1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Brennan, L.
Turner, D.L.
Fareleira, P.
Santos, H.
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 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
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
308
353
10.1006/JMBI.2001.4600
11327772
Solution Structure of Methylophilus Methylotrophus Cytochrome C": Insights Into the Structural Basis of Haem-Ligand Detachment
2001
IX
Eur.J.Biochem.
EJBCAI
0262
0014-2956
215
817
10.1111/J.1432-1033.1993.TB18097.X
8394812
Characterization of the Haem Environment in Methylophilus Methylotrophus Ferricytochrome C'' by 1H-NMR
1993
IX
Eur.J.Biochem.
EJBCAI
0262
0014-2956
208
427
10.1111/J.1432-1033.1992.TB17204.X
1325909
Involvement of a Labile Axial Histidine in Coupling Electron and Proton Transfer in Methylophilus Methylotrophus Cytochrome C''
1992
NE
Biochim.Biophys.Acta
BBACAQ
0113
0006-3002
954
277
Characterization and NMR Studies of a Novel Cytochrome C Isolated from Methylophilus Methylotrophus which Shows a Redox-Linked Change Os Spin-State
1988
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
C-TYPE CYTOCHROME, FULLY OXIDISED FORM
13699.490
CYTOCHROME C''
1
nat
polymer
618.503
HEME C
1
syn
non-polymer
no
no
DVTNAEKLVYKYTNIAHSANPMYEAPSITDGKIFFNRKFKTPSGKEAACASCHTNNPANVGKNIVTGKEIPPLAPRVNTK
RFTDIDKVEDEFTKHCNDILGADCSPSEKANFIAYLLTETKPTK
DVTNAEKLVYKYTNIAHSANPMYEAPSITDGKIFFNRKFKTPSGKEAACASCHTNNPANVGKNIVTGKEIPPLAPRVNTK
RFTDIDKVEDEFTKHCNDILGADCSPSEKANFIAYLLTETKPTK
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
n
n
n
n
n
n
n
n
n
BACTERIUM W3A1
sample
17
METHYLOPHILUS METHYLOTROPHUS
pdbx_database_status
struct_conn
repository
Initial release
Version format compliance
Version format compliance
Derived calculations
Other
1
0
2001-09-20
1
1
2011-05-08
1
2
2011-07-13
1
3
2020-01-15
_pdbx_database_status.status_code_cs
_pdbx_database_status.status_code_mr
_struct_conn.pdbx_leaving_atom_flag
PDBE
Y
PDBE
2000-09-20
REL
REL
REL
HEC
HEME C
LEAST RESTRAINT VIOLATION
400
20
2D-1H-NOESY
2D-1H-TOCSY
2D-1H-COSY
3D(15N
1H)-TOCSY-HSQC
3D(15N
1H)-NOESY-HSQC
5.6
pH
298
K
DIPOLAR SHIFTS WERE USED AS RESTRAINTS IN AN EXTENDED VERSION OF DYANA CALLED PARADYANA. D.L.TURNER,L,BRENNAN,S.G.CHAMBERLIN, R.O.LOURO,A.V.XAVIER (1998)DETERMINATION OF SOLUTION STRUCTURES OF PARAMAGNETIC PROTEINS BY NMR.EUR.BIOPHYS.J.27,367-375.
