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example.cif
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data_AF-A0A2K5XT84-F1
#
_entry.id AF-A0A2K5XT84-F1
#
loop_
_atom_type.symbol
C
N
O
S
#
loop_
_audit_author.name
_audit_author.pdbx_ordinal
"Jumper, John" 1
"Evans, Richard" 2
"Pritzel, Alexander" 3
"Green, Tim" 4
"Figurnov, Michael" 5
"Ronneberger, Olaf" 6
"Tunyasuvunakool, Kathryn" 7
"Bates, Russ" 8
"Zidek, Augustin" 9
"Potapenko, Anna" 10
"Bridgland, Alex" 11
"Meyer, Clemens" 12
"Kohl, Simon A. A." 13
"Ballard, Andrew J." 14
"Cowie, Andrew" 15
"Romera-Paredes, Bernardino" 16
"Nikolov, Stanislav" 17
"Jain, Rishub" 18
"Adler, Jonas" 19
"Back, Trevor" 20
"Petersen, Stig" 21
"Reiman, David" 22
"Clancy, Ellen" 23
"Zielinski, Michal" 24
"Steinegger, Martin" 25
"Pacholska, Michalina" 26
"Berghammer, Tamas" 27
"Silver, David" 28
"Vinyals, Oriol" 29
"Senior, Andrew W." 30
"Kavukcuoglu, Koray" 31
"Kohli, Pushmeet" 32
"Hassabis, Demis" 33
#
_audit_conform.dict_location https://raw.githubusercontent.com/ihmwg/ModelCIF/master/dist/mmcif_ma.dic
_audit_conform.dict_name mmcif_ma.dic
_audit_conform.dict_version 1.3.9
#
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" 89.093 ALA y ALANINE ? "L-PEPTIDE LINKING"
"C6 H15 N4 O2" 175.209 ARG y ARGININE ? "L-PEPTIDE LINKING"
"C4 H8 N2 O3" 132.118 ASN y ASPARAGINE ? "L-PEPTIDE LINKING"
"C4 H7 N O4" 133.103 ASP y "ASPARTIC ACID" ? "L-PEPTIDE LINKING"
"C3 H7 N O2 S" 121.158 CYS y CYSTEINE ? "L-PEPTIDE LINKING"
"C5 H10 N2 O3" 146.144 GLN y GLUTAMINE ? "L-PEPTIDE LINKING"
"C5 H9 N O4" 147.129 GLU y "GLUTAMIC ACID" ? "L-PEPTIDE LINKING"
"C2 H5 N O2" 75.067 GLY y GLYCINE ? "PEPTIDE LINKING"
"C6 H10 N3 O2" 156.162 HIS y HISTIDINE ? "L-PEPTIDE LINKING"
"C6 H13 N O2" 131.173 ILE y ISOLEUCINE ? "L-PEPTIDE LINKING"
"C6 H13 N O2" 131.173 LEU y LEUCINE ? "L-PEPTIDE LINKING"
"C6 H15 N2 O2" 147.195 LYS y LYSINE ? "L-PEPTIDE LINKING"
"C5 H11 N O2 S" 149.211 MET y METHIONINE ? "L-PEPTIDE LINKING"
"C9 H11 N O2" 165.189 PHE y PHENYLALANINE ? "L-PEPTIDE LINKING"
"C5 H9 N O2" 115.130 PRO y PROLINE ? "L-PEPTIDE LINKING"
"C3 H7 N O3" 105.093 SER y SERINE ? "L-PEPTIDE LINKING"
"C4 H9 N O3" 119.119 THR y THREONINE ? "L-PEPTIDE LINKING"
"C11 H12 N2 O2" 204.225 TRP y TRYPTOPHAN ? "L-PEPTIDE LINKING"
"C9 H11 N O3" 181.189 TYR y TYROSINE ? "L-PEPTIDE LINKING"
"C5 H11 N O2" 117.146 VAL y VALINE ? "L-PEPTIDE LINKING"
#
_citation.book_publisher ?
