data_8ZZS
#
loop_
_audit_conform.dict_location
_audit_conform.dict_name
_audit_conform.dict_version
https://mmcif.wwpdb.org/dictionaries/ascii/mmcif_ihm_ext.dic    mmcif_ihm_ext.dic   1.27
http://mmcif.wwpdb.org/dictionaries/ascii/mmcif_pdbx_v50.dic    mmcif_pdbx.dic  5.399
#
#
loop_
_database_2.database_id
_database_2.database_code
_database_2.pdbx_database_accession
_database_2.pdbx_DOI
PDB-Dev PDBDEV_00000028 PDBDEV_00000028 ?
PDB 8ZZS pdb_00008zzs 10.2210/pdb8zzs/pdb
#
_pdbx_database_status.status_code                     REL
_pdbx_database_status.entry_id                        8ZZS
_pdbx_database_status.deposit_site                    RCSB
_pdbx_database_status.process_site                    RCSB
_pdbx_database_status.recvd_initial_deposition_date   2019-01-16
# 
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 2019-04-29
# 
_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         ?
# 
# 
loop_
_citation.id
_citation.title
_citation.journal_abbrev
_citation.journal_volume
_citation.page_first
_citation.page_last
_citation.year
_citation.pdbx_database_id_PubMed
_citation.pdbx_database_id_DOI
_citation.journal_id_ASTM
_citation.country
_citation.journal_id_ISSN
_citation.journal_id_CSD
_citation.book_publisher
1 "Structural basis of specific H2A K13/K15 ubiquitination by RNF168" "Nat. Commun." 10 1751 ? 2019 30988309 "10.1038/s41467-019-09756-z" ? ? ? ? ? 
#
loop_
_citation_author.citation_id 
_citation_author.name 
_citation_author.ordinal 
1 "Horn V" 1 
1 "Uckelmann M"   2 
1 "Zhang H"     3 
1 "Eerland J" 4 
1 "Aarsman I" 5
1 "le Paige UB" 6
1 "Davidovich C" 7
1 "Sixma TK" 8
1 "van Ingen H" 9
#
loop_
_audit_author.name
_audit_author.pdbx_ordinal
"Horn V" 1
"Uckelmann M"   2
"Zhang H"     3
"Eerland J" 4
"Aarsman I" 5
"le Paige UB" 6
"Davidovich C" 7
"Sixma TK" 8
"van Ingen H" 9
# 
_struct.entry_id                  8ZZS
_struct.title                     'Complex of RNF168-RING domain and the nucleosome'
_struct.pdbx_descriptor           "PROTEIN/DNA complex"
_struct.pdbx_model_details        'Based on XL-MS, NMR and mutagenesis'
_struct.pdbx_details              'Based on 2PYO for nucleosome and 4GB0 for RNF168-RING domain'
_struct.pdbx_CASP_flag            N
_struct.pdbx_model_type_details   '10 lowest energy HADDOCK solutions for cluster 1'
_struct.pdbx_structure_determination_methodology	integrative
# 
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_sequence_evidence_code 
_entity_poly.pdbx_strand_id 
_entity_poly.pdbx_target_identifier 
1 "polypeptide(L)" no no 
;KPHRYRPGTVALREIRRYQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAVMALQEAS
EAYLVGLFEDTNLCAIHAKRVTIMPKDIQLARRIRGERA
;
;KPHRYRPGTVALREIRRYQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAVMALQEAS
EAYLVGLFEDTNLCAIHAKRVTIMPKDIQLARRIRGERA
;
"depositor provided" A,E ? 
2 "polypeptide(L)" no no 
;RDNIQGITKPAIRRLARRGGVKRISGLIYEETRGVLKVFLENVIRDAVTYTE
HAKRKTVTAMDVVYALKRQGRTLYGFGG
;
;RDNIQGITKPAIRRLARRGGVKRISGLIYEETRGVLKVFLENVIRDAVTYTE
HAKRKTVTAMDVVYALKRQGRTLYGFGG
;
"depositor provided" B,F ? 
3 "polypeptide(L)" no no 
;AKSRSNRAGLQFPVGRIHRLLRKGNYAERVGAGAPVYLAAVMEYLAAEVLELAGNAAR
DNKKTRIIPRHLQLAIRNDEELNKLLSGVTIAQGGVLPNIQAVLLPKKTE
;
;AKSRSNRAGLQFPVGRIHRLLRKGNYAERVGAGAPVYLAAVMEYLAAEVLELAGNAAR
DNKKTRIIPRHLQLAIRNDEELNKLLSGVTIAQGGVLPNIQAVLLPKKTE
;
"depositor provided" C,G ? 
4 "polypeptide(L)" no no 
;RKRKESYAIYIYKVLKQVHPDTGISSKAMSIMNSFVNDIFERIAAEASRLAHYNKRSTIT
SREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSSK
;
;RKRKESYAIYIYKVLKQVHPDTGISSKAMSIMNSFVNDIFERIAAEASRLAHYNKRSTIT
SREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSSK
;
"depositor provided" D,H ? 
5 "polydeoxyribonucleotide" no no 
;(DA)(DT)(DC)(DA)(DA)(DT)(DA)(DT)(DC)(DC)(DA)(DC)(DC)(DT)(DG)(DC)(DA)(DG)(DA)(DT)
(DA)(DC)(DT)(DA)(DC)(DC)(DA)(DA)(DA)(DA)(DG)(DT)(DG)(DT)(DA)(DT)(DT)(DT)(DG)(DG)
(DA)(DA)(DA)(DC)(DT)(DG)(DC)(DT)(DC)(DC)(DA)(DT)(DC)(DA)(DA)(DA)(DA)(DG)(DG)(DC)
(DA)(DT)(DG)(DT)(DT)(DC)(DA)(DG)(DC)(DT)(DG)(DG)(DA)(DA)(DT)(DC)(DC)(DA)(DG)(DC)
(DT)(DG)(DA)(DA)(DC)(DA)(DT)(DG)(DC)(DC)(DT)(DT)(DT)(DT)(DG)(DA)(DT)(DG)(DG)(DA)
(DG)(DC)(DA)(DG)(DT)(DT)(DT)(DC)(DC)(DA)(DA)(DA)(DT)(DA)(DC)(DA)(DC)(DT)(DT)(DT)
(DT)(DG)(DG)(DT)(DA)(DG)(DT)(DA)(DT)(DC)(DT)(DG)(DC)(DA)(DG)(DG)(DT)(DG)(DG)(DA)
(DT)(DA)(DT)(DT)(DG)(DA)(DT)
;
;ATCAATATCCACCTGCAGATACTACCAAAAGTGTATTTGGAAACTGCTCCATCAAAAGGCATGTTCAGCTGGAATCCAGC
TGAACATGCCTTTTGATGGAGCAGTTTCCAAATACACTTTTGGTAGTATCTGCAGGTGGATATTGAT
;
"depositor provided" I ? 
6 "polydeoxyribonucleotide" no no 
;(DA)(DT)(DC)(DA)(DA)(DT)(DA)(DT)(DC)(DC)(DA)(DC)(DC)(DT)(DG)(DC)(DA)(DG)(DA)(DT)
(DA)(DC)(DT)(DA)(DC)(DC)(DA)(DA)(DA)(DA)(DG)(DT)(DG)(DT)(DA)(DT)(DT)(DT)(DG)(DG)
(DA)(DA)(DA)(DC)(DT)(DG)(DC)(DT)(DC)(DC)(DA)(DT)(DC)(DA)(DA)(DA)(DA)(DG)(DG)(DC)
(DA)(DT)(DG)(DT)(DT)(DC)(DA)(DG)(DC)(DT)(DG)(DG)(DA)(DT)(DT)(DC)(DC)(DA)(DG)(DC)
(DT)(DG)(DA)(DA)(DC)(DA)(DT)(DG)(DC)(DC)(DT)(DT)(DT)(DT)(DG)(DA)(DT)(DG)(DG)(DA)
(DG)(DC)(DA)(DG)(DT)(DT)(DT)(DC)(DC)(DA)(DA)(DA)(DT)(DA)(DC)(DA)(DC)(DT)(DT)(DT)
(DT)(DG)(DG)(DT)(DA)(DG)(DT)(DA)(DT)(DC)(DT)(DG)(DC)(DA)(DG)(DG)(DT)(DG)(DG)(DA)
(DT)(DA)(DT)(DT)(DG)(DA)(DT)
;
;ATCAATATCCACCTGCAGATACTACCAAAAGTGTATTTGGAAACTGCTCCATCAAAAGGCATGTTCAGCTGGATTCCAGC
TGAACATGCCTTTTGATGGAGCAGTTTCCAAATACACTTTTGGTAGTATCTGCAGGTGGATATTGAT
;
"depositor provided" J ? 
7 "polypeptide(L)" no no
;LPKDAIPSLSECQCGICMEILVEPVTLPCNHTLCKPCFQSTVEKASLCCPFCRRRVSSWT
RYHTRRNSLVNVELWTIIQKHYPRECKLRAS
;
;LPKDAIPSLSECQCGICMEILVEPVTLPCNHTLCKPCFQSTVEKASLCCPFCRRRVSSWT
RYHTRRNSLVNVELWTIIQKHYPRECKLRAS
;
"depositor provided" K ?
# 
loop_
_entity_poly_seq.entity_id 
_entity_poly_seq.num 
_entity_poly_seq.mon_id 
_entity_poly_seq.hetero
1 1   LYS n 
1 2   PRO n 
1 3   HIS n 
1 4   ARG n 
1 5   TYR n 
1 6   ARG n 
1 7   PRO n 
1 8   GLY n 
1 9   THR n 
1 10  VAL n 
1 11  ALA n 
1 12  LEU n 
1 13  ARG n 
1 14  GLU n 
1 15  ILE n 
1 16  ARG n 
1 17  ARG n 
1 18  TYR n 
1 19  GLN n 
1 20  LYS n 
1 21  SER n 
1 22  THR n 
1 23  GLU n 
1 24  LEU n 
1 25  LEU n 
1 26  ILE n 
1 27  ARG n 
1 28  LYS n 
1 29  LEU n 
1 30  PRO n 
1 31  PHE n 
1 32  GLN n 
1 33  ARG n 
1 34  LEU n 
1 35  VAL n 
1 36  ARG n 
1 37  GLU n 
1 38  ILE n 
1 39  ALA n 
1 40  GLN n 
1 41  ASP n 
1 42  PHE n 
1 43  LYS n 
1 44  THR n 
1 45  ASP n 
1 46  LEU n 
1 47  ARG n 
1 48  PHE n 
1 49  GLN n 
1 50  SER n 
1 51  SER n 
1 52  ALA n 
1 53  VAL n 
1 54  MET n 
1 55  ALA n 
1 56  LEU n 
1 57  GLN n 
1 58  GLU n 
1 59  ALA n 
1 60  SER n 
1 61  GLU n 
1 62  ALA n 
1 63  TYR n 
1 64  LEU n 
1 65  VAL n 
1 66  GLY n 
1 67  LEU n 
1 68  PHE n 
1 69  GLU n 
1 70  ASP n 
1 71  THR n 
1 72  ASN n 
1 73  LEU n 
1 74  CYS n 
1 75  ALA n 
1 76  ILE n 
1 77  HIS n 
1 78  ALA n 
1 79  LYS n 
1 80  ARG n 
1 81  VAL n 
1 82  THR n 
1 83  ILE n 
1 84  MET n 
1 85  PRO n 
1 86  LYS n 
1 87  ASP n 
1 88  ILE n 
1 89  GLN n 
1 90  LEU n 
1 91  ALA n 
1 92  ARG n 
1 93  ARG n 
1 94  ILE n 
1 95  ARG n 
1 96  GLY n 
1 97  GLU n 
1 98  ARG n 
1 99  ALA n 
2 1   ARG n 
2 2   ASP n 
2 3   ASN n 
2 4   ILE n 
2 5   GLN n 
2 6   GLY n 
2 7   ILE n 
2 8   THR n 
2 9   LYS n 
2 10  PRO n 
2 11  ALA n 
2 12  ILE n 
2 13  ARG n 
2 14  ARG n 
2 15  LEU n 
2 16  ALA n 
2 17  ARG n 
2 18  ARG n 
2 19  GLY n 
2 20  GLY n 
2 21  VAL n 
2 22  LYS n 
2 23  ARG n 
2 24  ILE n 
2 25  SER n 
2 26  GLY n 
2 27  LEU n 
2 28  ILE n 
2 29  TYR n 
2 30  GLU n 
2 31  GLU n 
2 32  THR n 
2 33  ARG n 
2 34  GLY n 
2 35  VAL n 
2 36  LEU n 
2 37  LYS n 
2 38  VAL n 
2 39  PHE n 
2 40  LEU n 
2 41  GLU n 
2 42  ASN n 
2 43  VAL n 
2 44  ILE n 
2 45  ARG n 
2 46  ASP n 
2 47  ALA n 
2 48  VAL n 
2 49  THR n 
2 50  TYR n 
2 51  THR n 
2 52  GLU n 
2 53  HIS n 
2 54  ALA n 
2 55  LYS n 
2 56  ARG n 
2 57  LYS n 
2 58  THR n 
2 59  VAL n 
2 60  THR n 
2 61  ALA n 
2 62  MET n 
2 63  ASP n 
2 64  VAL n 
2 65  VAL n 
2 66  TYR n 
2 67  ALA n 
2 68  LEU n 
2 69  LYS n 
2 70  ARG n 
2 71  GLN n 
2 72  GLY n 
2 73  ARG n 
2 74  THR n 
2 75  LEU n 
2 76  TYR n 
2 77  GLY n 
2 78  PHE n 
2 79  GLY n 
2 80  GLY n 
3 1   ALA n 
3 2   LYS n 
3 3   SER n 
3 4   ARG n 
3 5   SER n 
3 6   ASN n 
3 7   ARG n 
3 8   ALA n 
3 9   GLY n 
3 10  LEU n 
3 11  GLN n 
3 12  PHE n 
3 13  PRO n 
3 14  VAL n 
3 15  GLY n 
3 16  ARG n 
3 17  ILE n 
3 18  HIS n 
3 19  ARG n 
3 20  LEU n 
3 21  LEU n 
3 22  ARG n 
3 23  LYS n 
3 24  GLY n 
3 25  ASN n 
3 26  TYR n 
3 27  ALA n 
3 28  GLU n 
3 29  ARG n 
3 30  VAL n 
3 31  GLY n 
3 32  ALA n 
3 33  GLY n 
3 34  ALA n 
3 35  PRO n 
3 36  VAL n 
3 37  TYR n 
3 38  LEU n 
3 39  ALA n 
3 40  ALA n 
3 41  VAL n 
3 42  MET n 
3 43  GLU n 
3 44  TYR n 
3 45  LEU n 
3 46  ALA n 
3 47  ALA n 
3 48  GLU n 
3 49  VAL n 
3 50  LEU n 
3 51  GLU n 
3 52  LEU n 
3 53  ALA n 
3 54  GLY n 
3 55  ASN n 
3 56  ALA n 
3 57  ALA n 
3 58  ARG n 
3 59  ASP n 
3 60  ASN n 
3 61  LYS n 
3 62  LYS n 
3 63  THR n 
3 64  ARG n 
3 65  ILE n 
3 66  ILE n 
3 67  PRO n 
3 68  ARG n 
3 69  HIS n 
3 70  LEU n 
3 71  GLN n 
3 72  LEU n 
3 73  ALA n 
3 74  ILE n 
3 75  ARG n 
3 76  ASN n 
3 77  ASP n 
3 78  GLU n 
3 79  GLU n 
3 80  LEU n 
3 81  ASN n 
3 82  LYS n 
3 83  LEU n 
3 84  LEU n 
3 85  SER n 
3 86  GLY n 
3 87  VAL n 
3 88  THR n 
3 89  ILE n 
3 90  ALA n 
3 91  GLN n 
3 92  GLY n 
3 93  GLY n 
3 94  VAL n 
3 95  LEU n 
3 96  PRO n 
3 97  ASN n 
3 98  ILE n 
3 99  GLN n 
3 100 ALA n 
3 101 VAL n 
3 102 LEU n 
3 103 LEU n 
3 104 PRO n 
3 105 LYS n 
3 106 LYS n 
3 107 THR n 
4 1   ARG n 
4 2   LYS n 
4 3   ARG n 
4 4   LYS n 
4 5   GLU n 
4 6   SER n 
4 7   TYR n 
4 8   ALA n 
4 9   ILE n 
4 10  TYR n 
4 11  ILE n 
4 12  TYR n 
4 13  LYS n 
4 14  VAL n 
4 15  LEU n 
4 16  LYS n 
4 17  GLN n 
4 18  VAL n 
4 19  HIS n 
4 20  PRO n 
4 21  ASP n 
4 22  THR n 
4 23  GLY n 
4 24  ILE n 
4 25  SER n 
4 26  SER n 
4 27  LYS n 
4 28  ALA n 
4 29  MET n 
4 30  SER n 
4 31  ILE n 
4 32  MET n 
4 33  ASN n 
4 34  SER n 
4 35  PHE n 
4 36  VAL n 
4 37  ASN n 
4 38  ASP n 
4 39  ILE n 
4 40  PHE n 
4 41  GLU n 
4 42  ARG n 
4 43  ILE n 
4 44  ALA n 
4 45  ALA n 
4 46  GLU n 
4 47  ALA n 
4 48  SER n 
4 49  ARG n 
4 50  LEU n 
4 51  ALA n 
4 52  HIS n 
4 53  TYR n 
4 54  ASN n 
4 55  LYS n 
4 56  ARG n 
4 57  SER n 
4 58  THR n 
4 59  ILE n 
4 60  THR n 
4 61  SER n 
4 62  ARG n 
4 63  GLU n 
4 64  ILE n 
4 65  GLN n 
4 66  THR n 
4 67  ALA n 
4 68  VAL n 
4 69  ARG n 
4 70  LEU n 
4 71  LEU n 
4 72  LEU n 
4 73  PRO n 
4 74  GLY n 
4 75  GLU n 
4 76  LEU n 
4 77  ALA n 
4 78  LYS n 
4 79  HIS n 
4 80  ALA n 
4 81  VAL n 
4 82  SER n 
4 83  GLU n 
4 84  GLY n 
4 85  THR n 
4 86  LYS n 
4 87  ALA n 
4 88  VAL n 
4 89  THR n 
4 90  LYS n 
4 91  TYR n 
4 92  THR n 
4 93  SER n 
4 94  SER n 
4 95  LYS n 
5 1   DA  n 
5 2   DT  n 
5 3   DC  n 
5 4   DA  n 
5 5   DA  n 
5 6   DT  n 
5 7   DA  n 
5 8   DT  n 
5 9   DC  n 
5 10  DC  n 
5 11  DA  n 
5 12  DC  n 
5 13  DC  n 
5 14  DT  n 
5 15  DG  n 
5 16  DC  n 
5 17  DA  n 
5 18  DG  n 
5 19  DA  n 
5 20  DT  n 
5 21  DA  n 
5 22  DC  n 
