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Rna-Dependent Selenocysteine Biosynthesis In Eukaryotes And Archaea, Sotiria Palioura
Rna-Dependent Selenocysteine Biosynthesis In Eukaryotes And Archaea, Sotiria Palioura
Yale Medicine Thesis Digital Library
Selenocysteine (Sec), the 21st genetically encoded amino acid, is the major metabolite of the micronutrient selenium. Sec is inserted into nascent proteins in response to a UGA codon. The substrate for ribosomal protein synthesis is selenocysteinyl-tRNASec. While the formation of Sec-tRNASec from seryl-tRNASec by a single bacterial enzyme selenocysteine synthase (SelA) has been well described, the mechanism of Sec-tRNASec formation in archaea and eukaryotes remained poorly understood. Herein, biochemical and genetic data provide evidence that, in contrast to bacteria, eukaryotes and archaea utilize a different route to Sec-tRNASec that requires the tRNASec-dependent conversion of O-phosphoserine (Sep) to Sec. In this …