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Laboratory for Local Neuronal Circuits
Toshihiko HOSOYA
Laboratory Head
Toshihiko HOSOYA (Ph.D.)
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Research Areas

The long-term goal of Hosoya Laboratory is to understand brain functions by investigating local neuronal circuits. The group has two strategies: analyzing simple circuits, and decomposing complex circuits into simpler subcircuits. The model system for the first strategy is the vertebrate retina, with which precise analysis of input/output relationship is possible. Results show that the retinal coding rule is adaptively modified according to the correlations in the visual input, and that single neurons encode multiple quantities with precise temporal patterns of spikes. The target of the second strategy is the local circuit of the mammalian neocortex. Novel microstructures have been identified in Hosoya Laboratory using genetic techniques, and functional analyses are now underway.

Research Subject

  1. Pattern adaptation in the retina
  2. Information coding by spike timing
  3. Identification and analysis of neocortical local circuits

Related links

  1. RIKEN Brain Science Institute Website_Laboratories PageNew Window

RIKEN RESEARCH

May 29, 2009
Elucidating the brain's neural networkNew Window

List of Selected Publications

  1. H. Maruoka, K. Kubota, R. Kurokawa, S. Tsuruno and T. Hosoya:
    "Periodic Organization of a Major Subtype of Pyramidal Neurons in Neocortical Layer V"
    The Journal of Neuroscience,14 Dec 2011,31(50):18522-18542
  2. Oizumi M, Ishii T, Ishibashi K, Hosoya T, and Okada M:
    "Mismatched decoding in the brain.",
    J Neurosci, 30(13), 4815-26 (2010)
  3. Agetsuma M, Aizawa H, Aoki T, Nakayama R, Takahoko M, Goto M, Sassa T, Amo R, Shiraki T, Kawakami K, Hosoya T, Higashijima S, and Okamoto H:
    "The habenula is crucial for experience-dependent modification of fear responses in zebrafish.",
    Nat Neurosci, 13(11), 1354-6 (2010)
  4. Lesica NA, Ishii T, Stanley GB, and Hosoya T:
    "Estimating receptive fields from responses to natural stimuli with asymmetric intensity distributions.",
    PLoS One, 3(8), e3060 (2008)
  5. Kaneda M, Ishii T, and Hosoya T:
    "Pathway-dependent modulation by P2-purinoceptors in the mouse retina.",
    Eur J Neurosci, 28(1), 128-36 (2008)
  6. Hosoya T, Baccus SA, and Meister M:
    "Dynamic predictive coding by the retina.",
    Nature, 436(7047), 1971-7 (2005)
  7. Akiyama Y, Hosoya T, Poole AM, and Hotta Y.:
    "The gcm-motif: a novel DNA-binding motif conserved in Drosophila and mammals.",
    Proc Natl Acad Sci U S A, 93(25), 14912-6 (1996)
  8. Hosoya T, Takizawa K, Nitta K, and Hotta Y.:
    "Glial cells missing: a binary switch between neuronal and glial determination in Drosophila.",
    Cell, 82(6), 1025-36 (1995)
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