Ion channel proteins control ionic flux across biological membranes through conformational changes in their transmembrane pores. An exponentially increasing number of channel structures captured in different conformational states are now being determined; however, these newly resolved structures are commonly classified as either open or closed based solely on the physical dimensions of their pore, and it is now known that more accurate annotation of their conductive state requires additional assessment of the effect of pore hydrophobicity. A narrow hydrophobic gate region may disfavor liquid-phase water, leading to local dewetting, which will form an energetic barrier to water and ion permeation without steric occlusion of the pore. Here we...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
Ion channels play key roles in cell membranes, and recent advances are yielding an increasing number...
Ion channel proteins control ionic flux across biological membranes through conformational changes i...
Ion channels constitute crucial components of biological membranes and represent a major class of ph...
Ion channel proteins form nanopores in biological membranes which allow the passage of ions and wate...
Ion channels are proteins which form gated nanopores in biological membranes. Many channels exhibit ...
Ion channels are integral membrane proteins that facilitate the permeation of ions through lipid bil...
Ion channels are gated, i.e. they can switch conformation between a closed and an open state. Molecu...
Ion channels are gated, i.e. they can switch conformation between a closed and an open state. Molecu...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
AbstractIon channels are gated, i.e. they can switch conformation between a closed and an open state...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
An increasing number of ion channel structures are being determined. This generates a need for compu...
The control of ion channel permeation requires the modulation of energetic barriers or "gates" withi...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
Ion channels play key roles in cell membranes, and recent advances are yielding an increasing number...
Ion channel proteins control ionic flux across biological membranes through conformational changes i...
Ion channels constitute crucial components of biological membranes and represent a major class of ph...
Ion channel proteins form nanopores in biological membranes which allow the passage of ions and wate...
Ion channels are proteins which form gated nanopores in biological membranes. Many channels exhibit ...
Ion channels are integral membrane proteins that facilitate the permeation of ions through lipid bil...
Ion channels are gated, i.e. they can switch conformation between a closed and an open state. Molecu...
Ion channels are gated, i.e. they can switch conformation between a closed and an open state. Molecu...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
AbstractIon channels are gated, i.e. they can switch conformation between a closed and an open state...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
An increasing number of ion channel structures are being determined. This generates a need for compu...
The control of ion channel permeation requires the modulation of energetic barriers or "gates" withi...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
Ion channels play key roles in cell membranes, and recent advances are yielding an increasing number...