Save 40% on Coursera Plus Annual

Class Central is learner-supported. When you buy through links on our site, we may earn an affiliate commission.

YouTube

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

Integrated DNA Technologies (IDT) via YouTube

Start learning Write review
Boot.dev Ad

The Most Addictive Python and SQL Courses

Learn More → Unihackers Ad

Launch Your Cybersecurity Career in 6 Months

Learn More →

Overview

Coursera Spring Sale
40% Off Coursera Plus Annual!
Grab it
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)

Reviews

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

Start learning

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Sign up for free
Someone learning on their laptop while sitting on the floor.