data_9A82

#
_entry.id  9A82
#
loop_
_atom_type.symbol
C
H
N
O
P
S
#
loop_
_audit_author.name
_audit_author.pdbx_ordinal
"Karanth, M.N."	1
"Kirkpatrick, J.P."	2
"Carlomagno, T."	3
#
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   1.26
http://mmcif.wwpdb.org/dictionaries/ascii/mmcif_pdbx_v50.dic    mmcif_pdbx.dic  5.395
#
loop_
_database_2.database_id
_database_2.database_code
_database_2.pdbx_database_accession
_database_2.pdbx_DOI
PDB-Dev PDBDEV_00000367 PDBDEV_00000367 ?
PDB 9A82 pdb_00009a82 10.2210/pdb9a82/pdb
#
_pdbx_database_status.status_code                     REL
_pdbx_database_status.entry_id                        9A82
_pdbx_database_status.deposit_site                    RCSB
_pdbx_database_status.process_site                    RCSB
_pdbx_database_status.recvd_initial_deposition_date   2024-01-22 
# 
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 2024-06-21 
# 
_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_
_chem_comp.formula
_chem_comp.formula_weight
_chem_comp.id
_chem_comp.mon_nstd_flag
_chem_comp.name
_chem_comp.pdbx_synonyms
_chem_comp.type
"C3 H7 N O2"	89.094	ALA	.	ALANINE	.	"L-peptide linking"
"C6 H15 N4 O2 1"	175.212	ARG	.	ARGININE	.	"L-peptide linking"
"C4 H8 N2 O3"	132.119	ASN	.	ASPARAGINE	.	"L-peptide linking"
"C4 H7 N O4"	133.103	ASP	.	"ASPARTIC ACID"	.	"L-peptide linking"
"C3 H7 N O2 S"	121.154	CYS	.	CYSTEINE	.	"L-peptide linking"
"C5 H10 N2 O3"	146.146	GLN	.	GLUTAMINE	.	"L-peptide linking"
"C5 H9 N O4"	147.13	GLU	.	"GLUTAMIC ACID"	.	"L-peptide linking"
"C2 H5 N O2"	75.067	GLY	.	GLYCINE	.	"peptide linking"
"C6 H10 N3 O2 1"	156.165	HIS	.	HISTIDINE	.	"L-peptide linking"
"C6 H13 N O2"	131.175	ILE	.	ISOLEUCINE	.	"L-peptide linking"
"C6 H13 N O2"	131.175	LEU	.	LEUCINE	.	"L-peptide linking"
"C6 H15 N2 O2 1"	147.198	LYS	.	LYSINE	.	"L-peptide linking"
"C5 H11 N O2 S"	149.208	MET	.	METHIONINE	.	"L-peptide linking"
"C9 H11 N O2"	165.192	PHE	.	PHENYLALANINE	.	"L-peptide linking"
"C5 H9 N O2"	115.132	PRO	.	PROLINE	.	"L-peptide linking"
"C3 H7 N O3"	105.093	SER	.	SERINE	.	"L-peptide linking"
"C4 H9 N O3"	119.12	THR	.	THREONINE	.	"L-peptide linking"
"C11 H12 N2 O2"	204.229	TRP	.	TRYPTOPHAN	.	"L-peptide linking"
"C9 H11 N O3"	181.191	TYR	.	TYROSINE	.	"L-peptide linking"
"C5 H11 N O2"	117.148	VAL	.	VALINE	.	"L-peptide linking"
"C21 H33 N4 O9 P S"	548.548	WP9	.	"~{S}-[2-[3-[[(2~{R})-4-[[(2~{S})-2-azanyl-3-oxidanylidene-propoxy]-oxidanyl-phosphoryl]oxy-3,3-dimethyl-2-oxidanyl-butanoyl]amino]propanoylamino]ethyl] 2-azanylbenzenecarbothioate"	.	non-polymer
#
loop_
_citation.country
_citation.id
_citation.journal_abbrev
_citation.journal_id_ASTM
_citation.journal_id_CSD
_citation.journal_id_ISSN
_citation.journal_issue
_citation.journal_volume
_citation.page_first
_citation.page_last
_citation.pdbx_database_id_DOI
_citation.pdbx_database_id_PubMed
_citation.title
_citation.year
.	1	"Sci. Adv."	.	.	.	.	10	.	.	10.1126/sciadv.adm9404	38896613	"The specificity of intermodular recognition in a prototypical nonribosomal peptide synthetase depends on an adaptor domain"	2024
.	2	"J. Am. Chem. Soc."	.	.	.	7	125	1731	1737	https://doi.org/10.1021/ja026939x	.	"HADDOCK: a protein-protein docking approach based on biochemical and/or biophysical information."	2003
#
loop_
_citation_author.citation_id
_citation_author.name
_citation_author.ordinal
1	"Karanth, M.N."	1
1	"Kirkpatrick, J.P."	2
1	"Krausze, J."	3
1	"Schmelz, S."	4
1	"Scrima, A."	5
1	"Carlomagno, T."	6
2	"Dominguez, C."	1
2	"Boelens, R."	2
2	"Bonvin, A.M.J.J."	3
#
loop_
_entity.details
_entity.formula_weight
_entity.id
_entity.pdbx_description
_entity.pdbx_number_of_molecules
_entity.src_method
_entity.type
"The BN91 and BC domains were treated as separate entities in the docking protocol."	59212	1	"Adaptor (BN91) and condensation (BC) domains of Tomaymycin B module "	1	MAN	polymer
"The substrate is anthranilic acid (attached to the phosphopantetheine arm of holo APCP)."	10489	2	"Substrate-loaded peptidyl-carrier-protein (APCP) domain of the Tomaymycin A module"	1	MAN	polymer
#
loop_
_entity_poly.entity_id
_entity_poly.nstd_chirality
_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.type
1	.	NO	NO	NSPLRTTVLDLARTTLGSADLTAHEPLADRCEHPALLDDLATTLTAVFAVEITGADLAAGATVADVAARMDDRRDAAVEASFGQSGIWLIDQYLPNPAAYNGPFFVRLPFSADPDRLHAAVRGVLRRQEVLRTTYALSDGTLRQNVSRDDDAVVFEVARYGDDKELDALVHRVANLRLDLARGPVIAVTCALGPANRSAVICNIHHIASDAASAGVFLRELLDAYDRLGRGLPVEADPLRPTYGDFSQWYRELMNPEALTRSLDHFAARLAGELPVLDLPTDRPRPPVKQHRGGTLPLHLPAAAADDFEALARTEGVTLFMALVAAYAVFLSRHTGQRRVLIGSPVSLRDDPATHELIGYFVNLVVLQQEIDDRMTVRDVLRRAREEVSEALRHKWAPFDKVVERLQPPRSSGYTPLVQTMLVLTQGDAGRISHDDTELRIERGAAHGAKYDLSLVFERDSEGLHGLIEYDADLFDEPTVRAMGDRLRHLMEQFARRPDAPLHELEAL	NSPLRTTVLDLARTTLGSADLTAHEPLADRCEHPALLDDLATTLTAVFAVEITGADLAAGATVADVAARMDDRRDAAVEASFGQSGIWLIDQYLPNPAAYNGPFFVRLPFSADPDRLHAAVRGVLRRQEVLRTTYALSDGTLRQNVSRDDDAVVFEVARYGDDKELDALVHRVANLRLDLARGPVIAVTCALGPANRSAVICNIHHIASDAASAGVFLRELLDAYDRLGRGLPVEADPLRPTYGDFSQWYRELMNPEALTRSLDHFAARLAGELPVLDLPTDRPRPPVKQHRGGTLPLHLPAAAADDFEALARTEGVTLFMALVAAYAVFLSRHTGQRRVLIGSPVSLRDDPATHELIGYFVNLVVLQQEIDDRMTVRDVLRRAREEVSEALRHKWAPFDKVVERLQPPRSSGYTPLVQTMLVLTQGDAGRISHDDTELRIERGAAHGAKYDLSLVFERDSEGLHGLIEYDADLFDEPTVRAMGDRLRHLMEQFARRPDAPLHELEAL	.	A	polypeptide(L)
2	.	NO	YES	PLETVVLQAWKDISGADDFTTTDSFLGHGGN(WP9)LHFVQLASRLQKIFGVEVSTEDVFRHGTVEQLARFVEQSRDTG	PLETVVLQAWKDISGADDFTTTDSFLGHGGNXLHFVQLASRLQKIFGVEVSTEDVFRHGTVEQLARFVEQSRDTG	.	B	polypeptide(L)
#
loop_
_entity_poly_seq.entity_id
_entity_poly_seq.hetero
_entity_poly_seq.mon_id
_entity_poly_seq.num
1	.	ASN	1
1	.	SER	2
1	.	PRO	3
1	.	LEU	4
1	.	ARG	5
1	.	THR	6
1	.	THR	7
1	.	VAL	8
1	.	LEU	9
1	.	ASP	10
1	.	LEU	11
1	.	ALA	12
1	.	ARG	13
1	.	THR	14
1	.	THR	15
1	.	LEU	16
1	.	GLY	17
1	.	SER	18
1	.	ALA	19
1	.	ASP	20
1	.	LEU	21
1	.	THR	22
1	.	ALA	23
1	.	HIS	24
1	.	GLU	25
1	.	PRO	26
1	.	LEU	27
1	.	ALA	28
1	.	ASP	29
1	.	ARG	30
1	.	CYS	31
1	.	GLU	32
1	.	HIS	33
1	.	PRO	34
1	.	ALA	35
1	.	LEU	36
1	.	LEU	37
1	.	ASP	38
1	.	ASP	39
1	.	LEU	40
1	.	ALA	41
1	.	THR	42
1	.	THR	43
1	.	LEU	44
1	.	THR	45
1	.	ALA	46
1	.	VAL	47
1	.	PHE	48
1	.	ALA	49
1	.	VAL	50
1	.	GLU	51
1	.	ILE	52
1	.	THR	53
1	.	GLY	54
1	.	ALA	55
1	.	ASP	56
1	.	LEU	57
1	.	ALA	58
1	.	ALA	59
1	.	GLY	60
1	.	ALA	61
1	.	THR	62
1	.	VAL	63
1	.	ALA	64
1	.	ASP	65
1	.	VAL	66
1	.	ALA	67
1	.	ALA	68
1	.	ARG	69
1	.	MET	70
1	.	ASP	71
1	.	ASP	72
1	.	ARG	73
1	.	ARG	74
1	.	ASP	75
1	.	ALA	76
1	.	ALA	77
1	.	VAL	78
1	.	GLU	79
1	.	ALA	80
1	.	SER	81
1	.	PHE	82
1	.	GLY	83
1	.	GLN	84
1	.	SER	85
1	.	GLY	86
1	.	ILE	87
1	.	TRP	88
1	.	LEU	89
1	.	ILE	90
1	.	ASP	91
1	.	GLN	92
1	.	TYR	93
1	.	LEU	94
