dcGO

dcGO
Content
Description The dcGO database is a comprehensive domain-centric ontology resource for protein domains.
Data types
captured
Protein domains, ontologies
Contact
Research center University of Bristol
Primary citation PMID 23161684
Access
Website The dcGO website
Download URL dcGO DOWNLOAD
Tools
Web PSnet, sTOL, dcGOR, dcGO Predictor, dcGO Enrichment

dcGO is a comprehensive ontology database for protein domains.[1] As an ontology resource, dcGO integrates Open Biomedical Ontologies from a variety of contexts, ranging from functional information like Gene Ontology to others on enzymes and pathways, from phenotype information across major model organisms to information about human diseases and drugs. As a protein domain resource, dcGO includes annotations to both the individual domains and supra-domains (i.e., combinations of two or more successive domains).

Concepts

There are two key concepts behind dcGO. The first concept is to label protein domains with ontology, for example, with Gene Ontology. That is why it is called dcGO, domain-centric Gene Ontology. The second concept is to use ontology-labeled protein domains for, for example, protein function prediction. Put it in a simple way, the first concept is about how to create dcGO resource, and the second concept is about how to use dcGO resource.

Timelines

Webserver

Recent use of dcGO is to build a domain network from a functional perspective for cross-ontology comparisons,[5] and to combine with species tree of life (sTOL) to provide a phylogenentic context to function and phenotype.[6]

Software

Open-source software dcGOR is developed using R programming language to analyse domain-centric ontologies and annotations.[7] Supported analyses include:

Functionalities under active development are:

See also

References

  1. Fang, H.; Gough, J. (2012). "DcGO: Database of domain-centric ontologies on functions, phenotypes, diseases and more". Nucleic Acids Research. 41 (Database issue): D536–D544. doi:10.1093/nar/gks1080. PMC 3531119Freely accessible. PMID 23161684.
  2. De Lima Morais, D. A.; Fang, H.; Rackham, O. J. L.; Wilson, D.; Pethica, R.; Chothia, C.; Gough, J. (2010). "SUPERFAMILY 1.75 including a domain-centric gene ontology method". Nucleic Acids Research. 39 (Database issue): D427–D434. doi:10.1093/nar/gkq1130. PMC 3013712Freely accessible. PMID 21062816.
  3. Fang, H.; Gough, J. (2013). "A domain-centric solution to functional genomics via dcGO Predictor". BMC Bioinformatics. 14 Suppl 3: S9. doi:10.1186/1471-2105-14-S3-S9 (inactive 2015-12-04). PMC 3584936Freely accessible. PMID 23514627.
  4. Radivojac, P.; Clark, W. T.; Oron, T. R.; Schnoes, A. M.; Wittkop, T.; Sokolov, A.; Graim, K.; Funk, C.; Verspoor, K.; Ben-Hur, A.; Pandey, G.; Yunes, J. M.; Talwalkar, A. S.; Repo, S.; Souza, M. L.; Piovesan, D.; Casadio, R.; Wang, Z.; Cheng, J.; Fang, H.; Gough, J.; Koskinen, P.; Törönen, P.; Nokso-Koivisto, J.; Holm, L.; Cozzetto, D.; Buchan, D. W. A.; Bryson, K.; Jones, D. T.; Limaye, B. (2013). "A large-scale evaluation of computational protein function prediction". Nature Methods. 10 (3): 221–227. doi:10.1038/nmeth.2340. PMC 3584181Freely accessible. PMID 23353650.
  5. Fang, H; Gough, J (2013). "A disease-drug-phenotype matrix inferred by walking on a functional domain network". Molecular BioSystems. 9 (7): 1686–96. doi:10.1039/c3mb25495j. PMID 23462907.
  6. Fang, H.; Oates, M. E.; Pethica, R. B.; Greenwood, J. M.; Sardar, A. J.; Rackham, O. J. L.; Donoghue, P. C. J.; Stamatakis, A.; De Lima Morais, D. A.; Gough, J. (2013). "A daily-updated tree of (sequenced) life as a reference for genome research". Scientific Reports. 3. doi:10.1038/srep02015.
  7. Fang, H (2014). "DcGOR: An R package for analysing ontologies and protein domain annotations". PLoS Computational Biology. 10 (10): e1003929. doi:10.1371/journal.pcbi.1003929. PMC 4214615Freely accessible. PMID 25356683.

External links

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