Rie Yatsunami

ヤツナミリエ | Rie Yatsunami

Affiliation and department：
Job title： Associate Professor
Homepage URL (1)： http://www.nakamura.bio.titech.ac.jp

Research field (3)： Molecular biology , Applied microbiology , Applied biofunctional and bioprocess engineering

Research keywords (5)： Extrephile , Extremozyme , metabolic engineering , Protein Engineering , Molecular Biology

Research theme for competitive and other funds (6)：

2016 - 2020 Design of carotenoid production plant: Large scale synthesis of various carotenoids by extremely halophilic archaea
2011 - 2015 Producing of supercritical carbon dioxide-tolerant enzyme based on halo-tolerant enzyme and syntheses of chitin oligosaccharide
2004 - 2005 高度好塩性古細菌キチナーゼの耐塩機構の解明と有機溶媒中での新規オリゴ糖創製
2000 - 2000 高度好塩性古細菌に由来する新規古細菌型ロドプシンに関する研究
Proteins Produced by Extremophiles

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Papers (37)：

Yusuke Hagiwara, Tomohiro Okeda, Keiko Okuda, Rie Yatsunami, Satoshi Nakamura. Characterization of a xylanase belonging to the glycoside hydrolase family 5 subfamily 35 from Paenibacillus sp. H2C. Bioscience, biotechnology, and biochemistry. 2022. 87. 1. 54-62
Shintaro Nagaoka, Noriko Sugiyama, Rie Yatsunami, Satoshi Nakamura. Characterization of 3-isopropylmalate dehydrogenase from extremely halophilic archaeon Haloarcula japonica. Bioscience, biotechnology, and biochemistry. 2021. 85. 9. 1986-1994
Kohei Kuwata, Manami Suzuki, Teisuke Takita, Rie Yatsunami, Satoshi Nakamura, Kiyoshi Yasukawa. The mutation of Thr315 to Asn of GH10 xylanase XynR increases the alkaliphily but decreases the alkaline resistance. Bioscience, biotechnology, and biochemistry. 2021. 85. 8. 1853-1860
Rin Sueda, Kento Yoshida, Masahiko Onodera, Toshiaki Fukui, Rie Yatsunami, Satoshi Nakamura. Characterization of a GlgC homolog from extremely halophilic archaeon Haloarcula japonica. Bioscience, biotechnology, and biochemistry. 2021. 85. 6. 1441-1447
Yuriko Makino, Hiroshi Sato, Atsushi Noguchi, Teruhiko Ide, Rie Yatsunami, Satoshi Nakamura. Functional expression of the reverse transcriptase αβ heterodimer from avian myeloblastosis virus in Escherichia coli. Bioscience, biotechnology, and biochemistry. 2021. 85. 6. 1464-1467

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MISC (71)：

田力鉄平, 松原惇高, 久保田芳弘, 小坂貴幸, 小澤孝俊, 八波利恵, 福居俊昭, 中村聡. 高度好塩性古細菌Haloarcula japonica由来走気性トランスデューサーの親株における発現と機能解析-Expression and Functional Analysis of Aerotaxis Transducers from Extremely Halophilic Archaeon Haloarcula japonica. 沼津工業高等専門学校研究報告 National Institute of Technology Numazu College research annual. 2022. 56. 1-6
齋藤圭祐, 宇仁文哉, 渡部俊樹, 深沢徹也, 長尾由里, 三瓶全次郎, 大竹潤, 八波利恵, 福居俊昭, 中村聡. 好アルカリ性Bacillus sp. J813株由来アルカリキチナーゼの指向性進化による比活性の向上-Improvement of Specific Activity of an Alkaline Chitinase from Alkaliphilic Bacillus sp. J813 by Directed Evolution. 沼津工業高等専門学校研究報告 National Institute of Technology Numazu College research annual. 2021. 55. 1-5
遠山絹華, 三須大樹, 梶谷嶺, 遠藤きみ子, 深沢徹也, 八波利恵, 伊藤武彦, 福居俊昭, 中村聡. Characterization of GH family 18 chitinases ChiF1 and ChiF3 from alkaliphilic actinomycete Nocardiopsis sp. F96. キチン・キトサン研究. 2016. 22. 2
古細菌のカロテノイド生合成経路. 2015. 93. 7. 394-396
八波,利恵. 極限環境微生物が合成するカロテノイド : バクテリオルベリン(バイオミディア). 生物工学会誌 : Seibutsu-kogaku Kaishi. 2012. 90. 11. 738

