data_1A3J
# 
_entry.id   1A3J 
# 
_audit_conform.dict_name       mmcif_pdbx.dic 
_audit_conform.dict_version    5.398 
_audit_conform.dict_location   http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 
# 
loop_
_database_2.database_id 
_database_2.database_code 
_database_2.pdbx_database_accession 
_database_2.pdbx_DOI 
PDB   1A3J         pdb_00001a3j 10.2210/pdb1a3j/pdb 
WWPDB D_1000170347 ?            ?                   
# 
loop_
_pdbx_audit_revision_history.ordinal 
_pdbx_audit_revision_history.data_content_type 
_pdbx_audit_revision_history.major_revision 
_pdbx_audit_revision_history.minor_revision 
_pdbx_audit_revision_history.revision_date 
1 'Structure model' 1 0 1998-05-06 
2 'Structure model' 1 1 2008-03-24 
3 'Structure model' 1 2 2011-07-13 
4 'Structure model' 1 3 2024-06-05 
5 'Structure model' 1 4 2024-11-06 
# 
_pdbx_audit_revision_details.ordinal             1 
_pdbx_audit_revision_details.revision_ordinal    1 
_pdbx_audit_revision_details.data_content_type   'Structure model' 
_pdbx_audit_revision_details.provider            repository 
_pdbx_audit_revision_details.type                'Initial release' 
_pdbx_audit_revision_details.description         ? 
_pdbx_audit_revision_details.details             ? 
# 
loop_
_pdbx_audit_revision_group.ordinal 
_pdbx_audit_revision_group.revision_ordinal 
_pdbx_audit_revision_group.data_content_type 
_pdbx_audit_revision_group.group 
1 2 'Structure model' 'Version format compliance' 
2 3 'Structure model' 'Version format compliance' 
3 4 'Structure model' 'Data collection'           
4 4 'Structure model' 'Database references'       
5 4 'Structure model' 'Derived calculations'      
6 4 'Structure model' Other                       
7 5 'Structure model' 'Structure summary'         
# 
loop_
_pdbx_audit_revision_category.ordinal 
_pdbx_audit_revision_category.revision_ordinal 
_pdbx_audit_revision_category.data_content_type 
_pdbx_audit_revision_category.category 
1 4 'Structure model' chem_comp_atom            
2 4 'Structure model' chem_comp_bond            
3 4 'Structure model' database_2                
4 4 'Structure model' pdbx_database_status      
5 4 'Structure model' struct_conn               
6 5 'Structure model' pdbx_entry_details        
7 5 'Structure model' pdbx_modification_feature 
# 
loop_
_pdbx_audit_revision_item.ordinal 
_pdbx_audit_revision_item.revision_ordinal 
_pdbx_audit_revision_item.data_content_type 
_pdbx_audit_revision_item.item 
1  4 'Structure model' '_database_2.pdbx_DOI'                         
2  4 'Structure model' '_database_2.pdbx_database_accession'          
3  4 'Structure model' '_pdbx_database_status.process_site'           
4  4 'Structure model' '_struct_conn.pdbx_dist_value'                 
5  4 'Structure model' '_struct_conn.pdbx_leaving_atom_flag'          
6  4 'Structure model' '_struct_conn.ptnr1_auth_asym_id'              
7  4 'Structure model' '_struct_conn.ptnr1_auth_comp_id'              
8  4 'Structure model' '_struct_conn.ptnr1_auth_seq_id'               
9  4 'Structure model' '_struct_conn.ptnr1_label_asym_id'             
10 4 'Structure model' '_struct_conn.ptnr1_label_atom_id'             
11 4 'Structure model' '_struct_conn.ptnr1_label_comp_id'             
12 4 'Structure model' '_struct_conn.ptnr1_label_seq_id'              
13 4 'Structure model' '_struct_conn.ptnr1_symmetry'                  
14 4 'Structure model' '_struct_conn.ptnr2_auth_asym_id'              
15 4 'Structure model' '_struct_conn.ptnr2_auth_comp_id'              
16 4 'Structure model' '_struct_conn.ptnr2_auth_seq_id'               
17 4 'Structure model' '_struct_conn.ptnr2_label_asym_id'             
18 4 'Structure model' '_struct_conn.ptnr2_label_atom_id'             
19 4 'Structure model' '_struct_conn.ptnr2_label_comp_id'             
20 4 'Structure model' '_struct_conn.ptnr2_label_seq_id'              
21 4 'Structure model' '_struct_conn.ptnr2_symmetry'                  
22 5 'Structure model' '_pdbx_entry_details.has_protein_modification' 
# 
_pdbx_database_status.status_code                     REL 
_pdbx_database_status.entry_id                        1A3J 
_pdbx_database_status.recvd_initial_deposition_date   1998-01-22 
_pdbx_database_status.deposit_site                    ? 
_pdbx_database_status.process_site                    BNL 
_pdbx_database_status.status_code_sf                  REL 
_pdbx_database_status.status_code_mr                  ? 
_pdbx_database_status.SG_entry                        ? 
_pdbx_database_status.pdb_format_compatible           Y 
_pdbx_database_status.status_code_cs                  ? 
_pdbx_database_status.status_code_nmr_data            ? 
_pdbx_database_status.methods_development_category    ? 
# 
loop_
_audit_author.name 
_audit_author.pdbx_ordinal 
'Kramer, R.Z.'   1 
'Vitagliano, L.' 2 
'Bella, J.'      3 
'Berisio, R.'    4 
'Mazzarella, L.' 5 
'Brodsky, B.'    6 
'Zagari, A.'     7 
'Berman, H.M.'   8 
# 
_citation.id                        primary 
_citation.title                     
'X-ray crystallographic determination of a collagen-like peptide with the repeating sequence (Pro-Pro-Gly).' 
_citation.journal_abbrev            J.Mol.Biol. 
_citation.journal_volume            280 
_citation.page_first                623 
_citation.page_last                 638 
_citation.year                      1998 
_citation.journal_id_ASTM           JMOBAK 
_citation.country                   UK 
_citation.journal_id_ISSN           0022-2836 
_citation.journal_id_CSD            0070 
_citation.book_publisher            ? 
_citation.pdbx_database_id_PubMed   9677293 
_citation.pdbx_database_id_DOI      10.1006/jmbi.1998.1881 
# 
loop_
_citation_author.citation_id 
_citation_author.name 
_citation_author.ordinal 
_citation_author.identifier_ORCID 
primary 'Kramer, R.Z.'   1 ? 
primary 'Vitagliano, L.' 2 ? 
primary 'Bella, J.'      3 ? 
primary 'Berisio, R.'    4 ? 
primary 'Mazzarella, L.' 5 ? 
primary 'Brodsky, B.'    6 ? 
primary 'Zagari, A.'     7 ? 
primary 'Berman, H.M.'   8 ? 
# 
loop_
_entity.id 
_entity.type 
_entity.src_method 
_entity.pdbx_description 
_entity.formula_weight 
_entity.pdbx_number_of_molecules 
_entity.pdbx_ec 
_entity.pdbx_mutation 
_entity.pdbx_fragment 
_entity.details 
1 polymer man 'COLLAGEN-LIKE PEPTIDE' 771.859 1  ? ? ? ? 
2 polymer man 'COLLAGEN-LIKE PEPTIDE' 520.578 2  ? ? ? ? 
3 water   nat water                   18.015  40 ? ? ? ? 
# 
loop_
_entity_poly.entity_id 
_entity_poly.type 
_entity_poly.nstd_linkage 
_entity_poly.nstd_monomer 
_entity_poly.pdbx_seq_one_letter_code 
_entity_poly.pdbx_seq_one_letter_code_can 
_entity_poly.pdbx_strand_id 
_entity_poly.pdbx_target_identifier 
1 'polypeptide(L)' no no PPGPPGPPG PPGPPGPPG A   ? 
2 'polypeptide(L)' no no PPGPPG    PPGPPG    B,C ? 
