A comparison of gene editing techniques and their paths to the clinic, from ZFNs and megaTALs to CRISPR-Cas9.
Convenient and reliable monitoring of knockdown of genes pivotal in neuroblastoma pathogenesis using RT-qPCR.
Learn about fast, cost-effective digital PCR methods for detecting CRISPR-mediated genome edits present at frequencies of <0.5%.
Better model systems. Faster, more comprehensive screens. Find out how CRISPR is changing the pace of R&D.
Find out how Bio-Rad products support and accelerate gene editing.
Browse publications that used Bio-Rad electroporation systems for delivery of CRISPR gene editing machinery.
Learn about different gene therapy approaches and see how CRISPR is accelerating their paths to the clinic.
See how incorporating flow cytometry can accelerate your CRISPR/Cas-9 workflow.
Introduction to Droplet Digital PCR, including rare mutation detection and gene expression analysis.
Dr. Hoppe discusses using CRISPR to screen macrophage function to develop immunotherapies.
Listen to Dr. Chengzu Long discuss how he uses CRISPR to correct Duchenne muscular dystrophy mutations.
Listen to Dr. Jouvenot discuss how CRISPR gene editing is changing Pharma and Biotech R&D.
Dr. Jouvenot provides an overview of the main gene editing techniques used in R&D laboratories around the world.
See how incorporating flow cytometry into your gene editing workflow can accelerate time to results.