1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Feher, V.A.
Skelton, N.J.
Dahlquist, F.W.
Cavanagh, J.
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
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Biochemistry
BICHAW
0033
0006-2960
36
10015
10025
10.1021/bi970816l
9254596
High-resolution NMR structure and backbone dynamics of the Bacillus subtilis response regulator, Spo0F: implications for phosphorylation and molecular recognition.
1997
US
Protein Sci.
PRCIEI
0795
0961-8368
4
1801
1H, 15N, and 13C Backbone Chemical Shift Assignments, Secondary Structure, and Magnesium-Binding Characteristics of the Bacillus Subtilis Response Regulator, Spo0F, Determined by Heteronuclear High-Resolution NMR
1995
10.2210/pdb1fsp/pdb
pdb_00001fsp
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
14244.660
STAGE 0 SPORULATION PROTEIN F
1
man
polymer
SPO0F
no
no
MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII
MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN
MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII
MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN
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
Bacillus
Escherichia
Escherichia coli
sample
BL21
SPO0F
1423
Bacillus subtilis
SPO0F
469008
Escherichia coli BL21(DE3)
BL21 (DE3)
PET20B (NOVAGEN)
T7 PROMOTER
PET0F
database_2
pdbx_database_status
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
Other
1
0
1997-12-10
1
1
2008-03-24
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.process_site
Y
BNL
1997-06-05
REL
LEAST RESTRAINT VIOLATIONS
60
20
TPPI-STATES
6.8
300
K
REFINEMENT DETAILS CAN BE FOUND IN BIOCHEMISTRY CITATION.
DISTANCE GEOMETRY WITH SIMULATED ANNEALING REFINEMENT
BRUNGER
refinement
X-PLOR
3.1
structure solution
X-PLOR
3.1
500
Bruker
BRUKER AMX 600
600
Varian
DMX 500
600
GE
DMX 500
MET
1
n
1
MET
1
A
MET
2
n
2
MET
2
A
ASN
3
n
3
ASN
3
A
GLU
4
n
4
GLU
4
A
LYS
5
n
5
LYS
5
A
ILE
6
n
6
ILE
6
A
LEU
7
n
7
LEU
7
A
ILE
8
n
8
ILE
8
A
VAL
9
n
9
VAL
9
A
ASP
10
n
10
ASP
10
A
ASP
11
n
11
ASP
11
A
GLN
12
n
12
GLN
12
A
TYR
13
n
13
TYR
13
A
GLY
14
n
14
GLY
14
A
ILE
15
n
15
ILE
15
A
ARG
16
n
16
ARG
16
A
ILE
17
n
17
ILE
17
A
LEU
18
n
18
LEU
18
A
LEU
19
n
19
LEU
19
A
ASN
20
n
20
ASN
20
A
GLU
21
n
21
GLU
21
A
VAL
22
n
22
VAL
22
A
PHE
23
n
23
PHE
23
A
ASN
24
n
24
ASN
24
A
LYS
25
n
25
LYS
25
A
GLU
26
n
26
GLU
26
A
GLY
27
n
27
GLY
27
A
TYR
28
n
28
TYR
28
A
