1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Gronwald, W.
Huber, F.
Grunewald, P.
Sporner, M.
Wohlgemuth, S.
Herrmann, C.
Kalbitzer, H.R.
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
Structure
STRUE6
2005
0969-2126
9
1029
1041
10.1016/S0969-2126(01)00671-2
11709167
Solution structure of the Ras binding domain of the protein kinase Byr2 from Schizosaccharomyces pombe.
2001
US
Protein Sci.
PRCIEI
0795
0961-8368
10
1260
1263
10.1110/ps.43201
Overcoming the Problems Associated with Poor Spectra Quality of the Protein Kinase Byr2 using Residual Dipolar Couplings
2001
NE
J.Biomol.NMR
JBNME9
0800
0925-2738
16
355
356
10.1023/A:1008335420475
Letter to the Editor: Sequential NMR assignment of the RAS-binding domain of Byr2
2000
10.2210/pdb1i35/pdb
pdb_00001i35
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
10987.690
PROTEIN KINASE BYR2
2.7.1.-
RAS-BINDING DOMAIN
1
man
polymer
no
no
CILRFIACNGQTRAVQSRGDYQKTLAIALKKFSLEDASKFIVCVSQSSRIKLITEEEFKQICFNSSSPERDRLIIVPKEK
PCPSFEDLRRSWEIE
CILRFIACNGQTRAVQSRGDYQKTLAIALKKFSLEDASKFIVCVSQSSRIKLITEEEFKQICFNSSSPERDRLIIVPKEK
PCPSFEDLRRSWEIE
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
fission yeast
Schizosaccharomyces
Escherichia
sample
BYR2 (AMINO ACIDS 71 - 165)
4896
Schizosaccharomyces pombe
562
Escherichia coli
B121 DE3
PLASMID
PGEX4T3 (PHARMACIA)
database_2
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
1
0
2001-12-12
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
RCSB
Y
RCSB
2001-02-13
REL
The submitted conformer models are the 10 structures with the lowest total energy
200
10
2D NOESY
2D NOESY
3D_15N-separated_NOESY
HNHA
3D_13C-separated_NOESY
2D-HSQC with no decoupling of 1H during t1(measurement of residual dipolar couplings)
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
298
K
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
298
K
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
298
K
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
298
K
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
298
K
200 mM deuterated glycine, 20 mM phosphate buffer
6.9
ambient
305
K
Structures are based on a total
of 824 NOE-restraints, 88 backbone
dihedral angle restrains, 29 hydrogen
bonds and 28 residual dipolar
couplings
High temperature torsion angle
dynamics. First cooling stage using
torsion angle dynamics. Second
cooling stage using Cartesian
dynamics. Final energy minimization.
1
lowest energy
1.2 mM Byr2 unlabeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 90% H2O/10% D2O
90% H2O/10% D2O
1.2 mM Byr2 unlabeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 100% D2O
100% D2O
1.0 mM Byr2 15N-labeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 90% H2O/10% D2O
90% H2O/10% D2O
1.0 mM Byr2 15N-13C-labeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 90% H2O/10% D2O
90% H2O/10% D2O
0.7 mM Byr2 15N-13C-labeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 100% D2O
100% D2O
1.0 mM Byr2 15N-labeled,25 mM DTE, 200 mM deuterated
glycine, 20 mM phosphate buffer,
0.5 mM EDTA, 0.5 mM NaN3, 0.1 mM
DSS, 5 wt.-% phospholipid bicelles,
90% H2O/10% D2O
90% H2O/10% D2O
Bruker software department
collection
UXNMR
2.6
Bruker software department
processing
UXNMR
2.6
Neidig, K.-P., Geyer, M., Goerler, A., Antz, C., Saffrich, R., Beneicke, W. & Kalbitzer, H.R
data analysis
AURELIA
2.7.1
Ganslmeier, B., Gronwald, W., Ried, A., Neidig, K.-P., Fischer, C. & Kalbitzer, H.R.
data analysis
AUREMOL
0.6
Bruenger, A.T., Adams, P.D., Clore, G.M., DeLano, W.L., Gros, P., Grosse-Kunstleve, Jiang, R.W., Kuszewski, J., Nilges, M., Pannu, N.S., Read, R.J., Rice, L.M., Simonson, T. & Warren, G.L.
