1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Cho, H.S.
Lee, S.Y.
Yan, D.
Pan, X.
Parkinson, J.S.
Kustu, S.
Wemmer, D.E.
Pelton, J.G.
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 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
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
297
543
551
10.1006/jmbi.2000.3595
10731410
NMR structure of activated CheY.
2000
US
Proc.Natl.Acad.Sci.USA
PNASA6
0040
0027-8424
96
14789
14794
10.1073/pnas.96.26.14789
Beryllofluoride Mimics Phosphorylation of NtrC and Other Bacterial Response Regulators
1999
10.2210/pdb1djm/pdb
pdb_00001djm
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
14112.332
CHEMOTAXIS PROTEIN Y
1
man
polymer
no
no
MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSA
LPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM
MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSA
LPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM
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
n
n
n
n
n
Escherichia
Escherichia
sample
562
Escherichia coli
562
Escherichia coli
PET21
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
2000-04-05
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-16
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
RCSB
Y
RCSB
1999-12-03
REL
REL
THE STRUCTURE WAS DETERMINED USING TRIPLE-RESONANCE NMR SPECTROSCOPY.
structures with the least restraint violations
60
27
4D_13C-SEPARATED_NOESY
4D_13C/15N-SEPARATED_NOESY
3D_15N-SEPARATED_NOESY
15N HMQC-J
13C CONSTANT-TIME HMQC-J
16 mM BECL2, 100 mM NAF, 20 mM MGCL2
6.7
AMBIENT
298
K
16 mM BECL2, 100 mM NAF, 20 mM MGCL2
6.7
AMBIENT
298
K
16 mM BECL2, 100 mM NAF, 20 mM MGCL2
6.7
AMBIENT
298
K
THE STRUCTURES ARE BASED ON A TOTAL OF 972 NON-TRIVIAL NOE RESTRAINTS (213
INTRA RESIDUE, 271 SEQUENTIAL, 238 MEDIUM-RANGE, AND 250 LONG-RANGE). 78 PHI
TORSION ANGLE RESTRAINTS AND 17 CHI1 RESTRAINTS WERE USED. 47 HYDROGEN BONDS (
94 UPPER AND LOWER DISTANCE RESTRAINTS) WERE USED IN LATER STAGES OF REFINEMENT.
torsion angle dynamics
1
fewest violations
4 MM CHEY U-15N, 13C, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7
3 MM U-15N, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7
3 MM U-10% 13C, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7
2 MM CHEY, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7
GUNTERT, MUMENTHALER, WUTHRICH
structure solution
DYANA
1.5
LUGINBUHL, GUNTERT, BILLETER, WUTHRICH
refinement
OPAL
2.2
