Parallel helix bundles and ion channels: molecular modeling via simulated annealing and restrained molecular dynamics.

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Parallel helix bundles and ion channels: molecular modeling via simulated annealing and restrained molecular dynamics.

I D Kerr, R Sankararamakrishnan, O S Smart and M S Sansom

Laboratory of Molecular Biophysics, University of Oxford, United Kingdom.

ABSTRACT

A parallel bundle of transmembrane (TM) alpha-helices surroundinga central pore is present in several classes of ion channel,including the nicotinic acetylcholine receptor (nAChR). We havemodeled bundles of hydrophobic and of amphipathic helices usingsimulated annealing via restrained molecular dynamics. Bundlesof Ala20 helices, with N = 4, 5, or 6 helices/bundle were generated.For all three N values the helices formed left-handed coiledcoils, with pitches ranging from 160 A (N = 4) to 240 A (N =6). Pore radius profiles revealed constrictions at residues3, 6, 10, 13, and 17. A left-handed coiled coil and a similarpattern of pore constrictions were observed for N = 5 bundlesof Leu20. In contrast, N = 5 bundles of Ile20 formed right-handedcoiled coils, reflecting loosened packing of helices containingbeta-branched side chains. Bundles formed by each of two classesof amphipathic helices were examined: (a) M2a, M2b, and M2cderived from sequences of M2 helices of nAChR; and (b) (LSSLLSL)3,a synthetic channel-forming peptide. Both classes of amphipathichelix formed left-handed coiled coils. For (LSSLLSL)3 the pitchof the coil increased as N increased from 4 to 6. The M2c N= 5 helix bundle is discussed in the context of possible modelsof the pore domain of nAChR.

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