Endoxyloglucan Transferase cDNA Isolated from Pea Roots and Its Fluctuating Expression in Hydrotropically Responding Roots
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概要
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We isolated an endoxyloglucan transferase cDNA (Ps-EXGT1) from the roots of an agravitropic pea mutant, ageotropum. The putative product of the cDNA was 34.1 kDa and consisted of 293 amino acid residues. The predicted amino acid sequence was 75.1-88.6% identical to those of EXGT genes in other plants. The Ps-EXGT1 cDNA was strongly expressed in elongating roots and stems but not in either mature stems or young leaves. In roots, the transcription level of Ps-EXGT1 was most abundant in the rapidly growing region. When root elongation was inhibited by a water stress, Ps-EXGT1 transcription was repressed. The roots curved hydrotropically due to differential growth of the cortical cells in the elongation zone when the root cap was exposed to a gradient of water potential; the length of the cells on the side of lower water potential was much longer than those on the side of higher water potential. The expression pattern of Ps-EXGT1 in the hydrotropically responding roots fluctuated between the side of the higher water potential and that of the lower water potential in the elongation zone. In other words, the accumulation of Ps-EXGT1 mRNA was much greater on the side of lower water potential than on that of higher potential just prior to the commencement of positive hydrotropism. When the roots strted to curve slightly away from the side of higher water potential causing a rhythmic oscillatory movement [Takano et al.(1995) Planta 197: 410], there was more transcription of Ps-EXGT1 on the side of higher water potential. These results suggest that the transcription of Ps-EXGT1 is involved in cell growth and that this regulation of transcription plays a role in the differential growth of hydrotropically responding roots.
- 日本植物生理学会の論文
著者
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藤井 伸治
東北大・院・生命科学
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Takahashi Hideyuki
Graduate School Of Life Sciences Tohoku University
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TAKAHASHI Hideyuki
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
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Fujii Nobuharu
Division Of Hematology And Oncology Okayama University Hospital
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Fujii Nobuharu
Institute Of Genetic Ecology Tohoku University
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HIGASHITANI Atsushi
Institute of Genetic Ecology, Tohoku University
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NISHITANI Kazuhiko
Graduate School of Science, Tohoku University
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TAKANO Mamoru
Institute of Genetic Ecology, Tohoku Universtiy
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Higashitani A
Kagoshima University Graduate School Of Medical And Dental Sciences Space Environmental Medicine
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Nishitani K
Graduate School Of Science Tohoku Univ.
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Nishitani Kazuhiko
Graduate School Of Life Sciences Tohoku University
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Murata Takao
Department Of Applied Physiology National Institute Of Agrobiological Resources
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HIRASAWA Tadashi
Tokyo Univ. Agric. & Tech.
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Higashitani Atushi
Institute of Genetic Ecology, Tohoku University
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Hirasawa Tadashi
Tokyo Univ. Agric. & Tech.
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Hirasawa T
Tokyo Univ. Agric. & Tech.
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Takahashi Hideyuki
Institute For Agricultural Research Tohoku University
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Higashitani Atsushi
Kagoshima University Graduate School Of Medical And Dental Sciences Space Environmental Medicine
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Takahashi Hirokazu
Laboratory Of Plant Molecular Genetics Graduate School Of Agricultural And Life Sciences The Univers
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