_citation.country UK
_citation.id primary
_citation.journal_full Nature
_citation.journal_id_ASTM NATUAS
_citation.journal_id_CSD 0006
_citation.journal_id_ISSN 0028-0836
_citation.journal_volume 596
_citation.page_first 583
_citation.page_last 589
_citation.pdbx_database_id_DOI 10.1038/s41586-021-03819-2
_citation.pdbx_database_id_PubMed 34265844
_citation.title "Highly accurate protein structure prediction with AlphaFold"
_citation.year 2021
#
loop_
_citation_author.citation_id
_citation_author.name
_citation_author.ordinal
1 "Jumper, John" 1
1 "Evans, Richard" 2
1 "Pritzel, Alexander" 3
1 "Green, Tim" 4
1 "Figurnov, Michael" 5
1 "Ronneberger, Olaf" 6
1 "Tunyasuvunakool, Kathryn" 7
1 "Bates, Russ" 8
1 "Zidek, Augustin" 9
1 "Potapenko, Anna" 10
1 "Bridgland, Alex" 11
1 "Meyer, Clemens" 12
1 "Kohl, Simon A. A." 13
1 "Ballard, Andrew J." 14
1 "Cowie, Andrew" 15
1 "Romera-Paredes, Bernardino" 16
1 "Nikolov, Stanislav" 17
1 "Jain, Rishub" 18
1 "Adler, Jonas" 19
1 "Back, Trevor" 20
1 "Petersen, Stig" 21
1 "Reiman, David" 22
1 "Clancy, Ellen" 23
1 "Zielinski, Michal" 24
1 "Steinegger, Martin" 25
1 "Pacholska, Michalina" 26
1 "Berghammer, Tamas" 27
1 "Silver, David" 28
1 "Vinyals, Oriol" 29
1 "Senior, Andrew W." 30
1 "Kavukcuoglu, Koray" 31
1 "Kohli, Pushmeet" 32
1 "Hassabis, Demis" 33
#
_database_2.database_code AF-A0A2K5XT84-F1
_database_2.database_id AlphaFoldDB
#
_entity.details ?
_entity.formula_weight ?
_entity.id 1
_entity.pdbx_description "Free fatty acid receptor 2"
_entity.pdbx_ec ?
_entity.pdbx_fragment ?
_entity.pdbx_mutation ?
_entity.pdbx_number_of_molecules 1
_entity.src_method man
_entity.type polymer
#
_entity_poly.entity_id 1
_entity_poly.nstd_linkage no
_entity_poly.nstd_monomer no
_entity_poly.pdbx_seq_one_letter_code
;MPPDWKSSLILMAYIIIFLTGLPANLLALRAFVGRVRQPQPAPVHILLLSLTLADLLLLLLLPFKIIEAASNFRWYLPEI
VCALTSFGFYSSIYCSTWLLAGISIERYLGVAFPVQYKLSRRPLYGVIAALVAWGMSFGHCTIVIIVQYLNTTEQARSGN
EITCYENFTDHQLDVVLPVRLELCLVLFFIPMAVTIFCYWRFVWIMLSQPHVGAQKRRRAVGLAVVTLLNFLVCFGPYNV
SHLVGYHQRKSPWWRSIAVVFSSLNASLDPLLFYFSSSVVRRAFGRGLQVLRNQGSSMLGRRGKDTAEGTNEDRGVSQGE
GMPSSDFTTE
;
_entity_poly.pdbx_seq_one_letter_code_can
;MPPDWKSSLILMAYIIIFLTGLPANLLALRAFVGRVRQPQPAPVHILLLSLTLADLLLLLLLPFKIIEAASNFRWYLPEI
VCALTSFGFYSSIYCSTWLLAGISIERYLGVAFPVQYKLSRRPLYGVIAALVAWGMSFGHCTIVIIVQYLNTTEQARSGN
EITCYENFTDHQLDVVLPVRLELCLVLFFIPMAVTIFCYWRFVWIMLSQPHVGAQKRRRAVGLAVVTLLNFLVCFGPYNV
SHLVGYHQRKSPWWRSIAVVFSSLNASLDPLLFYFSSSVVRRAFGRGLQVLRNQGSSMLGRRGKDTAEGTNEDRGVSQGE
GMPSSDFTTE
;
_entity_poly.pdbx_strand_id A
_entity_poly.type polypeptide(L)
#
loop_
_entity_poly_seq.entity_id
_entity_poly_seq.hetero
_entity_poly_seq.mon_id
_entity_poly_seq.num
1 n MET 1
1 n PRO 2
1 n PRO 3
