Glutamate infused posttraining into the hippocampus or caudate-putamen differentially strengthens place and response learning.
about
Modulation of competing memory systems by distractionThe role of the basal ganglia in learning and memory: insight from Parkinson's diseaseDissociable behavioural outcomes of visual statistical learningTask-dependent role for dorsal striatum metabotropic glutamate receptors in memoryReversal learning and associative memory impairments in a BACHD rat model for Huntington diseaseGABA concentration in posterior cingulate cortex predicts putamen response during resting state fMRIA unified framework for addiction: vulnerabilities in the decision processDecoupling Actions from Consequences: Dorsal Hippocampal Lesions Facilitate Instrumental Performance, but Impair Behavioral Flexibility in Rats.Hippocampus-dependent place learning enables spatial flexibility in C57BL6/N mice.Context, emotion, and the strategic pursuit of goals: interactions among multiple brain systems controlling motivated behavior.Caudate nucleus-dependent navigational strategies are associated with increased use of addictive drugsSleep modulates the neural substrates of both spatial and contextual memory consolidation.Easy rider: monkeys learn to drive a wheelchair to navigate through a complex mazeRe-thinking the role of the dorsal striatum in egocentric/response strategy.Intrahippocampal muscimol shifts learning strategy in gonadally intact young adult female ratsVentral striatal plasticity and spatial memory.Medial temporal lobe functioning and structure in the spontaneously hypertensive rat: comparison with Wistar-Kyoto normotensive and Wistar-Kyoto hypertensive strains.Fear conditioning in C57/BL/6 and DBA/2 mice: variability in nucleus accumbens function according to the strain predisposition to show contextual- or cue-based responding.Pre-exposure to context affects learning strategy selection in mice.Glutamatergic activity in the amygdala signals visceral input during taste memory formationAge-related dedifferentiation of learning systems: an fMRI study of implicit and explicit learningSecond language processing shows increased native-like neural responses after months of no exposure.NMDA receptors in dopaminergic neurons are crucial for habit learning.Behavioral flexibility and response selection are impaired after limited exposure to oxycodone.Sleep after spatial learning promotes covert reorganization of brain activity.Emergence of a cue strategy preference on the water maze task in aged C57B6 x SJL F1 hybrid micePharmacological enhancement of memory and executive functioning in laboratory animals.Stimulation of hippocampal adenylyl cyclase activity dissociates memory consolidation processes for response and place learning.Influence of Pre-Training Predator Stress on the Expression of c-fos mRNA in the Hippocampus, Amygdala, and Striatum Following Long-Term Spatial Memory Retrieval.Task-specific response strategy selection on the basis of recent training experience.Changes in corticostriatal connectivity during reinforcement learning in humans.Fear-relevant outcomes modulate the neural correlates of probabilistic classification learning.The effect of N-methyl-D-aspartate receptor blockade on acetylcholine efflux in the dorsomedial striatum during response reversal learning.Stress modulates the use of spatial versus stimulus-response learning strategies in humans.Enriched environment attenuates changes in water-maze performance and BDNF level caused by prenatal alcohol exposure.Role of the dorsomedial striatum in behavioral flexibility for response and visual cue discrimination learningMemory trace stabilization leads to large-scale changes in the retrieval network: a functional MRI study on associative memory.Rats answer an unexpected question after incidental encodingIntegrating cortico-limbic-basal ganglia architectures for learning model-based and model-free navigation strategies.Making memories matter.
P2860
Q23891082-15916B92-2EC8-4B83-9795-8CD09FC3E2F8Q26851807-C061C84A-FB6D-4014-B321-637E631858B9Q27311471-6E16E9A1-8EEF-47E9-BB16-A6C694B68D72Q28361552-CB7928C1-4611-466D-BEDC-BA5D027646A7Q28534787-D3A80C30-5505-40EB-BC5A-0F749A301BE0Q28542754-6A2B0CBA-69E2-445B-946D-C4FD9166D618Q28680729-9E9D8D82-3A3E-48B6-AD0B-F511F8E3CB5FQ30380153-06340BF3-EBC5-4E59-B13E-50A525B1C521Q30459349-A091B9E0-FCDE-46EF-9307-4EAAF5C394F8Q30464836-151DDB8E-69D5-422D-B344-A877B76D4F96Q30486328-E3BDE4EB-FCE2-482E-819E-2B7272A70F7AQ33359558-172D9F9A-8457-4471-8A94-D2D18C99E7DCQ33618504-0BB5DBA2-E79A-435C-A177-6E99D40818AEQ33701407-C3C26376-37E7-4F66-B391-54E6874E20DBQ33736131-C29C0F5D-D257-4FE1-8282-70790894EC9AQ33842888-ABC5C2C9-7889-47C3-A4BB-D2D9BC6171D0Q33886367-426E5BC1-E37A-4517-82CA-29700251C5BCQ33928569-7169E50D-68A6-453B-83F1-E62DFA137430Q33994702-2756467E-F24E-40E0-B7D7-B506EDC8F46BQ34038581-82F3D231-E6A7-4D43-95CA-887C85514F3FQ34073295-77CBEC12-33F7-43D1-8714-D85041D0B591Q34217367-B60AD0BB-54EE-4FE0-A169-A4F4646C34C3Q34242768-F046E271-E15D-4904-94F3-037B4C982365Q34537184-5E2A1C2F-02B0-4CBD-996E-D8EDF250890EQ34598617-7A595782-077A-4756-A8DB-8DE9FB023A87Q34657041-A7AC61ED-DC3C-4B9A-8D1B-25BAAD06C21CQ34661221-B72B93B2-F6B5-4568-A2A4-C60FA596B12BQ34667121-3339B875-081D-484E-BD82-C369BF13E785Q35074934-FE5D979D-E0B2-4618-B38A-431A6D84720FQ35082174-D49B5A9C-AF31-4821-BA84-B2C5ADEF1748Q35094690-12FC5AF6-FC37-457D-9E73-13E6ED804793Q35374890-2D4E308A-6520-4EAE-BDF7-F39E99491A83Q35506467-ABF799B1-171E-4724-BB38-04E6342D1553Q35720939-2371B500-DF69-4BB4-A54C-9EEDB5B70948Q35721571-B5745F64-9B52-43A3-B9E7-0F5E173F7D20Q35739430-253905CB-8B9C-4BDD-B38B-B137509E077BQ35915676-7C316619-FE2E-4F58-BCE1-889E786A41C8Q36038136-66C2FE93-1026-4774-9AFB-E11FBF888D5BQ36424886-06E860CB-2EA5-411E-BBC7-1EF56EDC3E1EQ36473102-B3DD8D8E-0CB4-4A96-9284-399D6D57AAE6
P2860
Glutamate infused posttraining into the hippocampus or caudate-putamen differentially strengthens place and response learning.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Glutamate infused posttraining ...... s place and response learning.
@ast
Glutamate infused posttraining ...... s place and response learning.
@en
type
label
Glutamate infused posttraining ...... s place and response learning.
@ast
Glutamate infused posttraining ...... s place and response learning.
@en
prefLabel
Glutamate infused posttraining ...... s place and response learning.
@ast
Glutamate infused posttraining ...... s place and response learning.
@en
P2860
P356
P1476
Glutamate infused posttraining ...... s place and response learning.
@en
P2093
M G Packard
P2860
P304
12881-12886
P356
10.1073/PNAS.96.22.12881
P407
P577
1999-10-01T00:00:00Z