1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
RESIDUE 60 IS A CIS PROLINE.
Sodano, P.
Xia, T.-H.
Bushweller, J.H.
Bjornberg, O.
Holmgren, A.
Billeter, M.
Wuthrich, K.
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 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
C11 H12 N2 O2
204.225
y
TRYPTOPHAN
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
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
221
1311
1324
10.1016/0022-2836(91)90935-Y
1942053
Sequence-specific 1H n.m.r. assignments and determination of the three-dimensional structure of reduced Escherichia coli glutaredoxin.
1991
US
Protein Sci.
PRCIEI
0795
0961-8368
1
310
The NMR Structure of Oxidized E. Coli Glutaredoxin. Comparison with Reduced E. Coli Glutaredoxin and Functionally Related Proteins
1992
IX
Eur.J.Biochem.
EJBCAI
0262
0014-2956
200
369
Nuclear Magnetic Resonance Studies of Recombinant Escherichia Coli Glutaredoxin: Sequence-Specific Assignments and Secondary Structure Determination for the Oxidized Form
1991
US
Protein Expr.Purif.
PEXPEJ
0757
1046-5928
2
287
Characterization of Homogeneous Recombinant Glutaredoxin from Escherichia Coli: Purification from an Inducible Lambda-P(L) Expression System and Properties of a Novel Elongated Form Protein Expression and Purification
1991
10.2210/pdb1egr/pdb
pdb_00001egr
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
9695.823
GLUTAREDOXIN
1
man
polymer
no
no
MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK
ENLDA
MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK
ENLDA
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
Escherichia
sample
562
Escherichia coli
database_2
pdbx_database_status
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
Other
1
0
1993-10-31
1
1
2008-03-24
1
2
2011-07-13
1
3
2022-02-16
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.process_site
Y
BNL
1991-10-08
REL
REL
20
BRAUN,WUTHRICH
refinement
DIANA
BRUNGER
refinement
X-PLOR
MET
1
n
1
MET
1
A
GLN
2
n
2
GLN
2
A
THR
3
n
3
THR
3
A
VAL
4
n
4
VAL
4
A
ILE
5
n
5
ILE
5
A
PHE
6
n
6
PHE
6
A
GLY
7
n
7
GLY
7
A
ARG
8
n
8
ARG
8
A
SER
9
n
9
SER
9
A
GLY
10
n
10
GLY
10
A
CYS
11
n
11
CYS
11
A
PRO
12
n
12
PRO
12
A
TYR
13
n
13
TYR
13
A
CYS
14
n
14
CYS
14
A
VAL
15
n
15
VAL
15
A
ARG
16
n
16
ARG
16
A
ALA
17
n
17
ALA
17
A
LYS
18
n
18
LYS
18
A
ASP
19
n
19
ASP
19
A
LEU
20
n
20
LEU
20
A
ALA
21
n
21
ALA
21
A
GLU
22
n
22
GLU
22
A
LYS
23
n
23
LYS
23
