The effect of dopaminergic D1 receptor blockade during tetanization on the expression of long-term potentiation in the rat CA1 region in vitro.
about
Disruption of the direct perforant path input to the CA1 subregion of the dorsal hippocampus interferes with spatial working memory and novelty detectionTORC1 is a calcium- and cAMP-sensitive coincidence detector involved in hippocampal long-term synaptic plasticityNMDA and dopamine converge on the NMDA-receptor to induce ERK activation and synaptic depression in mature hippocampusDopaminergic modulation of the persistence of one-trial hippocampus-dependent memoryDopamine, learning and motivationDopaminergic modulation of auditory cortex-dependent memory consolidation through mTOR.Emotional memory in schizophrenia.Value-based modulation of memory encoding involves strategic engagement of fronto-temporal semantic processing regions.Persistent cognitive dysfunction after traumatic brain injury: A dopamine hypothesisMethamphetamine reduces LTP and increases baseline synaptic transmission in the CA1 region of mouse hippocampus.Increased resting-state perfusion after repeated encoding is related to later retrieval of declarative associative memoriesCocaine enhancement of long-term potentiation in the CA1 region of rat hippocampus: lamina-specific mechanisms of actionThe neuregulin signaling pathway and schizophrenia: from genes to synapses and neural circuits.Mechanisms underlying the impairment of hippocampal long-term potentiation and memory in experimental Parkinson's disease.Relevance of synaptic tagging and capture to the persistence of long-term potentiation and everyday spatial memoryProtein kinase Mzeta is essential for the induction and maintenance of dopamine-induced long-term potentiation in apical CA1 dendritesD1/D5 receptor agonists induce a protein synthesis-dependent late potentiation in the CA1 region of the hippocampus.Dopamine transporter blockade increases LTP in the CA1 region of the rat hippocampus via activation of the D3 dopamine receptorDevelopmental pathology, dopamine, stress and schizophrenia.Regulation of dopamine D1 receptor dynamics within the postsynaptic density of hippocampal glutamate synapsesLarge D/H variations in bacterial lipids reflect central metabolic pathways.Roles for nigrostriatal--not just mesocorticolimbic--dopamine in reward and addiction.Neural mechanisms of acquired phasic dopamine responses in learning.Elements of a neurobiological theory of the hippocampus: the role of activity-dependent synaptic plasticity in memory.Identification of transmitter systems and learning tag molecules involved in behavioral tagging during memory formation.Blocking Dopaminergic Signaling Soon after Learning Impairs Memory Consolidation in Guinea PigsBehavioral specifications of reward-associated long-term memory enhancement in humans.Type I adenylyl cyclase functions as a coincidence detector for control of cyclic AMP response element-mediated transcription: synergistic regulation of transcription by Ca2+ and isoproterenol.Neuregulin-1 regulates LTP at CA1 hippocampal synapses through activation of dopamine D4 receptorsD1/5 receptor-mediated enhancement of LTP requires PKA, Src family kinases, and NR2B-containing NMDARsAnticipation of novelty recruits reward system and hippocampus while promoting recollection.DAT genotype modulates striatal processing and long-term memory for items associated with reward and punishmentDopamine D1/D5 receptor signaling