1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Turner, C.F.
Moore, P.B.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
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
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
335
679
684
10.1016/j.jmb.2003.11.018
14687565
The solution structure of ribosomal protein L18 from Bacillus stearothermophilus
2004
10.2210/pdb1ovy/pdb
pdb_00001ovy
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
13500.638
50S Ribosomal Protein L18
1
man
polymer
no
no
MITKVDRNAVRKKRHARIRKKIFGTTERPRLSVFRSNKHIYAQIIDDTKSATIVSASTLDKEFGLDSTNNIEAAKKVGEL
VAKRALEKGIKQVVFDRGGYLYHGRVKALADAAREAGLEF
MITKVDRNAVRKKRHARIRKKIFGTTERPRLSVFRSNKHIYAQIIDDTKSATIVSASTLDKEFGLDSTNNIEAAKKVGEL
VAKRALEKGIKQVVFDRGGYLYHGRVKALADAAREAGLEF
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
Geobacillus
Escherichia
Escherichia coli
sample
RPLR
1422
Geobacillus stearothermophilus
469008
Escherichia coli BL21(DE3)
BL21(DE3)
Plasmid
pET13a
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
2004-02-17
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
RCSB
Y
RCSB
2003-03-27
REL
This structure was determined using triple resonance NMR spectroscopy.
structures with the lowest energy
150
10
2D NOESY
3D_15N-separated_NOESY
3D_13C-separated_NOESY
12mM KH2PO4; 8mM NaH2PO4; 200mM NaCl, 5mM MgCl2
6.0
1
atm
298
K
The structures are based on a total of 2272 restraints. 1188 are
unambiguous distance constraints, 913 are ambiguous distance
constraints, 128 are dihedral angle restraints, and 43 are hydrogen
bond restraints.
Aria was used to select and assign peak lists from NOESY experiments.
CNS as modified for use with ARIA was used for structure calculation
using torsion angle simulated annealing.
1
closest to the average
1.5mM L18 U-15N; 20mM phosphate buffer; 200mM NaCl; 5mM MgCl2
90% H2O/10% D2O
1.5mM L18 U-15N,13C; 20mM phosphate buffer; 200mM NaCl; 5mM MgCl2
90% H2O/10% D2O
1mM L18; 20mM phosphate buffer; 200mM NaCl; 5mM MgCl2
90% H2O/10% D2O
Biosym/MSI
processing
Felix
97.0
Goddard, T.D. & Kneller, D.G.
data analysis
Sparky
3.93
Brunger, A.T. et al.
structure solution
