Updated on 2024/05/01

写真a

 
Manita Satoshi
 
Organization
Graduate Faculty of Interdisciplinary Research Faculty of Medicine Basic Science for Clinical Medicine (Neurophysiology) Associate Professor
Title
Associate Professor
Contact information
メールアドレス
Profile
感覚情報や運動命令がどのような神経活動メカニズムによって表現されているのかを理解するため、単一神経細胞レベルでの活動を複数の細胞から観察し、その複雑なメカニズムから規則性を見出すことを目指しています。さらに、この複雑な神経回路の挙動が単一神経細胞のどのような特性によって実現されるのかを解明したいと考えています。 この目的を達成するために、以下の実験手法を用いた研究を行っています。 実験対象: in vivoマウス 急性脳スライス 電気生理学的手法: ホールセル記録法 セルアタッチ記録法 イメージング法: 1光子および2光子顕微鏡を用いたカルシウムイメージング 膜電位イメージング オプトジェネティクス法: これらの手法を組み合わせることで、感覚情報や運動命令が神経細胞間でどのように伝達され、処理されるのか、そしてその神経活動の基本的な原理を明らかにすることを目指しています。

Research History

  • University of Yamanashi   Graduate Faculty of Interdisciplinary Research Faculty of Medicine   Associate Professor

    2019.11

  • University of Yamanashi   Graduate Faculty of Interdisciplinary Research Faculty of Medicine   Assistant Professor

    2015.3 - 2019.10

  • RIKEN

    2010.4 - 2015.2

  • ニューヨーク医科大学・生理学科(Dr. William Ross lab, 研究員)

    2006.4 - 2010.3

  • 東京薬科大学大学院博士課程 生命科学研究科(専攻:生命科学〕

    2001.4 - 2006.3

  • Tokyo University of Pharmacy and Life Sciences   School of Life Science, School of Life Science

    1997.4 - 2001.3

▼display all

Education

  • Tokyo University of Pharmacy and Life Science

    2003.4 - 2006.3

      More details

    Country: Japan

  • Tokyo University of Pharmacy and Life Science

    2001.4 - 2003.3

      More details

    Country: Japan

  • Tokyo University of Pharmacy and Life Science   School of Life Science   School of Life Science

    1997.4 - 2001.3

      More details

    Country: Japan

Degree

  • 博士(生命科学) ( 2006.3   東京薬科大学 )

Research Areas

  • Life Science / Neuroscience-general

  • Life Science / Neuroscience-general

  • Life Science / Basic brain sciences

Research Interests

  • calcium imaging

  • action potential

  • synaptic transmission

  • neuron

  • cerebellum

  • dendrite

  • Electrophysiology

  • Pyramidal neuron

  • 樹状突起

  • 包括脳ネットワーク

  • Purkinje neuron

Subject of research

  • 正確な運動を実現させる小脳機能の解明

  • 生きている動物の脳における単一神経細胞の特性の解明

Research Projects

  • 全脳イメージングを用いた知覚意思決定脳内システムの解明

    Grant number:23K06790  2023.4 - 2026.3

    日本学術振興会  科学研究費助成事業  基盤研究(C)

    石田 真帆, 真仁田 聡

  • 排尿に関与する中枢神経回路の機能的・形態的特性の解明

    2022.4 - 2025.3

    基盤研究(B)

      More details

    Authorship:Principal investigator  Type of fund::Science research expense

  • 排尿に関与する中枢神経回路の機能的・形態的特性の解明

    Grant number:22H02718  2022.4 - 2025.3

    日本学術振興会  科学研究費助成事業  基盤研究(B)

    真仁田 聡

  • グリアーニューロン連関のin vivo多重イメージングによるデコーディング

    2021.9 - 2023.3

    学術変革領域研究(A) 公募研究

      More details

    Authorship:Principal investigator  Type of fund::Science research expense

  • グリアーニューロン連関のin vivo多重イメージングによるデコーディング

    Grant number:21H05621  2021.9 - 2023.3

    日本学術振興会  科学研究費助成事業  学術変革領域研究(A)

