1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Leach, B.I.
Kuntimaddi, A.
Schmidt, C.R.
Cierpicki, T.
Johnson, S.A.
Bushweller, J.H.
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
C3 H7 N O2 S
121.158
y
CYSTEINE
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
Structure
STRUE6
2005
0969-2126
21
176
183
10.1016/j.str.2012.11.011
23260655
Leukemia Fusion Target AF9 Is an Intrinsically Disordered Transcriptional Regulator that Recruits Multiple Partners via Coupled Folding and Binding.
2013
14340.592
AF4/FMR2 family member 1/Protein AF-9 chimera
UNP residues 738-779, UNP residues 490-568
1
man
polymer
ALL1-fused gene from chromosome 4 protein, Protein AF-4, Protein FEL, Proto-oncogene AF4, ALL1-fused gene from chromosome 9 protein, Myeloid/lymphoid or mixed-lineage leukemia translocated to chromosome 3 protein, YEATS domain-containing protein 3
no
no
TRLPLPLRDTKLLSPLRDTPPPQSLMVKITLDLLSRIPQPPGKPMGSDKQIKNGECDKAYLDELVELHRRLMTLRERHIL
QQIVNLIEETGHFHITNTTFDFDLCSLDKTTVRKLQSYLETSGTS
TRLPLPLRDTKLLSPLRDTPPPQSLMVKITLDLLSRIPQPPGKPMGSDKQIKNGECDKAYLDELVELHRRLMTLRERHIL
QQIVNLIEETGHFHITNTTFDFDLCSLDKTTVRKLQSYLETSGTS
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
n
human
sample
Thioredoxin coding region removed by Nde1 cleavage
AFF1, AF4, FEL, MLLT2, PBM1, MLLT3, AF9, YEATS3
9606
Homo sapiens
562
Escherichia coli
Rosetta 2 DE3
pET 32a
Solution structure of the AF9 AHD fused to AF4
repository
Initial release
Database references
1
0
2013-01-09
1
1
2013-01-30
BMRB
Y
RCSB
2011-11-18
REL
REL
REL
2168
1042
306
291
529
59
57
structures with the lowest energy
100
10
2D 1H-15N HSQC
3D HCCH-TOCSY
3D HNCACB
3D CBCA(CO)NH
3D HNCO
3D 1H-15N NOESY
3D 1H-13C NOESY
3D 1H-13C NOESY
2D 1H-15N HSQC
3D HNCO IPAP
3D HNCO IPAP
3D HNCO IPAP
3D HNCO IPAP
9.3
mM
15.8
mM
100
mM
1
mM
5
%
D-99%
400
uM
[U-100% 13C; U-100% 15N]
15.8
mM
9.3
mM
100
mM
1
mM
5
%
D-99%
2
mM
[U-100% 13C; U-100% 15N]
9.3
mM
15.8
mM
100
mM
1
mM
5
%
D-99%
400
uM
[U-100% 13C; U-100% 15N]
3.5
%
3.5
%
9.3
mM
15.8
mM
100
mM
1
mM
5
%
D-99%
400
uM
[U-100% 13C; U-100% 15N]
3.5
%
3.5
%
100
6.0
ambient
298
K
Simulated annealing with RDCs
simulated annealing
1
9.3 mM Bis-Tris, 15.8 mM MES, 100 mM sodium chloride, 1 mM DTT, 5 % D-99% D2O, 400 uM [U-100% 13C; U-100% 15N] Protein, 95% H2O/5% D2O
95% H2O/5% D2O
15.8 mM MES, 9.3 mM Bis-Tris, 100 mM sodium chloride, 1 mM DTT, 5 % D-99% D2O, 2 mM [U-100% 13C; U-100% 15N] protein, 95% H2O/5% D2O
