川口 真也

Last Update: 2021/06/29 14:02:40

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Name(Kanji/Kana/Abecedarium Latinum)
川口 真也/カワグチ シンヤ/Kawaguchi, Shinya
Primary Affiliation(Org1/Job title)
Graduate School of Science/Professor
Faculty
Org1 Job title
理学部 Professor
Contact Address
Type Address(Japanese) Address(English)
Office 〒606-8502 京都市左京区北白川追分町 Oiwake, Kitashirakawa, Sakyo-ku, Kyoto, 606-8502
Phone
Type Number
Office 075-753-4200
E-mail Address
kawaguchi.shinya.7m @ kyoto-u.ac.jp
Academic Organizations You are Affiliated to in Japan
Organization name(Japanese) Organization name(English)
日本生理学会
日本神経科学会
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
修士(理学) 京都大学
博士(理学) 京都大学
Work Experience
Period Organization(Japanese) Organization(English) Job title(Japanese) Job title(English)
2004/04/03-2007/03/31 京都大学大学院理学研究科  助手
2007/04/01-2012/03/31 京都大学大学院理学研究科  助教
2012/04/01-2017/03/31 同志社大学 特任准教授
2017/04/01-2019/09/30 京都大学産官学連携本部 特定准教授
2019/10/01- 京都大学大学院理学研究科 教授
Language of Instruction
Language(japanese) Language(english) Code
英語 English eng
Personal Website(s) (URL(s))
URL
http://www.nb.biophys.kyoto-u.ac.jp/main.html
ORCID ID
https://orcid.org/0000-0002-8386-1185
researchmap URL
https://researchmap.jp/shinyakawaguchi
Research Topics
(Japanese)
動物の脳神経系における記憶・学習を担う分子・細胞・神経回路メカニズムの研究
(English)
Molecular, cellular, and neuronal circuit mechanisms for learning and memory
Overview of the research
(Japanese)
動物が記憶・学習を実現する基礎現象と考えられているシナプス可塑性について、電気生理学や蛍光イメージングなどを用いて分子・細胞・神経回路レベルのメカニズムを研究している。
(English)
I am studying a cellular basis of learning and memory, synaptic plasticity, at the level of molecular, cellular, and neuronal circuit using electrophysiology and fluorescent imaging techniques.
Fields of research (key words)
Key words(Japanese) Key words(English)
神経科学一般 Neuroscience
シナプス synapse
神経生理 Neurophysiology
システム生物学 systems biology
Published Papers
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
Laura C. Gomez, Shin-ya Kawaguchi, Thibault Collin, Abdelali Jalil, Maria del Pilar Gomez, Enrico Nasi, Alain Marty, Isabel Llano Laura C. Gomez, Shin-ya Kawaguchi, Thibault Collin, Abdelali Jalil, Maria del Pilar Gomez, Enrico Nasi, Alain Marty, Isabel Llano Laura C. Gomez, Shin-ya Kawaguchi, Thibault Collin, Abdelali Jalil, Maria del Pilar Gomez, Enrico Nasi, Alain Marty, Isabel Llano Influence of spatially segregated IP3-producing pathways on spike generation and transmitter release in Purkinje cell axons Influence of spatially segregated IP3-producing pathways on spike generation and transmitter release in Purkinje cell axons Influence of spatially segregated IP3-producing pathways on spike generation and transmitter release in Purkinje cell axons Proceedings of the National Academy of Sciences Proceedings of the National Academy of Sciences Proceedings of the National Academy of Sciences 2020/05/01 Refereed Research paper(scientific journal) Disclose to all
Federico F Trigo, Shin-ya Kawaguchi Federico F Trigo, Shin-ya Kawaguchi Federico F Trigo, Shin-ya Kawaguchi Editorial: Control of Presynaptic Function by Axonal Dynamics Editorial: Control of Presynaptic Function by Axonal Dynamics Editorial: Control of Presynaptic Function by Axonal Dynamics Frontiers in Cellular Neuroscience Frontiers in Cellular Neuroscience Frontiers in Cellular Neuroscience 2019/12/06 Refereed Research paper(scientific journal) Disclose to all
Shin-ya Kawaguchi Shin-ya Kawaguchi Shin-ya Kawaguchi Dynamic Factors for Transmitter Release at Small Presynaptic Boutons Revealed by Direct Patch-Clamp Recordings Dynamic Factors for Transmitter Release at Small Presynaptic Boutons Revealed by Direct Patch-Clamp Recordings Dynamic Factors for Transmitter Release at Small Presynaptic Boutons Revealed by Direct Patch-Clamp Recordings Frontiers in Cellular Neuroscience, 13, 269 Frontiers in Cellular Neuroscience, 13, 269 Frontiers in Cellular Neuroscience, 13, 269 2019/06/12 Refereed English Research paper(scientific journal) Disclose to all