A
LEU
24
n
24
LEU
24
A
SER
25
n
25
SER
25
A
ASN
26
n
26
ASN
26
A
GLU
27
n
27
GLU
27
A
ARG
28
n
28
ARG
28
A
ASP
29
n
29
ASP
29
A
ASP
30
n
30
ASP
30
A
PHE
31
n
31
PHE
31
A
GLN
32
n
32
GLN
32
A
TYR
33
n
33
TYR
33
A
GLN
34
n
34
GLN
34
A
TYR
35
n
35
TYR
35
A
VAL
36
n
36
VAL
36
A
ASP
37
n
37
ASP
37
A
ILE
38
n
38
ILE
38
A
ARG
39
n
39
ARG
39
A
ALA
40
n
40
ALA
40
A
GLU
41
n
41
GLU
41
A
GLY
42
n
42
GLY
42
A
ILE
43
n
43
ILE
43
A
THR
44
n
44
THR
44
A
LYS
45
n
45
LYS
45
A
GLU
46
n
46
GLU
46
A
ASP
47
n
47
ASP
47
A
LEU
48
n
48
LEU
48
A
GLN
49
n
49
GLN
49
A
GLN
50
n
50
GLN
50
A
LYS
51
n
51
LYS
51
A
ALA
52
n
52
ALA
52
A
GLY
53
n
53
GLY
53
A
LYS
54
n
54
LYS
54
A
PRO
55
n
55
PRO
55
A
VAL
56
n
56
VAL
56
A
GLU
57
n
57
GLU
57
A
THR
58
n
58
THR
58
A
VAL
59
n
59
VAL
59
A
PRO
60
n
60
PRO
60
A
GLN
61
n
61
GLN
61
A
ILE
62
n
62
ILE
62
A
PHE
63
n
63
PHE
63
A
VAL
64
n
64
VAL
64
A
ASP
65
n
65
ASP
65
A
GLN
66
n
66
GLN
66
A
GLN
67
n
67
GLN
67
A
HIS
68
n
68
HIS
68
A
ILE
69
n
69
ILE
69
A
GLY
70
n
70
GLY
70
A
GLY
71
n
71
GLY
71
A
TYR
72
n
72
TYR
72
A
THR
73
n
73
THR
73
A
ASP
74
n
74
ASP
74
A
PHE
75
n
75
PHE
75
A
ALA
76
n
76
ALA
76
A
ALA
77
n
77
ALA
77
A
TRP
78
n
78
TRP
78
A
VAL
79
n
79
VAL
79
A
LYS
80
n
80
LYS
80
A
GLU
81
n
81
GLU
81
A
ASN
82
n
82
ASN
82
A
LEU
83
n
83
LEU
83
A
ASP
84
n
84
ASP
84
A
ALA
85
n
85
ALA
85
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
GLN
34
A
O
GLN
34
A
N
ILE
5
A
N
ILE
5
A
O
VAL
4
A
O
VAL
4
A
N
PHE
63
A
N
PHE
63
A
O
ILE
62
A
O
ILE
62
A
N
ILE
69
A
N
ILE
69
4
A
A
LYS
PRO
54
55
138.15
8
A
A
LYS
PRO
54
55
-138.78
9
A
A
LYS
PRO
54
55
143.41
11
A
A
LYS
PRO
54
55
96.83
12
A
A
LYS
PRO
54
55
128.16
13
A
A
LYS
PRO
54
55
146.22
14
A
A
CYS
PRO
11
12
-122.27
14
A
A
LYS
PRO
54
55
147.85
15
A
A
CYS
PRO
11
12
-127.22
15
A
A
LYS
PRO
54
55
131.96
16
A
A
LYS
PRO
54
55
137.34
17
A
A
LYS
PRO
54
55
-143.09
19
A
A
CYS
PRO
11
12
-147.36
20
A
A
LYS
PRO
54
55
127.18
1
A
ARG
8
0.293
SIDE CHAIN
1
A
ARG
16
0.189
SIDE CHAIN
1
A
ARG
28
0.321
SIDE CHAIN
1
A
ARG
39
0.274
SIDE CHAIN
2
A
ARG
8
0.292
SIDE CHAIN
2
A
ARG
16
0.224
SIDE CHAIN
2
A
ARG
28
0.262
SIDE CHAIN
2
A
ARG
39
0.252
SIDE CHAIN
3
A
ARG
8
0.322
SIDE CHAIN
3
A
ARG
16
0.187
SIDE CHAIN
3
A
ARG
28
0.218
SIDE CHAIN
3
A
ARG
39
0.304
SIDE CHAIN
4
A
ARG
8
0.190
SIDE CHAIN
4
A
ARG
16
0.190
SIDE CHAIN
4
A
ARG
28
0.261
SIDE CHAIN
4
A
ARG
39
0.293
SIDE CHAIN
5
A
ARG
8
0.303
SIDE CHAIN
5
A
ARG
16
0.236
SIDE CHAIN
5
A
ARG
28
0.140
SIDE CHAIN
5
A