95% H2O/5% D2O
9.3 mM Bis-Tris, 15.8 mM MES, 100 mM sodium chloride, 1 mM DTT, 5 % D-99% D2O, 400 uM [U-100% 13C; U-100% 15N] Protein, 3.5 % (3-acrylamidopropyl)-trimethylammonium chloride, 3.5 % acrylic acid, 95% H2O/5% D2O
95% H2O/5% D2O
9.3 mM Bis-Tris, 15.8 mM MES, 100 mM sodium chloride, 1 mM DTT, 5 % D-99% D2O, 400 uM [U-100% 13C; U-100% 15N] Protein, 3.5 % (3-acrylamidopropyl)-trimethylammonium chloride, 3.5 % acrylamide, 95% H2O/5% D2O
95% H2O/5% D2O
Schwieters, Kuszewski, Tjandra and Clore
refinement
XPLOR-NIH
2.27
Schwieters, Kuszewski, Tjandra and Clore
structure solution
XPLOR-NIH
2.27
Bruker Biospin
collection
TOPSPIN
Delaglio, Grzesiek, Vuister, Zhu, Pfeifer and Bax
processing
NMRPipe
Goddard
peak picking
SPARKY
Guntert, Mumenthaler and Wuthrich
chemical shift assignment
CYANA
2.1
600
Bruker
Avance
Bruker Avance
800
Bruker
US2
Bruker US2
THR
1
n
1
THR
1
A
ARG
738
n
2
ARG
738
A
LEU
739
n
3
LEU
739
A
PRO
740
n
4
PRO
740
A
LEU
741
n
5
LEU
741
A
PRO
742
n
6
PRO
742
A
LEU
743
n
7
LEU
743
A
ARG
744
n
8
ARG
744
A
ASP
745
n
9
ASP
745
A
THR
746
n
10
THR
746
A
LYS
747
n
11
LYS
747
A
LEU
748
n
12
LEU
748
A
LEU
749
n
13
LEU
749
A
SER
750
n
14
SER
750
A
PRO
751
n
15
PRO
751
A
LEU
752
n
16
LEU
752
A
ARG
753
n
17
ARG
753
A
ASP
754
n
18
ASP
754
A
THR
755
n
19
THR
755
A
PRO
756
n
20
PRO
756
A
PRO
757
n
21
PRO
757
A
PRO
758
n
22
PRO
758
A
GLN
759
n
23
GLN
759
A
SER
760
n
24
SER
760
A
LEU
761
n
25
LEU
761
A
MET
762
n
26
MET
762
A
VAL
763
n
27
VAL
763
A
LYS
764
n
28
LYS
764
A
ILE
765
n
29
ILE
765
A
THR
766
n
30
THR
766
A
LEU
767
n
31
LEU
767
A
ASP
768
n
32
ASP
768
A
LEU
769
n
33
LEU
769
A
LEU
770
n
34
LEU
770
A
SER
771
n
35
SER
771
A
ARG
772
n
36
ARG
772
A
ILE
773
n
37
ILE
773
A
PRO
774
n
38
PRO
774
A
GLN
775
n
39
GLN
775
A
PRO
776
n
40
PRO
776
A
PRO
777
n
41
PRO
777
A
GLY
778
n
42
GLY
778
A
LYS
779
n
43
LYS
779
A
PRO
1000
n
44
PRO
1000
A
MET
1001
n
45
MET
1001
A
GLY
1002
n
46
GLY
1002
A
SER
1490
n
47
SER
1490
A
ASP
1491
n
48
ASP
1491
A
LYS
1492
n
49
LYS
1492
A
GLN
1493
n
50
GLN
1493
A
ILE
1494
n
51
ILE
1494
A
LYS
1495
n
52
LYS
1495
A
ASN
1496
n
53
ASN
1496
A
GLY
1497
n
54
GLY
1497
A
GLU
1498
n
55
GLU
1498
A
CYS
1499
n
56
CYS
1499
A
ASP
1500
n
57
ASP
1500
A
LYS
1501
n
58
LYS
1501
A
ALA
1502
n
59
ALA
1502
A
TYR
1503
n
60
TYR
1503
A
LEU
1504
n
61
LEU
1504
A
ASP
1505
n
62
ASP
1505
A
GLU
1506
n
63
GLU
