Heber U | Univ. Wuezburg Wuezburg Deu
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概要
関連著者
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HEBER Ulrich
Julius-von-Sachs-Institut, Univ. Wurzburg
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Heber U
Univ. Wuezburg Wuezburg Deu
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Asada Kozi
Dept. Biotech Fac. Engin. Fukuyama Univ.
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Asada K
The Research Institute For Food Science Kyoto University
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SCHREIBER Ulrich
Wurzburg Univ.
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Asada Kozi
The Research Institute for Food Science, Kyoto University
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Schreiber Ulrich
Lehrstuhl fur Botanik I, Universitat Wurzburg
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HEBER Ulrich
Lehrstuhl fur Botanik I, Universitat Wurzburg
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Heber Ulrich
Julius-von-sachs Institut Fiir Bio Wissenschaften Universitat Wtirzburg
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Schreiber U
Univ. Wuerzburg Wuerzburg Deu
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Schreiber Ulrich
Julius-von-sachs-institut Fur Biowissenschaften Mit Botanischen Garten Der Universitat Wurzburg
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Schreiber Ulrich
Lehrstuhl Fur Botanik I Universitat Wurzburg
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Heber Ulrich
Lehrstuhl Fur Botanik I Universitat Wurzburg
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Asada Kozi
The Research Institute For Food Science Kyoto Niversity
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Schreiber Ulrich
Lehrstuhl Botanik I Julius-von-sachs Institut Fur Biowissenschaften Universitat Wurzburg
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Asada Kozi
The Research Institulefor Fbod Science Kyoto University
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Asada Kozi
Faculty Of Bioscience And Biotechnology Fukuyama University
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OHNO Chiaki
Res.Inst.Food Sci., Kyoto Univ.
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Asada Kozi
The Research Institute For Food Science Kyoto University:(present)department Of Biotechnology Facult
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Ohno Chiaki
Res.inst.food Sci. Kyoto Univ.
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Mano Jun'ichi
Faculty Of Agriculture Yamaguchi University
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Mano Junichi
Res. Inst. Food Sci. Kyoto University Uji Kyoto
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Miyake Chikahiro
Plant Physiology Research Group Research Institute Of Innovative Technology For The Earth (rite)
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Miyake Chikahiro
Res. Inst. Food Sci. Kyoto Univ.
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Kobayashi Yuhko
Laboratory Of Plant Pathology Faculty Of Bioresources Mie University
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Mano J
Faculty Of Agriculture Yamaguchi University
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Miyake C
Research Institute Of Innovative Technology For The Earth (rite)
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Kobayashi Y
Bioscience And Biotechnology Center Nagoya University
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NEIMANIS Spidola
Julius-von-Sachs-Institut fur Biowissenschaften, Universitat Wurzburg
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Neimanis Spidola
Julius-von-sachs-institut Fur Biowissenschaften Universitat Wurzburg
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ASADA Kozi
Res. Inst. Food Sci. , Kyoto Univ.
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Asada Kozi
Lehrstuhl Botanik I, Universitat Wuirzburga
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Neubauer Christian
Lehrstuhl Botanik I, Universitat Wuirzburg
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Mano Junichi
The Research Institute for Food Science, Kyoto University
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Ohno Chiaki
The Research Institute for Food Science, Kyoto University
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Heber Ulrich
The Research Institute for Food Science, Kyoto University
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Miyake Chikahiro
The Research Institute for Food Science, Kyoto University
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MIYAKE Chikahiro
Res. Inst. Food Sci. Kyoto Univ. , Uji, Kyoto
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MANO Junichi
Res. Inst. Food Sci. , Kyoto University, Uji, Kyoto
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OHNO Chiaki
Res. Inst. Food Sci. , Kyoto Univ.
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Mano Junichi
The Research Institute For Food Science Kyoto University
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Miyake Chikahiro
The Research Institute For Food Science Kyoto University
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KOBAYASHI Yoshichika
Department of Forestry, Faculty of Agriculture, Kyusyu University
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BUKHOV Nikolai
Julius-von-Sachs-Institut fur Biowissenschaften, Universitat Wurzburg
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KOBAYASHI Yoshichika
Julius-von-Sachs-Institut fur Biowissenschaften, Universitat Wurzburg
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Bukhov Nikolai
Julius-von-sachs-institut Fur Biowissenschaften Universitat Wurzburg:(present)timiriasev Instiute Of
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Kobayashi Yoshichika
Department Of Forestry Faculty Of Agriculture Kyushu University
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Asada Kozi
Res. Inst. Food Sci Kyoto Univ.
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Neubauer Christian
Lehrstuhl Botanik I Universitat Wuirzburg
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MANO Junichi
Res. Inst. Food Sci. , Kyoto Univ.
著作論文
- Electron Flow to the Intersystem Chain from Stromal Components and Cyclic Electron Flow in Maize Chloroplasts, as Detedted in Intact Leaves by Monitoring Redox Change of P700 and Chlorophyll Fluorescence
- Pool Size of Electrons That Can Be Donated to P700^+, As Determined in Intact Leaves : Donation to P700^+ from Stromal Components Via the Intersystem Chain : ENVIRONMENTAL AND STRESS RESPONSES : MEMBRANES AND BIOENERGETICS
- Methyl Viologen-Dependent Cyclic Electron Transport in Spinach Chloroplasts in the Absence of Oxygen
- Monodehydroascorbate Radical Detected by Electron Paramagnetic Resonance Spectrometry Is a Sensitive Probe of Oxidative Stress in Intact Leaves
- DETECTION OF PHOTOOXIDATIVE STRESS BY MONODEHYDROASCORBATE IN LEAVES
- Maximum H^+/hv_ Stoichiometry of Proton Transport during Cyclic Electron Flow in Intact Chloroplasts Is at Least Two, but Probably Higher than Two : MEMBRANES AND BIOENERGETICS
- Coupling Ratios H^+/e=3 versus H^+/e=2 in Chloroplasts and Quantum Requirements of Net Oxygen Exchange during the Reduction of Nitrite, Ferricyanide or Methylviologen : MEMBRANES AND BIOENERGETICS