Detecting gene-gene interaction in complex diseases is a major challenge for common disease genetics. Most interaction detection approaches use disease-marker associations and such methods have low power and unknown reliability in real data. We developed and tested a powerful linkage-analysis-based gene-gene interaction detection strategy based on conditioning the family data on a known disease-causing allele or disease-associated marker allele. We computer-generated multipoint linkage data for a disease caused by two epistatically interacting loci (A and B). We examined several two-locus epistatic inheritance models: dominant-dominant, dominant-recessive, recessive-dominant, recessive-recessive. At one of the loci (A), there was a known di...
Despite the growing consensus on the importance of testing gene-gene interactions in genetic studies...
Background: Although genome-wide association studies have successfully identified thousands of varia...
BACKGROUND: The rapid advance in large-scale SNP-chip technologies offers us great opportunities in ...
Detecting gene-gene interaction in complex diseases is a major challenge for common disease genetics...
<div><p>Detecting gene-gene interaction in complex diseases has become an important priority for com...
Interest has recently focussed on allowing for interactions between loci as a way to increase power ...
For complex diseases, we often sample and genotype affected sibships to map the disease of interest ...
Interactions and heterogeneity play a vital role in the miscommunication between genotype and phenot...
Because the genotype-phenotype correlation information is investigated differently by linkage and as...
After nearly 10 years of intense academic and commercial research effort, large genome-wide associat...
In order to study family-based association in the presence of linkage, we extend a generalized linea...
In order to study family-based association in the presence of linkage, we extend a generalized linea...
To fine map genes, investigators often test for disease-marker association in chromosomal regions wi...
Mapping genes for complex human traits is facilitated by two commonly used analytical methods: linka...
SummaryTraditionally, extended pedigrees with many affected individuals have been studied for the pu...
Despite the growing consensus on the importance of testing gene-gene interactions in genetic studies...
Background: Although genome-wide association studies have successfully identified thousands of varia...
BACKGROUND: The rapid advance in large-scale SNP-chip technologies offers us great opportunities in ...
Detecting gene-gene interaction in complex diseases is a major challenge for common disease genetics...
<div><p>Detecting gene-gene interaction in complex diseases has become an important priority for com...
Interest has recently focussed on allowing for interactions between loci as a way to increase power ...
For complex diseases, we often sample and genotype affected sibships to map the disease of interest ...
Interactions and heterogeneity play a vital role in the miscommunication between genotype and phenot...
Because the genotype-phenotype correlation information is investigated differently by linkage and as...
After nearly 10 years of intense academic and commercial research effort, large genome-wide associat...
In order to study family-based association in the presence of linkage, we extend a generalized linea...
In order to study family-based association in the presence of linkage, we extend a generalized linea...
To fine map genes, investigators often test for disease-marker association in chromosomal regions wi...
Mapping genes for complex human traits is facilitated by two commonly used analytical methods: linka...
SummaryTraditionally, extended pedigrees with many affected individuals have been studied for the pu...
Despite the growing consensus on the importance of testing gene-gene interactions in genetic studies...
Background: Although genome-wide association studies have successfully identified thousands of varia...
BACKGROUND: The rapid advance in large-scale SNP-chip technologies offers us great opportunities in ...