03141nas a2200685 4500008004100000022001400041245018100055210006900236260001300305300001100318490000700329520115600336653001001492653000901502653002201511653001201533653003001545653001101575653003801586653003401624653001301658653001101671653000901682653001701691653001601708653002201724653000901746653001701755100002701772700002501799700002201824700002101846700002201867700001501889700001901904700002301923700002401946700002301970700002401993700002002017700002502037700001902062700002302081700001502104700002102119700002002140700001802160700002402178700002602202700001902228700002202247700002302269700002302292700001902315700001902334700002202353700002302375700002102398856003602419 2012 eng d a1939-327X00aConsistent directions of effect for established type 2 diabetes risk variants across populations: the population architecture using Genomics and Epidemiology (PAGE) Consortium.0 aConsistent directions of effect for established type 2 diabetes c2012 Jun a1642-70 v613 a
Common genetic risk variants for type 2 diabetes (T2D) have primarily been identified in populations of European and Asian ancestry. We tested whether the direction of association with 20 T2D risk variants generalizes across six major racial/ethnic groups in the U.S. as part of the Population Architecture using Genomics and Epidemiology Consortium (16,235 diabetes case and 46,122 control subjects of European American, African American, Hispanic, East Asian, American Indian, and Native Hawaiian ancestry). The percentage of positive (odds ratio [OR] >1 for putative risk allele) associations ranged from 69% in American Indians to 100% in European Americans. Of the nine variants where we observed significant heterogeneity of effect by racial/ethnic group (P(heterogeneity) < 0.05), eight were positively associated with risk (OR >1) in at least five groups. The marked directional consistency of association observed for most genetic variants across populations implies a shared functional common variant in each region. Fine-mapping of all loci will be required to reveal markers of risk that are important within and across populations.
10aAdult10aAged10aAged, 80 and over10aAlleles10aDiabetes Mellitus, Type 210aFemale10aGenetic Predisposition to Disease10aGenome-Wide Association Study10aGenotype10aHumans10aMale10aMetagenomics10aMiddle Aged10aPopulation Groups10aRisk10aRisk Factors1 aHaiman, Christopher, A1 aFesinmeyer, Megan, D1 aSpencer, Kylee, L1 aBůzková, Petra1 aVoruganti, Saroja1 aWan, Peggy1 aHaessler, Jeff1 aFranceschini, Nora1 aMonroe, Kristine, R1 aHoward, Barbara, V1 aJackson, Rebecca, D1 aFlorez, Jose, C1 aKolonel, Laurence, N1 aBuyske, Steven1 aGoodloe, Robert, J1 aLiu, Simin1 aManson, JoAnn, E1 aMeigs, James, B1 aWaters, Kevin1 aMukamal, Kenneth, J1 aPendergrass, Sarah, A1 aShrader, Peter1 aWilkens, Lynne, R1 aHindorff, Lucia, A1 aAmbite, Jose, Luis1 aNorth, Kari, E1 aPeters, Ulrike1 aCrawford, Dana, C1 aLe Marchand, Loïc1 aPankow, James, S uhttps://chs-nhlbi.org/node/6633