東京大学
GRADUATE SCHOOL OF FRONTIER SCIENCES
Japanese

Original Papers

  • Zeng X, Komanome Y, Kawasaki T, Inada K, Jonaitis J, Pulver SR, Kazama H, Nose A. (2021)
    An electrically coupled pioneer circuit enables motor development via proprioceptive feedback in Drosophila embryos
    Current Biology 31, 5327-5340.e5 doi: 10.1016/j.cub.2021.10.005
    >Introduced by a "Dispatch" article of the journal.

    Matsuo Y, Nose A, Kohsaka H. (2021)
    Interspecies variation of larval locomotion kinematics in the genus Drosophila and its relation to habitat temperature
    BMC Biology 19:176 doi: 10.1186/s12915-021-01110-4

    Hiramoto A, Jonaitis J, Niki S, Kohsaka H, Fetter RD, Cardona A, Pulver SR, Nose A. (2021)
    Regulation of coordinated muscular relaxation by a pattern-regulating intersegmental circuit
    Nat. Commun. 12:2943 doi: 10.1038/s41467-021-23273-y

    Sun X, Liu Y, Liu C, Mayumi K, Ito K, Nose A, Kohsaka H. (2020)
    A neuromechanical model and kinematic analyses for Drosophila larval crawling based on physical measurements.
    bioRxiv. doi: 10.1101/2020.07.17.208611

    Giachello ANG, Zarin AA, Kohsaka H, Fan YN, Nose A, Landgraf M, Baines RA. (2020)
    Electrophysiological validation of premotor interneurons monosynaptically connected to the aCC motoneuron in the Drosophila larval CNS
    bioRxiv. doi: doi: 10.1101/2020.06.17.156430

    *Kohsaka H, Zwart M, Fushiki A, Fetter R, Truman J, Cardona A, *Nose A. (2019)
    Regulation of forward and backward locomotion through intersegmental feedback circuits in Drosophila larvae
    Nat. Commun. 10:2654. doi: 10.1038/s41467-019-10695-y [PubMed]

    Yoon Y, Park J, Taniguchi A, Kohsaka H, Nakae K, Nonaka S, Ishii S, Nose A. (2019)
    System level analysis of motor-related neural activities in larval Drosophila
    J Neurogenet. 33:179-189 doi: 10.1080/01677063.2019.1605365 [PubMed]

    Park J, Kondo S, Tanimoto H, Kohsaka H, Nose A. (2018)
    Data-driven analysis of motor activity implicates 5-HT2A neurons in backward locomotion of larval Drosophila
    Sci Rep. 8:10307 doi: 10.1038/s41598-018-28680-8 [PubMed]

    Takagi S, Cocanougher BT, Niki S, Miyamoto D, Kohsaka H, Kazama H, Fetter RD, Truman JW, Zlatic M, Cardona A, *Nose A. (2017)
    Divergent Connectivity of Homologous Command-like Neurons Mediates Segment-Specific Touch Responses in Drosophila
    Neuron 17 pii: S0896-6273(17)31022-X [PubMed]

    Matsunaga T, Kohsaka H, *Nose A. (2017)
    Gap junction-mediated signaling from motor neurons regulates motor generation in the central circuits of larval Drosophila
    J Neurosci. 37:2045-2060 [PubMed]
    >Selected as a featured article in this issue of the journal.

    Hasegawa E, Truman JW, *Nose A. (2016)
    Identification of excitatory premotor interneurons which regulate local muscle contraction during Drosophila larval locomotion
    Sci Rep. 6:30806 [PubMed]

    Fushiki A, Zwart MF, Kohsaka H, Fetter RD, *Cardona A and *Nose A. (2016)
    A circuit mechanism for the propagation of waves of muscle contraction in Drosophila
    eLife 10.7554/eLife.13253 [PubMed]
    >Introduced by an "INSIGHT" article of the journal.

