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)

1. Nitrite oxidase and cytochrome-c oxidase activity catalysed by cytochrome-aa3 were assayed in earthworms and rats. 2. Cytochrome-aa3 and intact mitochondria from the two species were anaerobically incubated in the presence of nitrite; the occurrence of mitochondria-induced nitrite biotransformations was evaluated by monitoring nitrite recovery in incubation medium. Possible nitric oxide production was also tested. 3. The ratio nitrite oxidase/cytochrome-c oxidase activity was much higher in earthworms than in rats. 4. Under anaerobic conditions and in the presence of respiratory substrates, earthworm mitochondria produced a time-dependent loss of nitrite in the incubation medium. On the contrary, rat mitochondria are unable to decrease environmental nitrite concentration. 5. Results support the notion that metabolic properties of earthworm mitochondria can be considered as an adaptation to chronic nitrite exposure, this toxicant being typically present in natural habitats of these worms.
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PMID:Nitrite biotransformation by mitochondria from the earthworm Eisenia foetida (Savigny). 131 82

Under anaerobic circumstances in the presence of nitrate Paracoccus denitrificans is able to denitrify. The properties of the reductases involved in nitrate reductase, nitrite reductase, nitric oxide reductase, and nitrous oxide reductase are described. For that purpose not only the properties of the enzymes of P. denitrificans are considered but also those from Escherichia coli, Pseudomonas aeruginosa, and Pseudomonas stutzeri. Nitrate reductase consists of three subunits: the alpha subunit contains the molybdenum cofactor, the beta subunit contains the iron sulfur clusters, and the gamma subunit is a special cytochrome b. Nitrate is reduced at the cytoplasmic side of the membrane and evidence for the presence of a nitrate-nitrite antiporter is presented. Electron flow is from ubiquinol via the specific cytochrome b to the nitrate reductase. Nitrite reductase (which is identical to cytochrome cd1) and nitrous oxide reductase are periplasmic proteins. Nitric oxide reductase is a membrane-bound enzyme. The bc1 complex is involved in electron flow to these reductases and the whole reaction takes place at the periplasmic side of the membrane. It is now firmly established that NO is an obligatory intermediate between nitrite and nitrous oxide. Nitrous oxide reductase is a multi-copper protein. A large number of genes is involved in the acquisition of molybdenum and copper, the formation of the molybdenum cofactor, and the insertion of the metals. It is estimated that at least 40 genes are involved in the process of denitrification. The control of the expression of these genes in P. denitrificans is totally unknown. As an example of such complex regulatory systems the function of the fnr, narX, and narL gene products in the expression of nitrate reductase in E. coli is described. The control of the effects of oxygen on the reduction of nitrate, nitrite, and nitrous oxide are discussed. Oxygen inhibits reduction of nitrate by prevention of nitrate uptake in the cell. In the case of nitrite and nitrous oxide a competition between reductases and oxidases for a limited supply of electrons from primary dehydrogenases seems to play an important role. Under some circumstances NO formed from nitrite may inhibit oxidases, resulting in a redistribution of electron flow from oxygen to nitrite. P. denitrificans contains three main oxidases: cytochrome aa3, cytochrome o, and cytochrome co. Cytochrome o is proton translocating and receives its electrons from ubiquinol. Some properties of cytochrome co, which receives its electrons from cytochrome c, are reported.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolic regulation including anaerobic metabolism in Paracoccus denitrificans. 205 Jun 53

Nitrite inhibits the oxygen uptake by the system ferrocytochrome c-cytochrome oxidase with Ki = 1.5 mM. In the absence of ferrocytochrome c the oxygen uptake by cytochrome oxidase in the presence of nitrite was observed indicating that the enzyme has some nitrite oxidase activity. Nitrite induces changes in optical difference spectra of cytochrome oxidase and, in particular, the formation of the transient band at 607 nm. The reciprocal relation was observed between the intensity of this band and the rate of the oxygen uptake by cytochrome oxidase. This means that the form of the enzyme with this band does not involved in the nitrite oxidase activity. It is suggested that the nitrite oxidase activity relates to the oxygen binding site rather than the cytochrome c binding site of the enzyme.
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PMID:The effect of nitrite on cytochrome oxidase. 300 64

Nitrite causes changes in the optical and EPR spectra of cytochrome oxidase from heart and alters the spectral, redox and basic properties of cytochrome c. No utilization of nitrite by cytochrome oxidase was observed. However, nitrite inhibits the superoxide dismutase and oxidase activities of the enzyme. Changes in the properties of cytochrome oxidase were observed under effect of some products of nitrite reduction, e. g. nitric oxide, hydroxylamine, hydrazine; nitrate has no effect on the optical and EPR spectra or on the enzyme activity.
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PMID:[Effect of nitrite on cytochrome oxidase]. 627 Dec 65

A total of 204 Neisseria gonorrhoeae strains, including 39 penicillinase-producing strains, representing 64 distinct auxotype and serovar classes were tested for their ability to grow anaerobically with nitrite as a terminal electron acceptor. All strains grew anaerobically with subtoxic concentrations of nitrite, and all penicillinase-producing strains produced beta-lactamase when grown anaerobically. Nitrite reductase was produced constitutively under aerobic conditions in the absence of nitrite, and cytochrome oxidase was produced constitutively under anaerobic conditions. Strains could not grow anaerobically with sulfite as a terminal electron acceptor. Strain NRL 905 grew anaerobically in broth medium containing nitrite at a rate comparable to its growth rate under aerobic conditions. The feasibility and significance of in vivo anaerobic growth of N. gonorrhoeae is discussed.
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PMID:Anaerobic growth of Neisseria gonorrhoeae coupled to nitrite reduction. 643 25

