89
|
274
|
8jffA |
Crystal structure of catabolite repressor acivator from e. coli in complex with hepes |
22
|
77
|
8wh5B |
Structure of ddm1-nucleosome complex in the apo state |
31
|
89
|
8whaD |
Structure of ddm1-nucleosome complex in the adp-befx state with ddm1 bound to shl2 and shl-2 |
25
|
104
|
8whbC |
Structure of nucleosome core particle of arabidopsis thaliana |
22
|
88
|
8wh8C |
Structure of ddm1-nucleosome complex in adp state |
23
|
88
|
8wh5C |
Structure of ddm1-nucleosome complex in the apo state |
28
|
94
|
8wh8A |
Structure of ddm1-nucleosome complex in adp state |
32
|
89
|
8whbD |
Structure of nucleosome core particle of arabidopsis thaliana |
22
|
93
|
8wh9A |
Structure of ddm1-nucleosome complex in adp-befx state |
118
|
476
|
8wh5K |
Structure of ddm1-nucleosome complex in the apo state |
118
|
474
|
8whaK |
Structure of ddm1-nucleosome complex in the adp-befx state with ddm1 bound to shl2 and shl-2 |
25
|
102
|
8whaC |
Structure of ddm1-nucleosome complex in the adp-befx state with ddm1 bound to shl2 and shl-2 |
31
|
89
|
8wh5D |
Structure of ddm1-nucleosome complex in the apo state |
20
|
79
|
8whbB |
Structure of nucleosome core particle of arabidopsis thaliana |
28
|
94
|
8wh5A |
Structure of ddm1-nucleosome complex in the apo state |
20
|
79
|
8wh9B |
Structure of ddm1-nucleosome complex in adp-befx state |
20
|
85
|
8whaB |
Structure of ddm1-nucleosome complex in the adp-befx state with ddm1 bound to shl2 and shl-2 |
22
|
93
|
8whaA |
Structure of ddm1-nucleosome complex in the adp-befx state with ddm1 bound to shl2 and shl-2 |
25
|
102
|
8wh9C |
Structure of ddm1-nucleosome complex in adp-befx state |
117
|
474
|
8wh8K |
Structure of ddm1-nucleosome complex in adp state |
31
|
89
|
8wh8D |
Structure of ddm1-nucleosome complex in adp state |
23
|
91
|
8whbA |
Structure of nucleosome core particle of arabidopsis thaliana |
31
|
89
|
8wh9D |
Structure of ddm1-nucleosome complex in adp-befx state |
125
|
474
|
8wh9K |
Structure of ddm1-nucleosome complex in adp-befx state |
22
|
77
|
8wh8B |
Structure of ddm1-nucleosome complex in adp state |
27
|
98
|
8pp6A |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
2
|
36
|
8pp6K |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
97
|
302
|
8ok1A |
Wd repeat containing protein 5 (wdr5)- n225a mutant |
25
|
81
|
8pp6B |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
12
|
73
|
8pp6M |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
28
|
106
|
8pp6C |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
29
|
94
|
8pp6D |
Human rybp-prc1 bound to h2ak118ub1 nucleosome |
20
|
44
|
8gkvA |
Crystal structure of anti-adaptor irap that regulates rpos proteolysis |
22
|
81
|
8pp7B |
Human rybp-prc1 bound to mononucleosome |
11
|
65
|
8ez6A |
The dbc1/sirt1 interaction is choreographed by post-translational modification |
15
|
105
|
8pp7K |
Human rybp-prc1 bound to mononucleosome |
16
|
101
|
8pp7L |
Human rybp-prc1 bound to mononucleosome |
31
|
94
|
8pp7D |
Human rybp-prc1 bound to mononucleosome |
29
|
98
|
8pp7A |
Human rybp-prc1 bound to mononucleosome |
26
|
106
|
8pp7C |
Human rybp-prc1 bound to mononucleosome |
29
|
104
|
8pnmA |
Structure of human kctd15 btb domain mutant g88d crystal form 2 |
23
|
102
|
8pnrA |
Structure of human kctd15 btb domain mutant g88d crystal form 1 |
266
|
762
|
8r6sG |
Plastid-encoded rna polymerase (integrated model) |
245
|
1065
|
8rdjC |
Plastid-encoded rna polymerase transcription elongation complex (integrated model) |
232
|
1365
|
8r5oE |
Plastid-encoded rna polymerase |
254
|
762
|
8rdjG |
Plastid-encoded rna polymerase transcription elongation complex (integrated model) |
231
|
1365
|
8rdjE |
Plastid-encoded rna polymerase transcription elongation complex (integrated model) |
247
|
1065
|
8r6sC |
Plastid-encoded rna polymerase (integrated model) |
248
|
1365
|
8r6sE |
Plastid-encoded rna polymerase (integrated model) |
198
|
782
|
8r5oF |
Plastid-encoded rna polymerase |