1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Ishida, H.
Vogel, H.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
C3 H7 N O2
89.093
y
ALANINE
L-peptide linking
C6 H15 N4 O2 1
175.209
y
ARGININE
L-peptide linking
C4 H8 N2 O3
132.118
y
ASPARAGINE
L-peptide linking
C4 H7 N O4
133.103
y
ASPARTIC ACID
L-peptide linking
C3 H7 N O2 S
121.158
y
CYSTEINE
L-peptide linking
C5 H10 N2 O3
146.144
y
GLUTAMINE
L-peptide linking
C5 H9 N O4
147.129
y
GLUTAMIC ACID
L-peptide linking
C2 H5 N O2
75.067
y
GLYCINE
peptide linking
C6 H10 N3 O2 1
156.162
y
HISTIDINE
L-peptide linking
C6 H13 N O2
131.173
y
ISOLEUCINE
L-peptide linking
C6 H13 N O2
131.173
y
LEUCINE
L-peptide linking
C6 H15 N2 O2 1
147.195
y
LYSINE
L-peptide linking
C5 H11 N O2 S
149.211
y
METHIONINE
L-peptide linking
C9 H11 N O2
165.189
y
PHENYLALANINE
L-peptide linking
C5 H9 N O2
115.130
y
PROLINE
L-peptide linking
C3 H7 N O3
105.093
y
SERINE
L-peptide linking
C4 H9 N O3
119.119
y
THREONINE
L-peptide linking
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
NE
Biochim.Biophys.Acta
BBACAQ
0113
0006-3002
1838
3014
3024
10.1016/j.bbamem.2014.08.008
25135663
The periplasmic domain of Escherichia coli outer membrane protein A can undergo a localized temperature dependent structural transition.
2014
10.2210/pdb2mqe/pdb
pdb_00002mqe
15712.669
OmpA domain protein transmembrane region-containing protein
1
man
polymer
no
no
APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS
VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA
APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS
VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA
A
polypeptide(L)
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
K12
sample
ompA, EcDH1_2686, ECDH1ME8569_0908
536056
Escherichia coli
511693
Escherichia coli
BL21
pE-SUMO
database_2
pdbx_database_status
pdbx_nmr_software
pdbx_nmr_spectrometer
repository
Initial release
Database references
Data collection
Database references
Other
1
0
2014-09-03
1
1
2014-10-01
1
2
2023-06-14
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.status_code_nmr_data
_pdbx_nmr_software.name
_pdbx_nmr_spectrometer.model
BMRB
Y
RCSB
2014-06-19
REL
REL
REL
REL
structures with the lowest energy
200
30
2D 1H-15N HSQC
3D HNCACB
3D CBCA(CO)NH
3D HNCO
3D HN(CA)CO
3D HBHA(CO)NH
3D H(CCO)NH
3D C(CO)NH
3D 1H-15N NOESY
3D 1H-13C NOESY
0.5
mM
[U-100% 15N]
20
mM
0.03
%
0.5
mM
0.5
mM
[U-100% 13C; U-100% 15N]
20
mM
0.03
%
0.5
mM
0.5
mM
[U-100% 13C; U-100% 15N]
20
mM
0.03
%
0.5
mM
0
6
ambient
298
K
torsion angle dynamics, simulated annealing
1
lowest energy
0.5 mM [U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 90% H2O/10% D2O
