1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Cliff, M.J.
Harris, R.
Barford, D.
Ladbury, J.E.
Williams, M.A.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
C2 H4 O
44.053
ACETYL GROUP
non-polymer
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
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
14
415
10.1016/J.STR.2005.12.009
16531226
Conformational Diversity in the Tpr Domain-Mediated Interaction of Protein Phosphatase 5 with Hsp90.
2006
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
RESIDUES 19-147 WITH N-TERMINAL HIS-TAG
16211.396
SERINE/THREONINE PROTEIN PHOSPHATASE 5
3.1.3.16
TETRATRICOPEPTIDE DOMAIN, RESIDUES 19-147
YES
1
man
polymer
N-TERMINALLY ACETYLATED
647.695
HSP90
C-TERMINAL PENTAPEPTIDE, RESIDUES 1-5
1
syn
polymer
PROTEIN PHOSPHATASE 5, PP5, PPT
DSCR1
no
no
MSGHHHHHHTDPPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALNDATR
AIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKA
MSGHHHHHHTDPPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALNDATR
AIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKA
A
polypeptide(L)
no
yes
(ACE)MEEVD
XMEEVD
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
n
n
n
n
n
n
n
n
n
n
n
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
9606
HOMO SAPIENS
469008
ESCHERICHIA COLI
BL21(DE3)
PQE31
pdbx_database_status
struct_conn
repository
Initial release
Version format compliance
Version format compliance
Derived calculations
Other
1
0
2006-03-16
1
1
2011-05-08
1
2
2011-07-13
1
3
2020-01-15
_pdbx_database_status.status_code_cs
_pdbx_database_status.status_code_mr
_struct_conn.pdbx_leaving_atom_flag
TETRATRICOPEPTIDE REPEATS OF PROTEIN PHOSPHATASE 5
STRUCTURE OF SERINE/THREONINE PROTEIN PHOSPHATASE 5
PP5 STRUCTURE
PDBE
Y
PDBE
2005-06-13
REL
REL
REL
9606
HUMAN
HOMO SAPIENS
sample
ENGINEERED RESIDUE IN CHAIN A, GLY 83 TO ASN
G83N MUTATION AND N-TERMINAL HIS TAG
THE STRUCTURE WAS DETERMINED USING DISTANCE RESTRAINTS DETERMINED FROM 1H13C-NOESYHSQC (13C,15N- LABELLED PROTEIN) AND 1H15N-NOESYHSQC EXPERIMENTS (15N- LABELLED PROTEIN), AND ALSO HYDROGEN BOND RESTRAINTS FROM HYDROGEN EXCHANGE DATE, ANGLE RESTRAINTS DERIVED FROM CHEMICAL SHIFT DATA BY TALOS.
