Chemoenzymatic total synthesis of rotigotine via IRED-catalyzed reductive amination.

A short and chemoenzymatic synthesis of rotigotine using an IR-36-M5 mutant is reported. Focusing on the residues that directly contact the 2-tetralone moiety, we applied structure-guided semi-rational design to obtain a double-mutant F260W/M147Y, which showed a good isolated yield and S-stereoselectivity >99% toward 2-aminotetralin synthesis. Furthermore, the utility of this biocatalytic protocol was successfully demonstrated in the enantioselective synthesis of rotigotine via enzymatic reductive amination as the key step.

Chemoenzymatic Synthesis of Selegiline: An Imine Reductase-Catalyzed Approach.

(R)-Homobenzylic amines are key structural motifs present in (R)-selegiline, a drug indicated for the treatment of early-stage Parkinson's disease. Herein, we report a new short chemoenzymatic approach (in 2 steps) towards the synthesis of (R)-selegiline via stereoselective biocatalytic reductive amination as the key step. The imine reductase IR36-M5 mutant showed high conversion (97%) and stereoselectivity (97%) toward the phenylacetone and propargyl amine substrates, offering valuable biocatalysts for synthesizing alkylated homobenzylic amines.