Development of a robust system for high-throughput colorimetric assay of diverse amino acid decarboxylases

Abstract

Abstract Amino acid decarboxylases catalyze decarboxylation of amino acids into amines that possess wide industrial applications. As key enzymes in biobased production of industrially important amines such as cadaverine, putrescine and β-alanine, lysine decarboxylase, ornithine decarboxylase and aspartic acid decarboxylase have attracted increasing attention. To develop enzyme variants with superior catalytic properties, there is a great need for high-throughput assay of these decarboxylases. Here we report the development of assays based on the color change of pH indicator – chlorophenol red (CPR) or bromothymol blue (BTB) – in decarboxylation reactions, in which one proton was consumed per carboxylic group decarboxylated resulting in an increase in pH. First, two buffer-indicator pairs, 4-morpholineethanesulfonic acid (MES)-CPR and 3-morpholinopropanesulfonic acid (MOPS)-BTB, were chosen on the basis of their similar pKa values at approximately pH 6.0 and 7.0, both of which are physiologically relevant. Next, the effects of buffer strength and indicator concentration on absorbance changes were examined in assay mixtures with NaOH titration, which mimicked proton consumption in decarboxylation reactions. Finally, high-throughput quantification of lysine decarboxylase, ornithine decarboxylase and aspartic acid decarboxylase was achieved using a microplate format. These results suggest that our indicator assay system may have potential applications for screening diverse decarboxylases.