Ion channels are formed by specific proteins embedded in the cell membrane and provide pathways for fast and controlled flow of selected ions down their electrochemical gradient. This activity generates action potentials in nerves, muscles and other excitable cells, and forms the basis of all movement, sensation and thought processes in living beings. While the functional properties of ion channels are well known from physiological studies, lack of structural knowledge has hindered development of realistic theoretical models necessary for understanding and interpretation of these properties. Recent determination of the molecular structures of potassium and mechanosensitive channels from x-ray crystallography has finally broken this impasse,...
AbstractThe field of ion channels has entered into a rapid phase of development in the last few year...
1. The transport process of ions across the potassium channel is studied using computer simulations....
Ion channels mediate electrical excitability in neurons and muscle. Three-dimensional structures for...
Abstract. Recent determination of the molecular structures of potassium and mechanosensitive channel...
Recent determination of the molecular structures of potassium and mechanosensitive channels from x-r...
We review the basic physics involved in transport of ions across membrane channels in cells. Electro...
Abstract. We discuss various models of ion transport through cell membrane channels. Recent experime...
Ion channels are fundamental biological devices that act as gates in order to ensure selective ion t...
K+-channels are membrane proteins that regulate the selective conduction of potassium ions across ce...
The goal of this review is to establish a broad and rigorous theoretical framework to describe ion p...
AbstractThe physical mechanisms underlying the transport of ions across a model potassium channel ar...
Ion channels are integral membrane proteins that enable selected ions to flow passively across membr...
Ion channels are integral membrane proteins that enable selected ions to flow passively across membr...
The field of ion channels has entered into a rapid phase of development in the last few years, partl...
The physical mechanisms underlying the transport of ions across a model potassium channel are descri...
AbstractThe field of ion channels has entered into a rapid phase of development in the last few year...
1. The transport process of ions across the potassium channel is studied using computer simulations....
Ion channels mediate electrical excitability in neurons and muscle. Three-dimensional structures for...
Abstract. Recent determination of the molecular structures of potassium and mechanosensitive channel...
Recent determination of the molecular structures of potassium and mechanosensitive channels from x-r...
We review the basic physics involved in transport of ions across membrane channels in cells. Electro...
Abstract. We discuss various models of ion transport through cell membrane channels. Recent experime...
Ion channels are fundamental biological devices that act as gates in order to ensure selective ion t...
K+-channels are membrane proteins that regulate the selective conduction of potassium ions across ce...
The goal of this review is to establish a broad and rigorous theoretical framework to describe ion p...
AbstractThe physical mechanisms underlying the transport of ions across a model potassium channel ar...
Ion channels are integral membrane proteins that enable selected ions to flow passively across membr...
Ion channels are integral membrane proteins that enable selected ions to flow passively across membr...
The field of ion channels has entered into a rapid phase of development in the last few years, partl...
The physical mechanisms underlying the transport of ions across a model potassium channel are descri...
AbstractThe field of ion channels has entered into a rapid phase of development in the last few year...
1. The transport process of ions across the potassium channel is studied using computer simulations....
Ion channels mediate electrical excitability in neurons and muscle. Three-dimensional structures for...