1	.	PRO	95
1	.	ASN	96
1	.	PRO	97
1	.	ALA	98
1	.	ALA	99
1	.	TYR	100
1	.	ASN	101
1	.	GLY	102
1	.	PRO	103
1	.	PHE	104
1	.	PHE	105
1	.	VAL	106
1	.	ARG	107
1	.	LEU	108
1	.	PRO	109
1	.	PHE	110
1	.	SER	111
1	.	ALA	112
1	.	ASP	113
1	.	PRO	114
1	.	ASP	115
1	.	ARG	116
1	.	LEU	117
1	.	HIS	118
1	.	ALA	119
1	.	ALA	120
1	.	VAL	121
1	.	ARG	122
1	.	GLY	123
1	.	VAL	124
1	.	LEU	125
1	.	ARG	126
1	.	ARG	127
1	.	GLN	128
1	.	GLU	129
1	.	VAL	130
1	.	LEU	131
1	.	ARG	132
1	.	THR	133
1	.	THR	134
1	.	TYR	135
1	.	ALA	136
1	.	LEU	137
1	.	SER	138
1	.	ASP	139
1	.	GLY	140
1	.	THR	141
1	.	LEU	142
1	.	ARG	143
1	.	GLN	144
1	.	ASN	145
1	.	VAL	146
1	.	SER	147
1	.	ARG	148
1	.	ASP	149
1	.	ASP	150
1	.	ASP	151
1	.	ALA	152
1	.	VAL	153
1	.	VAL	154
1	.	PHE	155
1	.	GLU	156
1	.	VAL	157
1	.	ALA	158
1	.	ARG	159
1	.	TYR	160
1	.	GLY	161
1	.	ASP	162
1	.	ASP	163
1	.	LYS	164
1	.	GLU	165
1	.	LEU	166
1	.	ASP	167
1	.	ALA	168
1	.	LEU	169
1	.	VAL	170
1	.	HIS	171
1	.	ARG	172
1	.	VAL	173
1	.	ALA	174
1	.	ASN	175
1	.	LEU	176
1	.	ARG	177
1	.	LEU	178
1	.	ASP	179
1	.	LEU	180
1	.	ALA	181
1	.	ARG	182
1	.	GLY	183
1	.	PRO	184
1	.	VAL	185
1	.	ILE	186
1	.	ALA	187
1	.	VAL	188
1	.	THR	189
1	.	CYS	190
1	.	ALA	191
1	.	LEU	192
1	.	GLY	193
1	.	PRO	194
1	.	ALA	195
1	.	ASN	196
1	.	ARG	197
1	.	SER	198
1	.	ALA	199
1	.	VAL	200
1	.	ILE	201
1	.	CYS	202
1	.	ASN	203
1	.	ILE	204
1	.	HIS	205
1	.	HIS	206
1	.	ILE	207
1	.	ALA	208
1	.	SER	209
1	.	ASP	210
1	.	ALA	211
1	.	ALA	212
1	.	SER	213
1	.	ALA	214
1	.	GLY	215
1	.	VAL	216
1	.	PHE	217
1	.	LEU	218
1	.	ARG	219
1	.	GLU	220
1	.	LEU	221
1	.	LEU	222
1	.	ASP	223
1	.	ALA	224
1	.	TYR	225
1	.	ASP	226
1	.	ARG	227
1	.	LEU	228
1	.	GLY	229
1	.	ARG	230
1	.	GLY	231
1	.	LEU	232
1	.	PRO	233
1	.	VAL	234
1	.	GLU	235
1	.	ALA	236
1	.	ASP	237
1	.	PRO	238
1	.	LEU	239
1	.	ARG	240
1	.	PRO	241
1	.	THR	242
1	.	TYR	243
1	.	GLY	244
1	.	ASP	245
1	.	PHE	246
1	.	SER	247
1	.	GLN	248
1	.	TRP	249
1	.	TYR	250
1	.	ARG	251
1	.	GLU	252
1	.	LEU	253
1	.	MET	254
1	.	ASN	255
1	.	PRO	256
1	.	GLU	257
1	.	ALA	258
1	.	LEU	259
1	.	THR	260
1	.	ARG	261
1	.	SER	262
1	.	LEU	263
1	.	ASP	264
1	.	HIS	265
1	.	PHE	266
1	.	ALA	267
1	.	ALA	268
1	.	ARG	269
1	.	LEU	270
1	.	ALA	271
1	.	GLY	272
1	.	GLU	273
1	.	LEU	274
1	.	PRO	275
1	.	VAL	276
1	.	LEU	277
1	.	ASP	278
1	.	LEU	279
1	.	PRO	280
1	.	THR	281
1	.	ASP	282
1	.	ARG	283
1	.	PRO	284
1	.	ARG	285
1	.	PRO	286
1	.	PRO	287
1	.	VAL	288
1	.	LYS	289
1	.	GLN	290
1	.	HIS	291
1	.	ARG	292
1	.	GLY	293
1	.	GLY	294
1	.	THR	295
1	.	LEU	296
1	.	PRO	297
1	.	LEU	298
1	.	HIS	299
1	.	LEU	300
1	.	PRO	301
1	.	ALA	302
1	.	ALA	303
1	.	ALA	304
1	.	ALA	305
1	.	ASP	306
1	.	ASP	307
1	.	PHE	308
1	.	GLU	309
1	.	ALA	310
1	.	LEU	311
1	.	ALA	312
1	.	ARG	313
1	.	THR	314
1	.	GLU	315
1	.	GLY	316
1	.	VAL	317
1	.	THR	318
1	.	LEU	319
1	.	PHE	320
1	.	MET	321
1	.	ALA	322
1	.	LEU	323
1	.	VAL	324
1	.	ALA	325
1	.	ALA	326
1	.	TYR	327
1	.	ALA	328
1	.	VAL	329
1	.	PHE	330
1	.	LEU	331
1	.	SER	332
1	.	ARG	333
1	.	HIS	334
1	.	THR	335
1	.	GLY	336
1	.	GLN	337
1	.	ARG	338
1	.	ARG	339
1	.	VAL	340
1	.	LEU	341
1	.	ILE	342
1	.	GLY	343
1	.	SER	344
1	.	PRO	345
1	.	VAL	346
1	.	SER	347
1	.	LEU	348
1	.	ARG	349
1	.	ASP	350
1	.	ASP	351
1	.	PRO	352
1	.	ALA	353
1	.	THR	354
1	.	HIS	355
1	.	GLU	356
1	.	LEU	357
1	.	ILE	358
1	.	GLY	359
1	.	TYR	360
1	.	PHE	361
1	.	VAL	362
1	.	ASN	363
1	.	LEU	364
1	.	VAL	365
1	.	VAL	366
1	.	LEU	367
1	.	GLN	368
1	.	GLN	369
1	.	GLU	370
1	.	ILE	371
1	.	ASP	372
1	.	ASP	373
1	.	ARG	374
1	.	MET	375
1	.	THR	376
1	.	VAL	377
1	.	ARG	378
1	.	ASP	379
1	.	VAL	380
1	.	LEU	381
1	.	ARG	382
1	.	ARG	383
1	.	ALA	384
1	.	ARG	385
1	.	GLU	386
1	.	GLU	387
1	.	VAL	388
1	.	SER	389
1	.	GLU	390
1	.	ALA	391
1	.	LEU	392
1	.	ARG	393
1	.	HIS	394
1	.	LYS	395
1	.	TRP	396
1	.	ALA	397
1	.	PRO	398
1	.	PHE	399
1	.	ASP	400
1	.	LYS	401
1	.	VAL	402
1	.	VAL	403
1	.	GLU	404
1	.	ARG	405
1	.	LEU	406
1	.	GLN	407
1	.	PRO	408
1	.	PRO	409
1	.	ARG	410
1	.	SER	411
1	.	SER	412
1	.	GLY	413
1	.	TYR	414
1	.	THR	415
1	.	PRO	416
1	.	LEU	417
1	.	VAL	418
1	.	GLN	419
1	.	THR	420
1	.	MET	421
1	.	LEU	422
1	.	VAL	423
1	.	LEU	424
1	.	THR	425
1	.	GLN	426
1	.	GLY	427
1	.	ASP	428
1	.	ALA	429
1	.	GLY	430
1	.	ARG	431
1	.	ILE	432
1	.	SER	433
1	.	HIS	434
1	.	ASP	435
1	.	ASP	436
1	.	THR	437
1	.	GLU	438
1	.	LEU	439
1	.	ARG	440
1	.	ILE	441
1	.	GLU	442
1	.	ARG	443
1	.	GLY	444
1	.	ALA	445
1	.	ALA	446
1	.	HIS	447
1	.	GLY	448
1	.	ALA	449
1	.	LYS	450
1	.	TYR	451
1	.	ASP	452
1	.	LEU	453
1	.	SER	454
1	.	LEU	455
1	.	VAL	456
1	.	PHE	457
1	.	GLU	458
1	.	ARG	459
1	.	ASP	460
1	.	SER	461
1	.	GLU	462
1	.	GLY	463
1	.	LEU	464
1	.	HIS	465
1	.	GLY	466
1	.	LEU	467
1	.	ILE	468
1	.	GLU	469
1	.	TYR	470
1	.	ASP	471
1	.	ALA	472
1	.	ASP	473
1	.	LEU	474
1	.	PHE	475
1	.	ASP	476
1	.	GLU	477
1	.	PRO	478
1	.	THR	479
1	.	VAL	480
1	.	ARG	481
1	.	ALA	482
1	.	MET	483
1	.	GLY	484
1	.	ASP	485
1	.	ARG	486
1	.	LEU	487
1	.	ARG	488
1	.	HIS	489
1	.	LEU	490
1	.	MET	491
1	.	GLU	492
1	.	GLN	493
1	.	PHE	494
1	.	ALA	495
1	.	ARG	496
1	.	ARG	497
1	.	PRO	498
1	.	ASP	499
1	.	ALA	500
1	.	PRO	501
1	.	LEU	502
1	.	HIS	503
1	.	GLU	504
1	.	LEU	505
1	.	GLU	506
1	.	ALA	507
1	.	LEU	508
2	.	PRO	1
2	.	LEU	2
2	.	GLU	3
2	.	THR	4
2	.	VAL	5
2	.	VAL	6
2	.	LEU	7
2	.	GLN	8
2	.	ALA	9
2	.	TRP	10
2	.	LYS	11
2	.	ASP	12
2	.	ILE	13
2	.	SER	14
2	.	GLY	15
2	.	ALA	16
2	.	ASP	17
2	.	ASP	18
2	.	PHE	19
2	.	THR	20
2	.	THR	21
2	.	THR	22
2	.	ASP	23
2	.	SER	24
2	.	PHE	25
2	.	LEU	26
2	.	GLY	27
2	.	HIS	28
2	.	GLY	29
2	.	GLY	30
2	.	ASN	31
2	.	WP9	32
2	.	LEU	33
2	.	HIS	34
2	.	PHE	35
2	.	VAL	36
2	.	GLN	37
2	.	LEU	38
2	.	ALA	39
2	.	SER	40
2	.	ARG	41
2	.	LEU	42
2	.	GLN	43
2	.	LYS	44
2	.	ILE	45
2	.	PHE	46
2	.	GLY	47
2	.	VAL	48
2	.	GLU	49
2	.	VAL	50
2	.	SER	51
2	.	THR	52
2	.	GLU	53
2	.	ASP	54
2	.	VAL	55
2	.	PHE	56
2	.	ARG	57
2	.	HIS	58
2	.	GLY	59
2	.	THR	60
2	.	VAL	61
2	.	GLU	62
2	.	GLN	63
2	.	LEU	64
2	.	ALA	65
2	.	ARG	66
2	.	PHE	67
2	.	VAL	68
2	.	GLU	69
2	.	GLN	70
2	.	SER	71
2	.	ARG	72
2	.	ASP	73
2	.	THR	74
2	.	GLY	75
#
loop_
_ihm_dataset_group.application
_ihm_dataset_group.details
_ihm_dataset_group.id
_ihm_dataset_group.name
restraint	.	1	"Step-1 restraints"
restraint	.	2	"Step-2 restraints"
other	.	3	"All inputs for Step-1 docking"
other	.	4	"All inputs for Step-2 docking"
#
loop_
_ihm_dataset_group_link.dataset_list_id
_ihm_dataset_group_link.group_id
1	1
1	3
2	1
2	3
3	2
3	4
4	2
4	4
5	4
6	3
6	4
7	3
7	4
#
loop_
_ihm_dataset_list.data_type
_ihm_dataset_list.database_hosted
_ihm_dataset_list.details
_ihm_dataset_list.id
"NMR data"	NO	"Distance restraints for step-1 docking (BC domain with APCP) derived from measurement of paramagnetic relaxation enhancements (PREs)."	1
