Vectorial Loading of Processive Motor Proteins: Implementing a Landscape Picture

Abstract

Individual processive molecular motors, of which conventional kinesin is the most studied quantitatively, move along polar molecular tracks and, by exerting a force F = (Fx,Fy,Fz) on a tether, drag cellular cargoes, in vivo, or spherical beads, in vitro, taking up to hundreds of nanometer-scale steps. From observations of velocities and the dispersion of displacements with time, under measured forces and controlled fuel supply (typically ATP), one may hope to obtain insight into the molecular motions undergone in the individual steps. In the simplest situation, the load force F may be regarded as a scalar resisting force, Fx < 0, acting parallel to the track: however, experiments, originally by Gittes et al. (1996), have imposed perpendicular (or vertical) loads, Fz > 0, while more recently Block and coworkers (2002, 2003) and Carter and Cross (2005) have studied assisting (or reverse) loads, Fx > 0, and also sideways (or transverse) loads Fy ≠ 0.

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