DELAGLIO, BRZESIEK, VUISTER, ZHU, PFEIFER, BAX
processing
NMRPipe
1.7
BARTELS, XIA, BILLETER, GUNTERT, WUTHRICH
processing
XEASY
1.3.11
600
Bruker
AMX
MET
1
n
1
MET
1
A
ALA
2
n
2
ALA
2
A
ASP
3
n
3
ASP
3
A
LYS
4
n
4
LYS
4
A
GLU
5
n
5
GLU
5
A
LEU
6
n
6
LEU
6
A
LYS
7
n
7
LYS
7
A
PHE
8
n
8
PHE
8
A
LEU
9
n
9
LEU
9
A
VAL
10
n
10
VAL
10
A
VAL
11
n
11
VAL
11
A
ASP
12
n
12
ASP
12
A
ASP
13
n
13
ASP
13
A
PHE
14
n
14
PHE
14
A
SER
15
n
15
SER
15
A
THR
16
n
16
THR
16
A
MET
17
n
17
MET
17
A
ARG
18
n
18
ARG
18
A
ARG
19
n
19
ARG
19
A
ILE
20
n
20
ILE
20
A
VAL
21
n
21
VAL
21
A
ARG
22
n
22
ARG
22
A
ASN
23
n
23
ASN
23
A
LEU
24
n
24
LEU
24
A
LEU
25
n
25
LEU
25
A
LYS
26
n
26
LYS
26
A
GLU
27
n
27
GLU
27
A
LEU
28
n
28
LEU
28
A
GLY
29
n
29
GLY
29
A
PHE
30
n
30
PHE
30
A
ASN
31
n
31
ASN
31
A
ASN
32
n
32
ASN
32
A
VAL
33
n
33
VAL
33
A
GLU
34
n
34
GLU
34
A
GLU
35
n
35
GLU
35
A
ALA
36
n
36
ALA
36
A
GLU
37
n
37
GLU
37
A
ASP
38
n
38
ASP
38
A
GLY
39
n
39
GLY
39
A
VAL
40
n
40
VAL
40
A
ASP
41
n
41
ASP
41
A
ALA
42
n
42
ALA
42
A
LEU
43
n
43
LEU
43
A
ASN
44
n
44
ASN
44
A
LYS
45
n
45
LYS
45
A
LEU
46
n
46
LEU
46
A
GLN
47
n
47
GLN
47
A
ALA
48
n
48
ALA
48
A
GLY
49
n
49
GLY
49
A
GLY
50
n
50
GLY
50
A
TYR
51
n
51
TYR
51
A
GLY
52
n
52
GLY
52
A
PHE
53
n
53
PHE
53
A
VAL
54
n
54
VAL
54
A
ILE
55
n
55
ILE
55
A
SER
56
n
56
SER
56
A
ASP
57
n
57
ASP
57
A
TRP
58
n
58
TRP
58
A
ASN
59
n
59
ASN
59
A
MET
60
n
60
MET
60
A
PRO
61
n
61
PRO
61
A
ASN
62
n
62
ASN
62
A
MET
63
n
63
MET
63
A
ASP
64
n
64
ASP
64
A
GLY
65
n
65
GLY
65
A
LEU
66
n
66
LEU
66
A
GLU
67
n
67
GLU
67
A
LEU
68
n
68
LEU
68
A
LEU
69
n
69
LEU
69
A
LYS
70
n
70
LYS
70
A
THR
71
n
71
THR
71
A
ILE
72
n
72
ILE
72
A
ARG
73
n
73
ARG
73
A
ALA
74
n
74
ALA
74
A
ASP
75
n
75
ASP
75
A
GLY
76
n
76
GLY
76
A
ALA
77
n
77
ALA
77
A
MET
78
n
78
MET
78
A
SER
79
n
79
SER
79
A
ALA
80
n
80
ALA
80
A
LEU
81
n
81
LEU
81
A
PRO
82
n
82
PRO
82
A
VAL
83
n
83
VAL
83
A
LEU
84
n
84
LEU
84
A
MET
85
n
85
MET
85
A
VAL
86
n
86
VAL
86
A
THR
87
n
87
THR
87
A
ALA
88
n
88
ALA
88
A
GLU
89
n
89
GLU
89
A
ALA
90
n
90
ALA
90
A
LYS
91
n
91
LYS
91
A
LYS
92
n
92
LYS
92
A
GLU
93
n
93
GLU
93
A
ASN
94
n
94
ASN
94
A
ILE
95
n
95
ILE
95
A
ILE
96
n
96
ILE
96
A
ALA
97
n
97
ALA
97
A
ALA
98
n
98
ALA
98
A
ALA
99
n
99
ALA
99
A
GLN
100
n
100
GLN
100
A
ALA
101
n
101
ALA
101
A
GLY
102
n
102
GLY
102
A
ALA
103
n
103
ALA
103
A
SER
104
n
104
SER
104
A
GLY
105
n
105
GLY
105
A
TYR
106
n
106
TYR
106
A
VAL
107
n
107
VAL
107
A
VAL
108
n
108
VAL
108
A
LYS
109
n
109
LYS
109
A
PRO
110
n
110
PRO