    真仁田 聡

      More details

    2021年度の目標は、グリア細胞のマクロカルシウムイメージング法を確立し、前肢到達課題実施中の広範囲な大脳皮質におけるアストロサイトの活動を観察することである。大脳皮質の広範囲にカルシウムセンサーを発現させるために、アデノ随伴ウイルス(AAV)によるグリア細胞特異的発現法を試みた。通常のAAV注入では広範囲に発現させるには複数箇所に注入しなければならない。そこで、カイコ繭タンパクであるフィブロインを用いたAAV塗布法を用いた。これにより野生型マウスの大脳皮質において約6mm x 3mmの範囲にカルシウムセンサーを発現できた。さらに、市販の食品ラップ,透明シリコーンプラグ,カバーガラスからなる大型頭蓋窓の簡便な作製方法を開発した。同じマウスでマクロ・二光子のイメージング技術を用いたマルチスケール解析を行うためには、大きな頭蓋窓を作ることが重要である。そのためには、頭蓋骨を大きく切除し、露出した大脳皮質を透明な材料で覆う必要がある。この方法で作られた窓の大きさは約6mm × 3mmであるにもかかわらず、激しい脳振動は観察されなかった。また、1ヶ月以上、脳表面の状態が悪くなることはなかった。カルシウムセンサーのひとつであるGCaMP6fをアストロサイトに特異的に発現させたマウスの広視野イメージングでは、数ミリの範囲で同期した応答が見られた。同じマウスの2光子イメージングでは、個々のアストロサイトで数秒間に渡って顕著なカルシウム応答が確認された。本手法は、大きな頭蓋窓を作ることができる効率的で簡便・低価格な方法であり、行動時の神経とグリアの動態とその相互作用を巨視的、微視的に調べることが容易となる。また、頭部固定下マウスによる到達・把持運動システムを開発し、論文として発表した。

  • 活動痕跡多重化検索による回路機能解明:活動痕跡の多重化イメージング技術開発

    2019.4 - 2024.3

    AMED  革新的技術による脳機能ネットワークの全容解明プロジェクト 

    尾藤 晴彦

      More details

    Authorship:Coinvestigator(s)  Type of fund::Funded research

  • 活動痕跡多重化検索による回路機能解明:活動痕跡の多重化イメージング技術開発(研究分担者)

    2019.4 - 2024.3

    AMED  革新的技術による脳機能ネットワークの全容解明プロジェクト 

    尾藤 晴彦

      More details

    Grant type:Competitive 

  • 小脳苔状線維で符号化される運動命令や感覚情報の解読:複 数線維の同時観察による解明

    2019.4 - 2021.3

    文部科学省  科学研究費補助金  基盤研究(C)

      More details

    Authorship:Principal investigator  Type of fund::Science research expense

  • Decoding motor commands and sensory information encoded in cerebellar mossy fibers: investigation by simultaneous observation of multiple fibers.

    Grant number:19K06883  2018.4 - 2021.3

    Japan Society for the Promotion of Science  University of Yamanashi  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (C)

    Manita Satoshi

      More details

    Authorship:Principal investigator  Grant type:Competitive 

    The purpose of this study is to characterize how motor commands and sensory information are represented in the mossy fibers of the cerebellum. In FY 2019, we examined whether cerebellar mossy fibers exhibit movement-related activity that express calcium sensors specifically in cerebellar mossy fibers (Thy1-G-CaMP7 mice). The results revealed that mossy fibers are synchronously active in structural units such as the V, VI, and VII lobes of the vermis and the simple lobule, crus I, and II of the hemisphere. The results also suggest that mossy fiber activity is correlated not only with forelimb and blinking but also with other locomotion and reward acquisition in mice. In FY2020, we improved and validated a mouse forelimb reaching and grasping movement system. In FY2021, the development of this device was summarized and published as a paper. These findings have enabled a detailed examination of cerebellar mossy fiber activity during reaching and grasping movements with the forelimb.

  • 小脳回路による運動学習機構の解明

    2016.10 - 2017.3

    山梨県  山梨県若手研究者奨励事業費補助金 

    真仁田聡

      More details

    Authorship:Principal investigator  Grant type:Competitive 

  • 複雑スパイクはエラー情報をコードするか?

    2016.4 - 2017.3

    成茂神経科学研究助成基金  研究助成 

    真仁田聡

      More details

    Authorship:Principal investigator  Grant type:Competitive 

  • 運動学習における小脳プルキンエ細胞の役割の解明

    2016 - 2017

    公益財団法人 武田科学振興財団  医学系研究奨励

      More details

    Authorship:Principal investigator  Type of fund::Others

  • 複雑スパイクはエラー情報をコードするか?

