The regulation of alternative oxidase activity by the effector pyruvate was investigated in soybean (Glycine max L.) mitochondria using developmental changes in roots and cotyledons to vary the respiratory capacity of the mitochondria. Rates of cyanideinsensitive oxygen uptake by soybean root mitochondria declined with seedling age. Immunologically detectable protein levels increased slightly with age, and mitochondria from younger, more active roots had less of the protein in the reduced form. Addition of pyruvate stimulated cyanide-insensitive respiration in root mitochondria, up to the same rate, regardless of seedling age. This stimulation was reversed rapidly upon removal of pyruvate, either by pelleting mitochondria (with succinate as substrate) or by adding lactate dehydrogenase with NADH as substrate. In mitochondria from cotyledons of the same seedlings, cyanide-insensitive NADH oxidation was less dependent on added pyruvate, partly due to intramitochondrial generation of pyruvate from endogenous sub-strates. Cyanide-insensitive oxygen uptake with succinate as sub-strate was greater than that with NADH, in both root and cotyledon mitochondria, but this difference became much less when an increase in external pH was used to inhibit intramitochondrial pyruvate production via malic enzyme. Malic enzyme activity in root mitochondria declined with seedling age. The results indicate that the activity of the alternative oxidase in soybean mitochondria is very dependent on the presence of pyruvate: differences in the generation of intramitochondrial pyruvate can explain differences in alternative oxidase activity between tissues and substrates, and some of the changes that occur during seedling development.