May 8, 2025, Filed Under: 2009In Vivo Evidence for Alcohol-Induced Neurochemical Changes in Rat Brain Without Protracted Withdrawal, Pronounced Thiamine Deficiency, or Severe Liver Damage Citation: Natalie M Zahr, Dirk Mayer, Shara Vinco, Juan Orduna, Richard Luong, Edith V Sullivan, and Adolf Pfefferbaum. “In Vivo Evidence for Alcohol-Induced Neurochemical Changes in Rat Brain Without Protracted Withdrawal, Pronounced Thiamine Deficiency, or Severe Liver Damage.” Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 34, 6, Pp. 1427–1442. DOI
May 8, 2025, Filed Under: 2009High throughput sequencing in mice: a platform comparison identifies a preponderance of cryptic SNPs Citation: Nicole A. R. Walter, Daniel Bottomly, Ted Laderas, Michael A. Mooney, Priscila Darakjian, Robert P. Searles, Christina A. Harrington, Shannon K. McWeeney, Robert Hitzemann, and Kari J. Buck. “High throughput sequencing in mice: a platform comparison identifies a preponderance of cryptic SNPs.” BMC genomics, 10, Pp. 379. DOI
May 8, 2025, Filed Under: 2009Genetical genomic determinants of alcohol consumption in rats and humans Citation: Boris Tabakoff, Laura Saba, Morton Printz, Pam Flodman, Colin Hodgkinson, David Goldman, George Koob, Heather N. Richardson, Katerina Kechris, Richard L. Bell, Norbert Hübner, Matthias Heinig, Michal Pravenec, Jonathan Mangion, Lucie LeGault, Maurice Dongier, Katherine M. Conigrave, John B. Whitfield, John Saunders, Bridget Grant, and Paula L. Hoffman. “Genetical genomic determinants of alcohol consumption in rats and humans.” BMC Biology, 7, Pp. 70. DOI
May 8, 2025, Filed Under: 2009Gene expression profiling in blood: new diagnostics in alcoholism and addiction? Citation: Dayne R Mayfield and Adron R Harris. “Gene expression profiling in blood: new diagnostics in alcoholism and addiction?.” Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 34, 1, Pp. 250–251. DOI
May 8, 2025, Filed Under: 2009Gene expression changes in the nucleus accumbens of alcohol-preferring rats following chronic ethanol consumption Citation: Richard L. Bell, Mark W. Kimpel, Jeanette N. McClintick, Wendy N. Strother, Lucinda G. Carr, Tiebing Liang, Zachary A. Rodd, R. Dayne Mayfield, Howard J. Edenberg, and William J. McBride. “Gene expression changes in the nucleus accumbens of alcohol-preferring rats following chronic ethanol consumption.” Pharmacology, biochemistry, and behavior, 94, 1, Pp. 131–147. DOI
May 8, 2025, Filed Under: 2009Electrolytic lesions of the medial nucleus accumbens shell selectively decrease ethanol consumption without altering preference in a limited access procedure in C57BL/6J mice Citation: Ronnie Dhaher, Deborah A. Finn, Denesa L. Oberbeck, Naomi Yoneyama, Christopher C. Snelling, Weiran Wu, and Robert J. Hitzemann. “Electrolytic lesions of the medial nucleus accumbens shell selectively decrease ethanol consumption without altering preference in a limited access procedure in C57BL/6J mice.” Pharmacology Biochemistry and Behavior, 92, 2, Pp. 335–342. DOI
May 8, 2025, Filed Under: 2009Differential Effects of Chronic Ethanol Consumption and Withdrawal on Homer/Glutamate Receptor Expression in Subregions of the Accumbens and Amygdala of P Rats Citation: Ilona Obara, Richard L. Bell, Scott P. Goulding, Cindy M. Reyes, Lindsay A. Larson, Alexis W. Ary, William A. Truitt, and Karen K. Szumlinski. “Differential Effects of Chronic Ethanol Consumption and Withdrawal on Homer/Glutamate Receptor Expression in Subregions of the Accumbens and Amygdala of P Rats.” Alcoholism, clinical and experimental research, 33, 11, Pp. 1924–1934. DOI
May 8, 2025, Filed Under: 2009Differential effects of ethanol in the nucleus accumbens shell of alcohol-preferring (P), alcohol-non-preferring (NP) and Wistar rats: a proteomics study Citation: William J. McBride, Jonathan A. Schultz, Mark W. Kimpel, Jeanette N. McClintick, Mu Wang, Jinsam You, and Zachary A. Rodd. “Differential effects of ethanol in the nucleus accumbens shell of alcohol-preferring (P), alcohol-non-preferring (NP) and Wistar rats: a proteomics study.” Pharmacology, Biochemistry, and Behavior, 92, 2, Pp. 304–313. Download Citation DOI
May 8, 2025, Filed Under: 2009Effects of concurrent access to multiple ethanol concentrations and repeated deprivations on alcohol intake of high-alcohol-drinking (HAD) rats Citation: Zachary A. Rodd, Richard L. Bell, Kelly A. Kuc, James M. Murphy, Lawrence Lumeng, and William J. McBride. “Effects of concurrent access to multiple ethanol concentrations and repeated deprivations on alcohol intake of high-alcohol-drinking (HAD) rats.” Addiction Biology, 14, 2, Pp. 152–164. DOI
May 8, 2025, Filed Under: 2009Differential sensitivity of the perioculomotor urocortin-containing neurons to ethanol, psychostimulants and stress in mice and rats Citation: E. Spangler, D. M. Cote, A. M. J. Anacker, G. P. Mark, and A. E. Ryabinin. “Differential sensitivity of the perioculomotor urocortin-containing neurons to ethanol, psychostimulants and stress in mice and rats.” Neuroscience, 160, 1, Pp. 115–125. DOI
