Ohno Takae

オオノタカエ | Ohno Takae

Homepage URL (1)： http://kaken.nii.ac.jp/d/r/60508109.ja.html

Research field (1)： Neuroscience - general

Research keywords (18)： red nucleus , rubro-olivary pathway , rubro-thalamic pathway , corticorubal synapse , tissue clearing , retrograde synaptic transfer , optogenetics , corticospinal synapse , GluN2B , GliN2A , spinal motoneuron , whole cell recording , synaptic plasticity , live imaging , LTP , synapse elimination , knockout mice , LTD

Research theme for competitive and other funds (9)：

2022 - 2025 運動神経細胞のシナプス特性解析:生後発達過程で確立される入力/されない入力
2022 - 2025 赤核大細胞・小細胞における上肢運動情報のクロスオーバー
2018 - 2022 発達に伴う皮質運動ニューロン連関の可塑性変化-運動ニューロンは学習するのか?-
2020 - 2021 発達期マウスにおける一過性皮質脊髄運動ニューロン直接結:その除去メカニズムと個体・系統発生的意義
2010 - 2013 in vitroスライス培養系におけるシナプス除去とその分子メカニズム

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Papers (22)：

Ohno Takae, Fukuda Satoshi, Murabe Naoyuki, Miyake Hideo, Takai Shu, Hayashi Toshihiro. New approach of cell types and their networks of red nucleus(タイトル和訳中). The Journal of Physiological Sciences. 2023. 73. Suppl.1. 80-80
大野孝恵. 発達期マウスにおける一過性皮質脊髄運動ニューロン直接結合: その除去メカニズムと個体・系統発生的意義. 女医界. 2021. 824. 79-83
Ohno, T, Fukuda, S, Murabe, N, Niido, M, Sakurai, M. Temporal course of transient direct corticomotoneuronal connections during development in rodents. Neuroscience. 2021. 478. 88-99
Murabe N, Mori T, Fukuda S, Isoo N, Ohno T, Mizukami H, Ozawa K, Yoshimura Y, Sakurai M. Higher primate-like direct corticomotoneuronal connections are transiently formed in a juvenile subprimate mammal. Scientific reports. 2018
Mizuho Niido, Satoshi Fukuda, Takae Ohno, Masaki Sakurai. Specific distribution of target muscles receiving transient cortico-motoneuronal direct connections in the juvenile rodent: Similarity to higher primates. Teikyo Medical Journal. 2018. 41. 4. 137-148

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MISC (20)：

T. Ohno, H. Miyake, N. Murabe, S. Fukuda, S. Takai, T. Yoshida, K. Nakajima, T. Hayashi. The red nucleus and its circuit network: cell identification through a target-selective approach utilizing retrograde vectors. 2023
Takae Ohno, Satoshi Fukuda, Naoyuki Murabe, Hideo Miyake, Shu Takai, Toshihiro Hayashi. The red nucleus and its networks: a selective approach to the target cells using retrograde vectors. The 46th Annual Meeting of the Japan Neuroscience Society, Sendai, Japan. 2023
大野孝恵, 福田諭, 村部直之, 三宅英雄, 高井秀, 林俊宏. 赤細胞群核とその回路網探究の新たな試み. 日本生理学会第100回記念大会. 2023
Ohno T, Fukuda S, Murabe N, Sakimura K, Hayashi T, Sakurai M. The elimination of cortico-motoneuronal synapses during development: involvement of GluN2B containing NMDA receptor. The 99th Annual Meeting of the Physiological Society of Japan, Sendai. 2022
Ohno T, Fukuda S, Murabe N, Sakimura K, Hayashi T, Sakurai M. Involvement of GluN2B-containing NMDA receptors in the elimination of cortico-motoneuronal synapses during development. Society for Neuroscience, Chicago. 2021

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Books (1)：

ブレインサイエンス・レビュー2013
2013

Lectures and oral presentations (18)：

Manipulating “critical period” by controlling synaptic GluN2B expression
(43th Annual Meeting of Society for Neuroscience 2013)
Manipulating “critical period” by regulating the synaptic GluN2B expression
(2013)
Is it possible to manipulate the “critical period” ?
(2012)
Developmental decline of 2B subunit containing NMDA receptor is essential for closing the critical period plasticity window in mouse corticospinal synapse elimination
(41th Annual Meeting of Society for Neuroscience 2011)
Developmental shift of NMDA receptor subunits is essential for closing the critical period plasticity window in mouse corticospinal synapse elimination
(2011)

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Work history (1)：

2017/04 - 現在 Teikyo University School of Medicine

Awards (2)：

2019/06 - 第5回(平成31年度)基礎医学研究助成渡辺慶子賞発達期マウスにおける一過性皮質脊髄運動ニューロン直接結合:その除去メカニズムと個体・系統発生的意義
2011/09 - 第34回日本神経科学学会第25回ブレインサイエンス振興財団研究助成皮質脊髄路シナプス除去の分子メカニズム

Association Membership(s) (6)：

日本神経心理学会 , THE PHYSIOLOGICAL SOCIETY OF JAPAN , THE JAPAN NEUROSCIENCE SOCIETY , 日本神経内科学会 , THE JAPANESE SOCIETY OF INTERNAL MEDICINE , Society for Neuroscience

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