TSUGE Tomohiko

ツゲトモヒコ | TSUGE Tomohiko

Affiliation and department：
Job title： Associate Professor
Other affiliations (1)：

RIKEN(The Institute of Physical and Chemical Research) Wako Institute, Discovery Research Institute, Biomolecular Characterization Team Collaborative Visiting Scientist

Homepage URL (1)： https://www.facebook.com/Molecular-Biology-Lab-ICR-Kyoto-University-107976348547887

Research field (3)： Molecular biology , Morphology, anatomy , Plants: molecular biology and physiology

Research keywords (11)： gene expression regulation , mRNA processing , signal transduction regulation , COP9 signalosome , Cleavage Factor 1 , alternative polyadenylation , environment adaptation regulation , proteolysis regulation , Arabidopsis thaliana , plant morphogenesis (photomorphogenesis, leaf morphogenesis) , leaf morphogenesis

Research theme for competitive and other funds (10)：

2022 - 2025 Molecular mechanism governing plant plasticity through pre-mRNA 3'UTR regulation
2013 - 2016 Regulatory mechanism of mRNA processing factors in plant morphogenesis
2011 - 2013 細胞場におけるmRNA代謝とタンパク質分解とを統合する環境刺激応答制御機構
2010 - 2012 Regulatory mechanism of SAP130 mRNA processing factor in plant morphogenesis
2006 - 2007 Analyses on the novel functions of the COP9 signalosome, a master regulator responding to environm ental stimuli

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Papers (72)：

Mariko Kato, Machiko Watari, Tomohiko Tsuge, Sheng Zhong, Hongya Gu, Li-Jia Qu, Takashi Fujiwara, Takashi Aoyama. Redundant function of the Arabidopsis phosphatidylinositol 4-phosphate 5-kinase genes PIP5K4-6 is essential for pollen germination. The Plant journal : for cell and molecular biology. 2023
Chika Akagi, Yukio Kurihara, Yuko Makita, Masaharu Kawauchi, Tomohiko Tsuge, Takashi Aoyama, Minami Matsui. Translational activation of ribosome-related genes at initial photoreception is dependent on signals derived from both the nucleus and the chloroplasts in Arabidopsis thaliana. Journal of plant research. 2023. 136. 2. 227-238
Machiko Watari, Mariko Kato, Romain Blanc-Mathieu, Tomohiko Tsuge, Hiroyuki Ogata, Takashi Aoyama. Functional Differentiation among the Arabidopsis Phosphatidylinositol 4-Phosphate 5-Kinase Genes PIP5K1, PIP5K2 and PIP5K3. Plant and Cell Physiology. 2022. 63. 5. 635-648
Xiaojuan Zhang, Mika Nomoto, Marta Garcia-Leon, Naoki Takahashi, Mariko Kato, Kei Yura, Masaaki Umeda, Vicente Rubio, Yasuomi Tada, Tsuyoshi Furumoto, et al. CFI 25 Subunit of Cleavage Factor I is Important for Maintaining the Diversity of 3' UTR Lengths in Arabidopsis thalianaa (L.) Heynh. PLANT AND CELL PHYSIOLOGY. 2022. 63. 3. 369-383
Ryota Shimamura, Yohei Ohashi, Yukimi Yamamoto Taniguchi, Mariko Kato, Tomohiko Tsuge, Takashi Aoyama. Arabidopsis PLDζ1 and PLDζ2 localize to post-Golgi membrane compartments in a partially overlapping manner. Plant Molecular Biology. 2022. 108. 1-2. 31-49

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MISC (91)：

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Books (9)：

Chapter1 Photoreceptors and light signal transduction. (<i>in Japanese</i>)
, , 23-50 2011
第1章光受容体と光情報伝達.
, , 23-50 2011
環境応答を制御するCOP9シグナロソームの新規メカニズムの解明
[柘植知彦] 2008
Chapter3 Regulation of ploidy - aiming to create bigger and stronger plants. (<i>in Japanese</i>)
, , 2008
第3章倍数性の制御-大きくて丈夫な植物の創造に向けて.
, , 35-44 2008

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Lectures and oral presentations (37)：

Cleavage Factor I is essential for maintaining the diversity at the 3' ends of mRNA in plants.
(EMBO Workshop RNA 3' end formation and the regulation of eukaryotic genomes, UK 2022)
Is CSN involved in pre-mRNA processing? - CSN binding protein complex CF1 is essential for maintaining the diversity at the 3' ends of mRNA.
(ZOMES XI, Germany 2022)
CSN has its ways to control gene expression through its binding partners. Plant Biology and Beyond, from traditions to new frontiers -
(A reunion Symposium celebrating biology at OML, USA 2019)
Is CSN involved in alternative polyadenylation regulation? - CSN-binding protein CFI 25 is essential for 3’UTR polyadenylation site determination and its diversity.
(ZOMES X, Israel 2019)
Understanding CSN-mediated regulation through its interaction with RNA processing factors.
(Invited lecture at Academia Sinica, Taiwan 2018)

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Education (3)：

1993 - 1996 The University of Tokyo Graduate School Sciences Department of Biological Sciences
1991 - 1993 Waseda University Graduate School of Science and Engineering
1987 - 1991 Waseda University School of Science and Engineering Applied Chemistry

Professional career (1)：

Ph.D. (The University of Tokyo)

Work history (11)：

2013/12 - 現在 Kyoto University Institute for Chemical Research Associate Professor
2008/04 - 現在 Hyogo Prefectural Ono Senior High School Special Invited Lecturer
2005/04 - 現在 RIKEN Invited Researcher
2007/04 - 2013/11 Kyoto University Institute for Chemical Research Assistant Professor
2006/04 - 2007/03 Hyogo Prefectural Ono Senior High School Special Invited Lecturer

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Association Membership(s) (4)：

The Japanese Society of Plant Morphology , The Botanical Society of Japan , The Molecular Biology Society of Japan , Japanese Society of Plant Physiologists

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