1 n ASP 4
1 n TRP 5
1 n LYS 6
1 n SER 7
1 n SER 8
1 n LEU 9
1 n ILE 10
1 n LEU 11
1 n MET 12
1 n ALA 13
1 n TYR 14
1 n ILE 15
1 n ILE 16
1 n ILE 17
1 n PHE 18
1 n LEU 19
1 n THR 20
1 n GLY 21
1 n LEU 22
1 n PRO 23
1 n ALA 24
1 n ASN 25
1 n LEU 26
1 n LEU 27
1 n ALA 28
1 n LEU 29
1 n ARG 30
1 n ALA 31
1 n PHE 32
1 n VAL 33
1 n GLY 34
1 n ARG 35
1 n VAL 36
1 n ARG 37
1 n GLN 38
1 n PRO 39
1 n GLN 40
1 n PRO 41
1 n ALA 42
1 n PRO 43
1 n VAL 44
1 n HIS 45
1 n ILE 46
1 n LEU 47
1 n LEU 48
1 n LEU 49
1 n SER 50
1 n LEU 51
1 n THR 52
1 n LEU 53
1 n ALA 54
1 n ASP 55
1 n LEU 56
1 n LEU 57
1 n LEU 58
1 n LEU 59
1 n LEU 60
1 n LEU 61
1 n LEU 62
1 n PRO 63
1 n PHE 64
1 n LYS 65
1 n ILE 66
1 n ILE 67
1 n GLU 68
1 n ALA 69
1 n ALA 70
1 n SER 71
1 n ASN 72
1 n PHE 73
1 n ARG 74
1 n TRP 75
1 n TYR 76
1 n LEU 77
1 n PRO 78
1 n GLU 79
1 n ILE 80
1 n VAL 81
1 n CYS 82
1 n ALA 83
1 n LEU 84
1 n THR 85
1 n SER 86
1 n PHE 87
1 n GLY 88
1 n PHE 89
1 n TYR 90
1 n SER 91
1 n SER 92
1 n ILE 93
1 n TYR 94
1 n CYS 95
1 n SER 96
1 n THR 97
1 n TRP 98
1 n LEU 99
1 n LEU 100
1 n ALA 101
1 n GLY 102
1 n ILE 103
1 n SER 104
1 n ILE 105
1 n GLU 106
1 n ARG 107
1 n TYR 108
1 n LEU 109
1 n GLY 110
1 n VAL 111
1 n ALA 112
1 n PHE 113
1 n PRO 114
1 n VAL 115
1 n GLN 116
1 n TYR 117
1 n LYS 118
1 n LEU 119
1 n SER 120
1 n ARG 121
1 n ARG 122
1 n PRO 123
1 n LEU 124
1 n TYR 125
1 n GLY 126
1 n VAL 127
1 n ILE 128
1 n ALA 129
1 n ALA 130
1 n LEU 131
1 n VAL 132
1 n ALA 133
1 n TRP 134
1 n GLY 135
1 n MET 136
1 n SER 137
1 n PHE 138
1 n GLY 139
1 n HIS 140
1 n CYS 141
1 n THR 142
1 n ILE 143
1 n VAL 144
1 n ILE 145
1 n ILE 146
1 n VAL 147
1 n GLN 148
1 n TYR 149
1 n LEU 150
1 n ASN 151
1 n THR 152
1 n THR 153
1 n GLU 154
1 n GLN 155
1 n ALA 156
1 n ARG 157
1 n SER 158
1 n GLY 159
1 n ASN 160
1 n GLU 161
1 n ILE 162
1 n THR 163
1 n CYS 164
1 n TYR 165
1 n GLU 166
1 n ASN 167
1 n PHE 168
1 n THR 169
1 n ASP 170
1 n HIS 171
1 n GLN 172
1 n LEU 173
1 n ASP 174
1 n VAL 175
1 n VAL 176
1 n LEU 177
1 n PRO 178
1 n VAL 179
1 n ARG 180
1 n LEU 181
1 n GLU 182
1 n LEU 183
1 n CYS 184
1 n LEU 185
1 n VAL 186
1 n LEU 187
1 n PHE 188
1 n PHE 189
1 n ILE 190
1 n PRO 191
1 n MET 192
1 n ALA 193
1 n VAL 194
1 n THR 195
1 n ILE 196
1 n PHE 197
1 n CYS 198
1 n TYR 199
1 n TRP 200
1 n ARG 201
1 n PHE 202
1 n VAL 203
1 n TRP 204
1 n ILE 205
1 n MET 206
1 n LEU 207
1 n SER 208
1 n GLN 209
1 n PRO 210
1 n HIS 211
1 n VAL 212
1 n GLY 213
1 n ALA 214
1 n GLN 215
1 n LYS 216
1 n ARG 217
1 n ARG 218
1 n ARG 219
1 n ALA 220
1 n VAL 221
1 n GLY 222
1 n LEU 223
1 n ALA 224
1 n VAL 225
1 n VAL 226
1 n THR 227
1 n LEU 228
1 n LEU 229
1 n ASN 230
1 n PHE 231
1 n LEU 232
1 n VAL 233
1 n CYS 234
1 n PHE 235
