1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Kami, K.
Takeya, R.
Sumimoto, H.
Kohda, D.
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 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
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
EMBO J.
EMJODG
0897
0261-4189
21
4268
4276
10.1093/emboj/cdf428
12169629
Diverse recognition of non-PxxP peptide ligands by the SH3 domains from p67(phox), Grb2 and Pex13p.
2002
10.2210/pdb1k4u/pdb
pdb_00001k4u
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
6937.713
PHAGOCYTE NADPH OXIDASE SUBUNIT P67PHOX
C-TERMINAL SH3 DOMAIN (RESIDUES 455-516)
C499S/C514S
1
man
polymer
3423.983
PHAGOCYTE NADPH OXIDASE SUBUNIT P47PHOX
TAIL PEPTIDE (RESIDUES 359-390)
1
man
polymer
Neutrophil cytosol factor 2
Neutrophil cytosol factor 1
no
no
QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGESKGKVGIFPKVFVEDSAT
QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGESKGKVGIFPKVFVEDSAT
S
polypeptide(L)
no
no
SKPQPAVPPRPSADLILNRCSESTKRKLASAV
SKPQPAVPPRPSADLILNRCSESTKRKLASAV
P
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
human
Homo
Escherichia
Escherichia coli
sample
NCF2
9606
Homo sapiens
469008
Escherichia coli BL21(DE3)
BL21(DE3)
PLASMID
pGEX-2T
human
Homo
Escherichia
Escherichia coli
sample
NCF1
9606
Homo sapiens
469008
Escherichia coli BL21(DE3)
BL21(DE3)
PLASMID
pGEX-2T
database_2
pdbx_struct_assembly
pdbx_struct_oper_list
struct_ref_seq_dif
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
1
0
2002-04-08
1
1
2008-04-27
1
2
2011-07-13
1
3
2021-11-10
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_struct_ref_seq_dif.details
RCSB
Y
PDBJ
2001-10-08
REL
REL
structures with the lowest energy
100
22
HNCA, HN(CO)CA, CBCA(CO)NH, HNCACB, HBHA(CO)NH, HCCH-COSY, HCCH-TOCSY, CCH-COSY, 15N-RESOLVED NOESY, 15-RESOLVED TOCSY, HNHA, HNHB, 3D_F1 13C-FILTERED-F3 13C-RESOLVED NOESY, 3D_F1 15N-FILTERED-F3 15N-RESOLVED NOESY, 2D_SPIN-ECHO DIFFERENCE EXPERIMENTS
HNCA, HN(CO)CA, CBCA(CO)NH, HNCACB, HBHA(CO)NH, HCCH-COSY, HCCH-TOCSY, CCH-COSY, 15N-RESOLVED NOESY, 15-RESOLVED TOCSY, HNHA, HNHB, 3D_F1 13C-FILTERED-F3 13C-RESOLVED NOESY, 3D_F1 15N-FILTERED-F3 15N-RESOLVED NOESY, 2D_SPIN-ECHO DIFFERENCE EXPERIMENTS
100mM KCl
7.1
1
atm
298
K
The structures are based on a total of 693 restraints, 611 are NOE-derived distance constraints, 82 dihedral angle restraints. No hydrogen bond restraint was used.
