May 7, 2025, Filed Under: 2007In vivo fiber tracking in the rat brain on a clinical 3T MRI system using a high strength insert gradient coil Citation: Dirk Mayer, Natalie M. Zahr, Elfar Adalsteinsson, Brian Rutt, Edith V. Sullivan, and Adolf Pfefferbaum. “In vivo fiber tracking in the rat brain on a clinical 3T MRI system using a high strength insert gradient coil.” NeuroImage, 35, 3, Pp. 1077–1085. Download Citation DOI
May 7, 2025, Filed Under: 2007Identification of novel striatal genes by expression profiling in adult mouse brain Citation: A. Ghate, K. Befort, J. J. a. Becker, D. Filliol, C. Bole-Feysot, D. Demebele, B. Jost, M. Koch, and B. L. Kieffer. “Identification of novel striatal genes by expression profiling in adult mouse brain.” Neuroscience, 146, 3, Pp. 1182–1192. Download Citation DOI
May 7, 2025, Filed Under: 2007GABAergic modulation of binge-like ethanol intake in C57BL/6J mice Citation: Eileen M. Moore, Kristen M. Serio, Karen J. Goldfarb, Sandra Stepanovska, David N. Linsenbardt, and Stephen L. Boehm. “GABAergic modulation of binge-like ethanol intake in C57BL/6J mice.” Pharmacology, Biochemistry, and Behavior, 88, 1, Pp. 105–113. Download Citation DOI
May 7, 2025, Filed Under: 2007Functional gene expression differences between inbred alcohol-preferring and –non-preferring rats in five brain regions Citation: Mark W. Kimpel, Wendy N. Strother, Jeanette N. McClintick, Lucinda G. Carr, Tiebing Liang, Howard J. Edenberg, and William J. McBride. “Functional gene expression differences between inbred alcohol-preferring and –non-preferring rats in five brain regions.” Alcohol, 41, 2, Pp. 95–132. Download Citation DOI
May 7, 2025, Filed Under: 2007FOS expression induced by an ethanol-paired conditioned stimulus Citation: Katherine G. Hill, Andrey E. Ryabinin, and Christopher L. Cunningham. “FOS expression induced by an ethanol-paired conditioned stimulus.” Pharmacology, Biochemistry, and Behavior, 87, 2, Pp. 208–221. Download Citation DOI
May 7, 2025, Filed Under: 2007Ethanol preference is inversely correlated with ethanol-induced dopamine release in 2 substrains of C57BL/6 mice Citation: Vorani Ramachandra, Steven Phuc, Ana Crystal Franco, and Rueben A. Gonzales. “Ethanol preference is inversely correlated with ethanol-induced dopamine release in 2 substrains of C57BL/6 mice.” Alcoholism, Clinical and Experimental Research, 31, 10, Pp. 1669–1676. Download Citation DOI
May 7, 2025, Filed Under: 2007Drosophila homer is required in a small set of neurons including the ellipsoid body for normal ethanol sensitivity and tolerance Citation: Nancy L. Urizar, Zhiyong Yang, Howard J. Edenberg, and Ronald L. Davis. “Drosophila homer is required in a small set of neurons including the ellipsoid body for normal ethanol sensitivity and tolerance.” The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, 27, 17, Pp. 4541–4551. Download Citation DOI
May 7, 2025, Filed Under: 2007Downregulation of mu opioid receptor by RNA interference in the ventral tegmental area reduces ethanol consumption in mice Citation: A. W. Lasek, P. H. Janak, L. He, J. L. Whistler, and U. Heberlein. “Downregulation of mu opioid receptor by RNA interference in the ventral tegmental area reduces ethanol consumption in mice.” Genes, Brain, and Behavior, 6, 8, Pp. 728–735. Download Citation DOI
May 7, 2025, Filed Under: 2007Development and resolution of brain lesions caused by pyrithiamine- and dietary-induced thiamine deficiency and alcohol exposure in the alcohol-preferring rat: a longitudinal magnetic resonance imaging and spectroscopy study Citation: Adolf Pfefferbaum, Elfar Adalsteinsson, Richard L. Bell, and Edith V. Sullivan. “Development and resolution of brain lesions caused by pyrithiamine- and dietary-induced thiamine deficiency and alcohol exposure in the alcohol-preferring rat: a longitudinal magnetic resonance imaging and spectroscopy study.” Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology, 32, 5, Pp. 1159–1177. Download Citation DOI
May 7, 2025, Filed Under: 2007Dependence-induced increases in ethanol self-administration in mice are blocked by the CRF1 receptor antagonist antalarmin and by CRF1 receptor knockout Citation: Kathleen Chu, George F. Koob, Maury Cole, Eric P. Zorrilla, and Amanda J. Roberts. “Dependence-induced increases in ethanol self-administration in mice are blocked by the CRF1 receptor antagonist antalarmin and by CRF1 receptor knockout.” Pharmacology Biochemistry and Behavior, 86, 4, Pp. 813–821. Download Citation DOI