ARG
39
0.175
SIDE CHAIN
6
A
ARG
8
0.311
SIDE CHAIN
6
A
ARG
16
0.316
SIDE CHAIN
6
A
ARG
28
0.317
SIDE CHAIN
6
A
ARG
39
0.273
SIDE CHAIN
7
A
ARG
8
0.296
SIDE CHAIN
7
A
ARG
16
0.256
SIDE CHAIN
7
A
ARG
28
0.326
SIDE CHAIN
7
A
ARG
39
0.276
SIDE CHAIN
8
A
ARG
8
0.256
SIDE CHAIN
8
A
ARG
16
0.318
SIDE CHAIN
8
A
ARG
28
0.264
SIDE CHAIN
8
A
ARG
39
0.254
SIDE CHAIN
9
A
ARG
8
0.303
SIDE CHAIN
9
A
ARG
16
0.272
SIDE CHAIN
9
A
ARG
28
0.322
SIDE CHAIN
9
A
ARG
39
0.304
SIDE CHAIN
10
A
ARG
8
0.302
SIDE CHAIN
10
A
ARG
16
0.304
SIDE CHAIN
10
A
ARG
28
0.229
SIDE CHAIN
10
A
ARG
39
0.311
SIDE CHAIN
11
A
ARG
8
0.205
SIDE CHAIN
11
A
ARG
16
0.306
SIDE CHAIN
11
A
ARG
39
0.319
SIDE CHAIN
12
A
ARG
8
0.241
SIDE CHAIN
12
A
ARG
16
0.233
SIDE CHAIN
12
A
ARG
28
0.191
SIDE CHAIN
12
A
TYR
35
0.063
SIDE CHAIN
12
A
ARG
39
0.291
SIDE CHAIN
13
A
ARG
8
0.314
SIDE CHAIN
13
A
ARG
16
0.231
SIDE CHAIN
13
A
ARG
28
0.166
SIDE CHAIN
13
A
ARG
39
0.308
SIDE CHAIN
14
A
ARG
8
0.318
SIDE CHAIN
14
A
ARG
16
0.319
SIDE CHAIN
14
A
ARG
28
0.177
SIDE CHAIN
14
A
ARG
39
0.299
SIDE CHAIN
15
A
ARG
8
0.312
SIDE CHAIN
15
A
ARG
16
0.269
SIDE CHAIN
15
A
ARG
28
0.313
SIDE CHAIN
15
A
ARG
39
0.316
SIDE CHAIN
16
A
ARG
8
0.286
SIDE CHAIN
16
A
ARG
16
0.258
SIDE CHAIN
16
A
ARG
28
0.301
SIDE CHAIN
16
A
ARG
39
0.314
SIDE CHAIN
17
A
ARG
8
0.158
SIDE CHAIN
17
A
ARG
16
0.266
SIDE CHAIN
17
A
ARG
28
0.314
SIDE CHAIN
17
A
ARG
39
0.316
SIDE CHAIN
18
A
ARG
8
0.300
SIDE CHAIN
18
A
ARG
16
0.315
SIDE CHAIN
18
A
ARG
28
0.147
SIDE CHAIN
18
A
TYR
35
0.064
SIDE CHAIN
18
A
ARG
39
0.233
SIDE CHAIN
19
A
ARG
8
0.311
SIDE CHAIN
19
A
ARG
16
0.188
SIDE CHAIN
19
A
ARG
28
0.297
SIDE CHAIN
19
A
ARG
39
0.215
SIDE CHAIN
20
A
ARG
8
0.209
SIDE CHAIN
20
A
ARG
16
0.255
SIDE CHAIN
20
A
ARG
28
0.210
SIDE CHAIN
20
A
ARG
39
0.313
SIDE CHAIN
1
-5.58
0.90
133.90
128.32
A
A
A
CG
CD2
CE3
TRP
TRP
TRP
78
78
78
N
3
-3.31
0.50
120.30
116.99
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
28
28
28
N
7
-3.12
0.50
120.30
117.18
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
9
-3.03
0.50
120.30
117.27
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
10
-3.06
0.50
120.30
117.24
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
16
16
16
N
13
-3.08
0.50
120.30
117.22
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
13
-5.84
0.90
133.90
128.06
A
A
A
CG
CD2
CE3
TRP
TRP
TRP
78
78
78
N
15
-3.76
0.50
120.30
116.54
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
