Hybrid Sequences That Express Both Aromatic Amide and α-Peptidic Folding Features

Overview

Journal Chempluschem

Specialty Chemistry

Date 2020 Jul 31

PMID 32729681

Citations 3

Authors

Xiaobo Hu

Pradeep K Mandal

Brice Kauffmann

Ivan Huc

Affiliations

Soon will be listed here.

Abstract

Foldamers combining aliphatic and aromatic main-chain units often produce atypical structures that cannot easily be accessed from purely aromatic or aliphatic sequences. We report solid-state evidence that sequences comprising α-amino acids and quinoline-based monomers adopt conformations that combine the folding propensities of both components. Foldamers 2 and 3 having an XQQ repeat motif (X=α-amino acid, Q=quinoline) were synthesized. Crystals of 2 (X=Phe, Q with an anionic side chain) obtained from water revealed an aromatic helix where amide groups belonging to the α-amino acids created a hydrogen-bond array typical of peptidic helices. Crystals of 3 (X=Ser, Q with a lipophilic side chain) obtained from organic solvents revealed a helix-turn-helix structure in which α-amino acid side chains interfere with main-chain hydrogen bonding. High sequence-dependency of the conformation is typical of peptides but is shown here to include aromatic folding features.

Citing Articles

Conformational interplay in hybrid peptide-helical aromatic foldamer macrocycles.

Dengler S, Mandal P, Allmendinger L, Douat C, Huc I Chem Sci. 2021; 12(33):11004-11012.

PMID: 34522297 PMC: 8386670. DOI: 10.1039/d1sc03640h.

Potential Foldamers Based on an Terphenyl Amino Acid.

Kleman A, Dufek D, Fobe T, McCaslin D, Cary B, Shirts M Org Lett. 2021; 23(12):4855-4859.

PMID: 34077213 PMC: 8266378. DOI: 10.1021/acs.orglett.1c01592.

Hybrid Sequences that Express both Aromatic Amide and α-Peptidic Folding Features.

Hu X, Mandal P, Kauffmann B, Huc I Chempluschem. 2020; 85(7):1580-1586.

PMID: 32729681 PMC: 7496704. DOI: 10.1002/cplu.202000416.

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