Molecular Basis on Nitrogen Utilization in Rice(Recent Topics of the Agricultunal Biological Science in Tohoku University)
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概要
- 論文の詳細を見る
Rice (Oryza sativa L.) is the major provision for half of the world population and is the important model crop in terms of synteny. Nitrogen is a massive prerequisite element for rice during its life span. During evolutionary processes, rice has acquired strategic systems of nitrogen metabolism for the survival, i.e., the highly efficient ammonium assimilation in roots and nitrogen remobilization (nitrogen recycling). In our laboratory, research is underway to elucidate molecular mechanisms, cellular functions and the communication mechanisms in nitrogen metabolisms, especially ammonium assimilation in roots and nitrogen recycling, in rice. In this article, aim and overview of our research projects, and some recent research topics are shown.
- 東北大学の論文
著者
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YAMAYA Tomoyuki
Department of Applied Biological Chemistry, Faculty of Agriculture, Tohoku University
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Yamaya Tomoyuki
Department Of Applied Biological Chemistry Faculty Of Agriculture Tohoku University
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Yamaya T
Tohoku Univ. Sendai Jpn
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Yamaya T
Institute For Agricultural And Biological Sciences. Okayama University
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Yamaya Tomoyuki
Laboratory Of Plant Cell Engineering Department Of Agricultural Chemistry Faculty Of Agriculture Toh
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Yamaya Tomoyuki
Graduate School Of Agricultural Science Tohoku University
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Yamaya Tomoyuki
Dept. Applied Plant Sci. Graduate School Of Agric. Sci. Tohoku Univ.
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Yamaya Tomoyuki
Laboratory Of Plant Cell Biochemistry Department Of Applied Plant Science Division Of Life Science G
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Yamaya Tomoyuki
Department Of Applies Plant Science Graduate School Of Agricultural Science Tohoku University
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Hayakawa Toshihiko
Laboratory of Plant Nutrition and Laboratory of Cell Biochemistry, Department of Applied Biological
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Kojima Soichi
Laboratory of Molecular Cell Sciences, Tsukuba Institute, RIKEN
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Hayakawa Toshihiko
Laboratory Of Plant Cell Biochemistry Department Of Applied Plant Science Division Of Life Science G
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Hayakawa Toshihiko
Graduate School Of Agric. Sci. Tohoku Univ.
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Kojima Soichi
Laboratory Of Plant Cell Biochemistry Department Of Applied Plant Science Division Of Life Science G
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Tabuchi Mayumi
Laboratory Of Plant Cell Biochemistry Department Of Applied Plant Science Division Of Life Science G
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KUDO Toru
Laboratory of Plant Cell Biochemistry, Department of Applied Plant Science, Division of Life Science
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Kudo Toru
Laboratory Of Plant Cell Biochemistry Department Of Applied Plant Science Division Of Life Science G
関連論文
