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Deficiencies in cytochrome oxidase, the terminal enzyme of the mitochondrial respiratory chain, are most often caused by an inability to complete assembly of the enzyme. Pathogenic mutations in SCO2, which encodes a cytochrome oxidase assembly factor, were recently described in several cases of fatal infantile cardioencephalomyopathy. To determine the molecular etiology of these disorders, we describe the generation and characterization of the parallel mutations in the homologous yeast SCO1 gene. We show that the E155K yeast sco1 mutant is respiration-competent, whereas the S240F mutant is not. Interestingly, the S240F mutation allows partial but incorrect assembly of cytochrome oxidase, as judged by an altered cytochrome aa(3) peak. Immunoblot analysis reveals a specific absence of subunit 2 from the cytochrome oxidase in this mutant. Taken together, our data suggest that Sco1p provides copper to the Cu(A) site on subunit 2 at a step occurring late in the assembly pathway. This is the first instance of a yeast cytochrome oxidase assembly mutant that is partially assembled. The S240F mutant also represents a powerful new tool with which to elucidate further steps in the cytochrome oxidase assembly pathway.  相似文献   

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E C Hurt  U Müller    G Schatz 《The EMBO journal》1985,4(13A):3509-3518
We have used an in vivo complementation assay to test whether a given polypeptide sequence can direct an attached protein to the mitochondrial inner membrane. The host is a previously described yeast deletion mutant that lacks cytochrome oxidase subunit IV (an imported protein) and, thus neither assembles cytochrome oxidase in its mitochondrial inner membrane nor grows on the non-fermentable carbon source, glycerol. Growth on glycerol and cytochrome oxidase assembly are restored to the mutant if it is transformed with the gene encoding authentic subunit IV precursor, a protein carrying a 25-residue transient pre-sequence. No restoration is seen with a plasmid encoding a subunit IV precursor whose pre-sequence has been shortened to seven residues. Partial, but significant restoration is achieved by an artificial subunit IV precursor in which the authentic pre-sequence has been replaced by the first 12 amino acids of a 70-kd protein of the mitochondrial outer membrane. If this dodecapeptide is fused to the amino terminus of mouse dihydrofolate reductase (a cytosolic protein), the resulting fusion protein is imported into the matrix of yeast mitochondria in vitro and in vivo. Import in vitro requires an energized inner membrane. We conclude that the extreme amino terminus of the 70-kd outer membrane protein can direct an attached protein across the mitochondrial inner membrane.  相似文献   

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The synthesis of cytochrome oxidase in Saccharomyces cerevisiae was recently shown to require a protein encoded by the nuclear gene COX10. This protein was found to be homologous to the putative protein product of the open reading frame ORF1 reported in one of the cytochrome oxidase operons of Paracoccus denitrificans. In the present study we demonstrate the existence in yeast of a second nuclear gene, COX11, whose encoded protein is homologous to another open reading frame (ORF3) present in the same operon of P. denitrificans. Mutations in COX11 elicit a deficiency in cytochrome oxidase. In this and in other respects cox11 and cox10 mutants have very similar phenotypes. An antibody has been obtained against the yeast COX11 protein. The antibody recognizes a 28 kd protein in yeast mitochondria, consistent with the size of the protein predicted from the sequence of COX11. The COX11 protein is tightly associated with the mitochondrial membrane but is not a component of purified cytochrome oxidase. An analysis of cytochrome oxidase subunits in wild type and in a cox11 mutant suggests that the COX11 protein is not required either for synthesis or transport of the subunit polypeptides into mitochondria. It seems more probable that COX11 protein exerts its effect at some terminal stage of enzyme synthesis, perhaps in directing assembly of the subunits.  相似文献   

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The nuclear gene OXA1 is essential for respiratory growth in yeast. It codes for a chaperon-like protein, and has pleiotropic effects on the assembly of cytochrome c oxidase and ATP synthase of the mitochondrial respiratory chain. To study respiratory complex formation in plants, we have cloned a homolog of the yeast oxa1 in Arabidopsis thaliana , OXA1At , by functional complementation of a yeast oxa1 mutant. OXA1At is a single copy gene and appears to be constitutively expressed in A. thaliana . Although OXA1At encodes a protein sharing only 30% amino acid identity with the yeast Oxa1 protein, hydrophobic domains likely corresponding to trans -membrane domains are strictly conserved. Cytochrome spectra and measurements of respiratory activities show that replacement of the yeast Oxa1 protein with the A. thaliana homolog leads to correct assembly and activity of cytochrome c oxidase, but to partial restoration of ATPase activity. Our results suggest that the Oxa1At protein is essential for the respiratory complex assembly in A. thaliana , and that genes involved in mitochondrial multiprotein complex formation can be conserved between plants and other organisms.  相似文献   

