Litcius/Paper detail

Creation of (<i>R</i>)-Amine Transaminase Activity within an α-Amino Acid Transaminase Scaffold

Moritz Voß, Chao Xiang, Jérémy Esque, Alberto Nobili, Marian J. Menke, Isabelle André, Matthias Höhne, Uwe T. Bornscheuer

2020ACS Chemical Biology34 citationsDOIOpen Access PDF

Abstract

The enzymatic transamination of ketones into (R)-amines represents an important route for accessing a range of pharmaceuticals or building blocks. Although many publications have dealt with enzyme discovery, protein engineering, and the application of (R)-selective amine transaminases [(R)-ATA] in biocatalysis, little is known about the actual in vivo role and how these enzymes have evolved from the ubiquitous α-amino acid transaminases (α-AATs). Here, we show the successful introduction of an (R)-transaminase activity in an α-amino acid aminotransferase with one to six amino acid substitutions in the enzyme’s active site. Bioinformatic analysis combined with computational redesign of the d-amino acid aminotransferase (DATA) led to the identification of a sextuple variant having a specific activity of 326 milliunits mg–1 in the conversion of (R)-phenylethylamine and pyruvate to acetophenone and d-alanine. This value is similar to those of natural (R)-ATAs, which typically are in the range of 250 milliunits mg–1. These results demonstrate that (R)-ATAs can evolve from α-AAT as shown here for the DATA scaffold.

Topics & Concepts

TransaminationTransaminaseAcetophenoneEnzymeAmino acidBiochemistryBiocatalysisAlanine transaminaseAmine gas treatingAlanineChemistryDruggabilityBiologyCatalysisOrganic chemistryReaction mechanismEndocrinologyGeneAmino Acid Enzymes and MetabolismEpigenetics and DNA MethylationPolyamine Metabolism and Applications