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Inoue, Kenichi

Center for the Evolutionary Origins of Human Behavior, Kyoto University (EHUB) Assistant Professor

Inoue, Kenichi
list
    Last Updated :2022/11/23

    Basic Information

    Affiliated programs (koza)

    • Graduate School of Science, 生物科学専攻 霊長類学講座, 助教

    Professional Memberships

    • THE JAPAN NEUROSCIENCE SOCIETY
    • Society for Neuroscience

    Academic Degree

    • 修士(生命科学)(東北大学)
    • 博士(生命科学)(東北大学)

    Research History

    • From Oct. 2016, To Mar. 2020
      Japan Science and Technology Agency, Researcher
    • From Oct. 2009, To Jun. 2013
      京都大学, 霊長類研究所, 特定助教
    • From Apr. 2006, To Sep. 2009
      東京都神経科学総合研究所, 研究員
    • From Apr. 2006, To Sep. 2009
      Japan Science and Technology Agency, CREST研究員
    • From Apr. 2001, To Mar. 2006
      東北大学生命科学研究科, 修士課程・博士課程
    • To Mar. 2001
      Kyoto University, Faculty of Science, 学士過程

    Profile

    • Profile

      ・Development of pathway/cell-type selective cell manipulation methods, and their application to studies on higher-order brain functions and pathogenesis and treatments in neurological and psychiatric disorders.
      ・Functional architecture of cortico-basal ganglia loop circuits and cortico-cerebellar loop circuits.

    Language of Instruction

    • English

    ID,URL

    Website(s) (URL(s))

    researchmap URL

    list
      Last Updated :2022/11/23

      Research

      Research Topics, Overview of the research

      • Research Topics

        Development of pathway/cell-type selective cell manipulation methods, as well as their application to studies on higher-order brain functions, and on pathogenesis and treatments in neurological and psychiatric disorders.
        Functional architecture of cortico-basal ganglia loop circuits and cortico-cerebellar loop circuits.
      • Overview of the research

        By developing novel techniques for investigating the mechanism of brain functions, we are conducting to elucidate the structure and function of neural networks surrounding the basal ganglia. The striatum, the input region of the basal ganglia, receives a complex inputs from cerebral cortex, thalamus and substantia nigra. Although abnormalities in the function of the striatum have long been examined in motor disorders such as Parkinson's disease, in recent years, abnormalities in the neurotransmission within striatum have been noted in many mental disorders. The striatal network that accounts for the development of these diverse disease states has not been clarified. We are attempting to analyze the input and output structure of the basal ganglia using various viral vectors, and to elucidate the mechanisms of higher brain functions of the cortico-basal ganglia loop circuits by examining the functional roles of individual projection systems. We are also working on the elucidation of the pathophysiology of psychiatric and neurological diseases, as well as the development of new therapies, by creating animal models of such diseases.

      Research Areas

      • Life sciences, Neuroscience - general
      • Life sciences, Neuroanatomy and physiology

