Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2007-11-08
Physics
Condensed Matter
Soft Condensed Matter
11 pages, 5 figures
Scientific paper
Membrane organization is essential for cellular functions such as signal transduction and membrane trafficking. A major challenge is to understand the lateral heterogeneous structures in membranes and membrane fluidity in the presence of inclusions. Based on a considerable amount of experimental evidence for lateral organization of lipid membranes which share astonishingly similar features in the presence of different inclusions, we first present a general model system of bilayer membranes embedded by nanosized inclusions, and explain experimental findings. Here, the hydrophobic inclusions are simple models of intrinsic membrane proteins, cholesterol embedded in the membrane, hydrophobic drugs, or other nanoparticles for bio-medical applications. It is found that lipid/inclusion-rich raft domains are formed at moderate inclusion concentrations, and disappear with the increase of inclusions. At high inclusion content, chaining of inclusions occurs due to the effective attraction between inclusions mediated by lipids. Meanwhile, increasing inclusions can also cause thickening of the membrane, and the distribution of inclusions undergoes a layering transition from one-layer located in the bilayer midplane to two-layer structure arranged into the two leaflets of a bilayer. Our theoretical predictions address the complex interactions between membranes and inclusions, suggesting a unifying mechanism which reflects the competition between the conformational entropy of lipids favoring the formation of lipid-rich rafts and the steric repulsion of inclusions leading to the uniform dispersion.
Ma Yu-qiang
Ren Chun-Lai
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