Yamazaki S, Ochiai K, Matoh T |
Yamazaki S, Ochiai K, Matoh T |
Yamazaki S, Ochiai K, Matoh T |
Rice plants have three homologs of glutathione synthetase genes, one of which, OsGS2, codes for hydroxymethyl-glutathione synthetase |
Rice plants have three homologs of glutathione synthetase genes, one of which, OsGS2, codes for hydroxymethyl-glutathione synthetase |
Rice plants have three homologs of glutathione synthetase genes, one of which, OsGS2, codes for hydroxymethyl-glutathione synthetase |
Plant Direct, 3, 1-10 |
Plant Direct, 3, 1-10 |
Plant Direct, 3, 1-10 |
2019 |
Refereed |
English |
Research paper(scientific journal) |
Disclose to all |
S. Yamazaki, Y. Ueda, A. Mukai, K. Ochiai, T. Matoh |
S. Yamazaki, Y. Ueda, A. Mukai, K. Ochiai, T. Matoh |
S. Yamazaki, Y. Ueda, A. Mukai, K. Ochiai, T. Matoh |
Rice phytochelatin synthases OsPCS1 and OsPCS2 make different contributions to cadmium and arsenic tolerance |
Rice phytochelatin synthases OsPCS1 and OsPCS2 make different contributions to cadmium and arsenic tolerance |
Rice phytochelatin synthases OsPCS1 and OsPCS2 make different contributions to cadmium and arsenic tolerance |
Plant Direct, 2, 1-15 |
Plant Direct, 2, 1-15 |
Plant Direct, 2, 1-15 |
2018 |
Refereed |
English |
|
Disclose to all |
落合 久美子 |
落合 久美子 |
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植物栄養学を活かした農業生産技術について : 4.土壌ナトリウムの利用によるカリウム施肥量低減の可能性 |
植物栄養学を活かした農業生産技術について : 4.土壌ナトリウムの利用によるカリウム施肥量低減の可能性 |
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日本土壌肥料学雑誌, 86, 319-323 |
日本土壌肥料学雑誌, 86, 319-323 |
, 86, 319-323 |
2015 |
Refereed |
|
|
Disclose to all |
T. Miyamoto, K. Ochiai, Y. Nonoue, K. Matsubara, M. Yano, T. Matoh |
T. Miyamoto, K. Ochiai, Y. Nonoue, K. Matsubara, M. Yano, T. Matoh |
T. Miyamoto, K. Ochiai, Y. Nonoue, K. Matsubara, M. Yano, T. Matoh |
Expression level of the sodium transporter gene OsHKT2;1 determines sodium accumulation of rice cultivars under potassium-deficient conditions  |
Expression level of the sodium transporter gene OsHKT2;1 determines sodium accumulation of rice cultivars under potassium-deficient conditions  |
Expression level of the sodium transporter gene OsHKT2;1 determines sodium accumulation of rice cultivars under potassium-deficient conditions  |
Soil Science and Plant Nutrition, 61, 481-492 |
Soil Science and Plant Nutrition, 61, 481-492 |
Soil Science and Plant Nutrition, 61, 481-492 |
2015 |
Refereed |
English |
Research paper(scientific journal) |
Disclose to all |
T. Miyamoto, K. Ochiai, S. Takeshita, T. Matoh |
T. Miyamoto, K. Ochiai, S. Takeshita, T. Matoh |
T. Miyamoto, K. Ochiai, S. Takeshita, T. Matoh |
Identification of quantitative trait loci associated with shoot sodium accumulation under low potassium conditions in rice plants  |
Identification of quantitative trait loci associated with shoot sodium accumulation under low potassium conditions in rice plants  |
Identification of quantitative trait loci associated with shoot sodium accumulation under low potassium conditions in rice plants  |
