1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Choowongkomon, K.
Carlin, C.R.
Sonnichsen, F.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
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
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
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
J.Biol.Chem.
JBCHA3
0071
0021-9258
280
24043
24052
10.1074/jbc.M502698200
15840573
A Structural Model for the Membrane-bound Form of the Juxtamembrane Domain of the Epidermal Growth Factor Receptor
2005
10.2210/pdb1z9i/pdb
pdb_00001z9i
CHIRALITY ERROR CHIRAL CENTER CA ARG 6-12,14,16-21,23,24.
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
6246.428
Epidermal growth factor receptor
2.7.1.112
sequence database residues 669-721
1
man
polymer
Receptor tyrosine-protein kinase ErbB-1
no
no
RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG
RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG
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
human
Homo
Escherichia
Escherichia coli
sample
EGFR, ERBB1
9606
Homo sapiens
469008
Escherichia coli BL21(DE3)
BL21(DE3)
plasmid
pGEX-3X
database_2
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
1
0
2005-05-24
1
1
2008-04-30
1
2
2011-07-13
1
3
2022-03-02
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
RCSB
Y
RCSB
2005-04-02
REL
REL
The structure was determined using triple-resonance NMR spectroscopy and also using restraints from paramagnetic probe studies.
structures with the least restraint violations
100
25
3D_15N-separated_NOESY
3D_13C-separated_NOESY
HNHA
TROSY
5.0
1
atm
308
K
the structures are based on a total of 1146 restraints: 1249 are NOE-derived
distance constraints, 55 dihedral angle restraints, 27 RDC restraints, 21 distance restraints from paramagnetic probe studies.
simulated annealing
1.5 mM JX EGFR in 90 mM DPC 15N,13C, 90% H20, 10% D20
90% H20, 10% D20
1.5 mM JX EGFR in 90 mM DPC 15N in dry acrylamide gel then compress in the NMR tube, 90% H20, 10% D20
90% H20, 10% D20
collection
VNMR
processing
NMRPipe
data analysis
NMRView
5.2.1
structure solution
CNS
1.1
refinement
CNS
1.1
500
Varian
INOVA
600
Varian
INOVA
800
Varian
INOVA
ARG
1
n
1
ARG
1
A
ARG
2
n
2
ARG
2
A
ARG
3
n
3
ARG
3
A
HIS
4
n
4
HIS
4
A
ILE
5
n
5
ILE
5
A
VAL
6
n
6
VAL
6
A
ARG
7
n
7
ARG
7
A
LYS
8
n
8
LYS
8
A
ARG
9
n
9
ARG
9
A
THR
10
n
10
THR
10
A
LEU
11
n
11
LEU
11
A
ARG
12
n
12
ARG
12
A
ARG
13
n
13
ARG
13
A
LEU
14
n
14
LEU
14
A
LEU
15
n
15
LEU
15
A
GLN
16
n
16
GLN
16
A
GLU
17
n
17
GLU
17
A
ARG
18
n
18
ARG
18
A
GLU
19
n
19
GLU
19
A
LEU
20
n
20
LEU
20
A
VAL
21
n
21
VAL
21
A
GLU
22
n
22
GLU
22
A
PRO
23
n
23
PRO
23
