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)

Residues at positions 13 (lysine or arginine) and 90 (glutamate or aspartate) of eukaryotic cytochromes c have been conserved during evolution; Cys102, however, is found only in yeast cytochrome c. The positively charged residue at position 13 and the negatively charged residue at position 90 are close together in those cytochromes c for which three-dimensional structures are available. We have replaced the amino acids at these two positions by cysteine in Saccharomyces cerevisiae iso-1-cytochrome c; in an earlier study, Cys102 was replaced by threonine without negatively influencing the physical or enzymic properties of the protein. The mutated proteins [R13C, C102T]cytochrome c (iso-1-cytochrome c containing Arg13-->Cys and Cys102-->Thr mutations), [D90C, C102T]cytochrome c (iso-1-cytochrome c containing Asp90-->Cys and Cys102-->Thr mutations) and [R13C, D90C, C102T]cytochrome c (iso-1-cytochrome c containing Arg13-->Cys, Asp90-->Cys, and Cys102-->Thr mutations) are functional in vivo. Free sulfhydryl titration shows that the doubly mutated forms each contain one sulfhydryl group while the triple mutant contains two sulfhydryl groups. The stability of mutant [R13C, C102T]cytochrome c resembles that of [C102T] cytochrome c, whereas the stability of [D90C, C102T]cytochrome c resembles the stability of [R13C, D90C, C102T]cytochrome c. The activity of cytochrome-c oxidase using cytochrome c was monitored polarographically. Compared to the wild-type or [C102T]cytochrome c, which shows two kinetic phases with cytochrome-c oxidase, [D90C, C102T]cytochrome c has much the same profile; [R13C, C102T]cytochrome c and [R13C, D90C, C102T]cytochrome c exhibit one kinetic phase with decreased activity. Electron-transfer activity of the mutant cytochromes c is inhibited by Hg2+. The inhibition is highest for the triple mutant, less for [R13C, C102T]cytochrome c, even less for [D90C, C102T]cytochrome c and insignificant for the wild type. It would appear as though the stability of the triple mutant follows the changes that result from the Asp90-->Cys mutation while the activity changes follow those of the Arg13-->Cys mutation.
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PMID:Mutations of iso-1-cytochrome c at positions 13 and 90. Separate effects on physical and functional properties. 803 88

In rat liver, comparisons of marker enzyme activities (beta-hexosaminidase, lysosomes; catalase, peroxisomes; cytochrome oxidase, mitochondrial-inner membrane; monoamine oxidase, mitochondrial outer membrane; ornithine aminotransferase, mitochondrial matrix) show that lysine-alpha-ketoglutarate reductase and saccharopine dehydrogenase, the initial enzymes of saccharopine-dependent lysine degradation, are found only in the mitochondrial matrix. These results are consistent with obligatory uptake of lysine into the matrix for lysine catabolism and raise the possibility that lysine transport into the mitochondrion may control lysine degradation.
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PMID:Lysine-alpha-ketoglutarate reductase and saccharopine dehydrogenase are located only in the mitochondrial matrix in rat liver. 806 71

Cytochrome aco3 of Bacillus YN-2000 was purified by an improved procedure and its molecular features and catalytic activity were extensively studied. The enzyme molecule was composed of three subunits with M(r)s of 50,000, 41,000, and 22,000, and contains 1 molecule each of cytochrome a, cytochrome c, and cytochrome o3 in the minimal structural unit (M(r), 113,000). The 41,000 subunit (subunit II) contains heme c. The EPR, optical, and resonance Raman spectra of the oxidized enzyme demonstrated the presence of CuA whose coordination environment bore close resemblance to that of the aa3-type cytochrome c oxidase. Resonance Raman studies demonstrated that the cytochrome a moiety was similar to that of an aa3-type oxidase and also that the cytochrome o3 contained a five-coordinated high-spin heme with histidine as an axial ligand. The Fe-CO stretching mode of the cytochrome o3.CO complex was observed at 520 cm-1, which is the same frequency as that of cytochrome aa3.CO. The oxygen consumption activity of cytochrome aco3 was measured using several kinds of cytochromes c as the electron mediators. The reaction between cytochrome aco3 and eucaryotic cytochromes c was completely inhibited by poly-L-lysine. In contrast, poly-L-lysine was indispensable for sufficient reaction between the oxidase and Bacillus YN-2000 cytochrome c-553, the physiological electron donor. The combined results on the structure and enzymatic properties suggest that the cytochrome aco3 is very similar to cytochrome caa3 except that the cytochrome aco3 has cytochrome o3 in place of cytochrome a3 and the cytochrome c component has a very low redox midpoint potential (95 mV).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The molecular features and catalytic activity of CuA-containing aco3-type cytochrome c oxidase from a facultative alkalophilic Bacillus. 840 82

