For almost 40 years, difluoromethylene phosphonates have proven to be versatile molecular tools in biochemical studies owing to their close resemblance to naturally occurring phosphates and phosphonates. As bioisosteric, non‐hydrolyzable analogs of these essential molecules, difluoromethylene phosphonates can target the critical parts of the cellular machinery and therefore exhibit a diverse spectrum of biological activity. In the past ten years, there have appeared many new methods for the synthesis of difluoromethylene phosphonates. Most notably, photoredox catalysis has firmly entered the field, while cross‐coupling and nucleophilic strategies have met considerable elaboration and refinement, entirely in accord with the current trends in synthetic organic chemistry. Herein, we introduce difluoromethylene phosphonates as a distinct, high‐tech subclass of synthetic phosphonates resulting from the research efforts on the cross‐section of organophosphorus, organofluorine, and bioorganic chemistry. We then proceed to the discussion of general methods for the preparation of difluoromethylene phosphonates, comprehensively reviewing reactions developed in the past 15 years while providing the context of earlier works where appropriate. Finally, we present selected examples of molecules with high biological activity, their biological targets, and the synthetic steps employed for their preparation.
A new chiral reagent has been developed for generalized installation of pharmacophoric (S)- or (R)-2-(alkoxyphosphono)-1-amino-2,2-difluoroethyl group into organic compounds. The original synthetic application of this new reagent is exemplified by Friedel-Crafts reactions with indoles, which proceed efficiently with excellent diastereoselectivity to give enantiomerically pure products.
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