Daria Merkurjev, Wan-Ting Hong, Kei Iida, Ikumi Oomoto, Belinda J. Goldie, Hitoshi Yamaguti, Takayuki Ohara, Shin-ya Kawaguchi, Tomoo Hirano, Kelsey C. Martin, Matteo Pellegrini, Dan Ohtan Wang Daria Merkurjev, Wan-Ting Hong, Kei Iida, Ikumi Oomoto, Belinda J. Goldie, Hitoshi Yamaguti, Takayuki Ohara, Shin-ya Kawaguchi, Tomoo Hirano, Kelsey C. Martin, Matteo Pellegrini, Dan Ohtan Wang Daria Merkurjev, Wan-Ting Hong, Kei Iida, Ikumi Oomoto, Belinda J. Goldie, Hitoshi Yamaguti, Takayuki Ohara, Shin-ya Kawaguchi, Tomoo Hirano, Kelsey C. Martin, Matteo Pellegrini, Dan Ohtan Wang Synaptic N6-methyladenosine (m6A) epitranscriptome reveals functional partitioning of localized transcripts Synaptic N6-methyladenosine (m6A) epitranscriptome reveals functional partitioning of localized transcripts Synaptic N6-methyladenosine (m6A) epitranscriptome reveals functional partitioning of localized transcripts Nature Neuroscience, 21, 7, 1004-1014 Nature Neuroscience, 21, 7, 1004-1014 Nature Neuroscience, 21, 7, 1004-1014 2018/07/27 Refereed Research paper(scientific journal) Disclose to all
Yamashita M, Kawaguchi SY, Hori T, Takahashi T Yamashita M, Kawaguchi SY, Hori T, Takahashi T Yamashita M, Kawaguchi SY, Hori T, Takahashi T Vesicular GABA Uptake Can Be Rate Limiting for Recovery of IPSCs from Synaptic Depression. Vesicular GABA Uptake Can Be Rate Limiting for Recovery of IPSCs from Synaptic Depression. Vesicular GABA Uptake Can Be Rate Limiting for Recovery of IPSCs from Synaptic Depression. Cell reports, 22, 12, 3134-3141 Cell reports, 22, 12, 3134-3141 Cell reports, 22, 12, 3134-3141 2018/03 Refereed Research paper(scientific journal) Disclose to all
Javier Zorrilla de San Martin, Federico F. Trigo, Shin-ya Kawaguchi Javier Zorrilla de San Martin, Federico F. Trigo, Shin-ya Kawaguchi Javier Zorrilla de San Martin, Federico F. Trigo, Shin-ya Kawaguchi Axonal GABAA receptors depolarize presynaptic terminals and facilitate transmitter release in cerebellar Purkinje cells Axonal GABAA receptors depolarize presynaptic terminals and facilitate transmitter release in cerebellar Purkinje cells Axonal GABAA receptors depolarize presynaptic terminals and facilitate transmitter release in cerebellar Purkinje cells The Journal of Physiology, 595, 24, 7477-7493 The Journal of Physiology, 595, 24, 7477-7493 The Journal of Physiology, 595, 24, 7477-7493 2017/12/15 Refereed English Research paper(scientific journal) Disclose to all
Shin-ya Kawaguchi, Takeshi Sakaba Shin-ya Kawaguchi, Takeshi Sakaba Shin-ya Kawaguchi, Takeshi Sakaba Fast Ca2+ Buffer-Dependent Reliable but Plastic Transmission at Small CNS Synapses Revealed by Direct Bouton Recording. Fast Ca2+ Buffer-Dependent Reliable but Plastic Transmission at Small CNS Synapses Revealed by Direct Bouton Recording. Fast Ca2+ Buffer-Dependent Reliable but Plastic Transmission at Small CNS Synapses Revealed by Direct Bouton Recording. Cell reports, 21, 12, 3338-3345 Cell reports, 21, 12, 3338-3345 Cell reports, 21, 12, 3338-3345 2017/12 Refereed English Research paper(scientific journal) Disclose to all
Françoise Díaz-Rojas, Takeshi Sakaba, Shin-ya Kawaguchi Françoise Díaz-Rojas, Takeshi Sakaba, Shin-ya Kawaguchi Françoise Díaz-Rojas, Takeshi Sakaba, Shin-ya Kawaguchi Ca(2+) current facilitation determines short-term facilitation at inhibitory synapses between cerebellar Purkinje cells. Ca(2+) current facilitation determines short-term facilitation at inhibitory synapses between cerebellar Purkinje cells. Ca(2+) current facilitation determines short-term facilitation at inhibitory synapses between cerebellar Purkinje cells. The Journal of physiology, 593, 22, 4889-4904 The Journal of physiology, 593, 22, 4889-4904 The Journal of physiology, 593, 22, 4889-4904 2015/11 Refereed Research paper(scientific journal) Disclose to all
Shin-ya Kawaguchi, Takeshi Sakaba Shin-ya Kawaguchi, Takeshi Sakaba Shin-ya Kawaguchi, Takeshi Sakaba Control of inhibitory synaptic outputs by low excitability of axon terminals revealed by direct recording. Control of inhibitory synaptic outputs by low excitability of axon terminals revealed by direct recording. Control of inhibitory synaptic outputs by low excitability of axon terminals revealed by direct recording. Neuron, 85, 6, 1273-1288 Neuron, 85, 6, 1273-1288 Neuron, 85, 6, 1273-1288 2015/03 Refereed Research paper(scientific journal) Disclose to all
Shin-ya Kawaguchi Nagasaki N, Hirano T, Kawaguchi SY Shin-ya Kawaguchi Opposite regulation of inhibitory synaptic plasticity by α and β subunits of Ca(2+)/calmodulin-dependent protein kinase II. Opposite regulation of inhibitory synaptic plasticity by α and β subunits of Ca(2+)/calmodulin-dependent protein kinase II. Opposite regulation of inhibitory synaptic plasticity by α and β subunits of Ca(2+)/calmodulin-dependent protein kinase II. The Journal of physiology, 592, 22, 4891-4909 The Journal of physiology, 592, 22, 4891-4909 The Journal of physiology, 592, 22, 4891-4909 2014/11 Refereed English Research paper(scientific journal) Disclose to all
