An Implicit Membrane Generalized Born Theory for the Study of Structure, Stability, and Interactions of Membrane Proteins

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An Implicit Membrane Generalized Born Theory for the Study of Structure, Stability, and Interactions of Membrane Proteins

Wonpil Im, Michael Feig and Charles L. Brooks, III

Department of Molecular Biology and Center for Theoretical Biological Physics, The Scripps Research Institute, La Jolla, California

Correspondence: Address reprint requests to Charles L. Brooks III, Dept. of Molecular Biology (TPC6) and Center for Theoretical Biological Physics, The Scripps Research Institute, 10550 N. Torrey Pines Rd., La Jolla, CA 92037. Tel: 858-784-8035; Fax: 858-784-8688; Email: brooks@scripps.edu.

Exploiting recent developments in generalized Born (GB) electrostaticstheory, we have reformulated the calculation of the self-electrostaticsolvation energy to account for the influence of biologicalmembranes. Consistent with continuum Poisson-Boltzmann (PB)electrostatics, the membrane is approximated as an solvent-inaccessibleinfinite planar low-dielectric slab. The present membrane GBmodel closely reproduces the PB electrostatic solvation energyprofile across the membrane. The nonpolar contribution to thesolvation energy is taken to be proportional to the solvent-exposedsurface area (SA) with a phenomenological surface tension coefficient.The proposed membrane GB/SA model requires minor modificationsof the pre-existing GB model and appears to be quite efficient.By combining this implicit model for the solvent/bilayer environmentwith advanced computational sampling methods, like replica-exchangemolecular dynamics, we are able to fold and assemble helicalmembrane peptides. We examine the reliability of this modeland approach by applications to three membrane peptides: melittinfrom bee venom, the transmembrane domain of the M2 protein fromInfluenza A (M2-TMP), and the transmembrane domain of glycophorinA (GpA). In the context of these proteins, we explore the roleof biological membranes (represented as a low-dielectric medium)in affecting the conformational changes in melittin, the tiltof transmembrane peptides with respect to the membrane normal(M2-TMP), helix-to-helix interactions in membranes (GpA), andthe prediction of the configuration of transmembrane helicalbundles (GpA). The present method is found to perform well ineach of these cases and is anticipated to be useful in the studyof folding and assembly of membrane proteins as well as in structurerefinement and modeling of membrane proteins where a limitednumber of experimental observables are available.

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