Half reduction potentials and oxygen affinity of the cytochromes of Pseudomonas carboxydovorans

Abstract The midpoint redox potentials (E'₀) of the cytochromes of Pseudomonas carboxydovorans have been studied by means of coupled spectrum deconvolution and potentiometric analysis. Membranes of cells grown on different substrates (CO; H₂+ CO₂; or pyruvate) contained cytochromes with similar absorption peaks and redox potentials. The cytochromes of the CO-sensitive main electron pathway of the respiratory chain revealed redox potentials in the same range as mitochondrial cytochromes (cytochrome b -555, about −20 mV; cytochrome c and cytochrome a , about +220 mV). For the cytochromes of the CO-insensitive alternative electron pathway, which allows uninhibited growth and respiration in the presence of high concentrations of CO, redox potentials of approx. +50 mV (cytochrome b -558) and −11 to −215 mV (cytochrome b -561) were determined. Cytochrome [ib-561], earlier proposed as the alternative terminal oxidase o in this organism, was shown to possess the lowest half reduction potential of all the cytochromes present in the cells. Measurements of the apparent K _m value for oxygen revealed a low affinity of cytochrome a ( K _m/ 5 υ M O₂) and a very high affinity of the CO-insensitive oxidase ( K _m < 0.5 μ M O₂). The high affinity to oxygen might be responsible for the CO-insensitivity of this unusual cytochrome o .