Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.9.3.1 (cytochrome oxidase)
8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of the yeast mitochondrial genes COX1 and COX3, which encode subunits I and III of cytochrome oxidase, respectively, is controlled by a common nuclear-encoded trans-acting factor. This protein, encoded by the PET54 gene, controls expression of COX1 at the level of RNA splicing and COX3 at the level of mRNA translation. While the steps of COX1 and COX3 gene expression affected by the PET54 gene product are different, it is possible that the PET54 protein is monofunctional and affects expression of each gene by a single mechanism, such as modulation of RNA secondary structure. The goal of this study was to address whether the PET54 protein is monofunctional or multifunctional with respect to its role in COX1 and COX3 gene expression. Ten insertion mutations, which each resulted in the in-frame addition of four amino acids within the PET54 polypeptide, were generated, and the resulting mutants were characterized for respiration phenotype and mitochondrial gene expression. Five of the ten mutants were respiration deficient. Two of these five mutants were defective in expression of COX3 but not in expression of COX1, while two other mutants had the opposite phenotype (primarily defective in expression of COX1). The fifth mutant was equally defective in expression of both genes. These results demonstrate that the two functions of PET54 are genetically separable and support the idea that the PET54 protein is multifunctional.
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PMID:Genetic evidence that different functional domains of the PET54 gene product facilitate expression of the mitochondrial genes COX1 and COX3 in Saccharomyces cerevisiae. 185 94

We have sequenced the nuclear and mitochondrial small subunit rRNA genes (rns) and the mitochondrial genes coding for subunits 1 and 3 of the cytochrome oxidase (cox1 and cox3, respectively) of the chytridiomycete Allomyces macrogynus. Phylogenetic trees inferred from the derived COX1 and COX3 proteins and the nuclear rns sequences show with good bootstrap support that A. macrogynus is an early diverging fungus. The trees inferred from mitochondrial rns sequences do not yield a topology that is supported by bootstrap analysis. The similarity and the relative robustness of the nuclear rns and the mitochondrial protein-derived phylogenetic trees suggest that protein sequences are of higher value than rRNA sequences for reconstructing mitochondrial evolution. In addition, our trees support a monophyletic origin of mitochondria for the range of analyzed eukaryotes.
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PMID:Molecular phylogeny of Allomyces macrogynus: congruency between nuclear ribosomal RNA- and mitochondrial protein-based trees. 749 Jul 80

The mitochondrial genome of Chlamydomonas reinhardtii is a 15.8 kb linear DNA molecule present in multiple copies. In crosses, the meiotic products only inherit the mitochondrial genome of the mating type minus (paternal) parent. In contrast mitotic zygotes transmit maternal and paternal mitochondrial DNA copies to their diploid progeny and recombinational events between molecules of both origins frequently occur. Six mitochondrial mutants unable to grow in the dark (dk- mutants) were crossed in various combinations and the percentages of wild-type dk+ recombinants were determined in mitotic zygotes when all progeny cells had become homoplasmic for the mitochondrial genome. In crosses between strains mutated in the COB (apocytochrome b) gene and strains mutated in the COX1 (subunit 1 of cytochrome oxidase) gene, the frequency of recombination was 13.7% (+/- 3.2%). The corresponding physical distance between the mutation sites was 4.3 kb. In crosses between strains carrying mutations separated by about 20 bp, a recombinational frequency of 0.04% (+/- 0.02%) was found. Two other mutants not yet characterized at the molecular level were also used for recombinational studies. From these data, a linear genetic map of the mitochondrial genome could be drawn. This map is consistent with the positions of the mutation sites on the mitochondrial DNA molecule and thereby validates the method used to generate the map. The frequency of recombination per physical distance unit (3.2% +/- 0.7% per kilobase) is compared with those obtained for other organellar genomes in yeasts and Chlamydomonas.
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PMID:Genetic mapping of mitochondrial markers by recombinational analysis in Chlamydomonas reinhardtii. 750 Sep 40