"Predicted contacts"	NO	"Distance restraints for step-1 docking (BC domain with APCP) constraining position and conformation of Ppant-substrate moiety of APCP within BC domain."	2
"NMR data"	NO	"Distance restraints for step-2 docking (binary complex of BC and APCP from step-1 with BN91 domain) derived from measurement of paramagnetic relaxation enhancements (PREs)."	3
"Predicted contacts"	NO	"Distance restraints for step-2 docking (binary complex of BC and APCP from step-1 with BN91 domain) constraining distance between C-terminal end of BN91 domain and N-terminal end of BC domain."	4
"Experimental model"	YES	8QSX	5
"Experimental model"	YES	8QNF	6
"Experimental model"	YES	8QRX	7
#
loop_
_ihm_dataset_related_db_reference.accession_code
_ihm_dataset_related_db_reference.dataset_list_id
_ihm_dataset_related_db_reference.db_name
_ihm_dataset_related_db_reference.details
_ihm_dataset_related_db_reference.id
_ihm_dataset_related_db_reference.version
8QSX	5	PDB	.	1	.
8QNF	6	PDB	.	2	.
8QRX	7	PDB	.	3	.
#
loop_
_ihm_derived_distance_restraint.dataset_list_id
_ihm_derived_distance_restraint.distance_lower_limit
_ihm_derived_distance_restraint.distance_lower_limit_esd
_ihm_derived_distance_restraint.distance_threshold_esd
_ihm_derived_distance_restraint.distance_threshold_mean
_ihm_derived_distance_restraint.distance_upper_limit
_ihm_derived_distance_restraint.distance_upper_limit_esd
_ihm_derived_distance_restraint.feature_id_1
_ihm_derived_distance_restraint.feature_id_2
_ihm_derived_distance_restraint.group_conditionality
_ihm_derived_distance_restraint.group_id
_ihm_derived_distance_restraint.id
_ihm_derived_distance_restraint.mic_value
_ihm_derived_distance_restraint.probability
_ihm_derived_distance_restraint.random_exclusion_fraction
_ihm_derived_distance_restraint.restraint_type
1	0	.	.	.	22.2	.	1	2	.	1	1	.	.	.	"lower and upper bound"
1	0	.	.	.	23.3	.	1	3	.	1	2	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	1	4	.	1	3	.	.	.	"lower and upper bound"
1	0	.	.	.	22.5	.	1	5	.	1	4	.	.	.	"lower and upper bound"
1	0	.	.	.	22.2	.	1	6	.	1	5	.	.	.	"lower and upper bound"
1	0	.	.	.	24	.	1	7	.	1	6	.	.	.	"lower and upper bound"
1	0	.	.	.	24	.	1	8	.	1	7	.	.	.	"lower and upper bound"
1	0	.	.	.	23.6	.	1	9	.	1	8	.	.	.	"lower and upper bound"
1	0	.	.	.	22.6	.	1	10	.	1	9	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	11	12	.	1	10	.	.	.	"lower and upper bound"
1	0	.	.	.	23.1	.	11	13	.	1	11	.	.	.	"lower and upper bound"
1	0	.	.	.	24.3	.	11	14	.	1	12	.	.	.	"lower and upper bound"
1	0	.	.	.	24.5	.	11	15	.	1	13	.	.	.	"lower and upper bound"
1	0	.	.	.	24.6	.	11	16	.	1	14	.	.	.	"lower and upper bound"
1	0	.	.	.	21.9	.	11	17	.	1	15	.	.	.	"lower and upper bound"
1	0	.	.	.	23.5	.	11	18	.	1	16	.	.	.	"lower and upper bound"
1	0	.	.	.	23.1	.	11	19	.	1	17	.	.	.	"lower and upper bound"
1	0	.	.	.	21.7	.	11	2	.	1	18	.	.	.	"lower and upper bound"
1	0	.	.	.	22.1	.	11	20	.	1	19	.	.	.	"lower and upper bound"
1	0	.	.	.	22.8	.	11	21	.	1	20	.	.	.	"lower and upper bound"
1	0	.	.	.	23.3	.	11	22	.	1	21	.	.	.	"lower and upper bound"
1	0	.	.	.	21.8	.	11	3	.	1	22	.	.	.	"lower and upper bound"
1	0	.	.	.	23.4	.	11	23	.	1	23	.	.	.	"lower and upper bound"
1	0	.	.	.	23.6	.	11	24	.	1	24	.	.	.	"lower and upper bound"
1	0	.	.	.	23.8	.	11	25	.	1	25	.	.	.	"lower and upper bound"
1	0	.	.	.	23	.	11	26	.	1	26	.	.	.	"lower and upper bound"
1	0	.	.	.	23.4	.	11	27	.	1	27	.	.	.	"lower and upper bound"
1	0	.	.	.	23.9	.	11	28	.	1	28	.	.	.	"lower and upper bound"
1	0	.	.	.	24.2	.	11	29	.	1	29	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	11	30	.	1	30	.	.	.	"lower and upper bound"
1	0	.	.	.	23.4	.	11	31	.	1	31	.	.	.	"lower and upper bound"
1	0	.	.	.	24.7	.	11	32	.	1	32	.	.	.	"lower and upper bound"
1	0	.	.	.	23.8	.	11	33	.	1	33	.	.	.	"lower and upper bound"
1	0	.	.	.	24.3	.	11	4	.	1	34	.	.	.	"lower and upper bound"
1	0	.	.	.	24.9	.	11	34	.	1	35	.	.	.	"lower and upper bound"
1	0	.	.	.	24.2	.	11	5	.	1	36	.	.	.	"lower and upper bound"
1	0	.	.	.	24.1	.	11	10	.	1	37	.	.	.	"lower and upper bound"
1	0	.	.	.	23.6	.	11	35	.	1	38	.	.	.	"lower and upper bound"
1	0	.	.	.	24.6	.	11	36	.	1	39	.	.	.	"lower and upper bound"
1	0	.	.	.	24.8	.	11	37	.	1	40	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	11	38	.	1	41	.	.	.	"lower and upper bound"
1	0	.	.	.	24.5	.	39	40	.	1	42	.	.	.	"lower and upper bound"
1	0	.	.	.	23.7	.	39	41	.	1	43	.	.	.	"lower and upper bound"
1	0	.	.	.	23.6	.	39	42	.	1	44	.	.	.	"lower and upper bound"
1	0	.	.	.	23.7	.	39	18	.	1	45	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	39	19	.	1	46	.	.	.	"lower and upper bound"
1	0	.	.	.	23.5	.	39	2	.	1	47	.	.	.	"lower and upper bound"
1	0	.	.	.	23.9	.	39	20	.	1	48	.	.	.	"lower and upper bound"
1	0	.	.	.	24.3	.	39	21	.	1	49	.	.	.	"lower and upper bound"
1	0	.	.	.	24.9	.	39	3	.	1	50	.	.	.	"lower and upper bound"
1	0	.	.	.	20.9	.	39	23	.	1	51	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	39	24	.	1	52	.	.	.	"lower and upper bound"
1	0	.	.	.	24.4	.	39	26	.	1	53	.	.	.	"lower and upper bound"
1	0	.	.	.	24.7	.	39	29	.	1	54	.	.	.	"lower and upper bound"
1	0	.	.	.	23.4	.	39	43	.	1	55	.	.	.	"lower and upper bound"
1	0	.	.	.	23.6	.	39	5	.	1	56	.	.	.	"lower and upper bound"
1	0	.	.	.	24.7	.	39	6	.	1	57	.	.	.	"lower and upper bound"
1	0	.	.	.	22.7	.	39	9	.	1	58	.	.	.	"lower and upper bound"
1	0	.	.	.	23.3	.	44	45	.	1	59	.	.	.	"lower and upper bound"
1	0	.	.	.	24.1	.	46	45	.	1	60	.	.	.	"lower and upper bound"
1	0	.	.	.	22.2	.	47	45	.	1	61	.	.	.	"lower and upper bound"
1	0	.	.	.	25.8	.	48	45	.	1	62	.	.	.	"lower and upper bound"
1	0	.	.	.	27	.	49	45	.	1	63	.	.	.	"lower and upper bound"
1	0	.	.	.	29.2	.	50	45	.	1	64	.	.	.	"lower and upper bound"
1	0	.	.	.	24.5	.	51	45	.	1	65	.	.	.	"lower and upper bound"
1	0	.	.	.	24.7	.	44	52	.	1	66	.	.	.	"lower and upper bound"
1	0	.	.	.	26.6	.	53	52	.	1	67	.	.	.	"lower and upper bound"
2	14	.	.	.	16.5	.	54	55	.	1	68	.	.	.	"lower and upper bound"
2	0	.	.	.	8	.	56	54	.	1	69	.	.	.	"lower and upper bound"
3	0	.	.	.	23.6	.	57	52	.	2	70	.	.	.	"lower and upper bound"
3	0	.	.	.	22.3	.	58	52	.	2	71	.	.	.	"lower and upper bound"
3	0	.	.	.	26	.	59	52	.	2	72	.	.	.	"lower and upper bound"
3	0	.	.	.	27.6	.	60	52	.	2	73	.	.	.	"lower and upper bound"
3	0	.	.	.	22	.	61	52	.	2	74	.	.	.	"lower and upper bound"
3	0	.	.	.	26.5	.	62	52	.	2	75	.	.	.	"lower and upper bound"
3	0	.	.	.	21.6	.	63	52	.	2	76	.	.	.	"lower and upper bound"
3	0	.	.	.	21.6	.	64	52	.	2	77	.	.	.	"lower and upper bound"
3	0	.	.	.	22.2	.	65	66	.	2	78	.	.	.	"lower and upper bound"
4	0	.	.	.	59.5	.	67	68	.	2	79	.	.	.	"lower and upper bound"
#
_ihm_ensemble_info.details	.