# 
_pdbx_entity_nonpoly.entity_id   3 
_pdbx_entity_nonpoly.name        water 
_pdbx_entity_nonpoly.comp_id     HOH 
# 
loop_
_entity_poly_seq.entity_id 
_entity_poly_seq.num 
_entity_poly_seq.mon_id 
_entity_poly_seq.hetero 
1 1 PRO n 
1 2 PRO n 
1 3 GLY n 
1 4 PRO n 
1 5 PRO n 
1 6 GLY n 
1 7 PRO n 
1 8 PRO n 
1 9 GLY n 
2 1 PRO n 
2 2 PRO n 
2 3 GLY n 
2 4 PRO n 
2 5 PRO n 
2 6 GLY n 
# 
loop_
_chem_comp.id 
_chem_comp.type 
_chem_comp.mon_nstd_flag 
_chem_comp.name 
_chem_comp.pdbx_synonyms 
_chem_comp.formula 
_chem_comp.formula_weight 
GLY 'peptide linking'   y GLYCINE ? 'C2 H5 N O2' 75.067  
HOH non-polymer         . WATER   ? 'H2 O'       18.015  
PRO 'L-peptide linking' y PROLINE ? 'C5 H9 N O2' 115.130 
# 
loop_
_pdbx_poly_seq_scheme.asym_id 
_pdbx_poly_seq_scheme.entity_id 
_pdbx_poly_seq_scheme.seq_id 
_pdbx_poly_seq_scheme.mon_id 
_pdbx_poly_seq_scheme.ndb_seq_num 
_pdbx_poly_seq_scheme.pdb_seq_num 
_pdbx_poly_seq_scheme.auth_seq_num 
_pdbx_poly_seq_scheme.pdb_mon_id 
_pdbx_poly_seq_scheme.auth_mon_id 
_pdbx_poly_seq_scheme.pdb_strand_id 
_pdbx_poly_seq_scheme.pdb_ins_code 
_pdbx_poly_seq_scheme.hetero 
A 1 1 PRO 1 1  1  PRO PRO A . n 
A 1 2 PRO 2 2  2  PRO PRO A . n 
A 1 3 GLY 3 3  3  GLY GLY A . n 
A 1 4 PRO 4 4  4  PRO PRO A . n 
A 1 5 PRO 5 5  5  PRO PRO A . n 
A 1 6 GLY 6 6  6  GLY GLY A . n 
A 1 7 PRO 7 7  7  PRO PRO A . n 
A 1 8 PRO 8 8  8  PRO PRO A . n 
A 1 9 GLY 9 9  9  GLY GLY A . n 
B 2 1 PRO 1 31 31 PRO PRO B . n 
B 2 2 PRO 2 32 32 PRO PRO B . n 
B 2 3 GLY 3 33 33 GLY GLY B . n 
B 2 4 PRO 4 34 34 PRO PRO B . n 
B 2 5 PRO 5 35 35 PRO PRO B . n 
B 2 6 GLY 6 36 36 GLY GLY B . n 
C 2 1 PRO 1 61 61 PRO PRO C . n 
C 2 2 PRO 2 62 62 PRO PRO C . n 
C 2 3 GLY 3 63 63 GLY GLY C . n 
C 2 4 PRO 4 64 64 PRO PRO C . n 
C 2 5 PRO 5 65 65 PRO PRO C . n 
C 2 6 GLY 6 66 66 GLY GLY C . n 
# 
loop_
_pdbx_nonpoly_scheme.asym_id 
_pdbx_nonpoly_scheme.entity_id 
_pdbx_nonpoly_scheme.mon_id 
_pdbx_nonpoly_scheme.ndb_seq_num 
_pdbx_nonpoly_scheme.pdb_seq_num 
_pdbx_nonpoly_scheme.auth_seq_num 
_pdbx_nonpoly_scheme.pdb_mon_id 
_pdbx_nonpoly_scheme.auth_mon_id 
_pdbx_nonpoly_scheme.pdb_strand_id 
_pdbx_nonpoly_scheme.pdb_ins_code 
D 3 HOH 1  101 101 HOH HOH A . 
D 3 HOH 2  102 102 HOH HOH A . 
D 3 HOH 3  103 103 HOH HOH A . 
D 3 HOH 4  104 104 HOH HOH A . 
D 3 HOH 5  105 105 HOH HOH A . 
D 3 HOH 6  106 106 HOH HOH A . 
D 3 HOH 7  107 107 HOH HOH A . 
D 3 HOH 8  108 108 HOH HOH A . 
D 3 HOH 9  109 109 HOH HOH A . 
D 3 HOH 10 201 201 HOH HOH A . 
D 3 HOH 11 202 202 HOH HOH A . 
D 3 HOH 12 203 203 HOH HOH A . 
D 3 HOH 13 204 204 HOH HOH A . 
D 3 HOH 14 205 205 HOH HOH A . 
D 3 HOH 15 206 206 HOH HOH A . 
D 3 HOH 16 209 209 HOH HOH A . 
D 3 HOH 17 241 241 HOH HOH A . 
D 3 HOH 18 244 244 HOH HOH A . 
E 3 HOH 1  111 111 HOH HOH B . 
E 3 HOH 2  112 112 HOH HOH B . 
E 3 HOH 3  113 113 HOH HOH B . 
E 3 HOH 4  115 115 HOH HOH B . 
E 3 HOH 5  116 116 HOH HOH B . 
E 3 HOH 6  212 212 HOH HOH B . 
E 3 HOH 7  215 215 HOH HOH B . 
E 3 HOH 8  217 217 HOH HOH B . 
E 3 HOH 9  218 218 HOH HOH B . 
E 3 HOH 10 220 220 HOH HOH B . 
E 3 HOH 11 243 243 HOH HOH B . 
F 3 HOH 1  121 121 HOH HOH C . 
F 3 HOH 2  122 122 HOH HOH C . 
F 3 HOH 3  123 123 HOH HOH C . 
F 3 HOH 4  124 124 HOH HOH C . 
F 3 HOH 5  125 125 HOH HOH C . 
F 3 HOH 6  126 126 HOH HOH C . 
F 3 HOH 7  208 208 HOH HOH C . 
F 3 HOH 8  210 210 HOH HOH C . 
F 3 HOH 9  213 213 HOH HOH C . 
F 3 HOH 10 219 219 HOH HOH C . 
F 3 HOH 11 242 242 HOH HOH C . 
# 
loop_
_software.name 
_software.classification 
_software.version 
_software.citation_id 
_software.pdbx_ordinal 
X-PLOR 'model building' 3.1           ? 1 
X-PLOR refinement       3.1           ? 2 
DENZO  'data reduction' .             ? 3 
HKL    'data scaling'   '(SCALEPACK)' ? 4 
X-PLOR phasing          3.1           ? 5 
# 
_cell.entry_id           1A3J 
_cell.length_a           27.010 
_cell.length_b           26.420 
_cell.length_c           20.420 
_cell.angle_alpha        90.00 
_cell.angle_beta         90.00 
_cell.angle_gamma        90.00 
_cell.Z_PDB              8 
_cell.pdbx_unique_axis   ? 
# 
_symmetry.entry_id                         1A3J 
_symmetry.space_group_name_H-M             'P 21 21 21' 
_symmetry.pdbx_full_space_group_name_H-M   ? 
_symmetry.cell_setting                     ? 
_symmetry.Int_Tables_number                19 
# 
_exptl.entry_id          1A3J 
_exptl.method            'X-RAY DIFFRACTION' 
_exptl.crystals_number   1 
# 
_exptl_crystal.id                    1 
_exptl_crystal.density_meas          ? 
_exptl_crystal.density_Matthews      1.99 
_exptl_crystal.density_percent_sol   38.31 
_exptl_crystal.description           ? 
# 
_exptl_crystal_grow.crystal_id      1 
_exptl_crystal_grow.method          ? 
_exptl_crystal_grow.temp            ? 
_exptl_crystal_grow.temp_details    ? 
_exptl_crystal_grow.pH              ? 
_exptl_crystal_grow.pdbx_pH_range   ? 
_exptl_crystal_grow.pdbx_details    
'PEPTIDE WAS CRYSTALIZED FROM 7.5 MG/ML PEPTIDE (DISSOLVED IN 5% V/V AQUEOUS ACETIC ACID) AND 0.05 M SODIUM ACETATE.' 
# 
_diffrn.id                     1 
_diffrn.ambient_temp           293.0 
_diffrn.ambient_temp_details   ? 
