1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Bartalesi, I.
Bertini, I.
Hajieva, P.
Rosato, A.
Vasos, P.R.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
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
C34 H34 Fe N4 O4
618.503
HEME C
non-polymer
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
US
Biochemistry
BICHAW
0033
0006-2960
41
5112
5119
10.1021/bi015984z
11955059
Solution structure of a monoheme ferrocytochrome c from Shewanella putrefaciens and structural analysis of sequence-similar proteins: functional implications.
2002
10.2210/pdb1kx7/pdb
pdb_00001kx7
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
SINGLE WAVELENGTH
M
1
1.0
8600.770
mono-heme c-type cytochrome ScyA
1
man
polymer
618.503
HEME C
1
syn
non-polymer
MONO-HEME FERROCYTOCHROME C
no
no
ADLQDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKA
K
ADLQDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKA
K
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
Shewanella
Escherichia
sample
ScyA
24
Shewanella putrefaciens
562
Escherichia coli
BL21(DE3)C41
plasmid
pPB10ScyA
database_2
pdbx_nmr_software
pdbx_nmr_spectrometer
pdbx_struct_assembly
pdbx_struct_oper_list
struct_conn
struct_conn_type
struct_ref_seq_dif
struct_site
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2002-02-13
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
_pdbx_nmr_spectrometer.model
_struct_conn.conn_type_id
_struct_conn.id
_struct_conn.pdbx_dist_value
_struct_conn.pdbx_leaving_atom_flag
_struct_conn.ptnr1_auth_comp_id
_struct_conn.ptnr1_auth_seq_id
_struct_conn.ptnr1_label_asym_id
_struct_conn.ptnr1_label_atom_id
_struct_conn.ptnr1_label_comp_id
_struct_conn.ptnr1_label_seq_id
_struct_conn.ptnr2_auth_comp_id
_struct_conn.ptnr2_auth_seq_id
_struct_conn.ptnr2_label_asym_id
_struct_conn.ptnr2_label_atom_id
_struct_conn.ptnr2_label_comp_id
_struct_conn.ptnr2_label_seq_id
_struct_conn_type.id
_struct_ref_seq_dif.details
_struct_site.pdbx_auth_asym_id
_struct_site.pdbx_auth_comp_id
_struct_site.pdbx_auth_seq_id
minimized AVERAGE structure
of S. putrefaciens MONO-HEME C-TYPE CYTOCHROME SCYA
SEQUENCE
Recombinant protein, without the signaling peptide.
The first three amino-acids (Ala Asp Leu) have
been added for protein expression purposes.
RCSB
Y
RCSB
2002-01-31
REL
REL
HEC
HEME C
target function
250
30
3D_15N-separated_NOESY
3D_15N-separated_TOCSY
2D_NOESY
2D_TOCSY
HNHA
HNHB
15N-HSQC
7.0
ambient
298
K
simulated annealing in the dihedral angle space in dyana in 15000 steps; 30 structures with the lowest target function out of a total
number of 250 generated structures constitute the REM family - subject to restrained energy minimization in AMBER
1.5 mM Cytochrome c: 100 mM phosphate buffer; reduced with dithyonite
90% H2O/10% D2O
Guntert, P., Mumenthaler, C., Wuthrich, K.