simulated annealing
7
lowest energy
0.7mM p67SH3(C) U-15N,13C; 0.77mM p47 tail peptide; 5mM MOPSO buffer; 30 mM d10-DTT; 100mM KCl
90% H2O, 10% D2O; 100% D2O
0.5mM p47 tail peptide U-15N,13C; 0.55mM p67SH3(C); 5mM MOPSO buffer; 30mM d10-DTT; 100mM KCl
90% H2O, 10% D2O; 100% D2O
Brunger
structure solution
CNS
1.0
Brunger
refinement
CNS
1.0
600
Bruker
DMX
750
Bruker
DMX
GLN
455
n
1
GLN
455
S
LEU
456
n
2
LEU
456
S
LYS
457
n
3
LYS
457
S
LYS
458
n
4
LYS
458
S
GLY
459
n
5
GLY
459
S
SER
460
n
6
SER
460
S
GLN
461
n
7
GLN
461
S
VAL
462
n
8
VAL
462
S
GLU
463
n
9
GLU
463
S
ALA
464
n
10
ALA
464
S
LEU
465
n
11
LEU
465
S
PHE
466
n
12
PHE
466
S
SER
467
n
13
SER
467
S
TYR
468
n
14
TYR
468
S
GLU
469
n
15
GLU
469
S
ALA
470
n
16
ALA
470
S
THR
471
n
17
THR
471
S
GLN
472
n
18
GLN
472
S
PRO
473
n
19
PRO
473
S
GLU
474
n
20
GLU
474
S
ASP
475
n
21
ASP
475
S
LEU
476
n
22
LEU
476
S
GLU
477
n
23
GLU
477
S
PHE
478
n
24
PHE
478
S
GLN
479
n
25
GLN
479
S
GLU
480
n
26
GLU
480
S
GLY
481
n
27
GLY
481
S
ASP
482
n
28
ASP
482
S
ILE
483
n
29
ILE
483
S
ILE
484
n
30
ILE
484
S
LEU
485
n
31
LEU
485
S
VAL
486
n
32
VAL
486
S
LEU
487
n
33
LEU
487
S
SER
488
n
34
SER
488
S
LYS
489
n
35
LYS
489
S
VAL
490
n
36
VAL
490
S
ASN
491
n
37
ASN
491
S
GLU
492
n
38
GLU
492
S
GLU
493
n
39
GLU
493
S
TRP
494
n
40
TRP
494
S
LEU
495
n
41
LEU
495
S
GLU
496
n
42
GLU
496
S
GLY
497
n
43
GLY
497
S
GLU
498
n
44
GLU
498
S
SER
499
n
45
SER
499
S
LYS
500
n
46
LYS
500
S
GLY
501
n
47
GLY
501
S
LYS
502
n
48
LYS
502
S
VAL
503
n
49
VAL
503
S
GLY
504
n
50
GLY
504
S
ILE
505
n
51
ILE
505
S
PHE
506
n
52
PHE
506
S
PRO
507
n
53
PRO
507
S
LYS
508
n
54
LYS
508
S
VAL
509
n
55
VAL
509
S
PHE
510
n
56
PHE
510
S
VAL
511
n
57
VAL
511
S
GLU
512
n
58
GLU
512
S
ASP
513
n
59
ASP
513
S
SER
514
n
60
SER
514
S
ALA
515
n
61
ALA
515
S
THR
516
n
62
THR
516
S
SER
359
n
1
SER
359
P
LYS
360
n
2
LYS
360
P
PRO
361
n
3
PRO
361
P
GLN
362
n
4
GLN
362
P
PRO
363
n
5
PRO
363
P
ALA
364
n
6
ALA
364
P
VAL
365
n
7
VAL
365
P
PRO
366
n
8
PRO
366
P
PRO
367
n
9
PRO
367
P
ARG
368
n
10
ARG
368
P
PRO
369
n
11
PRO
369
P
SER
370
n
12
SER
370
P
ALA
371
n
13
ALA
371
P
ASP
372
n
14
ASP
372
P
LEU
373
n
15
LEU
373
P
ILE
374
n
16
ILE
374
P
LEU
375
n
17
LEU
375
P
ASN
376
n
18
ASN
376
P
ARG
377
n
19
ARG
377
P
CYS
378
n
20
CYS
378
P
SER
379
n
21
SER
379
P
GLU
380
n
22
GLU
380
P
SER
381
n
23
SER
381
P
THR
382
n
24
THR
382
