Show simple item record Ball, Catherine A. Hardy, Nigel Taylor, Chris F. Julian Jr, Randall K. Jones, Andrew R. Miller, Michael Whetzel, Patricia L. Pizarro, Angel White, Joseph A. Aebersold, Ruedi Spellman, Paul Laursen, Kent Hussey, Peter Apweiler, Rolf Hubbard, Simon J. DeGreef, James Hermjakob, Henning Igra, Mark Paton, Norman W. Sansone, Susanna-Assunta Brazma, Alvis Oliver, Stephen G. Sarkans, Ugis Stoeckert Jr, Christian J. Jenkins, Helen 2007-12-05T14:21:55Z 2007-12-05T14:21:55Z 2007-12-05
dc.identifier.citation Ball , C A , Hardy , N , Taylor , C F , Julian Jr , R K , Jones , A R , Miller , M , Whetzel , P L , Pizarro , A , White , J A , Aebersold , R , Spellman , P , Laursen , K , Hussey , P , Apweiler , R , Hubbard , S J , DeGreef , J , Hermjakob , H , Igra , M , Paton , N W , Sansone , S-A , Brazma , A , Oliver , S G , Sarkans , U , Stoeckert Jr , C J & Jenkins , H 2007 , ' The Functional Genomics Experiment model (FuGE): an extensible framework for standards in functional genomics. ' Unknown Journal , pp. 1127-1133 . en
dc.identifier.other PURE: 82254
dc.identifier.other dspace: 2160/389
dc.description Andrew R Jones, Michael Miller, Ruedi Aebersold, Rolf Apweiler, Catherine A Ball, Alvis Brazma, James DeGreef, Nigel Hardy, Henning Hermjakob, Simon J Hubbard, Peter Hussey, Mark Igra, Helen Jenkins, Randall K Julian Jr, Kent Laursen, Stephen G Oliver, Norman W Paton, Susanna-Assunta Sansone, Ugis Sarkans, Christian J Stoeckert Jr, Chris F Taylor, Patricia L Whetzel, Joseph A White, Paul Spellman and Angel Pizarro The Functional Genomics Experiment model (FuGE): an extensible framework for standards in functional genomics. Nature Biotechnology 25(10):1127-1133 (doi:10.1038/nbt1347) en
dc.description.abstract The Functional Genomics Experiment data model (FuGE) has been developed to facilitate convergence of data standards for high-throughput, comprehensive analyses in biology. FuGE models the components of an experimental activity that are common across different technologies, including protocols, samples and data. FuGE provides a foundation for describing entire laboratory workflows and for the development of new data formats. The Microarray Gene Expression Data society and the Proteomics Standards Initiative have committed to using FuGE as the basis for defining their respective standards, and other standards groups, including the Metabolomics Standards Initiative, are evaluating FuGE in their development efforts. Adoption of FuGE by multiple standards bodies will enable uniform reporting of common parts of functional genomics workflows, simplify data-integration efforts and ease the burden on researchers seeking to fulfill multiple minimum reporting requirements. Such advances are important for transparent data management and mining in functional genomics and systems biology. en
dc.format.extent 7 en
dc.language.iso eng
dc.relation.ispartof Unknown Journal en
dc.title The Functional Genomics Experiment model (FuGE): an extensible framework for standards in functional genomics. en
dc.type Text en
dc.type.publicationtype Article (Journal) en
dc.contributor.institution Department of Computer Science en
dc.description.status Peer reviewed en

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