Issue 7, 2010

Effect of cholesterol on the rigidity of saturated and unsaturated membranes: fluctuation and electrodeformation analysis of giant vesicles

Abstract

Two different methods for measuring the bending stiffness of lipid membranes are used and further developed: fluctuation analysis and vesicle electrodeformation. For this purpose, fast camera imaging was employed minimizing the experimental effort. The methods were applied to study the effect of cholesterol on the bending stiffness of two types of membranes. We explored giant vesicles prepared from dioleoylphosphatidylcholinecholesterol and sphingomyelincholesterol mixtures. The results show that the effect of cholesterol on the bending stiffness is quite different and lipid-specific. While the bending stiffness of dioleoylphosphatidylcholine membranes does not change significantly, sphingomyelin membranes become more flexible with the addition of cholesterol. Finally, we report data on vesicles prepared from lipid extracts of the plasma membrane of human red blood cells and investigate the influence of naturally present transmembrane peptides. The latter molecules do not alter the membrane stiffness significantly.

Graphical abstract: Effect of cholesterol on the rigidity of saturated and unsaturated membranes: fluctuation and electrodeformation analysis of giant vesicles

Supplementary files

Article information

Article type
Paper
Submitted
02 Oct 2009
Accepted
13 Jan 2010
First published
08 Feb 2010

Soft Matter, 2010,6, 1472-1482

Effect of cholesterol on the rigidity of saturated and unsaturated membranes: fluctuation and electrodeformation analysis of giant vesicles

R. S. Gracià, N. Bezlyepkina, R. L. Knorr, R. Lipowsky and R. Dimova, Soft Matter, 2010, 6, 1472 DOI: 10.1039/B920629A

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