1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Parsons, L.
Eisenstein, E.
Orban, J.
Structure 2 Function Project (S2F)
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
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
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
US
Biochemistry
BICHAW
0033
0006-2960
40
10979
10986
10.1021/bi011077i
11551193
Solution structure of HI0257, a bacterial ribosome binding protein.
2001
10.2210/pdb1imu/pdb
pdb_00001imu
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
12208.835
HYPOTHETICAL PROTEIN HI0257
1
man
polymer
no
no
MTLNITSKQMDITPAIREHLEERLAKLGKWQTQLISPHFVLNKVPNGFSVEASIGTPLGNLLASATSDDMYKAINEVEEK
LERQLNKLQHKSESRRADERLKDSFEN
MTLNITSKQMDITPAIREHLEERLAKLGKWQTQLISPHFVLNKVPNGFSVEASIGTPLGNLLASATSDDMYKAINEVEEK
LERQLNKLQHKSESRRADERLKDSFEN
A
HI0257
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
Haemophilus
Escherichia
sample
727
Haemophilus influenzae
562
Escherichia coli
plasmid
Pet-15B
Structure 2 Function Project
S2F
database_2
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
1
0
2001-10-03
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
Y
RCSB
Y
RCSB
2001-05-11
REL
REL
structures with the least restraint violations, structures with the lowest energy
39
20
3D_13C-separated_NOESY
3D_15N-separated_NOESY
HNHA
3D HNCACB
3D CBCA(CO)NH
3D HNCO
3D HBHA(CO)NH
3D_15N TOCSY-HSQC
3D HCCH-TOCSY
2D_TOCSY
2D_NOESY
7.0
298
K
simulated annealing
1.3mM HI0257, 15N,13C;
50mM NaPO4, 100mM NaCl, 3mM dtt
pH 7.0
10% D2O
BRUNGER, ADAMS, CLORE, DELANO, GROS,GROSSE-KUNSTLEVE, JIANG, KUSZEWSKI,NILGES, PANNU, READ, RICE, SIMONSON,WARREN
refinement
CNS
1.0
Delaglio
processing
NMRDraw
Goddard and Kneller
data analysis
Sparky
500
Bruker
DMX
600
Bruker
DMX
MET
1
n
1
MET
1
A
THR
2
n
2
THR
2
A
LEU
3
n
3
LEU
3
A
ASN
4
n
4
ASN
4
A
ILE
5
n
5
ILE
5
A
THR
6
n
6
THR
6
A
SER
7
n
7
SER
7
A
LYS
8
n
8
LYS
8
A
GLN
9
n
9
GLN
9
A
MET
10
n
10
MET
10
A
ASP
11
n
11
ASP
11
A
ILE
12
n
12
ILE
12
A
THR
13
n
13
THR
13
A
PRO
14
n
14
PRO
14
A
ALA
15
n
15
ALA
15
A
ILE
16
n
16
ILE
16
A
ARG
17
n
17
ARG
17
A
GLU
18
n
18
GLU
18
A
HIS
19
n
19
HIS
19
A
LEU
20
n
20
LEU
20
A
GLU
21
n
21
GLU
21
A
GLU
22
n
22
GLU
22
A
ARG
23
n
23
ARG
23
A
LEU
24
n
24
LEU
24
A
ALA
25
n
25
ALA
25
A
LYS
26
n
26
LYS
26
A
LEU
27
n
27
LEU
27
A
GLY
28
n
28
GLY
28
A
LYS
29
n
29
LYS
29
A
TRP
30
n
30
TRP
30
A
GLN
31
n
31
GLN
31
A
THR
32
n
32
THR
32
A
GLN
33
n
33
GLN
33
A
LEU
34
n
34
LEU
34
A
