BACKGROUND: Complex human diseases are often caused by multiple mutations, each of which contributes only a minor effect to the disease phenotype. To study the basis for these complex phenotypes, we developed a network-based approach to identify coexpression modules specifically activated in particular phenotypes. We integrated these modules, protein-protein interaction data, Gene Ontology annotations, and our database of gene-phenotype associations derived from literature to predict novel human gene-phenotype associations. Our systematic predictions provide us with the opportunity to perform a global analysis of human gene pleiotropy and its underlying regulatory mechanisms. RESULTS: We applied this method to 338 microarray datasets, cover...
One of the fundamental goals of genetics is to understand gene functions and their associated phenot...
Discerning genetic contributions to diseases not only enhances our understanding of disease mechanis...
The rapid accumulation of Genome Wide Association Studies (GWAS) and association studies of intermed...
Abstract Background Complex human diseases are often caused by multiple mutations, each of which con...
UnrestrictedComplex human diseases are often caused by multiple mutations, each of which contributes...
Empirical clinical studies on the human interactome and phenome not only illustrates prevalent pheno...
Deciphering the genetic basis of human diseases is an important goal of biomedical research. On the ...
Phenotypically similar diseases have been found to be caused by functionally related genes, suggesti...
BACKGROUND: Phenotypically similar diseases have been found to be caused by functionally related gen...
<div><p>One of the major challenges of functional genomics is to unravel the connection between geno...
One of the major challenges of functional genomics is to unravel the connection between genotype and...
A number of large-scale efforts are underway to define the relationships between genes and proteins ...
A number of large-scale efforts are underway to define the relationships between genes and proteins ...
Gene-phenotype associations play an important role in understanding the disease mechanisms which i...
UnrestrictedThe linking genotype to phenotype is the fundamental aim of modern genetics. We focus on...
One of the fundamental goals of genetics is to understand gene functions and their associated phenot...
Discerning genetic contributions to diseases not only enhances our understanding of disease mechanis...
The rapid accumulation of Genome Wide Association Studies (GWAS) and association studies of intermed...
Abstract Background Complex human diseases are often caused by multiple mutations, each of which con...
UnrestrictedComplex human diseases are often caused by multiple mutations, each of which contributes...
Empirical clinical studies on the human interactome and phenome not only illustrates prevalent pheno...
Deciphering the genetic basis of human diseases is an important goal of biomedical research. On the ...
Phenotypically similar diseases have been found to be caused by functionally related genes, suggesti...
BACKGROUND: Phenotypically similar diseases have been found to be caused by functionally related gen...
<div><p>One of the major challenges of functional genomics is to unravel the connection between geno...
One of the major challenges of functional genomics is to unravel the connection between genotype and...
A number of large-scale efforts are underway to define the relationships between genes and proteins ...
A number of large-scale efforts are underway to define the relationships between genes and proteins ...
Gene-phenotype associations play an important role in understanding the disease mechanisms which i...
UnrestrictedThe linking genotype to phenotype is the fundamental aim of modern genetics. We focus on...
One of the fundamental goals of genetics is to understand gene functions and their associated phenot...
Discerning genetic contributions to diseases not only enhances our understanding of disease mechanis...
The rapid accumulation of Genome Wide Association Studies (GWAS) and association studies of intermed...