A benchmark comparison of CRISPRn guide-RNA design algorithms and generation of small single and dual-targeting libraries to boost screening efficiency
Sebastian Lukasiak,
Alex Kalinka,
Nikhil Gupta,
Angelos Papadopoulos,
Khalid Saeed,
Ultan McDermott,
Gregory James Hannon,
Douglas Ross-Thriepland,
David Walter
Affiliations
Sebastian Lukasiak
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Alex Kalinka
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Nikhil Gupta
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Angelos Papadopoulos
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Khalid Saeed
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Ultan McDermott
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Gregory James Hannon
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Douglas Ross-Thriepland
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
David Walter
Joint Astrazeneca-Cancer Research Horizons Functional Genomics Centre
Abstract Genome-wide CRISPR sgRNA libraries have emerged as transformative tools to systematically probe gene function. While these libraries have been iterated over time to be more efficient, their large size limits their use in some applications. Here, we benchmarked publicly available genome-wide single-targeting sgRNA libraries and evaluated dual targeting as a strategy for pooled CRISPR loss-of-function screens. We leveraged this data to design two minimal genome-wide human CRISPR-Cas9 libraries that are 50% smaller than other libraries and that preserve specificity and sensitivity, thus enabling broader deployment at scale.
