Characterization of COX19, a widely distributed gene required for expression of mitochondrial cytochrome oxidase.

COX19, a nuclear gene of Saccharomyces cerevisiae, was cloned by transformation of a respiratory-deficient mutant from complementation group G188 of a pet mutant collection. The gene codes for an 11-kDa protein (Cox19p) required for expression of cytochrome oxidase. Because cox19 mutants are able to synthesize the mitochondrial and nuclear gene products of cytochrome oxidase, Cox19p probably functions post-translationally during assembly of the enzyme. Cox19p is present in the cytoplasm and mitochondria, where it exists as a soluble intermembrane protein. This dual location is similar to what was previously reported for Cox17p, a low molecular weight copper protein thought to be required for maturation of the CuA center of subunit 2 of cytochrome oxidase. The similarity in their subcellular distribution, combined with the presence of four cysteines in Cox19p that align with a subset of the cysteines in Cox17p, suggests that like the latter, Cox19p may function in metal transport to mitochondria.

Purification and characterization of yeast Sco1p, a mitochondrial copper protein.

The present studies were undertaken to further characterize the properties of Sco1p, a constituent of the mitochondrial inner membrane implicated in copper transfer to cytochrome oxidase. We report a procedure capable of yielding Sco1p of >95% purity. Sco1p has been purified from strains of Saccharomyces cerevisiae that overexpress the protein. The amino-terminal sequence of purified Sco1p indicates that the first 40 amino acids of the primary translation product constitute a mitochondrial targeting sequence that is proteolytically cleaved during import. We estimate that Sco1p constitutes 0.08% total mitochondrial proteins in wild type yeast and 5% in the transformant used for the purification. Sco1p contains approximately 1 mol of copper/mol protein. The copper is not removed by the treatment of Sco1p with EDTA, indicating that it is bound with high affinity. Purified Sco1p sediments identical to Sco1p in crude extracts of mitochondria from wild type yeast or from a strain transformed with SCO1 on a high copy plasmid. Native Sco1p has an estimated mass of 88 kDa, suggesting that it is a homotrimer. Sco1p expressed as a soluble protein lacking the internal 17 amino acids of the membrane-anchoring domain has been localized in the matrix. The protein has also been targeted to the intermembrane space. Neither soluble matrix nor intermembrane-localized Sco1p is able to complement a sco1 mutant, suggesting that only the membrane form with the carboxyl-terminal domain facing the intermembrane space is able to exert its normal function.