5 23  DT  n 
5 24  DA  n 
5 25  DC  n 
5 26  DC  n 
5 27  DA  n 
5 28  DA  n 
5 29  DA  n 
5 30  DA  n 
5 31  DG  n 
5 32  DT  n 
5 33  DG  n 
5 34  DT  n 
5 35  DA  n 
5 36  DT  n 
5 37  DT  n 
5 38  DT  n 
5 39  DG  n 
5 40  DG  n 
5 41  DA  n 
5 42  DA  n 
5 43  DA  n 
5 44  DC  n 
5 45  DT  n 
5 46  DG  n 
5 47  DC  n 
5 48  DT  n 
5 49  DC  n 
5 50  DC  n 
5 51  DA  n 
5 52  DT  n 
5 53  DC  n 
5 54  DA  n 
5 55  DA  n 
5 56  DA  n 
5 57  DA  n 
5 58  DG  n 
5 59  DG  n 
5 60  DC  n 
5 61  DA  n 
5 62  DT  n 
5 63  DG  n 
5 64  DT  n 
5 65  DT  n 
5 66  DC  n 
5 67  DA  n 
5 68  DG  n 
5 69  DC  n 
5 70  DT  n 
5 71  DG  n 
5 72  DG  n 
5 73  DA  n 
5 74  DA  n 
5 75  DT  n 
5 76  DC  n 
5 77  DC  n 
5 78  DA  n 
5 79  DG  n 
5 80  DC  n 
5 81  DT  n 
5 82  DG  n 
5 83  DA  n 
5 84  DA  n 
5 85  DC  n 
5 86  DA  n 
5 87  DT  n 
5 88  DG  n 
5 89  DC  n 
5 90  DC  n 
5 91  DT  n 
5 92  DT  n 
5 93  DT  n 
5 94  DT  n 
5 95  DG  n 
5 96  DA  n 
5 97  DT  n 
5 98  DG  n 
5 99  DG  n 
5 100 DA  n 
5 101 DG  n 
5 102 DC  n 
5 103 DA  n 
5 104 DG  n 
5 105 DT  n 
5 106 DT  n 
5 107 DT  n 
5 108 DC  n 
5 109 DC  n 
5 110 DA  n 
5 111 DA  n 
5 112 DA  n 
5 113 DT  n 
5 114 DA  n 
5 115 DC  n 
5 116 DA  n 
5 117 DC  n 
5 118 DT  n 
5 119 DT  n 
5 120 DT  n 
5 121 DT  n 
5 122 DG  n 
5 123 DG  n 
5 124 DT  n 
5 125 DA  n 
5 126 DG  n 
5 127 DT  n 
5 128 DA  n 
5 129 DT  n 
5 130 DC  n 
5 131 DT  n 
5 132 DG  n 
5 133 DC  n 
5 134 DA  n 
5 135 DG  n 
5 136 DG  n 
5 137 DT  n 
5 138 DG  n 
5 139 DG  n 
5 140 DA  n 
5 141 DT  n 
5 142 DA  n 
5 143 DT  n 
5 144 DT  n 
5 145 DG  n 
5 146 DA  n 
5 147 DT  n 
6 1   DA  n 
6 2   DT  n 
6 3   DC  n 
6 4   DA  n 
6 5   DA  n 
6 6   DT  n 
6 7   DA  n 
6 8   DT  n 
6 9   DC  n 
6 10  DC  n 
6 11  DA  n 
6 12  DC  n 
6 13  DC  n 
6 14  DT  n 
6 15  DG  n 
6 16  DC  n 
6 17  DA  n 
6 18  DG  n 
6 19  DA  n 
6 20  DT  n 
6 21  DA  n 
6 22  DC  n 
6 23  DT  n 
6 24  DA  n 
6 25  DC  n 
6 26  DC  n 
6 27  DA  n 
6 28  DA  n 
6 29  DA  n 
6 30  DA  n 
6 31  DG  n 
6 32  DT  n 
6 33  DG  n 
6 34  DT  n 
6 35  DA  n 
6 36  DT  n 
6 37  DT  n 
6 38  DT  n 
6 39  DG  n 
6 40  DG  n 
6 41  DA  n 
6 42  DA  n 
6 43  DA  n 
6 44  DC  n 
6 45  DT  n 
6 46  DG  n 
6 47  DC  n 
6 48  DT  n 
6 49  DC  n 
6 50  DC  n 
6 51  DA  n 
6 52  DT  n 
6 53  DC  n 
6 54  DA  n 
6 55  DA  n 
6 56  DA  n 
6 57  DA  n 
6 58  DG  n 
6 59  DG  n 
6 60  DC  n 
6 61  DA  n 
6 62  DT  n 
6 63  DG  n 
6 64  DT  n 
6 65  DT  n 
6 66  DC  n 
6 67  DA  n 
6 68  DG  n 
6 69  DC  n 
6 70  DT  n 
6 71  DG  n 
6 72  DG  n 
6 73  DA  n 
6 74  DT  n 
6 75  DT  n 
6 76  DC  n 
6 77  DC  n 
6 78  DA  n 
6 79  DG  n 
6 80  DC  n 
6 81  DT  n 
6 82  DG  n 
6 83  DA  n 
6 84  DA  n 
6 85  DC  n 
6 86  DA  n 
6 87  DT  n 
6 88  DG  n 
6 89  DC  n 
6 90  DC  n 
6 91  DT  n 
6 92  DT  n 
6 93  DT  n 
6 94  DT  n 
6 95  DG  n 
6 96  DA  n 
6 97  DT  n 
6 98  DG  n 
6 99  DG  n 
6 100 DA  n 
6 101 DG  n 
6 102 DC  n 
6 103 DA  n 
6 104 DG  n 
6 105 DT  n 
6 106 DT  n 
6 107 DT  n 
6 108 DC  n 
6 109 DC  n 
6 110 DA  n 
6 111 DA  n 
6 112 DA  n 
6 113 DT  n 
6 114 DA  n 
6 115 DC  n 
6 116 DA  n 
6 117 DC  n 
6 118 DT  n 
6 119 DT  n 
6 120 DT  n 
6 121 DT  n 
6 122 DG  n 
6 123 DG  n 
6 124 DT  n 
6 125 DA  n 
6 126 DG  n 
6 127 DT  n 
6 128 DA  n 
6 129 DT  n 
6 130 DC  n 
6 131 DT  n 
6 132 DG  n 
6 133 DC  n 
6 134 DA  n 
6 135 DG  n 
6 136 DG  n 
6 137 DT  n 
6 138 DG  n 
6 139 DG  n 
6 140 DA  n 
6 141 DT  n 
6 142 DA  n 
6 143 DT  n 
6 144 DT  n 
6 145 DG  n 
6 146 DA  n 
6 147 DT  n 
7 1   LEU n 
7 2   PRO n 
7 3   LYS n 
7 4   ASP n 
7 5   ALA n 
7 6   ILE n 
7 7   PRO n 
7 8   SER n 
7 9   LEU n 
7 10  SER n 
7 11  GLU n 
7 12  CYS n 
7 13  GLN n 
7 14  CYS n 
7 15  GLY n 
7 16  ILE n 
7 17  CYS n 
7 18  MET n 
7 19  GLU n 
7 20  ILE n 
7 21  LEU n 
7 22  VAL n 
7 23  GLU n 
7 24  PRO n 
7 25  VAL n 
7 26  THR n 
7 27  LEU n 
7 28  PRO n 
7 29  CYS n 
7 30  ASN n 
7 31  HIS n 
7 32  THR n 
7 33  LEU n 
7 34  CYS n 
7 35  LYS n 
7 36  PRO n 
7 37  CYS n 
7 38  PHE n 
7 39  GLN n 
7 40  SER n 
7 41  THR n 
7 42  VAL n 
7 43  GLU n 
7 44  LYS n 
7 45  ALA n 
7 46  SER n 
7 47  LEU n 
7 48  CYS n 
7 49  CYS n 
7 50  PRO n 
7 51  PHE n 
7 52  CYS n 
7 53  ARG n 
7 54  ARG n 
7 55  ARG n 
7 56  VAL n 
7 57  SER n 
7 58  SER n 
7 59  TRP n 
7 60  THR n 
7 61  ARG n 
7 62  TYR n 
7 63  HIS n 
7 64  THR n 
7 65  ARG n 
7 66  ARG n 
7 67  ASN n 
7 68  SER n 
7 69  LEU n 
7 70  VAL n 
7 71  ASN n 
7 72  VAL n 
7 73  GLU n 
7 74  LEU n 
7 75  TRP n 
7 76  THR n 
7 77  ILE n 
7 78  ILE n 
7 79  GLN n 
7 80  LYS n 
7 81  HIS n 
7 82  TYR n 
7 83  PRO n 
7 84  ARG n 
7 85  GLU n 
7 86  CYS n 
7 87  LYS n 
7 88  LEU n 
7 89  ARG n 
7 90  ALA n 
7 91  SER n 
# 
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 H3                                                                                                       11617.591 2 ? ? ? ? 
2 polymer     man H4                                                                                                        9067.586 2 ? ? ? ? 
3 polymer     man H2A                                                                                                      11653.598 2 ? ? ? ? 
4 polymer     man H2B                                                                                                      10721.382 2 ? ? ? ? 
5 polymer     syn "DNA strand 1"                                                                                           45368.059 1 ? ? ? ?
6 polymer     syn "DNA strand 2"                                                                                           45359.043 1 ? ? ? ?
7 polymer     man "RNF168 RING domain"                                                                                     10540.436 1 ? ? ? ?
# 
loop_
_struct_ref.id
_struct_ref.entity_id
_struct_ref.db_name
_struct_ref.db_code
_struct_ref.pdbx_db_accession
_struct_ref.pdbx_align_begin
_struct_ref.pdbx_seq_one_letter_code
_struct_ref.details
1 1 UNP H32_HUMAN Q71DI3  38 . .
2 2 UNP H4_HUMAN  P62805  24 . .
3 3 UNP H2A_DROME P84051  14 . .
4 4 UNP H2B_DROME P02283  29 . .
5 5 PDB 8ZZS 8ZZS 1 . .
6 6 PDB 8ZZS 8ZZS 1 . .
7 7 UNP RN168_HUMAN Q8IYW5 3 . .
#
loop_
_struct_ref_seq.align_id
_struct_ref_seq.ref_id
_struct_ref_seq.seq_align_beg
_struct_ref_seq.seq_align_end
_struct_ref_seq.db_align_beg
_struct_ref_seq.db_align_end
1 1 1  99  38 136
2 2 1  80  24 103
3 3 1 108  14 121
4 4 1  95  29 123
5 5 1 147   1 147
6 6 1 147   1 147
7 7 1  91   3  93
#
loop_
_entity_name_com.entity_id
_entity_name_com.name 
1 H3
2 H4
3 H2A
4 H2B
5 "DNA strand 1"
6 "DNA strand 2"
7 "RNF168 RING domain"
# 
loop_
_entity_name_sys.entity_id 
_entity_name_sys.name 
1 "histone H3"
2 "histone H4"
3 "histone H2A"
4 "histone H2B"
5 "alpha-sattelite DNA strand 1"
6 "alpha-sattelite DNA strand 2"
7 "E3 ubiquitin-protein ligase RNF168"
# 
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   LYS 1   37  37  LYS LYS A . n 
A 1 2   PRO 2   38  38  PRO PRO A . n 
A 1 3   HIS 3   39  39  HIS HIS A . n 
A 1 4   ARG 4   40  40  ARG ARG A . n 
A 1 5   TYR 5   41  41  TYR TYR A . n 
A 1 6   ARG 6   42  42  ARG ARG A . n 
A 1 7   PRO 7   43  43  PRO PRO A . n 
A 1 8   GLY 8   44  44  GLY GLY A . n 
A 1 9   THR 9   45  45  THR THR A . n 
A 1 10  VAL 10  46  46  VAL VAL A . n 
A 1 11  ALA 11  47  47  ALA ALA A . n 
A 1 12  LEU 12  48  48  LEU LEU A . n 
A 1 13  ARG 13  49  49  ARG ARG A . n 
A 1 14  GLU 14  50  50  GLU GLU A . n 
A 1 15  ILE 15  51  51  ILE ILE A . n 
A 1 16  ARG 16  52  52  ARG ARG A . n 
A 1 17  ARG 17  53  53  ARG ARG A . n 
A 1 18  TYR 18  54  54  TYR TYR A . n 
A 1 19  GLN 19  55  55  GLN GLN A . n 
A 1 20  LYS 20  56  56  LYS LYS A . n 
A 1 21  SER 21  57  57  SER SER A . n 
A 1 22  THR 22  58  58  THR THR A . n 
A 1 23  GLU 23  59  59  GLU GLU A . n 
A 1 24  LEU 24  60  60  LEU LEU A . n 
A 1 25  LEU 25  61  61  LEU LEU A . n 
A 1 26  ILE 26  62  62  ILE ILE A . n 
A 1 27  ARG 27  63  63  ARG ARG A . n 
A 1 28  LYS 28  64  64  LYS LYS A . n 
A 1 29  LEU 29  65  65  LEU LEU A . n 
A 1 30  PRO 30  66  66  PRO PRO A . n 
A 1 31  PHE 31  67  67  PHE PHE A . n 
A 1 32  GLN 32  68  68  GLN GLN A . n 
A 1 33  ARG 33  69  69  ARG ARG A . n 
A 1 34  LEU 34  70  70  LEU LEU A . n 
A 1 35  VAL 35  71  71  VAL VAL A . n 
A 1 36  ARG 36  72  72  ARG ARG A . n 
A 1 37  GLU 37  73  73  GLU GLU A . n 
A 1 38  ILE 38  74  74  ILE ILE A . n 
A 1 39  ALA 39  75  75  ALA ALA A . n 
A 1 40  GLN 40  76  76  GLN GLN A . n 
A 1 41  ASP 41  77  77  ASP ASP A . n 
A 1 42  PHE 42  78  78  PHE PHE A . n 
A 1 43  LYS 43  79  79  LYS LYS A . n 
A 1 44  THR 44  80  80  THR THR A . n 
A 1 45  ASP 45  81  81  ASP ASP A . n 
A 1 46  LEU 46  82  82  LEU LEU A . n 
A 1 47  ARG 47  83  83  ARG ARG A . n 
A 1 48  PHE 48  84  84  PHE PHE A . n 
A 1 49  GLN 49  85  85  GLN GLN A . n 
A 1 50  SER 50  86  86  SER SER A . n 
A 1 51  SER 51  87  87  SER SER A . n 
A 1 52  ALA 52  88  88  ALA ALA A . n 
A 1 53  VAL 53  89  89  VAL VAL A . n 
A 1 54  MET 54  90  90  MET MET A . n 
A 1 55  ALA 55  91  91  ALA ALA A . n 
A 1 56  LEU 56  92  92  LEU LEU A . n 
A 1 57  GLN 57  93  93  GLN GLN A . n 
A 1 58  GLU 58  94  94  GLU GLU A . n 
A 1 59  ALA 59  95  95  ALA ALA A . n 
A 1 60  SER 60  96  96  SER SER A . n 
A 1 61  GLU 61  97  97  GLU GLU A . n 
A 1 62  ALA 62  98  98  ALA ALA A . n 
A 1 63  TYR 63  99  99  TYR TYR A . n 
A 1 64  LEU 64  100 100 LEU LEU A . n 
A 1 65  VAL 65  101 101 VAL VAL A . n 
A 1 66  GLY 66  102 102 GLY GLY A . n 
A 1 67  LEU 67  103 103 LEU LEU A . n 
A 1 68  PHE 68  104 104 PHE PHE A . n 
A 1 69  GLU 69  105 105 GLU GLU A . n 
A 1 70  ASP 70  106 106 ASP ASP A . n 
A 1 71  THR 71  107 107 THR THR A . n 
A 1 72  ASN 72  108 108 ASN ASN A . n 
A 1 73  LEU 73  109 109 LEU LEU A . n 
A 1 74  CYS 74  110 110 CYS CYS A . n 
A 1 75  ALA 75  111 111 ALA ALA A . n 
A 1 76  ILE 76  112 112 ILE ILE A . n 
A 1 77  HIS 77  113 113 HIS HIS A . n 
A 1 78  ALA 78  114 114 ALA ALA A . n 
A 1 79  LYS 79  115 115 LYS LYS A . n 
A 1 80  ARG 80  116 116 ARG ARG A . n 
A 1 81  VAL 81  117 117 VAL VAL A . n 
A 1 82  THR 82  118 118 THR THR A . n 
A 1 83  ILE 83  119 119 ILE ILE A . n 
A 1 84  MET 84  120 120 MET MET A . n 
A 1 85  PRO 85  121 121 PRO PRO A . n 
A 1 86  LYS 86  122 122 LYS LYS A . n 
A 1 87  ASP 87  123 123 ASP ASP A . n 
A 1 88  ILE 88  124 124 ILE ILE A . n 
A 1 89  GLN 89  125 125 GLN GLN A . n 
A 1 90  LEU 90  126 126 LEU LEU A . n 
A 1 91  ALA 91  127 127 ALA ALA A . n 
A 1 92  ARG 92  128 128 ARG ARG A . n 
A 1 93  ARG 93  129 129 ARG ARG A . n 
A 1 94  ILE 94  130 130 ILE ILE A . n 
A 1 95  ARG 95  131 131 ARG ARG A . n 
A 1 96  GLY 96  132 132 GLY GLY A . n 
A 1 97  GLU 97  133 133 GLU GLU A . n 
A 1 98  ARG 98  134 134 ARG ARG A . n 
A 1 99  ALA 99  135 135 ALA ALA A . n 
B 2 1   ARG 1   23  23  ARG ARG B . n 
B 2 2   ASP 2   24  24  ASP ASP B . n 
