1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Liu, Z.
Macias, M.J.
Bottomley, M.J.
Stier, G.
Linge, J.P.
Nilges, M.
Bork, P.
Sattler, M.
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
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
S
C
N
76
N
C
N
77
N
O
N
78
N
C
N
79
N
C
N
80
N
C
N
81
N
O
N
82
N
O
N
83
N
O
N
84
N
H
N
85
N
H
N
86
N
H
N
87
N
H
N
88
N
H
N
89
N
H
N
90
N
H
N
91
N
H
N
92
N
H
N
93
N
N
N
94
N
C
N
95
N
C
N
96
N
O
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
N
N
104
S
C
N
105
N
C
N
106
N
O
N
107
S
C
N
108
N
C
N
109
N
C
N
110
N
C
N
111
N
O
N
112
N
H
N
113
N
H
N
114
N
H
N
115
N
H
N
116
N
H
N
117
N
H
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
N
N
126
S
C
N
127
N
C
N
128
N
O
N
129
N
C
N
130
N
C
N
131
N
C
N
132
N
C
N
133
N
O
N
134
N
H
N
135
N
H
N
136
N
H
N
137
N
H
N
138
N
H
N
139
N
H
N
140
N
H
N
141
N
H
N
142
N
H
N
143
N
H
N
144
N
H
N
145
N
H
N
146
N
H
N
147
N
N
N
148
S
C
N
149
N
C
N
150
N
O
N
151
N
C
N
152
N
C
N
153
N
C
N
154
N
C
N
155
N
N
N
156
N
O
N
157
N
H
N
158
N
H
N
159
N
H
N
160
N
H
N
161
N
H
N
162
N
H
N
163
N
H
N
164
N
H
N
165
N
H
N
166
N
H
N
167
N
H
N
168
N
H
N
169
N
H
N
170
N
H
N
171
N
H
N
172
N
N
N
173
S
C
N
174
N
C
N
175
N
O
N
176
N
C
N
177
N
C
N
178
N
S
N
179
N
C
N
180
N
O
N
181
N
H
N
182
N
H
N
183
N
H
N
184
N
H
N
185
N
H
N
186
N
H
N
187
N
H
N
188
N
H
N
189
N
H
N
190
N
H
N
191
N
H
N
192
N
N
N
193
S
C
N
194
N
C
N
195
N
O
N
196
N
C
Y
197
N
C
Y
198
N
C
Y
199
N
C
Y
200
N
C
Y
201
N
C
Y
202
N
C
N
203
N
O
N
204
N
H
N
205
N
H
N
206
N
H
N
207
N
H
N
208
N
H
N
209
N
H
N
210
N
H
N
211
N
H
N
212
N
H
N
213
N
H
N
214
N
H
N
215
N
N
N
216
S
C
N
217
N
C
N
218
N
O
N
219
N
C
N
220
N
C
N
221
N
C
N
222
N
O
N
223
N
H
N
224
N
H
N
225
N
H
N
226
N
H
N
227
N
H
N
228
N
H
N
229
N
H
N
230
N
H
N
231
N
H
N
232
N
N
N
233
S
C
N
234
N
C
N
235
N
O
N
236
N
C
N
237
N
O
N
238
N
O
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
N
N
247
S
C
N
248
N
C
N
249
N
O
N
250
R
C
N
251
N
O
N
252
N
C
N
253
N
O
N
254
N
H
N
255
N
H
N
256
N
H
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
N
N
264
S
C
N
265
N
C
N
266
N
O
N
267
N
C
Y
268
N
C
Y
269
N
C
Y
270
N
C
Y
271
N
C
Y
272
N
C
Y
273
N
C
N
274
N
O
N
275
N
O
N
276
N
H
N
277
N
H
N
278
N
H
N
279
N
H
N
280
N
H
N
281
N
H
N
282
N
H
N
283
N
H
N
284
N
H
N
285
N
H
N
286
N
H
N
287
N
N
N
288
S
C
N
289
N
C
N
290
N
O
N
291
N
C
N
292
N
C
N
293
N
C
N
294
N
O
N
295
N
H
N
296
N
H
N
297
N
H
N
298
N
H
N
299
N
H
N
300
N
H
N
301
N
H
N
302
N
H
N
303
N
H
N
304
N
H
N
305