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- Behavior of Cd and Zn in Rhizosphere of Brassica Plants Grown in an Andosol Contaminated with Cd and Zn (Environment)
- δ^N Studies on the Plant Uptake of Nitrogen Derived from Sewage Sludge in Andosol
- Differential Distribution of Proteins Expressed in Companion Cells in the Sieve Element-Companion Cell Complex of Rice Plants
- DETECTION OF GREEN FLUORESCENCE PROTEIN AND β-GLUCURONIDASE PROTEIN IN THE PHLOEM SAP OF TRANSGENIC RICE PLANTS
- Possible chemical forms of cadmium and varietal differences in cadmium concentrations in the phloem sap of rice plants (Oryza sativa L.)(Plant Nutrition)
- Xylem and phloem transport of Cd, Zn and Fe into the grains of rice plants (Oryza sativa L.) grown in continuously flooded Cd-contaminated soil(Plant Nutrition)
- Fractionation of Nitrogen Isotopes by Glutamine Synthetase Isolated from Spinach Leaves
- Multiple Polypeptides of Glutamine Synthetase Subunit in Rice Roots In Vivo and In Vitro(Biological Chemistry)
- Response of Glutamine Synthetase and Glutamate Synthase Isoforms to Nitrogen Sources in Rice Cell Cultures
- Immunochemical Analysis of Multiple Subunit Polypeptides of Glutamine Synthetase in Methionine Sulfoximine-Sensitive and Tolerant Tobacco Cell Cultures
- Nitrogen Accumulation and Changes in Natural ^N Abundance in the Tissues of Legumes with Emphasis on N_2, Fixation by Stem-Nodulating Plants in Upland and Paddy Fields
- Organ and Cellular Localization of Asparagine Synthetase in Rice Plants
- Organ distribution of asparagine synthetase in rice plants
- Analyses of the transgenic rice plants expression antisense NADH-GOGAT RNA
- Ped3p is a Peroxisomal ATP-Binding Cassette Transporter that might Supply Substrates for Fatty Acid β-Oxidation
- Constitutive Expression of a Novel-Type Ammonium Transporter OsAMT2 in Rice Plants
- Estimation of the Nitrogen Fixation by Sugarcane Cultivar NiF-8 Using ^15N Dilution and Natural ^15N Abundance Techniques
- Characteristics of Ammonium Uptake by Rice Cells in Suspension Culture
- ANALYSIS OF TRANSGENIC RICE EXPRESSING ANTISENSE RNA FOR CYTOSOLIC GLUTAMINE SYNTHETASE
- HSC Activation and Retinoid Metabolism
- Localization of NAD-Isocitrate Dehydrogenase and Glutamate Dehydrogenase in Rice Roots : Candidates for Providing Carbon Skeletons to NADH-Glutamate Synthase
- Gln49 and Ser174 Residues Play Critical Roles in Determining the Catalytic Efficiencies of Plant Glutamine Synthetase
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- Systemic Effect of a Brassinosteroid on Root Nodule Formation in Soybean as Revealed by the Application of Brassinolide and Brassinazole (Plant Nutrition)
- Effect of Difference in Nitrogen Media on Salt-Stress Response and Contents of Nitrogen Compounds in Rice Seedlings(Plant Nutrition)
- Changes in Cyclic Nucleotides during Nodule Formation (Plant Nutrition)
- Physiochemical factors affecting the salt tolerance of Echinochloa crus-galli Beauv. var. formosensis Ohwi
- DIFFERENCE IN NATURAL ABUNDANCE OF ^N IN SEVERAL RICE (Oryza sativa L.) VARIETIES : APPLICATION FOR EVALUATING N_2 FIXATION
- Comparison of contents for cytosolic-glutamine synthetase and NADH-dependent glutamate synthase proteins in leaves of japonica, indica, and javanica rice plants
- Organization and Structure of Ferredoxin - Dependent Clutamate Synthase Gene and Intracellular Localization of the Enzyme Protein in Rice Plants
- Analysis of the transgenic indica rice expressing NADH-dependent glutamate-synthase gene
- Increased Rubisco Content in Transgenic Rice Transformed with the 'Sense' rbcS Gene
