1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Banci, L.
Bertini, I.
Dikiy, A.
Kastrau, D.H.W.
Luchinat, C.
Sompornpisut, P.
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
Fe4 S4
351.640
IRON/SULFUR CLUSTER
non-polymer
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
US
Biochemistry
BICHAW
0033
0006-2960
34
206
219
10.1021/bi00001a025
7819198
The three-dimensional solution structure of the reduced high-potential iron-sulfur protein from Chromatium vinosum through NMR.
1995
US
Biochemistry
BICHAW
0033
0006-2960
31
5632
Sequence-Specific Assignments of the 1H Nuclear Magnetic Resonance Spectra of Reduced High-Potential Ferredoxin (Hipip) from Chromatium Vinosum
1992
US
J.Am.Chem.Soc.
JACSAT
0004
0002-7863
9
3332
Identification of the Iron Ions of High Potential Iron Protein from Chromatium Vinosum within the Protein Frame Through Two-Dimensional NMR Experiments
1992
US
J.Biol.Chem.
JBCHA3
0071
0021-9258
249
4212
Two-Angstrom Crystal Structure of Oxidized Chromatium High Potential Iron Protein
1974
10.2210/pdb1hrr/pdb
pdb_00001hrr
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
NMR, 15 STRUCTURES
8912.928
REDUCED HIGH POTENTIAL IRON SULFUR PROTEIN
1
nat
polymer
351.640
IRON/SULFUR CLUSTER
1
syn
non-polymer
HIPIP
no
no
SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASW
TLKAG
SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASW
TLKAG
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
Allochromatium
sample
1049
Allochromatium vinosum
database_2
pdbx_database_status
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
struct_site
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
Other
1
0
1995-07-31
1
1
2008-03-24
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.process_site
_pdbx_nmr_software.name
_struct_site.pdbx_auth_asym_id
_struct_site.pdbx_auth_comp_id
_struct_site.pdbx_auth_seq_id
Y
BNL
1995-01-17
REL
SF4
IRON/SULFUR CLUSTER
15
GUENTERT,BRAUN,WUTHRICH
refinement
DIANA
PEARLMAN,CASE,CALDWELL,SIEBEL,SINGH,WEINER,KOLLMAN
refinement
Amber
4.0
FS4
86
2
SF4
SF4
86
A
SER
1
n
1
SER
1
A
ALA
2
n
2
ALA
2
A
PRO
3
n
3
PRO
3
A
ALA
4
n
4
ALA
4
A
ASN
5
n
5
ASN
5
A
ALA
6
n
6
ALA
6
A
VAL
7
n
7
VAL
7
A
ALA
8
n
8
ALA
8
A
ALA
9
n
9
ALA
9
A
ASP
10
n
10
ASP
10
A
ASP
11
n
11
ASP
11
A
ALA
12
n
12
ALA
12
A
THR
13
n
13
THR
13
A
ALA
14
n
14
ALA
14
A
ILE
15
n
15
ILE
15
A
ALA
16
n
16
ALA
16
A
LEU
17
n
17
LEU
17
A
LYS
18
n
18
LYS
18
A
TYR
19
n
19
TYR
19
A
ASN
20
n
20
ASN
20
A
GLN
21
n
21
GLN
21
A
ASP
22
n
22
ASP
22
A
ALA
