井上 謙一

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Name(Kanji/Kana/Abecedarium Latinum)
井上 謙一/イノウエ ケンイチ/Kenichi Inoue
Primary department(Org1/Job title)
Primate Research Institute (PRI)/Assistant Professor
Affiliated programs (koza)
Org1 Job title
Graduate Schools Science Assistant Professor
Contact address
Type Address(Japanese) Address(English)
Office 愛知県犬山市官林41-2 41-2 Kanrin, Inuyama, Aichi 484-8506, Japan
Affiliated academic organization(s) (Japanese)
Organization name(Japanese) Organization name(English)
日本神経科学会 The Japan Neuroscience Society
Academic degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
修士(生命科学) 東北大学
博士(生命科学) 東北大学
Work Experience
Period Organization(Japanese) Organization(English) Job title(Japanese) Job title(English)
2006/4-2009/9 独立行政法人 科学技術振興機構 (JST) Japan Science and Technology Agency 戦略的創造事業(CREST)研究員 Researcher
2009/9-2013/6 京都大学霊長類研究所 Primate Rearch Institute, Kyoto University 特定助教 Assistant Professor
2016/10/- 独立行政法人 科学技術振興機構(JST) Japan Science and Technology Agency さきがけ研究者(兼任) Researcher
Personal Profile
(Japanese)
新規遺伝子導入・操作手法の開発と、高次脳機能解析や精神・神経疾患の克服研究への応用を目指し研究を行っています。
(English)
Development of pathway-selective cell manipulation method and their application to studies on higher-order brain functions. Basic studies on the pathogenesis and the treatments in basal ganglia disorders.
Personal website address
URL
http://www.pri.kyoto-u.ac.jp/sections/systems_neuroscience/
ORCID ID
orcid.org/0000-0002-5683-5280
Research Topics
(Japanese)
・新規遺伝子導入・操作手法の開発と、高次脳機能解析や精神・神経疾患の克服研究への応用 ・大脳皮質ー大脳基底核連関、大脳皮質ー小脳連関の情報処理様式の解明
(English)
Development of pathway-selective cell manipulation method and their application to studies on higher-order brain functions. Basic studies on the pathogenesis and the treatments in basal ganglia disorders.
Overview of your research
(Japanese)
新規神経ネットワーク解析システムをを駆使して、大脳基底核を巡る神経ネットワークの構造と機能を明らかにする研究を行っています。大脳基底核の入力部である線条体には、大脳皮質や視床からのグルタミン酸作動性投射や黒質からのドーパミン作動性投射が複雑に入り交じって入力しており、その情報処理様式については未だ不明な点が多いのが実情です。一方で、古くからパーキンソン病などの運動疾患における線条体の機能異常が指摘されていますが、近年では、学習・意欲障害、あるいはうつ病、統合失調症など、多くの精神疾患で線条体の神経伝達異常が注目されています。これら多様な疾患病態の発現を説明する線条体のネットワーク機構についても詳細な解析はなされていません。そこで、私は新規に開発する研究手法を利用して大脳基底核における入出力情報処理様式を解析し、個別の投射系の動作原理と機能的役割を知ることによって、大脳皮質─大脳基底核連関が果たす高次脳機能の発現・制御機構を解明したいと考えています。また、大脳基底核神経回路の機能異常が関係する精神・神経疾患の病態解明や治療法の開発にも取り組んでいます。
(English)
Development of pathway-selective cell manipulation method and their application to studies on higher-order brain functions. Basic studies on the pathogenesis and the treatments in basal ganglia disorders.
Fields of research (key words)
Key words(Japanese) Key words(English)
神経科学 Neuroscience
大脳基底核 Basal ganglia
Fields of research (kaken code)
Kaken code
General neuroscience
Neuroanatomy and neuropathology
Neuro/muscular physiology
Cognitive science
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
Hidaka Y, Lim CK, Takayama-Ito M, Park CH, Kimitsuki K, Shiwa N, Inoue KI, Itou T Hidaka Y, Lim CK, Takayama-Ito M, Park CH, Kimitsuki K, Shiwa N, Inoue KI, Itou T Hidaka Y, Lim CK, Takayama-Ito M, Park CH, Kimitsuki K, Shiwa N, Inoue KI, Itou T Segmentation of the rabies virus genome. Segmentation of the rabies virus genome. Segmentation of the rabies virus genome. Virus research,252,68-75 Virus research,252,68-75 Virus research,252,68-75 2018/05 Refereed English Research paper(scientific journal) Disclose to all
Ishida H, Inoue KI, Takada M Ishida H, Inoue KI, Takada M Ishida H, Inoue KI, Takada M Multisynaptic Projections from the Amygdala to the Ventral Premotor Cortex in Macaque Monkeys: Anatomical Substrate for Feeding Behavior. Multisynaptic Projections from the Amygdala to the Ventral Premotor Cortex in Macaque Monkeys: Anatomical Substrate for Feeding Behavior. Multisynaptic Projections from the Amygdala to the Ventral Premotor Cortex in Macaque Monkeys: Anatomical Substrate for Feeding Behavior. Frontiers in neuroanatomy,12,3 Frontiers in neuroanatomy,12,3 Frontiers in neuroanatomy,12,3 2018/01 Refereed English Research paper(scientific journal) Disclose to all
Ichinose H, Inoue KI, Arakawa S, Watanabe Y, Kurosaki H, Koshiba S, Hustad E, Takada M, Aasly JO Ichinose H, Inoue KI, Arakawa S, Watanabe Y, Kurosaki H, Koshiba S, Hustad E, Takada M, Aasly JO Ichinose H, Inoue KI, Arakawa S, Watanabe Y, Kurosaki H, Koshiba S, Hustad E, Takada M, Aasly JO Alterations in the reduced pteridine contents in the cerebrospinal fluids of LRRK2 mutation carriers and patients with Parkinson's disease. Alterations in the reduced pteridine contents in the cerebrospinal fluids of LRRK2 mutation carriers and patients with Parkinson's disease. Alterations in the reduced pteridine contents in the cerebrospinal fluids of LRRK2 mutation carriers and patients with Parkinson's disease. Journal of neural transmission (Vienna, Austria : 1996),125,1,45-52 Journal of neural transmission (Vienna, Austria : 1996),125,1,45-52 Journal of neural transmission (Vienna, Austria : 1996),125,1,45-52 2018/01 Refereed English Research paper(scientific journal) Disclose to all
Galvan A, Stauffer WR, Acker L, El-Shamayleh Y, Inoue KI, Ohayon S, Schmid MC Galvan A, Stauffer WR, Acker L, El-Shamayleh Y, Inoue KI, Ohayon S, Schmid MC Galvan A, Stauffer WR, Acker L, El-Shamayleh Y, Inoue KI, Ohayon S, Schmid MC Nonhuman Primate Optogenetics: Recent Advances and Future Directions. Nonhuman Primate Optogenetics: Recent Advances and Future Directions. Nonhuman Primate Optogenetics: Recent Advances and Future Directions. The Journal of neuroscience : the official journal of the Society for Neuroscience,37,45,10894-10903 The Journal of neuroscience : the official journal of the Society for Neuroscience,37,45,10894-10903 The Journal of neuroscience : the official journal of the Society for Neuroscience,37,45,10894-10903 2017/11 Refereed English Research paper(scientific journal) Disclose to all
