The gene ontology's reference genome project: A unified framework for functional annotation across species

Pascale Gaudet; Rex Chisholm; Tanya Berardini; Emily Dimmer; Stacia R. Engel; Petra Fey; David P. Hill; Doug Howe; James C. Hu; Rachael Huntley; Varsha K. Khodiyar; Ranjana Kishore; Donghui Li; Ruth C. Lovering; Fiona McCarthy; Li Ni; Victoria Petri; Deborah A. Siegele; Susan Tweedie; Kimberly Van Auken; Valerie Wood; Siddhartha Basu; Seth Carbon; Mary Dolan; Christopher J. Mungall; Kara Dolinski; Paul Thomas; Michael Ashburner; Judith A. Blake; J. Michael Cherry; Suzanna E. Lewis

doi:10.1371/journal.pcbi.1000431

The gene ontology's reference genome project: A unified framework for functional annotation across species

Pascale Gaudet, Rex Chisholm, Tanya Berardini, Emily Dimmer, Stacia R. Engel, Petra Fey, David P. Hill, Doug Howe, James C. Hu, Rachael Huntley, Varsha K. Khodiyar, Ranjana Kishore, Donghui Li, Ruth C. Lovering, Fiona McCarthy, Li Ni, Victoria Petri, Deborah A. Siegele, Susan Tweedie, Kimberly Van AukenValerie Wood, Siddhartha Basu, Seth Carbon, Mary Dolan, Christopher J. Mungall, Kara Dolinski, Paul Thomas, Michael Ashburner, Judith A. Blake, J. Michael Cherry, Suzanna E. Lewis

Research output: Contribution to journal › Article › peer-review

136 Scopus citations

Abstract

The Gene Ontology (GO) is a collaborative effort that provides structured vocabularies for annotating the molecular function, biological role, and cellular location of gene products in a highly systematic way and in a species-neutral manner with the aim of unifying the representation of gene function across different organisms. Each contributing member of the GO Consortium independently associates GO terms to gene products from the organism(s) they are annotating. Here we introduce the Reference Genome project, which brings together those independent efforts into a unified framework based on the evolutionary relationships between genes in these different organisms. The Reference Genome project has two primary goals: to increase the depth and breadth of annotations for genes in each of the organisms in the project, and to create data sets and tools that enable other genome annotation efforts to infer GO annotations for homologous genes in their organisms. In addition, the project has several important incidental benefits, such as increasing annotation consistency across genome databases, and providing important improvements to the GO's logical structure and biological content.

Original language	English (US)
Article number	e1000431
Journal	PLoS computational biology
Volume	5
Issue number	7
DOIs	https://doi.org/10.1371/journal.pcbi.1000431
State	Published - Jul 2009
Externally published	Yes

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Modeling and Simulation
Ecology
Molecular Biology
Genetics
Cellular and Molecular Neuroscience
Computational Theory and Mathematics

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Gaudet, P., Chisholm, R., Berardini, T., Dimmer, E., Engel, S. R., Fey, P., Hill, D. P., Howe, D., Hu, J. C., Huntley, R., Khodiyar, V. K., Kishore, R., Li, D., Lovering, R. C., McCarthy, F., Ni, L., Petri, V., Siegele, D. A., Tweedie, S., ... Lewis, S. E. (2009). The gene ontology's reference genome project: A unified framework for functional annotation across species. PLoS computational biology, 5(7), Article e1000431. https://doi.org/10.1371/journal.pcbi.1000431

Gaudet, P, Chisholm, R, Berardini, T, Dimmer, E, Engel, SR, Fey, P, Hill, DP, Howe, D, Hu, JC, Huntley, R, Khodiyar, VK, Kishore, R, Li, D, Lovering, RC, McCarthy, F, Ni, L, Petri, V, Siegele, DA, Tweedie, S, Van Auken, K, Wood, V, Basu, S, Carbon, S, Dolan, M, Mungall, CJ, Dolinski, K, Thomas, P, Ashburner, M, Blake, JA, Cherry, JM & Lewis, SE 2009, 'The gene ontology's reference genome project: A unified framework for functional annotation across species', PLoS computational biology, vol. 5, no. 7, e1000431. https://doi.org/10.1371/journal.pcbi.1000431

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abstract = "The Gene Ontology (GO) is a collaborative effort that provides structured vocabularies for annotating the molecular function, biological role, and cellular location of gene products in a highly systematic way and in a species-neutral manner with the aim of unifying the representation of gene function across different organisms. Each contributing member of the GO Consortium independently associates GO terms to gene products from the organism(s) they are annotating. Here we introduce the Reference Genome project, which brings together those independent efforts into a unified framework based on the evolutionary relationships between genes in these different organisms. The Reference Genome project has two primary goals: to increase the depth and breadth of annotations for genes in each of the organisms in the project, and to create data sets and tools that enable other genome annotation efforts to infer GO annotations for homologous genes in their organisms. In addition, the project has several important incidental benefits, such as increasing annotation consistency across genome databases, and providing important improvements to the GO's logical structure and biological content.",

author = "Pascale Gaudet and Rex Chisholm and Tanya Berardini and Emily Dimmer and Engel, {Stacia R.} and Petra Fey and Hill, {David P.} and Doug Howe and Hu, {James C.} and Rachael Huntley and Khodiyar, {Varsha K.} and Ranjana Kishore and Donghui Li and Lovering, {Ruth C.} and Fiona McCarthy and Li Ni and Victoria Petri and Siegele, {Deborah A.} and Susan Tweedie and {Van Auken}, Kimberly and Valerie Wood and Siddhartha Basu and Seth Carbon and Mary Dolan and Mungall, {Christopher J.} and Kara Dolinski and Paul Thomas and Michael Ashburner and Blake, {Judith A.} and Cherry, {J. Michael} and Lewis, {Suzanna E.}",

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AU - Mungall, Christopher J.

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The gene ontology's reference genome project: A unified framework for functional annotation across species

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