|
116
|
469
|
9avjB |
Ps3 f1 atpase wild type |
|
111
|
469
|
9avjF |
Ps3 f1 atpase wild type |
|
17
|
132
|
8zi2e |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 3 |
|
107
|
468
|
9avjD |
Ps3 f1 atpase wild type |
|
74
|
282
|
9avjG |
Ps3 f1 atpase wild type |
|
128
|
472
|
9avjA |
Ps3 f1 atpase wild type |
|
109
|
465
|
9avjE |
Ps3 f1 atpase wild type |
|
117
|
472
|
9avjC |
Ps3 f1 atpase wild type |
|
127
|
489
|
8zi0A |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 1 |
|
124
|
489
|
8zi2A |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 3 |
|
97
|
288
|
8zi0g |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 1 |
|
94
|
288
|
8zi2g |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 3 |
|
105
|
463
|
8zi2D |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 3 |
|
110
|
463
|
8zi0D |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 1 |
|
25
|
132
|
8zi0e |
Cryo-em reveals transition states of the acinetobacter baumannii f1-atpase rotary subunits gamma and epsilon and novel compound targets - conformation 1 |
|
54
|
259
|
8u1hG |
Axle-less bacillus sp. ps3 f1 atpase mutant |
|
141
|
474
|
8u1hA |
Axle-less bacillus sp. ps3 f1 atpase mutant |
|
138
|
469
|
8u1hD |
Axle-less bacillus sp. ps3 f1 atpase mutant |
|
112
|
470
|
8ygvD |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,nucleotide depleted condition |
|
130
|
478
|
8ygvA |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,nucleotide depleted condition |
|
89
|
283
|
8ygvG |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,nucleotide depleted condition |
|
105
|
282
|
8yh8G |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,under atp saturated condition |
|
143
|
470
|
8yh8D |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,under atp saturated condition |
|
15
|
87
|
8yh8H |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,under atp saturated condition |
|
150
|
474
|
8yh8A |
F1 domain of non-catalytic site depleted and epsilon c-terminal domain deleted fof1-atpase from bacillus ps3,under atp saturated condition |
|
167
|
489
|
9bymA |
Cryo-em structure of atp synthase non-stator state |
|
33
|
132
|
9bymH |
Cryo-em structure of atp synthase non-stator state |
|
100
|
272
|
9bymG |
Cryo-em structure of atp synthase non-stator state |
|
29
|
72
|
9bymK |
Cryo-em structure of atp synthase non-stator state |
|
17
|
53
|
9bymJ |
Cryo-em structure of atp synthase non-stator state |
|
14
|
48
|
9bymI |
Cryo-em structure of atp synthase non-stator state |
|
153
|
517
|
8j0tA |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
173
|
445
|
8j0td |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
77
|
237
|
8j0ta |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
55
|
144
|
8j0tb |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
143
|
469
|
8j0tD |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
106
|
300
|
8j0tG |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
29
|
119
|
8j0tH |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
33
|
81
|
8j0t1 |
Cryo-em structure of mycobacterium tuberculosis atp synthase in the apo-form |
|
160
|
517
|
8jr0A |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
169
|
445
|
8jr0d |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
144
|
469
|
8jr0D |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
21
|
119
|
8jr0H |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
107
|
300
|
8jr0G |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
59
|
144
|
8jr0b |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
32
|
81
|
8jr01 |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
68
|
237
|
8jr0a |
Cryo-em structure of mycobacterium tuberculosis atp synthase in complex with tbaj-587 |
|
128
|
470
|
8spwD |
Ps3 f1 rotorless, low atp |
|
140
|
476
|
8spxA |
Ps3 f1 rotorless, high atp |
|
131
|
470
|
8spvD |
Ps3 f1 rotorless, no atp |
