|
232
|
1004
|
9k9uA |
Mpxv dna polymerase complex in editing state 1 |
|
45
|
218
|
9k9tB |
Mpxv dna polymerase in complex with cdv |
|
262
|
1005
|
9k9sA |
Mpxv dna polymerase in complex with primer/4u template dna |
|
239
|
1004
|
9k9tA |
Mpxv dna polymerase in complex with cdv |
|
230
|
1004
|
9k9vA |
Mpxv dna polymerase complex in editing state 2 |
|
87
|
424
|
9k9rC |
Mpxv dna polymerase in complex with primer/5u template dna |
|
271
|
1005
|
9k9rA |
Mpxv dna polymerase in complex with primer/5u template dna |
|
87
|
425
|
9k9vC |
Mpxv dna polymerase complex in editing state 2 |
|
89
|
425
|
9k9uC |
Mpxv dna polymerase complex in editing state 1 |
|
95
|
425
|
9k9tC |
Mpxv dna polymerase in complex with cdv |
|
51
|
218
|
9k9sB |
Mpxv dna polymerase in complex with primer/4u template dna |
|
41
|
218
|
9k9vB |
Mpxv dna polymerase complex in editing state 2 |
|
84
|
424
|
9k9sC |
Mpxv dna polymerase in complex with primer/4u template dna |
|
41
|
218
|
9k9uB |
Mpxv dna polymerase complex in editing state 1 |
|
52
|
218
|
9k9rB |
Mpxv dna polymerase in complex with primer/5u template dna |
|
47
|
256
|
8umuF |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
97
|
348
|
8umuE |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
92
|
319
|
8un0B |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
107
|
348
|
8umyE |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
103
|
316
|
8umuB |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
89
|
316
|
8umtB |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
42
|
258
|
8umtF |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
39
|
258
|
8umvF |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
92
|
322
|
8umuC |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
35
|
258
|
8un0F |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
105
|
329
|
8umvD |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
93
|
325
|
8umtD |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
131
|
699
|
8umvA |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
123
|
699
|
8umtA |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
136
|
699
|
8umyA |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
97
|
319
|
8umvB |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
103
|
348
|
8umvE |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
132
|
699
|
8un0A |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
122
|
699
|
8umuA |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
100
|
322
|
8umtC |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
95
|
319
|
8umyB |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
105
|
348
|
8un0E |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
103
|
329
|
8un0D |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
100
|
325
|
8un0C |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with cracked and closed pcna (state 7) |
|
101
|
329
|
8umyD |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
106
|
325
|
8umyC |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
99
|
345
|
8umtE |
Atomic model of the human ctf18-rfc-pcna binary complex in the three-subunit binding state (state 2) |
|
41
|
258
|
8umyF |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state ii (state 6) |
|
103
|
325
|
8umvC |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex with narrow pcna opening state i (state 5) |
|
91
|
327
|
8umuD |
Atomic model of the human ctf18-rfc-pcna binary complex in the four-subunit binding state (state 3) |
|
73
|
369
|
8varF |
Structure of the e. coli clamp loader bound to the beta clamp in a closed-dna2 conformation |
|
70
|
369
|
8vasF |
Structure of the e. coli clamp loader bound to the beta clamp in an altered-collar conformation |
|
88
|
343
|
8vasA |
Structure of the e. coli clamp loader bound to the beta clamp in an altered-collar conformation |
|
103
|
343
|
8varA |
Structure of the e. coli clamp loader bound to the beta clamp in a closed-dna2 conformation |
|
97
|
337
|
8vasE |
Structure of the e. coli clamp loader bound to the beta clamp in an altered-collar conformation |
