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Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-2

線虫神経回路における意思決定、学習と記憶のデコーディング
Decoding of decision-making, learning and memory in the neural circuits of the nematode C. elegans

  • 森 郁恵 / Ikue Mori:1 
  • 1:名古屋大学 / Nagoya University, Japan 

Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-3

ショウジョウバエをモデルに用いた全脳神経コネクトミクス
Brain wide connectomics analysis of using Drosophila as a model

  • 伊藤 啓 / Kei Ito:1 谷村 純 / Jun Tanimura: ムルタン クロエ / Chloe Murtin: 伊藤 正芳 / Masayoshi Ito: 
  • 1:東京大院分生研 / Institute of Molecular and Cellular Biosciences, University of Tokyo, Japan 

Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-4

触角の動きパターンはショウジョウバエの脳内で空間表現される
A spatial representation of the pattern of antennal movement in the fruit-fly brain

  • 上川内 あづさ / Azusa Kamikouchi:1,2 松尾 絵倫子 / Eriko Matsuo:1 山田 大智 / Daichi Yamada:1 
  • 1:名古屋大学 / Nagoya University, Japan 2:科学技術振興機構さきがけ / PREST, Japan Science and Technology Agency, Japan 

Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-5

To turn left or right? A circuit motif for a two alternative behavioral choice in the zebrafish hindbrain

  • Minoru Koyama:1,2 Francesca Minale:3 Jennifer Shum:3 Nozomi Nishimura:3 Chris B Scahffer:3 Joseph Fetcho:2 
  • 1:HHMI/Janelia Farm, Ashuburn, VA, USA 2:Department of Neurobiology and Behavior, Cornell University, Ithaca, NY, USA 3:Department of Biomedical Engineering, Cornell University, Ithaca, NY, USA 

Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-6

Interrogation of whole-brain function in zebrafish at neuron-level resolution

  • Misha Ahrens:1 
  • 1:Janelia Research Campus, Howard Hughes Medical Institute, USA 

Symposium


小規模モデル動物による脳機能の基本原理へのアプローチ
Elucidation of principle of neural circuits using small circuits

  • Place:Room F(302)
  • Time:2014/9/12 17:10 - 19:10
  • S2-F-3-7

Neural circuits underlying operant learning in larval zebrafish

  • Florian Engert:1 
  • 1:Harvard University, USA 

Symposium


神経シグナルの放出と受容の新規分子機構
Novel molecular mechanisms of release and catch of neural signals

  • Place:Room G(303)
  • Time:2014/9/12 17:10 - 19:10
  • S2-G-2-1

Transsynaptic channelosome: Non-conducting role of voltage gated calcium channels for presynaptic differentiation

  • Hiroshi Nishimune:1 
  • 1:Dept. Anatomy and Cell Biology, Univ of Kansas, Sch of Medicine, Kansas City, USA 

Symposium


神経シグナルの放出と受容の新規分子機構
Novel molecular mechanisms of release and catch of neural signals

  • Place:Room G(303)
  • Time:2014/9/12 17:10 - 19:10
  • S2-G-2-2

新規電位依存性ATP透過性イオンチャネルファミリー Calcium homeostasis modulator
Calcium homeostasis modulator (CALHM) ion channel family encoding voltage-gated ATP release ion channels involved in non-synaptic purinergic neurotransmission

  • 樽野 陽幸 / Akiyuki Taruno:1 Foskett J. Kevin / J. Kevin Foskett:2 丸中 良典 / Yoshinori Marunaka:1 
  • 1:京府医大院医細胞生理 / Dept Mol Cell Physiol, Kyoto Prefect Univ Med, Kyoto, Japan 2:Dept Physiol, Univ of Pennsylvania, Philadelphia, PA, USA / Dept Physiol, Univ of Pennsylvania, Philadelphia, PA, USA 

Symposium


神経シグナルの放出と受容の新規分子機構
Novel molecular mechanisms of release and catch of neural signals