P
LYS
383
n
25
LYS
383
P
ARG
384
n
26
ARG
384
P
LYS
385
n
27
LYS
385
P
LEU
386
n
28
LEU
386
P
ALA
387
n
29
ALA
387
P
SER
388
n
30
SER
388
P
ALA
389
n
31
ALA
389
P
VAL
390
n
32
VAL
390
P
author_defined_assembly
2
dimeric
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
1_555
identity operation
0.0000000000
0.0000000000
0.0000000000
S
N
SER
460
A
N
SER
6
S
O
VAL
486
A
O
VAL
32
S
N
SER
488
A
N
SER
34
S
O
GLU
496
A
O
GLU
42
S
N
GLY
497
A
N
GLY
43
S
O
GLY
504
A
O
GLY
50
1
S
S
H
O
LEU
ILE
476
505
1.55
1
S
S
O
H
GLY
GLY
497
504
1.58
1
S
S
H
O
SER
VAL
460
486
1.58
2
S
S
H
O
LEU
ILE
476
505
1.55
2
S
S
O
H
GLY
GLY
497
504
1.60
3
S
S
H
O
LEU
ILE
476
505
1.55
4
S
S
H
O
LEU
ILE
476
505
1.55
4
S
S
O
H
GLY
GLY
497
504
1.59
5
S
S
H
O
SER
VAL
460
486
1.51
6
S
S
H
O
SER
VAL
460
486
1.57
6
S
S
H
O
LEU
ILE
476
505
1.58
7
S
S
O
H
LYS
GLU
508
512
1.54
7
S
S
H
O
SER
VAL
460
486
1.56
7
S
S
O
H
GLY
GLY
497
504
1.57
7
S
S
H
O
LEU
ILE
476
505
1.59
8
S
S
H
O
LEU
ILE
476
505
1.54
8
S
S
H
O
SER
VAL
460
486
1.58
8
S
S
O
H
GLY
GLY
497
504
1.59
9
S
S
H
O
LEU
ILE
476
505
1.58
9
S
S
H
O
GLY
GLY
497
504
1.60
11
S
S
H
O
LEU
ILE
476
505
1.59
12
S
S
H
O
ALA
ASP
464
482
1.56
13
S
S
H
O
SER
VAL
460
486
1.51
13
S
S
O
H
GLY
GLY
497
504
1.57
13
S
S
H
O
LEU
ILE
476
505
1.59
14
S
S
H
O
SER
VAL
460
486
1.58
14
S
S
H
O
LEU
ILE
476
505
1.58
15
S
S
H
O
SER
VAL
460
486
1.57
15
S
S
O
H
GLY
GLY
497
504
1.57
15
S
S
H
O
ALA
ASP
464
482
1.59
16
S
S
H
O
SER
VAL
460
486
1.47
16
S
S
H
O
LEU
ILE
476
505
1.56
17
S
S
H
O
SER
VAL
460
486
1.47
17
S
S
H
O
LEU
ILE
476
505
1.55
18
S
S
H
O
SER
VAL
460
486
1.53
18
S
S
H
O
LEU
ILE
476
505
1.56
19
S
S
H
O
LEU
ILE
476
505
1.59
20
S
S
H
O
SER
VAL
460
486
1.49
20
S
S
H
O
LEU
ILE
476
505
1.55
20
S
S
O
H
GLY
GLY
497
504
1.57
21
S
S
H
O
LEU
ILE
476
505
1.59
22
S
S
H
O
SER
VAL
460
486
1.49
22
S
S
H
O
LEU
ILE
476
505
1.54
22
S
S
O
H
GLY
GLY
497
504
1.57
1
S
SER
460
-166.36
-166.32
1
S
LEU
465
-142.85
-32.28
1
S
PRO
473
-61.66
-75.83
1
S
ILE
483
-111.82
78.69
1
S
SER
488
169.02
177.16
1
S
ASN
491
-175.51
31.01
1
S
GLU
492
75.03
-57.48
1
S
LYS
500
71.02
77.88
1
S
VAL
511
-155.52
80.09
1
S
GLU
512
-63.21
0.98
1
S
ASP
513
66.38
160.08
1
S
SER
514
-136.19
-41.71
1
S
ALA
515
-161.62
108.00
1
P
GLN
362
-48.36
156.29
1
P
ALA
364
-51.29
100.15
1
P
PRO
367
-66.04
91.57
1
P
ARG
368
-39.53
140.98
1
P
PRO
369
-33.16
149.71
