Ariizumi Tohru

アリイズミトオル | Ariizumi Tohru

Homepage URL (1)： https://sites.google.com/view/ariizumi-laboratory/home

Research field (2)： Plant genetics and breeding , Horticulture

Research keywords (6)： Bioinformatics , Plant Genetics and Breeding , Development of novel system for F1 hybrid seed production , Genome sciences , Genome editing technologies , Parthenocarpy

Research theme for competitive and other funds (35)：

2022 - 2026 Elucidation of molecular mechanism of sugar accumulation and development of high-sugar tomato varieties by genome editing
2022 - 2025 Application and study on the mechanisms of high accumulation of chlorogenic acid in young leaf lettuce plant grown under the complex multi environmental factors
2021 - 2025 細胞質雄性不稔性トマトの雄性不稔化と稔性回復の謎を解く
2021 - 2024 細胞質雄性不稔性トマトを利用した新規F1採種技術の展開
2021 - 2023 HiFiリードの活用による効率的変異体選抜技術の開発

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Papers (89)：

Hunziker, Johan, Nishida, Keiji, Kondo, Akihiko, Ariizumi, Tohru, Ezura, Hiroshi. Phenotypic Characterization of High Carotenoid Tomato Mutants Generated by the Target-AID Base-Editing Technology. FRONTIERS IN PLANT SCIENCE. 2022. 13. 848560-848560
Kusano, Miyako, Worarad, Kanjana, Fukushima, Atsushi, Kamiya, Ken, Mitani, Yuka, Okazaki, Yozo, Higashi, Yasuhiro, Nakabayashi, Ryo, Kobayashi, Makoto, Mori, Tetsuya, et al. Transcriptomic, hormonomic and metabolomic analyses highlighted the common modules related to photosynthesis, sugar metabolism and cell division in parthenocarpic tomato fruits during early fruit set. CELLS. 2022. 11. 9
Akagi, Takashi, Masuda, Kanae, Kuwada, Eriko, Takeshita, Kouki, Kawakatsu, Taiji, Ariizumi, Tohru, Kubo, Yasutaka, Ushijima, Koichiro, Uchida, Seiichi. Genome-wide cis-decoding for expression design in tomato using cistrome data and explainable deep learning. The Plant cell. 2022. 34. 6. 2174-2187
Kuwabara, Kosuke, Arimura, Shin-Ichi, Shirasawa, Kenta, Ariizumi, Tohru. orf137 triggers cytoplasmic male sterility in tomato. Plant physiology. 2022
Kashojiya, Sachiko, Lu, Yu, Nishida, Keiji, Takayama, Mariko, Komatsu, Hiroki, Shirasawa, Kenta, Miura, Kenji, Nonaka, Satoko, Masuda, Junichi, Kondo, Akihito, et al. Modification of tomato breeding traits and plant hormone signaling by target-AID, the genome-editing system inducing efficient nucleotide substitution. Horticulture research. 2022. 19. 9. uhab004

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MISC (10)：

桑原康介, 有村慎一, 白澤健太, 有泉亨. A novel mitochondrial gene, orf137, triggers cytoplasmic male sterility in tomato. 育種学研究. 2022. 24
有泉亨, 有泉亨, LU Y, 篠崎良仁, 篠崎良仁, 白澤健太, 江面健太郎, 岡部佳弘, 江面浩, 江面浩. トマトの新規単為結果性変異体の選抜と原因遺伝子同定. 育種学研究. 2019. 21. 131
有泉亨, 伊藤康博, 三浦謙治, 江面浩. 有用植物のゲノム編集野菜 7 ゲノム編集技術のトマトへの応用. アグリバイオ. 2017. 1. 1
竹澤里実, 岸本早苗, 平川英樹, 白澤健太, 大宮あけみ, 江面浩, 有泉亨. トマトの新規変異体pale yellow petal 2の生化学的研究. 日本植物細胞分子生物学会大会・シンポジウム講演要旨集. 2015. 33rd. 139
有泉亨, 岸本早苗, 眞岡孝至, 平川英樹, 白澤健太, 岡部佳弘, 竹澤里見, 大宮あけみ, 江面浩. トマトのPALE YELLOW PETAL1遺伝子はエステル化カロテノイドの蓄積と花弁黄色化に必須である. 日本植物細胞分子生物学会大会・シンポジウム講演要旨集. 2014. 32nd. 69

