1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Dmitriev, O.Y.
Fillingame, R.H.
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
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 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
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
US
J.Biol.Chem.
JBCHA3
0071
0021-9258
276
27449
27454
10.1074/jbc.M100762200
11331283
Structure of Ala(20) --> Pro/Pro(64) --> Ala substituted subunit c of Escherichia coli ATP synthase in which the essential proline is switched between transmembrane helices.
2001
10.2210/pdb1ijp/pdb
pdb_00001ijp
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
8259.064
ATP Synthase
3.6.1.34
subunit c
A20P, P64A
1
man
polymer
no
no
MENLNMDLLYMAAAVMMGLPAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIAMIAVGLGLYVMFAVA
MENLNMDLLYMAAAVMMGLPAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIAMIAVGLGLYVMFAVA
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
Escherichia
Escherichia
sample
uncE
562
Escherichia coli
562
Escherichia coli
JH613
plasmid
pBR322
database_2
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
struct_ref_seq_dif
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2002-03-27
1
1
2008-04-27
1
2
2011-07-13
1
3
2021-10-27
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
_struct_ref_seq_dif.details
Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 5.0
Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 5.0, a more recent refinement
Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 8.0
RCSB
Y
RCSB
2001-04-27
REL
target function
200
10
DQF-COSY
2D TOCSY
3D_15N-separated TOCSY
2D NOESY
3D_15N-separated_NOESY
HNHA
50 mM NaCl
5.0
atmospheric
atm
300
K
simulated annealing,
torsion angle dynamics
2.2 mM subunit c, 50 mM NaCl, pH 5.0
CDCl3:CD3OD:D2O=4:4:1 or
CDCl3:CD3OH:H2O=4:4:1
collection
XwinNMR
data analysis
Felix
95.0
structure solution
DYANA
1.5
refinement
Discover
3.0
600
Bruker
DMX
MET
1
n
1
MET
1
A
GLU
2
n
2
GLU
2
A
ASN
3
n
3
ASN
3
A
LEU
4
n
4
LEU
4
A
ASN
5
n
5
ASN
5
A
MET
6
n
6
MET
6
A
ASP
7
n
7
ASP
7
A
LEU
8
n
8
LEU
8
A
LEU
9
n
9
LEU
9
A
TYR
10
n
10
TYR
10
A
MET
11
n
11
MET
11
A
ALA
12
n
12
ALA
12
A
ALA
13
n
13
ALA
13
A
ALA
14
n
14
ALA
14
A
VAL
15
n
15
VAL
15
A
MET
16
n
16
MET
16
A
MET
17
n
17
MET
17
A
GLY
18
n
18
GLY
18
A
LEU
19
n
19
LEU
19
A
PRO
20
n
20
PRO
20
A
ALA
21
n
21
ALA
21
A
ILE
22
n
22
ILE
22
A
GLY
23
n
23
GLY
23
A
ALA
24
n
24
ALA
24
A
ALA
25
n
25
ALA
25
A
ILE
26
n
26
ILE
26
A
GLY
27
n
27
GLY
27
A
ILE
28
n
28
ILE
28
A
GLY
29
n
29
GLY
29
A
ILE
30
n
30
ILE
30
A
LEU
31
n
31
LEU
31
A
GLY
32
n
32
GLY
32
A
GLY
33
n
33
GLY
33
A
LYS
34
n
34
LYS
34
A
PHE
35
n
35
PHE
35
A
LEU
36
n
36
LEU
36
A
GLU
37
n
37
GLU
37
A
GLY
38
n
38
GLY
38
A
ALA
39
n
39
ALA
39
A
ALA
40
n
40
ALA
40
A
ARG
41
n
41
ARG
41
A
GLN
42
n
42
GLN
42
A
PRO
43
n
43
PRO
43
A
ASP
44
n
44
ASP
44
A
LEU
45
n
45
LEU
45
A
ILE
46
n
46
ILE
46
A
PRO
47
n
47
PRO
47
A
LEU
48
n
48
LEU
48
A
LEU
49
n
49
LEU
49
A
ARG
50
n
50
ARG
50
A
THR
51
n
51
THR
51
A
GLN
52
n
52
GLN
52
A
PHE
53
n
53
PHE
53
A
PHE
54
n
54
PHE
54
A
ILE
55
n
55
ILE
55
A
VAL
56
n
56
VAL
56
A
MET
57
n
57
MET
57
A
GLY
58
n
58
GLY
58
A
LEU
59
n
59
LEU
59
A
VAL
60
n
60
VAL
60
A
ASP
61
n
61
ASP
61
A
ALA
62
n
62
ALA
62
A
ILE
63
n
63
ILE
63
A
ALA
64
n
64
ALA
64
A
MET
65
n
65
MET
65
A
ILE
66
n
66
ILE
66
A
ALA
67
n
67
ALA
67
A
VAL
68
n
68
VAL
68
A
GLY
69
n
69
GLY
69
A
LEU
70
n
70
LEU
70
A
GLY
71
n
71
GLY
71
A
LEU
72
n
72
LEU
72
A
TYR
73
n
73
TYR
73
A
VAL
74
n
74
VAL
74
A
MET
75
n
75
MET
75
A
PHE
76
n
76
PHE
76
A
ALA
77
n
77
ALA
77
A
VAL
78
n
78
VAL
78
A
ALA
79
n
79
ALA
79
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
identity operation
0.0000000000
0.0000000000
0.0000000000
1
A
A
LEU
GLY
31
32
147.88
4
A
A
VAL
ASP
60
61
148.35
7
A
A
VAL
ASP
