1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Sunnerhagen, M.
Nilges, M.
Otting, G.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
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 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
N
1
N
N
N
2
S
C
N
3
N
C
N
4
N
O
N
5
N
C
N
6
N
O
N
7
N
H
N
8
N
H
N
9
N
H
N
10
N
H
N
11
N
H
N
12
N
H
N
13
N
H
N
14
N
N
N
15
S
C
N
16
N
C
N
17
N
O
N
18
N
C
N
19
N
C
N
20
N
C
N
21
N
N
N
22
N
C
N
23
N
N
N
24
N
N
N
25
N
O
N
26
N
H
N
27
N
H
N
28
N
H
N
29
N
H
N
30
N
H
N
31
N
H
N
32
N
H
N
33
N
H
N
34
N
H
N
35
N
H
N
36
N
H
N
37
N
H
N
38
N
H
N
39
N
H
N
40
N
H
N
41
N
N
N
42
S
C
N
43
N
C
N
44
N
O
N
45
N
C
N
46
N
C
N
47
N
O
N
48
N
N
N
49
N
O
N
50
N
H
N
51
N
H
N
52
N
H
N
53
N
H
N
54
N
H
N
55
N
H
N
56
N
H
N
57
N
H
N
58
N
N
N
59
S
C
N
60
N
C
N
61
N
O
N
62
N
C
N
63
N
C
N
64
N
O
N
65
N
O
N
66
N
O
N
67
N
H
N
68
N
H
N
69
N
H
N
70
N
H
N
71
N
H
N
72
N
H
N
73
N
H
N
74
N
N
N
75
R
C
N
76
N
C
N
77
N
O
N
78
N
C
N
79
N
S
N
80
N
O
N
81
N
H
N
82
N
H
N
83
N
H
N
84
N
H
N
85
N
H
N
86
N
H
N
87
N
H
N
88
N
N
N
89
S
C
N
90
N
C
N
91
N
O
N
92
N
C
N
93
N
C
N
94
N
C
N
95
N
O
N
96
N
N
N
97
N
O
N
98
N
H
N
99
N
H
N
100
N
H
N
101
N
H
N
102
N
H
N
103
N
H
N
104
N
H
N
105
N
H
N
106
N
H
N
107
N
H
N
108
N
N
N
109
S
C
N
110
N
C
N
111
N
O
N
112
N
C
N
113
N
C
N
114
N
C
N
115
N
O
N
116
N
O
N
117
N
O
N
118
N
H
N
119
N
H
N
120
N
H
N
121
N
H
N
122
N
H
N
123
N
H
N
124
N
H
N
125
N
H
N
126
N
H
N
127
N
N
N
128
N
C
N
129
N
C
N
130
N
O
N
131
N
O
N
132
N
H
N
133
N
H
N
134
N
H
N
135
N
H
N
136
N
H
N
137
N
N
N
138
S
C
N
139
N
C
N
140
N
O
N
141
S
C
N
142
N
C
N
143
N
C
N
144
N
C
N
145
N
O
N
146
N
H
N
147
N
H
N
148
N
H
N
149
N
H
N
150
N
H
N
151
N
H
N
152
N
H
N
153
N
H
N
154
N
H
N
155
N
H
N
156
N
H
N
157
N
H
N
158
N
H
N
159
N
N
N
160
S
C
N
161
N
C
N
162
N
O
N
163
N
C
N
164
N
C
N
165
N
C
N
166
N
C
N
167
N
O
N
168
N
H
N
169
N
H
N
170
N
H
N
171
N
H
N
172
N
H
N
173
N
H
N
174
N
H
N
175
N
H
N
176
N
H
N
177
N
H
N
178
N
H
N
179
N
H
N
180
N
H
N
181
N
N
N
182