    2016

    成茂神経科学研究助成基金  研究助成

  • 小脳回路による運動学習機構の解明

    2016

    山梨県  若手研究者奨励事業費補助金

  • イン・ビボ-マウス脳における単一神経細胞のカルシウム動態の解明

    2012

      More details

    Authorship:Principal investigator  Type of fund::Science research expense

  • イン・ビボ-マウス脳における単一神経細胞のカルシウム動態の解明

    2012 - 2013

      More details

    Authorship:Principal investigator  Type of fund::Science research expense

  • In vivo dendritic calcium imaging of a single neuron

    Grant number:24700402  2012 - 2013

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Young Scientists (B)

    SATOSHI Manita

      More details

    Authorship:Principal investigator  Grant type:Competitive 

    We established calcium imaging methods from dendrites using a new multi-photon laser microscope. There is the progress of research on the following points using multiple techniques. We confirmed that the reciprocal projection between the primary somatosensory cortex (S1) and the secondary motor cortex (M2) in mouse. We revealed that the input from M2 causes firing of selective layer 5 neurons in the S1, which is following dendritic spikes. From behavioral experiments, which is related with haptic perception in mouse, we found that an inhibition of M2 inputs with the optogenetical methods disturbed the haptic perception. From this study, we have found that the dendritic calcium response is a building block of a basic component of the perception.

  • 運動学習における小脳プルキンエ細胞の役割の解明

    武田科学振興財団  医学系研究奨励 

    真仁田聡

      More details

    Authorship:Principal investigator  Grant type:Competitive 

▼display all

Papers

  • A multicolor suite for deciphering population coding of calcium and cAMP in vivo Reviewed

    Yokoyama, T., Manita, S., Uwamori, H., Tajiri, M., Imayoshi, I., Yagishita, S., Murayama, M., Kitamura, K., & Sakamoto, M.

    NATURE METHODS   2024.3( ISSN:1548-7091 )

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1038/s41592-024-02222-9

    DOI: 10.1038/s41592-024-02222-9

  • Optogenetic stimulation of neurons in the anterior cingulate cortex induces changes in intravesical bladder pressure and the micturition reflex Reviewed Major achievement

    Takanori Mochizuki, Satoshi Manita, Hiroshi Shimura, Satoru Kira, Norifumi Sawada, Haruhiko Bito, Kenji Sakimura, George J Augustine, Takahiko Mitsui, Masayuki Takeda, Kazuo Kitamura

    Scientific Reports   2024.3( ISSN:2045-2322 )

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

    DOI: https://doi.org/10.1038/s41598-024-56806-8

  • Cerebellar climbing fibers multiplex movement and reward signals during a voluntary movement task in mice Reviewed

    2023.9

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

  • In Vivo Wide-Field and Two-Photon Calcium Imaging from a Mouse using a Large Cranial Window Reviewed Major achievement

    S. Manita, E. Shigetomi, H. Bito, S. Koizumi and K. Kitamura

    Jove-Journal of Visualized Experiments   e64224   2022.8( ISSN:1940-087X )

     More details

    Authorship:Lead author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)  

  • A Novel Device of Reaching, Grasping, and Retrieving Task for Head-Fixed Mice Reviewed Major achievement

    S. Manita, K. Ikezoe and K. Kitamura

    Frontiers in Neural Circuits   16   842748   2022.5(  eISSN:1662-5110 )

     More details

    Authorship:Lead author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    Reaching, grasping, and retrieving movements are essential to our daily lives and are common in many mammalian species. To understand the mechanism for controlling this movement at the neural circuit level, it is necessary to observe the activity of individual neurons involved in the movement. For stable electrophysiological or optical recordings of neural activity in a behaving animal, head fixation effectively minimizes motion artifacts. Here, we developed a new device that allows mice to perform reaching, grasping, and retrieving movements during head fixation. In this method, agar cubes were presented as target objects in front of water-restricted mice, and the mice were able to reach, grasp, and retrieve them with their forelimb. The agar cubes were supplied by a custom-made automatic dispenser, which uses a microcontroller to control the two motors to push out the agar cubes. This agar presentation system supplied approximately 20 agar cubes in consecutive trials. We confirmed that each agar cube could be presented to the mouse with an average weight of 55 ± 3 mg and positional accuracy of less than 1 mm. Using this system, we showed that head-fixed mice could perform reaching, grasping, and retrieving tasks after 1 week of training. When the agar cube was placed near the mice, they could grasp it with a high success rate without extensive training. On the other hand, when the agar cube was presented far from the mice, the success rate was initially low and increased with subsequent test sessions. Furthermore, we showed that activity in the primary motor cortex is required for reaching movements in this task. Therefore, our system can be used to study neural circuit mechanisms for the control and learning of reaching, grasping, and retrieving movements under head-fixed conditions.