1 n GLY 236
1 n PRO 237
1 n TYR 238
1 n ASN 239
1 n VAL 240
1 n SER 241
1 n HIS 242
1 n LEU 243
1 n VAL 244
1 n GLY 245
1 n TYR 246
1 n HIS 247
1 n GLN 248
1 n ARG 249
1 n LYS 250
1 n SER 251
1 n PRO 252
1 n TRP 253
1 n TRP 254
1 n ARG 255
1 n SER 256
1 n ILE 257
1 n ALA 258
1 n VAL 259
1 n VAL 260
1 n PHE 261
1 n SER 262
1 n SER 263
1 n LEU 264
1 n ASN 265
1 n ALA 266
1 n SER 267
1 n LEU 268
1 n ASP 269
1 n PRO 270
1 n LEU 271
1 n LEU 272
1 n PHE 273
1 n TYR 274
1 n PHE 275
1 n SER 276
1 n SER 277
1 n SER 278
1 n VAL 279
1 n VAL 280
1 n ARG 281
1 n ARG 282
1 n ALA 283
1 n PHE 284
1 n GLY 285
1 n ARG 286
1 n GLY 287
1 n LEU 288
1 n GLN 289
1 n VAL 290
1 n LEU 291
1 n ARG 292
1 n ASN 293
1 n GLN 294
1 n GLY 295
1 n SER 296
1 n SER 297
1 n MET 298
1 n LEU 299
1 n GLY 300
1 n ARG 301
1 n ARG 302
1 n GLY 303
1 n LYS 304
1 n ASP 305
1 n THR 306
1 n ALA 307
1 n GLU 308
1 n GLY 309
1 n THR 310
1 n ASN 311
1 n GLU 312
1 n ASP 313
1 n ARG 314
1 n GLY 315
1 n VAL 316
1 n SER 317
1 n GLN 318
1 n GLY 319
1 n GLU 320
1 n GLY 321
1 n MET 322
1 n PRO 323
1 n SER 324
1 n SER 325
1 n ASP 326
1 n PHE 327
1 n THR 328
1 n THR 329
1 n GLU 330
#
loop_
_ma_data.content_type
_ma_data.id
_ma_data.name
"model coordinates" 1 Model
"input structure" 2 "Input structure"
#
_ma_model_list.data_id 1
_ma_model_list.model_group_id 1
_ma_model_list.model_group_name "AlphaFold Monomer v2.0 model"
_ma_model_list.model_id 1
_ma_model_list.model_name "Top ranked model"
_ma_model_list.model_type "Ab initio model"
_ma_model_list.ordinal_id 1
#
loop_
_ma_protocol_step.method_type
_ma_protocol_step.ordinal_id
_ma_protocol_step.protocol_id
_ma_protocol_step.step_id
"coevolution MSA" 1 1 1
"template search" 2 1 2
modeling 3 1 3
#
loop_
_ma_qa_metric.id
_ma_qa_metric.mode
_ma_qa_metric.name
_ma_qa_metric.software_group_id
_ma_qa_metric.type
1 global pLDDT 1 pLDDT
2 local pLDDT 1 pLDDT
#
_ma_qa_metric_global.metric_id 1
_ma_qa_metric_global.metric_value 78.49
_ma_qa_metric_global.model_id 1
_ma_qa_metric_global.ordinal_id 1
#
loop_
_ma_qa_metric_local.label_asym_id
_ma_qa_metric_local.label_comp_id
_ma_qa_metric_local.label_seq_id
_ma_qa_metric_local.metric_id
_ma_qa_metric_local.metric_value
_ma_qa_metric_local.model_id
_ma_qa_metric_local.ordinal_id
A MET 1 2 41.16 1 1
A PRO 2 2 47.56 1 2
A PRO 3 2 55.38 1 3
A ASP 4 2 74.94 1 4
A TRP 5 2 79.81 1 5
A LYS 6 2 78.88 1 6
A SER 7 2 80.44 1 7
A SER 8 2 85.50 1 8
A LEU 9 2 88.31 1 9
A ILE 10 2 88.25 1 10
A LEU 11 2 90.25 1 11
A MET 12 2 91.94 1 12
A ALA 13 2 93.06 1 13
A TYR 14 2 93.62 1 14
A ILE 15 2 93.81 1 15
A ILE 16 2 94.75 1 16
A ILE 17 2 95.19 1 17
A PHE 18 2 95.31 1 18
A LEU 19 2 94.50 1 19
A THR 20 2 93.75 1 20
