120
|
434
|
6fvwQ |
26s proteasome, s4 state |
102
|
388
|
6fvyO |
26s proteasome, s6 state |
134
|
434
|
6fvvQ |
26s proteasome, s3 state |
99
|
388
|
6fvvO |
26s proteasome, s3 state |
126
|
434
|
6fvtQ |
26s proteasome, s1 state |
124
|
434
|
6fvuQ |
26s proteasome, s2 state |
125
|
405
|
6fvvR |
26s proteasome, s3 state |
125
|
405
|
6fvtR |
26s proteasome, s1 state |
134
|
475
|
6fvvS |
26s proteasome, s3 state |
105
|
388
|
6fvtO |
26s proteasome, s1 state |
131
|
475
|
6fvuS |
26s proteasome, s2 state |
125
|
476
|
6epeS |
Substrate processing state 26s proteasome (sps2) |
135
|
456
|
6epfP |
Ground state 26s proteasome (gs1) |
94
|
376
|
6epfO |
Ground state 26s proteasome (gs1) |
100
|
376
|
6epdO |
Substrate processing state 26s proteasome (sps1) |
106
|
389
|
6epcR |
Ground state 26s proteasome (gs2) |
109
|
389
|
6epfR |
Ground state 26s proteasome (gs1) |
120
|
476
|
6epdS |
Substrate processing state 26s proteasome (sps1) |
101
|
376
|
6epeO |
Substrate processing state 26s proteasome (sps2) |
120
|
422
|
6epeQ |
Substrate processing state 26s proteasome (sps2) |
125
|
456
|
6epdP |
Substrate processing state 26s proteasome (sps1) |
129
|
456
|
6epcP |
Ground state 26s proteasome (gs2) |
126
|
422
|
6epdQ |
Substrate processing state 26s proteasome (sps1) |
116
|
476
|
6epcS |
Ground state 26s proteasome (gs2) |
128
|
422
|
6epfQ |
Ground state 26s proteasome (gs1) |
123
|
456
|
6epeP |
Substrate processing state 26s proteasome (sps2) |
125
|
476
|
6epfS |
Ground state 26s proteasome (gs1) |
90
|
376
|
6epcO |
Ground state 26s proteasome (gs2) |
113
|
389
|
6epeR |
Substrate processing state 26s proteasome (sps2) |
104
|
389
|
6epdR |
Substrate processing state 26s proteasome (sps1) |
127
|
422
|
6epcQ |
Ground state 26s proteasome (gs2) |
119
|
431
|
5wvkQ |
Yeast proteasome-adp-alfx |
79
|
353
|
5wvkS |
Yeast proteasome-adp-alfx |
114
|
456
|
5vhiW |
Conformational landscape of the p28-bound human proteasome regulatory particle |
124
|
456
|
5vfrW |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
131
|
456
|
5vfsW |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
108
|
378
|
5vgzY |
Conformational landscape of the p28-bound human proteasome regulatory particle |
97
|
378
|
5vfpY |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
51
|
262
|
5vhsV |
Conformational landscape of the p28-bound human proteasome regulatory particle |
124
|
473
|
5vfpV |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
80
|
400
|
5wviR |
The resting state of yeast proteasome |
84
|
391
|
5vhsW |
Conformational landscape of the p28-bound human proteasome regulatory particle |
100
|
380
|
5vfqX |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
114
|
385
|
5vhfX |
Conformational landscape of the p28-bound human proteasome regulatory particle |
104
|
380
|
5vfpX |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
100
|
378
|
5vhsY |
Conformational landscape of the p28-bound human proteasome regulatory particle |
124
|
456
|
5vfpW |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
108
|
431
|
5wviQ |
The resting state of yeast proteasome |
94
|
378
|
5vfsY |
Nucleotide-driven triple-state remodeling of the aaa-atpase channel in the activated human 26s proteasome |
125
|
456
|
5t0jW |
Structural basis for dynamic regulation of the human 26s proteasome |