Add to ORKGA continuum theory for lipid membranes is developed that accounts for mechanical interactions between lipid tilt and membrane shape. For planar membranes, a linear version of the theory is used to predict tilt variations similar to those observed in experiments and molecular dynamics simulations
The effects of cholesterol on membrane bending modulus KC, membrane thickness DHH, the partial and a...
Abstract Studies on the assembly of pure lipid compo-nents allow mechanistic insights toward underst...
A continuum mechanical model based on the Helfrich Hamiltonian is devised to investigate the couplin...
Large scale changes to lipid bilayer shapes are well represented by the Helfrich model. However, the...
On mesoscopic scales lipid membranes are well described by continuum theories whose main ingredients...
In addition to the familiar bending and stretching deformations, lipid monolayers and bilayers in th...
Abstract. In addition to the familiar bending and stretching deformations, lipid monolayers and bila...
A novel continuum model is proposed to describe the deformations of a planar lipid bilayer suspended...
This thesis introduces a novel protocol to measure two elastic quantities of lipid membranes, the pi...
This book is the first collection of lipid-membrane research conducted by leading mechanicians and e...
We performed molecular dynamics (MD) simulations of hydrated bilayers containing mixtures of dimyris...
Biological membranes are important structural units in the cell. Composed of a lipid bilayer with em...
Lipid bilayer membranes below their main transition have two tilt order parameters, corresponding to...
<p>Recent simulations have indicated that the traditional Helfrich-Canham model for topographical fl...
*S Supporting Information ABSTRACT: Hydrophobic helical peptides interact with lipid bilayers in var...
The effects of cholesterol on membrane bending modulus KC, membrane thickness DHH, the partial and a...
Abstract Studies on the assembly of pure lipid compo-nents allow mechanistic insights toward underst...
A continuum mechanical model based on the Helfrich Hamiltonian is devised to investigate the couplin...
Large scale changes to lipid bilayer shapes are well represented by the Helfrich model. However, the...
On mesoscopic scales lipid membranes are well described by continuum theories whose main ingredients...
In addition to the familiar bending and stretching deformations, lipid monolayers and bilayers in th...
Abstract. In addition to the familiar bending and stretching deformations, lipid monolayers and bila...
A novel continuum model is proposed to describe the deformations of a planar lipid bilayer suspended...
This thesis introduces a novel protocol to measure two elastic quantities of lipid membranes, the pi...
This book is the first collection of lipid-membrane research conducted by leading mechanicians and e...
We performed molecular dynamics (MD) simulations of hydrated bilayers containing mixtures of dimyris...
Biological membranes are important structural units in the cell. Composed of a lipid bilayer with em...
Lipid bilayer membranes below their main transition have two tilt order parameters, corresponding to...
<p>Recent simulations have indicated that the traditional Helfrich-Canham model for topographical fl...
*S Supporting Information ABSTRACT: Hydrophobic helical peptides interact with lipid bilayers in var...
The effects of cholesterol on membrane bending modulus KC, membrane thickness DHH, the partial and a...
Abstract Studies on the assembly of pure lipid compo-nents allow mechanistic insights toward underst...
A continuum mechanical model based on the Helfrich Hamiltonian is devised to investigate the couplin...