Abstract
BackgroundThe Gene Ontology (GO) (http://www.geneontology.org/) contains a set of terms for describing the activity and actions of gene products across all kingdoms of life. Each of these activities is executed in a location within a cell or in the vicinity of a cell. In order to capture this context, the GO includes a sub-ontology called the Cellular Component (CC) ontology (GO-CCO). The primary use of this ontology is for GO annotation, but it has also been used for phenotype annotation, and for the annotation of images. Another ontology with similar scope to the GO-CCO is the Subcellular Anatomy Ontology (SAO), part of the Neuroscience Information Framework Standard (NIFSTD) suite of ontologies. The SAO also covers cell components, but in the domain of neuroscience.DescriptionRecently, the GO-CCO was enriched in content and links to the Biological Process and Molecular Function branches of GO as well as to other ontologies. This was achieved in several ways. We carried out an amalgamation of SAO terms with GO-CCO ones; as a result, nearly 100 new neuroscience-related terms were added to the GO. The GO-CCO also contains relationships to GO Biological Process and Molecular Function terms, as well as connecting to external ontologies such as the Cell Ontology (CL). Terms representing protein complexes in the Protein Ontology (PRO) reference GO-CCO terms for their species-generic counterparts. GO-CCO terms can also be used to search a variety of databases.ConclusionsIn this publication we provide an overview of the GO-CCO, its overall design, and some recent extensions that make use of additional spatial information. One of the most recent developments of the GO-CCO was the merging in of the SAO, resulting in a single unified ontology designed to serve the needs of GO annotators as well as the specific needs of the neuroscience community.
Highlights
The Gene Ontology (GO) contains a set of terms for describing the activity and actions of gene products across all kingdoms of life
In this publication we provide an overview of the GO-CCO, its overall design, and some recent extensions that make use of additional spatial information
One of the most recent developments of the GO-CCO was the merging in of the Subcellular Anatomy Ontology (SAO), resulting in a single unified ontology designed to serve the needs of GO annotators as well as the specific needs of the neuroscience community
Summary
The Gene Ontology (GO) (http://www.geneontology.org/) contains a set of terms for describing the activity and actions of gene products across all kingdoms of life. The primary use of this ontology is for GO annotation, but it has been used for phenotype annotation, and for the annotation of images Another ontology with similar scope to the GO-CCO is the Subcellular Anatomy Ontology (SAO), part of the Neuroscience Information Framework Standard (NIFSTD) suite of ontologies. The Gene Ontology (GO) [1,2] contains a set of terms for describing the activity and actions of gene products across all kingdoms of life Each of these activities is executed in a cellular location or a location outside in the vicinity of a cell. The primary use of this ontology is for GO annotation, but it has been used for phenotype annotation Another ontology with a similar scope to the GO-CCO is the Subcellular Anatomy Ontology (SAO) [3], part of the Neuroscience Information Framework Standard (NIFSTD) [4] suite of ontologies. SAO has a richer set of spatial relationships than the GO, modeled in part after the Foundational Model of Anatomy (FMA) [5]
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