_ihm_ensemble_info.ensemble_clustering_feature	.
_ihm_ensemble_info.ensemble_clustering_method	.
_ihm_ensemble_info.ensemble_file_id	.
_ihm_ensemble_info.ensemble_id	1
_ihm_ensemble_info.ensemble_name	.
_ihm_ensemble_info.ensemble_precision_value	.
_ihm_ensemble_info.model_group_id	1
_ihm_ensemble_info.num_ensemble_models	4
_ihm_ensemble_info.num_ensemble_models_deposited	4
_ihm_ensemble_info.post_process_id	.
_ihm_ensemble_info.sub_sample_flag	.
_ihm_ensemble_info.sub_sampling_type	.
#
loop_
_ihm_entity_poly_segment.comp_id_begin
_ihm_entity_poly_segment.comp_id_end
_ihm_entity_poly_segment.entity_id
_ihm_entity_poly_segment.id
_ihm_entity_poly_segment.seq_id_begin
_ihm_entity_poly_segment.seq_id_end
ASN	ALA	1	1	1	76
PRO	GLY	2	2	1	75
ALA	LEU	1	3	77	508
#
loop_
_ihm_feature_list.details
_ihm_feature_list.entity_type
_ihm_feature_list.feature_id
_ihm_feature_list.feature_type
.	polymer	1	atom
.	polymer	2	atom
.	polymer	3	atom
.	polymer	4	atom
.	polymer	5	atom
.	polymer	6	atom
.	polymer	7	atom
.	polymer	8	atom
.	polymer	9	atom
.	polymer	10	atom
.	polymer	11	atom
.	polymer	12	atom
.	polymer	13	atom
.	polymer	14	atom
.	polymer	15	atom
.	polymer	16	atom
.	polymer	17	atom
.	polymer	18	atom
.	polymer	19	atom
.	polymer	20	atom
.	polymer	21	atom
.	polymer	22	atom
.	polymer	23	atom
.	polymer	24	atom
.	polymer	25	atom
.	polymer	26	atom
.	polymer	27	atom
.	polymer	28	atom
.	polymer	29	atom
.	polymer	30	atom
.	polymer	31	atom
.	polymer	32	atom
.	polymer	33	atom
.	polymer	34	atom
.	polymer	35	atom
.	polymer	36	atom
.	polymer	37	atom
.	polymer	38	atom
.	polymer	39	atom
.	polymer	40	atom
.	polymer	41	atom
.	polymer	42	atom
.	polymer	43	atom
.	polymer	44	atom
.	polymer	45	atom
.	polymer	46	atom
.	polymer	47	atom
.	polymer	48	atom
.	polymer	49	atom
.	polymer	50	atom
.	polymer	51	atom
.	polymer	52	atom
.	polymer	53	atom
.	polymer	54	atom
.	polymer	55	atom
.	polymer	56	atom
.	polymer	57	atom
.	polymer	58	atom
.	polymer	59	atom
.	polymer	60	atom
.	polymer	61	atom
.	polymer	62	atom
.	polymer	63	atom
.	polymer	64	atom
.	polymer	65	atom
.	polymer	66	atom
.	polymer	67	atom
.	polymer	68	atom
#
_ihm_model_group.details	.
_ihm_model_group.id	1
_ihm_model_group.name	.
#
loop_
_ihm_model_group_link.group_id
_ihm_model_group_link.model_id
1	1
1	2
1	3
1	4
#
loop_
_ihm_model_list.assembly_id
_ihm_model_list.model_id
_ihm_model_list.model_name
_ihm_model_list.protocol_id
_ihm_model_list.representation_id
1	1	.	1	1
1	2	.	1	1
1	3	.	1	1
1	4	.	1	1
#
_ihm_model_representation.details	.
_ihm_model_representation.id	1
_ihm_model_representation.name	.
#
loop_
_ihm_model_representation_details.description
_ihm_model_representation_details.entity_asym_id
_ihm_model_representation_details.entity_description
_ihm_model_representation_details.entity_id
_ihm_model_representation_details.entity_poly_segment_id
_ihm_model_representation_details.id
_ihm_model_representation_details.model_granularity
_ihm_model_representation_details.model_mode
_ihm_model_representation_details.model_object_count
_ihm_model_representation_details.model_object_primitive
_ihm_model_representation_details.representation_id
_ihm_model_representation_details.starting_model_id
.	A	.	1	1	1	by-atom	flexible	.	atomistic	1	1
.	B	.	2	2	2	by-atom	flexible	.	atomistic	1	3
.	A	.	1	3	3	by-atom	flexible	.	atomistic	1	2
#
_ihm_model_representative.id	1
_ihm_model_representative.model_group_id	1
_ihm_model_representative.model_id	1
_ihm_model_representative.selection_criteria	"best scoring model"
#
_ihm_modeling_protocol.details	"Two independent HADDOCK runs (stages)"
_ihm_modeling_protocol.id	1
_ihm_modeling_protocol.num_steps	2
_ihm_modeling_protocol.protocol_name	"Data-driven docking using PRE-derived distance restraints within HADDOCK"
#
loop_
_ihm_modeling_protocol_details.dataset_group_id
_ihm_modeling_protocol_details.description
_ihm_modeling_protocol_details.ensemble_flag
_ihm_modeling_protocol_details.id
_ihm_modeling_protocol_details.multi_scale_flag
_ihm_modeling_protocol_details.multi_state_flag
_ihm_modeling_protocol_details.num_models_begin
_ihm_modeling_protocol_details.num_models_end
_ihm_modeling_protocol_details.ordered_flag
_ihm_modeling_protocol_details.protocol_id
_ihm_modeling_protocol_details.script_file_id
_ihm_modeling_protocol_details.software_id
_ihm_modeling_protocol_details.step_id
_ihm_modeling_protocol_details.step_method
_ihm_modeling_protocol_details.step_name
_ihm_modeling_protocol_details.struct_assembly_description
_ihm_modeling_protocol_details.struct_assembly_id
3	"Step 1: docking of BC domain and APCP to form a binary BC-APCP complex (representing the starting models for step 2)."	NO	1	NO	NO	.	.	NO	1	.	1	1	"Data-driven docking using PRE-derived distance restraints within HADDOCK."	.	.	1
4	"Step 2: docking of BN91 domain to binary BC-APCP complex generated in step 1."	YES	2	NO	NO	.	.	NO	1	.	1	2	"Data-driven docking using PRE-derived distance restraints within HADDOCK."	.	.	1
#
loop_
_ihm_poly_atom_feature.asym_id
_ihm_poly_atom_feature.atom_id
_ihm_poly_atom_feature.comp_id
_ihm_poly_atom_feature.entity_id
_ihm_poly_atom_feature.feature_id
_ihm_poly_atom_feature.ordinal_id
_ihm_poly_atom_feature.seq_id
A	CB	SER	1	1	1	389
B	N	GLY	2	2	2	27
B	N	WP9	2	3	3	32
B	N	GLU	2	4	4	49
B	N	THR	2	5	5	52
B	N	GLU	2	6	6	53
B	N	ASP	2	7	7	54
B	N	VAL	2	8	8	55
B	N	PHE	2	9	9	56
B	N	ARG	2	10	10	57
A	CB	THR	1	11	11	314
B	N	THR	2	12	12	4
B	N	VAL	2	13	13	5
B	N	LEU	2	14	14	7
B	N	ASP	2	15	15	17
B	N	ASP	2	16	16	23
B	N	SER	2	17	17	24
B	N	PHE	2	18	18	25
B	N	LEU	2	19	19	26
B	N	GLY	2	20	20	29
B	N	GLY	2	21	21	30
B	N	ASN	2	22	22	31
B	N	LEU	2	23	23	33
B	N	HIS	2	24	24	34
B	N	PHE	2	25	25	35
B	N	VAL	2	26	26	36
B	N	GLN	2	27	27	37
B	N	LEU	2	28	28	38
B	N	ALA	2	29	29	39
B	N	ARG	2	30	30	41
B	N	LEU	2	31	31	42
B	N	ILE	2	32	32	45
B	N	GLY	2	33	33	47
B	N	SER	2	34	34	51
B	N	THR	2	35	35	60
B	N	LEU	2	36	36	64
B	N	PHE	2	37	37	67
B	N	SER	2	38	38	71
A	CB	ALA	1	39	39	212
B	N	ILE	2	40	40	13
B	N	SER	2	41	41	14
B	N	ALA	2	42	42	16
B	N	SER	2	43	43	40
A	CG2	VAL	1	44	44	216
B	CB	SER	2	45	45	40
A	CD1	LEU	1	46	46	253
A	CD2	LEU	1	47	47	253
A	CD2	LEU	1	48	48	259
A	CD1	LEU	1	49	49	263
