Pathway analysis, broadly defined as a group of methods incorporating a priori biological information from public databases, has emerged as a promising approach for analyzing high-dimensional genomic data. As part of Genetic Analysis Workshop 18, seven research groups applied pathway analysis techniques to whole-genome sequence data from the San Antonio Family Study. Overall, the groups found that the potential of pathway analysis to improve detection of causal variants by lowering the multiple-testing burden and incorporating biologic insight remains largely unrealized. Specifically, there is a lack of best practices at each stage of the pathway approach: annotation, analysis, interpretation, and follow-up. Annotation of genetic variants i...
Genome-wide association studies often emphasize single-nucleotide polymorphisms with the smallest p-...
In spite of the success of genome-wide association studies (GWASs), only a small proportion of herit...
A number of statistical methods have been developed to test for associations between pathways (colle...
Pathway analysis, broadly defined as a group of methods incorporating a priori biological informatio...
Abstract Analyzing sets of genes in genome-wide association studies is a relatively new approach tha...
Analyzing sets of genes in genome-wide association studies is a relatively new approach that aims to...
Analyzing sets of genes in genome-wide association studies is a relatively new approach that aims to...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Abstract How various genetic effects in combination affect susceptibility to certain d...
Background As one possible solution to the missing heritability problem, many metho...
Abstract Pathway-based analysis has been recently used in joint tests of association b...
Despite great success of GWAS in identification of common genetic variants associated with complex d...
Recently we have witnessed a surge of interest in using genome-wide association studies (GWAS) to di...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Genome-wide association studies often emphasize single-nucleotide polymorphisms with the smallest p-...
In spite of the success of genome-wide association studies (GWASs), only a small proportion of herit...
A number of statistical methods have been developed to test for associations between pathways (colle...
Pathway analysis, broadly defined as a group of methods incorporating a priori biological informatio...
Abstract Analyzing sets of genes in genome-wide association studies is a relatively new approach tha...
Analyzing sets of genes in genome-wide association studies is a relatively new approach that aims to...
Analyzing sets of genes in genome-wide association studies is a relatively new approach that aims to...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Abstract How various genetic effects in combination affect susceptibility to certain d...
Background As one possible solution to the missing heritability problem, many metho...
Abstract Pathway-based analysis has been recently used in joint tests of association b...
Despite great success of GWAS in identification of common genetic variants associated with complex d...
Recently we have witnessed a surge of interest in using genome-wide association studies (GWAS) to di...
Pathway analysis approaches for sequence data typically either operate in a single stage (all varian...
Genome-wide association studies often emphasize single-nucleotide polymorphisms with the smallest p-...
In spite of the success of genome-wide association studies (GWASs), only a small proportion of herit...
A number of statistical methods have been developed to test for associations between pathways (colle...