1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Truffault, V.
Diercks, T.
Ab, E.
De Jong, R.N.
Daniels, M.A.
Kaptein, R.
Folkers, G.E.
Structural Proteomics in Europe (SPINE)
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
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
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
UK
Structure
STRUE6
2005
0969-2126
16
149
10.1016/J.STR.2007.10.018
18184592
Structure and DNA Binding of the Human Rtf1 Plus3 Domain.
2008
10.2210/pdb2bze/pdb
pdb_00002bze
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
17567.150
KIAA0252 PROTEIN
PLUS3, RESIDUES 228-359
1
man
polymer
RFT1 PLUS3 DOMAIN
no
no
MGSSHHHHHHSSGLVPRGSHMVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVET
AKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALN
MGSSHHHHHHSSGLVPRGSHMVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVET
AKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALN
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
n
n
n
n
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
SELF MADE CDNA LIBRARY OF MULTIPLE HUMAN CARCINOMA CELL LINES
9606
HOMO SAPIENS
469008
ESCHERICHIA COLI
BL21(DE3)
RIL
PET15B
pdbx_database_status
pdbx_nmr_software
database_2
pdbx_database_status
repository
Initial release
Version format compliance
Version format compliance
Structure summary
Data collection
Other
Database references
Other
1
0
2007-01-03
1
1
2011-05-08
1
2
2011-07-13
1
3
2017-05-24
1
4
2020-01-15
1
5
2023-06-14
_pdbx_database_status.status_code_cs
_pdbx_database_status.status_code_mr
_pdbx_nmr_software.name
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.status_code_nmr_data
PDBE
Y
PDBE
2005-08-16
REL
REL
REL
REL
NONE
LOW ENERGY
100
25
HNCO
HNH-NOESY
HCH-NOESY
CNH-NOESY
HH-NOESY
HNCACO
HNCACB
CBCACONH
HNCA
HBHACONH
HNCAHA
CCH-COSY
HCCH-TOCSY
200
mM
6.0
pH
1.0
atm
298.0
K
WATER REFINEMENT ACCORDING TO RECORD PROTOCOL
torsion angle dynamics
1
90% WATER/10% D2O
BRUNGER,ADAMS,CLORE,DELANO,GROS, GROSSE- KUNSTLEVE,JIANG,KUSZEWSKI,NILGES, PANNU,READ, RICE,SIMONSON,WARREN
refinement
CNS
structure solution
Sparky
structure solution
CYANA
700
Bruker
DMX
MET
-21
n
1
MET
-21
A
GLY
-20
n
2
GLY
-20
A
SER
-19
n
3
SER
-19
A
SER
-18
n
4
SER
-18
A
HIS
-17
n
5
HIS
-17
A
HIS
-16
n
6
HIS
-16
A
HIS
-15
n
7
HIS
-15
A
HIS
-14
n
8
HIS
-14
A
HIS
-13
n
9
HIS
-13
A
HIS