A	CD2	LEU	1	50	50	263
A	CD2	LEU	1	51	51	348
B	CB	ASP	2	52	52	12
A	CD1	ILE	1	53	53	432
B	S44	WP9	2	54	54	32
B	P24	WP9	2	55	55	32
A	CB	HIS	1	56	56	206
A	CD1	LEU	1	57	57	21
A	CD2	LEU	1	58	58	21
A	CD1	LEU	1	59	59	36
A	CD1	LEU	1	60	60	57
A	CD2	LEU	1	61	61	9
A	CD1	LEU	1	62	62	27
A	CG1	VAL	1	63	63	63
A	CG2	VAL	1	64	64	63
A	CB	ALA	1	65	65	35
B	N	LEU	2	66	66	2
A	CA	ALA	1	67	67	77
A	CA	ALA	1	68	68	76
#
loop_
_ihm_starting_model_details.asym_id
_ihm_starting_model_details.dataset_list_id
_ihm_starting_model_details.description
_ihm_starting_model_details.entity_description
_ihm_starting_model_details.entity_id
_ihm_starting_model_details.entity_poly_segment_id
_ihm_starting_model_details.starting_model_auth_asym_id
_ihm_starting_model_details.starting_model_id
_ihm_starting_model_details.starting_model_sequence_offset
_ihm_starting_model_details.starting_model_source
A	5	"Starting model for adaptor domain of B module (BN91)"	.	1	1	A	1	-5	"experimental model"
A	6	"Starting models for condensation domain of B module (BC)"	.	1	3	A	2	-5	"experimental model"
B	7	"Starting model for APCP"	.	2	2	A	3	-9	"experimental model"
#
_ihm_struct_assembly.description	"Tomaymycin NRPS system: complex of the substrate-loaded peptidyl-carrier-protein domain from the A module (APCP-load) with the adaptor (BN91) and condensation (BC) domains of the B module modeled using HADDOCK based on distance restraints derived from NMR PREs "
_ihm_struct_assembly.id	1
_ihm_struct_assembly.name	"Tomaymycin NRPS system: complex of the substrate-loaded peptidyl-carrier-protein domain from the A module (APCP-load) with the adaptor (BN91) and condensation (BC) domains of the B module"
#
loop_
_ihm_struct_assembly_details.assembly_id
_ihm_struct_assembly_details.asym_id
_ihm_struct_assembly_details.entity_description
_ihm_struct_assembly_details.entity_id
_ihm_struct_assembly_details.entity_poly_segment_id
_ihm_struct_assembly_details.id
_ihm_struct_assembly_details.parent_assembly_id
1	A	.	1	1	1	1
1	B	.	2	2	2	1
1	A	.	1	3	3	1
#
_software.citation_id	2
_software.classification	"Data-driven docking"
_software.description	"High-ambiguity driven biomolecular docking based on biochemical and/or biophysical information."
_software.location	https://wenmr.science.uu.nl/haddock2.4/
_software.name	HADDOCK
_software.pdbx_ordinal	1
_software.type	program
_software.version	2.4
#
_struct.entry_id	9A82
_struct.pdbx_CASP_flag	N
_struct.pdbx_descriptor	.
_struct.pdbx_details	'The APCP domain is present in the "holo" form (with phosphopantetheine attached) and is also loaded with the A-module substrate (anthranilic acid).'
_struct.pdbx_model_details	"Models were generated with HADDOCK based on distance restraints derived from NMR PREs."
_struct.pdbx_model_type_details	"The ensemble comprises the lowest-scoring four structures from the lowest-scoring cluster. "
_struct.title	"Tomaymycin NRPS system: complex of the substrate-loaded peptidyl-carrier-protein domain from the A module (APCP-load) with the adaptor (BN91) and condensation (BC) domains of the B module"
_struct.pdbx_structure_determination_methodology	integrative
#
loop_
_struct_asym.details
_struct_asym.entity_id
_struct_asym.id
_struct_asym.pdbx_PDB_id
_struct_asym.pdbx_alt_id
_struct_asym.pdbx_blank_PDB_chainid_flag
_struct_asym.pdbx_modified
_struct_asym.pdbx_order
_struct_asym.pdbx_type
.	1	A	.	.	.	.	.	.
.	2	B	.	.	.	.	.	.
#
loop_
_struct_ref.db_code
_struct_ref.db_name
_struct_ref.details
_struct_ref.entity_id
_struct_ref.id
_struct_ref.pdbx_align_begin
_struct_ref.pdbx_align_end
_struct_ref.pdbx_db_accession
_struct_ref.pdbx_db_isoform
_struct_ref.pdbx_seq_one_letter_code
8QSX	PDB	.	1	1	6	81	8QSX	.	NSPLRTTVLDLARTTLGSADLTAHEPLADRCEHPALLDDLATTLTAVFAVEITGADLAAGATVADVAARMDDRRDA
8QNF	PDB	.	1	2	98	529	8QNF	.	"AVEASFGQSGIWLIDQYLPNPAAYNGPFFVRLPFSADPDRLHAAVRGVLRRQEVLRTTYALSD GTLRQNVSRDDDAVVFEVARYGDDKELDALVHRVANLRLDLARGPVIAVTCALGPANRSAVICNIHHIASDAASAGVFLR ELLDAYDRLGRGLPVEADPLRPTYGDFSQWYRELMNPEALTRSLDHFAARLAGELPVLDLPTDRPRPPVKQHRGGTLPLH LPAAAADDFEALARTEGVTLFMALVAAYAVFLSRHTGQRRVLIGSPVSLRDDPATHELIGYFVNLVVLQQEIDDRMTVRD VLRRAREEVSEALRHKWAPFDKVVERLQPPRSSGYTPLVQTMLVLTQGDAGRISHDDTELRIERGAAHGAKYDLSLVFER DSEGLHGLIEYDADLFDEPTVRAMGDRLRHLMEQFARRPDAPLHELEAL"
8QRX	PDB	.	2	3	10	84	8QRX	.	PLETVVLQAWKDISGADDFTTTDSFLGHGGN(WP9)LHFVQLASRLQKIFGVEVSTEDVFRHGTVEQLARFVEQSRDTG
#
loop_
_struct_ref_seq.align_id
_struct_ref_seq.db_align_beg
_struct_ref_seq.db_align_end
_struct_ref_seq.ref_id
_struct_ref_seq.seq_align_beg
_struct_ref_seq.seq_align_end
1	6	81	1	1	76
2	98	529	2	77	508
3	10	84	3	1	75
#
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.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
A 1 1 ASN 2 2 ASN ASN A ?
A 1 2 SER 3 3 SER SER A ?
A 1 3 PRO 4 4 PRO PRO A ?
A 1 4 LEU 5 5 LEU LEU A ?
A 1 5 ARG 6 6 ARG ARG A ?
A 1 6 THR 7 7 THR THR A ?
A 1 7 THR 8 8 THR THR A ?
A 1 8 VAL 9 9 VAL VAL A ?
A 1 9 LEU 10 10 LEU LEU A ?
A 1 10 ASP 11 11 ASP ASP A ?
A 1 11 LEU 12 12 LEU LEU A ?
A 1 12 ALA 13 13 ALA ALA A ?
A 1 13 ARG 14 14 ARG ARG A ?
A 1 14 THR 15 15 THR THR A ?
A 1 15 THR 16 16 THR THR A ?
A 1 16 LEU 17 17 LEU LEU A ?
A 1 17 GLY 18 18 GLY GLY A ?
A 1 18 SER 19 19 SER SER A ?
A 1 19 ALA 20 20 ALA ALA A ?
A 1 20 ASP 21 21 ASP ASP A ?
A 1 21 LEU 22 22 LEU LEU A ?
A 1 22 THR 23 23 THR THR A ?
A 1 23 ALA 24 24 ALA ALA A ?
A 1 24 HIS 25 25 HIS HIS A ?
A 1 25 GLU 26 26 GLU GLU A ?
A 1 26 PRO 27 27 PRO PRO A ?
A 1 27 LEU 28 28 LEU LEU A ?
A 1 28 ALA 29 29 ALA ALA A ?
A 1 29 ASP 30 30 ASP ASP A ?
A 1 30 ARG 31 31 ARG ARG A ?
A 1 31 CYS 32 32 CYS CYS A ?
A 1 32 GLU 33 33 GLU GLU A ?
A 1 33 HIS 34 34 HIS HIS A ?
A 1 34 PRO 35 35 PRO PRO A ?
A 1 35 ALA 36 36 ALA ALA A ?
A 1 36 LEU 37 37 LEU LEU A ?
A 1 37 LEU 38 38 LEU LEU A ?
A 1 38 ASP 39 39 ASP ASP A ?
A 1 39 ASP 40 40 ASP ASP A ?
A 1 40 LEU 41 41 LEU LEU A ?
A 1 41 ALA 42 42 ALA ALA A ?
A 1 42 THR 43 43 THR THR A ?
A 1 43 THR 44 44 THR THR A ?
A 1 44 LEU 45 45 LEU LEU A ?
A 1 45 THR 46 46 THR THR A ?
A 1 46 ALA 47 47 ALA ALA A ?
A 1 47 VAL 48 48 VAL VAL A ?
A 1 48 PHE 49 49 PHE PHE A ?
A 1 49 ALA 50 50 ALA ALA A ?
A 1 50 VAL 51 51 VAL VAL A ?