1
P
ALA
371
-28.18
-45.82
1
P
LEU
386
-97.61
-81.51
1
P
ALA
389
57.70
-178.45
2
S
LYS
458
-57.98
-170.07
2
S
SER
460
-74.62
-163.08
2
S
ALA
470
-39.52
110.27
2
S
PRO
473
-68.39
-70.66
2
S
ILE
483
-103.61
76.79
2
S
SER
488
171.53
162.74
2
S
ASN
491
-174.71
32.10
2
S
GLU
492
75.26
-58.44
2
S
SER
499
-89.14
-142.83
2
S
LYS
500
-37.16
-86.62
2
S
VAL
511
-157.47
56.80
2
S
SER
514
77.80
-159.19
2
S
ALA
515
75.48
82.70
2
P
GLN
362
-46.67
154.31
2
P
ALA
364
-50.05
101.68
2
P
PRO
369
-25.57
151.34
2
P
SER
370
-73.97
34.17
2
P
ALA
371
65.38
-63.70
2
P
ALA
389
68.55
-69.59
3
S
LEU
456
-59.36
179.49
3
S
LYS
458
-104.86
-72.47
3
S
SER
460
-73.46
-160.43
3
S
VAL
462
-160.33
118.10
3
S
PRO
473
-62.00
-77.70
3
S
GLU
474
-39.74
-37.65
3
S
SER
488
167.47
167.17
3
S
ASN
491
-176.58
34.38
3
S
GLU
492
69.37
-56.68
3
S
LYS
500
59.32
91.18
3
S
GLU
512
33.83
-146.10
3
S
SER
514
-148.15
-67.92
3
S
ALA
515
62.45
149.15
3
P
GLN
362
-46.72
154.95
3
P
PRO
367
-51.91
88.36
3
P
ALA
371
69.29
-60.19
3
P
SER
379
-60.23
-89.81
3
P
GLU
380
-168.55
-43.92
3
P
LEU
386
-95.42
-93.83
3
P
SER
388
-177.46
-36.46
4
S
LEU
456
60.15
177.49
4
S
LEU
465
-142.07
-5.69
4
S
PRO
473
-62.12
-70.81
4
S
SER
488
169.43
163.02
4
S
ASN
491
-165.07
-165.19
4
S
GLU
493
-148.47
48.27
4
S
LYS
500
66.57
73.72
4
S
VAL
511
-153.40
61.04
4
S
GLU
512
-65.67
13.89
4
S
ASP
513
-73.91
-165.16
4
S
SER
514
-175.88
81.33
4
P
GLN
362
-47.38
156.85
4
P
ALA
364
-49.84
103.02
4
P
PRO
367
-65.22
94.45
4
P
ARG
368
-39.37
159.77
4
P
PRO
369
-48.97
173.38
4
P
ALA
371
70.22
-56.53
4
P
SER
388
-149.53
36.44
5
S
VAL
462
-160.29
104.38
5
S
GLU
463
-45.45
150.81
5
S
GLU
469
-65.80
98.41
5
S
PRO
473
-54.40
-74.17
5
S
SER
488
175.71
-175.59
5
S
VAL
490
-106.33
-96.36
5
S
GLU
493
-142.52
42.33
5
S
LYS
500
66.85
-95.25
5
S
VAL
511
-153.02
8.64
5
S
GLU
512
31.93
-145.32
5
S
SER
514
-147.48
-74.19
5
P
GLN
362
-47.81
154.95
5
P
PRO
367
-66.49
95.69
5
P
ARG
368
-39.56
159.32
5
P
PRO
369
-48.10
176.82
5
P
ALA
371
67.23
-64.55
5
P
LEU
386
-173.56
36.70
5
P
ALA
387
-63.51
83.88
6
S
VAL
462
-160.70
119.59
6
S
SER
488
165.57
168.66
6
S
ASN
491
-179.56
35.42
6
S
GLU
492
73.36
-58.65
6
S
LYS
500
62.98
86.83
6
S
VAL
511
-153.15
57.25
6
S
GLU
512
-68.36
13.38
6
S
ASP
513
-67.03
-163.96
6
S
SER
514
-168.60
80.73
6
S
ALA
515
67.55
-71.32
6
P
GLN
362
-46.60
157.24
6
P
ALA
364
-50.23
103.20
