Mesocorticolimbic dopamine systems and reward. - Wikidata - awgldk - TriplyDB

Mesocorticolimbic dopamine systems and reward.

Mesocorticolimbic dopamine systems and reward.

http://www.wikidata.org/entity/Q39548085

about

How antipsychotics work-from receptors to reality.Drugs and aggression: correlations, crime and human manipulative studies and some proposed mechanisms Alcoholism: the role of different motivational systems The role of endogenous PACAP in motor stimulation and conditioned place preference induced by morphine in mice.Voluntary running-wheel exercise decreases the threshold for rewarding intracranial self-stimulation.Adolescent gain in positive valence of a socially relevant stimulus: engagement of the mesocorticolimbic reward circuitry.Dopamine receptor antagonism disrupts social preference in zebrafish: a strain comparison study.Cognitive and neuronal systems underlying obesity.Dopamine-dependent responses to morphine depend on glucocorticoid receptors.Maturation of shoaling in two zebrafish strains: a behavioral and neurochemical analysis.Reversal of dopamine system dysfunction in response to high-fat diet.Integration of reward signalling and appetite regulating peptide systems in the control of food-cue responses.Evolving therapeutic indications for N-type calcium channel blockers: from chronic pain to alcohol abuse.Habituation of the responsiveness of mesolimbic and mesocortical dopamine transmission to taste stimuli.What causes aberrant salience in schizophrenia? A role for impaired short-term habituation and the GRIA1 (GluA1) AMPA receptor subunit.Interference with AMPA receptor endocytosis: effects on behavioural and neurochemical correlates of amphetamine sensitization in male rats Histidine-decarboxylase knockout mice show deficient nonreinforced episodic object memory, improved negatively reinforced water-maze performance, and increased neo- and ventro-striatal dopamine turnover Excitatory and inhibitory responses of dopamine neurons in the ventral tegmental area to nicotine.Increased phasic activity of dopaminergic neurones in the rat ventral tegmental area following pharmacologically elevated levels of endogenous kynurenic acid.Clocinnamox inhibits the intravenous self-administration of opioid agonists in rhesus monkeys: comparison with effects on opioid agonist-mediated antinociception.Influence of morphine sensitization on the responsiveness of mesolimbic and mesocortical dopamine transmission to appetitive and aversive gustatory stimuli.The histamine H1-receptor mediates the motivational effects of novelty.Effects of Alcohol Abuse on Proliferating Cells, Stem/Progenitor Cells, and Immature Neurons in the Adult Human Hippocampus.Release of endogenous dopamine in cultured mesencephalic neurons: influence of dopaminergic agonists and glucocorticoid antagonists.Pharmacological stimuli decreasing nucleus accumbens dopamine can act as positive reinforcers but have a low addictive potential.Selective colocalization of immunoreactivity for intracellular gonadal hormone receptors and tyrosine hydroxylase in the ventral tegmental area, substantia nigra, and retrorubral fields in the rat.Animated images in the analysis of zebrafish behavior.

P2860

Q30457477-72811349-1F2D-41D9-90A5-15037E810063 Q33921555-181E4E9E-93B1-4CC5-9816-F5A36E88BE14 Q33921626-1AD4F44C-CE0C-4288-B40E-F058CAAB7D1C Q35600994-556D6E15-DDE3-4E86-8527-DC487B865359 Q35611053-DB9887C0-ABE0-419F-9C85-FFADFEE7DC10 Q35766195-B846B62A-E512-4485-B82E-6B76E1929AAC Q36183407-356715BC-1BB3-474C-8109-8E21198899FB Q36219748-CB5FC9C9-5736-4C3D-A09E-9DD539E2FFB3 Q36507863-C80FBE8C-F96C-4DC5-A720-9AED8D366C78 Q36823778-1F3FA83F-ABBF-4C0B-AD46-3C53E2844CE9 Q36980120-364064EC-D06F-431C-8E8E-D17607636160 Q37686098-ADDDFD9A-8558-4199-9EC5-7901CBEC63E1 Q37855928-6A0AD8CF-DAA0-4FF5-A145-5422189B7FA4 Q38195593-2E223C07-73B2-4694-9557-570A7A16C1F5 Q38249908-64107DCB-429A-4E46-ABAC-F517E180F9C6 Q38931331-B6CE64D1-6946-47C9-8AF7-EB0169E18A1B Q40386454-7207F450-FEC0-4FA5-98F0-36F7B34FA216 Q42164271-1D76231B-BFE3-43ED-A3B2-0D4FB7435849 Q43975284-C0B3A871-E0C1-40E6-99F0-32121CBA1898 Q44345310-639B5216-FD88-4820-A17E-CD29B374C47B Q44521810-27C4CCC7-EEED-4392-9B58-B1F4316AE2B5 Q46709701-DD1DA746-8940-4324-8672-73DFA2FD3FC1 Q47754956-11AEB23A-9890-46B2-AC44-C212C92B90C7 Q48177098-78AFD24C-40FE-4F3B-90F5-92DB19C950A0 Q48367673-80EB066D-0FD7-4A37-AC19-14660BCC20E5 Q48766437-AA173A11-F684-4943-9642-CB9830F8121B Q50421476-E9419DDF-9E54-4C92-9773-601E4760969B

