1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Riepl, H.
Scharf, B.
Maurer, T.
Schmitt, R.
Kalbitzer, H.R.
Structural Proteomics in Europe (SPINE)
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
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
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
338
287
297
10.1016/j.jmb.2004.02.054
15066432
Solution structures of the inactive and BeF3-activated response regulator CheY2.
2004
10.2210/pdb1p6q/pdb
pdb_00001p6q
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
13725.188
CheY2
1
man
polymer
no
no
MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK
KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK
MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK
KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK
A
1
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
n
n
n
n
n
Sinorhizobium
Escherichia
sample
382
Sinorhizobium meliloti
562
Escherichia coli
ER2566
Plasmid
pTYB1
Structural Proteomics in Europe
SPINE
database_2
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2004-06-15
1
1
2008-04-29
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
BeF3-activated structure of the response regulator Chey2 from Sinorhizobium meliloti
Y
RCSB
Y
RCSB
2003-04-30
REL
TOTAL NUMBER OF NOES USED FOR THE CALCULATION: 1598,
NUMBER OF INTRA-RESIDUE NOES USED FOR THE CALCULATION: 796,
NUMBER OF SEQUENTIAL NOES USED FOR THE CALCULATION: 437,
NUMBER OF MEDIUM RANGE NOES USED FOR THE CALCULATION: 179,
NUMBER OF LONG RANGE (I,J, J > I+4) NOES USED FOR THE CALCULATION: 186,
NUMBER OF DIHEDRAL ANGLES RESTRAINTS USED FOR THE CALCULATION: 52,
NUMBER OF HYDROGEN BOND RESTRAINTS USED FOR THE CALCULATION: 5,
MINIMAL TARGET FUNCTION WAS 2.80,
MEAN TARGET FUNCTION OF 16 STRUCTURES WAS 3.00 (+-0.4),
THE NUMBER OF NOE VIOLATIONS > 0.02 NM WAS 3 (+-1),
THE NUMBER OF NOE VIOLATIONS > 0.03 NM WAS 0,
THE NUMBER OF DIHEDRAL ANGLES VIOLATIONS > 10 DEGREES WAS 0,
RMSDS BACK BONE (6-124): 0.042 (+-0.015) NM,
RMSDS ALL HEAVY ATOMS (6-124): 0.098 (+-0.016)NM
target function
250
16
2D NOESY
3D_13C-separated_NOESY
3D_15N-separated_NOESY