A GLY 21 2 94.44 1 21
A LEU 22 2 95.12 1 22
A PRO 23 2 93.62 1 23
A ALA 24 2 92.44 1 24
A ASN 25 2 95.12 1 25
A LEU 26 2 94.12 1 26
A LEU 27 2 91.25 1 27
A ALA 28 2 91.12 1 28
A LEU 29 2 93.69 1 29
A ARG 30 2 90.31 1 30
A ALA 31 2 87.88 1 31
A PHE 32 2 89.19 1 32
A VAL 33 2 89.25 1 33
A GLY 34 2 83.38 1 34
A ARG 35 2 81.12 1 35
A VAL 36 2 84.19 1 36
A ARG 37 2 85.06 1 37
A GLN 38 2 82.44 1 38
A PRO 39 2 72.69 1 39
A GLN 40 2 77.38 1 40
A PRO 41 2 83.25 1 41
A ALA 42 2 85.38 1 42
A PRO 43 2 88.25 1 43
A VAL 44 2 90.00 1 44
A HIS 45 2 90.75 1 45
A ILE 46 2 92.62 1 46
A LEU 47 2 94.38 1 47
A LEU 48 2 94.06 1 48
A LEU 49 2 94.56 1 49
A SER 50 2 96.56 1 50
A LEU 51 2 96.25 1 51
A THR 52 2 96.19 1 52
A LEU 53 2 96.25 1 53
A ALA 54 2 96.56 1 54
A ASP 55 2 96.31 1 55
A LEU 56 2 96.62 1 56
A LEU 57 2 95.31 1 57
A LEU 58 2 94.94 1 58
A LEU 59 2 95.69 1 59
A LEU 60 2 94.81 1 60
A LEU 61 2 92.31 1 61
A LEU 62 2 91.50 1 62
A PRO 63 2 91.56 1 63
A PHE 64 2 88.94 1 64
A LYS 65 2 86.31 1 65
A ILE 66 2 87.81 1 66
A ILE 67 2 86.56 1 67
A GLU 68 2 82.62 1 68
A ALA 69 2 81.06 1 69
A ALA 70 2 83.00 1 70
A SER 71 2 81.12 1 71
A ASN 72 2 74.88 1 72
A PHE 73 2 72.25 1 73
A ARG 74 2 71.94 1 74
A TRP 75 2 72.50 1 75
A TYR 76 2 74.69 1 76
A LEU 77 2 77.19 1 77
A PRO 78 2 79.50 1 78
A GLU 79 2 72.88 1 79
A ILE 80 2 76.38 1 80
A VAL 81 2 80.62 1 81
A CYS 82 2 77.50 1 82
A ALA 83 2 77.25 1 83
A LEU 84 2 82.44 1 84
A THR 85 2 84.81 1 85
A SER 86 2 80.62 1 86
A PHE 87 2 83.81 1 87
A GLY 88 2 87.31 1 88
A PHE 89 2 88.44 1 89
A TYR 90 2 86.06 1 90
A SER 91 2 89.56 1 91
A SER 92 2 92.56 1 92
A ILE 93 2 90.62 1 93
A TYR 94 2 90.75 1 94
A CYS 95 2 94.56 1 95
A SER 96 2 95.19 1 96
A THR 97 2 94.50 1 97
A TRP 98 2 95.06 1 98
A LEU 99 2 96.12 1 99
A LEU 100 2 95.31 1 100
A ALA 101 2 95.62 1 101
A GLY 102 2 95.00 1 102
A ILE 103 2 94.62 1 103
A SER 104 2 94.75 1 104
A ILE 105 2 94.25 1 105
A GLU 106 2 91.44 1 106
A ARG 107 2 91.12 1 107
A TYR 108 2 92.25 1 108
A LEU 109 2 89.50 1 109
A GLY 110 2 86.81 1 110
A VAL 111 2 87.44 1 111
A ALA 112 2 87.75 1 112
A PHE 113 2 85.81 1 113
A PRO 114 2 82.62 1 114
A VAL 115 2 78.62 1 115
A GLN 116 2 76.25 1 116
A TYR 117 2 79.62 1 117
A LYS 118 2 77.06 1 118
A LEU 119 2 73.69 1 119
A SER 120 2 72.38 1 120
A ARG 121 2 75.88 1 121
A ARG 122 2 83.38 1 122
A PRO 123 2 83.62 1 123
A LEU 124 2 87.38 1 124
A TYR 125 2 87.81 1 125
A GLY 126 2 88.00 1 126
A VAL 127 2 91.56 1 127
A ILE 128 2 92.31 1 128
A ALA 129 2 92.56 1 129
A ALA 130 2 94.44 1 130
A LEU 131 2 94.62 1 131
A VAL 132 2 93.06 1 132
A ALA 133 2 93.25 1 133
A TRP 134 2 93.88 1 134
A GLY 135 2 90.00 1 135
A MET 136 2 86.19 1 136
A SER 137 2 87.19 1 137
A PHE 138 2 83.88 1 138