TORSION ANGLE DYNAMICS WITH SIMULATED ANNEALING
1
10 MM PHOSPATE BUFFER
D.L.TURNER,L.BRENNAN,S.G.CHAMBERLIN, R.O.LOURO, A.V.XAVIER
refinement
PARADYANA
structure solution
PARADYANA
750
Varian
UNITYPLUS
HEC
125
2
HEC
HEC
125
A
ASP
1
n
1
ASP
1
A
VAL
2
n
2
VAL
2
A
THR
3
n
3
THR
3
A
ASN
4
n
4
ASN
4
A
ALA
5
n
5
ALA
5
A
GLU
6
n
6
GLU
6
A
LYS
7
n
7
LYS
7
A
LEU
8
n
8
LEU
8
A
VAL
9
n
9
VAL
9
A
TYR
10
n
10
TYR
10
A
LYS
11
n
11
LYS
11
A
TYR
12
n
12
TYR
12
A
THR
13
n
13
THR
13
A
ASN
14
n
14
ASN
14
A
ILE
15
n
15
ILE
15
A
ALA
16
n
16
ALA
16
A
HIS
17
n
17
HIS
17
A
SER
18
n
18
SER
18
A
ALA
19
n
19
ALA
19
A
ASN
20
n
20
ASN
20
A
PRO
21
n
21
PRO
21
A
MET
22
n
22
MET
22
A
TYR
23
n
23
TYR
23
A
GLU
24
n
24
GLU
24
A
ALA
25
n
25
ALA
25
A
PRO
26
n
26
PRO
26
A
SER
27
n
27
SER
27
A
ILE
28
n
28
ILE
28
A
THR
29
n
29
THR
29
A
ASP
30
n
30
ASP
30
A
GLY
31
n
31
GLY
31
A
LYS
32
n
32
LYS
32
A
ILE
33
n
33
ILE
33
A
PHE
34
n
34
PHE
34
A
PHE
35
n
35
PHE
35
A
ASN
36
n
36
ASN
36
A
ARG
37
n
37
ARG
37
A
LYS
38
n
38
LYS
38
A
PHE
39
n
39
PHE
39
A
LYS
40
n
40
LYS
40
A
THR
41
n
41
THR
41
A
PRO
42
n
42
PRO
42
A
SER
43
n
43
SER
43
A
GLY
44
n
44
GLY
44
A
LYS
45
n
45
LYS
45
A
GLU
46
n
46
GLU
46
A
ALA
47
n
47
ALA
47
A
ALA
48
n
48
ALA
48
A
CYS
49
n
49
CYS
49
A
ALA
50
n
50
ALA
50
A
SER
51
n
51
SER
51
A
CYS
52
n
52
CYS
52
A
HIS
53
n
53
HIS
53
A
THR
54
n
54
THR
54
A
ASN
55
n
55
ASN
55
A
ASN
56
n
56
ASN
56
A
PRO
57
n
57
PRO
57
A
ALA
58
n
58
ALA
58
A
ASN
59
n
59
ASN
59
A
VAL
60
n
60
VAL
60
A
GLY
61
n
61
GLY
61
A
LYS
62
n
62
LYS
62
A
ASN
63
n
63
ASN
63
A
ILE
64
n
64
ILE
64
A
VAL
65
n
65
VAL
65
A
THR
66
n
66
THR
66
A
GLY
67
n
67
GLY
67
A
LYS
68
n
68
LYS
68
A
GLU
69
n
69
GLU
69
A
ILE
70
n
70
ILE
70
A
PRO
71
n
71
PRO
71
A
PRO
72
n
72
PRO
72
A
LEU
73
n
73
LEU
73
A
ALA
74
n
74
ALA
74
A
PRO
75
n
75
PRO
75
A
ARG
76
n
76
ARG
76
A
VAL
77
n
77
VAL
77
A
ASN
78
n
78
ASN
78
A
THR
79
n
79
THR
79
A
LYS
80
n
80
LYS
80
A
ARG
81
n
81
ARG
81
A
PHE
82
n
82
PHE
82
A
THR
83
n
83
THR
83
A
ASP
84
n
84
ASP
84
A
ILE
85
n
85
ILE
85
A
ASP
86
n
86
ASP
86
A
LYS
87
n
87
LYS
87
A
VAL
88
n
88
VAL
88
A
GLU
89
n
89
GLU
89
A
ASP
90
n
90
ASP
90
A
GLU
91
n
91
GLU
91
A
PHE
92
n
92
PHE
92
A
THR
93
n
93
THR
93
A
LYS
94
n
94
LYS
94
A
HIS
95
n
95
HIS
95
A
CYS
96
n
96
CYS
96
A
ASN
97
n
97
ASN
97
A
ASP
98
n
98
ASP
98
A
ILE
99
n
99
ILE
99
A
LEU
100
n
100
LEU
100
A
GLY
101
n
101
GLY
101
A
ALA
102
n
102
ALA
102
A
ASP
103
n
103
ASP
103
A
CYS
104
n
104
CYS
104
A
SER
105
n
105
SER
105
A
PRO
106
n
106
PRO
106
A
SER
107
n
107
SER
107
A
GLU
108
n
108
GLU
108
A
LYS
109
n
109
LYS
109
A
ALA
110
n
110