HNCA
HNCO
HN(CO)CA
CBCA(CO)CA
HBHA(CO)NH
HCCH-TOCSY
CC(CO)NH
6.83
ambient
298
K
torsion angle dynamics
1
lowest energy
1mM CheY2, 1MM TRIS-HCL, 5MM MGCL2
5mM MgCl2, 20mM Tris/HCl
Bruker
processing
XwinNMR
2.5
Bruker
data analysis
AURELIA
2.7.9
Guentert
structure solution
DYANA
1.5
Guentert
refinement
DYANA
1.5
600
Bruker
DRX
800
Bruker
DRX
MET
1
n
1
MET
1
A
SER
2
n
2
SER
2
A
LEU
3
n
3
LEU
3
A
ALA
4
n
4
ALA
4
A
GLU
5
n
5
GLU
5
A
LYS
6
n
6
LYS
6
A
ILE
7
n
7
ILE
7
A
LYS
8
n
8
LYS
8
A
VAL
9
n
9
VAL
9
A
LEU
10
n
10
LEU
10
A
ILE
11
n
11
ILE
11
A
VAL
12
n
12
VAL
12
A
ASP
13
n
13
ASP
13
A
ASP
14
n
14
ASP
14
A
GLN
15
n
15
GLN
15
A
VAL
16
n
16
VAL
16
A
THR
17
n
17
THR
17
A
SER
18
n
18
SER
18
A
ARG
19
n
19
ARG
19
A
LEU
20
n
20
LEU
20
A
LEU
21
n
21
LEU
21
A
LEU
22
n
22
LEU
22
A
GLY
23
n
23
GLY
23
A
ASP
24
n
24
ASP
24
A
ALA
25
n
25
ALA
25
A
LEU
26
n
26
LEU
26
A
GLN
27
n
27
GLN
27
A
GLN
28
n
28
GLN
28
A
LEU
29
n
29
LEU
29
A
GLY
30
n
30
GLY
30
A
PHE
31
n
31
PHE
31
A
LYS
32
n
32
LYS
32
A
GLN
33
n
33
GLN
33
A
ILE
34
n
34
ILE
34
A
THR
35
n
35
THR
35
A
ALA
36
n
36
ALA
36
A
ALA
37
n
37
ALA
37
A
GLY
38
n
38
GLY
38
A
ASP
39
n
39
ASP
39
A
GLY
40
n
40
GLY
40
A
GLU
41
n
41
GLU
41
A
GLN
42
n
42
GLN
42
A
GLY
43
n
43
GLY
43
A
MET
44
n
44
MET
44
A
LYS
45
n
45
LYS
45
A
ILE
46
n
46
ILE
46
A
MET
47
n
47
MET
47
A
ALA
48
n
48
ALA
48
A
GLN
49
n
49
GLN
49
A
ASN
50
n
50
ASN
50
A
PRO
51
n
51
PRO
51
A
HIS
52
n
52
HIS
52
A
HIS
53
n
53
HIS
53
A
LEU
54
n
54
LEU
54
A
VAL
55
n
55
VAL
55
A
ILE
56
n
56
ILE
56
A
SER
57
n
57
SER
57
A
ASP
58
n
58
ASP
58
A
PHE
59
n
59
PHE
59
A
ASN
60
n
60
ASN
60
A
MET
61
n
61
MET
61
A
PRO
62
n
62
PRO
62
A
LYS
63
n
63
LYS
63
A
MET
64
n
64
MET
64
A
ASP
65
n
65
ASP
65
A
GLY
66
n
66
GLY
66
A
LEU
67
n
67
LEU
67
A
GLY
68
n
68
GLY
68
A
LEU
69
n
69
LEU
69
A
LEU
70
n
70
LEU
70
A
GLN
71
n
71
GLN
71
A
ALA
72
n
72
ALA
72
A
VAL
73
n
73
VAL
73
A
ARG
74
n
74
ARG
74
A
ALA
75
n
75
ALA
75
A
ASN
76
n
76
ASN
76
A
PRO
77
n
77
PRO
77
A
ALA
78
n
78
ALA
78
A
THR
79
n
79
THR
79
A
LYS
80
n
80
LYS
80
A
LYS
81
n
81
LYS
81
A
ALA
82
n
82
ALA
82
A
ALA
83
n
83
ALA
83
A
PHE
84
n
84
PHE
84
A
ILE
85
n
85
ILE
85
A
ILE
86
n
86
ILE
86
