Research theme for competitive and other funds (15):
2022 - 2026 青枯病菌が示すユニークな真菌寄生機構の解明と化学制御
2022 - 2025 糸状菌における環境応答と酵素生産を協調的に制御する分子機構の解明とその応用
2020 - 2022 Importance of Bacterial Secondary Metabolites Produced Only at Low Bacterial Density
2019 - 2022 Analysis of signaling network controlling the expression of carbohydrate-degrading enzyme genes in filamentous fungi
2017 - 2019 Elucidation and regulation of the endofungal stage of Ralstonia solanacearum
2015 - 2018 Development of species/site-specific drug delivery technology using carrier particles and their application to agriculture field
2014 - 2016 Introduction of nanoparticles into yeast cells and depelopment of the control technology
2013 - 2016 Functional analysis of ClbR controlling cellulose responsibe inductin in filamentous fungi
2014 - 2015 セルロース誘導制御因子の機能を利用したセルラーゼ高生産糸状菌の創製
2011 - 2012 Identification and functional analysis of a novel transcription factor controlling the expression of cellulase genes in filamentous fungi
2010 - 2012 FUNCTIONAL IMPROVEMNET OF CELLULASES AIMED FOR ENZYMATIC DEGRADATION AND SACCHARIFICATION OF CELLULOSIC BIOMASS
2011 - 2011 セルロース系バイオマス分解酵素の大量生産に向けた糸状菌の分子育種
2010 - 2011 Identification and characterization of protein bindingto pyrroloquinoline quinone (PQQ), a vitamin-like substance
2008 - 2009 Identification of regulators controlling cellulase and hemicellulase gene expression in filamentous fungi and its functional analysis.
2006 - 2007 糸状菌セルラーゼ潰伝子発現誘導機構に謁する分子生物学的研究
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Papers (45):
A component of the septation initiation network complex, SepL., participates in, he cellobiose-responsive expression of cellulolytic enzyme genes in Aspergillus aculeatus. A component of the septation initiation network complex, SepL, participates in the cellobiose-responsive expression of cellulolytic enzyme genes in Aspergillus aculeatus. Journal of Basic Microbiology. 2024
Shuji Tani, Shinya Hirose, Takashi Kawaguchi. Combinational manipulation of transcription factors, CreA and ClbR, is a viable strategy to improve cellulolytic enzyme production in Aspergillus aculeatus. Journal of Bioscience and Bioengineering. 2024
Ryosuke Nogami, Mari Nagata, Risa Imada, Kenji Kai, Takashi Kawaguchi, Shuji Tani. Cycloheximide in the nanomolar range inhibits seed germination of Orobanche minor. Journal of Pesticide Science. 2024. 49. 1. 22-30
Natsumi Kobayashi, Ryohei Katayama, Kentaro Minamoto, Takashi Kawaguchi, Shuji Tani. C-terminus of serine-arginine protein kinase-like protein, SrpkF, is involved in conidiophore formation and hyphal growth under salt stress in Aspergillus aculeatus. International Microbiology : the official journal of the Spanish Society for Microbiology. 2024. 27. 1. 91-100
Emi Kunitake, Takashi Kawaguchi, Shuji Tani. Independent, cooperative regulation of cellulolytic genes by paralogous transcription factors ClbR and ClbR2 in Aspergillus aculeatus. Bioscience, Biotechnology, and Biochemistry. 2024. 88. 2. 212-219
谷 修治. 糸状菌における形態形成と酵素生産を協調的に制御する分子機構の解明とその応用-Elucidation of the molecular mechanisms governing the cooperative regulation of morphological development and enzyme production in filamentous fungi, and their application. アグリバイオ = Agricultural biotechnology. 2023. 7. 8. 739-743
Yasuyuki Morikawa, Wataru Ogasawara, Yoshiyuki Kobayashi, Takashi Kawaguchi, Hirofumi Okada, Jun-ichi Sumitani, Shuji Tani, Tetsushi Kawai, Hikaru Nakazawa, Koki Shioya. Construction of innovative cellulase-producing Trichoderma reesei strains for biomass saccharification. Biotechnology of lignocellulose degradation, biomass utilization, and biorefinery Mie Bioforum. 2015. 166-176
Yutaro Baba, Jun-ichi Sumitani, Shuji Tani, Takashi Kawaguchi. Biochemical and mutational analysis of β-glucosidase 1 from Aspergillus aculeatus for mlecular basis in cellogiose hydrolysis. Biotechnology of lignocellulose degradation, biomass utilization, and biorefinery Mie Bioforum. 2015. 191-198
Shuji Tani, Jun-ichi Sumitani, Takashi Kawaguchi. Diverse regulation of hydrolytic enzyme genes for cellulosic biomass degradation in filamentous fungi -with a central focus on Aspergillus. Biotechnology of lignocellulose degradation, biomass utilization, and biorefinery Mie Bioforum. 2015. 177-182
