Mechanics and models of the myosin motor

Abstract

In striated muscles, shortening comes about by the sliding movement of thick filaments, composed mostly of myosin, relative to thin filaments, composed mostly of actin. This is brought about by cyclic action of ‘cross–bridges’ composed of the heads of myosin molecules projecting from a thick filament, which attach to an adjacent thin filament, exert force for a limited time and detach, and then repeat this cycle further along the filament. The requisite energy is provided by the hydrolysis of a molecule of adenosine triphosphate to the diphosphate and inorganic phosphate, the steps of this reaction being coupled to mechanical events within the cross–bridge. The nature of these events is discussed. There is good evidence that one of them is a change in the angle of tilt of a ‘lever arm’ relative to the ‘catalytic domain’ of the myosin head which binds to the actin filament. It is suggested here that this event is superposed on a slower, temperature–sensitive change in the orientation of the catalytic domain on the actin filament. Many uncertainties remain.