Mitochondrial polypeptide elongation factor EF-Tu of Saccharomyces cerevisiae. Functional and structural homologies to Escherichia coli EF-Tu.

The polypeptide elongation factor EF-Tu was isolated from a mitochondrial 100 000 x g supernatant of the yeast Saccharomyces cerevisiae and purified over 880-fold by DEAE-Sephadex chromatography and gel filtration. The factor efficiently replaces bacterial EF-Tu in a phenylalanine polymerizing cell-free system of Escherichia coli, it binds GDP and it protects phenylalanyl-tRNA against hydrolysis of the ester bond in the presence of 10 mM GTP. The polymerizing activity of the mitochondrial factor is inhibited to 90% by 50 microM N-ethylmaleimide and to 50% by 2.5 microM kirromycin. The purified factor contains two major polypeptides of apparent molecular weights 48 000 and 34 000. Antibodies raised against the 48 000-Mr protein react with EF-TuE. coli, as revealed by immune blotting and by the inhibition of phenylalanine polymerization. No reaction was observed between anti-(34 000-Mr) and 48 000-Mr protein or EF-TuE. coli. The 48 000-Mr protein has the same isoelectric point (pI = 6.2) and a content of cysteine and basic amino acids similar to the bacterial EF-Tu. It is concluded that the 48 000-Mr protein is the analogue to EF-TuE. coli, and that yeast mitochondrial EF-Tu is functionally and structurally more related to bacterial EF-Tu than cytosolic EF-1 of the same cell.