A GLY 139 2 77.94 1 139
A HIS 140 2 69.25 1 140
A CYS 141 2 67.81 1 141
A THR 142 2 67.06 1 142
A ILE 143 2 62.84 1 143
A VAL 144 2 57.03 1 144
A ILE 145 2 60.25 1 145
A ILE 146 2 58.94 1 146
A VAL 147 2 54.84 1 147
A GLN 148 2 53.53 1 148
A TYR 149 2 51.84 1 149
A LEU 150 2 49.44 1 150
A ASN 151 2 47.62 1 151
A THR 152 2 46.97 1 152
A THR 153 2 43.28 1 153
A GLU 154 2 42.62 1 154
A GLN 155 2 42.47 1 155
A ALA 156 2 43.22 1 156
A ARG 157 2 42.69 1 157
A SER 158 2 40.12 1 158
A GLY 159 2 42.66 1 159
A ASN 160 2 43.56 1 160
A GLU 161 2 47.09 1 161
A ILE 162 2 51.31 1 162
A THR 163 2 52.97 1 163
A CYS 164 2 57.88 1 164
A TYR 165 2 53.47 1 165
A GLU 166 2 49.97 1 166
A ASN 167 2 51.75 1 167
A PHE 168 2 53.38 1 168
A THR 169 2 53.38 1 169
A ASP 170 2 52.28 1 170
A HIS 171 2 51.03 1 171
A GLN 172 2 53.28 1 172
A LEU 173 2 57.28 1 173
A ASP 174 2 55.56 1 174
A VAL 175 2 58.28 1 175
A VAL 176 2 62.56 1 176
A LEU 177 2 62.91 1 177
A PRO 178 2 67.12 1 178
A VAL 179 2 67.94 1 179
A ARG 180 2 68.25 1 180
A LEU 181 2 70.12 1 181
A GLU 182 2 78.31 1 182
A LEU 183 2 72.75 1 183
A CYS 184 2 78.56 1 184
A LEU 185 2 82.62 1 185
A VAL 186 2 84.94 1 186
A LEU 187 2 84.38 1 187
A PHE 188 2 88.44 1 188
A PHE 189 2 90.56 1 189
A ILE 190 2 92.56 1 190
A PRO 191 2 92.81 1 191
A MET 192 2 94.38 1 192
A ALA 193 2 95.38 1 193
A VAL 194 2 95.50 1 194
A THR 195 2 94.81 1 195
A ILE 196 2 94.81 1 196
A PHE 197 2 96.25 1 197
A CYS 198 2 94.88 1 198
A TYR 199 2 93.25 1 199
A TRP 200 2 93.38 1 200
A ARG 201 2 94.00 1 201
A PHE 202 2 91.62 1 202
A VAL 203 2 91.94 1 203
A TRP 204 2 92.56 1 204
A ILE 205 2 89.69 1 205
A MET 206 2 88.38 1 206
A LEU 207 2 88.25 1 207
A SER 208 2 87.94 1 208
A GLN 209 2 85.75 1 209
A PRO 210 2 76.38 1 210
A HIS 211 2 79.31 1 211
A VAL 212 2 80.38 1 212
A GLY 213 2 85.44 1 213
A ALA 214 2 85.75 1 214
A GLN 215 2 84.62 1 215
A LYS 216 2 84.62 1 216
A ARG 217 2 87.56 1 217
A ARG 218 2 88.12 1 218
A ARG 219 2 87.81 1 219
A ALA 220 2 89.38 1 220
A VAL 221 2 91.19 1 221
A GLY 222 2 91.44 1 222
A LEU 223 2 91.75 1 223
A ALA 224 2 93.44 1 224
A VAL 225 2 94.62 1 225
A VAL 226 2 94.50 1 226
A THR 227 2 94.06 1 227
A LEU 228 2 94.19 1 228
A LEU 229 2 94.38 1 229
A ASN 230 2 93.81 1 230
A PHE 231 2 93.56 1 231
A LEU 232 2 93.50 1 232
A VAL 233 2 92.88 1 233
A CYS 234 2 93.00 1 234
A PHE 235 2 92.25 1 235
A GLY 236 2 89.88 1 236
A PRO 237 2 91.75 1 237
A TYR 238 2 87.50 1 238
A ASN 239 2 88.25 1 239
A VAL 240 2 87.50 1 240
A SER 241 2 83.88 1 241
A HIS 242 2 80.25 1 242
A LEU 243 2 81.81 1 243
A VAL 244 2 83.31 1 244
A GLY 245 2 75.88 1 245
A TYR 246 2 77.81 1 246
A HIS 247 2 81.31 1 247
A GLN 248 2 79.06 1 248
A ARG 249 2 72.31 1 249
A LYS 250 2 70.75 1 250
