Activity-based E2 conjugating enzyme (E2)-ubiquitin (Ub) probes have recently emerged as effective tools for studying the molecular mechanism of E3 ligase (E3)-catalyzed ubiquitination. However, the preparation of existing activity-based E2-Ub probes depends on recombination technology and bioconjugation chemistry, limiting their structural diversity. Herein we describe an expedient total chemical synthesis of an E2 enzyme variant through a hydrazide-based native chemical ligation, which enabled the construction of a structurally new activity-based E2-Ub probe to covalently capture the catalytic site of Cys-dependent E3s. Chemical cross-linking coupled with mass spectrometry (CXMS) demonstrated the utility of this new probe in structural analysis of the intermediates formed during Nedd4 and Parkin-mediated transthiolation. This study exemplifies the utility of chemical protein synthesis for the development of protein probes for biological studies.
Keywords: CXMS; E2 conjugating enzyme; chemical protein synthesis; probe; ubiquitin.
© 2021 Wiley-VCH GmbH.