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  2. Takayuki Yamashita

Takayuki Yamashita

  (山下 貴之)

Profile Information

Affiliation
Professor, Department of Physiology School of Medicine, Fujita Health University
(Concurrent)Professor, Department of Neurophysiology, Graduate School of Medicine
(Concurrent)Professor, Division of Neurophysiology, International Center for Brain Science
Degree
Ph.D.(Mar, 2007, The university of Tokyo)
J-GLOBAL ID
200901070286622131
researchmap Member ID
6000003393
External link

I am currently investigating how information flows among brain circuits to coordinate animal behaviour. I am enjoying an exciting time when we can tackle basic questions on neuronal coding and circuit algorithm directly in awake behaving animals with cellular resolution in a cell-type specific manner.

Research Interests

 7

Research Areas

 3

Research History

 13
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Education

 4

Awards

 4

Major Papers

 26
  • Wan-Ru Li, Takashi Nakano, Kohta Mizutani, Takanori Matsubara, Masahiro Kawatani, Yasutaka Mukai, Teruko Danjo, Hikaru Ito, Hidenori Aizawa, Akihiro Yamanaka, Carl C.H. Petersen, Junichiro Yoshimoto, Takayuki Yamashita
    Current Biology, Aug, 2023  Peer-reviewedLast authorCorresponding author
  • Takanori Matsubara, Takayuki Yanagida, Noriaki Kawaguchi, Takashi Nakano, Junichiro Yoshimoto, Maiko Sezaki, Hitoshi Takizawa, Satoshi P. Tsunoda, Shin-ichiro Horigane, Shuhei Ueda, Sayaka Takemoto-Kimura, Hideki Kandori, Akihiro Yamanaka, Takayuki Yamashita
    Nature Communications, 12(4478) 4478-4478, Jul, 2021  Peer-reviewedLast authorCorresponding author
    <title>Abstract</title>Scintillators emit visible luminescence when irradiated with X-rays. Given the unlimited tissue penetration of X-rays, the employment of scintillators could enable remote optogenetic control of neural functions at any depth of the brain. Here we show that a yellow-emitting inorganic scintillator, Ce-doped Gd3(Al,Ga)5O12 (Ce:GAGG), can effectively activate red-shifted excitatory and inhibitory opsins, ChRmine and GtACR1, respectively. Using injectable Ce:GAGG microparticles, we successfully activated and inhibited midbrain dopamine neurons in freely moving mice by X-ray irradiation, producing bidirectional modulation of place preference behavior. Ce:GAGG microparticles are non-cytotoxic and biocompatible, allowing for chronic implantation. Pulsed X-ray irradiation at a clinical dose level is sufficient to elicit behavioral changes without reducing the number of radiosensitive cells in the brain and bone marrow. Thus, scintillator-mediated optogenetics enables minimally invasive, wireless control of cellular functions at any tissue depth in living animals, expanding X-ray applications to functional studies of biology and medicine.
  • Takayuki Yamashita, Carl C. H. Petersen
    ELIFE, 5 e15798, Jun, 2016  Peer-reviewedLead authorCorresponding author
  • Takayuki Yamashita, Aurelie Pala, Leticia Pedrido, Yves Kremer, Egbert Welker, Carl C. H. Petersen
    NEURON, 80(6) 1477-1490, Dec, 2013  Peer-reviewedLead authorCorresponding author
  • Takayuki Yamashita, Kohgaku Eguchi, Naoto Saitoh, Henrique von Gersdorff, Tomoyuki Takahashi
    NATURE NEUROSCIENCE, 13(7) 838-U76, Jul, 2010  Peer-reviewedLead authorCorresponding author
  • T Yamashita, T Hige, T Takahashi
    SCIENCE, 307(5706) 124-127, Jan, 2005  Peer-reviewedLead author
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Misc.

 8
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Books and Other Publications

 1
  • Takahashi T, Hori T, Nakamura Y, Yamashita T (Role: Joint author, pp.137-145)
    Springer, 2012

Teaching Experience

 4

Professional Memberships

 3

Research Projects

 38
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Industrial Property Rights

 1

Other

 1
  • X線を用いた細胞機能操作法 (実験動物体外からX線を照射し、体内に埋め込んだCe:GAGGなどのシンチレータを発光させ、周囲に発現させた光感受性タンパク質を活性化する方法) 日本特許出願済み ( 「オプシンの活性を調節する方法」産業財産権の項を参照。) *本研究シーズに関する産学共同研究の問い合わせは藤田医科大学産学連携推進セン ター(fuji-san@fujita-hu.ac.jp)まで
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