Conformations of cyclo(L-alanyl-L-alanyl-epsilon-aminocaproyl) and of cyclo(L-alanyl-D-alanyl-epsilon-aminocaproyl); cyclized dipeptide models for specific types of beta-bends.

Conformational energy calculations indicate that the peptide backbones of the low-energy conformations of the cyclized dipeptide derivatives cyclo (L-alanyl-L-alanyl-epsilon-aminocaproyl) and cyclo (L-alanyl-D-alanyl-epsilon-aminocaproyl) are constrained to form beta-bends of types I + III and II, respectively. Thus, the two compounds can serve as models for the spectroscopic properties of beta-bends of these types. The coupling constants obtained from 1H n.

Cyclized dipeptide model for a beta-bend.

A cyclic dipeptide in which L-Ala-Gly was cyclized with epsilon-aminocaproic acid has been synthesized as a model for a beta-bend. Its conformational properties have been examined by means of conformational energy calculations and nuclear magnetic resonance, infrared, Raman, and circular dichroism spectroscopy in various solvents. These calculations and experiments suggest that a type II beta-bend exists in the Ala-Glymoiety, with an NH.