1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Dey, A.
York, D.
Smalls-Mantey, A.
Summers, M.F.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
C10 H14 N5 O7 P
347.221
y
ADENOSINE-5'-MONOPHOSPHATE
RNA linking
C3 H7 N O2
89.093
y
ALANINE
L-peptide linking
C6 H15 N4 O2 1
175.209
y
ARGININE
L-peptide linking
C4 H7 N O4
133.103
y
ASPARTIC ACID
L-peptide linking
C9 H14 N3 O8 P
323.197
y
CYTIDINE-5'-MONOPHOSPHATE
RNA linking
C3 H7 N O2 S
121.158
y
CYSTEINE
L-peptide linking
C10 H14 N5 O8 P
363.221
y
GUANOSINE-5'-MONOPHOSPHATE
RNA 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
LEUCINE
L-peptide linking
C6 H15 N2 O2 1
147.195
y
LYSINE
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
C9 H13 N2 O9 P
324.181
y
URIDINE-5'-MONOPHOSPHATE
RNA linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
Zn 2
65.409
ZINC ION
non-polymer
US
Biochemistry
BICHAW
0033
0006-2960
44
3735
3744
10.1021/bi047639q
15751950
Composition and sequence-dependent binding of RNA to the nucleocapsid protein of Moloney murine leukemia virus(,)
2005
10.2210/pdb1wwd/pdb
pdb_00001wwd
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
1899.213
5'-R(P*AP*AP*CP*AP*GP*U)-3'
1
syn
polymer
6377.248
Nucleoprotein p10
1
man
polymer
65.409
ZINC ION
1
syn
non-polymer
Nucleocapsid Protein
no
no
AACAGU
AACAGU
B
polyribonucleotide
no
no
ATVVSGQKQDRQGGERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQTSLL
ATVVSGQKQDRQGGERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQTSLL
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
Gammaretrovirus
Murine leukemia virus
Escherichia
sample
11801
Moloney murine leukemia virus
562
Escherichia coli
Plasmid
pGEX-6P-1
database_2
pdbx_nmr_software
pdbx_nmr_spectrometer
pdbx_struct_assembly
pdbx_struct_conn_angle
pdbx_struct_oper_list
struct_conn
struct_site
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2005-03-22
1
1
2008-04-30
1
2
2011-07-13
1
3
2022-03-02
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
_pdbx_nmr_spectrometer.model
_pdbx_struct_conn_angle.ptnr1_auth_comp_id
_pdbx_struct_conn_angle.ptnr1_auth_seq_id
_pdbx_struct_conn_angle.ptnr1_label_atom_id
_pdbx_struct_conn_angle.ptnr1_label_comp_id
_pdbx_struct_conn_angle.ptnr1_label_seq_id
_pdbx_struct_conn_angle.ptnr3_auth_comp_id
_pdbx_struct_conn_angle.ptnr3_auth_seq_id
_pdbx_struct_conn_angle.ptnr3_label_atom_id
_pdbx_struct_conn_angle.ptnr3_label_comp_id
_pdbx_struct_conn_angle.ptnr3_label_seq_id
_pdbx_struct_conn_angle.value
_struct_conn.pdbx_dist_value
_struct_conn.ptnr1_auth_comp_id
_struct_conn.ptnr1_auth_seq_id
_struct_conn.ptnr1_label_asym_id
_struct_conn.ptnr1_label_atom_id
_struct_conn.ptnr1_label_comp_id
_struct_conn.ptnr1_label_seq_id
_struct_conn.ptnr2_auth_comp_id
_struct_conn.ptnr2_auth_seq_id
_struct_conn.ptnr2_label_asym_id
_struct_conn.ptnr2_label_atom_id
_struct_conn.ptnr2_label_comp_id
_struct_conn.ptnr2_label_seq_id
_struct_site.pdbx_auth_asym_id
_struct_site.pdbx_auth_comp_id
_struct_site.pdbx_auth_seq_id
NMR Structure Determined for MLV NC Complex with RNA Sequence UUUUGCU
NMR Structure Determined for MLV NC Complex with RNA Sequence CCUCCGU
NMR Structure Determined for MLV NC Complex with RNA Sequence UAUCUG
PDBJ
Y
PDBJ
2005-01-05
REL
REL
ZN
ZINC ION
This structure was determined using standard 2D homonuclear techniques
target function
40
20
2D NOESY
2D NOESY
2D TOCSY
10mM Tris-HCl, pH 7.0, 10mM NaCl, 0.1mM ZnCl2
7.0
1
atm
288
K
The structures are based on a total of following restraints for: RNA: 30 intraresidue restraints, 37 Intermolecular NOE restraints and 12 Inter-molecular H-Bond restraints.
