Critical effects from lipid-protein interaction in membranes. I. Theoretical description.

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Critical effects from lipid-protein interaction in membranes. I. Theoretical description.

F Jähnig

ABSTRACT

The ordered-fluid phase transition in lipid membranes is describedwithin the framework of the Landau theory, a general theoryfor phase transitions. The long-range order of lipids is characterizedby the orientational order of the hydrocarbon chains implyingthe ordered-fluid transition to be of first order. Approachingthe transition from either side, thermodynamic fluctuationsand response functions are shown to increase, e.g. the specificheat, the lateral compressibility, the permeability, and thelateral diffusion coefficient. A protein molecule incorporatedin the membrane is represented as a boundary condition on thelipid order at the protein surface. In the surrounding lipidthe perturbation falls off exponentially with the coherencelength. Assuming the protein molecules to be distributed homogeneouslyin the membrane plane and the boundary condition to be temperatureindependent, the protein-induced shift of the transition temperatureand the latent heat is calculated. The latent heat decreaseslinearly with the protein concentration until it vanishes ata critical point. The critical protein concentration is determinedby the ratios of the coherence length to lipid and protein radiiin the membrane plane. At the critical point the lipid specificheat, lateral compressibility, permeability, and lateral diffusioncoefficient become maximal.

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