Satoshi MANITA, Ph.D.
Satoshi MANITA, Ph.D.
University of Yamanashi, Division of Medicine, Department of Physiology
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Cited by
Cited by
A top-down cortical circuit for accurate sensory perception
S Manita, T Suzuki, C Homma, T Matsumoto, M Odagawa, K Yamada, ...
Neuron 86 (5), 1304-1316, 2015
Synaptic activation and membrane potential changes modulate the frequency of spontaneous elementary Ca2+ release events in the dendrites of pyramidal neurons
S Manita, WN Ross
Journal of Neuroscience 29 (24), 7833-7845, 2009
Rational engineering of XCaMPs, a multicolor GECI suite for in vivo imaging of complex brain circuit dynamics
M Inoue, A Takeuchi, S Manita, S Horigane, M Sakamoto, R Kawakami, ...
Cell 177 (5), 1346-1360. e24, 2019
Glutamate release increases during mossy‐CA3 LTP but not during Schaffer‐CA1 LTP
Y Kawamura, S Manita, T Nakamura, M Inoue, Y Kudo, H Miyakawa
European Journal of Neuroscience 19 (6), 1591-1600, 2004
Dendritic Kv3.3 Potassium Channels in Cerebellar Purkinje Cells Regulate Generation and Spatial Dynamics of Dendritic Ca2+ Spikes
E Zagha, S Manita, WN Ross, B Rudy
Journal of neurophysiology 103 (6), 3516-3525, 2010
Adenosine A1-receptor-mediated tonic inhibition of glutamate release at rat hippocampal CA3–CA1 synapses is primarily due to inhibition of N-type Ca2+ channels
S Manita, Y Kawamura, K Sato, M Inoue, Y Kudo, H Miyakawa
European journal of pharmacology 499 (3), 265-274, 2004
Paired-pulse ratio of synaptically induced transporter currents at hippocampal CA1 synapses is not related to release probability
S Manita, T Suzuki, M Inoue, Y Kudo, H Miyakawa
Brain research 1154, 71-79, 2007
Is glycine “sweet” to mice? Mouse strain differences in perception of glycine taste
S Manita, AA Bachmanov, X Li, GK Beauchamp, M Inoue
Chemical senses 31 (9), 785-793, 2006
Genetics of amino acid taste and appetite
AA Bachmanov, NP Bosak, JI Glendinning, M Inoue, X Li, S Manita, ...
Advances in Nutrition 7 (4), 806S-822S, 2016
Developmental profile of localized spontaneous Ca2+ release events in the dendrites of rat hippocampal pyramidal neurons
K Miyazaki, S Manita, WN Ross
Cell calcium 52 (6), 422-432, 2012
Synaptically activated Ca2+ waves and NMDA spikes locally suppress voltage‐dependent Ca2+ signalling in rat pyramidal cell dendrites
S Manita, K Miyazaki, WN Ross
The Journal of Physiology 589 (20), 4903-4920, 2011
Dendritic spikes in sensory perception
S Manita, H Miyakawa, K Kitamura, M Murayama
Frontiers in cellular neuroscience 11, 29, 2017
IP3 mobilization and diffusion determine the timing window of Ca2+ release by synaptic stimulation and a spike in rat CA1 pyramidal cells
S Manita, WN Ross
Hippocampus 20 (4), 524-539, 2010
Imaging calcium waves and sparks in central neurons
WN Ross, S Manita
Cold Spring Harbor Protocols 2012 (10), pdb. prot071480, 2012
Search for micturition area in cerebral cortex of Thy1ChR2 mice with using optogenetics
T Mochizuki, S Manita, T Mitsui, K Kitamura, M Takeda
European Urology Open Science 19, e681-e682, 2020
Activation of the reward system ameliorates passive cutaneous anaphylactic reaction in mice.
S Nakajima, S Manita, G Yu, K Ishimaru, K Kono, K Kitamura, A Nakao
Allergy, 2020
Monitoring synaptically released glutamate by use of the voltage-sensitive dye imaging technique
H Miyakawa, Y Kawamura, S Manita
Dendritic Kv3. 3 potassium channels in cerebellar Purkinje cells regulate 4
E Zagha, S Manita, WN Ross, B Rudy
mental retardation 67, 229-235, 2000
Synaptically activated Ca 2 waves and NMDA spikes locally suppress voltage dependent Ca 2 signaling in rat pyramidal cell dendrites
S Manita, K Miyazaki, WN Ross
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