90% H2O/10% D2O
0.5 mM [U-100% 13C; U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 90% H2O/10% D2O
90% H2O/10% D2O
0.5 mM [U-100% 13C; U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 100% D2O
100% D2O
Guntert, Mumenthaler and Wuthrich
chemical shift assignment
CYANA
2.0
Guntert, Mumenthaler and Wuthrich
structure solution
CYANA
2.0
Schwieters, Kuszewski, Tjandra and Clore
structure solution
X-PLOR NIH
2.20
Schwieters, Kuszewski, Tjandra and Clore
refinement
X-PLOR NIH
2.20
Guntert, Mumenthaler and Wuthrich
refinement
CYANA
2.0
500
Bruker
AVANCE
Bruker Avance
700
Bruker
AVANCE
Bruker Avance
ALA
180
n
1
ALA
180
A
PRO
181
n
2
PRO
181
A
ALA
182
n
3
ALA
182
A
PRO
183
n
4
PRO
183
A
ALA
184
n
5
ALA
184
A
PRO
185
n
6
PRO
185
A
ALA
186
n
7
ALA
186
A
PRO
187
n
8
PRO
187
A
GLU
188
n
9
GLU
188
A
VAL
189
n
10
VAL
189
A
GLN
190
n
11
GLN
190
A
THR
191
n
12
THR
191
A
LYS
192
n
13
LYS
192
A
HIS
193
n
14
HIS
193
A
PHE
194
n
15
PHE
194
A
THR
195
n
16
THR
195
A
LEU
196
n
17
LEU
196
A
LYS
197
n
18
LYS
197
A
SER
198
n
19
SER
198
A
ASP
199
n
20
ASP
199
A
VAL
200
n
21
VAL
200
A
LEU
201
n
22
LEU
201
A
PHE
202
n
23
PHE
202
A
ASN
203
n
24
ASN
203
A
PHE
204
n
25
PHE
204
A
ASN
205
n
26
ASN
205
A
LYS
206
n
27
LYS
206
A
ALA
207
n
28
ALA
207
A
THR
208
n
29
THR
208
A
LEU
209
n
30
LEU
209
A
LYS
210
n
31
LYS
210
A
PRO
211
n
32
PRO
211
A
GLU
212
n
33
GLU
212
A
GLY
213
n
34
GLY
213
A
GLN
214
n
35
GLN
214
A
ALA
215
n
36
ALA
215
A
ALA
216
n
37
ALA
216
A
LEU
217
n
38
LEU
217
A
ASP
218
n
39
ASP
218
A
GLN
219
n
40
GLN
219
A
LEU
220
n
41
LEU
220
A
TYR
221
n
42
TYR
221
A
SER
222
n
43
SER
222
A
GLN
223
n
44
GLN
223
A
LEU
224
n
45
LEU
224
A
SER
225
n
46
SER
225
A
ASN
226
n
47
ASN
226
A
LEU
227
n
48
LEU
227
A
ASP
228
n
49
ASP
228
A
PRO
229
n
50
PRO
229
A
LYS
230
n
51
LYS
230
A
ASP
231
n
52
ASP
231
A
GLY
232
n
53
GLY
232
A
SER
233
n
54
SER
233
A
VAL
234
n
55
VAL
234
A
VAL
235
n
56
VAL
235
A
VAL
236
n
57
VAL
236
A
LEU
237
n
58
LEU
237
A
GLY
238
n
59
GLY
238
A
TYR
239
n
60
TYR
239
A
THR
240
n
61
THR
240
A
ASP
241
n
62
ASP
241
A
ARG
242
n
63
ARG
242
A
ILE
243
n
64
ILE
243
A
GLY
244
n
65
GLY
244
A
SER
245
n
66
SER
245
A
ASP
246
n
67
ASP
246
A
ALA
247
n
68
ALA
247
A
TYR
248
n
69
TYR
248
A
ASN
249
n
70
ASN
249
A
GLN
250
n
71
GLN
250
A
GLY
251
n
72
GLY
251
A
LEU
252
n
73
LEU
252
A
SER
253
n
74
SER
253
A
GLU
254
n
75
GLU
254
A
ARG
255
n
76
ARG
255
A
ARG
256
n
77
ARG
256
A
ALA
257
n
78
ALA
257
A
GLN
258
n
79
GLN
258
A
SER
259
n
80
SER
259
A
VAL
260
n
81
VAL
260
A
VAL
261
n
82
VAL
261
A
ASP
262
n
83
ASP
262
A
TYR
263
n
84
TYR
263
A
LEU
264
n
85
LEU
264
A
ILE
265
n
86
ILE
265
A
SER
266
n
87
SER
266
A
LYS
267
n
88
LYS
267
A
GLY