structure solution
DYANA
1.5
Case
refinement
Amber
6
800
Bruker
AVANCE
700
Bruker
AVANCE
600
Bruker
AVANCE
HEC
90
2
HEC
HEC
90
A
ALA
-3
n
1
ALA
-3
A
ASP
-2
n
2
ASP
-2
A
LEU
-1
n
3
LEU
-1
A
GLN
1
n
4
GLN
1
A
ASP
2
n
5
ASP
2
A
ALA
3
n
6
ALA
3
A
GLU
4
n
7
GLU
4
A
ALA
5
n
8
ALA
5
A
ILE
6
n
9
ILE
6
A
TYR
7
n
10
TYR
7
A
ASN
8
n
11
ASN
8
A
LYS
9
n
12
LYS
9
A
ALA
10
n
13
ALA
10
A
CYS
11
n
14
CYS
11
A
THR
12
n
15
THR
12
A
VAL
13
n
16
VAL
13
A
CYS
14
n
17
CYS
14
A
HIS
15
n
18
HIS
15
A
SER
16
n
19
SER
16
A
MET
17
n
20
MET
17
A
GLY
18
n
21
GLY
18
A
VAL
19
n
22
VAL
19
A
ALA
20
n
23
ALA
20
A
GLY
21
n
24
GLY
21
A
ALA
22
n
25
ALA
22
A
PRO
23
n
26
PRO
23
A
LYS
24
n
27
LYS
24
A
SER
25
n
28
SER
25
A
HIS
26
n
29
HIS
26
A
ASN
27
n
30
ASN
27
A
THR
28
n
31
THR
28
A
ALA
29
n
32
ALA
29
A
ASP
30
n
33
ASP
30
A
TRP
31
n
34
TRP
31
A
GLU
32
n
35
GLU
32
A
PRO
33
n
36
PRO
33
A
ARG
34
n
37
ARG
34
A
LEU
35
n
38
LEU
35
A
ALA
36
n
39
ALA
36
A
LYS
37
n
40
LYS
37
A
GLY
38
n
41
GLY
38
A
VAL
39
n
42
VAL
39
A
ASP
40
n
43
ASP
40
A
ASN
41
n
44
ASN
41
A
LEU
42
n
45
LEU
42
A
VAL
43
n
46
VAL
43
A
LYS
44
n
47
LYS
44
A
SER
45
n
48
SER
45
A
VAL
46
n
49
VAL
46
A
LYS
47
n
50
LYS
47
A
THR
48
n
51
THR
48
A
GLY
49
n
52
GLY
49
A
LEU
50
n
53
LEU
50
A
ASN
51
n
54
ASN
51
A
ALA
52
n
55
ALA
52
A
MET
53
n
56
MET
53
A
PRO
54
n
57
PRO
54
A
PRO
55
n
58
PRO
55
A
GLY
56
n
59
GLY
56
A
GLY
57
n
60
GLY
57
A
MET
58
n
61
MET
58
A
CYS
59
n
62
CYS
59
A
THR
60
n
63
THR
60
A
ASP
61
n
64
ASP
61
A
CYS
62
n
65
CYS
62
A
THR
63
n
66
THR
63
A
ASP
64
n
67
ASP
64
A
GLU
65
n
68
GLU
65
A
ASP
66
n
69
ASP
66
A
TYR
67
n
70
TYR
67
A
LYS
68
n
71
LYS
68
A
ALA
69
n
72
ALA
69
A
ALA
70
n
73
ALA
70
A
ILE
71
n
74
ILE
71
A
GLU
72
n
75
GLU
72
A
PHE
73
n
76
PHE
73
A
MET
74
n
77
MET
74
A
SER
75
n
78
SER
75
A
LYS
76
n
79
LYS
76
A
ALA
77
n
80
ALA
77
A
LYS
78
n
81
LYS
78
A
author_defined_assembly
1
monomeric
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NA
HEC
1_555
93.4
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NB
HEC
1_555
87.8
A
HEC
90
B
NA
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NB
HEC
1_555
90.2
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NC
HEC
1_555
88.8
A
HEC
90
B
NA
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NC
HEC
1_555
177.2
A
HEC
90
B
NB
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
NC
HEC
1_555