CNS
1.0
Linge, J.P. & Nilges, M.
structure solution
ARIA
1.2
Brunger, A.T. et al.
refinement
CNS
1.0
Linge, J.P. & Nilges, M.
refinement
ARIA
1.2
600
Varian
UNITY
n
1
1
A
n
2
2
A
n
3
3
A
n
4
4
A
n
5
5
A
n
6
6
A
n
7
7
A
n
8
8
A
n
9
9
A
n
10
10
A
n
11
11
A
n
12
12
A
n
13
13
A
n
14
14
A
n
15
15
A
n
16
16
A
n
17
17
A
n
18
18
A
n
19
19
A
n
20
20
A
n
21
21
A
n
22
22
A
n
23
23
A
GLY
24
n
24
GLY
24
A
THR
25
n
25
THR
25
A
THR
26
n
26
THR
26
A
GLU
27
n
27
GLU
27
A
ARG
28
n
28
ARG
28
A
PRO
29
n
29
PRO
29
A
ARG
30
n
30
ARG
30
A
LEU
31
n
31
LEU
31
A
SER
32
n
32
SER
32
A
VAL
33
n
33
VAL
33
A
PHE
34
n
34
PHE
34
A
ARG
35
n
35
ARG
35
A
SER
36
n
36
SER
36
A
ASN
37
n
37
ASN
37
A
LYS
38
n
38
LYS
38
A
HIS
39
n
39
HIS
39
A
ILE
40
n
40
ILE
40
A
TYR
41
n
41
TYR
41
A
ALA
42
n
42
ALA
42
A
GLN
43
n
43
GLN
43
A
ILE
44
n
44
ILE
44
A
ILE
45
n
45
ILE
45
A
ASP
46
n
46
ASP
46
A
ASP
47
n
47
ASP
47
A
THR
48
n
48
THR
48
A
LYS
49
n
49
LYS
49
A
SER
50
n
50
SER
50
A
ALA
51
n
51
ALA
51
A
THR
52
n
52
THR
52
A
ILE
53
n
53
ILE
53
A
VAL
54
n
54
VAL
54
A
SER
55
n
55
SER
55
A
ALA
56
n
56
ALA
56
A
SER
57
n
57
SER
57
A
THR
58
n
58
THR
58
A
LEU
59
n
59
LEU
59
A
ASP
60
n
60
ASP
60
A
LYS
61
n
61
LYS
61
A
GLU
62
n
62
GLU
62
A
PHE
63
n
63
PHE
63
A
GLY
64
n
64
GLY
64
A
LEU
65
n
65
LEU
65
A
ASP
66
n
66
ASP
66
A
SER
67
n
67
SER
67
A
THR
68
n
68
THR
68
A
ASN
69
n
69
ASN
69
A
ASN
70
n
70
ASN
70
A
ILE
71
n
71
ILE
71
A
GLU
72
n
72
GLU
72
A
ALA
73
n
73
ALA
73
A
ALA
74
n
74
ALA
74
A
LYS
75
n
75
LYS
75
A
LYS
76
n
76
LYS
76
A
VAL
77
n
77
VAL
77
A
GLY
78
n
78
GLY
78
A
GLU
79
n
79
GLU
79
A
LEU
80
n
80
LEU
80
A
VAL
81
n
81
VAL
81
A
ALA
82
n
82
ALA
82
A
LYS
83
n
83
LYS
83
A
ARG
84
n
84
ARG
84
A
ALA
85
n
85
ALA
85
A
LEU
86
n
86
LEU
86
A
GLU
87
n
87
GLU
87
A
LYS
88
n
88
LYS
88
A
GLY
89
n
89
GLY
89
A
ILE
90
n
90
ILE
90
A
LYS
91
n
91
LYS
91
A
GLN
92
n
92
GLN
92
A
VAL
93
n
93
VAL
93
A
VAL
94
n
94
VAL
94
A
PHE
95
n
95
PHE
95
A
ASP
96
n
96
ASP
96
A
ARG
97
n
97
ARG
97
A
GLY
98
n
98
GLY
98
A
GLY
99
n
99
GLY
99
A
TYR
100
n
100
TYR
100
A
LEU
101
n
101
LEU
101
A
TYR
102
n
102
TYR
102
A
HIS
103
n
103
HIS
103
A
GLY
104
n
104
GLY
104
A
ARG
105
n
105
ARG