GLN
29
n
29
GLN
29
A
THR
30
n
30
THR
30
A
PHE
31
n
31
PHE
31
A
GLN
32
n
32
GLN
32
A
ALA
33
n
33
ALA
33
A
ALA
34
n
34
ALA
34
A
ASN
35
n
35
ASN
35
A
GLY
36
n
36
GLY
36
A
LEU
37
n
37
LEU
37
A
GLN
38
n
38
GLN
38
A
ALA
39
n
39
ALA
39
A
LEU
40
n
40
LEU
40
A
ASP
41
n
41
ASP
41
A
ILE
42
n
42
ILE
42
A
VAL
43
n
43
VAL
43
A
THR
44
n
44
THR
44
A
LYS
45
n
45
LYS
45
A
GLU
46
n
46
GLU
46
A
ARG
47
n
47
ARG
47
A
PRO
48
n
48
PRO
48
A
ASP
49
n
49
ASP
49
A
LEU
50
n
50
LEU
50
A
VAL
51
n
51
VAL
51
A
LEU
52
n
52
LEU
52
A
LEU
53
n
53
LEU
53
A
ASP
54
n
54
ASP
54
A
MET
55
n
55
MET
55
A
LYS
56
n
56
LYS
56
A
ILE
57
n
57
ILE
57
A
PRO
58
n
58
PRO
58
A
GLY
59
n
59
GLY
59
A
MET
60
n
60
MET
60
A
ASP
61
n
61
ASP
61
A
GLY
62
n
62
GLY
62
A
ILE
63
n
63
ILE
63
A
GLU
64
n
64
GLU
64
A
ILE
65
n
65
ILE
65
A
LEU
66
n
66
LEU
66
A
LYS
67
n
67
LYS
67
A
ARG
68
n
68
ARG
68
A
MET
69
n
69
MET
69
A
LYS
70
n
70
LYS
70
A
VAL
71
n
71
VAL
71
A
ILE
72
n
72
ILE
72
A
ASP
73
n
73
ASP
73
A
GLU
74
n
74
GLU
74
A
ASN
75
n
75
ASN
75
A
ILE
76
n
76
ILE
76
A
ARG
77
n
77
ARG
77
A
VAL
78
n
78
VAL
78
A
ILE
79
n
79
ILE
79
A
ILE
80
n
80
ILE
80
A
MET
81
n
81
MET
81
A
THR
82
n
82
THR
82
A
ALA
83
n
83
ALA
83
A
TYR
84
n
84
TYR
84
A
GLY
85
n
85
GLY
85
A
GLU
86
n
86
GLU
86
A
LEU
87
n
87
LEU
87
A
ASP
88
n
88
ASP
88
A
MET
89
n
89
MET
89
A
ILE
90
n
90
ILE
90
A
GLN
91
n
91
GLN
91
A
GLU
92
n
92
GLU
92
A
SER
93
n
93
SER
93
A
LYS
94
n
94
LYS
94
A
GLU
95
n
95
GLU
95
A
LEU
96
n
96
LEU
96
A
GLY
97
n
97
GLY
97
A
ALA
98
n
98
ALA
98
A
LEU
99
n
99
LEU
99
A
THR
100
n
100
THR
100
A
HIS
101
n
101
HIS
101
A
PHE
102
n
102
PHE
102
A
ALA
103
n
103
ALA
103
A
LYS
104
n
104
LYS
104
A
PRO
105
n
105
PRO
105
A
PHE
106
n
106
PHE
106
A
ASP
107
n
107
ASP
107
A
ILE
108
n
108
ILE
108
A
ASP
109
n
109
ASP
109
A
GLU
110
n
110
GLU
110
A
ILE
111
n
111
ILE
111
A
ARG
112
n
112
ARG
112
A
ASP
113
n
113
ASP
113
A
ALA
114
n
114
ALA
114
A
VAL
115
n
115
VAL
115
A
LYS
116
n
116
LYS
116
A
LYS
117
n
117
LYS
117
A
TYR
118
n
118
TYR
118
A
LEU
119
n
119
LEU
119
A
PRO
120
n
120
PRO
120
A
LEU
121
n
121
LEU
121
A
LYS
122
n
122
LYS
122
A
SER
123
n
123
SER
123
A
ASN
124
n
124
ASN
124
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
GLN
29
A
O
GLN
29
A
N
ILE
6
A
N
ILE
6
A
O
LEU
7
A
O
LEU
7
A
N
LEU
50
A
N
LEU
50
A
O
VAL
51
A
O
VAL
51
A
N
ARG
77
A
N
ARG
77
A
N
ILE
80
A
N
ILE
80
A
O
THR
100
A
O
THR
100
1
A
MET
2
169.07
37.43
1
A
GLU
4
-166.15
68.68
1
A
ALA
34
-146.78
