Association of model peptides and dehydropeptides: N-acetyl-l-alanine- and dehydroalanine N′,N′-dimethylamides

## Abstract The ^1^H‐ and ^13^C‐NMR spectra of __N__‐acetyl‐L‐alanine methylester and __N__‐acetyl‐L‐alanine methylamide were measured to examine the modes of self‐association of these molecules in solution. The different dilution shifts between these molecules seem to correspond to the difference

The FTIR spectra were analysed in the region of the nu(s)(N-H), AI(C=O) and nu(s)(Calpha=Cbeta) bands for a series of Ac-DeltaXaa-NMe2, where DeltaXaa = DeltaAla, (Z)-DeltaAbu, (Z)-DeltaLeu, (Z)-DeltaPhe and DeltaVal, to determine a predominant solution conformation of these alpha,beta-dehydropeptid

NH stretching bands of N-acetyl-(glycine, L-alanine, L-leucine)-W-methylamides in dilute chloroform solution have shown that these dipeptides are present as a mixture of intramolecularly hydrogen-bonded five-membered ring species and nonhydrogen bonded species. Integrated absorption intensity measur

## Abstract Conformational energy calculations on the __N__‐acetyl‐__N__′‐methylamides of dehydroalanine and __N__‐methyldehydroalanine indicate that their conformational behavior is very different from that of the corresponding saturated compounds. The conformational data in the literature from x‐

In a prwioua efndy, the conformational states of alanyl-alsnlne dipepti-~8 in solution have been elucidated: The study was largely based on the uependent of the NH-CE vicinal proton couplw constant upon the dihedral angle 8 between the ENC snd JJCCH planes: 3JIvHCrr P A ooE?e -B ~0.~8 +C sin2& Value