  • Place:Room G(303)
  • Time:2014/9/12 17:10 - 19:10
  • S2-G-2-3

3量体ATP受容体チャネルP2X2の分子内における活性化シグナルの伝達と膜電位依存性構造変化
Activation signal transmission within the trimeric ATP receptor channel P2X2 and the voltage- dependent structural rearrangements

  • 久保 義弘 / Yoshihiro Kubo:1 Keceli Batu / Batu Keceli:1 
  • 1:生理研・神経機能素子 / Div Biophys and Neurobiol, Natl Inst for Physiol Sci, Aichi, Japan 

Symposium


神経シグナルの放出と受容の新規分子機構
Novel molecular mechanisms of release and catch of neural signals

  • Place:Room G(303)
  • Time:2014/9/12 17:10 - 19:10
  • S2-G-2-4

神経系の新規酸素受容体
Novel oxygen receptors in neurons

  • 森 泰生 / Yasuo Mori:1 
  • 1:京都大学 / Grad Sch Eng & Envir Studies, Kyoto Univ, Kyoto, Japan 

Symposium


神経科学学会-神経学会合同シンポジウム:Neuroimmunology Cutting Edge Symposium: Mechanisms of Immune-mediated Neurological Disease
Joint Symposium of the Japan Neuroscience Society and the Japanese Society of Neurology:Neuroimmunology Cutting Edge Symposium:
Mechanisms of Immune-mediated Neurological Disease

  • Place:Room A(Main Hall)
  • Time:2014/9/13 9:00 - 11:00
  • S3-A-1-1

脱髄性疾患におけるコネキシン、栄養トランスポーターを介するグリアシンシチウムの破綻
Early Disruption of the Glial Syncytium via Connexins and Energy Transporters in Demyelinating Disorders

  • 吉良 潤一 / Jun-ichi Kira:1 真崎 勝久 / Katsuhisa Masaki:1 
  • 1:九州大学 / Kyushu University, Japan 

Symposium


神経科学学会-神経学会合同シンポジウム:Neuroimmunology Cutting Edge Symposium: Mechanisms of Immune-mediated Neurological Disease
Joint Symposium of the Japan Neuroscience Society and the Japanese Society of Neurology:Neuroimmunology Cutting Edge Symposium:
Mechanisms of Immune-mediated Neurological Disease

  • Place:Room A(Main Hall)
  • Time:2014/9/13 9:00 - 11:00
  • S3-A-1-2

ギラン・バレー症候群と抗ガングリオシド抗体
Guillain-Barré syndrome and anti-ganglioside antibodies: a clinician-scientist’s journey

  • 結城 伸泰 / Nobuhiro Yuki:1 
  • 1:シンガポール国立大学、シンガポール / Dept Med, National University of Singapore, Singapore 

Symposium


神経科学学会-神経学会合同シンポジウム:Neuroimmunology Cutting Edge Symposium: Mechanisms of Immune-mediated Neurological Disease
Joint Symposium of the Japan Neuroscience Society and the Japanese Society of Neurology:Neuroimmunology Cutting Edge Symposium:
Mechanisms of Immune-mediated Neurological Disease

  • Place:Room A(Main Hall)
  • Time:2014/9/13 9:00 - 11:00
  • S3-A-1-3

免疫介在性チャネロパチーの病態メカニズム
Immue-mediated channelopathy in neuroimmunological diseases

  • 渡邊 修 / Osamu Watanabe:1 
  • 1:鹿児島大学大学院医歯学総合研究科 / Depat Neurol, Univ of Kagoshima, Kagoshima, Japan 

Symposium


神経科学学会-神経学会合同シンポジウム:Neuroimmunology Cutting Edge Symposium: Mechanisms of Immune-mediated Neurological Disease
Joint Symposium of the Japan Neuroscience Society and the Japanese Society of Neurology:Neuroimmunology Cutting Edge Symposium:
Mechanisms of Immune-mediated Neurological Disease

  • Place:Room A(Main Hall)
  • Time:2014/9/13 9:00 - 11:00
  • S3-A-1-4

自己免疫を介したneurovascular unitの破綻メカニズム
Immune-mediated disruption of neurovascular units in neuroimmunological diseases