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
doub
N
85
N
sing
N
86
N
sing
N
87
N
sing
N
88
N
sing
N
89
N
sing
N
90
N
sing
N
91
N
sing
N
92
N
sing
N
93
N
sing
N
94
N
doub
N
95
N
sing
N
96
N
sing
N
97
N
sing
N
98
N
sing
N
99
N
sing
N
100
N
sing
N
101
N
sing
N
102
N
sing
N
103
N
doub
N
104
N
sing
N
105
N
sing
N
106
N
sing
N
107
N
sing
N
108
N
sing
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
sing
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
doub
N
125
N
sing
N
126
N
sing
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
sing
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
doub
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
sing
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
doub
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
sing
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
doub
N
189
N
sing
N
190
N
sing
N
191
N
sing
N
192
N
sing
Y
193
N
doub
Y
194
N
sing
Y
195
N
sing
N
196
N
sing
Y
197
N
doub
N
198
N
sing
Y
199
N
doub
N
200
N
sing
Y
201
N
sing
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
doub
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
sing
N
221
N
sing
N
222
N
sing
N
223
N
sing
N
224
N
sing
N
225
N
sing
N
226
N
sing
N
227
N
sing
N
228
N
doub
N
229
N
sing
N
230
N
sing
N
231
N
sing
N
232
N
sing
N
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
doub
N
242
N
sing
N
243
N
sing
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
doub
N
258
N
sing
N
259
N
sing
N
260
N
sing
N
261
N
sing
Y
262
N
doub
Y
263
N
sing
Y
264
N
sing
N
265
N
sing
Y
266
N
doub
N
267
N
sing
Y
268
N
doub
N
269
N
sing
Y
270
N
sing
N
271
N
sing
N
272
N
sing
N
273
N
sing
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
doub
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
sing
N
290
N
sing
N
291
N
sing
N
292
N
sing
UK
Structure Fold.Des.
FODEFH
1263
0969-2126
7
1557
1566
10.1016/S0969-2126(00)88346-X
10647186
The three-dimensional structure of the HRDC domain and implications for the Werner and Bloom syndrome proteins.
1999
10.2210/pdb1d8b/pdb
pdb_00001d8b
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
9385.962
SGS1 RECQ HELICASE
HRDC DOMAIN
1
man
polymer
no
no
ELNNLRMTYERLRELSLNLGNRMVPPVGNFMPDSILKKMAAILPMNDSAFATLGTVEDKYRRRFKYFKATIADLSKKRSS
E
ELNNLRMTYERLRELSLNLGNRMVPPVGNFMPDSILKKMAAILPMNDSAFATLGTVEDKYRRRFKYFKATIADLSKKRSS
E
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
baker's yeast
Saccharomyces
Escherichia
sample
4932
Saccharomyces cerevisiae
562