structure solution
CNS
1.0
Bruenger, A.T., Adams, P.D., Clore, G.M., DeLano, W.L., Gros, P., Grosse-Kunstleve, Jiang, R.W., Kuszewski, J., Nilges, M., Pannu, N.S., Read, R.J., Rice, L.M., Simonson, T. & Warren, G.L.
refinement
CNS
1.0
600
Bruker
DRX
800
Bruker
DRX
CYS
1
n
1
CYS
1
A
ILE
2
n
2
ILE
2
A
LEU
3
n
3
LEU
3
A
ARG
4
n
4
ARG
4
A
PHE
5
n
5
PHE
5
A
ILE
6
n
6
ILE
6
A
ALA
7
n
7
ALA
7
A
CYS
8
n
8
CYS
8
A
ASN
9
n
9
ASN
9
A
GLY
10
n
10
GLY
10
A
GLN
11
n
11
GLN
11
A
THR
12
n
12
THR
12
A
ARG
13
n
13
ARG
13
A
ALA
14
n
14
ALA
14
A
VAL
15
n
15
VAL
15
A
GLN
16
n
16
GLN
16
A
SER
17
n
17
SER
17
A
ARG
18
n
18
ARG
18
A
GLY
19
n
19
GLY
19
A
ASP
20
n
20
ASP
20
A
TYR
21
n
21
TYR
21
A
GLN
22
n
22
GLN
22
A
LYS
23
n
23
LYS
23
A
THR
24
n
24
THR
24
A
LEU
25
n
25
LEU
25
A
ALA
26
n
26
ALA
26
A
ILE
27
n
27
ILE
27
A
ALA
28
n
28
ALA
28
A
LEU
29
n
29
LEU
29
A
LYS
30
n
30
LYS
30
A
LYS
31
n
31
LYS
31
A
PHE
32
n
32
PHE
32
A
SER
33
n
33
SER
33
A
LEU
34
n
34
LEU
34
A
GLU
35
n
35
GLU
35
A
ASP
36
n
36
ASP
36
A
ALA
37
n
37
ALA
37
A
SER
38
n
38
SER
38
A
LYS
39
n
39
LYS
39
A
PHE
40
n
40
PHE
40
A
ILE
41
n
41
ILE
41
A
VAL
42
n
42
VAL
42
A
CYS
43
n
43
CYS
43
A
VAL
44
n
44
VAL
44
A
SER
45
n
45
SER
45
A
GLN
46
n
46
GLN
46
A
SER
47
n
47
SER
47
A
SER
48
n
48
SER
48
A
ARG
49
n
49
ARG
49
A
ILE
50
n
50
ILE
50
A
LYS
51
n
51
LYS
51
A
LEU
52
n
52
LEU
52
A
ILE
53
n
53
ILE
53
A
THR
54
n
54
THR
54
A
GLU
55
n
55
GLU
55
A
GLU
56
n
56
GLU
56
A
GLU
57
n
57
GLU
57
A
PHE
58
n
58
PHE
58
A
LYS
59
n
59
LYS
59
A
GLN
60
n
60
GLN
60
A
ILE
61
n
61
ILE
61
A
CYS
62
n
62
CYS
62
A
PHE
63
n
63
PHE
63
A
ASN
64
n
64
ASN
64
A
SER
65
n
65
SER
65
A
SER
66
n
66
SER
66
A
SER
67
n
67
SER
67
A
PRO
68
n
68
PRO
68
A
GLU
69
n
69
GLU
69
A
ARG
70
n
70
ARG
70
A
ASP
71
n
71
ASP
71
A
ARG
72
n
72
ARG
72
A
LEU
73
n
73
LEU
73
A
ILE
74
n
74
ILE
74
A
ILE
75
n
75
ILE
75
A
VAL
76
n
76
VAL
76
A
PRO
77
n
77
PRO
77
A
LYS
78
n
78
LYS
78
A
GLU
79
n
79
GLU
79
A
LYS
80
n
80
LYS
80
A
PRO
81
n
81
PRO
81
A
CYS
82
n
82
CYS
82
A
PRO
83
n
83
PRO
83
A
SER
84
n
84
SER
84
A
PHE
85
n
85
PHE
85
A
GLU
86
n
86
GLU
86
A
ASP
87
n
87
ASP
87
A
LEU
88
n
88
LEU
88
A
ARG
89
n
89
ARG
89
A
ARG
90
n
90
ARG
90
A
SER
91
n
91
SER
91
A
TRP
92
n
92
TRP
92
A
GLU
93
n
93
GLU
93
A
ILE
94
n
94
ILE
94
A
GLU
95
n
95
GLU
