Yukihiro Nakamura

2015- Department of Pharmacology Jikei University School of Medicine, Minato-ku, Tōkyō-to, Japan 
"Yukihiro Nakamura"
Mean distance: 14.63 (cluster 32)
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Koppensteiner P, Bhandari P, Önal C, et al. (2024) GABA receptors induce phasic release from medial habenula terminals through activity-dependent recruitment of release-ready vesicles. Proceedings of the National Academy of Sciences of the United States of America. 121: e2301449121
Nakamura Y. (2019) EGTA Can Inhibit Vesicular Release in the Nanodomain of Single Ca Channels. Frontiers in Synaptic Neuroscience. 11: 26
Hashiguchi S, Doi H, Kunii M, et al. (2019) Ataxic phenotype with altered Ca3.1 channel property in a mouse model for spinocerebellar ataxia 42. Neurobiology of Disease. 104516
Fekete A, Nakamura Y, Yang YM, et al. (2019) Underpinning heterogeneity in synaptic transmission by presynaptic ensembles of distinct morphological modules. Nature Communications. 10: 826
Nakamura Y. (2019) EGTA can inhibit vesicular release in the ‘nanodomain’ distance from Ca channels Ibro Reports. 6: S399
Miki T, Nakamura Y, Malagon G, et al. (2018) Two-component latency distributions indicate two-step vesicular release at simple glutamatergic synapses. Nature Communications. 9: 3943
Nakamura Y, Reva M, DiGregorio DA. (2018) Variations in Cainflux can alter Ca-chelator-based estimates of Cachannel-synaptic vesicle coupling distance. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience
Chen Z, Das B, Nakamura Y, et al. (2015) Ca2+ channel to synaptic vesicle distance accounts for the readily releasable pool kinetics at a functionally mature auditory synapse. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 35: 2083-100
Nakamura Y, Harada H, Kamasawa N, et al. (2015) Nanoscale distribution of presynaptic Ca(2+) channels and its impact on vesicular release during development. Neuron. 85: 145-58
Miyake A, Takahashi S, Nakamura Y, et al. (2009) Disruption of the ether-a-go-go K+ channel gene BEC1/KCNH3 enhances cognitive function. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 29: 14637-45
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