Biophysical Reports (Mar 2022)

Modeling multiple duplex DNA attachments in a force-extension experiment

  • Allan Raudsepp,
  • Martin A.K. Williams,
  • Geoffrey B. Jameson

Journal volume & issue
Vol. 2, no. 1
p. 100045

Abstract

Read online

Optical tweezers-based DNA stretching often relies on tethering a single end-activated DNA molecule between optically manipulated end-binding beads. Measurement success can depend on DNA concentration. At lower DNA concentrations tethering is less common, and many trials may be required to observe a single-molecule stretch. At higher DNA concentrations tethering is more common; however, the resulting force-extensions observed are more complex and may vary from measurement to measurement. Typically these more complex results are attributed to the formation of multiple tethers between the beads; however, to date there does not appear to have been a critical examination of this hypothesis or the potential usefulness of such data. Here we examine stretches at a higher DNA concentration and use analysis and simulation to show how the more complex force-extensions observed can be understood in terms of multiple DNA attachments.