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)

In vitro cerebral oxidative metabolism undergoes dramatic increases in infant rats between 10 and 20 days of age. To determine this was also the case in vivo, comparisons were made of cerebral blood flow (CBF) and oxygenation in rats at 10, 20, and 60-90 days of age, under pentobarbital sodium anesthesia. Measurements were made of CBF, arterial and venous O2 content, cerebral PO2 distributions, and the oxidation state of cytochrome-c oxidase (cytochrome aa3). CBF, O2 delivery, and O2 consumption all increased progressively with maturation. In contrast, cerebral PO2, cytochrome aa3 oxidation state, and O2 extraction fraction were higher in 20-day-old rats than in either 10-day-old or adult rats. We attribute this difference primarily to the high density of cerebral capillaries in the 20-day-old rat. We conclude that cerebral tissue PO2 and the oxidation state of cytochrome aa3 are determined by the density of perfused capillaries in addition to the more commonly accepted factors of cerebral O2 delivery and consumption.
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PMID:Cerebral oxygenation and blood flow in infant and young adult rats. 253 50

Since the inception of the 14C-deoxyglucose method and its extension to in vivo imaging of regional cerebral glucose metabolism in humans by positron emission tomography, uncertainty has persisted concerning the type of work to which regional metabolism is coupled, as well as the distribution of this work within the neuron. 14C-deoxyglucose studies indicate that functionally-coupled neural metabolism is more apparent in axon terminals and perhaps dendrites than neuronal perikarya. Moreover, it appears that most of the metabolism in axon terminals is accounted for by Na+-K+-ATPase activity. Nevertheless, cytochrome oxidase histochemistry reveals the presence of intensely reactive mitochondria in soma-dendrite regions opposite presynaptic axon terminals, thereby indicating that continuous temporal and spatial summation of postsynaptic graded potentials is associated with increased metabolism. While the situation concerning the relative postsynaptic metabolic prices of EPSP's and IPSP's remains uncertain, the presence of elevated levels of cytochrome oxidase activity within certain classes of presynaptic terminals indicates that active excitation and inhibition is associated with increases in presynaptic metabolism. This observation has been confirmed in 14C-deoxyglucose studies. Nevertheless, studies of neonatal hippocampus indicate that, before metabolic activity shifts to dendritic and telodendritic regions of electrophysiological activity, metabolism is high in somal foci of biosynthesis.
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PMID:The relationship between CNS metabolism and cytoarchitecture: a review of 14C-deoxyglucose studies with correlation to cytochrome oxidase histochemistry. 253 21

An a-type cytochrome was purified from Halobacterium halobium. The cytochrome showed an absorption spectrum similar to that of cytochrome aa3; it showed absorption peaks at 420 and 598 nm in the resting state, peaks at 441 and 602 nm in the reduced form, and its CO compound showed peaks at 430 and 600 nm. The cytochrome molecule was composed of only one kind of polypeptide with the molecular weight of 40,000. The cytochrome contained two heme a molecules in the molecule but no copper. The cytochrome did not show cytochrome c oxidase activity. Midpoint redox potential at pH 8.0 of the cytochrome was determined to be +0.31 V. The amino acid composition of the cytochrome resembled that of subunit I of mitochondrial cytochrome aa3. While two molecules of heme a were reduced with sodium dithionite, only one of two heme a molecules was reduced with ascorbate plus TMPD. The heme a reduced with ascorbate plus TMPD did not react with molecular oxygen or carbon monoxide, while one of two heme a molecules reduced with sodium dithionite was oxidized by molecular oxygen and combined with carbon monoxide.
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PMID:Purification and properties of Halobacterium halobium "cytochrome aa3" which lacks CuA and CuB. 254 39

Gidrel, digidrel, and sodium salt of maleic hydrazide were shown to exert no influence on oxygen consumption by cytochrome oxidase in concentrations up to 10(-1) M. Similar concentrations of N,N-dimethylamino-succinic acid hydrazide inhibited cytochrome oxidase but did not influence the optical spectrum of cytochrome oxidase.
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PMID:[Effect of hydrazine derivatives, plant growth regulators, on the cytochrome oxidase reaction]. 254 59