268
n
89
GLY
268
A
ILE
269
n
90
ILE
269
A
PRO
270
n
91
PRO
270
A
ALA
271
n
92
ALA
271
A
ASP
272
n
93
ASP
272
A
LYS
273
n
94
LYS
273
A
ILE
274
n
95
ILE
274
A
SER
275
n
96
SER
275
A
ALA
276
n
97
ALA
276
A
ARG
277
n
98
ARG
277
A
GLY
278
n
99
GLY
278
A
MET
279
n
100
MET
279
A
GLY
280
n
101
GLY
280
A
GLU
281
n
102
GLU
281
A
SER
282
n
103
SER
282
A
ASN
283
n
104
ASN
283
A
PRO
284
n
105
PRO
284
A
VAL
285
n
106
VAL
285
A
THR
286
n
107
THR
286
A
GLY
287
n
108
GLY
287
A
ASN
288
n
109
ASN
288
A
THR
289
n
110
THR
289
A
CYS
290
n
111
CYS
290
A
ASP
291
n
112
ASP
291
A
ASN
292
n
113
ASN
292
A
VAL
293
n
114
VAL
293
A
LYS
294
n
115
LYS
294
A
GLN
295
n
116
GLN
295
A
ARG
296
n
117
ARG
296
A
ALA
297
n
118
ALA
297
A
ALA
298
n
119
ALA
298
A
LEU
299
n
120
LEU
299
A
ILE
300
n
121
ILE
300
A
ASP
301
n
122
ASP
301
A
CYS
302
n
123
CYS
302
A
LEU
303
n
124
LEU
303
A
ALA
304
n
125
ALA
304
A
PRO
305
n
126
PRO
305
A
ASP
306
n
127
ASP
306
A
ARG
307
n
128
ARG
307
A
ARG
308
n
129
ARG
308
A
VAL
309
n
130
VAL
309
A
GLU
310
n
131
GLU
310
A
ILE
311
n
132
ILE
311
A
GLU
312
n
133
GLU
312
A
VAL
313
n
134
VAL
313
A
LYS
314
n
135
LYS
314
A
GLY
315
n
136
GLY
315
A
ILE
316
n
137
ILE
316
A
LYS
317
n
138
LYS
317
A
ASP
318
n
139
ASP
318
A
VAL
319
n
140
VAL
319
A
VAL
320
n
141
VAL
320
A
THR
321
n
142
THR
321
A
GLN
322
n
143
GLN
322
A
PRO
323
n
144
PRO
323
A
GLN
324
n
145
GLN
324
A
ALA
325
n
146
ALA
325
A
author_defined_assembly
1
monomeric
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
1_555
x,y,z
identity operation
0.0000000000
0.0000000000
0.0000000000
A
N
LYS
192
A
N
LYS
13
A
O
VAL
313
A
O
VAL
134
A
O
GLU
312
A
O
GLU
133
A
N
VAL
235
A
N
VAL
56
A
N
VAL
236
A
N
VAL
57
A
O
SER
275
A
O
SER
96
1
A
A
O
H
GLN
ASP
258
262
1.60
2
A
A
HH
HZ1
TYR
LYS
263
267
1.34
2
A
A
O
H
GLY
MET
238
279
1.56
2
A
A
H
O
VAL
SER
236
275
1.59
3
A
A
HG
H
SER
TYR
245
248
1.33
3
A
A
O
H
GLY
MET
238
279
1.57
5
A
A
H
O
VAL
SER
236
275
1.59
6
A
A
O
OD1
SER
ASP
259
262
2.15
7
A
A
O
H
THR
CYS
286
290
1.56
7
A
A
H
O
ASP
GLY
228
315
1.56
7
A
A
O
OD1
ALA
ASP
298
301
2.19
8
A
A
HG1
HH12
THR
ARG
195
308
1.27
8
A
A
H
O
VAL
SER
236
275
1.55
10
A
A
HG
H
SER
GLN
222
223
1.33
10
A
A
O
H
GLY
MET
238
279
1.53
11
A
A
O
H
ARG
SER
255
259
1.57
12
A
A
H
O
VAL
SER
236
275
1.57
13
A
A
HZ2
HG1
LYS
THR
192
321
1.33
15
A
A
H
O
VAL
SER
236
275
1.57
15
A
A
O
H
ARG
SER
255
259
1.58
16
A
A
O
H
ARG
SER
255
259
1.57
17
A
A
HG1
H
THR
ASP
240
241
1.34
18
A
A
O
HH11
ALA
ARG
304
307
1.55
18
A
A
H
O
VAL
SER
236
275
1.58
19
A
A
HH
HZ1
TYR
LYS
263
267
1.27
19
A
A
H
O
ASP
GLY
228
315
1.53
20
A
A
H
O
VAL
SER
236
275
1.56
20
A
A
O
H
ARG
SER
255
259
1.59
21
A
A
HG
H
SER
GLY
253
280
1.30
21
A
A
O
H
THR
CYS
