1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Kozlov, G.
Gehring, K.
Ekiel, I.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.0
90.0
90.0
1.0
1.0
1.0
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
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
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
320
813
820
10.1016/S0022-2836(02)00544-2
12095257
Solution Structure of the PDZ2 Domain from Cytosolic Human Phosphatase hPTP1E Complexed
with a Peptide Reveals Contribution of the beta2-beta3 Loop to PDZ Domain-Ligand Interactions
2002
US
Biochemistry
BICHAW
0033
0006-2960
39
2572
2580
10.1021/bi991913c
Solution Structure of the PDZ2 Domain from Human Phosphatase hPTP1E and its
Interactions with C-terminal Peptides from the Fas Receptor
2000
10.2210/pdb1d5g/pdb
pdb_00001d5g
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
10020.252
HUMAN PHOSPHATASE HPTP1E
PDZ2 DOMAIN
1
man
polymer
1610.588
PEPTIDE FADSEADENEQVSAV
1
syn
polymer
no
no
PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRN
TGQVVHLLLEKGQSPT
PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRN
TGQVVHLLLEKGQSPT
A
polypeptide(L)
no
no
FADSEADENEQVSAV
FADSEADENEQVSAV
B
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
human
Homo
Escherichia
sample
9606
Homo sapiens
562
Escherichia coli
PET
database_2
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2002-07-24
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-16
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
SOLUTION STRUCTURE OF NON-LIGANDED PDZ2
RCSB
Y
RCSB
1999-10-07
REL
REL
THE PEPTIDE WAS CHEMICALLY SYNTHESIZED.
sample
THE STRUCTURE WAS DETERMINED USING TRIPLE-RESONANCE NMR SPECTROSCOPY AND 2D
HOMONUCLEAR TECHNIQUES
structures with the lowest energy
100
20
3D_15N-SEPARATED_NOESY
2D NOESY
2D NOESY
3D_13C-SEPARATED_NOESY
0.15 M NACL
6.8
AMBIENT
293
K
0.15 M NACL
6.8
AMBIENT
293
K
0.15 M NACL
6.8
AMBIENT
293
K
0.15 M NACL
6.8
AMBIENT
293
K
THE STRUCTURE IS BASED ON A TOTAL OF 1391 NON-REDUNDANT CONSTRAINTS, 1269 ARE
NOE-DERIVED DISTANCE CONSTRAINTS, 81 DIHEDRAL ANGLE RESTRAINTS, 41 HYDROGEN
BOND CONSTRAINTS.
simulated annealing
1
lowest energy
1.0-5.0 MM OF N15-LABELED PDZ2 DOMAIN WITH 20% MOLAR EXCESS OF UNLABELED PEPTIDE
1.0-5.0 MM OF UNLABELED PDZ2 DOMAIN WITH 20% MOLAR EXCESS OF UNLABELED PEPTIDE
1.0-5.0 MM OF UNLABELED PDZ2 DOMAIN WITH 20% MOLAR EXCESS OF UNLABELED PEPTIDE