1506
A
LEU
1507
n
64
LEU
1507
A
VAL
1508
n
65
VAL
1508
A
GLU
1509
n
66
GLU
1509
A
LEU
1510
n
67
LEU
1510
A
HIS
1511
n
68
HIS
1511
A
ARG
1512
n
69
ARG
1512
A
ARG
1513
n
70
ARG
1513
A
LEU
1514
n
71
LEU
1514
A
MET
1515
n
72
MET
1515
A
THR
1516
n
73
THR
1516
A
LEU
1517
n
74
LEU
1517
A
ARG
1518
n
75
ARG
1518
A
GLU
1519
n
76
GLU
1519
A
ARG
1520
n
77
ARG
1520
A
HIS
1521
n
78
HIS
1521
A
ILE
1522
n
79
ILE
1522
A
LEU
1523
n
80
LEU
1523
A
GLN
1524
n
81
GLN
1524
A
GLN
1525
n
82
GLN
1525
A
ILE
1526
n
83
ILE
1526
A
VAL
1527
n
84
VAL
1527
A
ASN
1528
n
85
ASN
1528
A
LEU
1529
n
86
LEU
1529
A
ILE
1530
n
87
ILE
1530
A
GLU
1531
n
88
GLU
1531
A
GLU
1532
n
89
GLU
1532
A
THR
1533
n
90
THR
1533
A
GLY
1534
n
91
GLY
1534
A
HIS
1535
n
92
HIS
1535
A
PHE
1536
n
93
PHE
1536
A
HIS
1537
n
94
HIS
1537
A
ILE
1538
n
95
ILE
1538
A
THR
1539
n
96
THR
1539
A
ASN
1540
n
97
ASN
1540
A
THR
1541
n
98
THR
1541
A
THR
1542
n
99
THR
1542
A
PHE
1543
n
100
PHE
1543
A
ASP
1544
n
101
ASP
1544
A
PHE
1545
n
102
PHE
1545
A
ASP
1546
n
103
ASP
1546
A
LEU
1547
n
104
LEU
1547
A
CYS
1548
n
105
CYS
1548
A
SER
1549
n
106
SER
1549
A
LEU
1550
n
107
LEU
1550
A
ASP
1551
n
108
ASP
1551
A
LYS
1552
n
109
LYS
1552
A
THR
1553
n
110
THR
1553
A
THR
1554
n
111
THR
1554
A
VAL
1555
n
112
VAL
1555
A
ARG
1556
n
113
ARG
1556
A
LYS
1557
n
114
LYS
1557
A
LEU
1558
n
115
LEU
1558
A
GLN
1559
n
116
GLN
1559
A
SER
1560
n
117
SER
1560
A
TYR
1561
n
118
TYR
1561
A
LEU
1562
n
119
LEU
1562
A
GLU
1563
n
120
GLU
1563
A
THR
1564
n
121
THR
1564
A
SER
1565
n
122
SER
1565
A
GLY
1566
n
123
GLY
1566
A
THR
1567
n
124
THR
1567
A
SER
1568
n
125
SER
1568
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
VAL
763
A
N
VAL
27
A
O
PHE
1545
A
O
PHE
102
A
O
ASP
1544
A
O
ASP
101
A
N
HIS
1537
A
N
HIS
94
1
A
A
HE2
HG
HIS
SER
1535
1549
1.23
1
A
A
O
H
ILE
THR
1530
1533
1.53
2
A
A
O
H
LEU
LEU
767
770
1.57
3
A
A
HG1
H
THR
GLY
1533
1534
1.29
5
A
A
O
H
HIS
LEU
1521
1523
1.48
5
A
A
O
H
ILE
THR
1530
1533
1.53
5
A
A
O
H
ALA
ASP
1502
1505
1.56
1
A
LEU
743
-171.86
118.02
1
A
LYS
747
-69.51
-141.87
1
A
SER
750
-48.43
164.01
1
A
PRO
751
-40.12
107.80
1
A
LEU
752
-45.19
103.80
1
A
THR
755
31.09
69.24
1
A
PRO
757
-38.59
155.69
1
A
PRO
758
-71.26
-164.46
1
A
SER
760
-150.32
-124.98
1
A
THR
766
-35.14
134.24
1
A
LEU
769
-82.54
37.40
1
A
SER
771
84.42
-56.32
1
A
MET
1001
56.02
113.45
1
A
SER
1490
-67.19
-161.24
1
A
ASP
1491
-162.89
-6.49
1
A
GLN
1493
54.93