286
290
1.56
22
A
A
HH22
HE
ARG
ARG
256
307
1.23
22
A
A
O
H
ARG
SER
255
259
1.56
22
A
A
H
O
ASP
GLY
228
315
1.58
23
A
A
H
HZ2
SER
LYS
233
314
1.33
23
A
A
H
HD22
ILE
ASN
243
249
1.33
23
A
A
HG1
H
THR
GLY
286
287
1.34
24
A
A
HD21
HH11
ASN
ARG
203
307
1.25
25
A
A
O
OD1
SER
ASP
259
262
2.01
26
A
A
O
H
THR
CYS
286
290
1.52
26
A
A
O
H
LEU
LEU
299
303
1.58
26
A
A
O
H
ARG
SER
255
259
1.58
29
A
A
H
O
VAL
SER
236
275
1.54
30
A
A
H
O
VAL
SER
236
275
1.55
30
A
A
O
H
ARG
ILE
296
300
1.56
1
A
ALA
182
-171.14
51.38
1
A
ALA
184
178.97
74.62
1
A
LEU
201
-79.77
-77.93
1
A
ASN
203
-107.43
-64.93
1
A
ALA
207
-164.07
-2.04
1
A
PRO
211
-34.10
-76.38
1
A
GLU
212
-49.72
-19.17
1
A
SER
266
-51.82
-8.51
1
A
ASN
283
-167.61
79.20
1
A
ASN
288
-122.74
-58.87
1
A
ASN
292
-76.19
32.41
1
A
ARG
296
-50.48
-70.11
1
A
PRO
305
-59.14
7.96
1
A
GLN
324
43.48
99.25
2
A
ALA
182
176.32
55.84
2
A
PRO
187
-47.78
76.60
2
A
LEU
201
-74.69
-79.15
2
A
ASN
203
-109.38
-76.65
2
A
ALA
207
-164.61
1.15
2
A
PRO
211
-34.32
-76.82
2
A
SER
266
-50.05
-5.58
2
A
SER
275
-170.94
132.96
2
A
ASN
283
-154.14
65.52
2
A
PRO
305
-62.76
9.35
3
A
ALA
182
62.83
71.09
3
A
ALA
184
-161.12
70.13
3
A
GLU
188
-171.89
-114.71
3
A
LEU
201
-79.94
-78.15
3
A
ASN
203
-102.33
-68.40
3
A
ALA
207
-165.92
-7.20
3
A
PRO
211
-34.52
-76.96
3
A
LYS
230
-29.79
-52.54
3
A
ASN
288
-123.20
-58.53
3
A
ARG
296
-82.90
-71.18
3
A
PRO
305
-61.78
8.55
3
A
LYS
317
-48.52
-147.52
4
A
ALA
182
178.45
61.68
4
A
ALA
184
-172.59
75.35
4
A
PRO
185
-51.17
-171.65
4
A
GLU
188
56.03
160.85
4
A
LEU
201
-78.90
-78.33
4
A
ASN
203
-111.93
-71.48
4
A
LYS
206
-58.94
-82.41
4
A
ALA
207
-148.65
56.55
4
A
PRO
211
-34.63
-76.33
4
A
LYS
230
-24.12
-50.06
4
A
SER
266
-50.49
-6.29
4
A
SER
275
-170.24
124.80
4
A
PRO
284
-54.66
107.97
4
A
ASN
288
-130.47
-56.02
4
A
ASN
292
-98.87
32.17
4
A
ARG
296
-52.61
-76.24
4
A
PRO
305
-64.73
7.96
4
A
LYS
317
-43.44
-156.78
5
A
ALA
182
-172.25
72.25
5
A
PRO
183
-53.57
93.77
5
A
ALA
184
-170.50
53.93
5
A
GLU
188
39.83
59.56
5
A
LEU
201
-78.31
-77.73
5
A
ASN
203
-101.35
-74.44
5
A
LYS
206
-49.56
-83.13
5
A
ALA
207
-156.43
58.96
5
A
PRO
211
-34.01
-76.41
5
A
LYS
230
-27.62
-46.46
5
A
SER
266
-50.72
-4.79
5
A
SER
275
-171.17
129.56
5
A
ASN
283
-153.86
56.28
5
A
ASN
288
-124.72
-57.19
5
A
CYS
290
-94.22
34.78
5
A
ARG
296
-86.26
-71.10
5
A
PRO
305
-59.13
9.55
6
A
ALA
186
174.82
-44.82
6
A
LEU
201
-90.56
-81.28
6
A
ASN
203
-71.99
-71.78
6
A
LYS
206
-53.21
-81.70
6
A
ALA
207
-161.86
54.20
6
A
PRO
211
-32.75
-75.87
6
A
GLU
212
-49.12
-19.27
6
A
SER
266
-51.59
-7.96
6
A
ASN
283
-160.98
70.72
6
A
ASN
288
-129.77
-54.23
6
A
ASN
292
-75.08
33.18
6
A
PRO
305
-69.28
8.70
6
A
ARG
308