91.7
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
ND
HEC
1_555
88.6
A
HEC
90
B
NA
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
ND
HEC
1_555
89.5
A
HEC
90
B
NB
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
ND
HEC
1_555
176.4
A
HEC
90
B
NC
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
HEC
90
B
ND
HEC
1_555
88.8
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
A
MET
53
A
SD
MET
56
1_555
170.6
A
HEC
90
B
NA
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
MET
53
A
SD
MET
56
1_555
83.7
A
HEC
90
B
NB
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
MET
53
A
SD
MET
56
1_555
101.1
A
HEC
90
B
NC
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
MET
53
A
SD
MET
56
1_555
93.8
A
HEC
90
B
ND
HEC
1_555
A
HEC
90
B
FE
HEC
1_555
A
MET
53
A
SD
MET
56
1_555
82.5
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
13
A
A
ALA
ASP
-3
-2
-149.35
25
A
A
ALA
ASP
-3
-2
-144.42
1
A
TYR
7
0.104
SIDE CHAIN
2
A
TYR
7
0.092
SIDE CHAIN
3
A
TYR
7
0.096
SIDE CHAIN
3
A
ARG
34
0.145
SIDE CHAIN
3
A
TYR
67
0.104
SIDE CHAIN
4
A
TYR
7
0.119
SIDE CHAIN
4
A
TYR
67
0.096
SIDE CHAIN
5
A
TYR
7
0.077
SIDE CHAIN
5
A
TYR
67
0.159
SIDE CHAIN
6
A
TYR
7
0.067
SIDE CHAIN
6
A
TYR
67
0.069
SIDE CHAIN
7
A
TYR
7
0.097
SIDE CHAIN
7
A
TYR
67
0.079
SIDE CHAIN
8
A
TYR
7
0.074
SIDE CHAIN
8
A
TYR
67
0.121
SIDE CHAIN
9
A
TYR
7
0.086
SIDE CHAIN
9
A
TYR
67
0.148
SIDE CHAIN
10
A
TYR
7
0.089
SIDE CHAIN
10
A
TYR
67
0.064
SIDE CHAIN
11
A
TYR
7
0.116
SIDE CHAIN
12
A
TYR
7
0.105
SIDE CHAIN
13
A
TYR
7
0.088
SIDE CHAIN
14
A
TYR
7
0.092
SIDE CHAIN
15
A
TYR
7
0.083
SIDE CHAIN
15
A
TYR
67
0.137
SIDE CHAIN
16
A
TYR
7
0.119
SIDE CHAIN
17
A
TYR
7
0.081
SIDE CHAIN
17
A
TYR
67
0.077
SIDE CHAIN
18
A
TYR
7
0.104
SIDE CHAIN
18
A
ARG
34
0.088
SIDE CHAIN
18
A
TYR
67
0.077
SIDE CHAIN
19
A
TYR
7
0.090
SIDE CHAIN
19
A
ARG
34
0.146
SIDE CHAIN
19
A
TYR
67
0.104
SIDE CHAIN
20
A
TYR
7
0.102
SIDE CHAIN
21
A
TYR
7
0.081
SIDE CHAIN
21
A
ARG
34
0.095
SIDE CHAIN
21
A
TYR
67
0.180
SIDE CHAIN
22
A
ARG
34
0.163
SIDE CHAIN
23
A
TYR
7
0.112
SIDE CHAIN
24
A
TYR
7
0.107
SIDE CHAIN
24
A
ARG
34
0.128
SIDE CHAIN
25
A
TYR
7
0.097
SIDE CHAIN
27
A
TYR
7
0.121
SIDE CHAIN
27
A
TYR
67
0.075
SIDE CHAIN
28
A
TYR
67
0.086
SIDE CHAIN
29
A
TYR
7
0.098
SIDE CHAIN
29
A
TYR
67
0.078
SIDE CHAIN
2
-6.76
0.90
118.30
111.54
A
A
A
CB
CG