Tomoo Hirano, Shin-ya Kawaguchi Tomoo Hirano, Shin-ya Kawaguchi Tomoo Hirano, Shin-ya Kawaguchi Regulation and functional roles of rebound potentiation at cerebellar stellate cell-Purkinje cell synapses. Regulation and functional roles of rebound potentiation at cerebellar stellate cell-Purkinje cell synapses. Regulation and functional roles of rebound potentiation at cerebellar stellate cell-Purkinje cell synapses. Frontiers in cellular neuroscience, 8, 42 Frontiers in cellular neuroscience, 8, 42 Frontiers in cellular neuroscience, 8, 42 2014 Refereed English Research paper(scientific journal) Disclose to all
Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Contribution of postsynaptic GluD2 to presynaptic R-type Ca(2+) channel function, glutamate release and long-term potentiation at parallel fiber to Purkinje cell synapses. Contribution of postsynaptic GluD2 to presynaptic R-type Ca(2+) channel function, glutamate release and long-term potentiation at parallel fiber to Purkinje cell synapses. Contribution of postsynaptic GluD2 to presynaptic R-type Ca(2+) channel function, glutamate release and long-term potentiation at parallel fiber to Purkinje cell synapses. Cerebellum (London, England), 12, 5, 657-666 Cerebellum (London, England), 12, 5, 657-666 Cerebellum (London, England), 12, 5, 657-666 2013/10 Refereed Research paper(scientific journal) Disclose to all
Shinsuke Tanaka, Shin-ya Kawaguchi, Go Shioi, Tomoo Hirano Shinsuke Tanaka, Shin-ya Kawaguchi, Go Shioi, Tomoo Hirano Shinsuke Tanaka, Shin-ya Kawaguchi, Go Shioi, Tomoo Hirano Long-term potentiation of inhibitory synaptic transmission onto cerebellar Purkinje neurons contributes to adaptation of vestibulo-ocular reflex. Long-term potentiation of inhibitory synaptic transmission onto cerebellar Purkinje neurons contributes to adaptation of vestibulo-ocular reflex. Long-term potentiation of inhibitory synaptic transmission onto cerebellar Purkinje neurons contributes to adaptation of vestibulo-ocular reflex. The Journal of neuroscience : the official journal of the Society for Neuroscience, 33, 43, 17209-17220 The Journal of neuroscience : the official journal of the Society for Neuroscience, 33, 43, 17209-17220 The Journal of neuroscience : the official journal of the Society for Neuroscience, 33, 43, 17209-17220 2013/10 Refereed Research paper(scientific journal) Disclose to all
Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Gating of long-term depression by Ca2+/calmodulin-dependent protein kinase II through enhanced cGMP signalling in cerebellar Purkinje cells. Gating of long-term depression by Ca2+/calmodulin-dependent protein kinase II through enhanced cGMP signalling in cerebellar Purkinje cells. Gating of long-term depression by Ca2+/calmodulin-dependent protein kinase II through enhanced cGMP signalling in cerebellar Purkinje cells. The Journal of physiology, 591, 7, 1707-1730 The Journal of physiology, 591, 7, 1707-1730 The Journal of physiology, 591, 7, 1707-1730 2013/04 Refereed Research paper(scientific journal) Disclose to all
Tomoo Hirano, Shin-ya Kawaguchi Tomoo Hirano, Shin-ya Kawaguchi Tomoo Hirano, Shin-ya Kawaguchi Regulation of inhibitory synaptic plasticity in a Purkinje neuron. Regulation of inhibitory synaptic plasticity in a Purkinje neuron. Regulation of inhibitory synaptic plasticity in a Purkinje neuron. Cerebellum (London, England), 11, 2, 453-454 Cerebellum (London, England), 11, 2, 453-454 Cerebellum (London, England), 11, 2, 453-454 2012/06 Refereed Research paper(scientific journal) Disclose to all
Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Molecular mechanism of long-term plasticity at cerebellar inhibitory synapses Molecular mechanism of long-term plasticity at cerebellar inhibitory synapses Molecular mechanism of long-term plasticity at cerebellar inhibitory synapses Inhibitory Synaptic Plasticity, 29-38 Inhibitory Synaptic Plasticity, 29-38 Inhibitory Synaptic Plasticity, 29-38 2011 Refereed English Disclose to all