-175.67
-171.31
6
A
ILE
316
-56.47
176.73
6
A
LYS
317
-54.81
-147.65
6
A
GLN
324
-156.54
-64.55
7
A
ALA
182
-173.85
61.41
7
A
PRO
183
-76.89
43.22
7
A
ALA
184
60.44
72.87
7
A
ALA
186
-162.29
52.64
7
A
LEU
201
-75.56
-76.34
7
A
ASN
203
-129.77
-72.87
7
A
ALA
207
-163.12
57.18
7
A
PRO
211
-34.25
-77.15
7
A
SER
222
-58.94
-6.71
7
A
SER
266
-50.76
-8.51
7
A
ASN
283
-176.42
80.21
7
A
PRO
284
-56.14
107.64
7
A
ASN
288
-27.61
-53.92
7
A
CYS
290
-98.37
34.19
7
A
ASN
292
-75.43
32.32
7
A
PRO
305
-58.94
7.18
7
A
GLN
324
-67.66
61.93
8
A
ALA
182
-52.28
175.10
8
A
ALA
186
176.28
-46.40
8
A
LEU
201
-84.41
-80.59
8
A
ASN
203
-104.27
-71.11
8
A
LYS
206
-52.49
-78.16
8
A
ALA
207
-162.19
4.11
8
A
PRO
211
-34.10
-74.81
8
A
SER
266
-51.22
-5.11
8
A
SER
275
-171.61
132.49
8
A
ASN
283
-169.50
76.66
8
A
ASN
292
-99.89
33.41
8
A
ARG
296
-80.02
-74.89
8
A
PRO
305
-61.81
9.80
9
A
ALA
186
-173.55
89.68
9
A
LEU
201
-78.35
-79.48
9
A
ASN
203
-91.32
-78.09
9
A
ALA
207
-168.71
57.18
9
A
PRO
211
-33.85
-76.64
9
A
LYS
230
-28.03
-49.22
9
A
SER
266
-54.47
-1.83
9
A
ASN
283
-168.16
75.88
9
A
PRO
305
-62.47
9.35
10
A
ALA
182
-155.82
75.18
10
A
PRO
183
-50.80
85.42
10
A
PRO
187
-75.23
-77.05
10
A
LEU
201
-80.78
-78.36
10
A
ASN
203
-67.40
-70.38
10
A
LYS
206
-55.90
-75.87
10
A
ALA
207
-163.59
49.74
10
A
PRO
211
-33.12
-76.56
10
A
SER
266
-50.61
-4.78
10
A
ASN
288
-126.13
-58.25
10
A
ARG
296
-81.01
-75.70
10
A
PRO
305
-59.12
7.52
10
A
VAL
320
-52.27
98.29
10
A
PRO
323
-68.93
-82.70
10
A
GLN
324
43.91
91.07
11
A
LEU
201
-89.43
-79.54
11
A
LYS
206
-50.85
-80.52
11
A
ALA
207
-164.49
53.00
11
A
PRO
211
-36.89
-75.19
11
A
PRO
229
-44.45
-19.22
11
A
LYS
230
-24.51
-47.57
11
A
SER
266
-49.95
-6.23
11
A
ASN
283
-172.96
78.93
11
A
ARG
296
-82.65
-78.24
11
A
PRO
305
-64.15
8.70
11
A
LYS
317
-44.01
-160.74
12
A
PRO
181
-71.12
43.43
12
A
ALA
182
-152.38
59.09
12
A
ALA
184
-167.98
-61.79
12
A
PRO
187
-75.70
25.48
12
A
GLU
188
57.43
-140.78
12
A
LEU
201
-85.62
-81.82
12
A
ASN
203
-111.65
-81.06
12
A
ALA
207
-162.49
61.14
12
A
PRO
211
-32.34
-77.05
12
A
ASP
228
-50.66
107.38
12
A
LYS
230
-21.42
-50.99
12
A
SER
266
-49.81
-4.78
12
A
SER
275
-170.08
130.18
12
A
ASN
283
-157.73
68.66
12
A
ASN
288
-122.62
-57.82
12
A
ARG
296
-80.91
-73.85
12
A
PRO
305
-62.71
9.84
12
A
ARG
308
-171.32
-171.14
12
A
LYS
317
-46.36
79.14
12
A
ASP
318
-56.81
175.81
12
A
VAL
320
-51.93
173.26
13
A
ALA
182
169.83
152.14
13
A
ALA
184
170.86
131.93
13
A
ALA
186
-162.15
72.30
13
A
LEU
201
-78.63
-78.25
13
A
ASN
203
-96.30
-70.92
13
A
ALA
207
-163.12
-0.11
13
A
PRO
211
-34.47
-75.14
13
A
SER
266
-49.82
-5.47
13
A
SER
275
-171.05
127.63
13
A
MET
279
-81.59
31.83
13
A
ASN
283