105
A
VAL
106
n
106
VAL
106
A
LYS
107
n
107
LYS
107
A
ALA
108
n
108
ALA
108
A
LEU
109
n
109
LEU
109
A
ALA
110
n
110
ALA
110
A
ASP
111
n
111
ASP
111
A
ALA
112
n
112
ALA
112
A
ALA
113
n
113
ALA
113
A
ARG
114
n
114
ARG
114
A
GLU
115
n
115
GLU
115
A
ALA
116
n
116
ALA
116
A
GLY
117
n
117
GLY
117
A
LEU
118
n
118
LEU
118
A
GLU
119
n
119
GLU
119
A
PHE
120
n
120
PHE
120
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
SER
32
A
N
SER
32
A
O
GLN
43
A
O
GLN
43
A
N
ALA
42
A
N
ALA
42
A
O
ALA
56
A
O
ALA
56
1
A
MET
1
A
MET
1
1
Y
1
A
ILE
2
A
ILE
2
1
Y
1
A
THR
3
A
THR
3
1
Y
1
A
LYS
4
A
LYS
4
1
Y
1
A
VAL
5
A
VAL
5
1
Y
1
A
ASP
6
A
ASP
6
1
Y
1
A
ARG
7
A
ARG
7
1
Y
1
A
ASN
8
A
ASN
8
1
Y
1
A
ALA
9
A
ALA
9
1
Y
1
A
VAL
10
A
VAL
10
1
Y
1
A
ARG
11
A
ARG
11
1
Y
1
A
LYS
12
A
LYS
12
1
Y
1
A
LYS
13
A
LYS
13
1
Y
1
A
ARG
14
A
ARG
14
1
Y
1
A
HIS
15
A
HIS
15
1
Y
1
A
ALA
16
A
ALA
16
1
Y
1
A
ARG
17
A
ARG
17
1
Y
1
A
ILE
18
A
ILE
18
1
Y
1
A
ARG
19
A
ARG
19
1
Y
1
A
LYS
20
A
LYS
20
1
Y
1
A
LYS
21
A
LYS
21
1
Y
1
A
ILE
22
A
ILE
22
1
Y
1
A
PHE
23
A
PHE
23
1
Y
2
A
MET
1
A
MET
1
1
Y
2
A
ILE
2
A
ILE
2
1
Y
2
A
THR
3
A
THR
3
1
Y
2
A
LYS
4
A
LYS
4
1
Y
2
A
VAL
5
A
VAL
5
1
Y
2
A
ASP
6
A
ASP
6
1
Y
2
A
ARG
7
A
ARG
7
1
Y
2
A
ASN
8
A
ASN
8
1
Y
2
A
ALA
9
A
ALA
9
1
Y
2
A
VAL
10
A
VAL
10
1
Y
2
A
ARG
11
A
ARG
11
1
Y
2
A
LYS
12
A
LYS
12
1
Y
2
A
LYS
13
A
LYS
13
1
Y
2
A
ARG
14
A
ARG
14
1
Y
2
A
HIS
15
A
HIS
15
1
Y
2
A
ALA
16
A
ALA
16
1
Y
2
A
ARG
17
A
ARG
17
1
Y
2
A
ILE
18
A
ILE
18
1
Y
2
A
ARG
19
A
ARG
19
1
Y
2
A
LYS
20
A
LYS
20
1
Y
2
A
LYS
21
A
LYS
21
1
Y
2
A
ILE
22
A
ILE
22
1
Y
2
A
PHE
23
A
PHE
23
1
Y
3
A
MET
1
A
MET
1
1
Y
3
A
ILE
2
A
ILE
2
1
Y
3
A
THR
3
A
THR
3
1
Y
3
A
LYS
4
A
LYS
4
1
Y
3
A
VAL
5
A
VAL
5
1
Y
3
A
ASP
6
A
ASP
6
1
Y
3
A
ARG
7
A
ARG
7
1
Y
3
A
ASN
8
A
ASN
8
1
Y
3
A
ALA
9
A
ALA
9
1
Y
3
A
VAL
10
A
VAL
10
1
Y
3
A
ARG
11
A
ARG
11
1
Y
3
A
LYS
12
A
LYS
12
1
Y
3
A
LYS
13
A
LYS
13
1
Y
3
A
ARG
14
A
ARG
14
1
Y
3
A
HIS
15
A
HIS
15
1
Y
3
A
ALA
16
A
ALA
16
1
Y
3
A
ARG
17
A
ARG
17
1
Y
3
A
ILE
18
A
ILE
18
1
Y
3
A
ARG
19
A
ARG
19
1
Y
3
A
LYS
20
A
LYS
20
1
Y
3
A
LYS
21
A
LYS
21
1
Y
3
A
ILE
22
A
ILE
22
1
Y
3
A
PHE
23
A
PHE
23
1
Y
4
A
