Photochemistry and mechanism of designed pyrenyl probe towards promoted cleavage of proteins

Abstract

A new photochemical reagent, succinic acid-1(1-pyrene)methylamide (PMA-SUC), was developed to recognize the specific binding sites on model proteins, egg-white lysozyme and avidin. The interaction of the photochemical reagent with the proteins was studied by UV–Vis, fluorescence spectroscopic methods and docking description. PMA-SUC was found to bind to lysozyme and avidin with binding constants (Kb) of 2.4×105 and 6.7×105 (M−1), respectively. The fluorescence intensity of PMA-SUC decreased with increasing concentration of both proteins. Quenching of PMA-SUC fluorescence, in the absence and presence of the protein by an electron acceptor (Hexaamminecobalt(III) chloride, Co(NH3)6Cl3) showed no significant changes in the Ksv values (Stern-Volmer quenching constant), indicating that PMA-SUC bound to the hydrophilic sites or near the surface of the proteins. Irradiation of protein-PMA-SUC mixture, at 342nm for a period of time, in the presence of Co(NH3)6Cl3 as an electron acceptor, resulted in the cleavage of both proteins with high specificity. Binding mechanisms were studied using Molecular docking method. Molecular docking study indicated the position of PMA-SUC upon binding to the proteins by hydrogen bonding interaction with donor-acceptor within the distance of less than 5Å in the minimum of binding free energy. The docking results have supported the results obtained from the spectroscopic methods and cleavage studies.