82.43
1
A
ASN
1496
-71.82
-166.90
1
A
CYS
1499
55.48
163.00
1
A
LYS
1501
-141.57
-103.67
1
A
ALA
1502
-165.53
-36.76
1
A
TYR
1503
-39.48
-27.52
1
A
ARG
1512
-64.86
-70.56
1
A
THR
1516
-91.66
46.94
1
A
ARG
1518
-154.36
67.68
1
A
ARG
1520
48.64
-178.56
1
A
HIS
1521
72.89
-33.47
1
A
HIS
1535
111.12
29.84
1
A
ASN
1540
-69.65
3.72
1
A
ASP
1551
-46.25
154.89
1
A
SER
1565
-59.14
-91.62
1
A
THR
1567
-50.19
175.33
2
A
LEU
739
48.93
70.66
2
A
PRO
740
-48.87
165.70
2
A
PRO
742
-68.11
-164.57
2
A
LEU
743
-149.59
-65.90
2
A
ASP
745
-166.63
116.96
2
A
THR
746
-76.42
-115.14
2
A
LEU
748
-78.50
-85.49
2
A
LEU
749
-171.58
84.23
2
A
SER
750
179.74
-46.01
2
A
THR
755
58.30
146.52
2
A
PRO
757
-39.21
102.32
2
A
SER
760
-154.87
-133.85
2
A
THR
766
-48.18
161.98
2
A
PRO
777
-48.18
-174.47
2
A
LYS
779
-158.85
77.59
2
A
PRO
1000
-51.23
-167.11
2
A
MET
1001
-150.73
-44.93
2
A
ILE
1494
48.78
84.06
2
A
ASP
1500
69.43
-21.62
2
A
LYS
1501
69.63
-35.25
2
A
ARG
1512
-65.70
-70.66
2
A
ARG
1513
-37.92
-29.91
2
A
MET
1515
-60.82
76.47
2
A
THR
1516
55.84
83.86
2
A
LEU
1517
-65.86
-82.00
2
A
ARG
1518
-153.04
-41.94
2
A
HIS
1521
-150.93
6.11
2
A
THR
1533
-69.53
-80.16
2
A
HIS
1535
77.99
52.16
2
A
ASN
1540
-68.88
3.44
2
A
SER
1549
-134.43
-36.04
2
A
ASP
1551
-46.90
153.17
2
A
GLU
1563
-175.43
47.75
2
A
SER
1565
60.04
-153.07
2
A
THR
1567
-63.91
-82.39
3
A
PRO
740
-56.74
-71.29
3
A
PRO
742
-54.55
106.67
3
A
LEU
743
-158.12
-61.74
3
A
ASP
745
-66.80
91.56
3
A
THR
746
-161.82
9.02
3
A
LEU
749
-76.64
-138.00
3
A
SER
750
-177.33
-47.08
3
A
LEU
752
71.29
96.62
3
A
ARG
753
-143.84
-4.19
3
A
THR
755
59.17
72.56
3
A
GLN
759
58.76
-101.16
3
A
SER
760
44.45
-138.19
3
A
ASP
768
-57.31
-5.58
3
A
PRO
776
-42.04
107.74
3
A
LYS
779
42.37
79.64
3
A
PRO
1000
-78.16
27.97
3
A
MET
1001
31.10
-121.94
3
A
GLN
1493
54.31
-103.08
3
A
ILE
1494
-48.80
160.34
3
A
LYS
1495
-147.67
-69.40
3
A
ASN
1496
49.36
104.07
3
A
CYS
1499
56.64
114.44
3
A
ASP
1500
-142.20
-72.55
3
A
LYS
1501
54.33
-83.34
3
A
ALA
1502
-160.63
-11.96
3
A
ARG
1512
-64.89
-71.03
3
A
LEU
1517
58.06
-97.38
3
A
ARG
1520
-176.50
67.14
3
A
HIS
1521
-174.50
-17.62
3
A
THR
1533
-59.81
-97.78
3
A
ASN
1540
-67.38
1.92
3
A
ASP
1551
-46.09
155.24
3
A
SER
1560
-53.51
-72.11
3
A
GLU
1563
-69.74
-88.33
3
A
THR
1564
50.97
74.72
3
A
SER
1565
-155.61
84.47
4
A
ARG
738
-155.59
88.96
4
A
LEU
739
-157.70
50.68
4
A
LEU
741
-150.11
60.15
4
A
LEU
743
43.88
