Research theme for competitive and other funds (6):
2020 - 2023 Role of glial cells on the symptoms of neuropsychiatric disorders in syntaxin1 gene ablated mice
2016 - 2018 グリア細胞のシンタキシン1による神経細胞-グリア細胞間相互作用の解明
2013 - 2016 Role for ER stress responsive ER-Golgi SNARE in processing of Alzheimer`s disease-related protein and autophagy
2012 - 2015 シンタキシン1アイソフォームのシナプス伝達における機能分化
2007 - 2009 自閉症モデル動物としてのシンタキシン1遺伝子ノックアウトマウスの解析
2003 - Research on the mechanism of exocytosis
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Papers (14):
Tatsuya Mishima, Kenta Komano, Marie Tabaru, Takefumi Kofuji, Ayako Saito, Yoshikazu Ugawa, Yasuo Terao. Repetitive pulsed-wave ultrasound stimulation suppresses neural activity by modulating ambient GABA levels via effects on astrocytes. Frontiers in cellular neuroscience. 2024. 18. 1361242-1361242
Tomonori Fujiwara, Takefumi Kofuji, Kimio Akagawa. Disturbance of the reciprocal-interaction between the OXTergic and DAergic systems in the CNS causes atypical social behavior in syntaxin 1A knockout mice. Behavioural brain research. 2021. 413. 113447-113447
Tatsuya Mishima, Tomonori Fujiwara, Takefumi Kofuji, Ayako Saito, Yasuo Terao, Kimio Akagawa. Syntaxin 1B regulates synaptic GABA release and extracellular GABA concentration, and is associated with temperature-dependent seizures. Journal of neurochemistry. 2020
T. Kofuji, T. Fujiwara, M. Sanada, T. Mishima, K. Akagawa. Glial cells from STX1B-KO mice were less effective on neuronal survival than WT. JOURNAL OF NEUROCHEMISTRY. 2012. 123. 92-92
Tatsuya Mishima, Tomonori Fujiwara, Masumi Sanada, Takefumi Kofuji, Kimio Akagawa. A study on the neuronal phenotype of syntaxin1B knockout mice: Implication of differential role of syntaxin1A and syntaxin1B in synaptic transmission. NEUROSCIENCE RESEARCH. 2011. 71. E109-E109
Takefumi Kofuji, Tomonori Fujiwara, Masumi Sanada, Tatsuya Mishima, Kimio Akagawa. Distinct roles of HPC-1/STX1A and STX1B in neuronal survival. NEUROSCIENCE RESEARCH. 2011. 71. E221-E221
Tomonori Fujiwara, Masumi Sanada, Takefumi Kofuji, Tatsuya Mishima, Kimio Akagawa. A study on the phenotype of syntaxin1B knockout mice. NEUROSCIENCE RESEARCH. 2010. 68. E355-E355
Tatsuya Mishima, Tomonori Fujiwara, Takefumi Kofuji, Kimio Akagawa. Impaired induction of long-term potentiation in HPC-1/syntaxin 1A knockout mice may be due to altered catecholaminergic system. NEUROSCIENCE RESEARCH. 2010. 68. E341-E341
Society for Neuroscience
, JAPAN RADIOISOTOPE ASSOCIATION
, 日本神経化学会
, 日本神経科学学会
, The Japanese Society for Neurochemistry
, The Japan Neuroscience Society