Atsushi KUHARA Laboratory

 

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  1. Ohnishi K., Sokabe T., Miura T., Tominaga M., Ohta A., Kuhara A.
    "G protein-coupled receptor-based thermosensation determines temperature acclimatization of Caenorhabditis elegans"
    Nature commun., 15: 1660, 1-13, 2024

  2. Ohta A., Sato Y., Isono K., Kajino T., Tanaka K., Taji T., Kuhara A.
    The intron binding protein EMB-4 is an opposite regulator of cold and high temperature tolerance in Caenorhabditis elegans
    PNAS nexus, 3, 8, 293 (1-13), 2024

  3. Okahata M., Sawada N., Nakao K., Ohta A., Kuhara A.
    Screening for cold tolerance genes in C. elegans, whose expressions are affected by anticancer drugs camptothecin and leptomycin B
    Scientific Reports, 14, 5401, 1-14, 2024

  4. Motomura H., Ioroi M., Murakami K., Kuhara A.*, Ohta A.*
    Head-tail-head neural wiring underlies gut fat storage in Caenorhabditis elegans temperature acclimation
    PNAS, 119, 32, e2203121119, 1-9, 2022

  5. Takagaki N., Ohta A., Ohnishi K., Kawanabe A., Minakuchi Y., Toyoda A., Fujiwara Y., Kuhara A.
    The mechanoreceptor DEG-1 regulates cold tolerance in Caenorhabditis elegans
    EMBO reports, 21, e48671, 1-14, 2020 (Article)

  6. Ohnishi K., Saito S., Miura Y., Ohta A., Tominaga M., Sokabe T., Kuhara A.
    OSM-9 and OCR-2 TRPV channels are accessorial warm receptors in Caenorhabditis elegans temperature acclimatisation
    Scientific Reports, 10, 18566, 1-14, 2020

  7. Okahata M., Wei A. D., Ohta A., Kuhara A.
    Cold acclimation via the KQT-2 potassium channel is modulated by oxygen in Caenorhabditis elegans
    Science Advances, 5, 2, 1-12, 2019

  8. Ujisawa T., Ohta A., Ii T., Minakuchi Y., Toyoda A., Ii M., Kuhara A.
    Endoribonuclease ENDU-2 regulates multiple traits including cold tolerance via cell autonomous and nonautonomous controls in C. elegans
    PNAS, 115, 35, 8823-8828, 2018

  9. Sonoda S., Ohta A., Maruo A., Ujisawa T., Kuhara A.
    Sperm affects head sensory neuron in temperature tolerance of Caenorhabditis elegans
    Cell Reports, 16, 1, 56–65, 2016

  10. Ohta A., Ujisawa T., Sonoda S., Kuhara A.
    "Light and pheromone-sensing neurons regulate cold habituation through insulin signaling in C. elegans"
    Nature commun., 5: 4412, 1-12, 2014

  11. Kuhara A., Ohnishi N., Shimowada T., Mori, I.
    "Neural coding in a single sensory neuron controlling opposite seeking behaviors in Caenorhabditis elegans"
    Nature commun., 2 : 355, 1-12, 2011

  12. Kuhara A., Okumura M., Kimata T., Tanizawa Y., Takano R., Kimura D. K., Inada H., Matsumoto K., Mori I.
    "Temperature sensing by an olfactory neuron in a circuit controlling behavior of C. elegans"
    Science, 320, 5877, 803-807, 2008

  13. Kodama E., Kuhara A., Mohri-Shiomi A., Kimura K. D., Okumura M., Tomioka M., Iino Y., and Mori I.
    "Insulin-like signaling and the neural circuit for integrative behavior in C. elegans"
    Genes & Development, 20: 2955-2960, 2006

  14. Kuhara A. & Mori I.
    " Molecular physiology of the neural circuit for calcineurin dependent associative learning in Caenorhabditis elegans "
    The Journal of Neuroscience, 26(37): 9355-9364, 2006

  15. Kuhara A., Inada H., Katsura I., and Mori I.
    "Negative Regulation and Gain Control of Sensory Neurons by the C. elegans Calcineurin TAX-6"
    Neuron, Vol. 33, 751-763, 2002

 

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