OD2
ASP
ASP
ASP
30
30
30
N
4
-6.28
0.90
118.30
112.02
A
A
A
CB
CG
OD2
ASP
ASP
ASP
30
30
30
N
4
-3.73
0.60
121.00
117.27
A
A
A
CB
CG
CD2
TYR
TYR
TYR
67
67
67
N
7
-6.78
0.90
118.30
111.52
A
A
A
CB
CG
OD2
ASP
ASP
ASP
30
30
30
N
8
-4.27
0.60
121.00
116.73
A
A
A
CB
CG
CD2
TYR
TYR
TYR
67
67
67
N
9
-3.85
0.60
121.00
117.15
A
A
A
CB
CG
CD2
TYR
TYR
TYR
67
67
67
N
11
7.31
1.10
114.20
121.51
A
A
A
CA
CB
SG
CYS
CYS
CYS
62
62
62
N
12
-6.27
0.90
118.30
112.03
A
A
A
CB
CG
OD2
ASP
ASP
ASP
30
30
30
N
13
6.66
1.10
114.20
120.86
A
A
A
CA
CB
SG
CYS
CYS
CYS
59
59
59
N
14
7.95
1.10
114.20
122.15
A
A
A
CA
CB
SG
CYS
CYS
CYS
62
62
62
N
16
-5.45
0.90
118.30
112.85
A
A
A
CB
CG
OD2
ASP
ASP
ASP
30
30
30
N
29
-3.62
0.60
121.00
117.38
A
A
A
CB
CG
CD2
TYR
TYR
TYR
67
67
67
N
1
A
LEU
-1
-109.11
58.11
1
A
ALA
10
-109.48
-65.93
1
A
CYS
11
-74.88
40.18
1
A
CYS
14
-91.01
-63.98
1
A
ALA
20
59.07
18.90
1
A
LEU
35
-61.77
8.78
1
A
VAL
39
-127.04
-60.45
1
A
THR
60
-145.99
-67.62
1
A
SER
75
-163.92
-87.41
1
A
LYS
76
172.43
53.15
1
A
ALA
77
-160.55
-85.27
2
A
ALA
10
-106.62
-66.34
2
A
CYS
11
-78.67
41.10
2
A
ALA
20
59.23
16.89
2
A
LEU
35
-66.18
2.18
2
A
LYS
37
-125.42
-61.96
2
A
VAL
39
-146.81
-55.74
2
A
ASP
40
-69.13
26.62
2
A
LEU
50
-78.49
-146.09
2
A
MET
58
-174.44
-37.21
2
A
THR
60
-128.10
-60.67
2
A
GLU
65
-28.92
-64.29
2
A
SER
75
-152.72
-89.91
2
A
LYS
76
169.17
54.96
2
A
ALA
77
-167.22
-87.72
3
A
ASP
-2
-164.06
82.68
3
A
LEU
-1
-77.18
36.11
3
A
CYS
11
-75.56
40.63
3
A
CYS
14
-104.06
-61.09
3
A
ALA
20
-83.75
35.40
3
A
VAL
39
-144.09
-57.97
3
A
ASP
40
-63.89
6.73
3
A
MET
58
77.58
44.97
3
A
THR
60
-108.78
-88.14
3
A
ASP
61
-106.14
74.93
3
A
SER
75
-167.27
46.67
3
A
LYS
76
37.88
60.71
3
A
ALA
77
-162.31
-82.00
4
A
ASP
-2
-160.87
27.71
4
A
ALA
10
-103.46
-67.73
4
A
CYS
11
-76.54
38.73
4
A
CYS
14
-99.46
-61.26
4
A
VAL
39
-149.02
-55.82
4
A
ASP
40
-71.76
28.88
4
A
LEU
50
-78.02
-152.90
4
A
MET
58
62.83
-0.85
4
A
THR
60
65.54
-71.34
4
A
SER
75
-164.07
33.81
4
A
LYS
76
38.23
61.27
4
A
ALA
77
-149.49
-55.57
5
A
ASP
-2
-161.38
91.52
5
A
LEU
-1
-144.68
30.74
5
A
ALA
10
-108.05
-64.67
5
A
CYS
11
-77.10
41.74
5
A
ALA
20
-82.94
32.92
5
A
HIS
26
-119.80
73.72
5
A
LEU
35
-58.18
0.35
5
A
LYS
37
-94.61
-64.68
5
A
VAL
39
-38.59
116.06
5
A
ASP
40
138.23
-19.99
5
A
MET
58
77.18
37.92
5
A
THR
60
-102.88
-64.06
5
A
MET
74
-67.62