110
A
PHE
111
n
111
PHE
111
A
THR
112
n
112
THR
112
A
ALA
113
n
113
ALA
113
A
ALA
114
n
114
ALA
114
A
THR
115
n
115
THR
115
A
LEU
116
n
116
LEU
116
A
GLU
117
n
117
GLU
117
A
GLU
118
n
118
GLU
118
A
LYS
119
n
119
LYS
119
A
LEU
120
n
120
LEU
120
A
ASN
121
n
121
ASN
121
A
LYS
122
n
122
LYS
122
A
ILE
123
n
123
ILE
123
A
PHE
124
n
124
PHE
124
A
GLU
125
n
125
GLU
125
A
LYS
126
n
126
LYS
126
A
LEU
127
n
127
LEU
127
A
GLY
128
n
128
GLY
128
A
MET
129
n
129
MET
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
N
GLU
34
A
N
GLU
34
A
O
PHE
8
A
O
PHE
8
A
N
LEU
9
A
N
LEU
9
A
O
PHE
53
A
O
PHE
53
A
O
VAL
54
A
O
VAL
54
A
N
LEU
84
A
N
LEU
84
A
N
MET
85
A
N
MET
85
A
O
GLY
105
A
O
GLY
105
2
A
A
OD1
HG
ASP
SER
75
79
1.59
4
A
A
OD1
HG1
ASP
THR
57
87
1.58
10
A
A
OD1
HG1
ASP
THR
57
87
1.58
16
A
A
OD1
HG1
ASP
THR
57
87
1.55
17
A
A
OD1
HG1
ASP
THR
57
87
1.60
18
A
A
OD1
HG1
ASP
THR
57
87
1.55
21
A
A
OD1
HG1
ASP
THR
57
87
1.60
6
A
A
MET
ALA
1
2
147.42
1
A
ARG
22
0.076
SIDE CHAIN
3
A
ARG
73
0.093
SIDE CHAIN
6
A
ARG
19
0.144
SIDE CHAIN
7
A
ARG
22
0.122
SIDE CHAIN
7
A
TYR
51
0.081
SIDE CHAIN
8
A
ARG
18
0.142
SIDE CHAIN
8
A
ARG
19
0.143
SIDE CHAIN
8
A
TYR
51
0.073
SIDE CHAIN
9
A
TYR
51
0.088
SIDE CHAIN
10
A
ARG
73
0.123
SIDE CHAIN
13
A
ARG
22
0.109
SIDE CHAIN
15
A
ARG
18
0.088
SIDE CHAIN
15
A
ARG
19
0.094
SIDE CHAIN
16
A
ARG
73
0.121
SIDE CHAIN
16
A
TYR
106
0.069
SIDE CHAIN
18
A
ARG
19
0.076
SIDE CHAIN
18
A
ARG
73
0.092
SIDE CHAIN
19
A
ARG
18
0.081
SIDE CHAIN
20
A
ARG
19
0.093
SIDE CHAIN
21
A
ARG
22
0.095
SIDE CHAIN
22
A
ARG
18
0.115
SIDE CHAIN
22
A
ARG
19
0.104
SIDE CHAIN
24
A
ARG
73
0.078
SIDE CHAIN
25
A
ARG
18
0.089
SIDE CHAIN
25
A
ARG
73
0.124
SIDE CHAIN
4
9.36
1.40
123.60
132.96
A
A
A
CD
NE
CZ
ARG
ARG
ARG
18
18
18
N
4
4.32
0.50
120.30
124.62
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
18
18
18
N
18
-3.89
0.60
121.00
117.11
A
A
A
CB
CG
CD2
TYR
TYR
TYR
51
51
51
N
22
-3.21
0.50
120.30
117.09
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
73
73
73
N
1
A
LEU
6
-58.60
108.56
1
A
ASN
32
65.15
82.34
1
A
ASP
57
-73.46
-158.25
1
A
TRP
58
-134.08
-30.27
1
A
MET
60
-44.69
154.33
1
A
ASN
62
-119.98
-99.57
1
A
ARG
73
-68.79
4.16
1
A
ASP
75
64.34
-176.35
1
A
ALA
77
-125.41
-72.02
2
A
GLU
5
37.92
47.48
2
A
ASN
32
64.39
77.17
2
A
ASP
57
-46.93
-176.13
2
A
PRO
61
-61.12
26.67
2
A
ASN
62
-161.33
-71.89
2
A
ASP
64
-47.07
153.55
2
A
ASP
75
89.54
30.49
2
A
LYS
126
-68.49
-70.41
3
A
LEU
6
-54.98
106.37
3
A
PHE
30
35.92
64.76
3
A
ASN