1.0-5.0 MM OF DOUBLE-LABELED PDZ2 DOMAIN WITH 20% MOLAR EXCESS OF UNLABELED
PEPTIDE
BRUKER
collection
XwinNMR
2.1
DELSUC
processing
Gifa
4.0
WUTHRICH
data analysis
XEASY
1.3.13
BRUNGER
structure solution
CNS
0.5
NILGES
structure solution
ARIA
0.1
NILGES
refinement
ARIA
0.1
500
Bruker
DRX
PRO
1
n
1
PRO
1
A
LYS
2
n
2
LYS
2
A
PRO
3
n
3
PRO
3
A
GLY
4
n
4
GLY
4
A
ASP
5
n
5
ASP
5
A
ILE
6
n
6
ILE
6
A
PHE
7
n
7
PHE
7
A
GLU
8
n
8
GLU
8
A
VAL
9
n
9
VAL
9
A
GLU
10
n
10
GLU
10
A
LEU
11
n
11
LEU
11
A
ALA
12
n
12
ALA
12
A
LYS
13
n
13
LYS
13
A
ASN
14
n
14
ASN
14
A
ASP
15
n
15
ASP
15
A
ASN
16
n
16
ASN
16
A
SER
17
n
17
SER
17
A
LEU
18
n
18
LEU
18
A
GLY
19
n
19
GLY
19
A
ILE
20
n
20
ILE
20
A
SER
21
n
21
SER
21
A
VAL
22
n
22
VAL
22
A
THR
23
n
23
THR
23
A
GLY
24
n
24
GLY
24
A
GLY
25
n
25
GLY
25
A
VAL
26
n
26
VAL
26
A
ASN
27
n
27
ASN
27
A
THR
28
n
28
THR
28
A
SER
29
n
29
SER
29
A
VAL
30
n
30
VAL
30
A
ARG
31
n
31
ARG
31
A
HIS
32
n
32
HIS
32
A
GLY
33
n
33
GLY
33
A
GLY
34
n
34
GLY
34
A
ILE
35
n
35
ILE
35
A
TYR
36
n
36
TYR
36
A
VAL
37
n
37
VAL
37
A
LYS
38
n
38
LYS
38
A
ALA
39
n
39
ALA
39
A
VAL
40
n
40
VAL
40
A
ILE
41
n
41
ILE
41
A
PRO
42
n
42
PRO
42
A
GLN
43
n
43
GLN
43
A
GLY
44
n
44
GLY
44
A
ALA
45
n
45
ALA
45
A
ALA
46
n
46
ALA
46
A
GLU
47
n
47
GLU
47
A
SER
48
n
48
SER
48
A
ASP
49
n
49
ASP
49
A
GLY
50
n
50
GLY
50
A
ARG
51
n
51
ARG
51
A
ILE
52
n
52
ILE
52
A
HIS
53
n
53
HIS
53
A
LYS
54
n
54
LYS
54
A
GLY
55
n
55
GLY
55
A
ASP
56
n
56
ASP
56
A
ARG
57
n
57
ARG
57
A
VAL
58
n
58
VAL
58
A
LEU
59
n
59
LEU
59
A
ALA
60
n
60
ALA
60
A
VAL
61
n
61
VAL
61
A
ASN
62
n
62
ASN
62
A
GLY
63
n
63
GLY
63
A
VAL
64
n
64
VAL
64
A
SER
65
n
65
SER
65
A
LEU
66
n
66
LEU
66
A
GLU
67
n
67
GLU
67
A
GLY
68
n
68
GLY
68
A
ALA
69
n
69
ALA
69
A
THR
70
n
70
THR
70
A
HIS
71
n
71
HIS
71
A
LYS
72
n
72
LYS
72
A
GLN
73
n
73
GLN
73
A
ALA
74
n
74
ALA
74
A
VAL
75
n
75
VAL
75
A
GLU
76
n
76
GLU
76
A
THR
77
n
77
THR
77
A
LEU
78
n
78
LEU
78
A
ARG
79
n
79
ARG
79
A
ASN
80
n
80
ASN
80
A
THR
81
n
81
THR
81
A
GLY
82
n
82
GLY
82
A
GLN
83
n
83
GLN
83
A
VAL
84
n
84
VAL
84
A
VAL
85
n
85
VAL
85
A
HIS
86
n
86
HIS
86
A
LEU
87
n
87
LEU
87
A
LEU
88
n
88
LEU
88
A
LEU
89
n
89
LEU
89
A
GLU
90
n
90
GLU
90
A
LYS
91
n
91
LYS
91
A
GLY
92
n
92
GLY
92
A
GLN
93
n
93
GLN
93
A
SER
94
n
94
SER
94
A
PRO
95
n
95
PRO
95
A
THR
96
n
96
THR
96
A
PHE
1
n
1
PHE
1
B
ALA
2
n
2
ALA
2
B
ASP
3
n
3
ASP
3
B
SER
4
n
4
SER
4
B
GLU
5
n
5
GLU
5
B
ALA
6
n
6
ALA
6
B
ASP
7
n
7
ASP
7
B
GLU
8
n
8
GLU
8
B
ASN
9
n
9
