EC:1.7.1.2 - FACTA Search

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Query: EC:1.7.1.2 (nitrate reductase)
3,861 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male Sprague-Dawley rats were fed a purified fibre-free diet containing 5% (w/w) sodium saccharin for 4 weeks or 20 weeks and changes in caecal bacterial numbers and enzyme activities (endogenous ammonia production, beta-glucosidase, beta-glucuronidase, nitrate reductase, nitroreductase, aryl sulphatase) determined in vitro. Saccharin treatment gave marked caecal enlargement but had no effect on bacterial concentration at either treatment period, and significantly decreased beta-glucuronidase, nitrate reductase and sulphatase activities/g caecal contents. The incubation of a suspension of caecal contents from control rats with saccharin (75 mM) in vitro inhibited beta-glucuronidase and nitrate reductase activities, and ammonia production from endogenous substrates. Such changes may decrease the rate of formation of toxic bacterial products in the hindgut.
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PMID:Modification of rat caecal microbial biotransformation activities by dietary saccharin. 384 Feb 94

Cells of Clostridium pasteurianum whose N source is switched from NH3 to N2 accumulate large amounts of molybdenum beginning 1.5 h before the detection of nitrogenase activity. Anaerobic multiphasic gel electrophoresis and anion-exchange chromatography were used to identify the molybdoproteins and molybdenum-containing components present in N2-fixing cells. In addition to molybdate, six distinct 99Mo-labeled species were detected, i.e., a membrane fragment, the MoFe protein of nitrogenase, formate dehydrogenase, a Mo "binding-storage" protein, a 30-kilodalton molybdoprotein, and a low-molecular-weight molybdenum species. Of these, the MoFe protein, formate dehydrogenase, and the Mo binding-storage protein were present in more than one zone because of complex formation with other proteins, partial denaturation, and variation in the amount of Mo bound to the protein, respectively. In addition to the six proteins, a soluble "free" Mo cofactor in the cytosol was detected by showing that it reconstituted nitrate reductase activity in crude extracts of the Neurospora crassa mutant nit-1.
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PMID:Identification of molybdoproteins in Clostridium pasteurianum. 385 23

The presence of nitrate is required for the induced synthesis of NADPH-nitrate reductase and its related partial activity Benzyl Viologen-nitrate reductase in a wild-type strain of Neurospora. In nit-3, a mutant lacking complete NADPH-nitrate reductase activity but retaining the partial activity Benzyl Viologen-nitrate reductase, the presence of nitrate ions is not required for the de-repressed synthesis of the latter enzyme. The accumulation of the capacity to synthesize nitrate reductase, and the related Benzyl Viologen-nitrate reductase, in the absence of protein synthesis does not require nitrate in the normal strain or in strain nit-3. Ammonia antagonizes the accumulation of this capacity in both strains. Nitrate is required for the synthesis of nitrate reductase and related activities from presumedly preformed mRNA in the wild-type strain. Nitrate is not required for the comparable function in strain nit-3. Ammonia appears to stop the synthesis of nitrate reductase and related activities from presumedly preformed mRNA in the wild-type strain and in strain nit-3. The effects of nitrate, or ammonia and of no nitrogen source on the induced synthesis of nitrate reductase cannot be explained on the basis of the effects of the different nitrogen sources on general synthesis of RNA or of protein.
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PMID:Regulation of nitrate reductase of Neurospora at the level of transcription and translation. 414 18

