Suzuki Takumi

スズキタクミ | Suzuki Takumi

Affiliation and department：
Job title： Associate Professor

Research field (3)： Animals: biochemistry, physiology, behavioral science , Neuroscience - general , Developmental biology

Research keywords (4)： insects , neural sten cells , neural develpment , Drosophila melanogaster

Research theme for competitive and other funds (25)：

2022 - 2027 神経幹細胞が多種多様な神経を作り分ける分子機構の解明
2024 - 2027 神経上皮細胞から神経幹細胞への分化時期を決定する分子基盤の理解
2024 - 2026 ゲノム上の疾病原因箇所を迅速に特定する技術の開発
2023 - 2025 グリア細胞由来の栄養シグナルによる神経の細胞死抑制機構を理解する
2023 - 2024 神経上皮細胞の増殖期を終結させる分子機構の理解

2021 - 2024 Temporal Factorsが神経の運命を決定する分子基盤の理解

2021 - 2024 神経幹細胞が多種多様な神経細胞を作り分ける分子メカニズムの解明

2021 - 2023 神経幹細胞が多様な神経を生み出す分子メカニズムの理解

2022 - 2023 神経回路の多様性を飛躍的に増加させる分子メカニズム

2022 - 2023 神経産生期からグリア産生期への切り替えスイッチをONにする神経由来の生理活性物質の探索

2022 - 2023 ゲノムDNA上の疾病原因領域を迅速に特定する新規技術の開発

2022 - 2023 ゲノムDNAの3次元的な高次構造情報を任意の細胞で取得する新規手法の開発

2021 - 2023 迅速にエンハンサーを同定し疾病原因領域を特定する技術の開発

2021 - 2022 神経幹細胞が多種多様な神経細胞を作り分ける分子メカニズムの解明

2021 - 2022 Understanding of the molecular mechanisms that regulate production of neuronal diversity

2021 - 2022 遺伝子の発現調節領域の同定により疾病の原因箇所を迅速に特定する新規技術の開発

2020 - 2022 多様な神経を必要な数だけ生み出すメカニズムを解明する

2020 - 2022 神経幹細胞が多種多様な神経を過不足なく生み出す分子メカニズムの解明

2020 - 2021 新規手法DamIDによる神経多様性創出機構の解明

2020 - 2021 神経細胞の多様性を生み出す分子機構の解明

2019 - 2021 新たな手法DamIDを用いた多様な神経細胞を作り分けるメカニズムの解明

2019 - 2020 神経幹細胞の休眠制御による脳神経系修復メカニズムの解明

2019 - 2020 Understanding molecular mechanisms that regulate production of neuronal diversity by DamID, a newly established technique

2019 - 2020 神経多様性を創出する分子機構の解明

2012 - 2016 Identification and functional analysis of motion detection circuits

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Papers (18)：

Chika Akiba, Aya Takezawa, Yuanchang Tsai, Mire Hirose, Takumi Suzuki. bHLH family proteins control the timing and completion of transition from neuroepithelial cells into neural stem cells. Development. 2024. 151. 18
Suzuki, T., Akiba, C., Izawa, M. and Iwami, M. Steroid hormone-dependent changes in trehalose physiology in the silkworm, Bombyx mori. Journal of Comparative Physiology B. 2023. 193. 383-390
M. Sato and T. Suzuki. Cutting edge technologies expose the temporal regulation of neurogenesis in the Drosophila nervous system. Fly. 2022. 16. 1. 222-232
Tang, J., Hakes, A., Krautz, R., Suzuki, T., Contreras, E.G., et al. NanoDam identifies Homeobrain and Scarecrow as conserved temporal factors in the Drosophila central brain and visual system. Developmental Cell. 2022. 57. 1193-1207
Takumi Suzuki, Masafumi Iwami. Sequential changes in the regulatory mechanism of carbohydrate digestion in larvae of the silkworm, Bombyx mori. Journal of Comparative Physiology B. 2021. 191. 3. 439-453

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MISC (1)：

佐藤純, 鈴木匠. Inter-progenitor pool wiring : an evolutionarily conserved strategy that expands neural circuit diversity. 生化学. 2017. 89. 6. 820-829

Books (2)：

Hemolymph Proteins and Functional Peptides: Recent Advances in Insects and Other Arthropods
Bentham Science Publishers 2012
Studeies on the regulation mechanism of sugar metabolism during the larval-pupal transition of the silkworm, Bombyx mori.
[Takumi Suzuki] 2011

Lectures and oral presentations (16)：

Daughterless is essential to complete differentiation from neuroepithelial cells into neural stem cells
(APDNC3 2024)
Molecular mechanisms that regulate neuronal differentiation by Extramacrochaete
(2022)
Identifying genes that regulate the production of neurogenesis diversity in fly visual center
(2022)
Klumpfuss guarantees neuronal differentiation in two different stem cell pools in Drosophila visual center
(The 7th Visual System Neuron Meeting 2022)
Snail family transcription factors are involved in the transition from neuroepithelial to neural stem cells
(The 7th Visual System Neuron Meeting 2022)

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Education (3)：

2008 - 2011 Kanazawa University Graduate school of natural science and technology Division of life science
2006 - 2008 Kanazawa University Graduate school of natural sciences and technology Division of biological sciences
2002 - 2006 Kanazawa University Faculty of science Department of biology

Professional career (2)：

Ph.D (Kanazawa University)
M.Sc. (Kanazawa University)

Work history (6)：

2022/04 - 現在 Ibaraki University
2019/04 - 2022/03 茨城大学理工学研究科(理学野) 生物科学領域テニュアトラック助教
2016/06 - 2019/02 the university of Cambridge the Gurdon institute, department of physiology, developmental biology, and neuroscience, Research Associate
2016/06 - 2019/02 the University of Cambridge the Gurdon institute, department of physiology, developmental biology, and neuroscience research associate
2011/04 - 2016/05 Kanazawa University brain-liver interface medicine research center, School of medical science post doctoral fellow

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Awards (1)：

2014/03 - 動く細胞と場のクロストーク若手の会ベストポスター賞 Formation of neuronal circuits by interactions between neuronal populations derived from different origins in the Drosophila visual center

Association Membership(s) (3)：

日本分子生物学会 , Japanese Society for Developmental Biology , 国際発生生物学会

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