6
P
PRO
367
-66.03
97.29
6
P
ARG
368
-39.49
160.74
6
P
PRO
369
-49.21
176.45
6
P
ALA
371
68.05
-62.19
6
P
LEU
386
-159.83
-68.33
6
P
SER
388
63.51
86.76
6
P
ALA
389
-100.89
75.18
7
S
LEU
465
55.33
-5.68
7
S
ALA
470
-39.37
109.45
7
S
GLN
472
-49.06
170.29
7
S
PRO
473
-66.88
-72.77
7
S
SER
488
172.11
-166.87
7
S
GLU
493
-143.40
44.09
7
S
LYS
500
62.02
90.12
7
S
GLU
512
33.57
-144.65
7
S
ASP
513
61.88
-164.71
7
S
SER
514
-169.53
97.63
7
P
GLN
362
-46.19
155.65
7
P
PRO
367
-67.98
96.83
7
P
ARG
368
-39.53
158.72
7
P
PRO
369
-47.75
177.77
7
P
ALA
371
70.18
-57.82
7
P
ALA
389
61.77
-81.45
8
S
LYS
458
-176.02
-174.82
8
S
VAL
462
-160.49
119.44
8
S
GLU
463
-48.86
151.38
8
S
LEU
465
-144.15
-4.62
8
S
GLN
472
94.09
4.01
8
S
GLU
474
163.96
-30.41
8
S
SER
488
166.18
170.55
8
S
ASN
491
-175.65
-166.12
8
S
GLU
493
-153.41
49.50
8
S
LYS
500
69.59
79.61
8
S
VAL
511
-152.38
52.74
8
S
ALA
515
-97.74
31.33
8
P
GLN
362
-47.35
155.07
8
P
ALA
364
-49.95
101.12
8
P
PRO
367
-49.35
93.72
8
P
ARG
368
-39.83
161.10
8
P
PRO
369
-49.20
173.27
8
P
ALA
371
69.07
-60.10
9
S
SER
460
-78.09
-165.81
9
S
VAL
462
-160.46
114.52
9
S
LEU
465
-143.88
-5.67
9
S
PRO
473
-57.89
-75.09
9
S
GLU
474
-39.83
-36.34
9
S
SER
488
168.89
166.01
9
S
ASN
491
-178.47
35.61
9
S
GLU
492
73.10
-58.54
9
S
LYS
500
53.67
97.34
9
S
VAL
511
-150.60
-54.45
9
S
GLU
512
39.55
20.26
9
S
ASP
513
-94.09
-158.48
9
P
PRO
361
-44.53
102.03
9
P
ALA
364
-50.01
101.31
9
P
PRO
367
-65.65
94.77
9
P
ARG
368
-39.54
159.51
9
P
PRO
369
-48.02
170.76
9
P
ALA
371
68.43
-61.73
9
P
SER
379
-66.65
-89.54
9
P
GLU
380
-167.86
-43.25
10
S
SER
460
-85.23
-155.43
10
S
VAL
462
-160.15
104.25
10
S
SER
488
166.80
164.74
10
S
ASN
491
179.16
30.95
10
S
GLU
492
76.87
-57.03
10
S
LYS
500
48.20
104.77
10
S
VAL
511
-156.68
81.25
10
S
GLU
512
-63.33
10.60
10
S
ASP
513
68.99
161.95
10
S
SER
514
-167.76
-40.50
10
S
ALA
515
61.09
157.71
10
P
GLN
362
-46.04
156.96
10
P
PRO
367
-68.40
87.06
10
P
ARG
368
-39.79
132.22
10
P
PRO
369
-24.01
158.12
10
P
SER
370
-78.33
29.76
10
P
ALA
371
68.01
-61.31
10
P
ALA
387
-175.18
-40.63
10
P
SER
388
-168.25
35.59
11
S
SER
460
-70.93
-166.88
11
S
ALA
470
-39.56
107.63
11
S
GLN
472
-48.37
163.68
11
S
PRO
473
-58.76
-78.76
11
S
SER
488
168.35
164.39
11
S
ASN
491
-177.59
35.08
11
S
GLU
492
72.19
-58.15
11
S
LYS
500
63.90
85.45
11
S
VAL
511
-155.16
46.97
11
S
