Direct Measurement of Single-Stranded DNA Translocation by PcrA Helicase Using the Fluorescent Base Analogue 2-Aminopurine

Abstract

Use of the fluorescent base analogue 2-aminopurine has provided a direct demonstration of the translocation of PcrA helicase toward the 5‘-end of single-stranded DNA. Single 2-aminopurine bases are introduced into otherwise standard oligonucleotides and produce a fluorescence signal when PcrA reaches their position. We demonstrate that random binding of PcrA to ssDNA is followed by translocation in an ATP-dependent manner toward the 5‘-terminus at 80 bases per second at 20 °C. The data also provide information on the kinetics of ssDNA binding to the helicase and of the protein dissociation from the 5‘-end of ssDNA. A full kinetic model is presented for ATP-dependent DNA translocation by PcrA helicase.