_diffrn.crystal_id             1 
# 
_diffrn_detector.diffrn_id              1 
_diffrn_detector.detector               CCD 
_diffrn_detector.type                   'PRINCETON 2K' 
_diffrn_detector.pdbx_collection_date   1994-10 
_diffrn_detector.details                ? 
# 
_diffrn_radiation.diffrn_id                        1 
_diffrn_radiation.wavelength_id                    1 
_diffrn_radiation.pdbx_monochromatic_or_laue_m_l   M 
_diffrn_radiation.monochromator                    ? 
_diffrn_radiation.pdbx_diffrn_protocol             ? 
_diffrn_radiation.pdbx_scattering_type             x-ray 
# 
_diffrn_radiation_wavelength.id           1 
_diffrn_radiation_wavelength.wavelength   0.91 
_diffrn_radiation_wavelength.wt           1.0 
# 
_diffrn_source.diffrn_id                   1 
_diffrn_source.source                      SYNCHROTRON 
_diffrn_source.type                        'CHESS BEAMLINE A1' 
_diffrn_source.pdbx_synchrotron_site       CHESS 
_diffrn_source.pdbx_synchrotron_beamline   A1 
_diffrn_source.pdbx_wavelength             0.91 
_diffrn_source.pdbx_wavelength_list        ? 
# 
_reflns.entry_id                     1A3J 
_reflns.observed_criterion_sigma_I   ? 
_reflns.observed_criterion_sigma_F   ? 
_reflns.d_resolution_low             ? 
_reflns.d_resolution_high            1.6 
_reflns.number_obs                   1836 
_reflns.number_all                   ? 
_reflns.percent_possible_obs         86.0 
_reflns.pdbx_Rmerge_I_obs            0.0490000 
_reflns.pdbx_Rsym_value              ? 
_reflns.pdbx_netI_over_sigmaI        ? 
_reflns.B_iso_Wilson_estimate        ? 
_reflns.pdbx_redundancy              3.6 
_reflns.pdbx_diffrn_id               1 
_reflns.pdbx_ordinal                 1 
# 
_reflns_shell.d_res_high             1.6 
_reflns_shell.d_res_low              1.8 
_reflns_shell.percent_possible_all   60. 
_reflns_shell.Rmerge_I_obs           ? 
_reflns_shell.pdbx_Rsym_value        ? 
_reflns_shell.meanI_over_sigI_obs    ? 
_reflns_shell.pdbx_redundancy        ? 
_reflns_shell.pdbx_diffrn_id         ? 
_reflns_shell.pdbx_ordinal           1 
# 
_refine.entry_id                                 1A3J 
_refine.ls_number_reflns_obs                     1736 
_refine.ls_number_reflns_all                     ? 
_refine.pdbx_ls_sigma_I                          ? 
_refine.pdbx_ls_sigma_F                          2.0 
_refine.pdbx_data_cutoff_high_absF               ? 
_refine.pdbx_data_cutoff_low_absF                ? 
_refine.pdbx_data_cutoff_high_rms_absF           ? 
_refine.ls_d_res_low                             8.0 
_refine.ls_d_res_high                            1.6 
_refine.ls_percent_reflns_obs                    ? 
_refine.ls_R_factor_obs                          0.2130000 
_refine.ls_R_factor_all                          ? 
_refine.ls_R_factor_R_work                       0.2130000 
_refine.ls_R_factor_R_free                       ? 
_refine.ls_R_factor_R_free_error                 ? 
_refine.ls_R_factor_R_free_error_details         ? 
_refine.ls_percent_reflns_R_free                 ? 
_refine.ls_number_reflns_R_free                  ? 
_refine.ls_number_parameters                     ? 
_refine.ls_number_restraints                     ? 
_refine.occupancy_min                            ? 
_refine.occupancy_max                            ? 
_refine.B_iso_mean                               21.1 
_refine.aniso_B[1][1]                            ? 
_refine.aniso_B[2][2]                            ? 
_refine.aniso_B[3][3]                            ? 
_refine.aniso_B[1][2]                            ? 
_refine.aniso_B[1][3]                            ? 
_refine.aniso_B[2][3]                            ? 
_refine.solvent_model_details                    ? 
_refine.solvent_model_param_ksol                 ? 
_refine.solvent_model_param_bsol                 ? 
_refine.pdbx_ls_cross_valid_method               ? 
_refine.details                                  
;DUE TO THE QUASI-INFINITE NATURE OF THE TRIPLE HELIX, DURING REFINEMENT COVALENT BONDS ARE NECESSARY TO JOIN THE MOLECULE WITH ITS SYMMETRY MATES BOTH ABOVE IT AND BELOW IT ALONG THE HELICAL AXIS AND TIGHT REFINEMENT CONSTRAINTS WERE MAINTAINED.

THE UNIT CELL AXES WERE CHOSEN TO COINCIDE WITH A
PREVIOUS STRUCTURE DETERMINATION (OKUYAMA 1981) OF THIS
PEPTIDE.
;
_refine.pdbx_starting_model                      ? 
_refine.pdbx_method_to_determine_struct          ? 
_refine.pdbx_isotropic_thermal_model             RESTRAINED 
_refine.pdbx_stereochemistry_target_values       ? 
_refine.pdbx_stereochem_target_val_spec_case     ? 
_refine.pdbx_R_Free_selection_details            ? 
_refine.pdbx_overall_ESU_R                       ? 
_refine.pdbx_overall_ESU_R_Free                  ? 
_refine.overall_SU_ML                            ? 
_refine.overall_SU_B                             ? 
_refine.pdbx_refine_id                           'X-RAY DIFFRACTION' 
_refine.pdbx_diffrn_id                           1 
_refine.pdbx_TLS_residual_ADP_flag               ? 
_refine.correlation_coeff_Fo_to_Fc               ? 
_refine.correlation_coeff_Fo_to_Fc_free          ? 
_refine.pdbx_solvent_vdw_probe_radii             ? 
_refine.pdbx_solvent_ion_probe_radii             ? 
_refine.pdbx_solvent_shrinkage_radii             ? 
_refine.pdbx_overall_phase_error                 ? 
_refine.overall_SU_R_Cruickshank_DPI             ? 
_refine.pdbx_overall_SU_R_free_Cruickshank_DPI   ? 
_refine.pdbx_overall_SU_R_Blow_DPI               ? 
_refine.pdbx_overall_SU_R_free_Blow_DPI          ? 
# 
_refine_hist.pdbx_refine_id                   'X-RAY DIFFRACTION' 
_refine_hist.cycle_id                         LAST 
_refine_hist.pdbx_number_atoms_protein        126 
_refine_hist.pdbx_number_atoms_nucleic_acid   0 
_refine_hist.pdbx_number_atoms_ligand         0 
_refine_hist.number_atoms_solvent             40 
_refine_hist.number_atoms_total               166 
_refine_hist.d_res_high                       1.6 
_refine_hist.d_res_low                        8.0 
# 
loop_
_refine_ls_restr.type 
_refine_ls_restr.dev_ideal 
_refine_ls_restr.dev_ideal_target 
_refine_ls_restr.weight 
_refine_ls_restr.number 
_refine_ls_restr.pdbx_refine_id 
_refine_ls_restr.pdbx_restraint_function 
x_bond_d                0.009 ? ? ? 'X-RAY DIFFRACTION' ? 
x_bond_d_na             ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_bond_d_prot           ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_d               ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_d_na            ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_d_prot          ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_deg             1.8   ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_deg_na          ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_angle_deg_prot        ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_dihedral_angle_d      ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_dihedral_angle_d_na   ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_dihedral_angle_d_prot ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_improper_angle_d      1.99  ? ? ? 'X-RAY DIFFRACTION' ? 
x_improper_angle_d_na   ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_improper_angle_d_prot ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_mcbond_it             ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_mcangle_it            ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_scbond_it             ?     ? ? ? 'X-RAY DIFFRACTION' ? 
x_scangle_it            ?     ? ? ? 'X-RAY DIFFRACTION' ? 
