Abstract Background How to compare studies on the basis of their biological significance is a problem of central importance in high-throughput genomics. Many methods for performing such comparisons are based on the information in databases of functional annotation, such as those that form the Gene Ontology (GO). Typically, they consist of analyzing gene annotation frequencies in some pre-specified GO classes, in a class-by-class way, followed by p-value adjustment for multiple testing. Enrichment analysis, where a list of genes is compared against a wider universe of genes, is the most common example. Results A new global testing procedure and a method incorporating it are presented. Instead of testing separately for each GO class, a single...
The size and volumes of genomic data resulting from the various genome projects are extremely huge a...
Out of 1732 genes/proteins, the 200 genes/proteins with the highest weight (estimated using POPLS-DA...
Automated protein annotation using the Gene Ontology (GO) plays an important role in the biosciences...
Many tools for the analysis and biological interpretation of the results of high throughput ex-perim...
The Gene Ontology (GO) resource can be used as a powerful tool to uncover the properties shared amon...
Genome sequencing projects produce large amounts of data that are stored in sequence databases. Entr...
Motivation: An important object in the analysis of high-throughput genomic data is to find an associ...
Background: Automated comparison of complete sets of genes encoded in two genomes can provide insigh...
Abstract Background The analysis of over-represented functional classes in a list of genes is one of...
Background Although a few comparison methods based on the biological meaning of gene lists have been...
There exists a plethora of measures to evaluate functional similarity (FS) between genes, which is a...
Abstract Background Biological knowledge, and therefore Gene Ontology annotation sets, for human gen...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Background Gene set analysis is a commonly used method for analysing microarray data by considering ...
MOTIVATION: The Gene Ontology (GO) is widely used to annotate molecular attributes of genes and gene...
The size and volumes of genomic data resulting from the various genome projects are extremely huge a...
Out of 1732 genes/proteins, the 200 genes/proteins with the highest weight (estimated using POPLS-DA...
Automated protein annotation using the Gene Ontology (GO) plays an important role in the biosciences...
Many tools for the analysis and biological interpretation of the results of high throughput ex-perim...
The Gene Ontology (GO) resource can be used as a powerful tool to uncover the properties shared amon...
Genome sequencing projects produce large amounts of data that are stored in sequence databases. Entr...
Motivation: An important object in the analysis of high-throughput genomic data is to find an associ...
Background: Automated comparison of complete sets of genes encoded in two genomes can provide insigh...
Abstract Background The analysis of over-represented functional classes in a list of genes is one of...
Background Although a few comparison methods based on the biological meaning of gene lists have been...
There exists a plethora of measures to evaluate functional similarity (FS) between genes, which is a...
Abstract Background Biological knowledge, and therefore Gene Ontology annotation sets, for human gen...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Background Gene set analysis is a commonly used method for analysing microarray data by considering ...
MOTIVATION: The Gene Ontology (GO) is widely used to annotate molecular attributes of genes and gene...
The size and volumes of genomic data resulting from the various genome projects are extremely huge a...
Out of 1732 genes/proteins, the 200 genes/proteins with the highest weight (estimated using POPLS-DA...
Automated protein annotation using the Gene Ontology (GO) plays an important role in the biosciences...