scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0091-3057(01)00524-X |
P698 | PubMed publication ID | 11509194 |
P50 | author | John D. Salamone | Q42152497 |
P2093 | author name string | Arizzi M | |
Carlson BB | |||
Nowend KL | |||
P2860 | cites work | Effects of 6-hydroxydopamine lesions of the nucleus accumbens septi and olfactory tubercle on feeding, locomotor activity, and amphetamine anorexia in the rat | Q28280444 |
What is the role of dopamine in reward: hedonic impact, reward learning, or incentive salience? | Q29618655 | ||
Functional-anatomical implications of the nucleus accumbens core and shell subterritories | Q33692745 | ||
An integrative neuroanatomical perspective on some subcortical substrates of adaptive responding with emphasis on the nucleus accumbens. | Q33828004 | ||
Spatial learning and performance in the radial arm maze is impaired after N-methyl-D-aspartate (NMDA) receptor blockade in striatal subregions | Q33874799 | ||
Opioid site in nucleus accumbens shell mediates eating and hedonic 'liking' for food: map based on microinjection Fos plumes. | Q33898796 | ||
Effects of mesolimbic dopamine depletion on responding maintained by cocaine and food | Q34270075 | ||
Complex motor and sensorimotor functions of striatal and accumbens dopamine: involvement in instrumental behavior processes | Q36252848 | ||
On the role of ascending catecholaminergic systems in intravenous self-administration of cocaine | Q39725108 | ||
Tremulous jaw movements in rats: a model of parkinsonian tremor. | Q40830468 | ||
Behavior systems and reinforcement: an integrative approach | Q40836784 | ||
Use of operant response duration to distinguish the effects of haloperidol from nonreward | Q41468736 | ||
Behavioral functions of nucleus accumbens dopamine: empirical and conceptual problems with the anhedonia hypothesis | Q41485902 | ||
Motor dysfunction produced by tacrine administration in rats | Q42545948 | ||
A cost-benefit analysis of demand for food | Q43170541 | ||
Nucleus accumbens dopamine depletions and time-constrained progressive ratio performance: effects of different ratio requirements | Q48107912 | ||
Food reward and cocaine increase extracellular dopamine in the nucleus accumbens as measured by microdialysis | Q48131514 | ||
Nucleus accumbens dopamine depletions make rats more sensitive to high ratio requirements but do not impair primary food reinforcement | Q48161160 | ||
Different behavioral functions of dopamine in the nucleus accumbens and ventrolateral striatum: a microdialysis and behavioral investigation | Q48172414 | ||
Ventrolateral striatal dopamine depletions impair feeding and food handling in rats | Q48322814 | ||
Effects of dopamine antagonists and accumbens dopamine depletions on time-constrained progressive-ratio performance | Q48359164 | ||
The role of accumbens dopamine in lever pressing and response allocation: effects of 6-OHDA injected into core and dorsomedial shell | Q48505965 | ||
Role of dopamine D1 and D2 receptors in the nucleus accumbens in mediating reward | Q48617036 | ||
Role of muscles accumbens dopamine D1 and D2 receptors in instrumental and Pavlovian paradigms of conditioned reward | Q48698290 | ||
Haloperidol and nucleus accumbens dopamine depletion suppress lever pressing for food but increase free food consumption in a novel food choice procedure | Q48881667 | ||
Involvement of ventrolateral striatal dopamine in movement initiation and execution: a microdialysis and behavioral investigation | Q49129248 | ||
A detailed characterization of the effects of four cannabinoid agonists on operant lever pressing. | Q52186778 | ||
Nucleus accumbens dopamine depletions alter relative response allocation in a T-maze cost/benefit task. | Q52203571 | ||
The effects of nucleus accumbens dopamine depletions on continuously reinforced operant responding: contrasts with the effects of extinction. | Q52209946 | ||
Anhedonia or anergia? Effects of haloperidol and nucleus accumbens dopamine depletion on instrumental response selection in a T-maze cost/benefit procedure. | Q52212356 | ||
Pharmacological characterization of performance on a concurrent lever pressing/feeding choice procedure: effects of dopamine antagonist, cholinomimetic, sedative and stimulant drugs. | Q52212856 | ||
Nucleus accumbens dopamine depletions in rats affect relative response allocation in a novel cost/benefit procedure. | Q52214875 | ||
Different effects of nucleus accumbens and ventrolateral striatal dopamine depletions on instrumental response selection in the rat. | Q52221152 | ||
The role of brain dopamine in response initiation: effects of haloperidol and regionally specific dopamine depletions on the local rate of instrumental responding. | Q52221622 | ||
The role of nucleus accumbens dopamine in responding on a continuous reinforcement operant schedule: a neurochemical and behavioral study. | Q52221921 | ||
