Electrostatics of lipid bilayer bending.

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Electrostatics of lipid bilayer bending.

T Chou, M V Jari $c$ and E D Siggia

Laboratory of Atomic and Solid State Physics, Cornell University, Ithaca, New York 14853, USA. siggia@msc.cornell.edu

ABSTRACT

The electrostatic contribution to spontaneous membrane curvatureis calculated within Poisson-Boltzmann theory under a varietyof assumptions and emphasizing parameters in the physiologicalrange. Asymmetrical surface charges can be fixed with respectto bilayer midplane area or with respect to the lipid-waterarea, but induce curvatures of opposite signs. Unequal screeninglayers on the two sides of a vesicle (e.g., multivalent cationicproteins on one side and monovalent salt on the other) alsoinduce bending. For reasonable parameters, tubules formed byelectrostatically induced bending can have radii in the 50-100-nmrange, often seen in many intracellular organelles. Thus membraneassociated proteins may induce curvature and subsequent budding,without themselves being intrinsically curved. Furthermore,we derive the previously unexplored effects of respecting thestrict conservation of charge within the interior of a vesicle.The electrostatic component of the bending modulus is smallunder most of our conditions and is left as an experimentalparameter. The large parameter space of conditions is surveyedin an array of graphs.

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