Effects of intermediate bound states in dynamic force spectroscopy

Abstract

We revisit here some aspects of the interpretation of dynamic force spectroscopy experiments. The standard theory predicts a typical unbinding force f* linearly proportional to the logarithm of the loading rate r when a single energetical barrier controls the unbinding process; for a more complex situation of N barriers, it predicts at most N linear segments for the f* vs. (r) curve, each segment characterizing a different barrier. We here extend this existing picture using a refined approximation, we provide a more general analytical formula, and show that in principle up to N(N+1)/2 segments can show up experimentally. As a consequence the interpretation of data can be ambiguous, for the characteristics and even the number of barriers. A further possible outcome of a multiple-barrier landscape is a bimodal or multimodal distribution of the unbinding force at a given loading rate, a feature recently observed experimentally.

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