Abstract
Thioflavin T (ThT) is widely used as a fluorescent probe for amyloid fibril detection. Yet the exact kinetic mechanism of ThT binding onto amyloid fibril remains elusive. Previously reported kinetic studies using ThT-fluorescence-detected kinetic design suggested two completely different ThT-binding mechanisms. In one study, a multistep sequential binding mechanism onto a single ThT-binding site was suggested. In another study, a one-step parallel binding mechanism onto multiple ThT-binding sites was suggested. The discrepancy is likely due to the incapability of ThT-fluorescence-detected kinetic design to differentiate the two above-mentioned mechanisms. Considering the weakness of the ThT-fluorescence-detected approach, we investigated the ThT-binding mechanism onto the amyloid fibril of hen egg white lysozyme (HEWL) using a new approach, ThT-absorbance-detected kinetic design. Our new results suggest that ThT binds to HEWL fibril through the one-step parallel binding mechanism. We hope our work can offer some new insights into the interactions between dye molecules and amyloid fibrils.
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