Escherichia coli
MODIFIED PET9D
database_2
pdbx_nmr_exptl_sample_conditions
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
chem_comp_atom
chem_comp_bond
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
Experimental preparation
Data collection
1
0
2000-01-10
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-16
1
4
2024-05-22
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_exptl_sample_conditions.pressure_units
_pdbx_nmr_software.name
RCSB
Y
RCSB
1999-10-21
REL
REL
STRUCTURES WITH ACCEPTABLE COVALENT GEOMETRY, STRUCTURES WITH FAVORABLE NON- BOND ENERGY
100
15
3D_13C-SEPARATED_NOESY
3D_15N-SEPARATED_NOESY
20 mM SODIUM PHOSPHATE
6.5
1
bar
295
K
STARTING WITH AN ALMOST COMPLETE LIST OF CHEMICAL SHIFTS, THE PROGRAM ARIA ( AMBIGUOUS RESTRAINTS IN ITERATIVE ASSIGNMENT) CALIBRATES NOES, MERGES THE OBTAINED AMBIGUOUS DISTANCE RESTRAINTS FROM DIFFERENT NOE SPECTRA AND ASSIGNS THE NOE PEAKS IN AN ITERATIVE MANNER. FROM A TOTAL OF 1890 NOES ABOUT 85% WERE MANUALLY ASSIGNED, THE REMAINDER WAS ASSIGNED BY ARIA. FLOATING POINT CHIRALITY ASSIGNMENT WAS USED DURING THE STRUCTURE CALCULATION IN ORDER TO OBTAIN STEREOSPECIFIC ASSIGNMENTS FOR METHYL AND METHYLENE GROUPS. THEREFORE, SOME METHYL AND METHYLENE CARBON/PROTON ATOM NAMES IN THE RESTRAINT FILES MIGHT BE INCONSISTENT COMPARED TO THOSE IN THE COORIDINATE FILES. THE DEPOSITED STRUCTURES HAVE BEEN WATER-REFINED AS DESCRIBED IN THE PUBLICATION. PSI REFINEMENT: THE STRUCTURES HAVE BEEN DIRECTLY REFINED AGAINST CROSS- CORRELATED RELAXATION RATES (C-ALPHA-H-ALPHA DIPOLE, CO CSA) AND THE THREE- BOND H/D ISOTOPE EFFECT ON THE C-ALPHA CHEMICAL SHIFT. "REFINEMENT OF THE PROTEIN BACKBONE ANGLE PSI IN NMR STRUCTURE CALCULATIONS." SPRANGERS, BOTTOMLEY, LINGE, SCHULTZ, NILGES, SATTLER.
ARIA (AMBIGUOUS RESTRAINTS IN ITERATIVE ASSIGNMENTS) AMBIGUOUS DISTANCE RESTRAINTS SIMULATED ANNEALING WITH TORSION ANGLE DYNAMICS
1
lowest energy
13C-15N-LABELED SAMPLE
20 mM sodium phosphate buffer
15N-LABELED SAMPLE
20 mM sodium phosphate buffer
DELAGLIO
processing
NMRPipe
1.7
BARTELS, XIA, BILLETER, GUENTERT, WUETHRICH
data analysis
XEASY
1.3.13
LINGE, O'DONOGHUE, NILGES
structure solution
ARIA
0.9
LINGE, O'DONOGHUE, NILGES
iterative matrix relaxation
ARIA
0.9
BRUNGER, ADAMS, CLORE, DELANO, GROS, GROSSE-KUNSTLEVE, JIANG, KUSZEWSKI, NILGES, PANNU, READ, RICE, SIMONSON, WARREN
structure solution
CNS
0.9
BRUNGER, ADAMS, CLORE, DELANO, GROS, GROSSE-KUNSTLEVE, JIANG, KUSZEWSKI, NILGES, PANNU, READ, RICE, SIMONSON, WARREN
