AbstractOne of the fundamental properties of biological membranes is the high lateral integrity provided by the lipid bilayer, the structural core and the foundation of their barrier function. This tensile strength is due to the intrinsic properties of amphiphilic lipid molecules, which spontaneously self-assemble into a stable bilayer structure due to the hydrophobic effect. In the highly dynamic life of cellular membranes systems, however, this integrity has to be regularly compromised. One of the emerging puzzles is the mechanism of localized rupture of lipid monolayer, the formation of tiny hydrophobic patches and flipping of lipid tails between closely apposed monolayers. The energy cost of such processes is prohibitively high, unless ...
Lipid bilayers are formed from the self-assembly of two layers of amphiphilic lipid molecules. They ...
AbstractThe main objective of this lecture is to discuss the role of lipid-bilayer elasticity (1) fo...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
AbstractCellular and organellar membranes are dynamic materials that underlie many aspects of cell b...
Accumulating evidence indicates that membrane reshaping and fusion processes, as well as regulation ...
ABSTRACT: The mechanism of curvature generation in membranes has been studied for decades due to its...
AbstractA wide spectrum of intracellular processes is dependent on the ability of cells to dynamical...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
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...
The nature of the bilayer motif coupled with the ability of lipids and proteins to diffuse freely th...
AbstractThe material properties of lipid bilayers can affect membrane protein function whenever conf...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
Lipid membranes are selective barriers that encapsulate cellular components and define the identity ...
Lipid bilayers are formed from the self-assembly of two layers of amphiphilic lipid molecules. They ...
AbstractThe main objective of this lecture is to discuss the role of lipid-bilayer elasticity (1) fo...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
AbstractCellular and organellar membranes are dynamic materials that underlie many aspects of cell b...
Accumulating evidence indicates that membrane reshaping and fusion processes, as well as regulation ...
ABSTRACT: The mechanism of curvature generation in membranes has been studied for decades due to its...
AbstractA wide spectrum of intracellular processes is dependent on the ability of cells to dynamical...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
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...
The nature of the bilayer motif coupled with the ability of lipids and proteins to diffuse freely th...
AbstractThe material properties of lipid bilayers can affect membrane protein function whenever conf...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
Lipid membranes are selective barriers that encapsulate cellular components and define the identity ...
Lipid bilayers are formed from the self-assembly of two layers of amphiphilic lipid molecules. They ...
AbstractThe main objective of this lecture is to discuss the role of lipid-bilayer elasticity (1) fo...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...