ILE
35
n
35
ILE
35
A
SER
36
n
36
SER
36
A
PRO
37
n
37
PRO
37
A
HIS
38
n
38
HIS
38
A
PHE
39
n
39
PHE
39
A
VAL
40
n
40
VAL
40
A
LEU
41
n
41
LEU
41
A
ASN
42
n
42
ASN
42
A
LYS
43
n
43
LYS
43
A
VAL
44
n
44
VAL
44
A
PRO
45
n
45
PRO
45
A
ASN
46
n
46
ASN
46
A
GLY
47
n
47
GLY
47
A
PHE
48
n
48
PHE
48
A
SER
49
n
49
SER
49
A
VAL
50
n
50
VAL
50
A
GLU
51
n
51
GLU
51
A
ALA
52
n
52
ALA
52
A
SER
53
n
53
SER
53
A
ILE
54
n
54
ILE
54
A
GLY
55
n
55
GLY
55
A
THR
56
n
56
THR
56
A
PRO
57
n
57
PRO
57
A
LEU
58
n
58
LEU
58
A
GLY
59
n
59
GLY
59
A
ASN
60
n
60
ASN
60
A
LEU
61
n
61
LEU
61
A
LEU
62
n
62
LEU
62
A
ALA
63
n
63
ALA
63
A
SER
64
n
64
SER
64
A
ALA
65
n
65
ALA
65
A
THR
66
n
66
THR
66
A
SER
67
n
67
SER
67
A
ASP
68
n
68
ASP
68
A
ASP
69
n
69
ASP
69
A
MET
70
n
70
MET
70
A
TYR
71
n
71
TYR
71
A
LYS
72
n
72
LYS
72
A
ALA
73
n
73
ALA
73
A
ILE
74
n
74
ILE
74
A
ASN
75
n
75
ASN
75
A
GLU
76
n
76
GLU
76
A
VAL
77
n
77
VAL
77
A
GLU
78
n
78
GLU
78
A
GLU
79
n
79
GLU
79
A
LYS
80
n
80
LYS
80
A
LEU
81
n
81
LEU
81
A
GLU
82
n
82
GLU
82
A
ARG
83
n
83
ARG
83
A
GLN
84
n
84
GLN
84
A
LEU
85
n
85
LEU
85
A
ASN
86
n
86
ASN
86
A
LYS
87
n
87
LYS
87
A
LEU
88
n
88
LEU
88
A
GLN
89
n
89
GLN
89
A
HIS
90
n
90
HIS
90
A
LYS
91
n
91
LYS
91
A
SER
92
n
92
SER
92
A
GLU
93
n
93
GLU
93
A
SER
94
n
94
SER
94
A
ARG
95
n
95
ARG
95
A
ARG
96
n
96
ARG
96
A
ALA
97
n
97
ALA
97
A
ASP
98
n
98
ASP
98
A
GLU
99
n
99
GLU
99
A
ARG
100
n
100
ARG
100
A
LEU
101
n
101
LEU
101
A
LYS
102
n
102
LYS
102
A
ASP
103
n
103
ASP
103
A
SER
104
n
104
SER
104
A
PHE
105
n
105
PHE
105
A
GLU
106
n
106
GLU
106
A
ASN
107
n
107
ASN
107
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
ASN
4
A
O
ASN
4
A
N
PHE
39
A
N
PHE
39
A
N
VAL
44
A
N
VAL
44
A
O
GLY
47
A
O
GLY
47
A
O
ILE
54
A
O
ILE
54
A
N
LEU
61
A
N
LEU
61
1
A
A
H
O
PHE
SER
48
67
1.60
2
A
A
H
O
PHE
SER
48
67
1.60
3
A
A
O
H
LYS
LYS
87
91
1.57
3
A
A
H
O
PHE
SER
48
67
1.60
4
A
A
H
O
PHE
SER
48
67
1.56
5
A
A
O
H
LYS
LYS
87
91
1.59
5
A
A
O
N
TRP
THR
30
32
2.17
6
A
A
H
O
PHE
SER
48
67
1.57
7
A
A
H
O
PHE
SER
48
67
1.59
7
A
A
O
N
TRP
THR
30
32
2.17
8
A
A
H
O
PHE
SER
48
67
1.56
9
A
A
H
O
PHE
SER
48
67
1.54
10
A
A
H
O
PHE
SER
48
67
1.59
11
A
A
H
O
ILE
LEU
54
61
1.51
11
A
A
O
H
LYS
LYS
87
91
1.58
11
A
A
H
O
PHE
SER
48
67
1.58
12
A
A
H
O
ILE
GLY
35
55
1.58
12
A
A
H
O
PHE
SER
48
67
1.59
13
A
A
H
O
PHE
SER
48
67
1.56
14
A
A
H
O
PHE
SER
48
67
1.54
15
A
A
H
O
PHE
SER
48
67
1.59
16
A
A
H
O
PHE
SER
48
67
1.53
17
A
A
H
O
PHE
SER
48
67
1.58
17
