The regulation of respiration in cell suspensions of Petunia hybrida, studied by inhibiting mitochondrial protein synthesis with chloramphenicol

When Petunia hybrida L. cv. Rosy Morn Fertile suspension cells were inoculated in fresh medium with chloramphenicol (CAP), the activity of cytochrome C oxidase (EC 1. 9. 3. 1), and the respiration via the cytochrome pathway of isolated mitochondria decreased, while in untreated cells these parameters more than doubled in 2–3 days. However, the in vivo respiratory activity of the cytochrome pathway of CAP-treated cells showed a similar course in time as that of untreated cells, even in the presence of an uncoupler, a large rise during the first 2–3 days followed by a decline. This leads to the conclusion that the respiration via the cytochrome pathway, even when measured in the presence of an uncoupler, is not the capacity of this pathway. Furthermore, the results suggest that, although new-synthesis of proteins occurs directly after in-oculation, a large overcapacity must be present of cytochrome pathway elements (at least of those that are mitochondrial encoded). CAP had little effect on the uninhibited respiration and the cyanide-resistant, alternative pathway of the Petunia cells. However, the engagement of the alternative pathway (in the presence or absence of uncoupler) was increased in CAP-treated cells, especially after day 3 of the batch cycle, possibly as an effect of higher sugar degradation in combination with substrate phosphorylation to compensate the loss of ATP-synthesizing ability of the cytochrome pathway. It will be discussed that in general one should be careful using the term 'capacity' for the respiratory pathways.