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        <ns5:pria35u6i xml:lang="en">9</ns5:pria35u6i>
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        <rdfs:label xml:lang="en">Ishizaki Kimitsune et al. 2005 Sep. Plant Cell 17(9):2587-600.</rdfs:label>
        <ns5:pria35u3i xml:lang="en">Ishizaki Kimitsune</ns5:pria35u3i>
        <ns5:pria35u13i xml:lang="en">The critical role of Arabidopsis electron-transfer flavoprotein:ubiquinone oxidoreductase during dark-induced starvation.</ns5:pria35u13i>
        <ns5:pria35u7i xml:lang="en">2587-600</ns5:pria35u7i>
        <ns4:attributionURL rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/16055629"/>
        <ns5:pria35u8i xml:lang="en">16055629</ns5:pria35u8i>
        <ns5:pria35u3i xml:lang="en">Larson Tony R</ns5:pria35u3i>
        <ns5:pria35u9i xml:lang="en">2005 Sep</ns5:pria35u9i>
        <ns5:pria35u3i xml:lang="en">Fernie Alisdair R</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Schauer Nicolas</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Leaver Christopher J</ns5:pria35u3i>
        <ns5:pria35u5i xml:lang="en">17</ns5:pria35u5i>
        <ns5:pria35s10i xml:lang="en">In mammals, electron-transfer flavoprotein:ubiquinone oxidoreductase (ETFQO) and electron-transfer flavoprotein (ETF) are functionally associated, and ETF accepts electrons from at least nine mitochondrial matrix flavoprotein dehydrogenases and transfers them to ubiquinone in the inner mitochondrial membrane. In addition, the mammalian ETF/ETFQO system plays a key role in beta-oxidation of fatty acids and catabolism of amino acids and choline. By contrast, nothing is known of the function of ETF and ETFQO in plants. Sequence analysis of the unique Arabidopsis thaliana homologue of ETFQO revealed high similarity to the mammalian ETFQO protein. Moreover, green fluorescent protein cellular localization experiments suggested a mitochondrial location for this protein. RNA gel blot analysis revealed that Arabidopsis ETFQO transcripts accumulated in long-term dark-treated leaves. Analysis of three independent insertional mutants of Arabidopsis ETFQO revealed a dramatic reduction in their ability to withstand extended darkness, resulting in senescence and death within 10 d after transfer, whereas wild-type plants remained viable for at least 15 d. Metabolite profiling of dark-treated leaves of the wild type and mutants revealed a dramatic decline in sugar levels. In contrast with the wild type, the mutants demonstrated a significant accumulation of several amino acids, an intermediate of Leu catabolism, and, strikingly, high-level accumulation of phytanoyl-CoA. These data demonstrate the involvement of a mitochondrial protein, ETFQO, in the catabolism of Leu and potentially of other amino acids in higher plants and also imply a novel role for this protein in the chlorophyll degradation pathway activated during dark-induced senescence and sugar starvation.</ns5:pria35s10i>
        <ns5:pria35u3i xml:lang="en">Graham Ian A</ns5:pria35u3i>
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