Small-molecule sensitization of RecBCD helicase-nuclease to a Chi hotspot-activated state

Abstract

ABSTRACTCoordination of multiple activities of complex enzymes is critical for life, including transcribing, replicating, and repairing DNA. Bacterial RecBCD helicase-nuclease must coordinate DNA unwinding and cutting to repair broken DNA. Starting at a DNA end, RecBCD unwinds DNA with its fast RecD helicase on the 5’-ended strand and its slower RecB helicase on the 3’-ended strand. At Chi hotspots (5’GCTGGTGG3’), RecB’s nuclease cuts the 3’-ended strand and loads RecA strand-exchange protein onto it. We report here that a small molecule NSAC1003, a sulfanyltriazolobenzimidazole, mimics Chi sites by sensitizing RecBCD to cut DNA at a Chi-independent position a certain percent of the DNA substrate’s length. This percent decreases with increasing NSAC1003 concentration. Our data indicate that NSAC1003 slows RecB and sensitizes it to cut DNA when the leading helicase RecD stops at the DNA distal end. Two previously described RecBCD mutants altered in the RecB ATP-binding site also have this property, but uninhibited wild-type RecBCD lacks it. Computation docks NSAC1003 into the ATP-binding site, suggesting that NSAC1003 acts directly on RecB. NSAC1003 will help elucidate the molecular mechanisms of RecBCD-Chi regulation and DNA repair. Similar studies could help elucidate other DNA enzymes whose activities are coordinated at chromosomal sites.