Knot untying in elongational fields

POSTER

Abstract


Knotting is a prevalent phenomenon which occurs in long polymer chains. We perform Brownian dynamics simulations and single-molecule DNA experiments to investigate knot untying in elongational fields that is induced by the knot being convected off the chain. The change in knot size as the knot moves off the chain and unties causes a change in the effective Weissenberg number, which in turn leads to a change in chain extension. Large-scale chain conformational changes are observed in both simulations and experiments for complex knots at low Weissenberg numbers (Wi). We investigate the knot untying time and untying-induced change in extension for a range of knot types and field strengths.

*This work was supported by the Agency for Science, Technology and Research (A*STAR), Singapore-MIT Alliance for Research and Technology (SMART) and National Science Foundation (NSF) grant CBET-1602406.

Presenters

  • Beatrice Soh

    • MIT
    • Massachusetts Institute of Technology

Authors

  • Beatrice Soh

    • MIT
    • Massachusetts Institute of Technology

  • Alexander Klotz

    • MIT
    • Massachusetts Institute of Technology

  • Patrick Doyle

    • Chemical Engineering, Massachusetts Institute of Technology
    • MIT
    • Massachusetts Institute of Technology
    • Department of Chemical Engineering, Massachusetts Institute of Technology
    • Chemical Engineering Department, Massachusetts Institute of Technology