Engineering Microbiology (Mar 2023)

Oxidative modification of free-standing amino acids by Fe(II)/αKG-dependent oxygenases

  • Hui Tao,
  • Ikuro Abe

Journal volume & issue
Vol. 3, no. 1
p. 100062

Abstract

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Fe(II)/α-ketoglutarate (αKG)-dependent oxygenases catalyze the oxidative modification of various molecules, from DNA, RNA, and proteins to primary and secondary metabolites. They also catalyze a variety of biochemical reactions, including hydroxylation, halogenation, desaturation, epoxidation, cyclization, peroxidation, epimerization, and rearrangement. Given the versatile catalytic capability of such oxygenases, numerous studies have been conducted to characterize their functions and elucidate their structure–function relationships over the past few decades. Amino acids, particularly nonproteinogenic amino acids, are considered as important building blocks for chemical synthesis and components for natural product biosynthesis. In addition, the Fe(II)/αKG-dependent oxygenase superfamily includes important enzymes for generating amino acid derivatives, as they efficiently modify various free-standing amino acids. The recent discovery of new Fe(II)/αKG-dependent oxygenases and the repurposing of known enzymes in this superfamily have promoted the generation of useful amino acid derivatives. Therefore, this study will focus on the recent progress achieved from 2019 to 2022 to provide a clear view of the mechanism by which these enzymes have expanded the repertoire of free amino acid oxidative modifications.

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