This paper describes the parametrization of a new coarse grained (CG) model for lipid and surfactant systems. Reduction of the number of degrees of freedom together with the use of short range potentials makes it computationally very efficient. Compared to atomistic models a gain of 3-4 orders of magnitude can be achieved. Micrometer length scales or millisecond time scales are therefore within reach. To encourage applications, the model is kept very simple. Only a small number of coarse grained atom types are defined, which interact using a few discrete levels of interaction. Despite the computational speed and the simplistic nature of the model, it proves to be both versatile in its applications and accurate in its predictions. We show th...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
The aim of the task was to investigate lipid self-assembly when using coarse-grain molecular dynamic...
We present a systematic methodology to develop highly coarse-grained (CG) lipid models for large sca...
This paper describes the parametrization of a new coarse grained (CG) model for lipid and surfactant...
This paper describes the parametrization of a new coarse grained (CG) model for lipid and surfactant...
Within last 20 years, advances in computational power and methodology have made computer simulations...
We construct a coarse-grained (CG) model for dipalmitoylphosphatidylcholine (DPPC)/cholesterol bilay...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
PMCID: PMC3241685This is an open-access article distributed under the terms of the Creative Commons ...
The authors introduce a coarse-grained (CG) model for a lipid membrane comprised of phospholipids an...
We present an implicit solvent coarse-grained (CG) model for quantitative simulations of 1-palmitoyl...
Implicit solvent, coarse-grained models with pairwise interactions can access the largest length and...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
A simplified particle-based computer model for hydrated phospholipid bilayers has been developed and...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
The aim of the task was to investigate lipid self-assembly when using coarse-grain molecular dynamic...
We present a systematic methodology to develop highly coarse-grained (CG) lipid models for large sca...
This paper describes the parametrization of a new coarse grained (CG) model for lipid and surfactant...
This paper describes the parametrization of a new coarse grained (CG) model for lipid and surfactant...
Within last 20 years, advances in computational power and methodology have made computer simulations...
We construct a coarse-grained (CG) model for dipalmitoylphosphatidylcholine (DPPC)/cholesterol bilay...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
PMCID: PMC3241685This is an open-access article distributed under the terms of the Creative Commons ...
The authors introduce a coarse-grained (CG) model for a lipid membrane comprised of phospholipids an...
We present an implicit solvent coarse-grained (CG) model for quantitative simulations of 1-palmitoyl...
Implicit solvent, coarse-grained models with pairwise interactions can access the largest length and...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
A simplified particle-based computer model for hydrated phospholipid bilayers has been developed and...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
The aim of the task was to investigate lipid self-assembly when using coarse-grain molecular dynamic...
We present a systematic methodology to develop highly coarse-grained (CG) lipid models for large sca...