-12
n
10
HIS
-12
A
SER
-11
n
11
SER
-11
A
SER
-10
n
12
SER
-10
A
GLY
-9
n
13
GLY
-9
A
LEU
-8
n
14
LEU
-8
A
VAL
-7
n
15
VAL
-7
A
PRO
-6
n
16
PRO
-6
A
ARG
-5
n
17
ARG
-5
A
GLY
-4
n
18
GLY
-4
A
SER
-3
n
19
SER
-3
A
HIS
-2
n
20
HIS
-2
A
MET
-1
n
21
MET
-1
A
VAL
345
n
22
VAL
345
A
SER
346
n
23
SER
346
A
LEU
347
n
24
LEU
347
A
PRO
348
n
25
PRO
348
A
GLU
349
n
26
GLU
349
A
GLU
350
n
27
GLU
350
A
LEU
351
n
28
LEU
351
A
ASN
352
n
29
ASN
352
A
ARG
353
n
30
ARG
353
A
VAL
354
n
31
VAL
354
A
ARG
355
n
32
ARG
355
A
LEU
356
n
33
LEU
356
A
SER
357
n
34
SER
357
A
ARG
358
n
35
ARG
358
A
HIS
359
n
36
HIS
359
A
LYS
360
n
37
LYS
360
A
LEU
361
n
38
LEU
361
A
GLU
362
n
39
GLU
362
A
ARG
363
n
40
ARG
363
A
TRP
364
n
41
TRP
364
A
CYS
365
n
42
CYS
365
A
HIS
366
n
43
HIS
366
A
MET
367
n
44
MET
367
A
PRO
368
n
45
PRO
368
A
PHE
369
n
46
PHE
369
A
PHE
370
n
47
PHE
370
A
ALA
371
n
48
ALA
371
A
LYS
372
n
49
LYS
372
A
THR
373
n
50
THR
373
A
VAL
374
n
51
VAL
374
A
THR
375
n
52
THR
375
A
GLY
376
n
53
GLY
376
A
CYS
377
n
54
CYS
377
A
PHE
378
n
55
PHE
378
A
VAL
379
n
56
VAL
379
A
ARG
380
n
57
ARG
380
A
ILE
381
n
58
ILE
381
A
GLY
382
n
59
GLY
382
A
ILE
383
n
60
ILE
383
A
GLY
384
n
61
GLY
384
A
ASN
385
n
62
ASN
385
A
HIS
386
n
63
HIS
386
A
ASN
387
n
64
ASN
387
A
SER
388
n
65
SER
388
A
LYS
389
n
66
LYS
389
A
PRO
390
n
67
PRO
390
A
VAL
391
n
68
VAL
391
A
TYR
392
n
69
TYR
392
A
ARG
393
n
70
ARG
393
A
VAL
394
n
71
VAL
394
A
ALA
395
n
72
ALA
395
A
GLU
396
n
73
GLU
396
A
ILE
397
n
74
ILE
397
A
THR
398
n
75
THR
398
A
GLY
399
n
76
GLY
399
A
VAL
400
n
77
VAL
400
A
VAL
401
n
78
VAL
401
A
GLU
402
n
79
GLU
402
A
THR
403
n
80
THR
403
A
ALA
404
n
81
ALA
404
A
LYS
405
n
82
LYS
405
A
VAL
406
n
83
VAL
406
A
TYR
407
n
84
TYR
407
A
GLN
408
n
85
GLN
408
A
LEU
409
n
86
LEU
409
A
GLY
410
n
87
GLY
410
A
GLY
411
n
88
GLY
411
A
THR
412
n
89
THR
412
A
ARG
413
n
90
ARG
413
A
THR
414
n
91
THR
414
A
ASN
415
n
92
ASN
415
A
LYS
416
n
93
LYS
416
A
GLY
417
n
94
GLY
417
A
LEU
418
n
95
LEU
418
A
GLN
419
n
96
GLN
419
A
LEU
420
n
97
LEU
420
A
ARG
421
n
98
ARG
421
A
HIS
422
n
99
HIS
422
A
GLY
423
n
100
GLY
423
A
ASN
424
n
101
ASN
424
A
ASP
425
n
102
ASP
425
A
GLN
426
n
103
GLN
426
A
ARG
427
n
104
ARG
427
A
VAL
428
n
105
VAL
428
A
PHE
429
n
106
PHE
429
A
ARG
430
n
107
ARG
430
A
LEU
431
n
108
LEU
431
A
GLU
432
n
109
GLU
432
A
PHE
433
n
110
PHE
433
A
VAL
434
n
111
VAL
434
A
SER
