Optical traps are widely used to study nucleic-acid-processing enzymes. To investigate these enzymes, we developed “force-activated” DNA substrates that contain a pair of nicks, allowing displacement of single-stranded DNA when pulled into DNA’s overstretching transition. We designed these substrates to include DNA hairpins and are using them to investigate the mechanism of E. coli RecQ helicase, an enzyme that unwinds double-stranded DNA. Force-activated DNA substrates also have the potential to provide an easy-to-use intrinsic force standard at ~15 pN, suitable for all three major force spectroscopy modalities (i.e., optical traps, magnetic tweezers, and AFM).
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