    DOI: 10.3389/fncir.2022.842748

  • Activation of the reward system ameliorates passive cutaneous anaphylactic reaction in mice Reviewed

    Shotaro Nakajima 1 2 3 4 , Satoshi Manita 5 , Guannan Yu 1 , Kayoko Ishimaru 1 , Koji Kono 4 , Kazuo Kitamura 5 , Atsuhito Nakao 1

    ALLERGY   2020.12( ISSN:0105-4538 )

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

  • Rational Engineering of XCaMPs, a Multicolor GECI Suite for In Vivo Imaging of Complex Brain Circuit Dynamics. Reviewed Major achievement

    Inoue M*, Takeuchi A*, Manita S*, Horigane SI, Sakamoto M, Kawakami R, Yamaguchi K, Otomo K, Yokoyama H, Kim R, Yokoyama T, Takemoto-Kimura S, Abe M, Okamura M, Kondo Y, Quirin S, Ramakrishnan C, Imamura T, Sakimura K, Nemoto T, Kano M, Fujii H, Deisseroth K, Kitamura K, Bito H, *These authors contributed equally

    CELL   2019.5( ISSN:0092-8674 )

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Dendritic Spikes in Sensory Perception. Reviewed Major achievement

    Manita S, Miyakawa H, Kitamura K and Murayama M

    Frontiers in Cellular Neuroscience   11 ( 29 )   29   2017.2( ISSN:1662-5102 )

     More details

    Authorship:Lead author, Corresponding author   Language:English   Publisher:FRONTIERS MEDIA SA  

    What is the function of dendritic spikes? One might argue that they provide conditions for neuronal plasticity or that they are essential for neural computation. However, despite a long history of dendritic research, the physiological relevance of dendritic spikes in brain function remains unknown. This could stem from the fact that most studies on dendrites have been performed in vitro. Fortunately, the emergence of novel techniques such as improved two-photon microscopy, genetically encoded calcium indicators (GECIs), and optogenetic tools has provided the means for vital breakthroughs in in vivo dendritic research. These technologies enable the investigation of the functions of dendritic spikes in behaving animals, and thus, help uncover the causal relationship between dendritic spikes, and sensory information processing and synaptic plasticity. Understanding the roles of dendritic spikes in brain function would provide mechanistic insight into the relationship between the brain and the mind. In this review article, we summarize the results of studies on dendritic spikes from a historical perspective and discuss the recent advances in our understanding of the role of dendritic spikes in sensory perception.

    DOI: 10.3389/fncel.2017.00029

    Web of Science

    PubMed

  • A Top-Down Cortical Circuit for Accurate Sensory Perception Reviewed Major achievement

    NEURON   86 ( 5 )   1304 - 1316   2015.5( ISSN:0896-6273 )

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Developmental profile of localized spontaneous Ca 2+ release events in the dendrites of rat hippocampal pyramidal neurons Reviewed

    Kenichi Miyazaki, Satoshi Manita, William N Ross

    Cell calcium   52 ( 6 )   422 - 432   2012.12

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

  • Imaging calcium waves and sparks in central neurons Major achievement

    William N Ross, Satoshi Manita

    Cold Spring Harb Protoc.   2012.10

     More details

    Authorship:Last author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Cold Spring Harbor Laboratory Press  

  • Synaptically activated Ca2+ waves and NMDA spikes locally suppress voltage‐dependent Ca2+ signalling in rat pyramidal cell dendrites Reviewed Major achievement