LOWEST RESTRAINT ENERGY
100
19
HNCA
HNCO
CBCACONH
1H15N- TOWNY-HSQC
HNHB
1H15N- NOESYHSQC
1H13CNOESYHSQC
NOESY
TOCSY
55
mM
6.0
pH
1.0
atm
298.0
K
55
mM
6.0
pH
1.0
atm
298.0
K
55
mM
6.0
pH
1.0
atm
298.0
K
55
mM
6.0
pH
1.0
atm
298.0
K
REFINEMENT DETAILS CAN BE FOUND IN JOURNAL CITATION ABOVE
ARIA
4
50MM MES, 5MM DTT (PH6.0) 10%D2O, 90% H2O
BRUNGER,ADAMS,CLORE,DELANO,GROS, GROSSE- KUNSTLEVE,JIANG,KUSZEWSKI,NILGES, PANNU,READ, RICE,SIMONSON,WARREN
refinement
ARIA
1.2
structure solution
ARIA
1.2
500
Varian
INOVA
800
Varian
INOVA
800
Varian
INOVA
600
Varian
INOVA
n
1
8
A
n
2
9
A
n
3
10
A
n
4
11
A
n
5
12
A
n
6
13
A
n
7
14
A
n
8
15
A
n
9
16
A
THR
17
n
10
THR
17
A
ASP
18
n
11
ASP
18
A
PRO
19
n
12
PRO
19
A
PRO
20
n
13
PRO
20
A
ALA
21
n
14
ALA
21
A
ASP
22
n
15
ASP
22
A
GLY
23
n
16
GLY
23
A
ALA
24
n
17
ALA
24
A
LEU
25
n
18
LEU
25
A
LYS
26
n
19
LYS
26
A
ARG
27
n
20
ARG
27
A
ALA
28
n
21
ALA
28
A
GLU
29
n
22
GLU
29
A
GLU
30
n
23
GLU
30
A
LEU
31
n
24
LEU
31
A
LYS
32
n
25
LYS
32
A
THR
33
n
26
THR
33
A
GLN
34
n
27
GLN
34
A
ALA
35
n
28
ALA
35
A
ASN
36
n
29
ASN
36
A
ASP
37
n
30
ASP
37
A
TYR
38
n
31
TYR
38
A
PHE
39
n
32
PHE
39
A
LYS
40
n
33
LYS
40
A
ALA
41
n
34
ALA
41
A
LYS
42
n
35
LYS
42
A
ASP
43
n
36
ASP
43
A
TYR
44
n
37
TYR
44
A
GLU
45
n
38
GLU
45
A
ASN
46
n
39
ASN
46
A
ALA
47
n
40
ALA
47
A
ILE
48
n
41
ILE
48
A
LYS
49
n
42
LYS
49
A
PHE
50
n
43
PHE
50
A
TYR
51
n
44
TYR
51
A
SER
52
n
45
SER
52
A
GLN
53
n
46
GLN
53
A
ALA
54
n
47
ALA
54
A
ILE
55
n
48
ILE
55
A
GLU
56
n
49
GLU
56
A
LEU
57
n
50
LEU
57
A
ASN
58
n
51
ASN
58
A
PRO
59
n
52
PRO
59
A
SER
60
n
53
SER
60
A
ASN
61
n
54
ASN
61
A
ALA
62
n
55
ALA
62
A
ILE
63
n
56
ILE
63
A
TYR
64
n
57
TYR
64
A
TYR
65
n
58
TYR
65
A
GLY
66
n
59
GLY
66
A
ASN
67
n
60
ASN
67
A
ARG
68
n
61
ARG
68
A
SER
69
n
62
SER
69
A
LEU
70
n
63
LEU
70
A
ALA
71
n
64
ALA
71
A
TYR
72
n
65
TYR
72
A
LEU
73
n
66
LEU
73
A
ARG
74
n
67
ARG
74
A
THR
75
n
68
THR
75
A
GLU
76
n
69
GLU
76
A
CYS
77
n
70
CYS
77
A
TYR
78
n
71
TYR
78
A
GLY
79
n
72
GLY
79
A
TYR
80
n
73
TYR
80
A
ALA
81
n
74
ALA
81
A
LEU
82
n
75
LEU
82
A
ASN
83
n
76
ASN
83
A