ASN
9
B
GLU
10
n
10
GLU
10
B
GLN
11
n
11
GLN
11
B
VAL
12
n
12
VAL
12
B
SER
13
n
13
SER
13
B
ALA
14
n
14
ALA
14
B
VAL
15
n
15
VAL
15
B
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
x,y,z
identity operation
0.0000000000
0.0000000000
0.0000000000
A
N
PHE
7
A
N
PHE
7
A
O
LEU
89
A
O
LEU
89
A
O
GLU
90
A
O
GLU
90
A
N
ARG
57
A
N
ARG
57
A
N
VAL
61
A
N
VAL
61
A
O
VAL
64
A
O
VAL
64
A
O
LYS
38
A
O
LYS
38
A
N
SER
21
A
N
SER
21
A
N
ILE
20
A
N
ILE
20
B
O
VAL
15
B
O
VAL
15
3
A
A
HZ1
OD1
LYS
ASP
2
5
1.60
1
A
A
ASN
THR
27
28
148.68
3
A
A
ASP
ASN
15
16
139.76
6
A
A
ASN
THR
27
28
148.52
16
A
A
ASN
THR
27
28
148.15
3
A
ARG
51
0.081
SIDE CHAIN
3
A
ARG
57
0.081
SIDE CHAIN
6
A
ARG
57
0.134
SIDE CHAIN
7
A
ARG
57
0.125
SIDE CHAIN
8
A
ARG
57
0.160
SIDE CHAIN
10
A
ARG
79
0.102
SIDE CHAIN
11
A
ARG
57
0.076
SIDE CHAIN
14
A
ARG
31
0.104
SIDE CHAIN
15
A
ARG
51
0.096
SIDE CHAIN
16
A
ARG
57
0.080
SIDE CHAIN
17
A
ARG
51
0.105
SIDE CHAIN
18
A
ARG
51
0.091
SIDE CHAIN
19
A
ARG
57
0.089
SIDE CHAIN
20
A
ARG
79
0.079
SIDE CHAIN
1
-3.18
0.50
120.30
117.12
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
51
51
51
N
1
3.49
0.50
120.30
123.79
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
79
79
79
N
2
4.27
0.50
120.30
124.57
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
3
3.35
0.50
120.30
123.65
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
31
31
31
N
4
3.89
0.50
120.30
124.19
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
31
31
31
N
4
-3.12
0.50
120.30
117.18
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
31
31
31
N
4
3.07
0.50
120.30
123.37
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
51
51
51
N
4
3.27
0.50
120.30
123.57
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
5
3.48
0.50
120.30
123.78
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
79
79
79
N
6
3.74
0.50
120.30
124.04
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
51
51
51
N
6
3.70
0.50
120.30
124.00
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
6
-3.12
0.50
120.30
117.18
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
57
57
57
N
7
-5.07
0.60
121.00
115.93
A
A
A
CB
CG
CD2
TYR
TYR
TYR
36
36
36
N
7
4.95
0.60
121.00
125.95
A
A
A
CB
CG
CD1
TYR
TYR
TYR
36
36
36
N
9
3.05
0.50
120.30
123.35
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
79
79
79
N
10
4.26
0.50
120.30
124.56
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
51
51
51
N
12
3.46
0.50
120.30