B 2 3   ASN 3   25  25  ASN ASN B . n 
B 2 4   ILE 4   26  26  ILE ILE B . n 
B 2 5   GLN 5   27  27  GLN GLN B . n 
B 2 6   GLY 6   28  28  GLY GLY B . n 
B 2 7   ILE 7   29  29  ILE ILE B . n 
B 2 8   THR 8   30  30  THR THR B . n 
B 2 9   LYS 9   31  31  LYS LYS B . n 
B 2 10  PRO 10  32  32  PRO PRO B . n 
B 2 11  ALA 11  33  33  ALA ALA B . n 
B 2 12  ILE 12  34  34  ILE ILE B . n 
B 2 13  ARG 13  35  35  ARG ARG B . n 
B 2 14  ARG 14  36  36  ARG ARG B . n 
B 2 15  LEU 15  37  37  LEU LEU B . n 
B 2 16  ALA 16  38  38  ALA ALA B . n 
B 2 17  ARG 17  39  39  ARG ARG B . n 
B 2 18  ARG 18  40  40  ARG ARG B . n 
B 2 19  GLY 19  41  41  GLY GLY B . n 
B 2 20  GLY 20  42  42  GLY GLY B . n 
B 2 21  VAL 21  43  43  VAL VAL B . n 
B 2 22  LYS 22  44  44  LYS LYS B . n 
B 2 23  ARG 23  45  45  ARG ARG B . n 
B 2 24  ILE 24  46  46  ILE ILE B . n 
B 2 25  SER 25  47  47  SER SER B . n 
B 2 26  GLY 26  48  48  GLY GLY B . n 
B 2 27  LEU 27  49  49  LEU LEU B . n 
B 2 28  ILE 28  50  50  ILE ILE B . n 
B 2 29  TYR 29  51  51  TYR TYR B . n 
B 2 30  GLU 30  52  52  GLU GLU B . n 
B 2 31  GLU 31  53  53  GLU GLU B . n 
B 2 32  THR 32  54  54  THR THR B . n 
B 2 33  ARG 33  55  55  ARG ARG B . n 
B 2 34  GLY 34  56  56  GLY GLY B . n 
B 2 35  VAL 35  57  57  VAL VAL B . n 
B 2 36  LEU 36  58  58  LEU LEU B . n 
B 2 37  LYS 37  59  59  LYS LYS B . n 
B 2 38  VAL 38  60  60  VAL VAL B . n 
B 2 39  PHE 39  61  61  PHE PHE B . n 
B 2 40  LEU 40  62  62  LEU LEU B . n 
B 2 41  GLU 41  63  63  GLU GLU B . n 
B 2 42  ASN 42  64  64  ASN ASN B . n 
B 2 43  VAL 43  65  65  VAL VAL B . n 
B 2 44  ILE 44  66  66  ILE ILE B . n 
B 2 45  ARG 45  67  67  ARG ARG B . n 
B 2 46  ASP 46  68  68  ASP ASP B . n 
B 2 47  ALA 47  69  69  ALA ALA B . n 
B 2 48  VAL 48  70  70  VAL VAL B . n 
B 2 49  THR 49  71  71  THR THR B . n 
B 2 50  TYR 50  72  72  TYR TYR B . n 
B 2 51  THR 51  73  73  THR THR B . n 
B 2 52  GLU 52  74  74  GLU GLU B . n 
B 2 53  HIS 53  75  75  HIS HIS B . n 
B 2 54  ALA 54  76  76  ALA ALA B . n 
B 2 55  LYS 55  77  77  LYS LYS B . n 
B 2 56  ARG 56  78  78  ARG ARG B . n 
B 2 57  LYS 57  79  79  LYS LYS B . n 
B 2 58  THR 58  80  80  THR THR B . n 
B 2 59  VAL 59  81  81  VAL VAL B . n 
B 2 60  THR 60  82  82  THR THR B . n 
B 2 61  ALA 61  83  83  ALA ALA B . n 
B 2 62  MET 62  84  84  MET MET B . n 
B 2 63  ASP 63  85  85  ASP ASP B . n 
B 2 64  VAL 64  86  86  VAL VAL B . n 
B 2 65  VAL 65  87  87  VAL VAL B . n 
B 2 66  TYR 66  88  88  TYR TYR B . n 
B 2 67  ALA 67  89  89  ALA ALA B . n 
B 2 68  LEU 68  90  90  LEU LEU B . n 
B 2 69  LYS 69  91  91  LYS LYS B . n 
B 2 70  ARG 70  92  92  ARG ARG B . n 
B 2 71  GLN 71  93  93  GLN GLN B . n 
B 2 72  GLY 72  94  94  GLY GLY B . n 
B 2 73  ARG 73  95  95  ARG ARG B . n 
B 2 74  THR 74  96  96  THR THR B . n 
B 2 75  LEU 75  97  97  LEU LEU B . n 
B 2 76  TYR 76  98  98  TYR TYR B . n 
B 2 77  GLY 77  99  99  GLY GLY B . n 
B 2 78  PHE 78  100 100 PHE PHE B . n 
B 2 79  GLY 79  101 101 GLY GLY B . n 
B 2 80  GLY 80  102 102 GLY GLY B . n 
C 3 1   ALA 1   13  13  ALA ALA C . n 
C 3 2   LYS 2   14  14  LYS LYS C . n 
C 3 3   SER 3   15  15  SER SER C . n 
C 3 4   ARG 4   16  16  ARG ARG C . n 
C 3 5   SER 5   17  17  SER SER C . n 
C 3 6   ASN 6   18  18  ASN ASN C . n 
C 3 7   ARG 7   19  19  ARG ARG C . n 
C 3 8   ALA 8   20  20  ALA ALA C . n 
C 3 9   GLY 9   21  21  GLY GLY C . n 
C 3 10  LEU 10  22  22  LEU LEU C . n 
C 3 11  GLN 11  23  23  GLN GLN C . n 
C 3 12  PHE 12  24  24  PHE PHE C . n 
C 3 13  PRO 13  25  25  PRO PRO C . n 
C 3 14  VAL 14  26  26  VAL VAL C . n 
C 3 15  GLY 15  27  27  GLY GLY C . n 
C 3 16  ARG 16  28  28  ARG ARG C . n 
C 3 17  ILE 17  29  29  ILE ILE C . n 
C 3 18  HIS 18  30  30  HIS HIS C . n 
C 3 19  ARG 19  31  31  ARG ARG C . n 
C 3 20  LEU 20  32  32  LEU LEU C . n 
C 3 21  LEU 21  33  33  LEU LEU C . n 
C 3 22  ARG 22  34  34  ARG ARG C . n 
C 3 23  LYS 23  35  35  LYS LYS C . n 
C 3 24  GLY 24  36  36  GLY GLY C . n 
C 3 25  ASN 25  37  37  ASN ASN C . n 
C 3 26  TYR 26  38  38  TYR TYR C . n 
C 3 27  ALA 27  39  39  ALA ALA C . n 
C 3 28  GLU 28  40  40  GLU GLU C . n 
C 3 29  ARG 29  41  41  ARG ARG C . n 
C 3 30  VAL 30  42  42  VAL VAL C . n 
C 3 31  GLY 31  43  43  GLY GLY C . n 
C 3 32  ALA 32  44  44  ALA ALA C . n 
C 3 33  GLY 33  45  45  GLY GLY C . n 
C 3 34  ALA 34  46  46  ALA ALA C . n 
C 3 35  PRO 35  47  47  PRO PRO C . n 
C 3 36  VAL 36  48  48  VAL VAL C . n 
C 3 37  TYR 37  49  49  TYR TYR C . n 
C 3 38  LEU 38  50  50  LEU LEU C . n 
C 3 39  ALA 39  51  51  ALA ALA C . n 
C 3 40  ALA 40  52  52  ALA ALA C . n 
C 3 41  VAL 41  53  53  VAL VAL C . n 
C 3 42  MET 42  54  54  MET MET C . n 
C 3 43  GLU 43  55  55  GLU GLU C . n 
C 3 44  TYR 44  56  56  TYR TYR C . n 
C 3 45  LEU 45  57  57  LEU LEU C . n 
C 3 46  ALA 46  58  58  ALA ALA C . n 
C 3 47  ALA 47  59  59  ALA ALA C . n 
C 3 48  GLU 48  60  60  GLU GLU C . n 
C 3 49  VAL 49  61  61  VAL VAL C . n 
C 3 50  LEU 50  62  62  LEU LEU C . n 
C 3 51  GLU 51  63  63  GLU GLU C . n 
C 3 52  LEU 52  64  64  LEU LEU C . n 
C 3 53  ALA 53  65  65  ALA ALA C . n 
C 3 54  GLY 54  66  66  GLY GLY C . n 
C 3 55  ASN 55  67  67  ASN ASN C . n 
C 3 56  ALA 56  68  68  ALA ALA C . n 
C 3 57  ALA 57  69  69  ALA ALA C . n 
C 3 58  ARG 58  70  70  ARG ARG C . n 
C 3 59  ASP 59  71  71  ASP ASP C . n 
C 3 60  ASN 60  72  72  ASN ASN C . n 
C 3 61  LYS 61  73  73  LYS LYS C . n 
C 3 62  LYS 62  74  74  LYS LYS C . n 
C 3 63  THR 63  75  75  THR THR C . n 
C 3 64  ARG 64  76  76  ARG ARG C . n 
C 3 65  ILE 65  77  77  ILE ILE C . n 
C 3 66  ILE 66  78  78  ILE ILE C . n 
C 3 67  PRO 67  79  79  PRO PRO C . n 
C 3 68  ARG 68  80  80  ARG ARG C . n 
C 3 69  HIS 69  81  81  HIS HIS C . n 
C 3 70  LEU 70  82  82  LEU LEU C . n 
C 3 71  GLN 71  83  83  GLN GLN C . n 
C 3 72  LEU 72  84  84  LEU LEU C . n 
C 3 73  ALA 73  85  85  ALA ALA C . n 
C 3 74  ILE 74  86  86  ILE ILE C . n 
C 3 75  ARG 75  87  87  ARG ARG C . n 
C 3 76  ASN 76  88  88  ASN ASN C . n 
C 3 77  ASP 77  89  89  ASP ASP C . n 
C 3 78  GLU 78  90  90  GLU GLU C . n 
C 3 79  GLU 79  91  91  GLU GLU C . n 
C 3 80  LEU 80  92  92  LEU LEU C . n 
C 3 81  ASN 81  93  93  ASN ASN C . n 
C 3 82  LYS 82  94  94  LYS LYS C . n 
C 3 83  LEU 83  95  95  LEU LEU C . n 
C 3 84  LEU 84  96  96  LEU LEU C . n 
C 3 85  SER 85  97  97  SER SER C . n 
C 3 86  GLY 86  98  98  GLY GLY C . n 
C 3 87  VAL 87  99  99  VAL VAL C . n 
C 3 88  THR 88  100 100 THR THR C . n 
C 3 89  ILE 89  101 101 ILE ILE C . n 
C 3 90  ALA 90  102 102 ALA ALA C . n 
C 3 91  GLN 91  103 103 GLN GLN C . n 
C 3 92  GLY 92  104 104 GLY GLY C . n 
C 3 93  GLY 93  105 105 GLY GLY C . n 
C 3 94  VAL 94  106 106 VAL VAL C . n 
C 3 95  LEU 95  107 107 LEU LEU C . n 
C 3 96  PRO 96  108 108 PRO PRO C . n 
C 3 97  ASN 97  109 109 ASN ASN C . n 
C 3 98  ILE 98  110 110 ILE ILE C . n 
C 3 99  GLN 99  111 111 GLN GLN C . n 
C 3 100 ALA 100 112 112 ALA ALA C . n 
C 3 101 VAL 101 113 113 VAL VAL C . n 
C 3 102 LEU 102 114 114 LEU LEU C . n 
C 3 103 LEU 103 115 115 LEU LEU C . n 
C 3 104 PRO 104 116 116 PRO PRO C . n 
C 3 105 LYS 105 117 117 LYS LYS C . n 
C 3 106 LYS 106 118 118 LYS LYS C . n 
C 3 107 THR 107 119 119 THR THR C . n 
D 4 1   ARG 1   28  28  ARG ARG D . n 
D 4 2   LYS 2   29  29  LYS LYS D . n 
D 4 3   ARG 3   30  30  ARG ARG D . n 
D 4 4   LYS 4   31  31  LYS LYS D . n 
D 4 5   GLU 5   32  32  GLU GLU D . n 
D 4 6   SER 6   33  33  SER SER D . n 
D 4 7   TYR 7   34  34  TYR TYR D . n 
D 4 8   ALA 8   35  35  ALA ALA D . n 
D 4 9   ILE 9   36  36  ILE ILE D . n 
D 4 10  TYR 10  37  37  TYR TYR D . n 
D 4 11  ILE 11  38  38  ILE ILE D . n 
D 4 12  TYR 12  39  39  TYR TYR D . n 
D 4 13  LYS 13  40  40  LYS LYS D . n 
D 4 14  VAL 14  41  41  VAL VAL D . n 
D 4 15  LEU 15  42  42  LEU LEU D . n 
D 4 16  LYS 16  43  43  LYS LYS D . n 
D 4 17  GLN 17  44  44  GLN GLN D . n 
D 4 18  VAL 18  45  45  VAL VAL D . n 
D 4 19  HIS 19  46  46  HIS HIS D . n 
D 4 20  PRO 20  47  47  PRO PRO D . n 
D 4 21  ASP 21  48  48  ASP ASP D . n 
D 4 22  THR 22  49  49  THR THR D . n 
D 4 23  GLY 23  50  50  GLY GLY D . n 
D 4 24  ILE 24  51  51  ILE ILE D . n 
D 4 25  SER 25  52  52  SER SER D . n 
D 4 26  SER 26  53  53  SER SER D . n 
D 4 27  LYS 27  54  54  LYS LYS D . n 
D 4 28  ALA 28  55  55  ALA ALA D . n 
D 4 29  MET 29  56  56  MET MET D . n 
D 4 30  SER 30  57  57  SER SER D . n 
D 4 31  ILE 31  58  58  ILE ILE D . n 
D 4 32  MET 32  59  59  MET MET D . n 
D 4 33  ASN 33  60  60  ASN ASN D . n 
D 4 34  SER 34  61  61  SER SER D . n 
D 4 35  PHE 35  62  62  PHE PHE D . n 
D 4 36  VAL 36  63  63  VAL VAL D . n 
D 4 37  ASN 37  64  64  ASN ASN D . n 
D 4 38  ASP 38  65  65  ASP ASP D . n 
D 4 39  ILE 39  66  66  ILE ILE D . n 
D 4 40  PHE 40  67  67  PHE PHE D . n 
D 4 41  GLU 41  68  68  GLU GLU D . n 
D 4 42  ARG 42  69  69  ARG ARG D . n 
D 4 43  ILE 43  70  70  ILE ILE D . n 
D 4 44  ALA 44  71  71  ALA ALA D . n 
D 4 45  ALA 45  72  72  ALA ALA D . n 
D 4 46  GLU 46  73  73  GLU GLU D . n 
D 4 47  ALA 47  74  74  ALA ALA D . n 
D 4 48  SER 48  75  75  SER SER D . n 
D 4 49  ARG 49  76  76  ARG ARG D . n 
D 4 50  LEU 50  77  77  LEU LEU D . n 
D 4 51  ALA 51  78  78  ALA ALA D . n 
D 4 52  HIS 52  79  79  HIS HIS D . n 
D 4 53  TYR 53  80  80  TYR TYR D . n 
D 4 54  ASN 54  81  81  ASN ASN D . n 
D 4 55  LYS 55  82  82  LYS LYS D . n 
D 4 56  ARG 56  83  83  ARG ARG D . n 
D 4 57  SER 57  84  84  SER SER D . n 
D 4 58  THR 58  85  85  THR THR D . n 
D 4 59  ILE 59  86  86  ILE ILE D . n 
D 4 60  THR 60  87  87  THR THR D . n 
D 4 61  SER 61  88  88  SER SER D . n 
D 4 62  ARG 62  89  89  ARG ARG D . n 
D 4 63  GLU 63  90  90  GLU GLU D . n 
D 4 64  ILE 64  91  91  ILE ILE D . n 
D 4 65  GLN 65  92  92  GLN GLN D . n 
D 4 66  THR 66  93  93  THR THR D . n 
D 4 67  ALA 67  94  94  ALA ALA D . n 
D 4 68  VAL 68  95  95  VAL VAL D . n 
D 4 69  ARG 69  96  96  ARG ARG D . n 
D 4 70  LEU 70  97  97  LEU LEU D . n 
D 4 71  LEU 71  98  98  LEU LEU D . n 
D 4 72  LEU 72  99  99  LEU LEU D . n 
D 4 73  PRO 73  100 100 PRO PRO D . n 
D 4 74  GLY 74  101 101 GLY GLY D . n 
D 4 75  GLU 75  102 102 GLU GLU D . n 
D 4 76  LEU 76  103 103 LEU LEU D . n 
D 4 77  ALA 77  104 104 ALA ALA D . n 
D 4 78  LYS 78  105 105 LYS LYS D . n 
D 4 79  HIS 79  106 106 HIS HIS D . n 
D 4 80  ALA 80  107 107 ALA ALA D . n 
D 4 81  VAL 81  108 108 VAL VAL D . n 
D 4 82  SER 82  109 109 SER SER D . n 
D 4 83  GLU 83  110 110 GLU GLU D . n 
D 4 84  GLY 84  111 111 GLY GLY D . n 
D 4 85  THR 85  112 112 THR THR D . n 
D 4 86  LYS 86  113 113 LYS LYS D . n 
D 4 87  ALA 87  114 114 ALA ALA D . n 
D 4 88  VAL 88  115 115 VAL VAL D . n 
D 4 89  THR 89  116 116 THR THR D . n 
D 4 90  LYS 90  117 117 LYS LYS D . n 
D 4 91  TYR 91  118 118 TYR TYR D . n 
D 4 92  THR 92  119 119 THR THR D . n 
D 4 93  SER 93  120 120 SER SER D . n 
