Open AccessA Generalized Sequential Bonferroni Procedure Using Smoothed Weights for Genome-Wide Association Studies Incorporating Information on Hardy-Weinberg Disequilibrium among Cases
Author(s) -
Guimin Gao,
Guolian Kang,
Jiexun Wang,
Wenan Chen,
Huaizen Qin,
Bo Jiang,
Qizhai Li,
Chuanyu Sun,
Nianjun Liu,
Kellie J. Archer,
David B. Allison
Publication year - 2011
Publication title -
human heredity
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.423
H-Index - 62
eISSN - 1423-0062
pISSN - 0001-5652
DOI - 10.1159/000332916
Subject(s) - bonferroni correction , multiplicative function , genome wide association study , genetic association , disequilibrium , mathematics , linkage disequilibrium , statistics , multiple comparisons problem , genetics , biology , single nucleotide polymorphism , medicine , genotype , mathematical analysis , ophthalmology , gene
For genome-wide association studies (GWAS) with case-control designs, one of the most widely used association tests is the Cochran-Armitage (CA) trend test assuming an additive mode of inheritance. The CA trend test often has higher power than other association tests under additive and multiplicative disease models. However, it can have very low power under a recessive disease model in GWAS. Although tests (such as MAX3) robust to different genetic models have been developed, they often have relatively lower power than the CA trend test under additive and multiplicative models. The goal of this study is to propose an efficient method that not only has higher power than the CA trend test under dominant and recessive models but also maintains the power of the CA trend test under additive and multiplicative models.
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