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Methanobactin from methanotrophs: genetics, structure, function and potential applications

Jeremy D. Semrau, Alan A. DiSpirito, Parthiba Karthikeyan Obulisamy, Christina S. Kang-Yun

2020FEMS Microbiology Letters40 citationsDOIOpen Access PDF

Abstract

Aerobic methane-oxidizing bacteria of the Alphaproteobacteria have been found to express a novel ribosomally synthesized post-translationally modified polypeptide (RiPP) termed methanobactin (MB). The primary function of MB in these microbes appears to be for copper uptake, but MB has been shown to have multiple capabilities, including oxidase, superoxide dismutase and hydrogen peroxide reductase activities, the ability to detoxify mercury species, as well as acting as an antimicrobial agent. Herein, we describe the diversity of known MBs as well as the genetics underlying MB biosynthesis. We further propose based on bioinformatics analyses that some methanotrophs may produce novel forms of MB that have yet to be characterized. We also discuss recent findings documenting that MBs play an important role in controlling copper availability to the broader microbial community, and as a result can strongly affect the activity of microbes that require copper for important enzymatic transformations, e.g. conversion of nitrous oxide to dinitrogen. Finally, we describe procedures for the detection/purification of MB, as well as potential medical and industrial applications of this intriguing RiPP.

Topics & Concepts

BacteriaAlphaproteobacteriaNitrous-oxide reductaseBiologyBiochemistrySuperoxide dismutaseOxidase testReductaseFunction (biology)EnzymeChemistryComputational biologyGeneticsNitrite reductase16S ribosomal RNANitrate reductaseMicrobial metabolism and enzyme functionTrace Elements in HealthChromium effects and bioremediation
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