Trace eyeblink conditioning is hippocampally dependent in mice.
about
The impact of hippocampal lesions on trace-eyeblink conditioning and forebrain-cerebellar interactionsIncreased Excitability of Both Principal Neurons and Interneurons during Associative LearningAn integrative approach for analyzing hundreds of neurons in task performing mice using wide-field calcium imaging.Establishment and transfer of classical eyeblink conditioning using electrical microstimulation of the hippocampus as the conditioned stimulus.Trace Eyeblink Conditioning in Mice Is Dependent upon the Dorsal Medial Prefrontal Cortex, Cerebellum, and Amygdala: Behavioral Characterization and Functional Circuitry(1,2,3).Developing and validating trace fear conditioning protocols in C57BL/6 miceModest elevation of corticosterone in preweanling rats impairs subsequent trace eyeblink conditioning during the juvenile periodClassical eyeblink conditioning using electrical stimulation of caudal mPFC as conditioned stimulus is dependent on cerebellar interpositus nucleus in guinea pigs.Aging in the cerebellum and hippocampus and associated behaviors over the adult life span of CB6F1 miceReevaluating the role of the hippocampus in delay eyeblink conditioning.Reevaluating hippocampus-dependent learning in FVB/N mice.Age-related deficits in a forebrain-dependent task, trace-eyeblink conditioning.Age sensitivity of behavioral tests and brain substrates of normal aging in mice.Unimpaired trace classical eyeblink conditioning in Purkinje cell degeneration (pcd) mutant mice.Trace eyeblink conditioning is impaired in α7 but not in β2 nicotinic acetylcholine receptor knockout mice.Neural substrates underlying human delay and trace eyeblink conditioningHippocampal and cerebellar single-unit activity during delay and trace eyeblink conditioning in the rat.Acute stress facilitates trace eyeblink conditioning in C57BL/6 male mice and increases the excitability of their CA1 pyramidal neuronsIntermediate levels of hippocampal activity appear optimal for associative memory formationAge-related impairments on one hippocampal-dependent task predict impairments on a subsequent hippocampal-dependent taskTraining-dependent associative learning induced neocortical structural plasticity: a trace eyeblink conditioning analysis.Allopregnanolone restores hippocampal-dependent learning and memory and neural progenitor survival in aging 3xTgAD and nonTg mice.Cortical barrel lesions impair whisker-CS trace eyeblink conditioning.Characterizing cognitive aging of associative memory in animal models.Metabolic mapping of rat forebrain and midbrain during delay and trace eyeblink conditioning.Physiological and anatomical studies of associative learning: Convergence with learning studies of W.T. Greenough.Whisker-signaled Eyeblink Classical Conditioning in Head-fixed Mice.Alterations in intrinsic neuronal excitability during normal aging.Activity-dependent changes of the hippocampal CA3-CA1 synapse during the acquisition of associative learning in conscious mice.CA1 cell activity sequences emerge after reorganization of network correlation structure during associative learning.Trace and contextual fear conditioning is enhanced in mice lacking the alpha4 subunit of the GABA(A) receptorExploring prefrontal cortical memory mechanisms with eyeblink conditioning.Cholinergic modulation of the CAN current may adjust neural dynamics for active memory maintenance, spatial navigation and time-compressed replay.Amygdala's involvement in facilitating associative learning-induced plasticity: a promiscuous role for the amygdala in memory acquisition.Forebrain-Cerebellar Interactions During Learning.The role of working memory and declarative memory in trace conditioning.Mechanisms of cerebellar contributions to cognition in humans.Pattern association and consolidation emerges from connectivity properties between cortex and hippocampus.Cholinergic receptor activation supports persistent firing in layer III neurons in the medial entorhinal cortex.A novel method for precisely timed stimulation of mouse whiskers in a freely moving preparation: application for delivery of the conditioned stimulus in trace eyeblink conditioning.
