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Open Access Research

The Drosophila anatomy ontology

Marta Costa1, Simon Reeve1, Gary Grumbling2 and David Osumi-Sutherland1*

Author Affiliations

1 FlyBase, Department of Genetics, University of Cambridge, Downing Street, Cambridge, UK

2 FlyBase, Department of Biology, Indiana University, 1001 E 3rd Street, Bloomington, IN, 47405-7005, USA

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Journal of Biomedical Semantics 2013, 4:32  doi:10.1186/2041-1480-4-32

Published: 18 October 2013

Abstract

Background

Anatomy ontologies are query-able classifications of anatomical structures. They provide a widely-used means for standardising the annotation of phenotypes and expression in both human-readable and programmatically accessible forms. They are also frequently used to group annotations in biologically meaningful ways. Accurate annotation requires clear textual definitions for terms, ideally accompanied by images. Accurate grouping and fruitful programmatic usage requires high-quality formal definitions that can be used to automate classification and check for errors. The Drosophila anatomy ontology (DAO) consists of over 8000 classes with broad coverage of Drosophila anatomy. It has been used extensively for annotation by a range of resources, but until recently it was poorly formalised and had few textual definitions.

Results

We have transformed the DAO into an ontology rich in formal and textual definitions in which the majority of classifications are automated and extensive error checking ensures quality. Here we present an overview of the content of the DAO, the patterns used in its formalisation, and the various uses it has been put to.

Conclusions

As a result of the work described here, the DAO provides a high-quality, queryable reference for the wild-type anatomy of Drosophila melanogaster and a set of terms to annotate data related to that anatomy. Extensive, well referenced textual definitions make it both a reliable and useful reference and ensure accurate use in annotation. Wide use of formal axioms allows a large proportion of classification to be automated and the use of consistency checking to eliminate errors. This increased formalisation has resulted in significant improvements to the completeness and accuracy of classification. The broad use of both formal and informal definitions make further development of the ontology sustainable and scalable. The patterns of formalisation used in the DAO are likely to be useful to developers of other anatomy ontologies.

Keywords:
Drosophila; Anatomy; Ontology; OWL; OBO; Gene Ontology; FlyBase; Description logic