Mattress model of lipid-protein interactions in membranes.

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Mattress model of lipid-protein interactions in membranes.

O G Mouritsen and M Bloom

ABSTRACT

A thermodynamic model is proposed for describing phase diagramsof mixtures of lipid bilayers and amphiphilic proteins or polypeptidesin water solution. The basic geometrical variables of the modelare the thickness of the hydrophobic region of the lipid bilayerand the length of the hydrophobic region of the proteins. Themodel incorporates the elastic properties of the lipid bilayerand the proteins, as well as indirect and direct lipid-proteininteractions expressed in terms of the geometrical variables.The concept of mismatch of the hydrophobic regions of the lipidsand proteins is an important ingredient of the model. The generalphase behavior is calculated using simple real solution theory.The phase behavior turns out to be quite rich and is used todiscuss previous experiments on planar aggregations of proteinsin phospholipid bilayers and to propose a systematic study ofsynthetic amphiphilic polypeptides in bilayers of differentthicknesses. The model is used to interpret the influence ofthe lipid-protein interaction on calorimetric measurements andon local orientational order as determined by deuterium nuclearmagnetic resonance.

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				A. V. Botelho, T. Huber, T. P. Sakmar, and M. F. Brown Curvature and Hydrophobic Forces Drive Oligomerization and Modulate Activity of Rhodopsin in Membranes Biophys. J., December 15, 2006; 91(12): 4464 - 4477. [Abstract] [Full Text] [PDF]

				P. Artigas, S. J. Al'Aref, E. A. Hobart, L. F. Diaz, M. Sakaguchi, S. Straw, and O. S. Andersen 2,3-Butanedione Monoxime Affects Cystic Fibrosis Transmembrane Conductance Regulator Channel Function through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms: The Role of Bilayer Material Properties Mol. Pharmacol., December 1, 2006; 70(6): 2015 - 2026. [Abstract] [Full Text] [PDF]

				O. Soubias, W. E. Teague, and K. Gawrisch Evidence for Specificity in Lipid-Rhodopsin Interactions J. Biol. Chem., November 3, 2006; 281(44): 33233 - 33241. [Abstract] [Full Text] [PDF]

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				E. Falck, J. T. Hautala, M. Karttunen, P. K. J. Kinnunen, M. Patra, H. Saaren-Seppala, I. Vattulainen, S. K. Wiedmer, and J. M. Holopainen Interaction of Fusidic Acid with Lipid Membranes: Implications to the Mechanism of Antibiotic Activity Biophys. J., September 1, 2006; 91(5): 1787 - 1799. [Abstract] [Full Text] [PDF]

				E. J. Wallace, N. M. Hooper, and P. D. Olmsted Effect of Hydrophobic Mismatch on Phase Behavior of Lipid Membranes Biophys. J., June 1, 2006; 90(11): 4104 - 4118. [Abstract] [Full Text] [PDF]

				C. Aisenbrey, R. Kinder, E. Goormaghtigh, J.-M. Ruysschaert, and B. Bechinger Interactions Involved in the Realignment of Membrane-associated Helices: AN INVESTIGATION USING ORIENTED SOLID-STATE NMR AND ATTENUATED TOTAL REFLECTION FOURIER TRANSFORM INFRARED SPECTROSCOPIES J. Biol. Chem., March 24, 2006; 281(12): 7708 - 7716. [Abstract] [Full Text] [PDF]

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				D. Allende, S. A. Simon, and T. J. McIntosh Melittin-Induced Bilayer Leakage Depends on Lipid Material Properties: Evidence for Toroidal Pores Biophys. J., March 1, 2005; 88(3): 1828 - 1837. [Abstract] [Full Text] [PDF]

				P. Wiggins and R. Phillips Membrane-Protein Interactions in Mechanosensitive Channels Biophys. J., February 1, 2005; 88(2): 880 - 902. [Abstract] [Full Text] [PDF]

				A. E. Hac, H. M. Seeger, M. Fidorra, and T. Heimburg Diffusion in Two-Component Lipid Membranes--A Fluorescence Correlation Spectroscopy and Monte Carlo Simulation Study Biophys. J., January 1, 2005; 88(1): 317 - 333. [Abstract] [Full Text] [PDF]

				S. Micelli, D. Meleleo, V. Picciarelli, M. G. Stoico, and E. Gallucci Effect of Nanomolar Concentrations of Sodium Dodecyl Sulfate, a Catalytic Inductor of {alpha}-Helices, on Human Calcitonin Incorporation and Channel Formation in Planar Lipid Membranes Biophys. J., August 1, 2004; 87(2): 1065 - 1075. [Abstract] [Full Text] [PDF]

				F. Fernandes, L. M. S. Loura, R. Koehorst, R. B. Spruijt, M. A. Hemminga, A. Fedorov, and M. Prieto Quantification of Protein-Lipid Selectivity using FRET: Application to the M13 Major Coat Protein Biophys. J., July 1, 2004; 87(1): 344 - 352. [Abstract] [Full Text] [PDF]

				M. O. Jensen, O. G. Mouritsen, and G. H. Peters Simulations of a Membrane-Anchored Peptide: Structure, Dynamics, and Influence on Bilayer Properties Biophys. J., June 1, 2004; 86(6): 3556 - 3575. [Abstract] [Full Text] [PDF]

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				A. Kessel, D. Shental-Bechor, T. Haliloglu, and N. Ben-Tal Interactions of Hydrophobic Peptides with Lipid Bilayers: Monte Carlo Simulations with M2{delta} Biophys. J., December 1, 2003; 85(6): 3431 - 3444. [Abstract] [Full Text] [PDF]

				A. Kessel, T. Haliloglu, and N. Ben-Tal Interactions of the M2{delta} Segment of the Acetylcholine Receptor with Lipid Bilayers: A Continuum-Solvent Model Study Biophys. J., December 1, 2003; 85(6): 3687 - 3695. [Abstract] [Full Text] [PDF]

				F. Fernandes, L. M. S. Loura, M. Prieto, R. Koehorst, R. B. Spruijt, and M. A. Hemminga Dependence of M13 Major Coat Protein Oligomerization and Lateral Segregation on Bilayer Composition Biophys. J., October 1, 2003; 85(4): 2430 - 2441. [Abstract] [Full Text] [PDF]