about
Evolutionary conserved brainstem circuits encode category, concentration and mixtures of taste.Orosensory contributions to dysphagia: a link between perception of sweet and sour taste and pharyngeal delay timeExtensive Gustatory Cortex Lesions Significantly Impair Taste Sensitivity to KCl and Quinine but Not to Sucrose in RatsCentral role for the insular cortex in mediating conditioned responses to anticipatory cues.A Multisensory Network for Olfactory Processing.Unconditioned oromotor taste reactivity elicited by sucrose and quinine is unaffected by extensive bilateral damage to the gustatory zone of the insular cortex in rats.Extensive lesions in rat insular cortex significantly disrupt taste sensitivity to NaCl and KCl and slow salt discrimination learning.The Behavioral Relevance of Cortical Neural Ensemble Responses Emerges Suddenly.Dynamic taste responses of parabrachial pontine neurons in awake ratsSensory Cortical Activity Is Related to the Selection of a Rhythmic Motor Action Pattern.Processing of hedonic and chemosensory features of taste in medial prefrontal and insular networks.Extensive lesions in the gustatory cortex in the rat do not disrupt the retention of a presurgically conditioned taste aversion and do not impair unconditioned concentration-dependent licking of sucrose and quinineSensory cortical population dynamics uniquely track behavior across learning and extinction.Lateral hypothalamus contains two types of palatability-related taste responses with distinct dynamics.Single-neuron responses to intraoral delivery of odor solutions in primary olfactory and gustatory cortex.Speed and accuracy of taste identification and palatability: impact of learning, reward expectancy, and consummatory licking.Overlapping Representation of Primary Tastes in a Defined Region of the Gustatory Cortex.Sweetener Intake by Rats Selectively Bred for Differential Saccharin Intake: Sucralose, Stevia, and Acesulfame Potassium.
P2860
Q27304344-537E35CA-56E7-4594-AF4B-569203197115Q27674995-56129E66-24C6-4449-94D9-3F9DC91F9862Q28551098-D37C34BC-DB2C-4034-AEB8-EB6FAB405E8EQ30619466-175E309F-AB9C-4608-BF63-01F981CB0ECAQ30667217-97AC98E2-C210-46A7-AC5E-914534AAD97CQ35132305-BA2E7D82-B10D-4478-ADD7-F9F4AB2265CBQ35556631-B91C6E34-214E-439F-A27D-EA83A83FD420Q36480223-5CD4C413-6351-4B0F-A262-66EB360E0220Q36729823-0A6BC9A9-F480-469A-A8D9-D9846F8B047FQ36914333-9E867D56-35CD-496F-B341-39696432F83FQ37345176-A715758A-5E24-4FC3-8D9A-AFEDF760D928Q37394780-62E44F1D-66CD-49C7-83F5-D255E36CA187Q37502461-8441267C-4796-4204-A1B9-0E3C4346D7ADQ37650154-728FA19A-E40C-449D-88C1-AFA10369288CQ39076779-29974ECE-E194-43AD-B7F5-660D999F2DB5Q44448794-4DD65D5E-71AA-4DAC-9BB4-471F0E36CB1CQ47710792-5197EF6A-245B-4E5E-BBE8-C424E14509CEQ53639817-154D6BC1-F8DC-4A6C-99DC-205FA9614440
P2860
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Neural dynamics in response to binary taste mixtures.
@ast
Neural dynamics in response to binary taste mixtures.
@en
type
label
Neural dynamics in response to binary taste mixtures.
@ast
Neural dynamics in response to binary taste mixtures.
@en
prefLabel
Neural dynamics in response to binary taste mixtures.
@ast
Neural dynamics in response to binary taste mixtures.
@en
P2860
P356
P1476
Neural dynamics in response to binary taste mixtures.
@en
P2093
Donald B Katz
Joost X Maier
P2860
P304
P356
10.1152/JN.00917.2012
P407
P577
2013-01-30T00:00:00Z