Rchr

J-GLOBAL ID：200901014345592635 Update date: Feb. 01, 2024

ishihara takeshi

Affiliation and department：
Homepage URL (1)： http://www.biology.kyushu-u.ac.jp/~bunsiide/

Research field (3)： Neuroscience - general , Genetics , Molecular biology

Research keywords (31)：包括脳ネットワーク , プロテア-ゼ , 神経分化 , 遺伝子 , カルシウムイオン , 記憶 , 行動異常 , タンパク質キナ-ゼ , 嗅覚 , グルタミン酸受容体 , 受容体 , 発生 , 脳 , 感覚情報 , LDL受容体モチーフ , 連合学習 , 神経 , 分子生物学 , 神経機能 , チロシンキナーゼ , 走化性 , 順応 , 変異体 , 線虫C.elegans , 神経回路 , 情報処理 , 遺伝学 , C.elegans , 行動 , 学習 , 線虫

Research theme for competitive and other funds (43)：

2019 - 2023 Mechanisms for forgetting in olfactory learning in C. elegans
2017 - 2022 Towards thorough understanding of molecular and neural circuit basis of behavioral switch
2016 - 2021 Whole brain imaging of C. elegans to reveal the neural basis of exploratory navigation
2018 - 2020 行動の頑健性と柔軟性を制御する神経回路動態の可視化と機能制御
2017 - 2018 Study of Molecular and Neural Circuit Mechanisms for Behavioral Switching

2013 - 2018 Principles of memory dynamics elucidated from a diversity of learning systems

2013 - 2018 Memory dynamism elucidated by studying on the mechanisms of forgetting in C. elegans

2014 - 2016 Development of new inverse-type calcium probe for analysis of inhibitory neuronal activities

2010 - 2016 Comprehensive Brain Science Network

2012 - 2015 Establishing a new method to analyze neuronal activities of all individual neurons of C. elegans CNS.

2012 - 2015 Genetic analysis of mechanisms for spontaneous activities in the C. elegans central nervous system

2013 - 2014 線虫をモデルとした忘却を促進する神経回路の解明

2011 - 2014 Genetic analyses of the molecular and neuronal mechanisms for the regulation of forgetting

2008 - 2014 Systems molecular ethology to understand the operating principle of the nervous system

2008 - 2012 Regulatory mechanisms for the sensory processing in the neuronal circuit

2007 - 2009 線虫C.elegansをモデルとした記憶を忘れるメカニズムの分子遺伝学的解析

2006 - 2009 Mechanisms of Sensory Processing in C.elegans Neuronal Circuits.

2006 - 2007 情報の統合と連合学習の素過程の制御を担う神経回路と分子機構

2005 - 2006 Molecular bases of chemotaxisis behavior in C. elegans

2005 - 2005 神経回路における感覚情報統合と連合学習の制御に関わる分子機構の解析

2004 - 2005 Regulatory mechanisms of higher neuronal function in nematode C.elegans.

2004 - 2004 線虫C.elegansの行動の中心的制御遺伝子の探索

2004 - 2004 感覚情報の統合と連合学習の制御に関する情報伝達系の解析

2003 - 2004 線虫C.elegansの神経回路における感覚情報処理の基礎過程の解析

2003 - 2003 連合学習の成立過程における感覚情報統合の制御に関わる新規分子の探索と機能解析

2002 - 2003 Analyses of molecular mechanisms of sensory processing in C.elegans

2000 - 2003 MOLECULAR BIOLOGICAL ANALYSES OF THE BEHAVIORS OF THE NEMATODE C.ELEGANS

2001 - 2002 C.elegansの行動遺伝学による感覚情報の選択と可塑性に関わる遺伝子の解析

2000 - 2001 線虫C.elegansのamphid感覚情報処理機構の分子生物学的解析

2000 - 2001 C.elegansの連合学習と感覚情報の選択に異常がある変異体の分子遺伝学的解析

2000 - 2000 C.elegansの高次行動に関わる神経回路での情報処理機構の分子遺伝学的解析

1999 - 2000 Elucidation of The Molecular Mechanims of Chemotaxis and Its Plasticity in the Nematode Caenorhabditis elegans

1999 - 2000 C.elegansを用いた高次神経機能に関わる新規分子の同定とその機能解析

1997 - 1999 Molecular Biological Analyses of the Neural Functions of the Nematode C. elegans

