The gating transition of the RR and SS dioxolane ring-linked gramicidin A channels were studied with molecular dynamics simulations using a detailed atomic model. It was found that the probable reaction path, describing the transition of the ring from the exterior to the interior of the channel where it blocked the permeation pathway, involved several steps including the isomerization of the transpeptide plane dihedral angle of Val1. Reaction coordinates along this pathway were defined, and the transition rates between the stable conformers were calculated. It was found, in good accord with experimental observations, that the calculated blocking rate for the RR-linked channel was 280/s with a mean blocking time of 0.04 ms, whereas such bloc...
The potential of mean force for Na+ and K+ ions as a function of position in the interior of a perio...
The free energy profiles for four organic cations in right-handed single-helix gramicidin A dimers w...
AbstractThe submillisecond closing events (flickers) and the single channel conductances to protons ...
The gating transition of the RR and SS dioxolane ring-linked gramicidin A channels were studied with...
AbstractGramicidin is a hydrophobic peptide that assembles as a head-to-head dimer in lipid membrane...
AbstractThe direct role of the dioxolane group on the gating and single-channel conductance of diffe...
SummaryThe gating mechanism of the open state of the gramicidin A (gA) channel is studied by using a...
AbstractThe dissociation of gramicidin A (gA) channels into monomers is the simplest example of a ch...
This work describes a molecular dynamics study of ion-water and ion-polypeptide correlation in a mod...
The location of the main binding site for sodium in the gramicidin A (GA) channel was investigated w...
The valence selectivity of the gramicidin channel is examined using computer simulations based on at...
Molecular dynamics calculations in which all atoms were allowed to move were performed on a water-fi...
AbstractTwo different stereoisomers of the dioxolane-linked gramicidin A (gA) channels were individu...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
Theoretical studies of ion channels address several important questions. The mechanism of ion transp...
The potential of mean force for Na+ and K+ ions as a function of position in the interior of a perio...
The free energy profiles for four organic cations in right-handed single-helix gramicidin A dimers w...
AbstractThe submillisecond closing events (flickers) and the single channel conductances to protons ...
The gating transition of the RR and SS dioxolane ring-linked gramicidin A channels were studied with...
AbstractGramicidin is a hydrophobic peptide that assembles as a head-to-head dimer in lipid membrane...
AbstractThe direct role of the dioxolane group on the gating and single-channel conductance of diffe...
SummaryThe gating mechanism of the open state of the gramicidin A (gA) channel is studied by using a...
AbstractThe dissociation of gramicidin A (gA) channels into monomers is the simplest example of a ch...
This work describes a molecular dynamics study of ion-water and ion-polypeptide correlation in a mod...
The location of the main binding site for sodium in the gramicidin A (GA) channel was investigated w...
The valence selectivity of the gramicidin channel is examined using computer simulations based on at...
Molecular dynamics calculations in which all atoms were allowed to move were performed on a water-fi...
AbstractTwo different stereoisomers of the dioxolane-linked gramicidin A (gA) channels were individu...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
Theoretical studies of ion channels address several important questions. The mechanism of ion transp...
The potential of mean force for Na+ and K+ ions as a function of position in the interior of a perio...
The free energy profiles for four organic cations in right-handed single-helix gramicidin A dimers w...
AbstractThe submillisecond closing events (flickers) and the single channel conductances to protons ...