435
n
112
SER
435
A
ASN
436
n
113
ASN
436
A
GLN
437
n
114
GLN
437
A
GLU
438
n
115
GLU
438
A
PHE
439
n
116
PHE
439
A
THR
440
n
117
THR
440
A
GLU
441
n
118
GLU
441
A
SER
442
n
119
SER
442
A
GLU
443
n
120
GLU
443
A
PHE
444
n
121
PHE
444
A
MET
445
n
122
MET
445
A
LYS
446
n
123
LYS
446
A
TRP
447
n
124
TRP
447
A
LYS
448
n
125
LYS
448
A
GLU
449
n
126
GLU
449
A
ALA
450
n
127
ALA
450
A
MET
451
n
128
MET
451
A
PHE
452
n
129
PHE
452
A
SER
453
n
130
SER
453
A
ALA
454
n
131
ALA
454
A
GLY
455
n
132
GLY
455
A
MET
456
n
133
MET
456
A
GLN
457
n
134
GLN
457
A
LEU
458
n
135
LEU
458
A
PRO
459
n
136
PRO
459
A
THR
460
n
137
THR
460
A
LEU
461
n
138
LEU
461
A
ASP
462
n
139
ASP
462
A
GLU
463
n
140
GLU
463
A
ILE
464
n
141
ILE
464
A
ASN
465
n
142
ASN
465
A
LYS
466
n
143
LYS
466
A
LYS
467
n
144
LYS
467
A
GLU
468
n
145
GLU
468
A
LEU
469
n
146
LEU
469
A
SER
470
n
147
SER
470
A
ILE
471
n
148
ILE
471
A
LYS
472
n
149
LYS
472
A
GLU
473
n
150
GLU
473
A
ALA
474
n
151
ALA
474
A
LEU
475
n
152
LEU
475
A
ASN
476
n
153
ASN
476
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
LEU
356
A
N
LEU
33
A
O
PHE
378
A
O
PHE
55
A
N
ILE
381
A
N
ILE
58
A
O
ARG
393
A
O
ARG
70
A
N
LEU
409
A
N
LEU
86
A
O
THR
412
A
O
THR
89
A
N
LEU
420
A
N
LEU
97
A
O
ARG
427
A
O
ARG
104
1
A
O
ASN
476
A
O
ASN
153
1
Y
2
A
O
ASN
476
A
O
ASN
153
1
Y
3
A
O
ASN
476
A
O
ASN
153
1
Y
4
A
O
ASN
476
A
O
ASN
153
1
Y
5
A
O
ASN
476
A
O
ASN
153
1
Y
6
A
O
ASN
476
A
O
ASN
153
1
Y
7
A
O
ASN
476
A
O
ASN
153
1
Y
8
A
O
ASN
476
A
O
ASN
153
1
Y
9
A
O
ASN
476
A
O
ASN
153
1
Y
10
A
O
ASN
476
A
O
ASN
153
1
Y
11
A
O
ASN
476
A
O
ASN
153
1
Y
12
A
O
ASN
476
A
O
ASN
153
1
Y
13
A
O
ASN
476
A
O
ASN
153
1
Y
14
A
O
ASN
476
A
O
ASN
153
1
Y
15
A
O
ASN
476
A
O
ASN
153
1
Y
16
A
O
ASN
476
A
O
ASN
153
1
Y
17
A
O
ASN
476
A
O
ASN
153
1
Y
18
A
O
ASN
476
A
O
ASN
153
1
Y
19
A
O
ASN
476
A
O
ASN
153
1
Y
20
A
O
ASN
476
A
O
ASN
153
1
Y
21
A
O
ASN
476
A
O
ASN
153
1
Y
22
A
O
ASN
476
A
O
ASN
153
1
Y
23
A
O
ASN
476
A
O
ASN
153
1
Y
24
A
O
ASN
476
A
O
ASN
153
1
Y
25
A
O
ASN
476
A
O
ASN
153
1
Y
5
A
A
HH21
OE1
ARG
GLU
358
362
1.59
7
A
A
O
HG1
ALA
THR
371
375
1.59
11
A
A
OE1
HZ2
GLU
LYS
443
446
1.58
14
A
A
HH11
OE1
ARG
GLU
353
468
1.60
16
A
A
O
HG1
ALA
THR
371
375
1.59
16
A
A
OE2
HZ2
GLU
LYS
443
446
1.60
16
A
A
HZ2
OE1
LYS
GLU
389
443
1.60
20
A
A
OE2
HZ2
GLU
LYS
463
466
1.59
24
A
A
O
HG1
ALA
THR
371
375
1.60
1
A
A
GLY
GLY