# 
_database_PDB_matrix.entry_id          1A3J 
_database_PDB_matrix.origx[1][1]       1.000000 
_database_PDB_matrix.origx[1][2]       0.000000 
_database_PDB_matrix.origx[1][3]       0.000000 
_database_PDB_matrix.origx[2][1]       0.000000 
_database_PDB_matrix.origx[2][2]       1.000000 
_database_PDB_matrix.origx[2][3]       0.000000 
_database_PDB_matrix.origx[3][1]       0.000000 
_database_PDB_matrix.origx[3][2]       0.000000 
_database_PDB_matrix.origx[3][3]       1.000000 
_database_PDB_matrix.origx_vector[1]   0.00000 
_database_PDB_matrix.origx_vector[2]   0.00000 
_database_PDB_matrix.origx_vector[3]   0.00000 
# 
_struct.entry_id                  1A3J 
_struct.title                     
'X-RAY CRYSTALLOGRAPHIC DETERMINATION OF A COLLAGEN-LIKE PEPTIDE WITH THE REPEATING SEQUENCE (PRO-PRO-GLY)' 
_struct.pdbx_model_details        ? 
_struct.pdbx_CASP_flag            ? 
_struct.pdbx_model_type_details   ? 
# 
_struct_keywords.entry_id        1A3J 
_struct_keywords.pdbx_keywords   'EXTRACELLULAR MATRIX' 
_struct_keywords.text            'COLLAGEN, EXTRACELLULAR MATRIX' 
# 
loop_
_struct_asym.id 
_struct_asym.pdbx_blank_PDB_chainid_flag 
_struct_asym.pdbx_modified 
_struct_asym.entity_id 
_struct_asym.details 
A N N 1 ? 
B N N 2 ? 
C N N 2 ? 
D N N 3 ? 
E N N 3 ? 
F N N 3 ? 
# 
loop_
_struct_ref.id 
_struct_ref.entity_id 
_struct_ref.db_name 
_struct_ref.db_code 
_struct_ref.pdbx_db_accession 
_struct_ref.pdbx_db_isoform 
_struct_ref.pdbx_seq_one_letter_code 
_struct_ref.pdbx_align_begin 
1 1 PDB 1A3J 1A3J ? ? ? 
2 2 PDB 1A3J 1A3J ? ? ? 
# 
loop_
_struct_ref_seq.align_id 
_struct_ref_seq.ref_id 
_struct_ref_seq.pdbx_PDB_id_code 
_struct_ref_seq.pdbx_strand_id 
_struct_ref_seq.seq_align_beg 
_struct_ref_seq.pdbx_seq_align_beg_ins_code 
_struct_ref_seq.seq_align_end 
_struct_ref_seq.pdbx_seq_align_end_ins_code 
_struct_ref_seq.pdbx_db_accession 
_struct_ref_seq.db_align_beg 
_struct_ref_seq.pdbx_db_align_beg_ins_code 
_struct_ref_seq.db_align_end 
_struct_ref_seq.pdbx_db_align_end_ins_code 
_struct_ref_seq.pdbx_auth_seq_align_beg 
_struct_ref_seq.pdbx_auth_seq_align_end 
1 1 1A3J A 1 ? 9 ? 1A3J 1  ? 9  ? 1  9  
2 2 1A3J B 1 ? 6 ? 1A3J 31 ? 36 ? 31 36 
3 2 1A3J C 1 ? 6 ? 1A3J 61 ? 66 ? 61 66 
# 
_pdbx_struct_assembly.id                   1 
_pdbx_struct_assembly.details              author_defined_assembly 
_pdbx_struct_assembly.method_details       ? 
_pdbx_struct_assembly.oligomeric_details   pentadecameric 
_pdbx_struct_assembly.oligomeric_count     15 
# 
_pdbx_struct_assembly_gen.assembly_id       1 
_pdbx_struct_assembly_gen.oper_expression   1,2,3,4,5 
_pdbx_struct_assembly_gen.asym_id_list      A,B,C,D,E,F 
# 
loop_
_pdbx_struct_oper_list.id 
_pdbx_struct_oper_list.type 
_pdbx_struct_oper_list.name 
_pdbx_struct_oper_list.symmetry_operation 
_pdbx_struct_oper_list.matrix[1][1] 
_pdbx_struct_oper_list.matrix[1][2] 
_pdbx_struct_oper_list.matrix[1][3] 
_pdbx_struct_oper_list.vector[1] 
_pdbx_struct_oper_list.matrix[2][1] 
_pdbx_struct_oper_list.matrix[2][2] 
_pdbx_struct_oper_list.matrix[2][3] 
_pdbx_struct_oper_list.vector[2] 
_pdbx_struct_oper_list.matrix[3][1] 
_pdbx_struct_oper_list.matrix[3][2] 
_pdbx_struct_oper_list.matrix[3][3] 
_pdbx_struct_oper_list.vector[3] 
1 'identity operation'         1_555 x,y,z   1.0000000000 0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 
0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000  
2 'crystal symmetry operation' 1_556 x,y,z+1 1.0000000000 0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 
0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 20.4200000000 
3 'crystal symmetry operation' 1_557 x,y,z+2 1.0000000000 0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 
0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 40.8400000000 
4 'crystal symmetry operation' 1_558 x,y,z+3 1.0000000000 0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 
0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 61.2600000000 
5 'crystal symmetry operation' 1_559 x,y,z+4 1.0000000000 0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 
0.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 81.6800000000 
# 
_struct_biol.id                    1 
_struct_biol.details               
;THE 21 RESIDUE ASYMMETRIC UNIT CORRESPONDS TO ONE
TRIPLE-HELICAL REPEAT AND IS SMALLER THAN THE ENTIRE 90
RESIDUE PEPTIDE DUE TO TRANSLATIONAL DISORDER ALONG THE
HELICAL AXIS.  THE RESULT IS A POLYMER-LIKE STRUCTURE WITH
NO DEFINED ENDS.

THE POLYMER STRUCTURE IS FORMED BY CONTINUATION OF THE
CHAINS USING THE SYMMETRY-RELATED MOLECULES ALONG THE
HELICAL AXIS.  THE TVECT RECORD BELOW PRESENTS THE
TRANSLATION THAT WILL GENERATE THE POLYMER.  NOTE:
THEREFORE, CLOSE CONTACTS BETWEEN SYMMETRY-RELATED
MOLECULES ARE INTENTIONAL AND NECESSARY.  INTERCHAIN
HYDROGEN BONDING AT THE END OF CHAINS ALSO UTILIZES
SYMMETRY-RELATED MOLECULES.

THE ENTIRE 30 RESIDUE LONG PEPTIDE CAN BE GENERATED FROM
THE SUBMITTED ASYMMETRIC UNIT BY APPLYING THE FOLLOWING
TRANSLATIONS (USING FRACTIONAL COORDINATES):
CHAIN A: TRANSLATE RESIDUES 1 - 9 BY (0 0 1), (0 0 2), AND
         (0 0 3) AND RESIDUES 7 - 9 BY (0 0 4).
CHAIN B: TRANSLATE RESIDUES 31 - 36 BY (0 0 1), (0 0 2),
         AND (0 0 3).
CHAIN C: TRANSLATE RESIDUES 61 - 66 BY (0 0 1), (0 0 2),
         AND (0 0 3) AND RESIDUES 64 - 66 BY (004).
THIS WILL RESULT IN A MOLECULE WITH A TOTAL OF 90 RESIDUES,
         30 IN EACH CHAIN.
;
_struct_biol.pdbx_parent_biol_id   ? 
