Research field (2):
Biophysics
, Neuroscience - general
Research keywords (11):
iPS cells
, Tau
, Alzheimer's disease
, Neuroscience
, Biophysics
, 神経細胞生理学
, epilepsy
, Quantum dot
, Single molecule imaging
, Synaptic plasticity
, Neurobiology
Research theme for competitive and other funds (22):
2023 - 2026 1分子動態解析による揮発性麻酔薬の作用機序の解明
2021 - 2026 Research on the mechanism of Alzheimer's disease by the analysis of the single-molecule dynamics
2023 - 2025 Study of the starting point and diversity of Tauopathy by single-molecule measurement
2020 - 2025 Regulation of synaptic and non-synaptic functions by extracellular scaffolding proteins
2020 - 2025 Regulation of synaptic and non-synaptic functions by extracellular scaffolding proteins
2020 - 2023 外界刺激へ応答するCblnファミリーを介した脳回路制御機構
2018 - 2023 Research on the molecular mechanism of singularity phenomenon in neurological disorders
2019 - 2022 膜受容体の流動性とシグナル伝達の関係性から見た揮発性麻酔薬作用機序の解明
2016 - 2020 Spatial separation and decoding of brain cell calcium signals
2017 - 2019 Single-molecule imaging approach to the mechanism of the cytotoxitity of aggregated proteins
2015 - 2018 Project to create international glial researcher network: mainly focusing on Japan-Germany research exchange
2015 - 2018 細胞膜分子動態1分子解析による細胞の個性の解読
2014 - 2016 グリア細胞カルシウムシグナルの進化的意義の解明
2013 - 2016 Physiological and Molecular Biological Studies on Mechanisms underlying Acquisition of Audition during Development
2013 - 2015 ゼブラフィッシュをモデルとしたグリア細胞の生理的役割と進化的意義の研究
2012 - 2014 グリア細胞カルシウムシグナルの制御機構と生理的役割の解明
2012 - 2013 グリア細胞カルシウムシグナルの空間的制御機構の解明
2008 - 2011 Studies on the physiological or pathological neuronal regulation based on the receptor dynamics and calcium signals
2007 - 2010 量子ドット1分子イメージングによるシナプス可塑性の分子機構の解明
2006 - 2008 1分子イメージングによるシナプス可塑性の研究
2004 - 2006 IP_3/Ca^<2+>シグナリングの空間的制御機構の研究
2002 - 2002 神経細胞樹状突起におけるERの動態
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Papers (35):
Bannai H, Niwa F, Sakuragi S, Mikoshiba K. Inhibitory Synaptic Transmission Tuned by Ca2+ and Glutamate Through the Control of GABAAR Lateral Diffusion Dynamics. Dev. Growth Differ. 2020
Bannai, H, Hirose, M, Niwa, F, Mikoshiba, K. Dissection of Local Ca2+ Signals in Cultured Cells by Membrane-targeted Ca2+ Indicators. J. Vis. Exp. 2020. 145. e59246
Hiroko Bannai, Takafumi Inoue, Matsumi Hirose, Fumihiro Niwa, Katsuhiko Mikoshiba. Synaptic Function and Neuropathological Disease Revealed by Quantum Dot-Single-Particle Tracking. Neuromethods. 2020. 131-155
Bannai Hiroko, Niwa Fumihiro, Triller Antoine, Mikoshiba Katsuhiko. 3SDA-01 Watch the "membrane protein behavior" to know the "intracellular signaling pathway"(Cutting-Edge Optical Imaging Approaches and Raman Micro-Spectroscopy Pioneering Bio-Physics,Symposium,The 52th Annual Meeting of the Biophysical Society of Japan(B. Biophysics. 2014. 54. 1. S138
Bannai Hiroko, Niwa Fumihiro, Triller Antoine, Mikoshiba Katsuhiko. 3SBA-01 Origin-dependent opposite effect of Ca^<2+> on the regulation of inhibitory GABA_A receptor diffusion dynamics : a single molecule study(3SBA Cutting-edge optical imaging approach to neuroscience -From single molecule to in vivo-,Symposium,The 51t. Biophysics. 2013. 53. 1. S101
F. Niwa, H. Bannai, M. Arizono, K. Fukatsu, A. Triller, K. Mikoshiba. Gephyrin-independent GABAAR mobility and clustering during plasticity. JOURNAL OF NEUROCHEMISTRY. 2012. 123. 59-60
BANNAI Hiroko. Biophysics Opens up the Future of Brain Science. Seibutsu Butsuri. 2012. 52. 2. 112-113
Calcium-dependent tuning of inhibitory neurotransmission based on GABAAR diffusion dynamics.
(Gordon Research Conference in Calcium Signalling (Lucca, Italy) 2009)
La dynamique des recepteurs détermine la transmission synaptique (受容体ダイナミクスがシナプス伝達を決める)
(la 26eme Rencontre Scientifique Francophone de Tokyo 2009)
Approach to synaptic plasticity by single molecule imaging
(第47回日本生物物理学会年会 (シンポウジウム Cutting-edge approach to studying neural circuits) 2009)