60
61
148.83
8
A
A
VAL
ASP
60
61
148.36
1
-5.92
0.90
118.30
112.38
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
1
4.00
0.50
120.30
124.30
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
1
-5.95
0.90
118.30
112.35
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
1
3.85
0.50
120.30
124.15
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
1
5.58
0.90
118.30
123.88
A
A
A
CB
CG
OD1
ASP
ASP
ASP
61
61
61
N
1
-6.13
0.90
118.30
112.17
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
2
5.42
0.90
118.30
123.72
A
A
A
CB
CG
OD1
ASP
ASP
ASP
7
7
7
N
2
-5.92
0.90
118.30
112.38
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
2
3.92
0.50
120.30
124.22
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
2
-5.93
0.90
118.30
112.37
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
2
3.90
0.50
120.30
124.20
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
2
5.82
0.90
118.30
124.12
A
A
A
CB
CG
OD1
ASP
ASP
ASP
61
61
61
N
2
-6.13
0.90
118.30
112.17
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
3
-5.76
0.90
118.30
112.54
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
3
3.94
0.50
120.30
124.24
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
3
5.42
0.90
118.30
123.72
A
A
A
CB
CG
OD1
ASP
ASP
ASP
44
44
44
N
3
-6.04
0.90
118.30
112.26
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
3
3.86
0.50
120.30
124.16
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
3
-5.81
0.90
118.30
112.49
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
4
-5.92
0.90
118.30
112.38
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
4
3.90
0.50
120.30
124.20
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
4
-5.95
0.90
118.30
112.35
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
4
3.96
0.50
120.30
124.26
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
4
-5.98
0.90
118.30
112.32
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
5
5.41
0.90
118.30
123.71
A
A
A
CB
CG
OD1
ASP
ASP
ASP
7
7
7
N
5
-6.04
0.90
118.30
112.26
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
5
3.86
0.50
120.30
124.16
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
5
-5.80
0.90
118.30
112.50
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
5
3.88
0.50
120.30
124.18
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
5
-5.98
0.90
118.30
112.32
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
6
5.41
0.90
118.30
123.71
A
A
A
CB
CG
OD1
ASP
ASP
ASP
7
7
7
N
6
-6.00
0.90
118.30
112.30
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
6
4.00
0.50
120.30
124.30
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
6
-5.96
0.90
118.30
112.34
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
6
3.82
0.50
120.30
124.12
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
6
5.71
0.90
118.30
124.01
A
A
A
CB
CG
OD1
ASP
ASP
ASP
61
61
61
N
6
-6.08
0.90
118.30
112.22
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
7
-5.91
0.90
118.30
112.39
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
7
-4.04
0.60
121.00
116.96
A
A
A
CB
CG
CD2
TYR
TYR
TYR
10
10
10
N
7
3.80
0.50
120.30
124.10
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
7
-5.91
0.90
118.30
112.39
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
7
3.94
0.50
120.30
124.24
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
7
-5.90
0.90
118.30
112.40
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
8
5.64
0.90
118.30
123.94
A
A
A
CB
CG
OD1
ASP
ASP
ASP
7
7
7
N
8
-6.50
0.90
118.30
111.80
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
8
3.88
0.50
120.30
124.18
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
8
-5.80
0.90
118.30
112.50
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
8
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
8
6.08
0.90
118.30
124.38
