Efficiently driving F1 molecular motor in experiment by suppressing nonequilibrium variation

Abstract

F1-ATPase (F1) is central to cellular energy transduction. Forcibly rotated by another motor Fo, F1 catalyzes ATP synthesis by converting mechanical work into chemical free energy stored in the molecule ATP. The details of how Fo drives F1 are not fully understood; however, evaluating efficient ways to rotate F1 could provide fruitful insights into this driving since there is a selective pressure to improve efficiency. Here, we show that rotating F1 with an angle clamp is significantly more efficient than a constant torque. Our experiments, combined with theory and simulation, indicate that the angle clamp significantly suppresses the nonequilibrium variation that contributes to the futile dissipation of input work.