ALA
110
A
ASN
111
n
111
ASN
111
A
PHE
112
n
112
PHE
112
A
ILE
113
n
113
ILE
113
A
ALA
114
n
114
ALA
114
A
TYR
115
n
115
TYR
115
A
LEU
116
n
116
LEU
116
A
LEU
117
n
117
LEU
117
A
THR
118
n
118
THR
118
A
GLU
119
n
119
GLU
119
A
THR
120
n
120
THR
120
A
LYS
121
n
121
LYS
121
A
PRO
122
n
122
PRO
122
A
THR
123
n
123
THR
123
A
LYS
124
n
124
LYS
124
A
author_defined_assembly
1
monomeric
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NA
HEC
1_555
91.6
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NB
HEC
1_555
90.3
A
HEC
125
B
NA
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NB
HEC
1_555
90.1
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NC
HEC
1_555
91.0
A
HEC
125
B
NA
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NC
HEC
1_555
177.4
A
HEC
125
B
NB
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
NC
HEC
1_555
90.5
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
ND
HEC
1_555
87.1
A
HEC
125
B
NA
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
ND
HEC
1_555
89.5
A
HEC
125
B
NB
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
ND
HEC
1_555
177.4
A
HEC
125
B
NC
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HEC
125
B
ND
HEC
1_555
90.0
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
A
HIS
95
A
NE2
HIS
95
1_555
178.8
A
HEC
125
B
NA
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HIS
95
A
NE2
HIS
95
1_555
88.4
A
HEC
125
B
NB
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HIS
95
A
NE2
HIS
95
1_555
90.9
A
HEC
125
B
NC
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HIS
95
A
NE2
HIS
95
1_555
89.0
A
HEC
125
B
ND
HEC
1_555
A
HEC
125
B
FE
HEC
1_555
A
HIS
95
A
NE2
HIS
95
1_555
91.7
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
PHE
39
A
O
PHE
39
A
N
ALA
47
A
N
ALA
47
1
A
A
O
H
ALA
ASN
16
20
1.51
1
A
A
O
H
VAL
GLU
2
6
1.52
2
A
A
O
H
ALA
ASN
16
20
1.52
3
A
A
O
H
ILE
ASN
33
36
1.59
4
A
A
O
H
ALA
ASN
16
20
1.51
4
A
A
O
H
VAL
GLU
2
6
1.55
6
A
A
O
H
ALA
ARG
74
76
1.60
7
A
A
O
H
HIS
ASP
95
98
1.57
8
A
A
O
HG1
SER
THR
27
29
1.54
8
A
A
HG1
OD1
THR
ASP
93
103
1.60
9
A
A
O
H
ALA
ASN
16
20
1.51
9
A
A
O
H
HIS
ASP
95
98
1.56
9
A
A
H
O
THR
LYS
41
45
1.57
9
A
A
O
H
VAL
GLU
2
6
1.58
9
A
A
O
HD21
LYS
ASN
32
36
1.58
10
A
A
O
H
ALA
ARG
74
76
1.58
10
A
A
O
H
HIS
ASP
95
98
1.58
10
A
A
H
O
THR
LYS
41
45
1.59
11
A
A
HG1
OD1
THR
ASP
93
103
1.50
11
A
A
O
H
LYS
GLU
87
91
1.60
12
A
A
OD1
H
ASN
LYS
78
80
1.60
12
A
A
O
H
HIS
ASP
95
98
1.60
13
A
A
O
H
VAL
GLU
2
6
1.50
13
A
A
O
HG1
SER
THR
27
29
1.53
13
A
A
H
O
THR
LYS
41
45
1.58
14
A
A
H
O
THR
LYS
41
45
1.56
