0.024704
0.000000
0.000000
0.000000
0.025138
0.000000
0.000000
0.000000
0.016644
0.00000
0.00000
0.00000
CIS PROLINE - PRO 76
Saarinen, M.
Gleason, F.K.
Eklund, H.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
4
90.00
90.00
90.00
40.480
39.780
60.080
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
H2 O
18.015
WATER
non-polymer
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
Structure
STRUE6
2005
0969-2126
3
1097
1108
10.1016/S0969-2126(01)00245-3
8590004
Crystal structure of thioredoxin-2 from Anabaena.
1995
US
J.Bacteriol.
JOBAAY
0767
0021-9193
174
2592
Activities of Two Dissimilar Thioredoxins from the Cyanobacterium Anabaena Sp. Pcc 7120
1992
US
J.Bacteriol.
JOBAAY
0767
0021-9193
171
162
Isolation, Sequence, and Expression in Escherichia Coli of an Unusual Thioredoxin Gene from the Cyanobacterium Anabaena Sp. Strain Pcc 7120
1989
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
1
IMAGE PLATE
1993-11-22
RIGAKU RAXIS IIC
M
x-ray
1
1.5418
1.0
1.5418
12811.778
THIOREDOXIN
1
man
polymer
18.015
water
74
nat
water
THIOREDOXIN 2
no
no
METAMSKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGV
PALRLVKGEQILDSTEGVISKDKLLSFLDTHLNNN
METAMSKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGV
PALRLVKGEQILDSTEGVISKDKLLSFLDTHLNNN
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
Nostoc
PCC 7120
Escherichia
sample
ATCC 27893
TRXA
103690
Nostoc sp.
TRXA
562
Escherichia coli
PAN673.2
2
1.89
34.81
repository
Initial release
Version format compliance
Source and taxonomy
Version format compliance
1
0
1995-10-15
1
1
2008-03-03
1
2
2011-07-13
Y
1995-07-07
REL
REL
HOH
water
HOH
1001
2
HOH
HOH
1001
A
HOH
1003
2
HOH
HOH
1003
A
HOH
1005
2
HOH
HOH
1005
A
HOH
1006
2
HOH
HOH
1006
A
HOH
1007
2
HOH
HOH
1007
A
HOH
1009
2
HOH
HOH
1009
A
HOH
1012
2
HOH
HOH
1012
A
HOH
1014
2
HOH
HOH
1014
A
HOH
1022
2
HOH
HOH
1022
A
HOH
1023
2
HOH
HOH
1023
A
HOH
1027
2
HOH
HOH
1027
A
HOH
1028
2
HOH
HOH
1028
A
HOH
1031
2
HOH
HOH
1031
A
HOH
1037
2
HOH
HOH
1037
A
HOH
1038
2
HOH
HOH
1038
A
HOH
1039
2
HOH
HOH
1039
A
HOH
1041
2
HOH
HOH
1041
A
HOH
1048
2
HOH
HOH
1048
A
HOH
1049
2
HOH
HOH
1049
A
HOH
1050
2
HOH
HOH
1050
A
HOH
1051
2
HOH
HOH
1051
A
HOH
1054
2
HOH
HOH
1054
A
HOH
1056
2
HOH
HOH
1056
A
HOH
1057
2
HOH
HOH
1057
A
HOH
1059
2
HOH
HOH
1059
A
HOH
1060
2
HOH
HOH
1060
A
HOH
1061
2
HOH
HOH
1061
A
HOH
1062
2
HOH
HOH
1062
A
HOH
1063
2
HOH
HOH
1063
A
HOH
1072
2
HOH
HOH
1072
A
HOH
1074
2
HOH
HOH
1074
A
HOH
1076
2
HOH
HOH
1076
A
HOH
1077
2
HOH
HOH
1077
A
HOH
1078
2
HOH
HOH
1078
A
HOH
1079
2
HOH
HOH
1079
A
HOH
1080
2
HOH
HOH
1080
A
HOH
1081
2
HOH
HOH
1081
A
HOH
1082
2
HOH
HOH
1082
A
HOH
1083
2
HOH
HOH
1083
A
HOH
1085
2
HOH
HOH
1085
A
HOH
1087
2
HOH
HOH