MET
1
A
MET
1
1
Y
4
A
ILE
2
A
ILE
2
1
Y
4
A
THR
3
A
THR
3
1
Y
4
A
LYS
4
A
LYS
4
1
Y
4
A
VAL
5
A
VAL
5
1
Y
4
A
ASP
6
A
ASP
6
1
Y
4
A
ARG
7
A
ARG
7
1
Y
4
A
ASN
8
A
ASN
8
1
Y
4
A
ALA
9
A
ALA
9
1
Y
4
A
VAL
10
A
VAL
10
1
Y
4
A
ARG
11
A
ARG
11
1
Y
4
A
LYS
12
A
LYS
12
1
Y
4
A
LYS
13
A
LYS
13
1
Y
4
A
ARG
14
A
ARG
14
1
Y
4
A
HIS
15
A
HIS
15
1
Y
4
A
ALA
16
A
ALA
16
1
Y
4
A
ARG
17
A
ARG
17
1
Y
4
A
ILE
18
A
ILE
18
1
Y
4
A
ARG
19
A
ARG
19
1
Y
4
A
LYS
20
A
LYS
20
1
Y
4
A
LYS
21
A
LYS
21
1
Y
4
A
ILE
22
A
ILE
22
1
Y
4
A
PHE
23
A
PHE
23
1
Y
5
A
MET
1
A
MET
1
1
Y
5
A
ILE
2
A
ILE
2
1
Y
5
A
THR
3
A
THR
3
1
Y
5
A
LYS
4
A
LYS
4
1
Y
5
A
VAL
5
A
VAL
5
1
Y
5
A
ASP
6
A
ASP
6
1
Y
5
A
ARG
7
A
ARG
7
1
Y
5
A
ASN
8
A
ASN
8
1
Y
5
A
ALA
9
A
ALA
9
1
Y
5
A
VAL
10
A
VAL
10
1
Y
5
A
ARG
11
A
ARG
11
1
Y
5
A
LYS
12
A
LYS
12
1
Y
5
A
LYS
13
A
LYS
13
1
Y
5
A
ARG
14
A
ARG
14
1
Y
5
A
HIS
15
A
HIS
15
1
Y
5
A
ALA
16
A
ALA
16
1
Y
5
A
ARG
17
A
ARG
17
1
Y
5
A
ILE
18
A
ILE
18
1
Y
5
A
ARG
19
A
ARG
19
1
Y
5
A
LYS
20
A
LYS
20
1
Y
5
A
LYS
21
A
LYS
21
1
Y
5
A
ILE
22
A
ILE
22
1
Y
5
A
PHE
23
A
PHE
23
1
Y
6
A
MET
1
A
MET
1
1
Y
6
A
ILE
2
A
ILE
2
1
Y
6
A
THR
3
A
THR
3
1
Y
6
A
LYS
4
A
LYS
4
1
Y
6
A
VAL
5
A
VAL
5
1
Y
6
A
ASP
6
A
ASP
6
1
Y
6
A
ARG
7
A
ARG
7
1
Y
6
A
ASN
8
A
ASN
8
1
Y
6
A
ALA
9
A
ALA
9
1
Y
6
A
VAL
10
A
VAL
10
1
Y
6
A
ARG
11
A
ARG
11
1
Y
6
A
LYS
12
A
LYS
12
1
Y
6
A
LYS
13
A
LYS
13
1
Y
6
A
ARG
14
A
ARG
14
1
Y
6
A
HIS
15
A
HIS
15
1
Y
6
A
ALA
16
A
ALA
16
1
Y
6
A
ARG
17
A
ARG
17
1
Y
6
A
ILE
18
A
ILE
18
1
Y
6
A
ARG
19
A
ARG
19
1
Y
6
A
LYS
20
A
LYS
20
1
Y
6
A
LYS
21
A
LYS
21
1
Y
6
A
ILE
22
A
ILE
22
1
Y
6
A
PHE
23
A
PHE
23
1
Y
7
A
MET
1
A
MET
1
1
Y
7
A
ILE
2
A
ILE
2
1
Y
7
A
THR
3
A
THR
3
1
Y
7
A
LYS
4
A
LYS
4
1
Y
7
A
VAL
5
A
VAL
5
1
Y
7
A
ASP
6
A
ASP
6
1
Y
7
A
ARG
7
A
ARG
7
1
Y
7
A
ASN
8
A
ASN
8
1
Y
7
A
ALA
9
A
ALA
9
1
Y
7
A
VAL
10
A
VAL
10
1
Y
7
A
ARG
11
A
ARG
11
1
Y
7
A
LYS
12
A
LYS
12
1
Y
7
A
LYS
13
A
LYS
13
1
Y
7
A
ARG
14
A
ARG
14
1
Y
7
A
HIS
15
A
HIS
15
1
Y
7
A
ALA
16
A
ALA
16
1
Y
7
A
ARG
17
A
ARG
17
1
Y
7
A
ILE
18
A
ILE
18
1
Y
7
A
ARG
19
A
ARG
19
1
Y
7
A
LYS
20
A
LYS
20
1
Y
7
A
LYS
21
A
LYS
21
1
Y
7
A
ILE
22
A
ILE
22
1
Y
7
A