S
C
N
183
N
C
N
184
N
O
N
185
N
C
N
186
N
C
N
187
N
C
N
188
N
C
N
189
N
N
N
190
N
O
N
191
N
H
N
192
N
H
N
193
N
H
N
194
N
H
N
195
N
H
N
196
N
H
N
197
N
H
N
198
N
H
N
199
N
H
N
200
N
H
N
201
N
H
N
202
N
H
N
203
N
H
N
204
N
H
N
205
N
H
N
206
N
N
N
207
S
C
N
208
N
C
N
209
N
O
N
210
N
C
N
211
N
C
N
212
N
S
N
213
N
C
N
214
N
O
N
215
N
H
N
216
N
H
N
217
N
H
N
218
N
H
N
219
N
H
N
220
N
H
N
221
N
H
N
222
N
H
N
223
N
H
N
224
N
H
N
225
N
H
N
226
N
N
N
227
S
C
N
228
N
C
N
229
N
O
N
230
N
C
Y
231
N
C
Y
232
N
C
Y
233
N
C
Y
234
N
C
Y
235
N
C
Y
236
N
C
N
237
N
O
N
238
N
H
N
239
N
H
N
240
N
H
N
241
N
H
N
242
N
H
N
243
N
H
N
244
N
H
N
245
N
H
N
246
N
H
N
247
N
H
N
248
N
H
N
249
N
N
N
250
S
C
N
251
N
C
N
252
N
O
N
253
N
C
N
254
N
C
N
255
N
C
N
256
N
O
N
257
N
H
N
258
N
H
N
259
N
H
N
260
N
H
N
261
N
H
N
262
N
H
N
263
N
H
N
264
N
H
N
265
N
H
N
266
N
N
N
267
S
C
N
268
N
C
N
269
N
O
N
270
N
C
N
271
N
O
N
272
N
O
N
273
N
H
N
274
N
H
N
275
N
H
N
276
N
H
N
277
N
H
N
278
N
H
N
279
N
H
N
280
N
N
N
281
S
C
N
282
N
C
N
283
N
O
N
284
R
C
N
285
N
O
N
286
N
C
N
287
N
O
N
288
N
H
N
289
N
H
N
290
N
H
N
291
N
H
N
292
N
H
N
293
N
H
N
294
N
H
N
295
N
H
N
296
N
H
N
297
N
N
N
298
S
C
N
299
N
C
N
300
N
O
N
301
N
C
Y
302
N
C
Y
303
N
C
Y
304
N
C
Y
305
N
C
Y
306
N
C
Y
307
N
C
N
308
N
O
N
309
N
O
N
310
N
H
N
311
N
H
N
312
N
H
N
313
N
H
N
314
N
H
N
315
N
H
N
316
N
H
N
317
N
H
N
318
N
H
N
319
N
H
N
320
N
H
N
321
N
N
N
322
S
C
N
323
N
C
N
324
N
O
N
325
N
C
N
326
N
C
N
327
N
C
N
328
N
O
N
329
N
H
N
330
N
H
N
331
N
H
N
332
N
H
N
333
N
H
N
334
N
H
N
335
N
H
N
336
N
H
N
337
N
H
N
338
N
H
N
339
N
H
N
1
N
sing
N
2
N
sing
N
3
N
sing
N
4
N
sing
N
5
N
sing
N
6
N
sing
N
7
N
doub
N
8
N
sing
N
9
N
sing
N
10
N
sing
N
11
N
sing
N
12
N
sing
N
13
N
sing
N
14
N
sing
N
15
N
sing
N
16
N
sing
N
17
N
sing
N
18
N
sing
N
19
N
doub
N
20
N
sing
N
21
N
sing
N
22
N
sing
N
23
N
sing
N
24
N
sing
N
25
N
sing
N
26
N
sing
N
27
N
sing
N
28
N
sing
N
29
N
sing
N
30
N
sing
N
31
N
sing
N
32
N
sing
N
33
N
doub
N
