A double dissociation revealing bidirectional competition between striatum and hippocampus during learning
about
Time dysperception perspective for acquired brain injuryDynamic learning and memory, synaptic plasticity and neurogenesis: an updateTargeted ablation of cholinergic interneurons in the dorsolateral striatum produces behavioral manifestations of Tourette syndromeHistidine decarboxylase deficiency causes tourette syndrome: parallel findings in humans and miceLesions of the dorsomedial striatum delay spatial learning and render cue-based navigation inflexible in a water maze task in mice.Lesions of the dorsomedial striatum disrupt prepulse inhibition.Homeostatic regulation of memory systems and adaptive decisions.Hippocampus specific iron deficiency alters competition and cooperation between developing memory systems.Striatum-dependent habits are insensitive to both increases and decreases in reinforcer value in mice.Model averaging, optimal inference, and habit formation.Morphine Reward Promotes Cue-Sensitive Learning: Implication of Dorsal Striatal CREB ActivityExendin-4 attenuates blast traumatic brain injury induced cognitive impairments, losses of synaptophysin and in vitro TBI-induced hippocampal cellular degenerationPre-exposure to context affects learning strategy selection in mice.The shift from a response strategy to object-in-place strategy during learning is accompanied by a matching shift in neural firing correlates in the hippocampus.Cued and spatial learning in the water maze: equivalent learning in male and female mice.Episodic memory encoding interferes with reward learning and decreases striatal prediction errorsModeling the contributions of Basal ganglia and Hippocampus to spatial navigation using reinforcement learningBehavioral flexibility and response selection are impaired after limited exposure to oxycodone.Parallel contributions of distinct human memory systems during probabilistic learning.Dissociating hippocampal and basal ganglia contributions to category learning using stimulus novelty and subjective judgments.Serine 133 phosphorylation is not required for hippocampal CREB-mediated transcription and behaviorMelanocortin 4 receptor signaling in dopamine 1 receptor neurons is required for procedural memory learning.Basal Ganglia Activity Mirrors a Benefit of Action and Reward on Long-Lasting Event MemoryContributions of the hippocampus to feedback learning.Reward-related learning via multiple memory systems.Inhibition of microRNA-210 provides neuroprotection in hypoxic-ischemic brain injury in neonatal rats.Habit formation.Category learning in the brain.Neural correlates of reward-based spatial learning in persons with cocaine dependenceMineralocorticoid receptors guide spatial and stimulus-response learning in mice.Arbitration between Action Strategies in Obsessive-Compulsive Disorder.The cholinergic system and neostriatal memory functions.Factors that influence the relative use of multiple memory systems.Hippocampus, time, and memory--a retrospective analysisDisorders of memory and plasticity in psychiatric disease.Investigating habits: strategies, technologies and models.Sex Hormones and Cognition: Neuroendocrine Influences on Memory and Learning.Dorsolateral striatal lesions impair navigation based on landmark-goal vectors but facilitate spatial learning based on a "cognitive map".Exploring the 4th dimension: hippocampus, time, and memory revisited.Effects of lentivirus-mediated CREB expression in the dorsolateral striatum: memory enhancement and evidence for competitive and cooperative interactions with the hippocampus.
P2860
Q21558406-CA82A837-5B70-491B-A489-857C43AD14DCQ26864054-A0229F5A-7D1E-4879-B841-9EB916DAF3F9Q30406592-C1A09856-90CF-4178-A9B5-3105D3AC4434Q30421144-A54C0736-8490-4377-BFF2-E211BFDDF918Q30442160-381E2C39-B897-43C9-B16D-6FDEDF25AF02Q30468241-14940FF9-6E4E-4616-804C-83A0395C62C3Q30486316-1C638999-CAE0-4911-B3EB-CD7B13933848Q30496366-AA030BC5-FE5B-4795-801A-A0692F6FD228Q30537883-372DA785-F5C1-45C3-8AD8-0C183B186216Q30581641-DA210F27-118F-47D3-B651-AADF624567D9Q33736491-AECE7697-953D-41FD-B7ED-AE0038C5BA46Q33807853-950D6B00-41A4-4352-A50B-2220189D38F7Q33994702-F52174CB-C414-42E7-A6E8-675EE1CEA32CQ34062563-9DC722FD-5BB9-419D-9F15-A0912A2A56C1Q34103911-C46A1F38-C542-4B90-8BAA-46A5C0F37667Q34451670-4EA62A31-FB30-4B9D-8CD8-B4989E102836Q34460428-14F5B9D1-5072-414F-AD64-78DD8F6246E1Q34537184-215DAF47-B15A-4B53-BFE3-FA6BD614D097Q34542957-BB46FD2B-1FBE-4390-B726-D5AA0383F737Q35070295-25441209-73E6-4AF7-B72E-E9DCF9A0BED2Q35123986-46C95956-6508-4073-9980-689643E51BEEQ35856900-501741A3-0D51-47E5-98AA-4F87CE0DEF0EQ36256524-F6F88C4D-6E94-45A1-B746-EA1E013591E6Q36271385-22AE63D0-7534-4317-A3E4-884C8A4E7E08Q36651419-65AA5B70-6F27-4763-B5AB-55DF696484EFQ36669580-05326E80-AA2C-43DF-9A32-0745A5DB14EFQ36784248-BF77B94A-2FE8-416F-9B1B-06877D0DAC73Q37007493-D26FCB06-2F81-4F62-A353-4E5307C5489BQ37491517-084DCE6E-4AA9-433C-9C8F-CBD837CBA4EBQ37500226-4222B057-7393-4C09-95CF-737BE0506195Q37507484-690168DB-26E8-420A-B7C9-1D1F1F3F34F3Q37815578-39F22E93-5822-450A-83F7-2B4FC81A14AAQ38127660-36821DE4-9170-4D14-AC75-29B9F4B2F36CQ38152839-1007D180-04D5-405D-AB36-F0678AA8F7BBQ38181469-AECFC14B-BDAB-4CBD-B953-D61BD479FB0BQ38191593-EDAF58B4-19C4-49F8-9E96-31FC9B3A598CQ38878236-F81F5478-ED40-406F-922F-E2AD33667A26Q41967337-75FE7527-8DF2-4ECF-A416-EF63BA780C83Q42115240-4F182216-34AA-49F3-9F19-1A70888E6D34Q42277105-E6C5F7C2-CE1A-4BA0-BB69-ADC6390C8747
P2860
A double dissociation revealing bidirectional competition between striatum and hippocampus during learning
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
A double dissociation revealin ...... nd hippocampus during learning
@en
type
label
A double dissociation revealin ...... nd hippocampus during learning
@en
prefLabel
A double dissociation revealin ...... nd hippocampus during learning
@en
P2860
P356
P1476
A double dissociation revealin ...... nd hippocampus during learning
@en
P2093
Anni S Lee
Ronald S Duman
P2860
P304
17163-17168
P356
10.1073/PNAS.0807749105
P407
P577
2008-10-27T00:00:00Z