In the post-genomic era, the organization of genes into networks has played an important role in characterizing the functions of individual genes and the interplay between them. It is also vital in understanding complex cellular processes and their dynamics. Despite advances, gene network prediction still remains a challenge. Recently, heterogeneous genomic and proteomic data were integrated to generate a functional network of yeast genes. The Gene Ontology (GO) project has integrated information from multiple data sources to annotate genes to specific biological process. Generating gene networks using GO annotations is a novel and alternative way to efficiently integrate heterogeneous data sources. In this paper, we present a novel approac...
Motivation: One of the important goals of biological investigation is to predict the function of unc...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
Probabilistic functional gene networks are powerful theoretical frameworks for integrating heterogen...
In the post-genomic era, the organization of genes into networks has played an important role in cha...
Background: Computational methods that make use of heterogeneous biological datasets to predict gene...
the S. cerivisiae Genome Database were analyzed to calculate functional similarity of gene products....
Abstract Background The Gene Ontology (GO) is a community-based bioinformatics resource that employs...
We propose a novel method to identify functionally related genes based on comparisons of neighborhoo...
Abstract Background Gene Ontology (GO) has been widely used in biological databases, annotation proj...
The Gene Ontology (GO) is an important knowledge resource for biologists and bioinformaticians. This...
MotivationWhile the manually curated Gene Ontology (GO) is widely used, inferring a GO directly from...
A major goal of biology is the construction of networks that predict complex system behavior. We com...
\paragraph*{Background:} Gene Ontology (GO) is a standard vocabulary of functional terms and allows ...
Part 8: Pattern RecognitionInternational audienceRecently, the reconstruction of co-regulated gene n...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Motivation: One of the important goals of biological investigation is to predict the function of unc...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
Probabilistic functional gene networks are powerful theoretical frameworks for integrating heterogen...
In the post-genomic era, the organization of genes into networks has played an important role in cha...
Background: Computational methods that make use of heterogeneous biological datasets to predict gene...
the S. cerivisiae Genome Database were analyzed to calculate functional similarity of gene products....
Abstract Background The Gene Ontology (GO) is a community-based bioinformatics resource that employs...
We propose a novel method to identify functionally related genes based on comparisons of neighborhoo...
Abstract Background Gene Ontology (GO) has been widely used in biological databases, annotation proj...
The Gene Ontology (GO) is an important knowledge resource for biologists and bioinformaticians. This...
MotivationWhile the manually curated Gene Ontology (GO) is widely used, inferring a GO directly from...
A major goal of biology is the construction of networks that predict complex system behavior. We com...
\paragraph*{Background:} Gene Ontology (GO) is a standard vocabulary of functional terms and allows ...
Part 8: Pattern RecognitionInternational audienceRecently, the reconstruction of co-regulated gene n...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
Motivation: One of the important goals of biological investigation is to predict the function of unc...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
Probabilistic functional gene networks are powerful theoretical frameworks for integrating heterogen...