| Literature DB >> 31625253 |
Huy N Hoang1, Chongyang Wu1, Timothy A Hill1, Aline Dantas de Araujo1, Paul V Bernhardt2, Ligong Liu1, David P Fairlie1.
Abstract
The introduction of an amide bond linking side chains of the first and fifth amino acids forms a cyclic pentapeptide that optimally stabilizes the smallest known α-helix in water. The origin of the stabilization is unclear. The observed dependence of α-helicity on the solvent and cyclization linker led us to discover a novel long-range n to π* interaction between a main-chain amide oxygen and a uniquely positioned carbonyl group in the linker of cyclic pentapeptides. CD and NMR spectra, NMR and X-ray structures, modelling, and MD simulations reveal that this first example of a synthetically incorporated long-range n to π* CO⋅⋅⋅Cγ =Ο interaction uniquely enforces an almost perfect and remarkably stable peptide α-helix in water but not in DMSO. This unusual interaction with a covalent amide bond outside the helical backbone suggests new approaches to synthetically stabilize peptide structures in water.Entities:
Keywords: constrained peptides; cyclic peptides; peptide structures; protein structure; α-helices
Year: 2019 PMID: 31625253 DOI: 10.1002/anie.201911277
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336