Generating CRISPR/Cas9 Mouse & Rat Models

The use of CRISPR/Cas9* genome editing for the creation of unique rat and mouse models of human disease has revolutionized the field, with many advantages including: time-savings, potential reduction in animal usage and overall cost effectiveness. However, creating custom CRISPR mice and rats also brings other considerations in terms of the potential for off-target effects, mosaicism and mutations, and possible drawbacks for creating more complex genome modifications.

white mice

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Rodent Model Genetic Quality Control
Learn the essentials of genetic QC programs: inbred/outbred colony quality control, transgenic rodent model creation, rederivation, and cryopreservation techniques. Download Now

All our services use VAF™ (SOPF) / Elite foster females and include expert husbandry and weaning of the result chimeric or founder mice. Extended packages include breeding up to the F1 generation along with sample collection and screening of a pre-determined number of mice.

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*CRISPR/CAS9 used under licenses to granted and pending US and international patents from The Broad Institute and ERS Genomics Limited.


Related Blogs

  • How CRISPR Accelerates Research

    CRISPR enables transgenic mice to be generated more quickly and more precisely than ever. The classical approach to editing a genome is effective, but slow. Using CRISPR to selectively introduce DNA damage and letting cells repair themselves naturally is faster. This method reduces the timeline from months or years to a matter of weeks. Read the full story

  • New Gene Editing Tools, Fewer Animals?

    The use of CRISPR/Cas9 to edit genomes is resulting both in reductions in the number of genetically altered animals and in increases. "In individual studies, there is a great opportunity for reduction," says one scientist. She calls for "an increase in sophistication in genome editing... [and] in the sensitivity and reproducibility of in vivo phenotyping tests. Read the full story

  • How CRISPR Could Help Speed Drug Development

    CRISPR's relative ease of use is expected to contribute to the development of more complex cellular assays with improved predictability for drug therapies. Among the benefits: reduced attrition rates of compounds and improved target validation. Read the full story

hand replacing part of a DNA molecule

Precision Gene Humanization in Mice: Bridging the Translational Gap
View this webinar to learn how our CRISPR/Cas9-driven approach creates fully humanized mouse models that dramatically improve your research outcomes. Watch Replay


Frequently Asked Questions (FAQs) about CRISPR