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Photoenzymatic Hydrogenation of Heteroaromatic Olefins Using ‘Ene’‐Reductases with Photoredox Catalysts

Yuji Nakano, Michael J. Black, Andrew J. Meichan, Braddock A. Sandoval, Megan Chung, Kyle F. Biegasiewicz, Tianyu Zhu, Todd K. Hyster

2020Angewandte Chemie International Edition105 citationsDOIOpen Access PDF

Abstract

Flavin-dependent 'ene'-reductases (EREDs) are highly selective catalysts for the asymmetric reduction of activated alkenes. This function is, however, limited to enones, enoates, and nitroalkenes using the native hydride transfer mechanism. Here we demonstrate that EREDs can reduce vinyl pyridines when irradiated with visible light in the presence of a photoredox catalyst. Experimental evidence suggests the reaction proceeds via a radical mechanism where the vinyl pyridine is reduced to the corresponding neutral benzylic radical in solution. DFT calculations reveal this radical to be "dynamically stable", suggesting it is sufficiently long-lived to diffuse into the enzyme active site for stereoselective hydrogen atom transfer. This reduction mechanism is distinct from the native one, highlighting the opportunity to expand the synthetic capabilities of existing enzyme platforms by exploiting new mechanistic models.

Topics & Concepts

ChemistryFlavin groupCatalysisPhotochemistryHydrideEne reactionPyridinePhotoredox catalysisHydrogen atomCombinatorial chemistryReaction mechanismStereoselectivityAlkeneActive siteHydrogenEnzymeStereochemistryPhotocatalysisOrganic chemistryAlkylRadical Photochemical ReactionsCatalytic C–H Functionalization MethodsSulfur-Based Synthesis Techniques