In this paper we describe a method for setting up an atomistic simulation of a membrane protein in a hydrated lipid bilayer and report the effect of differing electrostatic parameters on the drift in the protein structure during the subsequent simulation. The method aims to generate a suitable cavity in the interior of a lipid bilayer, using the solvent-accessible surface of the protein as a template, during the course of a short steered molecular dynamics simulation of a solvated lipid membrane. This is achieved by a two-stage process: firstly, lipid molecules whose headgroups are inside a cylindrical volume equivalent to that defined by the protein surface are removed; then the protein-lipid interface is optimized by applying repulsive fo...
We provide compelling evidence that different treatments of electrostatic interactions in molecular ...
A method is presented to enhance the efficiency of simulations of lipid vesicles. The method increas...
Molecular dynamics simulations may be used to probe the interactions of membrane proteins with lipid...
The work presented in this thesis centres on the development of a work-flow in which coarse-grained ...
Molecular dynamics (MD) simulations have become a highly important technique to consider lipid membr...
Molecular dynamics (MD) simulations have become a standard method to explore the detailed atomic pro...
We present the results of molecular dynamics (MD) simulations of a phospholipid membrane in water, i...
As new atomic structures of membrane proteins are resolved, they reveal increasingly complex transme...
The growing interest toward membrane protein simulations calls for a universal and efficient protoco...
Coarse-grained molecular dynamics provides a means for simulating the assembly and the interactions ...
In this paper we report on the molecular dynamics simulation of a fluid phase hydrated dimyristoylph...
Cellular membranes are incredibly complex structures composed of diverse biomolecules including lipi...
One of the most important aspects for all life on this planet is theact to keep their cellular proce...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
We provide compelling evidence that different treatments of electrostatic interactions in molecular ...
A method is presented to enhance the efficiency of simulations of lipid vesicles. The method increas...
Molecular dynamics simulations may be used to probe the interactions of membrane proteins with lipid...
The work presented in this thesis centres on the development of a work-flow in which coarse-grained ...
Molecular dynamics (MD) simulations have become a highly important technique to consider lipid membr...
Molecular dynamics (MD) simulations have become a standard method to explore the detailed atomic pro...
We present the results of molecular dynamics (MD) simulations of a phospholipid membrane in water, i...
As new atomic structures of membrane proteins are resolved, they reveal increasingly complex transme...
The growing interest toward membrane protein simulations calls for a universal and efficient protoco...
Coarse-grained molecular dynamics provides a means for simulating the assembly and the interactions ...
In this paper we report on the molecular dynamics simulation of a fluid phase hydrated dimyristoylph...
Cellular membranes are incredibly complex structures composed of diverse biomolecules including lipi...
One of the most important aspects for all life on this planet is theact to keep their cellular proce...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
We provide compelling evidence that different treatments of electrostatic interactions in molecular ...
A method is presented to enhance the efficiency of simulations of lipid vesicles. The method increas...
Molecular dynamics simulations may be used to probe the interactions of membrane proteins with lipid...