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Biophys J, October 2002, p. 2007-2014, Vol. 83, No. 4
Department of Chemical Engineering, Princeton University, Princeton, New Jersey 08544 USA
Membrane stability is of central concern in many biology
and biotechnology processes. It has been suggested that intramembrane electrostatic interactions play a key role in membrane stability. However, due primarily to a lack of supporting experimental evidence, they are not commonly considered in mechanical analyses of lipid membranes. In this paper, we use the micropipette aspiration technique to characterize the elastic moduli and critical tensions of lipid vesicles with varying surface charge. Charge was induced by doping neutral phosphatidylcholine vesicles with anionic lipids
phosphatidylglycerol and phosphatidic acid. Measurements were taken in
potassium chloride (moderate ion-lipid binding) and tetramethylammonium
chloride (low ion-lipid binding) solutions. We show that inclusion of
anionic lipid does not appreciably alter the areal dilation elasticity of lipid vesicles. However, the tension required for vesicle rupture decreases with increasing anionic lipid fraction and is a function of
electrolyte composition. Using vesicles with 30% charged (i.e., unbound) anionic lipid, we measured critical tension reductions of
75%, demonstrating the important role of electrostatic interactions in
membrane stability.
Biophys J, October 2002, p. 2007-2014, Vol. 83, No. 4
© 2002 by the Biophysical Society 0006-3495/02/10/2007/08 $2.00
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