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      <ns0:cria224u4i rdf:about="http://metadb.riken.jp/db/SciNetS_ria224i/cria224u4ria224u18086281i">
        <rdfs:label xml:lang="en">Nagashima Akitomo et al. 2008 Feb. Plant J. 53(3):516-29.</rdfs:label>
        <ns5:pria35u3i xml:lang="en">Sekimoto Masayo</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Koshiba Tomokazu</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Sakakibara Hitoshi</ns5:pria35u3i>
        <ns5:pria35u2i rdf:resource="http://metadb.riken.jp/db/SciNetS_ria43i/cria43u1ria43u2425i"/>
        <ns5:pria35u3i xml:lang="en">Furukawa Toshiko</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Okada Kiyotaka</ns5:pria35u3i>
        <ns5:pria35u8i xml:lang="en">18086281</ns5:pria35u8i>
        <ns5:pria35u3i xml:lang="en">Fujioka Shozo</ns5:pria35u3i>
        <ns5:pria35u9i xml:lang="en">2008 Feb</ns5:pria35u9i>
        <ns5:pria35u3i xml:lang="en">Uehara Yukiko</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Suzuki Genki</ns5:pria35u3i>
        <rdfs:seeAlso rdf:resource="http://database.riken.jp/sw/item/cria224u4ria224u18086281i"/>
        <ns4:attributionURL rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/18086281"/>
        <ns5:pria35u6i xml:lang="en">3</ns5:pria35u6i>
        <ns5:pria35u7i xml:lang="en">516-29</ns5:pria35u7i>
        <ns5:pria35u3i xml:lang="en">Nagashima Akitomo</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Kuroha Takeshi</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Saji Kensuke</ns5:pria35u3i>
        <ns5:pria35u3i xml:lang="en">Fujisawa Noriko</ns5:pria35u3i>
        <ns5:pria35u5i xml:lang="en">53</ns5:pria35u5i>
        <ns5:pria35u3i xml:lang="en">Sakai Tatsuya</ns5:pria35u3i>
        <ns5:pria35s10i xml:lang="en">Photoreceptors, phytochromes and cryptochromes regulate hypocotyl growth under specific conditions, by suppressing negative gravitropism, modulating phototropism and inhibiting elongation. Although these effects seem to be partially caused via the regulation of the phytohormone auxin, the molecular mechanisms underlying this process are still poorly understood. In our present study, we demonstrate that the flabby mutation enhances both phytochrome- and cryptochrome-inducible hypocotyl bending in Arabidopsis. The FLABBY gene encodes the ABC-type auxin transporter, PGP19, and its expression is suppressed by the activation of phytochromes and cryptochromes. Our current results therefore indicate that the phytochromes and cryptochromes have at least two effects upon the tropic responses of the hypocotyls in Arabidopsis: the enhancement of hypocotyl bending through the suppression of PGP19, and a PGP19-independent mechanism that induces hypocotyl bending. By the using an auxin polar transport assay and DR5:GUS expression analysis, we further find that the phytochromes inhibit basipetal auxin transport, and induce the asymmetric distribution of auxin in the hypocotyls. These data suggest that the control of auxin transport by phytochromes and cryptochromes is a critical regulatory component of hypocotyl growth in response to light.</ns5:pria35s10i>
        <ns5:pria35u3i xml:lang="en">Kojima Mikiko</ns5:pria35u3i>
        <ns5:pria35u13i xml:lang="en">Phytochromes and cryptochromes regulate the differential growth of Arabidopsis hypocotyls in both a PGP19-dependent and a PGP19-independent manner.</ns5:pria35u13i>
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