The mouse genome database (MGD): new features facilitating a model system

Janan T. Eppig^*, Judith A. Blake, Carol J. Bult, James A. Kadin, Joel E. Richardson and the Mouse Genome Database Group

The Jackson Laboratory 600 Main Street, Bar Harbor, ME 04609, USA

^*To whom correspondence should be addressed. Tel: +1 207 288 6422; Fax: +1 207 288 6132; Email: jte{at}informatics.jax.org

Received October 4, 2006. Accepted October 17, 2006.

The mouse genome database (MGD, http://www.informatics.jax.org/),the international community database for mouse, provides accessto extensive integrated data on the genetics, genomics and biologyof the laboratory mouse. The mouse is an excellent and uniqueanimal surrogate for studying normal development and diseaseprocesses in humans. Thus, MGD's primary goals are to facilitatethe use of mouse models for studying human disease and enablethe development of translational research hypotheses based oncomparative genotype, phenotype and functional analyses. CoreMGD data content includes gene characterization and functions,phenotype and disease model descriptions, DNA and protein sequencedata, polymorphisms, gene mapping data and genome coordinates,and comparative gene data focused on mammals. Data are integratedfrom diverse sources, ranging from major resource centers toindividual investigator laboratories and the scientific literature,using a combination of automated processes and expert humancuration. MGD collaborates with the bioinformatics communityon the development of data and semantic standards, and it incorporateskey ontologies into the MGD annotation system, including theGene Ontology (GO), the Mammalian Phenotype Ontology, and theAnatomical Dictionary for Mouse Development and the Adult Anatomy.MGD is the authoritative source for mouse nomenclature for genes,alleles, and mouse strains, and for GO annotations to mousegenes. MGD provides a unique platform for data mining and hypothesisgeneration where one can express complex queries simultaneouslyaddressing phenotypic effects, biochemical function and process,sub-cellular location, expression, sequence, polymorphism andmapping data. Both web-based querying and computational accessto data are provided. Recent improvements in MGD described hereinclude the incorporation of single nucleotide polymorphismdata and search tools, the addition of PIR gene superfamilyclassifications, phenotype data for NIH-acquired knockout mice,images for mouse phenotypic genotypes, new functional graphdisplays of GO annotations, and new orthology displays includingsequence information and graphic displays.

The Mouse Genome Database Group: M. T. Airey, A. Anagnostopoulos,R. Babiuk, R. M. Baldarelli, M. Baya, J. S. Beal, S. M. Bello,D. W. Bradt, D. L. Burkart, N. E. Butler, J. Campbell, L. E.Corbani, S. L. Cousins, D. J. Dahmen, H. Dene, M. E. Dolan,H. J. Drabkin, Kim L. Forthofer, K. S. Frazer, P. Frost, D.E. Geel, J. R. Lewis, I. Lu, L. J. Maltais, M. McAndrews-Hill,S. McClatchy, M. J. McCrossin, D. B. Miers, L. A. Miller, L.Ni, H. Onda, J. E. Ormsby, T. B. K. Reddy, D. J. Reed, B. Richards-Smith,D. R. Shaw, R. Sinclair, C. L. Smith, P. Szauter, M. Tomczuk,M. A. Updegraaf, L. L. Washburn, I. T. Witham and Y. Zhu

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The mouse genome database (MGD): new features facilitating a model system

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