-88.01
1
A
GLU
46
-132.48
-36.75
1
A
ASN
75
-91.98
41.22
1
A
GLU
86
-43.94
98.12
1
A
LEU
99
-44.09
-84.86
1
A
PHE
102
-64.92
-166.79
1
A
ALA
103
-161.14
-166.70
1
A
TYR
118
-90.03
-70.90
2
A
MET
2
-178.88
-35.86
2
A
ASN
3
68.07
-166.16
2
A
GLU
4
61.11
92.44
2
A
ASP
11
-142.54
-45.76
2
A
GLN
12
-44.00
106.91
2
A
ILE
17
-90.70
-65.59
2
A
ASN
20
-64.89
-70.43
2
A
ALA
34
171.23
-42.39
2
A
GLU
46
-137.75
-38.60
2
A
ILE
72
-90.05
-66.42
2
A
ASN
75
-105.77
51.02
2
A
THR
82
-159.71
66.64
2
A
LYS
94
-69.68
-71.84
2
A
ALA
103
-137.82
-148.68
2
A
TYR
118
-90.13
-66.18
2
A
SER
123
-164.59
30.91
3
A
MET
2
58.09
82.85
3
A
PHE
31
-119.51
-168.98
3
A
ALA
34
-69.45
-70.29
3
A
ILE
57
-43.13
103.28
3
A
MET
81
-101.00
68.42
3
A
THR
82
179.43
48.56
3
A
LEU
87
-113.55
52.25
3
A
LYS
94
-68.06
-76.68
3
A
TYR
118
-73.64
-72.98
3
A
LYS
122
-56.14
91.08
4
A
MET
2
-118.15
-85.35
4
A
GLU
4
-173.76
66.75
4
A
ASP
10
-158.67
85.88
4
A
GLN
12
-44.11
95.36
4
A
ALA
34
178.61
-31.46
4
A
ARG
47
61.31
67.26
4
A
ASN
75
-92.97
44.49
4
A
MET
81
-95.97
58.75
4
A
THR
82
-169.04
49.28
4
A
TYR
84
-44.00
104.56
4
A
LEU
87
-100.14
78.35
4
A
ASP
88
-136.50
-50.99
4
A
ALA
103
-145.44
-148.62
4
A
TYR
118
-89.68
-71.22
4
A
SER
123
61.35
-89.36
5
A
MET
2
66.79
-86.89
5
A
ASN
3
67.08
145.79
5
A
GLU
4
46.89
83.55
5
A
ASP
10
-145.86
-151.71
5
A
ASP
11
-161.65
-46.69
5
A
ASN
20
-65.69
-70.82
5
A
ALA
34
-82.32
-70.71
5
A
ARG
47
-9.69
78.55
5
A
ILE
57
-43.06
103.21
5
A
ASN
75
-116.58
55.50
5
A
MET
81
-147.46
52.18
5
A
THR
82
-162.68
40.66
5
A
ALA
83
-90.15
40.79
5
A
GLU
86
-43.81
104.90
5
A
ASP
88
-147.24
-78.21
5
A
LEU
99
-73.25
-72.25
6
A
MET
2
-109.04
66.25
6
A
ASN
3
-117.00
59.90
6
A
ASP
10
-174.94
123.43
6
A
GLN
12
-175.99
-104.51
6
A
TYR
13
-179.54
120.47
6
A
ILE
17
-90.20
-64.76
6
A
ASN
20
-69.20
-71.88
6
A
ALA
34
164.34
-62.08
6
A
ARG
47
58.18
71.07
6
A
ASN
75
-105.55
45.26
6
A
MET
81
-102.69
51.99
6
A
THR
82
-161.70
44.05
6
A
ASP
88
-113.41
-84.65
6
A
LEU
99
-90.08
-60.04
6
A
ALA
103
-127.25
-148.73
6
A
PRO
105
-77.75
-162.40
6
A
TYR
118
-90.02
-72.86
6
A
LYS
122
-171.21
-168.57
7
A
ASN
3
-47.77
172.26
7
A
ASP
10
-152.70
88.13
7
A
ASN
20
-78.20
-72.45
7
A
ALA
34
-172.65
-34.92
7
A
ARG
47
60.48
66.85
7
A
ILE
57
-42.08
102.25
7
A
ILE
76
-57.86
106.85
7
A
THR
82
-170.67
28.16
7
A
ASP
88
-103.96
-88.71
7
A
LYS
94
-52.58
-76.32
7
A
ALA
103
-131.35
-148.88
7
A
PRO
105
-78.50
-169.56
7
A
LEU