A SER 251 2 67.62 1 251
A PRO 252 2 77.94 1 252
A TRP 253 2 77.25 1 253
A TRP 254 2 82.12 1 254
A ARG 255 2 82.94 1 255
A SER 256 2 80.56 1 256
A ILE 257 2 85.81 1 257
A ALA 258 2 88.12 1 258
A VAL 259 2 87.50 1 259
A VAL 260 2 91.12 1 260
A PHE 261 2 92.38 1 261
A SER 262 2 92.00 1 262
A SER 263 2 93.12 1 263
A LEU 264 2 93.94 1 264
A ASN 265 2 94.12 1 265
A ALA 266 2 93.19 1 266
A SER 267 2 93.12 1 267
A LEU 268 2 92.88 1 268
A ASP 269 2 93.12 1 269
A PRO 270 2 91.25 1 270
A LEU 271 2 90.25 1 271
A LEU 272 2 91.56 1 272
A PHE 273 2 90.19 1 273
A TYR 274 2 87.38 1 274
A PHE 275 2 85.50 1 275
A SER 276 2 81.12 1 276
A SER 277 2 77.94 1 277
A SER 278 2 74.44 1 278
A VAL 279 2 71.25 1 279
A VAL 280 2 71.56 1 280
A ARG 281 2 80.75 1 281
A ARG 282 2 79.81 1 282
A ALA 283 2 77.50 1 283
A PHE 284 2 78.94 1 284
A GLY 285 2 78.75 1 285
A ARG 286 2 81.50 1 286
A GLY 287 2 76.62 1 287
A LEU 288 2 77.69 1 288
A GLN 289 2 79.69 1 289
A VAL 290 2 78.75 1 290
A LEU 291 2 76.19 1 291
A ARG 292 2 80.12 1 292
A ASN 293 2 77.44 1 293
A GLN 294 2 75.56 1 294
A GLY 295 2 71.94 1 295
A SER 296 2 71.56 1 296
A SER 297 2 67.38 1 297
A MET 298 2 61.81 1 298
A LEU 299 2 62.94 1 299
A GLY 300 2 58.47 1 300
A ARG 301 2 56.00 1 301
A ARG 302 2 52.91 1 302
A GLY 303 2 54.56 1 303
A LYS 304 2 52.56 1 304
A ASP 305 2 53.72 1 305
A THR 306 2 52.91 1 306
A ALA 307 2 52.16 1 307
A GLU 308 2 50.66 1 308
A GLY 309 2 50.19 1 309
A THR 310 2 47.62 1 310
A ASN 311 2 47.50 1 311
A GLU 312 2 48.97 1 312
A ASP 313 2 45.84 1 313
A ARG 314 2 48.81 1 314
A GLY 315 2 42.09 1 315
A VAL 316 2 46.81 1 316
A SER 317 2 46.16 1 317
A GLN 318 2 40.78 1 318
A GLY 319 2 37.22 1 319
A GLU 320 2 38.16 1 320
A GLY 321 2 35.22 1 321
A MET 322 2 35.28 1 322
A PRO 323 2 49.31 1 323
A SER 324 2 32.22 1 324
A SER 325 2 36.06 1 325
A ASP 326 2 36.31 1 326
A PHE 327 2 36.47 1 327
A THR 328 2 39.03 1 328
A THR 329 2 40.66 1 329
A GLU 330 2 39.31 1 330
#
_ma_software_group.group_id 1
_ma_software_group.ordinal_id 1
_ma_software_group.software_id 1
#
_ma_target_entity.data_id 1
_ma_target_entity.entity_id 1
_ma_target_entity.origin "reference database"
#
_ma_target_entity_instance.asym_id A
_ma_target_entity_instance.details .
_ma_target_entity_instance.entity_id 1
#
_ma_target_ref_db_details.db_accession A0A2K5XT84
_ma_target_ref_db_details.db_code A0A2K5XT84_MANLE
_ma_target_ref_db_details.db_name UNP
_ma_target_ref_db_details.gene_name FFAR2
_ma_target_ref_db_details.ncbi_taxonomy_id 9568
_ma_target_ref_db_details.organism_scientific "Mandrillus leucophaeus"
_ma_target_ref_db_details.seq_db_align_begin 1
_ma_target_ref_db_details.seq_db_align_end 330
_ma_target_ref_db_details.seq_db_isoform ?