regulates synaptic cooperation and competition in hippocampal CA1 pyramidal neurons via sustained ERK1/2 activation.Locus coeruleus and dopaminergic consolidation of everyday memory.Memory deficits associated with sublethal cyanide poisoning relative to cyanate toxicity in rodents.Pramipexole restores depressed transmission in the ventral hippocampus following MPTP-lesion.Regulation of AMPA receptor trafficking in the nucleus accumbens by dopamine and cocaineEpigenetic regulation of gene expression in physiological and pathological brain processes.Computational models of reinforcement learning: the role of dopamine as a reward signal.Dopamine D1/D5 receptors mediate informational saliency that promotes persistent hippocampal long-term plasticity
P2860
Q24642438-C4E6CE80-C959-4F3E-A535-8D3F3A0FC0BFQ24673725-1BDB8950-C2AA-48CE-8F58-7F35C48C7A2FQ28469102-9BA2ED8D-93A5-415A-8560-90545FF0807FQ28582452-5579E775-90CA-44A2-A1C9-DF68435532CBQ29616245-9F4CCFB1-C9B4-4C5C-89AA-5AD453F874D3Q30484083-EC1CE7E5-A4ED-4ECD-810D-FAC41EC51A76Q30487303-4916421C-DD87-43BF-A934-55801368CA26Q30581954-8DAA16F3-94E6-4A4A-8C76-BCEEAF0C7C50Q33589580-913A48F8-9F51-42B2-A93C-0B3472376DFBQ33627747-7BC78D89-8D73-48E2-AC1A-6EFCD962899CQ33904002-E5B561F6-C456-4778-9FB7-C269B1109C9DQ33927928-A5800265-E51A-4216-A47B-03BE7B9C7510Q34217470-39DD4ED8-0937-4D38-8C57-6A99742BAE89Q34273047-C6F17E59-FEFE-4F87-9082-362097F70649Q34320443-3CC99E84-2065-4395-9C47-3D1F563176C1Q34387092-E921BEAD-09AB-4980-BC51-DA488B0851D1Q34467913-67B1EA40-99F9-4CDC-9844-1AA3EE31666CQ34468678-9A04D351-DD4B-44CB-A682-03B22D690009Q34500539-11FFF8F9-8F1C-45FA-AC51-35A1C212892DQ34990075-1C4DCD96-5199-49B5-B55D-E88980C9F9D0Q34992985-8A631388-6105-41A9-9AC9-D1759F0372FAQ35003324-279F7287-B7DE-43A1-8996-DAA1F55026ABQ35014907-B6FFC820-451D-4C2B-B8B9-5F3FC8193F09Q35126365-8FF45909-6D26-4A56-BE0A-4A55F5F4BB8CQ35149629-0C72CDFC-9480-4C84-B1F3-D02F0BAECAD8Q35746495-9DEB801A-8F10-4C8B-B300-07B2635749C6Q36302150-9896A8F4-A4AE-403E-B8D5-4B8C8A9BCFEFQ36672351-2502247A-E36B-48AA-9D6E-CC891F77411FQ36926985-23900D08-6E73-42F8-AB10-35D67B434D95Q36962759-6FEBDB08-BB9D-4A36-A6E5-156D9349F6D5Q37251873-76E74222-ABFE-495B-A6AE-3EE4467E29A7Q37258588-4BE53ABD-6493-4377-92E8-EF94FE39AA1FQ37320594-0F5516E0-35E9-41B6-AF8F-8E1A5E26D946Q37510475-3DEAF75B-8EFF-43EE-8F80-DE1E6FABEEC5Q37621045-ED9373E9-DA37-46AD-BA35-016FB3EEA78DQ37698828-0F77CFB1-1C13-4A38-BB68-FEC3D00C1A11Q37723337-A45D0082-C5AA-458D-B6F8-27BADF76787CQ37870034-6F05321E-476B-4549-BBCE-F1FCB6BFB610Q37883081-704A7478-FEDE-4B2B-B9A3-D6D8EB1E948FQ38062799-624BAD69-FBF4-4D06-A905-9F6473EF37E9
P2860
The effect of dopaminergic D1 receptor blockade during tetanization on the expression of long-term potentiation in the rat CA1 region in vitro.
description
1991 nî lūn-bûn
@nan
1991 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@ast
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@en
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@nl
type
label
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@ast
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@en
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@nl
prefLabel
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@ast
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@en
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@nl
P2093
P1433
P1476
The effect of dopaminergic D1 ...... n the rat CA1 region in vitro.
@en
P2093
P304
P356
10.1016/0304-3940(91)90732-9
P407
P577
1991-08-01T00:00:00Z