The metabolic control of respiration is still poorly understood, due mainly to the lack of suitable approaches for studying it in vivo. Experiments on isolated mammalian mitochondria have indicated that a relatively small fraction of each of several components of the electron transport chain is sufficient to sustain a normal O2 consumption rate. These experiments, however, may not reflect accurately the in vivo situation, due to the lack in the mitochondrial fraction of essential cytosolic components and to the use of excess of substrates in the in vitro assays. An approach is described here whereby the control of respiration by cytochrome c oxidase (COX; EC 1.9.3.1) was analyzed in intact cultured human osteosarcoma 143B.TK- cells and other wild-type cells and in mitochondrial DNA mutation-carrying human cell lines. Surprisingly, in wild-type cells, only a slightly higher COX capacity was detected than required to support the endogenous respiration rate, pointing to a tighter in vivo control of respiration by COX than generally assumed. Cell lines carrying the MERRF mitochondrial tRNA(Lys) gene mutation, which causes a pronounced decrease in mitochondrial protein synthesis and respiration rates, revealed, in comparison, a significantly greater COX capacity relative to the residual endogenous respiration rate, and, correspondingly, a higher COX inhibition threshold above which the overall respiratory flux was affected. The observed relationship between COX respiratory threshold and relative COX capacity and the potential extension of the present analysis to other respiratory complexes have significant general implications for understanding the pathogenetic role of mutations in mtDNA-linked diseases and the tissue specificity of the mutation-associated phenotype.
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PMID:In vivo control of respiration by cytochrome c oxidase in wild-type and mitochondrial DNA mutation-carrying human cells. 903 24

We propose the name Pseudomonas monteilii for a new species of gram-negative, rod-shaped, motile bacteria that were nonhemolytic on blood agar and were isolated from clinical sources. The 10 strains of P. monteilii were incapable of liquefing gelatin. They grew at 10 degrees C but not at 41 degrees C, produced fluorescent pigments, catalase, and cytochrome oxidase, and possessed the arginine dihydrolase system. They were capable of respiratory but not fermentative metabolism. They did not hydrolyze esculin or starch and were able to use benzylamine, alpha-aminobutyrate, D-ribose, L-arabinose, butyrate, valerate, isovalerate, isobutyrate, inositol, phenylacetate, D-alanine, and amylamine. They possessed L-phenylalanine arylamidase, L-lysine arylamidase, L-alanine arylamidase, gamma-glutamyl-transferase, glycyl-phenylalanine arylamidase, L-tryptophan arylamidase, glycyl-L-alanine arylamidase, esterase C4, esterase C6, esterase C8, esterase C9, esterase C10, and esterase C18. DNA relatedness studies revealed that P. monteilii strains formed a homogeneous DNA hybridization group. A total of 57 strains representing previously described or partially characterized taxa belonging to the genus Pseudomonas were 6 to 54% related to P. monteilii. The highest hybridization values were obtained with strains belonging to or related to Pseudomonas putida biovar A. The average G+C content of the DNA was 60.5 +/- 0.5 mol% for four of the P. monteilii strains studied. The type strain of P. monteilii is CFML 90-60 (= CIP 104883); it was isolated from bronchial aspirate and has a G+C content of 60 mol%. The clinical significance of these organisms is not known.
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PMID:Pseudomonas monteilii sp. nov., isolated from clinical specimens. 922 17

