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Abstract
Despite the unique reactivity of vitamin B12 and its derivatives, B12-dependent enzymes remain underutilized in biocatalysis. In this study, we repurpose the B12-dependent transcription factor CarH to enable non-native radical cyclization reactions. An engineered variant of this enzyme, CarH*, catalyzes the formation γ- and δ-lactams via either redox-neutral or reductive ring closure with marked enhancement of reactivity and selectivity relative to the free B12 cofactor. CarH* also catalyzes an unusual spirocyclization via dearomatization of pendant arenes to produce bicyclic 1,3-diene products instead of 1,4-dienes provided by existing methods. These results and associated mechanistic studies highlight the importance of protein scaffolds for controlling the reactivity of B12 and expanding the synthetic utility of B12-dependent enzymes.
Supplementary materials
Title
Supporting information for Non-native Radical Cyclization Enabled by a B12-dependent Enzyme
Description
Supporting information, including all relevant protocols and characterization.
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