410
411
-146.12
2
A
A
GLY
GLY
410
411
-142.07
3
A
A
GLY
GLY
410
411
-147.75
4
A
A
GLY
GLY
410
411
-147.05
5
A
A
GLY
GLY
410
411
-144.42
6
A
A
GLY
GLY
410
411
-148.10
7
A
A
GLY
GLY
410
411
-145.03
8
A
A
GLY
GLY
410
411
-139.26
9
A
A
GLY
GLY
410
411
-146.68
10
A
A
GLY
GLY
410
411
-146.33
11
A
A
GLY
GLY
410
411
-142.30
12
A
A
GLY
GLY
410
411
-148.03
13
A
A
GLY
GLY
410
411
-149.65
14
A
A
GLY
GLY
410
411
-146.22
15
A
A
GLY
GLY
410
411
-145.73
16
A
A
GLY
GLY
410
411
-140.03
17
A
A
GLY
GLY
410
411
-145.39
18
A
A
GLY
GLY
410
411
-144.07
19
A
A
GLY
GLY
410
411
-148.04
20
A
A
GLY
GLY
410
411
-146.90
21
A
A
GLY
GLY
410
411
-147.65
23
A
A
GLY
GLY
410
411
-145.73
24
A
A
GLY
GLY
410
411
-147.04
25
A
A
GLY
GLY
410
411
-147.43
3
A
ARG
353
0.090
SIDE CHAIN
3
A
ARG
421
0.076
SIDE CHAIN
4
A
ARG
353
0.078
SIDE CHAIN
4
A
ARG
421
0.077
SIDE CHAIN
4
A
ARG
427
0.080
SIDE CHAIN
5
A
ARG
353
0.077
SIDE CHAIN
7
A
ARG
353
0.084
SIDE CHAIN
9
A
ARG
353
0.085
SIDE CHAIN
10
A
ARG
380
0.122
SIDE CHAIN
10
A
ARG
421
0.094
SIDE CHAIN
11
A
ARG
353
0.080
SIDE CHAIN
13
A
ARG
380
0.092
SIDE CHAIN
16
A
ARG
353
0.078
SIDE CHAIN
16
A
ARG
363
0.073
SIDE CHAIN
18
A
ARG
427
0.132
SIDE CHAIN
19
A
ARG
-5
0.093
SIDE CHAIN
22
A
ARG
421
0.074
SIDE CHAIN
23
A
ARG
380
0.092
SIDE CHAIN
24
A
ARG
421
0.072
SIDE CHAIN
25
A
ARG
353
0.079
SIDE CHAIN
25
A
ARG
427
0.093
SIDE CHAIN
7
3.75
0.60
121.00
124.75
A
A
A
CB
CG
CD2
TYR
TYR
TYR
407
407
407
N
7
-4.54
0.60
121.00
116.46
A
A
A
CB
CG
CD1
TYR
TYR
TYR
407
407
407
N
23
-4.46
0.60
121.00
116.54
A
A
A
CB
CG
CD1
TYR
TYR
TYR
407
407
407
N
7
A
A
CG
CD1
TYR
TYR
407
407
-0.083
0.013
1.387
1.304
N
15
A
A
N
CA
THR
THR
412
412
-0.124
0.020
1.459
1.335
N
23
A
A
CG
CD1
TYR
TYR
407
407
-0.085
0.013
1.387
1.302
N
1
A
HIS
-17
70.34
-175.67
1
A
ARG
-5
61.56
-80.79
1
A
PRO
368
-60.51
-164.94
1
A
PHE
369
-58.44
80.41
1
A
HIS
386
173.73
-38.57
1
A
SER
388
69.36
-61.68
1
A
PRO
390
-66.44
87.42
1
A
ASN
415
-110.41
51.93
2
A
HIS
-16
72.17
-37.39
2
A
HIS
-14
62.78
-82.47
2
A
HIS
-12
-84.68
-76.72
2
A
SER
-3
-170.79
-29.03
2
A
PRO
368
-76.88
-165.10
2
A
HIS
386
-165.24
-51.60
2
A
SER
388
-155.81
-39.51
2
A
ASN
415
-105.41
50.19
3
A
HIS
-15
-142.01
-77.96
3
A
SER
-10
73.22
-56.71
3
A
HIS
-2
-177.70
-173.25
3
A
PRO
368
-63.45
-165.61
3
A
HIS
386
-103.38
-162.59
3
A
ASN
415
-98.76
52.76
4
A
SER
-18
70.74
-3.63
4
A
HIS
-17
71.21
171.58
