The Respiratory Chain of Plant Mitochondria. III. Oxidation Rates of the Cytochromes c and b in Mung Bean Mitochondria Reduced With Succinate

Abstract

Oxidation rates of the 2 cytochromes c and the 3 cytochromes b in mitochondria from the hypocotyls of etiolated mung beans (Phaseolus aureus) have been measured with a rapid mixing flow apparatus coupled to a dual wavelength spectrophotometer. The mitochondria were depleted with uncoupler and ADP prior to starting the experiments to minimize the complications caused by energy-linked processes on electron transport. The half-time for oxidation and absorbance change at a given wavelength for the rapidly oxidized cytochromes was plotted as a function of wavelength, with 570 mμ as reference, to yield a spectrum in which absorbance maxima and half-times were correlated. The 2 cytochrome c components have oxidation half-times of 2 milliseconds for c₅₄₉ and 3 milliseconds for c₅₄₇. (The subscripts refer to the difference absorbance maxima observed for these cytochromes in reduced-minus-oxidized difference spectra obtained at −196°. The maxima observed at room temperature are 550 mμ for c₅₄₇ and 552 mμ for c₅₄₉.) Cytochrome b₅₅₇ (room temperature maximum 560 mμ) was oxidized with a half-time of 8 milliseconds, while b₅₅₃ (room temperature maximum 556 mμ) was oxidized relatively slowly with a half-time of 0.5 sec. Cytochrome b₅₆₂ (room temperature maximum 565 mμ) was oxidized with half-times in the range 15 to 35 milliseconds, depending on mitochondrial preparation. It was shown that b₅₆₂ is only partially reduced by succinate in anaerobic mitochondria previously depleted with uncoupler and ADP; this cytochrome can be fully reduced by succinate in coupled mitochondria under conditions where endogenous pyridine nucleotide is also reduced. Both b₅₅₃ and b₅₅₇ in depleted mitochondria are reduced in anaerobiosis by succinate. With ascorbate plus N,N′-tetramethylphenylenediamine as substrate, b₅₅₃ is only partially reduced in anaerobiosis, while b₅₅₇ is completely reduced in depleted mitochondria. This observed difference in ease of reducibility provides another method for differentiating the 3 cytochromes b of mitochondria isolated from plant tissues.