      Papers

      • Chemogenetic Disconnection between the Orbitofrontal Cortex and the Rostromedial Caudate Nucleus Disrupts Motivational Control of Goal-Directed Action.
        Kei Oyama; Yukiko Hori; Koki Mimura; Yuji Nagai; Mark A G Eldridge; Richard C Saunders; Naohisa Miyakawa; Toshiyuki Hirabayashi; Yuki Hori; Ken-Ichi Inoue; Tetsuya Suhara; Masahiko Takada; Makoto Higuchi; Barry J Richmond; Takafumi Minamimoto
        The Journal of neuroscience : the official journal of the Society for Neuroscience, 01 Jul. 2022
      • Rapid processing of threatening faces in the amygdala of nonhuman primates: subcortical inputs and dual roles
        Mikio Inagaki; Ken-ichi Inoue; Soshi Tanabe; Kei Kimura; Masahiko Takada; Ichiro Fujita
        Cerebral Cortex, 22 Mar. 2022
      • A multisynaptic pathway from the ventral midbrain toward spinal motoneurons in monkeys.
        Michiaki Suzuki; Ken-Ichi Inoue; Hiroshi Nakagawa; Hiroaki Ishida; Kenta Kobayashi; Tadashi Isa; Masahiko Takada; Yukio Nishimura
        The Journal of physiology, Apr. 2022
      • Claustrum mediates bidirectional and reversible control of stress-induced anxiety responses.
        Misaki Niu; Atsushi Kasai; Masato Tanuma; Kaoru Seiriki; Hisato Igarashi; Takahiro Kuwaki; Kazuki Nagayasu; Keita Miyaji; Hiroki Ueno; Wataru Tanabe; Kei Seo; Rei Yokoyama; Jin Ohkubo; Yukio Ago; Misuzu Hayashida; Ken-Ichi Inoue; Masahiko Takada; Shun Yamaguchi; Takanobu Nakazawa; Shuji Kaneko; Hiroyuki Okuno; Akihiro Yamanaka; Hitoshi Hashimoto
        Science advances, 18 Mar. 2022
      • Origin of Multisynaptic Corticospinal Pathway to Forelimb Segments in Macaques and Its Reorganization After Spinal Cord Injury.
        Taihei Ninomiya; Hiroshi Nakagawa; Ken-Ichi Inoue; Yukio Nishimura; Takao Oishi; Toshihide Yamashita; Masahiko Takada
        Frontiers in neural circuits, 2022
      • Laminar Organization of the Entorhinal Cortex in Macaque Monkeys Based on Cell-Type-Specific Markers and Connectivity
        Shinya Ohara; Rintaro Yoshino; Kei Kimura; Taichi Kawamura; Soshi Tanabe; Andi Zheng; Shinya Nakamura; Ken-ichi Inoue; Masahiko Takada; Ken-Ichiro Tsutsui; Menno P. Witter
        Frontiers in Neural Circuits, 07 Dec. 2021
      • Microendoscopic calcium imaging of the primary visual cortex of behaving macaques.
        Mineki Oguchi; Jiang Jiasen; Toshihide W Yoshioka; Yasuhiro R Tanaka; Kenichi Inoue; Masahiko Takada; Takefumi Kikusui; Kensaku Nomoto; Masamichi Sakagami
        Scientific reports, 23 Aug. 2021, Peer-reviewed
      • Chemogenetic sensory fMRI reveals behaviorally relevant bidirectional changes in primate somatosensory network.
        Toshiyuki Hirabayashi; Yuji Nagai; Yukiko Hori; Ken-Ichi Inoue; Ichio Aoki; Masahiko Takada; Tetsuya Suhara; Makoto Higuchi; Takafumi Minamimoto
        Neuron, 20 Oct. 2021
      • A mosaic adeno-associated virus vector as a versatile tool that exhibits high levels of transgene expression and neuron specificity in primate brain
        Kei Kimura; Yuji Nagai; Gaku Hatanaka; Yang Fang; Andi Zheng; Maki Fujiwara; Mayuko Nakano; Yukiko Hori; Ryosuke Takeuchi; Mikio Inagaki; Takafumi Minamimoto; Ichiro Fujita; Ken-ichi Inoue; Masahiko Takada
        19 Jul. 2021
      • Specific gene expression in unmyelinated dorsal root ganglion neurons in nonhuman primates by intra-nerve injection of AAV 6 vector
        Moeko Kudo; Sidikejiang Wupuer; Maki Fujiwara; Yuko Saito; Shinji Kubota; Ken-ichi Inoue; Masahiko Takada; Kazuhiko Seki
        Molecular Therapy - Methods & Clinical Development, Dec. 2021
      • Chemogenetic activation of nigrostriatal dopamine neurons in freely moving common marmosets.
        Koki Mimura; Yuji Nagai; Ken-Ichi Inoue; Jumpei Matsumoto; Yukiko Hori; Chika Sato; Kei Kimura; Takashi Okauchi; Toshiyuki Hirabayashi; Hisao Nishijo; Noriaki Yahata; Masahiko Takada; Tetsuya Suhara; Makoto Higuchi; Takafumi Minamimoto
        iScience, 24 Sep. 2021
      • Chronic behavioral manipulation via orally delivered chemogenetic actuator in macaques
        Kei Oyama; Yukiko Hori; Yuji Nagai; Naohisa Miyakawa; Koki Mimura; Toshiyuki Hirabayashi; Ken-ichi Inoue; Masahiko Takada; Makoto Higuchi; Takafumi Minamimoto
        05 Aug. 2021
      • Single caudate neurons encode temporally discounted value for formulating motivation for action
        Yukiko Hori; Koki Mimura; Yuji Nagai; Atsushi Fujimoto; Kei Oyama; Erika Kikuchi; Ken-ichi Inoue; Masahiko Takada; Tetsuya Suhara; Barry J Richmond; Takafumi Minamimoto
        eLife, 30 Jul. 2021
      • Retrograde Transgene Expression via Neuron-Specific Lentiviral Vector Depends on Both Species and Input Projections
        Yukiko Otsuka; Hitomi Tsuge; Shiori Uezono; Soshi Tanabe; Maki Fujiwara; Miki Miwa; Shigeki Kato; Katsuki Nakamura; Kazuto Kobayashi; Ken-ichi Inoue; Masahiko Takada
        Viruses, 16 Jul. 2021
      • Effects of Optogenetic Suppression of Cortical Input on Primate Thalamic Neuronal Activity during Goal-Directed Behavior
        Tomoki W. Suzuki; Ken-Ichi Inoue; Masahiko Takada; Masaki Tanaka
        eneuro, Mar. 2021, Peer-reviewed
      • Nonhuman Primate Optogenetics: Current Status and Future Prospects.
        Ken-Ichi Inoue; Masayuki Matsumoto; Masahiko Takada
        Advances in experimental medicine and biology, Mar. 2021, Peer-reviewed, Lead author, Corresponding author
      • Chemogenetic dissection of the primate prefronto-subcortical pathways for working memory and decision-making
        Oyama K; Hori Y; Nagai Y; Miyakawa N; Mimura K; Hirabayashi T; Inoue K; Suhara T; Takada M; Higuchi M; Minamimoto T
        Science Advances, 2021, Peer-reviewed
      • MacaquePose: A Novel "In the Wild" Macaque Monkey Pose Dataset for Markerless Motion Capture.
        Rollyn Labuguen; Jumpei Matsumoto; Salvador Blanco Negrete; Hiroshi Nishimaru; Hisao Nishijo; Masahiko Takada; Yasuhiro Go; Ken-Ichi Inoue; Tomohiro Shibata
        Frontiers in behavioral neuroscience, Jan. 2021, Peer-reviewed
      • An Open Resource for Non-human Primate Optogenetics.
        Sébastien Tremblay; Leah Acker; Arash Afraz; Daniel L Albaugh; Hidetoshi Amita; Ariana R Andrei; Alessandra Angelucci; Amir Aschner; Puiu F Balan; Michele A Basso; Giacomo Benvenuti; Martin O Bohlen; Michael J Caiola; Roberto Calcedo; James Cavanaugh; Yuzhi Chen; Spencer Chen; Mykyta M Chernov; Andrew M Clark; Ji Dai; Samantha R Debes; Karl Deisseroth; Robert Desimone; Valentin Dragoi; Seth W Egger; Mark A G Eldridge; Hala G El-Nahal; Francesco Fabbrini; Frederick Federer; Christopher R Fetsch; Michal G Fortuna; Robert M Friedman; Naotaka Fujii; Alexander Gail; Adriana Galvan; Supriya Ghosh; Marc Alwin Gieselmann; Roberto A Gulli; Okihide Hikosaka; Eghbal A Hosseini; Xing Hu; Janina Hüer; Ken-Ichi Inoue; Roger Janz; Mehrdad Jazayeri; Rundong Jiang; Niansheng Ju; Kohitij Kar; Carsten Klein; Adam Kohn; Misako Komatsu; Kazutaka Maeda; Julio C Martinez-Trujillo; Masayuki Matsumoto; John H R Maunsell; Diego Mendoza-Halliday; Ilya E Monosov; Ross S Muers; Lauri Nurminen; Michael Ortiz-Rios; Daniel J O'Shea; Stéphane Palfi; Christopher I Petkov; Sorin Pojoga; Rishi Rajalingham; Charu Ramakrishnan; Evan D Remington; Cambria Revsine; Anna W Roe; Philip N Sabes; Richard C Saunders; Hansjörg Scherberger; Michael C Schmid; Wolfram Schultz; Eyal Seidemann; Yann-Suhan Senova; Michael N Shadlen; David L Sheinberg; Caitlin Siu; Yoland Smith; Selina S Solomon; Marc A Sommer; John L Spudich; William R Stauffer; Masahiko Takada; Shiming Tang; Alexander Thiele; Stefan Treue; Wim Vanduffel; Rufin Vogels; Matthew P Whitmire; Thomas Wichmann; Robert H Wurtz; Haoran Xu; Azadeh Yazdan-Shahmorad; Krishna V Shenoy; James J DiCarlo; Michael L Platt
        Neuron, 23 Dec. 2020, Peer-reviewed
      • Deschloroclozapine, a potent and selective chemogenetic actuator enables rapid neuronal and behavioral modulations in mice and monkeys.
