A fluorescence-resonance-energy-transfer-based protease activity assay and its use to monitor paralog-specific small ubiquitin-like modifier processing

Dynamic modification of proteins with the small ubiquitin-like modifier (SUMO) affects the stability, cellular localization, enzymatic activity, and molecular interactions of a wide spectrum of protein targets. We have developed an in vitro fluorescence-resonance-energytransfer-based assay that uses bacterially expressed substrates for the rapid and quantitative analysis of SUMO paralog-specific C-terminal hydrolase activity. This assay has applications in SUNIO protease characterization, enzyme kinetic analysis, determination of SUMO protease activity in eukaryotic cell extracts, and high-throughput inhibitor screening. In addition, while demonstrating such uses, we show that the SUMO-I processing activity in crude HeLa cell extracts is far greater than that of SUMO-2, implying that differential maturation rates of SUNIO paralogs in vivo may be functionally significant. The high degree of structural conservation across the ubiquitin-like protein superfamily suggests that the general principle of this assay should be applicable to other post-translational protein modification systems. (c) 2006 Elsevier Inc. All rights reserved.