Soil Science and Plant Nutrition, 58, 6, 728-736 |
Soil Science and Plant Nutrition, 58, 6, 728-736 |
Soil Science and Plant Nutrition, 58, 6, 728-736 |
2012 |
Refereed |
English |
|
Disclose to all |
A. Sriprachote, P. Kanyawongha, G. Pantuwan, K. Ochiai, T. Matoh |
A. Sriprachote, P. Kanyawongha, G. Pantuwan, K. Ochiai, T. Matoh |
A. Sriprachote, P. Kanyawongha, G. Pantuwan, K. Ochiai, T. Matoh |
Evaluation of Thai rice cultivars with low-grain cadmium |
Evaluation of Thai rice cultivars with low-grain cadmium |
Evaluation of Thai rice cultivars with low-grain cadmium |
Soil Science and Plant Nutrition, 58, 5, 568-572 |
Soil Science and Plant Nutrition, 58, 5, 568-572 |
Soil Science and Plant Nutrition, 58, 5, 568-572 |
2012 |
Refereed |
English |
|
Disclose to all |
K. Ochiai, A. Shimizu, Y. Okumoto, T. Fujiwara, T. Matoh |
K. Ochiai, A. Shimizu, Y. Okumoto, T. Fujiwara, T. Matoh |
K. Ochiai, A. Shimizu, Y. Okumoto, T. Fujiwara, T. Matoh |
Suppression of a NAC-like transcription factor gene improves boron-toxicity tolerance in rice |
Suppression of a NAC-like transcription factor gene improves boron-toxicity tolerance in rice |
Suppression of a NAC-like transcription factor gene improves boron-toxicity tolerance in rice |
Plant Physiology, 156, 3, 1457-1463 |
Plant Physiology, 156, 3, 1457-1463 |
Plant Physiology, 156, 3, 1457-1463 |
2011/07 |
Refereed |
English |
|
Disclose to all |
牧野周, 山谷知行, 鎌田淳, 落合久美子, 小山博之, 信濃卓郎, MA Jian Feng, 渡部敏裕 |
牧野周, 山谷知行, 鎌田淳, 落合久美子, 小山博之, 信濃卓郎, MA Jian Feng, 渡部敏裕 |
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植物のミネラルストレス応答 |
植物のミネラルストレス応答 |
|
日本土壌肥料学雑誌, 81, 2, 181-189 |
日本土壌肥料学雑誌, 81, 2, 181-189 |
, 81, 2, 181-189 |
2010/04/05 |
Refereed |
Japanese |
|
Disclose to all |
K. Ochiai, S. Uemura, A. Shimizu, Y. Okumoto, T. Matoh |
K. Ochiai, S. Uemura, A. Shimizu, Y. Okumoto, T. Matoh |
K. Ochiai, S. Uemura, A. Shimizu, Y. Okumoto, T. Matoh |
Boron toxicity in rice (Oryza sativa L.). I. Quantitative trait locus (QTL) analysis of tolerance to boron toxicity |
Boron toxicity in rice (Oryza sativa L.). I. Quantitative trait locus (QTL) analysis of tolerance to boron toxicity |
Boron toxicity in rice (Oryza sativa L.). I. Quantitative trait locus (QTL) analysis of tolerance to boron toxicity |
Theoretical and Applied Genetics, 117, 1, 125-133 |
Theoretical and Applied Genetics, 117, 1, 125-133 |
Theoretical and Applied Genetics, 117, 1, 125-133 |
2008/06 |
Refereed |
English |
|
Disclose to all |
落合 久美子 |
落合 久美子 |
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今日の話題 作物のホウ素過剰害耐性のメカニズム--作物種間,品種間で耐性の機構は異なる |
今日の話題 作物のホウ素過剰害耐性のメカニズム--作物種間,品種間で耐性の機構は異なる |
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化学と生物, 45, 7, 449-451 |
化学と生物, 45, 7, 449-451 |
, 45, 7, 449-451 |
2007/07 |
Refereed |
Japanese |
|
Disclose to all |
松田晃, 渡邉亮, 落合久美子, 間藤徹 |
松田晃, 渡邉亮, 落合久美子, 間藤徹 |
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京都市近郊で市販されている堆肥・有機質資材の二酸化炭素発生速度に基づく品質評価の試み |
京都市近郊で市販されている堆肥・有機質資材の二酸化炭素発生速度に基づく品質評価の試み |
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日本土壌肥料学雑誌, 77, 4, 387-393 |
