Collaborative genome-wide association analysis supports a role for ANK3 and CACNA1C in bipolar disorder.
Item Type:Journal Article
Citation:Ferreira MA, O'Donovan MC, Meng YA, Jones IR, Ruderfer DM, Jones L, Fan J, Kirov G, Perlis RH, Green EK, Smoller JW, Grozeva D, Stone J, Nikolov I, Chambert K, Hamshere ML, Nimgaonkar VL, Moskvina V, Thase ME, Caesar S, Sachs GS, Franklin J, Gordon-Smith K, Ardlie KG, Gabriel SB, Fraser C, Blumenstiel B, Defelice M, Breen G, Gill M, Morris DW, Elkin A, Muir WJ, McGhee KA, Williamson R, Macintyre DJ, Maclean AW, St Clair D, Robinson M, Van Beck M, Pereira AC, Kandaswamy R, McQuillin A, Collier DA, Bass NJ, Young AH, Lawrence J, Nicol Ferrier I, Anjorin A, Farmer A, Curtis D, Scolnick EM, McGuffin P, Daly MJ, Corvin AP, Holmans PA, Blackwood DH; Wellcome Trust Case Control Consortium, Gurling HM, Owen MJ, Purcell SM, Sklar P, Craddock N `Collaborative genome-wide association analysis supports a role for ANK3 and CACNA1C in bipolar disorder? in Nature Genetics, 40, (9), 2008, pp 1056 - 1058
Collaborative genome-wide association analysis supports a role for ANK3 and CACNA1C in bipolar disorder.pdf (published (publisher copy) peer-reviewed) 313.6Kb
To identify susceptibility loci for bipolar disorder, we tested 1.8 million variants in 4,387 cases and 6,209 controls and identified a region of strong association (rs10994336, P = 9.1 10-9) in ANK3 (ankyrin G). We also found further support for the previously reported CACNA1C (alpha 1C subunit of the L-type voltage-gated calcium channel; combined P = 7.0 10-8, rs1006737). Our results suggest that ion channelopathies may be involved in the pathogenesis of bipolar disorder.
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Publisher:Nature Publishing Group
Type of material:Journal Article
Series/Report no:Nature Genetics
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