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H J Pel  C Maat  M Rep    L A Grivell 《Nucleic acids research》1992,20(23):6339-6346
We report the molecular cloning, sequencing and genetic characterization of the first gene encoding an organellar polypeptide chain release factor, the MRF1 gene of the yeast Saccharomyces cerevisiae. The MRF1 gene was cloned by genetic complementation of a respiratory deficient mutant disturbed in the expression of the mitochondrial genes encoding cytochrome c oxidase subunit 1 and 2, COX1 and COX2. For COX1 this defect has been attributed to an impaired processing of several introns. Sequence analysis of the MRF1 gene revealed that it encodes a protein highly similar to prokaryotic peptide chain release factors, especially RF-1. Disruption of the gene results in a high instability of the mitochondrial genome, a hallmark for a strict lesion in mitochondrial protein synthesis. The respiratory negative phenotype of mrf1 mutants lacking all known mitochondrial introns and the reduced synthesis of mitochondrial translation products encoded by unsplit genes confirm a primary defect in mitochondrial protein synthesis. Over-expression of the MRF1 gene in a mitochondrial nonsense suppressor strain reduces suppression in a dosage-dependent manner, shedding new light on the role of the '530 region' of 16S-like ribosomal RNA in translational fidelity.  相似文献   

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Summary The MSS51 gene product has been previously shown to be involved in the splicing of the mitochondrial pre-mRNA of cytochrome oxidase subunit I (COX1). We show here that it is specifically required for the translation of the COX1 mRNA. Furthermore, the paromomycin-resistance mutation (P inf454 supR ) which affects the 15 S mitoribosomal RNA, interferes, directly or indirectly, with the action of the MSS51 gene product. Possible roles of the MSS51 protein on the excision of COX1 introns are discussed.  相似文献   

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In a screen of nuclear genes that assist splicing of mitochondrial localized group II introns in yeast we isolated low-copy number suppressors of splicing and respiratory-deficient point mutants of intron aI5gamma, the last intron of the gene encoding cytochrome c oxidase subunit I. One of the genes found contains the open reading frame (ORF) YGL064c that has previously been proposed to encode a putative RNA helicase of the DEAD box family. Deletion of the ORF gives rise to 100% cytoplasmic petites, indicating that the protein plays an essential role in the mitochondrial RNA metabolism. Overexpression of YGL064c-GFP fusions clearly revealed a mitochondrial localization of the protein. The gene encodes the fourth putative RNA helicase of Saccharomyces cerevisiae implicated in a mitochondrial function and was therefore termed MRH4 (for mitochondrial RNA helicase).  相似文献   

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The yeast nuclear gene CBP2 was previously proposed to code for a protein necessary for processing of the terminal intron in the cytochrome b pre-mRNA (McGraw, P., and Tzagoloff, A. (1983) J. Biol. Chem. 258, 9459-9468). In the present study we describe a mitochondrial mutation capable of suppressing the respiratory deficiency of cbp2 mutants. The mitochondrial suppressor mutation has been shown to be the result of a precise excision of the last intervening sequence from the cytochrome b gene. Strains with the altered mitochondrial DNA have normal levels of mature cytochrome b mRNA and of cytochrome b and exhibit wild type growth on glycerol. These results confirm that CBP2 codes for a protein specifically required for splicing of the cytochrome b intron and further suggest that absence of the intervening sequence does not noticeably affect the expression of respiratory function in mitochondria.  相似文献   

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Several lines of evidence have implicated reactive oxygen species (ROS) in the pathogenesis of various degenerative diseases and in organismal ageing. Furthermore, it has been shown recently that the alternative pathway respiration present in plants lowers ROS mitochondrial production. An alternative oxidase (AOXp) also occurs in the filamentous fungus Podospora anserina. We show here that overexpression of this oxidase does not decrease ROS production and has no effect on longevity, mitochondrial stability or ageing in this fungus. In the same way, inactivation of the gene has no effect on these parameters. In contrast, overexpression of the alternative oxidase in the long-lived cox5::BLE mutant, deficient in cytochrome c oxidase, considerably increases ROS production of the mutant. It rescues slow growth rate and female sterility, indicating an improved energy level. This overexpression also restores senescence and mitochondrial DNA instability, demonstrating that these parameters are controlled by the energy level and not by the expression level of the alternative oxidase. We also suggest that expression of this oxidase in organisms naturally devoid of it could rescue respiratory defects resulting from cytochrome pathway dysfunctions.  相似文献   

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J Banroques  A Delahodde  C Jacq 《Cell》1986,46(6):837-844
bI4 maturase, encoded by the fourth intron of the yeast mitochondrial cytochrome b gene, controls the splicing of both the fourth intron of the cytochrome b gene and the fourth intron of the gene encoding subunit I of cytochrome oxidase. By fusing the encoding presequence of subunit 9 of the Neurospora ATPase to a restriction fragment containing the bI4 maturase coding sequence, we have constructed a hybrid gene that can be translated on yeast cytosolic ribosomes. The resulting protein is imported into mitochondria, which was revealed by its ability to restore to respiratory competence a yeast mutant defective in the bI4 maturase. Moreover, a protein reacting with antimaturase antibodies was detected in the mitochondria of the transformed cells; this imported maturase functioned similarly to the endogenous maturase.  相似文献   

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