Electrophoresis and diffusion in the plane of the cell membrane.

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Electrophoresis and diffusion in the plane of the cell membrane.

M Poo, J W Lam, N Orida and A W Chao

ABSTRACT

Electrophoretic and diffusional movements of concanavalin A(Con A) receptors and acetylcholine (ACh) receptors in the planeof the plasma membrane of mononucleate, spherical Xenopus myoblastswere studied by microfluorimetry and iontophoresis. We foundthat (a) a uniform electric field of 10 V/cm applied along thecell surface produces a partial accumulation of both types ofreceptors toward the cathodal pole of the cell within 30 min:(b) post-field relaxation of the culture results in the completerecovery of the uniform distribution of the Con A receptorswithin 10 min; and (c) in contrast to the Con A receptor ingeneral, accumulation of ACh receptors by the electric fieldresults in the formation of stable, localized receptor aggregates.Theoretical analyses were carried out for the distribution ofcharged membrane receptors at equilibrium between electrophoresisand diffusion, and for the rate of back diffusion after theremoval of the field. These analyses indicated that, at 22 degreesC, the average electrophoretic mobility of the electrophoreticallymobile population of the Con A receptors is about 1.9 X 10(-3)micron/s per V/cm, while their average diffusion coefficientis 5.1 X 10(-9) cm2/s.

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