-155.95
60.67
13
A
ASN
288
-123.83
-57.78
13
A
ARG
296
-82.01
-72.62
13
A
PRO
305
-59.47
10.69
13
A
LYS
317
-43.04
-150.98
13
A
GLN
324
-68.56
-137.10
14
A
ALA
182
-161.23
47.35
14
A
ALA
184
70.89
74.59
14
A
ALA
186
-178.48
-44.06
14
A
LEU
201
-88.12
-80.00
14
A
ASN
203
-90.84
-72.09
14
A
LYS
206
-53.54
-83.33
14
A
ALA
207
-164.04
53.69
14
A
PRO
211
-33.34
-76.23
14
A
SER
266
-50.83
-5.20
14
A
SER
275
-171.20
129.63
14
A
ASN
283
-166.81
77.36
14
A
ASN
292
-96.72
33.25
14
A
PRO
305
-63.17
8.85
14
A
LYS
317
-33.24
-141.74
14
A
ASP
318
-165.31
111.21
15
A
ALA
184
58.54
145.20
15
A
ALA
186
169.87
-62.40
15
A
PRO
187
-63.22
-166.40
15
A
LEU
201
-67.29
-78.37
15
A
ASN
203
-90.55
-82.56
15
A
ALA
207
-164.17
60.12
15
A
PRO
211
-30.86
-73.40
15
A
LYS
230
-29.37
-53.16
15
A
ASN
283
-167.49
79.25
15
A
ASN
288
-127.98
-57.52
15
A
ASN
292
-98.64
31.76
15
A
PRO
305
-67.65
9.17
16
A
ALA
182
176.80
58.23
16
A
GLU
188
60.29
-109.39
16
A
LEU
201
-79.49
-77.61
16
A
ASN
203
-119.65
-72.75
16
A
LYS
206
-58.37
-75.16
16
A
ALA
207
-161.18
55.80
16
A
PRO
211
-34.02
-76.72
16
A
SER
266
-50.41
-4.91
16
A
PRO
284
-54.23
108.04
16
A
ASN
288
-125.07
-58.37
16
A
CYS
290
-95.74
34.42
16
A
ASN
292
-88.78
33.92
16
A
ARG
296
-51.09
-76.36
16
A
PRO
305
-61.75
8.29
16
A
LYS
317
-42.65
-150.78
17
A
ALA
182
-165.99
69.65
17
A
ALA
184
-169.56
89.41
17
A
ALA
186
51.33
85.44
17
A
PRO
187
-53.01
-139.47
17
A
LEU
201
-80.08
-79.36
17
A
ASN
203
-111.04
-71.24
17
A
LYS
206
-53.78
-74.64
17
A
ALA
207
-160.09
3.01
17
A
PRO
211
-33.11
-74.52
17
A
SER
266
-55.07
-8.16
17
A
PRO
284
-54.80
105.79
17
A
ARG
296
-52.61
-74.07
17
A
PRO
305
-55.10
8.74
17
A
ILE
316
-53.24
171.48
17
A
LYS
317
-45.34
-149.38
17
A
GLN
324
-73.30
47.63
18
A
ALA
182
-171.60
-62.62
18
A
ALA
184
172.07
74.73
18
A
ALA
186
163.76
155.17
18
A
PRO
187
-65.71
-81.61
18
A
GLU
188
55.34
162.39
18
A
LEU
201
-78.68
-78.01
18
A
ASN
203
-93.61
-74.17
18
A
LYS
206
-54.81
-82.14
18
A
ALA
207
-156.15
3.76
18
A
PRO
211
-33.75
-74.68
18
A
LYS
230
-29.21
-47.68
18
A
SER
266
-50.34
-8.14
18
A
SER
275
-170.94
131.91
18
A
ASN
283
-162.89
74.71
18
A
ASN
288
-127.22
-57.26
18
A
ARG
296
-52.00
-70.32
18
A
PRO
305
-53.70
9.40
18
A
LYS
317
-40.68
-160.22
19
A
PRO
181
-68.65
22.67
19
A
ALA
182
66.45
76.86
19
A
ALA
184
60.22
78.39
19
A
GLU
188
-49.52
174.73
19
A
LEU
201
-80.01
-77.98
19
A
ASN
203
-88.30
-70.09
19
A
LYS
206
-52.51
-77.82
19
A
ALA
207
-163.67
56.80
19
A
PRO
211
-36.14
-76.60
19
A
LYS
230
-27.22
-40.48
19
A
SER
266
-49.79
-6.80
19
A
ASN
283
-157.33
66.27
19
A
ASN
288
-125.49
-55.43
19
A
ASN
292
-74.48
33.86
19
A
ARG
296
-51.37
-72.07
19
A
PRO
305
-58.18
10.76
19
A
LYS
317
-43.18
-156.16
