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Right-Handed Helical Foldamers Consisting of De Novo d-AApeptides.


ABSTRACT: New types of foldamer scaffolds are formidably challenging to design and synthesize, yet highly desirable as structural mimics of peptides/proteins with a wide repertoire of functions. In particular, the development of peptidomimetic helical foldamers holds promise for new biomaterials, catalysts, and drug molecules. Unnatural l-sulfono-?-AApeptides were recently developed and shown to have potential applications in both biomedical and material sciences. However, d-sulfono-?-AApeptides, the enantiomers of l-sulfono-?-AApeptides, have never been studied due to the lack of high-resolution three-dimensional structures to guide structure-based design. Herein, we report the first synthesis and X-ray crystal structures of a series of 2:1 l-amino acid/d-sulfono-?-AApeptide hybrid foldamers, and elucidate their folded conformation at the atomic level. Single-crystal X-ray crystallography indicates that this class of oligomers folds into well-defined right-handed helices with unique helical parameters. The helical structures were consistent with data obtained from solution 2D NMR, CD studies, and molecular dynamics simulations. Our findings are expected to inspire the structure-based design of this type of unique folding biopolymers for biomaterials and biomedical applications.

SUBMITTER: Teng P 

PROVIDER: S-EPMC5885761 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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Right-Handed Helical Foldamers Consisting of De Novo d-AApeptides.

Teng Peng P   Ma Ning N   Cerrato Darrell Cole DC   She Fengyu F   Odom Timothy T   Wang Xiang X   Ming Li-June LJ   van der Vaart Arjan A   Wojtas Lukasz L   Xu Hai H   Cai Jianfeng J  

Journal of the American Chemical Society 20170516 21


New types of foldamer scaffolds are formidably challenging to design and synthesize, yet highly desirable as structural mimics of peptides/proteins with a wide repertoire of functions. In particular, the development of peptidomimetic helical foldamers holds promise for new biomaterials, catalysts, and drug molecules. Unnatural l-sulfono-γ-AApeptides were recently developed and shown to have potential applications in both biomedical and material sciences. However, d-sulfono-γ-AApeptides, the enan  ...[more]

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