# 
loop_
_struct_conn.id 
_struct_conn.conn_type_id 
_struct_conn.pdbx_leaving_atom_flag 
_struct_conn.pdbx_PDB_id 
_struct_conn.ptnr1_label_asym_id 
_struct_conn.ptnr1_label_comp_id 
_struct_conn.ptnr1_label_seq_id 
_struct_conn.ptnr1_label_atom_id 
_struct_conn.pdbx_ptnr1_label_alt_id 
_struct_conn.pdbx_ptnr1_PDB_ins_code 
_struct_conn.pdbx_ptnr1_standard_comp_id 
_struct_conn.ptnr1_symmetry 
_struct_conn.ptnr2_label_asym_id 
_struct_conn.ptnr2_label_comp_id 
_struct_conn.ptnr2_label_seq_id 
_struct_conn.ptnr2_label_atom_id 
_struct_conn.pdbx_ptnr2_label_alt_id 
_struct_conn.pdbx_ptnr2_PDB_ins_code 
_struct_conn.ptnr1_auth_asym_id 
_struct_conn.ptnr1_auth_comp_id 
_struct_conn.ptnr1_auth_seq_id 
_struct_conn.ptnr2_auth_asym_id 
_struct_conn.ptnr2_auth_comp_id 
_struct_conn.ptnr2_auth_seq_id 
_struct_conn.ptnr2_symmetry 
_struct_conn.pdbx_ptnr3_label_atom_id 
_struct_conn.pdbx_ptnr3_label_seq_id 
_struct_conn.pdbx_ptnr3_label_comp_id 
_struct_conn.pdbx_ptnr3_label_asym_id 
_struct_conn.pdbx_ptnr3_label_alt_id 
_struct_conn.pdbx_ptnr3_PDB_ins_code 
_struct_conn.details 
_struct_conn.pdbx_dist_value 
_struct_conn.pdbx_value_order 
_struct_conn.pdbx_role 
covale1 covale both ? A PRO 1 N ? ? ? 1_555 B GLY 6 C ? ? A PRO 1  B GLY 36 1_556 ? ? ? ? ? ? ? 1.321 ? ? 
covale2 covale both ? A GLY 9 C ? ? ? 1_556 C PRO 1 N ? ? A GLY 9  C PRO 61 1_555 ? ? ? ? ? ? ? 1.326 ? ? 
covale3 covale both ? B PRO 1 N ? ? ? 1_555 C GLY 6 C ? ? B PRO 31 C GLY 66 1_556 ? ? ? ? ? ? ? 1.337 ? ? 
# 
_struct_conn_type.id          covale 
_struct_conn_type.criteria    ? 
_struct_conn_type.reference   ? 
# 
loop_
_pdbx_modification_feature.ordinal 
_pdbx_modification_feature.label_comp_id 
_pdbx_modification_feature.label_asym_id 
_pdbx_modification_feature.label_seq_id 
_pdbx_modification_feature.label_alt_id 
_pdbx_modification_feature.modified_residue_label_comp_id 
_pdbx_modification_feature.modified_residue_label_asym_id 
_pdbx_modification_feature.modified_residue_label_seq_id 
_pdbx_modification_feature.modified_residue_label_alt_id 
_pdbx_modification_feature.auth_comp_id 
_pdbx_modification_feature.auth_asym_id 
_pdbx_modification_feature.auth_seq_id 
_pdbx_modification_feature.PDB_ins_code 
_pdbx_modification_feature.symmetry 
_pdbx_modification_feature.modified_residue_auth_comp_id 
_pdbx_modification_feature.modified_residue_auth_asym_id 
_pdbx_modification_feature.modified_residue_auth_seq_id 
_pdbx_modification_feature.modified_residue_PDB_ins_code 
_pdbx_modification_feature.modified_residue_symmetry 
_pdbx_modification_feature.comp_id_linking_atom 
_pdbx_modification_feature.modified_residue_id_linking_atom 
_pdbx_modification_feature.modified_residue_id 
_pdbx_modification_feature.ref_pcm_id 
_pdbx_modification_feature.ref_comp_id 
_pdbx_modification_feature.type 
_pdbx_modification_feature.category 
1 PRO A 1 ? GLY B 6 ? PRO A 1  ? 1_555 GLY B 36 ? 1_556 N C . . . None 'Non-standard linkage' 
2 GLY A 9 ? PRO C 1 ? GLY A 9  ? 1_556 PRO C 61 ? 1_555 C N . . . None 'Non-standard linkage' 
3 PRO B 1 ? GLY C 6 ? PRO B 31 ? 1_555 GLY C 66 ? 1_556 N C . . . None 'Non-standard linkage' 
# 
_pdbx_entry_details.entry_id                   1A3J 
_pdbx_entry_details.compound_details           
;HYDROGEN BONDS BETWEEN PEPTIDE CHAINS FOLLOW THE RICH AND
CRICK MODEL II FOR COLLAGEN.
;
_pdbx_entry_details.source_details             ? 
_pdbx_entry_details.nonpolymer_details         ? 
_pdbx_entry_details.sequence_details           
;FOR EACH CHAIN, RESIDUE NUMBERING CORRESPONDS TO THE ENTIRE
MOLECULE RATHER THAN THE SHORTER ASYMMETRIC UNIT.
;
_pdbx_entry_details.has_ligand_of_interest     ? 
_pdbx_entry_details.has_protein_modification   Y 
# 
loop_
_chem_comp_atom.comp_id 
_chem_comp_atom.atom_id 
_chem_comp_atom.type_symbol 
_chem_comp_atom.pdbx_aromatic_flag 
_chem_comp_atom.pdbx_stereo_config 
_chem_comp_atom.pdbx_ordinal 
GLY N   N N N 1  
GLY CA  C N N 2  
GLY C   C N N 3  
GLY O   O N N 4  
GLY OXT O N N 5  
GLY H   H N N 6  
GLY H2  H N N 7  
GLY HA2 H N N 8  
GLY HA3 H N N 9  
GLY HXT H N N 10 
HOH O   O N N 11 
HOH H1  H N N 12 
HOH H2  H N N 13 
PRO N   N N N 14 
PRO CA  C N S 15 
PRO C   C N N 16 
PRO O   O N N 17 
PRO CB  C N N 18 
PRO CG  C N N 19 
PRO CD  C N N 20 
PRO OXT O N N 21 
PRO H   H N N 22 
PRO HA  H N N 23 
PRO HB2 H N N 24 
PRO HB3 H N N 25 
PRO HG2 H N N 26 
PRO HG3 H N N 27 
PRO HD2 H N N 28 
PRO HD3 H N N 29 
PRO HXT H N N 30 
# 
loop_
_chem_comp_bond.comp_id 
_chem_comp_bond.atom_id_1 
_chem_comp_bond.atom_id_2 
_chem_comp_bond.value_order 
_chem_comp_bond.pdbx_aromatic_flag 
_chem_comp_bond.pdbx_stereo_config 
_chem_comp_bond.pdbx_ordinal 
GLY N   CA  sing N N 1  
GLY N   H   sing N N 2  
GLY N   H2  sing N N 3  
GLY CA  C   sing N N 4  
GLY CA  HA2 sing N N 5  
GLY CA  HA3 sing N N 6  
GLY C   O   doub N N 7  
GLY C   OXT sing N N 8  
GLY OXT HXT sing N N 9  
HOH O   H1  sing N N 10 
HOH O   H2  sing N N 11 
PRO N   CA  sing N N 12 
PRO N   CD  sing N N 13 
PRO N   H   sing N N 14 
PRO CA  C   sing N N 15 
PRO CA  CB  sing N N 16 
PRO CA  HA  sing N N 17 
PRO C   O   doub N N 18 
PRO C   OXT sing N N 19 
PRO CB  CG  sing N N 20 
PRO CB  HB2 sing N N 21 
PRO CB  HB3 sing N N 22 
PRO CG  CD  sing N N 23 
PRO CG  HG2 sing N N 24 
PRO CG  HG3 sing N N 25 
PRO CD  HD2 sing N N 26 
PRO CD  HD3 sing N N 27 
PRO OXT HXT sing N N 28 
# 
_database_PDB_tvect.id          1 
_database_PDB_tvect.vector[1]   0.00000 
_database_PDB_tvect.vector[2]   0.00000 
_database_PDB_tvect.vector[3]   20.42000 
_database_PDB_tvect.details     ? 