34
N
sing
N
35
N
sing
N
36
N
sing
N
37
N
sing
N
38
N
sing
N
39
N
sing
N
40
N
sing
N
41
N
sing
N
42
N
sing
N
43
N
sing
N
44
N
sing
N
45
N
doub
N
46
N
sing
N
47
N
sing
N
48
N
sing
N
49
N
sing
N
50
N
doub
N
51
N
sing
N
52
N
sing
N
53
N
sing
N
54
N
sing
N
55
N
sing
N
56
N
sing
N
57
N
sing
N
58
N
sing
N
59
N
sing
N
60
N
sing
N
61
N
doub
N
62
N
sing
N
63
N
sing
N
64
N
sing
N
65
N
sing
N
66
N
doub
N
67
N
sing
N
68
N
sing
N
69
N
sing
N
70
N
sing
N
71
N
sing
N
72
N
sing
N
73
N
sing
N
74
N
sing
N
75
N
sing
N
76
N
doub
N
77
N
sing
N
78
N
sing
N
79
N
sing
N
80
N
sing
N
81
N
sing
N
82
N
sing
N
83
N
sing
N
84
N
sing
N
85
N
sing
N
86
N
sing
N
87
N
sing
N
88
N
sing
N
89
N
doub
N
90
N
sing
N
91
N
sing
N
92
N
sing
N
93
N
sing
N
94
N
sing
N
95
N
sing
N
96
N
sing
N
97
N
doub
N
98
N
sing
N
99
N
sing
N
100
N
sing
N
101
N
sing
N
102
N
sing
N
103
N
sing
N
104
N
sing
N
105
N
sing
N
106
N
sing
N
107
N
sing
N
108
N
doub
N
109
N
sing
N
110
N
sing
N
111
N
sing
N
112
N
sing
N
113
N
sing
N
114
N
sing
N
115
N
sing
N
116
N
doub
N
117
N
sing
N
118
N
sing
N
119
N
sing
N
120
N
sing
N
121
N
sing
N
122
N
sing
N
123
N
sing
N
124
N
sing
N
125
N
sing
N
126
N
doub
N
127
N
sing
N
128
N
sing
N
129
N
sing
N
130
N
sing
N
131
N
sing
N
132
N
sing
N
133
N
sing
N
134
N
sing
N
135
N
doub
N
136
N
sing
N
137
N
sing
N
138
N
sing
N
139
N
sing
N
140
N
sing
N
141
N
sing
N
142
N
sing
N
143
N
sing
N
144
N
sing
N
145
N
sing
N
146
N
sing
N
147
N
sing
N
148
N
sing
N
149
N
sing
N
150
N
sing
N
151
N
sing
N
152
N
sing
N
153
N
sing
N
154
N
sing
N
155
N
sing
N
156
N
doub
N
157
N
sing
N
158
N
sing
N
159
N
sing
N
160
N
sing
N
161
N
sing
N
162
N
sing
N
163
N
sing
N
164
N
sing
N
165
N
sing
N
166
N
sing
N
167
N
sing
N
168
N
sing
N
169
N
sing
N
170
N
sing
N
171
N
sing
N
172
N
sing
N
173
N
sing
N
174
N
sing
N
175
N
sing
N
176
N
sing
N
177
N
doub
N
178
N
sing
N
179
N
sing
N
180
N
sing
N
181
N
sing
N
182
N
sing
N
183
N
sing
N
184
N
sing
N
185
N
sing
N
186
N
sing
N
187
N
sing
N
188
N
sing
N
189
N
sing
N