4
A
HIS
-12
56.60
84.02
4
A
MET
-1
60.21
173.60
4
A
PRO
368
-67.19
-165.01
4
A
PHE
369
-58.99
104.33
4
A
ASN
387
-101.09
-157.90
4
A
ASN
415
-103.09
51.11
5
A
SER
-18
-150.07
-67.21
5
A
HIS
-17
60.77
79.75
5
A
HIS
-13
68.63
66.40
5
A
HIS
-12
-156.62
19.17
5
A
SER
-11
-61.66
81.08
5
A
SER
-10
157.07
88.23
5
A
SER
-3
-67.45
0.41
5
A
MET
-1
63.51
156.39
5
A
HIS
366
175.12
-25.81
5
A
PRO
368
-65.20
-166.38
5
A
ILE
383
-116.41
78.44
5
A
ASN
415
-102.18
63.98
6
A
HIS
-16
72.80
-66.23
6
A
HIS
-15
152.71
-60.69
6
A
LEU
-8
60.73
93.26
6
A
PRO
368
-71.59
-164.96
6
A
ILE
383
-105.68
79.74
6
A
ASN
415
-99.52
52.35
7
A
HIS
-16
-93.89
-98.34
7
A
HIS
-12
-152.91
-40.40
7
A
SER
346
-141.03
-5.49
7
A
PRO
368
-44.21
-161.68
7
A
PHE
369
-57.56
50.83
7
A
ASN
387
-148.12
-98.83
7
A
TYR
407
-101.55
-165.22
7
A
ASN
415
-104.45
52.26
8
A
PRO
368
-71.51
-166.43
8
A
HIS
386
-161.56
-44.66
8
A
SER
388
-174.40
-70.76
8
A
ASN
415
-103.63
51.04
9
A
HIS
-15
69.01
-69.20
9
A
HIS
-14
-136.47
-62.38
9
A
HIS
-13
-156.49
-57.71
9
A
HIS
-12
68.22
166.15
9
A
SER
-3
-173.26
-46.22
9
A
HIS
-2
-118.53
-164.33
9
A
PRO
368
-56.61
-164.16
9
A
PHE
369
-58.08
68.37
9
A
ASN
387
-123.37
-90.35
9
A
ASN
415
-99.98
50.48
10
A
HIS
-17
55.76
80.41
10
A
LEU
-8
-89.00
39.95
10
A
ARG
-5
62.38
179.47
10
A
PRO
368
-72.82
-169.68
10
A
ASN
415
-99.65
52.81
11
A
SER
-18
-91.62
31.78
11
A
HIS
-13
-160.55
119.27
11
A
SER
-3
73.57
-3.07
11
A
MET
-1
64.03
156.90
11
A
PRO
368
-71.53
-165.64
11
A
ASN
387
65.63
-82.10
11
A
ASN
415
-101.50
50.98
12
A
SER
-18
-178.51
-70.98
12
A
HIS
-15
-124.27
-56.23
12
A
HIS
-14
64.81
161.79
12
A
MET
-1
63.35
154.21
12
A
ASN
415
-108.75
50.52
13
A
SER
-11
72.79
-71.57
13
A
LEU
-8
61.32
85.90
13
A
HIS
386
-156.43
23.57
13
A
ASN
387
-114.00
-168.60
14
A
HIS
-14
73.41
84.42
14
A
HIS
-13
-143.56
18.27
14
A
SER
-10
56.18
-91.42
14
A
LEU
-8
52.40
83.88
14
A
MET
-1
58.11
178.09
14
A
PRO
368
-62.95
-165.68
14
A
ASN
385
-118.73
63.75
14
A
ASN
415
-101.55
52.93
15
A
HIS
-15
-131.58
-154.61
15
A
ARG
-5
-85.57
34.61
15
A
SER
-3
-150.93
14.69
15
A
PRO
368
-54.02
-163.79
15
A
PHE
369
-57.76
60.32
15
A
ASN
387
-176.63
-174.00
15
A
ASN
415
-106.96
51.04
16
A
HIS
-12
-142.98
-52.85
16
A
ARG
-5
68.46
-37.70
16
A
PRO
368
-64.27
-164.72
16
A
PHE
369
-58.48
88.75
16
A
ASN
415
-107.54
51.85
17
A
SER
-18
73.12
-66.71
17
A
HIS
-17
63.27
110.45
17
A
SER