Shin-ya Kawaguchi Kawaguchi SY, Nagasaki N, Hirano T Shin-ya Kawaguchi Dynamic impact of temporal context of Ca²⁺ signals on inhibitory synaptic plasticity. Dynamic impact of temporal context of Ca²⁺ signals on inhibitory synaptic plasticity. Dynamic impact of temporal context of Ca²⁺ signals on inhibitory synaptic plasticity. Scientific Reports, 1, 143 Scientific reports, 1, 143 Scientific Reports, 1, 143 2011 Refereed English Research paper(scientific journal) Disclose to all
Yuichi Kitagawa, Tomoo Hirano, Shin-ya Kawaguchi Yuichi Kitagawa, Tomoo Hirano, Shin-ya Kawaguchi Yuichi Kitagawa, Tomoo Hirano, Shin-ya Kawaguchi Prediction and validation of a mechanism to control the threshold for inhibitory synaptic plasticity. Prediction and validation of a mechanism to control the threshold for inhibitory synaptic plasticity. Prediction and validation of a mechanism to control the threshold for inhibitory synaptic plasticity. Molecular Systems Biology, 5, 280 Molecular Systems Biology, 5, 280 Molecular Systems Biology, 5, 280 2009 Refereed Research paper(scientific journal) Disclose to all
Shun Tsuruno, Shin-ya Kawaguchi, Tomoo Hirano Shun Tsuruno, Shin-ya Kawaguchi, Tomoo Hirano Shun Tsuruno, Shin-ya Kawaguchi, Tomoo Hirano Src-family protein tyrosine kinase negatively regulates cerebellar long-term depression. Src-family protein tyrosine kinase negatively regulates cerebellar long-term depression. Src-family protein tyrosine kinase negatively regulates cerebellar long-term depression. Neuroscience research, 61, 3, 329-332 Neuroscience research, 61, 3, 329-332 Neuroscience research, 61, 3, 329-332 2008/07 Refereed Research paper(scientific journal) Disclose to all
Yuko Sugiyama, Shin-ya Kawaguchi, Tomoo Hirano Yuko Sugiyama, Shin-ya Kawaguchi, Tomoo Hirano Yuko Sugiyama, Shin-ya Kawaguchi, Tomoo Hirano mGluR1-mediated facilitation of long-term potentiation at inhibitory synapses on a cerebellar Purkinje neuron mGluR1-mediated facilitation of long-term potentiation at inhibitory synapses on a cerebellar Purkinje neuron mGluR1-mediated facilitation of long-term potentiation at inhibitory synapses on a cerebellar Purkinje neuron EUROPEAN JOURNAL OF NEUROSCIENCE, 27, 4, 884-896 EUROPEAN JOURNAL OF NEUROSCIENCE, 27, 4, 884-896 EUROPEAN JOURNAL OF NEUROSCIENCE, 27, 4, 884-896 2008/02 Refereed English Research paper(scientific journal) Disclose to all
Yasuyuki Shima, Shin-ya Kawaguchi, Kazuyoshi Kosaka, Manabu Nakayama, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano, Tadashi Uemura Yasuyuki Shima, Shin-ya Kawaguchi, Kazuyoshi Kosaka, Manabu Nakayama, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano, Tadashi Uemura Yasuyuki Shima, Shin-ya Kawaguchi, Kazuyoshi Kosaka, Manabu Nakayama, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano, Tadashi Uemura Opposing roles in neurite growth control by two seven-pass transmembrane cadherins Opposing roles in neurite growth control by two seven-pass transmembrane cadherins Opposing roles in neurite growth control by two seven-pass transmembrane cadherins NATURE NEUROSCIENCE, 10, 8, 963-969 NATURE NEUROSCIENCE, 10, 8, 963-969 NATURE NEUROSCIENCE, 10, 8, 963-969 2007/08 Refereed English Research paper(scientific journal) Disclose to all
Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Sustained structural change of GABA(A) receptor-associated protein underlies long-term potentiation at inhibitory synapses on a cerebellar purkinje neuron Sustained structural change of GABA(A) receptor-associated protein underlies long-term potentiation at inhibitory synapses on a cerebellar purkinje neuron Sustained structural change of GABA(A) receptor-associated protein underlies long-term potentiation at inhibitory synapses on a cerebellar purkinje neuron JOURNAL OF NEUROSCIENCE, 27, 25, 6788-6799 JOURNAL OF NEUROSCIENCE, 27, 25, 6788-6799 JOURNAL OF NEUROSCIENCE, 27, 25, 6788-6799 2007/06 Refereed English Research paper(scientific journal) Disclose to all
SY Kawaguchi, T Hirano SY Kawaguchi, T Hirano SY Kawaguchi, T Hirano Integrin alpha 3 beta 1 suppresses long-term potentiation at inhibitory synapses on the cerebellar Purkinje neuron Integrin alpha 3 beta 1 suppresses long-term potentiation at inhibitory synapses on the cerebellar Purkinje neuron Integrin alpha 3 beta 1 suppresses long-term potentiation at inhibitory synapses on the cerebellar Purkinje neuron MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 3, 416-426 MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 3, 416-426 MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 3, 416-426 2006/03 Refereed English Research paper(scientific journal) Disclose to all
