The ability of biological ion channels to conduct selected ions across cell membranes is critical for the survival of both animal and bacterial cells. Numerous investigations of ion selectivity have been conducted over more than 50 years, yet the mechanisms whereby the channels select certain ions and reject others are not well understood. Here we report a new application of Jarzynski’s Equality to investigate the mechanism of ion selectivity using non-equilibrium molecular dynamics simulations of Na+ and K+ ions moving through the KcsA channel. The simulations show that the selectivity filter of KcsA adapts and responds to the presence of the ions with structural rearrangements that are different for Na+ and K+. These structural rearrangem...
Potassium channels are opened by ligands and/or membrane potential. In voltage-gated K(+) channels a...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
AbstractGenerations of scientists have been captivated by ion channels and how they control the work...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
AbstractInteractions of Na+, K+, Rb+, and Cs+ ions within the selectivity filter of a potassium chan...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
AbstractWe have performed simulations of both a single potassium ion and a single sodium ion within ...
AbstractMolecular dynamics simulations of a bacterial potassium channel (KcsA) embedded in a phospho...
Potassium channels are opened by ligands and/or membrane potential. In voltage-gated K(+) channels a...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
AbstractGenerations of scientists have been captivated by ion channels and how they control the work...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
The ability of biological ion channels to conduct selected ions across cell membranes is critical fo...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
Since the availability of the first crystal structure of a bacterial Na+ channel in 2011, understand...
AbstractInteractions of Na+, K+, Rb+, and Cs+ ions within the selectivity filter of a potassium chan...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
AbstractWe have performed simulations of both a single potassium ion and a single sodium ion within ...
AbstractMolecular dynamics simulations of a bacterial potassium channel (KcsA) embedded in a phospho...
Potassium channels are opened by ligands and/or membrane potential. In voltage-gated K(+) channels a...
The seeming contradiction that K+ channels conduct K+ ions at maximal throughput rates while not per...
AbstractGenerations of scientists have been captivated by ion channels and how they control the work...