31
-68.41
1.48
3
A
ASN
62
-139.88
-89.95
3
A
ASP
75
63.40
175.08
3
A
ALA
77
-148.10
-28.01
4
A
LEU
6
-53.22
109.43
4
A
SER
15
70.64
-47.27
4
A
LEU
28
-146.67
28.53
4
A
ASN
32
60.05
74.29
4
A
ASP
75
68.59
163.15
4
A
ALA
77
-165.85
82.02
4
A
MET
78
103.81
17.31
4
A
ALA
90
-81.34
-95.80
4
A
LYS
91
59.15
112.16
5
A
ALA
2
-77.93
-163.54
5
A
ASP
57
-78.98
-157.60
5
A
ASN
59
-84.63
43.74
5
A
ASN
62
53.82
-78.13
5
A
ASP
75
-175.16
-161.92
5
A
ALA
77
69.74
-37.33
6
A
SER
15
62.31
-60.18
6
A
LEU
28
-156.79
47.37
6
A
ASN
32
60.78
79.25
6
A
ASN
62
-92.65
-99.36
7
A
ASP
3
58.91
86.68
7
A
LYS
4
-76.94
32.53
7
A
LEU
6
-55.07
108.22
7
A
VAL
11
-114.37
70.12
7
A
PHE
30
64.86
60.23
7
A
ASN
62
-83.54
-101.91
7
A
ALA
74
-59.25
-79.40
7
A
ASP
75
-168.79
8.40
8
A
ALA
2
-154.73
36.65
8
A
GLN
47
-66.25
3.06
8
A
ALA
48
-70.53
-88.45
8
A
ASN
59
29.21
-157.18
8
A
MET
60
-169.81
65.15
8
A
ASN
62
-155.61
-69.69
8
A
ALA
90
-68.33
-73.56
8
A
LYS
91
32.73
98.92
8
A
LYS
126
-77.14
-71.70
9
A
ALA
2
-119.62
-157.82
9
A
LEU
6
-49.12
104.14
9
A
VAL
11
-95.84
51.47
9
A
ASN
32
98.57
96.54
9
A
ASP
38
177.32
174.76
9
A
TRP
58
-71.04
-78.13
9
A
ASN
59
43.10
178.16
9
A
PRO
61
-85.49
49.00
9
A
ASN
62
72.88
-80.38
9
A
ARG
73
-68.66
24.17
9
A
ALA
74
-66.80
-72.42
9
A
ASP
75
157.21
-11.05
9
A
ALA
77
92.86
-12.31
9
A
ALA
90
-57.96
-73.52
9
A
LYS
91
43.78
91.03
9
A
LYS
126
-76.10
-72.43
10
A
LYS
4
-68.19
6.59
10
A
PHE
14
-90.00
-63.85
10
A
SER
15
127.28
-59.35
10
A
ASN
62
-107.25
-96.24
10
A
ARG
73
-68.58
7.91
10
A
ASP
75
130.35
-79.23
10
A
ALA
77
-140.89
-76.86
10
A
MET
78
-142.60
15.03
11
A
LEU
6
-41.53
108.82
11
A
LEU
28
-147.03
19.05
11
A
ASN
62
50.99
-89.71
11
A
VAL
83
-47.58
107.82
11
A
PHE
111
15.79
114.85
11
A
LYS
126
-64.23
-72.81
12
A
LYS
4
-56.25
-9.84
12
A
ASN
62
63.77
-93.30
12
A
ASP
64
-49.88
153.47
12
A
ASP
75
61.53
-121.32
12
A
VAL
83
-47.24
108.19
12
A
ALA
90
-67.51
-88.25
12
A
LYS
91
49.81
99.14
13
A
ALA
2
-161.69
65.66
13
A
VAL
11
-113.78
59.26
13
A
LEU
28
-79.35
-75.45
13
A
PHE
30
65.33
164.43
13
A
ASN
31
-151.16
-3.05
13
A
GLU
34
-152.92
-155.47
13
A
GLN
47
-68.48
3.14
13
A
ASN
59
-79.93
25.87
13
A
PRO
61
-70.81
-167.80
13
A
ASN
62
60.49
-146.71
13
A
MET
63
-66.98
96.41
13
A
ASP
64
-54.71
174.10
13
A
ALA
74
-69.16
14.37
13
A
ASP
75
132.83
-107.09
13
A
PHE
111
-177.91
146.72
14
A
GLU
5
39.15
53.54
14
A
GLN
47
-66.25
4.60
14
A
ASN
62
54.92
-84.46
14
A
ALA
77
-131.07
-50.81
14
A
LYS
126
-74.00
-74.10
15
A
ALA
2
-148.38
-156.80
15
A