Bacteria engineered with the gene (vgb) encoding Vitreoscilla hemoglobin (VHb) typically produce more protein than unengineered cells, and it has generally been assumed that VHb is responsible for this effect. Here, using matched strains of E. coli that bear a recombinant alpha-amylase gene (MK57) or the alpha-amylase gene and vgb (MK79), we provide evidence supporting this assumption. Sodium nitrite (which is known to inhibit heme proteins) was tested over a range of concentrations regarding effects on growth, alpha-amylase production, respiration, and VHb function in MK57 and MK79. Nitrite concentrations were identified at which respiration of cell membranes was inhibited only slightly and to approximately equal degrees in both strains, while whole cell respiration was inhibited to a greater extent and about twice as much in MK79 as MK57. This suggests that these concentrations inhibit VHb while having a much smaller effect on cytochrome oxidase. Direct measurements of VHb showed, in fact, that the same nitrite concentrations greatly decreased the levels of active (ferrous) and, to a somewhat lesser extent, total (ferrous plus ferric) VHb in MK79. Finally, these same nitrite concentrations reversed the advantage regarding alpha-amylase production of MK79 over MK57 seen at 0 mM nitrite, linking the presence of active VHb with the increase in alpha-amylase production.
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PMID:Nitrite inhibition of Vitreoscilla hemoglobin (VHb) in recombinant E. coli: direct evidence that VHb enhances recombinant protein production. 1110 16

Rhodobacter sphaeroides strain 2.4.3 is capable of diverse metabolic lifestyles, including denitrification. The regulation of many Rhodobacter genes involved in redox processes is controlled, in part, by the PrrBA two-component sensor-regulator system, where PrrB serves as the sensor kinase and PrrA is the response regulator. Four strains of 2.4.3 carrying mutations within the prrB gene were isolated in a screen for mutants unable to grow anaerobically on medium containing nitrite. Studies revealed that the expression of nirK, the structural gene encoding nitrite reductase, in these strains was significantly decreased compared to its expression in 2.4.3. Disruption of prrA also eliminated the ability to grow both photosynthetically and anaerobically in the dark on nitrite-amended medium. Complementation with prrA restored the wild-type phenotype. The PrrA strain exhibited a severe decrease in both nitrite reductase activity and expression of a nirK-lacZ fusion. Nitrite reductase activity in the PrrA strain could be restored to wild-type levels by using nirK expressed from a heterologous promoter, suggesting that the loss of nitrite reductase activity in the PrrA and PrrB mutants was not due to problems with enzyme assembly or the supply of reductant. Inactivation of prrA had no effect on the expression of the gene encoding NnrR, a transcriptional activator required for the expression of nirK. Inactivation of ccoN, part of the cbb(3)-type cytochrome oxidase shown to regulate the kinase activity of PrrB, also caused a significant decrease in both nirK expression and Nir activity. This was unexpected, since PrrA-P accumulates in the ccoN strain. Together, these results demonstrate that PrrBA plays an essential role in the regulation of nirK.
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PMID:Involvement of the PrrB/PrrA two-component system in nitrite respiration in Rhodobacter sphaeroides 2.4.3: evidence for transcriptional regulation. 1205 46

Nitrate reduction by Mycobacterium tuberculosis is regulated by control of the transport of nitrate into the cell by NarK2. When oxygen was introduced into hypoxic cultures, nitrite production was quickly inhibited. The nitrate-reducing enzyme itself is relatively insensitive to oxygen, suggesting that the inhibition of nitrite production by oxygen was a result of interference with nitrate transport. This was not due to degradation of NarK2, as the inhibition was reversed by the removal of oxygen although chloramphenicol prevented new synthesis of NarK2. The oxidant potassium ferricyanide was added to anaerobic cultures to produce a positive redox potential in the absence of oxygen. Nitrite production decreased, signifying that oxidizing conditions, rather than oxygen itself, were responsible for the inhibition of nitrate transport. Nitric oxide added to cultures allowed NarK2 to be active even in the presence of oxygen. A similar result was obtained with hydroxylamine and ethanol, both of which interfere with oxygen utilization and the electron transport chain. It is proposed that NarK2 senses the redox state of the cell, possibly by monitoring the flow of electrons to cytochrome oxidase, and adjusts its activity so that nitrate is transported under reducing, but not under oxidizing, conditions.
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PMID:Regulation of nitrate reductase activity in Mycobacterium tuberculosis by oxygen and nitric oxide. 1627 1

The ability of Neisseria meningitidis to utilize both oxygen and nitrogen oxides as respiratory substrates allows it to thrive in the diverse environment of the human host. Genome analysis highlighted genes encoding a cbb(3) cytochrome oxidase, the aniA nitrite reductase gene and the norB nitric oxide reductase gene. In the present study, we used myxothiazol as an inhibitor of the bc(1) complex in intact cells and demonstrated that electron flow to nitrite reductase and the cytochrome oxidase, but not NO reductase, passes via the cytochrome bc(1) complex. UV-visible spectrophotometry of intact cells demonstrated that oxygen oxidizes c-type and b-type cytochromes. Oxidation of cytochromes by nitrite was only seen in microaerobically precultured whole cells, and the predominant oxidizable cytochromes were b-type. These are likely to be associated with the oxidation of a b-haem-containing nitric oxide reductase. Nitrite inhibits the oxidation of cytochromes by oxygen in a nitrite reductase-independent manner, indicating that nitrite may inhibit oxidase activity directly, as well as via the intermediate of denitrification, nitric oxide.
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PMID:Organization of the respiratory chain of Neisseria meningitidis. 1641 4

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