190
N
sing
N
191
N
sing
N
192
N
sing
N
193
N
sing
N
194
N
sing
N
195
N
sing
N
196
N
sing
N
197
N
sing
N
198
N
sing
N
199
N
sing
N
200
N
sing
N
201
N
doub
N
202
N
sing
N
203
N
sing
N
204
N
sing
N
205
N
sing
N
206
N
sing
N
207
N
sing
N
208
N
sing
N
209
N
sing
N
210
N
sing
N
211
N
sing
N
212
N
sing
N
213
N
sing
N
214
N
sing
N
215
N
sing
N
216
N
sing
N
217
N
sing
N
218
N
sing
N
219
N
sing
N
220
N
doub
N
221
N
sing
N
222
N
sing
N
223
N
sing
N
224
N
sing
Y
225
N
doub
Y
226
N
sing
Y
227
N
sing
N
228
N
sing
Y
229
N
doub
N
230
N
sing
Y
231
N
doub
N
232
N
sing
Y
233
N
sing
N
234
N
sing
N
235
N
sing
N
236
N
sing
N
237
N
sing
N
238
N
sing
N
239
N
sing
N
240
N
sing
N
241
N
sing
N
242
N
sing
N
243
N
doub
N
244
N
sing
N
245
N
sing
N
246
N
sing
N
247
N
sing
N
248
N
sing
N
249
N
sing
N
250
N
sing
N
251
N
sing
N
252
N
sing
N
253
N
sing
N
254
N
sing
N
255
N
sing
N
256
N
sing
N
257
N
sing
N
258
N
sing
N
259
N
sing
N
260
N
doub
N
261
N
sing
N
262
N
sing
N
263
N
sing
N
264
N
sing
N
265
N
sing
N
266
N
sing
N
267
N
sing
N
268
N
sing
N
269
N
sing
N
270
N
sing
N
271
N
sing
N
272
N
sing
N
273
N
doub
N
274
N
sing
N
275
N
sing
N
276
N
sing
N
277
N
sing
N
278
N
sing
N
279
N
sing
N
280
N
sing
N
281
N
sing
N
282
N
sing
N
283
N
sing
N
284
N
sing
N
285
N
sing
N
286
N
sing
N
287
N
sing
N
288
N
sing
N
289
N
doub
N
290
N
sing
N
291
N
sing
N
292
N
sing
N
293
N
sing
Y
294
N
doub
Y
295
N
sing
Y
296
N
sing
N
297
N
sing
Y
298
N
doub
N
299
N
sing
Y
300
N
doub
N
301
N
sing
Y
302
N
sing
N
303
N
sing
N
304
N
sing
N
305
N
sing
N
306
N
sing
N
307
N
sing
N
308
N
sing
N
309
N
sing
N
310
N
sing
N
311
N
sing
N
312
N
sing
N
313
N
doub
N
314
N
sing
N
315
N
sing
N
316
N
sing
N
317
N
sing
N
318
N
sing
N
319
N
sing
N
320
N
sing
N
321
N
sing
N
322
N
sing
N
323
N
sing
N
324
N
sing
US
Nat.Struct.Biol.
NSBIEW
2024
1072-8368
4
819
826
10.1038/nsb1097-819
9334747
Solution structure of the DNA-binding domain and model for the complex of multifunctional hexameric arginine repressor with DNA.