14
A
A
O
H
CYS
LYS
52
62
1.60
14
A
A
O
H
HIS
ASP
95
98
1.60
15
A
A
O
H
VAL
GLU
2
6
1.49
16
A
A
O
H
VAL
GLU
2
6
1.48
16
A
A
O
H
PHE
ALA
39
47
1.51
16
A
A
O
H
GLU
HIS
91
95
1.60
17
A
A
O
H
VAL
GLU
2
6
1.52
17
A
A
O
H
HIS
ASP
95
98
1.58
18
A
A
O
H
TYR
GLU
115
119
1.57
18
A
A
O
H
VAL
GLU
2
6
1.58
18
A
A
HG1
OD1
THR
ASP
93
103
1.59
18
A
A
O
H
ILE
ASN
33
36
1.60
19
A
A
O
H
ILE
ASN
33
36
1.57
19
A
A
O
H
HIS
ASP
95
98
1.58
1
A
VAL
2
87.08
-41.47
1
A
LYS
11
-96.28
-71.76
1
A
LYS
32
-141.21
-66.55
1
A
ASN
36
-140.21
22.62
1
A
LYS
38
-56.42
96.24
1
A
LYS
45
172.49
124.79
1
A
THR
54
50.27
172.02
1
A
LYS
68
-81.97
-94.44
1
A
GLU
69
-177.99
123.13
1
A
PRO
71
-48.94
167.83
1
A
PRO
72
-37.76
131.46
1
A
ALA
74
-37.89
98.42
1
A
LYS
80
-107.82
43.72
1
A
PHE
82
36.44
64.76
1
A
THR
83
-101.51
-64.26
1
A
ASP
90
178.39
-50.35
1
A
ILE
99
-121.71
-51.63
1
A
THR
118
-127.49
-67.61
2
A
VAL
2
-145.91
49.10
2
A
LYS
11
-100.20
-72.79
2
A
ILE
28
-92.60
38.16
2
A
THR
29
-148.47
34.68
2
A
ASP
30
-137.23
-49.94
2
A
LYS
32
-51.98
-72.16
2
A
LYS
38
-51.66
94.27
2
A
LYS
45
178.68
112.34
2
A
THR
54
50.26
170.61
2
A
LYS
68
-79.08
-94.54
2
A
GLU
69
-179.47
123.94
2
A
PRO
71
-49.00
167.08
2
A
PRO
72
-37.18
132.05
2
A
ALA
74
-39.28
113.41
2
A
PHE
82
36.60
62.78
2
A
ASP
84
-174.86
79.70
2
A
ASP
90
176.69
-66.94
2
A
LEU
117
-91.98
33.32
2
A
THR
118
-141.62
-68.02
3
A
VAL
2
87.35
-21.65
3
A
LYS
11
-97.90
-72.72
3
A
PRO
26
-75.25
-167.45
3
A
THR
29
-162.21
35.82
3
A
ASP
30
-143.99
-49.46
3
A
LYS
32
-46.44
-74.02
3
A
ASN
36
-140.99
28.37
3
A
LYS
38
-44.50
95.69
3
A
LYS
45
-175.22
123.13
3
A
THR
54
50.25
170.39
3
A
LYS
62
176.10
131.75
3
A
ALA
74
-37.73
97.80
3
A
LYS
80
-104.93
43.82
3
A
PHE
82
39.09
64.90
3
A
THR
83
-102.34
-61.39
3
A
VAL
88
-39.93
-30.19
3
A
ASP
90
167.08
-46.32
3
A
ILE
99
-120.82
-50.60
3
A
THR
118
-99.96
-67.54
3
A
LYS
121
-176.87
145.70
4
A
VAL
2
87.17
-41.53
4
A
LYS
11
-102.73
-72.34
4
A
THR
29
-160.78
36.82
4
A
ASP
30
-142.39
-46.14
4
A
ASN
36
-140.42
24.24
4
A
LYS
38
-52.20
95.64
4
A
SER
43
-99.52
32.53
4
A
LYS
45
-176.43
135.73
4
A
THR
54
49.55
171.40
4
A
LYS
68
-77.83
-92.72
4
A
GLU
69
176.35
120.62
4
A
PRO
72
-36.89
131.85
4
A
ALA
74
-39.99
99.63
4
A
ARG
81
-143.56
-90.98
4
A
PHE
82
-80.46
48.54
4
A
ASP
86
-92.02
-76.89
4
A
ASP
90
-174.96
-71.47
4
A
THR
118
-97.34
-68.82
4
A
THR
120
-99.53
43.76
4
A
LYS
121
-176.37
149.94
5
A
VAL
2
86.95
-38.86
5
A
ASN
4
-106.01
-67.09
5
A
LYS
11
-101.40
-72.96
5
A
PRO
21
-77.20
48.55
5
A
MET
22
-151.54
39.08
5
A
PRO
26
-68.69
-172.97
5
A
SER
27
-148.14
21.57
5
A
THR
29