A novel method for initiation of intramolecular electron transfer reactions in cytochrome c is reported. The method is based on photoexcitation of covalently attached thiouredopyrenetrisulfonate (TUPS) by the third harmonic frequency of a Nd:YAG laser (355 nm), the reaction that generates the low-potential triplet state of the dye with high quantum efficiency. TUPS derivatives of horse heart cytochrome c singly labeled at specific lysine residues were prepared and purified to homogeneity by ion-exchange high-pressure liquid chromatography. Eight derivatives were characterized by determination of the location of the modification, reduction potentials, and measurement of enzymatic activity with cytochrome oxidase. Transient absorption spectroscopy was used to directly measure the rate constants for the electron transfer reaction from the photoexcited triplet state of TUPS to the oxidized heme group and the back reaction from the ferrous heme to the oxidized dye. For all singly labeled derivatives, the rate constants for heme reduction were 1 or 2 orders of magnitude larger than for its reoxidation, consistent with the greater thermodynamic driving force for the oxidation reaction. Analysis of the variation of electron-transfer rates with the distance separating the dye and the heme reveals a value of coupling decay constant (beta) of 0.46 A-1. Rapid and effective photoreduction of cytochrome c makes it a useful tool for fast initiation of electron transfer in the reductive direction within complexes of cytochrome c with other redox proteins.
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PMID:Photoinduced electron transfer in singly labeled thiouredopyrenetrisulfonate cytochrome c derivatives. 939 14

The recently reported X-ray structures of cytochrome oxidase reveal structures that are likely proton-conducting channels. One of these channels, leading from the negative aqueous surface to the heme a3/CuB bimetallic center, contains a lysine as a central element. Previous work has shown that this lysine (K362 in the oxidase from Rhodobacter sphaeroides) is essential for cytochrome c oxidase activity. The data presented demonstrate that the K362M mutant is impeded in the reduction of the heme a3/CuB bimetallic center, probably by interfering with the intramolecular movement of protons. The reduction of the heme-copper center is required prior to the reaction with dioxygen to form the so-called peroxy intermediate (compound P). This block can be by-passed to some extent by the addition of H2O2, which can react with the enzyme without prereduction of the heme-copper center and can then be reduced to water using electrons from cytochrome c. Hence, the K362M mutant, though lacking oxidase activity, exhibits cytochrome c peroxidase activity. Rapid mixing techniques have been used to determine the kinetics of this peroxidase activity at concentrations of H2O2 up to 0.5 M. The Km for peroxide is about 50 mM and the Vmax is 50 electrons s-1, which is considerably slower than the turnover that can be obtained for the oxidase activity of the wild-type enzyme (1200 s-1). The turnover of the mutant oxidase with H2O2 appears to be limited by the rate of reaction of the enzyme with peroxide to form compound P, rather than the rate of reduction of compound P to water by cytochrome c. The data require a reexamination of the proposed roles of the putative proton-conducting channels.
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PMID:Substitution of lysine-362 in a putative proton-conducting channel in the cytochrome c oxidase from Rhodobacter sphaeroides blocks turnover with O2 but not with H2O2. 948 59

