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Exploring the Versatility of the Covalent Thiol–Alkyne Reaction with Substituted Propargyl Warheads: A Deciding Role for the Cysteine Protease

Elma Mons, Robbert Q. Kim, Bjorn R. van Doodewaerd, Peter A. van Veelen, Monique P. C. Mulder, Huib Ovaa

2021Journal of the American Chemical Society69 citationsDOIOpen Access PDF

Abstract

thiol-alkyne reaction, identifying the alkyne rather than an allenic intermediate as the reactive species. Furthermore, kinetic analysis revealed that introduction of (bulky/electron-donating) methyl substituents on the propargyl moiety decreases the rate of covalent adduct formation, thus providing a rational explanation for the commonly lower level of observed covalent adduct compared to unmodified alkynes. Altogether, our work extends the scope of possible propargyl derivatives in cysteine targeting ABPs from unmodified terminal alkynes to internal and substituted alkynes, which we anticipate will have great value in the development of ABPs with improved selectivity profiles.

Topics & Concepts

AlkyneChemistryCovalent bondCysteineAdductPropargylMoietyCombinatorial chemistryThiolStereochemistryOrganic chemistryEnzymeCatalysisClick Chemistry and ApplicationsUbiquitin and proteasome pathwaysPeptidase Inhibition and Analysis
Exploring the Versatility of the Covalent Thiol–Alkyne Reaction with Substituted Propargyl Warheads: A Deciding Role for the Cysteine Protease | Litcius