EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acidaminococcus fermentans is able to ferment glutamate to ammonia, CO2, acetate, butyrate, and H2. The molecular hydrogen (approximately 10 kPa; E' = -385 mV) stems from NADH generated in the 3-hydroxybutyryl-CoA dehydrogenase reaction (E degrees ' = -240 mV) of the hydroxyglutarate pathway. In contrast to growing cells, which require at least 5 mM Na+, a Na+-dependence of the H2-formation was observed with washed cells. Whereas the optimal glutamate fermentation rate was achieved already at 1 mM Na+, H2 formation commenced only at > 10 mM Na+ and reached maximum rates at 100 mM Na+. The acetate/butyrate ratio thereby increased from 2.0 at 1 mM Na+ to 3.0 at 100 mM Na+. A hydrogenase and an NADH dehydrogenase, both of which were detected in membrane fractions, are components of a model in which electrons, generated by NADH oxidation inside of the cytoplasmic membrane, reduce protons outside of the cytoplasmic membrane. The entire process can be driven by decarboxylation of glutaconyl-CoA, which consumes the protons released by NADH oxidation inside the cell. Hydrogen production commences exactly at those Na+ concentrations at which the electrogenic H+/Na+-antiporter glutaconyl-CoA decarboxylase is converted into a Na+/Na+ exchanger.
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PMID:Sodium ion-dependent hydrogen production in Acidaminococcus fermentans. 892 82

Immature inclusions representing three progressive steps of carboxysome biogenesis have been identified in Synechococcus during the period of adaptation to low-CO2 conditions: (a) ring-shaped structures, (b) electron-translucent inclusions with the shape of a carboxysome and the internal orderly arrangement of ribulose-1,5-bisphosphate carboxylase oxygenase (Rubisco) molecules, and (c) carboxysomes with an internal electron-translucent area, which seem to be the penultimate stage of carboxysome maturation. The ability to build up normal carboxysomes is impaired in three (M3, EK6, and D4) of four high-carbon-requiring mutants studied in this work. M3 and EK6 exhibit abundant immature electron-translucent carboxysomes but no mature ones. This finding supports the contention that an open reading frame located 7.5 kb upstream of the gene encoding the large subunit of Rubisco (altered in M3) is involved in the carboxysome composition and confirms the structural role of the small subunit of Rubisco (slightly modified in EK6) in the assembly of these structures. D4 shows few typical carboxysomes and frequent immature types, its genetic lesion affecting the apparently unrelated gene encoding a subunit of phosphoribosyl aminoamidazole carboxylase of the purine biosynthesis pathway. Revertants EK20 (EK6) and RK13 (D4) have normal carboxysomes, which means that the restoration of the ability to grow under low CO2 coincides with the proper assembling of these structures. N5, a transport mutant due to the alteration of the gene encoding subunit 2 of NADH dehydrogenase, shows an increase in the number and size of carboxysomes and frequent bar-shaped ones.
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PMID:Biogenesis and Ultrastructure of Carboxysomes from Wild Type and Mutants of Synechococcus sp. Strain PCC 7942. 1222 22

Both NADH dehydrogenase (complex I) and aconitase are inactivated partially in vitro by superoxide (O2-.) and other oxidants that cause loss of iron from enzyme cubane (4Fe-4S) centers. We tested whether hypoxia-reoxygenation (H-R) by itself would decrease lung epithelial cell NADH dehydrogenase, aconitase, and succinate dehydrogenase (SDH) activities and whether transfection with adenoviral vectors expressing MnSOD (Ad.MnSOD) would inhibit oxidative enzyme inactivation and thus confirm a mechanism involving O2-. Human lung carcinoma cells with alveolar epithelial cell characteristics (A549 cells) were exposed to <1% O2-5% CO2 (hypoxia) for 24 h followed by air-5% CO2 for 24 h (reoxygenation). NADH dehydrogenase activity was assayed in submitochondrial particles; aconitase and SDH activities were measured in cell lysates. H-R significantly decreased NADH dehydrogenase, aconitase, and SDH activities. Ad.MnSOD increased mitochondrial MnSOD substantially and prevented the inhibitory effects of H-R on enzyme activities. Addition of alpha-ketoglutarate plus aspartate, but not succinate, to medium prevented cytotoxicity due to 2,3-dimethoxy-1,4-naphthoquinone. After hypoxia, cells displayed significantly increased dihydrorhodamine fluorescence, indicating increased mitochondrial oxidant production. Inhibition of NADH dehydrogenase, aconitase, and SDH activities during reoxygenation are due to excess O2-. produced in mitochondria, because enzyme inactivation can be prevented by overexpression of MnSOD.
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PMID:Mitochondrial complex I, aconitase, and succinate dehydrogenase during hypoxia-reoxygenation: modulation of enzyme activities by MnSOD. 1266 64

