Cytochrome c-linked reactions in Rhodopseudomonas palustris grown photosynthetically on thiosulfate

The nonsulfur purple bacterium Rps. palustris was adapted to grow photoautotrophically with thiosulfate as substrate. An isolated cell-free fraction catalyzed the enzymatic transfer of electrons from thiosulfate to endogenous and/or added mammalian cytochrome c. Antimycin A, NOQNO, rotenone, amytal and atebrin did not inhibit the thiosulfate-cytochrome c reductase. The products of thiosulfate oxidation were primarily tetrathionate, trithionate, and sulfate, suggesting oxidation via the polythionate pathway. Succinate, formate and NADH were also effective electron donors in this system showing Michaelis constants of 40, 30 and 0.025 mm, respectively for cytochrome c reduction. The NADH-cytochrome c reductase was not inhibited by flavoprotein inhibitors and by Antimycin A or NOQNO. The cell-free extracts also contained an active cytochrome c-O₂ oxidoreductase which was inhibited by cyanide, azide and EDTA, and these inhibitions were overcome by the addition of Cu²⁺. The oxidase activity was stimulated by the addition of uncoupling agents such as CCCP and DNP, as well as by Antimycin A and NOQNO. Reduced + CO minus reduced difference absorption spectra revealed the presence of cytochrome components of the a and o types which may function as the terminal oxidase(s).