AbstractThe rigid force fields currently used in molecular dynamics (MD) simulations of biomolecules are optimized for globular proteins. Whether they can also be used in MD simulations of membrane proteins is an important issue that needs to be resolved. Here we address this issue using the gramicidin A channel, which provides an ideal test case because of the simplicity of its structure and the availability of a wealth of functional data. Permeation properties of gramicidin A can be summarized as “it conducts monovalent cations, rejects anions, and binds divalent cations.” Hence, a comprehensive test should consider the energetics of permeation for all three types of ions. To that end, we construct the potential of mean force for K+, Cl−,...
ABSTRACT Proteins have a flexible structure, and their atoms exhibit considerable fluctuations under...
AbstractProteins have a flexible structure, and their atoms exhibit considerable fluctuations under ...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
ABSTRACT The rigid force fields currently used in molecular dynamics (MD) simulations of biomolecule...
AbstractThe rigid force fields currently used in molecular dynamics (MD) simulations of biomolecules...
AbstractWe use the well-known structural and functional properties of the gramicidin A channel to te...
We use the well-known structural and functional properties of the gramicidin A channel to test the a...
We investigate methods for extracting the potential of mean force (PMF) governing ion permeation fro...
AbstractWe investigate methods for extracting the potential of mean force (PMF) governing ion permea...
AbstractWe investigate the validity of continuum electrostatics in the gramicidin A channel using a ...
We investigate the validity of continuum electrostatics in the gramicidin A channel using a recently...
Standard Poisson-Nernst-Planck (PNP) theory is modified by adding contributions due the Dielectric S...
Membrane proteins are embedded in a lipid bilayer and interact with the lipid molecules in subtle wa...
The free energy governing K+ conduction through gramicidin A channels is characterized by using over...
Classical molecular dynamic (MD) simulation of membrane proteins faces significant challenges in acc...
ABSTRACT Proteins have a flexible structure, and their atoms exhibit considerable fluctuations under...
AbstractProteins have a flexible structure, and their atoms exhibit considerable fluctuations under ...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...
ABSTRACT The rigid force fields currently used in molecular dynamics (MD) simulations of biomolecule...
AbstractThe rigid force fields currently used in molecular dynamics (MD) simulations of biomolecules...
AbstractWe use the well-known structural and functional properties of the gramicidin A channel to te...
We use the well-known structural and functional properties of the gramicidin A channel to test the a...
We investigate methods for extracting the potential of mean force (PMF) governing ion permeation fro...
AbstractWe investigate methods for extracting the potential of mean force (PMF) governing ion permea...
AbstractWe investigate the validity of continuum electrostatics in the gramicidin A channel using a ...
We investigate the validity of continuum electrostatics in the gramicidin A channel using a recently...
Standard Poisson-Nernst-Planck (PNP) theory is modified by adding contributions due the Dielectric S...
Membrane proteins are embedded in a lipid bilayer and interact with the lipid molecules in subtle wa...
The free energy governing K+ conduction through gramicidin A channels is characterized by using over...
Classical molecular dynamic (MD) simulation of membrane proteins faces significant challenges in acc...
ABSTRACT Proteins have a flexible structure, and their atoms exhibit considerable fluctuations under...
AbstractProteins have a flexible structure, and their atoms exhibit considerable fluctuations under ...
The structural and thermodynamic factors responsible for the singly and doubly occupied saturation s...