ASP
84
n
77
ASP
84
A
ALA
85
n
78
ALA
85
A
THR
86
n
79
THR
86
A
ARG
87
n
80
ARG
87
A
ALA
88
n
81
ALA
88
A
ILE
89
n
82
ILE
89
A
GLU
90
n
83
GLU
90
A
LEU
91
n
84
LEU
91
A
ASP
92
n
85
ASP
92
A
LYS
93
n
86
LYS
93
A
LYS
94
n
87
LYS
94
A
TYR
95
n
88
TYR
95
A
ILE
96
n
89
ILE
96
A
LYS
97
n
90
LYS
97
A
GLY
98
n
91
GLY
98
A
TYR
99
n
92
TYR
99
A
TYR
100
n
93
TYR
100
A
ARG
101
n
94
ARG
101
A
ARG
102
n
95
ARG
102
A
ALA
103
n
96
ALA
103
A
ALA
104
n
97
ALA
104
A
SER
105
n
98
SER
105
A
ASN
106
n
99
ASN
106
A
MET
107
n
100
MET
107
A
ALA
108
n
101
ALA
108
A
LEU
109
n
102
LEU
109
A
GLY
110
n
103
GLY
110
A
LYS
111
n
104
LYS
111
A
PHE
112
n
105
PHE
112
A
ARG
113
n
106
ARG
113
A
ALA
114
n
107
ALA
114
A
ALA
115
n
108
ALA
115
A
LEU
116
n
109
LEU
116
A
ARG
117
n
110
ARG
117
A
ASP
118
n
111
ASP
118
A
TYR
119
n
112
TYR
119
A
GLU
120
n
113
GLU
120
A
THR
121
n
114
THR
121
A
VAL
122
n
115
VAL
122
A
VAL
123
n
116
VAL
123
A
LYS
124
n
117
LYS
124
A
VAL
125
n
118
VAL
125
A
LYS
126
n
119
LYS
126
A
PRO
127
n
120
PRO
127
A
HIS
128
n
121
HIS
128
A
ASP
129
n
122
ASP
129
A
LYS
130
n
123
LYS
130
A
ASP
131
n
124
ASP
131
A
ALA
132
n
125
ALA
132
A
LYS
133
n
126
LYS
133
A
MET
134
n
127
MET
134
A
LYS
135
n
128
LYS
135
A
TYR
136
n
129
TYR
136
A
GLN
137
n
130
GLN
137
A
GLU
138
n
131
GLU
138
A
CYS
139
n
132
CYS
139
A
ASN
140
n
133
ASN
140
A
LYS
141
n
134
LYS
141
A
ILE
142
n
135
ILE
142
A
VAL
143
n
136
VAL
143
A
LYS
144
n
137
LYS
144
A
GLN
145
n
138
GLN
145
A
LYS
146
n
139
LYS
146
A
ALA
147
n
140
ALA
147
A
ACE
0
n
1
ACE
0
B
MET
1
n
2
MET
1
B
GLU
2
n
3
GLU
2
B
GLU
3
n
4
GLU
3
B
VAL
4
n
5
VAL
4
B
ASP
5
n
6
ASP
5
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
1
A
MET
8
A
MET
1
1
Y
1
A
SER
9
A
SER
2
1
Y
1
A
GLY
10
A
GLY
3
1
Y
1
A
HIS
11
A
HIS
4
1
Y
1
A
HIS
12
A
HIS
5
1
Y
1
A
HIS
13
A
HIS
6
1
Y
1
A
HIS
14
A
HIS
7
1
Y
1
A
HIS
15
A
HIS
8
1
Y
1
A
HIS
16
A
HIS
9
1
Y
2
A
MET
8
A
MET
1
1
Y
2
A
SER
9
A
SER
2
1
Y
2
A
GLY
10
A
GLY
3
1
Y
2
A
HIS
11
A
HIS
4
1
Y
2
A
HIS
12
A
HIS
5
1
Y
2
A
HIS
13
A
HIS
6
1
Y
2
A
HIS
14
A
HIS
7
1
Y
2
A
HIS
15
A
HIS
8
1
Y
2
A
HIS
16
A
HIS
9
1
Y
3
A
MET
8
A
MET
1
1
Y
3
A
SER
9
A
SER
2
1
Y
3
A
GLY
10
A
GLY
3