89.21
4
A
ARG
744
55.90
111.64
4
A
THR
746
-93.15
-80.80
4
A
LYS
747
52.99
97.86
4
A
LEU
749
-85.38
44.00
4
A
SER
750
-49.39
151.01
4
A
LEU
752
-103.73
73.62
4
A
ARG
753
54.09
104.92
4
A
GLN
759
60.92
74.98
4
A
SER
760
-137.03
-127.23
4
A
THR
766
-37.15
102.05
4
A
SER
771
76.75
-76.71
4
A
PRO
1000
-70.67
-164.59
4
A
ASP
1491
-170.78
106.30
4
A
LYS
1492
57.48
143.34
4
A
GLN
1493
-151.12
-36.74
4
A
ILE
1494
55.51
111.43
4
A
LYS
1495
-68.17
-152.95
4
A
ASN
1496
41.13
92.45
4
A
GLU
1498
53.49
-174.02
4
A
CYS
1499
-150.13
-159.38
4
A
ASP
1500
-172.34
76.84
4
A
ALA
1502
71.17
-28.42
4
A
LEU
1504
-44.96
-16.64
4
A
THR
1516
-82.51
49.02
4
A
LEU
1517
-49.40
177.18
4
A
ARG
1518
-165.97
25.22
4
A
GLU
1519
-172.02
145.49
4
A
ARG
1520
-100.68
-165.96
4
A
HIS
1521
70.44
-21.90
4
A
THR
1533
-54.10
-98.48
4
A
ASN
1540
-69.90
5.13
4
A
SER
1560
-52.52
-72.26
5
A
PRO
740
-38.51
155.71
5
A
LEU
741
171.55
-52.25
5
A
LEU
743
-74.33
46.54
5
A
LYS
747
54.29
174.51
5
A
LEU
748
-50.64
-75.67
5
A
PRO
751
-40.24
168.52
5
A
THR
755
-153.06
75.40
5
A
PRO
756
-49.85
156.68
5
A
SER
760
-163.55
-89.55
5
A
THR
766
-40.38
163.41
5
A
SER
771
86.52
-41.74
5
A
PRO
777
-40.81
163.78
5
A
LYS
779
-171.80
51.77
5
A
PRO
1000
-69.85
-167.55
5
A
SER
1490
50.21
-169.00
5
A
ASP
1491
-159.62
-53.30
5
A
LYS
1492
54.16
103.66
5
A
GLN
1493
-172.28
146.20
5
A
CYS
1499
-167.85
-107.33
5
A
ASP
1500
-165.19
53.74
5
A
ALA
1502
72.03
-36.72
5
A
ARG
1512
-66.49
-72.90
5
A
MET
1515
-64.33
78.10
5
A
THR
1516
50.45
83.34
5
A
LEU
1517
-64.25
-76.09
5
A
ARG
1518
-171.31
-57.05
5
A
ARG
1520
-71.13
-151.32
5
A
HIS
1521
46.95
-172.87
5
A
ILE
1522
64.11
-41.13
5
A
ASN
1540
-68.35
0.88
5
A
GLU
1563
-92.55
-96.10
5
A
THR
1564
-176.76
-69.70
5
A
SER
1565
-170.29
-60.21
5
A
THR
1567
55.54
-83.44
6
A
ARG
738
-52.27
-84.09
6
A
LEU
739
-46.17
109.33
6
A
PRO
740
-45.22
161.71
6
A
LEU
743
-58.52
-73.91
6
A
ARG
744
-53.85
88.89
6
A
ASP
745
-76.36
-90.29
6
A
THR
746
-165.93
115.16
6
A
LYS
747
-145.18
-76.68
6
A
LEU
748
50.28
11.38
6
A
SER
750
-169.44
-62.94
6
A
PRO
751
-58.15
-78.73
6
A
LEU
752
56.47
116.99
6
A
ARG
753
-152.97
19.22
6
A
ASP
754
53.84
102.57
6
A
PRO
756
-49.28
108.37
6
A
PRO
757
-47.65
156.49
6
A
GLN
759
-160.07
40.37
6
A
THR
766
-37.23
113.21
6
A
LEU
769
-94.68
41.46
6
A
SER
771
-10.87
-94.84
6
A
PRO
774
-47.49
-178.50
6
A
PRO
777
-75.28
-92.73
6
A
LYS
779
-174.07
56.50
6
A
PRO
1000
-69.21
11.60
