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)

The mitochondria of the cyt-2-1, cya-3-16, cya-4-23 and 299-1 nuclear mutants and the [mi-3] and [exn-5] cytoplasmic mutants of Neurospora crassa are deficient in cytochrome aa3, while the cyb-1-1 and cyb-2-1 mutants have mitochondrial b-cytochrome deficiencies. However, the mitochondria from cyb-1-1 cyt-2-1, cyb-1-1 [mi-3] and cyb-2-1 [mi-3] double mutants contain 30% to 50% of the amount of cytochrome aa3 that is present in mitochondria from wild-type; i.e. cyb-1-1 and cyb-2-2 act as suppressors of the cytochrome aa3 deficiency phenotypes that are associated with cyt-2-1 and [mi-3] mutations. The production of cytochrome aa3 can be induced in cyt-2-1 and [mi-3] by growing cells in medium containing antimycin A, an inhibitor of electron transport in the cytochrome bc1 segment of the mitochondrial electrontransport chain. Moreover, the growth of the [mi-3] mutant is strongly stimulated by low concentrations of antimycin A. The induction of cytochrome aa3 by antimycin treatments does not occur in [exn-5], cya-4-23 and 299-1 cells; but does take place in cya-3-16 cells. Although some of the seven constituent polypeptides of cytochrome aa3 are present in mitochondria of [mi-3], the holoenzyme complex is not formed in the mutant. In contrast, the mitochondria of cyb-1-1 [mi-3] and cyb-2-2 [mi-3] double mutants contain a fully assembled cytochrome oxidase complex as well as some unassembled subunit polypeptides. The observations are indicative of the existence of at least two regulatory systems controlling the production of cytochrome aa3. One of the circuits appears to control the basal or "constitutive" production of cytochrome oxidase, the other seems to coordinate the level of cytochrome aa3 with some function of the mitochondrial cytochrome bc1 complex, possibly electron transport.
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PMID:A regulatory system controlling the production of cytochrome aa3 in Neurospora crassa. 21 99

The mitochondria isolated from the ciliate protozoon Tetrahymena pyriformis carry an oxidative phosphorylation with P/O ratio of 2 for succinate oxidation and P/O ratio of 3 for the oxidation of the NAD-linked substrates. The respiration is more than 90% inhibited with 1 mM cyanide while antimycin A and rotenone inhibit at concentrations of 1000-fold higher than those effective in mammalian mitochondria. Using a combination of spectral studies and potentiometric titrations, the components of the respiratory chain were identified and characterized with respect to the values of their half-reduction potentials. In the cytochrome bc1 region of the chain a cytochrome c was present with an Em7.2 of 0.225 V and two components with absorption maxima at 560 nm and the half-reduction potential values of -0.065 and -0.15 V at pH 7.2. The cytochrome with the more positive half-reduction potential was identified as the analogue of the cytochrome(s) b present in mitochondria of higher organisms, while the cytochrome with the more negative half-reduction potential was tentatively identified as cytochrome o. In addition ubiquinone was present at a concentration of approx. 4 nmol per mg mitochondrial protein. In the spectral region where cytochromes a absorb at least three cytochromes were found. A cytochrome with an absorption maximum at 593 nm and a midpoint potential of -0.085 V at pH 7.2 was identified as cytochrome a1. The absorption change at 615-640 nm, attributed usually to cytochrome a2, was resolved into two components with Em7,2 values of 0,245 and 0.345 V. It is concluded that the terminal oxidase in Tetrahymena pyriformis mitochondria is cytochrome a2 which in its two component structure resembles cytochrome aa3.
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PMID:Mitochondrial respiratory chain of Tetrahymena pyriformis. The thermodynamic and spectral properties. 40 46

Mitochondrial cytochrome c is a water-soluble protein in the intermembrane space which catalyzes electron transfer from the cytochrome bc1 complex to the terminal oxidase cytochrome aa3. In Bradyrhizobium japonicum, a gene (cycM) which apparently encodes a membrane-anchored homolog of mitochondrial cytochrome c was discovered. The apoprotein deduced from the nucleotide sequence of the cycM gene consists of 184 amino acids with a calculated Mr of 19,098 and an isoelectric point of 8.35. At the N-terminal end (positions 9 to 31), there was a strongly hydrophobic domain which, by forming a transmembrane helix, could serve first as a transport signal and then as a membrane anchor. The rest of the protein was hydrophilic and, starting at position 72, shared about 50% sequence identity with mitochondrial cytochrome c. The heme-binding-site motif Cys-Gly-Ala-Cys-His was located at positions 84 to 88. A B. japonicum cycM insertion mutant (COX122) exhibited an oxidase-negative phenotype and apparently lacked cytochrome aa3 in addition to the CycM protein. The wild-type phenotype with respect to all characteristics tested was restored by providing the cycM gene in trans. The data supported the conclusion that the assembly of cytochrome aa3 depended on the prior incorporation of the CycM protein in the cytoplasmic membrane.
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PMID:The Bradyrhizobium japonicum cycM gene encodes a membrane-anchored homolog of mitochondrial cytochrome c. 165 67

