1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Moursy, A.
Allain, F.H.-T.
Clery, A.
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 H8 N2 O3
132.118
y
ASPARAGINE
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
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
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
UK
Nucleic Acids Res.
NARHAD
0389
0305-1048
42
6659
6672
10.1093/nar/gku244
24692659
Characterization of the RNA recognition mode of hnRNP G extends its role in SMN2 splicing regulation.
2014
10413.815
RNA-binding motif protein, X chromosome
1
man
polymer
1883.213
RNA_(5'-R(*AP*UP*CP*AP*AP*A)-3')
1
syn
polymer
Glycoprotein p43, Heterogeneous nuclear ribonucleoprotein G, hnRNP G, RNA-binding motif protein, X chromosome, N-terminally processed
no
no
MVEADRPGKLFIGGLNTETNEKALEAVFGKYGRIVEVLLMKDRETNKSRGFAFVTFESPADAKDAARDMNGKSLDGKAIK
VEQATKPSFESGRRG
MVEADRPGKLFIGGLNTETNEKALEAVFGKYGRIVEVLLMKDRETNKSRGFAFVTFESPADAKDAARDMNGKSLDGKAIK
VEQATKPSFESGRRG
B
polypeptide(L)
no
no
AUCAAA
AUCAAA
A
polyribonucleotide
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
human
sample
RBMX, HNRPG, RBMXP1
9606
Homo sapiens
562
Escherichia coli
pET28
repository
Initial release
Database references
Database references
1
0
2014-04-09
1
1
2014-05-14
1
2
2014-06-25
BMRB
Y
RCSB
2013-07-22
REL
REL
REL
structures with the lowest energy
50
20
2D 1H-15N HSQC
2D 1H-13C HSQC aliphatic
2D 1H-13C HSQC aromatic
2D 1H-1H TOCSY
2D 1H-1H NOESY
3D CBCA(CO)NH
3D HNCA
3D HNCACB
3D HCCH-TOCSY
3D 1H-13C NOESY aliphatic
3D 1H-13C NOESY aromatic
3D 1H-15N NOESY
1
mM
[U-100% 15N]
1
mM
1
mM
[U-100% 15N]
1
mM
1
mM
[U-100% 13C; U-100% 15N]
1
mM
1
mM
[U-100% 13C; U-100% 15N]
1
mM
70
5.5
ambient
313
K
simulated annealing
1
lowest energy
1 mM [U-100% 15N] protein_1, 1 mM RNA (5'-R(*AP*UP*CP*AP*AP*A)-3'), 90% H2O/10% D2O
90% H2O/10% D2O
1 mM [U-100% 15N] protein_1, 1 mM RNA (5'-R(*AP*UP*CP*AP*AP*A)-3'), 100% D2O
100% D2O
1 mM [U-100% 13C; U-100% 15N] protein_1, 1 mM RNA (5'-R(*AP*UP*CP*AP*AP*A)-3'), 90% H2O/10% D2O
90% H2O/10% D2O
1 mM [U-100% 13C; U-100% 15N] protein_1, 1 mM RNA (5'-R(*AP*UP*CP*AP*AP*A)-3'), 100% D2O
100% D2O
Case, Darden, Cheatham, III, Simmerling, Wang, Duke, Luo, ... and Kollman
refinement
AMBER
500
Bruker
Avance
Bruker Avance
600
Bruker
Avance
Bruker Avance
700
Bruker
Avance
Bruker Avance
900
Bruker
Avance
Bruker Avance
MET
1
n
1
MET
1
B
VAL
2
n
2
VAL
2
B
GLU
3
n
3
GLU
3
B
ALA
4
n
4
ALA
4
B
ASP
5
n
5
ASP
5
B
ARG
6
n
6
ARG
6
B
PRO
7
n
7
PRO
7
B
GLY
8
n
8
GLY
8
B
LYS
9
n
9
LYS
9
B
LEU
10
n
10
LEU
10
B
PHE
11
n
11
PHE
11
B
ILE
12
n
12
ILE
12
B
GLY
13
n
13
GLY
13
B
GLY
14
n
14
GLY
14
B
LEU
15
n
15
LEU
15
B
ASN
16
n
16
ASN
16
B
THR
17
n
17
THR