    Thoma V, Knapek S, Arai S, Hartl M, Kohsaka H, Sirigrivatanawong P, Abe A, Hashimoto K, Tanimoto H. (2016)
    Functional dissociation in sweet taste receptor neurons between and within taste organs of Drosophila
    Nat Commun. 7:10678 [PubMed]

    Itakura Y, Kohsaka H, Ohyama T, Zlatic M, *Pulver SR and *Nose A. (2015)
    Identification of inhibitory premotor interneurons activated at a late phase in a motor cycle during Drosophila larval locomotion
    PLoS One 3, e0136660 [PubMed]

    Kohsaka H, Takasu E, Morimoto T and *Nose A. (2014)
    A Group of Segmental Premotor Interneurons Regulates the Speed of Axial Locomotion in Drosophila Larvae
    Current Biology 24, 2643-2651 [PubMed]

    Okusawa S, Kohsaka H and *Nose A. (2014)
    Serotonin and downstream leucokinin neurons modulate larval turning behavior in Drosophila
    J Neurosci. 34, 2544-2558 [PubMed]

    Fushiki A, Kohsaka H and *Nose A. (2013)
    Role of sensory experience in functional development of Drosophila motor circuits
    PLoS One 8, e62199 [PubMed]

    Matsunaga T, Fushiki A, Nose A and *Kohsaka H. (2013)
    Optogenetic perturbation of neural activity with laser illumination in semi-intact Drosophila larvae in motion
    J Vis Exp. 4, e50513 [PubMed]

    Fukui A, Inaki M, Tonoe G, Hamatani H, Homma M, Morimoto T, Aburatani H and *Nose A. (2012)
    Lola regulates glutamate receptor expression at the Drosophila neuromuscular junction
    Biology Open 1, 362-375[PubMed]

    Inada K, Kohsaka H, Takasu E, Matsunaga T and *Nose A. (2011)
    Optical dissection of neural circuits responsible for Drosophila larval locomotion with halorhodopsin
    PLoS One 6, e29019[PubMed]

    Shakiryanova D, Morimoto T, Zhou C, Chouhan AK, Sigrist SJ, Nose A, Macleod GT, Deitcher DL and *Levitan ES. (2011)
    Differential Control of Presynaptic CaMKII Activation and Translocation to Active Zones
    J Neurosci. 31, 9093-9100[PubMed]

    Inaki M, Shinza-Kameda M, Ismat A, Frasch M and *Nose A. (2010)
    Drosophila Tey represses transcription of the repulsive cue Toll and generates neuromuscular target specificity
    Development 137, 2139-2146 [PubMed]

    *Morimoto T, Nobechi M, Komatsu A, Miyakawa H, Nose A. (2010)
    Subunit-specific and homeostatic regulation of glutamate receptor localization by CaMKII in Drosophila neuromuscular junctions
    Neuroscience 165, 1284-1292 [PubMed]

    Kohsaka H and Nose A. (2009)
    Target recognition at the tips of postsynaptic filopodia: accumulation and function of Capricious
    Development 136, 1127-1135 [PubMed]

    Kazama H, Ichikawa A, Kohsaka H, Morimoto-Tanifuji T and Nose A. (2008)
    Innervation and activity dependent dynamics of postsynaptic oxidative metabolism
    Neuroscience 152, 40-49 [PubMed]

    Kohsaka H., Takasu, E. and Nose A. (2007)
    In vivo induction of postsynaptic molecular assembly by the cell adhesion moledule Fasciclin2
    J. Cell Biol. 179, 1289-1300 [PubMed]

    Inaki M., Yoshikawa S., Thomas J. B., Aburatani H. and Nose A. (2007)
    Wnt4 is a local repulsive cue that determines synaptic target specificity
    Current biology 17, 1574-1579 [PubMed]

    Kazama H, Nose A and Morimoto-Tanifuji T. (2007)
    Synaptic components necessary for retrograde signaling triggered by calcium/calmodulin-dependent protein kinase II during synaptogenesis
    Neuroscience 145, 1007-1015 [PubMed]

    Original Papers in 1992 - 2006
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