ALA
515
-99.19
31.00
11
P
GLN
362
-46.31
155.22
11
P
PRO
367
-54.08
88.93
11
P
PRO
369
-49.56
169.40
11
P
ALA
371
68.98
-59.97
11
P
LEU
386
-107.94
-84.43
11
P
ALA
387
57.35
103.22
11
P
ALA
389
59.03
179.40
12
S
LYS
458
42.56
-163.77
12
S
VAL
462
-159.43
-15.63
12
S
GLU
463
59.42
142.67
12
S
PRO
473
-60.74
-80.25
12
S
ILE
483
-104.47
66.42
12
S
SER
488
164.67
164.27
12
S
ASN
491
-178.70
35.31
12
S
GLU
492
73.39
-58.75
12
S
LYS
500
62.73
-95.51
12
S
VAL
511
-151.23
-35.66
12
S
GLU
512
42.82
17.23
12
S
ASP
513
54.15
157.74
12
S
SER
514
-159.71
-43.16
12
P
GLN
362
-46.68
156.81
12
P
PRO
367
-68.93
92.14
12
P
ARG
368
-39.66
144.78
12
P
PRO
369
-51.74
172.82
12
P
ALA
371
68.18
-62.83
12
P
LYS
385
-95.44
30.49
12
P
LEU
386
-172.74
37.42
12
P
SER
388
-164.85
35.53
12
P
ALA
389
-61.17
-177.38
13
S
SER
488
168.26
170.40
13
S
ASN
491
-176.10
-167.52
13
S
GLU
493
-153.37
49.79
13
S
SER
499
-89.94
-143.71
13
S
LYS
500
-30.98
-86.43
13
S
VAL
511
-156.24
50.80
13
S
ALA
515
-117.39
73.77
13
P
LYS
360
62.92
139.71
13
P
GLN
362
-47.10
154.96
13
P
ALA
364
-49.95
101.94
13
P
PRO
367
-66.72
96.01
13
P
ARG
368
-39.51
159.48
13
P
PRO
369
-48.36
174.96
13
P
ALA
371
69.15
-60.04
13
P
LEU
386
-100.60
-85.29
13
P
SER
388
-160.71
-43.67
13
P
ALA
389
68.56
172.94
14
S
SER
460
-171.53
-176.50
14
S
VAL
462
-160.34
117.00
14
S
PRO
473
-60.38
-78.17
14
S
SER
488
173.28
-167.18
14
S
VAL
490
-89.09
-91.88
14
S
ASN
491
-104.60
-163.61
14
S
GLU
493
-143.15
47.18
14
S
LYS
500
68.36
80.35
14
S
VAL
511
-148.24
52.01
14
S
ALA
515
61.26
154.60
14
P
GLN
362
-47.13
154.24
14
P
ALA
364
-50.01
102.65
14
P
PRO
367
-51.01
96.34
14
P
ARG
368
-39.73
161.56
14
P
PRO
369
-48.78
175.37
14
P
ALA
371
67.40
-64.32
14
P
LEU
386
-169.29
34.74
14
P
ALA
387
-67.04
88.41
15
S
LYS
458
62.63
106.75
15
S
VAL
462
-160.07
-12.55
15
S
GLU
463
59.03
144.47
15
S
LEU
465
-140.34
-4.48
15
S
PRO
473
-62.87
-72.56
15
S
ILE
483
-103.38
69.06
15
S
SER
488
164.34
169.77
15
S
ASN
491
-175.90
-167.87
15
S
GLU
493
-150.67
42.90
15
S
LYS
500
51.38
100.94
15
S
GLU
512
-61.07
12.30
15
S
ASP
513
78.15
154.67
15
S
SER
514
-151.56
-47.00
15
P
GLN
362
-45.78
154.47
15
P
ALA
364
-51.38
102.64
15
P
PRO
367
-66.52
86.64
15
P
ARG
368
-39.52
135.69
15
P
PRO
369
-30.98
158.47
15
P
SER
370
-76.65
36.80
15
P
ALA
371
65.67
-61.74
15
P
LEU
386
-87.78
-80.94
15
P
SER
388
71.68
82.18