PHE
23
A
PHE
23
1
Y
8
A
MET
1
A
MET
1
1
Y
8
A
ILE
2
A
ILE
2
1
Y
8
A
THR
3
A
THR
3
1
Y
8
A
LYS
4
A
LYS
4
1
Y
8
A
VAL
5
A
VAL
5
1
Y
8
A
ASP
6
A
ASP
6
1
Y
8
A
ARG
7
A
ARG
7
1
Y
8
A
ASN
8
A
ASN
8
1
Y
8
A
ALA
9
A
ALA
9
1
Y
8
A
VAL
10
A
VAL
10
1
Y
8
A
ARG
11
A
ARG
11
1
Y
8
A
LYS
12
A
LYS
12
1
Y
8
A
LYS
13
A
LYS
13
1
Y
8
A
ARG
14
A
ARG
14
1
Y
8
A
HIS
15
A
HIS
15
1
Y
8
A
ALA
16
A
ALA
16
1
Y
8
A
ARG
17
A
ARG
17
1
Y
8
A
ILE
18
A
ILE
18
1
Y
8
A
ARG
19
A
ARG
19
1
Y
8
A
LYS
20
A
LYS
20
1
Y
8
A
LYS
21
A
LYS
21
1
Y
8
A
ILE
22
A
ILE
22
1
Y
8
A
PHE
23
A
PHE
23
1
Y
9
A
MET
1
A
MET
1
1
Y
9
A
ILE
2
A
ILE
2
1
Y
9
A
THR
3
A
THR
3
1
Y
9
A
LYS
4
A
LYS
4
1
Y
9
A
VAL
5
A
VAL
5
1
Y
9
A
ASP
6
A
ASP
6
1
Y
9
A
ARG
7
A
ARG
7
1
Y
9
A
ASN
8
A
ASN
8
1
Y
9
A
ALA
9
A
ALA
9
1
Y
9
A
VAL
10
A
VAL
10
1
Y
9
A
ARG
11
A
ARG
11
1
Y
9
A
LYS
12
A
LYS
12
1
Y
9
A
LYS
13
A
LYS
13
1
Y
9
A
ARG
14
A
ARG
14
1
Y
9
A
HIS
15
A
HIS
15
1
Y
9
A
ALA
16
A
ALA
16
1
Y
9
A
ARG
17
A
ARG
17
1
Y
9
A
ILE
18
A
ILE
18
1
Y
9
A
ARG
19
A
ARG
19
1
Y
9
A
LYS
20
A
LYS
20
1
Y
9
A
LYS
21
A
LYS
21
1
Y
9
A
ILE
22
A
ILE
22
1
Y
9
A
PHE
23
A
PHE
23
1
Y
10
A
MET
1
A
MET
1
1
Y
10
A
ILE
2
A
ILE
2
1
Y
10
A
THR
3
A
THR
3
1
Y
10
A
LYS
4
A
LYS
4
1
Y
10
A
VAL
5
A
VAL
5
1
Y
10
A
ASP
6
A
ASP
6
1
Y
10
A
ARG
7
A
ARG
7
1
Y
10
A
ASN
8
A
ASN
8
1
Y
10
A
ALA
9
A
ALA
9
1
Y
10
A
VAL
10
A
VAL
10
1
Y
10
A
ARG
11
A
ARG
11
1
Y
10
A
LYS
12
A
LYS
12
1
Y
10
A
LYS
13
A
LYS
13
1
Y
10
A
ARG
14
A
ARG
14
1
Y
10
A
HIS
15
A
HIS
15
1
Y
10
A
ALA
16
A
ALA
16
1
Y
10
A
ARG
17
A
ARG
17
1
Y
10
A
ILE
18
A
ILE
18
1
Y
10
A
ARG
19
A
ARG
19
1
Y
10
A
LYS
20
A
LYS
20
1
Y
10
A
LYS
21
A
LYS
21
1
Y
10
A
ILE
22
A
ILE
22
1
Y
10
A
PHE
23
A
PHE
23
1
Y
2
A
A
O
H
LYS
ASP
107
111
1.56
3
A
A
HH
HG22
TYR
VAL
100
106
1.29
3
A
A
HD1
OG1
HIS
THR
39
58
1.52
4
A
A
O
HG
ALA
SER
42
55
1.59
4
A
A
O
H
SER
ASP
57
60
1.59
8
A
A
HH
HZ2
TYR
LYS
100
107
0.92
8
A
A
OH
HZ2
TYR
LYS
100
107
1.46
8
A
A
O
H
LYS
ASP
107
111
1.60
8
A
A
O
H
ASP
GLU
111
115
1.60
3
A
TYR
41
0.085
SIDE CHAIN
8
A
TYR
41
0.055
SIDE CHAIN
9
A
A
CE1
CZ
TYR
TYR
100
100
0.147
0.013
1.381
1.528
N
9
A
A
CZ
CE2
TYR
TYR
100
100
-0.148
0.013
1.381
1.233
N
1
A
THR
25
