2016
DOI: 10.1002/gepi.21997
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Identifying significant gene‐environment interactions using a combination of screening testing and hierarchical false discovery rate control

Abstract: Although gene‐environment (G× E) interactions play an important role in many biological systems, detecting these interactions within genome‐wide data can be challenging due to the loss in statistical power incurred by multiple hypothesis correction. To address the challenge of poor power and the limitations of existing multistage methods, we recently developed a screening‐testing approach for G× E interaction detection that combines elastic net penalized regression with joint estimation to support a single omn… Show more

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Cited by 19 publications
(14 citation statements)
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“…However, as in GWAS of AD, a question of interest is to test the null hypothesis of no association between functional phenotypes and the genotypes or genetic interactions (gene-environment), for example, genome-wide interaction analysis of relating SNPs to education level (Frost et al, 2016), case control conditions or memory scores (Yan et al, 2015). Meanwhile, detecting these interactions within genome-wide data can be challenging due to the loss in statistical power and computational efficiency.…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…However, as in GWAS of AD, a question of interest is to test the null hypothesis of no association between functional phenotypes and the genotypes or genetic interactions (gene-environment), for example, genome-wide interaction analysis of relating SNPs to education level (Frost et al, 2016), case control conditions or memory scores (Yan et al, 2015). Meanwhile, detecting these interactions within genome-wide data can be challenging due to the loss in statistical power and computational efficiency.…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…and γ Int are asymptotically independent under the null hypothesis of no SNP-by-environment interaction, proved by corollary 1 of Dai et al (2012). A two-stage approach that first filters SNPs by a criterion independent of the test statistic ( γ Int estimated from model 7) under the null hypothesis, and then only uses SNPs that pass the filter, can maintain type I error rates and boost power (Bourgon et al, 2010;Frost et al, 2016). Empirically, our following simulation studies confirmed that GRS using internal weights is a valid approach in the sense that type I error rates match the nominal significance level.…”
Section: Genetic Risk Score Approachesmentioning
confidence: 99%
“…Tissue-stimulation assays coupled with omics measurements provide a minimally invasive opportunity to understand an individual’s personal genome-by-environment response to a stimulus relevant to disease state or risk of progression. While cohort statistics can identify the most common stimulus-provoked molecular responses between clinical populations, 5 there are no unbiased tools for assessing a whole transcriptome response that can be scaled down to a single patient without requiring inference from reference sets based on well-powered, cross-patient comparisons. Tailoring patient treatment according to the results of a given in vivo or in vitro stimulation thus remains an unmet challenge.…”
Section: Background and Significancementioning
confidence: 99%