A
LEU
24
n
24
LEU
24
A
THR
25
n
25
THR
25
A
PRO
26
n
26
PRO
26
A
SER
27
n
27
SER
27
A
GLY
28
n
28
GLY
28
A
GLU
29
n
29
GLU
29
A
ALA
30
n
30
ALA
30
A
PRO
31
n
31
PRO
31
A
ASN
32
n
32
ASN
32
A
GLN
33
n
33
GLN
33
A
ALA
34
n
34
ALA
34
A
LEU
35
n
35
LEU
35
A
LEU
36
n
36
LEU
36
A
ARG
37
n
37
ARG
37
A
ILE
38
n
38
ILE
38
A
LEU
39
n
39
LEU
39
A
LYS
40
n
40
LYS
40
A
GLU
41
n
41
GLU
41
A
THR
42
n
42
THR
42
A
GLU
43
n
43
GLU
43
A
PHE
44
n
44
PHE
44
A
LYS
45
n
45
LYS
45
A
LYS
46
n
46
LYS
46
A
ILE
47
n
47
ILE
47
A
LYS
48
n
48
LYS
48
A
VAL
49
n
49
VAL
49
A
LEU
50
n
50
LEU
50
A
GLY
51
n
51
GLY
51
A
SER
52
n
52
SER
52
A
GLY
53
n
53
GLY
53
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
6
A
CA
ARG
1
WRONG HAND
7
A
CA
ARG
1
WRONG HAND
8
A
CA
ARG
1
WRONG HAND
9
A
CA
ARG
1
WRONG HAND
10
A
CA
ARG
1
WRONG HAND
11
A
CA
ARG
1
WRONG HAND
12
A
CA
ARG
1
PLANAR
14
A
CA
ARG
1
WRONG HAND
16
A
CA
ARG
1
PLANAR
17
A
CA
ARG
1
WRONG HAND
18
A
CA
ARG
1
WRONG HAND
19
A
CA
ARG
1
WRONG HAND
20
A
CA
ARG
1
PLANAR
21
A
CA
ARG
1
WRONG HAND
23
A
CA
ARG
1
WRONG HAND
24
A
CA
ARG
1
WRONG HAND
4
-11.18
1.80
110.60
99.42
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
5
11.67
1.80
110.60
122.27
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
6
-83.61
1.80
110.60
26.99
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
7
20.14
1.80
110.60
130.74
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
8
-73.20
1.80
110.60
37.40
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
9
24.37
1.80
110.60
134.97
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
10
23.07
1.80
110.60
133.67
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
11
-84.63
1.80
110.60
25.97
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
12
-110.17
1.80
110.60
0.43
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
14
-37.70
1.80
110.60
72.90
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
16
-99.99
1.80
110.60
10.61
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
17
-58.24
1.80
110.60
52.36
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
18
-52.26
1.80
110.60
58.34
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
19
-61.16
1.80
110.60
49.44
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
20
-105.65
1.80
110.60
4.95
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
21
-13.26
1.80
110.60
97.34
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
22
14.78
1.80
110.60
125.38
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
23
25.35
1.80
110.60
135.95
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
24
-28.71
1.80
110.60
81.89
A
A
A
N
CA
CB
ARG
ARG
ARG
1
1
1
N
1
A
