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        <ns5:pria35u3i xml:lang="en">Watanabe Akira</ns5:pria35u3i>
        <ns5:pria35u7i xml:lang="en">129-37</ns5:pria35u7i>
        <ns5:pria35u6i xml:lang="en">1</ns5:pria35u6i>
        <ns5:pria35u3i xml:lang="en">Callis Judy</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Yoshida Satoko</ns5:pria35u3i>
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        <ns5:pria35u13i xml:lang="en">A delayed leaf senescence mutant is defective in arginyl-tRNA:protein arginyltransferase, a component of the N-end rule pathway in Arabidopsis.</ns5:pria35u13i>
        <ns5:pria35u5i xml:lang="en">32</ns5:pria35u5i>
        <ns5:pria35u9i xml:lang="en">2002 Oct</ns5:pria35u9i>
        <ns5:pria35u8i xml:lang="en">12366806</ns5:pria35u8i>
        <ns5:pria35u3i xml:lang="en">Nishida Ikuo</ns5:pria35u3i>
        <rdfs:label xml:lang="en">Yoshida Satoko et al. 2002 Oct. Plant J. 32(1):129-37.</rdfs:label>
        <ns5:pria35u3i xml:lang="en">Ito Masaki</ns5:pria35u3i>
        <ns4:attributionURL rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/12366806"/>
        <ns5:pria35s10i xml:lang="en">We have isolated a delayed-leaf-senescence mutant, designated dls1, from an Arabidopsis T-DNA line. Leaf senescence progresses more slowly in the dls1 mutant than in the wild-type plant in both age-dependent and dark-induced senescence. Genetic analysis revealed that the dls1 is a monogenic recessive mutation that cosegregated with the T-DNA insertion. Isolation of DNA flanking the T-DNA revealed that the T-DNA was inserted into the fourth intron of the AtATE1 gene, which encodes arginyl-tRNA:protein arginyltransferase (EC. 2.3.2.8, R-transferase), a component of the N-end rule proteolytic pathway in yeast and mammals that transfers arginine to the N-terminus of proteins with N-terminal glutamyl or aspartyl residues. AtATE1 transcripts were not detectable in the dls1 mutant by RT-PCR analysis. Introduction of a wild-type AtATE1 gene into the dls1 mutant complemented the dls1 phenotype. We also showed using a transient expression assay system, that the dls1 mutation results in a decreased degradation of proteins with Asp or Glu at their N-termini, and that the introduction of the wild-type AtATE1 gene reverses this deficiency. These results suggest that the normal progression of leaf senescence requires R-transferase activity, and that proteolysis by the N-end rule pathway has an important physiological function in the progress of leaf senescence in plants.</ns5:pria35s10i>
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