        Yuji Nagai; Naohisa Miyakawa; Hiroyuki Takuwa; Yukiko Hori; Kei Oyama; Bin Ji; Manami Takahashi; Xi-Ping Huang; Samuel T Slocum; Jeffrey F DiBerto; Yan Xiong; Takuya Urushihata; Toshiyuki Hirabayashi; Atsushi Fujimoto; Koki Mimura; Justin G English; Jing Liu; Ken-Ichi Inoue; Katsushi Kumata; Chie Seki; Maiko Ono; Masafumi Shimojo; Ming-Rong Zhang; Yutaka Tomita; Jin Nakahara; Tetsuya Suhara; Masahiko Takada; Makoto Higuchi; Jian Jin; Bryan L Roth; Takafumi Minamimoto
        Nature neuroscience, 06 Jul. 2020, Peer-reviewed
      • Primate Amygdalo-Nigral Pathway for Boosting Oculomotor Action in Motivating Situations.
        Kazutaka Maeda; Ken-Ichi Inoue; Jun Kunimatsu; Masahiko Takada; Okihide Hikosaka
        iScience, 26 Jun. 2020, Peer-reviewed
      • New Cerebello-Cortical Pathway Involved in Higher-Order Oculomotor Control.
        Xiaofeng Lu; Ken-Ichi Inoue; Shogo Ohmae; Yusuke Uchida
        Cerebellum (London, England), Jun. 2020, Peer-reviewed
      • Optogenetic manipulation of a value-coding pathway from the primate caudate tail facilitates saccadic gaze shift.
        Hidetoshi Amita; Hyoung F Kim; Ken-Ichi Inoue; Masahiko Takada; Okihide Hikosaka
        Nature communications, 20 Apr. 2020, Peer-reviewed
      • Layer specificity of inputs from supplementary motor area and dorsal premotor cortex to primary motor cortex in macaque monkeys.
        Taihei Ninomiya; Ken-Ichi Inoue; Eiji Hoshi; Masahiko Takada
        Scientific reports, 03 Dec. 2019, Peer-reviewed
      • Identification of neuron-type specific promoters in monkey genome and their functional validation in mice.
        Yuma Nagai; Naoya Nishitani; Masaharu Yasuda; Yasumasa Ueda; Yuto Fukui; Chihiro Andoh; Hisashi Shirakawa; Takayuki Nakagawa; Ken-Ichi Inoue; Kazuki Nagayasu; Sergey Kasparov; Kae Nakamura; Shuji Kaneko
        Biochemical and biophysical research communications, 22 Oct. 2019, Peer-reviewed
      • Optogenetic recruitment of spinal reflex pathways from large-diameter primary afferents in non-transgenic rats transduced with AAV9/Channelrhodopsin 2.
        Shinji Kubota; Wupuer Sidikejiang; Moeko Kudo; Ken-Ichi Inoue; Tatsuya Umeda; Masahiko Takada; Kazuhiko Seki
        The Journal of physiology, Oct. 2019, Peer-reviewed
      • A note on retrograde gene transfer efficiency and inflammatory response of lentiviral vectors pseudotyped with FuG-E vs. FuG-B2 glycoproteins.
        Soshi Tanabe; Shiori Uezono; Hitomi Tsuge; Maki Fujiwara; Miki Miwa; Shigeki Kato; Katsuki Nakamura; Kazuto Kobayashi; Ken-Ichi Inoue; Masahiko Takada
        Scientific reports, 05 Mar. 2019, Peer-reviewed, Corresponding author
      • Recruitment of calbindin into nigral dopamine neurons protects against MPTP-Induced parkinsonism.
        Ken-Ichi Inoue; Shigehiro Miyachi; Katsunori Nishi; Haruo Okado; Yuji Nagai; Takafumi Minamimoto; Atsushi Nambu; Masahiko Takada
        Movement disorders : official journal of the Movement Disorder Society, Feb. 2019, Peer-reviewed, Lead author
      • Enhancement of the transduction efficiency of a lentiviral vector for neuron-specific retrograde gene delivery through the point mutation of fusion glycoprotein type E.
        Shigeki Kato; Masateru Sugawara; Kenta Kobayashi; Kei Kimura; Ken-Ichi Inoue; Masahiko Takada; Kazuto Kobayashi
        Journal of neuroscience methods, 01 Jan. 2019, Peer-reviewed
      • Causal Role of Neural Signals Transmitted From the Frontal Eye Field to the Superior Colliculus in Saccade Generation.
        Masayuki Matsumoto; Ken-Ichi Inoue; Masahiko Takada
        Frontiers in neural circuits, Aug. 2018, Peer-reviewed
      • Segmentation of the rabies virus genome.
        Yuya Hidaka; Chang-Kweng Lim; Mutsuyo Takayama-Ito; Chun-Ho Park; Kazunori Kimitsuki; Nozomi Shiwa; Ken-Ichi Inoue; Takuya Itou
        Virus research, 02 Jul. 2018, Peer-reviewed
      • Alterations in the reduced pteridine contents in the cerebrospinal fluids of LRRK2 mutation carriers and patients with Parkinson's disease.
        Hiroshi Ichinose; Ken-Ichi Inoue; Shinobu Arakawa; Yuki Watanabe; Hiroki Kurosaki; Shoko Koshiba; Eldbjorg Hustad; Masahiko Takada; Jan O Aasly
        Journal of neural transmission (Vienna, Austria : 1996), Jan. 2018, Peer-reviewed
      • Multisynaptic Projections from the Amygdala to the Ventral Premotor Cortex in Macaque Monkeys: Anatomical Substrate for Feeding Behavior.
        Hiroaki Ishida; Ken-Ichi Inoue; Masahiko Takada
        Frontiers in neuroanatomy, Jan. 2018, Peer-reviewed, Lead author
      • Nonhuman Primate Optogenetics: Recent Advances and Future Directions.
        Adriana Galvan; William R Stauffer; Leah Acker; Yasmine El-Shamayleh; Ken-Ichi Inoue; Shay Ohayon; Michael C Schmid
        The Journal of neuroscience : the official journal of the Society for Neuroscience, 08 Nov. 2017, Peer-reviewed
      • Pseudotyped Lentiviral Vectors for Retrograde Gene Delivery into Target Brain Regions.
        Kenta Kobayashi; Ken-Ichi Inoue; Soshi Tanabe; Shigeki Kato; Masahiko Takada; Kazuto Kobayashi
        Frontiers in neuroanatomy, Aug. 2017, Peer-reviewed
      • The use of an optimized chimeric envelope glycoprotein enhances the efficiency of retrograde gene transfer of a pseudotyped lentiviral vector in the primate brain.
        Soshi Tanabe; Ken-Ichi Inoue; Hitomi Tsuge; Shiori Uezono; Kiyomi Nagaya; Maki Fujiwara; Shigeki Kato; Kazuto Kobayashi; Masahiko Takada
        Neuroscience research, Jul. 2017, Peer-reviewed, Lead author, Corresponding author
      • High-Speed and Scalable Whole-Brain Imaging in Rodents and Primates.
        Kaoru Seiriki; Atsushi Kasai; Takeshi Hashimoto; Wiebke Schulze; Misaki Niu; Shun Yamaguchi; Takanobu Nakazawa; Ken-Ichi Inoue; Shiori Uezono; Masahiko Takada; Yuichiro Naka; Hisato Igarashi; Masato Tanuma; James A Waschek; Yukio Ago; Kenji F Tanaka; Atsuko Hayata-Takano; Kazuki Nagayasu; Norihito Shintani; Ryota Hashimoto; Yasuto Kunii; Mizuki Hino; Junya Matsumoto; Hirooki Yabe; Takeharu Nagai; Katsumasa Fujita; Toshio Matsuda; Kazuhiro Takuma; Akemichi Baba; Hitoshi Hashimoto
        Neuron, 21 Jun. 2017, Peer-reviewed
      • Visuomotor signals for reaching movements in the rostro-dorsal sector of the monkey thalamic reticular nucleus.
        Yosuke Saga; Yoshihisa Nakayama; Ken-Ichi Inoue; Tomoko Yamagata; Masashi Hashimoto; Léon Tremblay; Masahiko Takada; Eiji Hoshi
        The European journal of neuroscience, May 2017, Peer-reviewed
      • PET imaging-guided chemogenetic silencing reveals a critical role of primate rostromedial caudate in reward evaluation.
        Yuji Nagai; Erika Kikuchi; Walter Lerchner; Ken-Ichi Inoue; Bin Ji; Mark A G Eldridge; Hiroyuki Kaneko; Yasuyuki Kimura; Arata Oh-Nishi; Yukiko Hori; Yoko Kato; Toshiyuki Hirabayashi; Atsushi Fujimoto; Katsushi Kumata; Ming-Rong Zhang; Ichio Aoki; Tetsuya Suhara; Makoto Higuchi; Masahiko Takada; Barry J Richmond; Takafumi Minamimoto
        Nature communications, 06 Dec. 2016, Peer-reviewed
      • Propagated but Topologically Distributed Forebrain Neurons Expressing Alpha-Synuclein in Aged Macaques.
        Katsuo Kimura; Ken-Ichi Inoue; Yoshiyuki Kuroiwa; Fumiaki Tanaka; Masahiko Takada
        PloS one, Nov. 2016, Peer-reviewed
      • Altering Entry Site Preference of Lentiviral Vectors into Neuronal Cells by Pseudotyping with Envelope Glycoproteins.
        Kenta Kobayashi; Shigeki Kato; Ken-Ichi Inoue; Masahiko Takada; Kazuto Kobayashi
        Methods in molecular biology (Clifton, N.J.), 2016, Peer-reviewed
      • Origins of multisynaptic projections from the basal ganglia to the forelimb region of the ventral premotor cortex in macaque monkeys.
        Hiroaki Ishida; Ken-ichi Inoue; Masahiko Takada; Eiji Hoshi
        The European journal of neuroscience, Jan. 2016, Peer-reviewed, Lead author
