Background: Automated comparison of complete sets of genes encoded in two genomes can provide insight on the genetic basis of differences in biological traits between species. Gene ontology ( GO) is used as a common vocabulary to annotate genes for comparison. Current approaches calculate the fold of unweighted or weighted differences between two species at the high-level GO functional categories. However, to ensure the reliability of the differences detected, it is important to evaluate their statistical significance. It is also useful to search for differences at all levels of GO. Results: We propose a statistical approach to find reliable differences between the complete sets of genes encoded in two genomes at all levels of GO. The ge...
Genome comparison is very useful for deriving evolutionary and functional relationships between geno...
The Gene Ontology (GO) is an important component of modern biological knowledge representation with ...
Background: Gene ontology (GO) enrichment is commonly used for inferring biological meaning from sys...
Life scientists are often interested to compare two gene sets to gain insight into differences betwe...
The Gene Ontology (GO) resource can be used as a powerful tool to uncover the properties shared amon...
A recent paper (Nehrt et al., PLoS Comput. Biol. 7:e1002073, 2011) has proposed a metric for the fu...
Abstract Background How to compare studies on the basis of their biological significance is a proble...
Measuring the semantic similarity between Gene Ontology (GO) terms is an essential step in functiona...
MOTIVATION: The Gene Ontology (GO) is widely used to annotate molecular attributes of genes and gene...
In genomic and molecular biology domains, controlled vocabularies and ontologies are becoming of par...
International audienceBackground - The analysis of gene annotations referencing back to Gene Ontolog...
The analysis of gene annotations referencing back to Gene Ontology plays an important role in the in...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Genome comparisons are behind the powerful new annotation methods being developed to find all human ...
Motivation: The Gene Ontology (GO) is heavily used in systems biol-ogy, but the potential for redund...
Genome comparison is very useful for deriving evolutionary and functional relationships between geno...
The Gene Ontology (GO) is an important component of modern biological knowledge representation with ...
Background: Gene ontology (GO) enrichment is commonly used for inferring biological meaning from sys...
Life scientists are often interested to compare two gene sets to gain insight into differences betwe...
The Gene Ontology (GO) resource can be used as a powerful tool to uncover the properties shared amon...
A recent paper (Nehrt et al., PLoS Comput. Biol. 7:e1002073, 2011) has proposed a metric for the fu...
Abstract Background How to compare studies on the basis of their biological significance is a proble...
Measuring the semantic similarity between Gene Ontology (GO) terms is an essential step in functiona...
MOTIVATION: The Gene Ontology (GO) is widely used to annotate molecular attributes of genes and gene...
In genomic and molecular biology domains, controlled vocabularies and ontologies are becoming of par...
International audienceBackground - The analysis of gene annotations referencing back to Gene Ontolog...
The analysis of gene annotations referencing back to Gene Ontology plays an important role in the in...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Genome comparisons are behind the powerful new annotation methods being developed to find all human ...
Motivation: The Gene Ontology (GO) is heavily used in systems biol-ogy, but the potential for redund...
Genome comparison is very useful for deriving evolutionary and functional relationships between geno...
The Gene Ontology (GO) is an important component of modern biological knowledge representation with ...
Background: Gene ontology (GO) enrichment is commonly used for inferring biological meaning from sys...