Biocatalytic properties of recombinant tobacco peroxidase in chemiluminescent reaction

The wild-type anionic tobacco peroxidase and its Glu141Phe mutant have been expressed in Escherichia coli, and reactivated to yield active enzymes. A Glu141Phe substitution was made with the tobacco anionic peroxidase (TOP) to mimic neutral plant peroxidases, such as horseradish peroxidase (HRP). Both recombinant forms of tobacco peroxidase show extremely high activity in luminol oxidation with hydrogen peroxide, and thus, preserve the unique property of the native tobacco peroxidase, a superior chemiluminescent reagent. The chemiluminescent signal intensity for both recombinant forms of TOP is orders of magnitude higher than that for wild-type recombinant HRP. The substitution slightly increases TOP activity and stability in the reaction course, but has almost no effect on the optimal parameters of the reaction (pH, luminol and hydrogen peroxide concentrations) and calibration plot. Comparison of substrate specificity profiles for recombinant TOP and HRP demonstrates that Glu141 has no principal effect on the enzyme activity. It is not the presence of the negative charge at the haem edge, but the high redox potential of TOP Compounds I and II that provides high activity towards aromatic amines and aminophenols, and luminol in particular.