The Impact of Amino Acid Side Chain Mutations in Conformational Design of Peptides and Proteins

Although the conformations of two linked peptide units both with glycyl and alanyl residues have been extensively studied,'-$ no systematic investigation of the energies of conformations of two linked peptide units with side chains beyond the CB atom and a comparison with the available crystallograp

Using the host-guest technique, tentative scales for the helix-inducing power and the (3-structure-forming potential of various side-chain protected amino acid residues in trifluoroethanol are established mainly by CD measurements. The generally lower tendency for (3-structure formation of the host-

## Abstract Understanding the hydrophilicity/hydrophobicity of amino acid side chains in peptides/proteins is one the most important aspects of biology. Though many hydrophilicity/hydrophobicity scales have been generated, an “intrinsic” scale has yet to be achieved. “Intrinsic” implies the maximum

The preferred conformations of C"-methyl phenylglycine, C"-methyl phenylalanine, and C"-methyl homophenylalanine residues, as determined in model peptides (including homopeptides) by Fourier transform ir absorption, 'H-nmr, CD, and x-ray diffraction techniques, are compared with the aim of investiga