Abstract

Alamethicin, a peptide consisted of 20 amino acid residues, has been known to function as an antibiotic. The peptides self-associate in biological membranes, form an ion channel, and then induce cell death by leaking intracellular contents through a transmembrane pore of an ion channel. We investigated conformation and its thermal stability of alamethicin-A6 and -U6 in ethanol using proton nuclear magnetic resonance (NMR) spectroscopy; alamethicin-A6 and -U6 have the amino acid sequences of UPUAUAQUVUGLUPVUUQQO and UPUAUUQUVUGLUPVUUQQO, respectively, where U and O represent α-aminoisobutyric acid and phenylalaninol, respectively. As indicated by the under bars in the sequences, only the residue 6 differs between the alamethicins. We show that the alamethicins in ethanol form helix conformation in the region of the residues 2-11 and a non-regular conformation in the regions of the N- and C-termini, and that the helices are maintained up to 66°C at least. Conformations in the region of the residues 12-18 of the alamethicins, however, are not well identified due to the lack of NMR data. In addition, we demonstrate that the amide proton chemical shift temperature coefficients' method, which is known as an indicator for intramolecular hydrogen bonds in peptides and proteins in aqueous solutions, can be also applied to the alamethicins in ethanol. Further, we show that the conformation around the C-terminus of alamethicin-A6 is restrained by intramolecular hydrogen bonds, whereas that of alamethicin-U6 is either restrained or unrestrained by intramolecular hydrogen bonds; the alamethicin-U6 molecules having the restrained and unrestrained conformations coexist in ethanol. We discuss the two types of conformations using a model chain consisting of particles linked by rigid bonds called as the free jointed chain.

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