Mathematical model of morphogen electrophoresis through gap junctions

Electroosmotic flow in rectangular channels with nonequal zeta potentials of the walls was studied. It was shown that in such channels the electroosmotic flow velocity profile may deviate substantially from the usual plug flow profile. This nonuniformity of electroosmotic flow leads to the Taylor di

A general model for the transfer of ions and molecules between two cells via a gap junction is presented. This constitutes a dynamical system consisting of two connected parts: the dynamics of intracellular concentrations and electrical potentials, and the dynamics of the gating in the gap junction.

The migration of chemotactic bacteria in liquid media has previously been characterized in terms of two fundamental transport coefficients-the random motility coefficient and the chemotactic sensitivity coefficient. For modeling migration in porous media, we have shown that these coefficients which