17
B
GLU
18
n
18
GLU
18
B
THR
19
n
19
THR
19
B
ASN
20
n
20
ASN
20
B
GLU
21
n
21
GLU
21
B
LYS
22
n
22
LYS
22
B
ALA
23
n
23
ALA
23
B
LEU
24
n
24
LEU
24
B
GLU
25
n
25
GLU
25
B
ALA
26
n
26
ALA
26
B
VAL
27
n
27
VAL
27
B
PHE
28
n
28
PHE
28
B
GLY
29
n
29
GLY
29
B
LYS
30
n
30
LYS
30
B
TYR
31
n
31
TYR
31
B
GLY
32
n
32
GLY
32
B
ARG
33
n
33
ARG
33
B
ILE
34
n
34
ILE
34
B
VAL
35
n
35
VAL
35
B
GLU
36
n
36
GLU
36
B
VAL
37
n
37
VAL
37
B
LEU
38
n
38
LEU
38
B
LEU
39
n
39
LEU
39
B
MET
40
n
40
MET
40
B
LYS
41
n
41
LYS
41
B
ASP
42
n
42
ASP
42
B
ARG
43
n
43
ARG
43
B
GLU
44
n
44
GLU
44
B
THR
45
n
45
THR
45
B
ASN
46
n
46
ASN
46
B
LYS
47
n
47
LYS
47
B
SER
48
n
48
SER
48
B
ARG
49
n
49
ARG
49
B
GLY
50
n
50
GLY
50
B
PHE
51
n
51
PHE
51
B
ALA
52
n
52
ALA
52
B
PHE
53
n
53
PHE
53
B
VAL
54
n
54
VAL
54
B
THR
55
n
55
THR
55
B
PHE
56
n
56
PHE
56
B
GLU
57
n
57
GLU
57
B
SER
58
n
58
SER
58
B
PRO
59
n
59
PRO
59
B
ALA
60
n
60
ALA
60
B
ASP
61
n
61
ASP
61
B
ALA
62
n
62
ALA
62
B
LYS
63
n
63
LYS
63
B
ASP
64
n
64
ASP
64
B
ALA
65
n
65
ALA
65
B
ALA
66
n
66
ALA
66
B
ARG
67
n
67
ARG
67
B
ASP
68
n
68
ASP
68
B
MET
69
n
69
MET
69
B
ASN
70
n
70
ASN
70
B
GLY
71
n
71
GLY
71
B
LYS
72
n
72
LYS
72
B
SER
73
n
73
SER
73
B
LEU
74
n
74
LEU
74
B
ASP
75
n
75
ASP
75
B
GLY
76
n
76
GLY
76
B
LYS
77
n
77
LYS
77
B
ALA
78
n
78
ALA
78
B
ILE
79
n
79
ILE
79
B
LYS
80
n
80
LYS
80
B
VAL
81
n
81
VAL
81
B
GLU
82
n
82
GLU
82
B
GLN
83
n
83
GLN
83
B
ALA
84
n
84
ALA
84
B
THR
85
n
85
THR
85
B
LYS
86
n
86
LYS
86
B
PRO
87
n
87
PRO
87
B
SER
88
n
88
SER
88
B
PHE
89
n
89
PHE
89
B
GLU
90
n
90
GLU
90
B
SER
91
n
91
SER
91
B
GLY
92
n
92
GLY
92
B
ARG
93
n
93
ARG
93
B
ARG
94
n
94
ARG
94
B
GLY
95
n
95
GLY
95
B
A
96
n
1
A
96
A
U
97
n
2
U
97
A
C
98
n
3
C
98
A
A
99
n
4
A
99
A
A
100
n
5
A
100
A
A
101
n
6
A
101
A
author_defined_assembly
2
dimeric
1480
-7
6690
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
B
N
GLU
36
A
N
GLU
36
B
O
THR
55
A
O
THR
55
B
O
ALA
52
A
O
ALA
52
B
N
ILE
12
A
N
ILE
12
B
N
PHE
11
A
N
PHE
11
B
O
GLU
82
A
O
GLU
82
B
N
LEU
74
A
N
LEU
74
B
O
LYS
77
A
O
LYS
77
10
A
A
HO2'
OP1
A
A
100
101
1.54
1
6.18
0.70
108.50
114.68
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
2
5.59
0.70
108.50
114.09
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
3
5.75
0.70
108.50
114.25
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
3
5.57
0.70
108.50
114.07
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
4
5.68
0.70
108.50
114.18
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
4
4.42
0.70
108.50
112.92
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
5
4.65
0.70
108.50
113.15
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
5
4.63
0.70
108.50
113.13
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
