1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Golovanov, A.P.
Barilla, D.
Golovanova, M.
Hayes, F.
Lian, L.Y.
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
C4 H9 N O3
119.119
y
THREONINE
L-peptide linking
C11 H12 N2 O2
204.225
y
TRYPTOPHAN
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
UK
Mol.Microbiol.
MOMIEE
2007
0950-382X
50
1141
1153
10.1046/j.1365-2958.2003.03750.x
14622405
ParG, a protein required for active partition of bacterial plasmids, has a dimeric ribbon-helix-helix structure.
2003
UK
Mol.Microbiol.
MOMIEE
2007
0950-382X
37
528
541
10.1046/j.1365-2958.2000.02030.x
The partition system of multidrug resistance plasmid TP228 includes a novel protein that epitomizes an evolutionarily distinct subgroup of the ParA superfamily
2000
10.2210/pdb1p94/pdb
pdb_00001p94
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
8649.849
plasmid partition protein ParG
2
man
polymer
no
no
MSLEKAHTSVKKMTFGENRDLERVVTAPVSSGKIKRVNVNFDEEKHTRFKAACARKGTSITDVVNQLVDNWLKENE
MSLEKAHTSVKKMTFGENRDLERVVTAPVSSGKIKRVNVNFDEEKHTRFKAACARKGTSITDVVNQLVDNWLKENE
A,B
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
Salmonella
Escherichia
Escherichia coli
sample
parG
28901
Salmonella enterica
469008
Escherichia coli BL21(DE3)
BL21(DE3)
plasmid
pET-22-b(+)
database_2
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
1
0
2004-01-13
1
1
2008-04-29
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
NMR signal assignments, experimental conditions
HELIX
DETERMINATION METHOD: AUTHOR
SHEET
DETERMINATION METHOD: AUTHOR
RCSB
Y
RCSB
2003-05-09
REL
REL
BEST REPRESENTATIVE CONFORMER (MODEL 1) IN THIS ENSEMBLE
WAS OBTAINED BY ENERGY MINIMIZATION OF THE AVERAGE
STRUCTURE, CALCULATED FOR MODELS 2-11
structures with the lowest energy,target function
20
11
3D_13C-separated_NOESY
3D_15N-separated_NOESY
2D NOESY
150 mM
5.5
ambient
293
K
The ParG structure is based on 2230 ambiguous NOE restraints, 82 hydrogen bond restraints, and 144 CSI-based dihedral angle restraints.
N-terminal region of ParG (1-32) is unstructured. The C-terminal region (33-76) is structured.
ARIA protocol (Nilges, M. et al., (1997) J. Mol. Biol. 269, 408-422) was used to deal with ambiguous distance restraints and for some NOE assignments.
1
minimized average structure
1 mM ParG U-15N,13C; 100 mM NaCl, 50 mM phosphate buffer, 1 mM DTT; 90% H2O, 10% D2O
90% H2O/10% D2O
1 mM ParG U-15N; 100 mM NaCl, 50 mM phosphate buffer, 1 mM DTT; 100% D2O
100% D2O
1 mM ParG U-15N; 100 mM NaCl, 50 mM phosphate buffer, 1 mM DTT; 90% H2O, 10% D2O
90% H2O/10% D2O
Delaglio et al.
processing
NMRPipe
Johnson and Blevins
data analysis
NMRView
5.01
Nilges et al.
structure solution
ARIA
1.1
Brunger et al.
structure solution
CNS
1.0
Brunger et al.