Further genetic evidence is provided here that Bradyrhizobium japonicum possesses a mitochondria-like electron-transport pathway: 2[H]----UQ----bc1----c----aa3----O2. Two Tn5-induced mutants, COX122 and COX132, having cytochrome c oxidase-negative phenotypes, were obtained and characterized. Mutant COX122 was defective in a novel gene, named cycM, which was responsible for the synthesis of a c-type cytochrome with an Mr of 20,000 (20K). This 20K cytochrome c appeared to catalyse electron transport from the cytochrome bc1 complex to the aa3-type terminal oxidase and, unlike mitochondrial cytochrome c, was membrane-bound in B. japonicum. The Tn5 insertion of mutant COX132 was localized in coxA, the structural gene for subunit I of cytochrome aa3. This finding also led to the cloning and sequencing of the corresponding wild-type coxA gene that encoded a 541-amino-acid protein with a predicted Mr of 59,247. The CoxA protein shared about 60% sequence identity with the cytochrome aa3 subunit I of mitochondria. The B. japonicum cycM and coxA mutants were able to fix nitrogen in symbiosis with soybean (Fix+). In contrast, mutants described previously which lacked the bc1 complex did not develop into endosymbiotic bacteroids and were thus Fix-. The data suggest that a symbiosis-specific respiratory chain exists in B. japonicum in which the electrons branch off at the bc1 complex.
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PMID:Genetic analysis of the cytochrome c-aa3 branch of the Bradyrhizobium japonicum respiratory chain. 196 17

Molecular weights of three membrane proteins have been measured in the presence of 0.1% octaethylene glycol n-dodecyl ether (C12E8) by the measuring system in which a membrane protein eluted from a gel chromatography column is monitored sequentially for ultraviolet absorption, light scattering and refractive index. The relative molecular mass (Mr) and amount of bound detergent per protein (delta) can be calculated from these data, if instrumental constants are measured using a set of appropriate water-soluble proteins which does not bind nonionic surfactants. The molecular masses of cytochrome c oxidase and cytochrome bc1 complex from the thermophilic bacterium PS3 were determined to be 127 kDa and 185 kDa, respectively, indicating that the oxidase is monomeric, while the bc1 complex dimeric in the presence of C12E8. The larger apparent molecular mass of about 310 kDa of the PS3 oxidase obtained from the retention time of the gel chromatography (Sone, N., Sekimachi, M. and Kutoh, E. (1987) J. Biol. Chem. 262, 15386-15391) turned out to be due to a high binding ability with the detergent (delta = 1.25 g/g) of this very hydrophobic protein. Analyses of bovine heart cytochrome oxidase, on which monomer/dimer properties have been reported, showed that the enzyme is mainly dimeric (Mr = 374,000), while a small portion is monomeric (Mr = 191,000). Mild alkaline treatment of this enzyme caused monomerization of the enzyme with accompanying aggregate formation. These results, thus, show that this method is suitable to analyze monomer/dimer conversion of membrane protein as well as to estimate structure of membrane proteins.
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PMID:Monomer-dimer structure of cytochrome-c oxidase and cytochrome bc1 complex from the thermophilic bacterium PS3. 217 52

The effects of thyroid hormone on the accumulation of inner membrane polypeptides in rat liver mitochondria have been investigated using Western blot analysis. Respiration and mitochondrial protein synthesis were also measured. Levels of the subunits of cytochrome oxidase, the cytochrome bc1 complex, and the beta-subunit of F1-ATPase increase relatively late, requiring 3-6 days of treatment and high doses of hormone. In contrast, respiration increases under conditions in which no significant accumulation of individual subunits is observed. Our results indicate that increased oxidative capacity of mitochondria can be divided into an early response which probably involves metabolic regulation of mitochondrial respiration by hormone and a later response which is due to elevated mitochondrial protein synthesis and the accumulation of polypeptides of the respiratory chain.
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PMID:The response of individual polypeptides of the mammalian respiratory chain to thyroid hormone. 253 61

