Cloning, overproduction and characterization of cytochrome c peroxidase from the purple phototrophic bacterium Rhodobacter capsulatus.

Abstract

The bacterial cytochrome c peroxidase (BCCP) from Rhodobacter capsulatus was purified as a recombinant protein from an Escherichia coli clone over-expressing the BCCP structural gene. BCCP from Rb. capsulatus oxidizes the Rhodobacter cytochrome c2 and reduces hydrogen peroxide, probably functioning as a detoxification mechanism. The enzyme binds two haem c groups covalently. The gene encoding BCCP from Rb. capsulatus was cloned through the construction of a 7-kb subgenomic clone. In comparison with the protein sequence, the sequence deduced from the gene has a 21-amino-acid N-terminal extension with the characteristics of a signal peptide. The purified recombinant enzyme showed the same physico-chemical properties as the native enzyme. Spectrophotometric titration established the presence of a high-potential (Em=+270 mV) and a low-potential haem (between -190 mV and -310 mV) as found in other BCCPs. The enzyme was isolated in the fully oxidized but inactive form. It binds calcium tightly and EGTA treatment of the enzyme was necessary to show calcium activation of the mixed valence enzyme. This activation is associated with the formation of a high-spin state at the low-potential haem. BCCP oxidizes horse ferrocytochrome c better than the native electron donor, cytochrome c2; the catalytic activities ('turnover number') are 85 800 min(-1) and 63 600 min(-1), respectively. These activities are the highest ever found for a BCCP.