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    FASEB J. 2009 Jan;23(1):107-13. Epub 2008 Sep 4.

    A novel stem loop control element-dependent UGA read-through system without translational selenocysteine incorporation in Drosophila.

    Hirosawa-Takamori M, Ossipov D, Novoselov SV, Turanov AA, Zhang Y, Gladyshev VN, Krol A, Vorbrüggen G, Jäckle H.

    Max-Planck-Institut für biophysikalische Chemie, Abteilung Molekulare Entwicklungsbiologie, Am Fassberg 11, 37077 Göttingen, Germany.

    Translational read-through of the UGA stop codon is an evolutionarily conserved feature that most prominently represents the basis of selenoprotein biosynthesis. It requires a specific cis-acting stem loop control element, termed SECIS, which is located in the 3'-untranslated region of eukaryotic selenoprotein mRNAs. In a search for novel factors underlying the SECIS-directed UGA read-through process, we identified an evolutionary conserved GTPase-activating protein, termed GAPsec. We show that the activity of the Drosophila GAPsec (dGAPsec) is necessary to support SECIS-dependent UGA read-through activity in flies and the mouse homolog mGAPsec in mice tissue culture cells. However, selenoprotein biosynthesis is not impaired in flies that lack dGAPsec activity. The results indicate that GAPsec is part of a novel SECIS-dependent translational read-through system that does not involve selenocysteine incorporation.

    PMID: 18772345 [PubMed - indexed for MEDLINE]

    PMCID: 2626620

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