NAKANISHI Hiromi | Department of Applied Biological Chemistry, Graduate School of Agricultural and Life Sciences, Unive
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概要
- 同名の論文著者
- Department of Applied Biological Chemistry, Graduate School of Agricultural and Life Sciences, Univeの論文著者
関連著者
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NAKANISHI Hiromi
Department of Applied Biological Chemistry, Graduate School of Agricultural and Life Sciences, Unive
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MORI Satoshi
Department of Applied Biological Chemistry, Division of Agriculture and Agricultural Life Sciences,
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Matsuhashi S
Takasaki Advanced Radiation Research Institute Japan Atomic Energy Agency
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Mori Satoshi
Department Of Agricultural Chemistry Faculty Of Agriculture The University Of Tokyo
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Mori Satoshi
Lab Plant. Mol. Physiol. Tokyo Univ. Fac. Pharmaceutical. Science. Nagoya City Univ.
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Mori S
Meijo Univ. Aichi Jpn
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Nishizawa Naoko
Laboratory Of Plant Biotechnology Graduate School Of Agricultural And Life Sciences The University O
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Nishizawa Naoko-kishi
Lab Plant. Mol. Physiol. Tokyo Univ. Fac. Pharmaceutical. Science. Nagoya City Univ.
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Nishizawa Naoko
Environmental Science Tohoku University
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Nishizawa Naoko-kishi
Laboratory Of Plant Molecular Physiology The University Of Tokyo
著作論文
- Transgenic rice lines that include barley genes have increased tolerance to low iron availability in a calcareous paddy soil(Plant Nutrition)
- Synthesis of nicotianamine and deoxymugineic acid is regulated by OsIRO2 in Zn excess rice plants(Plant Nutrition)
- How are metal nutrients transported to the embryo in rice plant?
- Overcoming Fe deficiency in guava (Psidium guajava L.) by co-situs application of controlled release fertilizers(Fertilizer and Soil Amendments)
- Directed Evolution of Yeast Ferric Reductase to Produce Plants with Tolerance to Iron Deficiency in Alkaline Soils
- A Rice FRD3-Like (OsFRDL1) Gene Is Expressed in the Cells Involved in Long-Distance Transport
- H_2^O Translocation in Rice Was Enhanced by 10 μM 5-Aminolevulinic Acid as Monitored by Positron Emitting Tracer Imaging System (PETIS)
- Absorption and Translocation of ^Fe, ^Mn and ^Zn Visualized by PETIS in Barley and Rice
- Visualization of ^O-Water Flow in Tomato and Rice in the Light and Dark Using a Positron-Emitting Tracer Imaging System (PETIS)
- Analysis of ^NH_4^+ uptake, translocation and retranslocation in rice by PETIS (Positron Emitting Tracer Imaging System)