1997
10.2210/pdb1aoy/pdb
pdb_00001aoy
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
8722.121
ARGININE REPRESSOR
N-TERMINAL
1
man
polymer
no
no
MRSSAKQEELVKAFKALLKEEKFSSQGEIVAALQEQGFDNINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTT
MRSSAKQEELVKAFKALLKEEKFSSQGEIVAALQEQGFDNINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTT
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
Escherichia
Escherichia coli
K12
Escherichia
sample
BL21
83333
Escherichia coli
562
Escherichia coli
X90 (DE3) AND BL21 (DE3) ARG
T7
PET3A
PET
BL21
chem_comp_atom
chem_comp_bond
database_2
pdbx_database_status
struct_keywords
repository
Initial release
Version format compliance
Source and taxonomy
Version format compliance
Data collection
Database references
Other
Structure summary
1
0
1997-09-17
1
1
2008-03-24
1
2
2011-07-13
1
3
2024-04-10
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.process_site
_struct_keywords.text
Y
BNL
1997-07-14
REL
REL
LOWEST ENERGY
75
23
2QF-COSY
3QF-COSY
E-COSY
CLEAN TOCSY
NOESY
HNHB
13C-HMBC
TOCSY-15N-HSQC
NOESY-15N-HSQC
3D HNCO
5.8
301
K
STRUCTURES WERE CALCULATED WITH A MODIFIED VERSION OF X-PLOR WITH A SIMULATED ANNEALING PROTOCOL. AN AUTOMATED PROCEDURE (ARIA) WAS USED TO AUTOMATICALLY CALIBRATE, SELECT AND ASSIGN PEAK LISTS FROM HOMONUCLEAR H2O AND D2O AND N15-EDITED 3D NOESY SPECTRA. 20 STRUCTURES WERE ITERATIVELY REFINED, AND THE NOE DATA RE-ASSIGNED ON THE BASIS OF THE 7 LOWEST ENERGY STRUCTURES IN EACH ITERATION. THE AUTOMATICALLY GENERATED ASSIGNMENTS WERE CHECKED MANUALLY AND CORRECTED IF NECESSARY. THE FINAL LIST OF RESTRAINTS CONTAINED 2008 UNAMBIGUOUS RESTRAINTS AND 280 AMBIGUOUS RESTRAINTS WITH MAXIMALLY 5 ASSIGNMENT POSSIBILITIES. WITH THE FINAL RESTRAINT LIST, A TOTAL OF 75 STRUCTURES WERE CALCULATED. THE 23 STRUCTURES WITH THE LOWEST TOTAL ENERGY WERE REFINED IN AN EXPLICIT SHELL OF WATER. THE STRUCTURAL STATISTICS GIVEN BELOW ARE FOR THE STRUCTURES AFTER THE REFINEMENT IN WATER. REFINEMENT DETAILS CAN BE FOUND IN THE JRNL REFERENCE ABOVE. THE 23 DEPOSITED STRUCTURES ARE IN ORDER OF RISING RESTRAINT ENERGY AFTER WATER REFINEMENT. NOES TO ALL PROCHIRAL GROUPS WERE TREATED WITH A FLOATING CHIRALITY APPROACH THAT ALLOWS EXPLICIT SWAPPING OF PROTONS AND METHYL GROUPS; THE ATOM NAMES IN THE COORDINATE ENTRY HAVE BEEN RENAMED TO BE CONSISTENT WITH STANDARD IUB/IUPAC CONVENTION.
