Small ligands and their receptors are widely used noncovalent couplers in various biotech applications. One prominent example, the digoxigenin-antibody complex, was often used to immobilize samples for single molecule force measurements by optical trap or AFM. Here, we employed dynamic AFM spectroscopy to demonstrate that a single digoxigenin-antibody bond is likely to fail even under moderate loading rates. This effect potentially could lower the yield of measurements or even obscure the unbinding data of the sample by the rupture events of the coupler. Immobilization by multiple antibody-antigen bonds, therefore, is highly recommended. The analysis of our data revealed a pronounced loading rate dependence of the rupture force, which we analyzed based on the well-established BellEvans-model with two subsequent unbinding barriers. We could show that the first barrier has a width of Dx 1 = 1.15 nm and a spontaneous rate of k off1 = 0.015 s À1 and the second has a width of Dx 2 = 0.35 nm and a spontaneous rate of k off2 = 4.56 s À1. In the crossover region between the two regimes, we found a marked discrepancy between the predicted bond rupture probability density and the measured rupture force histograms, which we discuss as non-Markovian contribution to the unbinding process.
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