refinement
CNS
1.0
600
Bruker
DRX
800
Bruker
DRX
800
Varian
INOVA
MET
1
n
1
MET
1
A
SER
2
n
2
SER
2
A
LEU
3
n
3
LEU
3
A
GLU
4
n
4
GLU
4
A
LYS
5
n
5
LYS
5
A
ALA
6
n
6
ALA
6
A
HIS
7
n
7
HIS
7
A
THR
8
n
8
THR
8
A
SER
9
n
9
SER
9
A
VAL
10
n
10
VAL
10
A
LYS
11
n
11
LYS
11
A
LYS
12
n
12
LYS
12
A
MET
13
n
13
MET
13
A
THR
14
n
14
THR
14
A
PHE
15
n
15
PHE
15
A
GLY
16
n
16
GLY
16
A
GLU
17
n
17
GLU
17
A
ASN
18
n
18
ASN
18
A
ARG
19
n
19
ARG
19
A
ASP
20
n
20
ASP
20
A
LEU
21
n
21
LEU
21
A
GLU
22
n
22
GLU
22
A
ARG
23
n
23
ARG
23
A
VAL
24
n
24
VAL
24
A
VAL
25
n
25
VAL
25
A
THR
26
n
26
THR
26
A
ALA
27
n
27
ALA
27
A
PRO
28
n
28
PRO
28
A
VAL
29
n
29
VAL
29
A
SER
30
n
30
SER
30
A
SER
31
n
31
SER
31
A
GLY
32
n
32
GLY
32
A
LYS
33
n
33
LYS
33
A
ILE
34
n
34
ILE
34
A
LYS
35
n
35
LYS
35
A
ARG
36
n
36
ARG
36
A
VAL
37
n
37
VAL
37
A
ASN
38
n
38
ASN
38
A
VAL
39
n
39
VAL
39
A
ASN
40
n
40
ASN
40
A
PHE
41
n
41
PHE
41
A
ASP
42
n
42
ASP
42
A
GLU
43
n
43
GLU
43
A
GLU
44
n
44
GLU
44
A
LYS
45
n
45
LYS
45
A
HIS
46
n
46
HIS
46
A
THR
47
n
47
THR
47
A
ARG
48
n
48
ARG
48
A
PHE
49
n
49
PHE
49
A
LYS
50
n
50
LYS
50
A
ALA
51
n
51
ALA
51
A
ALA
52
n
52
ALA
52
A
CYS
53
n
53
CYS
53
A
ALA
54
n
54
ALA
54
A
ARG
55
n
55
ARG
55
A
LYS
56
n
56
LYS
56
A
GLY
57
n
57
GLY
57
A
THR
58
n
58
THR
58
A
SER
59
n
59
SER
59
A
ILE
60
n
60
ILE
60
A
THR
61
n
61
THR
61
A
ASP
62
n
62
ASP
62
A
VAL
63
n
63
VAL
63
A
VAL
64
n
64
VAL
64
A
ASN
65
n
65
ASN
65
A
GLN
66
n
66
GLN
66
A
LEU
67
n
67
LEU
67
A
VAL
68
n
68
VAL
68
A
ASP
69
n
69
ASP
69
A
ASN
70
n
70
ASN
70
A
TRP
71
n
71
TRP
71
A
LEU
72
n
72
LEU
72
A
LYS
73
n
73
LYS
73
A
GLU
74
n
74
GLU
74
A
ASN
75
n
75
ASN
75
A
GLU
76
n
76
GLU
76
A
MET
1
n
1
MET
1
B
SER
2
n
2
SER
2
B
LEU
3
n
3
LEU
3
B
GLU
4
n
4
GLU
4
B
LYS
5
n
5
LYS
5
B
ALA
6
n
6
ALA
6
B
HIS
7
n
7
HIS
7
B
THR
8
n
8
THR
8
B
SER
9
n
9
SER
9
B
VAL
10
n
10
VAL
10
B
LYS
11
n
11
LYS
11
B
LYS
12
n
12
LYS
12
B
MET
13
n
13
MET
13
B
THR
14
n
14
THR
14
B
PHE
15
n
15
PHE
15
B
GLY
16
n
16
GLY
16
B
GLU
17
n
17
GLU
17
B
ASN
18
n
18
ASN
18
B
ARG
19
n
19
ARG
19
B
ASP
20
n
20
ASP
20
B
LEU
21
n
21
LEU
21
B
GLU
22
n
22
GLU
22
B
ARG
23
n
23
ARG
23
B
VAL
24
n
24
VAL
24
B
VAL
25
n
25
VAL
25
B
THR
26
n
26
THR
26
B
ALA
27
n
27
ALA
27
B
PRO
28
n
28
PRO
28
B
VAL
29
n
29
VAL
29
