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A large conserved family of small-molecule carboxyl methyltransferases identified from microorganisms

Zhi Lin, Zhiwei Hu, Linjun Zhou, Benben Liu, Xiaowei Huang, Zixin Deng, Xudong Qu

2023Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Small-molecule carboxyl methyltransferases (CbMTs) constitute a small proportion of the reported methyltransferases, but they have received extensive attention due to their important physiological functions. Most of the small-molecule CbMTs isolated to date originate from plants and are members of the SABATH family. In this study, we identified a type of CbMT (OPCMT) from a group of Mycobacteria , which has a distinct catalytic mechanism from the SABATH methyltransferases. The enzyme contains a large hydrophobic substrate-binding pocket (~400 Å 3 ) and utilizes two conserved residues, Thr20 and Try194, to retain the substrate in a favorable orientation for catalytic transmethylation. The OPCMT_like MTs have a broad substrate scope and can accept diverse carboxylic acids enabling efficient production of methyl esters. They are widely (more than 10,000) distributed in microorganisms, including several well-known pathogens, whereas no related genes are found in humans. In vivo experiments implied that the OPCMT_like MTs was indispensable for M. neoaurum , suggesting that these proteins have important physiological functions.

Topics & Concepts

MethyltransferaseTransmethylationBiologyBiochemistrySubstrate (aquarium)MethylationSmall moleculeEnzymeChemistryGeneEcologyEpigenetics and DNA MethylationCancer-related gene regulationMicrobial bioremediation and biosurfactants
A large conserved family of small-molecule carboxyl methyltransferases identified from microorganisms | Litcius