An Improved Solution for Generating Large CRISPR HDR Knock-Ins
![An Improved Solution for Generating Large CRISPR HDR Knock-Ins content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/366607/an-improved-solution-for-generating-large-crispr-hdr-knock-ins-366607-960x540.jpg?cb=11988508)
CRISPR-based homology-directed repair (HDR) is an invaluable tool to facilitate specific mutations in a genomic region of interest in research studies. While many methods have been reported for improving HDR efficiency, achieving precise changes via HDR remains a challenge, particularly for large knock-ins. These insertions can be generated via HDR using enzymatically generated donor templates.
Watch this webinar to learn more about:
- How dsDNA donor templates with novel end-modifications improve the frequency of HDR and reduce homology-independent (blunt) insertion events
- How the addition of Alt-R HDR Enhancer V2, a small molecule compound, can further improve HDR rates
- Design considerations when using large dsDNA templates for successful HDR experiments
Speakers
![A picture of Jessica Woodley, MS](https://assets.technologynetworks.com/production/dynamic/images/people/642/jessica-woodley-ms-100x100.jpg?cb=20221017082835)
Jessica Woodley, MS
Research Scientist
![A picture of Mollie Schubert, MS](https://assets.technologynetworks.com/production/dynamic/images/people/643/mollie-schubert-ms-100x100.jpg?cb=20221017082835)
Mollie Schubert, MS
Research Scientist