A Tohgo, M Eiraku, T Miyazaki, E Miura, S Kawaguchi, M Nishi, M Watanabe, T Hirano, M Kengaku, H Takeshima A Tohgo, M Eiraku, T Miyazaki, E Miura, S Kawaguchi, M Nishi, M Watanabe, T Hirano, M Kengaku, H Takeshima A Tohgo, M Eiraku, T Miyazaki, E Miura, S Kawaguchi, M Nishi, M Watanabe, T Hirano, M Kengaku, H Takeshima Impaired cerebellar functions in mutant mice lacking DNER Impaired cerebellar functions in mutant mice lacking DNER Impaired cerebellar functions in mutant mice lacking DNER MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 2, 326-333 MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 2, 326-333 MOLECULAR AND CELLULAR NEUROSCIENCE, 31, 2, 326-333 2006/02 Refereed English Research paper(scientific journal) Disclose to all
G Ohtsuki, S Kawaguchi, M Mishina, T Hirano G Ohtsuki, S Kawaguchi, M Mishina, T Hirano G Ohtsuki, S Kawaguchi, M Mishina, T Hirano Enhanced inhibitory synaptic transmission in the cerebellar molecular layer of the GluR delta 2 knock-out mouse Enhanced inhibitory synaptic transmission in the cerebellar molecular layer of the GluR delta 2 knock-out mouse Enhanced inhibitory synaptic transmission in the cerebellar molecular layer of the GluR delta 2 knock-out mouse JOURNAL OF NEUROSCIENCE, 24, 48, 10900-10907 JOURNAL OF NEUROSCIENCE, 24, 48, 10900-10907 JOURNAL OF NEUROSCIENCE, 24, 48, 10900-10907 2004/12 Refereed English Research paper(scientific journal) Disclose to all
S Kawaguchi, T Hirano S Kawaguchi, T Hirano S Kawaguchi, T Hirano Signaling cascade regulating long-term potentiation of GABA(A) receptor responsiveness in cerebellar Purkinje neurons Signaling cascade regulating long-term potentiation of GABA(A) receptor responsiveness in cerebellar Purkinje neurons Signaling cascade regulating long-term potentiation of GABA(A) receptor responsiveness in cerebellar Purkinje neurons JOURNAL OF NEUROSCIENCE, 22, 10, 3969-3976 JOURNAL OF NEUROSCIENCE, 22, 10, 3969-3976 JOURNAL OF NEUROSCIENCE, 22, 10, 3969-3976 2002/05 Refereed English Research paper(scientific journal) Disclose to all
T Hirano, D Watanabe, SY Kawaguchi, Pastan, I, S Nakanishi T Hirano, D Watanabe, SY Kawaguchi, Pastan, I, S Nakanishi T Hirano, D Watanabe, SY Kawaguchi, Pastan, I, S Nakanishi Roles of inhibitory interneurons in the cerebellar cortex Roles of inhibitory interneurons in the cerebellar cortex Roles of inhibitory interneurons in the cerebellar cortex CREBELLUM: RECENT DEVELOPMENTS IN CEREBELLAR RESEARCH, 978, 405-412 CREBELLUM: RECENT DEVELOPMENTS IN CEREBELLAR RESEARCH, 978, 405-412 CREBELLUM: RECENT DEVELOPMENTS IN CEREBELLAR RESEARCH, 978, 405-412 2002 Refereed English Research paper(scientific journal) Disclose to all
S Kawaguchi, T Hirano S Kawaguchi, T Hirano S Kawaguchi, T Hirano Suppression of inhibitory synaptic potentiation by presynaptic activity through postsynaptic GABA(B) receptors in a Purkinje neuron Suppression of inhibitory synaptic potentiation by presynaptic activity through postsynaptic GABA(B) receptors in a Purkinje neuron Suppression of inhibitory synaptic potentiation by presynaptic activity through postsynaptic GABA(B) receptors in a Purkinje neuron NEURON, 27, 2, 339-347 NEURON, 27, 2, 339-347 NEURON, 27, 2, 339-347 2000/08 Refereed English Research paper(scientific journal) Disclose to all

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Title language:
Misc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi alpha- and beta CaMKII regulate inhibitory synaptic plasticity oppositely in the cerebellum alpha- and beta CaMKII regulate inhibitory synaptic plasticity oppositely in the cerebellum alpha- and beta CaMKII regulate inhibitory synaptic plasticity oppositely in the cerebellum NEUROSCIENCE RESEARCH, 71, E219-E219 NEUROSCIENCE RESEARCH, 71, E219-E219 NEUROSCIENCE RESEARCH, 71, E219-E219 2011 English Research paper, summary (international conference) Disclose to all
Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Manami Yamashita, Shin-ya Kawaguchi, Tomoo Hirano Presynaptic plasticity at parallel fiber-Purkinje cell synapses in mice lacking GluD2 Presynaptic plasticity at parallel fiber-Purkinje cell synapses in mice lacking GluD2 Presynaptic plasticity at parallel fiber-Purkinje cell synapses in mice lacking GluD2 NEUROSCIENCE RESEARCH, 71, E326-E326 NEUROSCIENCE RESEARCH, 71, E326-E326 NEUROSCIENCE RESEARCH, 71, E326-E326 2011 English Research paper, summary (international conference) Disclose to all
Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Regulation of Inhibitory Synaptic Plasticity by Temporal Sequence of Ca2+ Signals in a Cerebellar Purkinje Neuron Regulation of Inhibitory Synaptic Plasticity by Temporal Sequence of Ca2+ Signals in a Cerebellar Purkinje Neuron Regulation of Inhibitory Synaptic Plasticity by Temporal Sequence of Ca2+ Signals in a Cerebellar Purkinje Neuron NEUROSCIENCE RESEARCH, 68, E87-E87 NEUROSCIENCE RESEARCH, 68, E87-E87 NEUROSCIENCE RESEARCH, 68, E87-E87 2010 English Research paper, summary (international conference) Disclose to all
Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Subunit composition of CaMKII is critical for inhibitory synaptic plasticity in the cerebellum Subunit composition of CaMKII is critical for inhibitory synaptic plasticity in the cerebellum Subunit composition of CaMKII is critical for inhibitory synaptic plasticity in the cerebellum JOURNAL OF PHYSIOLOGICAL SCIENCES, 60, S83-S83 JOURNAL OF PHYSIOLOGICAL SCIENCES, 60, S83-S83 JOURNAL OF PHYSIOLOGICAL SCIENCES, 60, S83-S83 2010 English Research paper, summary (international conference) Disclose to all
Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi Nobuhiro Nagasaki, Tomoo Hirano, Shin-ya Kawaguchi CaMKII subunit composition regulates inhibitory synaptic plasticity in the cerebellum CaMKII subunit composition regulates inhibitory synaptic plasticity in the cerebellum CaMKII subunit composition regulates inhibitory synaptic plasticity in the cerebellum NEUROSCIENCE RESEARCH, 65, S82-S82 NEUROSCIENCE RESEARCH, 65, S82-S82 NEUROSCIENCE RESEARCH, 65, S82-S82 2009 English Research paper, summary (international conference) Disclose to all
Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Shin-Ya Kawaguchi, Tomoo Hirano Molecular mechanism of inhibitory synaptic plasticity in the cerebellum Molecular mechanism of inhibitory synaptic plasticity in the cerebellum Molecular mechanism of inhibitory synaptic plasticity in the cerebellum NEUROSCIENCE RESEARCH, 58, S52-S52 NEUROSCIENCE RESEARCH, 58, S52-S52 NEUROSCIENCE RESEARCH, 58, S52-S52 2007 English Research paper, summary (international conference) Disclose to all
Kitagawa Yuichi, Shin-ya Kawaguchi, Tomoo Hirano Kitagawa Yuichi, Shin-ya Kawaguchi, Tomoo Hirano Kitagawa Yuichi, Shin-ya Kawaguchi, Tomoo Hirano Kinetic simulation analysis of signaling cascades regulating inhibitory synaptic plasticity in a cerebellar Purkinje neuron Kinetic simulation analysis of signaling cascades regulating inhibitory synaptic plasticity in a cerebellar Purkinje neuron Kinetic simulation analysis of signaling cascades regulating inhibitory synaptic plasticity in a cerebellar Purkinje neuron NEUROSCIENCE RESEARCH, 58, S135-S135 NEUROSCIENCE RESEARCH, 58, S135-S135 NEUROSCIENCE RESEARCH, 58, S135-S135 2007 English Research paper, summary (international conference) Disclose to all
Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Shin-ya Kawaguchi, Tomoo Hirano Regulatory mechanism of inhibitory synaptic transmission in the cerebellum Regulatory mechanism of inhibitory synaptic transmission in the cerebellum Regulatory mechanism of inhibitory synaptic transmission in the cerebellum NEUROSCIENCE RESEARCH, 55, S41-S41 NEUROSCIENCE RESEARCH, 55, S41-S41 NEUROSCIENCE RESEARCH, 55, S41-S41 2006 English Research paper, summary (international conference) Disclose to all
Yuichi Kitagawa, Shin-ya Kawaguchi, Tomoo Hirano Yuichi Kitagawa, Shin-ya Kawaguchi, Tomoo Hirano Yuichi Kitagawa, Shin-ya Kawaguchi, Tomoo Hirano Systematic analysis of the molecular network regulating inhibitory synaptic plasticity in the cerebellum Systematic analysis of the molecular network regulating inhibitory synaptic plasticity in the cerebellum Systematic analysis of the molecular network regulating inhibitory synaptic plasticity in the cerebellum NEUROSCIENCE RESEARCH, 55, S208-S208 NEUROSCIENCE RESEARCH, 55, S208-S208 NEUROSCIENCE RESEARCH, 55, S208-S208 2006 English Research paper, summary (international conference) Disclose to all
