Redox Changes in the Chloroplast and Hydrogen Peroxide are Essential for Regulation of C_3-CAM Transition and Photooxidative Stress Responses in the Facultative CAM Plant Mesembryanthemum crystallinum L
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概要
著者
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Karpinski Stanislaw
Department Of Botany Stockholm University
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Karpinska B
Department Of Botany Stockholm University
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Karpinski S
Department Of Botany Stockholm University
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Karpinska Barbara
Department Of Botany Stockholm University
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SLESAK Ireneusz
Institute of Plant Physiology, Polish Academy of Sciences
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Slesak Ireneusz
Institute Of Plant Physiology Polish Academy Of Sciences
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SLESAK Ireneusz
Department of Botany, Stockholm University
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SUR*WKA Ewa
Polish Academy of Sciences, Department of Plant Physiology
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MISZALSKI Zbigniew
Polish Academy of Sciences, Department of Plant Physiology
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Sur*wka Ewa
Polish Academy Of Sciences Department Of Plant Physiology
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Miszalski Zbigniew
Polish Academy Of Sciences Department Of Plant Physiology
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Surowka Ewa
Polish Academy of Sciences, Department of Plant Physiology
関連論文
- A Salinity-Induced C_3-CAM Transition Increases Energy Conservation in the Halophyte Mesembryanthemum crystallinum L
- Involvement of the Chloroplast Signal Recognition Particle cpSRP43 in Acclimation to Conditions Promoting Photooxidative Stress in Arabidopsis
- Redox Changes in the Chloroplast and Hydrogen Peroxide are Essential for Regulation of C_3-CAM Transition and Photooxidative Stress Responses in the Facultative CAM Plant Mesembryanthemum crystallinum L