A
A
O
H
LYS
LYS
87
91
1.59
17
A
A
O
H
ILE
LEU
16
20
1.59
19
A
A
O
H
HIS
ARG
19
23
1.59
19
A
A
H
O
PHE
SER
48
67
1.59
20
A
A
H
O
PHE
SER
48
67
1.56
20
A
A
O
H
ILE
LEU
54
61
1.58
20
A
A
O
H
HIS
ARG
19
23
1.60
1
A
THR
6
-126.31
-53.58
1
A
SER
7
42.86
96.23
1
A
GLN
9
-118.15
-93.39
1
A
ALA
15
-53.24
-73.57
1
A
GLN
31
-61.51
67.15
1
A
LEU
34
-48.54
96.79
1
A
SER
36
59.51
94.01
1
A
MET
70
-38.63
-70.14
1
A
LYS
91
47.26
-175.32
1
A
GLU
93
-98.88
30.04
1
A
SER
94
-170.12
61.46
1
A
ARG
95
-68.36
73.66
1
A
ARG
96
66.33
-75.56
1
A
ASP
98
55.44
175.31
1
A
ARG
100
67.50
167.78
1
A
SER
104
-178.25
-39.60
1
A
PHE
105
-156.73
-44.30
1
A
GLU
106
63.45
70.78
2
A
LEU
3
58.20
107.33
2
A
GLN
9
-141.64
-53.77
2
A
ASP
11
-51.45
178.62
2
A
ALA
15
-50.14
-75.02
2
A
GLN
31
-38.80
84.10
2
A
ILE
35
-59.69
109.88
2
A
SER
36
46.58
90.54
2
A
MET
70
-38.85
-70.27
2
A
SER
92
66.90
163.86
2
A
ALA
97
60.71
110.22
2
A
GLU
99
60.20
108.65
3
A
THR
6
-149.45
-64.57
3
A
SER
7
56.42
97.99
3
A
GLN
9
-131.03
-89.29
3
A
MET
10
-56.58
107.48
3
A
ASP
11
-61.06
-173.65
3
A
ALA
15
-73.30
-82.02
3
A
GLN
31
-18.69
71.24
3
A
LEU
34
-59.07
96.34
3
A
SER
36
-168.36
94.81
3
A
MET
70
-39.47
-71.88
3
A
LYS
91
-54.58
-171.82
3
A
SER
92
-159.12
88.75
3
A
ALA
97
-174.83
132.89
3
A
ASP
98
60.03
165.57
3
A
GLU
99
-175.59
37.12
3
A
LEU
101
-100.06
61.70
3
A
LYS
102
63.55
-79.49
3
A
ASP
103
-155.13
-53.54
3
A
SER
104
61.62
153.38
3
A
PHE
105
60.13
171.62
4
A
LEU
3
64.19
102.79
4
A
THR
6
-132.33
-53.62
4
A
SER
7
41.47
97.94
4
A
GLN
9
-110.59
-91.59
4
A
MET
10
-48.85
107.44
4
A
ASP
11
-58.24
173.49
4
A
ALA
15
-51.92
-74.73
4
A
GLN
31
-23.96
78.86
4
A
ILE
35
-58.64
109.30
4
A
SER
36
43.72
88.82
4
A
ASN
60
-45.32
165.89
4
A
MET
70
-38.95
-72.04
4
A
LYS
91
50.81
98.75
4
A
GLU
93
-104.52
-165.79
4
A
ARG
96
60.72
86.81
4
A
ALA
97
-155.90
34.43
4
A
ARG
100
61.50
162.43
4
A
LYS
102
62.91
94.05
4
A
SER
104
60.11
177.60
4
A
GLU
106
62.59
119.25
5
A
THR
6
-163.01
38.22
5
A
GLN
9
-108.04
-69.52
5
A
ASP
11
-59.34
-175.90
5
A
ALA
15
-55.26
-82.39
5
A
GLN
31
-35.96
71.08
5
A
LEU
34
-53.53
89.01
5
A
ILE
35
-61.62
91.31
5
A
SER
36
54.72
92.69
5
A
ASN
60
-47.74
166.80
5
A
MET
70
-38.87
-70.52
5
A
LYS
91
-48.51
171.42
5
A
SER
92
-177.40
70.16
5
A
ASP
98
59.26
171.52
5
A
GLU
99
-175.30
134.83
5
A
ARG
100
-177.48
-39.48
5
A
LEU
101
60.84
-82.29
5
A
GLU
106
-157.69
-45.85
6
A
THR
2
74.39
-1.57
6
A
LEU
3
33.78
103.87
6
A
THR
6
-156.19
70.61
6
A
GLN
9
-110.56
