|
94
|
479
|
8zpkE |
Cryo-em structure of origin recognition complex (orc6 with residues 1 to 270 deleted) with ars1 dna bound |
|
95
|
255
|
8rayA |
Para in complex with atp |
|
121
|
389
|
9njhA |
Translocated product complex of dna polymerase iota with dna (template a) |
|
253
|
1177
|
9ja3A |
Herpes simplex virus type 1 polymerase machinery in complex with duplex dna, acyclovir triphosphate and calcium ions |
|
40
|
291
|
9ja3B |
Herpes simplex virus type 1 polymerase machinery in complex with duplex dna, acyclovir triphosphate and calcium ions |
|
110
|
389
|
9dr7A |
Product complex of dna polymerase iota with 2 monophosphates |
|
109
|
389
|
9drbA |
Binary complex of dna polymerase iota with product dna |
|
118
|
389
|
9ddrA |
Ternary substrate complex of dna polymerase iota with dna (template a), ca2+, and dttp |
|
108
|
389
|
9drcA |
Ternary substrate complex of dna polymerase iota r71a mutant with dna (template a) and dttp |
|
117
|
389
|
9dqtA |
Binary substrate complex of dna polymerase iota with dna (template a) |
|
124
|
389
|
9dr9A |
Binary product complex of dna polymerase iota with dna |
|
118
|
389
|
9dquA |
Product complex of dna polymerase iota with pyrophosphate |
|
96
|
770
|
9c6g6 |
Mcm double hexamer from human |
|
78
|
698
|
9c6g2 |
Mcm double hexamer from human |
|
117
|
642
|
9c6g7 |
Mcm double hexamer from human |
|
115
|
653
|
9c6g3 |
Mcm double hexamer from human |
|
98
|
733
|
9c6g5 |
Mcm double hexamer from human |
|
69
|
625
|
9c6g0 |
Mcm double hexamer from human |
|
22
|
74
|
8v9sA |
Distinct quaternary states, intermediates, and autoinhibition during loading of the dnab-replicative helicase by the phage lambda p helicase loader |
|
103
|
606
|
8thcA |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
93
|
332
|
8thbD |
Structure of the saccharomyces cerevisiae pcna clamp unloader elg1-rfc complex |
|
90
|
325
|
8thcC |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
108
|
598
|
8thbA |
Structure of the saccharomyces cerevisiae pcna clamp unloader elg1-rfc complex |
|
95
|
332
|
8thdD |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
102
|
318
|
8thbB |
Structure of the saccharomyces cerevisiae pcna clamp unloader elg1-rfc complex |
|
48
|
254
|
8thcF |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
102
|
325
|
8thbC |
Structure of the saccharomyces cerevisiae pcna clamp unloader elg1-rfc complex |
|
89
|
332
|
8thcD |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
108
|
353
|
8thdE |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
48
|
254
|
8thdF |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
99
|
353
|
8thcE |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
108
|
318
|
8thdB |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
101
|
318
|
8thcB |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to a cracked pcna |
|
110
|
353
|
8thbE |
Structure of the saccharomyces cerevisiae pcna clamp unloader elg1-rfc complex |
|
99
|
325
|
8thdC |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
119
|
598
|
8thdA |
Structure of the saccharomyces cerevisiae clamp unloader elg1-rfc bound to pcna |
|
215
|
574
|
8jrbA |
Structure of dna polymerase 1 from aquifex pyrophilus |
|
105
|
329
|
8umwD |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
37
|
699
|
8unjA |
Atomic model of the human ctf18-rfc alone in the apo state (state 1) |
|
94
|
319
|
8umwB |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
133
|
699
|
8umwA |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
101
|
348
|
8unjE |
Atomic model of the human ctf18-rfc alone in the apo state (state 1) |
|
99
|
329
|
8unjD |
Atomic model of the human ctf18-rfc alone in the apo state (state 1) |
|
98
|
319
|
8unjB |
Atomic model of the human ctf18-rfc alone in the apo state (state 1) |
|
111
|
348
|
8umwE |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
90
|
325
|
8unjC |
Atomic model of the human ctf18-rfc alone in the apo state (state 1) |
|
36
|
258
|
8umwF |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
104
|
325
|
8umwC |
Atomic model of the human ctf18-rfc-pcna-dna ternary complex in the five-subunit binding state (state 4) |
|
90
|
380
|
8xj6A |
The cryo-em structure of mpxv e5 apo conformation |
|
101
|
377
|
8xj7A |
The cryo-em structure of mpxv e5 in complex with dna |