D 4 94  SER 94  121 121 SER SER D . n 
D 4 95  LYS 95  122 122 LYS LYS D . n 
E 1 1   LYS 1   37  37  LYS LYS E . n 
E 1 2   PRO 2   38  38  PRO PRO E . n 
E 1 3   HIS 3   39  39  HIS HIS E . n 
E 1 4   ARG 4   40  40  ARG ARG E . n 
E 1 5   TYR 5   41  41  TYR TYR E . n 
E 1 6   ARG 6   42  42  ARG ARG E . n 
E 1 7   PRO 7   43  43  PRO PRO E . n 
E 1 8   GLY 8   44  44  GLY GLY E . n 
E 1 9   THR 9   45  45  THR THR E . n 
E 1 10  VAL 10  46  46  VAL VAL E . n 
E 1 11  ALA 11  47  47  ALA ALA E . n 
E 1 12  LEU 12  48  48  LEU LEU E . n 
E 1 13  ARG 13  49  49  ARG ARG E . n 
E 1 14  GLU 14  50  50  GLU GLU E . n 
E 1 15  ILE 15  51  51  ILE ILE E . n 
E 1 16  ARG 16  52  52  ARG ARG E . n 
E 1 17  ARG 17  53  53  ARG ARG E . n 
E 1 18  TYR 18  54  54  TYR TYR E . n 
E 1 19  GLN 19  55  55  GLN GLN E . n 
E 1 20  LYS 20  56  56  LYS LYS E . n 
E 1 21  SER 21  57  57  SER SER E . n 
E 1 22  THR 22  58  58  THR THR E . n 
E 1 23  GLU 23  59  59  GLU GLU E . n 
E 1 24  LEU 24  60  60  LEU LEU E . n 
E 1 25  LEU 25  61  61  LEU LEU E . n 
E 1 26  ILE 26  62  62  ILE ILE E . n 
E 1 27  ARG 27  63  63  ARG ARG E . n 
E 1 28  LYS 28  64  64  LYS LYS E . n 
E 1 29  LEU 29  65  65  LEU LEU E . n 
E 1 30  PRO 30  66  66  PRO PRO E . n 
E 1 31  PHE 31  67  67  PHE PHE E . n 
E 1 32  GLN 32  68  68  GLN GLN E . n 
E 1 33  ARG 33  69  69  ARG ARG E . n 
E 1 34  LEU 34  70  70  LEU LEU E . n 
E 1 35  VAL 35  71  71  VAL VAL E . n 
E 1 36  ARG 36  72  72  ARG ARG E . n 
E 1 37  GLU 37  73  73  GLU GLU E . n 
E 1 38  ILE 38  74  74  ILE ILE E . n 
E 1 39  ALA 39  75  75  ALA ALA E . n 
E 1 40  GLN 40  76  76  GLN GLN E . n 
E 1 41  ASP 41  77  77  ASP ASP E . n 
E 1 42  PHE 42  78  78  PHE PHE E . n 
E 1 43  LYS 43  79  79  LYS LYS E . n 
E 1 44  THR 44  80  80  THR THR E . n 
E 1 45  ASP 45  81  81  ASP ASP E . n 
E 1 46  LEU 46  82  82  LEU LEU E . n 
E 1 47  ARG 47  83  83  ARG ARG E . n 
E 1 48  PHE 48  84  84  PHE PHE E . n 
E 1 49  GLN 49  85  85  GLN GLN E . n 
E 1 50  SER 50  86  86  SER SER E . n 
E 1 51  SER 51  87  87  SER SER E . n 
E 1 52  ALA 52  88  88  ALA ALA E . n 
E 1 53  VAL 53  89  89  VAL VAL E . n 
E 1 54  MET 54  90  90  MET MET E . n 
E 1 55  ALA 55  91  91  ALA ALA E . n 
E 1 56  LEU 56  92  92  LEU LEU E . n 
E 1 57  GLN 57  93  93  GLN GLN E . n 
E 1 58  GLU 58  94  94  GLU GLU E . n 
E 1 59  ALA 59  95  95  ALA ALA E . n 
E 1 60  SER 60  96  96  SER SER E . n 
E 1 61  GLU 61  97  97  GLU GLU E . n 
E 1 62  ALA 62  98  98  ALA ALA E . n 
E 1 63  TYR 63  99  99  TYR TYR E . n 
E 1 64  LEU 64  100 100 LEU LEU E . n 
E 1 65  VAL 65  101 101 VAL VAL E . n 
E 1 66  GLY 66  102 102 GLY GLY E . n 
E 1 67  LEU 67  103 103 LEU LEU E . n 
E 1 68  PHE 68  104 104 PHE PHE E . n 
E 1 69  GLU 69  105 105 GLU GLU E . n 
E 1 70  ASP 70  106 106 ASP ASP E . n 
E 1 71  THR 71  107 107 THR THR E . n 
E 1 72  ASN 72  108 108 ASN ASN E . n 
E 1 73  LEU 73  109 109 LEU LEU E . n 
E 1 74  CYS 74  110 110 CYS CYS E . n 
E 1 75  ALA 75  111 111 ALA ALA E . n 
E 1 76  ILE 76  112 112 ILE ILE E . n 
E 1 77  HIS 77  113 113 HIS HIS E . n 
E 1 78  ALA 78  114 114 ALA ALA E . n 
E 1 79  LYS 79  115 115 LYS LYS E . n 
E 1 80  ARG 80  116 116 ARG ARG E . n 
E 1 81  VAL 81  117 117 VAL VAL E . n 
E 1 82  THR 82  118 118 THR THR E . n 
E 1 83  ILE 83  119 119 ILE ILE E . n 
E 1 84  MET 84  120 120 MET MET E . n 
E 1 85  PRO 85  121 121 PRO PRO E . n 
E 1 86  LYS 86  122 122 LYS LYS E . n 
E 1 87  ASP 87  123 123 ASP ASP E . n 
E 1 88  ILE 88  124 124 ILE ILE E . n 
E 1 89  GLN 89  125 125 GLN GLN E . n 
E 1 90  LEU 90  126 126 LEU LEU E . n 
E 1 91  ALA 91  127 127 ALA ALA E . n 
E 1 92  ARG 92  128 128 ARG ARG E . n 
E 1 93  ARG 93  129 129 ARG ARG E . n 
E 1 94  ILE 94  130 130 ILE ILE E . n 
E 1 95  ARG 95  131 131 ARG ARG E . n 
E 1 96  GLY 96  132 132 GLY GLY E . n 
E 1 97  GLU 97  133 133 GLU GLU E . n 
E 1 98  ARG 98  134 134 ARG ARG E . n 
E 1 99  ALA 99  135 135 ALA ALA E . n 
F 2 1   ARG 1   23  23  ARG ARG F . n 
F 2 2   ASP 2   24  24  ASP ASP F . n 
F 2 3   ASN 3   25  25  ASN ASN F . n 
F 2 4   ILE 4   26  26  ILE ILE F . n 
F 2 5   GLN 5   27  27  GLN GLN F . n 
F 2 6   GLY 6   28  28  GLY GLY F . n 
F 2 7   ILE 7   29  29  ILE ILE F . n 
F 2 8   THR 8   30  30  THR THR F . n 
F 2 9   LYS 9   31  31  LYS LYS F . n 
F 2 10  PRO 10  32  32  PRO PRO F . n 
F 2 11  ALA 11  33  33  ALA ALA F . n 
F 2 12  ILE 12  34  34  ILE ILE F . n 
F 2 13  ARG 13  35  35  ARG ARG F . n 
F 2 14  ARG 14  36  36  ARG ARG F . n 
F 2 15  LEU 15  37  37  LEU LEU F . n 
F 2 16  ALA 16  38  38  ALA ALA F . n 
F 2 17  ARG 17  39  39  ARG ARG F . n 
F 2 18  ARG 18  40  40  ARG ARG F . n 
F 2 19  GLY 19  41  41  GLY GLY F . n 
F 2 20  GLY 20  42  42  GLY GLY F . n 
F 2 21  VAL 21  43  43  VAL VAL F . n 
F 2 22  LYS 22  44  44  LYS LYS F . n 
F 2 23  ARG 23  45  45  ARG ARG F . n 
F 2 24  ILE 24  46  46  ILE ILE F . n 
F 2 25  SER 25  47  47  SER SER F . n 
F 2 26  GLY 26  48  48  GLY GLY F . n 
F 2 27  LEU 27  49  49  LEU LEU F . n 
F 2 28  ILE 28  50  50  ILE ILE F . n 
F 2 29  TYR 29  51  51  TYR TYR F . n 
F 2 30  GLU 30  52  52  GLU GLU F . n 
F 2 31  GLU 31  53  53  GLU GLU F . n 
F 2 32  THR 32  54  54  THR THR F . n 
F 2 33  ARG 33  55  55  ARG ARG F . n 
F 2 34  GLY 34  56  56  GLY GLY F . n 
F 2 35  VAL 35  57  57  VAL VAL F . n 
F 2 36  LEU 36  58  58  LEU LEU F . n 
F 2 37  LYS 37  59  59  LYS LYS F . n 
F 2 38  VAL 38  60  60  VAL VAL F . n 
F 2 39  PHE 39  61  61  PHE PHE F . n 
F 2 40  LEU 40  62  62  LEU LEU F . n 
F 2 41  GLU 41  63  63  GLU GLU F . n 
F 2 42  ASN 42  64  64  ASN ASN F . n 
F 2 43  VAL 43  65  65  VAL VAL F . n 
F 2 44  ILE 44  66  66  ILE ILE F . n 
F 2 45  ARG 45  67  67  ARG ARG F . n 
F 2 46  ASP 46  68  68  ASP ASP F . n 
F 2 47  ALA 47  69  69  ALA ALA F . n 
F 2 48  VAL 48  70  70  VAL VAL F . n 
F 2 49  THR 49  71  71  THR THR F . n 
F 2 50  TYR 50  72  72  TYR TYR F . n 
F 2 51  THR 51  73  73  THR THR F . n 
F 2 52  GLU 52  74  74  GLU GLU F . n 
F 2 53  HIS 53  75  75  HIS HIS F . n 
F 2 54  ALA 54  76  76  ALA ALA F . n 
F 2 55  LYS 55  77  77  LYS LYS F . n 
F 2 56  ARG 56  78  78  ARG ARG F . n 
F 2 57  LYS 57  79  79  LYS LYS F . n 
F 2 58  THR 58  80  80  THR THR F . n 
F 2 59  VAL 59  81  81  VAL VAL F . n 
F 2 60  THR 60  82  82  THR THR F . n 
F 2 61  ALA 61  83  83  ALA ALA F . n 
F 2 62  MET 62  84  84  MET MET F . n 
F 2 63  ASP 63  85  85  ASP ASP F . n 
F 2 64  VAL 64  86  86  VAL VAL F . n 
F 2 65  VAL 65  87  87  VAL VAL F . n 
F 2 66  TYR 66  88  88  TYR TYR F . n 
F 2 67  ALA 67  89  89  ALA ALA F . n 
F 2 68  LEU 68  90  90  LEU LEU F . n 
F 2 69  LYS 69  91  91  LYS LYS F . n 
F 2 70  ARG 70  92  92  ARG ARG F . n 
F 2 71  GLN 71  93  93  GLN GLN F . n 
F 2 72  GLY 72  94  94  GLY GLY F . n 
F 2 73  ARG 73  95  95  ARG ARG F . n 
F 2 74  THR 74  96  96  THR THR F . n 
F 2 75  LEU 75  97  97  LEU LEU F . n 
F 2 76  TYR 76  98  98  TYR TYR F . n 
F 2 77  GLY 77  99  99  GLY GLY F . n 
F 2 78  PHE 78  100 100 PHE PHE F . n 
F 2 79  GLY 79  101 101 GLY GLY F . n 
F 2 80  GLY 80  102 102 GLY GLY F . n 
G 3 1   ALA 1   13  13  ALA ALA G . n 
G 3 2   LYS 2   14  14  LYS LYS G . n 
G 3 3   SER 3   15  15  SER SER G . n 
G 3 4   ARG 4   16  16  ARG ARG G . n 
G 3 5   SER 5   17  17  SER SER G . n 
G 3 6   ASN 6   18  18  ASN ASN G . n 
G 3 7   ARG 7   19  19  ARG ARG G . n 
G 3 8   ALA 8   20  20  ALA ALA G . n 
G 3 9   GLY 9   21  21  GLY GLY G . n 
G 3 10  LEU 10  22  22  LEU LEU G . n 
G 3 11  GLN 11  23  23  GLN GLN G . n 
G 3 12  PHE 12  24  24  PHE PHE G . n 
G 3 13  PRO 13  25  25  PRO PRO G . n 
G 3 14  VAL 14  26  26  VAL VAL G . n 
G 3 15  GLY 15  27  27  GLY GLY G . n 
G 3 16  ARG 16  28  28  ARG ARG G . n 
G 3 17  ILE 17  29  29  ILE ILE G . n 
G 3 18  HIS 18  30  30  HIS HIS G . n 
G 3 19  ARG 19  31  31  ARG ARG G . n 
G 3 20  LEU 20  32  32  LEU LEU G . n 
G 3 21  LEU 21  33  33  LEU LEU G . n 
G 3 22  ARG 22  34  34  ARG ARG G . n 
G 3 23  LYS 23  35  35  LYS LYS G . n 
G 3 24  GLY 24  36  36  GLY GLY G . n 
G 3 25  ASN 25  37  37  ASN ASN G . n 
G 3 26  TYR 26  38  38  TYR TYR G . n 
G 3 27  ALA 27  39  39  ALA ALA G . n 
G 3 28  GLU 28  40  40  GLU GLU G . n 
G 3 29  ARG 29  41  41  ARG ARG G . n 
G 3 30  VAL 30  42  42  VAL VAL G . n 
G 3 31  GLY 31  43  43  GLY GLY G . n 
G 3 32  ALA 32  44  44  ALA ALA G . n 
G 3 33  GLY 33  45  45  GLY GLY G . n 
G 3 34  ALA 34  46  46  ALA ALA G . n 
G 3 35  PRO 35  47  47  PRO PRO G . n 
G 3 36  VAL 36  48  48  VAL VAL G . n 
G 3 37  TYR 37  49  49  TYR TYR G . n 
G 3 38  LEU 38  50  50  LEU LEU G . n 
G 3 39  ALA 39  51  51  ALA ALA G . n 
G 3 40  ALA 40  52  52  ALA ALA G . n 
G 3 41  VAL 41  53  53  VAL VAL G . n 
G 3 42  MET 42  54  54  MET MET G . n 
G 3 43  GLU 43  55  55  GLU GLU G . n 
G 3 44  TYR 44  56  56  TYR TYR G . n 
G 3 45  LEU 45  57  57  LEU LEU G . n 
G 3 46  ALA 46  58  58  ALA ALA G . n 
G 3 47  ALA 47  59  59  ALA ALA G . n 
G 3 48  GLU 48  60  60  GLU GLU G . n 
G 3 49  VAL 49  61  61  VAL VAL G . n 
G 3 50  LEU 50  62  62  LEU LEU G . n 
G 3 51  GLU 51  63  63  GLU GLU G . n 
G 3 52  LEU 52  64  64  LEU LEU G . n 
G 3 53  ALA 53  65  65  ALA ALA G . n 
G 3 54  GLY 54  66  66  GLY GLY G . n 
G 3 55  ASN 55  67  67  ASN ASN G . n 
G 3 56  ALA 56  68  68  ALA ALA G . n 
G 3 57  ALA 57  69  69  ALA ALA G . n 
G 3 58  ARG 58  70  70  ARG ARG G . n 
G 3 59  ASP 59  71  71  ASP ASP G . n 
G 3 60  ASN 60  72  72  ASN ASN G . n 
G 3 61  LYS 61  73  73  LYS LYS G . n 
G 3 62  LYS 62  74  74  LYS LYS G . n 
G 3 63  THR 63  75  75  THR THR G . n 
G 3 64  ARG 64  76  76  ARG ARG G . n 
G 3 65  ILE 65  77  77  ILE ILE G . n 
G 3 66  ILE 66  78  78  ILE ILE G . n 
G 3 67  PRO 67  79  79  PRO PRO G . n 
G 3 68  ARG 68  80  80  ARG ARG G . n 
G 3 69  HIS 69  81  81  HIS HIS G . n 
G 3 70  LEU 70  82  82  LEU LEU G . n 
G 3 71  GLN 71  83  83  GLN GLN G . n 
G 3 72  LEU 72  84  84  LEU LEU G . n 
G 3 73  ALA 73  85  85  ALA ALA G . n 
G 3 74  ILE 74  86  86  ILE ILE G . n 
G 3 75  ARG 75  87  87  ARG ARG G . n 
G 3 76  ASN 76  88  88  ASN ASN G . n 
G 3 77  ASP 77  89  89  ASP ASP G . n 
G 3 78  GLU 78  90  90  GLU GLU G . n 
G 3 79  GLU 79  91  91  GLU GLU G . n 
G 3 80  LEU 80  92  92  LEU LEU G . n 
G 3 81  ASN 81  93  93  ASN ASN G . n 
G 3 82  LYS 82  94  94  LYS LYS G . n 
G 3 83  LEU 83  95  95  LEU LEU G . n 
G 3 84  LEU 84  96  96  LEU LEU G . n 
G 3 85  SER 85  97  97  SER SER G . n 
G 3 86  GLY 86  98  98  GLY GLY G . n 
G 3 87  VAL 87  99  99  VAL VAL G . n 
G 3 88  THR 88  100 100 THR THR G . n 
G 3 89  ILE 89  101 101 ILE ILE G . n 
G 3 90  ALA 90  102 102 ALA ALA G . n 
G 3 91  GLN 91  103 103 GLN GLN G . n 
G 3 92  GLY 92  104 104 GLY GLY G . n 
G 3 93  GLY 93  105 105 GLY GLY G . n 
G 3 94  VAL 94  106 106 VAL VAL G . n 
G 3 95  LEU 95  107 107 LEU LEU G . n 
G 3 96  PRO 96  108 108 PRO PRO G . n 