A
A
A
CB
CG
OD1
ASP
ASP
ASP
61
61
61
N
8
-6.30
0.90
118.30
112.00
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
9
5.86
0.90
118.30
124.16
A
A
A
CB
CG
OD1
ASP
ASP
ASP
7
7
7
N
9
-6.50
0.90
118.30
111.80
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
9
3.92
0.50
120.30
124.22
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
9
5.66
0.90
118.30
123.96
A
A
A
CB
CG
OD1
ASP
ASP
ASP
44
44
44
N
9
-6.15
0.90
118.30
112.15
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
9
3.87
0.50
120.30
124.17
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
9
-5.95
0.90
118.30
112.35
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
10
-5.86
0.90
118.30
112.44
A
A
A
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
10
11.55
1.90
113.40
124.95
A
A
A
CA
CB
CG
TYR
TYR
TYR
10
10
10
N
10
-4.73
0.60
121.00
116.27
A
A
A
CB
CG
CD2
TYR
TYR
TYR
10
10
10
N
10
3.72
0.60
121.00
124.72
A
A
A
CB
CG
CD1
TYR
TYR
TYR
10
10
10
N
10
3.85
0.50
120.30
124.15
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
41
41
41
N
10
-5.86
0.90
118.30
112.44
A
A
A
CB
CG
OD2
ASP
ASP
ASP
44
44
44
N
10
3.95
0.50
120.30
124.25
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
50
50
50
N
10
6.59
0.90
118.30
124.89
A
A
A
CB
CG
OD1
ASP
ASP
ASP
61
61
61
N
10
-6.71
0.90
118.30
111.59
A
A
A
CB
CG
OD2
ASP
ASP
ASP
61
61
61
N
1
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
1
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
2
A
A
CD
OE2
GLU
GLU
2
2
0.116
0.011
1.252
1.368
N
2
A
A
CD
OE2
GLU
GLU
37
37
0.114
0.011
1.252
1.366
N
3
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
3
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
4
A
A
CD
OE2
GLU
GLU
2
2
0.116
0.011
1.252
1.368
N
4
A
A
CD
OE2
GLU
GLU
37
37
0.114
0.011
1.252
1.366
N
5
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
5
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
6
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
6
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
7
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
7
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
8
A
A
CD
OE2
GLU
GLU
2
2
0.114
0.011
1.252
1.366
N
8
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
9
A
A
CD
OE2
GLU
GLU
2
2
0.115
0.011
1.252
1.367
N
9
A
A
CD
OE2
GLU
GLU
37
37
0.115
0.011
1.252
1.367
N
10
A
A
CD
OE2
GLU
GLU
2
2
0.116
0.011
1.252
1.368
N
10
A
A
CD
OE2
GLU
GLU
37
37
0.114
0.011
1.252
1.366
N
1
A
GLU
2
-97.93
-78.94
1
A
ASP
44
-119.39
62.56
2
A
GLU
2
65.91
80.98
2
A
ILE
28
-44.22
-73.58
2
A
LEU
59
-58.50
-2.83
2
A
ALA
62
-49.90
-73.15
3
A
GLU
2
-108.47
-66.31
4
A
GLU
2
-97.31
-76.41
4
A
ILE
28
-54.65
-70.28
4
A
ASP
44
-119.28
60.93
4
A
LEU
59
-55.76
-8.20
4
A
ALA
62
-48.03
-71.20
4
A
ALA
77
71.23
86.22
4
A
VAL
78
73.72
-62.29
5
A
GLU
2
-128.62
-74.38
5
A
ASN
3
-149.42
-49.43
5
A
LEU
59
-49.52
-14.34
6
A
ILE
28
-47.66
-73.76
6
A
LEU
59
-46.53
-17.28
6
A
ALA
62
-58.16
-82.65
7
A
GLU
2
-98.56
-75.28
7
A
LEU
59
-57.72
-2.63
7
A
ALA
62
-50.19
-74.88
8
A
GLU
2
-116.59
-74.57
8
A
ASN
3
-145.11
-65.42
8
A
ASP
44
-97.62
31.62
8
A
LEU
59
-57.58
-4.44
8
A
ALA
77
64.09
78.82
8
A
VAL
78
73.60
-35.58
9
A
GLU
2
-93.02
-76.27
9
A
LEU
59
-48.86
-19.63
9
A
VAL
78
40.57
74.31
10
A
GLU
2
62.69
70.26
10
A
TYR
10
-37.89
-73.72
Solution Structure of Ala20Pro/Pro64Ala substituted subunit c of Escherichia coli ATP synthase
1
N
N
A
GLU
2
A
GLU
2
HELX_P
A
LEU
19
A
LEU
19
1
1
18
A
ILE
22
A
ILE
22
HELX_P
A
GLN
42
A
GLN
42
1
2
21
A
LEU
45
A
LEU
45
HELX_P
A
VAL
78
A
VAL
78
1
3
34
HYDROLASE
transmembrane helix, HYDROLASE
ATPL_ECOLI
UNP
1
1
P68699
MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA
1
79
1IJP
1
79
P68699
A
1
1
79
1
ALA
engineered mutation
PRO
20
1IJP
A
P68699
UNP
20
20
1
PRO
engineered mutation
ALA
64
1IJP
A
P68699
UNP
64
64