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7XKO

F1 domain of epsilon C-terminal domain deleted FoF1 from Bacillus PS3,state1,nucleotide depeleted

Summary for 7XKO
Entry DOI10.2210/pdb7xko/pdb
EMDB information33258
DescriptorATP synthase subunit alpha, ATP synthase subunit beta, ATP synthase gamma chain, ... (4 entities in total)
Functional Keywordsatp synthase f1 atpase fof1, motor protein
Biological sourceBacillus sp. PS3
More
Total number of polymer chains7
Total formula weight356775.17
Authors
Nakano, A.,Kishikawa, J.,Nakanishi, A.,Mitsuoka, K.,Yokoyama, K. (deposition date: 2022-04-20, release date: 2022-09-21, Last modification date: 2023-10-11)
Primary citationNakano, A.,Kishikawa, J.I.,Nakanishi, A.,Mitsuoka, K.,Yokoyama, K.
Structural basis of unisite catalysis of bacterial F 0 F 1 -ATPase.
Pnas Nexus, 1:pgac116-pgac116, 2022
Cited by
PubMed Abstract: Adenosine triphosphate (ATP) synthases (FF-ATPases) are crucial for all aerobic organisms. F, a water-soluble domain, can catalyze both the synthesis and hydrolysis of ATP with the rotation of the central rotor inside a cylinder made of in three different conformations (referred to as , , and ). In this study, we determined multiple cryo-electron microscopy structures of bacterial FF exposed to different reaction conditions. The structures of nucleotide-depleted FF indicate that the ε subunit directly forces to adopt a closed form independent of the nucleotide binding to . The structure of FF under conditions that permit only a single catalytic subunit per enzyme to bind ATP is referred to as unisite catalysis and reveals that ATP hydrolysis unexpectedly occurs on instead of , where ATP hydrolysis proceeds in the steady-state catalysis of FF. This indicates that the unisite catalysis of bacterial FF significantly differs from the kinetics of steady-state turnover with continuous rotation of the shaft.
PubMed: 36741449
DOI: 10.1093/pnasnexus/pgac116
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (3.4 Å)
Structure validation

226707

數據於2024-10-30公開中

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