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研究業績

主要論文

  1. Jahan I, Adachi R, Egawa R, Nomura H, Kuba H
    CDK5/p35-dependent microtubule reorganization contributes to homeostatic shortening of the axon initial segment.
    J. Neurosci. 43:359-372 (2023).
  2. Yamada R, Kuba H
    Cellular strategies for frequency-dependent computation of interaural time difference.
    Front. Synaptic. Neurosci. 14:891740 (2022).
  3. Yamada R, Kuba H
    Dendritic synapse geometry optimizes binaural computation in a sound localization circuit.
    Sci. Adv. 7, eabh0024 (2021).
  4. Al-Yaari M, Onogi C, Yamada R, Adachi R, Kondo D, Kuba H
    Tonotopic specializations in number, size, and reversal potential of GABAergic inputs fine-tune temporal coding at avian cochlear nucleus.
    J. Neurosci. 41, 8904-8916 (2021).
  5. Akter N, Fukaya R, Adachi R, Kawabe H, Kuba H
    Structural and functional refinement of the axon initial segment in avian cochlear nucleus during development.
    J. Neurosci. 40, 6709-6721 (2020).
  6. Al-Yaari M, Yamada R, Kuba H
    Excitatory-inhibitory synaptic coupling in avian nucleus magnocellularis.
    J. Neurosci. 40, 619-631 (2020).
  7. Adachi R, Yamada R, Kuba H
    Tonotopic differentiation of coupling between Ca2+ and Kv1.1 expression in brainstem auditory circuit.
    iScience 13, 199-213 (2019).
  8. Akter N, Adachi R, Kato A, Fukaya R, Kuba H
    Auditory input shapes tonotopic differentiation of Kv1.1 expression in avian cochlear nucleus during late development.
    J. Neurosci. 38, 2967-2980 (2018).
  9. Fukaya R, Yamada R, Kuba H
    Tonotopic variation of the T-type Ca2+ current in avian auditory coincidence detector neurons.
    J. Neurosci. 38, 335-346 (2018).
  10. Yamada R, Kuba H
    Structural and functional plasticity at the axon initial segment.
    Front. Cell. Neurosci. 10, 250 (2016).
  11. Susuki K, Kuba H
    Activity-dependent regulation of excitable axonal domains.
    J. Physiol. Sci. 66, 99-104 (2016).
  12. Kuba H, Yamada R, Ishiguro G, Adachi R
    Redistribution of Kv1 and Kv7 enhances neuronal excitability during structural axon initial segment plasticity.
    Nat. Commun. 6:8815 (2015).
  13. Adachi R, Yamada R, Kuba H
    Plasticity of the axonal trigger zone.
    Neuroscientist 21, 255-265 (2015).
  14. Kuba H, Adachi R, Ohmori H
    Activity-dependent and activity-independent development of the axon initial segment.
    J. Neurosci. 34, 3443-3453 (2014).
  15. Suzuki J, Fujii T, Imao T, Ishihara K, Kuba H, Nagata S
    Calcium-dependent phospholipid scramblase activity of TMEM16 protein family members.
    J. Biol. Chem. 288, 13305-13316 (2013).
  16. Yamada R, Okuda H, Kuba H, Nishino E, Ishii TM, Ohmori H
    The cooperation of sustained and phasic inhibitions increases the contrast of ITD-tuning in low-frequency neurons of the chick nucleus laminaris.
    J. Neurosci. 33, 3927-3938 (2013).
  17. Okuda H, Yamada R, Kuba H, Ohmori H
    Metabotropic glutamate receptors improves the accuracy of coincidence detection by presynaptic mechanisms in the nucleus lamirnaris of the chick.
    J. Physiol. (Lond.) 591, 365-378 (2013).
  18. Kuba H
    Structural tuning and plasticity of axon initial segment in auditory neurons.
    J. Physiol. (Lond.) 590, 5571-5579 (2012).
  19. Taruno A, Ohmori H, Kuba H
    Inhibition of presynaptic Na(+)/K(+)-ATPase reduces readily releasable pool size at the avian end-bulb synapse.
    Neurosci. Res. 72, 117-128 (2012).
  20. Grubb MS, Shu Y, Kuba H, Rasband MN, Wimmer VC, Bender KJ
    Short- and long-term plasticity at the axon initial segment
    J. Neurosci. 31, 16045-16055 (2011).
  21. Kuba H
    Plasticity at the axon initial segment.
    Commun. Integr. Biol. 3, 597-598 (2010).
  22. Kuba H, Oichi Y, Ohmori H
    Presynaptic activity regulates Na+ channel distribution at the axon initial segment.
    Nature 465, 1075-1078 (2010).
  23. Kuba H, Ohmori H
    Roles of axonal sodium channels in precise auditory time coding at nucleus magnocellularis of the chick.
    J. Physiol. (Lond.) 587:87-100 (2009).
  24. Nishino E, Yamada R, Kuba H, Hioki H, Furuta T, Kaneko T, Ohmori H
    Sound-intensity dependent compensation for the small interaural time difference cue for sound source localization.
    J. Neurosci. 28, 7153-7164 (2008).
  25. Kuba H
    Cellular and molecular mechanisms of avian auditory coincidence detection.
    Neurosci. Res. 59, 370-376 (2007) (update article).
  26. Kuba H, Ishii TM, Ohmori H
    Axonal site of spike initiation enhances auditory coincidence detection.
    Nature 444, 1069-1072 (2006).
  27. Yamada R, Kuba H, Ishii TM, Ohmori H
    Hyperpolarization-activated cyclic nucleotide-gated cation channels regulate auditory coincidence detection in nucleus laminaris of the chick.
    J. Neurosci. 25, 8867-8877 (2005).
  28. Kuba H, Yamada R, Fukui I, Ohmori H
    Tonotopic specialization of auditory coincidence detection in nucleus laminaris of the chick.
    J. Neurosci. 25, 1924-1934 (2005).
  29. Kuba H, Yamada R, Ohmori H
    Evaluation of the limiting acuity of coincidence detection in nucleus laminaris of the chicken.
    J. Physiol. (Lond.) 552, 611-620 (2003).
  30. Kuba H, Koyano K, Ohmori H
    Development of membrane conductance improves coincidence detection in the nucleus laminaris of the chick.
    J. Physiol. (Lond.) 540, 529-542 (2002).
  31. Kuba H, Koyano K, Ohmori H
    Synaptic depression improves coincidence detection in the nucleus laminaris in brainstem slices of the chick embryo.
    Eur. J. Neurosci. 15, 984-990 (2002).