We reported a girl with mitochondrial encephalomyopathy, who had various neuromuscular symptoms including dilated cardiomyopathy, generalized convulsions, myoclonus, muscular weakness and growth retardation. Lactate levels in the serum and CSF were elevated. Muscle biopsy showed scattered ragged-red fibers, and complex I (NADH-CoQ reductase) and complex IV (cytochrome c oxidase) were markedly reduced. Although she was treated with coenzyme Q, DL-carnitine and sodium succinate, she died of progressive congestive heart failure at 9 10/12 years of age.
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PMID:[A case of mitochondrial encephalomyopathy with cardiomyopathy due to decreased complex I and IV activities]. 255 57

Microphotometric assay media for the measurement of succinate dehydrogenase (SDH) and cytochrome oxidase activities in sections of human skeletal muscle have been developed. The optimal constitution of these media was determined experimentally. Factors investigated include the effects of substrate concentration, pH, use of different electron acceptors and electron donors, influence of intermediate electron carriers and tissue-stabilizing agents, effects of inhibitors, the extent of endogenous and non-specific reactions and the linearity of the reactions during the time course of the assays. Optimal assay media (SDH) contained 130 mM succinate, 1.5 mM Nitro Blue tetrazolium, 0.2 mM phenazine methosulphate and 1.0 mM sodium azide in 0.1 m phosphate buffer, pH7.0. Cytochrome oxidase was optimally assayed in media containing 4 mM diaminobenzidine and 100 microns cytochrome c. Reactions in individual muscle fibers were found to be linear for incubation times up to 10 min in SDH assays and for more than 15 min in cytochrome oxidase determinations. Some potential uses of these microphotometric assays in the investigation of human metabolic muscle disorders are discussed.
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PMID:Methods of microphotometric assay of succinate dehydrogenase and cytochrome c oxidase activities for use on human skeletal muscle. 255 54

We have measured the steady-state tryptophan fluorescence spectrum of cytochrome oxidase in its oxidized and fully reduced states. Reduction of the oxidized enzyme by sodium dithionite causes an apparent shift in the fluorescence emission maximum from 328 nm, in the oxidized enzyme, to 348 nm, in the reduced enzyme. This spectroscopic change has been observed previously and assigned to a redox-linked, conformational change in cytochrome oxidase [Copeland, R. A., Smith, P. A., & Chan, S. I. (1987) Biochemistry 26, 7311-7316]. When dithionite-reduced enzyme sits in an open cuvette, the enzyme returns to the oxidized state, and the fluorescence maximum shifts back to 328 nm. However, the time course of the fluorescence change does not follow the redox state of the enzyme, monitored spectrophotometrically at 445,605, and 820 nm, but follows the disappearance of dithionite, which absorbs at 315 nm. Moreover, when the fluorescence emission spectrum of the dithionite-reduced enzyme is corrected for the absorbance due to dithionite, the fluorescence maximum is found 2 nm blue shifted, relative to that of the oxidized enzyme, at 326 nm. This dithionite-induced, red-shifted steady-state tryptophan fluorescence is also seen with the non-heme-containing enzyme carboxypeptidase A. The tryptophan emission spectrum of untreated carboxypeptidase A is at 332 nm, whereas in the presence of dithionite the emission spectrum of carboxypeptidase A is at 350 nm. When corrected for the absorbance of dithionite, the tryptophan emission maximum is at 332 nm. We have also used the photoreductant 3,10-dimethyl-5-deazaisoalloxazine (deazaflavin) to reduce cytochrome oxidase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of reductant-induced, tryptophan fluorescence changes in cytochrome oxidase. 255 93