A
LEU
87
n
87
LEU
87
A
THR
88
n
88
THR
88
A
ALA
89
n
89
ALA
89
A
GLN
90
n
90
GLN
90
A
GLY
91
n
91
GLY
91
A
ASP
92
n
92
ASP
92
A
ARG
93
n
93
ARG
93
A
ALA
94
n
94
ALA
94
A
LEU
95
n
95
LEU
95
A
VAL
96
n
96
VAL
96
A
GLN
97
n
97
GLN
97
A
LYS
98
n
98
LYS
98
A
ALA
99
n
99
ALA
99
A
ALA
100
n
100
ALA
100
A
ALA
101
n
101
ALA
101
A
LEU
102
n
102
LEU
102
A
GLY
103
n
103
GLY
103
A
ALA
104
n
104
ALA
104
A
ASN
105
n
105
ASN
105
A
ASN
106
n
106
ASN
106
A
VAL
107
n
107
VAL
107
A
LEU
108
n
108
LEU
108
A
ALA
109
n
109
ALA
109
A
LYS
110
n
110
LYS
110
A
PRO
111
n
111
PRO
111
A
PHE
112
n
112
PHE
112
A
THR
113
n
113
THR
113
A
ILE
114
n
114
ILE
114
A
GLU
115
n
115
GLU
115
A
LYS
116
n
116
LYS
116
A
MET
117
n
117
MET
117
A
LYS
118
n
118
LYS
118
A
ALA
119
n
119
ALA
119
A
ALA
120
n
120
ALA
120
A
ILE
121
n
121
ILE
121
A
GLU
122
n
122
GLU
122
A
ALA
123
n
123
ALA
123
A
VAL
124
n
124
VAL
124
A
PHE
125
n
125
PHE
125
A
GLY
126
n
126
GLY
126
A
ALA
127
n
127
ALA
127
A
LEU
128
n
128
LEU
128
A
LYS
129
n
129
LYS
129
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
x,y,z
identity operation
0.0000000000
0.0000000000
0.0000000000
A
O
THR
35
A
O
THR
35
A
N
VAL
9
A
N
VAL
9
A
N
LEU
10
A
N
LEU
10
A
O
ILE
56
A
O
ILE
56
A
N
VAL
55
A
N
VAL
55
A
O
ILE
85
A
O
ILE
85
A
N
PHE
84
A
N
PHE
84
A
O
LEU
108
A
O
LEU
108
1
A
A
HE2
HG1
HIS
THR
52
79
0.80
1
A
A
O
H
ASP
GLY
39
43
1.38
1
A
A
O
H
LYS
HIS
8
53
1.43
1
A
A
HE2
OG1
HIS
THR
52
79
1.44
1
A
A
O
H
VAL
ILE
55
85
1.49
1
A
A
O
H
LEU
ALA
21
25
1.58
1
A
A
O
H
VAL
LEU
16
20
1.59
1
A
A
O
O
VAL
GLN
9
33
2.18
2
A
A
O
H
ASP
GLY
39
43
1.37
2
A
A
O
H
LYS
HIS
8
53
1.48
2
A
A
O
H
VAL
ILE
55
85
1.54
2
A
A
O
H
VAL
LEU
16
20
1.58
2
A
A
O
H
ILE
LYS
114
118
1.59
2
A
A
O
H
LEU
ALA
21
25
1.59
2
A
A
O
O
VAL
GLN
9
33
2.18
3
A
A
HE2
HG1
HIS
THR
52
79
0.84
3
A
A
O
H
LYS
HIS
8
53
1.34
3
A
A
O
H
ASP
GLY
39
43
1.39
3
A
A
HE2
OG1
HIS
THR
52
79
1.49
3
A
A
O
H
VAL
ILE
55
85
1.50
3
A
A
O
H
VAL
LEU
16
20
1.59
3
A
A
O
H
LEU
ALA
21
25
1.59
3
A
A
O
O
VAL
GLN
9
33
2.18
4
A
A
O
H
ASP
GLY
39
43
1.37
4
A
A
O
H
LYS
HIS
8
53
1.40
4
A
A
O
H
VAL
ILE
55
85
1.58
4
A
A
O
H
VAL
LEU
16
20
1.58
4
A
A
O
H
ILE
LYS
114
118
1.59
4
A
