Optimal rectification without forward-current suppression by biological molecular motor

Abstract

We experimentally showed that biological molecular motor F1-ATPase (F1) implements an optimal rectification mechanism. F1 hardly suppresses adenosine triphosphate (ATP) synthesis, which is the F1's physiological role while inhibiting unfavorable hydrolysis of ATP. This optimal rectification is a high contrast to a simple ratchet model, where the inhibition of the backward current is inevitably accompanied by the suppression of the forward current. The detailed analysis of single-molecule trajectories demonstrated a novel but simple rectification mechanism of F1 with parallel landscapes and asymmetric transition rates.