Although protein carbonyl formation is an index of oxidative stress in skeletal muscles, the exact proteins, which undergo oxidation in these muscles, remain unknown. We used 2D electrophoresis, immunoblotting, and mass spectrometry to identify carbonylated proteins in the diaphragm in septic animals. Rats were injected with saline (control) or Escherichia coli lipopolysaccharides (LPS) and killed after various intervals. Diaphragm protein carbonylation increased significantly and peaked 12 h after LPS injection, and it was localized both inside muscle fibers and in blood vessels supplying muscle fibers. Aldolase A, glyceraldehyde 3-phosphate dehydrogenase, enolase 3beta, mitochondrial and cytosolic creatine kinases, alpha-actin, carbonic anyhdrase III, and ubiquinol-cytochrome c reductase were all carbonylated in septic rat diaphragms. In addition, we found significant negative correlations between the intensity of carbonylation and creatine kinase and aldolase activities. We conclude that glycolysis, ATP production, CO2 hydration, and contractile proteins are targeted by oxygen radicals inside the diaphragm during sepsis.
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PMID:Protein carbonyl formation in the diaphragm. 1547 39

Our laboratory has recently developed a device employing immobilized F0F1 adenosine triphosphatase (ATPase) that allows synthesis of adenosine triphosphate (ATP) from adenosine 5'-diphosphate and inorganic phosphate using solar energy. We present estimates of total solar energy received by Earth's land area and demonstrate that its efficient capture may allow conversion of solar energy and storage into bonds of biochemicals using devices harboring either immobilized ATPase or NADH dehydrogenase. Capture and storage of solar energy into biochemicals may also enable fixation of CO2 emanating from polluting units. The cofactors ATP and NADH synthesized using solar energy could be used for regeneration of acceptor D-ribulose-1,5-bisphosphate from 3-phosphoglycerate formed during CO2 fixation.
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PMID:Biotechnological storage and utilization of entrapped solar energy. 1576 90

This mini-review summarizes results of studies on the oxidation of proteins and low-density lipoprotein (LDL) by various mixed-function oxidation (MFO) systems. Oxidation of LDL by the O2/FeCl3/H2O2/ascorbate MFO system is dependent on all four components and is much greater when reactions are carried out in the presence of a physiological bicarbonate/CO2 buffer system as compared to phosphate buffer. However, FeCl3 in this system could be replaced by hemin or the heme-containing protein, hemoglobin, or cytochrome c. Oxidation of LDL by the O2/cytochrome P450 cytochrome c reductase/NADPH/FeCl3 MFO system is only slightly higher (25%) in the bicarbonate/CO2 buffer as compared to phosphate buffer, but is dependent on all components except FeCl3. Omission of FeCl3 led to a 60% loss of activity. These results suggest that peroxymonobicarbonate and/or free radical derivatives of bicarbonate ion and/or CO2 might contribute to LDL oxidation by these MFO systems.
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PMID:Protein oxidation by the cytochrome P450 mixed-function oxidation system. 1614 Feb 63

Metronidazole and related 5-nitroimidazoles are the only available drugs in the treatment of human urogenital trichomoniasis caused by the protozoan parasite Trichomonas vaginalis. The drugs are activated to cytotoxic anion radicals by their reduction within the hydrogenosomes. It has been established that electrons required for metronidazole activation are released from pyruvate by the activity of pyruvate:ferredoxin oxidoreductase and transferred to the drug by a low-redox-potential carrier, ferredoxin. Here we describe a novel pathway involved in the drug activation within the hydrogenosome. The source of electrons is malate, another major hydrogenosomal substrate, which is oxidatively decarboxylated to pyruvate and CO2 by NAD-dependent malic enzyme. The electrons released during this reaction are transferred from NADH to ferredoxin by NADH dehydrogenase homologous to the catalytic module of mitochondrial complex I, which uses ferredoxin as electron acceptor. Trichomonads acquire high-level metronidazole resistance only after both pyruvate- and malate-dependent pathways of metronidazole activation are eliminated from the hydrogenosomes.
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PMID:Alternative pathway of metronidazole activation in Trichomonas vaginalis hydrogenosomes. 1630 69

