Research theme for competitive and other funds (27):
2016 - 2019 Molecular mechanism of nicotianamine secretion and its role in plants.
2014 - 2017 イネの鉄過剰応答の分子メカニズムの解明と鉄過剰耐性イネの作出
2011 - 2015 Fe sensing systems by transcription factor IDEF1
2005 - 2011 「植物の養分吸収と循環系」総括班
2011 - 不良土壌におけるバイオマス生産拡大を目指す分子育種
2005 - 2009 Molecular mechanism of uptake and translocation of essential metal nutrients in plants.
2006 - 2007 Clarification of control system that responds to metallic nourishment
2002 - 2003 STUDIES ON THE FUNCTION OF NICOTIANAMINE IN HIGHER PLANTS
2001 - 2002 Regulation of Iron-deficincy Tolerance in Plants
2000 - 2001 Molecular mechanism of iron acquisition in Graminaceous plants
1998 - 2001 ムラサキヒシャクゴケのアルミニウム結合性糖鎖構造の解析
1997 - 1998 Intracellular Dynamics of the Proteins Related to Iron Nutrition
1996 - 1997 In-situ PCR法を用いた植物の鉄栄養関連遺伝子の発現制禦の機構
1995 - 1996 Role of Phytochelatins on Metal Metabolism in Plants
1994 - 1994 植物根による有機物吸収機構の分子生物学的解析
1994 - 1994 鉄欠乏耐性植物の育成
1994 - 1994 植物遺伝子工学による沙漠化の克服
1993 - 1993 鉄欠乏耐性植物の育成
1991 - 1992 Cellular Biological Analysis of Secretion Mechanism under Nutrient Stress.
1991 - 1992 Immunohistochemical and immunocytochemical studies of gibberellins
1991 - 1991 土壌圏の拡大に関する研究
1990 - 1990 土壌圏の拡大に関する研究
1989 - 1990 大麦根の鉄ームギネ酸錯体の吸収リセプタ-遺伝子の構造決定
1987 - 1987 鉄欠乏によるムギネ酸類合成誘導機構の解明
1986 - 1987 環境ストレス植物の急速凍結法による細胞骨格の構造とその機能の解析
1986 - 1986 免疫電顕法による塩類ストレス耐性機構の解明
植物の金属栄養制御
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Papers (239):
Senoura, T, Nozoye, T, Yuki, R, Yamamoto, M, Maeda, K, Sato-Izawa, K, Ezura, H, Itai, R.N, Bashir, K, Masuda, H, et al. Molecular-based characterization and bioengineering of Sorghum bicolor to enhance iron deficiency tolerance in iron-limiting calcareous soils. Plant Molecular Biology. 2024. 114. 117
Sichul Lee, Md Mizanor Rahman, Hiromi Nakanishi, Naoko K. Nishizawa, Gynheung An, Hong Gil Nam, Jong-Seong Jeon. Concomitant Activation of OsNAS2 and OsNAS3 Contributes to the Enhanced Accumulation of Iron and Zinc in Rice. International Journal of Molecular Sciences. 2023. 24. 7. 6568-6568
Takanori Kobayashi, Keisuke Maeda, Yutaro Suzuki, Naoko K. Nishizawa. Simultaneous Enhancement of iron Deficiency Tolerance and Iron Accumulation in Rice by Combining the Knockdown of OsHRZ Ubiquitin Ligases with the Introduction of Engineered Ferric-chelate Reductase. Rice. 2022. 15. 1
Takanori Kobayashi, Haruka Shinkawa, Atsushi J. Nagano, Naoko K. Nishizawa. The basic leucine zipper transcription factor OsbZIP83 and the glutaredoxins OsGRX6 and OsGRX9 facilitate rice iron utilization under the control of OsHRZ ubiquitin ligases. The Plant Journal. 2022
Takanori Kobayashi, Atsushi J Nagano, Naoko K Nishizawa. Iron deficiency-inducible peptide-coding genes OsIMA1 and OsIMA2 positively regulate a major pathway of iron uptake and translocation in rice. Journal of experimental botany. 2021. 72. 6. 2196-2211
Satoru Ishikawa, Yasuhiro Ishimaru, Masato Igura, Masato Kuramata, Tadashi Abe, Takeshi Senoura, Yoshihiro Hase, Tomohito Arao, Naoko K. Nishizawa, Hiromi Nakanishi. Ion-beam irradiation, gene identification, and marker-assisted breeding in the development of low-cadmium rice (vol 109, pg 19166, 2012). PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2018. 115. 21. E4950-E4951