-75.01
5
A
SER
75
-153.75
25.51
5
A
LYS
76
34.39
61.35
5
A
ALA
77
-142.84
-56.76
6
A
ALA
10
-109.50
-65.03
6
A
CYS
11
-75.82
41.43
6
A
SER
25
-43.28
-70.02
6
A
PRO
33
-69.12
1.16
6
A
LEU
35
-59.50
5.31
6
A
VAL
39
-138.40
-65.54
6
A
ASP
40
-61.70
15.86
6
A
MET
58
81.24
27.09
6
A
THR
60
-100.71
-91.94
6
A
ASP
61
-92.57
46.53
6
A
SER
75
-154.20
-77.32
6
A
LYS
76
157.99
58.22
6
A
ALA
77
-174.14
-75.96
7
A
ALA
10
-108.71
-68.87
7
A
CYS
11
-76.54
45.05
7
A
CYS
14
-102.57
-63.31
7
A
ALA
20
59.84
19.29
7
A
PRO
33
-67.99
2.40
7
A
ASP
40
76.18
-34.04
7
A
LEU
50
-67.61
-179.09
7
A
MET
58
-171.26
-47.31
7
A
THR
60
-103.60
-64.17
7
A
MET
74
-87.36
-71.29
7
A
SER
75
-160.13
36.49
7
A
LYS
76
33.23
66.55
7
A
ALA
77
-163.17
-49.18
8
A
ALA
10
-110.69
-70.70
8
A
CYS
11
-75.98
38.69
8
A
LYS
37
-133.20
-45.30
8
A
VAL
39
-129.75
-55.01
8
A
ASP
40
-73.64
32.93
8
A
MET
58
73.48
-59.51
8
A
SER
75
-141.66
-93.84
8
A
LYS
76
-174.89
56.11
8
A
ALA
77
-161.71
-75.38
9
A
ALA
10
-106.05
-67.27
9
A
CYS
11
-77.73
43.05
9
A
HIS
26
-146.54
-43.30
9
A
LEU
35
-66.36
22.80
9
A
VAL
39
-123.76
-54.53
9
A
MET
58
80.12
-45.52
9
A
SER
75
-166.80
-74.18
9
A
LYS
76
164.10
43.58
9
A
ALA
77
-161.63
-81.58
10
A
ASP
-2
-162.16
35.75
10
A
CYS
11
-76.04
37.81
10
A
ALA
20
58.97
17.16
10
A
SER
25
-37.96
-35.30
10
A
VAL
39
-141.61
-59.71
10
A
SER
75
-163.08
32.23
10
A
LYS
76
37.29
53.95
10
A
ALA
77
-140.77
-54.64
11
A
ALA
10
-109.65
-69.54
11
A
CYS
11
-75.38
43.95
11
A
ALA
20
-82.97
30.79
11
A
HIS
26
-140.76
40.14
11
A
ASN
41
-92.63
-62.14
11
A
LEU
50
-72.56
-145.30
11
A
MET
58
-171.98
40.16
11
A
THR
60
-81.99
-98.77
11
A
CYS
62
-60.75
86.07
11
A
SER
75
-164.30
27.94
11
A
ALA
77
-132.64
-84.66
12
A
ASP
-2
-178.60
115.13
12
A
LEU
-1
-145.79
32.86
12
A
ALA
10
-108.11
-64.94
12
A
CYS
11
-76.42
44.16
12
A
CYS
14
-92.07
-63.68
12
A
VAL
39
-134.63
-56.27
12
A
MET
58
84.93
12.41
12
A
THR
60
-131.19
-49.48
12
A
SER
75
-154.15
-79.29
12
A
LYS
76
161.48
47.05
12
A
ALA
77
-161.20
-88.58
13
A
ALA
10
-105.73
-67.77
13
A
CYS
11
-77.04
41.86
13
A
LEU
35
-59.41
0.96
13
A
ASP
40
69.30
-27.51
13
A
LEU
50
-74.60
-155.23
13
A
MET
58
72.34
-51.98
13
A
SER
75
-177.09
129.45
13
A
LYS
76
-49.02
74.16
13
A
ALA
77
-163.99
-65.40
14
A
ALA
10
-107.72
-66.72
14
A
CYS
11
-76.04
39.64
14
A
HIS
26
-142.01
57.78
14
A
VAL
39
-137.86
-54.02
14
A
ASP