19
A
GLN
324
59.11
149.88
20
A
LEU
201
-79.80
-77.36
20
A
ASN
203
-100.51
-76.45
20
A
LYS
206
-51.12
-81.80
20
A
ALA
207
-162.00
56.05
20
A
PRO
211
-32.43
-76.98
20
A
LYS
230
-23.98
-50.39
20
A
SER
266
-49.31
-8.55
20
A
SER
275
-170.48
127.09
20
A
ASN
283
-155.87
67.93
20
A
ASN
288
-124.65
-58.44
20
A
ASN
292
-98.33
32.97
20
A
PRO
305
-61.50
8.95
20
A
LYS
317
-49.77
-150.24
20
A
GLN
324
-168.33
-87.79
21
A
PRO
183
-62.94
16.06
21
A
ALA
186
-165.85
-62.47
21
A
LEU
201
-72.14
-77.81
21
A
ASN
203
-86.74
-73.78
21
A
LYS
206
-52.13
-78.25
21
A
ALA
207
-163.33
57.01
21
A
PRO
211
-31.15
-73.47
21
A
LYS
230
-28.60
-44.86
21
A
MET
279
-66.19
3.90
21
A
GLU
281
-142.62
58.21
21
A
ASN
288
-123.45
-54.99
21
A
ASN
292
-93.77
33.72
21
A
PRO
305
-60.77
10.27
21
A
LYS
317
-38.78
-163.94
22
A
ALA
182
59.56
73.51
22
A
ALA
186
-174.48
78.69
22
A
GLU
188
57.04
114.89
22
A
LEU
201
-75.93
-76.45
22
A
ASN
203
-108.45
-76.18
22
A
LYS
206
-54.93
-73.71
22
A
ALA
207
-163.30
52.82
22
A
PRO
211
-33.96
-77.52
22
A
SER
266
-49.17
-6.97
22
A
ASN
283
-163.02
75.60
22
A
ASN
288
-122.16
-58.62
22
A
ASN
292
-97.57
31.47
22
A
PRO
305
-60.81
9.51
22
A
ASP
318
-50.90
94.47
23
A
ALA
182
59.44
78.73
23
A
ALA
184
-179.47
-61.45
23
A
ALA
186
-47.64
179.54
23
A
GLU
188
-44.65
157.14
23
A
LEU
201
-93.52
-81.75
23
A
ASN
203
-98.70
-72.70
23
A
LYS
206
-53.37
-92.26
23
A
ALA
207
-151.29
59.38
23
A
PRO
211
-34.01
-75.88
23
A
LYS
230
-23.74
-51.97
23
A
SER
266
-50.93
-5.40
23
A
ASN
292
-96.60
33.02
23
A
ARG
296
-53.26
-75.62
23
A
PRO
305
-59.76
8.83
23
A
ARG
308
-174.16
-172.38
23
A
ILE
316
-47.07
150.53
23
A
ASP
318
-65.16
92.76
23
A
VAL
319
-59.25
176.80
23
A
GLN
322
-48.86
151.89
23
A
GLN
324
54.03
89.07
24
A
ALA
186
70.86
73.48
24
A
PRO
187
-55.77
178.30
24
A
GLU
188
77.63
40.07
24
A
LEU
201
-82.79
-78.76
24
A
ASN
203
-119.49
-75.99
24
A
LYS
206
-59.32
-82.82
24
A
ALA
207
-153.67
54.23
24
A
PRO
211
-32.97
-76.95
24
A
PRO
229
-47.60
-19.57
24
A
LYS
230
-27.13
-51.79
24
A
SER
266
-52.43
-8.84
24
A
ASN
292
-78.73
33.32
24
A
PRO
305
-54.25
8.15
24
A
GLN
324
68.27
-66.00
25
A
ALA
182
-172.86
149.52
25
A
ALA
184
168.26
81.13
25
A
GLU
188
-68.59
-164.15
25
A
LEU
201
-78.12
-79.10
25
A
ASN
203
-94.44
-74.42
25
A
LYS
206
-50.04
-73.21
25
A
ALA
207
-164.09
2.52
25
A
PRO
211
-34.44
-75.13
25
A
SER
266
-49.33
-10.18
25
A
SER
275
-170.82
137.27
25
A
ASN
283
-159.82
74.82
25
A
ASN
292
-94.89
32.58
25
A
PRO
305
-56.41
10.09
25
A
GLN
324
58.03
142.40
26
A
ALA
184
64.21
179.24
26
A
ALA
186
-38.04
103.30
26
A
LEU
201
-86.45
-80.36
26
A
LYS
206
-51.29
-70.29
26
A
ALA
207
-166.62
-1.18
26
A
PRO
211
-34.47
-76.21
26
A
PRO
229
-46.90
-19.44
26
A
LYS
230
