Journal of the American Chemical Society 2005-02-09

Spectroscopic evidence for gas-phase formation of successive beta-turns in a three-residue peptide chain.

Wutharath Chin, Isabelle Compagnon, Jean-Pierre Dognon, Clélia Canuel, François Piuzzi, Iliana Dimicoli, Gert von Helden, Gerard Meijer, Michel Mons

Index: J. Am. Chem. Soc. 127(5) , 1388-9, (2005)

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Abstract

We report the first gas-phase spectroscopic study of a three-residue model of a peptide chain, Ac-Phe-Gly-Gly-NH2 (Ac = acetyl), using the IR/UV double resonance technique. The existence of at least five different conformers under supersonic expansion conditions is established, most of them exhibiting rather strong intramolecular H-bonds. One of the most populated conformers, however, exhibits a different H-bonding network characterized by two weak H-bonds. Comparison of the amide A and I/II experimental data with density functional theory calculations carried out on a series of selected conformations enables us to assign this conformer to two successive beta-turns along the peptide chain, the two H-bonds being of C10 type, i.e., each of them closing a 10-atom ring in the molecule. The corresponding form is found to be more stable than the 310 helix secondary structure (not observed), presumably because of specific effects due to the glycine residues.