40
-74.38
34.50
14
A
LEU
50
-105.77
-145.74
14
A
MET
58
76.39
-45.54
14
A
MET
74
-82.50
-70.43
14
A
SER
75
-161.34
32.48
14
A
LYS
76
36.94
57.74
14
A
ALA
77
-143.05
-52.65
15
A
ASP
2
-144.47
-153.39
15
A
CYS
11
-75.74
41.20
15
A
ALA
20
-83.10
33.23
15
A
HIS
26
-145.82
45.65
15
A
PRO
33
-76.47
21.57
15
A
VAL
39
-144.01
-56.64
15
A
ASP
40
-68.49
17.17
15
A
MET
58
71.15
45.58
15
A
CYS
59
-125.50
-52.60
15
A
THR
60
70.20
-69.47
15
A
SER
75
-166.53
35.37
15
A
LYS
76
37.29
51.65
15
A
ALA
77
-141.30
-82.93
16
A
LEU
-1
-74.56
38.81
16
A
ALA
10
-104.98
-70.67
16
A
CYS
11
-76.49
42.07
16
A
ALA
20
-82.55
32.01
16
A
SER
25
-19.58
-51.26
16
A
HIS
26
-144.68
53.10
16
A
VAL
39
-138.62
-64.57
16
A
MET
58
-174.13
-48.27
16
A
MET
74
-80.45
-71.97
16
A
SER
75
-162.96
45.59
16
A
LYS
76
36.11
57.98
16
A
ALA
77
-161.21
-80.01
17
A
ASP
-2
-161.25
98.66
17
A
LEU
-1
-145.90
31.45
17
A
ALA
10
-109.03
-67.70
17
A
CYS
11
-76.78
45.07
17
A
CYS
14
-107.40
-64.12
17
A
ALA
20
58.11
19.00
17
A
VAL
39
-134.05
-58.03
17
A
ASP
40
-68.87
19.09
17
A
MET
58
73.59
-7.08
17
A
ASP
61
-101.31
77.18
17
A
SER
75
-150.84
-75.37
17
A
LYS
76
155.60
50.95
17
A
ALA
77
-164.26
-82.37
18
A
ASP
-2
-161.88
109.00
18
A
ALA
10
-109.47
-64.27
18
A
CYS
11
-73.92
29.13
18
A
CYS
14
-95.85
-63.43
18
A
LEU
35
-57.51
3.91
18
A
VAL
39
-131.50
-58.48
18
A
ASP
40
-75.73
35.54
18
A
LEU
50
-73.29
-150.87
18
A
THR
60
-116.15
-77.93
18
A
ASP
61
-79.10
46.30
18
A
THR
63
-112.17
-103.33
18
A
ASP
64
-139.74
-48.42
18
A
SER
75
-157.56
-71.79
18
A
LYS
76
152.21
57.87
18
A
ALA
77
-170.56
-75.52
19
A
LEU
-1
-111.92
72.75
19
A
CYS
11
-75.94
45.58
19
A
ALA
20
57.70
18.16
19
A
SER
25
0.84
-82.39
19
A
VAL
39
-147.54
-61.62
19
A
ASP
40
-76.71
36.44
19
A
LEU
50
-71.44
-163.18
19
A
MET
58
70.13
-4.04
19
A
THR
60
67.38
-60.65
19
A
SER
75
-177.65
121.21
19
A
LYS
76
-54.57
83.10
19
A
ALA
77
-157.76
-69.58
20
A
CYS
11
-74.39
31.90
20
A
CYS
14
-92.44
-64.24
20
A
LEU
35
-55.06
-4.30
20
A
VAL
39
-140.39
-56.92
20
A
ASP
40
-69.88
11.19
20
A
LEU
50
-74.42
-152.48
20
A
ALA
52
-101.39
44.19
20
A
MET
58
-175.00
38.93
20
A
MET
74
-81.65
-73.14
20
A
SER
75
-160.20
33.87
20
A
ALA
77
-150.97
-92.71
21
A
ASP
2
-139.69
-137.44
21
A
ALA
3
-147.94
-49.45
21
A
CYS
11
-76.20
42.84
21
A
ALA
20
59.68
19.66
21
A
HIS
26
-146.96
-45.59
21
A
VAL
39
-139.61
-57.53
21
A
LEU
50