      • Distribution of glutamatergic, GABAergic, and glycinergic neurons in the auditory pathways of macaque monkeys.
        T Ito; K Inoue; M Takada
        Neuroscience, 03 Dec. 2015, Peer-reviewed
      • Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system.
        Ken-Ichi Inoue; Masahiko Takada; Masayuki Matsumoto
        Nature communications, 21 Sep. 2015, Peer-reviewed, Lead author
      • Morphological study of the accommodative apparatus in the monkey eye.
        Mari Hiraoka; Kenichi Inoue; Haruki Senoo; Masahiko Takada
        Anatomical record (Hoboken, N.J. : 2007), Mar. 2015, Peer-reviewed
      • Dorsal area 46 is a major target of disynaptic projections from the medial temporal lobe.
        Yoshihiro Hirata; Shigehiro Miyachi; Ken-ichi Inoue; Taihei Ninomiya; Daisuke Takahara; Eiji Hoshi; Masahiko Takada
        Cerebral cortex (New York, N.Y. : 1991), Dec. 2013, Peer-reviewed
      • Elucidating information processing in primate basal ganglia circuitry: a novel technique for pathway-selective ablation mediated by immunotoxin.
        Masahiko Takada; Ken-Ichi Inoue; Daisuke Koketsu; Shigeki Kato; Kazuto Kobayashi; Atsushi Nambu
        Frontiers in neural circuits, Sep. 2013, Peer-reviewed
      • Multisynaptic projections from the ventrolateral prefrontal cortex to hand and mouth representations of the monkey primary motor cortex.
        Shigehiro Miyachi; Yoshihiro Hirata; Ken-ichi Inoue; Xiaofeng Lu; Atsushi Nambu; Masahiko Takada
        Neuroscience research, Jul. 2013, Peer-reviewed
      • Efficient in vivo depletion of CD8(+) T lymphocytes in common marmosets by novel CD8 monoclonal antibody administration
        Tomoyuki Yoshida; Saori Suzuki; Yuki Iwasaki; Akihisa Kaneko; Akatsuki Saito; Yuki Enomoto; Atsunori Higashino; Akino Watanabe; Juri Suzuki; Kenichi Inoue; Teiko Kuroda; Masahiko Takada; Ryoji Ito; Mamoru Ito; Hirofumi Akari
        IMMUNOLOGY LETTERS, Jul. 2013, Peer-reviewed
      • Developmental anatomy in the zonular connection with lens capsule in macaque eye.
        Mari Hiraoka; Teiko Kuroda; Kenichi Inoue; Haruki Senoo; Masahiko Takada
        Anatomical record (Hoboken, N.J. : 2007), May 2013, Peer-reviewed
      • Multisynaptic inputs from the medial temporal lobe to V4 in macaques.
        Taihei Ninomiya; Hiromasa Sawamura; Ken-Ichi Inoue; Masahiko Takada
        PloS one, Dec. 2012, Peer-reviewed
      • Multisynaptic projections from the ventrolateral prefrontal cortex to the dorsal premotor cortex in macaques - anatomical substrate for conditional visuomotor behavior.
        Daisuke Takahara; Ken-Ichi Inoue; Yoshihiro Hirata; Shigehiro Miyachi; Atsushi Nambu; Masahiko Takada; Eiji Hoshi
        The European journal of neuroscience, Nov. 2012, Peer-reviewed
      • Immunotoxin-mediated tract targeting in the primate brain: selective elimination of the cortico-subthalamic "hyperdirect" pathway.
        Ken-ichi Inoue; Daisuke Koketsu; Shigeki Kato; Kazuto Kobayashi; Atsushi Nambu; Masahiko Takada
        PloS one, Jun. 2012, Peer-reviewed, Lead author
      • Segregated pathways carrying frontally derived top-down signals to visual areas MT and V4 in macaques.
        Taihei Ninomiya; Hiromasa Sawamura; Ken-Ichi Inoue; Masahiko Takada
        The Journal of neuroscience : the official journal of the Society for Neuroscience, 16 May 2012, Peer-reviewed
      • Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys.
        Mari Hiraoka; Kenichi Inoue; Taihei Ninomiya; Masahiko Takada
        The British journal of ophthalmology, Apr. 2012, Peer-reviewed
      • Localization of papillofoveal bundles in primates.
        Mari Hiraoka; Kenichi Inoue; Hitoshi Kawano; Masahiko Takada
        Anatomical record (Hoboken, N.J. : 2007), Feb. 2012, Peer-reviewed
      • Neuron-specific gene transfer through retrograde transport of lentiviral vector pseudotyped with a novel type of fusion envelope glycoprotein.
        Shigeki Kato; Masahito Kuramochi; Kenji Takasumi; Kenta Kobayashi; Ken-ichi Inoue; Daisuke Takahara; Seiji Hitoshi; Kazuhiro Ikenaka; Takashi Shimada; Masahiko Takada; Kazuto Kobayashi
        Human gene therapy, Dec. 2011, Peer-reviewed
      • Differential architecture of multisynaptic geniculo-cortical pathways to V4 and MT.
        Taihei Ninomiya; Hiromasa Sawamura; Ken-ichi Inoue; Masahiko Takada
        Cerebral cortex (New York, N.Y. : 1991), Dec. 2011, Peer-reviewed
      • A lentiviral strategy for highly efficient retrograde gene transfer by pseudotyping with fusion envelope glycoprotein.
        Shigeki Kato; Kenta Kobayashi; Ken-ichi Inoue; Masahito Kuramochi; Tomoaki Okada; Hiroyuki Yaginuma; Kinjiro Morimoto; Takashi Shimada; Masahiko Takada; Kazuto Kobayashi
        Human gene therapy, Feb. 2011, Peer-reviewed
      • Origins of multisynaptic projections from the basal ganglia to rostrocaudally distinct sectors of the dorsal premotor area in macaques.
        Yosuke Saga; Yoshihiro Hirata; Daisuke Takahara; Ken-Ichi Inoue; Shigehiro Miyachi; Atsushi Nambu; Jun Tanji; Masahiko Takada; Eiji Hoshi
        The European journal of neuroscience, Jan. 2011, Peer-reviewed, Lead author
      • Intracapsular organization of ciliary zonules in monkey eyes.
        Mari Hiraoka; Ken-Ichi Inoue; Chiaki Ohtaka-Maruyama; Shunji Ohsako; Naosuke Kojima; Haruki Senoo; Masahiko Takada
        Anatomical record (Hoboken, N.J. : 2007), Oct. 2010, Peer-reviewed
      • マカクザルの前頭葉から4次視覚野への多シナプス性入力様式(Multisynaptic inputs from the frontal lobe to V4 of macaques)
        二宮 太平; 澤村 裕正; 井上 謙一; 高田 昌彦
        神経化学, Aug. 2010
      • Motor and non-motor projections from the cerebellum to rostrocaudally distinct sectors of the dorsal premotor cortex in macaques.
        Masashi Hashimoto; Daisuke Takahara; Yoshihiro Hirata; Ken-ichi Inoue; Shigehiro Miyachi; Atsushi Nambu; Jun Tanji; Masahiko Takada; Eiji Hoshi
        The European journal of neuroscience, Apr. 2010, Peer-reviewed, Lead author
      • Untangling neural networks with dual retrograde transsynaptic viral infection.
        Shinya Ohara; Ken-Ichi Inoue; Menno P Witter; Toshio Iijima
        Frontiers in neuroscience, 2009, Peer-reviewed
      • Dual transneuronal tracing in the rat entorhinal-hippocampal circuit by intracerebral injection of recombinant rabies virus vectors.
        Shinya Ohara; Ken-Ichi Inoue; Masahiro Yamada; Takuma Yamawaki; Noriko Koganezawa; Ken-Ichiro Tsutsui; Menno P Witter; Toshio Iijima
        Frontiers in neuroanatomy, 2009, Peer-reviewed
      • Efficient gene transfer via retrograde transport in rodent and primate brains using a human immunodeficiency virus type 1-based vector pseudotyped with rabies virus glycoprotein.
        Shigeki Kato; Ken-ichi Inoue; Kenta Kobayashi; Yasunobu Yasoshima; Shigehiro Miyachi; Satoshi Inoue; Hideki Hanawa; Takashi Shimada; Masahiko Takada; Kazuto Kobayashi
        Human gene therapy, Nov. 2007, Peer-reviewed, Lead author
      • A highly attenuated rabies virus HEP-Flury strain reverts to virulent by single amino acid substitution to arginine at position 333 in glycoprotein.
        Mutsuyo Takayama-Ito; Ken-Ichi Inoue; Yoko Shoji; Satoshi Inoue; Toshio Iijima; Takeo Sakai; Ichiro Kurane; Kinjiro Morimoto
        Virus research, Aug. 2006, Peer-reviewed
      • A novel rapid fluorescent focus inhibition test for rabies virus using a recombinant rabies virus visualizing a green fluorescent protein.
        Pakamatz Khawplod; Ken-Ichi Inoue; Yoko Shoji; Henry Wilde; Sukathida Ubol; Akira Nishizono; Ichiro Kurane; Kinjiro Morimoto
        Journal of virological methods, Apr. 2005, Peer-reviewed
      • An improved method for recovering rabies virus from cloned cDNA.
        Ken-ichi Inoue; Youko Shoji; Ichiro Kurane; Toshio Iijima; Takeo Sakai; Kinjiro Morimoto
        Journal of virological methods, Feb. 2003, Peer-reviewed, Lead author