23
n
23
ALA
23
A
THR
24
n
24
THR
24
A
LYS
25
n
25
LYS
25
A
SER
26
n
26
SER
26
A
GLU
27
n
27
GLU
27
A
ARG
28
n
28
ARG
28
A
VAL
29
n
29
VAL
29
A
ALA
30
n
30
ALA
30
A
ALA
31
n
31
ALA
31
A
ALA
32
n
32
ALA
32
A
ARG
33
n
33
ARG
33
A
PRO
34
n
34
PRO
34
A
GLY
35
n
35
GLY
35
A
LEU
36
n
36
LEU
36
A
PRO
37
n
37
PRO
37
A
PRO
38
n
38
PRO
38
A
GLU
39
n
39
GLU
39
A
GLU
40
n
40
GLU
40
A
GLN
41
n
41
GLN
41
A
HIS
42
n
42
HIS
42
A
CYS
43
n
43
CYS
43
A
ALA
44
n
44
ALA
44
A
ASN
45
n
45
ASN
45
A
CYS
46
n
46
CYS
46
A
GLN
47
n
47
GLN
47
A
PHE
48
n
48
PHE
48
A
MET
49
n
49
MET
49
A
GLN
50
n
50
GLN
50
A
ALA
51
n
51
ALA
51
A
ASP
52
n
52
ASP
52
A
ALA
53
n
53
ALA
53
A
ALA
54
n
54
ALA
54
A
GLY
55
n
55
GLY
55
A
ALA
56
n
56
ALA
56
A
THR
57
n
57
THR
57
A
ASP
58
n
58
ASP
58
A
GLU
59
n
59
GLU
59
A
TRP
60
n
60
TRP
60
A
LYS
61
n
61
LYS
61
A
GLY
62
n
62
GLY
62
A
CYS
63
n
63
CYS
63
A
GLN
64
n
64
GLN
64
A
LEU
65
n
65
LEU
65
A
PHE
66
n
66
PHE
66
A
PRO
67
n
67
PRO
67
A
GLY
68
n
68
GLY
68
A
LYS
69
n
69
LYS
69
A
LEU
70
n
70
LEU
70
A
ILE
71
n
71
ILE
71
A
ASN
72
n
72
ASN
72
A
VAL
73
n
73
VAL
73
A
ASN
74
n
74
ASN
74
A
GLY
75
n
75
GLY
75
A
TRP
76
n
76
TRP
76
A
CYS
77
n
77
CYS
77
A
ALA
78
n
78
ALA
78
A
SER
79
n
79
SER
79
A
TRP
80
n
80
TRP
80
A
THR
81
n
81
THR
81
A
LEU
82
n
82
LEU
82
A
LYS
83
n
83
LYS
83
A
ALA
84
n
84
ALA
84
A
GLY
85
n
85
GLY
85
A
author_defined_assembly
1
monomeric
A
CYS
43
A
SG
CYS
43
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S2
SF4
1_555
113.7
A
CYS
43
A
SG
CYS
43
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
111.1
A
SF4
86
B
S2
SF4
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
105.7
A
CYS
43
A
SG
CYS
43
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
112.9
A
SF4
86
B
S2
SF4
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
105.2
A
SF4
86
B
S3
SF4
1_555
A
SF4
86
B
FE1
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
107.7
A
CYS
46
A
SG
CYS
46
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S1
SF4
1_555
113.4
A
CYS
46
A
SG
CYS
46
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
112.3
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
105.8
A
CYS
46
A
SG
CYS
46
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
110.9
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
106.0
A
SF4
86
B
S3
SF4
1_555
A
SF4
86
B
FE2
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
108.1
A
CYS
63
A
SG
CYS
63
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S1
SF4
1_555
108.2
A
CYS
63
A
SG
CYS
63
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S2