6
5.35
0.70
108.50
113.85
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
7
5.90
0.70
108.50
114.40
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
8
5.20
0.70
108.50
113.70
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
9
4.85
0.70
108.50
113.35
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
9
4.33
0.70
108.50
112.83
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
9
5.58
0.70
108.50
114.08
A
A
A
O4'
C1'
N9
A
A
A
101
101
101
N
10
5.68
0.70
108.50
114.18
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
11
5.81
0.70
108.50
114.31
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
12
5.23
0.70
108.50
113.73
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
12
6.34
0.70
108.50
114.84
A
A
A
O4'
C1'
N9
A
A
A
101
101
101
N
13
5.17
0.70
108.50
113.67
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
14
4.41
0.70
108.50
112.91
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
14
5.85
0.70
108.50
114.35
A
A
A
O4'
C1'
N9
A
A
A
101
101
101
N
15
5.56
0.70
108.50
114.06
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
16
6.09
0.70
108.50
114.59
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
16
5.33
0.70
108.50
113.83
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
17
5.87
0.70
108.50
114.37
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
17
4.58
0.70
108.50
113.08
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
18
5.37
0.70
108.50
113.87
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
18
4.29
0.70
108.50
112.79
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
19
4.95
0.70
108.50
113.45
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
19
4.46
0.70
108.50
112.96
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
20
5.29
0.70
108.50
113.79
A
A
A
O4'
C1'
N9
A
A
A
99
99
99
N
20
5.78
0.70
108.50
114.28
A
A
A
O4'
C1'
N9
A
A
A
100
100
100
N
1
B
ARG
6
52.17
147.50
1
B
LYS
47
-73.66
-90.71
1
B
ASP
68
-128.74
-52.29
1
B
LYS
72
-82.23
-152.97
1
B
ARG
94
56.17
179.39
2
B
ASP
5
-51.99
-70.99
2
B
ILE
12
-119.62
76.85
2
B
LYS
47
-74.00
-106.46
2
B
ASP
68
-127.87
-52.25
2
B
LYS
72
-81.51
-154.17
2
B
ASP
75
61.53
-22.24
3
B
ARG
6
60.98
147.02
3
B
ASP
68
-129.16
-51.68
3
B
LYS
72
-81.54
-153.72
3
B
ASP
75
61.19
-21.32
3
B
SER
91
-144.17
20.20
3
B
ARG
93
49.97
-142.28
4
B
ASP
68
-130.61
-52.27
4
B
LYS
72
-80.54
-153.98
4
B
GLU
90
49.47
-169.31
4
B
ARG
94
-141.40
11.70
5
B
ARG
6
45.96
107.60
5
B
THR
17
68.76
-13.42
5
B
ASN
46
59.62
10.35
5
B
ASP
68
-128.28
-53.11
5
B
LYS
72
-81.43
-153.96
5
B
ASP
75
57.16
-2.02
6
B
ARG
6
60.70
137.75
6
B
ILE
12
-118.94
77.56
6
B
ASN
46
58.18
14.12
6
B
ASP
68
-132.28
-51.31
6
B
LEU
74
-94.77
-63.90
7
B
ARG
6
49.83
106.70
7
B