A 1 51 GLU 52 52 GLU GLU A ?
A 1 52 ILE 53 53 ILE ILE A ?
A 1 53 THR 54 54 THR THR A ?
A 1 54 GLY 55 55 GLY GLY A ?
A 1 55 ALA 56 56 ALA ALA A ?
A 1 56 ASP 57 57 ASP ASP A ?
A 1 57 LEU 58 58 LEU LEU A ?
A 1 58 ALA 59 59 ALA ALA A ?
A 1 59 ALA 60 60 ALA ALA A ?
A 1 60 GLY 61 61 GLY GLY A ?
A 1 61 ALA 62 62 ALA ALA A ?
A 1 62 THR 63 63 THR THR A ?
A 1 63 VAL 64 64 VAL VAL A ?
A 1 64 ALA 65 65 ALA ALA A ?
A 1 65 ASP 66 66 ASP ASP A ?
A 1 66 VAL 67 67 VAL VAL A ?
A 1 67 ALA 68 68 ALA ALA A ?
A 1 68 ALA 69 69 ALA ALA A ?
A 1 69 ARG 70 70 ARG ARG A ?
A 1 70 MET 71 71 MET MET A ?
A 1 71 ASP 72 72 ASP ASP A ?
A 1 72 ASP 73 73 ASP ASP A ?
A 1 73 ARG 74 74 ARG ARG A ?
A 1 74 ARG 75 75 ARG ARG A ?
A 1 75 ASP 76 76 ASP ASP A ?
A 1 76 ALA 77 77 ALA ALA A ?
A 1 77 ALA 94 94 ALA ALA A ?
A 1 78 VAL 95 95 VAL VAL A ?
A 1 79 GLU 96 96 GLU GLU A ?
A 1 80 ALA 97 97 ALA ALA A ?
A 1 81 SER 98 98 SER SER A ?
A 1 82 PHE 99 99 PHE PHE A ?
A 1 83 GLY 100 100 GLY GLY A ?
A 1 84 GLN 101 101 GLN GLN A ?
A 1 85 SER 102 102 SER SER A ?
A 1 86 GLY 103 103 GLY GLY A ?
A 1 87 ILE 104 104 ILE ILE A ?
A 1 88 TRP 105 105 TRP TRP A ?
A 1 89 LEU 106 106 LEU LEU A ?
A 1 90 ILE 107 107 ILE ILE A ?
A 1 91 ASP 108 108 ASP ASP A ?
A 1 92 GLN 109 109 GLN GLN A ?
A 1 93 TYR 110 110 TYR TYR A ?
A 1 94 LEU 111 111 LEU LEU A ?
A 1 95 PRO 112 112 PRO PRO A ?
A 1 96 ASN 113 113 ASN ASN A ?
A 1 97 PRO 114 114 PRO PRO A ?
A 1 98 ALA 115 115 ALA ALA A ?
A 1 99 ALA 116 116 ALA ALA A ?
A 1 100 TYR 117 117 TYR TYR A ?
A 1 101 ASN 118 118 ASN ASN A ?
A 1 102 GLY 119 119 GLY GLY A ?
A 1 103 PRO 120 120 PRO PRO A ?
A 1 104 PHE 121 121 PHE PHE A ?
A 1 105 PHE 122 122 PHE PHE A ?
A 1 106 VAL 123 123 VAL VAL A ?
A 1 107 ARG 124 124 ARG ARG A ?
A 1 108 LEU 125 125 LEU LEU A ?
A 1 109 PRO 126 126 PRO PRO A ?
A 1 110 PHE 127 127 PHE PHE A ?
A 1 111 SER 128 128 SER SER A ?
A 1 112 ALA 129 129 ALA ALA A ?
A 1 113 ASP 130 130 ASP ASP A ?
A 1 114 PRO 131 131 PRO PRO A ?
A 1 115 ASP 132 132 ASP ASP A ?
A 1 116 ARG 133 133 ARG ARG A ?
A 1 117 LEU 134 134 LEU LEU A ?
A 1 118 HIS 135 135 HIS HIS A ?
A 1 119 ALA 136 136 ALA ALA A ?
A 1 120 ALA 137 137 ALA ALA A ?
A 1 121 VAL 138 138 VAL VAL A ?
A 1 122 ARG 139 139 ARG ARG A ?
A 1 123 GLY 140 140 GLY GLY A ?
A 1 124 VAL 141 141 VAL VAL A ?
A 1 125 LEU 142 142 LEU LEU A ?
A 1 126 ARG 143 143 ARG ARG A ?
A 1 127 ARG 144 144 ARG ARG A ?
A 1 128 GLN 145 145 GLN GLN A ?
A 1 129 GLU 146 146 GLU GLU A ?
A 1 130 VAL 147 147 VAL VAL A ?
A 1 131 LEU 148 148 LEU LEU A ?
A 1 132 ARG 149 149 ARG ARG A ?
A 1 133 THR 150 150 THR THR A ?
A 1 134 THR 151 151 THR THR A ?
A 1 135 TYR 152 152 TYR TYR A ?
A 1 136 ALA 153 153 ALA ALA A ?
A 1 137 LEU 154 154 LEU LEU A ?
A 1 138 SER 155 155 SER SER A ?
A 1 139 ASP 156 156 ASP ASP A ?
A 1 140 GLY 157 157 GLY GLY A ?
A 1 141 THR 158 158 THR THR A ?
A 1 142 LEU 159 159 LEU LEU A ?
A 1 143 ARG 160 160 ARG ARG A ?
A 1 144 GLN 161 161 GLN GLN A ?
A 1 145 ASN 162 162 ASN ASN A ?
A 1 146 VAL 163 163 VAL VAL A ?
A 1 147 SER 164 164 SER SER A ?
A 1 148 ARG 165 165 ARG ARG A ?
A 1 149 ASP 166 166 ASP ASP A ?
A 1 150 ASP 167 167 ASP ASP A ?
A 1 151 ASP 168 168 ASP ASP A ?
A 1 152 ALA 169 169 ALA ALA A ?
A 1 153 VAL 170 170 VAL VAL A ?
A 1 154 VAL 171 171 VAL VAL A ?
A 1 155 PHE 172 172 PHE PHE A ?
A 1 156 GLU 173 173 GLU GLU A ?
A 1 157 VAL 174 174 VAL VAL A ?
A 1 158 ALA 175 175 ALA ALA A ?
A 1 159 ARG 176 176 ARG ARG A ?
A 1 160 TYR 177 177 TYR TYR A ?
A 1 161 GLY 178 178 GLY GLY A ?
A 1 162 ASP 179 179 ASP ASP A ?
A 1 163 ASP 180 180 ASP ASP A ?
A 1 164 LYS 181 181 LYS LYS A ?
A 1 165 GLU 182 182 GLU GLU A ?
A 1 166 LEU 183 183 LEU LEU A ?
A 1 167 ASP 184 184 ASP ASP A ?
A 1 168 ALA 185 185 ALA ALA A ?
A 1 169 LEU 186 186 LEU LEU A ?
A 1 170 VAL 187 187 VAL VAL A ?
A 1 171 HIS 188 188 HIS HIS A ?
A 1 172 ARG 189 189 ARG ARG A ?
A 1 173 VAL 190 190 VAL VAL A ?
A 1 174 ALA 191 191 ALA ALA A ?
A 1 175 ASN 192 192 ASN ASN A ?
A 1 176 LEU 193 193 LEU LEU A ?
A 1 177 ARG 194 194 ARG ARG A ?
A 1 178 LEU 195 195 LEU LEU A ?
A 1 179 ASP 196 196 ASP ASP A ?
A 1 180 LEU 197 197 LEU LEU A ?
A 1 181 ALA 198 198 ALA ALA A ?
A 1 182 ARG 199 199 ARG ARG A ?
A 1 183 GLY 200 200 GLY GLY A ?
A 1 184 PRO 201 201 PRO PRO A ?
A 1 185 VAL 202 202 VAL VAL A ?
A 1 186 ILE 203 203 ILE ILE A ?
A 1 187 ALA 204 204 ALA ALA A ?
A 1 188 VAL 205 205 VAL VAL A ?
A 1 189 THR 206 206 THR THR A ?
A 1 190 CYS 207 207 CYS CYS A ?
A 1 191 ALA 208 208 ALA ALA A ?
A 1 192 LEU 209 209 LEU LEU A ?
A 1 193 GLY 210 210 GLY GLY A ?
A 1 194 PRO 211 211 PRO PRO A ?
A 1 195 ALA 212 212 ALA ALA A ?
A 1 196 ASN 213 213 ASN ASN A ?
A 1 197 ARG 214 214 ARG ARG A ?
A 1 198 SER 215 215 SER SER A ?
A 1 199 ALA 216 216 ALA ALA A ?
A 1 200 VAL 217 217 VAL VAL A ?
A 1 201 ILE 218 218 ILE ILE A ?
A 1 202 CYS 219 219 CYS CYS A ?
A 1 203 ASN 220 220 ASN ASN A ?
A 1 204 ILE 221 221 ILE ILE A ?
A 1 205 HIS 222 222 HIS HIS A ?
A 1 206 HIS 223 223 HIS HIS A ?
A 1 207 ILE 224 224 ILE ILE A ?
A 1 208 ALA 225 225 ALA ALA A ?
A 1 209 SER 226 226 SER SER A ?
A 1 210 ASP 227 227 ASP ASP A ?
A 1 211 ALA 228 228 ALA ALA A ?
A 1 212 ALA 229 229 ALA ALA A ?
A 1 213 SER 230 230 SER SER A ?
A 1 214 ALA 231 231 ALA ALA A ?
A 1 215 GLY 232 232 GLY GLY A ?
A 1 216 VAL 233 233 VAL VAL A ?
A 1 217 PHE 234 234 PHE PHE A ?
A 1 218 LEU 235 235 LEU LEU A ?
A 1 219 ARG 236 236 ARG ARG A ?
A 1 220 GLU 237 237 GLU GLU A ?
A 1 221 LEU 238 238 LEU LEU A ?
A 1 222 LEU 239 239 LEU LEU A ?
A 1 223 ASP 240 240 ASP ASP A ?
A 1 224 ALA 241 241 ALA ALA A ?
A 1 225 TYR 242 242 TYR TYR A ?
A 1 226 ASP 243 243 ASP ASP A ?