Tadashi Uemura, Yasuyuki Shima, Keisuke Sehara, Manabu Nakayama, Shinya Kawaguchi, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano Tadashi Uemura, Yasuyuki Shima, Keisuke Sehara, Manabu Nakayama, Shinya Kawaguchi, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano Tadashi Uemura, Yasuyuki Shima, Keisuke Sehara, Manabu Nakayama, Shinya Kawaguchi, Mikio Hoshino, Yoichi Nabeshima, Tomoo Hirano Distinct roles of two 7-pass transmembrane cadherins in neurite growth control Distinct roles of two 7-pass transmembrane cadherins in neurite growth control Distinct roles of two 7-pass transmembrane cadherins in neurite growth control NEUROSCIENCE RESEARCH, 55, S4-S4 NEUROSCIENCE RESEARCH, 55, S4-S4 NEUROSCIENCE RESEARCH, 55, S4-S4 2006 English Research paper, summary (international conference) Disclose to all
Yuko Seki, Shin-ya Kawaguchi, Tomoo Hirano Yuko Seki, Shin-ya Kawaguchi, Tomoo Hirano Yuko Seki, Shin-ya Kawaguchi, Tomoo Hirano MGluR1 regulates rebound potentiation through PKA in a Purkinje neuron MGluR1 regulates rebound potentiation through PKA in a Purkinje neuron MGluR1 regulates rebound potentiation through PKA in a Purkinje neuron NEUROSCIENCE RESEARCH, 55, S109-S109 NEUROSCIENCE RESEARCH, 55, S109-S109 NEUROSCIENCE RESEARCH, 55, S109-S109 2006 English Research paper, summary (international conference) Disclose to all
川口真也, 平野丈夫 川口真也, 平野丈夫 GABAB受容体による小脳抑制性シナプス可塑性の制御 (特集 Gタンパク質共役受容体と脳機能) GABAB受容体による小脳抑制性シナプス可塑性の制御 (特集 Gタンパク質共役受容体と脳機能) 遺伝子医学, 7, 2, 195-198 遺伝子医学, 7, 2, 195-198 , 7, 2, 195-198 2003/06 Disclose to all

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Title language:
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
特定領域研究 Representative インテグリンによるシナプス伝達安的化機構の解析 Mechanism to stabilize synaptic transmission by integrins 2005-2005
若手研究 (B) Representative 抑制性シナプス可塑性におけるGABA(A)受容体の変化 Change of GABA(A) receptors in inhibitory synaptic plasticity 2006-2007
若手研究(B) Representative 抑制性シナプス可塑性の長期持続の分子機構 2009-2010
若手研究 (B) Representative シナプス前・後部の機能変化を担うシグナル動態の可視化 2013/04/01-2015/03/31
基盤 (C) Representative 神経軸索における動的情報処理 2015/04/01-2018/03/31
基盤 (B) 特設分野 Representative 学習する培養神経回路の構成とそのシステム解析 2015/07/01-
新学術領域研究 Representative 記憶の成立と移動をになう小脳神経回路の機能変化 2016/04/01-2018/03/31
基盤 (B) Representative 記憶をつくるシナプス・細胞集団の光技術による可視化と動態解析 2018/04/01-
基盤研究(B) Representative 学習する培養神経回路の構成とそのシステム解析 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(C) Representative 神経軸索における動的情報処理 (平成29年度分) 2017/04/01-2018/03/31
新学術領域研究(研究領域提案型) Representative 記憶の成立と移動をになう小脳神経回路の機能変化 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(B) Representative 学習する培養神経回路の構成とそのシステム解析 (平成30年度分) 2018/04/01-2019/03/31
基盤研究(B) Representative 記憶をつくるシナプス・細胞集団の光技術による可視化と動態解析 (平成30年度分) 2018/04/01-2019/03/31
基盤研究(B) Representative 記憶をつくるシナプス・細胞集団の光技術による可視化と動態解析 (2019年度分) 2019/04/01-2020/03/31
新学術領域研究(研究領域提案型) Representative 小脳登上線維のスクラップ&ビルド過程における機能変化の直接記録による解析 (2019年度分) 2019/04/01-2020/03/31
新学術領域研究(研究領域提案型) Representative 小脳登上線維のスクラップ&ビルド過程における機能変化の直接記録による解析 (2020年度分) 2020/04/01-2021/03/31
基盤研究(B) Representative 記憶をつくるシナプス・細胞集団の光技術による可視化と動態解析 (2020年度分) 2020/04/01-2021/03/31

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External funds: other than those above
System Main person Title(Japanese) Title(English) Period
二国間交流事業共同研究・セミナー 川口 真也 小脳プルキンエ細胞における軸索での伝達物質受容体による情報伝達制御 (平成29年度分) 2017/04/01-2018/03/31
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
生物学実習D (4) 後期 理学部 2011/04-
生物学セミナ-A (10) 後期 理学部 2011/04-
生物科学課題研究19 通年 理学部 2011/04-
分子発生学ゼミナールIA Seminar for Molecular Developmental Biology IA 前期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIB Seminar for Molecular Developmental Biology IB 後期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIC Seminar for Molecular Developmental Biology IC 前期 理学研究科 2020/04-2021/03
分子発生学ゼミナールID Seminar for Molecular Developmental Biology ID 後期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIIA Seminar for Molecular Developmental Biology IIA 前期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIIB Seminar for Molecular Developmental Biology IIB 後期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIIC Seminar for Molecular Developmental Biology IIC 前期 理学研究科 2020/04-2021/03
分子発生学ゼミナールIID Seminar for Molecular Developmental Biology IID 後期 理学研究科 2020/04-2021/03
生物学セミナ-A (11) Seminars in Biological Science A 後期 理学部 2020/04-2021/03