-86.07
6
A
MET
10
-48.47
108.79
6
A
ASP
11
-59.21
-176.20
6
A
ALA
15
-53.48
-76.17
6
A
GLN
31
24.39
54.03
6
A
LEU
34
-47.72
94.06
6
A
SER
36
45.19
89.85
6
A
MET
70
-39.48
-71.34
6
A
HIS
90
-79.95
-70.24
6
A
LYS
91
38.79
34.06
6
A
SER
92
179.95
-67.11
6
A
GLU
93
57.85
-165.98
6
A
SER
94
-179.95
136.66
6
A
ARG
95
-173.00
138.93
6
A
ARG
96
59.92
105.95
6
A
ARG
100
179.56
139.60
6
A
LEU
101
58.95
-175.45
7
A
THR
2
62.80
120.49
7
A
THR
6
-139.69
-65.07
7
A
SER
7
55.79
105.55
7
A
GLN
9
-110.92
-99.17
7
A
MET
10
-44.87
109.22
7
A
ASP
11
-58.39
-175.53
7
A
ALA
15
-46.74
-83.42
7
A
GLN
31
-30.96
70.85
7
A
LEU
34
-51.84
92.28
7
A
SER
36
-164.40
88.84
7
A
ASN
60
-46.67
167.49
7
A
MET
70
-38.69
-70.23
7
A
LYS
91
48.63
104.53
7
A
SER
92
-116.30
-165.01
7
A
ASP
103
60.66
81.55
8
A
THR
6
-163.07
92.57
8
A
GLN
9
-126.75
-90.30
8
A
MET
10
-47.53
107.65
8
A
ASP
11
-56.31
-178.95
8
A
ALA
15
-55.46
-81.70
8
A
HIS
19
-62.95
-70.02
8
A
GLN
31
-25.54
78.14
8
A
LEU
34
-56.25
95.55
8
A
SER
36
56.77
94.24
8
A
MET
70
-38.59
-71.74
8
A
LYS
91
-51.50
-78.00
8
A
SER
92
57.91
178.66
8
A
GLU
93
-175.24
-66.09
8
A
SER
94
-172.05
137.39
8
A
ARG
96
62.38
147.69
8
A
GLU
99
177.35
170.89
8
A
LEU
101
62.00
116.07
8
A
SER
104
61.60
153.10
9
A
THR
6
-163.21
38.62
9
A
GLN
9
-106.98
-94.73
9
A
ASP
11
-57.70
-179.20
9
A
ALA
15
-53.50
-82.51
9
A
TRP
30
-80.21
35.33
9
A
LEU
34
-57.44
100.69
9
A
SER
36
51.65
92.15
9
A
MET
70
-39.48
-71.78
9
A
GLU
93
-165.80
-164.84
9
A
SER
94
61.43
-169.54
9
A
ARG
95
61.85
-175.21
9
A
ARG
96
63.68
131.90
9
A
GLU
99
-163.95
113.31
9
A
LYS
102
48.29
-172.24
9
A
GLU
106
60.83
156.89
10
A
THR
6
-155.29
70.57
10
A
GLN
9
-104.03
-94.83
10
A
MET
10
-45.74
106.79
10
A
ASP
11
-57.39
-178.35
10
A
ALA
15
-50.81
-83.01
10
A
TRP
30
-63.64
74.82
10
A
GLN
31
-0.09
68.09
10
A
LEU
34
-51.75
90.81
10
A
ILE
35
-60.89
93.88
10
A
SER
36
47.91
88.05
10
A
ASN
60
-46.04
167.71
10
A
LYS
91
-47.08
170.25
10
A
GLU
93
-151.25
28.25
10
A
SER
94
57.87
79.44
10
A
ARG
95
-139.61
-75.62
10
A
ASP
98
-176.31
91.02
10
A
GLU
99
-143.57
-54.12
10
A
ARG
100
59.48
109.96
10
A
LYS
102
61.28
163.69
10
A
ASP
103
64.00
-80.15
10
A
SER
104
61.14
114.28
11
A
THR
2
61.24
118.64
11
A
THR
6
-144.19
-53.60
11
A
SER
7
48.80
98.94
11
A
GLN
9
-128.86
-89.44
11
A
MET
10
-50.57
109.96
11
A
ASP
11
-55.58
178.35
11
A
ALA
15
-53.50
-82.15
11
A
GLN
31
-40.81
70.06
11
A
LEU
34
-48.89
96.52
11
A
ILE
35
-68.03
91.14
11
A
SER
36
54.39
90.48
11
A
ASN
