The lipophilic, chiral, C-alpha-methylated alpha-amino acid L-(alpha Me)Aoc (2-methyl-2-amino-octanoic acid) was prepared using a chemo-enzymatic approach. Two series of terminally protected model peptides, from dimer through to hexamer, containing L-(alpha Me)Aoc in combination with either Gly or Aib, were synthesized by solution methods and were fully characterized. A solution conformational analysis, based on FT-IR absorption, H-1-NMR and circular dichroism (CD) techniques, was performed with the aim at determining the preferred conformation of this novel amino acid and the relationship between chirality at its alpha-carbon atom and screw sense of the helix that is formed. The results obtained strongly support the view that L-(alpha Me)Aoc favours the formation of the right-handed 3(10)-helical conformation.
Preferred solution conformation of peptides rich in the lipophilic, chiral, C-alpha-methylated alpha-amino acid (alphaMe)Aoc
M Crisma;
1999
Abstract
The lipophilic, chiral, C-alpha-methylated alpha-amino acid L-(alpha Me)Aoc (2-methyl-2-amino-octanoic acid) was prepared using a chemo-enzymatic approach. Two series of terminally protected model peptides, from dimer through to hexamer, containing L-(alpha Me)Aoc in combination with either Gly or Aib, were synthesized by solution methods and were fully characterized. A solution conformational analysis, based on FT-IR absorption, H-1-NMR and circular dichroism (CD) techniques, was performed with the aim at determining the preferred conformation of this novel amino acid and the relationship between chirality at its alpha-carbon atom and screw sense of the helix that is formed. The results obtained strongly support the view that L-(alpha Me)Aoc favours the formation of the right-handed 3(10)-helical conformation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
