Abstract

Ubiquitination is a crucial cellular pathway enabling normal cellular functions. Abnormalities in the ubiquitination process can lead to cellular dysfunction and cause a range of diseases. Efforts to screen and develop small molecule inhibitors targeting portions of the ubiquitination cascade require rapid and robust methods for detecting ubiquitination. Enormous efforts have been made in the field to detect ubiquitination using various techniques including fluorescence, spectrophotometry, chemiluminescence, NMR, and radioactive tracers. The most common method to detect ubiquitination is western blotting. However, western blotting is time-consuming and difficult to use when seeking fine-grained time course experiments. Here we present the use of bio-layer interferometry to rapidly assay ubiquitination in real-time. An E3 ligase auto-ubiquitination system and a substrate ubiquitination assay have been applied as tests for the newly developed assay. The developed BLI ubiquitination assay provides one-second time resolution and detects the formation of polyubiquitin chains directly on a biosensor-bound target. Results are returned instantaneously, and reagent concentrations are identical to those used by traditional western blot-based ubiquitination assays. The developed BLI ubiquitination assay is a viable alternative to traditional western blot assays to detect ubiquitination in a rapid real-time manner.

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