Insights into the role played by modified cinchona alkaloids in the Sharpless asymmetric dihydroxylation inspired studies of modified cinchona alkaloids as chiral organic catalysts that lead to the development of highly enantioselective alcoholyses for the desymmetrization, kinetic resolution, and dynamic kinetic resolution of cyclic anhydrides, cyanation of ketones, and 1,4-addition of thiols to cylic enones. These studies demonstrate the potential of modified cinchona alkaloids as broadly useful chiral organic catalysts for asymmetric synthesis.
The asymmetric bioreduction of a library of β-cyanoacrylate
esters using ene-reductases was studied with the aim to provide a
biocatalytic route to precursors for GABA analogues, such as pregabalin.
The stereochemical outcome could be controlled by substrate-engineering
through size-variation of the ester moiety and by employing stereochemically
pure (E)- or (Z)-isomers, which
allowed to access both enantiomers of each product in up to quantitative
conversion in enantiomerically pure form. In addition, stereoselectivities
and conversions could be improved by mutant variants of OPR1, and
the utility of the system was demonstrated by preparative-scale applications.
This
publication describes the evaluation of four synthetic routes
to the advanced pregabalin (Lyrica) intermediate 7. Asymmetric
reduction of (E)-7 with an ene-reductase
(OPR1 from Lycopersicon esculentum)
gave a saturated cyanoester intermediate 5 with the desired S stereocenter in >99% ee. OPR1 also catalyzed the reduction
of (Z)-7 to (S)-5, but with lower conversion and selectivity.
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