ARG
2
-158.69
-56.90
1
A
ARG
3
-111.93
-168.16
1
A
LEU
20
-152.85
-78.16
1
A
GLU
22
177.58
-53.72
1
A
ALA
30
177.98
163.61
2
A
ARG
2
-105.34
-63.78
2
A
ILE
5
-135.45
-57.62
2
A
VAL
6
-59.46
92.28
2
A
ARG
7
-126.37
-72.88
2
A
LEU
11
-59.65
-9.04
2
A
GLU
19
48.75
21.16
2
A
GLU
22
66.63
68.92
2
A
SER
27
-67.07
-79.22
2
A
GLU
29
72.22
-59.18
3
A
ARG
3
-104.73
-168.01
3
A
LEU
20
-134.63
-72.37
3
A
GLU
22
177.45
-51.50
3
A
SER
27
-91.84
-72.66
3
A
ALA
30
-176.10
147.49
4
A
HIS
4
53.41
92.00
4
A
GLU
22
-177.77
-58.92
4
A
LEU
24
-145.93
-42.65
4
A
THR
25
69.07
100.40
4
A
THR
42
-151.09
11.70
5
A
HIS
4
63.71
-78.91
5
A
ILE
5
73.64
-61.58
5
A
VAL
21
-145.39
-50.40
5
A
LEU
24
-100.33
-67.76
5
A
THR
25
49.27
95.12
5
A
PRO
26
-85.12
45.93
5
A
GLU
29
-96.69
39.12
5
A
THR
42
-146.53
11.79
6
A
ARG
2
60.31
162.90
6
A
HIS
4
-99.01
31.14
6
A
ILE
5
75.69
-60.43
6
A
GLU
19
75.54
-0.44
6
A
LEU
20
-145.69
-72.70
6
A
VAL
21
-154.30
-63.31
6
A
GLU
22
-167.18
68.13
6
A
SER
27
-77.25
-78.49
6
A
GLU
29
75.60
-57.36
7
A
ARG
2
-92.18
-73.26
7
A
HIS
4
65.61
79.58
7
A
ARG
7
-96.94
38.25
7
A
GLU
19
-151.29
47.50
7
A
LEU
20
-144.46
-77.98
7
A
GLU
22
179.68
-55.22
7
A
SER
27
-122.79
-62.41
7
A
GLU
29
-98.36
35.00
8
A
ARG
2
-105.33
-166.95
8
A
ARG
7
64.47
-164.17
8
A
LYS
8
-48.46
-16.34
8
A
LEU
20
-162.98
52.63
8
A
GLU
22
-174.81
59.49
8
A
PRO
23
-82.00
41.47
9
A
ARG
2
-153.87
-68.34
9
A
HIS
4
62.89
73.48
9
A
ARG
7
-171.74
-44.09
9
A
GLU
19
-159.62
-67.54
9
A
LEU
20
179.87
-36.81
9
A
PRO
23
-68.35
60.44
9
A
LEU
24
176.35
-37.41
9
A
SER
27
-159.60
-57.19
9
A
GLU
29
-179.59
-41.90
9
A
ALA
30
115.10
-59.96
10
A
ARG
2
59.96
174.09
10
A
HIS
4
-98.49
30.72
10
A
VAL
6
-98.30
42.87
10
A
ARG
13
-76.36
-71.39
10
A
LEU
15
-90.24
-65.26
10
A
GLU
19
-157.95
39.30
10
A
GLU
22
-173.10
130.82
10
A
SER
27
-176.68
-39.24
11
A
ARG
3
-126.62
-62.31
11
A
HIS
4
-175.69
-76.17
11
A
ARG
7
-143.56
-68.13
11
A
LEU
11
-56.53
-9.37
11
A
GLU
19
178.44
-34.01
11
A
LEU
20
75.46
46.54
11
A
VAL
21
-145.37
-57.97
11
A
GLU
22
-177.15
56.61
12
A
GLU
22
68.24
62.80
12
A
PRO
23
-84.03
49.52
12
A
SER
27
-107.50
44.11
13
A
ARG
2
-138.19
-69.93
13
A
ARG
7
67.59
-151.80
13
A
VAL
21
49.08
27.70
13
A
GLU
22
-175.67
60.29
13
A
LEU
24
-96.71
38.24
14
A
ARG
3
-98.77
31.73
14
A
ILE
5
70.70
-65.73
14
A
ARG
7
-167.12
-46.41
14
A
VAL
21
79.03
-43.72
14
A
GLU
22
74.90
50.66
14
A
LEU
24
-177.14
38.73
14
A
SER
27
-92.15
-63.75
14
A
ALA
30
179.85
138.17
15
A
ARG
2
-107.47
-69.54
15
A
ARG
3
-153.35
62.35
15
A
HIS
4
-96.24
38.70
15
A
ARG
7
-151.83
-59.53
15
A
LEU
11
-57.19
-6.67
15
A
VAL
21
-156.87
-51.61
15
A
GLU
22
-179.12
-58.92
15
A
GLU
29
-93.45