In phylogenetic trees based on comparison of nuclear small subunit rRNA sequences, Acanthamoeba castellanii (an amoeboid protozoon) is positioned near the base of the radiation leading to the animals, fungi and plants. However, the specific affiliation of this protist with the major multicellular lineages of eukaryotes is currently uncertain. To further explore the evolutionary position of A. castellanii, we have determined the complete primary sequence of its mitochondrial genome. We find that the circular mtDNA (41,591 bp; 70.6% A+T) encodes two rRNAs (small subunit and large subunit), 16 tRNAs and 33 proteins (17 subunits of the respiratory chain and 16 ribosomal proteins). As well, this genome contains eight open reading frames (ORFs) larger than 60 codons and of undefined function. Two of these ORFs (orf124 and orf142) have homologs in other mtDNAs ("orf25" and "orfB", respectively), three are unique to A. castellanii mtDNA (orf83, orf115 and orf349), and three are intronic ORFs. Among notable features of A. castellanii mtDNA are the following: (1) Genes and ORFs are all encoded on the same strand and are tightly packed, with only 6.8% of the total sequence not having an evident coding function and intergenic spacer sequences ranging from only 1 to 616 bp (average 64 bp). Ten pairs of protein-coding genes overlap by up to 38 bp and two subunits of cytochrome oxidase (COX1 and COX2) are specified by a single continuous ORF. (2) Only three introns, all group I and each containing a free-standing ORF, are present; these are localized in the 3'-half of the large subunit rRNA gene. (3) The genome encodes fewer than the minimal number of tRNA species required to support mitochondrial protein synthesis, suggesting that additional tRNAs are imported from the cytosol into A. castellanii mitochondria. Of the 16 tRNAs specified by A. castellanii mtDNA (one with an 8-nucleotide anticodon loop), 13 have been shown or are predicted to undergo a novel form of RNA editing within the acceptor stem. (4) A modified genetic code is used in which UGA specifies tryptophan. (5) Repeated sequences and obvious small sequence motifs that might represent regulatory elements are absent. In overall size, gene content and organizational pattern, A. castellanii mtDNA most closely resembles the mtDNA of the chlorophycean alga Prototheca wickerhamii (55,326 bp; 74.2% A+T), but is quite different in these respects from the mtDNA of Chlamydomonas reinhardtii (15,758 bp; 54.8% A+T), another chlorophycean alga, as well from characterized animal and fungal mitochondrial genomes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The mitochondrial DNA of the amoeboid protozoon, Acanthamoeba castellanii: complete sequence, gene content and genome organization. 784 23

A new search for mitochondrial respiratory deficient mutants (Mit-) has been undertaken in order to accumulate a large number of point mutations in the coding portions of cytochrome-c-oxidase catalytic subunits and cytochrome b. Therefore, a mitochondrial DNA which retains the exons and lacks all the introns of the cytochrome oxidase subunit I and of the cytochrome-b split genes has been introduced into a strain carrying a nuclear recessive mutation affecting the adenine-nucleotide translocator, the op1 mutation, which is known to prevent the accumulation of large deletion petite mutants and this was used as the parental strain. After a moderate MnCl2 mutagenesis in order to limit multiple mutations, 105 Mit- mutants were isolated from 15,000 mutagenised clones in Saccharomyces cerevisiae. Mutations were mapped to the three catalytic subunits encoding genes (COX1, COX2 and COX3) of the cytochrome-c oxidase (70 mutations) and to the cytochrome-b gene (15 mutations). More than 50% of the mutants tested still exhibited mitochondrial translation products (subunits I, II and III), suggesting that they carry a missense mutation, rather than a nonsense mutation which would normally have led to a truncated protein. Mutations in the COX1 gene were allocated to four different subregions corresponding to exons 4 and 8 or to groups of exons, exons 1, 2, 3 or exons 5, 6, 7. Seven missense monosubstitution mutations and two frameshift mutations were also identified. The amino acid changes of the missense mutations were located in the vicinity of the CuB-heme alpha 3 binuclear centre ligands.
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PMID:Genetic screening in Saccharomyces cerevisiae for large numbers of mitochondrial point mutations which affect structure and function of catalytic subunits of cytochrome-c oxidase. 838 19

A technique has been developed for the direct analysis by visible spectrophotometry of yeast spots growing on agar plates. This allows rapid semi-quantitative estimations of cytochromes c, b and oxidase and permits the identification of strains with impaired respiratory electron flow. Results of screening of 105 mutants are presented. There appears to be a correlation between the exonic location of the mutation in COX1 of oxidase and the level of optically detectable enzyme. Mutations in cytochrome b of the bc1 complex also affect the level of expression of cytochrome oxidase and can cause either an increased or decreased level of expression of oxidase relative to the wild-type strain. Twelve strains selected by the rapid level-1 screening were grown as lawns on sections of an agar plate and resuspended for a second level of screening. Quantitative estimates have been made of the concentrations of cytochromes, the turnover number of cytochrome oxidase and the kinetics of recombination of carbon monoxide with oxidase after flash photolysis. This confirmed the validity of the rapid screening procedure, and we have identified several strains which contain high levels of a mutant form of cytochrome oxidase with properties worthy of further investigation.
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PMID:Rapid screening of cytochromes of respiratory mutants of Saccharomyces cerevisiae. Application to the selection of strains containing novel forms of cytochrome-c oxidase. 838 20

