Communications Biology (Aug 2024)

High-complexity of DNA double-strand breaks is key for alternative end-joining choice

  • Zhiyang Hou,
  • Tianxiang Yu,
  • Qiyi Yi,
  • Yan Du,
  • Libin Zhou,
  • Ye Zhao,
  • Yuejin Wu,
  • Lijun Wu,
  • Ting Wang,
  • Po Bian

DOI
https://doi.org/10.1038/s42003-024-06640-5
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract The repair of DNA double-strand breaks (DSBs) through alternative non-homologous end-joining (alt-NHEJ) pathway significantly contributes to genetic instability. However, the mechanism governing alt-NHEJ pathway choice, particularly its association with DSB complexity, remains elusive due to the absence of a suitable reporter system. In this study, we established a unique Escherichia coli reporter system for detecting complex DSB-initiated alternative end-joining (A-EJ), an alt-NHEJ-like pathway. By utilizing various types of ionizing radiation to generate DSBs with varying degrees of complexity, we discovered that high complexity of DSBs might be a determinant for A-EJ choice. To facilitate efficient repair of high-complexity DSBs, A-EJ employs distinct molecular patterns such as longer micro-homologous junctions and non-templated nucleotide addition. Furthermore, the A-EJ choice is modulated by the degree of homology near DSB loci, competing with homologous recombination machinery. These findings further enhance the understanding of A-EJ/alt-NHEJ pathway choice.