Expression of an Arabidopsis Vacuolar Sodium/Proton Antiporter Gene in Cotton Improves Photosynthetic Performance Under Salt Conditions and Increases Fiber Yield in the Field
スポンサーリンク
概要
著者
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Blumwald Eduardo
Univ. California Ca Usa
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HE Cixin
Department of Biological Sciences, Texas Tech University
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YAN Juqiang
Department of Biological Sciences, Texas Tech University
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SHEN Guoxin
Department of Biological Sciences, Texas Tech University
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FU Lianhai
Department of Plant Sciences, University of California
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HOLADAY A.
Department of Biological Sciences, Texas Tech University
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AULD Dick
Department of Plant and Soil Sciences, Texas Tech University
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BLUMWALD Eduardo
Department of Plant Sciences, University of California
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Auld Dick
Department Of Plant And Soil Sciences Texas Tech University
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He Cixin
Department Of Biological Sciences Texas Tech University
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Holaday A.
Department Of Biological Sciences Texas Tech University
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Fu Lianhai
Department Of Plant Sciences University Of California
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Shen Guoxin
Department Of Biological Sciences Texas Tech University
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Yan Juqiang
Department Of Biological Sciences Texas Tech University
関連論文
- Expression of an Arabidopsis Vacuolar Sodium/Proton Antiporter Gene in Cotton Improves Photosynthetic Performance Under Salt Conditions and Increases Fiber Yield in the Field
- Enhanced Cytokinin Synthesis in Tobacco Plants Expressing P_:IPT Prevents the Degradation of Photosynthetic Protein Complexes During Drought
- Overexpression of the Arabidopsis 14-3-3 Protein GF14λin Cotton Leads to a "Stay-Green" Phenotype and Improves Stress Tolerance under Moderate Drought Conditions
- Compensation for PSII Photoinactivation by Regulated Non-photochemical Dissipation Influences the Impact of Photoinactivation on Electron Transport and CO_2 Assimilation
- Regulated Expression of an Isopentenyltransferase Gene (IPT) in Peanut Significantly Improves Drought Tolerance and Increases Yield Under Field Conditions