simulated annealing
BRUNGER (MODIFICATIONS: NILGES)
refinement
X-PLOR (MODIFIED)
(MODIFIED)
structure solution
X-PLOR
600
Bruker
DMX600
MET
1
n
1
MET
1
A
ARG
2
n
2
ARG
2
A
SER
3
n
3
SER
3
A
SER
4
n
4
SER
4
A
ALA
5
n
5
ALA
5
A
LYS
6
n
6
LYS
6
A
GLN
7
n
7
GLN
7
A
GLU
8
n
8
GLU
8
A
GLU
9
n
9
GLU
9
A
LEU
10
n
10
LEU
10
A
VAL
11
n
11
VAL
11
A
LYS
12
n
12
LYS
12
A
ALA
13
n
13
ALA
13
A
PHE
14
n
14
PHE
14
A
LYS
15
n
15
LYS
15
A
ALA
16
n
16
ALA
16
A
LEU
17
n
17
LEU
17
A
LEU
18
n
18
LEU
18
A
LYS
19
n
19
LYS
19
A
GLU
20
n
20
GLU
20
A
GLU
21
n
21
GLU
21
A
LYS
22
n
22
LYS
22
A
PHE
23
n
23
PHE
23
A
SER
24
n
24
SER
24
A
SER
25
n
25
SER
25
A
GLN
26
n
26
GLN
26
A
GLY
27
n
27
GLY
27
A
GLU
28
n
28
GLU
28
A
ILE
29
n
29
ILE
29
A
VAL
30
n
30
VAL
30
A
ALA
31
n
31
ALA
31
A
ALA
32
n
32
ALA
32
A
LEU
33
n
33
LEU
33
A
GLN
34
n
34
GLN
34
A
GLU
35
n
35
GLU
35
A
GLN
36
n
36
GLN
36
A
GLY
37
n
37
GLY
37
A
PHE
38
n
38
PHE
38
A
ASP
39
n
39
ASP
39
A
ASN
40
n
40
ASN
40
A
ILE
41
n
41
ILE
41
A
ASN
42
n
42
ASN
42
A
GLN
43
n
43
GLN
43
A
SER
44
n
44
SER
44
A
LYS
45
n
45
LYS
45
A
VAL
46
n
46
VAL
46
A
SER
47
n
47
SER
47
A
ARG
48
n
48
ARG
48
A
MET
49
n
49
MET
49
A
LEU
50
n
50
LEU
50
A
THR
51
n
51
THR
51
A
LYS
52
n
52
LYS
52
A
PHE
53
n
53
PHE
53
A
GLY
54
n
54
GLY
54
A
ALA
55
n
55
ALA
55
A
VAL
56
n
56
VAL
56
A
ARG
57
n
57
ARG
57
A
THR
58
n
58
THR
58
A
ARG
59
n
59
ARG
59
A
ASN
60
n
60
ASN
60
A
ALA
61
n
61
ALA
61
A
LYS
62
n
62
LYS
62
A
MET
63
n
63
MET
63
A
GLU
64
n
64
GLU
64
A
MET
65
n
65
MET
65
A
VAL
66
n
66
VAL
66
A
TYR
67
n
67
TYR
67
A
CYS
68
n
68
CYS
68
A
LEU
69
n
69
LEU
69
A
PRO
70
n
70
PRO
70
A
ALA
71
n
71
ALA
71
A
GLU
72
n
72
GLU
72
A
LEU
73
n
73
LEU
73
A
GLY
74
n
74
GLY
74
A
VAL
75
n
75
VAL
75
A
PRO
76
n
76
PRO
76
A
THR
77
n
77
THR
77
A
THR
78
n
78
THR
78
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
O
VAL
56
A
O
VAL
56
A
N
CYS
68
A
N
CYS
68
5
A
A
HZ1
OE1
LYS
GLU
19
72
1.59
5
A
A
HZ1
OE2
LYS
GLU
15
72
1.59
1
A
SER
3
-102.32
77.00
1
A
GLN
7
-81.93
37.37
1
A
GLU
21
61.55
72.75
1
A
LYS
22
-140.27
-41.88
1
A
PRO
70
-73.66
-154.38
1
A
GLU
72
-45.80
106.07
1
A
THR
77
-164.85
-37.35
2
A
ARG
2
-100.75
43.14
2
A
SER
3
72.47
-59.26
2
A
LYS
6
-69.57
98.82
2
A
GLU
8
-80.92
36.94
2
A
GLU
21
61.74
80.01
2
A
LYS
22
-142.15
-53.00
2
A
ASN
40
92.77
54.88
2
A
LYS
62
-99.73
32.40
2
A