Kobayashi K, Inoue KI, Tanabe S, Kato S, Takada M, Kobayashi K Kobayashi K, Inoue KI, Tanabe S, Kato S, Takada M, Kobayashi K Kobayashi K, Inoue KI, Tanabe S, Kato S, Takada M, Kobayashi K Pseudotyped Lentiviral Vectors for Retrograde Gene Delivery into Target Brain Regions. Pseudotyped Lentiviral Vectors for Retrograde Gene Delivery into Target Brain Regions. Pseudotyped Lentiviral Vectors for Retrograde Gene Delivery into Target Brain Regions. Frontiers in neuroanatomy,11,65 Frontiers in neuroanatomy,11,65 Frontiers in neuroanatomy,11,65 2017/08 Refereed English Research paper(scientific journal) Disclose to all
Tanabe S, Inoue KI, Tsuge H, Uezono S, Nagaya K, Fujiwara M, Kato S, Kobayashi K, Takada M Tanabe S, Inoue KI, Tsuge H, Uezono S, Nagaya K, Fujiwara M, Kato S, Kobayashi K, Takada M Tanabe S, Inoue KI, Tsuge H, Uezono S, Nagaya K, Fujiwara M, Kato S, Kobayashi K, Takada M The use of an optimized chimeric envelope glycoprotein enhances the efficiency of retrograde gene transfer of a pseudotyped lentiviral vector in the primate brain. The use of an optimized chimeric envelope glycoprotein enhances the efficiency of retrograde gene transfer of a pseudotyped lentiviral vector in the primate brain. The use of an optimized chimeric envelope glycoprotein enhances the efficiency of retrograde gene transfer of a pseudotyped lentiviral vector in the primate brain. Neuroscience research,120,45-52 Neuroscience research,120,45-52 Neuroscience research,120,45-52 2017/07 Refereed English Research paper(scientific journal) Disclose to all
Seiriki K, Kasai A, Hashimoto T, Schulze W, Niu M, Yamaguchi S, Nakazawa T, Inoue KI, Uezono S, Takada M, Naka Y, Igarashi H, Tanuma M, Waschek JA, Ago Y, Tanaka KF, Hayata-Takano A, Nagayasu K, Shintani N, Hashimoto R, Kunii Y, Hino M, Matsumoto J, Yabe H, Nagai T, Fujita K, Matsuda T, Takuma K, Baba A, Hashimoto H Seiriki K, Kasai A, Hashimoto T, Schulze W, Niu M, Yamaguchi S, Nakazawa T, Inoue KI, Uezono S, Takada M, Naka Y, Igarashi H, Tanuma M, Waschek JA, Ago Y, Tanaka KF, Hayata-Takano A, Nagayasu K, Shintani N, Hashimoto R, Kunii Y, Hino M, Matsumoto J, Yabe H, Nagai T, Fujita K, Matsuda T, Takuma K, Baba A, Hashimoto H Seiriki K, Kasai A, Hashimoto T, Schulze W, Niu M, Yamaguchi S, Nakazawa T, Inoue KI, Uezono S, Takada M, Naka Y, Igarashi H, Tanuma M, Waschek JA, Ago Y, Tanaka KF, Hayata-Takano A, Nagayasu K, Shintani N, Hashimoto R, Kunii Y, Hino M, Matsumoto J, Yabe H, Nagai T, Fujita K, Matsuda T, Takuma K, Baba A, Hashimoto H High-Speed and Scalable Whole-Brain Imaging in Rodents and Primates. High-Speed and Scalable Whole-Brain Imaging in Rodents and Primates. High-Speed and Scalable Whole-Brain Imaging in Rodents and Primates. Neuron,94,6,1085-1100.e6 Neuron,94,6,1085-1100.e6 Neuron,94,6,1085-1100.e6 2017/06 Refereed English Research paper(scientific journal) Disclose to all
Saga Y, Nakayama Y, Inoue K, Yamagata T, Hashimoto M, Tremblay L, Takada M, Hoshi E Saga Y, Nakayama Y, Inoue K, Yamagata T, Hashimoto M, Tremblay L, Takada M, Hoshi E Saga Y, Nakayama Y, Inoue K, Yamagata T, Hashimoto M, Tremblay L, Takada M, Hoshi E Visuomotor signals for reaching movements in the rostro-dorsal sector of the monkey thalamic reticular nucleus. Visuomotor signals for reaching movements in the rostro-dorsal sector of the monkey thalamic reticular nucleus. Visuomotor signals for reaching movements in the rostro-dorsal sector of the monkey thalamic reticular nucleus. European Journal Neuroscience,45,9,1186-1199 European Journal Neuroscience,45,9,1186-1199 European Journal Neuroscience,45,9,1186-1199 2017/05 Refereed English Research paper(scientific journal) Disclose to all
Nagai Y, Kikuchi E, Lerchner W, Inoue KI, Ji B, Eldridge MA, Kaneko H, Kimura Y, Oh-Nishi A, Hori Y, Kato Y, Hirabayashi T, Fujimoto A, Kumata K, Zhang MR, Aoki I, Suhara T, Higuchi M, Takada M, Richmond BJ, Minamimoto T Nagai Y, Kikuchi E, Lerchner W, Inoue KI, Ji B, Eldridge MA, Kaneko H, Kimura Y, Oh-Nishi A, Hori Y, Kato Y, Hirabayashi T, Fujimoto A, Kumata K, Zhang MR, Aoki I, Suhara T, Higuchi M, Takada M, Richmond BJ, Minamimoto T Nagai Y, Kikuchi E, Lerchner W, Inoue KI, Ji B, Eldridge MA, Kaneko H, Kimura Y, Oh-Nishi A, Hori Y, Kato Y, Hirabayashi T, Fujimoto A, Kumata K, Zhang MR, Aoki I, Suhara T, Higuchi M, Takada M, Richmond BJ, Minamimoto T PET imaging-guided chemogenetic silencing reveals a critical role of primate rostromedial caudate in reward evaluation. PET imaging-guided chemogenetic silencing reveals a critical role of primate rostromedial caudate in reward evaluation. PET imaging-guided chemogenetic silencing reveals a critical role of primate rostromedial caudate in reward evaluation. Nature communications,7,13605 Nature communications,7,13605 Nature communications,7,13605 2016/12 Refereed English Research paper(scientific journal) Disclose to all
Kimura K, Inoue KI, Kuroiwa Y, Tanaka F, Takada M Kimura K, Inoue KI, Kuroiwa Y, Tanaka F, Takada M Kimura K, Inoue KI, Kuroiwa Y, Tanaka F, Takada M Propagated but Topologically Distributed Forebrain Neurons Expressing Alpha-Synuclein in Aged Macaques. Propagated but Topologically Distributed Forebrain Neurons Expressing Alpha-Synuclein in Aged Macaques. Propagated but Topologically Distributed Forebrain Neurons Expressing Alpha-Synuclein in Aged Macaques. PloS one,11,e0166861 PloS one,11,e0166861 PloS one,11,e0166861 2016/11 Refereed English Research paper(scientific journal) Disclose to all
