Chemomechanical coupling of F1-ATPase under hydrolysis conditions
نویسندگان
چکیده
F1-ATPase (F1) is the smallest rotary motor protein that couples ATP hydrolysis/synthesis to rotary motion in a highly reversible manner. F1 is unique compared with other motor proteins because of its high efficiency and reversibility in converting chemical energy into mechanical work. To determine the energy conversion mechanism of F1-ATPase, we developed a novel single-molecule manipulation technique with magnetic tweezers and determined the timing of Pi release, which was the last unknown piece of the chemomechanical coupling scheme of F1. The established fundamental chemomechanical coupling scheme provides evidence to explain the high reversibility between catalysis and mechanical work.
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F1-ATPase (F1) is a reversible ATP-driven rotary motor protein. When its rotary shaft is reversely rotated, F1 produces ATP against the chemical potential of ATP hydrolysis, suggesting that F1 modulates the rate constants and equilibriums of catalytic reaction steps depending on the rotary angle of the shaft. Although the chemomechanical coupling scheme of F1 has been determined, it is unclear ...
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