PRO
70
-67.68
-140.27
2
A
GLU
72
-58.21
109.90
3
A
ARG
2
-75.52
-95.10
3
A
GLU
21
61.59
63.54
3
A
ASN
40
-116.44
66.46
3
A
GLU
72
-31.15
108.40
3
A
THR
77
-161.10
55.82
4
A
ARG
2
61.32
62.51
4
A
SER
3
-118.11
75.81
4
A
GLU
21
63.64
81.00
4
A
LYS
22
-139.18
-55.74
4
A
ASN
60
-83.38
-154.96
4
A
PRO
70
-66.09
-159.13
4
A
GLU
72
-46.70
104.69
4
A
LEU
73
-83.87
47.43
5
A
SER
3
66.34
88.87
5
A
ALA
5
-155.55
59.25
5
A
GLU
21
61.95
72.63
5
A
LYS
22
-137.76
-53.32
5
A
ASN
40
94.95
50.76
5
A
PRO
70
-70.53
-149.46
5
A
GLU
72
-39.87
128.18
5
A
PRO
76
-71.34
27.05
6
A
ALA
5
-159.80
78.11
6
A
GLU
21
64.58
66.97
6
A
LYS
22
-130.12
-53.75
6
A
ASN
40
-99.26
32.25
6
A
ALA
71
-49.67
101.12
6
A
GLU
72
52.33
75.25
6
A
THR
77
-152.90
-158.74
7
A
GLN
7
-76.72
33.62
7
A
LYS
22
-142.00
38.72
7
A
PRO
70
-66.78
-146.04
7
A
ALA
71
-75.41
-152.13
7
A
THR
77
-78.12
21.52
8
A
GLU
8
-80.62
33.94
8
A
ASN
40
76.68
38.76
8
A
ASN
60
-89.02
-146.78
8
A
LYS
62
-115.65
53.33
8
A
PRO
70
-73.79
-152.28
8
A
GLU
72
-57.57
107.71
8
A
PRO
76
-44.70
100.19
9
A
ARG
2
70.03
105.94
9
A
SER
4
71.88
46.60
9
A
LYS
6
63.67
140.58
9
A
GLU
21
61.52
80.50
9
A
LYS
22
-141.45
-50.30
9
A
GLU
72
61.20
93.17
10
A
ALA
5
-118.69
56.14
10
A
GLU
21
61.33
72.30
10
A
LYS
22
-138.50
-48.10
10
A
ASN
40
46.39
17.30
10
A
GLU
72
55.04
73.56
10
A
VAL
75
72.97
93.68
10
A
THR
77
-169.68
-167.35
11
A
ARG
2
-161.17
77.78
11
A
ALA
5
-173.21
-60.94
11
A
GLU
8
-81.34
34.27
11
A
LYS
22
-140.47
24.41
11
A
ASN
60
-86.19
-152.45
11
A
PRO
70
-63.44
-139.39
11
A
ALA
71
-68.72
-162.46
12
A
ARG
2
63.95
86.72
12
A
GLN
7
-80.33
33.10
12
A
GLU
21
61.29
73.68
12
A
LYS
22
-141.53
-53.87
12
A
ASN
40
90.86
31.78
12
A
ASN
60
-78.58
-168.46
12
A
PRO
70
-62.63
-159.37
12
A
VAL
75
70.99
110.12
13
A
GLU
8
-75.17
31.57
13
A
GLU
21
65.76
75.62
13
A
LYS
22
-140.68
-60.31
13
A
ASN
40
-150.73
61.96
13
A
ASN
60
-105.73
-158.77
13
A
PRO
70
-60.03
-164.14
13
A
ALA
71
-78.37
-142.58
13
A
GLU
72
-65.45
97.42
13
A
THR
77
-174.30
54.82
14
A
ALA
5
-166.01
118.79
14
A
GLU
8
-69.12
1.18
14
A
GLU
21
61.92
70.88
14
A
LYS
22
-140.52
-50.60
14
A
ASN
40
-80.32
45.01
14
A
ASN
60
-93.79
-151.95
14
A
PRO
70
-61.61
-144.22
14
A
GLU
72
48.37
79.40
15
A
ARG
2
-163.10
-42.38
15
A
SER
3
-157.52
-54.65
15
A
ALA
5
70.83
-69.15
15
A
GLU
21
63.72
72.32
15
A
LYS
22
-140.33
-49.70
15
A
ASN
40
95.21
38.45
15