Kobayashi Kenta, Kato Shigeki, Inoue Ken-ichi, Takada Masahiko, Kobayashi Kazuto, Manfredsson FP Kobayashi Kenta, Kato Shigeki, Inoue Ken-ichi, Takada Masahiko, Kobayashi Kazuto, Manfredsson FP Kobayashi Kenta, Kato Shigeki, Inoue Ken-ichi, Takada Masahiko, Kobayashi Kazuto, Manfredsson FP Altering Entry Site Preference of Lentiviral Vectors into Neuronal Cells by Pseudotyping with Envelope Glycoproteins Altering Entry Site Preference of Lentiviral Vectors into Neuronal Cells by Pseudotyping with Envelope Glycoproteins Altering Entry Site Preference of Lentiviral Vectors into Neuronal Cells by Pseudotyping with Envelope Glycoproteins Methods in molecular biology,1382,175-186 Methods in molecular biology,1382,175-186 Methods in molecular biology,1382,175-186 2016/02 English Research paper(scientific journal) Disclose to all
Ishida Hiroaki, Inoue Ken-ichi, Takada Masahiko, Hoshi Eiji Ishida Hiroaki, Inoue Ken-ichi, Takada Masahiko, Hoshi Eiji Ishida Hiroaki, Inoue Ken-ichi, Takada Masahiko, Hoshi Eiji Origins of multisynaptic projections from the basal ganglia to the forelimb region of the ventral premotor cortex in macaque monkeys Origins of multisynaptic projections from the basal ganglia to the forelimb region of the ventral premotor cortex in macaque monkeys Origins of multisynaptic projections from the basal ganglia to the forelimb region of the ventral premotor cortex in macaque monkeys European Journal of Neuroscience,43,2,258-269 European Journal of Neuroscience,43,2,258-269 European Journal of Neuroscience,43,2,258-269 2016/01 Refereed English Research paper(scientific journal) Disclose to all
Inoue K, Takada M, Matsumoto M Inoue K, Takada M, Matsumoto M Inoue K, Takada M, Matsumoto M Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system. Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system. Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system. Nature communications,6,8378 Nature communications,6,8378 Nature communications,6,8378 2015/09 Refereed English Research paper(scientific journal) Disclose to all
Ito T, Inoue K, Takada M Ito T, Inoue K, Takada M Ito T, Inoue K, Takada M Distribution of glutamatergic, GABAergic, and glycinergic neurons in the auditory pathways of macaque monkeys. Distribution of glutamatergic, GABAergic, and glycinergic neurons in the auditory pathways of macaque monkeys. Distribution of glutamatergic, GABAergic, and glycinergic neurons in the auditory pathways of macaque monkeys. Neuroscience,310,128-151 Neuroscience,310,128-151 Neuroscience,310,128-151 2015/09 Refereed English Research paper(scientific journal) Disclose to all
Hiraoka M, Inoue K, Senoo H, Takada M Hiraoka M, Inoue K, Senoo H, Takada M Hiraoka M, Inoue K, Senoo H, Takada M Morphological study of the accommodative apparatus in the monkey eye. Morphological study of the accommodative apparatus in the monkey eye. Morphological study of the accommodative apparatus in the monkey eye. Anatomical record (Hoboken, N.J. : 2007),298,3,630-636 Anatomical record (Hoboken, N.J. : 2007),298,3,630-636 Anatomical record (Hoboken, N.J. : 2007),298,3,630-636 2015/03 Refereed Disclose to all
Hirata Y, Miyachi S, Inoue K, Ninomiya T, Takahara D, Hoshi E, Takada M Hirata Y, Miyachi S, Inoue K, Ninomiya T, Takahara D, Hoshi E, Takada M Hirata Y, Miyachi S, Inoue K, Ninomiya T, Takahara D, Hoshi E, Takada M Dorsal area 46 is a major target of disynaptic projections from the medial temporal lobe. Dorsal area 46 is a major target of disynaptic projections from the medial temporal lobe. Dorsal area 46 is a major target of disynaptic projections from the medial temporal lobe. Cerebral cortex (New York, N.Y. : 1991),23,12,2965-2975 Cerebral cortex (New York, N.Y. : 1991),23,12,2965-2975 Cerebral cortex (New York, N.Y. : 1991),23,12,2965-2975 2013/12 Refereed Disclose to all
T. Yoshida; S. Suzuki; Y. Iwasaki; A. Kaneko; A. Saito; Y. Enomoto; A. Higashino; A. Watanabe; J. Suzuki; K. Inoue; T. Kuroda; M. Takada; R. Ito; M. Ito; H. Akari Yoshida T, Suzuki S, Iwasaki Y, Kaneko A, Saito A, Enomoto Y, Higashino A, Watanabe A, Suzuki J, Inoue K, Kuroda T, Takada M, Ito R, Ito M, Akari H T. Yoshida; S. Suzuki; Y. Iwasaki; A. Kaneko; A. Saito; Y. Enomoto; A. Higashino; A. Watanabe; J. Suzuki; K. Inoue; T. Kuroda; M. Takada; R. Ito; M. Ito; H. Akari Efficient in vivo depletion of CD8<sup>+</sup> T lymphocytes in common marmosets by novel CD8 monoclonal antibody administration Efficient in vivo depletion of CD8(+) T lymphocytes in common marmosets by novel CD8 monoclonal antibody administration. Efficient in vivo depletion of CD8<sup>+</sup> T lymphocytes in common marmosets by novel CD8 monoclonal antibody administration Immunology Letters,154,1-2,12-17 Immunology letters,154,1-2,12-17 Immunology Letters,154,1-2,12-17 2013/07 Refereed English Disclose to all
S. Miyachi; Y. Hirata; K.-I. Inoue; X. Lu; A. Nambu; M. Takada Miyachi S, Hirata Y, Inoue K, Lu X, Nambu A, Takada M S. Miyachi; Y. Hirata; K.-I. Inoue; X. Lu; A. Nambu; M. Takada Multisynaptic projections from the ventrolateral prefrontal cortex to hand and mouth representations of the monkey primary motor cortex Multisynaptic projections from the ventrolateral prefrontal cortex to hand and mouth representations of the monkey primary motor cortex. Multisynaptic projections from the ventrolateral prefrontal cortex to hand and mouth representations of the monkey primary motor cortex Neuroscience Research,76,3,141-149 Neuroscience research,76,3,141-149 Neuroscience Research,76,3,141-149 2013/07 Refereed English Disclose to all
M. Hiraoka; T. Kuroda; K. Inoue; H. Senoo; M. Takada Hiraoka M, Kuroda T, Inoue K, Senoo H, Takada M M. Hiraoka; T. Kuroda; K. Inoue; H. Senoo; M. Takada Developmental Anatomy in the Zonular Connection with Lens Capsule in Macaque Eye Developmental anatomy in the zonular connection with lens capsule in macaque eye. Developmental Anatomy in the Zonular Connection with Lens Capsule in Macaque Eye Anatomical Record,296,5,726-735 Anatomical record (Hoboken, N.J. : 2007),296,5,726-735 Anatomical Record,296,5,726-735 2013/05 Refereed English Disclose to all
