Azide-stimulated oxygen consumption by the green alga Selenastrum minutum

Dark O₂ consumption by the green alga Selenastrum minutum was sensitive to inhibition by the cytochrome pathway respiration inhibitor cyanide in the absence of an alternative oxidase inhibitor, consistent with previous work that suggested that this alga lacks alternative oxidase capacity. In contrast, addition of low concentrations of the cytochrome pathway inhibitor azide (50–750 μ M ) resulted in a stimulation of dark O₂ consumption, while higher concentrations of azide (1–2 m M ) partially inhibited O₂ consumption. Measurements of changes in cellular levels of pyruvate, malate and pyridine nucleotides upon cyanide addition were consistent with the absence of alternative oxidase capacity, and suggested that cyanide inhibition of O₂ consumption was not due to nonspecific effects of cyanide. Addition of salicylhydroxamic acid (SHAM) also resulted in an increase in the rate of O₂ consumption. Both azide- and SHAM-stimulated O₂ consumption were sensitive to inhibition by 50 m M ascorbate or by cyanide. However, the ubiquinone analogs chloroquine and quinacrine specifically inhibited azide-stimulated O₂ consumption, with only minor effects on SHAM-stimulated O₂ consumption. These results suggest that azide-stimulated O₂ consumption was not mediated by the previously characterized SHAM-stimulated oxidase, and are consistent with the possibility that azide-stimulated O₂ consumption is mediated by a plasma membrane redox system.