Issue 46, 2012

Synthesis of C-linked carbo-β2-amino acids and β2-peptides: design of new motifs for left-handed 12/10- and 10/12-mixed helices

Abstract

C-linked carbo-β2-amino acids (β2-Caa), a new class of β-amino acid with a carbohydrate side chain having D-xylo configuration, were prepared from D-glucose. The main idea behind the design of the new β-amino acids was to move the steric strain of the bulky carbohydrate side chain from the Cβ- to the Cα-carbon atom and to explore its influence on the folding propensities in peptides with alternating (R)- and (S)-β2-Caas. The tetra- and hexapeptides derived were studied employing NMR (in CDCl3), CD, and molecular dynamics simulations. The β2-peptides of the present study form left-handed 12/10- and 10/12-mixed helices independent of the order of the alternating chiral amino acids in the sequence and result in a new motif. These results differ from earlier findings on β3-peptides of the same design, containing a carbohydrate side chain with D-xylo configuration, which form exclusively right-handed 12/10-mixed helices. Quantum chemical calculations employing ab initio MO theory suggest the side chain chirality as an important factor for the observed definite left- or right-handedness of the helices in the β2- and β3-peptides.

Graphical abstract: Synthesis of C-linked carbo-β2-amino acids and β2-peptides: design of new motifs for left-handed 12/10- and 10/12-mixed helices

Supplementary files

Article information

Article type
Paper
Submitted
15 Aug 2012
Accepted
02 Oct 2012
First published
02 Oct 2012

Org. Biomol. Chem., 2012,10, 9191-9203

Synthesis of C-linked carbo-β2-amino acids and β2-peptides: design of new motifs for left-handed 12/10- and 10/12-mixed helices

G. V. M. Sharma, N. Y. Reddy, R. Ravi, B. Sreenivas, G. Sridhar, D. Chatterjee, A. C. Kunwar and H. Hofmann, Org. Biomol. Chem., 2012, 10, 9191 DOI: 10.1039/C2OB26615F

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