A 1 227 ARG 244 244 ARG ARG A ?
A 1 228 LEU 245 245 LEU LEU A ?
A 1 229 GLY 246 246 GLY GLY A ?
A 1 230 ARG 247 247 ARG ARG A ?
A 1 231 GLY 248 248 GLY GLY A ?
A 1 232 LEU 249 249 LEU LEU A ?
A 1 233 PRO 250 250 PRO PRO A ?
A 1 234 VAL 251 251 VAL VAL A ?
A 1 235 GLU 252 252 GLU GLU A ?
A 1 236 ALA 253 253 ALA ALA A ?
A 1 237 ASP 254 254 ASP ASP A ?
A 1 238 PRO 255 255 PRO PRO A ?
A 1 239 LEU 256 256 LEU LEU A ?
A 1 240 ARG 257 257 ARG ARG A ?
A 1 241 PRO 258 258 PRO PRO A ?
A 1 242 THR 259 259 THR THR A ?
A 1 243 TYR 260 260 TYR TYR A ?
A 1 244 GLY 261 261 GLY GLY A ?
A 1 245 ASP 262 262 ASP ASP A ?
A 1 246 PHE 263 263 PHE PHE A ?
A 1 247 SER 264 264 SER SER A ?
A 1 248 GLN 265 265 GLN GLN A ?
A 1 249 TRP 266 266 TRP TRP A ?
A 1 250 TYR 267 267 TYR TYR A ?
A 1 251 ARG 268 268 ARG ARG A ?
A 1 252 GLU 269 269 GLU GLU A ?
A 1 253 LEU 270 270 LEU LEU A ?
A 1 254 MET 271 271 MET MET A ?
A 1 255 ASN 272 272 ASN ASN A ?
A 1 256 PRO 273 273 PRO PRO A ?
A 1 257 GLU 274 274 GLU GLU A ?
A 1 258 ALA 275 275 ALA ALA A ?
A 1 259 LEU 276 276 LEU LEU A ?
A 1 260 THR 277 277 THR THR A ?
A 1 261 ARG 278 278 ARG ARG A ?
A 1 262 SER 279 279 SER SER A ?
A 1 263 LEU 280 280 LEU LEU A ?
A 1 264 ASP 281 281 ASP ASP A ?
A 1 265 HIS 282 282 HIS HIS A ?
A 1 266 PHE 283 283 PHE PHE A ?
A 1 267 ALA 284 284 ALA ALA A ?
A 1 268 ALA 285 285 ALA ALA A ?
A 1 269 ARG 286 286 ARG ARG A ?
A 1 270 LEU 287 287 LEU LEU A ?
A 1 271 ALA 288 288 ALA ALA A ?
A 1 272 GLY 289 289 GLY GLY A ?
A 1 273 GLU 290 290 GLU GLU A ?
A 1 274 LEU 291 291 LEU LEU A ?
A 1 275 PRO 292 292 PRO PRO A ?
A 1 276 VAL 293 293 VAL VAL A ?
A 1 277 LEU 294 294 LEU LEU A ?
A 1 278 ASP 295 295 ASP ASP A ?
A 1 279 LEU 296 296 LEU LEU A ?
A 1 280 PRO 297 297 PRO PRO A ?
A 1 281 THR 298 298 THR THR A ?
A 1 282 ASP 299 299 ASP ASP A ?
A 1 283 ARG 300 300 ARG ARG A ?
A 1 284 PRO 301 301 PRO PRO A ?
A 1 285 ARG 302 302 ARG ARG A ?
A 1 286 PRO 303 303 PRO PRO A ?
A 1 287 PRO 304 304 PRO PRO A ?
A 1 288 VAL 305 305 VAL VAL A ?
A 1 289 LYS 306 306 LYS LYS A ?
A 1 290 GLN 307 307 GLN GLN A ?
A 1 291 HIS 308 308 HIS HIS A ?
A 1 292 ARG 309 309 ARG ARG A ?
A 1 293 GLY 310 310 GLY GLY A ?
A 1 294 GLY 311 311 GLY GLY A ?
A 1 295 THR 312 312 THR THR A ?
A 1 296 LEU 313 313 LEU LEU A ?
A 1 297 PRO 314 314 PRO PRO A ?
A 1 298 LEU 315 315 LEU LEU A ?
A 1 299 HIS 316 316 HIS HIS A ?
A 1 300 LEU 317 317 LEU LEU A ?
A 1 301 PRO 318 318 PRO PRO A ?
A 1 302 ALA 319 319 ALA ALA A ?
A 1 303 ALA 320 320 ALA ALA A ?
A 1 304 ALA 321 321 ALA ALA A ?
A 1 305 ALA 322 322 ALA ALA A ?
A 1 306 ASP 323 323 ASP ASP A ?
A 1 307 ASP 324 324 ASP ASP A ?
A 1 308 PHE 325 325 PHE PHE A ?
A 1 309 GLU 326 326 GLU GLU A ?
A 1 310 ALA 327 327 ALA ALA A ?
A 1 311 LEU 328 328 LEU LEU A ?
A 1 312 ALA 329 329 ALA ALA A ?
A 1 313 ARG 330 330 ARG ARG A ?
A 1 314 THR 331 331 THR THR A ?
A 1 315 GLU 332 332 GLU GLU A ?
A 1 316 GLY 333 333 GLY GLY A ?
A 1 317 VAL 334 334 VAL VAL A ?
A 1 318 THR 335 335 THR THR A ?
A 1 319 LEU 336 336 LEU LEU A ?
A 1 320 PHE 337 337 PHE PHE A ?
A 1 321 MET 338 338 MET MET A ?
A 1 322 ALA 339 339 ALA ALA A ?
A 1 323 LEU 340 340 LEU LEU A ?
A 1 324 VAL 341 341 VAL VAL A ?
A 1 325 ALA 342 342 ALA ALA A ?
A 1 326 ALA 343 343 ALA ALA A ?
A 1 327 TYR 344 344 TYR TYR A ?
A 1 328 ALA 345 345 ALA ALA A ?
A 1 329 VAL 346 346 VAL VAL A ?
A 1 330 PHE 347 347 PHE PHE A ?
A 1 331 LEU 348 348 LEU LEU A ?
A 1 332 SER 349 349 SER SER A ?
A 1 333 ARG 350 350 ARG ARG A ?
A 1 334 HIS 351 351 HIS HIS A ?
A 1 335 THR 352 352 THR THR A ?
A 1 336 GLY 353 353 GLY GLY A ?
A 1 337 GLN 354 354 GLN GLN A ?
A 1 338 ARG 355 355 ARG ARG A ?
A 1 339 ARG 356 356 ARG ARG A ?
A 1 340 VAL 357 357 VAL VAL A ?
A 1 341 LEU 358 358 LEU LEU A ?
A 1 342 ILE 359 359 ILE ILE A ?
A 1 343 GLY 360 360 GLY GLY A ?
A 1 344 SER 361 361 SER SER A ?
A 1 345 PRO 362 362 PRO PRO A ?
A 1 346 VAL 363 363 VAL VAL A ?
A 1 347 SER 364 364 SER SER A ?
A 1 348 LEU 365 365 LEU LEU A ?
A 1 349 ARG 366 366 ARG ARG A ?
A 1 350 ASP 367 367 ASP ASP A ?
A 1 351 ASP 368 368 ASP ASP A ?
A 1 352 PRO 369 369 PRO PRO A ?
A 1 353 ALA 370 370 ALA ALA A ?
A 1 354 THR 371 371 THR THR A ?
A 1 355 HIS 372 372 HIS HIS A ?
A 1 356 GLU 373 373 GLU GLU A ?
A 1 357 LEU 374 374 LEU LEU A ?
A 1 358 ILE 375 375 ILE ILE A ?
A 1 359 GLY 376 376 GLY GLY A ?
A 1 360 TYR 377 377 TYR TYR A ?
A 1 361 PHE 378 378 PHE PHE A ?
A 1 362 VAL 379 379 VAL VAL A ?
A 1 363 ASN 380 380 ASN ASN A ?
A 1 364 LEU 381 381 LEU LEU A ?
A 1 365 VAL 382 382 VAL VAL A ?
A 1 366 VAL 383 383 VAL VAL A ?
A 1 367 LEU 384 384 LEU LEU A ?
A 1 368 GLN 385 385 GLN GLN A ?
A 1 369 GLN 386 386 GLN GLN A ?
A 1 370 GLU 387 387 GLU GLU A ?
A 1 371 ILE 388 388 ILE ILE A ?
A 1 372 ASP 389 389 ASP ASP A ?
A 1 373 ASP 390 390 ASP ASP A ?
A 1 374 ARG 391 391 ARG ARG A ?
A 1 375 MET 392 392 MET MET A ?
A 1 376 THR 393 393 THR THR A ?
A 1 377 VAL 394 394 VAL VAL A ?
A 1 378 ARG 395 395 ARG ARG A ?
A 1 379 ASP 396 396 ASP ASP A ?
A 1 380 VAL 397 397 VAL VAL A ?
A 1 381 LEU 398 398 LEU LEU A ?
A 1 382 ARG 399 399 ARG ARG A ?
A 1 383 ARG 400 400 ARG ARG A ?
A 1 384 ALA 401 401 ALA ALA A ?
A 1 385 ARG 402 402 ARG ARG A ?
A 1 386 GLU 403 403 GLU GLU A ?
A 1 387 GLU 404 404 GLU GLU A ?
A 1 388 VAL 405 405 VAL VAL A ?
A 1 389 SER 406 406 SER SER A ?
A 1 390 GLU 407 407 GLU GLU A ?
A 1 391 ALA 408 408 ALA ALA A ?
A 1 392 LEU 409 409 LEU LEU A ?
A 1 393 ARG 410 410 ARG ARG A ?
A 1 394 HIS 411 411 HIS HIS A ?
A 1 395 LYS 412 412 LYS LYS A ?
A 1 396 TRP 413 413 TRP TRP A ?
A 1 397 ALA 414 414 ALA ALA A ?
A 1 398 PRO 415 415 PRO PRO A ?
A 1 399 PHE 416 416 PHE PHE A ?
A 1 400 ASP 417 417 ASP ASP A ?
A 1 401 LYS 418 418 LYS LYS A ?
A 1 402 VAL 419 419 VAL VAL A ?
A 1 403 VAL 420 420 VAL VAL A ?
