業績

Agrahari RK, Kobayashi Y, Enomoto T, Miyachi T, Fujita M, Iuchi S, Kobayashi M, Yamamoto YY, Koyama H (2024). STOP1-regulated SMALL AUXIN UP RNA55 (SAUR55) is involved in proton/malate co-secretion for Al tolerance in Arabidopsis. Plant Direct (in press)
http://doi.org/10.1002/pld3.557

 

R* Zhang J, Wan W, Tanaka N, Fujita M, Takahashi K and Harada K (2023). Integrating a Pipette into a Robot Manipulator with Uncalibrated Vision and TCP for Liquid Handling. IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING,doi: 10.1109/TASE.2023.3312657

 

R* Bashir K, Todaka D, Rasheed S, Matsui A, Ahmad Z, Sako K, Utsumi Y, Vu AT, Tanaka M, Takahashi S, Ishida J, Tsuboi Y, Watanabe S, Kanno Y, Ando E, Shin KC, Seito M, Motegi H, Sato M, Li R, Kikuchi S, Fujita M, Kusano M, Kobayashi M, Habu Y, Nagano AJ, Kawaura K, Kikuchi J, Saito K, Hirai MY, Seo M, Shinozaki K, Kinoshita T, Seki M.(2022) Ethanol-Mediated Novel Survival Strategy against Drought Stress in Plants. Plant Cell Physiol.　15;63(9):1181-1192. doi: 10.1093/pcp/pcac114.

 

Tokizawa M, Enomoto T, Ito H, Wu L, Kobayashi Y, Mora-Macias J, Armenta-Medina D, Iuchi S, Kobayashi M, Nomoto M, Tada Y, Fujita M, Shinozaki K, Yamamoto YY, Kochian VL, Koyama H (2021) High affinity promoter binding of STOP1 is essential for early expression of novel aluminum-induced resistance genes GDH1 and GDH2 in Arabidopsis. J. Exp. Bot. 72:　2769-2789.

 

Mizuno N, Toyoshima M, Fujita M, Fukuda S, Kobayashi Y, Ueno M, Tanaka K, Tanaka T, Nishihara E, Mizukoshi H, Yasui Y, Fujita Y. (2020) The genotype-dependent phenotypic landscape of quinoa in salt tolerance and key growth traits. DNA Res. 27 (4), dsaa022.

 

Zarza X, Shabala L, Fujita M, Shabala S, Haring MA, Tiburcio AF, Munnik T. (2019) Extracellular Spermine Triggers a Rapid Intracellular Phosphatidic Acid Response in Arabidopsis, Involving PLDδ Activation and Stimulating Ion Flux. Front Plant Sci. 21; 10:60

Ogata T, Ishizaki T, Fujita M, Fujita Y. (2020) CRISPR/Cas9-targeted mutagenesis of OsERA1 confers enhanced responses to abscisic acid and drought stress and increased primary root growth under nonstressed conditions in rice. PLoS One. 2020 Dec 3;15(12): e0243376.

 

R*Fujita M, Tanabata T, Urano K, Kikuchi S, Shinozaki K. (2018) RIPPS: A Plant Phenotyping System for Quantitative Evaluation of Growth Under Controlled Environmental Stress Conditions. Plant Cell Physiol. 59(10):2030-2038.
doi: 10.1093/pcp/pcy122.

R* Kuromori T*, Fujita M*, Urano K, Tanabata T, Sugimoto E, Shinozaki K. (2016) Overexpression of AtABCG25 enhances the abscisic acid signal in guard cells and improves plant water use efficiency. Plant Sci. 251:75-81.(*equally contributed)
doi:10.1016/j.plantsci.2016.02.019.

Kuromori T, Fujita M, Takahashi F, Yamaguchi-Shinozaki K, Shinozaki K. (2021) Inter-tissue and inter-organ signaling in drought stress response and phenotyping of drought tolerance. Plant J., 109 (2):342-358.
doi.org/10.1111/tpj.15619

 

藤田美紀、篠崎一雄 (2020). 自動植物フェノタイピングシステムRIPPSの開発. 実験医学 39(1), 18-22

藤田美紀、篠崎一雄 (2019). 自動植物フェノタイピングシステム"RIPPS"の開発と植物環境応答解析. BSJ-Review 植物科学最前線 10:59-66

 

Fujita M, Shinozaki K. (2014). Identification of Polyamine Transporters in Plants: Paraquat Transport Provides Crucial Clues. Plant Cell Physiol. 55(5): 855-861. (Selected as the “Editor-in-Chief's choice article”)

R* 万 偉偉，張 竣博，田中 信行，藤田 美紀，原田 研介. 「ハンドアイカメラを有するロボットマニピュレーターを用いた マイクロピペットの自律点検と液体分注作業」(2023) 実験の自動化・自律化によるR&Dの効率化と運用方法 第4節.技術情報協会

 

Fujita M and Shinozaki K. (2015). Polyamine Transport Systems in Plants. in "Polyamines", edited by Tomonobu Kusano and Hideyuki Suzuki, pp.179-185. Springer Publishing.

 

Fujita Y, Nakashima K, Yoshida T, Fujita M, Shinozaki K, Kazuko Yamaguchi-Shinozaki K. (2013) Role of Abscisic Acid Signaling in Drought Tolerance and Preharvest Sprouting Under Climate Change. in “Climate Change and Plant Abiotic Stress Tolerance” edited by Narendra Tuteja and Sarvajeet S. Gill, pp.521-554 Wiley Press.

 

Fujita M, Fujita Y, Takahashi F, Yamaguchi-Shinozaki K, Shinozaki K. (2009). Stress Physiology of higher plants: Crosstalk between abiotic and biotic stress responses. in “Plant stress biology: Genomics goes systems biology“, edited by Heribert Hirt (Wiley Press).

 

Fujita Y*, Fujita M*, Yamaguchi-Shinozaki K, Shinozaki K. (2009). (*equally contributed) Transcription factors involved in the crosstalk between abiotic and biotic stress signaling networks. in“Signal Crosstalk in Plant Stress Responses”, edited by Keiko Yoshioka and Kazuo Shinozaki, pp. 43-58. Iowa, USA: Wiley-Blackwell.