NC protein: 22 intraresidue restraints and 40 H-bond restraints
distance geometry
1
lowest energy
Unlabelled RNA, 1mM RNA Concentration, in 10mM NaCl, 10mM Tris-HCl, pH 7.0, 0.1mM ZnCl2, 0.1mM BME
99.99% D2O
Unlabelled NC Protein, 1mM Protein Concentration, in 10mM NaCl, 10mM Tris-HCl, pH 7.0, 0.1mM ZnCl2, 0.1mM BME
99.99% D2O
Bruker
collection
XwinNMR
3.6
Delaglio, F. et.al
processing
NMRPipe
Current
refinement
CYANA
800
Bruker
AVANCE
600
Bruker
DMX
ZN
57
3
ZN
ZN
57
A
A
493
n
1
A
493
B
A
494
n
2
A
494
B
C
495
n
3
C
495
B
A
496
n
4
A
496
B
G
497
n
5
G
497
B
U
498
n
6
U
498
B
ALA
1
n
1
ALA
1
A
THR
2
n
2
THR
2
A
VAL
3
n
3
VAL
3
A
VAL
4
n
4
VAL
4
A
SER
5
n
5
SER
5
A
GLY
6
n
6
GLY
6
A
GLN
7
n
7
GLN
7
A
LYS
8
n
8
LYS
8
A
GLN
9
n
9
GLN
9
A
ASP
10
n
10
ASP
10
A
ARG
11
n
11
ARG
11
A
GLN
12
n
12
GLN
12
A
GLY
13
n
13
GLY
13
A
GLY
14
n
14
GLY
14
A
GLU
15
n
15
GLU
15
A
ARG
16
n
16
ARG
16
A
ARG
17
n
17
ARG
17
A
ARG
18
n
18
ARG
18
A
SER
19
n
19
SER
19
A
GLN
20
n
20
GLN
20
A
LEU
21
n
21
LEU
21
A
ASP
22
n
22
ASP
22
A
ARG
23
n
23
ARG
23
A
ASP
24
n
24
ASP
24
A
GLN
25
n
25
GLN
25
A
CYS
26
n
26
CYS
26
A
ALA
27
n
27
ALA
27
A
TYR
28
n
28
TYR
28
A
CYS
29
n
29
CYS
29
A
LYS
30
n
30
LYS
30
A
GLU
31
n
31
GLU
31
A
LYS
32
n
32
LYS
32
A
GLY
33
n
33
GLY
33
A
HIS
34
n
34
HIS
34
A
TRP
35
n
35
TRP
35
A
ALA
36
n
36
ALA
36
A
LYS
37
n
37
LYS
37
A
ASP
38
n
38
ASP
38
A
CYS
39
n
39
CYS
39
A
PRO
40
n
40
PRO
40
A
LYS
41
n
41
LYS
41
A
LYS
42
n
42
LYS
42
A
PRO
43
n
43
PRO
43
A
ARG
44
n
44
ARG
44
A
GLY
45
n
45
GLY
45
A
PRO
46
n
46
PRO
46
A
ARG
47
n
47
ARG
47
A
GLY
48
n
48
GLY
48
A
PRO
49
n
49
PRO
49
A
ARG
50
n
50
ARG
50
A
PRO
51
n
51
PRO
51
A
GLN
52
n
52
GLN
52
A
THR
53
n
53
THR
53
A
SER
54
n
54
SER
54
A
LEU
55
n
55
LEU
55
A
LEU
56
n
56
LEU
56
A
author_defined_assembly
2
dimeric
A
CYS
26
B
SG
CYS
26
1_555
A
ZN
57
C
ZN
ZN
1_555
A
CYS
29
B
SG
CYS
29
1_555
109.3
A
CYS
26
B
SG
CYS
26
1_555
A
ZN
57
C
ZN
ZN
1_555
A
HIS
34
B
NE2
HIS
34
1_555
108.4
A
CYS
29
B
SG
CYS
29
1_555
A
ZN
57
C
ZN
ZN
1_555
A
HIS
34
B
NE2
HIS
34
1_555
108.3
A
CYS
26
B
SG
CYS
26
1_555
A
ZN
57
C
ZN
ZN
1_555
A
CYS
39
B
SG
CYS
39
1_555
106.6
A
CYS
29
B
SG
CYS
29
1_555
A
ZN
57
C
ZN
ZN
1_555
A
CYS
39
B
SG
CYS
39
1_555
106.7
A
HIS
34
B
NE2
HIS
34
1_555
A
ZN
57
C
ZN
ZN
1_555
A
CYS
39
B
SG
CYS
39
1_555
117.4
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
20
B
B
HO2'
OP2
C
G
495
497
1.51
1
6.19
0.80
109.90
116.09
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
1
-8.67
1.00
104.00
95.33
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
1
7.12
0.80
109.90
117.02
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
1
-6.57
1.00
104.00
97.43
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
1
7.11
0.80
109.90
117.01
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
1
-7.20
1.00
104.00
96.80
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
1
7.25
0.80
109.90
117.15
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
1
-6.62
0.60
125.10
118.48
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
1
5.21
0.60
123.90
129.11
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
1
5.91
0.50
111.50
117.41
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
1
-12.25
1.00
104.00
91.75
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
1
4.83
0.80
109.90
114.73
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
2
-10.92
1.00
104.00
93.08
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
2
6.40
0.80
109.90
116.30
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
2
-8.00
1.00
104.00
96.00
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
2
7.34
0.80
109.90
117.24
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
2
-7.25
1.00
104.00
96.75
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
2
7.35
0.80
109.90
117.25
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
2
-7.63
1.00
104.00
96.37
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
2
6.93
0.80
109.90
116.83
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
2
-6.59
0.60
125.10
118.51
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
2
5.25
0.60
123.90
129.15
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
2
5.87
0.50
111.50
117.37
