Issue 3, 2013

Protein secondary structure mimetics: crystal conformations of α/γ4-hybrid peptide12-helices with proteinogenic side chains and their analogy with α- and β-peptide helices

Abstract

Numerous strategies have been developed to mimic the α-helical secondary structure using hybrid peptides containing non-natural amino acids. In contrast to the β- and α/β-hybrid peptides, very little is known about the folding patterns of hybrid peptides containing γ4-amino acids. Here we report the solid phase synthesis and crystallographic insight into the secondary structures formed by 1 : 1 alternating α/γ4-hybrid peptides. The crystal conformations suggest that heptapeptides P1, P2 and P3 adopted the 12-helix conformation with backward consecutive 1←4 H-bonds [C[double bond, length as m-dash]O(i)⋯H–N (i + 3)]. In comparison with α-, β- and γ-peptides, the distinct projection of side-chains was observed along the helical cylinder. In contrast to the peptide containing stereochemically constrained α-amino acid Aib (P1), the peptide with complete proteinogenic side-chains (P3) displayed organized side chain–side chain interactions between the antiparallel helices in crystal packing. The analogy of the α/γ4-hybrid peptides with 310-helix, α-helix and β-peptide 12-helix suggests that the internal H-bonding pattern and macrodipole were analogous to the α- and β-peptide helices. In addition, helical parameters were found to be very similar to that of β-peptide 12-helices.

Graphical abstract: Protein secondary structure mimetics: crystal conformations of α/γ4-hybrid peptide12-helices with proteinogenic side chains and their analogy with α- and β-peptide helices

Supplementary files

Article information

Article type
Paper
Submitted
14 Sep 2012
Accepted
19 Nov 2012
First published
20 Nov 2012

Org. Biomol. Chem., 2013,11, 509-514

Protein secondary structure mimetics: crystal conformations of α/γ4-hybrid peptide12-helices with proteinogenic side chains and their analogy with α- and β-peptide helices

S. V. Jadhav, A. Bandyopadhyay and H. N. Gopi, Org. Biomol. Chem., 2013, 11, 509 DOI: 10.1039/C2OB26805A

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