Issue 35, 2024

Helix preferences of cyclopentane-containing β/γ-hybrid peptides

Abstract

The helix preferences of cyclopentane-containing β/γ-hybrid oligomers, consisting of alternating βAc5a (2-aminocyclopentanecarboxylic acid) and γ(Et)Ac5a [2-(2-aminocyclopentyl)butanoic acid] residues with homochiral S-configurations, were investigated through conformational searches and density functional theory calculations in chloroform. The β/γ-hybrid dimer exhibited a distinct inclination toward a ribbon-like structure characterized by alternating C8 and C9 H-bonds. However, for β/γ-hybrid oligomers longer than tetramer, a preference for a right-handed (P)-2.413-helical structure emerged. The robust stabilities observed for the H13 helical structures in chloroform were attributed to the favored solvation free energies, which increased with the length of the peptide sequence. Calculations revealed that the mean backbone torsion angles of the H13 helix foldamer in the β/γ-hybrid pentamer closely resembled those observed in X-ray structures of the pentamer consisting of βAc5a and a γ-residue with a cyclohexane substituent. The introduction of cyclopentane substitutions led to distinct conformational preferences and/or handedness of helix foldamers compared to those of the unsubstituted β/γ-hybrid oligomers. Notably, a pyrrolidine-substituted analog of the H13 helical structure for the β/γ-hybrid pentamer, with adjacent amine diads substituted in close proximity, appears to be a promising organic catalyst for organic reactions such as the crossed aldol condensation and the cyclodimerization of dialdehyde in nonpolar solvents, as previously elucidated.

Graphical abstract: Helix preferences of cyclopentane-containing β/γ-hybrid peptides

Supplementary files

Article information

Article type
Paper
Submitted
03 Jun 2024
Accepted
14 Jul 2024
First published
15 Jul 2024

New J. Chem., 2024,48, 15292-15301

Helix preferences of cyclopentane-containing β/γ-hybrid peptides

H. S. Park and Y. K. Kang, New J. Chem., 2024, 48, 15292 DOI: 10.1039/D4NJ02574A

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