-127.94
-62.87
5
A
LYS
32
-161.67
-62.02
5
A
ASN
36
-142.21
27.89
5
A
LYS
38
-45.41
94.64
5
A
LYS
45
-174.88
129.46
5
A
THR
54
50.07
170.86
5
A
LYS
68
-83.63
-95.80
5
A
GLU
69
-179.21
122.88
5
A
PRO
71
-49.62
165.13
5
A
ALA
74
-37.10
96.51
5
A
PRO
75
-67.01
54.13
5
A
ARG
76
-166.05
-53.27
5
A
ASP
84
177.36
66.72
5
A
VAL
88
173.82
-34.86
5
A
LYS
109
-92.63
-64.48
5
A
LYS
121
-166.56
113.34
5
A
PRO
122
-47.10
174.50
6
A
VAL
2
-90.84
42.77
6
A
ASN
4
-105.02
-63.61
6
A
LYS
11
-100.87
-72.04
6
A
MET
22
-151.28
40.77
6
A
THR
29
-149.76
36.55
6
A
ASP
30
-145.62
-44.91
6
A
ASN
36
-140.10
23.48
6
A
LYS
38
-51.61
95.60
6
A
LYS
45
176.31
95.70
6
A
THR
54
50.72
170.83
6
A
LYS
68
-84.26
-95.32
6
A
GLU
69
-178.71
122.67
6
A
PRO
71
-48.86
164.80
6
A
ALA
74
-37.17
97.40
6
A
PRO
75
-66.38
55.01
6
A
ARG
76
-169.72
-51.25
6
A
LYS
80
-93.03
46.37
6
A
THR
83
-117.80
58.40
6
A
ASP
84
176.20
65.17
6
A
VAL
88
175.85
-35.08
6
A
ALA
114
-60.26
-70.11
7
A
LYS
11
-95.33
-73.81
7
A
PRO
21
-78.78
42.92
7
A
MET
22
-145.45
34.33
7
A
PRO
26
-74.80
-169.16
7
A
SER
27
-152.98
22.65
7
A
LYS
32
-141.77
-66.72
7
A
ASN
36
-140.21
23.23
7
A
LYS
38
-57.64
93.51
7
A
LYS
45
178.44
105.01
7
A
THR
54
50.36
171.41
7
A
LYS
68
-81.98
-95.78
7
A
GLU
69
-178.85
123.92
7
A
PRO
71
-49.83
167.38
7
A
PRO
72
-37.58
135.31
7
A
ALA
74
-36.80
98.50
7
A
ARG
81
-147.01
43.06
7
A
PHE
82
162.05
39.70
7
A
ASP
84
177.45
71.09
7
A
VAL
88
178.65
-36.01
7
A
ALA
114
-65.47
-74.26
7
A
LEU
117
-91.78
33.59
7
A
THR
118
-136.62
-67.70
7
A
LYS
121
-171.21
131.52
7
A
PRO
122
-44.98
170.23
8
A
LYS
11
-97.13
-73.67
8
A
PRO
21
-78.87
38.81
8
A
MET
22
-141.26
34.22
8
A
PRO
26
-51.33
176.14
8
A
SER
27
-142.10
20.58
8
A
THR
29
-127.51
-70.39
8
A
ASP
30
-39.90
-33.29
8
A
LYS
32
-157.69
-63.57
8
A
ASN
36
-145.86
26.73
8
A
LYS
38
-49.31
94.71
8
A
LYS
45
172.41
146.19
8
A
THR
54
49.75
172.04
8
A
LYS
68
-81.65
-93.99
8
A
GLU
69
-178.51
122.46
8
A
ALA
74
-39.12
99.60
8
A
LYS
80
-106.09
40.52
8
A
PHE
82
37.88
53.77
8
A
THR
83
-100.89
-60.89
8
A
VAL
88
175.68
-34.97
8
A
LYS
109
-91.97
-64.19
8
A
THR
120
-149.93
35.40
8
A
THR
123
-153.26
44.95
9
A
VAL
2
87.04
-39.82
9
A
LYS
11
-101.28
-73.23
9
A
THR
29
-162.56
37.44
9
A
ASP
30
-143.26
-49.27
9
A
LYS
32
-47.39
-72.04
9
A
ASN
36
-140.28
23.04
9
A
LYS
38
-58.04
87.08
9
A
LYS
45
-176.60
134.81
9
A
THR
54
51.02
170.17
9
A
LYS
68
-82.28
-94.87
9
A
GLU
69
-179.07
124.02
9
A
ALA
74
-36.91
98.59
9
A
PRO
75
-66.48
55.70
9
A
ARG
76
-170.14
-52.56
9
A
ASP
84
-174.99
67.07
9
A
VAL
88
174.17
-34.63
9
A
THR
118
-140.74
-68.39
9
A
THR
123
-109.52