G 3 97  ASN 97  109 109 ASN ASN G . n 
G 3 98  ILE 98  110 110 ILE ILE G . n 
G 3 99  GLN 99  111 111 GLN GLN G . n 
G 3 100 ALA 100 112 112 ALA ALA G . n 
G 3 101 VAL 101 113 113 VAL VAL G . n 
G 3 102 LEU 102 114 114 LEU LEU G . n 
G 3 103 LEU 103 115 115 LEU LEU G . n 
G 3 104 PRO 104 116 116 PRO PRO G . n 
G 3 105 LYS 105 117 117 LYS LYS G . n 
G 3 106 LYS 106 118 118 LYS LYS G . n 
G 3 107 THR 107 119 119 THR THR G . n 
H 4 1   ARG 1   28  28  ARG ARG H . n 
H 4 2   LYS 2   29  29  LYS LYS H . n 
H 4 3   ARG 3   30  30  ARG ARG H . n 
H 4 4   LYS 4   31  31  LYS LYS H . n 
H 4 5   GLU 5   32  32  GLU GLU H . n 
H 4 6   SER 6   33  33  SER SER H . n 
H 4 7   TYR 7   34  34  TYR TYR H . n 
H 4 8   ALA 8   35  35  ALA ALA H . n 
H 4 9   ILE 9   36  36  ILE ILE H . n 
H 4 10  TYR 10  37  37  TYR TYR H . n 
H 4 11  ILE 11  38  38  ILE ILE H . n 
H 4 12  TYR 12  39  39  TYR TYR H . n 
H 4 13  LYS 13  40  40  LYS LYS H . n 
H 4 14  VAL 14  41  41  VAL VAL H . n 
H 4 15  LEU 15  42  42  LEU LEU H . n 
H 4 16  LYS 16  43  43  LYS LYS H . n 
H 4 17  GLN 17  44  44  GLN GLN H . n 
H 4 18  VAL 18  45  45  VAL VAL H . n 
H 4 19  HIS 19  46  46  HIS HIS H . n 
H 4 20  PRO 20  47  47  PRO PRO H . n 
H 4 21  ASP 21  48  48  ASP ASP H . n 
H 4 22  THR 22  49  49  THR THR H . n 
H 4 23  GLY 23  50  50  GLY GLY H . n 
H 4 24  ILE 24  51  51  ILE ILE H . n 
H 4 25  SER 25  52  52  SER SER H . n 
H 4 26  SER 26  53  53  SER SER H . n 
H 4 27  LYS 27  54  54  LYS LYS H . n 
H 4 28  ALA 28  55  55  ALA ALA H . n 
H 4 29  MET 29  56  56  MET MET H . n 
H 4 30  SER 30  57  57  SER SER H . n 
H 4 31  ILE 31  58  58  ILE ILE H . n 
H 4 32  MET 32  59  59  MET MET H . n 
H 4 33  ASN 33  60  60  ASN ASN H . n 
H 4 34  SER 34  61  61  SER SER H . n 
H 4 35  PHE 35  62  62  PHE PHE H . n 
H 4 36  VAL 36  63  63  VAL VAL H . n 
H 4 37  ASN 37  64  64  ASN ASN H . n 
H 4 38  ASP 38  65  65  ASP ASP H . n 
H 4 39  ILE 39  66  66  ILE ILE H . n 
H 4 40  PHE 40  67  67  PHE PHE H . n 
H 4 41  GLU 41  68  68  GLU GLU H . n 
H 4 42  ARG 42  69  69  ARG ARG H . n 
H 4 43  ILE 43  70  70  ILE ILE H . n 
H 4 44  ALA 44  71  71  ALA ALA H . n 
H 4 45  ALA 45  72  72  ALA ALA H . n 
H 4 46  GLU 46  73  73  GLU GLU H . n 
H 4 47  ALA 47  74  74  ALA ALA H . n 
H 4 48  SER 48  75  75  SER SER H . n 
H 4 49  ARG 49  76  76  ARG ARG H . n 
H 4 50  LEU 50  77  77  LEU LEU H . n 
H 4 51  ALA 51  78  78  ALA ALA H . n 
H 4 52  HIS 52  79  79  HIS HIS H . n 
H 4 53  TYR 53  80  80  TYR TYR H . n 
H 4 54  ASN 54  81  81  ASN ASN H . n 
H 4 55  LYS 55  82  82  LYS LYS H . n 
H 4 56  ARG 56  83  83  ARG ARG H . n 
H 4 57  SER 57  84  84  SER SER H . n 
H 4 58  THR 58  85  85  THR THR H . n 
H 4 59  ILE 59  86  86  ILE ILE H . n 
H 4 60  THR 60  87  87  THR THR H . n 
H 4 61  SER 61  88  88  SER SER H . n 
H 4 62  ARG 62  89  89  ARG ARG H . n 
H 4 63  GLU 63  90  90  GLU GLU H . n 
H 4 64  ILE 64  91  91  ILE ILE H . n 
H 4 65  GLN 65  92  92  GLN GLN H . n 
H 4 66  THR 66  93  93  THR THR H . n 
H 4 67  ALA 67  94  94  ALA ALA H . n 
H 4 68  VAL 68  95  95  VAL VAL H . n 
H 4 69  ARG 69  96  96  ARG ARG H . n 
H 4 70  LEU 70  97  97  LEU LEU H . n 
H 4 71  LEU 71  98  98  LEU LEU H . n 
H 4 72  LEU 72  99  99  LEU LEU H . n 
H 4 73  PRO 73  100 100 PRO PRO H . n 
H 4 74  GLY 74  101 101 GLY GLY H . n 
H 4 75  GLU 75  102 102 GLU GLU H . n 
H 4 76  LEU 76  103 103 LEU LEU H . n 
H 4 77  ALA 77  104 104 ALA ALA H . n 
H 4 78  LYS 78  105 105 LYS LYS H . n 
H 4 79  HIS 79  106 106 HIS HIS H . n 
H 4 80  ALA 80  107 107 ALA ALA H . n 
H 4 81  VAL 81  108 108 VAL VAL H . n 
H 4 82  SER 82  109 109 SER SER H . n 
H 4 83  GLU 83  110 110 GLU GLU H . n 
H 4 84  GLY 84  111 111 GLY GLY H . n 
H 4 85  THR 85  112 112 THR THR H . n 
H 4 86  LYS 86  113 113 LYS LYS H . n 
H 4 87  ALA 87  114 114 ALA ALA H . n 
H 4 88  VAL 88  115 115 VAL VAL H . n 
H 4 89  THR 89  116 116 THR THR H . n 
H 4 90  LYS 90  117 117 LYS LYS H . n 
H 4 91  TYR 91  118 118 TYR TYR H . n 
H 4 92  THR 92  119 119 THR THR H . n 
H 4 93  SER 93  120 120 SER SER H . n 
H 4 94  SER 94  121 121 SER SER H . n 
H 4 95  LYS 95  122 122 LYS LYS H . n 
I 5 1   DA  1   -73 -73 DA  DA  I . n 
I 5 2   DT  2   -72 -72 DT  DT  I . n 
I 5 3   DC  3   -71 -71 DC  DC  I . n 
I 5 4   DA  4   -70 -70 DA  DA  I . n 
I 5 5   DA  5   -69 -69 DA  DA  I . n 
I 5 6   DT  6   -68 -68 DT  DT  I . n 
I 5 7   DA  7   -67 -67 DA  DA  I . n 
I 5 8   DT  8   -66 -66 DT  DT  I . n 
I 5 9   DC  9   -65 -65 DC  DC  I . n 
I 5 10  DC  10  -64 -64 DC  DC  I . n 
I 5 11  DA  11  -63 -63 DA  DA  I . n 
I 5 12  DC  12  -62 -62 DC  DC  I . n 
I 5 13  DC  13  -61 -61 DC  DC  I . n 
I 5 14  DT  14  -60 -60 DT  DT  I . n 
I 5 15  DG  15  -59 -59 DG  DG  I . n 
I 5 16  DC  16  -58 -58 DC  DC  I . n 
I 5 17  DA  17  -57 -57 DA  DA  I . n 
I 5 18  DG  18  -56 -56 DG  DG  I . n 
I 5 19  DA  19  -55 -55 DA  DA  I . n 
I 5 20  DT  20  -54 -54 DT  DT  I . n 
I 5 21  DA  21  -53 -53 DA  DA  I . n 
I 5 22  DC  22  -52 -52 DC  DC  I . n 
I 5 23  DT  23  -51 -51 DT  DT  I . n 
I 5 24  DA  24  -50 -50 DA  DA  I . n 
I 5 25  DC  25  -49 -49 DC  DC  I . n 
I 5 26  DC  26  -48 -48 DC  DC  I . n 
I 5 27  DA  27  -47 -47 DA  DA  I . n 
I 5 28  DA  28  -46 -46 DA  DA  I . n 
I 5 29  DA  29  -45 -45 DA  DA  I . n 
I 5 30  DA  30  -44 -44 DA  DA  I . n 
I 5 31  DG  31  -43 -43 DG  DG  I . n 
I 5 32  DT  32  -42 -42 DT  DT  I . n 
I 5 33  DG  33  -41 -41 DG  DG  I . n 
I 5 34  DT  34  -40 -40 DT  DT  I . n 
I 5 35  DA  35  -39 -39 DA  DA  I . n 
I 5 36  DT  36  -38 -38 DT  DT  I . n 
I 5 37  DT  37  -37 -37 DT  DT  I . n 
I 5 38  DT  38  -36 -36 DT  DT  I . n 
I 5 39  DG  39  -35 -35 DG  DG  I . n 
I 5 40  DG  40  -34 -34 DG  DG  I . n 
I 5 41  DA  41  -33 -33 DA  DA  I . n 
I 5 42  DA  42  -32 -32 DA  DA  I . n 
I 5 43  DA  43  -31 -31 DA  DA  I . n 
I 5 44  DC  44  -30 -30 DC  DC  I . n 
I 5 45  DT  45  -29 -29 DT  DT  I . n 
I 5 46  DG  46  -28 -28 DG  DG  I . n 
I 5 47  DC  47  -27 -27 DC  DC  I . n 
I 5 48  DT  48  -26 -26 DT  DT  I . n 
I 5 49  DC  49  -25 -25 DC  DC  I . n 
I 5 50  DC  50  -24 -24 DC  DC  I . n 
I 5 51  DA  51  -23 -23 DA  DA  I . n 
I 5 52  DT  52  -22 -22 DT  DT  I . n 
I 5 53  DC  53  -21 -21 DC  DC  I . n 
I 5 54  DA  54  -20 -20 DA  DA  I . n 
I 5 55  DA  55  -19 -19 DA  DA  I . n 
I 5 56  DA  56  -18 -18 DA  DA  I . n 
I 5 57  DA  57  -17 -17 DA  DA  I . n 
I 5 58  DG  58  -16 -16 DG  DG  I . n 
I 5 59  DG  59  -15 -15 DG  DG  I . n 
I 5 60  DC  60  -14 -14 DC  DC  I . n 
I 5 61  DA  61  -13 -13 DA  DA  I . n 
I 5 62  DT  62  -12 -12 DT  DT  I . n 
I 5 63  DG  63  -11 -11 DG  DG  I . n 
I 5 64  DT  64  -10 -10 DT  DT  I . n 
I 5 65  DT  65  -9  -9  DT  DT  I . n 
I 5 66  DC  66  -8  -8  DC  DC  I . n 
I 5 67  DA  67  -7  -7  DA  DA  I . n 
I 5 68  DG  68  -6  -6  DG  DG  I . n 
I 5 69  DC  69  -5  -5  DC  DC  I . n 
I 5 70  DT  70  -4  -4  DT  DT  I . n 
I 5 71  DG  71  -3  -3  DG  DG  I . n 
I 5 72  DG  72  -2  -2  DG  DG  I . n 
I 5 73  DA  73  -1  -1  DA  DA  I . n 
I 5 74  DA  74  0   0   DA  DA  I . n 
I 5 75  DT  75  1   1   DT  DT  I . n 
I 5 76  DC  76  2   2   DC  DC  I . n 
I 5 77  DC  77  3   3   DC  DC  I . n 
I 5 78  DA  78  4   4   DA  DA  I . n 
I 5 79  DG  79  5   5   DG  DG  I . n 
I 5 80  DC  80  6   6   DC  DC  I . n 
I 5 81  DT  81  7   7   DT  DT  I . n 
I 5 82  DG  82  8   8   DG  DG  I . n 
I 5 83  DA  83  9   9   DA  DA  I . n 
I 5 84  DA  84  10  10  DA  DA  I . n 
I 5 85  DC  85  11  11  DC  DC  I . n 
I 5 86  DA  86  12  12  DA  DA  I . n 
I 5 87  DT  87  13  13  DT  DT  I . n 
I 5 88  DG  88  14  14  DG  DG  I . n 
I 5 89  DC  89  15  15  DC  DC  I . n 
I 5 90  DC  90  16  16  DC  DC  I . n 
I 5 91  DT  91  17  17  DT  DT  I . n 
I 5 92  DT  92  18  18  DT  DT  I . n 
I 5 93  DT  93  19  19  DT  DT  I . n 
I 5 94  DT  94  20  20  DT  DT  I . n 
I 5 95  DG  95  21  21  DG  DG  I . n 
I 5 96  DA  96  22  22  DA  DA  I . n 
I 5 97  DT  97  23  23  DT  DT  I . n 
I 5 98  DG  98  24  24  DG  DG  I . n 
I 5 99  DG  99  25  25  DG  DG  I . n 
I 5 100 DA  100 26  26  DA  DA  I . n 
I 5 101 DG  101 27  27  DG  DG  I . n 
I 5 102 DC  102 28  28  DC  DC  I . n 
I 5 103 DA  103 29  29  DA  DA  I . n 
I 5 104 DG  104 30  30  DG  DG  I . n 
I 5 105 DT  105 31  31  DT  DT  I . n 
I 5 106 DT  106 32  32  DT  DT  I . n 
I 5 107 DT  107 33  33  DT  DT  I . n 
I 5 108 DC  108 34  34  DC  DC  I . n 
I 5 109 DC  109 35  35  DC  DC  I . n 
I 5 110 DA  110 36  36  DA  DA  I . n 
I 5 111 DA  111 37  37  DA  DA  I . n 
I 5 112 DA  112 38  38  DA  DA  I . n 
I 5 113 DT  113 39  39  DT  DT  I . n 
I 5 114 DA  114 40  40  DA  DA  I . n 
I 5 115 DC  115 41  41  DC  DC  I . n 
I 5 116 DA  116 42  42  DA  DA  I . n 
I 5 117 DC  117 43  43  DC  DC  I . n 
I 5 118 DT  118 44  44  DT  DT  I . n 
I 5 119 DT  119 45  45  DT  DT  I . n 
I 5 120 DT  120 46  46  DT  DT  I . n 
I 5 121 DT  121 47  47  DT  DT  I . n 
I 5 122 DG  122 48  48  DG  DG  I . n 
I 5 123 DG  123 49  49  DG  DG  I . n 
I 5 124 DT  124 50  50  DT  DT  I . n 
I 5 125 DA  125 51  51  DA  DA  I . n 
I 5 126 DG  126 52  52  DG  DG  I . n 
I 5 127 DT  127 53  53  DT  DT  I . n 
I 5 128 DA  128 54  54  DA  DA  I . n 
I 5 129 DT  129 55  55  DT  DT  I . n 
I 5 130 DC  130 56  56  DC  DC  I . n 
I 5 131 DT  131 57  57  DT  DT  I . n 
I 5 132 DG  132 58  58  DG  DG  I . n 
I 5 133 DC  133 59  59  DC  DC  I . n 
I 5 134 DA  134 60  60  DA  DA  I . n 
I 5 135 DG  135 61  61  DG  DG  I . n 
I 5 136 DG  136 62  62  DG  DG  I . n 
I 5 137 DT  137 63  63  DT  DT  I . n 
I 5 138 DG  138 64  64  DG  DG  I . n 
I 5 139 DG  139 65  65  DG  DG  I . n 
I 5 140 DA  140 66  66  DA  DA  I . n 
I 5 141 DT  141 67  67  DT  DT  I . n 
I 5 142 DA  142 68  68  DA  DA  I . n 
I 5 143 DT  143 69  69  DT  DT  I . n 
I 5 144 DT  144 70  70  DT  DT  I . n 
I 5 145 DG  145 71  71  DG  DG  I . n 
I 5 146 DA  146 72  72  DA  DA  I . n 
I 5 147 DT  147 73  73  DT  DT  I . n 
J 6 1   DA  1   -73 -73 DA  DA  J . n 
J 6 2   DT  2   -72 -72 DT  DT  J . n 
J 6 3   DC  3   -71 -71 DC  DC  J . n 
J 6 4   DA  4   -70 -70 DA  DA  J . n 
J 6 5   DA  5   -69 -69 DA  DA  J . n 
J 6 6   DT  6   -68 -68 DT  DT  J . n 
J 6 7   DA  7   -67 -67 DA  DA  J . n 
J 6 8   DT  8   -66 -66 DT  DT  J . n 
J 6 9   DC  9   -65 -65 DC  DC  J . n 
J 6 10  DC  10  -64 -64 DC  DC  J . n 
J 6 11  DA  11  -63 -63 DA  DA  J . n 
J 6 12  DC  12  -62 -62 DC  DC  J . n 
J 6 13  DC  13  -61 -61 DC  DC  J . n 
J 6 14  DT  14  -60 -60 DT  DT  J . n 
J 6 15  DG  15  -59 -59 DG  DG  J . n 
J 6 16  DC  16  -58 -58 DC  DC  J . n 
J 6 17  DA  17  -57 -57 DA  DA  J . n 
J 6 18  DG  18  -56 -56 DG  DG  J . n 
J 6 19  DA  19  -55 -55 DA  DA  J . n 
J 6 20  DT  20  -54 -54 DT  DT  J . n 
J 6 21  DA  21  -53 -53 DA  DA  J . n 
J 6 22  DC  22  -52 -52 DC  DC  J . n 
J 6 23  DT  23  -51 -51 DT  DT  J . n 
J 6 24  DA  24  -50 -50 DA  DA  J . n 
J 6 25  DC  25  -49 -49 DC  DC  J . n 
