Insertion sequence excision is enhanced by a protein that catalyzes branch migration and promotes microhomology-mediated end joining.

Insertion sequence (IS)-excision enhancer (IEE) promotes the excision of ISs in the genome of enterohemorrhagic Escherichia coli O157. Because IEE-dependent IS excision occurs in the presence of transposase, the process of IS transposition may be involved in IS excision; however, little is understood about the molecular mechanisms of IS excision. Our in vitro analysis revealed that IEE exhibits DNA-dependent ATPase activity, which is activated by branched DNA. IEE also catalyzes the branch migration of fork-structured DNA. These results suggest that IEE remodels branched structures of the IS transposition intermediate. Sequence analysis of recombination sites in IS-excision products suggested that microhomologous sequences near the ends of the IS are involved in IS excision. IEE promoted microhomology-mediated end joining (MMEJ), in which base pairing between 6-nucleotides complementary ends of two 3'-protruding DNAs and subsequent elongation of the paired DNA strand occurred. IS-excision frequencies were significantly decreased in cells producing IEE mutants that had lost either branch migration or MMEJ activity, which suggests that these activities of IEE are required for IS excision. Based on our results, we propose a model for IS excision triggered by IEE and transposase.