Characterization of sequence contexts that favor alternative end joining at Cas9-induced double-strand breaks
Autor: | Terrence Hanscom, Nicholas Woodward, Rebecca Batorsky, Alexander J Brown, Steven A Roberts, Mitch McVey |
---|---|
Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Nucleic Acids Research. 50:7465-7478 |
ISSN: | 1362-4962 0305-1048 |
DOI: | 10.1093/nar/gkac575 |
Popis: | Alternative end joining (alt-EJ) mechanisms, such as polymerase theta-mediated end joining, are increasingly recognized as important contributors to inaccurate double-strand break repair. We previously proposed an alt-EJ model whereby short DNA repeats near a double-strand break anneal to form secondary structures that prime limited DNA synthesis. The nascent DNA then pairs with microhomologous sequences on the other break end. This synthesis-dependent microhomology-mediated end joining (SD-MMEJ) explains many of the alt-EJ repair products recovered following I-SceI nuclease cutting in Drosophila. However, sequence-specific factors that influence SD-MMEJ repair remain to be fully characterized. Here, we expand the utility of the SD-MMEJ model through computational analysis of repair products at Cas9-induced double-strand breaks for 1100 different sequence contexts. We find evidence at single nucleotide resolution for sequence characteristics that drive successful SD-MMEJ repair. These include optimal primer repeat length, distance of repeats from the break, flexibility of DNA sequence between primer repeats, and positioning of microhomology templates relative to preferred primer repeats. In addition, we show that DNA polymerase theta is necessary for most SD-MMEJ repair at Cas9 breaks. The analysis described here includes a computational pipeline that can be utilized to characterize preferred mechanisms of alt-EJ repair in any sequence context. |
Databáze: | OpenAIRE |
Externí odkaz: |