Research Topics
Species | Yasuo KawaguchiSummaryAffiliation: National Institute for Physiological Sciences Country: Japan Publications
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Detail Information
Publications
Parvalbumin, somatostatin and cholecystokinin as chemical markers for specific GABAergic interneuron types in the rat frontal cortexYasuo Kawaguchi
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki 444 8585, Japan
J Neurocytol 31:277-87. 2002..To clarify the functional architecture in the frontal cortex, it is important to reveal the connectional characteristics of GABA cell subtypes and determine whether they are similar to those in other cortical regions...- Distinct firing patterns of neuronal subtypes in cortical synchronized activitiesY Kawaguchi
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki, 444 8585, Japan
J Neurosci 21:7261-72. 2001.... - Dendritic branch typing and spine expression patterns in cortical nonpyramidal cellsYasuo Kawaguchi
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Aichi Okazaki 444 8787, Japan
Cereb Cortex 16:696-711. 2006..Correlation of dendritic branching characteristics with differences in spine structure suggests distinct ways to receive specific inputs among the subtypes... 
Highly differentiated projection-specific cortical subnetworksMieko Morishima
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Graduate University for Advanced Studies SOKENDAI, Okazaki, 444 8787, Japan
J Neurosci 31:10380-91. 2011....- Cortical inhibitory cell types differentially form intralaminar and interlaminar subnetworks with excitatory neuronsTakeshi Otsuka
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Graduate University for Advanced Studies SOKENDAI, Okazaki, Aichi 444 8787, Japan
J Neurosci 29:10533-40. 2009..Our results suggest that L5 inhibitory interneurons form distinct intralaminar and interlaminar subnetworks with pyramidal cells, depending on inhibitory cell types... - Neocortical inhibitory terminals innervate dendritic spines targeted by thalamocortical afferentsYoshiyuki Kubota
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki, Aichi 444 8787, Japan
J Neurosci 27:1139-50. 2007.... - Selective coexpression of multiple chemical markers defines discrete populations of neocortical GABAergic neuronsYoshiyuki Kubota
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki 444 8787, Japan
Cereb Cortex 21:1803-17. 2011..These observations support the existence of a limited number of functionally distinct subtypes of GABA cells in the neocortex... - Cell diversity and connection specificity between callosal projection neurons in the frontal cortexTakeshi Otsuka
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Graduate University for Advanced Studies, SOKENDAI, Okazaki, Aichi 444 8787, Japan
J Neurosci 31:3862-70. 2011..Our results suggest that callosal communications are achieved via several distinct COM cell subnetworks differentiated according to the ipsilateral corticocortical and subcortical projection patterns... - Specialized cortical subnetworks differentially connect frontal cortex to parahippocampal areasYasuharu Hirai
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki 444 8787, Japan
J Neurosci 32:1898-913. 2012.... - Axon branching and synaptic bouton phenotypes in GABAergic nonpyramidal cell subtypesFuyuki Karube
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki 444-8585, Japan
J Neurosci 24:2853-65. 2004.... - Phasic cholinergic signaling in the hippocampus: functional homology with the neocortex?Allan T Gulledge
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Myodaiji cho, Okazaki, Aichi 444 8787, Japan
Hippocampus 17:327-32. 2007.... - Differentiated participation of thalamocortical subnetworks in slow/spindle waves and desynchronizationMika Ushimaru
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Graduate University for Advanced Studies SOKENDAI, Okazaki 444 8787, Japan
J Neurosci 32:1730-46. 2012.... - Serotonin modulates fast-spiking interneuron and synchronous activity in the rat prefrontal cortex through 5-HT1A and 5-HT2A receptorsM Victoria Puig
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki, Aichi 444 8787, Japan
J Neurosci 30:2211-22. 2010..These results may provide insight into impaired serotonergic control of network activity in psychiatric illnesses such as schizophrenia and depression... - Firing-pattern-dependent specificity of cortical excitatory feed-forward subnetworksTakeshi Otsuka
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki, Aichi 444 8787, Japan
J Neurosci 28:11186-95. 2008..Our results suggest that L2/3 pyramidal cells selectively innervate L5 cells, depending on their firing subtypes... 
Two distinct activity patterns of fast-spiking interneurons during neocortical UP statesMaria Victoria Puig
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Myodaiji, Okazaki, Aichi 444 8787, Japan
Proc Natl Acad Sci U S A 105:8428-33. 2008..Our results suggest a precise spatiotemporal pattern of FSi activity during UP states, whereby information rapidly flows between early and late cells, initially promoted by spindles and efficiently extended by local gamma oscillations...- Quantitative chemical composition of cortical GABAergic neurons revealed in transgenic venus-expressing ratsMasakazu Uematsu
Laboratory of Neurochemistry, National Institute for Physiological Sciences NIPS, Okazaki 444 8585, Japan
Cereb Cortex 18:315-30. 2008..Our data demonstrate the benefits of VGAT-Venus rats for investigating GABAergic circuits, as well as the feasibility of using BAC technology in rats to label subsets of specific, genetically defined neurons... - Heterogeneity of phasic cholinergic signaling in neocortical neuronsAllan T Gulledge
Division of Cerebral Circuity, National Institute for Physiological Sciences, 5 1 Higashiyama, Myoudaiji, Okazaki, Aichi, 444 8787, Japan
J Neurophysiol 97:2215-29. 2007..These data demonstrate that phasic cholinergic input can directly inhibit projection neurons throughout the cortex while sculpting intracortical processing, especially in superficial layers... - Slow synchronized bursts of inhibitory postsynaptic currents (0.1-0.3 Hz) by cholinergic stimulation in the rat frontal cortex in vitroS Kondo
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Myodaiji, Okazaki, Aichi, Japan
Neuroscience 107:551-60. 2001.... - Conserved properties of dendritic trees in four cortical interneuron subtypesYoshiyuki Kubota
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Okazaki 444 8787, Japan
Sci Rep 1:89. 2011..Because these features were shared by all interneurons studied, they may represent common organizational principles underlying the otherwise diverse morphology of dendritic trees... - Recurrent connection patterns of corticostriatal pyramidal cells in frontal cortexMieko Morishima
Division of Cerebral Circuitry, National Institute for Physiological Sciences, Department of Physiological Sciences, The Graduate University for Advanced Studies, Aichi, Okazaki 444-8787, Japan
J Neurosci 26:4394-405. 2006..Therefore, our data demonstrate that these two types of corticostriatal cells distinct in their dendritic morphologies show directional and domain-dependent preferences in their synaptic connectivity... - Important factors for the three-dimensional reconstruction of neuronal structures from serial ultrathin sectionsYoshiyuki Kubota
Division of Cerebral Circuitry, National Institute for Physiological Sciences Okazaki, Japan
Front Neural Circuits 3:4. 2009..This result suggests that this technique will be useful for re-examining synaptic connectivity of other cell types... - Neocortical circuits: evolutionary aspects and specificity versus non-specificity of synaptic connections. Remarks, main conclusions and general comments and discussionJavier DeFelipe
Instituto Cajal (CSIC, Madrid, Spain
J Neurocytol 31:387-416. 2002