The biogenesis of a cytochrome b complex in yeast mitochondria: Sites of translation of the protein components

A spectrally pure cytochrome b complex has been isolated from yeast mitochondria and shown to contain seven nonidentical subunits with the following molecular weights: I, 42,000; II, 33,000; III, 27,500; IV, 23,000; V, 15,500; VI, 13,000; and VII, 10,500. In order to determine the intracellular sites of translation of these polypeptides, yeast cells were labeled with [³H]leucine in the presence of specific inhibitors of mitochondrial or cytoplasmic translation. The labeling of subunits I and III was found to be insensitive to cycloheximide but was inhibited by chloramphenicol. Alternatively, subunits IV–VII were labeled in the presence of chloramphenicol but not in the presence of cycloheximide. Since subunit II was not significantly labeled in the presence of either inhibitor, the technique of labeling in vivo with [³H]formate was used to establish its site of biogenesis. Formate is incorporated by mitochondrial, but not cytoplasmic, ribosomes as N-formylmethionine at initiation and is therefore a marker for the products of mitochondrial translation. Subunits I–III were labeled under these conditions whereas the four smallest subunits were not. Taken together, the findings clearly establish that the three largest subunits of the cytochrome b complex are translated on mitochondrial ribosomes and that the four smallest are formed in the cytoplasm. The results also underscore the advantages of using [³H]formate to identify the products of mitochondrial translation.