The vital roles of biologically relevant cysteines have been discovered from proteins that are promising targets for new drugs or chemical tools. Therefore, new electrophilic small molecules that can covalently modulate these cysteines have attracted immense interest. Because of their extremely wide chemical diversity, electrophilic natural products (NPs) have been studied as promising sources of cysteine modulators. Previous studies have developed chemical probes to facilitate the detection and isolation of electrophilic NPs. To address the problems with the current methods, including their low sensitivity, high false-positive rate, and dependence on performing manual processing with a plethora of spectra, we report a chemical probe that can first covalently capture electrophilic NPs from natural resources and then produce sensitive reporter ion signals that are specific for the detected NPs. We applied this untargeted method to explore electrophilic NPs from natural resources and found that the complexity of electrophilic NPs was beyond our expectations. We used this chemical probe to identify a new electrophilic furanosesterterpene (BG-1) from an extract of Ginkgo biloba that targets the of thioesterase 7 (ACOT7).
NSTL
Amer Chemical Soc