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
2
-13.11
1.00
104.00
90.89
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
3
-8.66
1.00
104.00
95.34
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
3
7.14
0.80
109.90
117.04
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
3
-12.99
1.00
104.00
91.01
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
3
-7.46
1.00
104.00
96.54
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
3
7.32
0.80
109.90
117.22
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
3
-7.99
1.00
104.00
96.01
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
3
7.41
0.80
109.90
117.31
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
3
-7.20
1.00
104.00
96.80
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
3
6.88
0.80
109.90
116.78
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
3
-6.61
0.60
125.10
118.49
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
3
5.22
0.60
123.90
129.12
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
3
5.90
0.50
111.50
117.40
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
3
-12.50
1.00
104.00
91.50
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
4
-7.26
1.00
104.00
96.74
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
4
7.25
0.80
109.90
117.15
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
4
-12.93
1.00
104.00
91.07
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
4
-7.50
1.00
104.00
96.50
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
4
7.39
0.80
109.90
117.29
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
4
-7.75
1.00
104.00
96.25
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
4
7.45
0.80
109.90
117.35
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
4
-8.26
1.00
104.00
95.74
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
4
6.97
0.80
109.90
116.87
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
4
-6.57
0.60
125.10
118.53
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
4
5.17
0.60
123.90
129.07
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
4
5.92
0.50
111.50
117.42
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
4
-11.96
1.00
104.00
92.04
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
4
5.52
0.80
109.90
115.42
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
5
-12.42
1.00
104.00
91.58
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
5
-4.23
0.70
109.70
105.47
B
B
B
C1'
O4'
C4'
A
A
A
494
494
494
N
5
-8.75
1.00
104.00
95.25
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
5
7.25
0.80
109.90
117.15
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
5
-13.06
1.00
104.00
90.94
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
5
-8.12
1.00
104.00
95.88
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
5
6.95
0.80
109.90
116.85
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
5
-6.63
0.60
125.10
118.47
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
5
5.18
0.60
123.90
129.08
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
5
5.90
0.50
111.50
117.40
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
5
-12.94
1.00
104.00
91.06
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
6
-12.11
1.00
104.00
91.89
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
6
-8.64
1.00
104.00
95.36
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
6
7.39
0.80
109.90
117.29
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
6
-12.43
1.00
104.00
91.57
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
6
-8.40
1.00
104.00
95.60
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
6
6.97
0.80
109.90
116.87
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
6
-6.58
0.60
125.10
118.52
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
6
5.25
0.60
123.90
129.15
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
6
5.85
0.50
111.50
117.35
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
6
-12.80
1.00
104.00
91.20
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
7
4.91
0.80
109.90
114.81
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
7
5.09
0.80
109.90
114.99
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
7
-6.17
1.00
104.00
97.83
