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  • Title: Conversion of a porin-like peptide channel into a gramicidin-like channel by glycine to D-alanine substitutions.
    Author: Thundimadathil J, Roeske RW, Guo L.
    Journal: Biophys J; 2006 Feb 01; 90(3):947-55. PubMed ID: 16272445.
    Abstract:
    The beta-barrel and beta-helix formation, as in porins and gramicidin, respectively, represent two distinct mechanisms for ion channel formation by beta-sheet proteins in membranes. The design of beta-barrel proteins is difficult due to incomplete understanding of the basic principles of folding. The design of gramicidin-like beta-helix relies on an alternating pattern of L- and D-amino acid sequences. Recently we noticed that a short beta-sheet peptide (xSxG)(6), can form porin-like channels via self-association in membranes. Here, we proposed that glycine to D-alanine substitutions of the N-formyl-(xSxG)(6) would transform the porin-like channel into a gramicidin-like beta(12)-helical channel. The requirement of an N-formyl group for channel activity, impermeability to cations with a diameter >4 A, high monovalent cation selectivity, and the absence of either voltage gating or subconductance states upon D-alanine substitution support the idea of a gramicidin-like channel. Moreover, the circular dichroism spectrum in membranes is different, indicating a change in regular beta-sheet backbone structure. The conversion of a complex porin-like channel into a gramicidin-like channel provides a link between two different mechanisms of beta-sheet channel formation in membranes and emphasizes the importance of glycine and D-amino acid residues in protein folding and function and in the engineering of ion channels.
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