Increased dopamine turnover in the prefrontal cortex impairs spatial working memory performance in rats and monkeys.
about
Stress and memory: behavioral effects and neurobiological mechanismsThe temporal dynamics model of emotional memory processing: a synthesis on the neurobiological basis of stress-induced amnesia, flashbulb and traumatic memories, and the Yerkes-Dodson lawNeurotoxicity following acute inhalation of aerosols generated during resistance spot weld-bonding of carbon steelProbing GABA receptor function in schizophrenia with iomazenilStress signalling pathways that impair prefrontal cortex structure and functionCannabis and psychosis/schizophrenia: human studiesInhibition of protein kinase C signaling protects prefrontal cortex dendritic spines and cognition from the effects of chronic stress.Parallel organization of contralateral and ipsilateral prefrontal cortical projections in the rhesus monkey.Phospholipase C-β1 Hypofunction in the Pathogenesis of Schizophrenia.Neuroimaging studies of striatum in cognition part II: Parkinson's diseaseStress weakens prefrontal networks: molecular insults to higher cognitionDevelopmental origins of brain disorders: roles for dopamineSensory processing disorder in a primate model: evidence from a longitudinal study of prenatal alcohol and prenatal stress effectsPrefrontal cortex and hippocampus subserve different components of working memory in ratsRegulation of working memory by dopamine D4 receptor in ratsA unified framework for addiction: vulnerabilities in the decision processDysfunctional GABAergic inhibition in the prefrontal cortex leading to "psychotic" hyperactivationRelationship of Dopamine of the Nucleus Accumbens with Intra-infralimbic Apomorphine Microinjection.Memory modulation.Gonadectomy and hormone replacement exert region- and enzyme isoform-specific effects on monoamine oxidase and catechol-O-methyltransferase activity in prefrontal cortex and neostriatum of adult male ratsGestational methylazoxymethanol acetate administration: a developmental disruption model of schizophrenia.In vitro binding assays using (3)H nisoxetine and (3)H WIN 35,428 reveal selective effects of gonadectomy and hormone replacement in adult male rats on norepinephrine but not dopamine transporter sites in the cerebral cortex.Distribution of protein phosphatases-1 alpha and -1 gamma 1 and the D(1) dopamine receptor in primate prefrontal cortex: Evidence for discrete populations of spines.Cortical effects of bromocriptine, a D-2 dopamine receptor agonist, in human subjects, revealed by fMRI.Dopamine modulates persistent synaptic activity and enhances the signal-to-noise ratio in the prefrontal cortexThe neural circuitry of executive functions in healthy subjects and Parkinson's diseaseEffects of chronic estradiol treatment on delayed spatial alternation and differential reinforcement of low rates of respondingThe role of stress in the pathophysiology of the dopaminergic system.Effects of haloperidol on the behavioral, subjective, cognitive, motor, and neuroendocrine effects of Delta-9-tetrahydrocannabinol in humans.Do low levels of stress reactivity signal poor states of health?Effects of metabotropic glutamate receptor 2/3 agonism and antagonism on schizophrenia-like cognitive deficits induced by phencyclidine in rats.Neurochemical and behavioral effects of chronic unpredictable stress.Evidence for coupling between steady-state and dynamic extracellular dopamine concentrations in the rat striatum.Acute estrogen treatment facilitates recognition memory consolidation and alters monoamine levels in memory-related brain areasIs there an evolutionary mismatch between the normal physiology of the human dopaminergic system and current environmental conditions in industrialized countries?Choking on the money: reward-based performance decrements are associated with midbrain activity.Stress-induced prefrontal reorganization and executive dysfunction in rodents.Prefrontal DA transmission at D1 receptors and the pathology of schizophrenia.Increased dopamine release in the right anterior cingulate cortex during the performance of a sorting task: a [11C]FLB 457 PET study.At the extreme end of the psychoneuroimmunological spectrum: delirium as a maladaptive sickness behaviour response.
