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Literature DB >> 1992351

The conformation of membranes.

Abstract

Membranes composed of amphiphilic molecules are highly flexible surfaces that determine the architecture of biological systems and provide a basic structural element for complex fluids such as microemulsions. Physical theories have been developed to describe many aspects of their conformational behaviour, such as the preferred shapes and shape transformations of closed vesicles, and the shape fluctuations, random-surface configurations, and adhesion and unbinding of interacting membranes. Understanding of these phenomena has been much improved through fruitful interactions between theory and experiment.

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Year: 1991 PMID： 1992351 DOI： 10.1038/349475a0

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

112 in total

The conformation of membranes.

1. Torocyte membrane endovesicles induced by octaethyleneglycol dodecylether in human erythrocytes.

2. Capabilities of liposomes for topological transformation.

3. Vesicle deformation by an axial load: from elongated shapes to tethered vesicles.

4. The endomembrane requirement for cell surface repair.

5. Vectorial budding of vesicles by asymmetrical enzymatic formation of ceramide in giant liposomes.

6. Dynamics of pinned membranes with application to protein diffusion on the surface of red blood cells.

7. Hydration-driven transport of deformable lipid vesicles through fine pores and the skin barrier.

8. Membranes with rotating motors: microvortex assemblies.

9. Coupling field theory with mesoscopic dynamical simulations of multicomponent lipid bilayers.

Review 10. Dynamics and instabilities of lipid bilayer membrane shapes.