1087
A
HOH
1094
2
HOH
HOH
1094
A
HOH
1095
2
HOH
HOH
1095
A
HOH
1096
2
HOH
HOH
1096
A
HOH
1097
2
HOH
HOH
1097
A
HOH
1098
2
HOH
HOH
1098
A
HOH
1100
2
HOH
HOH
1100
A
HOH
1101
2
HOH
HOH
1101
A
HOH
1102
2
HOH
HOH
1102
A
HOH
1103
2
HOH
HOH
1103
A
HOH
1104
2
HOH
HOH
1104
A
HOH
1105
2
HOH
HOH
1105
A
HOH
1106
2
HOH
HOH
1106
A
HOH
1108
2
HOH
HOH
1108
A
HOH
1109
2
HOH
HOH
1109
A
HOH
1110
2
HOH
HOH
1110
A
HOH
1111
2
HOH
HOH
1111
A
HOH
1112
2
HOH
HOH
1112
A
HOH
1113
2
HOH
HOH
1113
A
HOH
1114
2
HOH
HOH
1114
A
HOH
1115
2
HOH
HOH
1115
A
HOH
1118
2
HOH
HOH
1118
A
HOH
1123
2
HOH
HOH
1123
A
HOH
1124
2
HOH
HOH
1124
A
HOH
1127
2
HOH
HOH
1127
A
HOH
1128
2
HOH
HOH
1128
A
HOH
1131
2
HOH
HOH
1131
A
HOH
1132
2
HOH
HOH
1132
A
HOH
2001
2
HOH
HOH
2001
A
HOH
2004
2
HOH
HOH
2004
A
HOH
2005
2
HOH
HOH
2005
A
HOH
2009
2
HOH
HOH
2009
A
HOH
2014
2
HOH
HOH
2014
A
HOH
2015
2
HOH
HOH
2015
A
n
1
-4
A
n
2
-3
A
n
3
-2
A
n
4
-1
A
n
5
0
A
SER
1
n
6
SER
1
A
LYS
2
n
7
LYS
2
A
GLY
3
n
8
GLY
3
A
VAL
4
n
9
VAL
4
A
ILE
5
n
10
ILE
5
A
THR
6
n
11
THR
6
A
ILE
7
n
12
ILE
7
A
THR
8
n
13
THR
8
A
ASP
9
n
14
ASP
9
A
ALA
10
n
15
ALA
10
A
GLU
11
n
16
GLU
11
A
PHE
12
n
17
PHE
12
A
GLU
13
n
18
GLU
13
A
SER
14
n
19
SER
14
A
GLU
15
n
20
GLU
15
A
VAL
16
n
21
VAL
16
A
LEU
17
n
22
LEU
17
A
LYS
18
n
23
LYS
18
A
ALA
19
n
24
ALA
19
A
GLU
20
n
25
GLU
20
A
GLN
21
n
26
GLN
21
A
PRO
22
n
27
PRO
22
A
VAL
23
n
28
VAL
23
A
LEU
24
n
29
LEU
24
A
VAL
25
n
30
VAL
25
A
TYR
26
n
31
TYR
26
A
PHE
27
n
32
PHE
27
A
TRP
28
n
33
TRP
28
A
ALA
29
n
34
ALA
29
A
SER
30
n
35
SER
30
A
TRP
31
n
36
TRP
31
A
CYS
32
n
37
CYS
32
A
GLY
33
n
38
GLY
33
A
PRO
34
n
39
PRO
34
A
CYS
35
n
40
CYS
35
A
GLN
36
n
41
GLN
36
A
LEU
37
n
42
LEU
37
A
MET
38
n
43
MET
38
A
SER
39
n
44
SER
39
A
PRO
40
n
45
PRO
40
A
LEU
41
n
46
LEU
41
A
ILE
42
n
47
ILE
42
A
ASN
43
n
48
ASN
43
A
LEU
44
n
49
LEU
44
A
ALA
45
n
50
ALA
45
A
ALA
46
n
51
ALA
46
A
ASN
47
n
52
ASN
47
A
THR
48
n
53
THR
48
A
TYR
49
n
54
TYR
49
A
SER
50
n
55
SER
50
A
ASP
51
n
56
ASP
51
A
ARG
52
n
57
ARG
52
A
LEU
53
n
58
LEU
53
A
LYS
54
n
59
LYS
54
A
VAL
55
n
60
VAL
55
A
VAL
56
n
61
VAL
56
A
LYS
57
n
62
LYS
57
A
LEU
58
n
63
LEU
58
A
GLU
59
n
64
GLU
59
A
ILE
60
n
65
ILE
60
A
ASP
61
n
66
ASP
61
A
PRO
62
n
67
PRO
62
A
ASN
63
n
68
ASN
63
A
PRO
64
n
69
PRO
64
A
THR
65
n
70
THR
65
A
THR
66
n
71
THR
66
A
VAL
67
n
72
VAL
67
A
LYS
68
n
73
LYS
68
A
LYS
69
n
74
LYS
69
A
TYR
70
n
75
TYR
70
A
LYS
71
n
76
LYS
71
A
VAL
72
n
77
VAL
72
A
GLU
73
n
78
GLU
73
A
GLY
74
n
79
GLY
74
A
VAL
75
n
80
VAL
75
A
PRO
76
n
81
PRO
76
A
ALA
77
n
82
ALA
77
A
LEU
78
n
83
LEU
78
A
ARG
79
n
84
ARG
79
A
LEU
80
n
85
LEU
80
A
VAL
81
n
86
VAL
81
A
LYS
82
n
87
LYS
82
A
GLY
83
n
88
GLY
83
A
GLU
84
n
89
GLU
84
A
GLN
85
n
90
GLN
85
A
