Takaya Naoki

タカヤナオキ | Takaya Naoki

Affiliation and department：
Job title： Professor

Research field (1)： Applied microbiology

Research theme for competitive and other funds (33)：

2019 - 2024 Modeling the post-Koch ecosystem
2019 - 2024 Post-Koch Ecology - The next-era microbial ecology
2019 - 2024 Post-Koch Ecology: The next-era microbial ecology that elucidates the super-terrestrial organism system
2019 - 2024 Integrated understanding of nitric oxide in yeasts and fungi and its application to microbial
2018 - 2023 寄附講座助成

2019 - 2022 糸状菌の休眠二次代謝系の覚醒物質の開発

2016 - 2019 Heterogenous organization of multicellular fungal hyphal cells

2015 - 2019 Fungal mechanisms for tolerance and adaptation to environmental stresses

2015 - 2018 Studies on the structure and function of a xenobiotic ABC transporter

2017 - バイオマスプラスチック原料生産における課題抽出、対策検討

2014 - 2017 Research of microbial metabolisms that function in soil-humic acid homeostasis

2013 - 2016 Functional analysis of the transcriptional repressor HapX involved in iron homeostasis in filamentous fungi

2013 - 2015 汎用的な生合成マシナリー発現誘導物質の検索と物質生産

2012 - 2015 Diversity and molecular evolution of eukaryotic electron transfer mechanisms

2008 - 2012 ポリアロマ系プラスチック原料の発酵生産システムの研究開発

2011 - 2012 Pyridine nucleotides regulate gene expression and cellular metabolisms

2011 - 2012 Aspergillus nidulans の一酸化窒素耐性化の分子機構の解明

2009 - 2012 A challenge to "homochirality in sugar metabolism"Analysis of L-glucose catabolic pathway

2009 - 2011 Mechanisms for eukaryotic response and adaptation to hypoxia

2006 - 2008 Molecular mechanisms of fungal energy conservation

2005 - 2007 Construction of novel fatty acid ester library and its application

2004 - 2005 微生物の新規な代謝系を利用した有機体窒素の直接脱窒システムの開発

2003 - 2004 かびの新規な異化的硝酸代謝機構の解明と応用

2002 - 2004 微生物の新規な窒素代謝系を利用した窒素除去システムの構築と温室効果ガスN2Oの削減

2004 - 2004 真核微生物の低酸素下での生存戦略とそのゲノム研究

2002 - 2003 新規なシトクロムP450による有用または新規脂肪酸の代謝工学と発酵生産

2001 - 2003 かびによる有用または新規ヒドロキシ脂肪酸の発酵生産

2001 - 2002 微生物の新規な窒素代謝系である共脱窒の分子機構の解明と排水処理への応用

1999 - 2000 糸状菌の硝酸呼吸における一酸化窒素(NO)解毒機構の解明

1999 - 1999 嫌気呼吸系金属酵素の構造と機能

1996 - 1998 Molecular Evolution of Denitrifying Systems of Fungi and Actinomycetes

1997 - 1997 嫌気呼吸系金属酵素の構造と機能

1996 - 1996 嫌気呼吸系金属酵素の構造と機能

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Papers (157)：

Katsuki, Nozomi, Fukushima, Riku, Doi, Yuki, Masuo, Shunsuke, Arakawa, Takatoshi, Yamada, Chihaya, Fushinobu, Shinya, Takaya, Naoki. Protocatechuate hydroxylase is a novel group A flavoprotein monooxygenase with a unique substrate recognition mechanism. The Journal of biological chemistry. 2024. 300. 1
Amahisa, Madoka, Tsukagoshi, Madoka, Kadooka, Chihiro, Masuo, Shunsuke, Takeshita, Norio, Doi, Yuki, Takagi, Hiroshi, Takaya, Naoki. The Metabolic Regulation of Amino Acid Synthesis Counteracts Reactive Nitrogen Stress via Aspergillus nidulans Cross-Pathway Control. Journal of fungi (Basel, Switzerland). 2024. 10. 1
Katsuki, Nozomi, Masuo, Shunsuke, Nukui, Noriyuki, Minakawa, Hajime, Takaya, Naoki. Gallic acid fermentation by metabolically engineered Escherichia coli producing p-hydroxybenzoate hydroxylase from Hylemonella gracilis NS1. The Journal of general and applied microbiology. 2023
Itani, Ayaka, Masuo, Shunsuke, Yamamoto, Riho, Serizawa, Tomoko, Fukasawa, Yu, Takaya, Naoki, Toyota, Masatsugu, Betsuyaku, Shigeyuki, Takeshita, Norio. Local calcium signal transmission in mycelial network exhibits decentralized stress responses. PNAS nexus. 2023. 2. 3. pgad012-10
AIDA, Honoka, UCHIDA, Keisuke, NAGAI, Motoki, HASHIZUME, Takamasa, MASUO, Shunsuke, TAKAYA, Naoki, YING, BEIWEN. Machine learning-assisted medium optimization revealed the discriminated strategies for improved production of the foreign and native metabolites. COMPUTATIONAL AND STRUCTURAL BIOTECHNOLOGY JOURNAL. 2023. 21. 2654-2663

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Patents (1)：

Method for producing aniline derivative by fermentation from carbon source

Lectures and oral presentations (75)：

Filamentous fungi release extracellular vesicles at log- and stationary phases
(32nd Fungal Genetics Conference)
Cupriavidus sp. LA-1株のプテリジン化合物分解機構の解明
(日本農芸化学会 2023年度大会)
環境土壌における葉酸資化性菌の群衆構造解析
(日本農芸化学会 2023年度大会)
菌糸ネットワークは局所的なCa2+シグナルの伝播により地方分権型のストレス応答を示す
(日本農芸化学会2023年度大会)
リボソーム結合領域の最適化によるラズベリーケトン高生産系の構築
(日本農芸化学会2023年度大会)

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Education (2)：

- 1996 The University of Tokyo Graduate School, Division of Agriculture
- 1991 The University of Tokyo Faculty of Agriculture

Committee career (2)：

2015/04 - 2021/03 日本農芸化学会学術活動強化委員会委員
2017/04 - 2020/03 日本農芸化学会倫理委員

Awards (5)：

2012/03 - 筑波大学学長表彰(筑波大学)
2012/02 - 第8回日本学術振興会賞
2007/04 - 平成19年度科学技術分野の文部科学大臣表彰若手科学者賞
2005/11 - 農学会第4回日本農学進歩賞
2005/03 - 日本農芸化学会農芸化学奨励賞

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