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
7
7.00
0.80
109.90
116.90
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
7
-6.99
1.00
104.00
97.01
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
7
7.25
0.80
109.90
117.15
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
7
-6.60
0.60
125.10
118.50
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
7
5.20
0.60
123.90
129.10
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
7
5.91
0.50
111.50
117.41
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
7
-12.17
1.00
104.00
91.83
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
7
5.41
0.80
109.90
115.31
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
8
4.98
0.80
109.90
114.88
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
8
-8.18
1.00
104.00
95.82
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
8
7.28
0.80
109.90
117.18
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
8
-6.55
1.00
104.00
97.45
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
8
7.22
0.80
109.90
117.12
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
8
-7.70
1.00
104.00
96.30
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
8
6.98
0.80
109.90
116.88
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
8
-6.56
0.60
125.10
118.54
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
8
5.16
0.60
123.90
129.06
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
8
5.88
0.50
111.50
117.38
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
8
-12.68
1.00
104.00
91.32
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
9
-8.77
1.00
104.00
95.23
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
9
7.31
0.80
109.90
117.21
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
9
-12.94
1.00
104.00
91.06
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
9
-7.28
1.00
104.00
96.72
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
9
7.31
0.80
109.90
117.21
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
9
-12.25
1.00
104.00
91.75
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
9
-8.59
1.00
104.00
95.41
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
9
7.01
0.80
109.90
116.91
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
9
-6.67
0.60
125.10
118.43
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
9
5.24
0.60
123.90
129.14
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
9
5.97
0.50
111.50
117.47
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
9
-10.05
1.00
104.00
93.95
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
9
6.77
0.80
109.90
116.67
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
10
5.13
0.80
109.90
115.03
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
10
-7.11
1.00
104.00
96.89
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
10
7.42
0.80
109.90
117.32
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
10
-12.56
1.00
104.00
91.44
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
10
-10.57
1.00
104.00
93.43
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
10
6.57
0.80
109.90
116.47
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
10
-6.66
0.60
125.10
118.44
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
10
5.20
0.60
123.90
129.10
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
10
5.93
0.50
111.50
117.43
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
10
-13.38
1.00
104.00
90.62
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
11
-8.17
1.00
104.00
95.83
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
11
7.35
0.80
109.90
117.25
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
11
-12.68
1.00
104.00
91.32
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
11
-7.30
1.00
104.00
96.70
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
11
7.34
0.80
109.90
117.24
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
11
-6.58
1.00
104.00
97.42
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
11
7.13
0.80
109.90
117.03
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
11
-7.67
1.00
104.00
96.33
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
11
7.23
0.80
109.90
117.13
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