28
28
28
N
16
-3.31
0.50
120.30
116.99
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
16
16
16
N
17
-3.11
0.50
120.30
117.19
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
8
8
8
N
1
A
A
NE2
CD2
HIS
HIS
68
68
-0.072
0.011
1.373
1.301
N
2
A
A
NE2
CD2
HIS
HIS
68
68
-0.075
0.011
1.373
1.298
N
3
A
A
NE2
CD2
HIS
HIS
68
68
-0.074
0.011
1.373
1.299
N
4
A
A
NE2
CD2
HIS
HIS
68
68
-0.073
0.011
1.373
1.300
N
5
A
A
NE2
CD2
HIS
HIS
68
68
-0.078
0.011
1.373
1.295
N
6
A
A
NE2
CD2
HIS
HIS
68
68
-0.075
0.011
1.373
1.298
N
7
A
A
NE2
CD2
HIS
HIS
68
68
-0.077
0.011
1.373
1.296
N
8
A
A
NE2
CD2
HIS
HIS
68
68
-0.073
0.011
1.373
1.300
N
9
A
A
NE2
CD2
HIS
HIS
68
68
-0.077
0.011
1.373
1.296
N
10
A
A
NE2
CD2
HIS
HIS
68
68
-0.074
0.011
1.373
1.299
N
11
A
A
NE2
CD2
HIS
HIS
68
68
-0.075
0.011
1.373
1.298
N
12
A
A
NE2
CD2
HIS
HIS
68
68
-0.080
0.011
1.373
1.293
N
13
A
A
NE2
CD2
HIS
HIS
68
68
-0.079
0.011
1.373
1.294
N
14
A
A
NE2
CD2
HIS
HIS
68
68
-0.077
0.011
1.373
1.296
N
15
A
A
NE2
CD2
HIS
HIS
68
68
-0.075
0.011
1.373
1.298
N
16
A
A
NE2
CD2
HIS
HIS
68
68
-0.078
0.011
1.373
1.295
N
17
A
A
NE2
CD2
HIS
HIS
68
68
-0.083
0.011
1.373
1.290
N
18
A
A
NE2
CD2
HIS
HIS
68
68
-0.077
0.011
1.373
1.296
N
19
A
A
NE2
CD2
HIS
HIS
68
68
-0.076
0.011
1.373
1.297
N
20
A
A
NE2
CD2
HIS
HIS
68
68
-0.078
0.011
1.373
1.295
N
1
A
PRO
12
-69.77
51.27
1
A
ASP
29
-63.88
3.68
1
A
ALA
40
-39.09
-39.91
1
A
LYS
54
37.20
76.03
1
A
PRO
55
-90.35
33.79
1
A
VAL
56
32.06
-102.17
1
A
ASP
65
54.93
-79.37
2
A
ARG
8
-113.62
-162.04
2
A
TYR
13
-112.92
-73.54
2
A
GLU
57
-26.14
-64.06
2
A
THR
58
-116.79
-154.50
2
A
ASP
65
57.41
-94.76
3
A
ASP
29
-62.17
12.27
3
A
THR
44
-118.70
-92.77
3
A
LYS
45
-138.45
-55.16
3
A
GLU
57
-133.65
-43.08
3
A
THR
58
-114.54
-148.31
3
A
GLN
66
-122.95
-56.40
3
A
ASN
82
-143.68
-41.79
3
A
ASP
84
-103.26
-134.70
4
A
ARG
8
-135.88
-114.37
4
A
SER
9
-113.58
-74.81
4
A
GLU
27
-133.62
-48.47
4
A
ASP
29
-80.90
35.04
4
A
GLU
57
-101.65
-109.69
4
A
THR
58
-120.26
-73.48
4
A
ASP
65
70.90
-75.83
5
A
CYS
11
108.82
165.44
5
A
PRO
12
-54.76
75.99
5
A
TYR
13
-113.82
-77.89
5
A
ASP
30
-82.86
41.19
5
A
PRO
55
-41.92
94.70
5
A
VAL
56
33.32
-95.04
5
A
GLU
57
109.14
-170.21
5
A
THR
58
-104.03
-152.49
5
A
ASP
65
51.08
-81.25
5
A
GLU
81
-140.21
-45.47
5
A
ASP
84
-89.08
46.62
6
A
PRO
12
-72.55
48.53
6
A
ASN
26
-98.30
40.36
6
A
GLU
27
-142.53
-52.30
6
A
ASP
29
71.51
-40.55
6
A
THR
58
-116.08
-169.27
6
A
ASP
65