-60.86
10
A
VAL
2
86.41
-42.69
10
A
LYS
11
-98.40
-73.33
10
A
PRO
21
-82.98
43.79
10
A
MET
22
-144.35
34.53
10
A
SER
27
-146.60
18.51
10
A
LYS
32
-134.65
-65.58
10
A
ASN
36
-142.35
25.28
10
A
LYS
38
-47.82
94.94
10
A
LYS
45
-176.19
135.78
10
A
THR
54
50.71
170.57
10
A
LYS
68
-79.13
-94.28
10
A
GLU
69
-179.59
124.07
10
A
PRO
71
-47.40
166.16
10
A
PRO
72
-37.51
135.40
10
A
ALA
74
-38.45
98.85
10
A
PRO
75
-65.78
55.01
10
A
ARG
76
-166.25
-52.58
10
A
THR
83
-103.76
-61.53
10
A
VAL
88
175.92
-33.53
10
A
LYS
109
-82.87
-71.04
10
A
ALA
114
-71.69
-70.06
10
A
LEU
117
-91.49
30.55
10
A
THR
120
-104.61
48.96
11
A
LYS
11
-103.12
-72.07
11
A
PRO
21
-78.61
42.92
11
A
MET
22
-146.69
34.15
11
A
THR
29
-162.29
38.72
11
A
ASP
30
-148.22
-45.60
11
A
PHE
35
-145.25
-41.67
11
A
LYS
38
-48.37
101.73
11
A
LYS
45
-171.83
138.90
11
A
THR
54
50.81
171.27
11
A
LYS
68
-77.72
-94.17
11
A
GLU
69
179.25
120.57
11
A
ALA
74
-36.58
96.83
11
A
PRO
75
-68.05
54.89
11
A
ARG
76
-171.29
-50.35
11
A
TYR
115
-39.90
-39.48
11
A
THR
120
-141.74
48.02
12
A
THR
3
-93.75
-72.34
12
A
LYS
11
-99.58
-74.75
12
A
PRO
21
-82.86
35.65
12
A
MET
22
-143.24
36.99
12
A
PRO
26
-59.65
-161.76
12
A
THR
29
-154.86
35.51
12
A
ASP
30
-154.83
-44.02
12
A
ASN
36
-142.52
27.43
12
A
LYS
38
-43.61
95.75
12
A
LYS
45
178.72
124.59
12
A
THR
54
49.77
173.81
12
A
LYS
62
-170.24
122.23
12
A
LYS
68
-103.65
-166.35
12
A
PRO
71
-46.65
163.77
12
A
ALA
74
-39.61
100.30
12
A
LYS
80
-88.28
43.19
12
A
PHE
82
36.05
66.07
12
A
THR
83
-96.46
-60.40
12
A
VAL
88
174.54
-34.84
12
A
ALA
102
-161.20
-169.98
12
A
THR
120
-107.80
54.26
12
A
LYS
121
-176.37
145.54
13
A
LYS
11
-119.83
-74.05
13
A
PRO
21
-83.18
31.82
13
A
ILE
28
35.26
36.28
13
A
THR
29
-126.64
-59.06
13
A
LYS
32
-179.21
-47.35
13
A
ASN
36
-145.90
26.92
13
A
LYS
38
-46.68
93.75
13
A
LYS
45
-175.03
135.23
13
A
THR
54
50.63
169.73
13
A
LYS
68
-80.27
-94.68
13
A
GLU
69
-179.39
123.25
13
A
PRO
71
-49.42
167.56
13
A
PRO
72
-37.40
132.32
13
A
ALA
74
-38.56
108.53
13
A
PRO
75
-79.25
41.88
13
A
ARG
76
-148.61
-56.44
13
A
THR
83
-91.65
53.42
13
A
ASP
84
177.93
90.74
13
A
ILE
85
-89.45
40.06
13
A
ASP
90
175.49
-48.76
13
A
LYS
109
-92.08
-65.77
13
A
ALA
114
-63.90
-70.69
13
A
LEU
117
-92.16
30.29
13
A
THR
118
-123.51
-63.49
13
A
THR
120
-114.53
54.25
13
A
LYS
121
-175.78
137.71
14
A
VAL
2
87.05
-41.91
14
A
LYS
11
-95.83
-72.01
14
A
PRO
21
-85.12
46.02
14
A
MET
22
-145.41
37.86
14
A
THR
29
-139.29
-45.23
14
A
LYS
32
-165.23
-61.62
14
A
ASN
36
-142.36
25.59
14
A
LYS
38
-49.72
92.90
14
A
LYS
45
-176.88
140.69
14
A
THR
54
49.28
