Functional Implications of the RecQ Helicase - Topoisomerase III - SSB Complex: Insights from Single Molecule Measurements

Abstract

RecQ Helicases are a highly conserved class of ATP-dependent DNA helicases that perform multifunctional roles in genome maintenance. In E. coli, RecQ is known to physically and functionally interact with Topoisomerase III, a type IA topoisomerase. The coupling of helicase activity and topoisomerase activity that results from this interaction is responsible for resolving complex DNA structures such as double Holliday junctions. Similar interactions have been demonstrated in homologous proteins in other organisms, including the human RecQ helicase BLM and TopoIIIα, and the yeast helicase SgsI and TopoIII. There is also evidence that single-stranded DNA binding protein (SSB) interacts with RecQ and is a necessary component of this complex in vivo. We sought to explore the mechanism by which RecQ stimulates TopoIII activity, and by which SSB stimulates RecQ activity, as well as the individual contributions of these proteins to topological changes in DNA using single molecule experiments. To investigate the roles of RecQ, TopoIII, and SSB, individually and in a ternary complex, we measured their effect on DNA hairpin unwinding and refolding using magnetic tweezers. We also conducted experiments on over- and under-wound double-stranded DNA to probe the roles of RecQ and SSB in activation of TopoIII relaxation of supercoiled DNA. This technique allows us to probe changes in DNA topology as a consequence of enzyme activity in real time. Our findings demonstrate a complex set of interactions and provide a framework for understanding the mechanism of the resolvase activity of the RecQ-TopoIII- SSB complex.