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A rotary molecular motor that can work at near 100% efficiency

2000; Royal Society; Volume: 355; Issue: 1396 Linguagem: Inglês

10.1098/rstb.2000.0589

1471-2970

Kazuhiko Kinosita, Ryohei Yasuda, Hiroyuki Noji, Kengo Adachi,

Cardiomyopathy and Myosin Studies

A single molecule of F 1 –ATPase is by itself a rotary motor in which a central γ–subunit rotates against a surrounding cylinder made of α 3 β 3 –subunits. Driven by the three βs that sequentially hydrolyse ATP, the motor rotates in discrete 120° steps, as demonstrated in video images of the movement of an actin filament bound, as a marker, to the central γ–subunit. Over a broad range of load (hydrodynamic friction against the rotating actin filament) and speed, the F motor produces a constant torque of ca . 40 pN nm. The work done in a 120° step, or the work per ATP molecule, is thus ca . 80 pN nm. In cells, the free energy of ATP hydrolysis is ca . 90 pN nm per ATP molecule, suggesting that the F 1 motor can work at near 100% efficiency. We confirmed in vitro that F 1 indeed does ca . 80 pN nm of work under the condition where the free energy per ATP is 90 pN nm. The high efficiency may be related to the fully reversible nature of the F 1 motor: the ATP synthase, of which F 1 is a part, is considered to synthesize ATP from ADP and phosphate by reverse rotation of the F motor. Possible mechanisms of F 1 rotation are discussed.