A
O
O
VAL
GLN
9
33
2.16
5
A
A
O
H
ASP
GLY
39
43
1.39
5
A
A
O
H
LYS
HIS
8
53
1.44
5
A
A
O
H
VAL
ILE
55
85
1.54
5
A
A
O
H
VAL
LEU
16
20
1.58
5
A
A
O
H
ILE
LYS
114
118
1.59
6
A
A
O
H
LYS
HIS
8
53
1.38
6
A
A
O
H
ASP
GLY
39
43
1.39
6
A
A
O
H
VAL
ILE
55
85
1.53
6
A
A
HE2
OG1
HIS
THR
52
79
1.54
6
A
A
O
H
VAL
LEU
16
20
1.57
6
A
A
O
H
ILE
LYS
114
118
1.59
7
A
A
O
H
LYS
HIS
8
53
1.36
7
A
A
O
H
ASP
GLY
39
43
1.38
7
A
A
O
H
VAL
ILE
55
85
1.56
7
A
A
O
H
ILE
LYS
114
118
1.59
7
A
A
O
H
VAL
LEU
16
20
1.60
8
A
A
HE2
HG1
HIS
THR
52
79
0.50
8
A
A
O
H
ASP
GLY
39
43
1.38
8
A
A
O
H
LYS
HIS
8
53
1.42
8
A
A
NE2
HG1
HIS
THR
52
79
1.49
8
A
A
HE2
OG1
HIS
THR
52
79
1.49
8
A
A
O
H
VAL
ILE
55
85
1.56
8
A
A
O
H
LEU
ALA
21
25
1.57
8
A
A
O
H
VAL
LEU
16
20
1.57
8
A
A
O
O
VAL
GLN
9
33
2.19
9
A
A
O
H
ASP
GLY
39
43
1.42
9
A
A
O
H
LYS
HIS
8
53
1.42
9
A
A
HE2
OG1
HIS
THR
52
79
1.49
9
A
A
O
H
VAL
ILE
55
85
1.57
9
A
A
O
H
VAL
LEU
16
20
1.58
9
A
A
O
H
ILE
LYS
114
118
1.58
10
A
A
O
H
ASP
GLY
39
43
1.40
10
A
A
O
H
LYS
HIS
8
53
1.40
10
A
A
O
H
VAL
ILE
55
85
1.48
10
A
A
HE2
OG1
HIS
THR
52
79
1.49
10
A
A
O
H
LEU
ALA
21
25
1.56
10
A
A
O
H
VAL
LEU
16
20
1.58
10
A
A
O
H
ILE
LYS
114
118
1.60
10
A
A
O
O
VAL
GLN
9
33
2.18
11
A
A
O
H
ASP
GLY
39
43
1.38
11
A
A
O
H
LYS
HIS
8
53
1.41
11
A
A
O
H
VAL
ILE
55
85
1.52
11
A
A
O
H
LEU
ALA
21
25
1.56
11
A
A
O
H
ILE
LYS
114
118
1.58
11
A
A
O
H
VAL
LEU
16
20
1.59
11
A
A
O
O
VAL
GLN
9
33
2.16
12
A
A
O
H
ASP
GLY
39
43
1.39
12
A
A
O
H
LYS
HIS
8
53
1.42
12
A
A
HE2
OG1
HIS
THR
52
79
1.49
12
A
A
O
H
VAL
ILE
55
85
1.54
12
A
A
O
H
VAL
LEU
16
20
1.58
12
A
A
O
H
LEU
ALA
21
25
1.59
12
A
A
O
O
VAL
GLN
9
33
2.18
13
A
A
O
H
LYS
HIS
8
53
1.38
13
A
A
O
H
ASP
GLY
39
43
1.39
13
A
A
HE2
OG1
HIS
THR
52
79
1.51
13
A
A
O
H
VAL
ILE
55
85
1.55
13
A
A
O
H
VAL
LEU
16
20
1.57
13
A
A
O
O
VAL
GLN
9
33
2.15
14
A
A
O
H
ASP
GLY
39
43
1.37
14
A
A
O
H
LYS
HIS
8
53
1.43
14
A
A
HE2
OG1
HIS
THR
52
79
1.48
14
A
A
O
H
LEU
ALA
21
25
1.58
14
A
A
O
H
VAL
LEU
16
20
1.59
14
A
A
O
H
VAL
ILE
55
85
1.59
15
A
A
O
H
ASP
GLY
39
43
1.40
15
A
A
O
H
LYS
HIS
8
53
1.44
15
A
A
O
H
VAL
ILE
55
85
1.56
15
A
A
O
H
ILE
LYS
114
118
1.57
15
A
A
O
H
VAL
LEU
