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Biophys J, January 2000, p. 125-135, Vol. 78, No. 1
UCSD Department of Chemistry and Biochemistry, La Jolla, California 92093-0339 USA
We analyze a two-state stochastic corral model for
regulation of protein diffusion in a cell membrane. This model could
mimic control of protein transport in the membrane by the cytoskeleton. The dynamic corral acts as a gate which when open permits an otherwise trapped protein to escape to a neighboring corral in the cytoskeletal network. We solve for the escape rate over a wide range of parameters of the model, and compare these results with Monte Carlo simulations. Upon introducing measured values of the model parameters for Band 3 in
erythrocyte membranes, we are able to estimate the value for one
unknown parameter, the average rate at which the corral closes. The
ratio of calculated closing rate to measured opening rate is roughly
100:1, consistent with a gating mechanism whereby protein mobility is
regulated by dissociation and reassociation of segments of the
cytoskeletal network.
Biophys J, January 2000, p. 125-135, Vol. 78, No. 1
© 2000 by the Biophysical Society 0006-3495/00/01/125/11 $2.00
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