-146.87
16.06
1
A
THR
26
-177.28
-40.60
1
A
ARG
28
171.94
83.03
1
A
ARG
30
177.72
169.55
1
A
ASN
37
66.63
-93.80
1
A
ASP
46
-47.14
158.36
1
A
ASP
47
-95.54
-115.61
1
A
LYS
49
-102.98
-60.31
1
A
SER
50
167.95
171.16
1
A
ALA
51
166.22
-159.74
1
A
SER
55
176.45
-139.99
1
A
SER
57
-160.05
-167.59
1
A
ASP
66
65.89
128.01
1
A
SER
67
174.97
-36.60
1
A
LYS
88
-51.56
-71.32
1
A
ILE
90
-161.54
-43.89
1
A
ASP
96
-68.39
-85.36
1
A
ARG
97
-138.09
-39.85
1
A
TYR
100
46.84
-176.58
1
A
TYR
102
94.51
125.55
1
A
HIS
103
175.01
-34.79
2
A
THR
26
-167.94
49.78
2
A
GLU
27
-171.97
-91.90
2
A
PRO
29
-39.94
162.65
2
A
ASN
37
58.17
-88.52
2
A
ASP
46
-46.41
165.83
2
A
ASP
47
-146.86
-70.51
2
A
LYS
49
-117.48
61.93
2
A
SER
50
37.59
60.90
2
A
ALA
51
-61.83
-158.97
2
A
VAL
54
-177.61
-152.95
2
A
SER
55
178.33
-137.92
2
A
LEU
59
-38.10
-30.40
2
A
ASP
60
92.38
74.44
2
A
LYS
61
-89.19
-71.73
2
A
ASP
66
60.64
137.48
2
A
SER
67
171.86
-34.45
2
A
PHE
95
-51.03
98.08
2
A
ASP
96
25.74
-142.52
2
A
TYR
100
179.39
58.77
2
A
LEU
101
68.56
-61.94
2
A
TYR
102
122.65
178.04
2
A
HIS
103
112.63
-24.16
3
A
THR
26
164.25
-31.85
3
A
GLU
27
-79.56
-76.45
3
A
ARG
28
-161.69
85.11
3
A
ARG
30
177.77
165.18
3
A
ASN
37
-56.43
96.20
3
A
LYS
38
92.37
14.29
3
A
ASP
46
-45.44
156.23
3
A
ASP
47
-105.65
-105.50
3
A
ALA
51
-59.73
-157.74
3
A
SER
55
170.78
-148.32
3
A
ALA
56
178.56
172.66
3
A
THR
58
-48.50
-18.91
3
A
ASP
60
-56.01
-162.40
3
A
LEU
65
-165.80
-40.87
3
A
THR
68
76.27
47.72
3
A
ASN
70
64.80
91.01
3
A
LYS
88
-87.90
-156.83
3
A
ILE
90
68.86
-64.77
3
A
ARG
97
-50.24
100.16
3
A
TYR
102
77.62
-156.21
3
A
LEU
118
-68.54
97.74
4
A
THR
25
-146.43
20.61
4
A
THR
26
-166.96
-54.17
4
A
ARG
28
173.85
138.72
4
A
ASN
37
60.41
-80.51
4
A
ASP
47
-58.43
-125.12
4
A
SER
50
66.67
174.02
4
A
ALA
51
151.61
-170.82
4
A
ILE
53
-112.84
63.69
4
A
SER
55
163.64
-145.12
4
A
SER
57
-160.79
-167.98
4
A
ASP
60
-43.68
168.22
4
A
ASP
66
177.48
90.23
4
A
SER
67
-155.53
-43.46
4
A
THR
68
-43.91
-95.01
4
A
ASN
69
34.15
33.73
4
A
ASN
70
155.25
163.00
4
A
ILE
90
94.73
-25.67
4
A
VAL
94
-159.30
83.43
4
A
PHE
95
-175.18
92.84
4
A
ASP
96
-49.77
168.98
4
A
TYR
100
