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首页> 外文期刊>Planta >Inorganic phosphate uptake in intact vacuoles isolated from suspension-cultured cells of Catharanthus roseus (L.) G. Don under varying Pi status
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Inorganic phosphate uptake in intact vacuoles isolated from suspension-cultured cells of Catharanthus roseus (L.) G. Don under varying Pi status

机译:在不同Pi状态下从悬铃木(Catharanthus roseus(L.)G. Don)悬浮培养的细胞中分离的完整液泡中的无机磷酸盐吸收

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摘要

Inorganic phosphate (Pi) uptake across the vacuolar membrane of intact vacuoles isolated from Catharanthus roseus suspension-cultured cells was measured. Under low Pi status, Pi uptake into the vacuole was strongly activated compared to high Pi status. Since Pi uptake across the vacuolar membrane is correlated with H+ pumping, we examined the dependency of H+ pumping on plant Pi status. Both H+ pumping and the activities of the vacuolar H+-pumps, the V-type H+-ATPase and the H+-PPase were enhanced under low Pi status. Despite this increase in H+ pumping, Western blot analysis showed no distinct increase in the amount of proton pump proteins. Possible mechanisms for the activation of Pi uptake into the vacuole under low Pi status are discussed.
机译:测量了从长春花悬浮培养细胞分离的完整液泡的液泡膜中无机磷酸盐(Pi)的吸收。在低Pi状态下,与高Pi状态相比,强烈吸收了进入液泡的Pi。由于整个液泡膜上的磷吸收与H + 的泵送有关,因此我们研究了H + 的泵送对植物Pi状况的依赖性。在低Pi状态下,H + 泵和液泡H + -泵,V型H + -ATPase和H + -PPase的活性均增强。尽管H + 泵送量有所增加,但Western印迹分析显示质子泵送蛋白的量没有明显增加。讨论了在低Pi状态下激活Pi吸收进入液泡的可能机制。

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  • 来源
    《Planta》 |2007年第3期|711-718|共8页
  • 作者

    Miwa Ohnishi; Tetsuro Mimura; Tomoko Tsujimura; Naoto Mitsuhashi; Setsuko Washitani-Nemoto; Masayoshi Maeshima; Enrico Martinoia;

  • 作者单位

    Department of Biology Faculty of Science Kobe University Rokkodai 1-1 Nada Kobe 678-8501 Japan;

    Department of Biology Faculty of Science Kobe University Rokkodai 1-1 Nada Kobe 678-8501 Japan;

    Biological Laboratory Hitotsubashi University Naka 2-1 Kunitachi Tokyo 186-8601 Japan;

    Department of Biology Faculty of Science Kobe University Rokkodai 1-1 Nada Kobe 678-8501 Japan;

    Biological Laboratory Hitotsubashi University Naka 2-1 Kunitachi Tokyo 186-8601 Japan;

    Graduate School of Bioagricultural Sciences Nagoya University Nagoya 464-8601 Japan;

    Department of Molecular Plant Physiology Institute of Plant Biology University of Zurich 8008 Zurich Switzerland;

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  • 原文格式 PDF
  • 正文语种 eng
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  • 关键词

    Catharanthus; H+ pump; Membrane transport; Pi status; Pi transport; Vacuole;

    机译:长春花;H +泵;膜运输;Pi状态;Pi运输;液泡;

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