Rchr
J-GLOBAL ID:201101061413723464
Update date: Apr. 20, 2024
Nakagawa-Tamagawa Nao
タマガワ(ナカガワ) ナオ | Nakagawa-Tamagawa Nao
Affiliation and department:
Job title:
Assistant professor
Other affiliations (2):
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RIKEN CBS
Laboratory for Molecular Analysis of Higher Brain Function
Visiting scientist
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The University of Tokyo
Biomolecular and Cellular Engineering Laboratory, Institute of Industrial Science
Associate Research Fellow
Homepage URL (1):
http://bsi.riken.jp/jp/youth/people/nao_nakagawa01.html
Research field (1):
Neuroscience - general
Research keywords (3):
チャネル病
, Neocortal circuit formation
, gap junction
Research theme for competitive and other funds (19):
- 2024 - 2026 Elucidation of the mechanism for determining and maintaining neuronal polarity through analysis of intracellular molecular structural dynamics
- 2023 - 2026 大脳皮質視覚野臨界期の神経可塑性における乳酸代謝の寄与の解明
- 2022 - 2025 Design and Build of Brain by Emergence and Transition of Multidimensional Spontaneous Activity
- 2022 - 2025 Interhemispheric projection control by modulating neural activity levels during development
- 2022 - 2023 Elucidation of the mechanism of fate determination and developmental regulation of nerve fibers by Ca2+.
- 2022 - 2023 The Ca2+-dependent Regulatory Mechanism of Nerve Fiber Fate Determination and Development
- 2022 - 2023 Development of a graphic and stochastic gap junction locating method
- 2020 - 2023 Role of spontaneous synchronous activity in cortical circuit formation by neonatal bioimaging
- 2021 - 2022 Regulatory mechanism of cell type-specific synchronous activity in the developing neocortex
- 2022 - 認知柔軟性に関わる大脳神経機構の分子生物学、生理学、解剖学的解析
- 2022 - Involvement of Calcium-Dependent Pathway and β Subunit-Interaction in Neuronal Migration and Callosal Projection Deficits Caused by the Cav1.2 I1166T Mutation in Developing Mouse Neocortex (paper title)
- 2019 - 2022 Role of gap junction network in the formation of cell type-specific neural circuits during development
- 2019 - 2021 Neural circuit formation of the developmental cortical gap junction network and its involvement in psychiatric disorders
- 2019 - 2021 Regulation of neural circuit formation by the gap junction network in the developing neocortex
- 2019 - 2020 Elucidating a complete picture of gap junction networks formed by excitatory neurons in the developing neocortex
- 2020 - Slow Dynamics in Microcolumnar Gap Junction Network of Developing Neocortical Pyramidal Neurons
- 2019 - Involvement of neonatal cortical gap junction network in psychiatric disorders and its pathogenic mechanism
- 2016 - 2019 The formation of fundamental neocortical circuits by the gap junctional network in layer 5
- 2017 - “Involvement of gap junctions in the function of microcolumns in neocortex”
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Papers (9):
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Tatsuya Osaki, Tomoya Duenki, Siu Yu A. Chow, Yasuhiro Ikegami, Romain Beaubois, Timothée Levi, Nao Nakagawa-Tamagawa, Yoji Hirano, Yoshiho Ikeuchi. Complex activity and short-term plasticity of human cerebral organoids reciprocally connected with axons. Nature Communications. 2024. 15. 2945
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Nao Nakagawa-Tamagawa, Takamitsu Egashira, Madhura S. Rao, Hidenobu Mizuno. In Vivo Visualization of Spontaneous Activity in Neonatal Mouse Sensory Cortex at a Single-neuron Resolution. Journal of Visualized Experiments. 2023. 201
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Egashira T, Nakagawa-Tamagawa N, Abzhanova E, Kawae Y, Kohara A, Koitabashi R, Mizuno Hir, Mizuno H. In vivo two-photon calcium imaging of cortical neurons in neonatal mice. STAR protocols. 2023. 4. 102245
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Nao Nakagawa-Tamagawa, Emi Kirino, Kohtaroh Sugao, Hidetaka Nagata, Yoshiaki Tagawa. Involvement of Calcium-Dependent Pathway and β Subunit-Interaction in Neuronal Migration and Callosal Projection Deficits Caused by the Cav1.2 I1166T Mutation in Developing Mouse Neocortex. Frontiers in Neuroscience. 2021. 15. 747951
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Nao Nakagawa, Toshihiko Hosoya. Slow Dynamics in Microcolumnar Gap Junction Network of Developing Neocortical Pyramidal Neurons. Neuroscience. 2019. 406. 2019. 554-562
more...
MISC (2):
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中川 直. 『公益信託児玉記念基礎医学研究助成基金 優秀論文賞』を受賞して. 医学部医師会報 第40号 令和2年度(鹿児島大学). 2020
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Nao Nakagawa, Yumiko Yoshimura. Subcellular localization of intracortical excitatory synaptic inputs onto layer 2/3 pyramidal neurons in neocortex. NEUROSCIENCE RESEARCH. 2010. 68. E336-E336
Lectures and oral presentations (38):
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Cell type-specific gap junction network of excitatory neurons in the developing neocortex
(CNS 2022 2022)
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Gain-of-function Mutations in Cav1.2 and Nav1.2 Disrupt Circuit Formation in Different Manners in the Mouse Cerebral Cortex
(2022)
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Timothy Syndrome-associated Cav1.2 mutations and DEE11-associated Nav1.2 mutations impair neuronal circuit formation in different manners in mouse neocortex
(Neuro2022 2022)
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The I1166T mutation in Cav1.2 associated with Timothy Syndrome impairs neuronal migration and callosal projections in developing mouse neocortex
(2022)
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Callosal axons show dynamic morphological changes in juvenile mice ~in vivo time-lapse imaging study~
(Symposium “Circuit Construction in the Mammalian Brain” 2021)
more...
Education (2):
- 2006 - 2011 The Graduate University for Advanced Studies (SOKENDAI) School of Life Science Department of Physiological Sciences (belongs to NIPS)
- 2002 - 2006 University of Tsukuba Bachelor of Science in Biology
Professional career (1):
- Doctor of Philosophy (The Graduate University for Advanced Studies)
Work history (5):
- 2022/07 - 現在 The University of Tokyo Biomolecular and Cellular Engineering Lab, Institute of Industrial Science Associate Research Fellow
- 2018/05 - 現在 Graduate School of Medical and Dental Sciences, Kagoshima Univ. Assistant professor
- 2019/04 - 2023/03 RIKEN CBS Laboratory for Molecular Analysis of Higher Brain Function Visiting scientist
- 2018/05 - 2019/03 RIKEN CBS Laboratory for Local Neuronal Circuits Visiting scientist
- 2011/04 - 2018/04 RIKEN BSI Laboratory for Local Neuronal Circuits Researcher
Committee career (1):
- 2017 - 現在 Japan Neuroscience Society BrainBee Committee
Awards (4):
- 2021/09 - Chinese Neuroscience Society JNS-CNS Exchange Travel Award
- 2020/02 - Kodama Memorial Fund for Medical Research Best Paper Award
- 2018/06 - RIKEN EIHO Award
- 2018/03 - RIKEN RIKEN Research and Technology Incentive Awards Lattice system of functionally distinct cell types in the neocortex
Association Membership(s) (3):
The Physiological Society of Japan
, Society for Neuroscience
, THE JAPAN NEUROSCIENCE SOCIETY