A 1 404 GLU 421 421 GLU GLU A ?
A 1 405 ARG 422 422 ARG ARG A ?
A 1 406 LEU 423 423 LEU LEU A ?
A 1 407 GLN 424 424 GLN GLN A ?
A 1 408 PRO 425 425 PRO PRO A ?
A 1 409 PRO 426 426 PRO PRO A ?
A 1 410 ARG 427 427 ARG ARG A ?
A 1 411 SER 428 428 SER SER A ?
A 1 412 SER 429 429 SER SER A ?
A 1 413 GLY 430 430 GLY GLY A ?
A 1 414 TYR 431 431 TYR TYR A ?
A 1 415 THR 432 432 THR THR A ?
A 1 416 PRO 433 433 PRO PRO A ?
A 1 417 LEU 434 434 LEU LEU A ?
A 1 418 VAL 435 435 VAL VAL A ?
A 1 419 GLN 436 436 GLN GLN A ?
A 1 420 THR 437 437 THR THR A ?
A 1 421 MET 438 438 MET MET A ?
A 1 422 LEU 439 439 LEU LEU A ?
A 1 423 VAL 440 440 VAL VAL A ?
A 1 424 LEU 441 441 LEU LEU A ?
A 1 425 THR 442 442 THR THR A ?
A 1 426 GLN 443 443 GLN GLN A ?
A 1 427 GLY 444 444 GLY GLY A ?
A 1 428 ASP 445 445 ASP ASP A ?
A 1 429 ALA 446 446 ALA ALA A ?
A 1 430 GLY 447 447 GLY GLY A ?
A 1 431 ARG 448 448 ARG ARG A ?
A 1 432 ILE 449 449 ILE ILE A ?
A 1 433 SER 450 450 SER SER A ?
A 1 434 HIS 451 451 HIS HIS A ?
A 1 435 ASP 452 452 ASP ASP A ?
A 1 436 ASP 453 453 ASP ASP A ?
A 1 437 THR 454 454 THR THR A ?
A 1 438 GLU 455 455 GLU GLU A ?
A 1 439 LEU 456 456 LEU LEU A ?
A 1 440 ARG 457 457 ARG ARG A ?
A 1 441 ILE 458 458 ILE ILE A ?
A 1 442 GLU 459 459 GLU GLU A ?
A 1 443 ARG 460 460 ARG ARG A ?
A 1 444 GLY 461 461 GLY GLY A ?
A 1 445 ALA 462 462 ALA ALA A ?
A 1 446 ALA 463 463 ALA ALA A ?
A 1 447 HIS 464 464 HIS HIS A ?
A 1 448 GLY 465 465 GLY GLY A ?
A 1 449 ALA 466 466 ALA ALA A ?
A 1 450 LYS 467 467 LYS LYS A ?
A 1 451 TYR 468 468 TYR TYR A ?
A 1 452 ASP 469 469 ASP ASP A ?
A 1 453 LEU 470 470 LEU LEU A ?
A 1 454 SER 471 471 SER SER A ?
A 1 455 LEU 472 472 LEU LEU A ?
A 1 456 VAL 473 473 VAL VAL A ?
A 1 457 PHE 474 474 PHE PHE A ?
A 1 458 GLU 475 475 GLU GLU A ?
A 1 459 ARG 476 476 ARG ARG A ?
A 1 460 ASP 477 477 ASP ASP A ?
A 1 461 SER 478 478 SER SER A ?
A 1 462 GLU 479 479 GLU GLU A ?
A 1 463 GLY 480 480 GLY GLY A ?
A 1 464 LEU 481 481 LEU LEU A ?
A 1 465 HIS 482 482 HIS HIS A ?
A 1 466 GLY 483 483 GLY GLY A ?
A 1 467 LEU 484 484 LEU LEU A ?
A 1 468 ILE 485 485 ILE ILE A ?
A 1 469 GLU 486 486 GLU GLU A ?
A 1 470 TYR 487 487 TYR TYR A ?
A 1 471 ASP 488 488 ASP ASP A ?
A 1 472 ALA 489 489 ALA ALA A ?
A 1 473 ASP 490 490 ASP ASP A ?
A 1 474 LEU 491 491 LEU LEU A ?
A 1 475 PHE 492 492 PHE PHE A ?
A 1 476 ASP 493 493 ASP ASP A ?
A 1 477 GLU 494 494 GLU GLU A ?
A 1 478 PRO 495 495 PRO PRO A ?
A 1 479 THR 496 496 THR THR A ?
A 1 480 VAL 497 497 VAL VAL A ?
A 1 481 ARG 498 498 ARG ARG A ?
A 1 482 ALA 499 499 ALA ALA A ?
A 1 483 MET 500 500 MET MET A ?
A 1 484 GLY 501 501 GLY GLY A ?
A 1 485 ASP 502 502 ASP ASP A ?
A 1 486 ARG 503 503 ARG ARG A ?
A 1 487 LEU 504 504 LEU LEU A ?
A 1 488 ARG 505 505 ARG ARG A ?
A 1 489 HIS 506 506 HIS HIS A ?
A 1 490 LEU 507 507 LEU LEU A ?
A 1 491 MET 508 508 MET MET A ?
A 1 492 GLU 509 509 GLU GLU A ?
A 1 493 GLN 510 510 GLN GLN A ?
A 1 494 PHE 511 511 PHE PHE A ?
A 1 495 ALA 512 512 ALA ALA A ?
A 1 496 ARG 513 513 ARG ARG A ?
A 1 497 ARG 514 514 ARG ARG A ?
A 1 498 PRO 515 515 PRO PRO A ?
A 1 499 ASP 516 516 ASP ASP A ?
A 1 500 ALA 517 517 ALA ALA A ?
A 1 501 PRO 518 518 PRO PRO A ?
A 1 502 LEU 519 519 LEU LEU A ?
A 1 503 HIS 520 520 HIS HIS A ?
A 1 504 GLU 521 521 GLU GLU A ?
A 1 505 LEU 522 522 LEU LEU A ?
A 1 506 GLU 523 523 GLU GLU A ?
A 1 507 ALA 524 524 ALA ALA A ?
A 1 508 LEU 525 525 LEU LEU A ?
B 2 1 PRO 6 6 PRO PRO B .
B 2 2 LEU 7 7 LEU LEU B .
B 2 3 GLU 8 8 GLU GLU B .
B 2 4 THR 9 9 THR THR B .
B 2 5 VAL 10 10 VAL VAL B .
B 2 6 VAL 11 11 VAL VAL B .
B 2 7 LEU 12 12 LEU LEU B .
B 2 8 GLN 13 13 GLN GLN B .
B 2 9 ALA 14 14 ALA ALA B .
B 2 10 TRP 15 15 TRP TRP B .
B 2 11 LYS 16 16 LYS LYS B .
B 2 12 ASP 17 17 ASP ASP B .
B 2 13 ILE 18 18 ILE ILE B .
B 2 14 SER 19 19 SER SER B .
B 2 15 GLY 20 20 GLY GLY B .
B 2 16 ALA 21 21 ALA ALA B .
B 2 17 ASP 22 22 ASP ASP B .
B 2 18 ASP 23 23 ASP ASP B .
B 2 19 PHE 24 24 PHE PHE B .
B 2 20 THR 25 25 THR THR B .
B 2 21 THR 26 26 THR THR B .
B 2 22 THR 27 27 THR THR B .
B 2 23 ASP 28 28 ASP ASP B .
B 2 24 SER 29 29 SER SER B .
B 2 25 PHE 30 30 PHE PHE B .
B 2 26 LEU 31 31 LEU LEU B .
B 2 27 GLY 32 32 GLY GLY B .
B 2 28 HIS 33 33 HIS HIS B .
B 2 29 GLY 34 34 GLY GLY B .
B 2 30 GLY 35 35 GLY GLY B .
B 2 31 ASN 36 36 ASN ASN B .
B 2 32 WP9 37 37 WP9 WP9 B .
B 2 33 LEU 38 38 LEU LEU B .
B 2 34 HIS 39 39 HIS HIS B .
B 2 35 PHE 40 40 PHE PHE B .
B 2 36 VAL 41 41 VAL VAL B .
B 2 37 GLN 42 42 GLN GLN B .
B 2 38 LEU 43 43 LEU LEU B .
B 2 39 ALA 44 44 ALA ALA B .
B 2 40 SER 45 45 SER SER B .
B 2 41 ARG 46 46 ARG ARG B .
B 2 42 LEU 47 47 LEU LEU B .
B 2 43 GLN 48 48 GLN GLN B .
B 2 44 LYS 49 49 LYS LYS B .
B 2 45 ILE 50 50 ILE ILE B .
B 2 46 PHE 51 51 PHE PHE B .
B 2 47 GLY 52 52 GLY GLY B .
B 2 48 VAL 53 53 VAL VAL B .
B 2 49 GLU 54 54 GLU GLU B .
B 2 50 VAL 55 55 VAL VAL B .
B 2 51 SER 56 56 SER SER B .
B 2 52 THR 57 57 THR THR B .
B 2 53 GLU 58 58 GLU GLU B .
B 2 54 ASP 59 59 ASP ASP B .
B 2 55 VAL 60 60 VAL VAL B .
B 2 56 PHE 61 61 PHE PHE B .
B 2 57 ARG 62 62 ARG ARG B .
B 2 58 HIS 63 63 HIS HIS B .
B 2 59 GLY 64 64 GLY GLY B .
B 2 60 THR 65 65 THR THR B .
B 2 61 VAL 66 66 VAL VAL B .
B 2 62 GLU 67 67 GLU GLU B .
B 2 63 GLN 68 68 GLN GLN B .
B 2 64 LEU 69 69 LEU LEU B .
B 2 65 ALA 70 70 ALA ALA B .
B 2 66 ARG 71 71 ARG ARG B .
B 2 67 PHE 72 72 PHE PHE B .
B 2 68 VAL 73 73 VAL VAL B .
B 2 69 GLU 74 74 GLU GLU B .
B 2 70 GLN 75 75 GLN GLN B .
B 2 71 SER 76 76 SER SER B .
B 2 72 ARG 77 77 ARG ARG B .
B 2 73 ASP 78 78 ASP ASP B .
B 2 74 THR 79 79 THR THR B .
B 2 75 GLY 80 80 GLY GLY B .
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