Hypoxic-ischaemic injury to the brain is an important cause of perinatal death and seems to be the commonest cause of permanent neurodevelopmental disability in newborn infants who survive after intensive care. If this type of brain injury is to be prevented and treatment put on a rational basis, non-invasive methods are required for defining its mechanisms. This review has considered two such methods: magnetic resonance spectroscopy and near infrared spectroscopy. Magnetic resonance spectroscopy is used to measure, in brain tissue, the concentrations of the 'high energy' phosphorus metabolites that are dependent for their synthesis on the processes of oxidative phosphorylation. Intracellular pH can also be measured. Normal maturational changes in the brain have been defined and abnormalities detected in a range of conditions where hypoxic-ischaemic injury was suspected to have occurred. In laboratory animals the acute effects of curtailment of oxygen supply to the brain ('primary' energy failure) have been observed, and the effects of two commonly used treatments, infusions of sodium bicarbonate and glucose, have been tested. After resuscitation of newborn infants from severe intrapartum asphyxia, a latent period has often been noted before energy failure became detectable. This 'secondary' energy failure is due to a variety of damaging reactions initiated by the acute hypoxicischaemic episode and reperfusion of the brain. It is possible that in the future irreversible injury to brain cells following the episode may be prevented or ameliorated by the prompt use of cerebroprotective agents. The extent of abnormalities detected by magnetic resonance spectroscopy has prognostic implications: evidence of severe energy failure in the first days of life was regularly associated with subsequent death or with severe neurodevelopmental impairments. Many technical developments in magnetic resonance spectroscopy are under way, particularly employing proton (1H) spectroscopy, which will allow the intracerebral concentrations of a wide range of metabolites, including neurotransmitters, to be measured. The combination of spectroscopy with magnetic resonance imaging will permit quantitative data to be obtained from selected volumes within the brain. Near infrared spectroscopy is used to make observations at the cotside of the intracerebral concentrations of the chromophores oxyhaemoglobin, deoxyhaemoglobin, and oxidised cytochrome aa3, and it therefore provides information complementary to that obtained by magnetic resonance spectroscopy. Measurements can also be made of cerebral blood flow, cerebral blood volume, and other haemodynamic indices; in addition, the rea
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PMID:Magnetic resonance and near infrared spectroscopy for investigation of perinatal hypoxic-ischaemic brain injury. 267 61

Cultured rat hepatocytes were treated with potassium cyanide, an inhibitor of cytochrome oxidase; valinomycin, a K+ ionophore; carbonyl cyanide m-chlorophenylhydrazone (CCCP), a protonophore; and the ATP synthetase inhibitor oligomycin. The effect of these agents on the viability of the cells was related to changes in ATP content and the deenergization of the mitochondria. The ATP content was reduced by over 90% by each inhibitor. All of the agents except oligomycin killed the cells within 4 h. With the exception of oligomycin, the mitochondrial membrane potential as measured by the distribution of [3H]triphenylmethylphosphonium collapsed with each of the agents. Monensin, a H+/Na+ ionophore, potentiated the toxicity of cyanide and CCCP, whereas the toxicity of valinomycin was reduced. The effect of cyanide and monesin on the cytoplasmic pH of cultured hepatocytes was measured with the fluorescent probe, 2',7'-biscarboxyethyl-5,6-carboxyfluorescein. Cyanide promptly acidified the cytosol, and the addition of 10 microM monensin caused a rapid alkalinization of the cytosol. A reduction of pH of the culture medium from 7.4 to 6.6 and 6.0 prevented the cell killing both by cyanide alone and by cyanide in the presence of monensin. However, neither monensin nor extracellular acidosis had any effect on the loss of mitochondrial energization in the presence of cyanide. It is concluded that ATP depletion per se is insufficient to explain the cell killing with cyanide, CCCP, and valinomycin. Rather, cell killing is better correlated with a loss of mitochondrial energization. With cyanide an intracellular acidosis interferes with the mechanism that couples collapse of the mitochondrial membrane potential to lethal cell injury.
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PMID:Intracellular acidosis protects cultured hepatocytes from the toxic consequences of a loss of mitochondrial energization. 273 60

A "hybrid" discontinuous gradient consisting of 6% Percoll overlaid on metrizamide separated mitochondria from other organelles in a Chinese hamster ovary cell postnuclear supernatant in a single 15-min centrifugation. The mitochondrial preparation contained about 25% of the mitochondrial marker, cytochrome-c oxidase, in a form that was about 90% latent. Based on the postnuclear supernatant, cytochrome-c oxidase activity was enriched approximately 45-fold. Trace amounts of lysosomal, rough endoplasmic reticular, Golgi, peroxisomal, plasma membrane, and cytosolic markers were found in the preparation. Electron microscopy revealed that the preparation consisted almost exclusively of mitochondria with only minor amounts of contaminating organelles. Analysis of the mitochondrial preparation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis demonstrated that the mitochondrial preparation had a unique protein profile compared to the postnuclear supernatant and other gradient interfaces. Separation of the mitochondria into membrane and lumenal (matrix) fractions by treatment with 100 mM Na2CO3, pH 11.5, also indicated that the mitochondria were intact; they were rich in lumenal proteins. The data indicate that the mitochondria represent maximally about 2.2% of Chinese hamster ovary cell postnuclear supernatant protein. These isolated mitochondria should prove useful for problems in molecular cell biology.
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PMID:The preparative isolation of mitochondria from Chinese hamster ovary cells. 282 44


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