refinement
CNS
0.9
500
Bruker
DRX
600
Bruker
DRX
GLU
11
n
1
GLU
11
A
LEU
12
n
2
LEU
12
A
ASN
13
n
3
ASN
13
A
ASN
14
n
4
ASN
14
A
LEU
15
n
5
LEU
15
A
ARG
16
n
6
ARG
16
A
MET
17
n
7
MET
17
A
THR
18
n
8
THR
18
A
TYR
19
n
9
TYR
19
A
GLU
20
n
10
GLU
20
A
ARG
21
n
11
ARG
21
A
LEU
22
n
12
LEU
22
A
ARG
23
n
13
ARG
23
A
GLU
24
n
14
GLU
24
A
LEU
25
n
15
LEU
25
A
SER
26
n
16
SER
26
A
LEU
27
n
17
LEU
27
A
ASN
28
n
18
ASN
28
A
LEU
29
n
19
LEU
29
A
GLY
30
n
20
GLY
30
A
ASN
31
n
21
ASN
31
A
ARG
32
n
22
ARG
32
A
MET
33
n
23
MET
33
A
VAL
34
n
24
VAL
34
A
PRO
35
n
25
PRO
35
A
PRO
36
n
26
PRO
36
A
VAL
37
n
27
VAL
37
A
GLY
38
n
28
GLY
38
A
ASN
39
n
29
ASN
39
A
PHE
40
n
30
PHE
40
A
MET
41
n
31
MET
41
A
PRO
42
n
32
PRO
42
A
ASP
43
n
33
ASP
43
A
SER
44
n
34
SER
44
A
ILE
45
n
35
ILE
45
A
LEU
46
n
36
LEU
46
A
LYS
47
n
37
LYS
47
A
LYS
48
n
38
LYS
48
A
MET
49
n
39
MET
49
A
ALA
50
n
40
ALA
50
A
ALA
51
n
41
ALA
51
A
ILE
52
n
42
ILE
52
A
LEU
53
n
43
LEU
53
A
PRO
54
n
44
PRO
54
A
MET
55
n
45
MET
55
A
ASN
56
n
46
ASN
56
A
ASP
57
n
47
ASP
57
A
SER
58
n
48
SER
58
A
ALA
59
n
49
ALA
59
A
PHE
60
n
50
PHE
60
A
ALA
61
n
51
ALA
61
A
THR
62
n
52
THR
62
A
LEU
63
n
53
LEU
63
A
GLY
64
n
54
GLY
64
A
THR
65
n
55
THR
65
A
VAL
66
n
56
VAL
66
A
GLU
67
n
57
GLU
67
A
ASP
68
n
58
ASP
68
A
LYS
69
n
59
LYS
69
A
TYR
70
n
60
TYR
70
A
ARG
71
n
61
ARG
71
A
ARG
72
n
62
ARG
72
A
ARG
73
n
63
ARG
73
A
PHE
74
n
64
PHE
74
A
LYS
75
n
65
LYS
75
A
TYR
76
n
66
TYR
76
A
PHE
77
n
67
PHE
77
A
LYS
78
n
68
LYS
78
A
ALA
79
n
69
ALA
79
A
THR
80
n
70
THR
80
A
ILE
81
n
71
ILE
81
A
ALA
82
n
72
ALA
82
A
ASP
83
n
73
ASP
83
A
LEU
84
n
74
LEU
84
A
SER
85
n
75
SER
85
A
LYS
86
n
76
LYS
86
A
LYS
87
n
77
LYS
87
A
ARG
88
n
78
ARG
88
A
SER
89
n
79
SER
89
A
SER
90
n
80
SER
90
A
GLU
91
n
81
GLU
91
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
1
A
A
O
HG
LEU
SER
22
26
1.59
3
A
A
HB2
HE2
MET
PHE
41
77
1.27
3
A
A
HB2
H
SER
GLU
90
91
1.33
4
A
A
HH
OD1
TYR
ASP
19
43
1.56
5
A
A
HG
HZ
SER
PHE
26
77
1.32
6
A
A
HG
HZ
SER
PHE
26
77
1.11
6
A
A
HA
HD3
ASP
LYS
83
86
1.31
9
A
A
OE1
HZ2
GLU
LYS
67
69
1.57
9
A
A
HH21
OD2
ARG
ASP
21
83
1.59
9
A
A
OD1
HZ3
ASP
LYS
83
87
1.60
10
A
A
HD12
HG1
LEU
THR
25
80
1.30
11
A
A
HH22
HH
ARG
TYR
72
76
1.01
11
A
A
HG
HZ
SER
PHE
26
77
1.21
12
A
A
HA
HD2
ASP
PHE
57
60
1.21
12
A
A
HB2
HE2
MET
PHE
41
77
1.35
14
A
A
HA
HD2
ARG
PHE
71
74
1.32
14
A
A
HG
HZ
SER
PHE
26
77
1.34
15
A
A
HZ1
HH
LYS
TYR
75
76
1.34
15
A
A
OD2
HZ1
ASP
LYS
43
47
1.59
14
A
A
CE1
CZ
PHE
PHE
40
