|
69
|
192
|
4ygxB |
Crystal structure of d. melanogaster ssu72+symplekin bound to cis peptidomimetic ctd phospho-ser5 peptide |
|
55
|
179
|
4yh1A |
Structure of human scp1 bound to cis-proline peptidomimetic ctd phospho-ser5 peptide |
|
95
|
294
|
4yzhA |
Structure of the arabidopsis tap38/pph1 in complex with plhcb1 phosphopeptide substrate |
|
94
|
294
|
4yzgA |
Structure of the arabidopsis tap38/pph1, a state-transition phosphatase responsible for dephosphorylation of lhcii |
|
105
|
296
|
4xpnA |
Crystal structure of protein phosphate 1 complexed with pp1 binding domain of gadd34 |
|
133
|
369
|
4xq0A |
Structure of fission yeast rna polymerase ii ctd phosphatase fcp1-r271a bound to beryllium fluoride |
|
58
|
146
|
4y2eA |
Crystal structure of the catalytic domain of human dual-specificity phosphatase 7 (c232s) |
|
135
|
369
|
4xpzA |
Structure of fission yeast rna polymerase ii ctd phosphatase fcp1-r271a bound to aluminum fluoride |
|
110
|
295
|
4v0vA |
The crystal structure of mouse pp1g in complex with truncated human ppp1r15b (631-660) |
|
93
|
320
|
4wvoB |
An engineered pyr1 mandipropamid receptor in complex with mandipropamid and hab1 |
|
100
|
295
|
4v0xA |
The crystal structure of mouse pp1g in complex with truncated human ppp1r15b (631-684) |
|
64
|
158
|
4wohA |
Structure of of human dual-specificity phosphatase 22 (e24a/k28a/k30a/c88s) complexed with 4-nitrophenolphosphate |
|
105
|
294
|
4ut3B |
X-ray structure of the human pp1 gamma catalytic subunit treated with hydrogen peroxide |
|
111
|
295
|
4v0wA |
The crystal structure of mouse pp1g in complex with truncated human ppp1r15b (631-669) |
|
107
|
294
|
4ut2A |
X-ray structure of the human pp1 gamma catalytic subunit treated with ascorbate |
|
109
|
294
|
4v0uD |
The crystal structure of ternary pp1g-ppp1r15b and g-actin complex |
|
108
|
328
|
4rkkA |
Structure of a product bound phosphatase |
|
61
|
179
|
4r30A |
Structure of human laforin dual specificity phosphatase domain |
|
115
|
367
|
4rafA |
Crystal structure of pp2ca-d38a |
|
117
|
367
|
4ragA |
Crystal structure of ppc2a-d38k |
|
120
|
367
|
4ra2A |
Pp2ca |
|
137
|
462
|
4orbA |
Crystal structure of mouse calcineurin |
|
10
|
24
|
4q5uC |
Structure of calmodulin bound to its recognition site from calcineurin |
|
131
|
409
|
4orcA |
Crystal structure of mammalian calcineurin |
|
138
|
481
|
4or9A |
Crystal structure of human calcineurin |
|
125
|
481
|
4oraA |
Crystal structure of a human calcineurin mutant |
|
98
|
321
|
4oicB |
Crystal structrual of a soluble protein |
|
84
|
296
|
4n0gA |
Crystal structure of pyl13-pp2ca complex |
|
112
|
294
|
4moyA |
Structure of a second nuclear pp1 holoenzyme, crystal form 1 |
|
111
|
295
|
4mp0A |
Structure of a second nuclear pp1 holoenzyme, crystal form 2 |
|
115
|
293
|
4movA |
1.45 a resolution crystal structure of protein phosphatase 1 |
|
82
|
320
|
4lgbB |
Aba-mimicking ligand n-(1-methyl-2-oxo-1,2,3,4-tetrahydroquinolin-6-yl)-1-(4-methylphenyl)methanesulfonamide in complex with aba receptor pyl2 and pp2c hab1 |
|
82
|
321
|
4lgaB |
Aba-mimicking ligand n-(2-oxo-1-propyl-1,2,3,4-tetrahydroquinolin-6-yl)-1-phenylmethanesulfonamide in complex with aba receptor pyl2 and pp2c hab1 |
|
104
|
290
|
4lacC |
Crystal structure of protein phosphatase 2a (pp2a) and pp2a phosphatase activator (ptpa) complex with atpgammas |
|
70
|
323
|
4lg5B |
Aba-mimicking ligand quinabactin in complex with aba receptor pyl2 and pp2c hab1 |
|
53
|
163
|
4ki9A |
Crystal structure of the catalytic domain of human dusp12 at 2.0 a resolution |
|
96
|
320
|
4la7B |
X-ray crystal structure of the pyl2-quinabactin-hab1 ternary complex |
|
48
|
160
|
4jnbA |
Crystal structure of the catalytic domain of human dusp12 |
|
41
|
148
|
4iypC |
Structure of the npp2ac-alpha4 complex |
|
141
|
424
|
4jndA |
Structure of a c.elegans sex determining protein |
|
174
|
647
|
4il1A |
Crystal structure of the rat calcineurin |
|
104
|
293
|
4i5nC |
Structural mechanism of trimeric pp2a holoenzyme involving pr70: insight for cdc6 dephosphorylation |
|
88
|
261
|
4j6oA |
Crystal structure of the phosphatase domain of c. thermocellum (bacterial) pnkp |
|
111
|
295
|
4i5lC |
Structural mechanism of trimeric pp2a holoenzyme involving pr70: insight for cdc6 dephosphorylation |
|
185
|
475
|
4ja7A |
Rat pp5 co-crystallized with p5sa-2 |
|
71
|
192
|
4imjB |
Novel modifications on c-terminal domain of rna polymerase ii can fine-tune the phosphatase activity of ssu72 |
|
55
|
151
|
4jmkA |
Structure of dusp8 |
|
173
|
476
|
4ja9A |
Rat pp5 apo |
|
69
|
192
|
4imiB |
Novel modifications on c-terminal domain of rna polymerase ii can fine- tune the phosphatase activity of ssu72. |
|
50
|
154
|
4hrfA |
Atomic structure of dusp26 |
