14546-78-2Relevant academic research and scientific papers
Deracemisation of benzylisoquinoline alkaloids employing monoamine oxidase variants
Schrittwieser, Joerg H.,Groenendaal, Bas,Willies, Simon C.,Ghislieri, Diego,Rowles, Ian,Resch, Verena,Sattler, Johann H.,Fischereder, Eva-Maria,Grischek, Barbara,Lienhart, Wolf-Dieter,Turner, Nicholas J.,Kroutil, Wolfgang
, p. 3657 - 3664 (2014)
Chemo-enzymatic deracemisation was applied to obtain the (S)-enantiomer of 1-benzylisoquinolines from the racemate in high isolated yield (up to 85%) and excellent optical purity (ee > 97%). The one-pot deracemisation protocol encompassed enantioselective oxidation by a monoamine oxidase (MAO-N) and concomitant reduction of the resulting iminium species by ammonia-borane. The challenge was the oxidation at the sterically demanding chiral centre. Recently developed variants of MAO-N, featuring an enlarged active-site pocket, turned out to be suitable biocatalysts for these substrates. In contrast to previous MAO-N variants, which preferentially converted the (S)-enantiomer, the MAO-N variant D11 used in the present study was found to oxidise all tested benzylisoquinoline substrates with (R)-enantiopreference. The structural determinants of enantioselectivity were investigated by means of protein-ligand docking simulations. The applicability of the deracemisation system was demonstrated on preparative scale (150 mg) for three benzylisoquinoline alkaloids (natural as well as non-natural), including the hypotensive and antispasmodic agent (S)-reticuline.
