CasKAS: direct profiling of genome-wide dCas9 and Cas9 specificity using ssDNA mapping

Georgi K Marinov,Samuel H Kim,Michael C Bassik,Soon Il Higashino,Alexandro E Trevino,Lacramioara Bintu,Anshul Kundaje,Josh Tycko,Chuan He,William J Greenleaf,S Tansu Bagdatli,Tong Wu

doi:10.1186/s13059-023-02930-z

CasKAS: direct profiling of genome-wide dCas9 and Cas9 specificity using ssDNA mapping

Georgi K Marinov, Samuel H Kim + Show 10 more

Open Access

https://doi.org/10.1186/s13059-023-02930-z

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Journal: Genome Biology	Publication Date: Apr 21, 2023
Citations: 4	License type: open-access

Affiliation: Stanford University, Dynamic Systems (United States), University of Chicago, Howard Hughes Medical Institute, Chan Zuckerberg Initiative (United States)

#Epigenome Editing #CRISPR-mediated Genome Editing + Show 8 more

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Abstract

Detecting and mitigating off-target activity is critical to the practical application of CRISPR-mediated genome and epigenome editing. While numerous methods have been developed to map Cas9 binding specificity genome-wide, they are generally time-consuming and/or expensive, and not applicable to catalytically dead CRISPR enzymes. We have developed CasKAS, a rapid, inexpensive, and facile assay for identifying off-target CRISPR enzyme binding and cleavage by chemically mapping the unwound single-stranded DNA structures formed upon binding of a sgRNA-loaded Cas9 protein. We demonstrate this method in both in vitro and in vivo contexts.

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