16
20
1.59
15
A
A
O
H
LEU
ALA
21
25
1.60
16
A
A
HE2
HG1
HIS
THR
52
79
0.88
16
A
A
O
H
ASP
GLY
39
43
1.40
16
A
A
O
H
LYS
HIS
8
53
1.44
16
A
A
HE2
OG1
HIS
THR
52
79
1.48
16
A
A
O
H
VAL
ILE
55
85
1.50
16
A
A
O
H
LEU
ALA
21
25
1.60
16
A
A
O
H
VAL
LEU
16
20
1.60
16
A
A
O
O
VAL
GLN
9
33
2.18
1
A
LYS
6
40.17
27.24
1
A
PHE
31
-19.10
-100.55
1
A
LYS
32
-162.22
-56.49
1
A
HIS
53
-147.20
14.34
1
A
ASN
60
-57.33
-81.67
1
A
MET
61
-159.96
49.81
1
A
ALA
89
-78.72
38.59
1
A
GLN
90
-125.10
-59.18
1
A
ASN
106
-171.21
126.46
1
A
ALA
127
32.89
66.96
2
A
LYS
6
38.68
29.16
2
A
PHE
31
-21.52
-93.79
2
A
LYS
32
-158.66
-57.40
2
A
HIS
53
-147.40
15.27
2
A
ASN
60
-59.08
-81.63
2
A
MET
61
-157.85
49.28
2
A
ALA
89
-78.44
38.61
2
A
GLN
90
-124.88
-60.20
2
A
ASN
106
-171.29
125.66
2
A
ALA
127
33.23
61.52
3
A
LYS
6
43.34
23.98
3
A
PHE
31
-20.08
-103.58
3
A
LYS
32
-163.37
-54.35
3
A
HIS
53
-146.31
12.75
3
A
ASN
60
-57.36
-81.72
3
A
MET
61
-159.46
49.73
3
A
ALA
89
-78.84
38.24
3
A
GLN
90
-125.42
-59.10
3
A
ALA
104
-48.51
152.74
3
A
LYS
110
-112.49
77.31
3
A
ALA
127
33.36
66.46
4
A
SER
2
-145.92
-44.76
4
A
LYS
6
43.57
22.61
4
A
PHE
31
-18.97
-102.27
4
A
LYS
32
-162.92
-55.35
4
A
HIS
53
-147.45
14.04
4
A
ASN
60
-57.48
-80.30
4
A
MET
61
-156.63
48.14
4
A
ALA
89
-77.80
38.27
4
A
GLN
90
-126.14
-59.69
4
A
ASN
106
-170.84
127.02
4
A
ALA
127
33.36
67.38
5
A
LYS
6
38.20
30.45
5
A
PHE
31
-19.73
-101.28
5
A
LYS
32
-162.40
-56.63
5
A
HIS
53
-146.90
15.36
5
A
ASN
60
-58.50
-80.44
5
A
MET
61
-160.03
48.76
5
A
ALA
89
-78.79
38.16
5
A
GLN
90
-124.51
-59.28
5
A
ASN
106
-171.62
125.97
5
A
ALA
127
32.72
62.35
6
A
LYS
6
42.84
23.08
6
A
PHE
31
-20.04
-103.49
6
A
LYS
32
-162.92
-54.70
6
A
HIS
53
-146.41
12.10
6
A
ASN
60
-59.23
-82.12
6
A
MET
61
-156.67
48.10
6
A
ALA
89
-78.70
38.14
6
A
GLN
90
-125.18
-58.18
6
A
ALA
104
-48.72
152.85
6
A
ASN
106
-171.64
126.27
6
A
ALA
127
33.04
66.36
7
A
SER
2
-140.60
-44.24
7
A
LYS
6
44.35
21.26
7
A
PHE
31
-20.24
-103.97
7
A
LYS
32
-163.35
-53.96
7
A
HIS
53
-146.76
13.99
7
A
ASN
60
-59.96
-80.77
7
A
MET
61
-156.44
47.98
7
A
ALA
89
-78.40
39.10
7
A
GLN
90
-126.04
-60.03
7
A
ASN
106
-171.85
126.01
7
A