LEU
6
-54.50
106.56
15
A
SER
15
76.34
-68.10
15
A
ASN
62
57.61
-104.26
15
A
ALA
74
-68.75
-81.85
15
A
ASP
75
-172.60
-163.63
15
A
ALA
77
58.73
-18.15
15
A
LYS
126
-90.57
-68.68
16
A
GLU
5
-178.93
24.59
16
A
PHE
30
62.22
-177.80
16
A
ASN
31
170.29
-167.97
16
A
GLN
47
-68.45
11.89
16
A
ASN
62
-150.84
-91.83
16
A
ARG
73
-69.60
8.03
16
A
ASP
75
127.98
-74.52
16
A
MET
78
95.00
30.98
16
A
ALA
90
-89.61
-80.95
16
A
LYS
91
52.55
100.97
17
A
LEU
6
-29.08
104.88
17
A
ASN
59
-68.61
29.38
17
A
ASN
62
-124.56
-76.94
17
A
ASP
75
-161.66
-103.55
17
A
ALA
90
-66.53
-81.42
17
A
LYS
91
45.94
95.04
17
A
LYS
126
-78.23
-71.74
18
A
ALA
2
-136.68
-142.77
18
A
ASN
32
62.06
80.39
18
A
ASN
59
-76.20
21.48
18
A
ASN
62
55.78
-105.86
18
A
ALA
74
-62.72
-75.00
18
A
ASP
75
-167.22
-112.74
18
A
ALA
77
61.58
-6.97
19
A
ALA
2
-67.59
-70.86
19
A
LEU
28
-160.84
13.82
19
A
ASN
32
77.29
99.28
19
A
GLN
47
-69.59
10.56
19
A
ASN
62
-150.73
-80.52
19
A
ASP
75
59.86
-176.97
19
A
MET
78
72.45
-8.91
19
A
LYS
91
-45.16
105.25
20
A
ASP
3
-86.43
39.88
20
A
LYS
4
-69.90
8.28
20
A
GLN
47
-77.66
29.18
20
A
ASN
62
51.24
-79.07
20
A
ASP
64
-49.86
150.17
20
A
ALA
90
-63.61
-73.58
20
A
LYS
91
39.98
92.70
20
A
LYS
92
-28.43
-57.75
21
A
GLU
5
-117.99
56.71
21
A
VAL
11
-109.04
78.80
21
A
PHE
14
-83.41
-151.75
21
A
SER
15
-139.78
-43.81
21
A
PHE
30
59.20
174.48
21
A
ASN
31
-170.89
-162.70
21
A
GLN
47
-76.01
29.56
21
A
ASN
59
-80.97
37.06
21
A
ASN
62
53.56
-92.47
21
A
ASP
75
170.98
-3.70
21
A
ALA
77
75.30
-16.97
21
A
ALA
90
-91.31
-81.85
21
A
LYS
91
46.33
110.65
21
A
LYS
126
-68.16
-73.27
22
A
ASP
3
-54.24
109.96
22
A
LYS
4
-76.90
36.98
22
A
GLU
5
-140.47
33.29
22
A
VAL
11
-112.14
53.84
22
A
GLN
47
-76.09
35.93
22
A
ASN
62
58.41
-98.54
23
A
ASP
3
58.52
-172.85
23
A
VAL
11
-112.07
57.20
23
A
ASN
32
75.50
-64.22
23
A
VAL
33
33.87
65.33
23
A
GLN
47
-72.34
27.21
23
A
ASP
57
-75.96
-167.73
23
A
ASN
59
-67.10
86.58
23
A
ASN
62
54.90
-94.61
23
A
ASP
75
-173.33
-144.07
23
A
ALA
77
53.21
8.75
23
A
LYS
91
45.99
80.92
23
A
LYS
126
-67.49
-74.51
24
A
ASN
32
-78.52
49.20
24
A
ASN
62
-139.14
-83.21
24
A
ALA
74
-152.41
45.49
24
A
ASP
75
-127.15
-152.37
24
A
ALA
90
-65.38
-92.07
24
A
LYS
91
51.15
101.41
25
A
SER
15
68.46
-58.32
25
A
ASN
32
59.72
75.91
25
A
TRP
58
-96.18
-60.57
25
A
ASN
62
44.80
-110.80
25
A
ASP
64
-54.50
173.68
25
A
ALA
77
-121.37
-50.21
25
A
ALA
90
-70.29
-81.73
25
A
LYS
91
54.11
100.81
25
A
LYS
126
-69.27
-73.73
26
A
ALA
2
60.86
164.75
26
A
GLU
5
39.00
44.12
