Thomas Boddaert scite author profile

Oligomers of α-aminoisobutyric acid (Aib) are achiral peptides that typically adopt 3 10 helical conformations in which enantiomeric left-and right-handed conformers are, necessarily, equally populated. Incorporating a single protected chiral residue at the N-terminus of the peptide leads to induction of a screw-sense preference in the helical chain, which may be quantified (in the form of "helical excess") by NMR spectroscopy. Variation of this residue and its N-terminal protecting group leads to the conclusion that maximal levels of screw-sense preference are induced by bulky chiral tertiary amino acids carrying amide protecting groups or by chiral quaternary amino acids carrying carbamate protecting groups. Tertiary L-amino acids at the N-terminus of the oligomer induce a left-handed screw sense, while quaternary L-amino acids induce a righthanded screw sense. A screw-sense preference may also be induced from the second position of the chain, weakly by tertiary amino acids, and much more powerfully by quaternary amino acids. In this position, the L enantiomers of both families induce a right-handed screw sense. Maximal, and essentially quantitative, control is induced by an L-α-methylvaline residue at both positions 1 and 2 of the chain, carrying an N-terminal carbamate protecting group.

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Foldamer‐Mediated Remote Stereocontrol: >1,60 Asymmetric Induction

Byrne

et al. 2013

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An N-terminal L-α-methylvaline dimer induces complete conformational control over the screw sense of an otherwise achiral helical peptide foldamer formed from the achiral quaternary amino acids Aib and Ac6 c. The persistent right-handed screw-sense preference of the helix enables remote reactive sites to fall under the influence of the terminal chiral residues, and permits diastereoselective reactions such as alkene hydrogenation or iminium ion addition to take place with 1,16-, 1,31-, 1,46- and even 1,61-asymmetric induction. Stereochemical information may be communicated in this way over distances of up to 4 nm.

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Chemical communication: conductors and insulators of screw-sense preference between helical oligo(aminoisobutyric acid) domains

et al. 2012

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Multiple Bond‐Forming Transformations: The Key Concept toward Eco‐Compatible Synthetic Organic Chemistry

Coquerel

Boddaert

Presset

et al. 2010

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Thomas Boddaert

Engineering the Structure of an N-Terminal β-Turn To Maximize Screw-Sense Preference in Achiral Helical Peptide Chains

Foldamer‐Mediated Remote Stereocontrol: >1,60 Asymmetric Induction

Chemical communication: conductors and insulators of screw-sense preference between helical oligo(aminoisobutyric acid) domains

Multiple Bond‐Forming Transformations: The Key Concept toward Eco‐Compatible Synthetic Organic Chemistry

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