Natália Alvarenga scite author profile

Dihydropinidine is a piperidine alkaloid found in spruce needles that has shown promising antifeedant activity against the large pine weevil, a widespread and economically relevant pest of coniferous tree plantations. Chemo-enzymatic approaches have previously been shown to enable a stepeconomic access to both enantiomers of this alkaloid, but the scalability of these syntheses is limited. Herein, we report a chemo-enzymatic route to dihydropinidine that is dominated by biocatalytic steps and affords the target alkaloid in excellent stereoisomeric purity (>99% ee and de) and high yield (57% overall) on multigram scale. Our synthesis makes use of a solvent-free, Lewis acid-catalyzed Michael addition and a biocatalytic alternative to Krapcho dealkoxycarbonylation, achieved by pig liver esterase (PLE)-catalyzed ester hydrolysis and acidification, and specifically developed for this purpose, to access a key intermediate, nonane-2,6-dione. This diketone is then converted into dihydropinidine by a concurrent one-pot (cascade) biotransformation catalyzed by a transaminase, an imine reductase, and an alcohol dehydrogenase. High yields and excellent regio-and stereoselectivities of the individual transformations render chromatographic purification of intermediates unnecessary and make it possible to carry out the entire sequence with a final hydrochloride precipitation of the target alkaloid as the sole purification step.

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Natália Alvarenga

Biodegradation of methyl parathion by whole cells of marine-derived fungi Aspergillus sydowii and Penicillium decaturense

Biodegradation of anthracene and several PAHs by the marine-derived fungus Cladosporium sp. CBMAI 1237

Asymmetric Synthesis of Dihydropinidine Enabled by Concurrent Multienzyme Catalysis and a Biocatalytic Alternative to Krapcho Dealkoxycarbonylation

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