15
P
ALA
389
57.90
-173.60
16
S
LYS
457
58.65
106.09
16
S
PRO
473
-68.84
-70.87
16
S
SER
488
170.26
166.26
16
S
ASN
491
-175.62
-162.89
16
S
GLU
493
-151.52
38.83
16
S
LYS
500
63.10
88.53
16
S
VAL
511
-144.88
53.39
16
P
LYS
360
62.94
138.01
16
P
GLN
362
-46.05
156.99
16
P
ALA
364
-53.15
108.65
16
P
PRO
367
-66.75
85.06
16
P
ARG
368
-39.85
130.82
16
P
PRO
369
-25.80
155.75
16
P
SER
370
-78.67
34.41
16
P
ALA
371
65.90
-63.11
16
P
ALA
387
97.00
-22.98
17
S
LYS
457
-77.64
-75.90
17
S
SER
488
166.44
170.54
17
S
ASN
491
-175.76
36.22
17
S
GLU
492
72.14
-59.05
17
S
LYS
500
51.11
102.57
17
S
GLU
512
42.21
-99.46
17
S
ASP
513
-173.91
149.38
17
S
SER
514
-154.89
-67.87
17
S
ALA
515
65.15
-77.60
17
P
GLN
362
-46.50
156.47
17
P
ALA
364
-50.03
103.83
17
P
PRO
367
-64.78
94.89
17
P
ARG
368
-39.37
160.71
17
P
PRO
369
-48.96
172.15
17
P
ALA
371
67.52
-63.94
17
P
LYS
385
-95.03
30.69
17
P
LEU
386
-174.94
36.77
17
P
ALA
389
64.06
128.68
18
S
LEU
456
-177.59
40.35
18
S
LYS
458
-69.50
-166.84
18
S
SER
460
179.07
-158.51
18
S
VAL
462
-160.19
118.79
18
S
PRO
473
-61.70
-76.90
18
S
ILE
483
-109.48
74.11
18
S
SER
488
165.97
166.89
18
S
ASN
491
-175.07
-167.47
18
S
GLU
493
-153.06
48.13
18
S
LYS
500
61.46
90.30
18
S
VAL
511
-156.55
82.10
18
S
GLU
512
-62.48
11.00
18
S
ASP
513
69.47
134.81
18
S
SER
514
171.48
39.34
18
P
GLN
362
-46.11
155.32
18
P
ALA
364
-51.96
101.98
18
P
PRO
367
-67.72
95.51
18
P
ARG
368
-39.44
158.12
18
P
PRO
369
-47.74
175.45
18
P
ALA
371
69.90
-57.14
18
P
ARG
377
-155.64
52.69
18
P
SER
379
-62.13
-81.33
18
P
GLU
380
-171.48
-42.47
18
P
ALA
387
-64.87
94.56
19
S
SER
460
-77.21
-155.13
19
S
VAL
462
-160.18
118.45
19
S
ILE
483
-105.71
74.33
19
S
SER
488
168.72
166.39
19
S
ASN
491
-179.82
35.35
19
S
GLU
492
73.60
-58.71
19
S
SER
499
-93.93
-148.86
19
S
LYS
500
-55.14
98.45
19
S
VAL
511
-156.84
82.04
19
S
GLU
512
-61.96
8.37
19
S
ASP
513
67.91
160.05
19
S
SER
514
-153.83
-43.87
19
P
GLN
362
-46.97
154.77
19
P
ALA
364
-50.10
102.80
19
P
PRO
367
-65.60
95.27
19
P
ARG
368
-39.40
160.04
19
P
PRO
369
-49.03
171.79
19
P
ALA
371
66.60
-64.82
19
P
LYS
385
-97.73
34.00
19
P
LEU
386
-169.20
-85.87
19
P
ALA
387
48.18
27.26
19
P
SER
388
179.07
-54.14
19
P
ALA
389
63.01
95.63
20
S
ALA
470
-39.37
109.31
20
S
PRO
473
-59.87
-78.85
20
S
SER
488
174.00
164.65
20
S
VAL
490
-103.65
-67.91
20
S
GLU
493
-141.50
45.50