95
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
O
VAL
15
A
O
VAL
15
A
N
LEU
3
A
N
LEU
3
A
N
ILE
6
A
N
ILE
6
A
O
LEU
73
A
O
LEU
73
A
O
VAL
76
A
O
VAL
76
A
N
ILE
41
A
N
ILE
41
A
O
VAL
44
A
O
VAL
44
A
N
LYS
51
A
N
LYS
51
1
A
A
O
HB3
THR
ALA
24
28
1.30
1
A
A
O
HA
ILE
ILE
6
74
1.40
1
A
A
O
HB2
ALA
PHE
28
32
1.52
1
A
A
H
OD2
SER
ASP
45
87
1.53
1
A
A
O
H
GLN
ALA
22
26
1.55
1
A
A
O
O
ARG
ASP
4
71
2.08
1
A
A
O
O
LYS
LEU
30
34
2.11
1
A
A
O
O
PHE
ARG
5
13
2.15
2
A
A
HG22
HB2
ILE
PHE
53
58
1.32
2
A
A
O
H
GLN
ALA
22
26
1.53
2
A
A
H
O
ILE
VAL
41
76
1.56
3
A
A
O
HG
GLN
SER
46
47
1.48
3
A
A
O
H
GLN
ALA
22
26
1.58
3
A
A
O
H
PHE
ARG
85
89
1.59
3
A
A
O
H
PRO
GLU
77
79
1.59
4
A
A
O
HA
ILE
ILE
6
74
1.24
4
A
A
HD3
H
ARG
ASP
70
71
1.34
4
A
A
O
H
GLU
PHE
55
58
1.48
4
A
A
H
O
ILE
VAL
41
76
1.55
4
A
A
O
O
LEU
LEU
29
34
2.14
4
A
A
O
CA
ILE
ILE
6
74
2.19
5
A
A
HB2
HB
ALA
ILE
7
75
1.19
5
A
A
O
H
TRP
ILE
92
94
1.42
5
A
A
O
H
LYS
LYS
78
80
1.50
5
A
A
O
HG2
CYS
GLU
8
86
1.54
5
A
A
O
O
LYS
LEU
30
34
2.09
6
A
A
HB
HG21
VAL
ILE
42
53
1.35
6
A
A
O
H
ARG
LEU
4
73
1.52
6
A
A
O
HA
ILE
ILE
6
74
1.57
6
A
A
O
H
ARG
SER
89
91
1.57
6
A
A
O
H
CYS
ILE
43
74
1.58
6
A
A
H
O
ILE
LEU
6
73
1.58
6
A
A
O
H
GLU
ILE
57
61
1.58
7
A
A
HA
HG13
CYS
ILE
43
53
1.31
7
A
A
HB
HA
VAL
CYS
44
62
1.33
7
A
A
HB1
HB
ALA
ILE
7
75
1.33
7
A
A
O
H
ARG
ASP
18
20
1.38
7
A
A
H
O
ILE
LEU
6
73
1.54
7
A
A
O
H
ILE
ILE
6
75
1.56
7
A
A
O
H
TRP
ILE
92
94
1.58
7
A
A
H
O
PHE
ARG
5
13
1.59
7
A
A
O
H
GLU
ILE
57
61
1.59
8
A
A
HG12
HA
ILE
PHE
53
58
1.09
8
A
A
O
HA
ILE
ILE
6
74
1.53
8
A
A
O
HB
VAL
ILE
42
53
1.55
8
A
A
O
HB2
LYS
PHE
59
63
1.59
8
A
A
O
H
GLN
ALA
22
26
1.60
9
A
A
HA
HA
LYS
GLU
30
35
1.32
9
A
A
HD11
H
LEU
LEU
29
34
1.34
9
A
A
O
HA
ILE
ILE
6
74
1.54
9
A
A
O
H
GLU
ILE
57
61
1.56
9
A
A
O
H
ARG
LEU
4
73
1.57
9
A
A
O
HB2
LYS
LYS
39
78
1.59
9
A
A
O
N
ALA
PHE
37
40
2.19
10
A
A
HG
HZ
LEU
PHE
34
40
1.20
10
A
A
O
H
PRO
GLU
77
79
1.56
10
A
A
O
O
LYS
LEU
30
34
2.07
1
A
CYS
8
66.01
179.01
1
A
ARG
18
165.95
-11.78
1
A
ASP
20
73.40
163.88
1
A
LEU
34
-136.93
-147.61
1
A
ASP
36
81.37
56.42
1
A
PHE
40
-37.68
166.92
1
A
GLN
46
-127.30
-89.27
1
A
SER
47
-118.43
-89.51
1
A
THR
54
-89.12
-135.87
1
A
GLU
55
-83.94
-96.12
1
A
ASN
64
-32.31
-28.18
1
A
SER
66
85.92
79.02
1
A
GLU