P2860
Q26799293-284F5AC1-6A31-437E-BD34-1ABA525A042CQ26866239-AFE34BD4-AEF7-4C14-8CC5-2E174EA4598BQ27349346-49CE7A38-F9BB-4F06-AD04-72679F951D48Q30354493-83F8B347-4C31-4CCB-83BA-EB89C78A27B3Q30401192-3533A1C1-BD42-4C33-B475-4D4D18BDE2B5Q30420099-D11B4B92-9014-4FE1-A91D-BC8EBE6B9424Q30421591-A8218611-1F4E-4453-8A79-1B0DEB43D2ADQ30430566-17AACC98-5680-4836-B8C3-3D5552BF17ACQ30431395-F74BB526-3464-435C-8F3D-368DCD9F5879Q30450777-7EEAF513-ACF0-4F91-B2AF-2FF41E62AF64Q30460199-4FD85840-1EB0-45E2-9565-1468CF53580FQ30463106-B25FFE7D-D5CD-4CF9-A33B-9488BDDE9549Q30475211-0AC8A630-8BB3-4864-8D9A-55802C4F4F7EQ30476781-D5B94515-46A1-4BAB-B2A1-736DFD634555Q30479050-346FA424-3720-474E-B73B-28DADEEE7B20Q30482356-BA7D202D-AB04-4C9C-BF68-607F48373BD5Q30497094-205D6D52-F2C6-4212-8C69-6B1DF4AB18F8Q30501680-D9F36D00-5C38-44D7-8488-492563E3999BQ33722142-E535B63A-64CD-42FA-9147-1F33252E8FFBQ34569748-8CB9E87B-CDEE-4AEE-9C04-6142F9824813Q35156277-7CB05A3D-AB4C-427B-BCCA-D39336A9AC00Q35597044-4D510FA9-658C-4E3D-A1CD-FA1FC6BB74C8Q35720996-40F9D02B-3DD8-40CE-A276-D91743B086FDQ36227694-4D94995F-37B5-48B9-9945-5F2F5109E632Q36779985-4E3E4C4A-2D0A-4CE6-9E54-C18D1EEC7FFFQ36784229-193280D6-CC7A-47A0-902B-24651A78F155Q36826669-D39AF555-962D-4E67-B83C-ADB48AD00370Q36828246-12191D2F-77FA-4664-8F8C-3CC9920E3253Q36837321-80E9AD21-9AC8-4797-AB18-2009F6C10A39Q37661523-354A2FA7-EBB3-44A0-833F-B2477C98AC45Q37701219-A03E8313-83C7-4A72-8603-FDCAD3CCB920Q37868531-62C1A260-1FFC-42E9-B2F1-C0EE0358BA6CQ37995594-56D62D31-D80B-4B59-9906-60F3297E7A47Q38054080-016C0189-D1DE-4F04-864D-D353B4D2A96CQ38652824-8EA4736F-4B6C-4F88-94BE-1C5E217EFC3BQ38898260-71F76EF0-47CC-4590-9B75-A6577ACAA237Q39649018-D36A30A6-AEED-41E1-B9C9-A17CAE9A4599Q41849830-7F28D860-4BEF-40C4-BB9A-DEB18AC9A528Q42130181-40E9C936-6B4F-4BD6-AD17-A3B6E3357CEFQ43184170-5D4C1190-A836-44BD-AEC2-5893DC453AF8
P2860
Trace eyeblink conditioning is hippocampally dependent in mice.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Trace eyeblink conditioning is hippocampally dependent in mice.
@en
Trace eyeblink conditioning is hippocampally dependent in mice.
@nl
type
label
Trace eyeblink conditioning is hippocampally dependent in mice.
@en
Trace eyeblink conditioning is hippocampally dependent in mice.
@nl
prefLabel
Trace eyeblink conditioning is hippocampally dependent in mice.
@en
Trace eyeblink conditioning is hippocampally dependent in mice.
@nl
P2093
P356
P1433
P1476
Trace eyeblink conditioning is hippocampally dependent in mice.
@en
P2093
P356
10.1002/HIPO.10157
P577
2004-01-01T00:00:00Z