121
-161.57
108.63
7
A
SER
123
-147.77
-67.35
8
A
GLN
12
-67.83
-148.04
8
A
ARG
16
-39.75
-27.57
8
A
ALA
34
-150.57
-83.46
8
A
ASN
75
-96.51
46.85
8
A
THR
82
178.79
55.14
8
A
LEU
99
-44.11
-84.82
8
A
ALA
103
-145.68
-148.34
8
A
TYR
118
-64.98
-70.04
8
A
LEU
121
-112.45
-149.86
8
A
SER
123
-174.50
-174.49
9
A
ASN
3
-107.04
-148.98
9
A
TYR
13
-43.79
159.02
9
A
PHE
31
-121.66
-168.65
9
A
ALA
34
-174.77
-47.93
9
A
ARG
47
63.26
67.07
9
A
PRO
48
-77.51
-161.03
9
A
MET
60
178.40
-167.95
9
A
ASN
75
-107.06
50.75
9
A
THR
82
-169.38
47.48
9
A
TYR
84
-83.10
-157.27
9
A
LEU
99
-55.24
-81.62
9
A
ASP
113
-67.29
-74.61
9
A
SER
123
52.49
89.53
10
A
GLU
4
38.20
77.83
10
A
ASP
10
-174.41
145.61
10
A
ILE
17
-90.07
-64.33
10
A
ASN
20
-67.72
-72.42
10
A
ALA
33
-160.68
-163.47
10
A
ALA
34
164.41
-44.81
10
A
ARG
47
47.27
71.53
10
A
ILE
57
-43.12
103.12
10
A
ASN
75
-106.94
50.23
10
A
THR
82
-149.67
-146.99
10
A
ALA
83
-40.94
153.52
10
A
TYR
84
-68.58
85.58
10
A
GLU
86
-62.02
-133.10
10
A
ASP
88
-104.99
73.14
10
A
LYS
94
-71.96
-71.60
10
A
LEU
99
-128.04
-60.32
10
A
ALA
103
-113.51
-159.99
10
A
PHE
106
41.46
-164.07
11
A
MET
2
59.08
103.81
11
A
ASN
3
-177.90
141.70
11
A
TYR
13
-44.56
168.23
11
A
ASN
20
-75.84
-72.38
11
A
PHE
31
-111.95
-168.38
11
A
ALA
34
-175.98
-57.02
11
A
ARG
47
71.24
61.64
11
A
ASP
73
-173.22
140.35
11
A
MET
81
-101.28
54.38
11
A
THR
82
-168.64
56.25
11
A
MET
89
78.97
-4.46
11
A
ALA
103
-132.46
-148.67
11
A
PHE
106
70.93
96.59
11
A
TYR
118
-54.81
-73.91
11
A
PRO
120
-78.44
-159.39
11
A
LYS
122
-59.48
-75.64
12
A
GLN
12
-56.27
101.09
12
A
ILE
17
-90.12
-60.39
12
A
PHE
31
-120.99
-158.25
12
A
ALA
34
-127.55
-57.90
12
A
ALA
39
-39.92
-37.99
12
A
GLU
46
-137.26
-36.20
12
A
PRO
58
-80.54
41.90
12
A
ASN
75
-99.41
47.97
12
A
MET
81
-117.68
71.17
12
A
THR
82
-176.15
31.15
12
A
ALA
83
-44.67
-77.05
12
A
TYR
84
-44.14
107.07
12
A
LEU
87
-108.28
59.52
12
A
ASP
88
-100.77
-92.83
12
A
ALA
103
-140.43
-148.58
12
A
TYR
118
-81.89
-73.32
12
A
SER
123
64.09
98.21
13
A
GLU
4
178.46
81.92
13
A
ASP
10
-88.61
-149.44
13
A
ASN
20
-71.44
-70.63
13
A
ALA
34
-178.74
-58.09
13
A
GLU
46
-134.50
-37.80
13
A
LYS
56
-89.57
46.49
13
A
ILE
72
-90.04
-60.07
13
A
ASN
75
-107.46
51.81
13
A
THR
82
177.80
37.20
13
A
ASP
88
-102.19
-90.94
13
A
LEU
99
-57.77
-71.48
13
A
PHE
106
-55.18
106.08
13
A
PRO
120
-78.27
-164.30
13
A
LEU
121
-146.39
-159.47
14
A
MET
2
65.07
147.47
14
A
ASN