ILE
86
n
91
ILE
86
A
LEU
87
n
92
LEU
87
A
ASP
88
n
93
ASP
88
A
SER
89
n
94
SER
89
A
THR
90
n
95
THR
90
A
GLU
91
n
96
GLU
91
A
GLY
92
n
97
GLY
92
A
VAL
93
n
98
VAL
93
A
ILE
94
n
99
ILE
94
A
SER
95
n
100
SER
95
A
LYS
96
n
101
LYS
96
A
ASP
97
n
102
ASP
97
A
LYS
98
n
103
LYS
98
A
LEU
99
n
104
LEU
99
A
LEU
100
n
105
LEU
100
A
SER
101
n
106
SER
101
A
PHE
102
n
107
PHE
102
A
LEU
103
n
108
LEU
103
A
ASP
104
n
109
ASP
104
A
THR
105
n
110
THR
105
A
HIS
106
n
111
HIS
106
A
LEU
107
n
112
LEU
107
A
ASN
108
n
113
ASN
108
A
n
114
109
A
n
115
110
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
ILE
5
A
O
ILE
10
A
N
VAL
55
A
N
VAL
60
A
O
LYS
54
A
O
LYS
59
A
N
PRO
22
A
N
PRO
27
A
O
VAL
23
A
O
VAL
28
A
N
VAL
81
A
N
VAL
86
A
O
LEU
78
A
O
LEU
83
A
N
THR
90
A
N
THR
95
1
A
MET
-4
A
MET
1
1
Y
1
A
GLU
-3
A
GLU
2
1
Y
1
A
THR
-2
A
THR
3
1
Y
1
A
ALA
-1
A
ALA
4
1
Y
1
A
MET
0
A
MET
5
1
Y
1
A
ASN
109
A
ASN
114
1
Y
1
A
ASN
110
A
ASN
115
1
Y
1
A
A
H
H1
GLY
HOH
83
1023
1.10
1
A
A
HG1
H1
THR
HOH
65
2004
1.25
1
A
A
H
H2
SER
HOH
30
1131
1.34
1
A
A
HZ3
H1
LYS
HOH
57
1097
1.34
1
A
A
H2
H2
HOH
HOH
1056
1057
1.35
1
A
A
HZ3
O
LYS
HOH
57
1097
1.46
1
A
A
H1
O
HOH
HOH
1108
1109
1.56
1
A
A
CD1
O
ILE
HOH
5
1060
1.66
B
1
A
A
HZ2
H1
LYS
HOH
57
1077
1.17
1_555
3_546
1
A
A
OD1
H2
ASP
HOH
61
1003
1.54
1_555
3_556
18.41
RESIDUES SER 1 AND LYS 2 COULD BE BUILT IN TWO ALTERNATE
ORIENTATIONS ROTATED 180 DEGREES AROUND THE C-ALPHA - C
BOND OF LYS 2. MOST OF THESE ATOMS HAVE GOOD ELECTRON
DENSITY IN BOTH ORIENTATIONS, AND A POSITIVE DIFFERENCE
FOURIER DENSITY SHOWS THE PRESENCE OF THE OTHER
ORIENTATION, IN EITHER OF THE CASES.
0.229
0.175
0.175
1.6
7.0
10103
1
2.0
1.6
7.0
74
918
0
0
844
1THX
10467
0.035
1
3.3
78.6
data collection
DENZO/CCP4
model building
X-PLOR
refinement
X-PLOR
data reduction
DENZO
data reduction
CCP4
phasing
X-PLOR
THIOREDOXIN
THIOREDOXIN-2
1
N
N
2
N
N
A
ASP
9
A
ASP
14
HELX_P
A
GLU
15
A
GLU
20
5
1
7
A
GLY
33
A
GLY
38
HELX_P
A
THR
48
A
THR
53
1
2
16
A
PRO
64
A
PRO
69
HELX_P
A
LYS
69
A
LYS
74
1
3
6
A
LYS
96
A
LYS
101
HELX_P
A
HIS
106
A
HIS
111
1
4
11
disulf
2.037
A
CYS
32
A
SG
CYS
37
1_555
A
CYS
35
A
SG
CYS
40
1_555
ELECTRON TRANSPORT
OXIDO-REDUCTASE, ELECTRON TRANSPORT
A
VAL
75
A
VAL
80
1
A
PRO
76
A
PRO
81
-0.18
THIO2_ANASP
UNP
1
1
P20857
SKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGVPALRL
VKGEQILDSTEGVISKDKLLSFLDTHLNNN
1
110
1THX
1
110
P20857
A
1
6
115
5
parallel
parallel
anti-parallel
anti-parallel
A
VAL
4
A
VAL
9
A
THR
6
A
THR
11
A
LEU
53
A
LEU
58
A
GLU
59
A
GLU
64
A
PRO
22
A
PRO
27
A
TRP
28
A
TRP
33
A
ALA
77
A
ALA
82
A
LYS
82
A
LYS
87
A
GLN
85
A
GLN
90
A
GLU
91
A
GLU
96
Unknown
2
A
CYS
32
A
CYS
37
2
1_555
A
CYS
35
A
CYS
40
2
1_555
19
P 21 21 21