  • 神田 隆 / Takashi Kanda:1 
  • 1:山口大学大学院医学系研究科神経内科学 / Department of Neurology and Clinical Neuroscience, Yamaguchi University Graduate School of Medicine, Japan 

Symposium


直接路・間接路モデルから25年:大脳基底核の包括的理解を目指して
Quarter Century after the Direct and Indirect Pathways: Towards Comprehensive Understandings of the Basal Ganglia

  • Place:Room B(501)
  • Time:2014/9/13 9:00 - 11:00
  • S3-B-1-1

Cell type-specific plasticity of striatal projection neurons in parkinsonism and L-DOPA-induced dyskinesia

  • Dalton James Surmeier, Jr.:1 
  • 1:Department of Physiology, Northwestern University, Feinberg School of Medicine, USA 

Symposium


直接路・間接路モデルから25年:大脳基底核の包括的理解を目指して
Quarter Century after the Direct and Indirect Pathways: Towards Comprehensive Understandings of the Basal Ganglia

  • Place:Room B(501)
  • Time:2014/9/13 9:00 - 11:00
  • S3-B-1-2

解剖学的に見た大脳基底核の微細回路:皮質投射との関連から
Anatomical aspect of the basal ganglia circuitry, in relation to cortical projection

  • 苅部 冬紀 / Fuyuki Karube:1,2 藤山 文乃 / Fumino Fujiyama:1,2 
  • 1:同志社大学・脳科学研究科 / Graduate School of Brain Science, Doshisha University, Kyoto, Japan 2:CREST, JST / CREST, JST, Tokyo, Japan 

Symposium


直接路・間接路モデルから25年:大脳基底核の包括的理解を目指して
Quarter Century after the Direct and Indirect Pathways: Towards Comprehensive Understandings of the Basal Ganglia

  • Place:Room B(501)
  • Time:2014/9/13 9:00 - 11:00
  • S3-B-1-3

Motor and reward information in direct and indirect pathway neurons

  • 礒村 宜和 / Yoshikazu Isomura:1,2 
  • 1:玉川大学 / Tamagawa University, Japan 2:JST CREST / JST CREST, Tokyo, Japan 

Symposium


直接路・間接路モデルから25年:大脳基底核の包括的理解を目指して
Quarter Century after the Direct and Indirect Pathways: Towards Comprehensive Understandings of the Basal Ganglia

  • Place:Room B(501)
  • Time:2014/9/13 9:00 - 11:00
  • S3-B-1-4

線条体におけるD1およびD2受容体を介したドーパミン神経伝達の機能
What does dopamine tell striatal neurons through D1 and D2 receptors?

  • 知見 聡美 / Satomi Chiken:1 
  • 1:自然科学研究機構 生理学研究所 / Div Syst Neurophysiol, Natl Inst Physiol Sci, and Grad Univ Adv Studies, Okazaki, Japan 

Symposium


直接路・間接路モデルから25年:大脳基底核の包括的理解を目指して
Quarter Century after the Direct and Indirect Pathways: Towards Comprehensive Understandings of the Basal Ganglia

  • Place:Room B(501)
  • Time:2014/9/13 9:00 - 11:00
  • S3-B-1-5

Neuro-computational modeling of synaptic plasticity in multiple basal ganglia pathways

  • Fred Hamker:1,3 Javier Baladron Pezoa:1 Henning Schroll:1,2,3 
  • 1:Chemnitz University of Technology, Germany 2:Neurology, Charité - Universitätsmedizin Berlin, Germany 3:Bernstein Center for Computational Neuroscience, Germany 

Symposium


超高解像度顕微鏡による脳の基本原理へのアプローチー現状と今後の展開ー
Super-resolution microscopy: nano-scale spotlight for discovery of new principle in brain operation

  • Place:Room C(502)
  • Time:2014/9/13 9:00 - 11:00
  • S3-C-1-1

超解像顕微鏡法によるシナプス機能を担う分子構築の解明
Supreresolution microscopy reveals molecular anatomy regulating synaptic functions

  • 廣瀬 謙造 / Kenzo Hirose:1 
  • 1:東京大学 / The University of Tokyo, Japan 

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