End-joining repair of double-strand breaks in Drosophila melanogaster is largely, DNA ligase IV independent

Repair of DNA double-strand breaks can occur by either nonhomologous end joining or homologous, recombination. Most nonhomologous end joining requires a specialized ligase, DNA ligase IV (Lig4). In Drosophila melanogaster. double-strand breaks created by excision of a P element are usually repaired by a homologous recombination pathway called synthesis-dependent strand annealing (SDSA). SDSA requires strand invasion mediated by DmRad51, the product of the spn-A gene. In spn-A mutants, repair proceeds through a nonconservative pathway involving the annealing of microhomologies found within the 17-nt overhangs produced by P excision. We report here that end joining of P-element breaks in the absence of DmRad51 does not require Drosophila LIG4. In wild-type flies, SDSA is sometimes incomplete, and repair is finished by an end-joining pathway that also appears to be independent of LIG4. Loss of LIG4 does not increase sensitivity to ionizing radiation in late-stage larvae, but lig4 spn-A double mutants, do show heightened sensitivity relative to spn-A single mutants. Together, our results suggest that a LIG4 independent end-joining pathway is responsible for the majority of double-strand break repair in the absence of homologous recombination in flies.