11
-6.59
0.60
125.10
118.51
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
11
5.27
0.60
123.90
129.17
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
11
5.86
0.50
111.50
117.36
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
11
-10.47
1.00
104.00
93.53
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
11
6.67
0.80
109.90
116.57
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
12
-7.34
1.00
104.00
96.66
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
12
7.29
0.80
109.90
117.19
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
12
-12.99
1.00
104.00
91.01
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
12
-7.47
1.00
104.00
96.53
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
12
7.30
0.80
109.90
117.20
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
12
-7.69
1.00
104.00
96.31
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
12
7.43
0.80
109.90
117.33
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
12
-8.29
1.00
104.00
95.71
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
12
7.01
0.80
109.90
116.91
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
12
-6.62
0.60
125.10
118.48
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
12
5.29
0.60
123.90
129.19
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
12
5.87
0.50
111.50
117.37
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
12
-11.95
1.00
104.00
92.05
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
12
5.45
0.80
109.90
115.35
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
13
-8.70
1.00
104.00
95.30
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
13
7.10
0.80
109.90
117.00
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
13
-12.97
1.00
104.00
91.03
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
13
-7.48
1.00
104.00
96.52
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
13
7.31
0.80
109.90
117.21
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
13
-7.96
1.00
104.00
96.04
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
13
7.43
0.80
109.90
117.33
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
13
-7.20
1.00
104.00
96.80
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
13
6.89
0.80
109.90
116.79
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
13
-6.61
0.60
125.10
118.49
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
13
5.25
0.60
123.90
129.15
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
13
5.94
0.50
111.50
117.44
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
13
-12.45
1.00
104.00
91.55
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
14
-12.85
1.00
104.00
91.15
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
14
-4.59
0.70
109.70
105.11
B
B
B
C1'
O4'
C4'
A
A
A
494
494
494
N
14
-9.78
1.00
104.00
94.22
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
14
7.04
0.80
109.90
116.94
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
14
-7.55
1.00
104.00
96.45
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
14
7.31
0.80
109.90
117.21
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
14
-8.92
1.00
104.00
95.08
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
14
7.27
0.80
109.90
117.17
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
14
-6.62
0.60
125.10
118.48
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
14
5.24
0.60
123.90
129.14
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
14
5.92
0.50
111.50
117.42
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
14
-7.95
1.00
104.00
96.05
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
14
6.94
0.80
109.90
116.84
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
15
-12.11
1.00
104.00
91.89
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
15
-8.64
1.00
104.00
95.36
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
15
7.34
0.80
109.90
117.24
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
15
-12.46
1.00
104.00
91.54
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
15
-8.34
1.00
104.00
95.66
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
15
6.99
0.80
109.90
116.89
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
15
-6.55
