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Related Experiment Videos

Visualizing the laboratory mouse: capturing phenotype information.

Mark Strivens1, Janan T Eppig

  • 1Informatics Group, Mammalian Genetics Unit, UK Mouse Genome Centre, Harwell, Oxfordshire, OX11 ORD, UK.

Genetica
|December 29, 2004
PubMed
Summary
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Developing new phenotypic alleles requires advanced data management. The Mouse Genome Database (MGD) will integrate this data, providing public access to allele information and testing details.

Area of Science:

  • Genetics and Genomics
  • Bioinformatics
  • Animal Models

Background:

  • Mutagenesis programs are generating numerous new phenotypic alleles.
  • Managing and coordinating large-scale genetic studies requires robust informatics infrastructure.
  • Capturing and disseminating trait data, heritability, and animal status is crucial for the research community.

Purpose of the Study:

  • To establish a centralized data management system for new phenotypic alleles generated by mutagenesis programs.
  • To ensure sophisticated data management for treatment, breeding, and testing protocols.
  • To provide public access to integrated genetic and phenotypic data.

Main Methods:

  • The Mouse Genome Database (MGD) will serve as the central integration point.

Related Experiment Videos

  • Registering new alleles and providing accession identifiers.
  • Capturing detailed phenotypic descriptions and linking to testing centers.
  • Main Results:

    • MGD will integrate data from various mutagenesis programs.
    • Phenotypic descriptions and allele information will be standardized.
    • Public access to unified allele searches will be enabled.

    Conclusions:

    • MGD is essential for managing and disseminating data from large-scale mutagenesis efforts.
    • Centralized data management facilitates research on phenotypic variation.
    • Public access to integrated data accelerates genetic research and discovery.