Search Count: 37
![]() |
Atpase Hybrid F1 With The Ancestral Core Domains Binding Dwell
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2025-11-05 Classification: ELECTRON TRANSPORT Ligands: MG, ATP, PO4, ADP |
![]() |
Atpase Hybrid F1 With The Ancestral Core Domains Catalytic Dwell
Organism: Bacillus sp. ps3, Pseudomonas aeruginosa
Method: ELECTRON MICROSCOPY Release Date: 2025-11-05 Classification: ELECTRON TRANSPORT Ligands: ATP, MG, ADP |
![]() |
Engineering Of Atp Synthase
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2025-07-09 Classification: MEMBRANE PROTEIN Ligands: ADP, MG |
![]() |
Engineering Of Atp Synthase Fo
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2025-07-09 Classification: MEMBRANE PROTEIN |
![]() |
F1 Domain Of Non-Catalytic Site Depleted And Epsilon C-Terminal Domain Deleted Fof1-Atpase From Bacillus Ps3,Under Atp Saturated Condition
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2025-05-14 Classification: MOTOR PROTEIN Ligands: MG, ADP, ATP |
![]() |
F1 Domain Of Non-Catalytic Site Depleted And Epsilon C-Terminal Domain Deleted Fof1-Atpase From Bacillus Ps3,Nucleotide Depleted Condition
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2025-03-05 Classification: MEMBRANE PROTEIN |
![]() |
Ps3 F1 Atpase Wild Type
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2024-10-30 Classification: MEMBRANE PROTEIN Ligands: ANP, MG |
![]() |
Axle-Less Bacillus Sp. Ps3 F1 Atpase Mutant
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2024-09-11 Classification: HYDROLASE Ligands: ANP, MG, ADP, PO4 |
![]() |
Ps3 F1 Rotorless, No Atp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2024-01-24 Classification: TRANSLOCASE |
![]() |
Ps3 F1 Rotorless, Low Atp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2024-01-24 Classification: TRANSLOCASE Ligands: ATP, MG, ADP, PO4 |
![]() |
Ps3 F1 Rotorless, High Atp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2024-01-24 Classification: TRANSLOCASE Ligands: ATP, MG, ADP, PO4 |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,120 Degrees,Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-26 Classification: TRANSLOCASE/MOTOR PROTEIN Ligands: ATP, MG, PO4, ADP |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,Step Waiting,Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-26 Classification: TRANSLOCASE/MOTOR PROTEIN Ligands: ATP, MG, ADP, PO4 |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3, 81 Degrees, Lowatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-26 Classification: TRANSLOCASE/MOTOR PROTEIN Ligands: ATP, MG, ADP, PO4 |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,Post-Hyd,Lowatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-26 Classification: TRANSLOCASE/MOTOR PROTEIN Ligands: ATP, MG, ADP, PO4 |
![]() |
Fof1-Atpase From Bacillus Ps3, 81 Degrees, Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-19 Classification: MOTOR PROTEIN Ligands: ATP, MG, PO4 |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,Post-Hyd,Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-19 Classification: MOTOR PROTEIN Ligands: ATP, MG, PO4, ADP |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,90 Degrees,Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-19 Classification: MOTOR PROTEIN Ligands: ATP, MG, PO4, ADP |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3,101 Degrees, Highatp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-19 Classification: MOTOR PROTEIN Ligands: ATP, MG, ADP, PO4 |
![]() |
F1 Domain Of Fof1-Atpase From Bacillus Ps3, 90 Degrees, Low Atp
Organism: Bacillus sp. ps3
Method: ELECTRON MICROSCOPY Release Date: 2023-07-19 Classification: MOTOR PROTEIN Ligands: ATP, MG, PO4, ADP |




