0.60
125.10
118.55
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
15
5.18
0.60
123.90
129.08
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
15
5.87
0.50
111.50
117.37
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
15
-12.84
1.00
104.00
91.16
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
16
-6.23
1.00
104.00
97.77
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
16
7.04
0.80
109.90
116.94
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
16
-10.01
1.00
104.00
93.99
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
16
6.84
0.80
109.90
116.74
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
16
-8.22
1.00
104.00
95.78
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
16
7.43
0.80
109.90
117.33
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
16
-6.19
1.00
104.00
97.81
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
16
6.38
0.80
109.90
116.28
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
16
-6.65
0.60
125.10
118.45
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
16
5.23
0.60
123.90
129.13
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
16
5.91
0.50
111.50
117.41
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
16
-8.03
1.00
104.00
95.97
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
16
7.11
0.80
109.90
117.01
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
17
6.40
0.80
109.90
116.30
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
17
6.62
0.80
109.90
116.52
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
17
-12.55
1.00
104.00
91.45
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
17
-7.28
1.00
104.00
96.72
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
17
7.33
0.80
109.90
117.23
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
17
-6.56
0.60
125.10
118.54
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
17
5.18
0.60
123.90
129.08
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
17
5.90
0.50
111.50
117.40
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
17
-12.21
1.00
104.00
91.79
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
17
5.03
0.80
109.90
114.93
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
18
-6.42
1.00
104.00
97.58
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
18
7.07
0.80
109.90
116.97
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
18
-13.01
1.00
104.00
90.99
B
B
B
O4'
C4'
C3'
A
A
A
494
494
494
N
18
-6.93
1.00
104.00
97.07
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
18
7.23
0.80
109.90
117.13
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
18
-7.59
1.00
104.00
96.41
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
18
7.56
0.80
109.90
117.46
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
18
-6.67
1.00
104.00
97.33
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
18
7.15
0.80
109.90
117.05
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
18
-6.66
0.60
125.10
118.44
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
18
5.25
0.60
123.90
129.15
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
18
5.91
0.50
111.50
117.41
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
18
6.54
0.80
109.90
116.44
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
19
-10.63
1.00
104.00
93.37
B
B
B
O4'
C4'
C3'
A
A
A
493
493
493
N
19
6.57
0.80
109.90
116.47
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
19
6.27
0.80
109.90
116.17
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
19
-12.52
1.00
104.00
91.48
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
19
-9.22
1.00
104.00
94.78
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
19
7.00
0.80
109.90
116.90
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
19
-6.57
0.60
125.10
118.53
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
19
5.18
0.60
123.90
129.08
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
19
5.86
0.50
111.50
117.36
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
19
-12.64
1.00
104.00
91.36
B
B
B
O4'
C4'
C3'
U
U
U
498
498
498
N
20
6.14
0.80
109.90
116.04
B
B
B
C1'
O4'
C4'
A
A
A
493
493
493
N
20
-7.67
1.00
104.00
96.33
B
B
B
O4'
C4'
C3'
C
C
C
495
495
495
N
20
7.26
0.80