      Misc.

      • Primate models for elucidation of higher brain functions and treatment of psychiatric and neurological diseases
        高田 昌彦; 井上 謙一
        生体の科学, Jan. 2010
      • 統合脳システム分野(III.研究活動)
        高田 昌彦; 大石 髙生; 松本 正幸; 井上 謙一; 平田 快洋; 檜垣 小百合; 二宮 太平; 高原 大輔; 南雲 樹; 黒田 呈子; 奥田 泰弘; 中嶋 久子
        霊長類研究所年報, 21 Oct. 2011
      • 統合脳システム分野(III.研究活動)
        高田 昌彦; 大石 髙生; 松本 正幸; 井上 謙一; 平田 快洋; 檜垣 小百合; 二宮 太平; 高原 大輔; 南雲 樹; 黒田 呈子; 遠藤 歩; 奥田 泰弘
        霊長類研究所年報, 21 Sep. 2010
      • Age-dependent distribution change of amyloid-beta protein in macaque brains
        K. Kimura; K. Inoue; F. Tanaka; M. Takada
        MOVEMENT DISORDERS, Jun. 2015
      • 化学遺伝学とPETイメージングによるサル脳活動操作とモニタリング
        永井裕司; 宮川尚久; HAUNG Xi-Ping; SLOCUM Samuel T.; XIONG Yan; 堀由紀子; 小山佳; 季斌; 平林敏行; 藤本淳; 三村喬生; ENGLISH Justin G.; LIU Jing; 井上謙一; 熊田勝志; 関千江; 張明栄; 須原哲也; 高田昌彦; 樋口真人; JIN Jian; ROTH Bryan L.; 南本敬史
        日本獣医麻酔外科学雑誌(Web), 2019
      • MacaquePose: A Novel "In the Wild" Macaque Monkey Pose Dataset for Markerless Motion Capture.
        Labuguen R; Matsumoto J; Negrete SB; Nishimaru H; Nishijo H; Takada M; Go Y; Inoue K; Shibata T
        Computer Vision and Pattern Recognition (CVPR) 2021, CV4Animals: Computer Vision for Animal Behavior Tracking and Modeling, Jun. 2021
      • Multiple Monkey Pose Estimation Using OpenPose
        Negrete SB; Labuguen R; Matsumoto J; Go Y; Inoue K; Shibata T
        25th INternational Conference on Pattern recognition (IPCR 2021), Jan. 2021, Peer-reviewed
      • 街上毒狂犬病ウイルスの脳内侵入経路に関する実験病理学的研究
        河合 せりな; 志和 希; 君付 和範; 山田 健太郎; 井上 謙一; 井上 智; 朴 天鎬
        第163回日本獣医学会学術集会, Sep. 2020, Peer-reviewed
      • 扁桃体が腹側視覚皮質における社会・情動性の視覚情報表現に果たす役割 ~化学遺伝学神経操作によるアプローチ
        宮川 尚久; 永井 裕司; 堀 由紀子; 松尾 健; 鈴木 隆文; 井上 謙一; 小山 桂; 平林 敏行; 高田 昌彦; 須原 哲也; 樋口 真人; 川嵜 佳祐; 南本 敬史
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • マカクザル内側前頭皮質の側坐核及び扁桃体への投射様式の違いによる領域区分
        吉野 倫太郎; 木村 慧; 田辺 創思; 大原 慎也; 中村 晋也; 井上 謙一; 高田 昌彦; 筒井健一郎
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • DREADDを用いた経路選択的阻害法による、サル前頭前野と視床MD核及び線条体を結ぶ神経経路のワーキングメモリにおける役割の解明
        小山 佳; 堀 由紀子; 永井 裕司; 宮川 尚久; 三村 喬生; 平林 敏行; 井上 謙一; 高田 昌彦; 樋口 真人; 南本 敬史
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • マカク一次視覚野における微小内視鏡を用いたカルシウムイメージング
        小口-田中 峰樹; 蔣 嘉森; 吉岡 敏秀; 田中 康裕; 井上 謙一; 高田 昌彦; 菊水 健史; 野元 謙作; 坂上 雅道
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • 改変AAVベクターを用いた新生児霊長類への全脳的遺伝子導入
        井上 謙一; 田辺 創思; 吉田 哲; 藤原 真紀; 木村 慧; 上野 瑠惟; 高田 裕生; 木村 活生; 兼子 峰明; 篠本 有里; 中野 真由子; 田中 江美子; 今度 ゆりこ; 角谷 絵里; 岡野 栄之; 高田 昌彦
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed, Lead author
      • マカカ属サルにおける上丘から扁桃体への多シナプス性経路
        稲垣 未来男; 井上 謙一; 田辺 創思; 木村 慧; 高田 昌彦; 藤田 一郎
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • 価値にもとづく眼球運動を制御する霊長類大脳基底核回路
        網田 英敏; Hyoung F Kim; 井上 謙一; 高田 昌彦; 彦坂 興秀
        第43回日本神経科学大会, Jul. 2020, Peer-reviewed
      • The modified adeno associated virus vectors enable neuron specific efficient gene transduction in the primate brain
        Kimura K; Nagai Y; Tanabe S; Zheng A; Fujiwara M; Nakano M; Minamimoto T; Inoue K; Takada M
        Neuroscience 2019, Oct. 2019, Peer-reviewed
      • Retrograde gene transfer efficiency and inflammatory response of two types of lentiviral vectors in the motor cortex input system of nonhuman primates and rodents
        Otsuka Y; Tsuge H; Uesono S; Tanabe S; Fujiwara M; Miwa M; Kato S; Nakamura K; Kobayashi K; Inoue K; Takada M
        Neuroscience 2019, Oct. 2019, Peer-reviewed
      • Pathway-selective optogenetic modulation of amygdala-basal ganglia circuits in macaque monkeys
        Maeda K; Inoue K; Takada M; Hikosaka O
        Neuroscience 2019, Oct. 2019, Peer-reviewed
      • Fast subcortical processing of emotional faces: evidence from physiology and anatomy in macaque monkeys
        Inagaki M; Inoue K; Takada M; Fujita I
        42nd edition of the European Conference on Visual Perception (ECVP 2019), Aug. 2019, Peer-reviewed
      • DREADD inactivation of orbitofrontal cortex revealed its critical role in reward-based adaptive decision making in monkeys
        Oyama K; Hori Y; Nagai Y; Hirabayashi T; Miyakawa N; Fujimoto A; Mimura K; Inoue K; Eldridge A M; Saunders C R; Suhara T; Takada M; Higuchi M; Richmond J B; Minamimoto T
        第42回日本神経科学大会, Jul. 2019, Peer-reviewed
      • Chemogenetic activation of the amygdala specifically disrupts the representation of socio-emotional information in the macaque ventral visual cortex
        Miyakawa N; Nagai Y; Hori Y; Matsuo T; Suzuki T; Inoue K; Takada M; Suhara T; Kawasaki K; Minamimoto T
        第42回日本神経科学大会, Jul. 2019, Peer-reviewed
      • DRG cells in Common marmoset: their contrasting property in the cell size and cell type specificity of gene delivery by AAVs
        Kudo M; Wupuer S; Inoue K; Takada M; Seki K
        第42回日本神経科学大会, Jul. 2019, Peer-reviewed
      • Combined application of multiscale calcium imaging with GCaMP6s and intrinsic signal optical imaging in macaque visual cortex
        Hatanaka G; Fang Y; Inagaki M; Takeuchi R; Inoue K; Takada M; Fujita I
        第42回日本神経科学大会, Jul. 2019, Peer-reviewed
      • Combined use of intrinsic optical imaging and 2-photon Ca2+ imaging for determining distribution of stimulus-specific responses across macro-architecture in macaque visual cortex
        Fang Y; Hatanaka G; Inagaki M; Takeuchi RF; Inoue K; Takada M; Fujita I
        15th Asia-Pacific Conference on Vision, Jul. 2019, Peer-reviewed
      • A novel ligand “deschloroclozapine” selectively visualizes and activates chemogenetic receptors in non-human primates
        Nagai Y; Miyakawa N; Takuwa H; Hori H; Oyama K; Ji B; Takahashi M; Haung XP; Slocum ST; Xiong Y; Hirabayashi T; Fujimoto A; Mimura K; English JG; Liu J; Inoue K; Kumata K; Seki C; Ono M; Shimojo M; Zhang MR; Tomita Y; Suhara T; Takada M; Higuchi M; Jin J; Roth BL; Minamimoto T
        Brain and BrainPET 2019, Jul. 2019, Peer-reviewed
      • Primate Markerless Pose Estimation and Movement Analysis Using DeepLabCut
        Labuguen R; Bardeloza DK; Blanco SN; Matsumoto J; Inoue K; Shibata T
        Joint 2019 8th International Conference on Informatics, Electronics & Vision (ICIEV) & 3rd International Conference on Imaging, Vision & Pattern Recognition (IVPR), May 2019, Peer-reviewed
      • Macaque ventral midbrain facilitates the output to forelimb muscles via the primary motor cortex
