The movement of ions in the aqueous medium as they approach the mouth (radius a) of a conducting membrane channel is analyzed. Starting with the Nernst-Planck and Poisson equations, we derive a nonlinear integrodifferential equation for the electric potential, phi(r), a less than or equal to r less than infinity. The formulation allows deviations from charge neutrality and dependence of phi(r) on ion flux. A numerical solution is obtained by converting the equation to an integral equation that is solved by an iterative method for an assumed mouth potential, combined with a shooting method to adjust the mouth potential until the numerical solution agrees with an asymptotic expansion of the potential at r-a much greater than lambda (lambda = ...
Model calculations were done to investigate the effect of titratable fixed charges at channel openin...
We present a simple approximate analytical estimate for self-energy of a charge in the middle of cyl...
In this article a theory is presented to calculate integral properties of biological ion channels (l...
The movement of ions in the aqueous medium as they approach the mouth (radius a) of a conducting mem...
The solution for the ion flux through a membrane channel that incorporates the electrolyte nature of...
The electrostatic energy profile of one, two, or three ions in an aqueous channel through a lipid me...
AbstractWe have considered the access resistance (AR) of a single conducting channel placed in a mem...
Ionic motion in the bulk solution away from the mouth of a biological ion channel, and inside the ch...
Dynamics of Poisson-Nernst-Planck systems and its applications to ion channels are studied in this d...
The results of Decker and Levitt (1987) suggest that the conductance of H+ ion through the gramicidi...
We present an exact solution to the linearized Nernst-Planck-Poisson equation for spherically symmet...
In a previous paper (Jakobsson, E., and S. W. Chiu. 1987. Biophys. J. 52:33–46), we presented the st...
An electrodiffusion model for plasma membrane ion transport, which takes into account the influence ...
The electrical potential due to fixed charge distributions is strongly altered in the vicinity of a ...
AbstractAnalytical solutions of Poisson's equations satisfying the Dirichlet boundary conditions for...
Model calculations were done to investigate the effect of titratable fixed charges at channel openin...
We present a simple approximate analytical estimate for self-energy of a charge in the middle of cyl...
In this article a theory is presented to calculate integral properties of biological ion channels (l...
The movement of ions in the aqueous medium as they approach the mouth (radius a) of a conducting mem...
The solution for the ion flux through a membrane channel that incorporates the electrolyte nature of...
The electrostatic energy profile of one, two, or three ions in an aqueous channel through a lipid me...
AbstractWe have considered the access resistance (AR) of a single conducting channel placed in a mem...
Ionic motion in the bulk solution away from the mouth of a biological ion channel, and inside the ch...
Dynamics of Poisson-Nernst-Planck systems and its applications to ion channels are studied in this d...
The results of Decker and Levitt (1987) suggest that the conductance of H+ ion through the gramicidi...
We present an exact solution to the linearized Nernst-Planck-Poisson equation for spherically symmet...
In a previous paper (Jakobsson, E., and S. W. Chiu. 1987. Biophys. J. 52:33–46), we presented the st...
An electrodiffusion model for plasma membrane ion transport, which takes into account the influence ...
The electrical potential due to fixed charge distributions is strongly altered in the vicinity of a ...
AbstractAnalytical solutions of Poisson's equations satisfying the Dirichlet boundary conditions for...
Model calculations were done to investigate the effect of titratable fixed charges at channel openin...
We present a simple approximate analytical estimate for self-energy of a charge in the middle of cyl...
In this article a theory is presented to calculate integral properties of biological ion channels (l...