Vectorially oriented monolayers of yeast cytochrome c and its bimolecular complex with bovine heart cytochrome c oxidase have been formed by self-assembly from solution. Both quartz and Ge/Si multilayer substrates were chemical vapor deposited with an amine-terminated alkylsiloxane monolayer that was then reacted with a hetero-bifunctional cross-linking reagent, and the resulting maleimide endgroup surface then provided for covalent interactions with the naturally occurring single surface cysteine 102 of the yeast cytochrome c. The bimolecular complex was formed by further incubating these cytochrome c monolayers in detergent-solubilized cytochrome oxidase. The sequential formation of such monolayers and the vectorially oriented nature of the cytochrome oxidase was studied via meridional x-ray diffraction, which directly provided electron density profiles of the protein(s) along the axis normal to the substrate plane. The nature of these profiles is consistent with previous work performed on vectorially oriented monolayers of either cytochrome c or cytochrome oxidase alone. Furthermore, optical spectroscopy has indicated that the rate of binding of cytochrome oxidase to the cytochrome c monolayer is an order of magnitude faster than the binding of cytochrome oxidase to an amine-terminated surface that was meant to mimic the ring of lysine residues around the heme edge of cytochrome c, which are known to be involved in the binding of this protein to cytochrome oxidase.
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PMID:Vectorially oriented monolayers of the cytochrome c/cytochrome oxidase bimolecular complex. 951 31

We have identified two individuals from Glasgow in Scotland who have a deletion of one of two copies of the intergenic 9-bp sequence motif CCCCCTCTA, located between the cytochrome oxidase II (COII) and lysine tRNA (tRNA(Lys)) genes of the human mitochondrial genome. Although this polymorphism is common in Africa and Asia, it has not been reported in Northern Europe. Analysis of the mitochondrial DNA control region sequences of these two individuals suggests that they belong to a lineage that originated independently of the previously characterized African and Asian 9-bp deleted lineages. Among the Scottish population we have also identified a maternal lineage of three generations exhibiting heteroplasmy for two, three and four copies of the CCCCCTCTA motif. Polymerase chain reaction amplification across the COII-tRNA(Lys) intergenic region of these individuals gives different ratios of the three product lengths that are dependent on the concentration of the DNA-binding dye crystal violet. To investigate whether changes in repeat number were generated de novo, we constructed clones containing known numbers of the CCCCCTCTA motif. In the presence of high concentrations of crystal violet we obtained two, three and four copies of this motif when the amplification template contained only four copies. Various DNA-binding drugs are known to stabilize bulged structures in DNA and contribute to the process of slipped-strand mispairing during DNA replication. These results suggest that the COII-tRNA(Lys) intergenic region is unstable owing to slipped-strand mispairing. Although sequences containing four copies of the CCCCCTCTA motif are less stable in vitro, we observed an increase in the proportion of mitochondrial genomes with four repeats between-a mother and a daughter in the heteroplasmic lineage. From this we conclude that drift in the germ-line lineage is a main factor in the maintenance or loss of heteroplasmy.
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PMID:Molecular instability in the COII-tRNA(Lys) intergenic region of the human mitochondrial genome: multiple origins of the 9-bp deletion and heteroplasmy for expanded repeats. 968 91

The arrangement of mitochondrial tRNA genes for lysine (K) and aspartate (D) from the junction of the cytochrome oxidase II and ATPase 8 genes was determined in a range of hymenopteran taxa. This indicated that the ancestral arrangement for the order is 'KD', as found in the Diptera (represented by Drosophila and Anopheles) and basal Orthoptera. Most Hymenoptera that evolved after the appearance of parasitism also have the 'KD' arrangement, including noncyclostome braconids. However, most cyclostome braconids have either a 'DK' or a 'DHK' arrangement (where 'H' refers to the tRNA gene for Histidine). In both cases, the aspartate tRNA gene is encoded on the mitochondrial N-strand, rather than the J-strand as is usually the case. This rearrangement identified a monophyletic group not previously recognized, consisting of Rogadinae + Braconinae + Gnamptodontinae + Histeromerinae + Rhyssalinae + Betylobraconinae + Opiinae + Alysiinae. Only one cyclostome subfamily (Doryctinae) retained the 'KD' arrangement, suggesting this to be the most basal of the cyclostome subfamilies, consistent with ectoparasitism being plesiomorphic for the cyclostomes. However, the Aphidiinae also retained the 'KD' arrangement, leaving unresolved the issue of whether they should be included within the cyclostomes.
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PMID:Relationships among the cyclostome braconid (Hymenoptera: Braconidae) subfamilies inferred from a mitochondrial tRNA gene rearrangement. 1019 Oct 72


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