        Suzuki M; Inoue K; Nakagawa H; Isa T; Takada M; Nishimura Y
        29th Annual Meeting of Neural Control of Mevement, Apr. 2019, Peer-reviewed
      • 霊長類脳への神経細胞特異的かつ高効率な遺伝子導入を実現する改変AAVベクターの開発.
        木村 慧; 永井 裕司; 田辺 創思; Zheng Andi; Oh Jungmin; 藤原 真紀; 中野 真由子; 南本 敬史; 井上 謙一; 高田 昌彦
        第8回 生理研-霊長研-新潟脳研 合同シンポジウム, Mar. 2019
      • Retrograde gene transfer efficacy and inflammatory response of lentiviral vectors pseudotyped with FuG-E vs. FuG-B2 glycoproteins in the striatal input system of primates and rodents.
        Tanabe S; Uezono S; Tsuge H; Fujiwara M; Nagaya K; Nagaya N; Sugawara M; Miwa M; Konoike N; Kato S; Nakamura K; Kobayashi K; Inoue K; Takada M
        第8回日本マーモセット研究会大会, Feb. 2019
      • Deep brain stimulation of the ventral midbrain facilitates the output to forelimb muscles via the primary motor cortex in monkeys.
        Suzuki M; Inoue K; Nakagawa H; Isa T; Takada M; Nishimura Y
        3rd International Brain Stimulation Conference, Feb. 2019, Peer-reviewed
      • Retrograde gene transfer efficacy and inflammatory response of HiRet vs. NeuRet lentiviral vectors in the motor cortical input system of nonhuman primates and rodents.
        Otsuka Y; Tsuge H; Uezono S; Tanabe S; Fujiwara M; Miwa M; Kato S; Nakamura K; Kobayashi K; Inoue K; Takada M
        第8回日本マーモセット研究会大会, Feb. 2019
      • 融合糖タンパク質E型変異体を用いた神経特異的逆行性ウイルスベクターによるマーモセット脳内への遺伝子導入効率の向上.
        菅原正晃; 加藤成樹; 木村 慧; 井上 謙一; 高田 昌彦; 小林 和人
        第8回日本マーモセット研究会大会, Feb. 2019
      • サル腹側中脳は一次運動野を介して筋出力を促通する.
        鈴木迪諒; 井上謙一; 中川浩; 伊佐正; 高田昌彦; 西村幸男
        次世代脳プロジェクト冬のシンポジウム, Dec. 2018
      • Optogenetic activation of cutaneous and proprioceptive afferent in the rat sciatic nerve.
        Kubota S; Sidikejiang W; Kudoh M; Inoue K; Umeda T; Takada M; Seki K
        Neuroscience 2018, Nov. 2018, Peer-reviewed
      • Monkey Features Location Identfication Using Convolutional Neural Networks
        Labuguen R; Gaurav V; Blanco SN; Matsumoto J; Inoue K; Shibata T
        第28回日本神経回路学会・全国大会, Oct. 2018, Peer-reviewed
      • 高精細全脳イメージング技術FASTの開発と精神疾患モデルマウスの病態解析 ―脳全体を対象とした仮説フリーな病態・薬物治療機序の組織学的解析―
        勢力薫; 笠井淳司; 丹生光咲; 田沼将人; 五十嵐久人; 中澤敬信; 山口瞬; 井上謙一; 高田昌彦; 橋本均
        第68回日本薬学会近畿支部総会・大会, Oct. 2018, Peer-reviewed
      • マーモセットの帯状皮質を巡る基底核連関構築様式
        上園志織; 田辺創思; 藤原真紀; 柘植仁美; 中村克樹; 井上謙一; 高田昌彦
        第33回 日本大脳基底核研究会, Aug. 2018
      • Differences in retrograde gene transfer efficiency and cytotoxicity between lentiviral vectors pseudotyped with FuG-E, FuG-E2, and FuG-B2 glycoprotein in primate brains.
        Otsuka Y; Tanabe S; Tsuge H; Uezono S; Fujiwara M; Miwa M; Kato S; Nakamura K; Kobayashi K; Inoue K; Takada M
        International Workshop "Monitoring and manipulating brain function in non-human primates", Jul. 2018
      • Neuron-specific efficient gene transduction in the primate brain with Morphological modified AAV vectors.
        Kimura K; Tanabe S; Fujiwara M; Nagai Y; Minamimoto T; Inoue K; Takada M
        International Workshop "Monitoring and manipulating brain function in non-human primates", Jul. 2018
      • High-resolution imaging of primate brains using FAST.
        Hashimoto H; Seiriki K; Kasai A; Nakazawa T; Inoue K; Takada M
        International Workshop "Monitoring and manipulating brain function in non-human primates", Jul. 2018
      • Microarchitecture of binocular disparity processing in V2: combined use of intrinsic optical imaging and 2-photon Ca2+ imaging.
        Fang Y; Hatanaka G; Inagaki M; Inoue K; Takada M; Fujita I
        International Workshop "Monitoring and manipulating brain function in non-human primates", Jul. 2018
      • Pathway-selective optogenetic modulation of value-biased saccade circuits in the monkey basal ganglia.
        Amita H; Hikosaka O; Hyoung F.K; Inoue K; Takada M
        第41回日本神経科学大会, Jul. 2018, Peer-reviewed
      • Enhanced gene transfer efficiency of neuron-specific retrograde lentiviral vector with variants of fusion glycoprotein type E into the mouse and common marmoset brains.
        Sugawara M; Kato S; Kimuta K; Inoue K; Takada M; Kobayashi K
        第41回日本神経科学大会, Jul. 2018, Peer-reviewed
      • PET imaging of selective control of neural activity with a novel DREADD agonist.
        Nagai Y; Miyakawa N; Huang X; Slocum S; Ono M; Inoue K; Yan X; Liu J; English J; Shimojo M; Mimura K; Hirabayashi T; Bin J; Kumata K; Higuchi M; Zhang M; Takada M; Jin J; Roth B; Minamimoto T
        第41回日本神経科学大会, Jul. 2018, Peer-reviewed
      • Using PET imaging to monitor chemogenetic manipulation of nigrostriatal dopamine system in common marmoset
        Mimura K; Nagai Y; Inoue K; Suhara T; Takada M; Minamimoto T
        International Workshop "Monitoring and manipulating brain function in non-human primates", Jul. 2018, Peer-reviewed
      • Lentiviral vectors pseudotyped with FuG-E and FuG-E2 glycoprotein suitable for retrograde gene transfer into neural networks involving cerebral cortical areas in nonhuman primates and rodents.
        Otsuka Y; Tsuge H; Uezono S; Tanabe S; Fujiwara M; Miwa M; Kato S; Nakamura K; Kobayashi K; Inoue K; Takada M
        第41回日本神経科学大会, Jul. 2018, Peer-reviewed
      • Neuron-specific efficient gene transduction in the primate brain with modified AAV vectors.
        Kimura K; Tanabe S; Fujiwara M; Nakano M; Nagai Y; Minamimoto T; Inoue K; Takada M
        第41回日本神経科学大会, Jul. 2018, Peer-reviewed
      • パーキンソン病モデル動物におけるパーキン遺伝子治療の効果(平成19年度老人性疾患病態・治療研究センター研究発表会)
        安田 徹; 井上 謙一; 山崎 吉之; 仁平 友子; 早川 英規; 服部 信孝; 高田 昌彦; 島田 隆; 望月 秀樹; 水野 美邦
        順天堂医学, Sep. 2008
      • ADVANCES IN PARKIN GENE THERAPY - A FOLLOW UP PRIMATE STUDY
        Hideki Mochizuki; Toru Yasuda; Tomoko Nihira; Kenichi Inoue; Yoshiyuki Yamazaki; Keiji Terao; Masahiko Takada; Takashi Shimada; Yoshikuni Mizuno
        JOURNAL OF GENE MEDICINE, Dec. 2009
      • Advances in parkin gene therapy-a primate study
        Hideki Mochizuki; Toru Yasuda; Tomoko Nihira; Kenichi Inoue; Yoshiyuki Yamazaki; Keiji Terao; Masahiko Takada; Takashi Shimada; Yoshikuni Mizunol
        JOURNAL OF GENE MEDICINE, Apr. 2008
      • Functional Neuroanatomy of Neurocircuit with an Optical Recording Method
        HIROSE Hideaki; INOUE Kenichi; ICHIJO Hiroshi; KOGANEZAWA Noriko; OBA Kenji; OHARA Shinya; KAKEHI Shinji; IIJIMA Toshio
        The Journal of the Institute of Electronics, Information and Communication Engineers, 01 Apr. 2004