J 6 26  DC  26  -48 -48 DC  DC  J . n 
J 6 27  DA  27  -47 -47 DA  DA  J . n 
J 6 28  DA  28  -46 -46 DA  DA  J . n 
J 6 29  DA  29  -45 -45 DA  DA  J . n 
J 6 30  DA  30  -44 -44 DA  DA  J . n 
J 6 31  DG  31  -43 -43 DG  DG  J . n 
J 6 32  DT  32  -42 -42 DT  DT  J . n 
J 6 33  DG  33  -41 -41 DG  DG  J . n 
J 6 34  DT  34  -40 -40 DT  DT  J . n 
J 6 35  DA  35  -39 -39 DA  DA  J . n 
J 6 36  DT  36  -38 -38 DT  DT  J . n 
J 6 37  DT  37  -37 -37 DT  DT  J . n 
J 6 38  DT  38  -36 -36 DT  DT  J . n 
J 6 39  DG  39  -35 -35 DG  DG  J . n 
J 6 40  DG  40  -34 -34 DG  DG  J . n 
J 6 41  DA  41  -33 -33 DA  DA  J . n 
J 6 42  DA  42  -32 -32 DA  DA  J . n 
J 6 43  DA  43  -31 -31 DA  DA  J . n 
J 6 44  DC  44  -30 -30 DC  DC  J . n 
J 6 45  DT  45  -29 -29 DT  DT  J . n 
J 6 46  DG  46  -28 -28 DG  DG  J . n 
J 6 47  DC  47  -27 -27 DC  DC  J . n 
J 6 48  DT  48  -26 -26 DT  DT  J . n 
J 6 49  DC  49  -25 -25 DC  DC  J . n 
J 6 50  DC  50  -24 -24 DC  DC  J . n 
J 6 51  DA  51  -23 -23 DA  DA  J . n 
J 6 52  DT  52  -22 -22 DT  DT  J . n 
J 6 53  DC  53  -21 -21 DC  DC  J . n 
J 6 54  DA  54  -20 -20 DA  DA  J . n 
J 6 55  DA  55  -19 -19 DA  DA  J . n 
J 6 56  DA  56  -18 -18 DA  DA  J . n 
J 6 57  DA  57  -17 -17 DA  DA  J . n 
J 6 58  DG  58  -16 -16 DG  DG  J . n 
J 6 59  DG  59  -15 -15 DG  DG  J . n 
J 6 60  DC  60  -14 -14 DC  DC  J . n 
J 6 61  DA  61  -13 -13 DA  DA  J . n 
J 6 62  DT  62  -12 -12 DT  DT  J . n 
J 6 63  DG  63  -11 -11 DG  DG  J . n 
J 6 64  DT  64  -10 -10 DT  DT  J . n 
J 6 65  DT  65  -9  -9  DT  DT  J . n 
J 6 66  DC  66  -8  -8  DC  DC  J . n 
J 6 67  DA  67  -7  -7  DA  DA  J . n 
J 6 68  DG  68  -6  -6  DG  DG  J . n 
J 6 69  DC  69  -5  -5  DC  DC  J . n 
J 6 70  DT  70  -4  -4  DT  DT  J . n 
J 6 71  DG  71  -3  -3  DG  DG  J . n 
J 6 72  DG  72  -2  -2  DG  DG  J . n 
J 6 73  DA  73  -1  -1  DA  DA  J . n 
J 6 74  DT  74  0   0   DT  DT  J . n 
J 6 75  DT  75  1   1   DT  DT  J . n 
J 6 76  DC  76  2   2   DC  DC  J . n 
J 6 77  DC  77  3   3   DC  DC  J . n 
J 6 78  DA  78  4   4   DA  DA  J . n 
J 6 79  DG  79  5   5   DG  DG  J . n 
J 6 80  DC  80  6   6   DC  DC  J . n 
J 6 81  DT  81  7   7   DT  DT  J . n 
J 6 82  DG  82  8   8   DG  DG  J . n 
J 6 83  DA  83  9   9   DA  DA  J . n 
J 6 84  DA  84  10  10  DA  DA  J . n 
J 6 85  DC  85  11  11  DC  DC  J . n 
J 6 86  DA  86  12  12  DA  DA  J . n 
J 6 87  DT  87  13  13  DT  DT  J . n 
J 6 88  DG  88  14  14  DG  DG  J . n 
J 6 89  DC  89  15  15  DC  DC  J . n 
J 6 90  DC  90  16  16  DC  DC  J . n 
J 6 91  DT  91  17  17  DT  DT  J . n 
J 6 92  DT  92  18  18  DT  DT  J . n 
J 6 93  DT  93  19  19  DT  DT  J . n 
J 6 94  DT  94  20  20  DT  DT  J . n 
J 6 95  DG  95  21  21  DG  DG  J . n 
J 6 96  DA  96  22  22  DA  DA  J . n 
J 6 97  DT  97  23  23  DT  DT  J . n 
J 6 98  DG  98  24  24  DG  DG  J . n 
J 6 99  DG  99  25  25  DG  DG  J . n 
J 6 100 DA  100 26  26  DA  DA  J . n 
J 6 101 DG  101 27  27  DG  DG  J . n 
J 6 102 DC  102 28  28  DC  DC  J . n 
J 6 103 DA  103 29  29  DA  DA  J . n 
J 6 104 DG  104 30  30  DG  DG  J . n 
J 6 105 DT  105 31  31  DT  DT  J . n 
J 6 106 DT  106 32  32  DT  DT  J . n 
J 6 107 DT  107 33  33  DT  DT  J . n 
J 6 108 DC  108 34  34  DC  DC  J . n 
J 6 109 DC  109 35  35  DC  DC  J . n 
J 6 110 DA  110 36  36  DA  DA  J . n 
J 6 111 DA  111 37  37  DA  DA  J . n 
J 6 112 DA  112 38  38  DA  DA  J . n 
J 6 113 DT  113 39  39  DT  DT  J . n 
J 6 114 DA  114 40  40  DA  DA  J . n 
J 6 115 DC  115 41  41  DC  DC  J . n 
J 6 116 DA  116 42  42  DA  DA  J . n 
J 6 117 DC  117 43  43  DC  DC  J . n 
J 6 118 DT  118 44  44  DT  DT  J . n 
J 6 119 DT  119 45  45  DT  DT  J . n 
J 6 120 DT  120 46  46  DT  DT  J . n 
J 6 121 DT  121 47  47  DT  DT  J . n 
J 6 122 DG  122 48  48  DG  DG  J . n 
J 6 123 DG  123 49  49  DG  DG  J . n 
J 6 124 DT  124 50  50  DT  DT  J . n 
J 6 125 DA  125 51  51  DA  DA  J . n 
J 6 126 DG  126 52  52  DG  DG  J . n 
J 6 127 DT  127 53  53  DT  DT  J . n 
J 6 128 DA  128 54  54  DA  DA  J . n 
J 6 129 DT  129 55  55  DT  DT  J . n 
J 6 130 DC  130 56  56  DC  DC  J . n 
J 6 131 DT  131 57  57  DT  DT  J . n 
J 6 132 DG  132 58  58  DG  DG  J . n 
J 6 133 DC  133 59  59  DC  DC  J . n 
J 6 134 DA  134 60  60  DA  DA  J . n 
J 6 135 DG  135 61  61  DG  DG  J . n 
J 6 136 DG  136 62  62  DG  DG  J . n 
J 6 137 DT  137 63  63  DT  DT  J . n 
J 6 138 DG  138 64  64  DG  DG  J . n 
J 6 139 DG  139 65  65  DG  DG  J . n 
J 6 140 DA  140 66  66  DA  DA  J . n 
J 6 141 DT  141 67  67  DT  DT  J . n 
J 6 142 DA  142 68  68  DA  DA  J . n 
J 6 143 DT  143 69  69  DT  DT  J . n 
J 6 144 DT  144 70  70  DT  DT  J . n 
J 6 145 DG  145 71  71  DG  DG  J . n 
J 6 146 DA  146 72  72  DA  DA  J . n 
J 6 147 DT  147 73  73  DT  DT  J . n 
K 7 1   LEU 1   3   3   LEU LEU K . n 
K 7 2   PRO 2   4   4   PRO PRO K . n 
K 7 3   LYS 3   5   5   LYS LYS K . n 
K 7 4   ASP 4   6   6   ASP ASP K . n 
K 7 5   ALA 5   7   7   ALA ALA K . n 
K 7 6   ILE 6   8   8   ILE ILE K . n 
K 7 7   PRO 7   9   9   PRO PRO K . n 
K 7 8   SER 8   10  10  SER SER K . n 
K 7 9   LEU 9   11  11  LEU LEU K . n 
K 7 10  SER 10  12  12  SER SER K . n 
K 7 11  GLU 11  13  13  GLU GLU K . n 
K 7 12  CYS 12  14  14  CYS CYS K . n 
K 7 13  GLN 13  15  15  GLN GLN K . n 
K 7 14  CYS 14  16  16  CYS CYS K . n 
K 7 15  GLY 15  17  17  GLY GLY K . n 
K 7 16  ILE 16  18  18  ILE ILE K . n 
K 7 17  CYS 17  19  19  CYS CYS K . n 
K 7 18  MET 18  20  20  MET MET K . n 
K 7 19  GLU 19  21  21  GLU GLU K . n 
K 7 20  ILE 20  22  22  ILE ILE K . n 
K 7 21  LEU 21  23  23  LEU LEU K . n 
K 7 22  VAL 22  24  24  VAL VAL K . n 
K 7 23  GLU 23  25  25  GLU GLU K . n 
K 7 24  PRO 24  26  26  PRO PRO K . n 
K 7 25  VAL 25  27  27  VAL VAL K . n 
K 7 26  THR 26  28  28  THR THR K . n 
K 7 27  LEU 27  29  29  LEU LEU K . n 
K 7 28  PRO 28  30  30  PRO PRO K . n 
K 7 29  CYS 29  31  31  CYS CYS K . n 
K 7 30  ASN 30  32  32  ASN ASN K . n 
K 7 31  HIS 31  33  33  HIS HIS K . n 
K 7 32  THR 32  34  34  THR THR K . n 
K 7 33  LEU 33  35  35  LEU LEU K . n 
K 7 34  CYS 34  36  36  CYS CYS K . n 
K 7 35  LYS 35  37  37  LYS LYS K . n 
K 7 36  PRO 36  38  38  PRO PRO K . n 
K 7 37  CYS 37  39  39  CYS CYS K . n 
K 7 38  PHE 38  40  40  PHE PHE K . n 
K 7 39  GLN 39  41  41  GLN GLN K . n 
K 7 40  SER 40  42  42  SER SER K . n 
K 7 41  THR 41  43  43  THR THR K . n 
K 7 42  VAL 42  44  44  VAL VAL K . n 
K 7 43  GLU 43  45  45  GLU GLU K . n 
K 7 44  LYS 44  46  46  LYS LYS K . n 
K 7 45  ALA 45  47  47  ALA ALA K . n 
K 7 46  SER 46  48  48  SER SER K . n 
K 7 47  LEU 47  49  49  LEU LEU K . n 
K 7 48  CYS 48  50  50  CYS CYS K . n 
K 7 49  CYS 49  51  51  CYS CYS K . n 
K 7 50  PRO 50  52  52  PRO PRO K . n 
K 7 51  PHE 51  53  53  PHE PHE K . n 
K 7 52  CYS 52  54  54  CYS CYS K . n 
K 7 53  ARG 53  55  55  ARG ARG K . n 
K 7 54  ARG 54  56  56  ARG ARG K . n 
K 7 55  ARG 55  57  57  ARG ARG K . n 
K 7 56  VAL 56  58  58  VAL VAL K . n 
K 7 57  SER 57  59  59  SER SER K . n 
K 7 58  SER 58  60  60  SER SER K . n 
K 7 59  TRP 59  61  61  TRP TRP K . n 
K 7 60  THR 60  62  62  THR THR K . n 
K 7 61  ARG 61  63  63  ARG ARG K . n 
K 7 62  TYR 62  64  64  TYR TYR K . n 
K 7 63  HIS 63  65  65  HIS HIS K . n 
K 7 64  THR 64  66  66  THR THR K . n 
K 7 65  ARG 65  67  67  ARG ARG K . n 
K 7 66  ARG 66  68  68  ARG ARG K . n 
K 7 67  ASN 67  69  69  ASN ASN K . n 
K 7 68  SER 68  70  70  SER SER K . n 
K 7 69  LEU 69  71  71  LEU LEU K . n 
K 7 70  VAL 70  72  72  VAL VAL K . n 
K 7 71  ASN 71  73  73  ASN ASN K . n 
K 7 72  VAL 72  74  74  VAL VAL K . n 
K 7 73  GLU 73  75  75  GLU GLU K . n 
K 7 74  LEU 74  76  76  LEU LEU K . n 
K 7 75  TRP 75  77  77  TRP TRP K . n 
K 7 76  THR 76  78  78  THR THR K . n 
K 7 77  ILE 77  79  79  ILE ILE K . n 
K 7 78  ILE 78  80  80  ILE ILE K . n 
K 7 79  GLN 79  81  81  GLN GLN K . n 
K 7 80  LYS 80  82  82  LYS LYS K . n 
K 7 81  HIS 81  83  83  HIS HIS K . n 
K 7 82  TYR 82  84  84  TYR TYR K . n 
K 7 83  PRO 83  85  85  PRO PRO K . n 
K 7 84  ARG 84  86  86  ARG ARG K . n 
K 7 85  GLU 85  87  87  GLU GLU K . n 
K 7 86  CYS 86  88  88  CYS CYS K . n 
K 7 87  LYS 87  89  89  LYS LYS K . n 
K 7 88  LEU 88  90  90  LEU LEU K . n 
K 7 89  ARG 89  91  91  ARG ARG K . n 
K 7 90  ALA 90  92  92  ALA ALA K . n 
K 7 91  SER 91  93  93  SER SER K . 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
ALA 'L-peptide linking' y ALANINE                              ? 'C3 H7 N O2'      89.093  
ARG 'L-peptide linking' y ARGININE                             ? 'C6 H15 N4 O2 1'  175.209 
ASN 'L-peptide linking' y ASPARAGINE                           ? 'C4 H8 N2 O3'     132.118 
ASP 'L-peptide linking' y 'ASPARTIC ACID'                      ? 'C4 H7 N O4'      133.103 
CYS 'L-peptide linking' y CYSTEINE                             ? 'C3 H7 N O2 S'    121.158 
DA  'DNA linking'       y "2'-DEOXYADENOSINE-5'-MONOPHOSPHATE" ? 'C10 H14 N5 O6 P' 331.222 
DC  'DNA linking'       y "2'-DEOXYCYTIDINE-5'-MONOPHOSPHATE"  ? 'C9 H14 N3 O7 P'  307.197 
DG  'DNA linking'       y "2'-DEOXYGUANOSINE-5'-MONOPHOSPHATE" ? 'C10 H14 N5 O7 P' 347.221 
DT  'DNA linking'       y "THYMIDINE-5'-MONOPHOSPHATE"         ? 'C10 H15 N2 O8 P' 322.208 
GLN 'L-peptide linking' y GLUTAMINE                            ? 'C5 H10 N2 O3'    146.144 
GLU 'L-peptide linking' y 'GLUTAMIC ACID'                      ? 'C5 H9 N O4'      147.129 
GLY 'peptide linking'   y GLYCINE                              ? 'C2 H5 N O2'      75.067  
HIS 'L-peptide linking' y HISTIDINE                            ? 'C6 H10 N3 O2 1'  156.162 
ILE 'L-peptide linking' y ISOLEUCINE                           ? 'C6 H13 N O2'     131.173 
LEU 'L-peptide linking' y LEUCINE                              ? 'C6 H13 N O2'     131.173 
LYS 'L-peptide linking' y LYSINE                               ? 'C6 H15 N2 O2 1'  147.195 
MET 'L-peptide linking' y METHIONINE                           ? 'C5 H11 N O2 S'   149.211 
PHE 'L-peptide linking' y PHENYLALANINE                        ? 'C9 H11 N O2'     165.189 
PRO 'L-peptide linking' y PROLINE                              ? 'C5 H9 N O2'      115.130 
SER 'L-peptide linking' y SERINE                               ? 'C3 H7 N O3'      105.093 
THR 'L-peptide linking' y THREONINE                            ? 'C4 H9 N O3'      119.119 
TRP 'L-peptide linking' y TRYPTOPHAN                           ? 'C11 H12 N2 O2'   204.225 
TYR 'L-peptide linking' y TYROSINE                             ? 'C9 H11 N O3'     181.189 
VAL 'L-peptide linking' y VALINE                               ? 'C5 H11 N O2'     117.146 
#
loop_
_struct_asym.id 
_struct_asym.pdbx_PDB_id 
_struct_asym.pdbx_alt_id 
_struct_asym.pdbx_blank_PDB_chainid_flag 
_struct_asym.pdbx_type 
_struct_asym.pdbx_order 
_struct_asym.pdbx_modified 
_struct_asym.entity_id 
_struct_asym.details 
A A A N ATOMP 1  N  1 ?  