-110.46
-155.93
4
A
TYR
102
90.34
120.92
4
A
HIS
103
161.05
41.04
5
A
THR
26
-168.69
-44.72
5
A
GLU
27
-66.33
-75.08
5
A
ARG
28
-153.11
70.12
5
A
ASN
37
56.07
-87.36
5
A
GLN
43
-163.81
100.53
5
A
ASP
46
-45.13
157.87
5
A
ASP
47
-127.33
-74.31
5
A
LYS
49
-105.08
49.33
5
A
SER
50
44.64
29.43
5
A
VAL
54
49.36
-147.57
5
A
SER
55
-174.26
-128.82
5
A
ASP
60
-44.13
161.62
5
A
ASP
66
-159.08
79.50
5
A
THR
68
-52.32
-88.07
5
A
ASN
70
156.96
154.57
5
A
GLN
92
155.41
162.68
5
A
PHE
95
-49.74
156.70
5
A
TYR
100
-152.21
-145.68
5
A
TYR
102
103.34
-156.88
5
A
HIS
103
79.03
74.34
6
A
THR
25
-143.51
-46.91
6
A
THR
26
-152.58
6.98
6
A
GLU
27
-96.70
-67.57
6
A
ARG
28
-153.91
58.51
6
A
ARG
30
179.19
169.70
6
A
ASN
37
-37.27
103.08
6
A
LYS
38
84.58
-17.16
6
A
ASP
46
-45.81
150.55
6
A
ASP
47
-101.96
-112.54
6
A
SER
50
60.46
150.29
6
A
ALA
51
178.30
-170.77
6
A
SER
55
-156.68
-81.62
6
A
ALA
56
-179.51
131.17
6
A
SER
57
-165.95
-168.08
6
A
ASP
66
-136.48
-98.47
6
A
SER
67
66.63
-66.06
6
A
THR
68
-35.11
-91.51
6
A
ASN
69
36.66
35.21
6
A
ASN
70
137.62
154.21
6
A
ILE
71
-48.53
-15.33
6
A
LYS
88
88.89
-46.85
6
A
ILE
90
176.96
-33.13
6
A
ASP
96
-49.89
-169.84
6
A
TYR
100
-179.19
-156.08
6
A
TYR
102
101.73
176.59
6
A
HIS
103
105.57
-15.84
6
A
ARG
105
-92.12
-61.02
7
A
THR
25
-142.26
13.13
7
A
THR
26
-169.55
39.64
7
A
ARG
28
179.51
111.98
7
A
ASN
37
55.69
-85.28
7
A
ASP
46
-44.96
171.25
7
A
ASP
47
-119.36
-100.55
7
A
SER
50
141.41
34.08
7
A
ALA
51
-52.84
-172.41
7
A
VAL
54
170.09
-168.22
7
A
SER
55
-147.35
-95.02
7
A
ALA
56
177.64
155.32
7
A
THR
58
-38.51
-30.10
7
A
THR
68
57.01
-86.16
7
A
ASN
69
56.56
166.45
7
A
ASN
70
-57.48
-160.17
7
A
LYS
88
27.75
104.50
7
A
ILE
90
-146.02
-47.18
7
A
ASP
96
-42.89
171.80
7
A
TYR
100
-55.77
-166.24
7
A
TYR
102
83.23
-160.89
7
A
HIS
103
77.65
-4.64
8
A
THR
25
-148.08
20.02
8
A
THR
26
166.92
-29.82
8
A
GLU
27
-177.40
112.50
8
A
ARG
28
57.29
119.69
8
A
ASN
37
-37.24
-86.77
8
A
HIS
39
-171.11
125.52
8
A
GLN
43
-165.60
93.90
8
A
ASP
46
-45.67
165.41
8
A
ASP
47
-118.25
-102.03
8
A
SER
50
157.00
53.76
8
A
ALA
51
-57.88
-162.49
8
A
VAL
54
-173.44
-155.33
8
A
SER
55
179.11