      Presentations

      • 霊長類における光遺伝学を利用した神経回路操作
        井上 謙一
        日本動物学会第90回大阪大会, 28 Jul. 2021, Invited
      • Pathway-selective activity manipulation in the primate brain by means of modified viral vectors
        Kenichi Inoue
        7th ESI Systems Neuroscience Conference 2020 (ESI SyNC 2020), 24 Aug. 2020, Invited
      • Manipulation of primate neural networks by means of modified viral vectors
        Kenichi Inoue
        Molecular Genetic Tools for the Study of Neural Circuits, summer school, 13 Aug. 2019, Invited
      • Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system
        Kenichi Inoue
        The Kyoto Symposium on the Eye and Head Movement Control Systems, 21 Apr. 2019, Invited
      • Pathway-selective optogenetics for elucidating neural network function in primates
        Kenichi Inoue
        DFG-AMED joint Workshop "New Direction in Systems Neuroscience", 21 Mar. 2019, Invited
      • ウイルスベクターを利用した霊長類における神経ネットワーク操作
        井上 謙一
        玉川大学総合人間科学ワークショップ, 14 Feb. 2019, Invited
      • Pathway-selective manipulation of primate neural networks by means of modified viral vectors
        Kenichi Inoue
        ピッツバーグ大学セミナー, 17 Dec. 2018, Invited
      • Pathway-selective manipulation of primate neural networks by means of modified viral vectors
        Kenichi Inoue
        Genetic technologies for systems neurosciences in non-human primates, 14 Dec. 2018, Invited
      • Pathway-selective manipulation of neural network in primates
        Kenichi Inoue
        フライブルグ大学セミナー, 07 Dec. 2018, Invited
      • Manipulation of primate neural networks by means of modified viral vectors
        Kenichi Inoue
        International Conference "Viral Manipuration in Monkey", 26 Sep. 2018
      • Development of viral vectors for delivering functional molecules into nonhuman primate brains
        Kenichi Inoue
        International Workshop "Monitoring and manipulating brain function in non-human primates", 01 Aug. 2018, Invited
      • Development of viral vectors for delivering functional molecules into nonhuman primate brains
        Kenichi Inoue
        The 41st Annual Meeting of the Japan Neuroscience Society, 29 Jul. 2018
      • 霊長類における光遺伝学を利用した神経回路操作
        井上 謙一
        日本学術振興会 光電相互変換第125委員会 第239回研究会 「光技術が切り開く新しいバイオサイエンス・テクノロジー」, 15 Dec. 2017, Invited
      • Pathway-selective optogenetics for elucidating neural network function in primates.
        Kenichi Inoue
        Neuroscience 2017, 11 Nov. 2017, Invited
      • Pathway-selective manipulation of neural circuits
        Kenichi Inoue
        NIMH Workshop "Neural Circuits: Gaps and Opportunities", 11 Sep. 2017, Invited
      • ウイルスベクターを利用した霊長類における神経ネットワーク操作
        井上 謙一
        第6回 生理研-霊長研-脳研 合同シンポジウム, 10 Mar. 2017, Invited
      • Studying the structure and function of primate brain by using viral vectors
        Kenichi Inoue
        The 7th International Neural Microcircuit Conference, 08 Dec. 2016, Invited
      • Manipulation of primate neural networks by means of modified viral vectors
        Kenichi Inoue
        National Institute of Health, Chemogenetics Workshop, 01 Dec. 2016, Invited
      • Primate models for elucidating the circuit pathology of nigrostriatal dopamine system
        Kenichi Inoue
        第39回日本神経科学大会サテライトシンポジウム:大脳基底核の機能と疾患:基礎と臨床, 19 Jul. 2016, Invited
      • Manipulation of primate neural networks by means of modified viral vectors.
        Ken-ichi Inoue
        5th NIPS-CIN Joint Symposium, 05 Nov. 2015, Invited
      • Manipulation of primate neural networks by means of modified viral vectors.
        Inoue K; Takada M
        the 120th Annual Meeting of The Japanese Association of Anatomists, the 92nd Annual Meeting of The Physiological Society of Japan, 23 Mar. 2015, Invited
      • 神経路選択的な遺伝子導入による神経ネットワークの機能操作
        井上 謙一
        生理研シンポジウム・グローバルネットワークによる脳情報処理, 01 Jan. 2014, Invited
      • 霊長類脳研究に資する遺伝子導入技術の開発
        井上 謙一
        「霊長類認知ゲノミクス」キックオフワークショップ, 01 Oct. 2013, Invited
      • Manipulation of primate neuronal circuits by the use of modified lentiviral vector with enhanced retrograde transport.
        Kenichi Inoue
        NIPS Mini-International Symposium "Frontiers in Neural Control of Actions", 17 Jun. 2013, Invited
      • 神経路選択的な遺伝子導入による神経ネットワークの機能操作
        井上 謙一
        第9回ナショナルバイオリソースプログラム「ニホンザル」公開シンポジウム, 09 Nov. 2012, ナショナルバイオリソースプログラム「ニホンザル」, Invited
      • ウィルスベクターを用いた霊長類神経系への高効率な遺伝子導入手法の開発とその応用
        井上 謙一
        第13回予防衛生協会セミナー, Dec. 2009, 予防衛生協会, Invited
      • 大型霊長類脳神経系への遺伝子導入による活動操作・活動計測
        井上謙一; 高田昌彦, Contributor, 201-209
        羊土社、実験医学別冊, 「決定版 ウイルスベクターによる遺伝子導入実験ガイド」, Jan. 2021
      • 霊長類眼球運動制御
        高田昌彦; 井上謙一; 松本正幸, Contributor, 914-915
        中外医学社、Clinical Neuroscience 36 「メインテーマ 光が開く神経科学の未来―オプトジェネティクスと光イメージング」, Aug. 2018, Not refereed
      • 脳内の「やる気」スイッチを操作:霊長類の生体脳における人工受容体の画像化
        高田昌彦; 永井裕司; 井上謙一; 南本敬史, Contributor, 866-868
        医歯薬出版、医学のあゆみ,263:10, 「バソプレシンV2受容体拮抗薬のすべて」, Dec. 2017, Not refereed
      • 光による霊長類脳機能制御:神経路選択的光操作技術
        高田昌彦; 井上謙一; 松本正幸, Contributor, 488-489
        医学書院、生体の科学,68:5,「特集 細胞多様性解明に資する光技術─見て,動かす」, Oct. 2017, Not refereed
      • ウイルスベクターを用いた神経回路への機能介入法
        井上謙一; 高田昌彦, Contributor, 757-761
        中外医学社. Clinical Neuroscience 32:, 「脳のゆらぎ・同期・オシレーション」, Jul. 2014, Not refereed
      • Vectors for highly efficient and neuron-specific retrograde gene transfer for gene therapy of neurological diseases.
        Kato S; Kobayashi K; Inoue K; Takada M; Kobayashi K, Contributor, 387-398
        Gene Therapy-Tools and Potential Applications. (ed. Francisco Martin Molina) InTech, Feb. 2013, Not refereed
      • Organization of Two Cortico–Basal Ganglia Loop Circuits That Arise from Distinct Sectors of the Monkey Dorsal Premotor Cortex.
        Takada M; Hoshi E; Saga Y; Inoue K; Miyachi S; Hatanaka N; Inase M; Nambu A, Contributor, 103-116
        Basal Ganglia - An Integrative View. (ed. Fernando A. Barrios and Clemens Bauer) InTech, Jan. 2013, Not refereed
      • Highly efficient retrograde gene transfer for genetic treatment of neurological diseases.
        Kato S; Kuramochi M; Kobayashi K; Inoue K; Takada M; Kobayashi K, Contributor, 371-380
        Viral Gene Ther. (ed.Ke Xu) InTech, Jul. 2011, Not refereed
      • 狂犬病ウイルスによる多シナプス性神経路の解析法
        高田昌彦; 井上謙一; 宮地重弘, Contributor, 221-230
        医学書院、Brain and Nerve, 62:3,「特集 神経回路解析法の最近の進歩」, Mar. 2010, Not refereed
      • 高次脳機能の解明と精神・神経疾患の克服のためのサルモデル
        高田昌彦; 井上謙一, Contributor, 53-58
        医学書院、生体の科学,61:1,「特集 脳科学のモデル実験動物」, Jan. 2010, Not refereed
      • Prevention of calbindin recruitment into nigral dopamine neurons from MPTP-induced degeneration in Macaca fascicularis.
        Takada M; Inoue K; Miyachi S; Okado H; Nambu A, Contributor, 377-386
        Springer, The Basal Ganglia IX, Sep. 2009, Not refereed
      • サル類モデル
        高田昌彦; 井上謙一, Contributor, 78-87
        アドスリー、老化・老年病研究のための動物実験ガイドブック 日本基礎老化学会編, Oct. 2008, Not refereed
      • 光計測法による神経回路の機能的解剖
        広瀬秀顕; 井上謙一; 一條宏; 小金澤紀子; 大場健嗣; 大原慎也; 筧慎治; 飯島敏夫, Contributor, 265-271
        電子情報通信学会誌、87:4,「小特集 最大のフロンティア「脳」の解明に挑む―神経生理計測と神経科学―」, Apr. 2004, Not refereed

      Industrial Property Rights

      • 特願2021-088794, 非変性チャネルロドプシン検出キット
        加藤英明; 福田 昌弘; 濡木 理; 草木 迫司; 岩田 想; 野村 紀通; 劉 紅; 植村 智子; 井上 謙一
      • 特開2006-81509, 神経回路選択的な外来遺伝子導入ベクターの製造方法
        井上謙一; 大原慎也; 森本金次郎; 倉根一郎; 筧慎治; 飯島敏夫

