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Improving Physiological Relevance in Functional Genomics Screens

Colorful pattern of DNA strands interwoven in a complex structure
Credit: iStock

CRISPR-Cas9 genome editing and induced pluripotent stem cells (iPSCs) are both Nobel Prize-winning technologies that represent a powerful tool for functional genomic screening and drug discovery. 

Physiologically relevant model systems, like iPSCs, have a crucial advantage in enabling researchers to interrogate disease states more accurately, leading to more efficient and successful drug target identification and validation. However, editing iPSCs can be extremely time-consuming, inefficient and often unsuccessful. 

This poster describes the use of CRISPR-ready iPSCs, which are engineered to constitutively express Cas9, enabling the rapid generation of high-efficiency gene knockouts and CRISPR screens in a functional, physiologically relevant cell background.


Download this poster to discover how to:

  • How CRISPR-ready cells were developed to ensure constitutive expression of Cas9
  • How to use them to interrogate the relationship between genotype and phenotype in a physiologically relevant iPSC-derived cell type
  • How to generate high-efficiency knockouts and perform large scale screens for drug target identification and validation
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