69
37.08
-176.93
1
A
ASP
71
-158.38
-92.05
1
A
ARG
72
-38.29
62.37
1
A
LYS
80
-167.93
108.77
1
A
PRO
81
-71.92
-160.06
1
A
CYS
82
164.24
-37.69
1
A
SER
84
177.40
-39.71
1
A
PHE
85
-56.99
-7.44
1
A
SER
91
-152.38
-27.30
1
A
GLU
93
-63.61
-138.26
2
A
CYS
8
34.55
-136.44
2
A
GLN
11
-64.16
-113.33
2
A
GLN
16
-60.63
87.53
2
A
ASP
20
57.42
128.99
2
A
LEU
34
-124.08
-152.13
2
A
ASP
36
52.60
74.27
2
A
SER
47
55.79
-158.19
2
A
THR
54
-89.45
-92.29
2
A
GLU
55
-135.34
-80.79
2
A
ASN
64
67.86
84.26
2
A
SER
65
66.12
-78.10
2
A
SER
66
-160.78
-101.14
2
A
SER
67
55.86
148.71
2
A
GLU
69
94.36
-146.38
2
A
ARG
70
55.47
-162.57
2
A
ASP
71
166.47
171.02
2
A
ARG
72
-21.70
147.22
2
A
LYS
78
55.50
-12.18
2
A
LYS
80
167.81
102.26
2
A
PRO
81
-68.32
-158.99
2
A
PRO
83
-69.02
-86.04
2
A
SER
84
168.44
-32.53
2
A
LEU
88
-93.30
-85.24
2
A
ARG
89
57.41
-167.75
2
A
SER
91
-179.44
56.91
2
A
TRP
92
71.73
-8.92
2
A
GLU
93
114.94
-49.63
3
A
CYS
8
62.95
-165.75
3
A
GLN
11
-48.41
162.80
3
A
ARG
18
-68.00
-74.46
3
A
LEU
34
-139.43
-141.98
3
A
ASP
36
63.14
73.99
3
A
LYS
39
-97.82
52.50
3
A
SER
45
128.40
132.13
3
A
SER
47
63.09
-170.51
3
A
GLU
55
39.53
-128.60
3
A
ASN
64
66.75
95.45
3
A
SER
65
-38.23
102.80
3
A
SER
66
-159.87
-50.83
3
A
ARG
70
66.02
122.89
3
A
ASP
71
-171.21
95.69
3
A
ARG
72
17.34
17.83
3
A
LEU
73
-18.54
163.39
3
A
PRO
77
-86.93
35.04
3
A
LYS
78
57.11
-62.76
3
A
LYS
80
167.95
77.28
3
A
PRO
81
-66.59
-157.89
3
A
CYS
82
-59.32
104.15
3
A
SER
84
-178.93
-53.25
3
A
ARG
90
52.57
98.75
3
A
SER
91
75.04
44.84
3
A
TRP
92
-43.59
-72.56
3
A
GLU
93
45.72
-4.26
4
A
CYS
8
-5.07
-146.87
4
A
ARG
18
-157.61
21.79
4
A
LEU
34
-133.10
-148.34
4
A
ASP
36
86.72
52.26
4
A
SER
45
-137.91
-137.46
4
A
GLN
46
172.91
-43.99
4
A
SER
47
176.59
-33.86
4
A
ARG
49
174.77
151.19
4
A
THR
54
-77.59
-85.93
4
A
GLU
55
-146.39
-110.62
4
A
PRO
68
-61.45
-73.71
4
A
GLU
69
-12.86
-83.88
4
A
ARG
70
22.86
-123.22
4
A
LEU
73
-162.92
100.21
4
A
PRO
77
-71.80
48.85
4
A
LYS
78
45.92
-89.24
4
A
PRO
81
-70.96
-157.16
4
A
PRO
83
-74.61
-80.19
4
A
ARG
90
77.18
-29.05
4
A
TRP
92
76.33
-50.16
4
A
GLU
93
-78.65
40.32
5
A
CYS
8
92.34
-118.99
5
A
LEU
34
-123.09
-145.23
5
A
ASP
36
52.53
78.66
5
A
PHE
40
-43.47
173.34
5
A
GLN
46
-90.42
-62.40
5
A
SER
47
-160.52
-102.57