ALA
127
32.61
67.42
8
A
LYS
6
39.04
30.57
8
A
PHE
31
-18.67
-99.70
8
A
LYS
32
-161.04
-56.92
8
A
HIS
53
-146.95
13.62
8
A
ASN
60
-59.17
-81.90
8
A
MET
61
-157.47
48.77
8
A
ALA
89
-78.62
38.55
8
A
GLN
90
-125.16
-59.09
8
A
ASN
106
-172.62
125.62
8
A
ALA
127
33.45
61.59
9
A
SER
2
-37.13
-35.95
9
A
LYS
6
38.65
30.26
9
A
PHE
31
-19.97
-103.11
9
A
LYS
32
-162.29
-55.06
9
A
HIS
53
-146.19
14.24
9
A
ASN
60
-60.60
-80.60
9
A
MET
61
-156.47
47.28
9
A
ALA
89
-78.08
38.37
9
A
GLN
90
-125.06
-58.14
9
A
ASN
106
-171.86
126.03
9
A
ALA
127
32.75
65.55
10
A
SER
2
-140.18
-41.25
10
A
LYS
6
39.87
26.70
10
A
PHE
31
-19.73
-103.95
10
A
LYS
32
-163.85
-53.49
10
A
HIS
53
-147.45
12.47
10
A
ASN
60
-58.55
-81.36
10
A
MET
61
-159.24
48.29
10
A
ALA
89
-78.49
38.54
10
A
GLN
90
-125.37
-59.93
10
A
ASN
106
-171.79
126.34
10
A
LYS
110
-109.51
79.75
10
A
ALA
127
32.68
60.04
11
A
SER
2
-165.79
-45.52
11
A
LYS
6
41.79
24.60
11
A
PHE
31
-20.26
-104.25
11
A
LYS
32
-164.30
-53.94
11
A
HIS
53
-146.08
14.02
11
A
ASN
60
-57.92
-80.39
11
A
MET
61
-158.72
49.68
11
A
ALA
89
-78.88
38.66
11
A
GLN
90
-124.66
-59.18
11
A
ASN
106
-171.76
125.72
11
A
ALA
127
33.07
67.50
12
A
SER
2
-145.50
-33.75
12
A
LYS
6
39.15
27.60
12
A
PHE
31
-20.32
-103.01
12
A
LYS
32
-162.89
-54.40
12
A
HIS
53
-146.50
13.26
12
A
ASN
60
-57.96
-82.05
12
A
MET
61
-159.29
48.99
12
A
ALA
89
-78.05
38.45
12
A
GLN
90
-125.34
-60.18
12
A
ALA
104
-48.18
154.31
12
A
ASN
106
-170.38
126.82
12
A
LYS
110
-115.15
75.86
12
A
ALA
127
32.83
66.29
13
A
SER
2
-145.15
-35.38
13
A
LYS
6
39.34
27.74
13
A
PHE
31
-20.35
-103.38
13
A
LYS
32
-163.91
-53.63
13
A
HIS
53
-146.91
12.59
13
A
ASN
60
-59.25
-82.58
13
A
MET
61
-156.76
48.54
13
A
ALA
89
-78.44
38.38
13
A
GLN
90
-125.13
-59.87
13
A
LYS
110
-114.20
74.75
14
A
LYS
6
39.23
29.30
14
A
PHE
31
-18.60
-98.63
14
A
LYS
32
-161.69
-57.39
14
A
HIS
53
-147.15
14.11
14
A
ASN
60
-60.35
-81.44
14
A
MET
61
-156.75
47.79
14
A
ALA
89
-78.04
38.82
14
A
GLN
90
-125.08
-59.84
14
A
LYS
110
-114.48
76.29
14
A
ALA
127
34.13
65.24
15
A
LYS
6
38.47
30.10
15
A
PHE
31
-18.67
-101.05
15
A
LYS
32
-162.10
-56.73
15
A
HIS
53
-147.06
15.40
15
A
ASN
60
