全基因组关联研究
基因分型
遗传学
遗传关联
生物
虚假关系
单核苷酸多态性
样本量测定
质量保证
SNP公司
计算生物学
基因型
统计
数学
基因
外部质量评估
医学
病理
作者
Cathy C. Laurie,Kimberly F. Doheny,Daniel B. Mirel,Elizabeth Pugh,Laura J. Bierut,Tushar Bhangale,Frederick J. Boehm,Neil E. Caporaso,Marilyn C. Cornelis,Howard J. Edenberg,Stacy Gabriel,Emily Harris,Frank B. Hu,Kevin B. Jacobs,Peter Kraft,Maria Teresa Landi,Thomas Lumley,Teri A. Manolio,Caitlin McHugh,Ian Painter
摘要
Abstract Genome‐wide scans of nucleotide variation in human subjects are providing an increasing number of replicated associations with complex disease traits. Most of the variants detected have small effects and, collectively, they account for a small fraction of the total genetic variance. Very large sample sizes are required to identify and validate findings. In this situation, even small sources of systematic or random error can cause spurious results or obscure real effects. The need for careful attention to data quality has been appreciated for some time in this field, and a number of strategies for quality control and quality assurance (QC/QA) have been developed. Here we extend these methods and describe a system of QC/QA for genotypic data in genome‐wide association studies (GWAS). This system includes some new approaches that (1) combine analysis of allelic probe intensities and called genotypes to distinguish gender misidentification from sex chromosome aberrations, (2) detect autosomal chromosome aberrations that may affect genotype calling accuracy, (3) infer DNA sample quality from relatedness and allelic intensities, (4) use duplicate concordance to infer SNP quality, (5) detect genotyping artifacts from dependence of Hardy‐Weinberg equilibrium test P ‐values on allelic frequency, and (6) demonstrate sensitivity of principal components analysis to SNP selection. The methods are illustrated with examples from the “Gene Environment Association Studies” (GENEVA) program. The results suggest several recommendations for QC/QA in the design and execution of GWAS. Genet. Epidemiol . 34: 591–602, 2010. © 2010 Wiley‐Liss, Inc.
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