Katou Kiyoshi | Biological Institute Faculty Of Science Nagoya University
スポンサーリンク
概要
関連著者
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Katou 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 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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Okamoto H
Tokyo Metropolitan Univ. Tokyo Jpn
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Nakahori 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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Liu Qiang
Biological Institute Faculty Of Science Nagoya University:(present)research Centre Guangxi Agricultu
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Ichino Kazuo
Biological Institute, Faculty of Science, Nagoya University
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Ichino Kazuo
Biological Institute Faculty Of Science Nagoya University:(present)laboratory Of Biology Department
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Ohtani Hiroyuki
Department Of Biomolecular Engineering Faculty Of Engineering Tokyo Institute Of Technology
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Ohtani Hiroyuki
Department Of Biomolecular Engineering Faculty Of Bioscience And Biotechnology Tokyo Institute Of Te
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Koizumi Kazuji
Instrument Development Center, Faculty of Science, Nagoya University
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Muramatsu Satoru
The 29th Department, Solid State Division, Hamamatsu Photonics K.K.
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Masuko Masayuki
Tsukuba Research Laboratory, Hamamatsu Photonics K.K.
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Nakase Sigeki
The 29th Department, Solid State Division, Hamamatsu Photonics K.K.
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Masuda Takao
Div. Appl. Biosci. Grad. Sch. Agr. Kyoto Univ.
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Masuda T
Div. Appl. Biosci. Grad. Sch. Agr. Kyoto Univ.
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Miwa Chiyomi
Instrument Development Centre, Faculty of Science, Nagoya University
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Masuda Tadashi
Instrument Development Centre, Faculty of Science, Nagoya University
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Miwa Chiyomi
Instrument Development Centre Faculty Of Science Nagoya University
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Nakase Sigeki
The 29th Department Solid State Division Hamamatsu Photonics K.k.
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Koizumi Kazuji
Instrument Development Center Faculty Of Science Nagoya University
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Enomoto Yoshihisa
Marine Biology Station Faculty Of Science Kobe University
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Enomoto Yoshihisa
Department of Physics, Faculty of Science, Nagoya University
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Enomoto Yoshihisa
Department Of Environmental Technology And Urban Planning Nagoya Institute Of Technology
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Masuda T
Master's Program In Biosystem Studies University Of Tsukuba
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MIZUNO Akiko
Nihon Fukushi Univ
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Mizuno Akiko
Biological Institute, Faculty of Science, Nagoya University
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Mizuno A
Faculty Of Social And Information Sciences Nihon Fukushi University
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Mizuno Akiko
Biological Institute Faculty Of Science Nagoya University
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Masuko M
Tsukuba Research Laboratory Hamamatsu Photonics K.k.
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Muramatsu Satoru
The 29th Department Solid State Division Hamamatsu Photonics K.k.
著作論文
- Measurement of the Respiration-Dependent Component of Intracellular Pressure with an Improved Pressure Probe
- Effects of Exogenous Auxin on the Regulation of Elongation Growth of Excised Segments of Vigna Hypocotyls under Osmotic Stress : ENVIRONMENTAL AND STRESS RESPONSES : MEMBRANES AND BIOENERGETICS
- Effects of Osmotic Stress, Ionic Stress and IAA on the Cell-Membrane Resistance of Vigna Hypocotyls
- Regulation of Elongation Growth of Excised segments of Vigna Hypocotyl under Osmotic Stress in the Absence or Presence of Absorbable Solute
- A Pressure-Jump Method as a New Tool in Growth Physiology for Monitoring Physiological Wall Extensibility and Effective Turgor
- Effects of Auxin and Anoxia on the Cell Wall Yield Threshold Determined by Negative Pressure Jumps in Segments of Cowpea Hypocotyl
- Computer Simulation of the Rapid Adaptation of Elongation Growth to Osmotic Stress in Segments of Cowpea Stem by Application of the Apoplast Canal Model
- Auxin Changes Both the Extensibility and the Yield Threshold of the of Cell Wall of Vigna Hypocotyls
- The Role of Membrane Potential for the Control of Elongation Growth of Vigna Hypocotyl : Response of a Hollow Cylinder to Osmotic and Ionic Stress
- Structure and function of the elongation sink in thesteruls of higher plants I. Effects of anoxia and IAA on the growth rate and the spatially separate electrogenic ion pumps
- Distribution of electric potential and ion transport in the hypocotyl of Vigna sesquipedalis V. Electrogenic activity of the parenchyma cells in hypocotyl segments
- Demonstration of Respiration-Dependent Water Uptake and Turgor Generation in Vigna Hypocotyl
- The Characteristics of the Adjustment in the pH of the Xylem Exudate of Segments of Vigna Hypocotyls during Xylem Perfusion
- Distribution of electric potential and ion transport in the hypocotyl of Vigna sesquipedalis VI. The dual structure of radial electrogenic activity
- Distribution of electric potential and ion transport in the hypocotyl of Vigna sesquipedalis II. Axial potential difference
- Distribution of electric potential and ion transport in the hypocotyl of Vigna sesquipedalis I. Distribution of overall ion concentration and the role of hydrogen ion in generation of potential difference