Arrayed siRNA screens are a powerful tool to look at very precise perturbations in cellular pathways.
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3D culturing is a valuable and increasingly popular cell culture technique. This model recapitulates some physiological characteristics of tissues and tumors driven by cell-cell and cell-matrix contacts, circumventing the need for in vivo experiments in some cases.
A blog article and application note demonstrating the use of Revvity's Pin-point base editing platform with sensitive cell types
Reliable and consistent quality reagents are critical to experimental success and reproducibility. Learn about how Dharmacon RNA and DNA oligonucleotide synthesis delivers that level of quality, and explore troubleshooting tips for investigating unexpected results in your experiments.
Knowing the distinction between "synthesis scale" and "yield" is critical when ordering custom oligos. Here we explain the terms, so you can make sure to get the right amount for your needs.
All you need to know if you're thinking about labeling your custom oligos with fluorophores.
In this blog, we will look at what to do once your gene editing experiment is finished and the different ways you will be able to characterize the successfully modified cell lines.
Describes methods of testing your cell culture for retroviral recombination.
CRISPR gene editing and siRNA gene silencing require the efficient delivery of the necessary reagents. This is easily achieved by optimizing delivery conditions. In this blog post we discuss techniques for optimization of a reverse transfection conditions and how to set up a 96 well plate to test 30 transfection conditions.
Learn how to use Dharmacon™ Edit-R™ CRISPR reagents to make functional knockout models in human iPSCs.