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Project aims to generate new mouse genetic tools & maintain a repository critical for orofacial clefting research. Repository includes various Cre driver lines & mouse models for research community.
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Technology Project: Genetic Tools and Resources for Orofacial Clefting Research Leah Rae Donahue, Ph.D. Stephen Murray, Ph.D. Genetic Resource Science
Overall goal of this project To facilitate orofacial clefting research • by generating new mouse genetic tools • by providing a repository of mouse strains critical for the clefting research community
Mouse is a useful phenotypic and genetic model Richtsmeier et. al., 2000. Devel Dyn 217 (2):138 Genetic Resource Science
Aims • To generate 15 new, well-characterized Cre driver lines to facilitate orofacial clefting research. • Toprovide a repository for importation, cryopreservation, GQC, and distribution of mouse models and tool strains important for orofacial clefting research. Genetic Resource Science
Aim 1: To generate Cre driver lines Genetic Resource Science
Design Principles for the Cre Driver Project • That the generation of inducible Cre (CreERT2) drivers where practical would best complement and expand the existing set of Cre strains and best facilitate in vitro experimentation. • That a simultaneously expressed fluorescent reporter be incorporated into the design. • That a goal of 15 Cre driver lines be proposed, of which a subset would be chosen at a later date to allow data sets generated as part of the FaceBase effort to contribute to the design of future specific driver lines. • That the choice of driver promoters include a combination of highly conserved enhancer elements (from A. Visel and colleagues) and traditional gene promoters. • That BAC transgenics (for traditional promoters) and ROSA26 knock-ins (for conserved elements) provide the best overall approach. • That characterization of Cre function should be comprehensive between E11.5 and E15.5 using an established reporter (such as R26R-LacZ). • That potential non-specific Cre activity should be carefully evaluated using the established Cre characterization pipeline at TJL.
Unexpected Cre activity A. B. C. D. E. ChAT-Cre Brain Ovary Kidney Epididymus D. (High Mag.) F. G. H. I. J. Nes-Cre Brain Testis Lung Kidney Adrenal (High Mag.) K. L. M. N. O. Thy1-Cre Brain Heart Lung Kidney Muscle
Cre Repository website: direct access to strain information and characterization data www.jax.org/jaxmice/research/cre
Recently released via MGI… Searchable database of Cre activity
Aim 2: Toprovide a repository of mouse models and genetic tools for orofacial clefting research. Genetic Resource Science
Resource management is part of the JAX tradition • provided mouse strains and associated resources to the international scientific community for nearly 80 years • historically through individual JAX investigators • now through the JMS & the Genetic Resource Science Repository
The GRS Repository is….. • A collection of mouse resources ~ 4300 strains total ~ 1300 strains kept as breathing colonies ~ 3000 cryopreserved strains • Information about them • MGI • JAXMice • MPD • Specialized web sites
GRS Repository has three large resource programs • The Mouse Mutant Resource for spontaneous mutants, federally funded for 50 years • Induced Mutant Resource, repository for mice carrying transgenes, and targeted or chemically induced mutations, funded 1992 • The Special Mouse Strains Resource, panels of consomic and recombinant inbred strains, funded 2001
GRS Specialized Repositories Parkinson Disease Models Neuronal Tools Strains SMA Resource Friedreich’s Ataxia Resource Recent additions Cre Repository FaceBase, Models of Orofacial Clefting • Craniofacial Resource • Eye Models • Hearing Models • Cytogenetic Models • Neural Tube Defects Models • Cystic Fibrosis Resource • Type I Diabetes Resource • Alzheimer’s Disease Models
The FaceBase Repository at JAX • Seek new models • Import mice into specific pathogen-free status • Cryopreserve imported and newly developed Cre driver strains (no cost to FaceBase members) • Perform genetic quality control • Maintain live colonies for timely access to research models • Distribute mice through TJL's established distribution program • Create and maintain the TJL FaceBase website to promote the use of this resource and to facilitate access to mouse models and tools for orofacial research (linked to Hub, of course)