M. Takada; K.-I. Inoue; D. Koketsu; S. Kato; K. Kobayashi; A. Nambu Takada M, Inoue K, Koketsu D, Kato S, Kobayashi K, Nambu A M. Takada; K.-I. Inoue; D. Koketsu; S. Kato; K. Kobayashi; A. Nambu Elucidating information processing in primate basal ganglia circuitry: A novel technique for pathway-selective ablation mediated by immunotoxin Elucidating information processing in primate basal ganglia circuitry: a novel technique for pathway-selective ablation mediated by immunotoxin. Elucidating information processing in primate basal ganglia circuitry: A novel technique for pathway-selective ablation mediated by immunotoxin Frontiers in Neural Circuits,2013,Sept Frontiers in neural circuits,2013,Sept Frontiers in Neural Circuits,2013,Sept 2013 Refereed English Disclose to all
D. Takahara; K.-I. Inoue; Y. Hirata; S. Miyachi; A. Nambu; M. Takada; E. Hoshi Takahara D, Inoue K, Hirata Y, Miyachi S, Nambu A, Takada M, Hoshi E D. Takahara; K.-I. Inoue; Y. Hirata; S. Miyachi; A. Nambu; M. Takada; E. Hoshi Multisynaptic projections from the ventrolateral prefrontal cortex to the dorsal premotor cortex in macaques - anatomical substrate for conditional visuomotor behavior Multisynaptic projections from the ventrolateral prefrontal cortex to the dorsal premotor cortex in macaques - anatomical substrate for conditional visuomotor behavior. Multisynaptic projections from the ventrolateral prefrontal cortex to the dorsal premotor cortex in macaques - anatomical substrate for conditional visuomotor behavior European Journal of Neuroscience,36,10,3365-3375 The European journal of neuroscience,36,10,3365-3375 European Journal of Neuroscience,36,10,3365-3375 2012/11 Refereed English Disclose to all
T. Ninomiya; H. Sawamura; K. Inoue; M. Takada Ninomiya T, Sawamura H, Inoue K, Takada M T. Ninomiya; H. Sawamura; K. Inoue; M. Takada Segregated pathways carrying frontally derived top-down signals to visual areas MT and V4 in macaques Segregated pathways carrying frontally derived top-down signals to visual areas MT and V4 in macaques. Segregated pathways carrying frontally derived top-down signals to visual areas MT and V4 in macaques Journal of Neuroscience,32,20,6851-6858 The Journal of neuroscience : the official journal of the Society for Neuroscience,32,20,6851-6858 Journal of Neuroscience,32,20,6851-6858 2012/05 Refereed English Disclose to all
Hiraoka M, Inoue K, Ninomiya T, Takada M Hiraoka M, Inoue K, Ninomiya T, Takada M Hiraoka M, Inoue K, Ninomiya T, Takada M Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys. Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys. Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys. The British journal of ophthalmology,96,4,597-603 The British journal of ophthalmology,96,4,597-603 The British journal of ophthalmology,96,4,597-603 2012/04 Refereed Disclose to all
M. Hiraoka; K. Inoue; H. Kawano; M. Takada Hiraoka M, Inoue K, Kawano H, Takada M M. Hiraoka; K. Inoue; H. Kawano; M. Takada Localization of Papillofoveal Bundles in Primates Localization of papillofoveal bundles in primates. Localization of Papillofoveal Bundles in Primates Anatomical Record,295,2,347-354 Anatomical record (Hoboken, N.J. : 2007),295,2,347-354 Anatomical Record,295,2,347-354 2012/02 Refereed English Disclose to all
Inoue K, Koketsu D, Kato S, Kobayashi K, Nambu A, Takada M Inoue K, Koketsu D, Kato S, Kobayashi K, Nambu A, Takada M Inoue K, Koketsu D, Kato S, Kobayashi K, Nambu A, Takada M Immunotoxin-mediated tract targeting in the primate brain: selective elimination of the cortico-subthalamic "hyperdirect" pathway. Immunotoxin-mediated tract targeting in the primate brain: selective elimination of the cortico-subthalamic "hyperdirect" pathway. Immunotoxin-mediated tract targeting in the primate brain: selective elimination of the cortico-subthalamic "hyperdirect" pathway. PloS one,7,6 PloS one,7,6 PloS one,7,6 2012 Refereed Disclose to all
T. Ninomiya; H. Sawamura; K.-i. Inoue; M. Takada Ninomiya T, Sawamura H, Inoue K, Takada M T. Ninomiya; H. Sawamura; K.-i. Inoue; M. Takada Multisynaptic Inputs from the Medial Temporal Lobe to V4 in Macaques Multisynaptic inputs from the medial temporal lobe to V4 in macaques. Multisynaptic Inputs from the Medial Temporal Lobe to V4 in Macaques PLoS ONE,7,12 PloS one,7,12 PLoS ONE,7,12 2012 Refereed English Disclose to all
K. Kobayashi; S. Kato; M. Kuramochi; K. Takasumi; K. Kobayashi; K.-I. Inoue; D. Takahara; S. Hitoshi; K. Ikenaka; T. Shimada; M. Takada Kato S, Kuramochi M, Takasumi K, Kobayashi K, Inoue K, Takahara D, Hitoshi S, Ikenaka K, Shimada T, Takada M, Kobayashi K K. Kobayashi; S. Kato; M. Kuramochi; K. Takasumi; K. Kobayashi; K.-I. Inoue; D. Takahara; S. Hitoshi; K. Ikenaka; T. Shimada; M. Takada Neuron-specific gene transfer through retrograde transport of lentiviral vector pseudotyped with a novel type of fusion envelope glycoprotein Neuron-specific gene transfer through retrograde transport of lentiviral vector pseudotyped with a novel type of fusion envelope glycoprotein. Neuron-specific gene transfer through retrograde transport of lentiviral vector pseudotyped with a novel type of fusion envelope glycoprotein Human Gene Therapy,22,12,1511-1523 Human gene therapy,22,12,1511-1523 Human Gene Therapy,22,12,1511-1523 2011/12 Refereed English Disclose to all
T. Ninomiya; H. Sawamura; K.-I. Inoue; M. Takada Ninomiya T, Sawamura H, Inoue K, Takada M T. Ninomiya; H. Sawamura; K.-I. Inoue; M. Takada Differential architecture of multisynaptic geniculo-cortical pathways to V4 and MT Differential architecture of multisynaptic geniculo-cortical pathways to V4 and MT. Differential architecture of multisynaptic geniculo-cortical pathways to V4 and MT Cerebral Cortex,21,12,2797-2808 Cerebral cortex (New York, N.Y. : 1991),21,12,2797-2808 Cerebral Cortex,21,12,2797-2808 2011/12 Refereed English Disclose to all