1
Y
3
A
HIS
11
A
HIS
4
1
Y
3
A
HIS
12
A
HIS
5
1
Y
3
A
HIS
13
A
HIS
6
1
Y
3
A
HIS
14
A
HIS
7
1
Y
3
A
HIS
15
A
HIS
8
1
Y
3
A
HIS
16
A
HIS
9
1
Y
4
A
MET
8
A
MET
1
1
Y
4
A
SER
9
A
SER
2
1
Y
4
A
GLY
10
A
GLY
3
1
Y
4
A
HIS
11
A
HIS
4
1
Y
4
A
HIS
12
A
HIS
5
1
Y
4
A
HIS
13
A
HIS
6
1
Y
4
A
HIS
14
A
HIS
7
1
Y
4
A
HIS
15
A
HIS
8
1
Y
4
A
HIS
16
A
HIS
9
1
Y
5
A
MET
8
A
MET
1
1
Y
5
A
SER
9
A
SER
2
1
Y
5
A
GLY
10
A
GLY
3
1
Y
5
A
HIS
11
A
HIS
4
1
Y
5
A
HIS
12
A
HIS
5
1
Y
5
A
HIS
13
A
HIS
6
1
Y
5
A
HIS
14
A
HIS
7
1
Y
5
A
HIS
15
A
HIS
8
1
Y
5
A
HIS
16
A
HIS
9
1
Y
6
A
MET
8
A
MET
1
1
Y
6
A
SER
9
A
SER
2
1
Y
6
A
GLY
10
A
GLY
3
1
Y
6
A
HIS
11
A
HIS
4
1
Y
6
A
HIS
12
A
HIS
5
1
Y
6
A
HIS
13
A
HIS
6
1
Y
6
A
HIS
14
A
HIS
7
1
Y
6
A
HIS
15
A
HIS
8
1
Y
6
A
HIS
16
A
HIS
9
1
Y
7
A
MET
8
A
MET
1
1
Y
7
A
SER
9
A
SER
2
1
Y
7
A
GLY
10
A
GLY
3
1
Y
7
A
HIS
11
A
HIS
4
1
Y
7
A
HIS
12
A
HIS
5
1
Y
7
A
HIS
13
A
HIS
6
1
Y
7
A
HIS
14
A
HIS
7
1
Y
7
A
HIS
15
A
HIS
8
1
Y
7
A
HIS
16
A
HIS
9
1
Y
8
A
MET
8
A
MET
1
1
Y
8
A
SER
9
A
SER
2
1
Y
8
A
GLY
10
A
GLY
3
1
Y
8
A
HIS
11
A
HIS
4
1
Y
8
A
HIS
12
A
HIS
5
1
Y
8
A
HIS
13
A
HIS
6
1
Y
8
A
HIS
14
A
HIS
7
1
Y
8
A
HIS
15
A
HIS
8
1
Y
8
A
HIS
16
A
HIS
9
1
Y
9
A
MET
8
A
MET
1
1
Y
9
A
SER
9
A
SER
2
1
Y
9
A
GLY
10
A
GLY
3
1
Y
9
A
HIS
11
A
HIS
4
1
Y
9
A
HIS
12
A
HIS
5
1
Y
9
A
HIS
13
A
HIS
6
1
Y
9
A
HIS
14
A
HIS
7
1
Y
9
A
HIS
15
A
HIS
8
1
Y
9
A
HIS
16
A
HIS
9
1
Y
10
A
MET
8
A
MET
1
1
Y
10
A
SER
9
A
SER
2
1
Y
10
A
GLY
10
A
GLY
3
1
Y
10
A
HIS
11
A
HIS
4
1
Y
10
A
HIS
12
A
HIS
5
1
Y
10
A
HIS
13
A
HIS
6
1
Y
10
A
HIS
14
A
HIS
7
1
Y
10
A
HIS
15
A
HIS
8
1
Y
10
A
HIS
16
A
HIS
9
1
Y
11
A
MET
8
A
MET
1
1
Y
11
A
SER
9
A
SER
2
1
Y
11
A
GLY
10
A
GLY
3
1
Y
11
A
HIS
11
A
HIS
4
1
Y
11
A
HIS
12
A
HIS
5
1
Y
11
A
HIS
13
A
HIS
6
1
Y
11
A
HIS
14
A
HIS
7
1
Y
11
A
HIS
15
A
HIS
8
1
Y
11
A
HIS
16
A
HIS
9
1
Y
12
A
MET
8
A
MET
1
1
Y
12
A
SER
9
A
SER
2
1
Y
12
A
GLY
10
A
GLY
3
1
Y
12
A
HIS
11
A
HIS
4
1
Y
12
A
HIS
12
A
HIS
5
1
Y
12
A
HIS
13
A
HIS
6
1
Y
12
A
HIS
14
A
HIS
7
1
Y
12
A
HIS
15
A
HIS
8
1
Y
12
A
HIS
16
A
HIS
9
1
Y
13
A
MET
8
A
MET
1
1
Y
13
A
SER
9
A
SER
2
1
Y
13
A
GLY
10
A
GLY
3
1
Y
13
A
HIS
11
A
HIS
4
1
Y
13
A
