Stereoselective amino acid synthesis by photobiocatalytic oxidative coupling

Tian-Ci Wang, Binh Khanh Mai, Zheng Zhang, Zhiyu Bo, Jiedong Li, Peng Liu () and Yang Yang ()
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Tian-Ci Wang: University of California Santa Barbara
Binh Khanh Mai: University of Pittsburgh
Zheng Zhang: University of California Santa Barbara
Zhiyu Bo: University of California Santa Barbara
Jiedong Li: University of California Santa Barbara
Peng Liu: University of Pittsburgh
Yang Yang: University of California Santa Barbara

Nature, 2024, vol. 629, issue 8010, 98-104

Abstract: Abstract Photobiocatalysis—where light is used to expand the reactivity of an enzyme—has recently emerged as a powerful strategy to develop chemistries that are new to nature. These systems have shown potential in asymmetric radical reactions that have long eluded small-molecule catalysts1. So far, unnatural photobiocatalytic reactions are limited to overall reductive and redox-neutral processes2–9. Here we report photobiocatalytic asymmetric sp3–sp3 oxidative cross-coupling between organoboron reagents and amino acids. This reaction requires the cooperative use of engineered pyridoxal biocatalysts, photoredox catalysts and an oxidizing agent. We repurpose a family of pyridoxal-5′-phosphate-dependent enzymes, threonine aldolases10–12, for the α-C–H functionalization of glycine and α-branched amino acid substrates by a radical mechanism, giving rise to a range of α-tri- and tetrasubstituted non-canonical amino acids 13–15 possessing up to two contiguous stereocentres. Directed evolution of pyridoxal radical enzymes allowed primary and secondary radical precursors, including benzyl, allyl and alkylboron reagents, to be coupled in an enantio- and diastereocontrolled fashion. Cooperative photoredox–pyridoxal biocatalysis provides a platform for sp3–sp3 oxidative coupling16, permitting the stereoselective, intermolecular free-radical transformations that are unknown to chemistry or biology.

Date: 2024
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DOI: 10.1038/s41586-024-07284-5

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