β-Glucuronidase (GUSB) plays an important role in human physiological and pathological activities. The activity level of GUSB is closely related to human health and diseases. It is imperative to detect the activity of GUSB for related disease diagnosis and treatment. However, exactly evaluating the activity of GUSB in complicated biological system remains a challenge. In this study, we developed photoaffinity-based probes (AfBPs) equipped with photosensitive benzophenone group for labeling active GUSB. Through molecule docking, we predicted the binding model of the AfBPs and GUSB, and the obtained results suggested thermodynamically favorable binding. The AfBPs indicated high efficiency and showed dose-/time-dependent labeling of Escherichia coli (E. coli) GUSB. The application of AfBPs toward GUSB provides a powerful tool to study the activity of target enzymes and contributes to huge potential of enzyme inhibitor discovery and biomedical diagnostics.
Keywords: Labeling; Photoaffinity-based probe; Synthesis; β-Glucuronidases.
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