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Crystal Structure and NMR of an α,δ‐Peptide Foldamer Helix Shows Side‐Chains are Well Placed for Bifunctional Catalysis: Application as a Minimalist Aldolase Mimic**

Qi Lin, Hao Lan, Chunmiao Ma, Ryan T. Stendall, Kenneth Shankland, Rebecca A. Musgrave, Peter N. Horton, Carsten Baldauf, Hans–Jörg Hofmann, Craig P. Butts, Manuel M. Müller, Alexander J. A. Cobb

2023Angewandte Chemie International Edition18 citationsDOIOpen Access PDF

Abstract

We report the first NMR and X-ray diffraction (XRD) structures of an unusual 13/11-helix (alternating i, i+1 {NH-O=C} and i, i+3 {C=O-H-N} H-bonds) formed by a heteromeric 1 : 1 sequence of α- and δ-amino acids, and demonstrate the application of this framework towards catalysis. Whilst intramolecular hydrogen bonds (IMHBs) are the clear driver of helix formation in this system, we also observe an apolar interaction between the ethyl residue of one δ-amino acid and the cyclohexyl group of the next δ-residue in the sequence that seems to stabilize one type of helix over another. To the best of our knowledge this type of additional stabilization leading to a specific helical preference has not been observed before. Critically, the helix type realized places the α-residue functionalities in positions proximal enough to engage in bifunctional catalysis as demonstrated in the application of our system as a minimalist aldolase mimic.

Topics & Concepts

FoldamerChemistryResidue (chemistry)Helix (gastropod)Hydrogen bondBifunctionalStereochemistryCrystallographyIntramolecular forceAldolase AAmino acidCatalysisMoleculeOrganic chemistryEnzymeBiochemistryBiologyEcologySnailChemical Synthesis and AnalysisClick Chemistry and ApplicationsCarbohydrate Chemistry and Synthesis
Crystal Structure and NMR of an α,δ‐Peptide Foldamer Helix Shows Side‐Chains are Well Placed for Bifunctional Catalysis: Application as a Minimalist Aldolase Mimic** | Litcius