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Nakagawa Naoki  中川 直樹

ORCIDConnect your ORCID iD *help
Researcher Number 30835426
Other IDs
Affiliation (Current) 2025: 京都大学, 医学研究科, 准教授
Affiliation (based on the past Project Information) *help 2025: 京都大学, 医学研究科, 准教授
2019 – 2024: 国立遺伝学研究所, 遺伝形質研究系, 助教
Review Section/Research Field
Principal Investigator
Transformative Research Areas, Section (III) / Basic Section 46020:Anatomy and histopathology of nervous system-related / Basic Section 46010:Neuroscience-general-related
Keywords
Principal Investigator
バレル皮質 / 神経回路形成 / ゴルジ体 / 樹状突起精緻化 / 大脳皮質神経回路 / 臨界期 / 生後発達 / シングルセルRNA-seq / 分化不均一性 / 神経回路再編 … More / in vivoイメージング / 単一細胞動態追跡 / 生後脳発達 / 樹状突起 / 大脳皮質カラム / 細胞極性 / 大脳皮質 / 生体イメージング / 神経科学 Less
  • Research Projects

    (7 results)
  • Research Products

    (22 results)
  • Co-Researchers

    (1 People)
  •  大脳皮質カラムの反応特異性を成立させる発達期の細胞内メカニズム解明Principal Investigator

    • Principal Investigator
      中川 直樹
    • Project Period (FY)
      2024 – 2026
    • Research Category
      Grant-in-Aid for Scientific Research (B)
    • Review Section
      Basic Section 46010:Neuroscience-general-related
    • Research Institution
      National Institute of Genetics
  •  分化状態と遺伝子発現の多重プロファイリングによる適応回路構築機構の解読Principal Investigator

    • Principal Investigator
      中川 直樹
    • Project Period (FY)
      2024 – 2025
    • Research Category
      Grant-in-Aid for Transformative Research Areas (A)
    • Review Section
      Transformative Research Areas, Section (III)
    • Research Institution
      Kyoto University
      National Institute of Genetics
  •  ゴルジ体局在動態から紐解く発達期の臨界期回路再編メカニズムPrincipal Investigator

    • Principal Investigator
      中川 直樹
    • Project Period (FY)
      2023 – 2024
    • Research Category
      Grant-in-Aid for Transformative Research Areas (A)
    • Review Section
      Transformative Research Areas, Section (III)
    • Research Institution
      National Institute of Genetics
  •  分化状態の細胞間格差プロファイリングによる適応回路構築機構の解読Principal Investigator

    • Principal Investigator
      中川 直樹
    • Project Period (FY)
      2022 – 2023
    • Research Category
      Grant-in-Aid for Transformative Research Areas (A)
    • Review Section
      Transformative Research Areas, Section (III)
    • Research Institution
      National Institute of Genetics
  •  Visualization of cortical module formation by longitudinal in vivo neuron trackingPrincipal Investigator

    • Principal Investigator
      Nakagawa Naoki
    • Project Period (FY)
      2021 – 2023
    • Research Category
      Grant-in-Aid for Early-Career Scientists
    • Review Section
      Basic Section 46020:Anatomy and histopathology of nervous system-related
    • Research Institution
      National Institute of Genetics
  •  オルガネラ動態から紐解く発達期の臨界期回路再編メカニズムPrincipal Investigator

    • Principal Investigator
      中川 直樹
    • Project Period (FY)
      2021 – 2022
    • Research Category
      Grant-in-Aid for Transformative Research Areas (A)
    • Review Section
      Transformative Research Areas, Section (III)
    • Research Institution
      National Institute of Genetics
  •  Visualization of the spatial remodeling of cortical neurons during postnatal module formationPrincipal Investigator

    • Principal Investigator
      Nakagawa Naoki
    • Project Period (FY)
      2019 – 2021
    • Research Category
      Grant-in-Aid for Early-Career Scientists
    • Review Section
      Basic Section 46020:Anatomy and histopathology of nervous system-related
    • Research Institution
      National Institute of Genetics

All 2023 2022 2021 2020 2019

All Journal Article Presentation

  • [Journal Article] Golgi polarity shift instructs dendritic refinement in the neonatal cortex by mediating NMDA receptor signaling2023

    • Author(s)
      Nakagawa Naoki、Iwasato Takuji
    • Journal Title

      Cell Reports

      Volume: 42 Issue: 8 Pages: 112843-112843

    • DOI

      10.1016/j.celrep.2023.112843

    • Peer Reviewed / Open Access
    • Data Source
      KAKENHI-PROJECT-21K18245, KAKENHI-PROJECT-21K15199, KAKENHI-PROJECT-20H03346
  • [Presentation] Golgi polarity shift instructs thalamocortical module formation in the neonatal barrel cortex2023

