Add to ORKGAbstract: In this review, we report on the organization of lipid molecules forming biomembranes. More precisely, the question is how these amphiphiles phase separate under a change of a suitable parameter, like temperature, pressure or membrane environment. The mixture may undergo a lateral or transversal phase separations. This essentially depends on two principal factors, which are the structure (length) of hydrocarbon chains of lipid molecules and the curvature asymmetry of membranes. When the former dominates, a lateral separation is then expected. In contrary, for those biomembranes of high curvature asymmetry, a vertical separation is rather observed. We examine the problem from a static (phase diagrams) and kinetics (relaxation in ti...
The non-equilibrium dynamic ordering process of coexisting phases has been studied for two-component...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
AbstractA range of physiological processes has been imputed to lateral domain formation in biologica...
Lipid molecules consist of a hydrophilic head and a hydrophobic tail and spontaneously form bilayers...
Although significant evidence exists confirming the central role of membrane lipids in the regulatio...
Although significant evidence exists confirming the central role of membrane lipids in the regulatio...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
AbstractThe concept of lipid rafts and the intense work toward their characterization in biological ...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
We investigate the interplay of domain formation and adhesion in mixed-lipid membranes. Giant unila...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
Phase segregation of membranal components, such as proteins, lipids, and cholesterols, leads to the ...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
The non-equilibrium dynamic ordering process of coexisting phases has been studied for two-component...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
AbstractA range of physiological processes has been imputed to lateral domain formation in biologica...
Lipid molecules consist of a hydrophilic head and a hydrophobic tail and spontaneously form bilayers...
Although significant evidence exists confirming the central role of membrane lipids in the regulatio...
Although significant evidence exists confirming the central role of membrane lipids in the regulatio...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
AbstractThe concept of lipid rafts and the intense work toward their characterization in biological ...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
The potential physiological relevance of liquid-liquid phase separation in lipid membranes to the fo...
We investigate the interplay of domain formation and adhesion in mixed-lipid membranes. Giant unila...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
Phase segregation of membranal components, such as proteins, lipids, and cholesterols, leads to the ...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
The non-equilibrium dynamic ordering process of coexisting phases has been studied for two-component...
Phase and shape heterogeneities in biomembranes are of functional importance. However, it is difficu...
AbstractA range of physiological processes has been imputed to lateral domain formation in biologica...