Fujiwara Ryosuke

フジワラリョウスケ | Fujiwara Ryosuke

Affiliation and department：
Job title： Special Postdoctoral Researcher
Homepage URL (1)： http://cellfactory.riken.jp/index.html

Research field (2)： Applied biofunctional and bioprocess engineering , Applied microbiology

Research keywords (4)： Metabolic engineering , Synthetic biology , Protein engineering , Enzyme engineering

Research theme for competitive and other funds (5)：

2024 - 2026 代謝のユニット化によるアセチルCoA誘導体高生産技術の開発
2022 - 2025 High-yield production of styrene from CO2-derived carbon sources using engineered methylotroph
2021 - 2023 複数の炭素源の同時利用を前提とした合理的代謝設計による高収率物質生産技術の開発
2020 - 2022 二酸化炭素の効率的利用を指向したC1・C2混合炭素源からの物質生産技術の開発
2017 - 2020 バイオマス資源からのアジピン酸発酵生産技術の開発

Papers (13)：

Daisuke Nonaka, Yuuki Hirata, Mayumi Kishida, Ayana Mori, Ryosuke Fujiwara, Akihiko Kondo, Yutaro Mori, Shuhei Noda, Tsutomu Tanaka. Parallel metabolic pathway engineering for aerobic 1,2-propanediol production in Escherichia coli. Biotechnology Journal. 2024
Shuhei Noda, Yutaro Mori, Yuki Ogawa, Ryosuke Fujiwara, Mayumi Dainin, Tomokazu Shirai, Akihiko Kondo. Metabolic and enzymatic engineering approach for the production of 2-phenylethanol in engineered Escherichia coli. Bioresource Technology. 2024. 130927-130927
Shuhei Noda, Ryosuke Fujiwara, Yutaro Mori, Mayumi Dainin, Tomokazu Shirai, Akihiko Kondo. Styrene Production in Genetically Engineered Escherichia coli in a Two-Phase Culture. BioTech. 2024. 13(1). 2
Misa Doke, Mayumi Kishida, Yuuki Hirata, Mariko Nakano, Mayo Horita, Daisuke Nonaka, Yutaro Mori, Ryosuke Fujiwara, Akihiko Kondo, Shuhei Noda, et al. Hydroxybenzoic Acid Production Using Metabolically Engineered Corynebacterium glutamicum. Synthetic Biology and Engineering. 2023. 1. 1. 1-9
Kosuke Sakae, Daisuke Nonaka, Mayumi Kishida, Yuuki Hirata, Ryosuke Fujiwara, Akihiko Kondo, Shuhei Noda, Tsutomu Tanaka. Caffeic acid production from glucose using metabolically engineered Escherichia coli. Enzyme and Microbial Technology. 2023. 164. 110193-110193

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MISC (6)：

藤原良介, 田中勉. 糖代謝の制御可能な改変微生物の開発事例. 微生物を用いた有用物質生産技術の開発 ~バイオマス由来化学品・エネルギーの事業採算性向上と環境負荷低減の方策~. 2024
Ryosuke Fujiwara, Shuhei Noda, Tsutomu Tanaka. -. BIOSCIENCE & INDUSTRY. 2022. 80. 6. 474-475
Ryosuke Fujiwara, Shuhei Noda, Tsutomu Tanaka. -. 2022. 73. 10
Novel bioproduction technologies: Parallel Metabolic Pathway Engineering and Metabolic Spices. BIO INDUSTRY. 2021. 38. 12. 9-16
藤原良介, 野田修平, 田中勉. 物質生産とエネルギー獲得を独立させるパラレル型代謝工学技術. バイオサイエンスとインダストリー. 2020. 78. 4. 316-317

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Patents (2)：

Lectures and oral presentations (3)：

Development of metabolic engineering technology for the production of valuable chemicals
(The SCEJ 89th Annual Meeting 2024)
Metabolic engineering of Escherichia coli for production of shikimate pathway derivatives
(2018)
代謝デザイン大腸菌を利用したムコン酸発酵生産
(化学工学会第83年会 2018)

Education (3)：

2016 - 2020 Kobe University Graduate School of Engineering Department of Chemical Science and Engineering
2013 - 2015 Kobe University Graduate School of Engineering Department of Chemical Science and Engineering
2009 - 2013 Kobe University Faculty of Engineering Department of Chemical Science and Engineering

Professional career (2)：

Work history (4)：

2022/04 - 現在 RIKEN RIKEN Center for Sustainable Resource Science Special Postdoctoral Researcher
2020/04 - 2022/03 RIKEN RIKEN Center for Sustainable Resource Science Postdoctoral Researcher
2017/04 - 2020/03 日本学術振興会特別研究員(DC1)
2015/04 - 2016/08 Morinaga Milk Industry Co., Ltd.

Awards (5)：

2023/12 - The Society of Chemical Engineers The SCEJ Award for Outstanding Young Researcher Development of metabolic engineering technology for the production of valuable chemicals
2023/11 - Thai Society for Biotechnology SECOND PRIZE for Poster Presentation of the General Biotechnology Theme Metabolic Engineering of Methylorubrum extorquens for Bioproduction of Aromatic Compounds from C1-C2 Compounds
2022/12 - Inoue Foundation Inoue Research Award for Young Scientists Development of high-yield production technology for the shikimate pathway derivatives using engineered Escherichia coli
2019/11 - 酵素工学研究会優秀ポスター賞 Parallel Metabolic Pathway Engineeringを用いた大腸菌による高収率物質生産
2018/09 - 化学工学会バイオ部会ポスターセッション優秀ポスター賞糖の使い分けによる高収率物質生産技術の開発

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