A
ASN
60
-86.73
-147.13
15
A
PRO
70
-84.72
-156.97
15
A
GLU
72
-55.80
106.79
16
A
LYS
6
49.39
83.90
16
A
GLU
21
59.71
78.37
16
A
LYS
22
-141.89
-49.30
16
A
ASN
40
-97.92
55.63
16
A
ALA
61
-69.20
4.53
16
A
PRO
70
-58.18
-136.34
16
A
ALA
71
-65.35
-158.91
17
A
SER
3
52.28
-131.67
17
A
LYS
19
-67.68
6.66
17
A
GLU
21
60.56
70.01
17
A
LYS
22
-140.31
-51.24
17
A
ASN
40
90.01
30.21
17
A
ASN
60
-87.99
-159.62
17
A
PRO
70
-64.83
-147.98
17
A
GLU
72
-65.62
87.99
17
A
THR
77
-147.39
53.08
18
A
SER
4
66.05
69.91
18
A
LYS
22
-140.68
-21.15
18
A
ASN
40
84.77
46.37
18
A
PRO
70
-66.32
-155.40
18
A
GLU
72
-26.30
99.66
19
A
SER
3
-173.14
74.06
19
A
ALA
5
-145.80
-40.02
19
A
GLU
21
60.26
73.72
19
A
LYS
22
-137.19
-45.80
19
A
ASN
40
85.08
35.10
19
A
PRO
70
-64.92
-158.88
19
A
ALA
71
-78.36
46.17
19
A
GLU
72
60.37
97.46
19
A
VAL
75
73.78
107.34
20
A
GLU
21
68.07
78.63
20
A
LYS
22
-141.21
-55.09
20
A
ASN
40
-109.38
61.42
20
A
PRO
70
-64.81
-156.21
20
A
ALA
71
-63.62
-177.06
20
A
THR
77
-144.94
59.19
21
A
ARG
2
76.90
-63.30
21
A
GLU
21
61.34
72.94
21
A
LYS
22
-140.67
-35.37
21
A
ASN
40
101.56
21.76
21
A
PRO
70
-76.33
-157.63
21
A
GLU
72
-37.19
106.69
22
A
SER
3
66.06
66.70
22
A
ALA
5
72.06
-72.43
22
A
GLU
8
-68.06
5.70
22
A
ASN
40
-79.44
45.52
22
A
MET
65
-68.47
97.46
22
A
PRO
70
-64.28
-161.82
22
A
LEU
73
64.37
77.60
22
A
PRO
76
-79.94
49.80
22
A
THR
77
-171.02
-152.35
23
A
SER
3
61.04
66.64
23
A
ALA
5
-157.48
83.10
23
A
GLU
8
-79.71
35.57
23
A
GLU
9
-145.32
-29.83
23
A
GLU
21
62.91
64.62
23
A
LYS
22
-140.87
27.33
23
A
ASN
60
-102.81
-162.64
23
A
PRO
70
-79.21
-73.82
23
A
LEU
73
-107.86
-125.24
model building
X-PLOR
refinement
X-PLOR
phasing
X-PLOR
N-TERMINAL DOMAIN OF ESCHERICHIA COLI ARGININE REPRESSOR NMR, 23 STRUCTURES
1
Y
N
A
LEU
10
A
LEU
10
HELX_P
A
LYS
19
A
LYS
19
1
1
10
A
GLN
26
A
GLN
26
HELX_P
A
GLN
36
A
GLN
36
1
2
11
A
GLN
43
A
GLN
43
HELX_P
A
PHE
53
A
PHE
53
1
3
11
DNA BINDING PROTEIN
DNA-BINDING PROTEIN, EXPRESSION REGULATION, DNA ORGANIZATION, WINGED HELIX, DNA BINDING PROTEIN
ARGR_ECOLI
UNP
1
1
P0A6D0
MRSSAKQEELVKAFKALLKEEKFSSQGEIVAALQEQGFDNINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTTSS
PLKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELFDQEL
1
78
1AOY
1
78
P0A6D0
A
1
1
78
2
anti-parallel
A
ALA
55
A
ALA
55
A
ARG
59
A
ARG
59
A
MET
65
A
MET
65
A
LEU
69
A
LEU
69
1
P 1