HIS
12
A
HIS
5
1
Y
13
A
HIS
13
A
HIS
6
1
Y
13
A
HIS
14
A
HIS
7
1
Y
13
A
HIS
15
A
HIS
8
1
Y
13
A
HIS
16
A
HIS
9
1
Y
14
A
MET
8
A
MET
1
1
Y
14
A
SER
9
A
SER
2
1
Y
14
A
GLY
10
A
GLY
3
1
Y
14
A
HIS
11
A
HIS
4
1
Y
14
A
HIS
12
A
HIS
5
1
Y
14
A
HIS
13
A
HIS
6
1
Y
14
A
HIS
14
A
HIS
7
1
Y
14
A
HIS
15
A
HIS
8
1
Y
14
A
HIS
16
A
HIS
9
1
Y
15
A
MET
8
A
MET
1
1
Y
15
A
SER
9
A
SER
2
1
Y
15
A
GLY
10
A
GLY
3
1
Y
15
A
HIS
11
A
HIS
4
1
Y
15
A
HIS
12
A
HIS
5
1
Y
15
A
HIS
13
A
HIS
6
1
Y
15
A
HIS
14
A
HIS
7
1
Y
15
A
HIS
15
A
HIS
8
1
Y
15
A
HIS
16
A
HIS
9
1
Y
16
A
MET
8
A
MET
1
1
Y
16
A
SER
9
A
SER
2
1
Y
16
A
GLY
10
A
GLY
3
1
Y
16
A
HIS
11
A
HIS
4
1
Y
16
A
HIS
12
A
HIS
5
1
Y
16
A
HIS
13
A
HIS
6
1
Y
16
A
HIS
14
A
HIS
7
1
Y
16
A
HIS
15
A
HIS
8
1
Y
16
A
HIS
16
A
HIS
9
1
Y
17
A
MET
8
A
MET
1
1
Y
17
A
SER
9
A
SER
2
1
Y
17
A
GLY
10
A
GLY
3
1
Y
17
A
HIS
11
A
HIS
4
1
Y
17
A
HIS
12
A
HIS
5
1
Y
17
A
HIS
13
A
HIS
6
1
Y
17
A
HIS
14
A
HIS
7
1
Y
17
A
HIS
15
A
HIS
8
1
Y
17
A
HIS
16
A
HIS
9
1
Y
18
A
MET
8
A
MET
1
1
Y
18
A
SER
9
A
SER
2
1
Y
18
A
GLY
10
A
GLY
3
1
Y
18
A
HIS
11
A
HIS
4
1
Y
18
A
HIS
12
A
HIS
5
1
Y
18
A
HIS
13
A
HIS
6
1
Y
18
A
HIS
14
A
HIS
7
1
Y
18
A
HIS
15
A
HIS
8
1
Y
18
A
HIS
16
A
HIS
9
1
Y
19
A
MET
8
A
MET
1
1
Y
19
A
SER
9
A
SER
2
1
Y
19
A
GLY
10
A
GLY
3
1
Y
19
A
HIS
11
A
HIS
4
1
Y
19
A
HIS
12
A
HIS
5
1
Y
19
A
HIS
13
A
HIS
6
1
Y
19
A
HIS
14
A
HIS
7
1
Y
19
A
HIS
15
A
HIS
8
1
Y
19
A
HIS
16
A
HIS
9
1
Y
1
A
A
HZ1
OE2
LYS
GLU
135
138
1.58
1
A
B
HZ3
OE2
LYS
GLU
40
2
1.58
2
A
A
HZ1
OD2
LYS
ASP
126
129
1.54
2
A
A
HH21
OD1
ARG
ASP
68
84
1.59
3
A
A
HZ1
OD2
LYS
ASP
126
129
1.54
5
A
A
OE2
HG
GLU
CYS
76
77
1.59
6
A
A
HZ2
OD2
LYS
ASP
126
129
1.57
7
A
A
HZ1
OD2
LYS
ASP
126
129
1.54
8
A
B
HZ2
HA
LYS
ASP
97
5
1.25
8
B
B
HG12
H
VAL
ASP
4
5
1.32
8
A
A
O
H
GLU
GLN
30
34
1.57
8
A
A
O
HH
LYS
TYR
93
99
1.59
8
A
A
HH21
OD1
ARG
ASP
102
118
1.59
8
A
A
HH21
OD1
ARG
ASP
68
84
1.59
9
A
A
HZ1
OD2
LYS
ASP
126
129
1.58
10
B
B
HG12
H
VAL
ASP
4
5
1.24
11
A
B
HZ2
OE2
LYS
GLU
40
2
1.54
11
A
A
O
HH
LYS
TYR
93
99
1.58
12
A
A
HA
HH12
TYR
ARG
99
102
1.04
12
A
A
HZ1
OD2
LYS
ASP
126
129
1.55
12
A
A
O
HH21
ALA
ARG
85
102
1.59
13
A
A
HG22
HH21
