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S. Hussain, Rahul Majumdar, H. Narang, Erika S. Buechelmaier, G. Moore, Pavithran T Ravindran, J. Leeman, Yi Li, Manisha Jalan, K. S. Anderson, Andrea Farina, Rekha Soni, N. Mohibullah, E. Hamzić, Xiaoqing Rong-Mullins, Christopher J. Sifuentes, R. Damerla, A. Viale, S. Powell, D. Higginson
0 27. 10. 2020.

DSBR-Seq Reveals Differential Roles of BRCA1 and BRCA2 in Alternative End Joining and Single Strand Templated Repair

Double strand break (DSB) repair mainly occurs through 3 pathways: non-homologous end-joining (NHEJ), alternative end-joining (Alt-EJ), and homologous recombination (HR). We present an assay system that enables simultaneous measurement of all three pathways using Cas9-generated DSBs and next generation sequencing to profile and quantify pathway choice. The assay system has provided several insights. First, absence of the key Alt-EJ factor Pol q only abrogates ~50% of total Alt-EJ. Second, single-strand templated repair (SSTR) requires BRCA1 and MRE11 activity, but not BRCA2, establishing that SSTR commonly used in genome editing is not conventional HR. Third, BRCA1 promotes Alt-EJ usage at two-ended DSBs in contrast to BRCA2. These fundamental differences between BRCA1 and BRCA2 deficiency have implications for therapeutic targeting of HR-deficient cancers. This assay can be used in any system which permits Cas9 delivery and, importantly, allows rapid genotype-to-phenotype correlation in isogenic cell line pairs.


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