Abstract
Phospholipids are essential components for electron transport activity of cytochrome oxidase. Recently, we have found that the removal of phospholipids from the oxidase affected the copper and low-spin heme signals, and conceivably other paramagnetic centers as demonstrated by EPR spectroscopy. At 4.2–30 °K, the signal amplitudes and power saturation behaviors were studied at approximately g = 2.0 for the copper signal, and in the neighborhood of g = 3.0 for the low-spin heme signal. After depletion of phospholipids the amplitude of the copper signal decreased 25–30% at 12–30 °K and below 12 °K 40–50% under nonsaturating conditions. The amplitude of the low-spin heme signal decreased 60–70% at 4.2–20 °K. Below 14 °K both signals became more resistant to power saturation, but the copper signal was more readily saturated above this temperature, compared to the oxidase with about 25% lipid. After removal of phospholipids, the spectral features of the copper signal remained essentially the same, but the low-spin heme signal broadened and became very asymmetric to show two signals as revealed by the second harmonic EPR spectra. These findings may explain, at least partially, the wide variations in percentage of EPR detectable copper and heme of cytochrome oxidase reported by different laboratories. Unequivocally, the EPR behavior of cytochrome oxidase is not only affected by the protein moiety, but also by the associated phospholipids of the enzyme.
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