The existence of an alternative electron-transfer pathway to the periplasmic nitrite reductase (cytochrome cd₁) in Paracoccus denitrificans

Exposure of aerobically-grown wild-type cells of Paracoccus denitrificans to a decreased aeration caused parallel increases in both PMS/ascorbate and succinate-linked activities of nitrite reductase. By contrast, the expression of the succinate-linked activity was considerably delayed in an insertion mutant specifically lacking the periplasmic 15 kDa cytochrome c-550. In this case the observed activity followed very closely the content of a 40 kDa cytochrome c. A subcellular fraction enriched in a haemoprotein of a similar apparent molecular weight showed the activity of cytochrome c peroxidase and was able to restore the antimycin-sensitive electron transport from membrane vesicles to nitrite reductase. It is concluded that P. denitrificans possesses an alternative nitrite-reducing pathway involving the 40 kDa cytochrome c instead of cytochrome c-550. This pathway branches from the respiratory chain after the cytochrome bc₁ segment.