|
65
|
389
|
5mpaK |
26s proteasome in presence of atp (s2) |
|
75
|
389
|
5mpcK |
26s proteasome in presence of befx (s4) |
|
72
|
386
|
5mpaJ |
26s proteasome in presence of atp (s2) |
|
83
|
416
|
5mpbH |
26s proteasome in presence of amp-pnp (s3) |
|
62
|
426
|
5mpaH |
26s proteasome in presence of atp (s2) |
|
72
|
385
|
5mpaI |
26s proteasome in presence of atp (s2) |
|
76
|
416
|
5mpcH |
26s proteasome in presence of befx (s4) |
|
74
|
386
|
5mp9J |
26s proteasome in presence of atp (s1) |
|
73
|
408
|
5mpaM |
26s proteasome in presence of atp (s2) |
|
84
|
408
|
5mpcM |
26s proteasome in presence of befx (s4) |
|
90
|
388
|
5mpcL |
26s proteasome in presence of befx (s4) |
|
46
|
342
|
5m32d |
Human 26s proteasome in complex with oprozomib |
|
59
|
353
|
5m32c |
Human 26s proteasome in complex with oprozomib |
|
64
|
366
|
5m32e |
Human 26s proteasome in complex with oprozomib |
|
82
|
373
|
5ln3J |
The human 26s proteasome at 6.8 ang. |
|
65
|
355
|
5m32h |
Human 26s proteasome in complex with oprozomib |
|
75
|
362
|
5ln3I |
The human 26s proteasome at 6.8 ang. |
|
74
|
379
|
5ln3K |
The human 26s proteasome at 6.8 ang. |
|
67
|
348
|
5m32f |
Human 26s proteasome in complex with oprozomib |
|
70
|
378
|
5ln3H |
The human 26s proteasome at 6.8 ang. |
|
62
|
382
|
5m32g |
Human 26s proteasome in complex with oprozomib |
|
329
|
879
|
6n8tA |
Hsp104dwb closed conformation |
|
93
|
393
|
5l4gK |
The human 26s proteasome at 3.9 a |
|
107
|
504
|
5kzfA |
Crystal structure of near full-length hexameric mycobacterium tuberculosis proteasomal atpase mpa in apo form |
|
105
|
389
|
5l4gL |
The human 26s proteasome at 3.9 a |
|
103
|
379
|
5l4gI |
The human 26s proteasome at 3.9 a |
|
148
|
454
|
5kiyA |
P97 nd1-a232e in complex with vimp |
|
134
|
491
|
5kwaA |
Complete structure of the mycobacterium tuberculosis proteasomal atpase mpa |
|
101
|
693
|
5kneA |
Cryoem reconstruction of hsp104 hexamer |
|
88
|
396
|
5l4gH |
The human 26s proteasome at 3.9 a |
|
91
|
391
|
5l4gJ |
The human 26s proteasome at 3.9 a |
|
93
|
415
|
5l4gM |
The human 26s proteasome at 3.9 a |
|
124
|
443
|
5ji2E |
Hslu l199q in hsluv complex |
|
126
|
440
|
5kiwA |
P97 nd1-l198w in complex with vimp |
|
124
|
443
|
5ji3E |
Hsluv complex |
|
182
|
748
|
5ifwB |
Quantitative interaction mapping reveals an extended ubiquitin regulatory domain in aspl that disrupts functional p97 hexamers and induces cell death |
|
138
|
460
|
5ifsB |
Quantitative interaction mapping reveals an extended ubiquitin regulatory domain in aspl that disrupts functional p97 hexamers and induces cell death |
|
80
|
365
|
5gjrI |
An atomic structure of the human 26s proteasome |
|
75
|
387
|
5gjrH |
An atomic structure of the human 26s proteasome |
|
73
|
374
|
5gjrJ |
An atomic structure of the human 26s proteasome |
|
76
|
375
|
5gjrL |
An atomic structure of the human 26s proteasome |
|
83
|
380
|
5gjrK |
An atomic structure of the human 26s proteasome |
|
162
|
743
|
5ftlA |
Cryo-em structure of human p97 bound to atpgs (conformation i) |
|
122
|
537
|
4yplA |
Crystal structure of a hexameric lona protease bound to three adps |
|
79
|
362
|
4cr2I |
Deep classification of a large cryo-em dataset defines the conformational landscape of the 26s proteasome |
|
101
|
528
|
6mdoA |
The d1 and d2 domain rings of nsf engaging the snap-25 n-terminus within the 20s supercomplex (focused refinement on d1/d2 rings, class 1) |
|
99
|
528
|
6mdnA |
The 20s supercomplex engaging the snap-25 n-terminus (class 2) |
|
105
|
528
|
6mdpA |
The d1 and d2 domain rings of nsf engaging the snap-25 n-terminus within the 20s supercomplex (focused refinement on d1/d2 rings, class 2) |
|
127
|
738
|
6mdmA |
The 20s supercomplex engaging the snap-25 n-terminus (class 1) |
|
135
|
458
|
6gcnA |
Truncated ftsh from a. aeolicus in r32 |