S. Kato; K. Kobayashi; K.-I. Inoue; M. Kuramochi; T. Okada; H. Yaginuma; K. Morimoto; T. Shimada; M. Takada; K. Kobayashi Kato S, Kobayashi K, Inoue K, Kuramochi M, Okada T, Yaginuma H, Morimoto K, Shimada T, Takada M, Kobayashi K S. Kato; K. Kobayashi; K.-I. Inoue; M. Kuramochi; T. Okada; H. Yaginuma; K. Morimoto; T. Shimada; M. Takada; K. Kobayashi A lentiviral strategy for highly efficient retrograde gene transfer by pseudotyping with fusion envelope glycoprotein A lentiviral strategy for highly efficient retrograde gene transfer by pseudotyping with fusion envelope glycoprotein. A lentiviral strategy for highly efficient retrograde gene transfer by pseudotyping with fusion envelope glycoprotein Human Gene Therapy,22,2,197-206 Human gene therapy,22,2,197-206 Human Gene Therapy,22,2,197-206 2011/02 Refereed English Disclose to all
Y. Saga; Y. Hirata; D. Takahara; K. Inoue; S. Miyachi; A. Nambu; J. Tanji; M. Takada; E. Hoshi Saga Y, Hirata Y, Takahara D, Inoue K, Miyachi S, Nambu A, Tanji J, Takada M, Hoshi E Y. Saga; Y. Hirata; D. Takahara; K. Inoue; S. Miyachi; A. Nambu; J. Tanji; M. Takada; E. Hoshi Origins of multisynaptic projections from the basal ganglia to rostrocaudally distinct sectors of the dorsal premotor area in macaques Origins of multisynaptic projections from the basal ganglia to rostrocaudally distinct sectors of the dorsal premotor area in macaques. Origins of multisynaptic projections from the basal ganglia to rostrocaudally distinct sectors of the dorsal premotor area in macaques European Journal of Neuroscience,33,2,285-297 The European journal of neuroscience,33,2,285-297 European Journal of Neuroscience,33,2,285-297 2011/01 Refereed English Disclose to all
M. Hiraoka; K.-I. Inoue; C. Ohtaka-Maruyama; S. Ohsako; N. Kojima; H. Senoo; M. Takada Hiraoka M, Inoue K, Ohtaka-Maruyama C, Ohsako S, Kojima N, Senoo H, Takada M M. Hiraoka; K.-I. Inoue; C. Ohtaka-Maruyama; S. Ohsako; N. Kojima; H. Senoo; M. Takada Intracapsular organization of ciliary zonules in monkey eyes Intracapsular organization of ciliary zonules in monkey eyes. Intracapsular organization of ciliary zonules in monkey eyes Anatomical Record,293,10,1797-1804 Anatomical record (Hoboken, N.J. : 2007),293,10,1797-1804 Anatomical Record,293,10,1797-1804 2010/10 Refereed English Disclose to all
M. Hashimoto; D. Takahara; Y. Hirata; K.-I. Inoue; S. Miyachi; A. Nambu; J. Tanji; M. Takada; E. Hoshi Hashimoto M, Takahara D, Hirata Y, Inoue K, Miyachi S, Nambu A, Tanji J, Takada M, Hoshi E M. Hashimoto; D. Takahara; Y. Hirata; K.-I. Inoue; S. Miyachi; A. Nambu; J. Tanji; M. Takada; E. Hoshi Motor and non-motor projections from the cerebellum to rostrocaudally distinct sectors of the dorsal premotor cortex in macaques Motor and non-motor projections from the cerebellum to rostrocaudally distinct sectors of the dorsal premotor cortex in macaques. Motor and non-motor projections from the cerebellum to rostrocaudally distinct sectors of the dorsal premotor cortex in macaques European Journal of Neuroscience,31,8,1402-1413 The European journal of neuroscience,31,8,1402-1413 European Journal of Neuroscience,31,8,1402-1413 2010/04 Refereed English Disclose to all
Ohara S, Inoue K, Yamada M, Yamawaki T, Koganezawa N, Tsutsui KI, Witter MP, Iijima T. Ohara S, Inoue K, Yamada M, Yamawaki T, Koganezawa N, Tsutsui K, Witter MP, Iijima T Ohara S, Inoue K, Yamada M, Yamawaki T, Koganezawa N, Tsutsui KI, Witter MP, Iijima T. Dual transneuronal tracing in the rat entorhinal-hippocampal circuit by intracerebral injection of recombinant rabies virus vectors. Dual transneuronal tracing in the rat entorhinal-hippocampal circuit by intracerebral injection of recombinant rabies virus vectors. Dual transneuronal tracing in the rat entorhinal-hippocampal circuit by intracerebral injection of recombinant rabies virus vectors. Front Neuroanat. 3:1-11,3,JAN Frontiers in neuroanatomy,3,JAN Front Neuroanat. 3:1-11,3,JAN 2009 Refereed English Disclose to all
Ohara S, Inoue K, Witter MP, Iijima T. Ohara S, Inoue K, Witter MP, Iijima T Ohara S, Inoue K, Witter MP, Iijima T. Untangling neural networks with dual retrograde transsynaptic viral infection. Untangling neural networks with dual retrograde transsynaptic viral infection. Untangling neural networks with dual retrograde transsynaptic viral infection. Front Neurosci. 3:344-349.,3,DEC Frontiers in neuroscience,3,DEC Front Neurosci. 3:344-349.,3,DEC 2009 Refereed English Disclose to all
S. Kato; K.-I. Inoue; K. Kobayashi; Y. Yasoshima; S. Miyachi; S. Inoue; H. Hanawa; T. Shimada; M. Takada; K. Kobayashi Kato S, Inoue K, Kobayashi K, Yasoshima Y, Miyachi S, Inoue S, Hanawa H, Shimada T, Takada M, Kobayashi K S. Kato; K.-I. Inoue; K. Kobayashi; Y. Yasoshima; S. Miyachi; S. Inoue; H. Hanawa; T. Shimada; M. Takada; K. Kobayashi 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 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. 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 Human Gene Therapy,18,11,1141-1151 Human gene therapy,18,11,1141-1151 Human Gene Therapy,18,11,1141-1151 2007/11 Refereed English Disclose to all
M. Takayama-Ito; K.-i. Inoue; Y. Shoji; S. Inoue; T. Iijima; T. Sakai; I. Kurane; K. Morimoto Takayama-Ito M, Inoue K, Shoji Y, Inoue S, Iijima T, Sakai T, Kurane I, Morimoto K M. Takayama-Ito; K.-i. Inoue; Y. Shoji; S. Inoue; T. Iijima; T. Sakai; I. Kurane; K. Morimoto A highly attenuated rabies virus HEP-Flury strain reverts to virulent by single amino acid substitution to arginine at position 333 in glycoprotein A highly attenuated rabies virus HEP-Flury strain reverts to virulent by single amino acid substitution to arginine at position 333 in glycoprotein. A highly attenuated rabies virus HEP-Flury strain reverts to virulent by single amino acid substitution to arginine at position 333 in glycoprotein Virus Research,119,2,208-215 Virus research,119,2,208-215 Virus Research,119,2,208-215 2006/08 Refereed English Disclose to all