1997 - 1998 線虫C.elegansの神経回路における情報処理機構の逆遺伝学による解析

1996 - 1996 線虫C.elegansのdauer幼虫形成制御にかかわる神経回路網の解明

1995 - 1995 線虫C.elegansの神経分化千回路形成に異常を示す突然変異体の探索

1994 - 1994 線虫C.elegansの神経回路の形成に異常を示す突然変異体の探索

1994 - 1994 C.elegansの後期発生における制御機構

1993 - 1993 C.elegansの形態形成遺伝子の探索

1993 - 1993 C.elegansの神経回路の形成機構の分子遺伝学的解析

1992 - 1993 Role of Signal-transduction in the Development of C.elegans

1992 - 1992 C.elgansの形態形成遺伝子の探索

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Papers (62)：

Koki Tsuyuzaki, Kentaro Yamamoto, Yu Toyoshima, Hirofumi Sato, Manami Kanamori, Takayuki Teramoto, Takeshi Ishihara, Yuichi Iino, Itoshi Nikaido. WormTensor: a clustering method for time-series whole-brain activity data from C. elegans. BMC Bioinformatics. 2023. 24. 1
Yu Toyoshima, Hirofumi Sato, Daiki Nagata, Manami Kanamori, Moon Sun Jang, Koyo Kuze, Suzu Oe, Takayuki Teramoto, Yuishi Iwasaki, Ryo Yoshida, et al. Deducing ensemble dynamics and information flow from the whole-brain imaging data. 2022
Mary Arai, Itsuki Kurokawa, Hoshinosuke Arakane, Tomohiro Kitazono, Takeshi Ishihara. Regulation of Diacylglycerol Content in Olfactory Neurons Determines Forgetting or Retrieval of Olfactory Memory in Caenorhabditis elegans. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2022. 42. 43. 8039-8053
Jamine Hooi-Min Teo, Itsuki Kurokawa, Yuuki Onishi, Noriko Sato, Tomohiro Kitazono, Terumasa Tokunaga, Manabi Fujiwara, Takeshi Ishihara. Behavioral forgetting of olfactory learning is mediated by interneuron-regulated network plasticity in Caenorhabditis elegans. eneuro. 2022. ENEURO.0084-22.2022
Takahiro Hino, Shota Hirai, Takeshi Ishihara, Manabi Fujiwara. EGL-4/PKG regulates the role of an interneuron in a chemotaxis circuit of C. elegans through mediating integration of sensory signals. Genes to cells : devoted to molecular & cellular mechanisms. 2021. 26. 6. 411-425

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MISC (47)：

Takahiro Hino, Manabi Fujiwara, Takeshi Ishihara. The analysis of the developmental changes in the chemotaxis of C. elegans. GENES & GENETIC SYSTEMS. 2016. 91. 6. 365-365
Mary Arai, Akitoshi Inoue, Takeshi Ishihara. Analyses of the regulation of forgetting by the food signals in the olfactory learning of C. elegans. GENES & GENETIC SYSTEMS. 2016. 91. 6. 365-365
HIROSE OSAMU, KAWAGUCHI SHOTARO, TOKUNAGA TERUMASA, TOYOSHIMA YU, TERAMOTO TAKAYUKI, KUGE SAYURI, ISHIHARA TAKESHI, IINO YUICHI, YOSHIDA RYO. Tracking multiple cells with a spatial particle filter. 電子情報通信学会技術研究報告. 2015. 115. 112(IBISML2015 1-26). 137-141
IINO YUICHI, TERAMOTO TAKAYUKI, ISHIHARA TAKESHI. 生命動態システム科学 I.定量生物学 2.組織・個体の計測 1)神経(1)神経系の丸ごと観測による神経回路の解析. 生体の科学. 2014. 65. 5. 416-417
HIROSE OSAMU, KAWAGUCHI SHOTARO, TOKUNAGA TERUMASA, TOYOSHIMA YU, TERAMOTO TAKAYUKI, KUGE SAYURI, ISHIHARA TAKESHI, IINO YUICHI, YOSHIDA RYO. 4Dライブセルイメージングデータ内の非常に多数の細胞を自動追跡するための空間粒子フィルタ手法の開発. 統計関連学会連合大会講演報告集. 2014. 2014. 43

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Professional career (1)：

博士(理学) (東京大学)

Work history (3)：

2004 - 現在九州大学大学院・理学研究院教授
1996 - 2004 National Institute of Genetics
1992 - 1995 National Institute of Genetics

Association Membership(s) (2)：

THE MOLECULAR BIOLOGY SOCIETY OF JAPAN , THE JAPAN NEUROSCIENCE SOCIETY

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