SF4
1_555
112.8
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S2
SF4
1_555
108.1
A
CYS
63
A
SG
CYS
63
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
115.1
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
106.0
A
SF4
86
B
S2
SF4
1_555
A
SF4
86
B
FE3
SF4
1_555
A
SF4
86
B
S4
SF4
1_555
106.3
A
CYS
77
A
SG
CYS
77
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S1
SF4
1_555
107.1
A
CYS
77
A
SG
CYS
77
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S2
SF4
1_555
112.2
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S2
SF4
1_555
108.1
A
CYS
77
A
SG
CYS
77
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
116.9
A
SF4
86
B
S1
SF4
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
105.5
A
SF4
86
B
S2
SF4
1_555
A
SF4
86
B
FE4
SF4
1_555
A
SF4
86
B
S3
SF4
1_555
106.5
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
61
A
N
LYS
61
A
O
ILE
71
A
O
ILE
71
1
A
TYR
19
0.145
SIDE CHAIN
2
A
TYR
19
0.123
SIDE CHAIN
3
A
TYR
19
0.075
SIDE CHAIN
4
A
TYR
19
0.139
SIDE CHAIN
5
A
TYR
19
0.155
SIDE CHAIN
6
A
TYR
19
0.138
SIDE CHAIN
7
A
TYR
19
0.137
SIDE CHAIN
7
A
ARG
33
0.077
SIDE CHAIN
8
A
TYR
19
0.130
SIDE CHAIN
9
A
TYR
19
0.143
SIDE CHAIN
10
A
TYR
19
0.135
SIDE CHAIN
12
A
TYR
19
0.144
SIDE CHAIN
12
A
ARG
33
0.082
SIDE CHAIN
13
A
TYR
19
0.140
SIDE CHAIN
14
A
TYR
19
0.125
SIDE CHAIN
15
A
TYR
19
0.130
SIDE CHAIN
1
A
ASN
5
-82.81
49.93
1
A
ALA
32
38.57
55.19
1
A
ALA
54
61.52
159.75
1
A
THR
57
-107.11
-136.00
1
A
ASP
58
-76.76
-72.05
1
A
GLN
64
31.41
-94.15
1
A
PHE
66
-109.34
79.79
1
A
LYS
83
-45.57
100.64
2
A
ALA
32
39.82
56.56
2
A
PHE
48
67.67
-94.98
2
A
MET
49
72.36
112.85
2
A
ASP
52
-85.07
49.80
2
A
ALA
54
66.13
140.46
2
A
THR
57
-126.45
-169.16
2
A
LEU
82
-39.67
107.03
2
A
LYS
83
-35.98
103.56
3
A
ASN
5
-81.47
47.42
3
A
THR
57
-107.85
-139.29
3
A
ASP
58
-67.23
-74.24
4
A
ALA
54
63.53
160.07
4
A
ALA
56
-36.43
128.93
4
A
THR
57
-114.10
-136.93
4
A
ASP
58
-72.63
-76.83
4
A
ASN
74
-66.15
-94.54
4
A
TRP
76
110.44
139.25
4
A
LYS
83
-33.04
104.85
5
A
ALA
23
-27.27
-46.32
5
A
ALA
53
-33.66
96.53
5
A
THR
57
-110.72
-135.39
5
A
ASP
58
-70.27
-74.18
5
A
ASN
74
-60.69
-88.84
5
A
TRP
76
159.85
-30.84
5
A
CYS
77
-7.23
139.42
5
A
TRP
80
16.84
-100.12
5
A
THR
81
78.68
118.20
5
A
LYS
83
-54.09
87.73
5
A
ALA
84
-100.80
69.01
6
A
ALA
2
-161.74
107.00
6
A
ASN
20
-161.10
109.40
6
A
CYS
43
-38.43
-37.72
6
A
THR
57
-111.88
-136.62
6
A
ASP
58
-69.74
-74.90
6
A
ALA
84
-119.38
76.15
7
A
ASN
5
-82.46
48.07
7
A
THR
57
-124.35
