Despite the complexity of ion-channels, MD simulations based on realistic all-atom models have become a powerful technique for providing accurate descriptions of the structure and dynamics of these systems, complementing and reinforcing experimental work. Successful multidisciplinary collaborations, progress in the experimental determination of three-dimensional structures of membrane proteins together with new algorithms for molecular simulations and the increasing speed and availability of supercomputers, have made possible a considerable progress in this area of biophysics. This review aims at highlighting some of the work in the area of potassium channels and molecular dynamics simulations where numerous fundamental questions about the ...
AbstractPotassium channels enable K+ ions to move passively across biological membranes. Multiple na...
AbstractA homology model has been generated for the pore-forming domain of Kir6.2, a component of an...
Generations of scientists have been captivated by ion channels and how they control the workings of ...
Despite the complexity of ion-channels, MD simulations based on realistic all-atom models have becom...
The structural, dynamical, and thermodynamic properties of a model potassium channel are studied usi...
Molecular modeling and simulations enable extrapolation for the structure of bacterial potassium cha...
AbstractThe structural, dynamical, and thermodynamic properties of a model potassium channel are stu...
For the last two decades, the KcsA K+ channel has served as a case study to understand how potassium...
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...
AbstractThe determination of the structure of several members of the K+ channel and aquaporin family...
Potassium channels have been studied intensively in terms of the relationship between molecular stru...
ABSTRACT Potassium channels enable K1 ions to move passively across biological membranes. Multiple n...
AbstractGenerations of scientists have been captivated by ion channels and how they control the work...
Potassium channels enable K(+) ions to move passively across biological membranes. Multiple nanoseco...
AbstractPotassium channels enable K+ ions to move passively across biological membranes. Multiple na...
AbstractA homology model has been generated for the pore-forming domain of Kir6.2, a component of an...
Generations of scientists have been captivated by ion channels and how they control the workings of ...
Despite the complexity of ion-channels, MD simulations based on realistic all-atom models have becom...
The structural, dynamical, and thermodynamic properties of a model potassium channel are studied usi...
Molecular modeling and simulations enable extrapolation for the structure of bacterial potassium cha...
AbstractThe structural, dynamical, and thermodynamic properties of a model potassium channel are stu...
For the last two decades, the KcsA K+ channel has served as a case study to understand how potassium...
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...
AbstractThe determination of the structure of several members of the K+ channel and aquaporin family...
Potassium channels have been studied intensively in terms of the relationship between molecular stru...
ABSTRACT Potassium channels enable K1 ions to move passively across biological membranes. Multiple n...
AbstractGenerations of scientists have been captivated by ion channels and how they control the work...
Potassium channels enable K(+) ions to move passively across biological membranes. Multiple nanoseco...
AbstractPotassium channels enable K+ ions to move passively across biological membranes. Multiple na...
AbstractA homology model has been generated for the pore-forming domain of Kir6.2, a component of an...
Generations of scientists have been captivated by ion channels and how they control the workings of ...