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Article Abstract
With the increasing use of CRISPR-Cas9, detecting off-target events is essential for safety. Current methods primarily focus on guide RNA (gRNA) sequence mismatches, often overlooking the impact of DNA topology in regulating off-target activity. Here we present TOPO-seq, a high-throughput and sensitive method that identifies genome-wide off-target effects of Cas9 and base editors while accounting for DNA topology. TOPO-seq revealed that topology-induced off-target sites frequently harbor higher mismatches than the relaxed DNA sequence, with over 50% of off-target sites containing six mismatches, which are usually overlooked using previous methods. Applying TOPO-seq to three therapeutic gRNAs in hematopoietic stem cells identified 47 bona fide off-target loci, six of which are specifically induced by DNA topology. These findings highlight DNA topology as a regulator of off-target editing rates, establish TOPO-seq as a robust method for capturing DNA topology-induced off-target events and underscore its importance in off-target detection for developing safe genome-editing therapies.
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