SERR Spectroelectrochemical Study of Cytochrome cd 1 Nitrite Reductase Co-Immobilized with Physiological Redox Partner Cytochrome c 552 on Biocompatible Metal Electrodes

Cytochrome cd1 nitrite reductases (cd ₁NiRs) catalyze the one-electron reduction of nitrite to nitric oxide. Due to their catalytic reaction, cd ₁NiRs are regarded as promising components for biosensing, bioremediation and biotechnological applications. Motivated by earlier findings that catalytic activity of cd ₁NiR from Marinobacter hydrocarbonoclasticus (Mhcd ₁) depends on the presence of its physiological redox partner, cytochrome c ₅₅₂ (cyt c ₅₅₂), we show here a detailed surface enhanced resonance Raman characterization of Mhcd ₁ and cyt c ₅₅₂ attached to biocompatible electrodes in conditions which allow direct electron transfer between the conducting support and immobilized proteins. Mhcd ₁ and cyt c552 are co-immobilized on silver electrodes coated with self-assembled monolayers (SAMs) and the electrocatalytic activity of Ag // SAM // Mhcd ₁ // cyt c ₅₅₂ and Ag // SAM // cyt c ₅₅₂ // Mhcd ₁ constructs is tested in the presence of nitrite. Simultaneous evaluation of structural and thermodynamic properties of the immobilized proteins reveals that cyt c ₅₅₂ retains its native properties, while the redox potential of apparently intact Mhcd ₁ undergoes a ~150 mV negative shift upon adsorption. Neither of the immobilization strategies results in an active Mhcd ₁, reinforcing the idea that subtle and very specific interactions between Mhcd ₁ and cyt c ₅₅₂ govern efficient intermolecular electron transfer and catalytic activity of Mhcd ₁.