Tomoo Hirano

Affiliations: 
Kyoto University, Kyōto-shi, Kyōto-fu, Japan 
Area:
Synaptic Plasticity
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"Tomoo Hirano"
Mean distance: 14.59 (cluster 6)
 
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Parents

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Children

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Shinya Kawaguchi grad student Kyoto University
Tomoaki Kuroyanagi grad student Kyoto University
Shinsuke Tanaka grad student Janelia Research Campus
Satoshi Yawata grad student Kyoto University
Takashi Yoshida grad student Kyoto University
Gen Ohtsuki grad student 2007
Hiroyuki Miyawaki grad student 2007-2011 Kyoto University
Akira Katoh post-doc 2000-2002 Kyoto University

Collaborators

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Kazuo Funabiki collaborator Kyoto University
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Publications

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Tezuka Y, Hagihara KM, Ohki K, et al. (2022) Developmental stage-specific spontaneous activity contributes to callosal axon projections. Elife. 11
Inoshita T, Hirano T. (2020) Norepinephrine Facilitates Induction of Long-term Depression through β-Adrenergic Receptor at Parallel Fiber-to-Purkinje Cell Synapses in the Flocculus. Neuroscience
Tanaka H, Sakaguchi D, Hirano T. (2019) Amyloid-β oligomers suppress subunit-specific glutamate receptor increase during LTP. Alzheimer's & Dementia (New York, N. Y.). 5: 797-808
Hirano T. (2018) Visualization of Exo- and Endocytosis of AMPA Receptors During Hippocampal Synaptic Plasticity Around Postsynaptic-Like Membrane Formed on Glass Surface. Frontiers in Cellular Neuroscience. 12: 442
Hirano T. (2018) Purkinje Neurons: Development, Morphology, and Function. Cerebellum (London, England)
Merkurjev D, Hong WT, Iida K, et al. (2018) Author Correction: Synaptic N-methyladenosine (mA) epitranscriptome reveals functional partitioning of localized transcripts. Nature Neuroscience
Hirano T. (2018) Regulation and Interaction of Multiple Types of Synaptic Plasticity in a Purkinje Neuron and Their Contribution to Motor Learning. Cerebellum (London, England)
Merkurjev D, Hong WT, Iida K, et al. (2018) Synaptic N-methyladenosine (mA) epitranscriptome reveals functional partitioning of localized transcripts. Nature Neuroscience
Fujii S, Tanaka H, Hirano T. (2018) Suppression of AMPA Receptor Exocytosis Contributes to Hippocampal LTD. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 38: 5523-5537
Sumitomo A, Yukitake H, Hirai K, et al. (2018) Ulk2 controls cortical excitatory-inhibitory balance via autophagic regulation of p62 and GABAA receptor trafficking in pyramidal neurons. Human Molecular Genetics
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