Overexpression of MIZU-KUSSEI1 enhances the root hydrotropic response by retaining cell viability under hydrostimulated conditions in arabidopsis thaliana

Yutaka Miyazawa, Teppei Moriwaki, Mayumi Uchida, Akie Kobayashi, Nobuharu Fujii, Hideyuki Takahashi

    Research output: Contribution to journalArticlepeer-review

    15 Citations (Scopus)

    Abstract

    Because of their sessile nature, plants evolved several mechanisms to tolerate or avoid conditions where water is scarce. The molecular mechanisms contributing to drought tolerance have been studied extensively, whereas the molecular mechanism underlying drought avoidance is less understood despite its importance. Several lines of evidence showed that the roots sense the moisture gradient and grow toward the wet area: so-called hydrotropism. We previously identified MIZU-KUSSEI (MIZ) 1 and MIZ2/GNOM as genes responsible for this process. To gain new insight into the molecular mechanism of root hydrotropism, we generated overexpressors of MIZ1 (MIZ1OEs) and analyzed their hydrotropic response. MIZ1OEs had a remarkable enhancement of root hydrotropism. Furthermore, a greater number of MIZ1OE root cells remained viable under hydrostimulated conditions than those of the wild type, which might contribute to retaining root growth under hydrostimulated conditions. Although overexpression of MIZ1 also caused a slight decrease in the root gravitropic response, it was not attributable to the enhanced hydrotropic response. In addition, miz2 mutation or the auxin response inhibitor nullified the enhanced hydrotropic response in MIZ1OEs. Furthermore, the expression of MIZ1 did not alter the expression of typical genes involved in drought tolerance. These results suggest that MIZ1 positively regulates hydrotropism at an early stage and its overexpression results in an enhancement of signal transduction unique to root hydrotropism to increase the degree of hydrotropic root bending.

    Original languageEnglish
    Pages (from-to)1926-1933
    Number of pages8
    JournalPlant and Cell Physiology
    Volume53
    Issue number11
    DOIs
    Publication statusPublished - 2012 Nov

    Keywords

    • Arabidopsis thaliana
    • Gravitropism
    • Hydrotropism
    • MIZU-KUSSEI1

    ASJC Scopus subject areas

    • Physiology
    • Plant Science
    • Cell Biology

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