_ma_target_ref_db_details.seq_db_sequence_checksum 2035878A5B013239
_ma_target_ref_db_details.seq_db_sequence_version_date 2018-03-28
_ma_target_ref_db_details.target_entity_id 1
#
loop_
_ma_template_details.ordinal_id
_ma_template_details.target_asym_id
_ma_template_details.template_auth_asym_id
_ma_template_details.template_data_id
_ma_template_details.template_entity_type
_ma_template_details.template_id
_ma_template_details.template_model_num
_ma_template_details.template_origin
_ma_template_details.template_trans_matrix_id
1 A A 2 polymer 1 1 "reference database" 1
2 A A 2 polymer 2 1 "reference database" 1
3 A A 2 polymer 3 1 "reference database" 1
4 A A 2 polymer 4 1 "reference database" 1
#
loop_
_ma_template_ref_db_details.db_accession_code
_ma_template_ref_db_details.db_name
_ma_template_ref_db_details.template_id
5ZKP PDB 1
3VW7 PDB 2
5X33 PDB 3
3ODU PDB 4
#
_ma_template_trans_matrix.id 1
_ma_template_trans_matrix.rot_matrix[1][1] 1.0
_ma_template_trans_matrix.rot_matrix[1][2] 0.0
_ma_template_trans_matrix.rot_matrix[1][3] 0.0
_ma_template_trans_matrix.rot_matrix[2][1] 0.0
_ma_template_trans_matrix.rot_matrix[2][2] 1.0
_ma_template_trans_matrix.rot_matrix[2][3] 0.0
_ma_template_trans_matrix.rot_matrix[3][1] 0.0
_ma_template_trans_matrix.rot_matrix[3][2] 0.0
_ma_template_trans_matrix.rot_matrix[3][3] 1.0
_ma_template_trans_matrix.tr_vector[1] 0.0
_ma_template_trans_matrix.tr_vector[2] 0.0
_ma_template_trans_matrix.tr_vector[3] 0.0
#
loop_
_pdbx_audit_revision_details.data_content_type
_pdbx_audit_revision_details.description
_pdbx_audit_revision_details.ordinal
_pdbx_audit_revision_details.provider
_pdbx_audit_revision_details.revision_ordinal
_pdbx_audit_revision_details.type
"Structure model" "Format fixes, new metadata, initial UniProt release" 3 repository 3 Remediation
"Structure model" "Improved prediction accuracy, small format fixes" 4 repository 4 Remediation
#
loop_
_pdbx_audit_revision_history.data_content_type
_pdbx_audit_revision_history.major_revision
_pdbx_audit_revision_history.minor_revision
_pdbx_audit_revision_history.ordinal
_pdbx_audit_revision_history.revision_date
"Structure model" 3 0 3 2022-06-01
"Structure model" 4 0 4 2022-09-30
#
loop_
_pdbx_data_usage.details
_pdbx_data_usage.id
_pdbx_data_usage.name
_pdbx_data_usage.type
_pdbx_data_usage.url
"Data in this file is available under a CC-BY-4.0 license." 1 CC-BY-4.0 license https://creativecommons.org/licenses/by/4.0/
;ALPHAFOLD DATA, COPYRIGHT (2021) DEEPMIND TECHNOLOGIES LIMITED. THE INFORMATION
PROVIDED IS THEORETICAL MODELLING ONLY AND CAUTION SHOULD BE EXERCISED IN ITS
USE. IT IS PROVIDED "AS-IS" WITHOUT ANY WARRANTY OF ANY KIND, WHETHER EXPRESSED
OR IMPLIED. NO WARRANTY IS GIVEN THAT USE OF THE INFORMATION SHALL NOT INFRINGE
THE RIGHTS OF ANY THIRD PARTY. DISCLAIMER: THE INFORMATION IS NOT INTENDED TO BE
A SUBSTITUTE FOR PROFESSIONAL MEDICAL ADVICE, DIAGNOSIS, OR TREATMENT, AND DOES
NOT CONSTITUTE MEDICAL OR OTHER PROFESSIONAL ADVICE. IT IS AVAILABLE FOR
ACADEMIC AND COMMERCIAL PURPOSES, UNDER CC-BY 4.0 LICENCE.
;
2 ? disclaimer ?
#
_pdbx_database_status.entry_id AF-A0A2K5XT84-F1
_pdbx_database_status.recvd_initial_deposition_date 2022-06-01
_pdbx_database_status.status_code REL
#
loop_
_pdbx_poly_seq_scheme.asym_id
_pdbx_poly_seq_scheme.auth_seq_num
_pdbx_poly_seq_scheme.entity_id
_pdbx_poly_seq_scheme.hetero
_pdbx_poly_seq_scheme.mon_id
_pdbx_poly_seq_scheme.pdb_ins_code
_pdbx_poly_seq_scheme.pdb_mon_id
_pdbx_poly_seq_scheme.pdb_seq_num
_pdbx_poly_seq_scheme.pdb_strand_id
_pdbx_poly_seq_scheme.seq_id
A 1 1 n MET . MET 1 A 1
A 2 1 n PRO . PRO 2 A 2
A 3 1 n PRO . PRO 3 A 3
A 4 1 n ASP . ASP 4 A 4