65.50
-72.72
6
A
TYR
72
-137.97
-55.85
6
A
ASN
82
-147.50
-36.11
6
A
ASP
84
-93.29
-64.82
7
A
SER
9
-54.98
73.35
7
A
VAL
15
-44.75
-12.74
7
A
GLU
27
-121.17
-65.70
7
A
ARG
28
-122.26
-166.77
7
A
PRO
55
-48.67
155.15
7
A
GLU
57
63.58
-145.92
7
A
ASP
65
63.01
-82.20
7
A
THR
73
78.23
-64.69
7
A
ASP
84
-93.89
30.08
8
A
SER
9
-102.89
-65.15
8
A
PRO
12
-57.04
67.05
8
A
ASP
65
54.50
-79.65
8
A
ASP
84
41.11
-69.46
9
A
SER
9
-55.76
76.65
9
A
ASP
29
28.81
52.76
9
A
ASP
30
-155.18
-45.31
9
A
PRO
55
-50.36
68.29
9
A
VAL
56
-144.40
47.68
9
A
ASP
65
64.67
-86.19
9
A
LEU
83
-117.16
53.07
9
A
ASP
84
-78.95
49.83
10
A
ARG
8
-108.76
-141.60
10
A
SER
9
-56.51
176.41
10
A
TYR
13
-109.40
-94.60
10
A
ASP
29
34.46
47.20
10
A
PRO
55
-67.23
89.79
10
A
THR
58
-144.39
-61.82
10
A
ASP
65
50.95
-97.38
11
A
PRO
12
-53.00
73.86
11
A
TYR
13
-119.54
-85.09
11
A
GLU
27
-140.73
-51.65
11
A
GLU
41
-99.55
36.82
11
A
LYS
54
60.10
126.85
11
A
GLU
57
-79.08
33.00
11
A
THR
58
39.27
-109.57
11
A
ASP
65
65.98
-76.07
11
A
GLN
66
-142.94
-9.11
11
A
THR
73
67.73
-68.14
11
A
LEU
83
-102.31
-73.12
11
A
ASP
84
31.65
42.52
12
A
PRO
12
-55.93
73.97
12
A
GLU
27
-138.74
-35.44
12
A
ASP
29
-80.16
32.56
12
A
LYS
54
31.14
-147.39
12
A
GLU
57
-115.40
-94.25
12
A
THR
58
-142.86
-156.05
12
A
VAL
59
-114.78
-169.05
12
A
PRO
60
-68.57
-175.42
12
A
ASP
65
54.44
-101.94
12
A
ILE
69
-101.33
-99.81
12
A
ASP
84
60.67
-65.92
13
A
SER
9
-51.77
106.36
13
A
PRO
12
-58.78
-3.57
13
A
GLU
27
-130.11
-51.39
13
A
GLU
41
-105.50
44.53
13
A
PRO
55
-48.22
155.61
13
A
ASP
65
65.49
-83.58
13
A
ASN
82
-140.20
-36.68
14
A
TYR
13
53.15
-68.73
14
A
GLU
27
-120.82
-59.19
14
A
ASP
30
-83.51
41.68
14
A
PRO
55
-50.82
-157.87
14
A
VAL
56
-114.16
70.51
14
A
THR
58
41.26
-112.53
14
A
ASP
65
53.94
-85.58
14
A
ASP
84
32.27
80.03
15
A
PHE
6
-107.81
73.41
15
A
SER
9
-117.29
-168.19
15
A
PRO
12
-17.74
-68.49
15
A
TYR
13
47.36
-66.81
15
A
ASN
26
-95.73
32.38
15
A
GLU
27
-130.09
-66.06
15
A
ASP
29
-74.50
30.06
15
A
THR
44
-91.96
-144.16
15
A
LYS
54
31.44
-162.61
15
A
PRO
55
-103.75
-157.92
15
A
THR
58
-92.07
-136.24
15
A
ASP
65
55.02
-87.12
16
A
SER
9
-78.11
-155.05
16
A
PRO
12
-75.87
31.73
16
A
TYR
13
-125.13
-63.78
16
A
ASP
29
-74.05
31.03
16
A
LYS
54
-143.84
55.64
16
A
VAL
56
-122.18
-61.46
16
A
ASP
65
53.55
-83.67
16
A
TYR
72
-136.03
-50.61
16
A
ASP
84
33.75
48.18
17
A
PRO
12
-48.00
-13.82
17
A
ASN
26
-91.96
41.51
17
A
GLU
27
-128.29
-66.06
17
A
ASP
29
