研究成果(神田真司)

  1. 研究成果
  2. 公募研究A02 - 神田真司

  1. 014

    Tomihara S, Oka Y, Kanda S.

    "Establishment of open-source semi-automated behavioral analysis system and quantification of the difference of sexual motivation between laboratory and wild strains."

    Sci Rep 2021 11: 10894.

  2. 013

    Umatani C, Nakajo M, Kayo D, Oka Y, Kanda S.

    "Integrated analyses using medaka as a powerful model animal toward understanding various aspects of reproductive regulation."

    In: Laboratory Fish in Biomedical Research, d'Angelo L, Girolamo Pd (eds) Elsevier 2021 215–243.

  3. 012

    Ishikawa T, Murakami Y, Fujimori C, Kinoshita M, Naruse K, Kanda S.

    "Medaka as a model teleost: characteristics and approaches of genetic modification."

    In: Laboratory Fish in Biomedical Research, d'Angelo L, Girolamo Pd (eds) Elsevier 2021 185–213.

  4. 011

    Sassa M, Takagi T, Kinjo A, Yoshioka Y, Zayasu Y, Shinzato C, Kanda S, Murakami-Sugihara N, Shirai K, Inoue K.

    "Divalent metal transporter-related protein restricts animals to marine habitats."

    Commun Biol 2021 4: 463.

  5. 010

    Kasahara Y, Narukawa M, Ishimaru Y, Kanda S, Umatani C, Takayama Y, Tominaga M, Oka Y, Kondo K, Kondo T, Takeuchi A, Misaka T, Abe K, Asakura T.

    "TMC4 is a novel chloride channel involved in high-concentration salt taste sensation."

    J Physiol Sci 2021 71: 23.

  6. 009

    Kasahara Y, Narukawa M, Kanda S, Tominaga M, Abe K, Misaka T, Asakura T.

    "Transmembrane channel-like 4 is involved in pH and temperature-dependent modulation of salty taste."

    Biosci Biotechnol Biochem 2021 85: 2295–2299.

  7. 008

    Park C, Sakurai Y, Sato H, Kanda S, Iino Y, Kunitomo H.

    "Roles of the ClC chloride channel CLH-1 in food-associated salt chemotaxis behavior of C. elegans."

    Elife 2021 10: e55701.

  8. 007

    Royan MR, Kanda S, Kayo D, Song W, Ge W, Weltzien FA, Fontaine R.

    "Gonadectomy and blood sampling procedures in the small size teleost model Japanese medaka (Oryzias latipes)."

    J Vis Exp 2020 e62006.

  9. 006

    Kayo D, Oka Y, Kanda S.

    "Examination of methods for manipulating serum 17β-estradiol (E2) levels by analysis of blood E2 concentration in medaka (Oryzias latipes)."

    Gen Comp Endocrinol 2020 285: 113272.

  10. 005

    神田真司(編).

    『遺伝子から解き明かす魚の不思議な世界』 一色出版、480頁、2019.

  11. 004

    Kanda S.

    "Evolution of the regulatory mechanisms for the hypothalamic-pituitary-gonadal axis in vertebrates-hypothesis from a comparative view."

    Gen Comp Endocrinol 2019 284: 113075.

  12. 003

    Kayo D, Zempo B, Tomihara S, Oka Y, Kanda S.

    "Gene knockout analysis reveals essentiality of estrogen receptor beta1 (Esr2a) for female reproduction in medaka."

    Sci Rep 2019 9: 8868.

  13. 002

    Kikuchi Y, Hiraki-Kajiyama T, Nakajo M, Umatani C, Kanda S, Oka Y, Matsumoto K, Ozawa H, Okubo K.

    "Sexually dimorphic neuropeptide B neurons in medaka exhibit activated cellular phenotypes dependent on estrogen."

    Endocrinology 2019 160: 827–839.

  14. 001

    Kanda S.

    "Small teleosts provide hints toward understanding the evolution of the central regulatory mechanisms of reproduction."

    In: Iida A and Hirata H (ed.), Zebrafish, Medaka, and Other Small Fishes: New Model Animals in Biology, Medicine, and Beyond Springer, pp. 99–111, 2018.