B
SER
30
n
30
SER
30
B
SER
31
n
31
SER
31
B
GLY
32
n
32
GLY
32
B
LYS
33
n
33
LYS
33
B
ILE
34
n
34
ILE
34
B
LYS
35
n
35
LYS
35
B
ARG
36
n
36
ARG
36
B
VAL
37
n
37
VAL
37
B
ASN
38
n
38
ASN
38
B
VAL
39
n
39
VAL
39
B
ASN
40
n
40
ASN
40
B
PHE
41
n
41
PHE
41
B
ASP
42
n
42
ASP
42
B
GLU
43
n
43
GLU
43
B
GLU
44
n
44
GLU
44
B
LYS
45
n
45
LYS
45
B
HIS
46
n
46
HIS
46
B
THR
47
n
47
THR
47
B
ARG
48
n
48
ARG
48
B
PHE
49
n
49
PHE
49
B
LYS
50
n
50
LYS
50
B
ALA
51
n
51
ALA
51
B
ALA
52
n
52
ALA
52
B
CYS
53
n
53
CYS
53
B
ALA
54
n
54
ALA
54
B
ARG
55
n
55
ARG
55
B
LYS
56
n
56
LYS
56
B
GLY
57
n
57
GLY
57
B
THR
58
n
58
THR
58
B
SER
59
n
59
SER
59
B
ILE
60
n
60
ILE
60
B
THR
61
n
61
THR
61
B
ASP
62
n
62
ASP
62
B
VAL
63
n
63
VAL
63
B
VAL
64
n
64
VAL
64
B
ASN
65
n
65
ASN
65
B
GLN
66
n
66
GLN
66
B
LEU
67
n
67
LEU
67
B
VAL
68
n
68
VAL
68
B
ASP
69
n
69
ASP
69
B
ASN
70
n
70
ASN
70
B
TRP
71
n
71
TRP
71
B
LEU
72
n
72
LEU
72
B
LYS
73
n
73
LYS
73
B
GLU
74
n
74
GLU
74
B
ASN
75
n
75
ASN
75
B
GLU
76
n
76
GLU
76
B
author_defined_assembly
2
dimeric
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
35
A
N
LYS
35
B
O
PHE
41
B
O
PHE
41
1
A
A
HD2
H
LYS
MET
11
13
1.34
2
B
B
HA
HD12
VAL
LEU
64
67
1.24
2
A
B
HZ1
OD1
LYS
ASP
45
69
1.59
3
B
B
HG1
OD2
THR
ASP
58
62
1.59
3
B
B
OE1
HE2
GLU
HIS
4
7
1.59
4
A
B
HZ1
OD1
LYS
ASP
45
69
1.60
5
B
B
OD2
HZ1
ASP
LYS
69
73
1.57
7
B
B
HA
HD13
VAL
LEU
64
67
1.15
7
A
B
HB3
HD23
TRP
LEU
71
67
1.27
9
A
B
HZ1
OD1
LYS
ASP
45
69
1.59
10
A
A
OD1
HZ1
ASP
LYS
69
73
1.58
11
A
B
OD2
HZ2
ASP
LYS
69
45
1.60
1
A
HIS
7
-103.25
45.26
1
A
VAL
10
-40.12
-74.36
1
A
LYS
12
145.99
8.21
1
A
MET
13
54.66
15.63
1
A
THR
14
45.59
27.04
1
A
GLU
22
54.23
73.62
1
A
THR
26
-63.81
78.92
1
A
ALA
27
-47.39
155.74
1
A
VAL
29
73.85
-55.55
1
A
VAL
37
-146.47
-37.47
1
A
ASN
38
57.48
103.97
1
B
LEU
3
-85.21
35.69
1
B
GLU
4
61.07
-25.14
1
B
LYS
5
65.63
-13.86
1
B
VAL
10
76.98
57.54
1
B
LYS
11
52.31
88.33
1
B
LYS
12
38.73
35.80
1
B
MET
13
48.03
89.65
1
B
GLU
22
31.99
37.85
1
B
ARG
23
-77.06
35.91
1
B
VAL
25
26.89
55.64
1
B
THR
26
-39.30
-32.83
1
B
ALA
27
12.94
69.93
1
B
PRO
28
-29.01
80.90
2
A
SER
2
70.06
-75.41
2
A
SER
9
56.17
-147.16
2
A
SER
31
57.40
72.73
2
A
LYS
33
-115.57
59.54
2
B
ALA
6
69.43
-169.58
2
B
HIS
7
-170.38
143.33
