.00 . B B . 18 DC OP1 1 1 1 361 2 2 9 DC OP2 O -8.711 -6.994 11.689 1.00 . B B . 18 DC OP2 1 1 1 362 2 2 9 DC P P -8.590 -8.219 10.866 1.00 . B B . 18 DC P 1 1 stop_ save_
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