Selenoprotein synthesis and regulation in Archaea.

Background: The major biological form of selenium is that of the co-translationally inserted amino acid selenocysteine (Sec). In Archaea, the majority of proteins containing Sec, selenoproteins, are involved in methanogenesis. However, the function of this residue is often not known because selenium-independent homologs of the selenoproteins can be employed, sometimes even in one organism.

Selenium-dependent gene expression in Methanococcus maripaludis: Involvement of the transcriptional regulator HrsM.

Background: The archaeon Methanococcus maripaludis strain JJ employs several selenocysteine (Sec)-containing proteins in its primary energy metabolism, methanogenesis. Upon selenium deprivation, or when the pathway for selenoprotein synthesis is disrupted, they are replaced by cysteine (Cys)-containing isoforms, thus allowing for selenium-independent growth.

Methods: Expression of a fusion of the promoter region of frcA (encoding a subunit of the selenium-independent hydrogenase Frc) and bla [encoding β-lactamase (Bla)] in M.

Complete Genome Sequence of the Methanococcus maripaludis Type Strain JJ (DSM 2067), a Model for Selenoprotein Synthesis in Archaea.

type strain JJ (DSM 2067) is an important organism because it serves as a model for primary energy metabolism and hydrogenotrophic methanogenesis and is amenable to genetic manipulation. The complete genome (1.7 Mb) harbors 1,815 predicted protein-encoding genes, including 9 encoding selenoproteins.

Heterologous complementation studies in Escherichia coli with the Hyp accessory protein machinery from Chloroflexi provide insight into [NiFe]-hydrogenase large subunit recognition by the HypC protein family.

Six Hyp maturation proteins (HypABCDEF) are conserved in micro-organisms that synthesize [NiFe]-hydrogenases (Hyd). Of these, the HypC chaperones interact directly with the apo-form of the catalytically active large subunit of Hyd enzymes and are believed to transfer the Fe(CN)2CO moiety of the bimetallic cofactor from the Hyp machinery to this large subunit. In E.