-163.72
8
A
PHE
48
72.44
-173.23
8
A
MET
49
149.16
156.58
8
A
THR
57
-99.77
-137.10
8
A
LYS
83
-58.51
80.75
8
A
ALA
84
-106.54
64.17
9
A
ASN
5
-82.42
45.38
9
A
LYS
18
30.25
39.73
9
A
ALA
32
39.26
54.64
9
A
PHE
48
49.20
29.62
9
A
ALA
53
-57.61
104.81
9
A
THR
57
-109.14
-130.92
9
A
ASP
58
-78.21
-76.29
9
A
PHE
66
-117.88
69.05
9
A
TRP
80
28.79
-120.51
9
A
THR
81
99.12
107.28
9
A
LYS
83
-53.09
95.40
10
A
ASN
5
-82.06
49.47
10
A
THR
57
-108.01
-134.88
10
A
ASP
58
-71.59
-73.51
10
A
TRP
80
-35.82
120.37
11
A
CYS
43
-39.30
-38.73
11
A
THR
57
-110.20
-131.06
11
A
ASP
58
-78.60
-76.38
11
A
TRP
80
21.23
-111.08
11
A
THR
81
85.65
131.88
12
A
ASN
5
-81.10
45.37
12
A
ALA
53
-53.98
105.24
12
A
THR
57
-121.21
-140.00
12
A
LYS
83
-45.79
91.04
13
A
ASN
5
-83.92
39.06
13
A
THR
57
-112.05
-139.02
13
A
ASP
58
-67.83
-76.45
13
A
ASN
74
-65.54
-96.59
13
A
TRP
76
103.35
137.51
13
A
TRP
80
8.09
-104.66
13
A
THR
81
78.05
123.70
13
A
LYS
83
-56.00
100.30
14
A
ALA
53
-69.83
96.20
14
A
THR
57
-119.91
-140.34
14
A
ASP
58
-71.67
-70.74
14
A
LYS
83
-58.07
98.60
14
A
ALA
84
-95.08
54.18
15
A
ASN
5
-79.93
43.38
15
A
ALA
32
39.45
54.56
15
A
PHE
48
77.06
-32.91
15
A
THR
57
-106.62
-163.52
15
A
TRP
80
4.45
-103.31
15
A
THR
81
77.86
126.71
15
A
LYS
83
-58.82
108.65
refinement
AMBER
THE THREE DIMENSIONAL STRUCTURE OF THE REDUCED HIGH POTENTIAL IRON-SULFUR PROTEIN FROM CHROMATIUM VINOSUM THROUGH NMR
1
Y
N
2
N
N
A
ALA
12
A
ALA
12
HELX_P
A
LEU
17
A
LEU
17
1
1
6
A
ALA
23
A
ALA
23
HELX_P
A
LYS
25
A
LYS
25
5
2
3
A
GLU
27
A
GLU
27
HELX_P
A
ALA
31
A
ALA
31
5
3
5
A
PRO
38
A
PRO
38
HELX_P
A
GLU
40
A
GLU
40
5
4
3
A
CYS
43
A
CYS
43
HELX_P
A
ASN
45
A
ASN
45
5
5
3
metalc
2.039
A
CYS
43
A
SG
CYS
43
1_555
A
SF4
86
B
FE1
SF4
1_555
metalc
2.030
A
CYS
46
A
SG
CYS
46
1_555
A
SF4
86
B
FE2
SF4
1_555
metalc
2.010
A
CYS
63
A
SG
CYS
63
1_555
A
SF4
86
B
FE3
SF4
1_555
metalc
2.009
A
CYS
77
A
SG
CYS
77
1_555
A
SF4
86
B
FE4
SF4
1_555
ELECTRON TRANSFER (IRON-SULFUR)
ELECTRON TRANSFER (IRON-SULFUR)
HIP_CHRVI
UNP
1
1
P00260
MSDKPISKSRRDAVKVMLGTAAAIPMINLVGFGTARASAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHC
ANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASWTLKAG
38
122
1HRR
1
85
P00260
A
1
1
85
2
anti-parallel
A
TRP
60
A
TRP
60
A
LYS
61
A
LYS
61
A
ILE
71
A
ILE
71
A
ASN
72
A
ASN
72
BINDING SITE FOR RESIDUE SF4 A 86
A
SF4
86
Software
6
A
CYS
43
A
CYS
43
6
1_555
A
CYS
46
A
CYS
46
6
1_555
A
CYS
63
A
CYS
63
6
1_555
A
GLN
64
A
GLN
64
6
1_555
A
CYS
77
A
CYS
77
6
1_555
A
TRP
80
A
TRP
80
6
1_555
1
P 1