The analysis of gene-environment (G × E) interactions remains one of the greatest challenges in the postgenome-wide association studies (GWASs) era. Recent methods constitute a compromise between the robust but underpowered case-control and powerful case-only methods. Inferences of the latter are biased when the assumption of gene-environment (G-E) independence in controls fails. We propose a novel empirical hierarchical Bayes approach to G × E interaction (EHB-GE), which benefits from greater rank power while accounting for population-based G-E correlation. Building on Lewinger et al.'s ([2007] Genet Epidemiol 31:871-882) hierarchical Bayes prioritization approach, the method first obtains posterior G-E correlation estimate...
Many complex diseases are known to be affected by the interactions between genetic variants and envi...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
The analysis of gene-environment interaction (G×E) may hold the key for further understanding the et...
Complex diseases such as cancer result from multiple genetic changes and environmental exposures. Du...
There are over 100,000 human diseases of which only around 10,000 are known to be monogenic, resulti...
Identification of gene-environment (G × E) interactions associated with disease phenotypes has posed...
Despite longstanding interest in gene-by-environment (GxE) interactions, the contribution of GxE int...
It is a commonly held belief that most complex diseases (e.g., diabetes, asthma, cancer) are affecte...
Background: Genetic association studies are generating much information, usually in the form of sing...
[[abstract]]Despite the importance of gene-environment (G x E) interactions in the etiology of commo...
2018-07-31Evidence suggests that identifying genetic contributions to the risk of complex diseases r...
<div><p>An important follow-up step after genetic markers are found to be associated with a disease ...
There have been recent proposals advocating the use of additive gene-environment interaction instead...
Identifying interactions between genetics and the environment (GxE) remains challenging. We have dev...
There have been recent proposals advocating the use of additive gene-environment interaction instead...
Many complex diseases are known to be affected by the interactions between genetic variants and envi...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
The analysis of gene-environment interaction (G×E) may hold the key for further understanding the et...
Complex diseases such as cancer result from multiple genetic changes and environmental exposures. Du...
There are over 100,000 human diseases of which only around 10,000 are known to be monogenic, resulti...
Identification of gene-environment (G × E) interactions associated with disease phenotypes has posed...
Despite longstanding interest in gene-by-environment (GxE) interactions, the contribution of GxE int...
It is a commonly held belief that most complex diseases (e.g., diabetes, asthma, cancer) are affecte...
Background: Genetic association studies are generating much information, usually in the form of sing...
[[abstract]]Despite the importance of gene-environment (G x E) interactions in the etiology of commo...
2018-07-31Evidence suggests that identifying genetic contributions to the risk of complex diseases r...
<div><p>An important follow-up step after genetic markers are found to be associated with a disease ...
There have been recent proposals advocating the use of additive gene-environment interaction instead...
Identifying interactions between genetics and the environment (GxE) remains challenging. We have dev...
There have been recent proposals advocating the use of additive gene-environment interaction instead...
Many complex diseases are known to be affected by the interactions between genetic variants and envi...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
The analysis of gene-environment interaction (G×E) may hold the key for further understanding the et...