Litcius/Paper detail

Eight Unexpected Selenoprotein Families in Organometallic Biochemistry in Clostridium difficile, in ABC Transport, and in Methylmercury Biosynthesis

Daniel H. Haft, Marc Gwadz

2023Journal of Bacteriology11 citationsDOIOpen Access PDF

Abstract

This work adds 8 novel prokaryotic selenoproteins to the 80 or so families previously known. It describes the SAO (selenocysteine-assisted organometallic) locus, with the most selenoproteins of any known system. The rare CU motif recurs throughout, suggesting the formation and degradation of organometallic compounds. That suggestion triggered a reexamination of HgcA and HcgB, which are methylmercury formation proteins that can adversely impact food safety. Both are selenoproteins, once corrected, with HgcA again showing a CU motif. The SAO system is plausibly a mercury resistance locus for selenium-dependent anaerobes. But instead, it may exploit heavy metals as cofactors in organometallic intermediate-forming pathways that circumvent high activation energies and facilitate the breakdown of otherwise poorly accessible nutrients. SAO could provide an edge that helps Clostridium difficile, an important pathogen, establish disease.

Topics & Concepts

SelenocysteineSelenoproteinEffluxBiologyBiochemistryATP-binding cassette transporterProtein subunitComplementationOperonGeneticsGeneCysteineMutantTransporterGlutathioneEnzymeGlutathione peroxidaseTrace Elements in HealthMercury impact and mitigation studiesHeavy Metal Exposure and Toxicity