P2860
Q21342972-535F83A0-AFE5-4D34-A7F7-251D19653AC6Q21342996-C770FC39-EA85-4EEF-B219-CD862A67D310Q23916371-C5E5A4EF-5A0D-49E8-8C1A-B7F6F5F2DF4BQ24601700-C76DBD85-135F-4904-AB64-31FCE95A8846Q24606025-B140C36A-7991-40FA-90DF-BCEC5044E503Q24628837-2A77CBD9-2743-4FF5-9F90-06C8FF0329B1Q24656155-98EA4DEA-BD89-470D-88FF-309B0D6A919CQ24806210-5C2BD555-E4D1-4E27-9393-BF40BD941A78Q26774767-13F814F8-AA42-4C9F-AA32-2ACE749A4FBCQ26779306-5151EB3B-D237-491A-944A-328BA457C1D6Q26781227-674D4396-D5EA-4FC3-9700-F74FE49AB334Q27024247-F270A898-2339-43CE-9C33-7D0FDB101608Q28268493-685CDED6-9751-4A1A-85D7-F39135DF4822Q28269247-3F891863-80E1-4B78-8F7A-15420CDA1296Q28574935-5D7A5BCA-9C31-4A79-911A-48A5D203085DQ28680729-6A5B56C4-F82C-48B5-8885-D66592687961Q28754545-2DEF00D0-923F-4C8F-A82D-942763A24AFEQ30450143-09A0CFB7-2114-4A73-8EC6-D1295F0D3C55Q30460201-7B4B0CC3-4507-4646-8F68-2A7C2DA8B31DQ30477170-FBF96E43-8B52-44E7-85F1-ED96359D59B3Q30478274-70CB5868-1F4D-4986-BBF8-EC5940E73953Q30482834-0E77C36B-94EB-4CF2-BFD6-AE145EFFC4A5Q30779218-E88E284D-185D-4639-BBAD-0784EF2AC45FQ32164608-A923E034-2E8D-4777-878D-BDDA77DB21ECQ33490598-6EC7A760-FCE6-4D16-B3C6-E23EA432F7DFQ33490981-1D3637DC-8DCA-4DEB-AC69-CDA3F5B749A2Q33631191-B691A63F-4612-493D-AB69-2A30DE4C8641Q33837153-20AC80B6-62B3-4D3B-817C-C3AFC6192BBEQ33886277-EA4F18BD-35F0-43A1-A08D-5AE36D125682Q33926296-D3884986-DF3F-4469-AEE3-6670D668FAE3Q33936354-5095AFDE-A98B-45F8-BBF1-B73757BC4003Q33992186-B5F7E465-C9E6-49E7-A4F2-3FDFCD7EBCD4Q34007197-13A0B814-B616-45F4-8851-D4BEC30F3A00Q34050191-841D693F-D1C1-4688-841E-7396EF4982B1Q34060427-CEBE349A-E205-4960-8D86-127E1DF9E21FQ34099136-8E530970-2F18-4184-BDCB-AE5DF690EEE7Q34139931-0DA5F80D-745B-49C4-A760-2CE6B561BD5AQ34272454-95A93C1E-1097-4EC2-BD14-0D00E066F888Q34273587-41EDF804-9B7D-4930-AE97-28B41E781F49Q34293461-6534AB1F-1391-4A72-A526-3E152AB31FBD
P2860
Increased dopamine turnover in the prefrontal cortex impairs spatial working memory performance in rats and monkeys.
description
1996 nî lūn-bûn
@nan
1996 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Increased dopamine turnover in ...... rformance in rats and monkeys.
@ast
Increased dopamine turnover in ...... rformance in rats and monkeys.
@en
Increased dopamine turnover in ...... rformance in rats and monkeys.
@nl
type
label
Increased dopamine turnover in ...... rformance in rats and monkeys.
@ast
Increased dopamine turnover in ...... rformance in rats and monkeys.
@en
Increased dopamine turnover in ...... rformance in rats and monkeys.
@nl
prefLabel
Increased dopamine turnover in ...... rformance in rats and monkeys.
@ast
Increased dopamine turnover in ...... rformance in rats and monkeys.
@en
Increased dopamine turnover in ...... rformance in rats and monkeys.
@nl
P2093
P2860
P356
P1476
Increased dopamine turnover in ...... rformance in rats and monkeys.
@en
P2093
A F Arnsten
B L Murphy
P S Goldman-Rakic
P2860
P304
P356
10.1073/PNAS.93.3.1325
P407
P577
1996-02-01T00:00:00Z