60
-48.02
173.17
11
A
MET
70
-39.30
-70.37
11
A
SER
92
71.23
-65.28
11
A
SER
94
61.53
100.76
11
A
ARG
96
-159.91
32.34
11
A
ASP
98
60.65
-177.56
11
A
GLU
99
-152.47
30.83
11
A
ASP
103
60.96
111.88
12
A
LEU
3
-27.86
124.25
12
A
THR
6
-146.97
44.73
12
A
GLN
9
-122.42
-87.76
12
A
MET
10
-50.87
106.98
12
A
ASP
11
-55.26
-178.71
12
A
ALA
15
-55.94
-83.00
12
A
GLN
31
-59.85
67.91
12
A
LEU
34
-34.76
110.19
12
A
SER
36
51.60
90.92
12
A
MET
70
-39.08
-70.34
12
A
LYS
91
-47.69
156.99
12
A
SER
92
-166.32
-43.62
12
A
GLU
93
61.55
-167.70
12
A
SER
94
58.83
92.79
12
A
ARG
95
-125.80
-52.44
12
A
ARG
100
-158.55
-43.47
12
A
LEU
101
43.42
-169.33
12
A
LYS
102
-172.10
97.90
12
A
SER
104
-165.04
-44.21
12
A
GLU
106
-59.84
-71.84
13
A
THR
6
-104.25
-64.44
13
A
SER
7
53.03
106.85
13
A
GLN
9
-112.52
-89.80
13
A
MET
10
-47.46
108.71
13
A
ASP
11
-58.71
-171.09
13
A
ALA
15
-52.49
-75.06
13
A
TRP
30
-70.00
97.87
13
A
GLN
31
-28.40
76.96
13
A
LEU
34
-52.74
92.48
13
A
ILE
35
-67.45
94.22
13
A
SER
36
54.61
92.45
13
A
MET
70
-38.83
-70.14
13
A
LYS
91
-51.15
-74.42
13
A
SER
94
84.39
-35.78
13
A
ARG
95
66.56
85.52
13
A
ARG
100
-166.01
-69.81
13
A
ASP
103
58.63
101.01
13
A
SER
104
-164.00
49.03
14
A
LEU
3
57.27
113.82
14
A
THR
6
-156.77
66.56
14
A
GLN
9
-124.14
-88.25
14
A
MET
10
-45.26
105.98
14
A
ASP
11
-54.10
176.83
14
A
ALA
15
-53.02
-75.59
14
A
GLN
31
-27.85
75.51
14
A
LEU
34
-54.48
96.40
14
A
ILE
35
-69.59
87.74
14
A
SER
36
56.84
92.91
14
A
HIS
90
-76.11
-70.28
14
A
LYS
91
54.13
102.85
14
A
GLU
93
-97.28
35.52
14
A
ARG
95
-112.83
-165.90
14
A
PHE
105
-175.84
141.68
15
A
THR
6
-162.89
37.87
15
A
GLN
9
-118.42
-89.74
15
A
ASP
11
-58.79
-177.97
15
A
ALA
15
-55.10
-82.87
15
A
GLN
31
20.25
51.62
15
A
LEU
34
-54.31
93.96
15
A
SER
36
-174.71
95.20
15
A
SER
64
-170.47
137.96
15
A
MET
70
-39.03
-70.46
15
A
SER
92
-121.92
-167.31
15
A
GLU
93
-96.93
40.39
15
A
ARG
95
-143.30
-70.06
15
A
ARG
96
57.21
178.18
15
A
ARG
100
-178.51
136.62
15
A
LEU
101
-152.51
-71.29
15
A
LYS
102
-157.66
-50.19
15
A
ASP
103
60.72
90.90
15
A
GLU
106
177.75
-178.00
16
A
THR
2
78.19
-4.54
16
A
LEU
3
50.62
113.10
16
A
THR
6
-107.97
-67.27
16
A
SER
7
51.77
100.71
16
A
GLN
9
-103.07
-94.09
16
A
MET
10
-51.85
106.36
16
A
ASP
11
-57.83
-170.81
16
A
ALA
15
-55.47
-75.13
16
A
GLN
31
30.04
38.93
16
A
LEU
34
-43.50
99.13
16
A
SER
36
56.31
94.27
16
A
MET
70
-38.70
-71.47
16
A
LYS
91
-39.16
122.16
16
A
SER
92
-127.45
-165.76
16
A
ARG
96
61.12
79.30
