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Optimizing Non-viral CRISPR HDR for High-efficiency Large Knock-in in Primary T Cells and iPSCs

Integrated DNA Technologies (IDT) via YouTube

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Learn advanced CRISPR genome editing techniques in this 23-minute video focused on optimizing homology-directed repair (HDR) for large knock-ins in primary T cells and iPSCs. Explore critical research findings on achieving efficient chimeric antigen receptor (CAR) insertions in primary T lymphocytes through detailed examination of double strand break repair mechanisms, CRISPR reagent selection, and cell handling protocols. Gain insights into using Aldevron Nanoplasmids™ as effective HDR donor templates, with demonstrated success in both primary T cells and induced pluripotent stem cells.

Syllabus

How to optimize non-viral CRISPR HDR for high-efficiency large knock-in in primary T cells and iPSCs

Taught by

Integrated DNA Technologies (IDT)

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