6
A
MET
1001
49.12
97.05
6
A
ASP
1491
-172.36
121.42
6
A
GLN
1493
63.18
119.09
6
A
ILE
1494
-103.84
63.25
6
A
CYS
1499
-70.41
-88.43
6
A
ALA
1502
-169.88
-33.17
6
A
ARG
1512
-65.65
-72.18
6
A
ARG
1513
-39.95
-24.50
6
A
ARG
1518
-140.01
-127.00
6
A
GLU
1519
51.04
100.02
6
A
ARG
1520
-68.76
-165.04
6
A
HIS
1521
73.73
-28.62
6
A
THR
1533
-57.34
-115.48
6
A
ASN
1540
-68.24
3.67
6
A
ASP
1551
-40.97
150.73
6
A
SER
1565
-159.01
-72.16
7
A
ARG
738
56.40
173.89
7
A
PRO
740
-49.60
-70.05
7
A
LEU
741
43.97
70.09
7
A
PRO
742
-48.55
-73.43
7
A
LEU
743
39.28
38.86
7
A
ARG
744
-44.44
-18.05
7
A
ASP
745
-45.35
168.86
7
A
THR
746
60.71
147.84
7
A
SER
750
-171.38
75.74
7
A
ARG
753
-170.64
-51.34
7
A
ASP
754
-110.03
-161.46
7
A
SER
760
52.12
-169.16
7
A
THR
766
-37.15
109.74
7
A
LEU
767
-67.95
5.73
7
A
SER
771
-15.21
-89.89
7
A
PRO
774
-44.57
176.29
7
A
PRO
777
-54.22
-166.42
7
A
PRO
1000
-67.11
-162.53
7
A
MET
1001
-150.01
62.05
7
A
SER
1490
-159.59
59.62
7
A
ASP
1491
-153.57
45.09
7
A
ILE
1494
-173.11
139.90
7
A
CYS
1499
-149.75
58.71
7
A
ASP
1500
-170.32
50.99
7
A
LYS
1501
-88.34
-86.04
7
A
ALA
1502
71.11
-37.24
7
A
MET
1515
-63.32
-70.66
7
A
ARG
1518
-169.33
37.22
7
A
GLU
1519
-47.43
174.50
7
A
HIS
1521
71.01
-13.79
7
A
THR
1533
-58.57
-113.85
7
A
HIS
1535
-118.91
59.88
7
A
ASP
1551
-48.98
159.61
7
A
THR
1564
45.15
86.92
7
A
SER
1565
-41.35
152.14
8
A
ARG
738
46.39
20.48
8
A
LEU
741
-160.52
63.40
8
A
PRO
742
-72.94
-164.75
8
A
ARG
744
53.44
-133.30
8
A
THR
746
-167.21
87.45
8
A
LEU
748
-69.97
9.21
8
A
ASP
754
-168.42
104.36
8
A
SER
760
-157.12
-153.70
8
A
ASP
768
-58.92
1.09
8
A
SER
771
-113.62
-92.38
8
A
PRO
777
-77.28
-92.15
8
A
LYS
779
-168.13
65.83
8
A
SER
1490
-164.96
-89.85
8
A
ASP
1491
-65.71
-157.55
8
A
LYS
1492
-147.70
-72.81
8
A
GLN
1493
-170.87
-37.88
8
A
ILE
1494
55.92
102.36
8
A
LYS
1495
-58.25
-167.14
8
A
ASN
1496
-50.61
170.02
8
A
CYS
1499
-87.63
-118.54
8
A
ASP
1500
-113.15
-123.90
8
A
LYS
1501
-52.49
94.40
8
A
ALA
1502
-169.61
-45.80
8
A
ARG
1518
-164.50
-52.09
8
A
GLU
1519
59.52
-9.35
8
A
ARG
1520
56.02
158.83
8
A
HIS
1521
73.16
-17.01
8
A
THR
1533
-56.68
-116.37
8
A
ASP
1551
-42.64
156.55
8
A
SER
1560
-52.09
-73.27
8
A
SER
1565
-82.20
-110.35
8
A
THR
1567
-145.36
-15.02
9
A
ARG
738
-70.61
-137.18
9
A
LEU
739
-166.17
71.87
9
A
LEU
741
-178.98
-43.54
9
A
ARG
744
-43.18
95.77
9
A
ASP
745
-74.30
-80.72
9
A
THR
746
-109.42
74.84
9
A