123.76
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
13
3.48
0.50
120.30
123.78
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
31
31
31
N
13
-3.08
0.50
120.30
117.22
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
31
31
31
N
14
3.27
0.50
120.30
123.57
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
31
31
31
N
15
3.04
0.50
120.30
123.34
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
51
51
51
N
15
-3.62
0.50
120.30
116.68
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
51
51
51
N
15
3.37
0.50
120.30
123.67
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
15
3.40
0.50
120.30
123.70
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
79
79
79
N
16
3.47
0.50
120.30
123.77
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
17
4.20
0.50
120.30
124.50
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
17
3.21
0.50
120.30
123.51
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
79
79
79
N
17
22.34
2.20
113.40
135.74
B
B
B
CA
CB
CG
GLU
GLU
GLU
5
5
5
N
19
3.21
0.50
120.30
123.51
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
31
31
31
N
19
3.42
0.50
120.30
123.72
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
57
57
57
N
1
A
ASN
14
-121.32
-81.89
1
A
ASN
16
-142.24
-139.10
1
A
SER
17
-85.49
-85.62
1
A
LEU
18
-101.18
-74.46
1
A
VAL
26
-87.27
-119.35
1
A
SER
29
-156.01
-69.05
1
A
ARG
31
-141.12
-92.10
1
A
HIS
32
-117.58
52.35
1
A
GLN
43
-141.70
-1.40
1
A
ARG
51
-137.18
-41.79
1
A
LEU
59
-121.15
-91.18
1
A
GLU
67
-68.81
99.80
1
A
THR
81
-109.06
-89.85
1
B
SER
4
-146.65
-78.04
1
B
GLU
5
-104.57
-69.22
1
B
ASN
9
-151.25
27.82
1
B
GLN
11
-133.58
-122.16
2
A
ASN
14
-92.29
-66.36
2
A
ASP
15
-88.70
-71.37
2
A
SER
17
-83.06
-71.19
2
A
LEU
18
-101.85
-83.27
2
A
SER
29
-155.39
-89.75
2
A
ARG
31
-133.95
-153.18
2
A
PRO
42
-83.11
40.90
2
A
GLN
43
-144.78
53.85
2
A
LEU
59
-122.04
-86.13
2
A
THR
81
-92.89
-80.85
2
B
ASP
3
72.40
58.06
2
B
GLU
5
-74.50
-95.82
2
B
GLU
8
58.09
-165.04
3
A
LEU
11
-134.49
-155.95
3
A
ASN
14
-120.98
-69.88
3
A
ASN
16
-137.79
-131.11
3
A
SER
17
-89.81
-78.15
3
A
LEU
18
-103.21
-99.31
3
A
VAL
26
-97.21
-130.11
3
A
SER
29
-156.55
-69.25
3
A
ARG
31
-125.52
-83.64
3
A
ARG
51
-136.16
-45.70
3
A
LEU
59
-128.98
-81.01
3
A
LEU
66
-95.08
51.84
3
A
THR
81
-99.72
-74.08
3
B
SER
4
-119.07
-70.93
3
B
GLU
5
-93.51
-86.88
3
B
GLN
11
-153.98
-122.84
4
A
ASN
14
-98.35
-88.21
4
A
ASN
16
-156.90
-158.06
4
A
SER
17
-83.53
