Add to ORKGWe test the validity of the mean-field approximation in Poisson-Nernst- Planck theory by contrasting its predictions with those of Brownian dynamics simulations in schematic cylindrical channels and in a realistic potassium channel. Equivalence of the two theories in bulk situations is demonstrated in a control study. In simple cylindrical channels, considerable differences are found between the two theories with regard to the concentration profiles in the channel and its conductance properties. These differences are at a maximum in narrow channels with a radius smaller than the Debye length and diminish with increasing radius. Convergence occurs when the channel radius is over 2 Debye lengths. These tests unequivocally demonstrate that the...
The synthetic channel [acetyl-(LeuSerSerLeuLeuSerLeu)3-CONH2]6 (pore diameter approximately 8 A, len...
AbstractThe Poisson-Nernst-Planck electrodiffusion theory serves to compute charge fluxes and is her...
The simulation of ion transport in biological ion channels presents numerous interesting challenges....
AbstractWe test the validity of the mean-field approximation in Poisson–Nernst–Planck theory by cont...
The macroscopic Nernst-Planck (NP) theory has often been used for predicting ion channel currents in...
AbstractContinuum theories of electrolytes are widely used to describe physical processes in various...
The macroscopic Nernst-Planck (NP) theory has often been used for predicting ion channel currents in...
AbstractWe demonstrated previously that the two continuum theories widely used in modeling biologica...
We demonstrated previously that the two continuum theories widely used in modeling biological ion ch...
Dynamics of Poisson-Nernst-Planck systems and its applications to ion channels are studied in this d...
The ionic distribution induced by an external field is investigated by means of the Poisson-Nernst- ...
Nearly linear current-voltage curves are frequently found in biological ion channels. Using the drif...
Ionic channels play an important role in regulating the cell’s membrane potential and internal charg...
AbstractA composite continuum theory for calculating ion current through a protein channel of known ...
The behavior of a multiply-occupied cation-selective channel has been computed by Brownian dynamics....
The synthetic channel [acetyl-(LeuSerSerLeuLeuSerLeu)3-CONH2]6 (pore diameter approximately 8 A, len...
AbstractThe Poisson-Nernst-Planck electrodiffusion theory serves to compute charge fluxes and is her...
The simulation of ion transport in biological ion channels presents numerous interesting challenges....
AbstractWe test the validity of the mean-field approximation in Poisson–Nernst–Planck theory by cont...
The macroscopic Nernst-Planck (NP) theory has often been used for predicting ion channel currents in...
AbstractContinuum theories of electrolytes are widely used to describe physical processes in various...
The macroscopic Nernst-Planck (NP) theory has often been used for predicting ion channel currents in...
AbstractWe demonstrated previously that the two continuum theories widely used in modeling biologica...
We demonstrated previously that the two continuum theories widely used in modeling biological ion ch...
Dynamics of Poisson-Nernst-Planck systems and its applications to ion channels are studied in this d...
The ionic distribution induced by an external field is investigated by means of the Poisson-Nernst- ...
Nearly linear current-voltage curves are frequently found in biological ion channels. Using the drif...
Ionic channels play an important role in regulating the cell’s membrane potential and internal charg...
AbstractA composite continuum theory for calculating ion current through a protein channel of known ...
The behavior of a multiply-occupied cation-selective channel has been computed by Brownian dynamics....
The synthetic channel [acetyl-(LeuSerSerLeuLeuSerLeu)3-CONH2]6 (pore diameter approximately 8 A, len...
AbstractThe Poisson-Nernst-Planck electrodiffusion theory serves to compute charge fluxes and is her...
The simulation of ion transport in biological ion channels presents numerous interesting challenges....