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J-GLOBAL ID:201101025445929963
Update date: Jan. 14, 2025 Tanimoto Masashi
Tanimoto Masashi
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National Institutes of Natural Sciences National Institute for Basic Biology
About National Institutes of Natural Sciences National Institute for Basic Biology
Research theme for competitive and other funds (9):
- 2020 - 2023 Research on brainstem circuits that integrate binaural vestibular inputs in larval zebrafish as a model system
- 2018 - 2022 Analysis of neuronal circuits that control body posture using larval zebrafish
- 2015 - 2019 Neural circuits and biological roles of spontaneous, synchronous and rhythmic activity in zebrafish hindbrain
- 2014 - 2016 Neural bases of auditory scene analysis in zebrafish
- 2013 - 2016 Physiological and Molecular Biological Studies on Mechanisms underlying Acquisition of Audition during Development
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- Sayaka Shimizu, Taisei Katayama, Nozomi Nishiumi, Masashi Tanimoto, Yukiko Kimura, Shin-ichi Higashijima. Spatially ordered recruitment of fast muscles in accordance with movement strengths in larval zebrafish. Zoological Letters. 2025. 11. 1
- Takumi Sugioka, Masashi Tanimoto, Shin-Ichi Higashijima. Biomechanics and neural circuits for vestibular-induced fine postural control in larval zebrafish. Nature communications. 2023. 14. 1. 1217-1217
- Masashi Tanimoto, Ikuko Watakabe, Shin-Ichi Higashijima. Tiltable objective microscope visualizes selectivity for head motion direction and dynamics in zebrafish vestibular system. Nature communications. 2022. 13. 1. 7622-7622
- Masashi Tanimoto, Ikuko Watakabe, Shin-ichi Higashijima. Tiltable objective microscope visualizes discrimination of static and dynamic head movement originates at hair cells. 2022
- Kohei Kawano, Kagayaki Kato, Takumi Sugioka, Yukiko Kimura, Masashi Tanimoto, Shin-ichi Higashijima. Long descending commissural V0v neurons ensure coordinated swimming movements along the body axis in larval zebrafish. Scientific Reports. 2022. 12. 1
- プレスリリース: 魚の微細な姿勢制御メカニズムとその神経回路が明らかに. URL https://www.nibb.ac.jp/press/2023/03/10.html. 2023
- プレスリリース: 対物レンズ傾斜顕微鏡によって頭部の傾斜・運動中の神経活動の可視化に成功 ~頭部の傾きや動きの「方向」や「動き方」が異なる場所の内耳感覚細胞によって 受容し分けられることが明らかに~. URL https://www.nibb.ac.jp/press/2022/12/21.html. 2022
- The role otolith size and transmission property along afferent pathway for auditory perception in larval zebrafish. 2013. 43. 3. 139-144
- 生き物と音の事典
朝倉書店 2019 ISBN:9784254171679
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Imaging auditory and vestibular transduction in larval zebrafish otolith organs
(18th International Zebrafish Conference 2024) -
Tiltable Objective Microscope: A New Approach to Imaging Head Motion Transduction in Larval Zebrafish
(18th International Zebrafish Conference 2024) -
小さな魚の生体イメージングから探る脊椎動物の内耳感覚受容機構
(鶴舞耳鼻科会 2024) -
脊椎動物の内耳感覚受容・姿勢制御機構をゼブラフィッシュ仔魚の生体イメージングから探る
(第598回日本動物学会北海道支部講演会 2023) -
ゼブラフィッシュ仔魚を用いた前庭神経回路のイメージング解析
(JST戦略的創造研究推進事業CRESTマルチセンシング領域「空間識の幾何による重力覚解明と感覚拡張世界創出」第1回シンポジウム 2023)
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対物レンズ傾斜顕微鏡が可視化した耳石器官の平衡感覚受容メカニズム
2023 -
- 博士(理学)
- 2019/04 - 現在 National Institutes of Natural Sciences
- 2015/04 - 2019/03 Janelia Research Campus of the Howard Hughes Medical Institute
- 2017/04 - 2018/03 上原記念生命科学財団リサーチフェロー
- 2016/04 - 2017/03 Nagoya University
- 2011/04 - 2016/03 Nagoya University
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- 2024/04 - 令和6年度科学技術分野の文部科学大臣表彰 若手科学者賞 平衡感覚と聴覚を担う内耳と神経回路の動作機構の研究
- 2024/04 - 2023 NIKON JOICO AWARD 特別賞 対物レンズ傾斜顕微鏡が可視化した耳石器官の平衡感覚受容メカニズム
- 2023/12 - 自然科学研究機構 基礎生物学研究所 2023年度NIBB若手研究者賞 平衡感覚情報処理の神経機構
- 2020 - 自然科学研究機構 生命創成探求センター 自然科学研究機構生命創成探求センター第2回ExCELLS若手交流リトリートベストポスター賞
- 2012 - Nagoya University Global Center of Excellence Program Young Scientist Award 内耳機械受容の獲得過程に関する研究における優れた業績
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