|
10
|
29
|
9es7H |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
477
|
1220
|
9e0dA |
Structure of proline utilization a complexed with piperonyl alcohol |
|
481
|
1220
|
9e0aA |
Structure of proline utilization a complexed with 1,4-benzenedimethanol |
|
476
|
1220
|
9e0bA |
Structure of proline utilization a complexed with (2,3-dihydro-1-benzofuran-5-yl)methanol |
|
79
|
257
|
9gxbA |
Room temperature structure of fad-containing ferrodoxin-nadp reductase from brucella ovis at euxfel |
|
106
|
352
|
9gleA |
Jumonji domain-containing protein 2a with crystallization epitope mutations a91t:t93s |
|
131
|
394
|
9g9rA |
Crystal structure of pbda bound to p-ethylbenzoate |
|
130
|
393
|
9g9sA |
Crystal structure of pbda bound to veratrate |
|
24
|
116
|
9giiA |
Jumonji domain-containing protein 2a with crystallization epitope mutation r913a |
|
477
|
1220
|
9e0cA |
Structure of proline utilization a complexed with 1-benzofuran-5-ylmethanol |
|
106
|
347
|
9gp1A |
Jumonji domain-containing protein 2a with crystallization epitope mutatios k330r:a334e |
|
85
|
257
|
9gxcA |
Room temperature structure of fad-containing ferrodoxin-nadp reductase from brucella ovis at lcls |
|
26
|
128
|
9h44A |
Jumonji domain-containing protein 2b with crown ether and crystallization epitope mutations l916g:r917a:a918d |
|
136
|
393
|
9g9qA |
Crystal structure of pbda bound to p-methoxybenzoate. |
|
22
|
116
|
9gp4A |
Jumonji domain-containing protein 2a with crystallization epitope mutations q953e:a958d |
|
93
|
210
|
9fvsA |
Crystal structure of heme-oxygenase mutant g139a from corynebacterium diphtheriae complexed with cobalt-porphyrine (humo-co(iii)) |
|
89
|
210
|
9fw4A |
Crystal structure of heme-oxygenase mutant h20c from corynebacterium diphtheriae complexed with cobalt-porphyrine (humo-co(iii)) |
|
162
|
532
|
9fl2A |
Crystal structure of oscillatoria princeps pyranose oxidase |
|
466
|
1208
|
9dl3A |
Structure of proline utilization a complexed with quinoline-2-carboxylic acid |
|
41
|
159
|
9es7B |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
63
|
285
|
9es7C |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
89
|
210
|
9f66A |
Crystal structure of heme-oxygenase from corynebacterium diphtheriae complexed with cobalt-porphyrine (humo-co(iii)) flash-cooled under co2 pressure |
|
94
|
210
|
9f5uA |
Crystal structure of heme-oxygenase from corynebacterium diphtheriae complexed with cobalt-porphyrine (humo-co(iii)) |
|
82
|
214
|
9es7A |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
459
|
1216
|
9dl5A |
Structure of proline utilization a complexed with 5-chloro-1-indanone |
|
17
|
37
|
9es7F |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
466
|
1213
|
9dl4A |
Structure of proline utilization a complexed with 2-pyridinethiol |
|
467
|
1216
|
9dl8A |
Structure of proline utilization a soaked with 4-methoxybenzyl alcohol |
|
458
|
1210
|
9dl7A |
Structure of proline utilization a complexed with 1-(4-fluorophenyl)thiourea |
|
11
|
29
|
9es8H |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
31
|
172
|
9es8D |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
79
|
214
|
9es8A |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
13
|
31
|
9es9E |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
2
|
26
|
9es9Q |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
56
|
285
|
9es9C |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
12
|
34
|
9es7G |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
16
|
37
|
9es8F |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
35
|
172
|
9es7D |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
13
|
31
|
9es8E |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
3
|
26
|
9es8Q |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
54
|
285
|
9es8C |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
4
|
26
|
9es7Q |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with water molecules at 1.94 a resolution |
|
40
|
159
|
9es9B |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
18
|
37
|
9es9F |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
11
|
33
|
9es9G |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
11
|
33
|
9es8G |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
40
|
159
|
9es8B |
Cryo-em structure of spinacia oleracea cytochrome b6f with decylplastoquinone bound at plastoquionol reduction site |
|
11
|
29
|
9es9H |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
80
|
214
|
9es9A |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
|
29
|
179
|
9es9D |
Cryo-em structure of spinacia oleracea cytochrome b6f complex with inhibitor dbmib bound at plastoquinol oxidation site |