ILE
12
-119.05
77.84
7
B
ASN
46
59.00
13.24
7
B
ASP
68
-129.01
-54.20
7
B
LYS
72
-81.72
-153.72
7
B
ASP
75
61.33
-21.12
8
B
ASP
5
-74.44
48.60
8
B
ARG
6
61.30
153.02
8
B
LYS
47
-76.01
-116.55
8
B
ASP
68
-127.31
-52.91
8
B
LYS
72
-82.72
-156.94
8
B
LEU
74
-100.83
-65.99
9
B
ARG
6
46.11
102.94
9
B
ASN
46
59.61
11.71
9
B
ASP
68
-133.22
-50.96
9
B
ASP
75
62.25
-24.04
10
B
ARG
6
46.87
118.55
10
B
ASN
46
58.86
11.26
10
B
ASP
68
-132.43
-51.38
10
B
LEU
74
-94.53
-65.10
10
B
GLU
90
52.11
176.11
10
B
ARG
93
60.58
-14.20
11
B
THR
17
66.39
-13.20
11
B
ASP
68
-127.81
-53.29
11
B
LYS
72
-80.81
-154.15
11
B
ASP
75
60.98
-18.90
11
B
ARG
93
-147.71
-26.36
12
B
ARG
6
60.80
153.31
12
B
LYS
47
-72.50
-103.05
12
B
ASP
68
-127.72
-55.58
12
B
LYS
72
-82.91
-153.46
12
B
ASP
75
61.50
-23.34
12
B
ARG
93
47.01
24.60
13
B
VAL
2
-141.89
13.99
13
B
ARG
6
60.44
154.46
13
B
ILE
12
-119.90
79.05
13
B
ASP
68
-128.42
-52.05
13
B
LYS
72
-82.84
-157.38
13
B
LEU
74
-99.93
-68.32
13
B
ARG
93
56.78
165.63
14
B
ASN
46
59.21
12.94
14
B
ASP
68
-128.49
-51.75
14
B
LYS
72
-81.54
-154.53
14
B
ASP
75
60.92
-20.58
14
B
SER
91
-167.45
-3.91
15
B
LYS
47
-70.48
-109.31
15
B
ASP
68
-128.58
-52.67
15
B
LYS
72
-80.64
-153.86
15
B
ASP
75
61.05
-21.38
15
B
ARG
93
63.12
-18.10
16
B
ILE
12
-119.19
78.51
16
B
ASP
68
-131.29
-53.60
16
B
ASP
75
61.66
-23.91
17
B
LYS
47
-77.36
-111.28
17
B
ASP
68
-126.92
-55.07
17
B
LYS
72
-81.64
-153.44
17
B
SER
91
-155.59
12.55
17
B
ARG
93
58.56
161.27
18
B
ARG
6
43.39
101.60
18
B
ILE
12
-118.61
78.05
18
B
ASN
46
57.65
18.87
18
B
LYS
47
-76.65
-108.22
18
B
ASP
68
-127.19
-55.08
18
B
LEU
74
-95.73
-62.81
18
B
ARG
94
48.92
16.45
19
B
ARG
6
45.65
112.34
19
B
ASP
68
-128.92
-52.04
19
B
LYS
72
-82.54
-156.57
19
B
ASP
75
61.07
-24.50
19
B
SER
91
-148.00
14.89
20
B
LYS
47
-72.66
-105.15
20
B
ASP
68
-128.09
-53.77
20
B
LYS
72
-82.38
-157.42
20
B
LEU
74
-101.75
-65.88
20
B
SER
91
-149.00
33.79
20
B
ARG
94
53.32
-179.41
entity_1
lowest energy, model1
Solution structure of hnRNP G RRM in complex with the RNA 5'-AUCAAA-3'
1
N
N
2
N
N
B
ASN
20
A
ASN
20
HELX_P
B
GLY
29
A
GLY
29
1
1
10
B
ALA
60
A
ALA
60
HELX_P
B
ARG
67
A
ARG
67
1
2
8
SPLICING/RNA
hnRNP G, Splicing, RRM, SMN, SMA, SPLICING-RNA complex
RBMX_HUMAN
UNP
1
1
P38159
MVEADRPGKLFIGGLNTETNEKALEAVFGKYGRIVEVLLMKDRETNKSRGFAFVTFESPADAKDAARDMNGKSLDGKAIK
VEQATKPSFESGRRG
2MB0
PDB
2
2MB0
AUCAAA
1
95
2MB0
1
95
P38159
B
1
1
95
96
101
2MB0
96
101
2MB0
A
2
1
6
4
2
anti-parallel
anti-parallel
anti-parallel
anti-parallel
B
ILE
34
A
ILE
34
B
LEU
39
A
LEU
39
B
PHE
51
A
PHE
51
B
PHE
56
A
PHE
56
B
LYS
9
A
LYS
9
B
GLY
13
A
GLY
13
B
LYS
80
A
LYS
80
B
GLN
83
A
GLN
83
B
SER
73
A
SER
73
B
LEU
74
A
LEU
74
B
LYS
77
A
LYS
77
B
ALA
78
A
ALA
78