    Satoshi Manita, Kenichi Miyazaki, William N Ross

    The Journal of physiology   589 ( 20 )   4903 - 4920   2011.10

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Dendritic Kv3. 3 potassium channels in cerebellar Purkinje cells regulate generation and spatial dynamics of dendritic Ca2+ spikes Reviewed

    Edward Zagha, Satoshi Manita, William N Ross, Bernardo Rudy

    Journal of neurophysiology   103 ( 6 )   3516 - 3525   2010.6

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

  • IP3 mobilization and diffusion determine the timing window of Ca2+ release by synaptic stimulation and a spike in rat CA1 pyramidal cells Reviewed Major achievement

    Satoshi Manita, William N Ross

    Hippocampus   20 ( 4 )   524 - 539   2010.4

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Synaptic activation and membrane potential changes modulate the frequency of spontaneous elementary Ca2+ release events in the dendrites of pyramidal neurons Reviewed Major achievement

    Satoshi Manita, William N Ross

    The Journal of Neuroscience   29 ( 24 )   7833 - 7845   2009.6

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Paired-pulse ratio of synaptically induced transporter currents at hippocampal CA1 synapses is not related to release probability Reviewed Major achievement

    Satoshi Manita, Takayuki Suzuki, Masashi Inoue, Yoshihisa Kudo, Hiroyoshi Miyakawa

    Brain research   1154   71 - 79   2007.6

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Is glycine “sweet” to mice? Mouse strain differences in perception of glycine taste Reviewed Major achievement

    Satoshi Manita, Alexander A Bachmanov, Xia Li, Gary K Beauchamp, Masashi Inoue

    Chemical senses   31 ( 9 )   785 - 793   2006.11

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Adenosine A 1-receptor-mediated tonic inhibition of glutamate release at rat hippocampal CA3?CA1 synapses is primarily due to inhibition of N-type Ca 2+ channels Reviewed Major achievement

    Satoshi Manita, Yoshinobu Kawamura, Kazuki Sato, Masashi Inoue, Yoshihisa Kudo, Hiroyoshi Miyakawa

    European journal of pharmacology   499 ( 3 )   265 - 274   2004.9

     More details

    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

  • Glutamate release increases during mossy‐CA3 LTP but not during Schaffer‐CA1 LTP Reviewed

    Yoshinobu Kawamura, Satoshi Manita, Takeshi Nakamura, Masashi Inoue, Yoshihisa Kudo, Hiroyoshi Miyakawa

    European Journal of Neuroscience   19 ( 6 )   1591 - 1600   2004.3

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

  • Monitoring synaptically released glutamate by use of the voltage-sensitive dye imaging technique Reviewed

    H Miyakawa, Y Kawamura, S Manita

    JOURNAL OF PHARMACOLOGICAL SCIENCES   94   17 - 17   2004.1

     More details

    Authorship:Last author   Language:English   Publishing type:Research paper (scientific journal)  

▼display all

Books and Other Publications

  • SECTION 3: SPINES AND DENDRITES, Chapter 28. Imaging Calcium Waves and Puffs in Central Neurons

    Cold Spring Harbor Laboratory Press  2011.5 

     More details

    Responsible for pages:281-286   Language:English  

Presentations

  • The application of a large cranial window for wide-field and two-photon calcium imaging from the same mouse International conference

    Satoshi Manita, Shigetomi Eiji, Haruhiko Bito, Schuichi Koizumi, Kazuo Kitamura

    NEUROSCIENCE 2023  2023.11  Society for Neuroscience

     More details

    Event date: 2023.11

    Language:English   Presentation type:Poster presentation  

    Venue:Washington, D.C.   Country:United States  

  • Development of cranial windows that allow wide-field and two-photon calcium imaging from the same mouse.

    Satoshi Manita

    2023.8 

     More details

    Event date: 2023.8

    Language:English   Presentation type:Oral presentation(general)  

    Country:Japan  

  • Novel cranial window for in vivo calcium imaging

    2023.3 

     More details

    Event date: 2023.3

    Language:Japanese   Presentation type:Poster presentation  

  • 新規イメージング窓による大脳皮質のカルシウムイメージング Invited Major achievement

    真仁田聡

    日本顕微鏡学会 第65回シンポジウム:脳-身体連関を読み解く顕微鏡解析の最前線  2022.11  学術変革領域研究(A)令和2年度~令和6年度 グリアデコーディング:脳-身体連関を規定するグリア情報の読み出しと理解