48.58
16
A
ARG
2
61.09
177.72
16
A
ARG
3
-162.26
116.59
16
A
HIS
4
-59.09
93.80
16
A
VAL
6
66.78
133.68
16
A
ARG
9
-49.82
-15.03
16
A
GLU
19
66.69
-71.06
16
A
LEU
20
-142.89
-46.82
16
A
VAL
21
-148.62
-68.49
16
A
GLU
22
-176.88
52.35
16
A
PRO
23
-64.80
-74.77
16
A
SER
27
-178.75
38.43
16
A
ALA
30
-156.67
-58.11
17
A
ARG
2
-167.26
90.81
17
A
ILE
5
-143.36
-49.23
17
A
ARG
7
-146.89
-48.46
17
A
LEU
20
-130.79
-77.18
17
A
GLU
22
178.74
-54.99
17
A
SER
27
-163.88
-49.37
17
A
ASN
32
-43.60
-71.18
17
A
THR
42
175.73
-74.21
18
A
VAL
6
66.87
138.17
18
A
GLU
19
-171.98
38.78
18
A
SER
27
-144.18
-55.91
18
A
GLU
29
69.92
-57.30
19
A
ARG
2
-146.84
20.80
19
A
HIS
4
62.18
78.24
19
A
VAL
6
63.17
62.27
19
A
ARG
7
-166.10
-48.79
19
A
LEU
20
-145.09
47.40
19
A
VAL
21
-162.88
-49.00
19
A
GLU
22
-178.98
59.24
19
A
PRO
26
-89.76
39.31
19
A
SER
27
-165.31
50.13
19
A
GLU
29
-159.02
34.98
20
A
ARG
3
-162.21
76.50
20
A
VAL
6
-101.94
75.62
20
A
ARG
7
-179.58
-38.66
20
A
LEU
20
-135.13
-47.00
20
A
GLU
22
-175.63
-53.91
20
A
PRO
23
-57.89
84.26
20
A
SER
27
-159.93
52.83
20
A
ALA
30
107.68
-56.18
21
A
ARG
2
-121.40
-80.14
21
A
ARG
3
-151.61
72.43
21
A
LEU
20
-130.20
-45.46
21
A
GLU
22
-175.90
-53.29
21
A
LEU
24
-141.26
-61.39
21
A
THR
25
54.99
96.81
21
A
SER
27
-151.74
-54.65
21
A
GLU
29
-157.53
42.57
21
A
ALA
30
-104.26
-69.25
22
A
ARG
2
-72.87
-82.79
22
A
ARG
3
-156.17
21.25
22
A
HIS
4
49.03
98.24
22
A
LEU
20
-102.24
-60.63
22
A
GLU
22
-168.36
-60.72
22
A
SER
27
-61.32
-71.48
22
A
ALA
30
-177.86
149.40
23
A
ARG
2
-156.49
25.57
23
A
ARG
3
-160.04
24.12
23
A
ILE
5
58.40
-87.51
23
A
VAL
6
175.26
53.05
23
A
LEU
20
-141.82
30.65
23
A
GLU
22
64.16
80.75
23
A
THR
25
51.58
92.06
23
A
SER
27
-56.53
-80.82
23
A
ALA
30
113.43
-50.48
24
A
ARG
2
-152.68
-50.26
24
A
ILE
5
-134.78
-62.01
24
A
ARG
7
-149.86
-61.96
24
A
LEU
20
-94.26
47.61
24
A
VAL
21
-142.25
-67.44
24
A
THR
25
41.42
88.95
24
A
SER
27
-151.14
52.51
24
A
GLU
29
-162.06
-47.01
24
A
THR
42
-151.12
-72.75
25
A
ARG
3
-91.64
-79.50
25
A
ARG
7
178.52
-52.07
25
A
GLU
22
-174.11
55.01
25
A
LEU
24
-165.22
-40.93
25
A
THR
25
58.41
98.13
25
A
SER
27
-107.12
-61.87
A Structural Model for the Membrane-Bound Form of the Juxtamembrane Domain of the Epidermal Growth Factor Receptor
1
N
N
A
ARG
9
A
ARG
9
HELX_P
A
GLU
17
A
GLU
17
1
1
9
A
ARG
18
A
ARG
18
HELX_P
A
LEU
20
A
LEU
20
5
2
3
A
ALA
30
A
ALA
30
HELX_P
A
THR
42
A
THR
42
1
3
13
A
THR
42
A
THR
42
HELX_P
A
GLY
51
A
GLY
51
1
4
10
TRANSFERASE
juxtamembrane structure EGFR micelle, TRANSFERASE
EGFR_HUMAN
UNP
1
669
P00533
RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG
669
721
1Z9I
1
53
P00533
A
1
1
53