-82.05
4
A
LEU
18
-102.49
-97.53
4
A
VAL
26
-80.95
-112.33
4
A
SER
29
-154.60
-69.14
4
A
VAL
30
-91.97
-61.44
4
A
ARG
31
-124.93
-71.03
4
A
HIS
32
-141.71
39.54
4
A
GLN
43
-141.16
22.28
4
A
ARG
51
-138.56
-37.15
4
A
LEU
59
-122.04
-74.07
4
A
LEU
66
-93.42
44.93
4
A
ASN
80
-93.50
58.98
4
A
THR
81
-88.45
-72.46
4
B
SER
4
-106.31
-81.68
4
B
GLU
5
-83.53
-79.51
4
B
ASP
7
-84.95
-97.27
4
B
GLN
11
-154.97
-132.21
5
A
ASN
14
-107.50
-92.04
5
A
LEU
18
-101.77
-79.15
5
A
SER
29
-155.81
-86.40
5
A
ARG
31
-129.02
-154.47
5
A
LYS
38
-87.60
-70.12
5
A
GLN
43
-141.39
-0.42
5
A
LEU
59
-128.24
-87.25
5
A
ASN
80
-90.93
48.81
5
A
THR
81
-85.74
-70.40
5
B
ALA
2
-96.57
-70.98
5
B
ASP
3
84.18
86.72
5
B
GLU
8
63.09
-171.34
5
B
GLN
11
-135.55
-148.97
6
A
ASN
14
-101.90
-70.89
6
A
ASP
15
-87.43
-74.69
6
A
LEU
18
-101.52
-86.09
6
A
SER
29
-146.87
-83.25
6
A
ARG
31
-130.35
-158.05
6
A
LYS
38
-87.76
-70.08
6
A
PRO
42
-84.39
45.28
6
A
GLN
43
-143.02
34.41
6
A
LEU
59
-121.04
-88.52
6
A
LEU
66
-101.39
75.21
6
A
ASN
80
-90.64
52.82
6
A
THR
81
-109.04
-94.06
6
A
GLN
83
-84.68
-77.17
6
B
ASP
7
-116.90
74.77
6
B
GLU
8
44.23
-152.24
6
B
GLN
11
-123.54
-169.19
7
A
ASN
14
-113.71
-83.28
7
A
SER
17
-83.85
-72.55
7
A
LEU
18
-102.38
-84.40
7
A
VAL
26
-98.84
-127.69
7
A
SER
29
-134.71
-75.94
7
A
PRO
42
-80.36
41.64
7
A
ARG
51
-138.82
-34.61
7
A
LEU
59
-119.88
-86.68
7
A
ASN
80
-100.47
65.64
7
A
THR
81
-92.74
-68.24
7
B
GLU
8
42.93
-112.79
7
B
GLN
11
-151.87
-157.75
8
A
ASN
14
-115.04
-78.98
8
A
SER
17
-83.29
-83.14
8
A
LEU
18
-101.85
-99.90
8
A
VAL
26
-119.29
-113.71
8
A
ASN
27
-93.30
-62.69
8
A
SER
29
-134.64
-84.08
8
A
LYS
38
-91.93
-68.01
8
A
PRO
42
-81.50
34.93
8
A
LEU
59
-121.40
-88.67
8
A
THR
81
-104.41
-78.10
8
B
ALA
2
-89.03
-72.26
8
B
GLU
8
64.49
-135.00
8
B
GLN
11
-136.71
-158.59
9
A
ASN
14
-119.10
-84.06
9
A
SER
17
-92.64
-73.88
9
A
LEU
18
-102.07
-91.06
9
A
SER
29
-156.21
-101.21
9
A
ARG
31
-131.86
-145.18
9
A
LYS
38
-90.12
-62.26
9
A
PRO
42
-80.35
41.79
9
A
GLN
43
-145.58
53.12
9
A
ARG
51
-138.87
-30.30
9
A
LEU
59
-121.81
-89.51
9
A
THR
81
-108.50
-86.60
9
B
ALA
2
-98.43
-74.62
9
B
SER
4
-117.37
-164.07
9
B
GLU
5
-108.51
-68.59
9
B
GLU
8
72.42
-128.81
10
A
ASN
14
-97.97
-70.87
10
A
ASP
15
-70.43
-76.91
10
A
LEU
18
-101.76
-88.18
10
A
VAL
26
-88.04
-107.64
10
A
SER
29
-155.37
-93.04
10
A
ARG
31
-125.98
-139.05
10
A
LYS
38
-97.17
-67.39
10
A
GLN
43
-160.33
53.95
10
A
ARG
51
-137.83
-54.50
10
A