     More details

    Event date: 2022.11

    Language:Japanese   Presentation type:Symposium workshop panel(nominated)  

    Venue:川崎医科大学  

  • Voltage imaging of simple spikes from Purkinje cells in acute cerebellar slice Major achievement

    Eikichi Hashida, Satoshi Manita, Kazuo Kitamura

    NEURO2022  2022.7 

     More details

    Event date: 2022.7

    Language:English   Presentation type:Poster presentation  

  • A novel device of reaching, grasping and retrieving task for head-fixed mice Major achievement

    Satoshi Manita, Koji Ikezoe, Kazuo Kitamura

    NEURO2022  2022.6 

     More details

    Event date: 2022.6

    Language:English   Presentation type:Oral presentation(general)  

  • A novel reaching and grasping task for head-fixed mice with an automated agar cube dispenser International conference

    The 44th annual meeting of the Japan neuroscience society The 1st CJK international meeting  2021.7 

     More details

    Event date: 2021.7

    Language:English   Presentation type:Poster presentation  

  • 自発レバー引き課題を行うマウスにおける小脳プルキンエ細胞の複雑スパイク活動の符号化モデル解析 International conference

    第44回日本神経科学大会  2021.7 

     More details

    Event date: 2021.7

    Language:Japanese   Presentation type:Poster presentation  

  • Calcium Imaging Of Cerebellar Mossy Fiber Activities During Mouse Behaviors International conference

    Satoshi Manita, Koji Ikezoe, Masaaki Sato, Masamichi Ohkura, Junichi Nakai, Yasunori Hayashi, Kazuo Kitamura

    The Eighth International Neural Microcircuit Conference “Synaptic Specificity to Circuit Dynamics”  2020.1 

     More details

    Event date: 2020.1

    Language:English   Presentation type:Poster presentation  

  • Measurement of multiple cerebellar mossy fiber activities by calcium imaging in mouse International conference Major achievement

    Satoshi Manita, Koji Ikezoe, Masaaki Sato, Masamichi Ohkura, Junichi Nakai, Yasunori Hayashi, Kazuo Kitamura

    The 9th Federation of Asian and Oceanian Physiological Societies Congress (FAOPS2019) in conjunction with the 96th Annual Meeting of the Physiological Society of Japan  2019.3  The Physiological Society of Japan (General Incorporated Association)

     More details

    Event date: 2019.3

    Language:English   Presentation type:Poster presentation  

    Venue:Kobe Convention Center, Kobe, JAPAN  

  • Calcium imaging of the cerebellar mossy fiber activities during forelimb movements in mouse Major achievement

    Satoshi Manita, Koji Ikezoe, Sato Masaaki, Ohkura Masamichi, Nakai Junichi, Hayashi Yasunori, Kazuo Kitamura

    The 41st Annual Meeting of the Japan Neuroscience Society  2018.7  The Japan Neuroscience Society

     More details

    Event date: 2018.7

    Language:English   Presentation type:Poster presentation  

    Venue:Kobe International Conference, Kobe International Exhibition Hall  

  • Calcium imaging of the cerebellar mossy fiber activities

    The 95th Annual meeting of the physiological society of Japan  2018.3 

     More details

    Event date: 2018.3

    Language:English   Presentation type:Poster presentation  

  • Establishment of a method to observe cerebellar activities during reaching and grasping in mice

    Neuroscience 2017  2017.7 

     More details

    Event date: 2017.7

    Language:English   Presentation type:Poster presentation  

  • 頭部固定下におけるマウスを用いた到達把持運動課題の開発

    真仁田 聡,池添 貢司,喜多村 和郎

    第94回日本生理学会大会  2017.3 

     More details

    Event date: 2017.3

    Language:Japanese   Presentation type:Poster presentation  

  • 体性感覚を知覚する神経回路メカニズムの解明 Invited

    真仁田聡

    大脳皮質の機能原理を探る  2016.12 

     More details

    Language:Japanese   Presentation type:Symposium workshop panel(nominated)  

  • Neural mechanisms of somatosensory perception. Invited

    Satoshi Manita

    2016.1 

     More details

    Language:Japanese   Presentation type:Symposium workshop panel(nominated)  

  • Cortical top-down inputs for precise sensory perception in mice Invited Major achievement