生物学実習D (5) Laboratory Work in Biological Science D 後期集中 理学部 2020/04-2021/03
生物学実習D (4) Laboratory Work in Biological Science D 後期集中 理学部 2020/04-2021/03
生物物理学入門 Introduction to Biophysics 前期 全学共通科目 2020/04-2021/03
生物科学特論A Advanced Course on Biological Science A 前期 理学研究科 2020/04-2021/03
生物科学課題研究19 Special Study CourseII(Biological Sciences) 19 通年 理学部 2020/04-2021/03
生物科学課題研究22 Special Study CourseII(Biological Sciences) 22 通年 理学部 2020/04-2021/03
神経生物学 Neuro Biology 前期 理学部 2020/04-2021/03
神経生物学ゼミナールIA Seminar on Neurobiology IA 前期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIB Seminar on Neurobiology IB 後期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIC Seminar on Neurobiology IC 前期 理学研究科 2020/04-2021/03
神経生物学ゼミナールID Seminar on Neurobiology ID 後期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIIA Seminar on Neurobiology IIA 前期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIIB Seminar on Neurobiology IIB 後期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIIC Seminar on Neurobiology IIC 前期 理学研究科 2020/04-2021/03
神経生物学ゼミナールIID Seminar on Neurobiology IID 後期 理学研究科 2020/04-2021/03
神経生物学概論 Principles of Neurobiology 前期 理学研究科 2020/04-2021/03
細胞と分子の基礎生物学 Fundamentals of Cell and Molecular Biology 後期 全学共通科目 2020/04-2021/03
細胞と分子の基礎生物学実験 Fundamental Experiments of Cellular and Molecular Biology 後期 理学部 2020/04-2021/03
分子発生学ゼミナールIA Seminar for Molecular Developmental Biology IA 前期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIB Seminar for Molecular Developmental Biology IB 後期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIC Seminar for Molecular Developmental Biology IC 前期 理学研究科 2021/04-2022/03
分子発生学ゼミナールID Seminar for Molecular Developmental Biology ID 後期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIIA Seminar for Molecular Developmental Biology IIA 前期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIIB Seminar for Molecular Developmental Biology IIB 後期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIIC Seminar for Molecular Developmental Biology IIC 前期 理学研究科 2021/04-2022/03
分子発生学ゼミナールIID Seminar for Molecular Developmental Biology IID 後期 理学研究科 2021/04-2022/03
生体分子科学 Biomolecular Science 前期 理学研究科 2021/04-2022/03
生体分子科学 Biomolecular Science 前期 理学部 2021/04-2022/03
生物学セミナ-A (10) Seminars in Biological Science A 後期 理学部 2021/04-2022/03
生物学実習D (4) Laboratory Work in Biological Science D 後期集中 理学部 2021/04-2022/03
生物学実習D (5) Laboratory Work in Biological Science D 後期集中 理学部 2021/04-2022/03
生物物理学入門 Introduction to Biophysics 前期 全学共通科目 2021/04-2022/03
生物・生命科学入門 Introduction to Biology and Life Science 前期 全学共通科目 2021/04-2022/03
生物科学特論A Advanced Course on Biological Science A 前期 理学研究科 2021/04-2022/03
生物科学課題研究19 Special Study CourseII(Biological Sciences) 19 通年 理学部 2021/04-2022/03
神経生物学 Neuro Biology 前期 理学部 2021/04-2022/03
神経生物学ゼミナールIA Seminar on Neurobiology IA 前期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIB Seminar on Neurobiology IB 後期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIC Seminar on Neurobiology IC 前期 理学研究科 2021/04-2022/03
神経生物学ゼミナールID Seminar on Neurobiology ID 後期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIIA Seminar on Neurobiology IIA 前期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIIB Seminar on Neurobiology IIB 後期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIIC Seminar on Neurobiology IIC 前期 理学研究科 2021/04-2022/03
神経生物学ゼミナールIID Seminar on Neurobiology IID 後期 理学研究科 2021/04-2022/03
神経生物学概論 Principles of Neurobiology 前期 理学研究科 2021/04-2022/03
細胞と分子の基礎生物学 Fundamentals of Cell and Molecular Biology 後期 全学共通科目 2021/04-2022/03

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Faculty management (title, position)
Title Period
理学部・教育委員会委員 0004/01/20-0003/31/21
理学部・教育委員会 少人数担任委員会委員 0004/01/20-0003/31/21
理学研究科大学院教育教務委員会委員 0004/01/20-0003/31/21
理学研究科研究科会議構成員 0004/01/20-0003/31/21
理学部・教育委員会委員 2020/04/01-2021/03/31
理学部・教育委員会 少人数担任委員会委員 2020/04/01-2021/03/31
理学研究科大学院教育教務委員会委員 2020/04/01-2021/03/31
理学研究科研究科会議構成員 2020/04/01-2021/03/31
理学研究科生物科学専攻長 2021/04/01-2022/03/31
理学研究科自己点検・評価委員会委員 2021/04/01-2022/03/31
理学部・教育委員会委員 2021/04/01-2022/03/31
理学部・教育委員会 常任委員会委員 2021/04/01-2022/03/31
理学部・教育委員会 少人数担任委員会委員長 2021/04/01-2022/03/31
理学研究科動物実験委員会委員 2021/04/01-2022/03/31
理学研究科研究科会議構成員 2021/04/01-2022/03/31
理学研究科専攻長会議構成員 2021/04/01-2022/03/31
危機管理委員会委員 2021/04/01-2022/03/31

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