      Awards

      • Nov. 2008
        社団法人 予防衛生協会, 社団法人 予防衛生協会 研究奨励賞

      External funds: Kakenhi

      • 新規単シナプス性感染伝播ベクターを利用した神経回路選択的な活動計測・操作法の開発
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Complex systems
        Kyoto University
        井上 謙一
        From 01 Apr. 2020, To 31 Mar. 2022, Granted
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;逆行性
      • Development of a non-invasive and area selective gene transfer method for the primate brain
        Grant-in-Aid for Challenging Research (Exploratory)
        Medium-sized Section 46:Neuroscience and related fields
        Kyoto University
        Kenichi Inoue
        From 28 Jun. 2019, To 31 Mar. 2021, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;霊長類
      • 霊長類の前頭前野を巡る「行動選択」神経ネットワークの構築様式
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Complex systems
        Kyoto University
        井上 謙一
        From 01 Apr. 2019, To 31 Mar. 2021, Project Closed
        神経科学;脳・神経;人工知能;ウイルスベクター;解剖学
      • 手続き学習に関わる霊長類大脳皮質-大脳基底核ループ回路の構造と機能の解明
        Grant-in-Aid for Scientific Research (B)
        Basic Section 46020:Anatomy and histopathology of nervous system-related
        Kyoto University
        井上 謙一
        From 01 Apr. 2019, To 31 Mar. 2022, Granted
        神経科学;脳・神経;ウイルスベクター;解剖学;手続き学習
      • 行動選択の回路モデル構築のための前頭前野―大脳基底核・小脳連関の構築様式の解明
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Complex systems
        Kyoto University
        井上 謙一
        From 01 Apr. 2017, To 31 Mar. 2019, Project Closed
        神経科学;脳・神経;人工知能;ウイルスベクター;解剖学;バイオテクノロジー;オプトジェネティクス
      • 神経回路の選択的可視化と操作を実現するウイルスベクターシステムの開発
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Biological Sciences
        Kyoto University
        井上 謙一
        From 01 Apr. 2017, To 31 Mar. 2019, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;霊長類;オプトジェネティクス
      • Rapid detection of threat signals in primate amygdala
        Grant-in-Aid for Scientific Research (A)
        Osaka University
        藤田 一郎
        From 01 Apr. 2017, To 31 Mar. 2020, Granted
        皮質下経路;情動;顔表情;狂犬病ウイルス;霊長類;扁桃体;視床枕;上丘;表情弁別;脅威信号;顔認識;大脳皮質側頭葉;ディープラーニング;側頭葉視覚連合野;単一細胞活動;神経科学;生理学
      • Elucidation of the pathogenic mechanism of progression of Parkinson's disease using a primate genetic modification model
        Grant-in-Aid for Scientific Research (C)
        Kyoto University
        Kenichi Inoue
        From 19 Jul. 2016, To 31 Mar. 2019, Project Closed
        神経科学;脳神経疾患;パーキンソン;ウイルスベクター;霊長類;ウィルスベクター
      • Development of a novel technique for widespread gene transduction into neurons throughout the primate brain by the use of viral vectors.
        Grant-in-Aid for Challenging Exploratory Research
        Kyoto University
        Inoue Kenichi
        From 01 Apr. 2015, To 31 Mar. 2017, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;霊長類
      • Optogenetic approach to understand neural mechanisms underlying visual attention in monkeys
        Grant-in-Aid for Challenging Exploratory Research
        University of Tsukuba
        Masayuki MATSUMOTO
        From 01 Apr. 2015, To 31 Mar. 2017, Project Closed
        視覚的注意;ドーパミンニューロン;前頭前野;光遺伝学;サル
      • Understanding osicllatory phenomena by bidirectional interaction tools
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Complex systems
        Tohoku University
        Hajime Mushiake
        From 29 Jun. 2015, To 31 Mar. 2020, Project Closed
        振動現象;大脳皮質;脳波;遺伝子導入;シータ波;光操作;脳振動現象;オッシレーション;遺伝子操作;神経科学;内因性振動;抑制細胞;脳・神経;脳活動の振動
      • 神経回路の選択的可視化と操作を実現するウイルスベクターシステムの開発
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Biological Sciences
        Kyoto University
        井上 謙一
        From 01 Apr. 2015, To 31 Mar. 2017, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;霊長類;オプトジェネティクス
      • Role of dopamine signals in prefrontal executive functions
        Grant-in-Aid for Young Scientists (A)
        University of Tsukuba
        Masayuki Matsumoto
        From 01 Apr. 2014, To 31 Mar. 2018, Project Closed
        ドーパミンニューロン;行動抑制;尾状核;前頭前野;ドーパミン;response inhibition;ドーパミン受容体拮抗薬
      • Innovation of chemiluminogenetics capable of noninvasive manipulation of biological functions deep inside body
        Grant-in-Aid for Scientific Research (A)
        Osaka University
        Takeharu Nagai
        From 01 Apr. 2014, To 31 Mar. 2017, Project Closed
        発光タンパク質;光感受性タンパク質;オプトジェネティクス;発光基質;ケミルミノジェネティクス;化学発光タンパク質
      • Developmental transcriptome analysis of monkey brain for the establishment of human disease model
        Grant-in-Aid for Challenging Exploratory Research
        Center for Novel Science Initatives, National Institutes of Natural Sciences;Kyoto University
        Yasuhiro GO
        From 01 Apr. 2012, To 31 Mar. 2014, Project Closed
        バイオリソース;モデル動物;ゲノム;霊長類;脳;トランスクリプトーム;疾患;リサーチバイオリソース;エピジェネティクス
      • Development of a novel technique for analyzing anatomical and functional difference in the nigral dopamine neurons by the use of viral vectors.
        Grant-in-Aid for Scientific Research (C)
        Kyoto University
        Ken-ichi INOUE
        From 01 Apr. 2012, To 31 Mar. 2015, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;解剖学
      • 霊長類における神経路選択的な機能分子制御技術の開発
        Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
        Biological Sciences
        Kyoto University
        井上 謙一
        From 01 Apr. 2011, To 31 Mar. 2013, Project Closed
        神経科学;脳・神経;バイオテクノロジー;ウイルスベクター;認知科学
      • Development of novel vector systems for neuronal tracing based on recombinant rabies virus vectors.
        Grant-in-Aid for Challenging Exploratory Research
        Kyoto University
        Ken-ichi INOUE
        From 01 Apr. 2010, To 31 Mar. 2012, Project Closed
        神経科学;脳・神経;ウイルスベクター;解剖学
      • Analysis of cortico-basal ganglia loop circuits with novel retrograde transneuronal tracing technique
        Grant-in-Aid for Young Scientists (B)
        Tokyo Metropolitan Organization for Medical Research
        Ken-ichi INOUE
        From 01 Apr. 2008, To 31 Mar. 2010, Project Closed
        神経科学;脳-神経;脳情報処理;解剖学;大脳基底核;ウイルスベクター;脳・神経;解部学;バイオラクノロジー;ウィルス;バイオテクノロジー;ウイルス
      • 行動変容を支える広域脳ネットワークの構造解明とその制御
        Grant-in-Aid for Transformative Research Areas (A)
        Transformative Research Areas, Section (III)
        Kyoto University
        井上 謙一
        From 16 Jun. 2022, To 31 Mar. 2027, Granted
        霊長類;ウイルスベクター;トレーシング;行動解析;社会行動
      • 先端モデル動物支援プラットフォーム
        Grant-in-Aid for Transformative Research Areas (platforms for Advanced Technologies and Research Resources)
        The University of Tokyo
        武川 睦寛
        From 01 Apr. 2022, To 31 Mar. 2028, Granted
        モデル動物作製;ゲノム編集;病理形態解析;生理機能解析;分子プロファイリング
      • 全脳的遺伝子導入による霊長類疾患モデル動物作成法の確立
        Grant-in-Aid for Challenging Research (Exploratory)
        Medium-sized Section 51:Brain sciences and related fields
        Kyoto University
        井上 謙一
        From 30 Jun. 2022, To 31 Mar. 2024, Granted
        霊長類;ウイルスベクター;疾患モデル;行動解析;モーションキャプチャ
      • 行動変容を創発する脳ダイナミクスの解読と操作が拓く多元生物学
        Grant-in-Aid for Transformative Research Areas (A)
        Transformative Research Areas, Section (III)
        The University of Tokyo
        松崎 政紀
        From 16 Jun. 2022, To 31 Mar. 2027, Granted
        行動変容;多次元データ;細胞機能構築;情報処理;標準化
      • サル扁桃体―背側縫線核回路の化学遺伝学的操作によるストレス下行動制御機構の解明
        Grant-in-Aid for Challenging Research (Exploratory)
        Medium-sized Section 51:Brain sciences and related fields
        Kansai Medical University
        中村 加枝
        From 30 Jun. 2022, To 31 Mar. 2025, Granted
        背測縫線核;扁桃体;セロトニン;ストレス;化学遺伝学的操作

      External funds: others

      • 光操作による神経ネットワークの高解像度5D解析法の確立を目指した基盤技術開発
        国立研究開発法人科学技術振興機構 さきがけ
        From 01 Oct. 2016, To 31 Mar. 2020
        井上 謙一
      • 霊長類におけるニューロン種選択的な遺伝子発現制御手法の開発
        国立研究開発法人日本医療研究開発機構 戦略的国際脳科学研究推進プログラム・先進的個別研究開発課題
        From 20 Nov. 2018, To 31 Mar. 2021
        井上 謙一
      list
        Last Updated :2022/11/23

        Education

        Teaching subject(s)

        • From 01 Apr. 2022, To 31 Mar. 2023
          Fundamental Primate Neuroscience I
          9641, Spring, Graduate School of Science, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Seminar on Primate Systems Neuroscience C
          9684, Spring, Graduate School of Science, 2
        • From 01 Apr. 2022, To 31 Mar. 2023
          Practical on Neuroscience
          9656, Fall, Graduate School of Science, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Seminar on Primate Systems Neuroscience D
          9685, Fall, Graduate School of Science, 2
        • From 01 Apr. 2022, To 31 Mar. 2023
          Seminar on Primate Systems Neuroscience B
          9683, Fall, Graduate School of Science, 2
        • From 01 Apr. 2022, To 31 Mar. 2023
          Fundamental Primate Neuroscience II
          9642, Spring, Graduate School of Science, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Interdisciplinary Seminar on Primatology
          9572, Fall, Graduate School of Science, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Advanced Primate Systems Neuroscience
          9651, Fall, Graduate School of Science, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Seminar on Primate Systems Neuroscience A
          9682, Spring, Graduate School of Science, 2
        • From Apr. 2014, To Mar. 2015
          Fundamental Primate Brain Science I
          Spring, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Fundamental Primate Brain Science II
          Spring, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Practice on Neuroanatomy
          Fall, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Seminar on Primate Systems Neuroscience IA
          Spring, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Seminar on Primate Systems Neuroscience IB
          Fall, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Seminar on Primate Systems Neuroscience IIA
          Spring, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Seminar on Primate Systems Neuroscience IIB
          Fall, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2014, To Mar. 2015
          Introduction to Primate Brain Science
          Spring, 全学共通科目
        • From Apr. 2015, To Mar. 2016
          Practical on Neuroanatomy
          Fall, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Seminar on Primate Systems Neuroscience IA
          Spring, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Seminar on Primate Systems Neuroscience IB
          Fall, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Seminar on Primate Systems Neuroscience IIA
          Spring, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Seminar on Primate Systems Neuroscience IIB
          Fall, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Introduction to Primate Brain Science
          Spring, 全学共通科目
        • From Apr. 2015, To Mar. 2016
          Fundamental Primate Brain Science II
          Spring, 理学研究科
        • From Apr. 2015, To Mar. 2016
          Fundamental Primate Brain Science I
          Spring, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Interdisciplinary Seminar on Primatology
          Fall, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2016, To Mar. 2017
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2017, To Mar. 2018
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2018, To Mar. 2019
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2019, To Mar. 2020
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2020, To Mar. 2021
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Practical on Neuroscience
          Fall, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Fundamental Primate Neuroscience I
          Spring, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Fundamental Primate Neuroscience II
          Spring, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Seminar on Primate Systems Neuroscience A
          Spring, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Seminar on Primate Systems Neuroscience B
          Fall, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Seminar on Primate Systems Neuroscience C
          Spring, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Seminar on Primate Systems Neuroscience D
          Fall, 理学研究科
        • From Apr. 2021, To Mar. 2022
          Advanced Primate Systems Neuroscience
          Fall, 理学研究科

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