26
A
VAL
11
-113.13
60.47
26
A
ASN
32
58.46
81.63
26
A
ASN
59
48.86
165.61
26
A
ASN
62
-165.17
-75.66
26
A
ALA
90
-76.18
23.16
26
A
LYS
126
-70.65
-74.59
27
A
LEU
6
-51.27
107.89
27
A
LEU
28
-166.62
99.71
27
A
TRP
58
-83.47
-76.46
27
A
ASN
59
55.97
-170.42
27
A
MET
60
-162.89
75.67
27
A
PRO
61
-76.48
-71.28
27
A
ASN
62
-131.96
-67.97
27
A
ALA
77
-135.57
-40.80
27
A
ALA
90
-57.76
-73.92
27
A
LYS
91
39.25
93.37
SOLUTION STRUCTURE OF BEF3-ACTIVATED CHEY FROM ESCHERICHIA COLI
1
N
N
A
PHE
14
A
PHE
14
HELX_P
A
GLY
29
A
GLY
29
1
1
16
A
ASP
38
A
ASP
38
HELX_P
A
GLN
47
A
GLN
47
1
2
10
A
ASP
64
A
ASP
64
HELX_P
A
ARG
73
A
ARG
73
1
3
10
A
LYS
91
A
LYS
91
HELX_P
A
GLY
102
A
GLY
102
1
4
12
A
THR
112
A
THR
112
HELX_P
A
LYS
126
A
LYS
126
1
5
15
SIGNALING PROTEIN
BEFX, CHEY, RESPONSE REGULATOR, CHEMOTAXIS, TWO-COMPONENT, SIGNALING PROTEIN
A
LYS
109
A
LYS
109
1
A
PRO
110
A
PRO
110
-16.26
A
LYS
109
A
LYS
109
2
A
PRO
110
A
PRO
110
-3.38
A
LYS
109
A
LYS
109
3
A
PRO
110
A
PRO
110
-10.45
A
LYS
109
A
LYS
109
4
A
PRO
110
A
PRO
110
-12.22
A
LYS
109
A
LYS
109
5
A
PRO
110
A
PRO
110
-8.74
A
LYS
109
A
LYS
109
6
A
PRO
110
A
PRO
110
-8.04
A
LYS
109
A
LYS
109
7
A
PRO
110
A
PRO
110
-12.36
A
LYS
109
A
LYS
109
8
A
PRO
110
A
PRO
110
-9.53
A
LYS
109
A
LYS
109
9
A
PRO
110
A
PRO
110
-12.97
A
LYS
109
A
LYS
109
10
A
PRO
110
A
PRO
110
-20.47
A
LYS
109
A
LYS
109
11
A
PRO
110
A
PRO
110
8.51
A
LYS
109
A
LYS
109
12
A
PRO
110
A
PRO
110
-7.55
A
LYS
109
A
LYS
109
13
A
PRO
110
A
PRO
110
-16.78
A
LYS
109
A
LYS
109
14
A
PRO
110
A
PRO
110
-14.35
A
LYS
109
A
LYS
109
15
A
PRO
110
A
PRO
110
-3.47
A
LYS
109
A
LYS
109
16
A
PRO
110
A
PRO
110
-1.41
A
LYS
109
A
LYS
109
17
A
PRO
110
A
PRO
110
-11.43
A
LYS
109
A
LYS
109
18
A
PRO
110
A
PRO
110
-15.63
A
LYS
109
A
LYS
109
19
A
PRO
110
A
PRO
110
-15.18
A
LYS
109
A
LYS
109
20
A
PRO
110
A
PRO
110
-10.44
A
LYS
109
A
LYS
109
21
A
PRO
110
A
PRO
110
-6.54
A
LYS
109
A
LYS
109
22
A
PRO
110
A
PRO
110
-21.06
A
LYS
109
A
LYS
109
23
A
PRO
110
A
PRO
110
-14.49
A
LYS
109
A
LYS
109
24
A
PRO
110
A
PRO
110
-16.35
A
LYS
109
A
LYS
109
25
A
PRO
110
A
PRO
110
-6.33
A
LYS
109
A
LYS
109
26
A
PRO
110
A
PRO
110
-6.52
A
LYS
109
A
LYS
109
27
A
PRO
110
A
PRO
110
-20.73
CHEY_ECOLI
UNP
1
P06143
1
129
1DJM
1
129
P06143
A
1
1
129
5
parallel
parallel
parallel
parallel
A
VAL
33
A
VAL
33
A
GLU
34
A
GLU
34
A
PHE
8
A
PHE
8
A
VAL
11
A
VAL
11
A
PHE
53
A
PHE
53
A
SER
56
A
SER
56
A
VAL
83
A
VAL
83
A
THR
87
A
THR
87
A
GLY
105
A
GLY
105
A
VAL
108
A
VAL
108
1
P 1