教員情報 - 横田　たつ子

ヨコタ　タツコ YOKOTA Tatsuko
横田　たつ子

所属歯学部生理学

職種講師

著書・論文歴
2020/05/22	論文	Two neuronal groups for NaCl with differential taste response properties and topographical distributions in the rat parabrachial nucleus Physiological Reports 8 (10 e14443),1-13頁 (共著)
2020/04	論文	舌と脳の味覚地図日本歯科医師会雑誌 73 (1),17-23頁 (単著)
2014	論文	Topographical representations of taste response characteristics in the rostral nucleus of the solitary tract in the rat Journal of Neurophysiology 111,182-196頁 (共著)
2012	論文	Spatial differences in taste selectivity in the rostral nucleus of the solitary tract in the rat Neurosci Res Suppl (共著)
2011/03	論文	Functional properties of putative pyramidal neurons and inhibitory interneurons in the rat gustatory cortex. Cereb. Cor. 21 (3),597-606 (共著)
2011	論文	GABAergic inhibition on taste-sensitive neurons in the rostral nucleus of the solitary tract in the rat: comparative effects of GABAA receptor antagonists. Neurosci Res Suppl (共著)
2011	論文	ラット延髄孤束核の味覚応答に対するGABA抑制の2つの異なる役割日本味と匂学会誌 18 (3),265-268 (共著)
2010	論文	Spatiotemporal characteristics of taste-sensitive neurons in the rostral nucleus of the solitary tract in the rat. Neurosci Res Suppl 71 (共著)
2010	論文	ラット延髄孤束核味覚ニューロンの時空間特性日本味と匂学会誌 17 (3),219-222 (共著)
2009	論文	Taste-specific GABAergic inhibition of taste-sensitive neurons in the rostral nucleus of the solitary tract in the rat. Neurosci Res Suppl 65,S175 (共著)
2009	論文	ラット延髄孤束核、橋傍腕核及び大脳皮質味覚ニューロンの反応潜時：GABA抑制の役割日本味と匂学会誌 16 (3),335-338 (共著)
2008	論文	Taste sensitivity of putative pyramidal neurons in the rat gustatory cortex Neurosci Res Suppl 61,S104 (共著)
2008	論文	ラット大脳皮質推定錐体及び介在味覚ニューロンの味覚感受性と皮質局在性日本味と匂学会誌 15 (3),341-344 (共著)
2007	論文	Differential taste coding of salt and acid by correlative activities between taste-sensitive neuron types in rat gustatory cortex. Neuroscience 144,314-24 (共著)
2006	論文	Taste response characteristics of putative interneurons in the rat gustatory cortex. Neurosci Res Suppl 55,S250 (共著)
2001	論文	Three-dimensional estimation of the distribution and size of putative functional units in rat gustatory cortex as assessed from the inter-neuronal distance between two neurons with correlative activity. Brain Res Bull 54,575-84 (共著)