Khawplod P, Inoue K, Shoji Y, Wilde H, Ubol S, Nishizono A, Kurane I, Morimoto K Khawplod P, Inoue K, Shoji Y, Wilde H, Ubol S, Nishizono A, Kurane I, Morimoto K Khawplod P, Inoue K, Shoji Y, Wilde H, Ubol S, Nishizono A, Kurane I, Morimoto K A novel rapid fluorescent focus inhibition test for rabies virus using a recombinant rabies virus visualizing a green fluorescent protein. A novel rapid fluorescent focus inhibition test for rabies virus using a recombinant rabies virus visualizing a green fluorescent protein. A novel rapid fluorescent focus inhibition test for rabies virus using a recombinant rabies virus visualizing a green fluorescent protein. Journal of virological methods,125,1,35-40 Journal of virological methods,125,1,35-40 Journal of virological methods,125,1,35-40 2005/04 Refereed Disclose to all
K.-I. Inoue; Y. Shoji; I. Kurane; T. Iijima; T. Sakai; K. Morimoto Inoue Ki, Shoji Y, Kurane I, Iijima T, Sakai T, Morimoto K K.-I. Inoue; Y. Shoji; I. Kurane; T. Iijima; T. Sakai; K. Morimoto An improved method for recovering rabies virus from cloned cDNA An improved method for recovering rabies virus from cloned cDNA. An improved method for recovering rabies virus from cloned cDNA Journal of Virological Methods,107,2,229-236 Journal of virological methods,107,2,229-236 Journal of Virological Methods,107,2,229-236 2003/02 Refereed English Disclose to all

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Title language:
Conference Activities & Talks
Title Title(Japanese) Title(English) Conference Conference(Japanese) Conference(English) Promotor Promotor(Japanese) Promotor(English) Date Language Assortment Disclose
霊長類における光遺伝学を利用した神経回路操作[Invited] 霊長類における光遺伝学を利用した神経回路操作 [Invited] 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」 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」 2017/12/15 Japanese Oral presentation(invited, special) Disclose to all
Pathway-selective optogenetics for elucidating neural network function in primates.[Invited] Pathway-selective optogenetics for elucidating neural network function in primates. [Invited] Pathway-selective optogenetics for elucidating neural network function in primates. [Invited] Neuroscience 2017 Neuroscience 2017 Neuroscience 2017 2017/11/11 English Oral presentation(invited, special) Disclose to all
Pathway-selective manipulation of neural circuits[Invited] Pathway-selective manipulation of neural circuits [Invited] Pathway-selective manipulation of neural circuits [Invited] NIMH Workshop "Neural Circuits: Gaps and Opportunities" NIMH Workshop "Neural Circuits: Gaps and Opportunities" NIMH Workshop "Neural Circuits: Gaps and Opportunities" 2017/09/11 English Symposium workshop panel(nominated) Disclose to all
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[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 [Invited] 第6回 生理研-霊長研-脳研 合同シンポジウム 第6回 生理研-霊長研-脳研 合同シンポジウム 2017/03/10 Japanese Oral presentation(invited, special) Disclose to all
Studying the structure and function of primate brain by using viral vectors[Invited] Studying the structure and function of primate brain by using viral vectors [Invited] Studying the structure and function of primate brain by using viral vectors [Invited] The 7th International Neural Microcircuit Conference The 7th International Neural Microcircuit Conference The 7th International Neural Microcircuit Conference 2016/12/08 English Oral presentation(invited, special) Disclose to all
Manipulation of primate neural networks by means of modified viral vectors[Invited] Manipulation of primate neural networks by means of modified viral vectors [Invited] Manipulation of primate neural networks by means of modified viral vectors [Invited] National Institute of Health, Chemogenetics Workshop National Institute of Health, Chemogenetics Workshop National Institute of Health, Chemogenetics Workshop 2016/12/01 English Oral presentation(invited, special) Disclose to all
Primate models for elucidating the circuit pathology of nigrostriatal dopamine system[Invited] Primate models for elucidating the circuit pathology of nigrostriatal dopamine system [Invited] Primate models for elucidating the circuit pathology of nigrostriatal dopamine system [Invited] 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 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 2016/07/19 English Oral presentation(invited, special) Disclose to all
Manipulation of primate neural networks by means of modified viral vectors.[Invited] Manipulation of primate neural networks by means of modified viral vectors. [Invited] Manipulation of primate neural networks by means of modified viral vectors. [Invited] 5th NIPS-CIN Joint Symposium 5th NIPS-CIN Joint Symposium 5th NIPS-CIN Joint Symposium 2015/11/05 English Oral presentation(invited, special) Disclose to all
Manipulation of primate neural networks by means of modified viral vectors.[Invited] Manipulation of primate neural networks by means of modified viral vectors. [Invited] Manipulation of primate neural networks by means of modified viral vectors. [Invited] the 120th Annual Meeting of The Japanese Association of Anatomists, the 92nd Annual Meeting of The Physiological Society of Japan 第120回 日本解剖学会総会・全国学術集会、第92回 日本生理学会大会 合同大会 the 120th Annual Meeting of The Japanese Association of Anatomists, the 92nd Annual Meeting of The Physiological Society of Japan 2015/03/23 English Oral presentation(invited, special) Disclose to all
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[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 [Invited] 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 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 2014/01/01 Japanese Oral presentation(invited, special) Disclose to all
