The structural and thermodynamic factors responsible for the singly and doubly occupied saturation states of the gramicidin channel are investigated with molecular dynamics simulations and free energy perturbation methods. The relative free energy of binding of all of the five common cations Li+, Na+, K+, Rb+, and Cs+ is calculated in the singly and doubly occupied channel and in bulk water. The atomic system, which includes the gramicidin channel, a model membrane made of neutral Lennard-Jones particles and 190 explicit water molecules to form the bulk region, is similar to the one used in previous work to calculate the free energy profile of a Na+ ion along the axis of the channel. In all of the calculations, the ions are positioned in th...
AbstractWe investigate the validity of continuum electrostatics in the gramicidin A channel using a ...
ABSTRACT The rigid force fields currently used in molecular dynamics (MD) simulations of biomolecule...
Molecular dynamics studies for the voltage-driven transport of the alkali metal ions lithium, sodium...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
The free energy governing K+ conduction through gramicidin A channels is characterized by using over...
Molecular dynamics calculations in which all atoms were allowed to move were performed on a water-fi...
The valence selectivity of the gramicidin channel is examined using computer simulations based on at...
The potential of mean force for Na+ and K+ ions as a function of position in the interior of a perio...
A model calculation is carried out to study the potential energy profile of a sodium ion with severa...
Standard Poisson-Nernst-Planck (PNP) theory is modified by adding contributions due the Dielectric S...
The free energy profiles for four organic cations in right-handed single-helix gramicidin A dimers w...
The influence of a gramicidin-like channel former on ion free energy barriers is studied using Monte...
Calculations of the solvation energetics for a Na+ ion inside the Gramicidin A channel and in water ...
A 6-12-1 atom-atom pair potential for the interaction of a Na+ion with gramicidin A (GA) has been de...
Calculations contrasting the channel solvation energy for cesium ions and chloride ions associated w...
AbstractWe investigate the validity of continuum electrostatics in the gramicidin A channel using a ...
ABSTRACT The rigid force fields currently used in molecular dynamics (MD) simulations of biomolecule...
Molecular dynamics studies for the voltage-driven transport of the alkali metal ions lithium, sodium...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
The free energy governing K+ conduction through gramicidin A channels is characterized by using over...
Molecular dynamics calculations in which all atoms were allowed to move were performed on a water-fi...
The valence selectivity of the gramicidin channel is examined using computer simulations based on at...
The potential of mean force for Na+ and K+ ions as a function of position in the interior of a perio...
A model calculation is carried out to study the potential energy profile of a sodium ion with severa...
Standard Poisson-Nernst-Planck (PNP) theory is modified by adding contributions due the Dielectric S...
The free energy profiles for four organic cations in right-handed single-helix gramicidin A dimers w...
The influence of a gramicidin-like channel former on ion free energy barriers is studied using Monte...
Calculations of the solvation energetics for a Na+ ion inside the Gramicidin A channel and in water ...
A 6-12-1 atom-atom pair potential for the interaction of a Na+ion with gramicidin A (GA) has been de...
Calculations contrasting the channel solvation energy for cesium ions and chloride ions associated w...
AbstractWe investigate the validity of continuum electrostatics in the gramicidin A channel using a ...
ABSTRACT The rigid force fields currently used in molecular dynamics (MD) simulations of biomolecule...
Molecular dynamics studies for the voltage-driven transport of the alkali metal ions lithium, sodium...