The Role of Membrane Potential for the Control of Elongation Growth of Vigna Hypocotyl : Response of a Hollow Cylinder to Osmotic and Ionic Stress
スポンサーリンク
概要
- 論文の詳細を見る
We have devised an experimental system of perfusion through a hollow cylinder of a Vigna hypocotyl to examine the control mechanism of plant stem elongation. When the cylinder was subjected to osmotic stress, it began to shrink and then spontaneously resumed elongation. Not only the membrane potential difference between the parenchyma symplast and the central bore (V_<px'>), but also that between the parenchyma symplast and the organ surface (V_<ps>), showed hyperpolarization a few minutes after the cylinder began to shrink. Removal of the stress caused an immediate increase in elongation rate followed by depolarization of both membrane potentials a few minutes later. When the cylinder was subjected to KCl stress, V_<px'> showed transient depolarization and recovery, while V_<ps> showed only immediate hyperpolarization. Increasing the KCl concentration caused V_<px'> to depolarize, and the cylinder simultaneously to cease to elongate for about 5 min, even when the osmotic concentration of the perfusion solution was kept almost constant. An inverse reaction was observed when the KCl concentration was decreased. These two reversible responses suggest that control of V_<px'> may regulate the elongation of hollow cylinders, and that the xylem pump plays an important role in the regulation of intact stem elongation.
- 日本植物生理学会の論文
著者
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Nakahori Kiyoshi
Biological Institute, Faculty of Science, Nagoya University
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Katou Kiyoshi
Biological Institute, Faculty of Science, Nagoya University
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Okamoto Hisashi
Biological Institute, Faculty of Science, Nagoya University
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Okamoto Haruko
Dept. Biol. Tokyo Metropolitan Univ.
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Katou K
Unit Of Biosystems Graduate School Of Human Informatics Nagoya University:school Of Informatics And
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Katou Kiyoshi
Biological Institute Faculty Of Science Nagoya University
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Nakahori Kiyoshi
Biological Institute Faculty Of Science Nagoya University
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Okamoto H
Tokyo Metropolitan Univ. Tokyo Jpn
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Okamoto Hisashi
Biological Institute Faculty Of Science Nagoya University
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