A High‐Throughput Continuous Spectroscopic Assay to Measure the Activity of Natural Product Methyltransferases

Natural product methyltransferases (NPMTs) represent an emerging class of enzymes that can be of great use for the structural and functional diversification of bioactive compounds, such as the strategic modification of C‐, N‐, O‐ and S‐moieties. To assess the activity and the substrate scope of the...

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Veröffentlicht in:Chembiochem : a European journal of chemical biology 2022-09, Vol.23 (17), p.e202200162-n/a
Hauptverfasser: Simon‐Baram, Hadas, Roth, Steffen, Niedermayer, Christina, Huber, Patricia, Speck, Melanie, Diener, Julia, Richter, Michael, Bershtein, Shimon
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Sprache:eng
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Zusammenfassung:Natural product methyltransferases (NPMTs) represent an emerging class of enzymes that can be of great use for the structural and functional diversification of bioactive compounds, such as the strategic modification of C‐, N‐, O‐ and S‐moieties. To assess the activity and the substrate scope of the ever‐expanding repertoire of NPMTs, a simple, fast, and robust assay is needed. Here, we report a continuous spectroscopic assay, in which S‐adenosyl‐L‐methionine‐dependent methylation is linked to NADH oxidation through the coupled activities of S‐adenosyl‐L‐homocysteine (SAH) deaminase and glutamate dehydrogenase. The assay is highly suitable for a high‐throughput evaluation of small molecule methylation and for determining the catalytic parameters of NPMTs under conditions that remove the potent inhibition by SAH. Through the modular design, the assay can be extended to match the needs of different aspects of methyltransferase cascade reactions and respective applications. Small molecule methylation catalyzed by natural product methyltransferases (NPMTs) carries a tremendous potential to improve bioactivity and bioavailability of natural products. To assist with the expansion of available NPMTs, we present a high‐throughput continuous assay for the rapid and reliable detection of methyltransferase activity for small molecules.
ISSN:1439-4227
1439-7633
1439-7633
DOI:10.1002/cbic.202200162