Polypeptide synthesis by mitoplasts isolated from mouse liver

Abstract

Polypeptide synthesis by mouse liver mitochondria was studied by incubating purified mitoplasts (mitochondria treated with digitonin) with [ 35S]methionine. The products were separated either by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis, or by isoelectric focusing, followed by SDS polyacrylamide gel electrophoresis. At least 14 distinct bands with molecular weights (mol. wt) ranging from about 8 000 to about 70 000 were found upon radioautography of the gels. When the samples were incubated in the presence of chloramphenicol, only a single weak band was found, whereas the protein pattern was unaffected by the presence of cycloheximide in the medium. The newly synthesized proteins were all acidic and evidence was obtained that they were hydrophobic in nature. Virtually all the labelled polypeptides were present in the membrane fraction, whereas the matrix showed little radioactivity. The data indicate that the proteins synthesized by mammalian mitochondria, like those in yeast, are components of the inner mitochondrial membrane. One protein of mol. wt 22 000 D was detected in the incubation medium. Since more of this component was present in the medium than in the pelleted mitoplasts and since this protein was not found in the matrix fraction of sonicated mitoplasts, it is believed that it had been excreted from the inner mitochondrial membrane. The finding that the number of proteins synthesized in mitoplasts isolated from mouse liver is considerably higher than that synthesized in yeast mitochondria reflects a most efficient utilization of the mammalian mitochondrial genome.