The Cardiovascular Disease Ontology (CVDO) Mercedes Arguello Casteleiro 1, Julie Klein 2 and Robert Stevens 1 1 School of Computer Science, University.

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Presentation transcript:

The Cardiovascular Disease Ontology (CVDO) Mercedes Arguello Casteleiro 1, Julie Klein 2 and Robert Stevens 1 1 School of Computer Science, University of Manchester, Oxford road, Manchester, United Kingdom. 2 Institut National de la Santé et de la Recherche Médicale (INSERM), U1048, Toulouse, France. And Université Toulouse III Paul-Sabatier, Toulouse, France.

CVDKB content mRNA Protein Metabolites miRNA Peptides 34 publications (human and mouse): entries mRNAs (8423 unique) -123 entries miRNAs (107 unique) -395 entries proteins (332 unique) -48 entries metabolites (24 unique) -74 entries peptides Challenges: Connect the species (data: 80% human; 20% mouse) Connect the biological level Visual interface

CVDKB content mRNA Protein Metabolites miRNA Peptides proteins proteins metabolites 3569 miRNAs

CVDO reuse ontologies Ontology for Biomedical Investigations (OBI)

CVDO reuse ontologies Ontology for Biomedical Investigations (OBI)  Protein Ontology (PRO)  Sequence Ontology (SO)  Gene Ontology (GO)  Chemical Entities of Biological Interest Ontology (ChEBI)  NCBI Taxonomy Ontology  Cell Ontology (CL)  Uber Anatomy Ontology (UBERON)  Phenotypic Quality Ontology (PATO)  Relationship Ontology  Protein Ontology (PRO)  Sequence Ontology (SO)  Gene Ontology (GO)  Chemical Entities of Biological Interest Ontology (ChEBI)  NCBI Taxonomy Ontology  Cell Ontology (CL)  Uber Anatomy Ontology (UBERON)  Phenotypic Quality Ontology (PATO)  Relationship Ontology

LUCENE SOLR elasticsearch OWL (ontologies) OWL (ontologies) SPARQL (queries) SPARQL (queries) Converting OWL to New CVDO application

cvdkb.cs.man.ac.uk