|
0
|
5
|
9l4pB |
Arabidopsis thaliana protease-associated domain of vacuolar sorting receptor 1 in complexed with vicilin-like seed storage protein 22 c-terminal pentapeptide sdrfv (ph 7.0) |
|
90
|
262
|
9k29F |
Structure of the salmonella flagellar flipqr complex reconstituted in the peptidisc |
|
77
|
208
|
9k29A |
Structure of the salmonella flagellar flipqr complex reconstituted in the peptidisc |
|
42
|
161
|
9l4pA |
Arabidopsis thaliana protease-associated domain of vacuolar sorting receptor 1 in complexed with vicilin-like seed storage protein 22 c-terminal pentapeptide sdrfv (ph 7.0) |
|
44
|
161
|
9l4oA |
Arabidopsis thaliana protease-associated domain of vacuolar sorting receptor 1 in complexed with vicilin-like seed storage protein 22 c-terminal pentapeptide sdrfv (ph 5.8) |
|
0
|
5
|
9l4oB |
Arabidopsis thaliana protease-associated domain of vacuolar sorting receptor 1 in complexed with vicilin-like seed storage protein 22 c-terminal pentapeptide sdrfv (ph 5.8) |
|
32
|
89
|
9k29G |
Structure of the salmonella flagellar flipqr complex reconstituted in the peptidisc |
|
23
|
49
|
9j99B |
Substrate-engaged tom complex from yeast |
|
17
|
117
|
9j9bH |
Substrate-engaged tim23 complex from yeast |
|
24
|
67
|
9j9bD |
Substrate-engaged tim23 complex from yeast |
|
13
|
40
|
9j99C |
Substrate-engaged tom complex from yeast |
|
65
|
325
|
9j9bC |
Substrate-engaged tim23 complex from yeast |
|
6
|
40
|
9j99E |
Substrate-engaged tom complex from yeast |
|
47
|
133
|
9j9bA |
Substrate-engaged tim23 complex from yeast |
|
26
|
83
|
9j9bB |
Substrate-engaged tim23 complex from yeast |
|
3
|
15
|
9j9bE |
Substrate-engaged tim23 complex from yeast |
|
9
|
38
|
9j99D |
Substrate-engaged tom complex from yeast |
|
15
|
111
|
9j9bL |
Substrate-engaged tim23 complex from yeast |
|
65
|
334
|
9j99A |
Substrate-engaged tom complex from yeast |
|
103
|
378
|
9il4A |
Structure and iron-transporting mechanism of boct1 |
|
17
|
59
|
9hz5A |
Pre-clinical characterization of novel multi-client inhibitors of sec61 with broad anti-tumor activity |
|
7
|
20
|
9hz5C |
Pre-clinical characterization of novel multi-client inhibitors of sec61 with broad anti-tumor activity |
|
125
|
412
|
9hz5B |
Pre-clinical characterization of novel multi-client inhibitors of sec61 with broad anti-tumor activity |
|
212
|
736
|
9gl6A |
Trpc5 in complex with spin-labelled ligand spinpico3 |
|
250
|
750
|
9gkbA |
Trpc5 in complex with spin-labelled ligand spinpico1 |
|
179
|
425
|
9cleA |
Importin alpha isoform 2 with synthetic zero net-charge nuclear localization signal |
|
177
|
425
|
9clfA |
Importin alpha isoform 2 with synthetic zero net-charge nuclear localization signal |
|
179
|
425
|
9cl8A |
Importin alpha isoform 2 with synthetic zero net-charge nuclear localization signal |
|
177
|
425
|
9clgA |
Importin alpha isoform 2 with synthetic zero net-charge nuclear localization signal |
|
37
|
131
|
8t36A |
Crystal structure of k49 acetylated lc3a in complex with the lir of tp53inp2/dor |
|
109
|
443
|
8r4yA |
Homotrimer for the lumenal domain of vacuolar sorting receptor 1 (vsr1) |
|
125
|
445
|
9b1rA |
Functional implication of the homotrimeric multidomain vacuolar sorting receptor 1 from arabidopsis thaliana |
|
28
|
116
|
8pmoA |
Crystal structure of human v122i transthyretin in complex with pitb (pharmacokinetically improved ttr binder) |
|
24
|
122
|
8oujD |
Heterotrimeric complex of human asct2 with syncytin-1 |
|
25
|
122
|
8ouhD |
Complex of human asct2 with syncytin-1 |
|
148
|
446
|
8oujA |
Heterotrimeric complex of human asct2 with syncytin-1 |
|
15
|
101
|
8ouiD |
Complex of asct2 with suppressyn |
|
148
|
446
|
8ouhA |
Complex of human asct2 with syncytin-1 |
|
144
|
446
|
8ouiA |
Complex of asct2 with suppressyn |
|
60
|
326
|
8jp9A |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate d) |
|
21
|
105
|
8jp9C |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate d) |
|
24
|
105
|
8jp4C |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (form a) |
|
22
|
106
|
8jp5C |
Cryo-em structures of the head region of full-length ergic-53 with mcfd2 (form b) |
|
74
|
326
|
8jp4A |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (form a) |
|
21
|
106
|
8jp7C |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate b) |
|
21
|
105
|
8jp8C |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate c) |
|
18
|
105
|
8jp6C |
Cryo-em structures of the head region of full-length ergic-53 with mcfd2 (substate a) |
|
61
|
326
|
8jp8A |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate c) |
|
69
|
325
|
8jp7A |
Cryo-em structure of the head region of full-length ergic-53 with mcfd2 (substate b) |
|
71
|
326
|
8jp5A |
Cryo-em structures of the head region of full-length ergic-53 with mcfd2 (form b) |
