From mouse models to human behavior Testing candidate genes for alcoholism
Fehr, C.; Tadic, A.; Schmidt, L.G.; Sander, T.; Lenzen, K.; Nuernberger, P.; Anghelescu, I.; Szegedi, A.
Pharmacopsychiatry 36(5): 224
2003
ISSN/ISBN: 0176-3679
Accession: 034955007
PDF emailed within 1 workday: $29.90
Related References
Treadwell, J.A. 2006: Integrative strategies to identify candidate genes in rodent models of human alcoholism Genome 49(1): 1-7Demos, C.; Bandyopadhyay, M.; Rohrer, B.är. 2008: Identification of candidate genes for human retinal degeneration loci using differentially expressed genes from mouse photoreceptor dystrophy models Molecular Vision 14: 1639-1649
Echwald, S.M. 1999: Genetics of human obesity: Lessons from mouse models and candidate genes Journal of Internal Medicine 245(6): 653-666
Beurlet, S.; Chomienne, C.; Padua, R.A. 2013: Engineering mouse models with myelodysplastic syndrome human candidate genes; how relevant are they? Haematologica 98(1): 10-22
Urani, A.; Chourbaji, S.; Gass, P. 2005: Mutant mouse models of depression: candidate genes and current mouse lines Neuroscience and Biobehavioral Reviews 29(4-5): 805-828
Volcik, K.A.; Blanton, S.H.; Kruzel, M.C.; Townsend, I.T.; Tyerman, G.H.; Mier, R.J.; Northrup, H. 2002: Testing for genetic associations in a spina bifida population: analysis of the HOX gene family and human candidate gene regions implicated by mouse models of neural tube defects American Journal of Medical Genetics 110(3): 203-207
Beyene, J.; Greenwood, C.M.T.; Malik, S.; Eguale, T.; Kifle, A.; Habte, A.; Tadesse, A.; Abraham, I.; Britton, S.; Schurr, E. 2003: Odds-ratio regression models for testing joint transmission of candidate genes for tuberculosis American Journal of Human Genetics 73(5): 387
Melvin, E.C.; Viles, K.D.; Mackey, J.F.; Lucas, A.; Franklin, A.; Albright, S.; Aylsworth, A.; Worley, G.; Brei, T.; Buran, C.; Vance, J.M.; Pericak Vance, M.A.; George, T.M.; Speer, M.C.; (Usa), T.N.d Collaborative Group 1997: Investigations of candidate genes for neural tube defects implicated from mouse models American Journal of Human Genetics 61(4 Suppl): A286
Pandey, R.S.; Graham, L.; Uyar, A.; Preuss, C.; Howell, G.; Carter, G.W. 2018: Transcriptomic Analysis Of Mouse Models Based On Candidate Genes Associated With AlzheimerS Disease Alzheimer's and Dementia 14(7): P1450-P1451
Vyazunova, I.; Maklakova, V.I.; Berman, S.; De, I.; Steffen, M.D.; Hong, W.; Lincoln, H.; Morrissy, A.S.; Taylor, M.D.; Akagi, K.; Brennan, C.W.; Rodriguez, F.J.; Collier, L.S. 2014: Sleeping Beauty mouse models identify candidate genes involved in gliomagenesis Plos one 9(11): E113489
Levin, M.L.; Chatterjee, A.; Herman, G.E. 1995: Candidate genes for mouse models of X-linked dominant chondrodysplasia punctata and incontinentia pigmenti American Journal of Human Genetics 57(4 Suppl): A218
Meijuan Li; Timothy Hanson 2011: Bayesian non-parametric multivariate statistical models for testing association between quantitative traits and candidate genes in structured populations Journal of the Royal Statistical Society: Series C 60(2): 207-219
Van Miltenburg, M.H.; Jonkers, J. 2012: Using genetically engineered mouse models to validate candidate cancer genes and test new therapeutic approaches Current Opinion in Genetics and Development 22(1): 21-27
Rohde, P.Duun.; Madsen, L.Strøm.; Neumann Arvidson, S.Marie.; Loeschcke, V.; Demontis, D.; Kristensen, T.Nygaard. 2016: Testing candidate genes for attention-deficit/hyperactivity disorder in fruit flies using a high throughput assay for complex behavior Fly 10(1): 25-34
Ehringer, M.A.; Thompson, J.; Conroy, O.; Smith, T.L.; Goldman, D.; Schuckit, M.; Sikela, J.M. 2001: Human alcoholism studies of genes identified through mouse QTL analysis Alcoholism Clinical and Experimental Research 25(5 Suppl A): 68A