B B B N ATOMP 2  N  2 ?  
C C C N ATOMP 3  N  3 ?  
D D D N ATOMP 4  N  4 ?  
E E E N ATOMP 5  N  1 ?  
F F F N ATOMP 6  N  2 ?  
G G G N ATOMP 7  N  3 ?  
H H H N ATOMP 8  N  4 ?  
I I I N ATOMN 9  N  5 ?  
J J J N ATOMN 10 N  6 ?  
K K K N ATOMP 11 N  7 ?  
# 
loop_
_software.pdbx_ordinal 
_software.name 
_software.classification 
_software.version 
_software.type 
_software.location 
_software.citation_id 
1 HADDOCK  "molecular docking" 2.2 program http://haddock.science.uu.nl/services/HADDOCK/ ?
2 JWALK    "XL-MS validation"  1.1 program http://jwalk.ismb.lon.ac.uk/jwalk/download/ ?
# 
loop_
_atom_type.symbol 
C 
H 
N 
O 
P 
S 
# 
_entry.id   8ZZS
#
loop_
_pdbx_entity_poly_na_type.entity_id 
_pdbx_entity_poly_na_type.type 
5 DNA 
6 DNA 
#
loop_
_ihm_entity_poly_segment.id
_ihm_entity_poly_segment.entity_id
_ihm_entity_poly_segment.seq_id_begin
_ihm_entity_poly_segment.seq_id_end
_ihm_entity_poly_segment.comp_id_begin
_ihm_entity_poly_segment.comp_id_end
1 1 1 99 LYS ALA
2 2 1 80 ARG GLY
3 3 1 107 ALA THR
4 4 1 95 ARG LYS
5 5 1 147 DA DT
6 6 1 147 DA DT
7 7 1 91 LEU SER
#
#
loop_
_ihm_struct_assembly.id
_ihm_struct_assembly.name
_ihm_struct_assembly.description
1 'Complete assembly' 
;Integrative structure of RNF168-RING domain and nucleosome complex, 
 modeled by HADDOCK, using spatial restraints derived from NMR, 
 mutagenesis and chemical crosslinking and mass spectrometry data.
;
#
#
loop_
_ihm_struct_assembly_details.id
_ihm_struct_assembly_details.assembly_id
_ihm_struct_assembly_details.parent_assembly_id
_ihm_struct_assembly_details.entity_description
_ihm_struct_assembly_details.entity_id
_ihm_struct_assembly_details.asym_id
_ihm_struct_assembly_details.entity_poly_segment_id
1 1 1 H3 1 A 1
2 1 1 H3 1 E 1
3 1 1 H4 2 B 2
4 1 1 H4 2 F 2
5 1 1 H2A 3 C 3
6 1 1 H2A 3 G 3
7 1 1 H2B 4 D 4
8 1 1 H2B 4 H 4
9 1 1 'DNA strand 1' 5 I 5
10 1 1 'DNA strand 2' 6 J 6
11 1 1 'RNF168 RING domain' 7 K 7
#
#
loop_
_ihm_external_reference_info.reference_id
_ihm_external_reference_info.reference_provider
_ihm_external_reference_info.reference_type
_ihm_external_reference_info.reference
_ihm_external_reference_info.refers_to
_ihm_external_reference_info.associated_url
1 . DOI 10.1038/s41467-019-09756-z File
https://static-content.springer.com/esm/art%3A10.1038%2Fs41467-019-09756-z/MediaObjects/41467_2019_9756_MOESM1_ESM.pdf
#
#
loop_
_ihm_external_files.id
_ihm_external_files.reference_id
_ihm_external_files.file_path
_ihm_external_files.content_type
_ihm_external_files.file_size_bytes
_ihm_external_files.details
1 1 . 'Input data or restraints' .
'Key interface residues from Mutagenesis experiment'
#
#
loop_
_ihm_dataset_list.id
_ihm_dataset_list.data_type
_ihm_dataset_list.database_hosted
_ihm_dataset_list.details
1 'Experimental model' YES 'crystal structure nucleosome'
2 'Experimental model' YES 'crystal structure RNF168 RING domain'
3 'Mutagenesis data' NO 'data for RNF168-RING binding to nucleosome'
4 'NMR data' YES 'data for RNF168-RING binding to nucleosome'
5 'NMR data' YES 'data for RNF168-RING binding to nucleosome'
6 'NMR data' YES 'data for RNF168-RING binding to nucleosome'
7 'Crosslinking-MS data' YES 'cross-linking data on RNF168-nucleosome complex'
#
#
loop_
_ihm_dataset_group.id
_ihm_dataset_group.name
_ihm_dataset_group.application
_ihm_dataset_group.details
1 . . .
#
#
loop_
_ihm_dataset_group_link.group_id
_ihm_dataset_group_link.dataset_list_id
1 1
1 2
1 3
1 4
1 5
1 6
1 7
#
#
loop_
_ihm_dataset_external_reference.id
_ihm_dataset_external_reference.dataset_list_id
_ihm_dataset_external_reference.file_id
1 3 1
#
#
loop_
_ihm_dataset_related_db_reference.id
_ihm_dataset_related_db_reference.dataset_list_id
_ihm_dataset_related_db_reference.db_name
_ihm_dataset_related_db_reference.accession_code
_ihm_dataset_related_db_reference.version
_ihm_dataset_related_db_reference.details
1 1 PDB 2PYO . 'DROSOPHILA NUCLEOSOME CORE'
2 2 PDB 4GB0 . 'CRYSTAL STRUCTURE OF THE RING DOMAIN OF RNF168'
3 4 BMRB 27786 .
'Chemical shifts of ILV-labeled H2A and H2B within nucleosome, titrated with RNF168-RING domain'
4 5 BMRB 27791 . 'NMR titration of H2A in H2A/H2B histone dimer w/ RNF168'
5 6 BMRB 27792 . 'NMR titration of H2B in H2A/H2B histone dimer w/ RNF168'
6 7 PRIDE PXD012723 .
'Cross-linking data obtained on complex of nucleosome and RNF168-RING cross-linked with BS3'
#
#
loop_
_ihm_model_representation.id
_ihm_model_representation.name
_ihm_model_representation.details
1 . .
#
#
loop_
_ihm_model_representation_details.id
_ihm_model_representation_details.representation_id
_ihm_model_representation_details.entity_id
_ihm_model_representation_details.entity_description
_ihm_model_representation_details.entity_asym_id
_ihm_model_representation_details.entity_poly_segment_id
_ihm_model_representation_details.model_object_primitive
_ihm_model_representation_details.starting_model_id
_ihm_model_representation_details.model_mode
_ihm_model_representation_details.model_granularity
_ihm_model_representation_details.model_object_count
1 1 1 H3 A 1 atomistic 1 flexible by-atom .
2 1 2 H4 B 2 atomistic 2 flexible by-atom .
3 1 3 H2A C 3 atomistic 3 flexible by-atom .
4 1 4 H2B D 4 atomistic 4 flexible by-atom .
5 1 1 H3 E 1 atomistic 5 flexible by-atom .
6 1 2 H4 F 2 atomistic 6 flexible by-atom .
7 1 3 H2A G 3 atomistic 7 flexible by-atom .
8 1 4 H2B H 4 atomistic 8 flexible by-atom .
9 1 5 'DNA strand 1' I 5 atomistic 9 flexible by-atom .
10 1 6 'DNA strand 2' J 6 atomistic 10 flexible by-atom .
11 1 7 'RNF168 RING domain' K 7 atomistic 11 flexible by-atom .
#
#
loop_
_ihm_starting_model_details.starting_model_id
_ihm_starting_model_details.entity_id
_ihm_starting_model_details.entity_description
_ihm_starting_model_details.asym_id
_ihm_starting_model_details.entity_poly_segment_id
_ihm_starting_model_details.starting_model_source
_ihm_starting_model_details.starting_model_auth_asym_id
_ihm_starting_model_details.starting_model_sequence_offset
_ihm_starting_model_details.dataset_list_id
1 1 H3 A 1 'experimental model' A -36 1
2 2 H4 B 2 'experimental model' B -22 1
3 3 H2A C 3 'experimental model' C -12 1
4 4 H2B D 4 'experimental model' D -27 1
5 1 H3 E 1 'experimental model' E -36 1
6 2 H4 F 2 'experimental model' F -22 1
7 3 H2A G 3 'experimental model' G -12 1
8 4 H2B H 4 'experimental model' H -27 1
9 5 'DNA strand 1' I 5 'experimental model' I 0 1
10 6 'DNA strand 2' J 6 'experimental model' J 0 1
11 7 'RNF168 RING domain' K 7 'experimental model' A -2 2
#
#
loop_
_ihm_modeling_protocol.id
_ihm_modeling_protocol.protocol_name
_ihm_modeling_protocol.num_steps
1 HADDOCK 1
#
#
loop_
_ihm_modeling_protocol_details.id
_ihm_modeling_protocol_details.protocol_id
_ihm_modeling_protocol_details.step_id
_ihm_modeling_protocol_details.struct_assembly_id
_ihm_modeling_protocol_details.dataset_group_id
_ihm_modeling_protocol_details.struct_assembly_description
_ihm_modeling_protocol_details.step_name
_ihm_modeling_protocol_details.step_method
_ihm_modeling_protocol_details.num_models_begin
_ihm_modeling_protocol_details.num_models_end
_ihm_modeling_protocol_details.multi_scale_flag
_ihm_modeling_protocol_details.multi_state_flag
_ihm_modeling_protocol_details.ordered_flag
_ihm_modeling_protocol_details.software_id
_ihm_modeling_protocol_details.script_file_id
1 1 1 1 1 'All known components' . . . . NO NO NO . .
#
#
loop_
_ihm_modeling_post_process.id
_ihm_modeling_post_process.protocol_id
_ihm_modeling_post_process.analysis_id
_ihm_modeling_post_process.step_id
_ihm_modeling_post_process.type
_ihm_modeling_post_process.feature
_ihm_modeling_post_process.feature_name
_ihm_modeling_post_process.num_models_begin
_ihm_modeling_post_process.num_models_end
_ihm_modeling_post_process.struct_assembly_id
_ihm_modeling_post_process.dataset_group_id
_ihm_modeling_post_process.software_id
_ihm_modeling_post_process.script_file_id
1 1 1 1 filter other 'solvent accessible surface distance it0' 1000 367 . . . .
2 1 1 2 filter other 'solvent accessible surface distance it1' 200 200 . . . .
3 1 1 3 filter other 'solvent accessible surface distance water' 200 200 . . . .
#
#
loop_
_ihm_cross_link_list.id
_ihm_cross_link_list.group_id
_ihm_cross_link_list.entity_description_1
_ihm_cross_link_list.entity_id_1
_ihm_cross_link_list.seq_id_1
_ihm_cross_link_list.comp_id_1
_ihm_cross_link_list.entity_description_2
_ihm_cross_link_list.entity_id_2
_ihm_cross_link_list.seq_id_2
_ihm_cross_link_list.comp_id_2
_ihm_cross_link_list.linker_type
_ihm_cross_link_list.dataset_list_id
1 1 'RNF168 RING domain' 7 44 LYS H2B 4 78 LYS BS3 7
#
#
loop_
_ihm_cross_link_restraint.id
_ihm_cross_link_restraint.group_id
_ihm_cross_link_restraint.entity_id_1
_ihm_cross_link_restraint.asym_id_1
_ihm_cross_link_restraint.seq_id_1
_ihm_cross_link_restraint.comp_id_1
_ihm_cross_link_restraint.entity_id_2
_ihm_cross_link_restraint.asym_id_2
_ihm_cross_link_restraint.seq_id_2
_ihm_cross_link_restraint.comp_id_2
_ihm_cross_link_restraint.atom_id_1
_ihm_cross_link_restraint.atom_id_2
_ihm_cross_link_restraint.restraint_type
_ihm_cross_link_restraint.conditional_crosslink_flag
_ihm_cross_link_restraint.model_granularity
_ihm_cross_link_restraint.distance_threshold
_ihm_cross_link_restraint.psi
_ihm_cross_link_restraint.sigma_1
_ihm_cross_link_restraint.sigma_2
1 1 7 K 44 LYS 4 D 78 LYS CA CA 'upper bound' . by-atom 28.000 . . .
#
#
loop_
_ihm_model_list.model_id
_ihm_model_list.model_name
_ihm_model_list.assembly_id
_ihm_model_list.protocol_id
_ihm_model_list.representation_id
1 'Best Scoring Model cluster 1' 1 1 1
2 'no.2 Scoring Model cluster 1' 1 1 1
3 'no.3 Scoring Model cluster 1' 1 1 1
4 'no.4 Scoring Model cluster 1' 1 1 1
5 'no.5 Scoring Model cluster 1' 1 1 1
6 'no.6 Scoring Model cluster 1' 1 1 1
7 'no.7 Scoring Model cluster 1' 1 1 1
8 'no.8 Scoring Model cluster 1' 1 1 1
9 'no.9 Scoring Model cluster 1' 1 1 1
10 'no.10 Scoring Model cluster 1' 1 1 1
#
#
loop_
_ihm_model_group.id
_ihm_model_group.name
_ihm_model_group.details
1 . .
#
#
loop_
_ihm_model_group_link.group_id
_ihm_model_group_link.model_id
1 1
1 2
1 3
1 4
1 5
1 6
1 7
1 8
1 9
1 10
#
#
loop_
_ihm_poly_residue_feature.ordinal_id
_ihm_poly_residue_feature.feature_id
_ihm_poly_residue_feature.entity_id
_ihm_poly_residue_feature.asym_id
_ihm_poly_residue_feature.seq_id_begin
_ihm_poly_residue_feature.comp_id_begin
_ihm_poly_residue_feature.seq_id_end
_ihm_poly_residue_feature.comp_id_end
_ihm_poly_residue_feature.rep_atom
_ihm_poly_residue_feature.interface_residue_flag
1 1 2 B 45 ARG 45 ARG CA YES
2 2 4 D 9 ILE 9 ILE CA YES
3 3 4 D 12 TYR 13 LYS CA YES
4 4 4 D 16 LYS 17 GLN CA YES
5 5 4 D 18 VAL 18 VAL CA YES
6 6 4 D 20 PRO 21 ASP CA YES
7 7 4 D 69 ARG 69 ARG CA YES
8 8 4 D 72 LEU 73 PRO CA YES
9 9 4 D 74 GLY 74 GLY CA YES
10 10 4 D 75 GLU 75 GLU CA YES
11 11 4 D 77 ALA 77 ALA CA YES
12 12 4 D 78 LYS 78 LYS CA YES
13 13 4 D 79 HIS 79 HIS CA YES
14 14 4 D 81 VAL 83 GLU CA YES
15 15 4 D 85 THR 85 THR CA YES
16 16 4 D 86 LYS 86 LYS CA YES
17 17 4 D 88 VAL 89 THR CA YES
18 18 4 D 90 LYS 90 LYS CA YES
19 19 4 D 91 TYR 91 TYR CA YES
20 20 4 D 92 THR 92 THR CA YES
21 21 4 D 93 SER 95 LYS CA YES
22 22 7 K 28 PRO 28 PRO CA YES
23 23 7 K 43 GLU 43 GLU CA YES
24 24 7 K 46 SER 48 CYS CA YES
25 25 7 K 53 ARG 54 ARG CA YES
26 26 7 K 55 ARG 55 ARG CA YES
27 27 7 K 57 SER 59 TRP CA YES
28 28 7 K 61 ARG 61 ARG CA YES
29 29 7 K 62 TYR 66 ARG CA YES
30 30 3 C 4 ARG 6 ASN CA YES
31 31 3 C 9 GLY 10 LEU CA YES
32 32 3 C 11 GLN 11 GLN CA YES
33 33 3 C 32 ALA 33 GLY CA YES
34 34 3 C 43 GLU 43 GLU CA YES
35 35 3 C 47 ALA 48 GLU CA YES
36 36 3 C 51 GLU 51 GLU CA YES
37 37 3 C 52 LEU 52 LEU CA YES
38 38 3 C 55 ASN 55 ASN CA YES
39 39 3 C 56 ALA 56 ALA CA YES
40 40 3 C 58 ARG 60 ASN CA YES
41 41 3 C 72 LEU 73 ALA CA YES
42 42 3 C 75 ARG 77 ASP CA YES
43 43 3 C 78 GLU 78 GLU CA YES
44 44 3 C 79 GLU 79 GLU CA YES
45 45 3 C 81 ASN 82 LYS CA YES
#
loop_
_ihm_interface_residue_feature.ordinal_id
_ihm_interface_residue_feature.feature_id
_ihm_interface_residue_feature.binding_partner_entity_id
_ihm_interface_residue_feature.binding_partner_asym_id
_ihm_interface_residue_feature.dataset_list_id
_ihm_interface_residue_feature.details
 1  1 7 K . "passive interface residue automatically assigned by HADDOCK"
 2  2 7 K . "passive interface residue automatically assigned by HADDOCK"
 3  3 7 K . "passive interface residue automatically assigned by HADDOCK"
 4  4 7 K . "passive interface residue automatically assigned by HADDOCK"
 5  5 7 K 4 ?