LEU
59
-125.90
-81.42
10
A
THR
81
-102.14
-103.84
10
A
PRO
95
-76.02
45.05
10
B
ALA
2
-96.59
-103.63
10
B
GLU
5
-115.25
-84.14
10
B
GLU
10
-122.99
-117.33
11
A
ASN
14
-117.92
-89.07
11
A
LEU
18
-104.10
-93.55
11
A
VAL
26
-88.54
-108.44
11
A
SER
29
-155.72
-84.27
11
A
ARG
31
-116.89
-138.36
11
A
LYS
38
-97.11
-66.64
11
A
PRO
42
-82.90
40.99
11
A
GLN
43
-160.59
78.00
11
A
ARG
51
-136.72
-42.40
11
A
LEU
59
-141.79
-82.97
11
A
ASN
80
-89.97
42.45
11
A
THR
81
-93.10
-71.88
11
B
ALA
2
-122.70
-92.48
11
B
GLU
5
68.58
65.36
11
B
ALA
6
77.40
91.93
11
B
GLU
10
-122.68
-74.33
12
A
ASN
14
-100.66
-93.66
12
A
ASN
16
-147.66
-153.83
12
A
SER
17
-83.47
-90.94
12
A
LEU
18
-101.64
-85.22
12
A
VAL
26
-92.14
-92.10
12
A
SER
29
-154.83
-74.20
12
A
ARG
31
-132.08
-159.67
12
A
LYS
38
-90.85
-65.64
12
A
PRO
42
-79.35
43.31
12
A
GLN
43
-153.57
47.66
12
A
LEU
59
-121.53
-90.97
12
B
ALA
2
-146.99
-128.46
12
B
SER
4
-143.23
-86.58
12
B
GLU
5
-116.27
-162.83
12
B
ALA
6
-102.81
-80.65
12
B
GLU
8
-139.55
-93.17
12
B
GLN
11
-143.08
-131.21
13
A
LEU
11
-112.69
-160.88
13
A
ASN
14
-90.75
-71.39
13
A
LEU
18
-102.36
-89.95
13
A
VAL
26
-108.58
-108.36
13
A
ASN
27
-72.63
-76.42
13
A
SER
29
-138.87
-73.97
13
A
ARG
31
-125.00
-115.83
13
A
PRO
42
-81.36
32.22
13
A
GLN
43
-142.79
52.57
13
A
ARG
51
-139.87
-51.77
13
A
LEU
59
-119.69
-84.51
13
A
LEU
66
-85.67
47.58
13
B
SER
4
-149.16
-69.60
13
B
GLU
5
-100.00
-129.31
13
B
GLN
11
-139.27
-130.50
14
A
ASN
14
-102.55
-62.68
14
A
LEU
18
-104.04
-105.46
14
A
VAL
26
-117.72
-104.84
14
A
SER
29
-151.53
-86.93
14
A
ARG
31
-144.23
-123.33
14
A
GLN
43
-141.13
-40.94
14
A
ARG
51
-139.63
-41.25
14
A
LEU
59
-119.01
-88.27
14
A
ASN
80
-85.00
49.61
14
A
THR
81
-98.48
-76.27
14
B
SER
4
-78.54
-102.93
14
B
GLU
5
66.79
174.61
14
B
ASN
9
-128.64
-146.63
14
B
GLU
10
-123.43
-85.24
15
A
ASN
14
-91.28
-85.96
15
A
LEU
18
-101.04
-79.92
15
A
VAL
26
-107.61
-120.66
15
A
ASN
27
-79.65
-81.12
15
A
SER
29
-155.32
-85.93
15
A
ARG
31
-133.46
-153.84
15
A
GLN
43
-157.33
32.94
15
A
ARG
51
-136.87
-53.70
15
A
LEU
59
-121.07
-86.47
15
A
ASN
80
-92.07
56.01
15
A
THR
81
-109.87
-69.25
15
B
ALA
2
58.92
85.73
15
B
ASP
3
-96.81
-158.00
15
B
SER
4
-86.44
-78.76
15
B
GLU
8
-113.90
-94.14
15
B
ASN
9
68.87
61.90
15
B
GLN
11
-121.69
-161.89
16
A
LEU
11
-135.73
-159.46
16
A
ASN
14
-93.27
-88.56
16
A
SER
17
-81.89
-88.53
16
A
LEU
18
-102.71
-89.39
16
A
VAL
26
-93.32
-124.09
16
A
SER
29
-155.84
-103.71
