Genetic association tests in the presence of epistasis or gene-environment interaction

We analyzed a randomly chosen replicate with the goals of locating the closest markers to the genes involved in the discrete trait and utilizing these as surrogates for the genes in assessing the presence of gene-environment interactions. We screened the markers with an association test prior to usi

## Abstract Genome‐wide case‐control association study is gaining popularity, thanks to the rapid development of modern genotyping technology. In such studies, population stratification is a potential concern especially when the number of study subjects is large as it can lead to seriously inflated

Biostatistical methodology to accommodate genotype by environment (G±E) interactions in planned breeding trials for animals and for plants (such as crop variety trials) is well-advanced. Incorporation of environmental eects into genetic models for human data is generally more problematic. For contin

## Abstract Estimation and testing of genetic effects (genotype relative risks) are often performed conditionally on parental genotypes, using data from case‐parent trios. This strategy avoids having to estimate nuisance parameters such as parental mating type frequencies, and also avoids generatin

With the advent of dense single nucleotide polymorphism genotyping, population-based association studies have become the major tools for identifying human disease genes and for fine gene mapping of complex traits. We develop a genotypebased approach for association analysis of case-control studies o