Group II Intron-Like Reverse Transcriptases Function in Double-Strand Break Repair via Microhomology-Mediated End Joining

Bacteria encode free-standing reverse transcriptases (RTs) of unknown function that are closely related to group II intron-encoded RTs. Here, we found that a Pseudomonas aeruginosa group II intron-like RT (G2L4 RT) with YIDD instead of YADD at its active site functions in DNA repair in its native host and when transferred into Escherichia coli. G2L4 RT has biochemical activities strikingly similar to those of human DNA repair polymerase theta and uses them for translesion DNA synthesis and double-strand break repair (DSBR) via microhomology-mediated end-joining (MMEJ) in vitro and in vivo. We also found that a group II intron RT can function similarly to G2L4 RT in DNA repair, with reciprocal substitutions at the active site showing an I residue favors MMEJ and an A residue favors primer extension in both enzymes. The DNA repair functions of these enzymes utilize conserved structural features of non-LTR-retroelement RTs, including human LINE-1 and other eukaryotic non-LTR-retrotransposon RTs, suggesting such enzymes may have an inherent ability to function in DSBR in a wide range of organisms.