3
-158.41
-148.71
14
A
TYR
13
-43.07
153.06
14
A
ASN
20
-75.72
-70.71
14
A
PHE
31
-111.06
-166.19
14
A
ALA
34
-145.01
-61.88
14
A
ARG
47
65.89
68.41
14
A
PRO
48
-77.82
-167.01
14
A
ASP
49
-142.10
11.16
14
A
MET
55
53.44
17.14
14
A
ASP
73
-170.71
116.59
14
A
ASN
75
-89.70
43.09
14
A
THR
82
-170.89
32.51
14
A
ALA
83
-46.48
-76.93
14
A
TYR
84
-46.79
100.34
14
A
LEU
87
-160.45
22.53
14
A
ASP
88
-94.28
-82.32
14
A
ILE
90
-90.73
-60.11
14
A
LEU
99
-43.74
-83.76
14
A
ALA
103
-124.07
-148.56
14
A
PHE
106
76.06
99.40
14
A
TYR
118
-88.69
-74.19
14
A
PRO
120
-77.88
-166.18
14
A
SER
123
50.45
-149.45
15
A
MET
2
45.50
77.56
15
A
GLU
4
67.39
64.01
15
A
ASN
20
-71.44
-73.25
15
A
ALA
34
170.96
-50.38
15
A
MET
55
47.29
22.08
15
A
ILE
57
-41.88
102.17
15
A
THR
82
-159.04
52.00
15
A
LYS
94
-60.06
-82.80
15
A
LEU
121
-116.83
-162.50
15
A
LYS
122
-46.28
-72.86
15
A
SER
123
175.45
157.01
16
A
GLU
4
-163.91
62.53
16
A
ALA
33
-164.91
-161.94
16
A
ALA
34
163.65
-53.72
16
A
ARG
47
61.27
73.00
16
A
MET
55
51.37
18.70
16
A
ASN
75
-114.76
55.49
16
A
THR
82
177.80
38.37
16
A
ALA
83
-90.04
45.42
16
A
GLU
86
-179.00
135.63
16
A
ASP
88
-103.65
-95.84
16
A
LEU
99
-44.03
-87.60
16
A
PHE
102
-69.51
-168.45
16
A
ALA
103
-162.81
-165.85
16
A
TYR
118
-88.55
-70.80
16
A
SER
123
67.69
109.01
17
A
ASN
3
-75.69
-148.87
17
A
TYR
13
-42.53
155.37
17
A
PHE
31
-109.01
-167.23
17
A
ALA
34
-173.35
-44.88
17
A
ARG
47
38.55
72.12
17
A
ILE
57
-41.14
101.15
17
A
LYS
67
-72.65
-70.28
17
A
ASP
73
-170.06
117.62
17
A
ASN
75
-101.20
48.85
17
A
THR
82
176.69
38.65
17
A
ALA
83
-89.33
43.81
17
A
GLU
86
-174.18
87.23
17
A
LEU
87
-103.60
69.70
17
A
ASP
88
-105.48
-87.52
17
A
PHE
102
-63.62
-179.00
17
A
ALA
103
-171.08
-157.94
17
A
TYR
118
-90.05
-75.07
17
A
LEU
121
-91.81
-115.61
17
A
SER
123
57.64
112.04
18
A
ALA
34
177.67
-31.36
18
A
ARG
47
63.48
62.80
18
A
ILE
57
-43.11
103.15
18
A
THR
82
-166.37
-147.23
18
A
ALA
83
-40.93
108.19
18
A
LEU
99
-71.11
-71.16
18
A
PHE
102
-73.21
-168.31
18
A
ALA
103
-168.94
-147.39
18
A
TYR
118
-51.96
-72.20
18
A
LEU
121
-115.43
79.93
18
A
SER
123
59.86
-151.40
19
A
ASP
10
-87.51
-155.98
19
A
GLN
12
-132.52
-90.13
19
A
ASN
20
-74.87
-72.77
19
A
ALA
33
178.49
177.52
19
A
ALA
34
178.73
-41.18
19
A
ARG
47
71.28
65.91
19
A
MET
60
-169.47
-150.30
19
A
ASP
61
-90.19
-97.28
19
A
ASN
75
-103.37
49.87
19
A
THR
82
177.29
56.70
19
A
LEU
87
-160.11
23.01
19
A
ASP
88
-96.75
-77.92