- Expression of NADH-Dependent Glutamate Synthase in Response to the Supply of Nitrogen in Rice Cells in Suspension Culture
- A Supply of Nitrogen Causes Increase in the Level of NADH-Dependent Glutamate Synthase Protein and in the Activity of the Enzyme in Roots of Rice Seedlings : GROWTH AND DEVELOPMENT : PROTEINS, ENZYMES AND METABOLISM
- Molecular Basis on Nitrogen Utilization in Rice(Recent Topics of the Agricultunal Biological Science in Tohoku University)
- Mechanism of Nitrogen Remobilization in Rice(Frontiers in Rice Science -from Gene to Field-,The 100^ Anniversary of Tohoku University, International Symposium)
- Tissue and Cellular Localization of NADH-Dependent Glutamate Synthase Protein in Leaves of Spinach
- ACT Domain Repeat Protein 7, ACR7, Interacts with a Chaperone HSP18.0-CII in Rice Nuclei
- Interaction of N-Acetylglutamate Kinase with a PII-Like Protein in Rice
- A Ca^-Dependent Protein Kinase that Endows Rice Plants with Cold- and Salt-Stress Tolerance Functions in Vascular Bundles
- Compartmentation of asparagine synthetase in rice roots
- Investigation of cis element that regulates tissue-specific expression of gene for rice NADH-GOGAT
- LOCALIZATION OF STRESS-INDUCIBLE OsCDPK7 SIGNALING PATHWAY IN WILD-TYPE AND OsCDPK7-OVEREXPRESSING RICE PLANTS
- Cellular localization of asparagine synthetase in rice plants
- Cellular and subcellular localization of NADH-dependent or Fd-dependent glutamate synthase protein in the stele of rice roots
- STUDIES ON THE GREENING OF CULTURED SOYBEAN AND RUTA CELLS : III. Effects of Minorelement Deficiency on the Growth and Photosynthetic Activities of Ruta Cells
- STUDIES ON THE GREENING OF CULTURED SOYBEAN AND RUTA CELLS : II. Photosynthetic Activities of the Cultured Green Cells
- Studies on the Greening of Cultured Soybean and Ruta Cells I. Pigmentation as Influenced by the Composition of the Medium
- REGULATION OF THE EXPRESSION OF NADH-DEPENDENT GLUTAMATE SYNTHASE (NADH-GOGAT) GENE BY OKADAIC ACID IN RICE
- Inducible Accumulation of mRNA for NADH-Dependent Glutamate Synthase in Rice Roots in Response to Ammonium Ions
- Tissue specific and nitrogen inducible expression of rice NADH-GOGAT gene promoter in transgenic rice plants
- ANALYSIS OF NADH DEPENDENT GLUTAMATE SYNTHASE PROMOTER IN TRANSGENIC RICE PLANTS
- CHARACTERIZATION OF RICE NADH-DEPENDENT GLUTAMATE SYNTHASE cDNA
- STRUCTURAL CHARACTERIZATION OF RICE NADH-DEPENDENT GLUTAMATE SYNTHASE GENE
- MOLECULAR CLONING AND STRUCTURAL CHAR-ACTERIZATION OF RICE NADH-DEPENDENT GLU-TAMATE SYNTHASE GENE
- Changes in the tissue-localization of NADH-dependent glutamate synthase protein following the addition of NH_4^+ in the root-tips of rice seedlings
- RESPONSE OF NADH-DEPENDENT GLUTAMATESYNTHASE (NADE-GOGAT) TO AMMONIUM ION IN ROOTS OF RICE SEEDLINGS
- Transgenic rice plants whose expression of NADH-GOGAT is modulated by anti-sense RNA
- CHARACTERIZATION OF TWO TOBACCO CELL LINES SELECTED TO GROW IN THE PRESENCE OF EITHER IONIC AI OR INSOLUBLE Al-PHOSPHATE
- Histochemical studies on the expression of two glutamate synthase proteins and mRNAs in rice roots
- Characteristics of Aluminum-Phosphate-Adapted Carrot Cells: Uptake and Utilization of the Phosphate
- Utilization of Anhydrous Aluminum Phosphate as a Sole Source of Phosphorous by a Selected Carrot Cell Line
- ANALYSIS OF PHENYLTHIOCARBAMYL-AMINO ACIDS AT PICO-MOLE LEVEL BY HIGH PERFORMANCE LIQUID CHROMATOGRAPHY AND APPLICATION TO PLANT MATERIALS
- ACT Domain Repeat Protein 7, ACR7, Interacts with a Chaperone HSP18.0-CII in Rice Nuclei
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