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Books (5)：

ビギナーのための微生物実験ラボガイド : microbiological experiment
講談社 2019 ISBN:9784065135990
好塩菌に備わった分子ポンプ
化学装置 2003
生体分子と自己修復
化学と教育 2001
SINE 配列に学ぶ生命の進化
化学と生物 1998
クジラ DNA に刻まれた生命の起源
化学と工業 1998

Lectures and oral presentations (9)：

Genetic analysis and characterization of an intracellular α-amylase from extremely halophilic archaeon <I>Haloarcula japonica</I>
(Journal of Applied Glycoscience Supplement 2010)
Role of exposed aromatic residues in substrate-binding of CBM family 5 chitin-binding domain of alkaline chitinase.
(Nucleic acids symposium series (2004) 2009)
Improvement of alkaliphily of GH family 11 xylanase by modifying electrorical charge of protein surface
(Proceeding of Annual/Fall Meetings of the Japan Petroleum Institute 2009)
Analysis of functional domains and improvement of alkaliphily of an alkaline xylanase on the basis of its three-dimensional structure
(Journal of Applied Glycoscience Supplement 2009)
Characterization of Nocardiopsis beta-1,3-glucanase with additional carbohydrate-binding domains.
(Nucleic acids symposium series (2004) 2007)

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Education (3)：

1997 - 2000 Tokyo Institute of Technology Bioscience and Biotechnology
1993 - 1995 Nagasaki University Graduate school of Engineering
1989 - 1993 Nagasaki University Faculty of Engineering

Professional career (1)：

Doctor of Engineering (Tokyo Institute of Technology)

Work history (8)：

2016/04 - 現在 Tokyo Institute of Technology School of Life Science and Technology
2015/11 - 2016/03 Tokyo Institute of Technology Graduate School of Bioscience and Biotechnology Department of Bioengineering
2007/04 - 2015/10 Tokyo Institute of Technology Graduate School of Bioscience and Biotechnology Department of Bioengineering
2001/04 - 2007/03 Tokyo Institute of Technology Graduate School of Bioscience and Biotechnology Department of Bioengineering
2000/04 - 2001/03 Japan Advanced Institute of Science and Technology

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Committee career (5)：

2021 - 現在日本農芸化学会ダイバーシティー推進委員会委員
2019 - 現在 Microbes & Environments associate editor
2017 - 現在酵素工学研究会幹事
2013 - 現在極限環境生物学会学術幹事
2017 - 2020 日本農芸化学会和文誌編集委員

Awards (5)：

2023/03 - 日本農芸化学会 2023年度農芸化学女性研究者賞極限環境微生物が生産する極限酵素の機能解明とその応用
2010/11 - 極限環境生物学会極限環境生物学会研究奨励賞高度好塩性古細菌に由来する機能性タンパク質の解析
2009/09 - 日本化学会第3回関東支部大会優秀講演賞優秀講演賞高度好塩性古細菌由来キチナーゼの酸性アミノ酸分布と耐塩性との相関
2001/03 - 東京工業大学手島記念研究賞博士論文賞高度好塩性古細菌 Haloarcula japonicaに由来するクルックスロドプシン
2000/03 - 東京工業大学鎌田泉博士論文賞高度好塩性古細菌 Haloarcula japonicaに由来するクルックスロドプシン

Association Membership(s) (8)：

Japanese Society for Chitin and Chitosan , 日本農芸化学会 , The Chemical Society of Japan , The Japanese Society of Applied Glycoscience , Japanese Society for Carotenoid Research , 日本 Archaea 研究会 , Japanese Society for Extremophiles , Japanese Society of Enzyme Engineering

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