Enzyme‐Loaded Hemin/G‐Quadruplex‐Modified ZIF‐90 Metal–Organic Framework Nanoparticles: Bioreactor Nanozymes for the Cascaded Oxidation of N‐hydroxy‐l‐arginine and Sensing Applications

Abstract Biocatalytic cascades are challenging to operate in homogeneous solution, where diffusional mass transport hinders efficient communication between the reactive components. There is great interest in developing devices to perform such transformations in confined environments, which increase the efficiency of the cascaded process by generating high local concentrations of the reactive species. Herein, a bioreactor‐nanozyme assembly is introduced for the cascaded aerobic oxidation of N ‐hydroxy‐ l ‐arginine (NOHA) to citrulline in the presence of glucose. The reaction mimics a key step in the nitric oxide synthase oxidation of l ‐arginine in nature. The system consists of glucose oxidase (GOx)‐loaded hemin/G‐quadruplex (hemin/G4)‐modified ZIF‐90 metal–organic framework nanoparticles. The aerobic oxidation of glucose by GOx yields H 2 O 2 that fuels the hemin/G4‐catalyzed oxidation of NOHA into citrulline. The process driven by the bioreactor‐nanozyme system is ≈sixfold enhanced compared to the homogeneous mixture of the biocatalysts, due to its operation in the confined environment of the nanoparticles. Extension to a three‐step cascade is then demonstrated using a bioreactor composed of β‐galactosidase/GOx‐loaded hemin/G4‐modified ZIF‐90 nanoparticles activating the cascaded oxidation of NOHA to citrulline, in the presence of lactose. Moreover, the bioreactor‐nanozyme hybrid is applied as a functional optical sensor of glucose, using fluorescence or chemiluminescence as readout signals.