Water molecules within biological ion channels are in a nanoconfined environment and therefore exhibit behaviors which differ from that of bulk water. Here, we investigate the phenomenon of hydrophobic gating, the process by which a nanopore may spontaneously dewet to form a "vapor lock" if the pore is sufficiently hydrophobic and/or narrow. This occurs without steric occlusion of the pore. Using molecular dynamics simulations with both rigid fixed-charge and polarizable (AMOEBA) force fields, we investigate this wetting/dewetting behavior in the transmembrane protein 175 ion channel. We examine how a range of rigid fixed-charge and polarizable water models affect wetting/dewetting in both the wild-type structure and in mutants chosen to co...
Ion channel proteins control ionic flux across biological membranes through conformational changes i...
Ion channels are proteins which form gated nanopores in biological membranes. Many channels exhibit ...
The permeation of hydrophobic, cylindrical nanopores by water molecules and ions is investigated und...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
Ion channel proteins form water-filled nanoscale pores within lipid bilayers, and their properties a...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
AbstractThe dynamics of confined water in capillaries and nanotubes suggests that gating of ion chan...
Ion channel proteins form nanopores in biological membranes which allow the passage of ions and wate...
This Review explores the dynamic behavior of water within nanopores and biological channels in lipid...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
Water is at the heart of almost all biological phenomena, without which no life that we know of woul...
Interactions between ions and water at hydrophobic interfaces within ion channels and nanopores are ...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
Ion channel proteins control ionic flux across biological membranes through conformational changes i...
Ion channels are proteins which form gated nanopores in biological membranes. Many channels exhibit ...
The permeation of hydrophobic, cylindrical nanopores by water molecules and ions is investigated und...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
Ion channel proteins form water-filled nanoscale pores within lipid bilayers, and their properties a...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
AbstractThe dynamics of confined water in capillaries and nanotubes suggests that gating of ion chan...
Ion channel proteins form nanopores in biological membranes which allow the passage of ions and wate...
This Review explores the dynamic behavior of water within nanopores and biological channels in lipid...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
Water is at the heart of almost all biological phenomena, without which no life that we know of woul...
Interactions between ions and water at hydrophobic interfaces within ion channels and nanopores are ...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
Ion channel proteins control ionic flux across biological membranes through conformational changes i...
Ion channels are proteins which form gated nanopores in biological membranes. Many channels exhibit ...
The permeation of hydrophobic, cylindrical nanopores by water molecules and ions is investigated und...