Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
about
Cognitive Collaborations: Bidirectional Functional Connectivity Between the Cerebellum and the HippocampusEntorhinal-hippocampal neuronal circuits bridge temporally discontiguous eventsTheta synchronization between medial prefrontal cortex and cerebellum is associated with adaptive performance of associative learning behaviorHarnessing the power of theta: natural manipulations of cognitive performance during hippocampal theta-contingent eyeblink conditioningNeural Correlates for Apathy: Frontal-Prefrontal and Parietal Cortical- Subcortical CircuitsRole of Muscarinic Acetylcholine Receptors in Serial Feature-Positive Discrimination Task during Eyeblink Conditioning in Mice.Modest elevation of corticosterone in preweanling rats impairs subsequent trace eyeblink conditioning during the juvenile periodChildren with autism spectrum disorders show abnormal conditioned response timing on delay, but not trace, eyeblink conditioning.Visual cortical contributions to associative cerebellar learning.Functional reorganization of a prefrontal cortical network mediating consolidation of trace eyeblink conditioning.Behavioral detection of passive whisker stimuli requires somatosensory cortexChildren with specific language impairment are not impaired in the acquisition and retention of Pavlovian delay and trace conditioning of the eyeblink response.Delay and trace fear conditioning in a complex virtual learning environment-neural substrates of extinction.Species-specific differences in the medial prefrontal projections to the pons between rat and rabbitThe Development of Rapastinel (Formerly GLYX-13); A Rapid Acting and Long Lasting Antidepressant.Modification of persistent responses in medial prefrontal cortex during learning in trace eyeblink conditioning.Training-dependent associative learning induced neocortical structural plasticity: a trace eyeblink conditioning analysis.Hippocampal state-dependent behavioral reflex to an identical sensory input in rats.Phase matters: responding to and learning about peripheral stimuli depends on hippocampal θ phase at stimulus onset.Characterizing cognitive aging of associative memory in animal models.Perirhinal and postrhinal, but not lateral entorhinal, cortices are essential for acquisition of trace eyeblink conditioning.Intrinsic connectivity of neural networks in the awake rabbit.Whisker-signaled Eyeblink Classical Conditioning in Head-fixed Mice.Prefrontal Single-Neuron Responses after Changes in Task Contingencies during Trace Eyeblink Conditioning in RabbitsLearning to learn - intrinsic plasticity as a metaplasticity mechanism for memory formation.Ontogeny of trace eyeblink conditioning to shock-shock pairings in the rat pupThe role of working memory and declarative memory in trace conditioning.Mechanisms of cerebellar contributions to cognition in humans.A neural model of normal and abnormal learning and memory consolidation: adaptively timed conditioning, hippocampus, amnesia, neurotrophins, and consciousness.Functional MRI of Human Eyeblink Classical Conditioning in Children with Fetal Alcohol Spectrum Disorders.Prefrontal control of cerebellum-dependent associative motor learning.Trace eyeblink conditioning is associated with changes in synaptophysin immunoreactivity in the cerebellar interpositus nucleus in guinea pigs.Time-limited involvement of caudal anterior cingulate cortex in trace eyeblink conditioning retrieval is dependent on conditioned stimulus intensity.Human trace fear conditioning: right-lateralized cortical activity supports trace-interval processes.Differential Brain, Cognitive and Motor Profiles Associated with Partial Trisomy. Modeling Down Syndrome in Mice.Sensory system development influences the ontogeny of trace eyeblink conditioning.What Does Eye-Blink Rate Variability Dynamics Tell Us About Cognitive Performance?Sensory system development influences the ontogeny of hippocampal associative coding and trace eyeblink conditioning.
P2860
Q26770842-C6769C17-D109-4C06-8CAD-1A80CF3F5500Q26796706-9CDA64C8-6392-4C2D-BD0F-F819F3DB265BQ27349441-A29B93ED-6517-482C-BF2A-8192243C9FDBQ27692535-B212FCAA-4082-4292-A11C-38BE7892C6DBQ28069542-40D8E8B1-FD77-4938-96CF-08B269B4AB10Q30391884-E24A4EFC-AE5F-4C1B-B881-04AD40D3B115Q30421591-5ADD1096-8BB8-4E39-A721-8252658E7990Q30430763-8700ACED-5ABA-452E-8AC5-B1F63C8B4584Q30432031-2B2131F0-E8AB-4120-96E3-9331871F2CD5Q30434457-CD1BBA71-F048-4A9D-B3D2-6CE7CDD51B51Q30435578-D3D7B47C-2AA2-426D-9964-27DDE14B603DQ30558321-BDD5FD37-8BF0-463A-ABF5-C8967D928B43Q33666709-3A7F6C2C-B186-44FB-89E9-3A37D5F4C72BQ33934210-DC638FEB-D230-441E-90B8-865D79BCCA0AQ34519141-5187BD7D-30ED-4202-B072-6A25A567373FQ34763009-23FD0675-506E-47D2-A7B5-BB5BD3F4FEEBQ35156277-0E48CE88-570B-43FC-AFF2-366C1AE77705Q35421191-30AB1904-23C7-4701-823E-3902995E99EDQ35621389-65871472-FBB4-498F-A8FE-913DE3A6F63CQ36227694-0EBA03E9-076E-4332-B844-A619CD7469E0Q36545390-D1066AB1-1B49-4AEA-B523-9C1E966D85D3Q36717250-FA315265-CA82-4490-92DE-24C76C751B08Q36826669-D3FA493B-2D5C-41B7-96C9-1CFB5FB75B25Q37101477-EED83191-B905-4BFF-BC05-128722E7084CQ37372949-3007AE3D-506C-43E4-893E-0478EB5ACEC1Q37612540-07242C25-6819-4A0B-8F27-76FF6BB566CCQ38898260-43DBD97A-47B4-4352-BCBE-C4D1E72735F9Q39649018-CDB5E7DE-1828-4507-89D4-B7A1431371FBQ41872930-D5F8A949-89B0-4982-8094-20A3EB93480EQ45997660-E39BD4A8-49B4-416B-BD22-256E551D6E96Q46494842-8565D64A-191E-491F-B312-8352CE11BB95Q46933086-408F3200-41A0-4E92-BA03-038512281FADQ48165652-C2C43A56-D006-4DE5-839F-FF9722EE9EF4Q48242798-4584AB10-C6BE-48B8-87C6-BC44928A6124Q48306556-142D84C4-4BE0-4DBB-958A-8A0ACD8CD884Q48562331-FDB8ECA6-043F-4DED-88E5-43571A916815Q49997556-12D9F249-7DF1-46B1-A548-3F2BCFFF3BFFQ50441147-F3DF5F14-FF22-47A9-99A8-68CAB83730AA
P2860
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@en
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@nl
type
label
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@en
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@nl
prefLabel
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@en
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@nl
P2860
P356
P1476
Exploring prefrontal cortical memory mechanisms with eyeblink conditioning.
@en
P2093
Craig Weiss
P2860
P304
P356
10.1037/A0023520
P577
2011-06-01T00:00:00Z