-11
75.62
103.55
17
A
PRO
-6
-75.44
-164.39
17
A
ILE
383
-116.91
78.92
17
A
ASN
387
66.60
-80.93
17
A
ASN
415
-97.46
52.85
18
A
PRO
368
-72.28
-164.35
18
A
PHE
369
-57.26
97.29
18
A
ASN
387
63.78
-85.89
18
A
ASN
415
-100.80
50.04
19
A
HIS
-16
73.84
78.69
19
A
LEU
-8
53.60
79.67
19
A
MET
-1
61.04
154.35
19
A
PRO
368
-73.38
-166.17
19
A
HIS
386
-136.70
-37.33
19
A
ASN
415
-104.75
60.77
20
A
HIS
-13
-167.05
102.19
20
A
HIS
-12
-87.24
-90.19
20
A
SER
-11
-98.85
-74.36
20
A
PRO
-6
-36.95
132.34
20
A
HIS
-2
-177.04
-169.35
20
A
PRO
368
-64.94
-165.24
20
A
PHE
369
-59.04
94.75
20
A
ASN
415
-108.88
53.87
21
A
SER
-18
-151.65
80.27
21
A
HIS
-2
-122.78
-166.83
21
A
PRO
368
-74.76
-165.65
21
A
PHE
369
-58.23
101.87
21
A
ASN
415
-101.46
51.83
22
A
PRO
368
-55.75
-165.09
22
A
PHE
369
-59.92
71.73
22
A
ASN
387
-86.27
-70.39
22
A
SER
388
-177.04
-44.60
22
A
THR
403
-106.13
-168.28
23
A
HIS
-15
58.32
-81.97
23
A
SER
-3
-79.46
28.91
23
A
HIS
366
-177.64
-32.13
23
A
TYR
407
-111.37
-169.91
23
A
ASN
415
-101.43
52.96
24
A
HIS
-14
-153.30
-52.88
24
A
SER
-10
59.08
-79.09
24
A
ASN
387
58.27
-86.84
24
A
ASN
415
-103.60
49.34
25
A
HIS
-15
51.04
-93.65
25
A
HIS
-14
-174.03
90.82
25
A
SER
-11
70.32
160.72
25
A
LEU
-8
57.87
71.74
25
A
SER
-3
-68.89
15.73
25
A
PRO
368
-56.86
-164.08
25
A
PHE
369
-58.33
71.29
25
A
ASN
387
69.77
-87.14
25
A
ASN
415
-98.77
51.85
NMR Structure of human RTF1 PLUS3 domain.
1
N
N
A
LEU
347
A
LEU
24
HELX_P
A
VAL
354
A
VAL
31
1
1
8
A
SER
357
A
SER
34
HELX_P
A
CYS
365
A
CYS
42
1
2
9
A
PHE
370
A
PHE
47
HELX_P
A
THR
375
A
THR
52
1
3
6
A
ARG
430
A
ARG
107
HELX_P
A
PHE
433
A
PHE
110
5
4
4
A
THR
440
A
THR
117
HELX_P
A
GLY
455
A
GLY
132
1
5
16
A
THR
460
A
THR
137
HELX_P
A
LEU
475
A
LEU
152
1
6
16
TRANSCRIPTION REGULATION
HUMAN RTF1 PLUS3 DOMAIN, TRANSCRIPTION, ELONGATION, PAF1 COMPLEX, HISTONE H3 METHYLATION, H2B UBIQUITINATION, CDC73, LEO1, CTR9, PLUS3 DOMAIN, TRANSCRIPTION REGULATION, STRUCTURAL PROTEOMICS IN EUROPE, SPINE, STRUCTURAL GENOMICS
2BZE
PDB
1
2BZE
Q92541_HUMAN
UNP
1
Q92541
-21
-1
2BZE
-21
-1
2BZE
A
1
1
21
228
359
2BZE
345
476
Q92541
A
2
22
153
5
parallel
anti-parallel
anti-parallel
anti-parallel
A
ARG
355
A
ARG
32
A
LEU
356
A
LEU
33
A
PHE
378
A
PHE
55
A
GLY
382
A
GLY
59
A
TYR
392
A
TYR
69
A
LEU
409
A
LEU
86
A
THR
412
A
THR
89
A
ARG
421
A
ARG
98
A
GLN
426
A
GLN
103
A
PHE
429
A
PHE
106
1
P 1