16
A
HIS
32
-78.89
44.13
16
A
PRO
42
-80.50
35.57
16
A
GLN
43
-151.18
62.50
16
A
ARG
51
-136.18
-43.72
16
A
LEU
59
-131.88
-81.48
16
A
THR
81
-99.49
-73.30
16
B
ALA
2
57.63
83.54
16
B
ASP
7
-160.42
87.34
17
A
ASN
14
-121.17
-83.88
17
A
LEU
18
-102.30
-90.64
17
A
VAL
26
-106.08
-107.02
17
A
SER
29
-145.23
-79.65
17
A
ARG
31
-119.44
-142.20
17
A
PRO
42
-80.64
32.26
17
A
ARG
51
-139.94
-43.50
17
A
LEU
59
-121.61
-80.46
17
A
THR
81
-110.93
-74.14
17
A
PRO
95
-85.91
50.00
17
B
ALA
2
-84.67
-71.27
17
B
ALA
6
-151.83
-76.36
17
B
GLN
11
-123.58
-147.07
18
A
ASN
14
-122.08
-102.75
18
A
LEU
18
-101.89
-81.74
18
A
VAL
26
-108.51
-64.35
18
A
ASN
27
-110.50
-96.54
18
A
SER
29
-134.40
-89.84
18
A
ARG
31
-127.57
-153.27
18
A
GLN
43
-141.55
-39.32
18
A
ARG
51
-137.03
-51.45
18
A
LEU
59
-131.76
-82.01
18
A
LEU
66
-108.20
55.96
18
A
THR
81
-103.73
-76.63
18
B
ALA
2
77.71
173.07
18
B
ASP
3
-129.46
-72.89
18
B
SER
4
-138.19
-119.24
18
B
GLU
8
-120.38
-155.09
18
B
GLN
11
-122.38
-134.22
19
A
ASN
14
-121.56
-97.65
19
A
SER
17
-84.39
-80.51
19
A
LEU
18
-103.19
-90.55
19
A
VAL
26
-83.49
-126.30
19
A
SER
29
-155.04
-111.65
19
A
ARG
31
-141.72
-147.93
19
A
PRO
42
-79.69
34.12
19
A
ARG
51
-138.40
-58.39
19
A
LEU
59
-124.83
-77.58
19
A
THR
81
-108.40
-81.27
19
B
ALA
2
72.07
42.07
19
B
ASP
7
-154.57
78.32
19
B
ASN
9
67.41
69.60
20
A
ASN
14
-99.88
-93.44
20
A
SER
17
-84.29
-72.00
20
A
LEU
18
-102.36
-75.56
20
A
VAL
26
-105.64
-148.91
20
A
SER
29
-151.07
-105.20
20
A
ARG
31
-131.70
-158.84
20
A
LYS
38
-91.01
-63.54
20
A
PRO
42
-73.81
44.85
20
A
GLN
43
-153.93
43.12
20
A
ARG
51
-138.30
-44.26
20
A
LEU
59
-135.49
-60.07
20
A
THR
81
-99.02
-61.21
20
B
GLU
5
64.83
84.06
20
B
ASP
7
-101.39
71.65
20
B
ASN
9
40.66
70.62
20
B
GLN
11
-121.91
-157.88
SOLUTION STRUCTURE OF THE PDZ2 DOMAIN FROM HUMAN PHOSPHATASE HPTP1E COMPLEXED WITH A PEPTIDE
1
N
N
2
N
N
A
GLY
44
A
GLY
44
HELX_P
A
ASP
49
A
ASP
49
1
1
6
A
THR
70
A
THR
70
HELX_P
A
ASN
80
A
ASN
80
1
2
11
HYDROLASE
PROTEIN-PEPTIDE COMPLEX, HYDROLASE
PTN13_HUMAN
UNP
1
Q12923
1D5G
PDB
2
1D5G
1361
1456
1D5G
1
96
Q12923
A
1
1
96
1
15
1D5G
1
15
1D5G
B
2
1
15
4
3
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
A
ILE
6
A
ILE
6
A
ALA
12
A
ALA
12
A
VAL
84
A
VAL
84
A
GLU
90
A
GLU
90
A
ARG
57
A
ARG
57
A
VAL
61
A
VAL
61
A
VAL
64
A
VAL
64
A
SER
65
A
SER
65
A
TYR
36
A
TYR
36
A
VAL
40
A
VAL
40
A
ILE
20
A
ILE
20
A
THR
23
A
THR
23
B
ALA
14
B
ALA
14
B
VAL
15
B
VAL
15
1
P 1