-107.27
8
A
ALA
56
-179.39
140.99
8
A
SER
57
-169.31
118.50
8
A
THR
58
35.30
32.49
8
A
LEU
59
-137.74
-43.23
8
A
ASP
66
66.30
126.43
8
A
SER
67
170.29
-30.93
8
A
THR
68
67.37
-71.44
8
A
ASN
69
52.11
97.69
8
A
ASN
70
69.16
146.75
8
A
LYS
88
-73.16
-85.43
8
A
ILE
90
-176.87
-37.52
8
A
PHE
95
-49.75
151.56
8
A
TYR
100
-176.45
-155.37
8
A
TYR
102
97.78
178.08
8
A
HIS
103
157.18
-73.15
9
A
THR
25
-116.11
52.75
9
A
THR
26
146.14
-38.62
9
A
ASN
37
35.14
87.64
9
A
LYS
38
85.84
-32.31
9
A
ASP
46
-45.33
172.88
9
A
ASP
47
-136.53
-106.18
9
A
LYS
49
-161.19
31.11
9
A
SER
50
-60.71
-93.00
9
A
ALA
51
171.75
-89.87
9
A
SER
55
-170.55
-136.50
9
A
SER
57
-168.07
-165.94
9
A
THR
58
-41.71
155.88
9
A
LEU
65
65.18
108.61
9
A
ASP
66
68.74
113.77
9
A
SER
67
177.39
-48.31
9
A
VAL
94
-154.57
79.94
9
A
PHE
95
172.69
157.74
9
A
TYR
100
-168.02
-124.44
9
A
TYR
102
92.18
-159.92
9
A
HIS
103
86.81
51.72
9
A
ARG
105
-90.88
-62.13
10
A
THR
25
-150.17
17.75
10
A
THR
26
-175.79
41.69
10
A
GLU
27
78.48
117.32
10
A
ARG
28
75.50
137.00
10
A
ARG
35
179.31
107.14
10
A
ASN
37
51.12
-85.86
10
A
ASP
47
-66.69
-123.76
10
A
SER
50
58.14
151.13
10
A
ALA
51
173.59
-152.79
10
A
SER
55
-178.04
-133.25
10
A
SER
57
-165.10
-168.06
10
A
ASP
60
43.06
161.05
10
A
LYS
61
-92.81
-64.06
10
A
LEU
65
-64.98
-101.61
10
A
ASP
66
-57.96
98.86
10
A
SER
67
-105.92
-102.47
10
A
THR
68
-42.99
-70.55
10
A
ASN
70
105.79
139.87
10
A
ILE
71
-41.92
-18.84
10
A
ILE
90
93.03
-31.40
10
A
ASP
96
-48.78
-93.16
10
A
TYR
100
173.94
-105.26
10
A
TYR
102
60.46
-159.64
10
A
HIS
103
68.50
66.04
10
A
ARG
105
-94.11
-68.42
Solution Structure of Ribosomal Protein L18 from Bacillus stearothermophilus
1
N
N
A
ASN
70
A
ASN
70
HELX_P
A
GLY
89
A
GLY
89
1
1
20
A
VAL
106
A
VAL
106
HELX_P
A
LEU
118
A
LEU
118
1
2
13
RIBOSOME
Ribosomal Protein, Ribosome
RL18_BACST
UNP
1
1
P09415
MITKVDRNAVRKKRHARIRKKIFGTTERPRLSVFRSNKHIYAQIIDDTKSATIVSASTLDKEFGLDSTNNIEAAKKVGEL
VAKRALEKGIKQVVFDRGGYLYHGRVKALADAAREAGLEF
1
120
1OVY
1
120
P09415
A
1
1
120
3
anti-parallel
anti-parallel
A
LEU
31
A
LEU
31
A
SER
36
A
SER
36
A
HIS
39
A
HIS
39
A
ILE
45
A
ILE
45
A
ILE
53
A
ILE
53
A
ALA
56
A
ALA
56