Neuroleptic-Induced "Anhedonia" in Rats: Pimozide Blocks Reward Quality of Food | Q52304271 | ||
Foraging cost and meal patterns in ferrets | Q71314554 | ||
Glutamate receptors in the nucleus accumbens shell control feeding behavior via the lateral hypothalamus | Q71511454 | ||
P433 | issue | 3-4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | nucleus accumbens | Q1476178 |
P304 | page(s) | 373-382 | |
P577 | publication date | 2001-07-01 | |
P1433 | published in | Pharmacology, Biochemistry and Behavior | Q15716554 |
P1476 | title | D1 or D2 antagonism in nucleus accumbens core or dorsomedial shell suppresses lever pressing for food but leads to compensatory increases in chow consumption | |
P478 | volume | 69 |
Q50332437 | A Neural Circuit Mechanism for the Involvements of Dopamine in Effort-Related Choices: Decay of Learned Values, Secondary Effects of Depletion, and Calculation of Temporal Difference Error. |
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Q46705715 | Activation of dopamine D1-like receptors in nucleus accumbens is critical for the acquisition, but not the expression, of nutrient-conditioned flavor preferences in rats |
Q38836831 | Activational and effort-related aspects of motivation: neural mechanisms and implications for psychopathology. |
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Q47372013 | Assessment of a glycine uptake inhibitor in animal models of effort-related choice behavior: implications for motivational dysfunctions |
Q46110222 | Basolateral amygdala supports the maintenance of value and effortful choice of a preferred option |
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Q35203638 | Bupropion increases selection of high effort activity in rats tested on a progressive ratio/chow feeding choice procedure: implications for treatment of effort-related motivational symptoms |
Q36660449 | Calculating utility: preclinical evidence for cost-benefit analysis by mesolimbic dopamine |
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Q42171474 | Chronic blockade or constitutive deletion of the serotonin transporter reduces operant responding for food reward |
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Q38026657 | Contribution of the mesolimbic dopamine system in mediating the effects of leptin and ghrelin on feeding |
Q44208702 | Cooperative activation of dopamine D1 and D2 receptors increases spike firing of nucleus accumbens neurons via G-protein betagamma subunits. |
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Q37636154 | Effects of SCH-23390 in combination with a low dose of 17β-estradiol on anxiety-like behavior in ovariectomized rats. |
Q37337627 | Effects of SKF-83566 and haloperidol on performance on progressive ratio schedules maintained by sucrose and corn oil reinforcement: quantitative analysis using a new model derived from the Mathematical Principles of Reinforcement (MPR). |
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Q37362447 | Effort-related motivational effects of the VMAT-2 inhibitor tetrabenazine: implications for animal models of the motivational symptoms of depression. |
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Q39067911 | Feeding-modulatory effects of mu-opioids in the medial prefrontal cortex: a review of recent findings and comparison to opioid actions in the nucleus accumbens |
Q30490176 | Forebrain circuitry involved in effort-related choice: Injections of the GABAA agonist muscimol into ventral pallidum alter response allocation in food-seeking behavior |
Q30457822 | GABA(A) and dopamine receptors in the nucleus accumbens shell differentially influence performance of a water-reinforced progressive ratio task |
Q30573691 | Hindbrain orexin 1 receptors influence palatable food intake, operant responding for food, and food-conditioned place preference in rats. |
Q37444966 | Homeostasis Meets Motivation in the Battle to Control Food Intake. |
Q36259005 | Improving temporal cognition by enhancing motivation |
Q33648162 | Increasing dopamine D2 receptor expression in the adult nucleus accumbens enhances motivation |
Q48404006 | Intact discrimination reversal learning but slowed responding to reward-predictive cues after dopamine D1 and D2 receptor blockade in the nucleus accumbens of rats |
Q36021156 | Intermittent-access binge consumption of sweet high-fat liquid does not require opioid or dopamine receptors in the nucleus accumbens |
Q43180394 | Intra-accumbens injections of the adenosine A2A agonist CGS 21680 affect effort-related choice behavior in rats |
Q35179072 | Lesions of the nucleus accumbens core modulate development of matching behavior |
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Q46829200 | Mice with chronically elevated dopamine exhibit enhanced motivation, but not learning, for a food reward |
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