16
A
ARG
100
-158.71
-46.78
16
A
LEU
101
-67.59
92.52
16
A
GLU
106
60.53
171.61
17
A
THR
6
-139.82
-65.91
17
A
SER
7
61.83
115.37
17
A
GLN
9
-120.44
-97.71
17
A
MET
10
-37.41
106.28
17
A
ASP
11
-57.26
-174.28
17
A
ALA
15
-57.41
-83.03
17
A
GLN
31
-33.72
73.63
17
A
LEU
34
-59.19
84.98
17
A
SER
36
49.75
91.42
17
A
MET
70
-38.77
-70.20
17
A
LYS
91
-55.78
-168.80
17
A
GLU
93
-95.11
41.16
17
A
ARG
96
62.86
121.57
17
A
ALA
97
-159.41
52.71
17
A
LEU
101
60.64
90.45
17
A
ASP
103
60.71
109.72
17
A
PHE
105
-169.41
81.05
18
A
THR
2
76.11
-4.50
18
A
LEU
3
43.79
108.18
18
A
THR
6
-164.41
93.07
18
A
GLN
9
-124.77
-90.99
18
A
MET
10
-50.46
106.18
18
A
ASP
11
-55.08
-176.32
18
A
ALA
15
-53.61
-81.75
18
A
GLN
31
-42.52
75.68
18
A
ILE
35
-54.35
102.43
18
A
SER
36
46.73
89.37
18
A
ASN
60
-47.63
170.43
18
A
MET
70
-38.33
-70.05
18
A
SER
94
55.39
95.62
18
A
ARG
95
-164.87
-54.15
19
A
THR
6
-106.16
-69.62
19
A
SER
7
68.33
99.14
19
A
GLN
9
-118.69
-88.81
19
A
MET
10
-45.43
109.42
19
A
ASP
11
-58.13
-178.89
19
A
PRO
14
-38.44
-38.21
19
A
ALA
15
-60.51
-81.55
19
A
HIS
19
-60.87
-70.13
19
A
GLN
31
-29.09
73.05
19
A
LEU
34
-54.99
93.09
19
A
ILE
35
-66.32
87.09
19
A
SER
36
58.95
94.10
19
A
MET
70
-38.56
-70.22
19
A
ARG
96
-173.80
-47.39
19
A
GLU
99
60.95
156.28
19
A
LYS
102
-160.78
44.66
20
A
THR
2
57.90
114.55
20
A
THR
6
-153.78
78.40
20
A
GLN
9
-123.00
-93.05
20
A
MET
10
-38.97
106.48
20
A
ASP
11
-56.38
-179.87
20
A
ALA
15
-49.54
-83.06
20
A
GLN
31
11.89
61.57
20
A
LEU
34
-50.72
95.92
20
A
ILE
35
-68.79
89.03
20
A
SER
36
56.03
92.27
20
A
MET
70
-38.54
-71.52
20
A
LYS
91
-52.90
-175.75
20
A
SER
92
-128.12
-57.88
20
A
GLU
93
-64.41
-165.21
20
A
ALA
97
-168.07
96.85
20
A
ASP
103
-138.51
-57.71
20
A
SER
104
59.98
89.41
20
A
GLU
106
60.93
168.02
Solution Structure of HI0257, a Ribosome Binding Protein
1
N
N
A
THR
13
A
THR
13
HELX_P
A
LYS
29
A
LYS
29
1
1
17
A
ASP
69
A
ASP
69
HELX_P
A
LYS
91
A
LYS
91
1
2
23
RNA BINDING PROTEIN
DSRNA BINDING PROTEIN, PROTEOME, SOLUTION STRUCTURE, ribosome, Structure 2 Function Project, S2F, Structural Genomics, RNA BINDING PROTEIN
Y257_HAEIN
UNP
1
0
P71346
MTLNITSKQMDITPAIREHLEERLAKLGKWQTQLISPHFVLNKVPNGFSVEASIGTPLGNLLASATSDDMYKAINEVEEK
LERQLNKLQHKSESRRADERLKDSFEN
0
106
1IMU
1
107
P71346
A
1
1
107
4
parallel
anti-parallel
anti-parallel
A
ASN
4
A
ASN
4
A
ILE
5
A
ILE
5
A
HIS
38
A
HIS
38
A
VAL
44
A
VAL
44
A
GLY
47
A
GLY
47
A
ILE
54
A
ILE
54
A
LEU
61
A
LEU
61
A
SER
67
A
SER
67