# 
_atom_sites.entry_id                    1A3J 
_atom_sites.fract_transf_matrix[1][1]   0.037023 
_atom_sites.fract_transf_matrix[1][2]   0.000000 
_atom_sites.fract_transf_matrix[1][3]   0.000000 
_atom_sites.fract_transf_matrix[2][1]   0.000000 
_atom_sites.fract_transf_matrix[2][2]   0.037850 
_atom_sites.fract_transf_matrix[2][3]   0.000000 
_atom_sites.fract_transf_matrix[3][1]   0.000000 
_atom_sites.fract_transf_matrix[3][2]   0.000000 
_atom_sites.fract_transf_matrix[3][3]   0.048972 
_atom_sites.fract_transf_vector[1]      0.00000 
_atom_sites.fract_transf_vector[2]      0.00000 
_atom_sites.fract_transf_vector[3]      0.00000 
# 
loop_
_atom_type.symbol 
C 
N 
O 
# 
loop_
_atom_site.group_PDB 
_atom_site.id 
_atom_site.type_symbol 
_atom_site.label_atom_id 
_atom_site.label_alt_id 
_atom_site.label_comp_id 
_atom_site.label_asym_id 
_atom_site.label_entity_id 
_atom_site.label_seq_id 
_atom_site.pdbx_PDB_ins_code 
_atom_site.Cartn_x 
_atom_site.Cartn_y 
_atom_site.Cartn_z 
_atom_site.occupancy 
_atom_site.B_iso_or_equiv 
_atom_site.pdbx_formal_charge 
_atom_site.auth_seq_id 
_atom_site.auth_comp_id 
_atom_site.auth_asym_id 
_atom_site.auth_atom_id 
_atom_site.pdbx_PDB_model_num 
ATOM   1   N N  . PRO A 1 1 ? 8.320  21.388 21.815 1.00 15.83 ? 1   PRO A N  1 
ATOM   2   C CA . PRO A 1 1 ? 7.607  20.901 20.635 1.00 16.29 ? 1   PRO A CA 1 
ATOM   3   C C  . PRO A 1 1 ? 8.511  20.843 19.366 1.00 16.53 ? 1   PRO A C  1 
ATOM   4   O O  . PRO A 1 1 ? 9.551  21.509 19.333 1.00 16.80 ? 1   PRO A O  1 
ATOM   5   C CB . PRO A 1 1 ? 6.460  21.904 20.527 1.00 16.81 ? 1   PRO A CB 1 
ATOM   6   C CG . PRO A 1 1 ? 7.108  23.194 20.923 1.00 15.76 ? 1   PRO A CG 1 
ATOM   7   C CD . PRO A 1 1 ? 7.831  22.748 22.159 1.00 15.02 ? 1   PRO A CD 1 
ATOM   8   N N  . PRO A 1 2 ? 8.184  20.047 18.316 1.00 16.29 ? 2   PRO A N  1 
ATOM   9   C CA . PRO A 1 2 ? 9.020  20.034 17.088 1.00 16.18 ? 2   PRO A CA 1 
ATOM   10  C C  . PRO A 1 2 ? 9.037  21.427 16.443 1.00 15.94 ? 2   PRO A C  1 
ATOM   11  O O  . PRO A 1 2 ? 8.105  22.232 16.620 1.00 15.21 ? 2   PRO A O  1 
ATOM   12  C CB . PRO A 1 2 ? 8.306  19.075 16.149 1.00 16.97 ? 2   PRO A CB 1 
ATOM   13  C CG . PRO A 1 2 ? 7.494  18.220 17.052 1.00 17.81 ? 2   PRO A CG 1 
ATOM   14  C CD . PRO A 1 2 ? 7.105  19.051 18.239 1.00 17.37 ? 2   PRO A CD 1 
ATOM   15  N N  . GLY A 1 3 ? 10.093 21.685 15.679 1.00 15.54 ? 3   GLY A N  1 
ATOM   16  C CA . GLY A 1 3 ? 10.162 22.913 14.910 1.00 14.78 ? 3   GLY A CA 1 
ATOM   17  C C  . GLY A 1 3 ? 9.215  22.870 13.709 1.00 14.91 ? 3   GLY A C  1 
ATOM   18  O O  . GLY A 1 3 ? 8.585  21.857 13.400 1.00 13.88 ? 3   GLY A O  1 
ATOM   19  N N  . PRO A 1 4 ? 9.107  23.978 12.986 1.00 15.10 ? 4   PRO A N  1 
ATOM   20  C CA . PRO A 1 4 ? 8.229  24.070 11.815 1.00 15.31 ? 4   PRO A CA 1 
ATOM   21  C C  . PRO A 1 4 ? 8.860  23.412 10.599 1.00 15.33 ? 4   PRO A C  1 
ATOM   22  O O  . PRO A 1 4 ? 10.053 23.095 10.624 1.00 15.26 ? 4   PRO A O  1 
ATOM   23  C CB . PRO A 1 4 ? 8.068  25.573 11.626 1.00 15.70 ? 4   PRO A CB 1 
ATOM   24  C CG . PRO A 1 4 ? 9.373  26.116 12.118 1.00 15.19 ? 4   PRO A CG 1 
ATOM   25  C CD . PRO A 1 4 ? 9.822  25.236 13.250 1.00 15.06 ? 4   PRO A CD 1 
ATOM   26  N N  . PRO A 1 5 ? 8.075  23.181 9.530  1.00 15.39 ? 5   PRO A N  1 
ATOM   27  C CA . PRO A 1 5 ? 8.629  22.575 8.308  1.00 15.80 ? 5   PRO A CA 1 
ATOM   28  C C  . PRO A 1 5 ? 9.741  23.434 7.695  1.00 15.38 ? 5   PRO A C  1 
ATOM   29  O O  . PRO A 1 5 ? 9.795  24.650 7.899  1.00 14.91 ? 5   PRO A O  1 
ATOM   30  C CB . PRO A 1 5 ? 7.436  22.453 7.355  1.00 16.17 ? 5   PRO A CB 1 
ATOM   31  C CG . PRO A 1 5 ? 6.219  22.753 8.161  1.00 16.03 ? 5   PRO A CG 1 
ATOM   32  C CD . PRO A 1 5 ? 6.612  23.366 9.469  1.00 15.74 ? 5   PRO A CD 1 
ATOM   33  N N  . GLY A 1 6 ? 10.635 22.786 6.962  1.00 14.89 ? 6   GLY A N  1 
ATOM   34  C CA . GLY A 1 6 ? 11.693 23.524 6.310  1.00 14.20 ? 6   GLY A CA 1 
ATOM   35  C C  . GLY A 1 6 ? 11.197 24.223 5.057  1.00 14.61 ? 6   GLY A C  1 
ATOM   36  O O  . GLY A 1 6 ? 10.026 24.143 4.682  1.00 14.44 ? 6   GLY A O  1 
ATOM   37  N N  . PRO A 1 7 ? 12.092 24.913 4.363  1.00 14.35 ? 7   PRO A N  1 
ATOM   38  C CA . PRO A 1 7 ? 11.764 25.640 3.135  1.00 14.65 ? 7   PRO A CA 1 
ATOM   39  C C  . PRO A 1 7 ? 11.555 24.748 1.912  1.00 14.84 ? 7   PRO A C  1 
ATOM   40  O O  . PRO A 1 7 ? 11.985 23.596 1.890  1.00 14.99 ? 7   PRO A O  1 
ATOM   41  C CB . PRO A 1 7 ? 12.954 26.574 2.959  1.00 14.98 ? 7   PRO A CB 1 
ATOM   42  C CG . PRO A 1 7 ? 14.078 25.820 3.594  1.00 15.74 ? 7   PRO A CG 1 
ATOM   43  C CD . PRO A 1 7 ? 13.507 25.048 4.742  1.00 14.27 ? 7   PRO A CD 1 
ATOM   44  N N  . PRO A 1 8 ? 10.860 25.264 0.885  1.00 15.05 ? 8   PRO A N  1 
ATOM   45  C CA . PRO A 1 8 ? 10.620 24.531 -0.365 1.00 15.04 ? 8   PRO A CA 1 