    • Author(s)
      Naoki Nakagawa
    • Organizer
      第38回熊本医学・生物科学国際シンポジウム「機能的脳神経回路システムの構築メカニズム」
    • Invited / Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Direct visualization of cortical column formation by longitudinal in vivo neuron tracking2023

    • Author(s)
      Naoki Nakagawa, Shingo Nakazawa, Takuji Iwasato
    • Organizer
      第46回日本神経科学大会
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Golgi apparatus polarization facilitates dendritic refinement in the developing neocortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Neuroscience 2022 (Society for Neuroscience)
    • Int'l Joint Research
    • Data Source
      KAKENHI-PUBLICLY-22H05518
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the developing mouse barrel cortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第45回日本神経科学大会
    • Data Source
      KAKENHI-PUBLICLY-22H05518
  • [Presentation] Golgi apparatus polarity shift facilitates dendritic refinement in the neonatal barrel cortex2022

    • Author(s)
      Naoki Nakagawa
    • Organizer
      Development and Plasticity of the Brain
    • Invited / Int'l Joint Research
    • Data Source
      KAKENHI-PUBLICLY-22H05518
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the developing mouse barrel cortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第45回 日本神経科学大会
    • Data Source
      KAKENHI-PUBLICLY-21H05702
  • [Presentation] Golgi apparatus polarity shift facilitates dendritic refinement in the neonatal barrel cortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Development and Plasticity of the Brain
    • Invited / Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the developing mouse barrel cortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第45回 日本神経科学大会
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Golgi apparatus polarization facilitates dendritic refinement in the developing neocortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Neuroscience 2022 (Society for Neuroscience)
    • Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Golgi apparatus polarity shift facilitates dendritic refinement in the neonatal barrel cortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Development and Plasticity of the Brain
    • Invited / Int'l Joint Research
    • Data Source
      KAKENHI-PUBLICLY-21H05702
  • [Presentation] Golgi apparatus polarization facilitates dendritic refinement in the developing neocortex2022

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Neuroscience 2022 (Society for Neuroscience)
    • Int'l Joint Research
    • Data Source
      KAKENHI-PUBLICLY-21H05702
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the neonatal mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa
    • Organizer
      Symposium "Circuit Construction in the Mammalian Brain”
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Developmental dynamics of the Golgi apparatus regulate dendritic refinement in the mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第44回 日本神経科学大会
    • Data Source
      KAKENHI-PUBLICLY-21H05702
  • [Presentation] ゴルジ体ダイナミクスによる大脳皮質神経細胞の樹状突起精緻化2021

    • Author(s)
      中川直樹
    • Organizer
      第14回 神経発生討論会
    • Data Source
      KAKENHI-PROJECT-19K16281
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the neonatal mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      Symposium "Circuit Construction in the Mammalian Brain”
    • Data Source
      KAKENHI-PUBLICLY-21H05702
  • [Presentation] Developmental dynamics of the Golgi apparatus regulate dendritic refinement in the mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第44回 日本神経科学大会
    • Data Source
      KAKENHI-PROJECT-21K15199
  • [Presentation] Developmental dynamics of the Golgi apparatus regulate dendritic refinement in the mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      第44回 日本神経科学大会
    • Data Source
      KAKENHI-PROJECT-19K16281
  • [Presentation] Activity-regulated positioning of the Golgi apparatus facilitates dendritic refinement in the neonatal mouse barrel cortex2021

    • Author(s)
      Naoki Nakagawa
    • Organizer
      Symposium “Circuit Construction in the Mammalian Brain”
    • Data Source
      KAKENHI-PROJECT-19K16281
  • [Presentation] Long-term in vivo imaging of spatial remodeling of cortical L4 neurons for the barrel module formation2020

    • Author(s)
      Naoki Nakagawa, Shingo Nakazawa, Takuji Iwasato
    • Organizer
      第43回 日本神経科学大会
    • Data Source
      KAKENHI-PROJECT-19K16281
  • [Presentation] Spatial remodeling and organelle dynamics of L4 neurons during thalamocortical module formation in the mouse barrel cortex2020

    • Author(s)
      Naoki Nakagawa
    • Organizer
      NIG Symposium “Circuit Construction in the Mammalian Brain”
    • Invited
    • Data Source
      KAKENHI-PROJECT-19K16281
  • [Presentation] Long-term in vivo imaging of neuronal spatial remodeling during the barrel column formation2019

    • Author(s)
      Naoki Nakagawa, Takuji Iwasato
    • Organizer
      New Frontier in Neuroscience 2020
    • Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-19K16281
  • 1.  岩里 琢治
    # of Collaborated Projects: 0 results
    # of Collaborated Products: 1 results

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