Research theme for competitive and other funds (15):
2021 - 2026 Plasticity of mineral element transport system in response to soil environmental fluctuations in plants
2021 - 2025 イネ科作物の有害ミネラル集積機構の解明
2019 - 2023 イネの環境応答統合メカニズムにおける節の役割
2019 - 2022 Biological sustainability of double-cropping supported by seasonal change in root microbiome
2016 - 2021 Integrated analysis of mineral transport system in crops
2015 - 2018 Elucidation of function of rice node for nutrients distribution
2016 - 2017 イネの有害ミネラル集積を制御する因子の同定
2016 - 2017 Soil-pH adaptivity trade-off in gramineous plants
2012 - 2015 Identification and application of genes involved in accumulation of toxic elements in rice
2010 - 2015 Strategies of plants to overcome problem soils
2011 - 2014 Molecular mechanisms of preferential mineral distribution in rice node
2010 - 2011 Identification of Al-binding peptide
2009 - 2011 Identification of novel transporters involved in toxic metals
2009 - 2010 Analysis of aluminum response gene expression mechanism in rice
2005 - 2009 Isolation and characterization of Si transporter
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Papers (221):
Naoki Yamaji, Yuma Yoshioka, Sheng Huang, Takaaki Miyaji, Akimasa Sasaki, Jian Feng Ma. An oligo peptide transporter family member, OsOPT7, mediates xylem unloading of Fe for its preferential distribution in rice. New Phytologist. 2024
Sheng Huang, Noriyuki Konishi, Naoki Yamaji, Jian Feng Ma. Local distribution of manganese to leaf sheath is mediated by OsNramp5 in rice. The New phytologist. 2023
Peitong Wang, Naoki Yamaji, Namiki Mitani-Ueno, Jun Ge, Jian Feng Ma. Knockout of a rice K5.2 gene increases Ca accumulation in the grain. Journal of integrative plant biology. 2023
Namiki Mitani-Ueno, Naoki Yamaji, Sheng Huang, Yuma Yoshioka, Takaaki Miyaji, Jian Feng Ma. A silicon transporter gene required for healthy growth of rice on land. Nature communications. 2023. 14. 1. 6522-6522
Min Ning, Shi Jia Liu, Fenglin Deng, Liyu Huang, Hu Li, Jing Che, Naoki Yamaji, Fengyi Hu, Gui Jie Lei. A vacuolar transporter plays important roles in zinc and cadmium accumulation in rice grain. The New phytologist. 2023. 239. 5. 1919-1934
YAMAJI Naoki, MITANI-UENO Namiki, KONISHI Noriyuki, MA Jian Feng. Identification of a long-distance signaling protein for regulating Si uptake in rice. 日本植物生理学会年会(Web). 2023. 64th
余 恩, 山地 直樹, 馬 建鋒. 4-3-4 Duplication of a manganese/cadmium transporter gene leads to low cadmium accumulation in rice grain(4-3 植物の有害元素 2022年度東京大会). 日本土壌肥料学会講演要旨集. 2022. 68. 54-54
Rice Genomics, Genetics and Breeding
Springer, Singapore 2018 ISBN:9789811074608
Lectures and oral presentations (331):
OsPHO1;3 mediates redistribution of phosphorus in rice.
(The 11th International Symposium on Plant-Soil Interactions at Low pH (PSILPH) 2023)
Functional characterization of two novel phosphorus transporters in barley.
(The 11th International Symposium on Plant-Soil Interactions at Low pH (PSILPH) 2023)
OsOPT7 mediates xylem unloading of Fe for its preferential distribution in rice.
(The 11th International Symposium on Plant-Soil Interactions at Low pH (PSILPH) 2023)
HvSPDT-L is probably involved in redistribution of phosphorus in barley
(3rd Barley Mutant Conference 2023)