THR
ARG
86
102
1.24
14
A
A
HZ2
OD2
LYS
ASP
126
129
1.56
15
A
A
HG23
HE3
ILE
LYS
96
126
1.33
15
A
A
HZ1
OD2
LYS
ASP
126
129
1.59
15
A
B
HH21
OD1
ARG
ASP
101
5
1.60
16
B
B
HG13
H
VAL
ASP
4
5
1.29
16
A
A
HZ2
OD2
LYS
ASP
126
129
1.57
16
A
A
HH21
OD1
ARG
ASP
102
118
1.59
17
A
B
HD22
HB3
ASN
ASP
67
5
1.31
17
A
A
HD1
HE
TYR
ARG
44
74
1.31
17
A
A
O
HH
LYS
TYR
93
99
1.55
17
A
A
HZ1
OD2
LYS
ASP
126
129
1.59
18
A
A
O
HG
LYS
SER
49
52
1.60
19
A
A
HZ1
OD2
LYS
ASP
126
129
1.57
19
A
B
HH21
OXT
ARG
ASP
101
5
1.59
15
A
TYR
99
0.088
SIDE CHAIN
14
A
A
CE1
CZ
TYR
TYR
80
80
0.104
0.013
1.381
1.485
N
14
A
A
CZ
CE2
TYR
TYR
80
80
-0.106
0.013
1.381
1.275
N
15
A
A
CE1
CZ
TYR
TYR
99
99
0.109
0.013
1.381
1.490
N
1
A
ASP
22
-38.51
-101.39
1
A
PRO
59
-107.81
-64.60
1
A
CYS
77
-89.64
36.62
2
A
ASP
22
-39.10
-101.10
2
A
PRO
59
-107.86
-79.28
2
A
THR
75
-83.37
-84.64
2
A
GLU
76
-175.73
22.85
3
A
ASP
22
-79.83
30.07
3
A
PRO
59
-108.97
-79.80
3
A
THR
75
-88.99
33.60
3
B
GLU
2
-84.22
-153.15
3
B
GLU
3
75.20
156.21
4
A
ASP
18
-65.32
-178.26
4
A
ASP
22
-38.91
-101.61
4
A
PRO
59
-108.27
-82.22
4
A
SER
60
-83.72
45.65
4
A
THR
75
-77.02
-83.98
4
A
GLU
76
-174.64
17.99
5
A
ASP
18
-64.26
-178.69
5
A
ASP
22
-39.05
-100.87
5
A
PRO
59
-108.39
-74.97
5
A
THR
75
-76.41
-83.40
5
A
GLU
76
-177.11
21.73
6
A
ASP
22
-39.64
-100.16
6
A
PRO
59
-106.21
-71.25
6
A
CYS
77
-95.77
35.43
7
A
ASP
18
-68.31
-178.45
7
A
ASP
22
-39.56
-100.89
7
A
LEU
57
-96.41
-60.45
7
A
PRO
59
-109.11
-87.65
7
A
CYS
77
-98.64
36.44
8
A
ASP
22
-80.35
30.32
8
A
PRO
59
-108.57
-85.06
8
A
THR
75
-76.41
-84.91
8
A
GLU
76
-175.25
23.24
8
B
VAL
4
41.72
-85.18
9
A
ASP
22
-39.45
-99.15
9
A
PRO
59
-109.02
-83.43
9
A
CYS
77
-94.15
36.02
9
B
GLU
2
-158.46
66.16
9
B
VAL
4
43.05
70.18
10
A
ASP
22
-78.96
29.68
10
A
LYS
42
80.76
9.14
10
A
PRO
59
-108.90
-78.56
10
A
THR
75
-76.37
-83.13
10
A
GLU
76
-179.22
29.32
10
B
GLU
2
-165.66
-81.55
10
B
GLU
3
-178.89
-33.92
10
B
VAL
4
26.57
-86.99
11
A
ASP
22
-39.11
-100.65
11
A
PRO
59
-108.39
-85.69
11
A
THR
75
-82.59
-83.83
11
A
GLU
76
178.57
24.84
12
A
ASP
22
-39.42
-102.28
12
A
PRO
59
-108.94
-65.63
12
A
THR
75
-82.30
-84.69
12
