Nicks are the most common form of DNA damage, but they have only recently been shown to initiate damage that requires repair. Analysis of the pathways of nick repair in human cells has benefited from the development of enzymes that target nicks to specific sites in the genome and of reporters that enable rapid analysis of homology-directed repair and mutagenic end joining. Nicks undergo efficient repair by single-stranded oligonucleotide donors complementary to either the nicked or intact DNA strand, via pathways that are normally suppressed by RAD51. Here we discuss the details of reporter assays that take advantage of the convenience and sensitivity of flow cytometry to analyze pathways of repair at targeted DNA nicks. These assays are readily carried out in 96-well format cell culture plates, enabling mechanistic questions to be addressed by determining the contributions of specific factors by depletion and/or ectopic expression.
Keywords: CRISPR/Cas; Gene therapy; Genome engineering; Homology-directed repair; Mutagenesis; Recombination.
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