P2860

Mesocorticolimbic dopamine systems and reward.

http://www.wikidata.org/entity/Q39548085

description

1988 nî lūn-bûn

@nan

1988年の論文

@ja

1988年論文

@yue

1988年論文

@zh-hant

1988年論文

@zh-hk

1988年論文

@zh-mo

1988年論文

@zh-tw

1988年论文

@wuu

1988年论文

@zh

1988年论文

@zh-cn

name

Mesocorticolimbic dopamine systems and reward.

@en

Mesocorticolimbic dopamine systems and reward.

@nl

type

label

Mesocorticolimbic dopamine systems and reward.

@en

Mesocorticolimbic dopamine systems and reward.

@nl

prefLabel

Mesocorticolimbic dopamine systems and reward.

@en

Mesocorticolimbic dopamine systems and reward.

@nl

P1433

Q39548085-B220EA5D-B8FA-4DFF-91F3-FC0FE057F62E

P1476

Q39548085-1EEF6DE0-8440-4C2F-9BB7-22248B7412C3

P2093

Q39548085-6F862E4D-B768-47B2-8905-D9AAF26B3F07

Q39548085-A4390216-1457-40B9-A576-57A8BDAFB3B3

P2860

Q39548085-04E184FC-5EEA-4BF2-80EC-F583FD9552AB

Q39548085-0E691F88-E123-46FC-8759-6696C930249D

Q39548085-1D79C9B9-6752-44CD-B18F-0C84AE8C17CC

Q39548085-21B50CBB-039E-466B-887D-24ED538E0F3C

Q39548085-27F8E745-FD9D-4D0B-ACFF-2837119B690B

Q39548085-2F9B3F09-32B8-4A5D-A918-2655DC07C6C1

Q39548085-3EFD1ED6-95F8-4C84-A1D8-68E287B45495

Q39548085-3FC46222-6617-4F65-8E54-4B9FA6B38763

Q39548085-40CC7EA4-D12C-4FF0-83CB-79E2F3BE3204

Q39548085-587F0444-CEF3-454A-99D9-6DD1215B29D8

P304

Q39548085-8B57B09F-6E2B-4846-B730-D12DE2F1900B

P31

Q39548085-74440A7B-2316-4909-93AC-CDF37033B199

Q39548085-87e0fc49-6a9b-4ae3-bc6c-262e82d06895

P356

Q39548085-064A196F-0FD1-459B-B42C-F460C636ED31

P407

Q39548085-6F5B856C-3F27-4B3B-9BC0-001C4A893D88

P478

Q39548085-B935BBC8-7047-4260-A884-8122953A1E62

P577

Q39548085-DE6919AE-721A-402B-96CB-468AD85608CD

P5875

Q39548085-DBFD8FD5-84A0-438D-BEE0-4A0C093495EF

P698

Q39548085-4F3F784F-F8B1-4538-B1B8-1920CC0F20A2

P921

Q39548085-a6eacd3e-adc4-4336-8240-850e997814da

P356

J.1749-6632.1988.TB42107.X

P1433

Annals of the New York Academy of Sciences

P1476

Mesocorticolimbic dopamine systems and reward.

@en

P2093

A G Phillips

http://www.w3.org/2001/XMLSchema#string

H C Fibiger

http://www.w3.org/2001/XMLSchema#string

P2860

Drugs and reinforcement mechanisms: a critical review of the catecholamine theory.

On the role of ascending catecholaminergic systems in intravenous self-administration of cocaine.

Catecholamine theories of reward: a critical review.

Central dopaminergic neurons: effects of alterations in impulse flow on the accumulation of dihydroxyphenylacetic acid.

Simultaneous rate-independent and rate-dependent assessment of intracranial self-stimulation: evidence for the direct involvement of dopamine in brain reinforcement mechanisms.

Specific modulation of brain stimulation reward by haloperidol.

6-Hydroxydopamine lesions of the medial prefrontal cortex fail to influence intravenous self-administration of cocaine.

Self-administration of methionine enkephalin into the nucleus accumbens.

Destruction of dopamine in the nucleus accumbens selectively attenuates cocaine but not heroin self-administration in rats.

Depression of morphine-seeking behaviour by dopamine inhibition.

P304

206-215

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1111/J.1749-6632.1988.TB42107.X

http://www.w3.org/2001/XMLSchema#string

P407

P478

537

http://www.w3.org/2001/XMLSchema#string

P577

1988-01-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

20096208

http://www.w3.org/2001/XMLSchema#string

P698

3059924

http://www.w3.org/2001/XMLSchema#string

P921