-27.11
-52.07
26
A
SER
266
-51.37
-6.34
26
A
SER
275
-171.53
134.14
26
A
GLU
281
-142.11
54.25
26
A
ASN
283
-167.19
85.43
26
A
ASN
288
-28.53
-56.91
26
A
ASN
292
-76.59
31.69
26
A
PRO
305
-58.54
6.08
26
A
LYS
317
-45.97
-147.62
26
A
GLN
324
-86.84
-98.61
27
A
ALA
182
177.68
-44.71
27
A
ALA
186
-173.40
47.00
27
A
LEU
201
-79.18
-79.39
27
A
ASN
203
-87.24
-75.54
27
A
LYS
206
-50.00
-87.49
27
A
ALA
207
-154.78
5.97
27
A
PRO
211
-34.94
-75.89
27
A
SER
222
-54.44
-8.21
27
A
LYS
230
-24.76
-52.35
27
A
SER
266
-51.45
-6.87
27
A
PRO
284
-56.18
105.76
27
A
ASN
288
-125.46
-58.51
27
A
ARG
296
-84.99
-70.47
27
A
PRO
305
-55.80
10.22
27
A
LYS
317
-44.50
-153.73
27
A
GLN
324
49.05
93.50
28
A
ALA
182
-176.27
-45.35
28
A
PRO
183
-59.50
72.51
28
A
ALA
184
62.23
146.76
28
A
GLU
188
-160.07
2.07
28
A
LEU
201
-66.87
-77.80
28
A
ASN
203
-98.30
-78.81
28
A
LYS
206
-53.79
-81.83
28
A
ALA
207
-157.90
58.20
28
A
PRO
211
-34.91
-77.90
28
A
GLU
212
-48.41
-19.19
28
A
SER
222
-57.14
-7.49
28
A
SER
266
-49.78
-6.85
28
A
ASN
283
-158.60
70.52
28
A
ASN
288
-126.84
-56.57
28
A
CYS
290
-98.60
36.44
28
A
ARG
296
-51.43
-76.70
28
A
PRO
305
-60.03
10.09
28
A
ARG
308
-171.86
-173.74
28
A
GLN
324
47.17
72.68
29
A
GLU
188
46.79
-130.94
29
A
LEU
201
-75.75
-78.75
29
A
ASN
203
-94.62
-78.30
29
A
LYS
206
-51.42
-71.47
29
A
ALA
207
-159.77
56.54
29
A
PRO
211
-33.22
-75.22
29
A
SER
266
-50.34
-6.28
29
A
SER
275
-172.40
129.76
29
A
PRO
305
-60.97
9.24
29
A
LYS
317
-42.45
-149.01
30
A
GLU
188
-171.02
-147.56
30
A
LEU
201
-77.60
-77.53
30
A
ASN
203
-94.37
-80.25
30
A
LYS
206
-53.15
-78.39
30
A
ALA
207
-164.36
59.11
30
A
PRO
211
-34.05
-76.77
30
A
ASP
228
-52.40
108.19
30
A
SER
266
-49.65
-7.86
30
A
ASN
292
-99.75
32.06
30
A
PRO
305
-59.63
8.20
30
A
LYS
317
-39.87
-162.80
lowest energy, model1
Solution structure of Escherichia coli Outer membrane protein A C-terminal domain
1
N
N
A
SER
198
A
SER
19
HELX_P
A
PHE
202
A
PHE
23
1
1
5
A
LYS
210
A
LYS
31
HELX_P
A
ASN
226
A
ASN
47
1
2
17
A
SER
245
A
SER
66
HELX_P
A
SER
266
A
SER
87
1
3
22
A
VAL
285
A
VAL
106
HELX_P
A
CYS
290
A
CYS
111
1
4
6
A
GLN
295
A
GLN
116
HELX_P
A
LEU
303
A
LEU
124
1
5
9
disulf
2.019
A
CYS
290
A
SG
CYS
111
1_555
A
CYS
302
A
SG
CYS
123
1_555
MEMBRANE PROTEIN
Outer membrane protein A, OmpA, MEMBRANE PROTEIN
C9QZB9_ECOD1
UNP
1
201
C9QZB9
APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS
VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA
201
346
2MQE
180
325
C9QZB9
A
1
1
146
4
anti-parallel
anti-parallel
parallel
A
LYS
192
A
LYS
13
A
LYS
197
A
LYS
18
A
ARG
308
A
ARG
129
A
LYS
314
A
LYS
135
A
SER
233
A
SER
54
A
TYR
239
A
TYR
60
A
ILE
274
A
ILE
95
A
GLY
280
A
GLY
101