20
S
SER
499
-96.61
59.20
20
S
LYS
500
36.27
93.37
20
S
VAL
511
-155.84
45.48
20
P
GLN
362
-46.75
156.47
20
P
ALA
364
-49.93
102.48
20
P
PRO
367
-66.79
95.88
20
P
ARG
368
-39.46
159.15
20
P
PRO
369
-46.29
175.65
20
P
ALA
371
69.03
-59.69
20
P
ALA
387
-169.57
-45.74
20
P
SER
388
-147.79
21.27
20
P
ALA
389
61.89
-81.20
21
S
SER
460
-72.27
-168.34
21
S
SER
488
171.80
-161.97
21
S
ASN
491
-159.28
-51.16
21
S
GLU
492
159.99
-38.50
21
S
SER
499
-96.47
-148.79
21
S
LYS
500
-54.05
98.79
21
S
LYS
508
51.22
8.02
21
S
VAL
511
-149.25
50.52
21
S
ALA
515
-175.41
91.97
21
P
LYS
360
-169.46
86.80
21
P
PRO
361
-44.38
101.39
21
P
GLN
362
-47.46
159.41
21
P
ALA
364
-50.48
108.93
21
P
PRO
367
-66.96
88.34
21
P
ARG
368
-39.83
141.42
21
P
PRO
369
-49.02
175.20
21
P
ALA
371
68.06
-61.68
21
P
SER
388
73.25
35.92
21
P
ALA
389
56.73
177.07
22
S
LYS
458
44.76
-168.27
22
S
VAL
462
-160.60
117.91
22
S
LEU
465
-138.56
-31.71
22
S
SER
488
177.60
-169.52
22
S
VAL
490
-96.82
-92.07
22
S
GLU
493
-144.96
46.80
22
S
LYS
500
65.91
-94.35
22
S
LYS
508
52.64
6.55
22
S
VAL
511
-155.03
56.62
22
S
ASP
513
-68.06
-164.07
22
S
SER
514
-166.47
87.79
22
P
LYS
360
-170.11
140.95
22
P
GLN
362
-45.93
157.46
22
P
ALA
364
-49.83
102.45
22
P
PRO
367
-65.11
91.34
22
P
ARG
368
-39.35
159.79
22
P
PRO
369
-48.38
176.00
22
P
ALA
371
69.08
-61.08
22
P
ALA
387
-167.83
-56.60
22
P
SER
388
-152.63
42.34
22
P
ALA
389
67.86
-70.93
Solution structure of the C-terminal SH3 domain of p67phox complexed with the C-terminal tail region of p47phox
1
N
N
2
N
N
S
PRO
507
A
PRO
53
HELX_P
S
VAL
511
A
VAL
57
5
1
5
P
SER
370
B
SER
12
HELX_P
P
ARG
377
B
ARG
19
1
2
8
P
SER
379
B
SER
21
HELX_P
P
LEU
386
B
LEU
28
1
3
8
HORMONE/GROWTH FACTOR
P67PHOX, P47PHOX, SH3-PEPTIDE COMPLEX, HELIX-TURN-HELIX, HORMONE-GROWTH FACTOR COMPLEX
NCF2_HUMAN
UNP
1
455
P19878
QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGECKGKVGIFPKVFVEDCAT
NCF1_HUMAN
UNP
2
359
P14598
SKPQPAVPPRPSADLILNRCSESTKRKLASAV
455
516
1K4U
455
516
P19878
S
1
1
62
359
390
1K4U
359
390
P14598
P
2
1
32
1
CYS
engineered mutation
SER
499
1K4U
S
P19878
UNP
499
45
1
CYS
engineered mutation
SER
514
1K4U
S
P19878
UNP
514
60
4
anti-parallel
anti-parallel
anti-parallel
S
SER
460
A
SER
6
S
GLU
463
A
GLU
9
S
ILE
483
A
ILE
29
S
LYS
489
A
LYS
35
S
LEU
495
A
LEU
41
S
GLU
498
A
GLU
44
S
VAL
503
A
VAL
49
S
PHE
506
A
PHE
52