Methemoglobin (MHb) is the oxidized form of Hemoglobin (Hb) containing iron in its ferric (Fe3+) rather than ferrous (Fe2+) state. Under physiologic conditions, diaphorase II accounts for only a small percentage of the red blood cell reducing capacity but can be pharmacologically activated by exogenous cofactors. Methemoglobinemia is an abnormal elevation of MHb levels resulting in impaired oxygen delivery to tissues as well as a left shift of the oxygen-Hb dissociation curve. We present the case of a 56-year-old female patient who underwent transesophageal echocardiography (TEE) prior to elective cardioversion. Prep for TEE included use of Hurricane spray. Twenty min after receipt, the patient's O2 saturation by pulse oximetry dropped from 100% to 86%; heart rate and blood pressure were unchanged. Physical exam revealed pallor, perioralcyanosis and acrocyanosis without tachypnea, respiratory distress, or jugular venous distension. A 100% non-rebreather mask provided no improvement. MHb was suspected and arterial blood gasses were drawn which was dark chocolate in appearance. Methylene Blue at 1 mg/kg over 5 minutes was administered empirically. ABG results were: pH 7.44/ CO2 40/ O2 315/ HCO2 26/ O2 sat 69%; MHb levels were 30.1% confirming the diagnosis of methemoglobinemia. This condition resolved within minutes. Though uncommon, MHb is the most Sported adverse event associated with topical benzocaine use. Untreated, it can lead to significant cardiopulmonary compromise, neurologic sequelae, and even death. Prompt recognition of this potentially life-threatening side-effect is essential in order to provide opportune treatment.
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PMID:Methemoglobinemia and transesophageal echo. 1860 50

We determined the complete mitochondrial genomes of Pseudolabrus sieboldi and P. eoethinus, and analyzed the genome organization, codon usage, and transition/transversion mutation ratio of the mitochondrial genome. The mitochondrial genomes of P. sieboldi and P. eoethinus are 16,507 and 16,508 bp in length, respectively, and consisted of 37 genes (13 protein-coding genes, two ribosomal RNAs, and 22 transfer RNAs), which is typical for vertebrate mitochondrial DNA. All protein-coding genes of two species used the initiation codon ATG except the cytochrome c oxidase subunit (CO) 1, which began with GTG as an initiation codon. However, the termination codon for the NADH dehydrogenase subunit (ND) 6 gene encoded with TAA in P. sieboldi, and TAG in P. eoethinus. The 12S and 16S rRNA genes were 949 and 1694 bp, respectively, in P. sieboldi, and were 948 and 1693 bp in P. eoethinus. The A + T content of the two rRNA genes were 52.9% in P. sieboldi and 52.5% in P. eoethinus, which is slightly lower than that of other labrid species. The identity of the 13 protein-coding genes ranged between 67% (ND6) and 94% (CO2 and ATP8). The G + C contents of all of the protein-coding genes of P. sieboldi were slightly higher than those of P. eoethinus. Our data contribute to the identification, and further our understanding, of the comparative genetics of Pseudolabrus species distributed in East Asia.
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PMID:Comparison of the mitochondrial genomes of East Asian Pseudolabrus fishes. 1948 39

Propiconazole, a widely used fungicide, is hepatotoxic and hepatotumorigenic in mice. Previous genomic analysis of liver tissues from propiconazole-treated mice identified genes and pathways involved in oxidative stress, suggesting that oxidative stress may play a role in propiconazole-induced toxicity. To understand the contribution of oxidative stress on toxicity at the protein level, we developed an integrated approach for the systematic measurement of protein oxidation in the livers from propiconazole-treated mice. Liver protein carbonylation increased significantly after treatment with propiconazole, demonstrating propiconazole-associated induction of oxidative stress. Utilizing two-dimensional gel electrophoresis (2-DE), immunoblotting, and mass spectrometry, we identified 17 carbonylated proteins that were altered with varying intensities by propiconazole treatment. The potential effects of protein carbonylation on protein functions and cellular activities in the liver of propiconazole-treated mice were further investigated. A significant negative correlation between protein carbonylation and cytochrome c reductase activity was found. We conclude that glycolysis, mitochondrial respiratory chain, ATP production, amino acid metabolism, CO2 hydration, cellular antioxidant defense and detoxification system, and tetrahydrobiopterin pathways are affected by oxygen radicals in the livers of propiconazole-treated mice. This study suggests a mode of propiconazole-induced toxicity in mouse liver which primarily involves oxidative damage to cellular proteins.
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PMID:Protein carbonyl formation in response to propiconazole-induced oxidative stress. 1971 82

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