2
B
SER
9
62.90
115.16
2
B
PRO
28
-75.08
-168.17
2
B
SER
31
52.78
-138.97
3
A
HIS
7
-141.26
52.35
3
A
MET
13
-100.86
58.26
3
A
LEU
21
-149.41
36.10
3
B
MET
13
-95.60
38.03
3
B
ARG
19
55.42
80.18
4
A
SER
2
-75.25
48.09
4
A
LEU
3
-154.83
-84.19
4
A
LYS
5
-121.71
-156.35
4
A
LYS
11
-124.79
-163.83
4
B
LEU
3
-70.93
-70.98
4
B
HIS
7
70.65
40.31
5
A
SER
2
-145.90
36.14
5
A
LYS
5
67.10
96.83
5
A
LYS
11
73.28
-74.80
5
A
GLU
17
55.32
72.33
5
A
LEU
21
-152.27
28.85
5
B
LYS
5
66.82
93.24
5
B
LYS
11
64.44
-89.28
5
B
LYS
12
-173.16
105.37
6
A
ALA
6
63.68
-173.31
6
A
VAL
10
-140.72
-159.46
6
A
ARG
19
59.01
81.50
6
A
ASP
20
-113.73
73.00
6
A
THR
26
-97.88
51.76
6
B
SER
2
-75.27
-70.18
6
B
PHE
15
-138.19
-33.05
6
B
GLU
17
-102.11
50.68
7
A
GLU
4
73.54
-63.71
7
A
VAL
29
-102.27
40.46
7
A
SER
31
-80.70
-150.80
7
B
SER
2
60.22
-100.19
7
B
GLU
4
59.13
-99.82
7
B
LYS
11
-93.71
45.18
7
B
LEU
21
-152.14
60.79
7
B
VAL
24
-105.23
74.50
8
A
LEU
3
-101.49
79.33
8
A
LEU
21
-168.20
109.30
8
A
ASN
75
-98.09
-60.09
8
B
GLU
4
-112.16
68.82
8
B
HIS
7
-145.02
55.86
8
B
PHE
15
-151.61
-25.75
8
B
THR
26
-119.85
78.76
8
B
VAL
29
60.32
92.23
9
A
ALA
6
-137.17
-71.32
9
A
ARG
19
-85.86
49.28
9
A
VAL
25
-114.18
66.99
9
B
ALA
6
-160.81
-107.85
9
B
SER
31
-114.74
78.43
10
A
LEU
3
72.95
-50.39
10
A
LYS
5
-144.56
22.13
10
A
HIS
7
-97.46
55.31
10
A
LYS
12
-161.89
92.40
10
A
ARG
19
65.18
113.99
10
A
ASP
20
-110.60
61.36
10
B
LEU
3
72.29
-72.55
10
B
LYS
11
72.95
-54.12
10
B
MET
13
-119.55
-169.20
10
B
ARG
19
60.47
78.67
11
A
ASN
18
-79.34
-75.88
11
A
THR
26
-120.00
67.69
11
B
ALA
6
-100.12
72.02
11
B
HIS
7
-91.68
40.96
11
B
LYS
33
-86.88
41.50
minimized average
NMR Structure of ParG symmetric dimer
1
N
N
1
N
N
A
GLU
43
A
GLU
43
HELX_P
A
GLY
57
A
GLY
57
1
1
15
A
SER
59
A
SER
59
HELX_P
A
ASN
75
A
ASN
75
1
2
17
B
GLU
43
B
GLU
43
HELX_P
B
GLY
57
B
GLY
57
1
3
15
B
SER
59
B
SER
59
HELX_P
B
ASN
75
B
ASN
75
1
4
17
CELL CYCLE
ribbon-helix-helix, dimer, DNA binding, CELL CYCLE
Q9KJ82_SALNE
UNP
1
1
Q9KJ82
MSLEKAHTSVKKMTFGENRDLERVVTAPVSSGKIKRVNVNFDEEKHTRFKAACARKGTSITDVVNQLVDNWLKENE
1
76
1P94
1
76
Q9KJ82
A
1
1
76
1
76
1P94
1
76
Q9KJ82
B
1
1
76
2
anti-parallel
A
ILE
34
A
ILE
34
A
ASP
42
A
ASP
42
B
ILE
34
B
ILE
34
B
ASP
42
B
ASP
42
1
P 1