ATOM   46  C C  . PRO A 1 8 ? 11.951 24.177 -1.029 1.00 14.86 ? 8   PRO A C  1 
ATOM   47  O O  . PRO A 1 8 ? 12.956 24.900 -0.917 1.00 14.04 ? 8   PRO A O  1 
ATOM   48  C CB . PRO A 1 8 ? 9.876  25.518 -1.262 1.00 15.99 ? 8   PRO A CB 1 
ATOM   49  C CG . PRO A 1 8 ? 9.412  26.612 -0.371 1.00 16.73 ? 8   PRO A CG 1 
ATOM   50  C CD . PRO A 1 8 ? 10.257 26.608 0.870  1.00 16.03 ? 8   PRO A CD 1 
ATOM   51  N N  . GLY A 1 9 ? 11.922 23.098 -1.791 1.00 14.23 ? 9   GLY A N  1 
ATOM   52  C CA . GLY A 1 9 ? 13.104 22.711 -2.513 1.00 14.13 ? 9   GLY A CA 1 
ATOM   53  C C  . GLY A 1 9 ? 13.287 23.597 -3.742 1.00 14.49 ? 9   GLY A C  1 
ATOM   54  O O  . GLY A 1 9 ? 12.466 24.465 -4.077 1.00 13.26 ? 9   GLY A O  1 
ATOM   55  N N  . PRO B 2 1 ? 12.693 18.514 18.868 1.00 15.38 ? 31  PRO B N  1 
ATOM   56  C CA . PRO B 2 1 ? 13.405 18.013 17.679 1.00 15.13 ? 31  PRO B CA 1 
ATOM   57  C C  . PRO B 2 1 ? 13.205 18.901 16.452 1.00 15.38 ? 31  PRO B C  1 
ATOM   58  O O  . PRO B 2 1 ? 12.313 19.755 16.458 1.00 15.74 ? 31  PRO B O  1 
ATOM   59  C CB . PRO B 2 1 ? 12.846 16.617 17.436 1.00 15.93 ? 31  PRO B CB 1 
ATOM   60  C CG . PRO B 2 1 ? 11.455 16.707 17.979 1.00 15.06 ? 31  PRO B CG 1 
ATOM   61  C CD . PRO B 2 1 ? 11.465 17.725 19.093 1.00 14.65 ? 31  PRO B CD 1 
ATOM   62  N N  . PRO B 2 2 ? 14.045 18.756 15.411 1.00 15.50 ? 32  PRO B N  1 
ATOM   63  C CA . PRO B 2 2 ? 13.876 19.521 14.164 1.00 16.06 ? 32  PRO B CA 1 
ATOM   64  C C  . PRO B 2 2 ? 12.514 19.171 13.547 1.00 16.20 ? 32  PRO B C  1 
ATOM   65  O O  . PRO B 2 2 ? 11.987 18.042 13.697 1.00 15.22 ? 32  PRO B O  1 
ATOM   66  C CB . PRO B 2 2 ? 14.984 19.010 13.260 1.00 16.81 ? 32  PRO B CB 1 
ATOM   67  C CG . PRO B 2 2 ? 16.032 18.532 14.202 1.00 16.65 ? 32  PRO B CG 1 
ATOM   68  C CD . PRO B 2 2 ? 15.309 17.993 15.401 1.00 16.25 ? 32  PRO B CD 1 
ATOM   69  N N  . GLY B 2 3 ? 11.955 20.157 12.861 1.00 15.57 ? 33  GLY B N  1 
ATOM   70  C CA . GLY B 2 3 ? 10.741 19.910 12.119 1.00 15.29 ? 33  GLY B CA 1 
ATOM   71  C C  . GLY B 2 3 ? 10.939 19.065 10.860 1.00 15.28 ? 33  GLY B C  1 
ATOM   72  O O  . GLY B 2 3 ? 12.039 18.642 10.480 1.00 14.20 ? 33  GLY B O  1 
ATOM   73  N N  . PRO B 2 4 ? 9.834  18.811 10.172 1.00 15.46 ? 34  PRO B N  1 
ATOM   74  C CA . PRO B 2 4 ? 9.797  18.022 8.937  1.00 15.80 ? 34  PRO B CA 1 
ATOM   75  C C  . PRO B 2 4 ? 10.394 18.743 7.720  1.00 15.39 ? 34  PRO B C  1 
ATOM   76  O O  . PRO B 2 4 ? 10.541 19.961 7.724  1.00 14.71 ? 34  PRO B O  1 
ATOM   77  C CB . PRO B 2 4 ? 8.306  17.746 8.753  1.00 16.83 ? 34  PRO B CB 1 
ATOM   78  C CG . PRO B 2 4 ? 7.647  18.927 9.393  1.00 16.94 ? 34  PRO B CG 1 
ATOM   79  C CD . PRO B 2 4 ? 8.498  19.275 10.580 1.00 15.89 ? 34  PRO B CD 1 
ATOM   80  N N  . PRO B 2 5 ? 10.747 17.995 6.664  1.00 15.86 ? 35  PRO B N  1 
ATOM   81  C CA . PRO B 2 5 ? 11.293 18.589 5.432  1.00 15.84 ? 35  PRO B CA 1 
ATOM   82  C C  . PRO B 2 5 ? 10.257 19.510 4.779  1.00 15.57 ? 35  PRO B C  1 
ATOM   83  O O  . PRO B 2 5 ? 9.051  19.332 4.973  1.00 15.56 ? 35  PRO B O  1 
ATOM   84  C CB . PRO B 2 5 ? 11.559 17.395 4.520  1.00 16.82 ? 35  PRO B CB 1 
ATOM   85  C CG . PRO B 2 5 ? 11.581 16.213 5.424  1.00 16.95 ? 35  PRO B CG 1 
ATOM   86  C CD . PRO B 2 5 ? 10.686 16.526 6.586  1.00 17.29 ? 35  PRO B CD 1 
ATOM   87  N N  . GLY B 2 6 ? 10.726 20.474 3.995  1.00 14.94 ? 36  GLY B N  1 
ATOM   88  C CA . GLY B 2 6 ? 9.810  21.352 3.302  1.00 14.13 ? 36  GLY B CA 1 
ATOM   89  C C  . GLY B 2 6 ? 9.178  20.667 2.095  1.00 14.03 ? 36  GLY B C  1 
ATOM   90  O O  . GLY B 2 6 ? 9.539  19.555 1.695  1.00 13.28 ? 36  GLY B O  1 
ATOM   91  N N  . PRO C 2 1 ? 14.402 23.411 15.985 1.00 15.28 ? 61  PRO C N  1 
ATOM   92  C CA . PRO C 2 1 ? 14.763 24.148 14.762 1.00 15.71 ? 61  PRO C CA 1 
ATOM   93  C C  . PRO C 2 1 ? 13.902 23.764 13.542 1.00 15.87 ? 61  PRO C C  1 
ATOM   94  O O  . PRO C 2 1 ? 13.363 22.656 13.495 1.00 15.12 ? 61  PRO C O  1 
ATOM   95  C CB . PRO C 2 1 ? 16.210 23.759 14.504 1.00 16.64 ? 61  PRO C CB 1 
ATOM   96  C CG . PRO C 2 1 ? 16.283 22.371 15.076 1.00 16.41 ? 61  PRO C CG 1 
ATOM   97  C CD . PRO C 2 1 ? 15.464 22.441 16.334 1.00 15.49 ? 61  PRO C CD 1 
ATOM   98  N N  . PRO C 2 2 ? 13.809 24.632 12.514 1.00 15.84 ? 62  PRO C N  1 
ATOM   99  C CA . PRO C 2 2 ? 13.060 24.315 11.278 1.00 16.26 ? 62  PRO C CA 1 
ATOM   100 C C  . PRO C 2 2 ? 13.711 23.057 10.647 1.00 16.64 ? 62  PRO C C  1 
ATOM   101 O O  . PRO C 2 2 ? 14.898 22.770 10.878 1.00 15.51 ? 62  PRO C O  1 
ATOM   102 C CB . PRO C 2 2 ? 13.270 25.530 10.380 1.00 16.86 ? 62  PRO C CB 1 
ATOM   103 C CG . PRO C 2 2 ? 13.789 26.596 11.279 1.00 16.65 ? 62  PRO C CG 1 
ATOM   104 C CD . PRO C 2 2 ? 14.435 25.962 12.462 1.00 16.46 ? 62  PRO C CD 1 
ATOM   105 N N  . GLY C 2 3 ? 12.922 22.310 9.882  1.00 15.60 ? 63  GLY C N  1 
ATOM   106 C CA . GLY C 2 3 ? 13.440 21.137 9.216  1.00 16.15 ? 63  GLY C CA 1 