5
A
THR
54
-81.16
-76.72
5
A
GLU
55
-148.85
-63.35
5
A
ASN
64
76.34
-45.59
5
A
SER
65
177.72
-85.06
5
A
PRO
68
-80.61
-115.48
5
A
GLU
69
-35.95
-91.08
5
A
ASP
71
80.93
-150.69
5
A
ARG
72
119.56
-23.45
5
A
LYS
78
-21.88
-39.86
5
A
GLU
79
-50.99
20.45
5
A
LYS
80
119.76
71.61
5
A
PRO
81
-79.91
-157.63
5
A
PRO
83
-74.36
29.30
5
A
SER
84
74.12
-63.91
5
A
GLU
86
-73.13
20.33
5
A
ASP
87
-142.91
-45.42
5
A
SER
91
64.18
67.86
5
A
TRP
92
20.32
-108.01
5
A
GLU
93
65.39
-49.67
5
A
ILE
94
-169.79
-115.05
6
A
CYS
8
84.96
-115.05
6
A
ARG
18
-121.60
-83.87
6
A
ASP
20
-154.33
-45.77
6
A
TYR
21
-178.98
-37.07
6
A
LEU
34
-126.26
-135.73
6
A
PHE
40
-45.15
163.61
6
A
SER
47
-146.20
-107.99
6
A
THR
54
-103.08
-90.99
6
A
GLU
55
-129.23
-76.74
6
A
ASN
64
145.57
-58.93
6
A
SER
65
-177.95
-60.83
6
A
SER
66
-169.00
-1.86
6
A
GLU
69
8.71
66.79
6
A
ARG
70
168.52
110.94
6
A
LYS
80
177.19
103.51
6
A
PRO
81
-71.22
-156.22
6
A
CYS
82
-174.21
57.67
6
A
SER
84
175.41
-89.70
6
A
ARG
89
-25.84
89.39
6
A
ARG
90
59.51
-60.44
6
A
SER
91
-72.23
26.30
6
A
TRP
92
-36.12
146.89
6
A
GLU
93
-47.22
100.16
6
A
ILE
94
-166.99
-35.91
7
A
CYS
8
78.38
-167.41
7
A
SER
17
-106.62
-159.42
7
A
ARG
18
88.26
177.51
7
A
LEU
34
-120.27
-140.57
7
A
ASP
36
53.06
77.95
7
A
SER
38
-38.29
-23.70
7
A
PHE
40
-30.82
167.71
7
A
SER
45
-70.36
-79.48
7
A
GLN
46
74.21
-62.35
7
A
SER
47
147.99
-96.56
7
A
THR
54
-71.08
-100.64
7
A
GLU
55
-136.19
-46.69
7
A
ASN
64
-34.66
-31.06
7
A
SER
65
-68.54
-134.62
7
A
SER
67
70.20
68.25
7
A
PRO
68
-83.00
-85.16
7
A
GLU
69
-44.45
-89.79
7
A
ARG
70
-177.36
96.61
7
A
ASP
71
-164.10
61.84
7
A
LYS
80
-160.54
72.03
7
A
PRO
81
-85.43
-159.75
7
A
ARG
90
68.78
-63.11
7
A
SER
91
-164.79
34.79
7
A
TRP
92
5.84
79.75
7
A
GLU
93
-66.95
37.88
7
A
ILE
94
-173.63
-87.71
8
A
CYS
8
73.62
-101.81
8
A
ASP
20
-60.62
-76.52
8
A
TYR
21
-174.06
-17.77
8
A
LEU
34
-118.75
-143.81
8
A
LYS
39
-98.16
59.26
8
A
GLN
46
-149.34
-26.47
8
A
SER
47
-113.69
-139.41
8
A
THR
54
-101.32
-89.61
8
A
GLU
55
-122.68
-80.76
8
A
GLU
57
-45.51
-19.23
8
A
ASN
64
76.24
-44.38
8
A
SER
65
163.73
-28.44
8
A
ASP
71
-144.69
-88.08
8
A
ARG
72
-169.74
79.24
8
A
PRO
77
-76.57
25.70
8
A
LYS
78
55.48
-71.20
8
A
LYS
80
-157.19
82.68
8
A
PRO
81
-84.40
-117.51
8
A
CYS
82
67.49
96.96