109.90
117.16
B
B
B
C1'
O4'
C4'
C
C
C
495
495
495
N
20
-8.28
1.00
104.00
95.72
B
B
B
O4'
C4'
C3'
A
A
A
496
496
496
N
20
7.39
0.80
109.90
117.29
B
B
B
C1'
O4'
C4'
A
A
A
496
496
496
N
20
-7.82
1.00
104.00
96.18
B
B
B
O4'
C4'
C3'
G
G
G
497
497
497
N
20
6.90
0.80
109.90
116.80
B
B
B
C1'
O4'
C4'
G
G
G
497
497
497
N
20
-6.65
0.60
125.10
118.45
B
B
B
C6
N1
C2
G
G
G
497
497
497
N
20
5.17
0.60
123.90
129.07
B
B
B
N1
C2
N3
G
G
G
497
497
497
N
20
5.99
0.50
111.50
117.49
B
B
B
C5
C6
N1
G
G
G
497
497
497
N
20
5.74
0.80
109.90
115.64
B
B
B
C1'
O4'
C4'
U
U
U
498
498
498
N
1
A
GLU
15
-177.81
126.37
1
A
ARG
17
-179.93
51.75
1
A
ARG
18
-179.88
54.74
1
A
SER
19
39.36
-150.43
1
A
GLN
20
-91.02
30.90
1
A
LEU
21
-57.06
88.05
1
A
ALA
27
-99.78
34.43
1
A
TYR
28
-129.38
-58.04
1
A
LYS
30
90.16
25.85
1
A
GLN
52
-167.06
106.48
2
A
GLN
7
-153.36
-58.08
2
A
GLU
15
-108.37
74.77
2
A
ARG
17
179.44
119.53
2
A
ARG
18
-118.85
76.94
2
A
TYR
28
-129.76
-57.62
2
A
LYS
30
89.03
24.08
2
A
GLN
52
65.37
88.25
3
A
VAL
4
-134.73
-48.73
3
A
GLN
7
-157.15
-61.09
3
A
ASP
10
59.70
98.29
3
A
GLN
12
-92.59
-67.70
3
A
ARG
17
53.36
171.77
3
A
ARG
18
-148.13
52.62
3
A
GLN
20
38.88
51.52
3
A
LEU
21
-54.13
89.91
3
A
ALA
27
-97.21
34.44
3
A
TYR
28
-130.28
-60.45
3
A
LYS
30
89.20
23.06
3
A
GLN
52
49.30
76.81
3
A
SER
54
60.36
106.87
4
A
GLN
7
-158.01
75.46
4
A
ARG
11
-179.86
-54.98
4
A
GLN
12
64.98
135.56
4
A
SER
19
39.23
-150.58
4
A
GLN
20
-91.08
31.70
4
A
LEU
21
-65.47
82.92
4
A
ALA
27
-98.83
35.88
4
A
TYR
28
-131.20
-53.29
4
A
LYS
30
88.07
22.27
4
A
SER
54
-173.75
147.54
5
A
GLN
9
55.32
167.57
5
A
ARG
11
-168.20
-61.85
5
A
GLU
15
63.02
144.97
5
A
ARG
16
-128.33
-51.79
5
A
ARG
18
-100.38
77.01
5
A
SER
19
-42.75
96.26
5
A
GLN
20
38.49
50.95
5
A
ALA
27
-95.94
33.83
5
A
TYR
28
-127.99
-57.74
5
A
LYS
30
89.60
21.26
5
A
ARG
50
-177.53
149.99
5
A
THR
53
59.67
97.20
5
A
LEU
55
66.17
129.52
6
A
THR
2
60.96
114.91
6
A
SER
5
178.60
170.16
6
A
GLN
7
178.58
142.67
6
A
ASP
10
176.92
165.44
6
A
ARG
11
66.46
150.36
6
A
GLN
12
-123.51
-58.53
6
A
GLU
15
-130.63
-67.19
6
A
ARG
16
-178.64
133.61
6
A
SER
19
-44.25
94.79
6
A
GLN
20
36.68
43.10
6
A
TYR
28
-127.77
-55.00
6
A
LYS
30
91.18
26.59
6
A
ARG
47
-39.78
109.61
7
A
VAL
3
-173.56
129.27
7
A
GLN
12
177.74
142.08
7
A
GLU
15
-162.31
106.87
7
A
ARG
16
62.46
130.92
7
A
ARG
18
-156.62
51.08
7
A
LEU
21
-44.74
96.38
7
A
TYR
28
-142.68
-55.94
7
A
LYS
30
90.23
25.64
7
A
ARG
44
175.61
153.86
7
A
ARG
47
62.00
94.00
7
A
ARG
50
62.07
138.62
7
A
THR
53
-49.19
107.26
7
A
LEU
55
-90.43
-63.18
8
A
VAL
3
-155.56
75.96
8
A
GLN
7
-171.39
115.02
8
A
GLU
15
-176.03
-60.39
8
A
ARG
17
-39.10
155.07
8
A
SER
19
58.14
-85.61
8
A
GLN
20
-160.93
30.90
8
A
LEU
21
-43.21
97.09
8
A
ALA
27
-99.96
34.42
8
A
TYR
28
-128.58
-54.15
8
A
LYS
30
90.38
25.28
8
A
ARG
44
49.41
88.30
8
A
GLN
52
57.92
89.76
9
A
GLN
12
-176.53
131.64
9
A
GLU
15
-169.79
-53.75
9
A
ARG
16
52.64
77.04
9
A
ARG
17
174.53
97.62
9
A
ARG
18
-111.56
75.05
9
A
SER
19
-47.85
97.74
9
A
GLN
20
38.72
33.55
9
A
LEU
21
-62.79
83.45
9
A
TYR
28
-130.53
-61.32
9
A
LYS
30
88.59
20.63
9
A
ARG
44
179.96
169.20
9
A
ARG
47
45.55
89.30
9
A
GLN
52
-147.19
-58.13
10
A
GLN
7
-174.46
122.48
10
A
ARG
16
59.10
110.29
10
A
ARG
18
173.85
79.50
10
A
GLN
20
38.68
53.95
10
A
LEU
21
-47.71
95.27
10
A
TYR
28
-127.14
-53.89
10
A
LYS
30
94.04
-27.20
10
A
PRO
43
-74.93
-162.48
10
A
ARG
47
66.87
154.69
10
A
ARG
50
41.40
91.85
10
A
GLN
52
64.30
122.83
10
A
THR
53
-108.58
68.62
10
A
SER
54
-166.67
116.00
10
A
LEU
55
-156.95
-63.85
11
A
LYS
8
-108.40
-62.87
11
A
ARG
11
-179.92
90.77
11
A
ARG
18
-104.71
51.26
11
A
SER
19
-39.24
108.52
11
A
GLN
20
38.03
57.12
11
A
TYR
28
-133.01
-56.57
11
A
LYS
30
93.82
29.21
11
A
ARG
44
62.91
135.61
11
A
ARG
50
62.94
140.53
11
A
GLN
52
-139.08
-61.18
12
A
GLN
7
-158.03
75.43
12
A
ARG
11
-179.88
-54.96
12
A
GLN
12
64.97
135.54
12
A
SER
19
39.33
-150.69
12
A
GLN
20
-91.00
31.78
12
A
LEU
21
-65.61
82.97
12
A
ALA
27
-98.84
35.88
12
A
TYR
28
-131.17
-53.34
12
A
LYS
30
88.03
22.27
12
A
SER
54
-173.69
147.62
13
A
VAL
4
-134.74
-48.83
13
A
GLN
7
-157.21
-61.13
13
A
ASP
10
59.64
98.30
13
A
GLN
12
-92.61
-67.70
13
A
ARG
17
53.29
171.73
13
A
ARG
18
-148.14
52.71
13
A
GLN
20
38.98