霊長類脳研究に資する遺伝子導入技術の開発[Invited] 霊長類脳研究に資する遺伝子導入技術の開発 [Invited] 「霊長類認知ゲノミクス」キックオフワークショップ 「霊長類認知ゲノミクス」キックオフワークショップ 2013/10/01 Japanese Oral presentation(invited, special) Disclose to all
Manipulation of primate neuronal circuits by the use of modified lentiviral vector with enhanced retrograde transport.[Invited] Manipulation of primate neuronal circuits by the use of modified lentiviral vector with enhanced retrograde transport. [Invited] Manipulation of primate neuronal circuits by the use of modified lentiviral vector with enhanced retrograde transport. [Invited] NIPS Mini-International Symposium "Frontiers in Neural Control of Actions" 生理研ミニ国際シンポジウムFrontiers in Neural Control of Actions NIPS Mini-International Symposium "Frontiers in Neural Control of Actions" 2013/06/17 English Oral presentation(invited, special) Disclose to all
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[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 [Invited] 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 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 ナショナルバイオリソースプログラム「ニホンザル」 ナショナルバイオリソースプログラム「ニホンザル」 2012/11/09 Japanese Symposium workshop panel(nominated) Disclose to all
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[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 [Invited] 第13回予防衛生協会セミナー 第13回予防衛生協会セミナー 予防衛生協会 予防衛生協会 2009/12 Japanese Oral presentation(invited, special) Disclose to all

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Title language:
Books etc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Publisher Publisher(Japanese) Publisher(English) Publication date Language Type Disclose
高田昌彦、永井裕司、井上謙一、南本敬史 高田昌彦、永井裕司、井上謙一、南本敬史 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 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 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」 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」 2017/12 Contributor Disclose to all
高田昌彦、井上謙一、松本正幸 高田昌彦、井上謙一、松本正幸 光による霊長類脳機能制御:神経路選択的光操作技術 光による霊長類脳機能制御:神経路選択的光操作技術 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」 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」 2017/10 Contributor Disclose to all
井上謙一、高田昌彦 井上謙一、高田昌彦 ウイルスベクターを用いた神経回路への機能介入法 ウイルスベクターを用いた神経回路への機能介入法 中外医学社. Clinical Neuroscience 32:, 「脳のゆらぎ・同期・オシレーション」 中外医学社. Clinical Neuroscience 32:, 「脳のゆらぎ・同期・オシレーション」 2014/07 Contributor Disclose to all
Kato S, Kobayashi K, Inoue K, Takada M, Kobayashi K Kato S, Kobayashi K, Inoue K, Takada M, Kobayashi K Kato S, Kobayashi K, Inoue K, Takada M, Kobayashi K Vectors for highly efficient and neuron-specific retrograde gene transfer for gene therapy of neurological diseases. Vectors for highly efficient and neuron-specific retrograde gene transfer for gene therapy of neurological diseases. Vectors for highly efficient and neuron-specific retrograde gene transfer for gene therapy of neurological diseases. Gene Therapy-Tools and Potential Applications. (ed. Francisco Martin Molina) InTech Gene Therapy-Tools and Potential Applications. (ed. Francisco Martin Molina) InTech Gene Therapy-Tools and Potential Applications. (ed. Francisco Martin Molina) InTech 2013/02 Contributor Disclose to all
Takada M, Hoshi E, Saga Y, Inoue K, Miyachi S, Hatanaka N, Inase M, Nambu A Takada M, Hoshi E, Saga Y, Inoue K, Miyachi S, Hatanaka N, Inase M, Nambu A Takada M, Hoshi E, Saga Y, Inoue K, Miyachi S, Hatanaka N, Inase M, Nambu A Organization of Two Cortico–Basal Ganglia Loop Circuits That Arise from Distinct Sectors of the Monkey Dorsal Premotor Cortex. Organization of Two Cortico–Basal Ganglia Loop Circuits That Arise from Distinct Sectors of the Monkey Dorsal Premotor Cortex. Organization of Two Cortico–Basal Ganglia Loop Circuits That Arise from Distinct Sectors of the Monkey Dorsal Premotor Cortex. Basal Ganglia - An Integrative View. (ed. Fernando A. Barrios and Clemens Bauer) InTech Basal Ganglia - An Integrative View. (ed. Fernando A. Barrios and Clemens Bauer) InTech Basal Ganglia - An Integrative View. (ed. Fernando A. Barrios and Clemens Bauer) InTech 2013/01 Contributor Disclose to all
Kato S, Kuramochi M, Kobayashi K, Inoue K, Takada M, Kobayashi K. Kato S, Kuramochi M, Kobayashi K, Inoue K, Takada M, Kobayashi K. Kato S, Kuramochi M, Kobayashi K, Inoue K, Takada M, Kobayashi K. Highly efficient retrograde gene transfer for genetic treatment of neurological diseases. Highly efficient retrograde gene transfer for genetic treatment of neurological diseases. Highly efficient retrograde gene transfer for genetic treatment of neurological diseases. Viral Gene Ther. (ed.Ke Xu) InTech Viral Gene Ther. (ed.Ke Xu) InTech Viral Gene Ther. (ed.Ke Xu) InTech 2011/07 Contributor Disclose to all
高田昌彦、井上謙一、宮地重弘 高田昌彦、井上謙一、宮地重弘 狂犬病ウイルスによる多シナプス性神経路の解析法 狂犬病ウイルスによる多シナプス性神経路の解析法 医学書院、Brain and Nerve, 62:3,「特集 神経回路解析法の最近の進歩」 医学書院、Brain and Nerve, 62:3,「特集 神経回路解析法の最近の進歩」 2010/03 Contributor Disclose to all
高田昌彦、井上謙一 高田昌彦、井上謙一 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 医学書院、生体の科学,61:1,「特集 脳科学のモデル実験動物」 医学書院、生体の科学,61:1,「特集 脳科学のモデル実験動物」 2010/01 Contributor Disclose to all
Takada M, Inoue K, Miyachi S, Okado H, Nambu A. Takada M, Inoue K, Miyachi S, Okado H, Nambu A. Takada M, Inoue K, Miyachi S, Okado H, Nambu A. Prevention of calbindin recruitment into nigral dopamine neurons from MPTP-induced degeneration in Macaca fascicularis. Prevention of calbindin recruitment into nigral dopamine neurons from MPTP-induced degeneration in Macaca fascicularis. Prevention of calbindin recruitment into nigral dopamine neurons from MPTP-induced degeneration in Macaca fascicularis. Springer, The Basal Ganglia IX Springer, The Basal Ganglia IX Springer, The Basal Ganglia IX 2009/09 Contributor Disclose to all