-59.05
-79.45
15
A
MET
61
-159.19
48.01
15
A
ALA
89
-78.12
38.26
15
A
GLN
90
-124.90
-58.73
15
A
ASN
106
-172.41
127.21
15
A
ALA
127
33.86
67.17
16
A
LYS
6
39.94
27.98
16
A
PHE
31
-19.71
-103.48
16
A
LYS
32
-163.51
-54.26
16
A
HIS
53
-146.48
14.14
16
A
ASN
60
-57.15
-80.88
16
A
MET
61
-159.00
49.38
16
A
ALA
89
-78.82
37.66
16
A
GLN
90
-125.16
-59.14
16
A
ASN
106
-170.21
126.53
16
A
LYS
110
-114.10
75.05
TOTAL NUMBER OF NOES USED FOR THE CALCULATION: 1598,
NUMBER OF INTRA-RESIDUE NOES USED FOR THE CALCULATION: 796,
NUMBER OF SEQUENTIAL NOES USED FOR THE CALCULATION: 437,
NUMBER OF MEDIUM RANGE NOES USED FOR THE CALCULATION: 179,
NUMBER OF LONG RANGE (I,J, J > I+4) NOES USED FOR THE CALCULATION: 186,
NUMBER OF DIHEDRAL ANGLES RESTRAINTS USED FOR THE CALCULATION: 52,
NUMBER OF HYDROGEN BOND RESTRAINTS USED FOR THE CALCULATION: 5,
MINIMAL TARGET FUNCTION WAS 2.80,
MEAN TARGET FUNCTION OF 16 STRUCTURES WAS 3.00 (+-0.4),
THE NUMBER OF NOE VIOLATIONS > 0.02 NM WAS 3 (+-1),
THE NUMBER OF NOE VIOLATIONS > 0.03 NM WAS 0,
THE NUMBER OF DIHEDRAL ANGLES VIOLATIONS > 10 DEGREES WAS 0,
RMSDS BACK BONE (6-124): 0.042 (+-0.015) NM,
RMSDS ALL HEAVY ATOMS (6-124): 0.098 (+-0.016)NM
NMR Structure of the Response regulator CheY2 from Sinorhizobium meliloti, complexed with Mg++
1
N
N
A
GLN
15
A
GLN
15
HELX_P
A
GLN
28
A
GLN
28
1
1
14
A
ASP
39
A
ASP
39
HELX_P
A
GLN
49
A
GLN
49
1
2
11
A
ASP
65
A
ASP
65
HELX_P
A
ARG
74
A
ARG
74
1
3
10
A
ASP
92
A
ASP
92
HELX_P
A
GLY
103
A
GLY
103
1
4
12
A
THR
113
A
THR
113
HELX_P
A
ALA
127
A
ALA
127
1
5
15
SIGNALING PROTEIN
CheY2, Chemotaxis, Sinorhizobium meliloti, Signal transduction, Response regulator, Structural Proteomics in Europe, SPINE, Structural Genomics, SIGNALING PROTEIN
Q52884_RHIME
UNP
1
1
Q52884
MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK
KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK
1
129
1P6Q
1
129
Q52884
A
1
1
129
5
parallel
parallel
parallel
parallel
A
ILE
34
A
ILE
34
A
THR
35
A
THR
35
A
VAL
9
A
VAL
9
A
VAL
12
A
VAL
12
A
LEU
54
A
LEU
54
A
SER
57
A
SER
57
A
ALA
83
A
ALA
83
A
ILE
86
A
ILE
86
A
VAL
107
A
VAL
107
A
LEU
108
A
LEU
108
1
P 1