Understanding the root molecular and genetic causes driving complex traits is a fundamental challenge in genomics and genetics. Numerous studies have used variation in gene expression to understand complex traits, but the underlying genomic variation that contributes to these expression changes is not well understood. In this study, we developed a framework to integrate gene expression and genotype data to identify biological differences between samples from opposing complex trait classes that are driven by expression changes and genotypic variation. This framework utilizes pathway analysis and multi-task learning to build a predictive model and discover pathways relevant to the complex trait of interest. We simulated expression and genotyp...
Single variant or single gene analyses generally account for only a small proportion of the phenotyp...
Understanding the molecular mechanisms underlying complex phenotypes and even predicting phenotypes ...
Large-scale transcriptomic datasets provide valuable opportunities to better understand the regulati...
<div><p>Understanding the root molecular and genetic causes driving complex traits is a fundamental ...
Gene Set Enrichment (GSE) is a computational technique which determines whether a priori defined set...
The discovery of expression quantitative trait loci (eQTLs) and their target genes (eGenes) has not ...
While our understanding of dysregulated genes is essential for improvement of clinical care, the maj...
<p>Schematic compares several approaches to gene expression profiling data. Gene expression levels f...
UnrestrictedThe linking genotype to phenotype is the fundamental aim of modern genetics. We focus on...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Advances in next-generation sequencing technologies and functional genomics strategies have allowed ...
One of the big aims in human genetics is to understand the biological mechanism underlying the genet...
The rapid accumulation of Genome Wide Association Studies (GWAS) and association studies of intermed...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Single variant or single gene analyses generally account for only a small proportion of the phenotyp...
Understanding the molecular mechanisms underlying complex phenotypes and even predicting phenotypes ...
Large-scale transcriptomic datasets provide valuable opportunities to better understand the regulati...
<div><p>Understanding the root molecular and genetic causes driving complex traits is a fundamental ...
Gene Set Enrichment (GSE) is a computational technique which determines whether a priori defined set...
The discovery of expression quantitative trait loci (eQTLs) and their target genes (eGenes) has not ...
While our understanding of dysregulated genes is essential for improvement of clinical care, the maj...
<p>Schematic compares several approaches to gene expression profiling data. Gene expression levels f...
UnrestrictedThe linking genotype to phenotype is the fundamental aim of modern genetics. We focus on...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Advances in next-generation sequencing technologies and functional genomics strategies have allowed ...
One of the big aims in human genetics is to understand the biological mechanism underlying the genet...
The rapid accumulation of Genome Wide Association Studies (GWAS) and association studies of intermed...
Motivation: Gene set enrichment analysis is a widely accepted expression analysis tool which aims at...
Single variant or single gene analyses generally account for only a small proportion of the phenotyp...
Understanding the molecular mechanisms underlying complex phenotypes and even predicting phenotypes ...
Large-scale transcriptomic datasets provide valuable opportunities to better understand the regulati...