Add to ORKGGene ontology (GO) which described a biological concept of gene has attracted attention as an index for measuring semantic similarity of gene. This paper considers a new method for measuring the semantic similarity of GO through an extension and combination of two existing methods by Resnik and Wang et al. in order to improve their drawbacks of effects of shallow annotation. It is shown that the proposed method is superior to existing methods through experiments with pathway data
International audienceThe Gene Ontology (GO) is a well known controlled vocabulary describing the bi...
Quantitative measure of functional similarity between gene products is im-portant for post-genomics ...
Abstract Background The Gene Ontology (GO) is a well known controlled vocabulary describing the biol...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
The rapid growth of biomedical data annotated by Gene Ontology (GO) vocabulary demands an intelligen...
Background Gene ontology (GO) is a well-structured knowledge of biological terms that desc...
Background: Various measures of semantic similarity of terms in bio-ontologies such as the Gene Onto...
Background: Various measures of semantic similarity of terms in bio-ontologies such as the Gene Onto...
AbstractExisting methods for computing the semantic similarity between Gene Ontology (GO) terms are ...
Background The Gene Ontology (GO) is a dynamic, controlled vocabulary that describes the cellular f...
Explicit comparisons based on the semantic similarity of Gene Ontology terms provide a quantitative ...
International audienceThe Gene Ontology (GO) is a well known controlled vocabulary describing the bi...
Quantitative measure of functional similarity between gene products is im-portant for post-genomics ...
Abstract Background The Gene Ontology (GO) is a well known controlled vocabulary describing the biol...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
Gene ontology (GO) which described a biological concept of gene has attracted attention as an index ...
The rapid growth of biomedical data annotated by Gene Ontology (GO) vocabulary demands an intelligen...
Background Gene ontology (GO) is a well-structured knowledge of biological terms that desc...
Background: Various measures of semantic similarity of terms in bio-ontologies such as the Gene Onto...
Background: Various measures of semantic similarity of terms in bio-ontologies such as the Gene Onto...
AbstractExisting methods for computing the semantic similarity between Gene Ontology (GO) terms are ...
Background The Gene Ontology (GO) is a dynamic, controlled vocabulary that describes the cellular f...
Explicit comparisons based on the semantic similarity of Gene Ontology terms provide a quantitative ...
International audienceThe Gene Ontology (GO) is a well known controlled vocabulary describing the bi...
Quantitative measure of functional similarity between gene products is im-portant for post-genomics ...
Abstract Background The Gene Ontology (GO) is a well known controlled vocabulary describing the biol...