A
GLU
76
-176.94
21.32
12
B
GLU
2
61.57
88.76
12
B
GLU
3
-70.27
-80.87
13
A
ASP
18
-68.94
-178.26
13
A
ASP
22
-38.92
-101.02
13
A
LYS
42
81.56
15.07
13
A
PRO
59
-107.69
-69.01
13
B
GLU
3
69.88
-176.29
14
A
ASP
22
-40.54
-100.95
14
A
PRO
59
-107.52
-82.26
14
A
THR
75
-93.73
-83.00
14
A
GLU
76
176.69
29.92
15
A
ASP
18
-68.37
-178.83
15
A
ASP
22
-38.95
-100.74
15
A
PRO
59
-107.36
-66.05
15
A
CYS
77
-94.85
36.67
15
B
GLU
2
169.64
-32.42
15
B
GLU
3
70.85
-76.95
15
B
VAL
4
-123.84
-68.00
16
A
PRO
20
-49.66
152.88
16
A
ASP
22
-38.57
-100.15
16
A
ASP
43
-113.63
77.74
16
A
PRO
59
-105.97
-82.37
16
A
CYS
77
-93.53
36.13
16
A
LYS
146
-72.32
-72.07
16
B
VAL
4
62.12
-172.67
17
A
ASP
22
-39.42
-100.10
17
A
PRO
59
-106.94
-83.45
17
A
THR
75
-88.51
-83.70
17
A
GLU
76
-174.60
23.74
17
B
GLU
2
61.59
95.04
18
A
ASP
18
-64.99
-178.90
18
A
PRO
20
-49.92
156.17
18
A
ASP
22
-38.28
-100.97
18
A
LYS
42
82.13
8.43
18
A
ASP
43
-103.29
78.96
18
A
PRO
59
-108.38
-79.77
18
B
VAL
4
71.54
-71.40
19
A
ASP
22
-38.79
-102.58
19
A
PRO
59
-108.81
-62.30
19
A
GLU
76
48.92
27.39
19
A
CYS
77
-95.14
36.08
19
A
LYS
146
-92.51
-64.80
19
B
VAL
4
70.80
-66.66
SERINE/THREONINE PROTEIN PHOSPHATASE 5 (E.C.3.1.3.16), HSP90
Solution structure of the TPR domain from Protein phosphatase 5 in complex with Hsp90 derived peptide
1
N
N
2
N
N
A
ALA
21
A
ALA
14
HELX_P
A
ALA
41
A
ALA
34
1
1
21
A
ASP
43
A
ASP
36
HELX_P
A
ASN
58
A
ASN
51
1
2
16
A
ASN
61
A
ASN
54
HELX_P
A
THR
75
A
THR
68
1
3
15
A
CYS
77
A
CYS
70
HELX_P
A
ASP
92
A
ASP
85
1
4
16
A
TYR
95
A
TYR
88
HELX_P
A
GLY
110
A
GLY
103
1
5
16
A
LYS
111
A
LYS
104
HELX_P
A
LYS
126
A
LYS
119
1
6
16
A
ASP
129
A
ASP
122
HELX_P
A
LYS
146
A
LYS
139
1
7
18
covale
1.338
both
B
ACE
0
B
C
ACE
1
1_555
B
MET
1
B
N
MET
2
1_555
HYDROLASE
TETRATRICOPEPTIDE DOMAIN, PROTEIN PHOSPHATASE, HSP90 BINDING, HYDROLASE, IRON, MANGANESE, METAL-BINDING
2BUG
PDB
1
2BUG
PPP5_HUMAN
UNP
1
P53041
2BUG
PDB
2
2BUG
Q9H2A1_HUMAN
UNP
2
Q9H2A1
8
18
2BUG
8
18
2BUG
A
1
1
11
19
147
2BUG
19
147
P53041
A
2
12
140
0
0
2BUG
0
0
2BUG
B
3
1
1
1
5
2BUG
1
5
Q9H2A1
B
4
2
6
1
GLY
engineered mutation
ASN
83
2BUG
A
P53041
UNP
83
76
1
P 1