8
A
SER
84
53.89
-84.54
8
A
LEU
88
-92.42
-69.15
8
A
ARG
89
55.15
-172.08
8
A
SER
91
-163.03
81.51
8
A
TRP
92
-55.10
95.11
8
A
GLU
93
-155.07
-44.95
9
A
CYS
8
70.33
-113.04
9
A
ASP
20
-17.25
116.57
9
A
LEU
34
-130.87
-126.21
9
A
SER
38
-39.25
-23.87
9
A
PHE
40
-44.54
162.71
9
A
GLN
46
-141.67
-61.29
9
A
SER
47
-109.79
-164.27
9
A
THR
54
-111.11
-132.77
9
A
GLU
55
-70.84
-90.23
9
A
ASN
64
60.07
61.68
9
A
SER
65
60.07
-176.58
9
A
SER
66
60.24
84.33
9
A
PRO
68
-109.75
-111.05
9
A
ARG
70
-39.96
136.02
9
A
ASP
71
-117.20
-125.87
9
A
ARG
72
-176.62
79.65
9
A
LYS
80
-179.95
83.02
9
A
PRO
81
-84.81
-135.19
9
A
CYS
82
88.93
118.88
9
A
SER
84
-149.37
-126.79
9
A
LEU
88
-82.74
-99.05
9
A
ARG
89
50.74
165.00
9
A
TRP
92
-13.10
-56.75
9
A
ILE
94
-156.70
-36.31
10
A
CYS
8
108.22
-126.42
10
A
GLN
16
-42.45
155.47
10
A
SER
17
177.36
162.62
10
A
ARG
18
-168.95
-94.36
10
A
ASP
20
65.98
149.60
10
A
LEU
34
-112.46
-153.90
10
A
SER
47
-146.66
-123.65
10
A
THR
54
-78.48
-103.53
10
A
GLU
55
-133.03
-69.59
10
A
ASN
64
91.46
-49.07
10
A
SER
65
178.31
-112.24
10
A
GLU
69
159.69
-118.53
10
A
ASP
71
-141.29
-57.61
10
A
ARG
72
-178.45
90.98
10
A
PRO
77
-79.82
27.87
10
A
LYS
78
59.24
-68.48
10
A
GLU
79
-28.57
-36.31
10
A
LYS
80
-177.29
90.13
10
A
PRO
81
-80.96
-158.47
10
A
CYS
82
163.38
69.69
10
A
PRO
83
-57.22
102.28
10
A
SER
84
173.96
-95.61
10
A
PHE
85
-27.96
-53.60
10
A
ASP
87
66.72
-54.07
10
A
ARG
89
35.31
-139.59
10
A
SER
91
55.78
78.36
10
A
TRP
92
-17.49
-48.50
10
A
GLU
93
-172.43
-35.86
SOLUTION STRUCTURE OF THE RAS-BINDING DOMAIN OF THE PROTEIN KINASE BYR2 FROM SCHIZOSACCHAROMYCES POMBE
1
N
N
A
GLY
19
A
GLY
19
HELX_P
A
SER
33
A
SER
33
1
1
15
A
ASP
36
A
ASP
36
HELX_P
A
PHE
40
A
PHE
40
5
2
5
A
GLU
56
A
GLU
56
HELX_P
A
ASN
64
A
ASN
64
1
3
9
A
SER
84
A
SER
84
HELX_P
A
ARG
89
A
ARG
89
1
4
6
TRANSFERASE
Ubiquitin superfold, TRANSFERASE
BYR2_SCHPO
UNP
1
71
P28829
CILRFIACNGQTRAVQSRGDYQKTLAIALKKFSLEDASKFIVCVSQSSRIKLITEEEFKQICFNSSSPERDRLIIVPKEK
PCPSFEDLRRSWEIE
71
165
1I35
1
95
P28829
A
1
1
95
5
anti-parallel
parallel
anti-parallel
anti-parallel
A
GLN
11
A
GLN
11
A
GLN
16
A
GLN
16
A
ILE
2
A
ILE
2
A
ALA
7
A
ALA
7
A
LEU
73
A
LEU
73
A
VAL
76
A
VAL
76
A
ILE
41
A
ILE
41
A
SER
45
A
SER
45
A
ILE
50
A
ILE
50
A
ILE
53
A
ILE
53