LEU
748
-60.36
77.35
9
A
LEU
749
-142.49
-8.58
9
A
SER
750
52.63
76.59
9
A
ARG
753
57.63
160.80
9
A
SER
760
59.06
-132.82
9
A
ASP
768
-52.05
-8.89
9
A
SER
771
84.41
-65.49
9
A
LYS
779
-154.53
78.49
9
A
ASP
1491
-164.55
-116.91
9
A
LYS
1492
59.54
117.82
9
A
LYS
1495
-161.71
71.40
9
A
ALA
1502
71.39
-65.13
9
A
ARG
1512
-64.14
-70.63
9
A
ARG
1513
-45.70
-19.73
9
A
THR
1516
-39.60
-32.11
9
A
GLU
1519
60.93
152.90
9
A
ARG
1520
-169.74
113.30
9
A
HIS
1521
68.85
-12.32
9
A
THR
1533
-60.35
-93.50
9
A
ASN
1540
-68.20
3.10
9
A
ASP
1551
-47.23
156.04
9
A
SER
1560
-48.84
-70.92
9
A
GLU
1563
-64.47
76.62
10
A
LEU
739
-21.48
86.52
10
A
PRO
740
-57.62
66.51
10
A
LEU
741
36.85
78.37
10
A
ARG
744
49.74
82.72
10
A
THR
746
-78.46
-96.92
10
A
LYS
747
59.78
131.15
10
A
PRO
751
-50.27
-178.58
10
A
ARG
753
-78.49
22.58
10
A
GLN
759
-63.78
-78.55
10
A
SER
760
60.14
-155.10
10
A
LEU
769
-67.48
3.34
10
A
PRO
776
-36.75
99.83
10
A
PRO
777
-54.52
-163.58
10
A
LYS
779
-40.43
106.09
10
A
ASN
1496
-168.36
-153.65
10
A
CYS
1499
-173.98
142.38
10
A
ASP
1500
-164.79
-59.95
10
A
LYS
1501
-52.40
-173.10
10
A
ALA
1502
74.43
-66.56
10
A
ARG
1512
-66.65
-75.00
10
A
ARG
1513
-45.79
-13.89
10
A
THR
1516
-79.87
-90.12
10
A
LEU
1517
59.08
112.98
10
A
GLU
1519
-136.71
-158.32
10
A
HIS
1521
71.12
-2.57
10
A
THR
1533
-76.64
-99.10
10
A
HIS
1535
75.00
51.65
10
A
CYS
1548
-67.81
8.55
10
A
SER
1549
-144.05
-37.85
10
A
SER
1560
-42.08
-75.70
10
A
LEU
1562
-65.28
-72.83
10
A
GLU
1563
-164.54
98.66
N
AF4/FMR2 family member 1/Protein AF-9 chimera
lowest energy, model 1
Solution structure of the AF4-AF9 complex
1
N
N
A
TYR
1503
A
TYR
60
HELX_P
A
THR
1516
A
THR
73
1
1
14
A
ILE
1522
A
ILE
79
HELX_P
A
GLU
1532
A
GLU
89
1
2
11
A
ASP
1551
A
ASP
108
HELX_P
A
LEU
1562
A
LEU
119
1
3
12
NUCLEAR PROTEIN
Intrinsically Disordered, NUCLEAR PROTEIN
AFF1_HUMAN
UNP
1
738
P51825
RLPLPLRDTKLLSPLRDTPPPQSLMVKITLDLLSRIPQPPGK
AF9_HUMAN
UNP
1
490
P42568
SDKQIKNGECDKAYLDELVELHRRLMTLRERHILQQIVNLIEETGHFHITNTTFDFDLCSLDKTTVRKLQSYLETSGTS
738
779
2LM0
738
779
P51825
A
1
2
43
490
568
2LM0
1490
1568
P42568
A
2
47
125
1
EXPRESSION TAG
THR
1
2LM0
A
P51825
UNP
1
1
LINKER
PRO
1000
2LM0
A
P51825
UNP
44
1
LINKER
MET
1001
2LM0
A
P51825
UNP
45
1
LINKER
GLY
1002
2LM0
A
P51825
UNP
46
3
anti-parallel
anti-parallel
A
VAL
763
A
VAL
27
A
LYS
764
A
LYS
28
A
PHE
1543
A
PHE
100
A
PHE
1545
A
PHE
102
A
PHE
1536
A
PHE
93
A
ILE
1538
A
ILE
95