171.54
14
A
LYS
68
-79.92
-95.13
14
A
GLU
69
-178.38
122.19
14
A
PRO
72
-38.50
130.65
14
A
ALA
74
-36.93
97.07
14
A
ARG
81
-125.30
-92.10
14
A
PHE
82
-66.64
68.06
14
A
ASP
84
-175.57
63.41
14
A
VAL
88
174.16
-34.23
14
A
THR
118
-105.36
-71.94
14
A
LYS
121
-175.51
149.50
15
A
LYS
11
-110.64
-72.36
15
A
PRO
21
-80.13
41.05
15
A
MET
22
-142.30
35.88
15
A
SER
27
-155.99
24.47
15
A
THR
29
-131.29
-52.01
15
A
LYS
32
-154.18
-63.57
15
A
ASN
36
-143.57
26.84
15
A
LYS
38
-47.32
94.27
15
A
LYS
45
-170.58
136.37
15
A
THR
54
50.65
168.81
15
A
LYS
68
-78.14
-92.94
15
A
GLU
69
-179.01
119.68
15
A
ALA
74
-30.48
108.39
15
A
PRO
75
-79.32
44.25
15
A
ARG
76
-157.19
-54.41
15
A
VAL
88
-140.77
-39.49
15
A
LYS
121
-173.98
149.97
15
A
THR
123
-99.28
-60.24
16
A
VAL
2
86.73
-41.21
16
A
LYS
11
-97.73
-72.05
16
A
SER
27
-145.09
18.46
16
A
ILE
28
40.21
29.91
16
A
LYS
32
-134.51
-65.98
16
A
PRO
42
-80.54
45.47
16
A
SER
43
179.69
57.35
16
A
LYS
45
175.72
172.70
16
A
GLU
46
-28.14
136.78
16
A
ALA
48
-171.87
148.64
16
A
THR
54
50.06
172.19
16
A
LYS
68
-83.70
-95.34
16
A
GLU
69
-178.62
122.86
16
A
PRO
71
-49.84
165.76
16
A
ALA
74
-37.98
98.28
16
A
PHE
82
37.92
68.54
16
A
THR
83
-108.32
-68.44
16
A
ASP
86
-50.56
-70.95
16
A
ASP
90
-174.46
-68.09
16
A
ILE
99
-131.76
-44.95
16
A
CYS
104
-43.41
164.91
16
A
ALA
114
-60.13
-73.64
16
A
TYR
115
-39.55
-29.02
16
A
PRO
122
-47.49
175.02
17
A
LYS
11
-102.14
-73.40
17
A
PRO
21
-84.87
40.82
17
A
MET
22
-141.39
32.56
17
A
SER
27
-149.48
20.35
17
A
THR
29
-151.94
35.82
17
A
ASP
30
-142.24
-47.12
17
A
PHE
35
-146.46
-40.66
17
A
ARG
37
-68.15
96.48
17
A
LYS
38
-55.41
100.55
17
A
LYS
45
-179.84
88.76
17
A
GLU
46
-45.67
153.51
17
A
ALA
47
-160.93
-169.26
17
A
THR
54
49.39
172.38
17
A
LYS
68
-81.35
-95.12
17
A
GLU
69
-179.95
123.51
17
A
PRO
71
-45.73
164.82
17
A
PRO
72
-34.20
134.41
17
A
ALA
74
-35.88
115.67
17
A
PRO
75
-80.32
45.26
17
A
ARG
76
-154.37
-57.16
17
A
LYS
80
-105.48
43.80
17
A
PHE
82
39.08
57.81
17
A
ASP
84
177.31
66.83
17
A
VAL
88
-150.76
-49.85
17
A
ASP
90
170.22
-45.93
17
A
THR
118
-129.14
-76.89
17
A
THR
123
-107.77
-63.14
18
A
LYS
11
-104.71
-75.79
18
A
PRO
21
-77.89
41.88
18
A
MET
22
-144.49
33.02
18
A
THR
29
-140.46
-53.51
18
A
LYS
32
-156.01
-64.64
18
A
ASN
36
-143.81
27.57
18
A
LYS
38
-49.49
94.07
18
A
LYS
45
179.53
82.22
18
A
GLU
46
-41.68
153.36
18
A
THR
54
50.20
172.29
18
A
LYS
62
-176.72
132.53
18
A
ALA
74
-36.50
114.58
18
A
PRO
75
-79.48
47.76
18
A
ARG
76
-159.73
-58.35
18
A
VAL
88
-39.88
-30.01
18
A
ALA
114
-57.93
-76.95
18
A
THR
120
-147.63
49.49
18
A
LYS
121
