Abstract
S-Acyl cysteine peptides containing alpha-, beta- or gamma-amino acid residues undergo long-range S- to N-acyl transfer to give analogs of native tripeptides and tetrapeptides containing additional carbon atoms in the chain. The ease of intramolecular S -> N-acyl transfer relative to intermolecular transacylation is favored increasingly for 9?<?12?<?13?similar to?10-membered cyclic transition states; the observed order is explained on conformational and intermolecular interaction considerations. Copyright (c) 2012 European Peptide Society and John Wiley & Sons, Ltd.