The DNA sequences of cytochrome oxidase (subunits 1, 2 and 3) genes of the cellular slime mold Dictyostelium discoideum mitochondria were determined. The genes for subunits 1 and 2 have a single continuous ORF (COX1/2) which contains four group-I introns. The insertion sites of the two group-I introns (DdOX1/2.2 and DdOX1/2.3) coincide with those of fungal and algal group-I introns, as well as a liverwort group-I intron, in the cytochrome oxidase subunit 1. Interestingly, intron DdOX1/2.2 has two free-standing ORFs in a loop (L8) which have similar amino-acid sequences and are homologous to ai4 DNA endonuclease (I-Sce II) and bi4 RNA maturase found in group-I introns of Saccharomyces cerevisiae mitochondrial DNA. Two group-I introns (DdOX1/2.3 and DdOX1/2.4) also have a free-standing ORF in loop 1 and loop 2, respectively. These results show that these group-I introns and the intronic ORFs have evolved from the same ancestral origin, but that these ORFs have been propagated independently.
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PMID:Group-I introns in the cytochrome c oxidase genes of Dictyostelium discoideum: two related ORFs in one loop of a group-I intron, a cox1/2 hybrid gene and an unusually large cox3 gene. 900 Mar 84

Mutations in MTO1 express a respiratory defect only in the context of a mitochondrial genome with a paromomycin-resistance allele. This phenotype is similar to that described previously for mss1 mutants by Decoster, E., Vassal, A., and Faye, G. (1993) J. Mol. Biol. 232, 79-88. We present evidence that Mto1p and Mss1p are mitochondrial proteins and that they form a heterodimer complex. In a paromomycin-resistant background, mss1 and mto1 mutants are inefficient in processing the mitochondrial COX1 transcript for subunit 1 of cytochrome oxidase. The mutants also fail to synthesize subunit 1 and show a pleiotropic absence of cytochromes a, a3, and b. In vivo pulse labeling of an mto1 mutant, however, indicate increased rates of synthesis of other mitochondrial translation products. The respiratory defective phenotype of mto1 and mss1 mutants is not seen in a paromomycin-sensitive genetic background. The visible absorption spectra of such strains indicate a higher ratio of cytochromes b/a and elevated NADH- and succinate-cytochrome c reductase activities. To explain these phenotypic characteristics, we proposed that the Mto1p.Mss1p complex plays a role in optimizing mitochondrial protein synthesis in yeast, possibly by a proofreading mechanism.
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PMID:MTO1 codes for a mitochondrial protein required for respiration in paromomycin-resistant mutants of Saccharomyces cerevisiae. 977 8

We have investigated a light-conditional mutant of Chlamydomonas reinhardtii (J12) that is unable to synthesize chlorophyll in the dark with the aim of characterizing the mitochondrial membrane polypeptides of this alga. A crude membrane fraction derived from etiolated cells was analyzed by gel electrophoresis, immunoblot analysis, and pulse-labeling in the presence of specific protein synthesis inhibitors. This fraction contained both mitochondrial and etioplast membranes, and the latter contained appreciable amounts of subunits of the cytochrome b6f complex. The mitochondria-encoded subunit 1 of cytochrome-c oxidase called COX1 was identified, and its synthesis was detected in this membrane fraction. The redox-difference spectra of mitochondrial cytochromes were studied in whole cells and membrane fractions, in both respiratory-competent and -deficient strains. Mitochondrial membranes could be further purified after sucrose gradient centrifugation. The use of etiolated cells and their membrane extracts, in association with appropriate methodologies, opens ways to study the molecular genetics of mitochondria in C. reinhardtii and allows us to address the question of the cooperation established between the three genetic compartments of a plant cell.
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PMID:Etiolated cells of Chlamydomonas reinhardtii: choice material for characterization of mitochondrial membrane polypeptides. 1160 85

SHY1 codes for a mitochondrial protein required for full expression of cytochrome oxidase (COX) in Saccharomyces cerevisiae. Mutations in the homologous human gene (SURF1) have been reported to cause Leigh's syndrome, a neurological disease associated with COX deficiency. The function of Shy1p/Surf1p is poorly understood. Here we have characterized revertants of shy1 null mutants carrying extragenic nuclear suppressor mutations. The steady-state levels of COX in the revertants is increased by a factor of 4-5, accounting for their ability to respire and grow on non-fermentable carbon sources at nearly wild-type rates. The suppressor mutations are in MSS51, a gene previously implicated in processing and translation of the COX1 transcript for subunit 1 (Cox1) of COX. The function of Shy1p and the mechanism of suppression of shy1 mutants were examined by comparing the rates of synthesis and turnover of the mitochondrial translation products in wild-type, mutant and revertant cells. We propose that Shy1p promotes the formation of an assembly intermediate in which Cox1 is one of the partners.
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PMID:Shy1p is necessary for full expression of mitochondrial COX1 in the yeast model of Leigh's syndrome. 1178 24


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