-176.01
132.39
18
A
PRO
122
-44.87
168.45
19
A
VAL
2
-162.06
-66.20
19
A
LYS
11
-105.46
-74.45
19
A
PRO
21
-81.64
40.56
19
A
MET
22
-145.28
37.57
19
A
ILE
28
37.43
45.17
19
A
THR
29
-162.11
33.52
19
A
ASP
30
-133.30
-46.75
19
A
ASN
36
-142.21
25.59
19
A
LYS
38
-49.66
94.96
19
A
LYS
45
170.95
111.39
19
A
THR
54
49.98
174.06
19
A
LYS
62
-175.54
118.79
19
A
LYS
68
-98.28
-159.95
19
A
PRO
71
-47.63
166.08
19
A
PRO
72
-38.86
131.70
19
A
ALA
74
-39.52
99.81
19
A
ARG
81
-136.69
-94.24
19
A
PHE
82
-67.30
67.47
19
A
THR
83
-98.15
-60.00
19
A
ILE
85
-102.34
58.13
19
A
ASP
86
-150.18
-50.96
19
A
ALA
102
-162.38
-168.50
19
A
LYS
109
-96.50
-66.81
19
A
THR
118
-123.22
-80.09
19
A
THR
120
-98.13
58.68
19
A
THR
123
-155.38
56.14
20
A
LYS
11
-94.61
-73.71
20
A
SER
27
-143.50
16.82
20
A
THR
29
-163.08
38.09
20
A
ASP
30
-144.61
-47.22
20
A
LYS
32
-45.04
-73.10
20
A
ASN
36
-143.00
23.42
20
A
LYS
38
-63.83
96.70
20
A
LYS
45
171.43
108.15
20
A
THR
54
50.18
172.17
20
A
GLU
69
-28.87
100.92
20
A
PRO
72
-32.75
137.75
20
A
ALA
74
-34.66
96.90
20
A
PRO
75
-67.22
53.40
20
A
ARG
76
-168.70
-51.54
20
A
LYS
80
-97.72
45.50
20
A
PHE
82
39.62
67.84
20
A
ILE
99
-122.57
-51.42
20
A
LYS
109
-90.66
-65.38
20
A
THR
123
-155.09
56.50
CYTOCHROME C''
Solution Structure of Methylophilus methylotrophus Cytochrome c''. Insights into the Structural Basis of Haem-Ligand Detachment
1
N
N
2
N
N
A
VAL
2
A
VAL
2
HELX_P
A
ASN
20
A
ASN
20
1
1
19
A
LYS
32
A
LYS
32
HELX_P
A
ASN
36
A
ASN
36
5
2
5
A
LYS
87
A
LYS
87
HELX_P
A
LEU
100
A
LEU
100
1
3
14
A
SER
105
A
SER
105
HELX_P
A
LEU
117
A
LEU
117
1
4
13
disulf
1.991
A
CYS
96
A
SG
CYS
96
1_555
A
CYS
104
A
SG
CYS
104
1_555
covale
1.883
none
A
CYS
49
A
SG
CYS
49
1_555
A
HEC
125
B
CAB
HEC
1_555
covale
1.810
none
A
CYS
52
A
SG
CYS
52
1_555
A
HEC
125
B
CAC
HEC
1_555
metalc
1.937
A
HIS
53
A
NE2
HIS
53
1_555
A
HEC
125
B
FE
HEC
1_555
metalc
1.945
A
HIS
95
A
NE2
HIS
95
1_555
A
HEC
125
B
FE
HEC
1_555
OXIDOREDUCTASE(CYTOCHROME)
OXIDOREDUCTASE(CYTOCHROME), CYTOCHROME C'', LIGAND DETACHMENT, REDOX-BOHR EFFECT, PARAMAGNETIC
Q9RQB9
UNP
1
Q9RQB9
21
144
1E8E
1
124
Q9RQB9
A
1
1
124
2
anti-parallel
A
PHE
39
A
PHE
39
A
THR
41
A
THR
41
A
LYS
45
A
LYS
45
A
ALA
47
A
ALA
47
BINDING SITE FOR RESIDUE HEC A 125
Software
11
A
ALA
48
A
ALA
48
11
1_555
A
CYS
49
A
CYS
49
11
1_555
A
SER
51
A
SER
51
11
1_555
A
CYS
52
A
CYS
52
11
1_555
A
HIS
53
A
HIS
53
11
1_555
A
ASN
63
A
ASN
63
11
1_555
A
ILE
70
A
ILE
70
11
1_555
A
LEU
73
A
LEU
73
11
1_555
A
PHE
92
A
PHE
92
11
1_555
A
HIS
95
A
HIS
95
11
1_555
A
PHE
112
A
PHE
112
11
1_555
1
P 1