Multiple barriers in forced rupture of protein complexes

Abstract

Curvatures in the most probable rupture force (f*) versus log-loading rate (rf) observed in dynamic force spectroscopy (DFS) on biomolecular complexes are interpreted using a one-dimensional free energy profile with multiple barriers or a single barrier with force-dependent transition state. Here, we provide a criterion to select one scenario over another. If the rupture dynamics occurs by crossing a single barrier in a physical free energy profile describing unbinding, the exponent , from (1- f*/fc)1/( rf) with fc being a critical force in the absence of force, is restricted to 0.5 ≤ ≤ 1. For biotin-ligand complexes and leukocyte-associated antigen-1 bound to intercellular adhesion molecules, which display large curvature in the DFS data, fits to experimental data yield <0.5, suggesting that ligand unbinding is associated with multiple-barrier crossing.