References of "McQueen, M. B"
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See detailGenomic screening and replication using the same data set in family-based association testing
Van Steen, Kristel ULg; McQueen, M. B.; Herbert, A. et al

in Nature Genetics (2005), 37(7), 683-691

The Human Genome Project and its spin- offs are making it increasingly feasible to determine the genetic basis of complex traits using genome- wide association studies. The statistical challenge of ... [more ▼]

The Human Genome Project and its spin- offs are making it increasingly feasible to determine the genetic basis of complex traits using genome- wide association studies. The statistical challenge of analyzing such studies stems from the severe multiple-comparison problem resulting from the analysis of thousands of SNPs. Our methodology for genome- wide family- based association studies, using single SNPs or haplotypes, can identify associations that achieve genome- wide significance. In relation to developing guidelines for our screening tools, we determined lower bounds for the estimated power to detect the gene underlying the disease- susceptibility locus, which hold regardless of the linkage disequilibrium structure present in the data. We also assessed the power of our approach in the presence of multiple disease- susceptibility loci. Our screening tools accommodate genomic control and use the concept of haplotype- tagging SNPs. Our methods use the entire sample and do not require separate screening and validation samples to establish genome- wide significance, as population- based designs do. [less ▲]

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See detailCombined analysis from eleven linkage studies of bipolar disorder provides strong evidence of susceptibility loci on chromosomes 6q and 8q
McQueen, M. B.; Devlin, B.; Faraone, S. V. et al

in American Journal of Human Genetics (2005), 77(4), 582-95

Several independent studies and meta-analyses aimed at identifying genomic regions linked to bipolar disorder (BP) have failed to find clear and consistent evidence of linkage regions. Our hypothesis is ... [more ▼]

Several independent studies and meta-analyses aimed at identifying genomic regions linked to bipolar disorder (BP) have failed to find clear and consistent evidence of linkage regions. Our hypothesis is that combining the original genotype data provides benefits of increased power and control over sources of heterogeneity that outweigh the difficulty and potential pitfalls of the implementation. We conducted a combined analysis using the original genotype data from 11 BP genomewide linkage scans comprising 5,179 individuals from 1,067 families. Heterogeneity among studies was minimized in our analyses by using uniform methods of analysis and a common, standardized marker map and was assessed using novel methods developed for meta-analysis of genome scans. To date, this collaboration is the largest and most comprehensive analysis of linkage samples involving a psychiatric disorder. We demonstrate that combining original genome-scan data is a powerful approach for the elucidation of linkage regions underlying complex disease. Our results establish genomewide significant linkage to BP on chromosomes 6q and 8q, which provides solid information to guide future gene-finding efforts that rely on fine-mapping and association approaches. [less ▲]

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