Propagated disturbances of transverse potential gradient in intracellular fibrils as the source of motive forces for longitudinal transport in cells

Summary It is proposed as a working hypothesis that conformational changes propagated like waves along intracellular fibrils (tubules, microtubules, microfilaments) have an electric component,i.e., there are waves of disturbance of electric potential in the fibrils. The paper considers the unavoidable consequences of the wave. The latter is accompanied by local electric field in the boundary layer of cytoplasmic fluid. Both positively and negatively charged particles may be attracted to the fibril in certain regions of the field and, being attracted, the particle may be under the action of longitudinal component of electric force. When the force is strong enough to move the particle with wave velocity, the particle will travel smoothly along the fibril, otherwise the movement will be saltatory or of agitation type. Net electroosmotic flow in one direction in the boundary layer of fluid may be expected when the waves are propagated in series. Turbulent motion of the fluid caused by the waves may provide the basis for activated diffusion. Asymmetry of the wave may account for polar transport of this sort. The electric field transmitted along the fibril across a sieve pore in phloem may facilitate electroosmotically the flow through the pore. Quantitative requirements of the hypothesis that electric field generated by the waves may account for different aspects of longitudinal transport in cells are apparently met.