51.42
13
A
LEU
21
-54.21
90.03
13
A
ALA
27
-97.25
34.54
13
A
TYR
28
-130.31
-60.44
13
A
LYS
30
89.15
23.22
13
A
GLN
52
49.32
76.78
13
A
SER
54
60.35
106.78
14
A
THR
2
65.06
-74.41
14
A
VAL
3
63.92
93.17
14
A
GLN
7
-173.53
140.39
14
A
ASP
10
64.21
170.98
14
A
GLN
12
73.93
-57.70
14
A
ARG
16
71.38
-60.31
14
A
ARG
17
-178.81
-56.43
14
A
ARG
18
40.26
70.15
14
A
SER
19
-41.26
96.75
14
A
GLN
20
38.82
53.85
14
A
ALA
27
-99.93
35.45
14
A
TYR
28
-129.23
-51.56
14
A
LYS
30
90.04
26.40
14
A
ARG
47
-65.81
85.49
14
A
SER
54
-144.83
-58.68
15
A
THR
2
60.96
115.00
15
A
SER
5
178.60
170.16
15
A
GLN
7
178.61
142.64
15
A
ASP
10
176.96
165.44
15
A
ARG
11
66.47
150.33
15
A
GLN
12
-123.43
-58.56
15
A
GLU
15
-130.64
-67.10
15
A
ARG
16
-178.68
133.61
15
A
SER
19
-44.33
94.81
15
A
GLN
20
36.71
43.14
15
A
TYR
28
-127.69
-55.13
15
A
LYS
30
91.23
26.53
15
A
ARG
47
-39.70
109.62
16
A
VAL
4
64.01
123.54
16
A
GLN
7
-48.18
152.20
16
A
GLN
9
-172.56
138.14
16
A
ARG
18
179.95
60.55
16
A
LEU
21
-52.97
98.93
16
A
TYR
28
-127.19
-58.29
16
A
LYS
30
89.59
26.53
16
A
SER
54
67.90
148.91
17
A
THR
2
61.36
146.13
17
A
ARG
17
59.53
112.01
17
A
SER
19
38.28
-151.76
17
A
GLN
20
-90.65
36.17
17
A
LEU
21
-63.07
83.11
17
A
TYR
28
-125.82
-52.35
17
A
LYS
30
93.58
-29.42
17
A
GLU
31
-37.04
128.72
17
A
LYS
42
-54.54
108.57
17
A
GLN
52
58.47
161.96
17
A
THR
53
61.79
154.49
17
A
SER
54
62.07
82.00
18
A
THR
2
57.16
71.58
18
A
VAL
3
-107.52
54.21
18
A
GLU
15
-168.46
-59.29
18
A
ARG
17
-54.20
-179.45
18
A
ARG
18
-141.27
49.25
18
A
LEU
21
-46.89
95.39
18
A
ALA
27
-98.05
34.70
18
A
TYR
28
-131.73
-62.73
18
A
LYS
30
93.61
26.62
18
A
LYS
42
-39.66
100.00
18
A
ARG
47
75.25
139.34
18
A
ARG
50
60.64
87.08
18
A
GLN
52
61.79
68.22
18
A
THR
53
-157.01
77.29
18
A
LEU
55
-112.15
67.84
19
A
VAL
3
-170.14
136.46
19
A
ASP
10
177.57
167.80
19
A
GLN
12
65.31
96.26
19
A
GLU
15
62.22
171.14
19
A
ARG
16
64.47
125.98
19
A
SER
19
-41.43
97.53
19
A
GLN
20
38.57
43.66
19
A
LEU
21
-68.34
94.64
19
A
ALA
27
-92.18
33.24
19
A
TYR
28
-129.43
-63.04
19
A
LYS
30
89.99
22.35
19
A
ARG
47
63.91
163.14
19
A
ARG
50
55.03
95.14
19
A
GLN
52
-171.78
-59.70
19
A
THR
53
37.55
-155.75
19
A
SER
54
60.96
144.64
19
A
LEU
55
73.66
-69.77
20
A
THR
2
-173.06
64.19
20
A
GLU
15
58.78
156.89
20
A
ARG
16
-134.83
-57.75
20
A
SER
19
37.84
-148.09
20
A
GLN
20
-94.70
43.13
20
A
LEU
21
-39.50
98.39
20
A
TYR
28
-121.51
-53.03
20
A
LYS
30
93.48
-27.41
20
A
ARG
44
-162.48
115.32
20
A
ARG
47
61.33
128.15
20
A
LEU
55
-147.47
-64.32
NMR structure determined for MLV NC complex with RNA sequence AACAGU
1
N
N
2
N
N
3
N
N
A
TRP
35
B
TRP
35
HELX_P
A
CYS
39
B
CYS
39
5
1
5
metalc
2.312
A
CYS
26
B
SG
CYS
26
1_555
A
ZN
57
C
ZN
ZN
1_555
metalc
2.306
A
CYS
29
B
SG
CYS
29
1_555
A
ZN
57
C
ZN
ZN
1_555
metalc
1.994
A
HIS
34
B
NE2
HIS
34
1_555
A
ZN
57
C
ZN
ZN
1_555
metalc
2.303
A
CYS
39
B
SG
CYS
39
1_555
A
ZN
57
C
ZN
ZN
1_555
Viral protein/RNA
hydrophobic Guanosine Binding Pocket, Viral protein-RNA COMPLEX
A
GLY
45
B
GLY
45
1
A
PRO
46
B
PRO
46
-0.06
A
GLY
45
B
GLY
45
2
A
PRO
46
B
PRO
46
0.06
A
GLY
45
B
GLY
45
3
A
PRO
46
B
PRO
46
-0.04
A
GLY
45
B
GLY
45
4
A
PRO
46
B
PRO
46
0.04
A
GLY
45
B
GLY
45
5
A
PRO
46
B
PRO
46
-0.09
A
GLY
45
B
GLY
45
6
A
PRO
46
B
PRO
46
-0.02
A
GLY
45
B
GLY
45
7
A
PRO
46
B
PRO
46
0.01
A
GLY
45
B
GLY
45
8
A
PRO
46
B
PRO
46
0.02
A
GLY
45
B
GLY
45
9
A
PRO
46
B
PRO
46
0.01
A
GLY
45
B
GLY
45
10
A
PRO
46
B
PRO
46
-0.12
A
GLY
45
B
GLY
45
11
A
PRO
46
B
PRO
46
-0.09
A
GLY
45
B
GLY
45
12
A
PRO
46
B
PRO
46
0.09
A
GLY
45
B
GLY
45
13
A
PRO
46
B
PRO
46
-0.01
A
GLY
45
B
GLY
45
14
A
PRO
46
B
PRO
46
-0.06
A
GLY
45
B
GLY
45
15
A
PRO
46
B
PRO
46
0.02
A
GLY
45
B
GLY
45
16
A
PRO
46
B
PRO
46
0.08
A
GLY
45
B
GLY
45
17
A
PRO
46
B
PRO
46
-0.06
A
GLY
45
B
GLY
45
18
A
PRO
46
B
PRO
46
0.00
A
GLY
45
B
GLY
45
19
A
PRO
46
B
PRO
46
-0.04
A
GLY
45
B
GLY
45
20
A
PRO
46
B
PRO
46
-0.08
GAG_MLVMO
UNP
2
479
P03332
ATVVSGQKQDRQGGERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQTSLL
1WWD
PDB
1
1WWD
479
534
1WWD
1
56
P03332
A
1
1
56
493
498
1WWD
493
498
1WWD
B
2
1
6
BINDING SITE FOR RESIDUE ZN A 57
A
ZN
57
Software
4
A
CYS
26
B
CYS
26
4
1_555
A
CYS
29
B
CYS
29
4
1_555
A
HIS
34
B
HIS
34
4
1_555
A
CYS
39
B
CYS
39
4
1_555