Eight Unexpected Selenoprotein Families in Organometallic Biochemistry in Clostridium difficile, in ABC Transport, and in Methylmercury Biosynthesis
Daniel H. Haft, Marc Gwadz
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.