19
A
PHE
102
-58.99
-164.35
19
A
TYR
118
-84.51
-72.84
19
A
LYS
122
-158.57
26.22
19
A
SER
123
-142.62
-77.22
20
A
MET
2
-63.40
-150.55
20
A
ASN
20
-74.16
-71.11
20
A
PHE
31
-118.18
-163.56
20
A
ALA
34
177.98
-31.62
20
A
ARG
47
61.02
63.16
20
A
ILE
57
-43.06
103.15
20
A
MET
81
-113.88
59.85
20
A
THR
82
-172.43
43.43
20
A
ALA
83
-52.99
-74.50
20
A
TYR
84
-56.52
104.42
20
A
LEU
87
-103.71
68.55
20
A
MET
89
77.67
-2.40
20
A
LEU
121
-113.33
-166.51
20
A
SER
123
-48.07
102.69
model building
X-PLOR
3.1
refinement
X-PLOR
3.1
phasing
X-PLOR
3.1
NMR SOLUTION STRUCTURE OF BACILLUS SUBTILIS SPO0F PROTEIN, 20 STRUCTURES
1
Y
N
A
ILE
15
A
ILE
15
HELX_P
A
GLU
26
A
GLU
26
1
1
12
A
LEU
37
A
LEU
37
HELX_P
A
LYS
45
A
LYS
45
1
2
9
A
ILE
63
A
ILE
63
HELX_P
A
ILE
72
A
ILE
72
1
3
10
A
ILE
90
A
ILE
90
HELX_P
A
GLY
97
A
GLY
97
1
4
8
A
ILE
108
A
ILE
108
HELX_P
A
TYR
118
A
TYR
118
1
5
11
RESPONSE REGULATOR
RESPONSE REGULATOR, SPORULATION, TWO-COMPONENT SYSTEMS, BACTERIAL SIGNAL TRANSDUCTION, PHOSPHO-RELAY, (BETA/ALPHA)5 PROTEIN
A
LYS
104
A
LYS
104
1
A
PRO
105
A
PRO
105
-0.04
A
LYS
104
A
LYS
104
2
A
PRO
105
A
PRO
105
0.04
A
LYS
104
A
LYS
104
3
A
PRO
105
A
PRO
105
-0.11
A
LYS
104
A
LYS
104
4
A
PRO
105
A
PRO
105
0.05
A
LYS
104
A
LYS
104
5
A
PRO
105
A
PRO
105
0.01
A
LYS
104
A
LYS
104
6
A
PRO
105
A
PRO
105
-0.05
A
LYS
104
A
LYS
104
7
A
PRO
105
A
PRO
105
-0.07
A
LYS
104
A
LYS
104
8
A
PRO
105
A
PRO
105
0.04
A
LYS
104
A
LYS
104
9
A
PRO
105
A
PRO
105
0.02
A
LYS
104
A
LYS
104
10
A
PRO
105
A
PRO
105
-0.20
A
LYS
104
A
LYS
104
11
A
PRO
105
A
PRO
105
-0.17
A
LYS
104
A
LYS
104
12
A
PRO
105
A
PRO
105
-0.15
A
LYS
104
A
LYS
104
13
A
PRO
105
A
PRO
105
-0.09
A
LYS
104
A
LYS
104
14
A
PRO
105
A
PRO
105
0.04
A
LYS
104
A
LYS
104
15
A
PRO
105
A
PRO
105
-0.08
A
LYS
104
A
LYS
104
16
A
PRO
105
A
PRO
105
-0.06
A
LYS
104
A
LYS
104
17
A
PRO
105
A
PRO
105
-0.03
A
LYS
104
A
LYS
104
18
A
PRO
105
A
PRO
105
0.01
A
LYS
104
A
LYS
104
19
A
PRO
105
A
PRO
105
-0.04
A
LYS
104
A
LYS
104
20
A
PRO
105
A
PRO
105
-0.03
SP0F_BACSU
UNP
1
1
P06628
MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII
MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN
1
124
1FSP
1
124
P06628
A
1
1
124
5
parallel
parallel
parallel
parallel
A
GLN
29
A
GLN
29
A
ALA
33
A
ALA
33
A
LYS
5
A
LYS
5
A
VAL
9
A
VAL
9
A
LEU
50
A
LEU
50
A
LEU
53
A
LEU
53
A
ARG
77
A
ARG
77
A
MET
81
A
MET
81
A
THR
100
A
THR
100
A
PHE
102
A
PHE
102
1
P 1