 6  6 7 K . "passive interface residue automatically assigned by HADDOCK"
 7  7 7 K . "passive interface residue automatically assigned by HADDOCK"
 8  8 7 K . "passive interface residue automatically assigned by HADDOCK"
 9  9 7 K 6 ?
10 10 7 K 6 ?
11 11 7 K . "passive interface residue automatically assigned by HADDOCK"
12 12 7 K 6 ?
13 13 7 K . "passive interface residue automatically assigned by HADDOCK"
14 14 7 K . "passive interface residue automatically assigned by HADDOCK"
15 15 7 K . "passive interface residue automatically assigned by HADDOCK"
16 16 7 K 6 ?
17 17 7 K . "passive interface residue automatically assigned by HADDOCK"
18 18 7 K 6 ?
19 19 7 K . "passive interface residue automatically assigned by HADDOCK"
20 20 7 K 6 ?
21 21 7 K . "passive interface residue automatically assigned by HADDOCK"
22 22 7 K . "passive interface residue automatically assigned by HADDOCK"
23 23 7 K . "passive interface residue automatically assigned by HADDOCK"
24 24 7 K . "passive interface residue automatically assigned by HADDOCK"
25 25 7 K . "passive interface residue automatically assigned by HADDOCK"
26 26 3 C 3 ?
27 26 4 D 3 ?
28 27 7 K . "passive interface residue automatically assigned by HADDOCK"
29 28 3 C 3 ?
30 28 4 D 3 ?
31 29 7 K . "passive interface residue automatically assigned by HADDOCK"
32 30 7 K . "passive interface residue automatically assigned by HADDOCK"
33 31 7 K . "passive interface residue automatically assigned by HADDOCK"
34 32 7 K 5 ?
35 33 7 K . "passive interface residue automatically assigned by HADDOCK"
36 34 7 K . "passive interface residue automatically assigned by HADDOCK"
37 35 7 K . "passive interface residue automatically assigned by HADDOCK"
38 36 7 K 5 ?
39 37 7 K 4 ?
40 38 7 K 5 ?
41 39 7 K . "passive interface residue automatically assigned by HADDOCK"
42 40 7 K . "passive interface residue automatically assigned by HADDOCK"
43 41 7 K . "passive interface residue automatically assigned by HADDOCK"
44 42 7 K . "passive interface residue automatically assigned by HADDOCK"
45 43 7 K 5 ?
46 44 7 K 5 ?
47 45 7 K . "passive interface residue automatically assigned by HADDOCK"
#
loop_
_ihm_feature_list.feature_id
_ihm_feature_list.feature_type
_ihm_feature_list.entity_type
1 'residue' polymer
2 'residue' polymer
3 'residue range' polymer
4 'residue range' polymer
5 'residue' polymer
6 'residue range' polymer
7 'residue' polymer
8 'residue range' polymer
9 'residue' polymer
10 'residue' polymer
11 'residue' polymer
12 'residue' polymer
13 'residue' polymer
14 'residue range' polymer
15 'residue' polymer
16 'residue' polymer
17 'residue range' polymer
18 'residue' polymer
19 'residue' polymer
20 'residue' polymer
21 'residue range' polymer
22 'residue' polymer
23 'residue' polymer
24 'residue range' polymer
25 'residue range' polymer
26 'residue' polymer
27 'residue range' polymer
28 'residue' polymer
29 'residue range' polymer
30 'residue range' polymer
31 'residue range' polymer
32 'residue' polymer
33 'residue range' polymer
34 'residue' polymer
35 'residue range' polymer
36 'residue' polymer
37 'residue' polymer
38 'residue' polymer
39 'residue' polymer
40 'residue range' polymer
41 'residue range' polymer
42 'residue range' polymer
43 'residue' polymer
44 'residue' polymer
45 'residue range' polymer
#
loop_
_ihm_derived_distance_restraint.id
_ihm_derived_distance_restraint.group_id
_ihm_derived_distance_restraint.feature_id_1
_ihm_derived_distance_restraint.feature_id_2
_ihm_derived_distance_restraint.group_conditionality
_ihm_derived_distance_restraint.restraint_type
_ihm_derived_distance_restraint.distance_upper_limit
_ihm_derived_distance_restraint.random_exclusion_fraction
_ihm_derived_distance_restraint.dataset_list_id
1 1 32 26 'ANY' 'upper bound' 2.0 0.0 .
2 1 32 28 'ANY' 'upper bound' 2.0 0.0 .
3 1 32 22 'ANY' 'upper bound' 2.0 0.0 .
4 1 32 23 'ANY' 'upper bound' 2.0 0.0 .
5 1 32 24 'ANY' 'upper bound' 2.0 0.0 .
6 1 32 25 'ANY' 'upper bound' 2.0 0.0 .
7 1 32 27 'ANY' 'upper bound' 2.0 0.0 .
8 1 32 29 'ANY' 'upper bound' 2.0 0.0 .
9 2 36 26 'ANY' 'upper bound' 2.0 0.0 .
10 2 36 28 'ANY' 'upper bound' 2.0 0.0 .
11 2 36 22 'ANY' 'upper bound' 2.0 0.0 .
12 2 36 23 'ANY' 'upper bound' 2.0 0.0 .
13 2 36 24 'ANY' 'upper bound' 2.0 0.0 .
14 2 36 25 'ANY' 'upper bound' 2.0 0.0 .
15 2 36 27 'ANY' 'upper bound' 2.0 0.0 .
16 2 36 29 'ANY' 'upper bound' 2.0 0.0 .
17 3 37 26 'ANY' 'upper bound' 2.0 0.0 .
18 3 37 28 'ANY' 'upper bound' 2.0 0.0 .
19 3 37 22 'ANY' 'upper bound' 2.0 0.0 .
20 3 37 23 'ANY' 'upper bound' 2.0 0.0 .
21 3 37 24 'ANY' 'upper bound' 2.0 0.0 .
22 3 37 25 'ANY' 'upper bound' 2.0 0.0 .
23 3 37 27 'ANY' 'upper bound' 2.0 0.0 .
24 3 37 29 'ANY' 'upper bound' 2.0 0.0 .
25 4 38 26 'ANY' 'upper bound' 2.0 0.0 .
26 4 38 28 'ANY' 'upper bound' 2.0 0.0 .
27 4 38 22 'ANY' 'upper bound' 2.0 0.0 .
28 4 38 23 'ANY' 'upper bound' 2.0 0.0 .
29 4 38 24 'ANY' 'upper bound' 2.0 0.0 .
30 4 38 25 'ANY' 'upper bound' 2.0 0.0 .
31 4 38 27 'ANY' 'upper bound' 2.0 0.0 .
32 4 38 29 'ANY' 'upper bound' 2.0 0.0 .
33 5 43 26 'ANY' 'upper bound' 2.0 0.0 .
34 5 43 28 'ANY' 'upper bound' 2.0 0.0 .
35 5 43 22 'ANY' 'upper bound' 2.0 0.0 .
36 5 43 23 'ANY' 'upper bound' 2.0 0.0 .
37 5 43 24 'ANY' 'upper bound' 2.0 0.0 .
38 5 43 25 'ANY' 'upper bound' 2.0 0.0 .
39 5 43 27 'ANY' 'upper bound' 2.0 0.0 .
40 5 43 29 'ANY' 'upper bound' 2.0 0.0 .
41 6 44 26 'ANY' 'upper bound' 2.0 0.0 .
42 6 44 28 'ANY' 'upper bound' 2.0 0.0 .
43 6 44 22 'ANY' 'upper bound' 2.0 0.0 .
44 6 44 23 'ANY' 'upper bound' 2.0 0.0 .
45 6 44 24 'ANY' 'upper bound' 2.0 0.0 .
46 6 44 25 'ANY' 'upper bound' 2.0 0.0 .
47 6 44 27 'ANY' 'upper bound' 2.0 0.0 .
48 6 44 29 'ANY' 'upper bound' 2.0 0.0 .
49 7 5 26 'ANY' 'upper bound' 2.0 0.0 .
50 7 5 28 'ANY' 'upper bound' 2.0 0.0 .
51 7 5 22 'ANY' 'upper bound' 2.0 0.0 .
52 7 5 23 'ANY' 'upper bound' 2.0 0.0 .
53 7 5 24 'ANY' 'upper bound' 2.0 0.0 .
54 7 5 25 'ANY' 'upper bound' 2.0 0.0 .
55 7 5 27 'ANY' 'upper bound' 2.0 0.0 .
56 7 5 29 'ANY' 'upper bound' 2.0 0.0 .
57 8 9 26 'ANY' 'upper bound' 2.0 0.0 .
58 8 9 28 'ANY' 'upper bound' 2.0 0.0 .
59 8 9 22 'ANY' 'upper bound' 2.0 0.0 .
60 8 9 23 'ANY' 'upper bound' 2.0 0.0 .
61 8 9 24 'ANY' 'upper bound' 2.0 0.0 .
62 8 9 25 'ANY' 'upper bound' 2.0 0.0 .
63 8 9 27 'ANY' 'upper bound' 2.0 0.0 .
64 8 9 29 'ANY' 'upper bound' 2.0 0.0 .
65 9 10 26 'ANY' 'upper bound' 2.0 0.0 .
66 9 10 28 'ANY' 'upper bound' 2.0 0.0 .
67 9 10 22 'ANY' 'upper bound' 2.0 0.0 .
68 9 10 23 'ANY' 'upper bound' 2.0 0.0 .
69 9 10 24 'ANY' 'upper bound' 2.0 0.0 .
70 9 10 25 'ANY' 'upper bound' 2.0 0.0 .
71 9 10 27 'ANY' 'upper bound' 2.0 0.0 .
72 9 10 29 'ANY' 'upper bound' 2.0 0.0 .
73 10 12 26 'ANY' 'upper bound' 2.0 0.0 .
74 10 12 28 'ANY' 'upper bound' 2.0 0.0 .
75 10 12 22 'ANY' 'upper bound' 2.0 0.0 .
76 10 12 23 'ANY' 'upper bound' 2.0 0.0 .
77 10 12 24 'ANY' 'upper bound' 2.0 0.0 .
78 10 12 25 'ANY' 'upper bound' 2.0 0.0 .
79 10 12 27 'ANY' 'upper bound' 2.0 0.0 .
80 10 12 29 'ANY' 'upper bound' 2.0 0.0 .
81 11 16 26 'ANY' 'upper bound' 2.0 0.0 .
82 11 16 28 'ANY' 'upper bound' 2.0 0.0 .
83 11 16 22 'ANY' 'upper bound' 2.0 0.0 .
84 11 16 23 'ANY' 'upper bound' 2.0 0.0 .
85 11 16 24 'ANY' 'upper bound' 2.0 0.0 .
86 11 16 25 'ANY' 'upper bound' 2.0 0.0 .
87 11 16 27 'ANY' 'upper bound' 2.0 0.0 .
88 11 16 29 'ANY' 'upper bound' 2.0 0.0 .
89 12 18 26 'ANY' 'upper bound' 2.0 0.0 .
90 12 18 28 'ANY' 'upper bound' 2.0 0.0 .
91 12 18 22 'ANY' 'upper bound' 2.0 0.0 .
92 12 18 23 'ANY' 'upper bound' 2.0 0.0 .
93 12 18 24 'ANY' 'upper bound' 2.0 0.0 .
94 12 18 25 'ANY' 'upper bound' 2.0 0.0 .
95 12 18 27 'ANY' 'upper bound' 2.0 0.0 .
96 12 18 29 'ANY' 'upper bound' 2.0 0.0 .
97 13 20 26 'ANY' 'upper bound' 2.0 0.0 .
98 13 20 28 'ANY' 'upper bound' 2.0 0.0 .
99 13 20 22 'ANY' 'upper bound' 2.0 0.0 .
100 13 20 23 'ANY' 'upper bound' 2.0 0.0 .
101 13 20 24 'ANY' 'upper bound' 2.0 0.0 .
102 13 20 25 'ANY' 'upper bound' 2.0 0.0 .
103 13 20 27 'ANY' 'upper bound' 2.0 0.0 .
104 13 20 29 'ANY' 'upper bound' 2.0 0.0 .
105 14 26 32 'ANY' 'upper bound' 2.0 0.0 .
106 14 26 36 'ANY' 'upper bound' 2.0 0.0 .
107 14 26 37 'ANY' 'upper bound' 2.0 0.0 .
108 14 26 38 'ANY' 'upper bound' 2.0 0.0 .
109 14 26 43 'ANY' 'upper bound' 2.0 0.0 .
110 14 26 44 'ANY' 'upper bound' 2.0 0.0 .
111 14 26 5 'ANY' 'upper bound' 2.0 0.0 .
112 14 26 9 'ANY' 'upper bound' 2.0 0.0 .
113 14 26 10 'ANY' 'upper bound' 2.0 0.0 .
114 14 26 12 'ANY' 'upper bound' 2.0 0.0 .
115 14 26 16 'ANY' 'upper bound' 2.0 0.0 .
116 14 26 18 'ANY' 'upper bound' 2.0 0.0 .
117 14 26 20 'ANY' 'upper bound' 2.0 0.0 .
118 14 26 1 'ANY' 'upper bound' 2.0 0.0 .
119 14 26 30 'ANY' 'upper bound' 2.0 0.0 .
120 14 26 31 'ANY' 'upper bound' 2.0 0.0 .
121 14 26 33 'ANY' 'upper bound' 2.0 0.0 .
122 14 26 34 'ANY' 'upper bound' 2.0 0.0 .
123 14 26 35 'ANY' 'upper bound' 2.0 0.0 .
124 14 26 39 'ANY' 'upper bound' 2.0 0.0 .
125 14 26 40 'ANY' 'upper bound' 2.0 0.0 .
126 14 26 41 'ANY' 'upper bound' 2.0 0.0 .
127 14 26 42 'ANY' 'upper bound' 2.0 0.0 .
128 14 26 45 'ANY' 'upper bound' 2.0 0.0 .
129 14 26 2 'ANY' 'upper bound' 2.0 0.0 .
130 14 26 3 'ANY' 'upper bound' 2.0 0.0 .
131 14 26 4 'ANY' 'upper bound' 2.0 0.0 .
132 14 26 6 'ANY' 'upper bound' 2.0 0.0 .
133 14 26 7 'ANY' 'upper bound' 2.0 0.0 .
134 14 26 8 'ANY' 'upper bound' 2.0 0.0 .
135 14 26 11 'ANY' 'upper bound' 2.0 0.0 .
136 14 26 13 'ANY' 'upper bound' 2.0 0.0 .
137 14 26 14 'ANY' 'upper bound' 2.0 0.0 .
138 14 26 15 'ANY' 'upper bound' 2.0 0.0 .
139 14 26 17 'ANY' 'upper bound' 2.0 0.0 .
140 14 26 19 'ANY' 'upper bound' 2.0 0.0 .
141 14 26 21 'ANY' 'upper bound' 2.0 0.0 .
142 15 28 32 'ANY' 'upper bound' 2.0 0.0 .
143 15 28 36 'ANY' 'upper bound' 2.0 0.0 .
144 15 28 37 'ANY' 'upper bound' 2.0 0.0 .
145 15 28 38 'ANY' 'upper bound' 2.0 0.0 .
146 15 28 43 'ANY' 'upper bound' 2.0 0.0 .
147 15 28 44 'ANY' 'upper bound' 2.0 0.0 .
148 15 28 5 'ANY' 'upper bound' 2.0 0.0 .
149 15 28 9 'ANY' 'upper bound' 2.0 0.0 .
150 15 28 10 'ANY' 'upper bound' 2.0 0.0 .
151 15 28 12 'ANY' 'upper bound' 2.0 0.0 .
152 15 28 16 'ANY' 'upper bound' 2.0 0.0 .
153 15 28 18 'ANY' 'upper bound' 2.0 0.0 .
154 15 28 20 'ANY' 'upper bound' 2.0 0.0 .
155 15 28 1 'ANY' 'upper bound' 2.0 0.0 .
156 15 28 30 'ANY' 'upper bound' 2.0 0.0 .
157 15 28 31 'ANY' 'upper bound' 2.0 0.0 .
158 15 28 33 'ANY' 'upper bound' 2.0 0.0 .
159 15 28 34 'ANY' 'upper bound' 2.0 0.0 .
160 15 28 35 'ANY' 'upper bound' 2.0 0.0 .
161 15 28 39 'ANY' 'upper bound' 2.0 0.0 .
162 15 28 40 'ANY' 'upper bound' 2.0 0.0 .
163 15 28 41 'ANY' 'upper bound' 2.0 0.0 .
164 15 28 42 'ANY' 'upper bound' 2.0 0.0 .
165 15 28 45 'ANY' 'upper bound' 2.0 0.0 .
166 15 28 2 'ANY' 'upper bound' 2.0 0.0 .
167 15 28 3 'ANY' 'upper bound' 2.0 0.0 .
168 15 28 4 'ANY' 'upper bound' 2.0 0.0 .
169 15 28 6 'ANY' 'upper bound' 2.0 0.0 .
170 15 28 7 'ANY' 'upper bound' 2.0 0.0 .
171 15 28 8 'ANY' 'upper bound' 2.0 0.0 .
172 15 28 11 'ANY' 'upper bound' 2.0 0.0 .
173 15 28 13 'ANY' 'upper bound' 2.0 0.0 .
174 15 28 14 'ANY' 'upper bound' 2.0 0.0 .
175 15 28 15 'ANY' 'upper bound' 2.0 0.0 .
176 15 28 17 'ANY' 'upper bound' 2.0 0.0 .
177 15 28 19 'ANY' 'upper bound' 2.0 0.0 .
178 15 28 21 'ANY' 'upper bound' 2.0 0.0 .
#
#
loop_
#