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Facile Preparation of UFMylation Activity-Based Probes by Chemoselective Installation of Electrophiles at the C-Terminus of Recombinant UFM1

Kateryna A. Tolmachova, Jakob Farnung, Jin Rui Liang, Jacob E. Corn, Jeffrey W. Bode

2022ACS Central Science20 citationsDOIOpen Access PDF

Abstract

Aberrations in protein modification with ubiquitin-fold modifier (UFM1) are associated with a range of diseases, but the biological function and regulation of this post-translational modification, known as UFMylation, remain enigmatic. To provide activity-based probes for UFMylation, we have developed a new method for the installation of electrophilic warheads at the C-terminus of recombinant UFM1. A C-terminal UFM1 acyl hydrazide was readily produced by selective intein cleavage and chemoselectively acylated by a variety of carboxylic acid anhydrides at pH 3, without detriment to the folded protein or reactions at unprotected amino acid side chains. The resulting UFM1 activity-based probes show a range of tunable reactivity and high selectivity for proteins involved in UFMylation processes; structurally related E1s, E2s, and proteases associated with Ub or other Ubls were unreactive. The UFM1 probes were active both in cell lysates and in living cells. A previously inaccessible α-chloroacetyl probe was remarkably selective for covalent modification of the active-site cysteine of de-UFMylase UFSP2 in cellulo.

Topics & Concepts

ElectrophileChemistryInteinCovalent bondCysteineAmino acidProtein engineeringBiochemistryProteasesHydrazideRecombinant DNACombinatorial chemistryBioorthogonal chemistryEnzymeOrganic chemistryCatalysisClick chemistryGeneRNA splicingRNAUbiquitin and proteasome pathwaysPeptidase Inhibition and AnalysisCancer-related gene regulation
Facile Preparation of UFMylation Activity-Based Probes by Chemoselective Installation of Electrophiles at the C-Terminus of Recombinant UFM1 | Litcius