-68.90
-170.48
21
A
THR
60
-69.75
-82.22
21
A
THR
63
-97.66
-83.49
21
A
ASP
64
-156.08
-53.75
21
A
MET
74
-90.09
-72.72
21
A
SER
75
-158.49
37.73
21
A
ALA
77
-159.72
-78.35
22
A
ASP
-2
-163.51
41.97
22
A
ALA
10
-107.23
-63.84
22
A
CYS
11
-76.40
35.60
22
A
ALA
20
59.63
16.17
22
A
VAL
39
-153.83
-61.58
22
A
ASP
40
-72.60
24.52
22
A
LEU
50
-75.71
-154.79
22
A
MET
58
83.02
-41.02
22
A
THR
60
-125.17
-73.59
22
A
ASP
64
-39.59
-38.41
22
A
MET
74
-87.59
-78.05
22
A
SER
75
-153.37
37.61
22
A
LYS
76
32.78
66.14
22
A
ALA
77
-160.09
-53.86
23
A
ASP
-2
-163.34
55.68
23
A
ALA
10
-102.40
-68.23
23
A
CYS
11
-77.82
41.12
23
A
ALA
20
-82.05
31.22
23
A
SER
25
-17.33
-74.04
23
A
PRO
33
-69.70
9.75
23
A
LEU
35
-63.43
9.01
23
A
VAL
39
-132.75
-63.15
23
A
ASP
40
-65.66
10.15
23
A
LEU
50
-57.44
172.38
23
A
THR
60
-81.54
-75.03
23
A
SER
75
-141.66
-87.40
23
A
LYS
76
174.34
49.27
23
A
ALA
77
-168.40
-83.97
24
A
ASP
-2
-163.12
85.38
24
A
CYS
11
-76.01
42.05
24
A
ALA
20
-82.91
33.72
24
A
PRO
33
-69.65
22.13
24
A
LEU
35
-54.81
-5.45
24
A
ASP
40
73.45
-42.15
24
A
MET
58
91.55
-27.13
24
A
THR
63
-100.54
-91.09
24
A
ASP
64
-152.45
-50.03
24
A
MET
74
-69.19
-74.05
24
A
SER
75
-161.00
37.76
24
A
ALA
77
-158.86
-87.40
25
A
ASP
-2
-164.47
105.11
25
A
CYS
11
-75.51
40.32
25
A
HIS
26
-146.72
-39.71
25
A
PRO
33
-69.35
14.97
25
A
VAL
39
-136.29
-58.84
25
A
ASP
40
-64.67
11.08
25
A
MET
58
80.25
55.15
25
A
THR
60
-118.02
-89.28
25
A
GLU
65
-28.58
-62.04
25
A
MET
74
-75.32
-70.70
25
A
SER
75
-161.71
32.59
25
A
LYS
76
39.42
55.36
25
A
ALA
77
-140.08
-61.85
26
A
ASP
-2
-160.85
44.60
26
A
CYS
11
-75.15
43.24
26
A
ALA
20
-82.47
30.74
26
A
LEU
35
-65.72
16.76
26
A
ASP
40
70.79
-45.04
26
A
LEU
50
-71.91
-163.68
26
A
THR
60
11.55
-96.42
26
A
ASP
64
-39.27
-37.11
26
A
SER
75
-164.28
-78.18
26
A
LYS
76
163.09
45.03
26
A
ALA
77
-152.45
-81.05
27
A
ALA
10
-103.26
-68.35
27
A
CYS
11
-76.65
41.99
27
A
ALA
20
-83.05
32.83
27
A
SER
25
-37.13
-35.84
27
A
LEU
35
-65.89
22.10
27
A
VAL
39
62.03
165.36
27
A
ASP
40
77.41
-50.96
27
A
MET
58
70.19
44.42
27
A
THR
60
-112.16
-91.97
27
A
SER
75
-162.59
-71.48
27
A
LYS
76
160.43
50.11
27
A
ALA
77
-160.10
-80.95
28
A
ASP
2
-134.81
-129.49
28
A
ALA
3
-149.70
-52.20
28
A
CYS
11
-76.28
43.83
28
A
ALA
20
57.53
19.84
28
A
VAL
39
-151.40
-56.42
28
A
ASP
40
-58.07
1.78
28
A
THR
60
65.00
-127.97
