|
52
|
238
|
6epeF |
Substrate processing state 26s proteasome (sps2) |
|
51
|
238
|
6epcF |
Ground state 26s proteasome (gs2) |
|
35
|
213
|
6epf6 |
Ground state 26s proteasome (gs1) |
|
43
|
213
|
6epe6 |
Substrate processing state 26s proteasome (sps2) |
|
47
|
245
|
6epdG |
Substrate processing state 26s proteasome (sps1) |
|
43
|
216
|
6epd7 |
Substrate processing state 26s proteasome (sps1) |
|
49
|
245
|
6epcG |
Ground state 26s proteasome (gs2) |
|
50
|
246
|
6epeA |
Substrate processing state 26s proteasome (sps2) |
|
47
|
233
|
6epcE |
Ground state 26s proteasome (gs2) |
|
52
|
249
|
6epdC |
Substrate processing state 26s proteasome (sps1) |
|
53
|
234
|
6epdB |
Substrate processing state 26s proteasome (sps1) |
|
37
|
196
|
6epd4 |
Substrate processing state 26s proteasome (sps1) |
|
53
|
246
|
6epfD |
Ground state 26s proteasome (gs1) |
|
53
|
249
|
6epcC |
Ground state 26s proteasome (gs2) |
|
37
|
196
|
6epf4 |
Ground state 26s proteasome (gs1) |
|
40
|
202
|
6epf1 |
Ground state 26s proteasome (gs1) |
|
48
|
246
|
6epdD |
Substrate processing state 26s proteasome (sps1) |
|
49
|
246
|
6epcD |
Ground state 26s proteasome (gs2) |
|
54
|
245
|
6epfG |
Ground state 26s proteasome (gs1) |
|
44
|
216
|
6epc7 |
Ground state 26s proteasome (gs2) |
|
39
|
216
|
6epe7 |
Substrate processing state 26s proteasome (sps2) |
|
51
|
245
|
6epeG |
Substrate processing state 26s proteasome (sps2) |
|
38
|
205
|
6epd3 |
Substrate processing state 26s proteasome (sps1) |
|
45
|
233
|
6epfE |
Ground state 26s proteasome (gs1) |
|
40
|
196
|
6epc4 |
Ground state 26s proteasome (gs2) |
|
46
|
234
|
6epcB |
Ground state 26s proteasome (gs2) |
|
53
|
249
|
6epeC |
Substrate processing state 26s proteasome (sps2) |
|
46
|
205
|
6epc3 |
Ground state 26s proteasome (gs2) |
|
46
|
234
|
6epfB |
Ground state 26s proteasome (gs1) |
|
49
|
246
|
6epdA |
Substrate processing state 26s proteasome (sps1) |
|
47
|
238
|
6epfF |
Ground state 26s proteasome (gs1) |
|
45
|
213
|
6epd6 |
Substrate processing state 26s proteasome (sps1) |
|
37
|
201
|
6epd5 |
Substrate processing state 26s proteasome (sps1) |
|
54
|
246
|
6epcA |
Ground state 26s proteasome (gs2) |
|
36
|
205
|
6epf3 |
Ground state 26s proteasome (gs1) |
|
50
|
234
|
6epeB |
Substrate processing state 26s proteasome (sps2) |
|
44
|
201
|
6epe5 |
Substrate processing state 26s proteasome (sps2) |
|
41
|
213
|
6epc6 |
Ground state 26s proteasome (gs2) |
|
47
|
246
|
6epeD |
Substrate processing state 26s proteasome (sps2) |
|
46
|
238
|
6epdF |
Substrate processing state 26s proteasome (sps1) |
|
62
|
230
|
6bgoA |
Singly pafe-capped 20s cp in mycobacterium tuberculosis |
|
57
|
240
|
6avoO |
Cryo-em structure of human immunoproteasome with a novel noncompetitive inhibitor that selectively inhibits activated lymphocytes |
|
55
|
233
|
6avoH |
Cryo-em structure of human immunoproteasome with a novel noncompetitive inhibitor that selectively inhibits activated lymphocytes |
|
62
|
222
|
6bglP |
Doubly pafe-capped 20s core particle in mycobacterium tuberculosis |
|
44
|
204
|
6avoU |
Cryo-em structure of human immunoproteasome with a novel noncompetitive inhibitor that selectively inhibits activated lymphocytes |
|
67
|
221
|
6bdf0 |
2.8 a resolution reconstruction of the thermoplasma acidophilum 20s proteasome using cryo-electron microscopy |
|
62
|
222
|
6bgoP |
Singly pafe-capped 20s cp in mycobacterium tuberculosis |
|
57
|
201
|
6bdf1 |
2.8 a resolution reconstruction of the thermoplasma acidophilum 20s proteasome using cryo-electron microscopy |
|
62
|
227
|
6bglA |
Doubly pafe-capped 20s core particle in mycobacterium tuberculosis |
|
58
|
232
|
6avoI |
Cryo-em structure of human immunoproteasome with a novel noncompetitive inhibitor that selectively inhibits activated lymphocytes |