40
0.125
0.019
1.369
1.494
N
1
A
ASN
13
-56.49
101.46
2
A
LEU
53
50.61
72.38
2
A
MET
55
-99.86
30.70
2
A
THR
65
49.35
78.49
2
A
SER
89
68.74
-56.90
2
A
SER
90
-145.42
-56.41
3
A
LEU
12
-91.20
42.92
3
A
ASN
13
-86.51
37.30
3
A
ASN
39
-111.87
75.20
3
A
PHE
40
-22.38
-72.49
3
A
LEU
53
52.89
72.09
3
A
SER
90
-118.38
-132.27
4
A
PHE
40
-57.78
-86.55
4
A
THR
65
-153.72
75.58
4
A
SER
89
-133.73
-46.30
5
A
ASN
39
-102.87
60.34
5
A
PHE
40
-38.50
-79.96
5
A
THR
65
-164.89
111.92
5
A
SER
89
78.65
-12.46
6
A
LEU
53
54.94
75.40
6
A
THR
65
-101.55
69.54
6
A
ARG
88
-80.79
46.82
7
A
LEU
12
-91.94
48.85
7
A
ASP
57
-68.07
-176.34
7
A
SER
58
70.45
-49.28
7
A
ARG
88
-82.54
49.35
8
A
ASN
13
-92.55
47.67
8
A
ASN
39
-102.49
73.08
8
A
PHE
40
-43.69
-75.47
8
A
THR
65
56.67
82.11
8
A
SER
90
-143.72
39.95
9
A
LEU
53
59.38
73.70
9
A
ARG
72
-56.68
-76.65
9
A
SER
90
72.25
-46.05
10
A
ASN
13
-88.49
37.08
10
A
ASN
39
-119.85
64.50
10
A
LEU
53
54.46
71.52
10
A
SER
90
-146.70
-75.72
11
A
ASN
13
-88.35
37.73
11
A
LEU
53
50.57
70.83
11
A
THR
65
51.09
79.65
12
A
ASN
13
-57.70
91.64
12
A
VAL
34
59.76
100.88
12
A
PHE
40
-50.38
-78.79
12
A
GLU
67
-49.44
150.76
13
A
ASN
39
-105.87
66.19
13
A
LEU
53
59.02
75.75
13
A
THR
65
48.56
77.78
14
A
ASN
13
-94.90
34.99
14
A
PHE
40
-48.48
-77.36
14
A
LEU
53
52.89
70.20
14
A
THR
65
-84.11
33.12
NMR STRUCTURE OF THE HRDC DOMAIN FROM SACCHAROMYCES CEREVISIAE RECQ HELICASE
1
N
N
A
ASN
13
A
ASN
3
HELX_P
A
MET
33
A
MET
23
1
1
21
A
ASP
43
A
ASP
33
HELX_P
A
ALA
51
A
ALA
41
1
2
9
A
ALA
59
A
ALA
49
HELX_P
A
THR
62
A
THR
52
5
3
4
A
ASP
68
A
ASP
58
HELX_P
A
PHE
74
A
PHE
64
1
4
7
A
PHE
77
A
PHE
67
HELX_P
A
ARG
88
A
ARG
78
1
5
12
DNA BINDING PROTEIN
FIVE HELICES, THREE-HELICAL BUNDLE FLANKED BY TWO HELICES, DNA BINDING PROTEIN
A
VAL
34
A
VAL
24
1
A
PRO
35
A
PRO
25
0.03
A
VAL
34
A
VAL
24
2
A
PRO
35
A
PRO
25
0.20
A
VAL
34
A
VAL
24
3
A
PRO
35
A
PRO
25
-0.12
A
VAL
34
A
VAL
24
4
A
PRO
35
A
PRO
25
0.94
A
VAL
34
A
VAL
24
5
A
PRO
35
A
PRO
25
-0.22
A
VAL
34
A
VAL
24
6
A
PRO
35
A
PRO
25
0.32
A
VAL
34
A
VAL
24
7
A
PRO
35
A
PRO
25
0.06
A
VAL
34
A
VAL
24
8
A
PRO
35
A
PRO
25
-0.29
A
VAL
34
A
VAL
24
9
A
PRO
35
A
PRO
25
0.09
A
VAL
34
A
VAL
24
10
A
PRO
35
A
PRO
25
0.55
A
VAL
34
A
VAL
24
11
A
PRO
35
A
PRO
25
0.42
A
VAL
34
A
VAL
24
12
A
PRO
35
A
PRO
25
0.17
A
VAL
34
A
VAL
24
13
A
PRO
35
A
PRO
25
0.50
A
VAL
34
A
VAL
24
14
A
PRO
35
A
PRO
25
0.27
A
VAL
34
A
VAL
24
15
A
PRO
35
A
PRO
25
-0.01
SGS1_YEAST
UNP
1
P35187
1271
1351
1D8B
11
91
P35187
A
1
1
81
1
P 1