The physical mechanisms underlying the transport of ions across a model potassium channel are described. The shape of the model channel corresponds closely to that deduced from crystallography. From electrostatic calculations, we show that an ion permeating the channel, in the absence of any residual charges, encounters an insurmountable energy barrier arising from induced surface charges. Carbonyl groups along the selectivity filter, helix dipoles near the oval chamber, and mouth dipoles near the channel entrances together transform the energy barrier into a deep energy well. Two ions are attracted to this well, and their presence in the channel permits ions to diffuse across it under the influence of an electric field. Using Brownian dyna...
AbstractA hierarchical computational strategy combining molecular modeling, electrostatics calculati...
Ion channels are formed by specific proteins embedded in the cell membrane and provide pathways for ...
AbstractThe crystallographic structure of a potassium channel, Kv1.2, in an open state makes it feas...
AbstractThe physical mechanisms underlying the transport of ions across a model potassium channel ar...
AbstractBrownian dynamics simulations have been carried out to study ionic currents flowing across a...
The mechanisms underlying transport of ions across the potassium channel are examined using electros...
AbstractUsing the experimentally determined KcsA structure as a template, we propose a plausible exp...
The mechanisms underlying transport of ions across the potassium channel are examined using electros...
AbstractThe mechanisms underlying transport of ions across the potassium channel are examined using ...
The behavior of a multiply-occupied cation-selective channel has been computed by Brownian dynamics....
1. The transport process of ions across the potassium channel is studied using computer simulations....
K+-channels are membrane proteins that regulate the selective conduction of potassium ions across ce...
ABSTRACT: Potassium ion channels form pores in cell membranes, allowing potassium ions through while...
Recent determination of the molecular structures of potassium and mechanosensitive channels from x-r...
Abstract. Recent determination of the molecular structures of potassium and mechanosensitive channel...
AbstractA hierarchical computational strategy combining molecular modeling, electrostatics calculati...
Ion channels are formed by specific proteins embedded in the cell membrane and provide pathways for ...
AbstractThe crystallographic structure of a potassium channel, Kv1.2, in an open state makes it feas...
AbstractThe physical mechanisms underlying the transport of ions across a model potassium channel ar...
AbstractBrownian dynamics simulations have been carried out to study ionic currents flowing across a...
The mechanisms underlying transport of ions across the potassium channel are examined using electros...
AbstractUsing the experimentally determined KcsA structure as a template, we propose a plausible exp...
The mechanisms underlying transport of ions across the potassium channel are examined using electros...
AbstractThe mechanisms underlying transport of ions across the potassium channel are examined using ...
The behavior of a multiply-occupied cation-selective channel has been computed by Brownian dynamics....
1. The transport process of ions across the potassium channel is studied using computer simulations....
K+-channels are membrane proteins that regulate the selective conduction of potassium ions across ce...
ABSTRACT: Potassium ion channels form pores in cell membranes, allowing potassium ions through while...
Recent determination of the molecular structures of potassium and mechanosensitive channels from x-r...
Abstract. Recent determination of the molecular structures of potassium and mechanosensitive channel...
AbstractA hierarchical computational strategy combining molecular modeling, electrostatics calculati...
Ion channels are formed by specific proteins embedded in the cell membrane and provide pathways for ...
AbstractThe crystallographic structure of a potassium channel, Kv1.2, in an open state makes it feas...