Interrogating Precision Electrophile Signaling.

Understanding the targets and signaling roles of reactive electrophilic species (RES) at a specific cellular space and time has long been hampered by the reliance of the field on the bulk administration of excess RES from outside of cells and/or animals. Uncontrolled bolus methods provide limited understanding of target engagement for these individual nonenzymatic RES-modification events. REX technologies [targetable reactive electrophiles and oxidants (T-REX) and its genome-wide variant (G-REX)] were developed as a gateway to address these limitations. These protocols offer a new ability to both profile kinetically privileged sensors (KPSs) of RES at a systems level (G-REX™ profiling) and monitor signaling responses at the sensor protein-of-interest (POI)-specific level (T-REX™ delivery) with high spatiotemporal resolution. REX technologies are compatible with several model systems and are built on a HaloTag-targetable small-molecule photocaged precursor to a native RES.