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Patents (6)：

高温耐性、高収量性および単為結果性を示す果実類植物
高温耐性、高収量性および単為結果性を示す果実類植物
MUTANT PLANT
組織及び時期特異的プロモーターを用いた単為結果性の着果誘導方法
トマト植物のゲノムの改変方法

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Books (5)：

じっきょう理科資料
2018
夢の育種技術・ゲノム編集技術による新品種創生の迅速化
2018
FUNCTIONAL GENOMICS AND BIOTECHNOLOGY IN SOLANACEAE AND CUCURBITACEAE CROPS
SPRINGER-VERLAG BERLIN 2016 ISBN:9783662485354
新しい植物育種技術を理解しよう NBT -new breeding techniques-
国際文献社 2013
Ubiquitin becomes ubiquitious in GA signaling.
Plant Physiology, Fourth Edition by Lincoln Taiz and Eduardo Zeiger 2006

Lectures and oral presentations (140)：

Characterization of tomato high sugar mutant hs1
(第64回日本植物生理学会年会 2023)
細胞質雄性不稔性トマトにおける花粉内部Ca2+および小胞の局在性調査
(第64回日本植物生理学会)
トマトの着果を制御するジャスモン酸の時空間的局在
(園芸学会令和5年度春季大会)
トマトバイオリソースのゲノム情報整備と採種効率化に向けた研究紹介
(ゲノム育種研究を効果的に促進させるソリューション)
Transcriptome analysis in cytoplasmic male sterile tomato to elucidate male sterile mechanism
(The XVII International Conference on the Plant Family of Solanaceae (SOL2022))

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Education (3)：

2001 - 2004 Tohoku University Graduate School of Agriculture Science Division of Life Science
1999 - 2001 Tohoku University Graduate School of Agriculture Science Division of Life Science
1995 - 1999 Tohoku University Faculty of Agriculture

Work history (7)：

2015/08 - 現在 The University of Tsukuba Faculty of Life and Environmental Sciences Associate Professor
2009/06 - 2015/07 University of Tsukuba Assistant Professor
2009/05 - 2009/05 RIKEN、Institute of Physical and Chemical Research Postdoctoral Research Fellow
2007/04 - 2009/05 Washington State University Postdoctoral Research Fellow
2005/04 - 2007/04 JSPS Postdoctoral Fellow for Research Abroad

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Committee career (17)：

2021/11 - 現在 Japan Solanaceae Consortium (JSOL) Japan Solanaceae Consortium (JSOL) 共同委員長
2013/02 - 現在 Japan Solanaceae Consortium (JSOL)運営委員 Japan Solanaceae Consortium (JSOL)運営委員
2022/09 - 2022/09 一般社団法人日本植物バイオテクノロジー学会 Genome Editing Technology: From Research to Industrial Application 組織委員
2020/07 - 2022/09 日本植物細胞分子生物学会/日本植物バイオテクノロジー学会会計幹事
2021/11 - 2021/11 Japan Solanaceae Consortium Symosium (JSOL2021) JSOL2021 組織委員主催

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Awards (16)：

2021/07 - Japan Bioindustry Association Japan Bioindustry Association
2021/03 - 日本育種学会第139回日本育種学会優秀発表賞第139回日本育種学会優秀発表賞
2018/03 - Best poster award Loss-of function of SPFF, a novel receptor-like kinase, induces parthenocarpy in tomato
2018/03 - Best poster award AGRI WORLD 2018 Loss-of function of SPFF, a novel receptor-like kinase, induces parthenocarpy in tomato
2018 - 2017年農業技術10大ニュース受粉しなくても実がなるトマトをゲノム編集で開発 -DNAを切らずに書き換える新たなゲノム編集技術を作物に応用-

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Association Membership(s) (4)：

JAPANESE SOCIETY OF BREEDING , 日本植物生理学会 , THE JAPANESE SOCIETY FOR HORTICULTURAL SCIENCE , JAPANESE SOCIETY FOR PLANT CELL AND MOLECULAR BIOLOGY

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