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Items: 1 to 20 of 111

1.

Biological substrates of reward and aversion: a nucleus accumbens activity hypothesis.

Carlezon WA Jr, Thomas MJ.

Neuropharmacology. 2009;56 Suppl 1:122-32. doi: 10.1016/j.neuropharm.2008.06.075. Epub 2008 Jul 15. Review.

2.

Dopamine receptor blockade modulates the rewarding and aversive properties of nicotine via dissociable neuronal activity patterns in the nucleus accumbens.

Sun N, Laviolette SR; Addiction Research Group.

Neuropsychopharmacology. 2014 Nov;39(12):2799-815. doi: 10.1038/npp.2014.130. Epub 2014 Jun 4. Erratum in: Neuropsychopharmacology. 2015 Feb;40(3):791.

3.

Conditioned saccharin avoidance induced by infusion of amphetamine in the nucleus accumbens shell and morphine in the ventral tegmental area: behavioral and biochemical study.

Fenu S, Espa E, Cadoni C, Di Chiara G.

Behav Brain Res. 2014 Aug 1;269:55-60. doi: 10.1016/j.bbr.2014.03.049. Epub 2014 Apr 26.

PMID:
24780866
4.

Neural mechanisms of the nucleus accumbens circuit in reward and aversive learning.

Hikida T, Morita M, Macpherson T.

Neurosci Res. 2016 Jul;108:1-5. doi: 10.1016/j.neures.2016.01.004. Epub 2016 Jan 28. Review.

PMID:
26827817
5.

When a good taste turns bad: Neural mechanisms underlying the emergence of negative affect and associated natural reward devaluation by cocaine.

Carelli RM, West EA.

Neuropharmacology. 2014 Jan;76 Pt B:360-9. doi: 10.1016/j.neuropharm.2013.04.025. Epub 2013 Apr 29. Review.

6.

Depletion of nucleus accumbens dopamine leads to impaired reward and aversion processing in mice: Relevance to motivation pathologies.

Bergamini G, Sigrist H, Ferger B, Singewald N, Seifritz E, Pryce CR.

Neuropharmacology. 2016 Oct;109:306-319. doi: 10.1016/j.neuropharm.2016.03.048. Epub 2016 Mar 30.

7.
9.

The heterogeneity of ventral tegmental area neurons: Projection functions in a mood-related context.

Walsh JJ, Han MH.

Neuroscience. 2014 Dec 12;282:101-8. doi: 10.1016/j.neuroscience.2014.06.006. Epub 2014 Jun 12. Review.

10.

Beyond the reward hypothesis: alternative functions of nucleus accumbens dopamine.

Salamone JD, Correa M, Mingote SM, Weber SM.

Curr Opin Pharmacol. 2005 Feb;5(1):34-41. Review.

PMID:
15661623
12.
13.

Locus of onset and subpopulation specificity of in vivo ethanol effect in the reciprocal ventral tegmental area-nucleus accumbens circuit.

Burkhardt JM, Adermark L.

Neurochem Int. 2014 Oct;76:122-30. doi: 10.1016/j.neuint.2014.07.006. Epub 2014 Jul 21.

PMID:
25058792
14.

Neuropharmacological mechanisms of drug reward: beyond dopamine in the nucleus accumbens.

Bardo MT.

Crit Rev Neurobiol. 1998;12(1-2):37-67. Review.

PMID:
9444481
15.

Rewarding and aversive effects of nicotine are segregated within the nucleus accumbens.

Sellings LH, Baharnouri G, McQuade LE, Clarke PB.

Eur J Neurosci. 2008 Jul;28(2):342-52. doi: 10.1111/j.1460-9568.2008.06341.x.

PMID:
18702705
16.

Glutamatergic input from specific sources influences the nucleus accumbens-ventral pallidum information flow.

Papp E, Borhegyi Z, Tomioka R, Rockland KS, Mody I, Freund TF.

Brain Struct Funct. 2012 Jan;217(1):37-48. doi: 10.1007/s00429-011-0331-z. Epub 2011 Jun 5.

PMID:
21643647
17.

Pathway-specific modulation of nucleus accumbens in reward and aversive behavior via selective transmitter receptors.

Hikida T, Yawata S, Yamaguchi T, Danjo T, Sasaoka T, Wang Y, Nakanishi S.

Proc Natl Acad Sci U S A. 2013 Jan 2;110(1):342-7. doi: 10.1073/pnas.1220358110. Epub 2012 Dec 17.

18.

Identification of a dopamine receptor-mediated opiate reward memory switch in the basolateral amygdala-nucleus accumbens circuit.

Lintas A, Chi N, Lauzon NM, Bishop SF, Gholizadeh S, Sun N, Tan H, Laviolette SR.

J Neurosci. 2011 Aug 3;31(31):11172-83. doi: 10.1523/JNEUROSCI.1781-11.2011.

19.

Dopamine signaling through D1-like versus D2-like receptors in the nucleus accumbens core versus shell differentially modulates nicotine reward sensitivity.

Laviolette SR, Lauzon NM, Bishop SF, Sun N, Tan H.

J Neurosci. 2008 Aug 6;28(32):8025-33. doi: 10.1523/JNEUROSCI.1371-08.2008.

20.

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