高田昌彦、井上謙一 高田昌彦、井上謙一 サル類モデル サル類モデル 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 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 2008/10 Japanese Contributor Disclose to all
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 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 光計測法による神経回路の機能的解剖 光計測法による神経回路の機能的解剖 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―」 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―」 2004/04 Contributor Disclose to all

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Title language:
Patents
Inventor(s) Inventor(s) (Japanese) Inventor(s) (English) Title Title(Japanese) Title(English) Stage Patent number Date Disclose
井上謙一、大原慎也、森本金次郎、倉根一郎、筧慎治、飯島敏夫 井上謙一、大原慎也、森本金次郎、倉根一郎、筧慎治、飯島敏夫 神経回路選択的な外来遺伝子導入ベクターの製造方法 神経回路選択的な外来遺伝子導入ベクターの製造方法 特許公開 特開2006-81509 2006 Disclose to all
Title language:
Awards
Title(Japanese) Title(English) Organization name(Japanese) Organization name(English) Date
社団法人 予防衛生協会 研究奨励賞 社団法人 予防衛生協会 2008/11/
External funds, competitive funds and Grants-in-Aid for Scientific Research(kaken)
Type Position Title(Japanese) Title(English) Period
若手研究(B) Representative 新規逆行性越シナプストレーシング法による大脳皮質-大脳基底核ループ回路の解析 2008/04/1-2010/03/31
挑戦的萌芽研究 Representative 改変狂犬病ウイルスベクターによる新しい神経回路トレーシング手法の開発 2010/04/01-2012/03/31
新学術領域研究(公募研究) Representative 霊長類における神経路選択的な機能分子発現制御法の開発 2011/04/01-2013/03/31
基盤研究(C) Representative ウイルスベクターを用いた入出力解析法による、中脳ドーパミン細胞の機能的差異の解析 2012/04/01-2015/03/31
挑戦的萌芽研究 Representative ウイルスベクターを利用した霊長類の全脳的遺伝子導入法の開発 2015/04/01-2017/03/31
新学術領域研究(公募研究) Representative 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 2015/04/01-2017/03/31
新学術領域研究(計画研究) Assignment 動物モデルへの双方向性計測操作による発振現象の理解 2015/04/01-
基盤研究(C) Representative 霊長類遺伝子改変モデルを利用したパーキンソン病の進行・発症機序の解明 2016/04/01-2019/03/31
新学術領域研究(公募研究) Representative 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 2017/04/01-2018/03/31
新学術領域研究(公募研究) Representative 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 2017/04/01-2018/03/31
Non-external, competitive funds or grants other than grants-in-aid for Scientific research (kaken)
System Main person Title(Japanese) Title(English) Period
国立研究開発法人科学技術振興機構 さきがけ 井上 謙一 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 2016/10/1-2020/03/31
平成29年度 京都大学リサーチ・ディベロップメントプログラム 【いしずえ】 井上 謙一 運動学習に関わる大脳皮質―大脳基底核ループ回路の構造と機能 2017/04/01-2018/03/31
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
霊長類脳科学基礎論Ⅰ Fundamental Primate Brain Science I 前期 理学研究科 2014/04-2015/03
霊長類脳科学基礎論Ⅱ Fundamental Primate Brain Science II 前期 理学研究科 2014/04-2015/03
神経解剖学実習 Practice on Neuroanatomy 後期集中 理学研究科 2014/04-2015/03
霊長類システム神経科学ゼミナールⅠA Seminar on Primate Systems Neuroscience IA 前期 理学研究科 2014/04-2015/03
霊長類システム神経科学ゼミナールⅠB Seminar on Primate Systems Neuroscience IB 後期 理学研究科 2014/04-2015/03
霊長類システム神経科学ゼミナールⅡA Seminar on Primate Systems Neuroscience IIA 前期 理学研究科 2014/04-2015/03
霊長類システム神経科学ゼミナールⅡB Seminar on Primate Systems Neuroscience IIB 後期 理学研究科 2014/04-2015/03
霊長類システム神経学特論 Advanced Primate Systems Neuroscience 後期 理学研究科 2014/04-2015/03
霊長類脳神経科学への招待 Introduction to Primate Brain Science 前期 全学共通科目 2014/04-2015/03
神経解剖学実習 Practical on Neuroanatomy 後期集中 理学研究科 2015/04-2016/03
霊長類システム神経学特論 Advanced Primate Systems Neuroscience 後期 理学研究科 2015/04-2016/03
霊長類システム神経科学ゼミナールⅠA Seminar on Primate Systems Neuroscience IA 前期 理学研究科 2015/04-2016/03
霊長類システム神経科学ゼミナールⅠB Seminar on Primate Systems Neuroscience IB 後期 理学研究科 2015/04-2016/03
霊長類システム神経科学ゼミナールⅡA Seminar on Primate Systems Neuroscience IIA 前期 理学研究科 2015/04-2016/03
霊長類システム神経科学ゼミナールⅡB Seminar on Primate Systems Neuroscience IIB 後期 理学研究科 2015/04-2016/03
霊長類脳神経科学への招待 Introduction to Primate Brain Science 前期 全学共通科目 2015/04-2016/03
霊長類脳科学基礎論Ⅱ Fundamental Primate Brain Science II 前期集中 理学研究科 2015/04-2016/03
霊長類脳科学基礎論Ⅰ Fundamental Primate Brain Science I 前期集中 理学研究科 2015/04-2016/03
神経科学実習 Practical on Neuroscience 後期集中 理学研究科 2016/04-2017/03
霊長類学総合ゼミナール Interdisciplinary Seminar on Primatology 後期集中 理学研究科 2016/04-2017/03
霊長類神経科学基礎論 I Fundamental Primate Neuroscience I 前期集中 理学研究科 2016/04-2017/03
霊長類神経科学基礎論II Fundamental Primate Neuroscience II 前期集中 理学研究科 2016/04-2017/03
霊長類統合脳システムゼミナールA Seminar on Primate Systems Neuroscience A 前期 理学研究科 2016/04-2017/03
霊長類統合脳システムゼミナールB Seminar on Primate Systems Neuroscience B 後期 理学研究科 2016/04-2017/03
霊長類統合脳システムゼミナールC Seminar on Primate Systems Neuroscience C 前期 理学研究科 2016/04-2017/03
霊長類統合脳システムゼミナールD Seminar on Primate Systems Neuroscience D 後期 理学研究科 2016/04-2017/03
霊長類統合脳システム特論 Advanced Primate Systems Neuroscience 後期 理学研究科 2016/04-2017/03
神経科学実習 Practical on Neuroscience 後期集中 理学研究科 2017/04-2018/03
霊長類神経科学基礎論 I Fundamental Primate Neuroscience I 前期集中 理学研究科 2017/04-2018/03
霊長類神経科学基礎論II Fundamental Primate Neuroscience II 前期集中 理学研究科 2017/04-2018/03
霊長類統合脳システムゼミナールA Seminar on Primate Systems Neuroscience A 前期 理学研究科 2017/04-2018/03
霊長類統合脳システムゼミナールB Seminar on Primate Systems Neuroscience B 後期 理学研究科 2017/04-2018/03
霊長類統合脳システムゼミナールC Seminar on Primate Systems Neuroscience C 前期 理学研究科 2017/04-2018/03
霊長類統合脳システムゼミナールD Seminar on Primate Systems Neuroscience D 後期 理学研究科 2017/04-2018/03
霊長類統合脳システム特論 Advanced Primate Systems Neuroscience 後期 理学研究科 2017/04-2018/03
神経科学実習 Practical on Neuroscience 後期集中 理学研究科 2018/04-2019/03
霊長類神経科学基礎論II Fundamental Primate Neuroscience II 前期集中 理学研究科 2018/04-2019/03
霊長類神経科学基礎論I Fundamental Primate Neuroscience I 前期集中 理学研究科 2018/04-2019/03
霊長類統合脳システムゼミナールA Seminar on Primate Systems Neuroscience A 前期 理学研究科 2018/04-2019/03
霊長類統合脳システムゼミナールB Seminar on Primate Systems Neuroscience B 後期 理学研究科 2018/04-2019/03
霊長類統合脳システムゼミナールC Seminar on Primate Systems Neuroscience C 前期 理学研究科 2018/04-2019/03
霊長類統合脳システムゼミナールD Seminar on Primate Systems Neuroscience D 後期 理学研究科 2018/04-2019/03
霊長類統合脳システム特論 Advanced Primate Systems Neuroscience 後期 理学研究科 2018/04-2019/03

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