ATOM   107 C C  . GLY C 2 3 ? 14.254 21.501 7.990  1.00 16.55 ? 63  GLY C C  1 
ATOM   108 O O  . GLY C 2 3 ? 14.456 22.675 7.648  1.00 16.50 ? 63  GLY C O  1 
ATOM   109 N N  . PRO C 2 4 ? 14.720 20.477 7.282  1.00 16.83 ? 64  PRO C N  1 
ATOM   110 C CA . PRO C 2 4 ? 15.525 20.602 6.068  1.00 16.98 ? 64  PRO C CA 1 
ATOM   111 C C  . PRO C 2 4 ? 14.718 21.038 4.840  1.00 16.64 ? 64  PRO C C  1 
ATOM   112 O O  . PRO C 2 4 ? 13.491 20.905 4.801  1.00 16.03 ? 64  PRO C O  1 
ATOM   113 C CB . PRO C 2 4 ? 16.096 19.201 5.889  1.00 17.87 ? 64  PRO C CB 1 
ATOM   114 C CG . PRO C 2 4 ? 15.049 18.314 6.484  1.00 17.58 ? 64  PRO C CG 1 
ATOM   115 C CD . PRO C 2 4 ? 14.456 19.071 7.634  1.00 16.63 ? 64  PRO C CD 1 
ATOM   116 N N  . PRO C 2 5 ? 15.405 21.548 3.813  1.00 15.91 ? 65  PRO C N  1 
ATOM   117 C CA . PRO C 2 5 ? 14.754 21.970 2.562  1.00 15.46 ? 65  PRO C CA 1 
ATOM   118 C C  . PRO C 2 5 ? 14.085 20.759 1.890  1.00 15.71 ? 65  PRO C C  1 
ATOM   119 O O  . PRO C 2 5 ? 14.518 19.604 2.053  1.00 14.86 ? 65  PRO C O  1 
ATOM   120 C CB . PRO C 2 5 ? 15.890 22.485 1.694  1.00 15.58 ? 65  PRO C CB 1 
ATOM   121 C CG . PRO C 2 5 ? 17.051 22.623 2.616  1.00 16.84 ? 65  PRO C CG 1 
ATOM   122 C CD . PRO C 2 5 ? 16.867 21.680 3.757  1.00 16.49 ? 65  PRO C CD 1 
ATOM   123 N N  . GLY C 2 6 ? 13.032 21.029 1.125  1.00 15.04 ? 66  GLY C N  1 
ATOM   124 C CA . GLY C 2 6 ? 12.345 19.961 0.424  1.00 14.88 ? 66  GLY C CA 1 
ATOM   125 C C  . GLY C 2 6 ? 13.145 19.526 -0.805 1.00 14.80 ? 66  GLY C C  1 
ATOM   126 O O  . GLY C 2 6 ? 14.183 20.116 -1.114 1.00 13.18 ? 66  GLY C O  1 
HETATM 127 O O  . HOH D 3 . ? 5.563  21.749 16.177 1.00 24.31 ? 101 HOH A O  1 
HETATM 128 O O  . HOH D 3 . ? 7.434  25.215 16.721 1.00 28.50 ? 102 HOH A O  1 
HETATM 129 O O  . HOH D 3 . ? 6.082  20.777 13.354 1.00 16.36 ? 103 HOH A O  1 
HETATM 130 O O  . HOH D 3 . ? 7.817  26.599 7.937  1.00 34.01 ? 104 HOH A O  1 
HETATM 131 O O  . HOH D 3 . ? 11.120 27.005 6.980  1.00 30.39 ? 105 HOH A O  1 
HETATM 132 O O  . HOH D 3 . ? 7.725  25.410 4.105  1.00 25.33 ? 106 HOH A O  1 
HETATM 133 O O  . HOH D 3 . ? 13.573 27.911 -0.880 1.00 43.70 ? 107 HOH A O  1 
HETATM 134 O O  . HOH D 3 . ? 15.588 25.245 -1.487 1.00 27.36 ? 108 HOH A O  1 
HETATM 135 O O  . HOH D 3 . ? 12.198 27.135 -4.803 1.00 24.93 ? 109 HOH A O  1 
HETATM 136 O O  . HOH D 3 . ? 5.246  23.407 4.079  1.00 24.03 ? 201 HOH A O  1 
HETATM 137 O O  . HOH D 3 . ? 16.308 27.494 0.350  1.00 29.17 ? 202 HOH A O  1 
HETATM 138 O O  . HOH D 3 . ? 4.600  23.292 12.518 1.00 23.17 ? 203 HOH A O  1 
HETATM 139 O O  . HOH D 3 . ? 9.492  27.201 -4.244 1.00 32.77 ? 204 HOH A O  1 
HETATM 140 O O  . HOH D 3 . ? 13.409 27.616 7.899  1.00 31.76 ? 205 HOH A O  1 
HETATM 141 O O  . HOH D 3 . ? 9.718  28.611 8.994  1.00 34.34 ? 206 HOH A O  1 
HETATM 142 O O  . HOH D 3 . ? 17.913 23.304 -1.355 1.00 49.03 ? 209 HOH A O  1 
HETATM 143 O O  . HOH D 3 . ? 17.942 26.512 2.392  1.00 42.30 ? 241 HOH A O  1 
HETATM 144 O O  . HOH D 3 . ? 9.861  28.297 5.093  1.00 49.28 ? 244 HOH A O  1 
HETATM 145 O O  . HOH E 3 . ? 12.997 15.491 13.353 1.00 32.61 ? 111 HOH B O  1 
HETATM 146 O O  . HOH E 3 . ? 9.791  16.379 12.986 1.00 34.18 ? 112 HOH B O  1 
HETATM 147 O O  . HOH E 3 . ? 13.753 16.765 9.846  1.00 38.49 ? 113 HOH B O  1 
HETATM 148 O O  . HOH E 3 . ? 6.232  20.312 4.489  1.00 34.63 ? 115 HOH B O  1 
HETATM 149 O O  . HOH E 3 . ? 8.403  17.159 1.263  1.00 40.82 ? 116 HOH B O  1 
HETATM 150 O O  . HOH E 3 . ? 16.497 16.989 10.046 1.00 28.21 ? 212 HOH B O  1 
HETATM 151 O O  . HOH E 3 . ? 6.720  17.459 13.599 1.00 59.82 ? 215 HOH B O  1 
HETATM 152 O O  . HOH E 3 . ? 5.113  18.250 12.236 1.00 62.34 ? 217 HOH B O  1 
HETATM 153 O O  . HOH E 3 . ? 16.290 15.678 12.235 1.00 59.15 ? 218 HOH B O  1 
HETATM 154 O O  . HOH E 3 . ? 10.855 13.694 14.047 1.00 58.89 ? 220 HOH B O  1 
HETATM 155 O O  . HOH E 3 . ? 8.693  13.886 17.452 1.00 48.69 ? 243 HOH B O  1 
HETATM 156 O O  . HOH F 3 . ? 17.092 24.694 10.493 1.00 52.75 ? 121 HOH C O  1 
HETATM 157 O O  . HOH F 3 . ? 17.133 21.031 11.232 1.00 55.41 ? 122 HOH C O  1 
HETATM 158 O O  . HOH F 3 . ? 16.250 24.462 6.975  1.00 40.12 ? 123 HOH C O  1 
HETATM 159 O O  . HOH F 3 . ? 16.903 18.266 1.924  1.00 29.03 ? 124 HOH C O  1 
HETATM 160 O O  . HOH F 3 . ? 13.855 16.732 1.285  1.00 42.88 ? 125 HOH C O  1 
HETATM 161 O O  . HOH F 3 . ? 16.909 19.408 -1.027 1.00 25.41 ? 126 HOH C O  1 
HETATM 162 O O  . HOH F 3 . ? 16.451 16.178 -1.001 1.00 29.07 ? 208 HOH C O  1 
HETATM 163 O O  . HOH F 3 . ? 16.742 27.682 9.660  1.00 50.98 ? 210 HOH C O  1 
HETATM 164 O O  . HOH F 3 . ? 17.645 19.354 9.689  1.00 40.00 ? 213 HOH C O  1 
HETATM 165 O O  . HOH F 3 . ? 18.712 20.549 -2.562 1.00 59.63 ? 219 HOH C O  1 
HETATM 166 O O  . HOH F 3 . ? 19.896 24.264 14.325 1.00 39.61 ? 242 HOH C O  1 
#