日本土壌肥料学雑誌, 77, 4, 387-393 |
, 77, 4, 387-393 |
2006/08/05 |
Refereed |
Japanese |
|
Disclose to all |
T. Matoh, K. Ochiai |
T. Matoh, K. Ochiai |
T. Matoh, K. Ochiai |
Distribution and partitioning of newly taken-up boron in sunflower |
Distribution and partitioning of newly taken-up boron in sunflower |
Distribution and partitioning of newly taken-up boron in sunflower |
Plant and Soil, 278, 1-2, 351-360 |
Plant and Soil, 278, 1-2, 351-360 |
Plant and Soil, 278, 1-2, 351-360 |
2005/12 |
Refereed |
English |
|
Disclose to all |
落合久美子, 岩田良子, 間藤徹 |
落合久美子, 岩田良子, 間藤徹 |
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市販ホウレンソウ,コマツナの硝酸態窒素含有率と全窒素,カリウム含有率との関係 |
市販ホウレンソウ,コマツナの硝酸態窒素含有率と全窒素,カリウム含有率との関係 |
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日本土壌肥料学雑誌, 75, 6, 693-695 |
日本土壌肥料学雑誌, 75, 6, 693-695 |
, 75, 6, 693-695 |
2004/12/05 |
Refereed |
Japanese |
|
Disclose to all |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
Alleviation of Salinity Damage to Rice Plants by the Use of Polyethylene Glycols (PEGs) through Reduction of Na<sup>+</sup> Transport to Shoots |
Alleviation of Salinity Damage to Rice Plants by the Use of Polyethylene Glycols (PEGs) through Reduction of Na<sup>+</sup> Transport to Shoots |
Alleviation of Salinity Damage to Rice Plants by the Use of Polyethylene Glycols (PEGs) through Reduction of Na<sup>+</sup> Transport to Shoots |
Soil Science and Plant Nutrition, 50, 1, 129-133 |
Soil Science and Plant Nutrition, 50, 1, 129-133 |
Soil Science and Plant Nutrition, 50, 1, 129-133 |
2004/02 |
Refereed |
English |
|
Disclose to all |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
Characterization of the Na<sup>+</sup> delivery from roots to shoots in rice under saline stress: Excessive salt enhances apoplastic transport in rice plants |
Characterization of the Na<sup>+</sup> delivery from roots to shoots in rice under saline stress: Excessive salt enhances apoplastic transport in rice plants |
Characterization of the Na<sup>+</sup> delivery from roots to shoots in rice under saline stress: Excessive salt enhances apoplastic transport in rice plants |
Soil Science and Plant Nutrition, 48, 3, 371-378 |
Soil Science and Plant Nutrition, 48, 3, 371-378 |
Soil Science and Plant Nutrition, 48, 3, 371-378 |
2002/06 |
Refereed |
English |
|
Disclose to all |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
K. Ochiai, T. Matoh |
Mechanism of salt tolerance in the grass species, Anneurolepidium chinense: I. Growth response to salinity and osmotic adjustment |
Mechanism of salt tolerance in the grass species, Anneurolepidium chinense: I. Growth response to salinity and osmotic adjustment |
Mechanism of salt tolerance in the grass species, Anneurolepidium chinense: I. Growth response to salinity and osmotic adjustment |
Soil Science and Plant Nutrition, 47, 3, 579-585 |
Soil Science and Plant Nutrition, 47, 3, 579-585 |
Soil Science and Plant Nutrition, 47, 3, 579-585 |
2001/09 |
Refereed |
English |
|
Disclose to all |