28
A
CYS
62
-60.90
96.34
28
A
ASP
64
-38.83
-38.50
28
A
MET
74
-68.64
-70.37
28
A
SER
75
-162.45
31.56
28
A
LYS
76
35.58
51.10
28
A
ALA
77
-132.17
-49.82
29
A
ASP
-2
-161.06
119.95
29
A
CYS
11
-74.46
39.74
29
A
SER
25
-35.63
-37.79
29
A
ASP
40
73.80
-43.55
29
A
LEU
50
-125.43
-157.54
29
A
ALA
52
56.29
18.86
29
A
GLU
65
-28.35
-60.85
29
A
MET
74
-86.43
-72.48
29
A
SER
75
-158.34
34.16
29
A
ALA
77
-158.94
-81.73
30
A
ALA
10
-107.99
-72.30
30
A
CYS
11
-75.74
37.30
30
A
CYS
14
-101.09
-63.53
30
A
HIS
26
-141.05
51.48
30
A
LEU
35
-57.00
0.16
30
A
LYS
37
-106.16
-63.45
30
A
ASP
40
-64.49
10.42
30
A
LEU
50
-69.28
-157.33
30
A
MET
58
-171.84
-39.05
30
A
THR
60
72.76
-62.40
30
A
MET
74
-76.61
-78.97
30
A
SER
75
-151.62
37.06
30
A
LYS
76
39.74
58.02
30
A
ALA
77
-155.02
-75.82
Family of 30 conformers of a mono-heme ferrocytochrome c from Shewanella putrefaciens solved by NMR
1
N
N
2
N
N
A
ASP
2
A
ASP
5
HELX_P
A
ALA
10
A
ALA
13
1
1
9
A
VAL
39
A
VAL
42
HELX_P
A
GLY
49
A
GLY
52
1
2
11
A
THR
63
A
THR
66
HELX_P
A
SER
75
A
SER
78
1
3
13
disulf
2.097
A
CYS
59
A
SG
CYS
62
1_555
A
CYS
62
A
SG
CYS
65
1_555
covale
1.811
none
A
CYS
11
A
SG
CYS
14
1_555
A
HEC
90
B
CAB
HEC
1_555
covale
1.830
none
A
CYS
14
A
SG
CYS
17
1_555
A
HEC
90
B
CAC
HEC
1_555
metalc
1.973
A
HIS
15
A
NE2
HIS
18
1_555
A
HEC
90
B
FE
HEC
1_555
metalc
2.363
A
MET
53
A
SD
MET
56
1_555
A
HEC
90
B
FE
HEC
1_555
OXYGEN STORAGE/TRANSPORT
haem protein, ferrocytochrome, electron transport, gram negative, bacteria, ScyA Shewanella Putrefaciens, mono haem, all-alpha, OXYGEN STORAGE-TRANSPORT COMPLEX
O52685_SHEPU
UNP
1
22
O52685
QDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKAK
22
99
1KX7
1
78
O52685
A
1
4
81
1
cloning artifact
ALA
-3
1KX7
A
O52685
UNP
1
1
cloning artifact
ASP
-2
1KX7
A
O52685
UNP
2
1
cloning artifact
LEU
-1
1KX7
A
O52685
UNP
3
BINDING SITE FOR RESIDUE HEC A 90
A
HEC
90
Software
16
A
ALA
10
A
ALA
13
16
1_555
A
CYS
11
A
CYS
14
16
1_555
A
CYS
14
A
CYS
17
16
1_555
A
HIS
15
A
HIS
18
16
1_555
A
ALA
20
A
ALA
23
16
1_555
A
ALA
22
A
ALA
25
16
1_555
A
PRO
23
A
PRO
26
16
1_555
A
ARG
34
A
ARG
37
16
1_555
A
LEU
42
A
LEU
45
16
1_555
A
VAL
46
A
VAL
49
16
1_555
A
LEU
50
A
LEU
53
16
1_555
A
ALA
52
A
ALA
55
16
1_555
A
MET
53
A
MET
56
16
1_555
A
GLY
57
A
GLY
60
16
1_555
A
ILE
71
A
ILE
74
16
1_555
A
LYS
78
A
LYS
81
16
1_555