Deciphering Regulatory Proteins of Prenylated Protein via the FRET Technique Using Nitroso-Based Ene-Ligation and Sequential Azidation and Click Reaction.

We report here the selective incorporations of nitroso species into a wide range of proteins targeting lysine residue(s). The corresponding azo functionalities were formed in a highly selective manner with excellent yields, displaying rather good stability under physiological conditions. Furthermore, the azodation proceeded smoothly in high yields on targeted peptides. Fluorescent and/or dual fluorescent labeling of varied proteins following this protocol have been determined efficiently and selectively. With this established protocol, we aim to determine its usage in the evaluation of the interaction of prenylated proteins with their interacted enzyme(s) via FRET assays. Delightedly, chemically modified proteins with a 1-pyrenyl fluorophore through 254 nm UV irradiation and the sequential azodation and click reaction of protein prenyl functionality, which enable the incorporation of naphthene, indeed increase the fluorescence energy transferred since we observed significantly enhanced absorption located at 218 nm in lysed HEK293T cells and a clearly strengthened greenish fluorescence in living HEK293T cells.