RecQ DNA helicase HRDC domains are critical determinants in Neisseria gonorrhoeae pilin antigenic variation and DNA repair.

Neisseria gonorrhoeae (Gc), an obligate human bacterial pathogen, utilizes pilin antigenic variation to evade host immune defences. Antigenic variation is driven by recombination between expressed (pilE) and silent (pilS) copies of the pilin gene, which encodes the major structural component of the type IV pilus. We have investigated the role of the GcRecQ DNA helicase (GcRecQ) in this process. Whereas the vast majority of bacterial RecQ proteins encode a single 'Helicase and RNase D C-terminal' (HRDC) domain, GcRecQ encodes three tandem HRDC domains at its C-terminus. Gc mutants encoding versions of GcRecQ with either two or all three C-terminal HRDC domains removed are deficient in pilin variation and sensitized to UV light-induced DNA damage. Biochemical analysis of a GcRecQ protein variant lacking two HRDC domains, GcRecQDeltaHRDC2,3, shows it has decreased affinity for single-stranded and partial-duplex DNA and reduced unwinding activity on a synthetic Holliday junction substrate relative to full-length GcRecQ in the presence of Gc single-stranded DNA-binding protein (GcSSB). Our results demonstrate that the multiple HRDC domain architecture in GcRecQ is critical for structure-specific DNA binding and unwinding, and suggest that these features are central to GcRecQ's roles in Gc antigenic variation and DNA repair.