    The 38th Annual Meeting of the Japan Neuroscience Society, Symposium, Theoretical and experimental approach for the brain function  2015.7 

     More details

    Event date: 2015.7

    Language:English   Presentation type:Oral presentation(invited, special)  

  • マウス皮質における正確な知覚に必要なトップダウン入力

    真仁田聡

    第38回日本神経科学大会、シンポジウム、理論系と実験系の両面から迫る脳機能  2015 

     More details

    Language:English   Presentation type:Symposium workshop panel(nominated)  

▼display all

Awards

  • 包括脳ネットワーク優秀若手賞

    2014.12   包括脳ネットワーク  

    真仁田 聡

     More details

    マウス二次運動野からのトップダウン入力による体性感覚の制御

  • 包括脳ネットワーク優秀若手賞

    2014   包括脳ネットワーク   マウス二次運動野からのトップダウン入力による体性感覚の制御

    真仁田聡

  • Travel Award and for an oral presentation at the New Horizons in Calcium Signaling Meeting to be held in Beijing, China

    2010.10   Biophysical Society  

  • 若手研究者奨励賞受賞

    2010.10   日本生理学会若手の会  

    真仁田 聡

     More details

    樹状突起のカルシウム動態の解明

  • Travel Award and for an oral presentation at the New Horizons in Calcium Signaling Meeting to be held in Beijing, China

    2010   Interaction of calcium signaling mechanisms in pyramidal cell dendrites

    Satoshi Manita

  • 若手研究者奨励賞受賞

    2010   日本生理学会若手の会   樹状突起のカルシウム動態の解明

    真仁田聡

▼display all

Other

  • Satoshi MANITA, Ph.D. - Google Scholar Citations

     More details

    https://scholar.google.com/citations?hl=ja&view_op=list_works&gmla=AJsN-F4ulZRx1lXZQcrs7tw_3sGJT1fLqFEO8zrS4cfv6otCPWEvCoz5I4nI2OlLZFYzYS7_kVOltv7GYchvQWPRzQMhBauVvF5-rxE37stIBe3kCSSXwfzs4guI_6Xh_tKSGl4B8AKd&user=ql5Ie3YAAAAJ

  • 大学HP

     More details

    http://erdb.yamanashi.ac.jp/rdb/A_DispInfo.Scholar/3_53/424F5CE593DFB1DD.html

Teaching Experience (On-campus)

  • Molecular medical sciences Major achievement

    2023Year

  • Basic Neurophysiology Major achievement

    2023Year

  • Basic Neurophysiology

    2022Year

  • 先端脳科学特別教育プログラム 実践コース

    2021Year  Type of subject:Master's (Graduate School)

  • 生理学実習 Major achievement

    2021Year  Type of subject:Professional education (undergraduate)

  • 生理学実習

    2018Year  Type of subject:Professional education (undergraduate)

▼display all

Teaching Experience

  • 基礎神経生理学

    Institution:山梨大学

Guidance results

  • 2022

    Type:Achievement of student guidance (Undergraduate)

    Number of people receiving guidance :1people 

  • 2021

    Type:Achievement of student guidance (Undergraduate)

    Number of people receiving guidance :2people 

  • 2021

    Type:Ph.D. dissertations guidance

    Number of people receiving guidance :1people 

  • 2020

    Type:Achievement of student guidance (graduate school)

    Number of people receiving guidance :2people 

  • 2020

    Type:Achievement of student guidance (Undergraduate)

    Number of people receiving guidance :1people 

  • 2019

    Type:Achievement of student guidance (Undergraduate)

    Number of people receiving guidance :1people 

  • 2019

    Type:Achievement of student guidance (graduate school)

    Number of people receiving guidance :2people 

  • 2016

    Type:Achievement of student guidance (Undergraduate)

    Number of people receiving guidance :1people 

▼display all

Review of master's and doctoral thesis

  • 2021

    Examiner classification:Second reader

    Master :1people 

Social Activities

  • 高校生への公開授業「プリズム適応」

    Role(s): Demonstrator

    2023.7

Professional Memberships

  • 日本神経科学学会

  • 日本生理学会

  • THE JAPAN NEUROSCIENCE SOCIETY

  • PHYSIOLOGICAL SOCIETY OF JAPAN