-94.07
32.30
17
A
PRO
55
-19.80
-131.97
17
A
GLU
57
50.23
-160.36
17
A
THR
58
-139.59
-151.39
17
A
ASP
65
66.82
-74.50
17
A
ASP
84
-100.12
41.56
18
A
CYS
11
74.56
108.51
18
A
PRO
12
-65.61
59.43
18
A
ASN
26
-83.72
38.64
18
A
GLU
27
-137.61
-50.30
18
A
THR
44
-117.08
-89.02
18
A
LYS
45
-140.87
-48.07
18
A
ASP
65
50.81
-102.73
18
A
ASP
84
31.58
70.22
19
A
PRO
12
-62.85
64.26
19
A
TYR
13
-121.69
-70.24
19
A
GLU
27
-135.07
-65.96
19
A
ASP
30
-84.45
44.82
19
A
LYS
54
-155.22
56.24
19
A
PRO
55
-98.66
42.95
19
A
VAL
56
36.48
-118.50
19
A
ASP
65
65.21
-74.41
19
A
ASP
84
53.78
80.70
20
A
ARG
8
-102.03
64.24
20
A
SER
9
58.31
-77.48
20
A
ASP
30
-109.63
53.46
20
A
PRO
55
-33.46
82.70
20
A
GLU
57
61.37
-108.39
20
A
THR
58
-129.92
-86.51
20
A
ASP
65
66.91
-72.60
20
A
ASN
82
-141.05
-49.03
model building
X-PLOR
refinement
X-PLOR
phasing
X-PLOR
SEQUENCE-SPECIFIC 1H N.M.R. ASSIGNMENTS AND DETERMINATION OF THE THREE-DIMENSIONAL STRUCTURE OF REDUCED ESCHERICHIA COLI GLUTAREDOXIN
1
Y
N
A
TYR
13
A
TYR
13
HELX_P
ALPHA HELIX
A
ARG
28
A
ARG
28
1
H1
16
A
THR
44
A
THR
44
HELX_P
ALPHA HELIX
A
GLY
53
A
GLY
53
1
H2
10
A
GLY
71
A
GLY
71
HELX_P
ALPHA HELIX
A
LEU
83
A
LEU
83
1
H3
13
ELECTRON TRANSPORT
ELECTRON TRANSPORT
A
VAL
59
A
VAL
59
1
A
PRO
60
A
PRO
60
-7.27
A
VAL
59
A
VAL
59
2
A
PRO
60
A
PRO
60
-18.26
A
VAL
59
A
VAL
59
3
A
PRO
60
A
PRO
60
-11.45
A
VAL
59
A
VAL
59
4
A
PRO
60
A
PRO
60
-6.89
A
VAL
59
A
VAL
59
5
A
PRO
60
A
PRO
60
10.99
A
VAL
59
A
VAL
59
6
A
PRO
60
A
PRO
60
-7.86
A
VAL
59
A
VAL
59
7
A
PRO
60
A
PRO
60
17.09
A
VAL
59
A
VAL
59
8
A
PRO
60
A
PRO
60
-18.58
A
VAL
59
A
VAL
59
9
A
PRO
60
A
PRO
60
7.90
A
VAL
59
A
VAL
59
10
A
PRO
60
A
PRO
60
-25.67
A
VAL
59
A
VAL
59
11
A
PRO
60
A
PRO
60
0.13
A
VAL
59
A
VAL
59
12
A
PRO
60
A
PRO
60
-28.58
A
VAL
59
A
VAL
59
13
A
PRO
60
A
PRO
60
9.94
A
VAL
59
A
VAL
59
14
A
PRO
60
A
PRO
60
-20.23
A
VAL
59
A
VAL
59
15
A
PRO
60
A
PRO
60
2.41
A
VAL
59
A
VAL
59
16
A
PRO
60
A
PRO
60
-0.18
A
VAL
59
A
VAL
59
17
A
PRO
60
A
PRO
60
2.58
A
VAL
59
A
VAL
59
18
A
PRO
60
A
PRO
60
-8.95
A
VAL
59
A
VAL
59
19
A
PRO
60
A
PRO
60
-5.86
A
VAL
59
A
VAL
59
20
A
PRO
60
A
PRO
60
-9.29
GLRX1_ECOLI
UNP
1
1
P68688
MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK
ENLDA
1
85
1EGR
1
85
P68688
A
1
1
85
4
parallel
anti-parallel
anti-parallel
A
GLN
32
A
GLN
32
A
ASP
37
A
ASP
37
A
GLN
2
A
GLN
2
A
GLY
7
A
GLY
7
A
GLN
61
A
GLN
61
A
VAL
64
A
VAL
64
A
GLN
67
A
GLN
67
A
ILE
69
A
ILE
69
1
P 1