Spheroplasts from aerobically grown wild-type Paracoccus denitrificans cells respire with succinate despite specific inhibition of the cytochrome bc1 complex by myxothiazol. Coupled to this activity, which involves only b-type cytochromes, there is translocation of 1.5-1.9 h+/e- across the cytoplasmic membrane. Similar H+ translocation ratios are observed during oxidation of ubiquinol in spheroplasts from aerobically grown mutants of Paracoccus lacking cytochrome c oxidase, or deficient in cytochrome c, as well as in a strain of E. coli from which cytochrome d was deleted. These observations show that the cytochrome o complex is a proton pump much like cytochrome aa3 to which it is structurally related.
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PMID:Cytochrome o (bo) is a proton pump in Paracoccus denitrificans and Escherichia coli. 254 45

Several different proton pumps were used to generate a proton motive force (delta p, proton motive force across the mitochondrial inner membrane) in isolated rat liver mitochondria, and the relationship between delta p and pump rate was investigated by titrating with various inhibitors of the pumps. It was found that this relationship was the same for mitochondria respiring on succinate irrespective of whether respiration was inhibited with malonate, antimycin or cyanide, indicating that the relationship was independent of the redox state of the respiratory chain. When delta p was generated by either the cytochrome bc1 complex, cytochrome oxidase, both together, or ATP hydrolysis (and transport), the reaction rates (in moles of electrons or ATP) were in the ratio of close to 3:1.5:1:1, respectively, at all accessible values of delta p. This suggests that the proton stoichiometries (H+/e and H+/ATP, where H+/e is the number of protons translocated vectorially across the inner membrane per electron transferred by the respiratory chain and H+/ATP is the number of protons translocated vectorially per ATP molecule hydrolyzed externally) were in the ratio of close to 1:2:3:3, respectively, at all values of delta p. Possible reasons for previous contradictory results are suggested.
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PMID:The relative proton stoichiometries of the mitochondrial proton pumps are independent of the proton motive force. 254 30

The effects of thyroid hormone on nuclear-encoded mitochondrial inner membrane proteins were investigated by in vitro translation of the endogenous mRNA present in a postmitochondrial fraction from the livers of rats treated in vivo with hormone. The levels of the mRNAs were estimated by quantitative immunoabsorption of the translation mixture. Total protein synthesis was increased 2.6-fold after 4 days of in vivo hormone treatment, but only 10-15% of the polypeptides were dramatically altered (greater than 5-fold). Among the most highly elevated were cytochrome c1 (greater than 10-fold increase) and the Rieske iron-sulfur protein of the cytochrome bc1 complex. Other inner membrane proteins (core protein 1, beta subunit of F1 ATPase, subunit IV of cytochrome oxidase, 3-hydroxybutyrate dehydrogenase) and non-mitochondrial proteins (rat serum albumin, beta 2-microglobulin) were not altered significantly by hormone treatment. Cytochrome c1 and the Rieske protein increased after 12 h of hormone treatment, a relatively early response in mammalian mitochondrial biogenesis. The possible significance of this response for the regulation of mitochondrial synthesis and assembly is discussed.
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PMID:Thyroid hormone regulation of nuclear-encoded mitochondrial inner membrane polypeptides of the liver. 277 68

Evidence for the presence of a quinol oxidase super-complex composed of a cytochrome bc1 complex and cytochrome oxidase in the respiratory chain of a Gram-positive thermophilic bacterium PS3 is reported. On incubation with an octyl glucoside-solubilized fraction of the total membranes of PS3 anti-serum against PS3 cytochrome oxidase gave an immunoprecipitate that showed both quinol-cytochrome c reductase and cytochrome c oxidase activities. When the cholate-deoxycholate and LiCl-treated membranes of PS3 were solubilized and subjected to ion-exchange chromatography in the presence of octaethyleneglycol dodecyl ether, most of the A-, B-, and C-type cytochromes were copurified as a peak having both quinol-cytochrome c reductase and cytochrome oxidase activities. The immunoprecipitate and quinol oxidase preparation contained hemes a, b, and c in a ratio of about 2:2:3, indicating the presence of one-to-one complex of cytochrome oxidase containing 2 hemes a and one heme c, and a bc1 complex containing 2 hemes b and 2 hemes c. Gel electrophoresis in the presence of dodecyl sulfate showed that the immunoprecipitate and quinol oxidase preparation were composed of seven subunits; those of 51 (56-kDa), 38, and 22 kDa for cytochrome oxidase and those of 29, 23, 21, and 14 kDa for the bc1 complex. The 38-, 29-, and 21 kDa components possessed covalently bound heme c. The apparent molecular mass of the super complex was estimated to be as 380 kDa by gel filtration.
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PMID:Identification and properties of a quinol oxidase super-complex composed of a bc1 complex and cytochrome oxidase in the thermophilic bacterium PS3. 282 57


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