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Flexibility within the Rotor and Stators of the Vacuolar H+-ATPase

2013; Public Library of Science; Volume: 8; Issue: 12 Linguagem: Inglês

10.1371/journal.pone.0082207

1932-6203

Chun Song, Kostas Papachristos, Shaun Rawson, Markus Huss, Helmut Wieczorek, Emanuele Paci, John Trinick, Michael A. Harrison, Stephen P. Muench,

Advanced NMR Techniques and Applications

The V-ATPase is a membrane-bound protein complex which pumps protons across the membrane to generate a large proton motive force through the coupling of an ATP-driven 3-stroke rotary motor (V1) to a multistroke proton pump (Vo). This is done with near 100% efficiency, which is achieved in part by flexibility within the central rotor axle and stator connections, allowing the system to flex to minimise the free energy loss of conformational changes during catalysis. We have used electron microscopy to reveal distinctive bending along the V-ATPase complex, leading to angular displacement of the V1 domain relative to the Vo domain to a maximum of ~30°. This has been complemented by elastic network normal mode analysis that shows both flexing and twisting with the compliance being located in the rotor axle, stator filaments, or both. This study provides direct evidence of flexibility within the V-ATPase and by implication in related rotary ATPases, a feature predicted to be important for regulation and their high energetic efficiencies.