A technique employing cycloheximide and actinomycin D has been used for the separation of transcription and translation during the induction of nitrate reductase in Neurospora crassa. Nitrate reductase is found to be synthesized in low efficiency when nitrate is not provided during both transcription and translation. Nitrate reductase synthesis is enhanced by nitrate. Nitrate is found to induce nitrate reductase by enhancing the increase of the capacity to synthesize nitrate reductase, and ammonia is found to repress nitrate reductase, by inhibiting the induced increase of the capacity to make the enzyme, or by making it unstable in vivo, or both. The effect of ammonia is partially reversed by nitrate. The addition of ammonium tartrate or the removal of nitrate during translation of the induced capacity to synthesize nitrate reductase is found to result in the inactivation of nitrate reductase in vivo. A low level of nitrate in the medium is found to be sufficient for enhancing the induced increase of the capacity to synthesize nitrate reductase, but a higher level of nitrate is required to stabilize the enzyme after its formation. The induced capacity to synthesize nitrate reductase is relatively stable in the presence or absence of nitrate, but not in the presence of ammonia.
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PMID:Regulation of nitrate reductase in Neurospora crassa: regulation of transcription and translation. 425 76

Nitrate uptake in Neurospora crassa has been investigated under various conditions of nitrogen nutrition by measuring the rate of disappearance of nitrate from the medium and by determining mycelial nitrate accumulation. The nitrate transport system is induced by either nitrate or nitrite, but is not present in mycelia grown on ammonia or Casamino Acids. The appearance of nitrate uptake activity is prevented by cycloheximide, puromycin, or 6-methyl purine. The induced nitrate transport system displays a K(m) for nitrate of 0.25 mM. Nitrate uptake is inhibited by metabolic poisons such as 2,4-dinitrophenol, cyanide, and antimycin A. Furthermore, mycelia can concentrate nitrate 50-fold. Ammonia and nitrite are non-competitive inhibitors with respect to nitrate, with K(i) values of 0.13 and 0.17 mM, respectively. Ammonia does not repress the formation of the nitrate transport system. In contrast, the nitrate uptake system is repressed by Casamino Acids. All amino acids individually prevent nitrate accumulation, with the exception of methionine, glutamine, and alanine. The influence of nitrate reduction and the nitrate reductase protein on nitrate transport was investigated in wild-type Neurospora lacking a functional nitrate reductase and in nitrate non-utilizing mutants, nit-1, nit-2, and nit-3. These mycelia contain an inducible nitrate transport system which displays the same characteristics as those found in the wild-type mycelia having the functional nitrate reductase. These findings suggest that nitrate transport is not dependent upon nitrate reduction and that these two processes are separate events in the assimilation of nitrate.
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PMID:Nitrate transport system in Neurospora crassa. 427 57

The reductase enzymes in Nitrosomonas and Nitrobacter were studied under anaerobic conditions when the oxidase enzymes were inactive. The most effective electron-donor systems for nitrate reductase in Nitrobacter were reduced benzyl viologen alone, phenazine methosulphate with either NADH or NADPH, and FMN or FAD with NADH. Nitrite and hydroxylamine reductases were found in both nitrifying bacteria, and optimum activity for each enzyme was obtained with NADH or NADPH with either FMN or FAD. The product of both these enzymes was identified as ammonia. In extracts of Nitrosomonas the ammonia was further utilized by an NADPH-specific glutamate dehydrogenase. (15)N-labelled nitrite, hydroxylamine and ammonia were rapidly incorporated into cell protein by Nitrosomonas, and Nitrobacter in addition incorporated [(15)N]nitrate. Relatively gentle methods of cell disruption were compared with ultrasonic treatment, to enable a more exact study to be undertaken of the intracellular distribution of the oxidase and reductase enzymes. The functional relationship of these opposing enzyme systems in the nitrifying bacteria is considered.
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PMID:Properties of some reductase enzymes in the nitrifying bacteria and their relationship to the oxidase systems. 438 32

Nicotinamide adenine dinucleotide phosphate, reduced form (NADPH)-nitrate reductase and its related enzyme activities, NADPH-cytochrome c reductase and reduced benzyl viologen-nitrate reductase, are all induced following the transfer of ammonia-grown wild-type Neurospora mycelia to nitrate medium. After nitrate reductase is induced to the maximal level, the addition of an ammonium salt to, or the removal of nitrate from, the cultures results in a rapid inactivation of nitrate reductase and its two partial component activities. This rapid inactivation is slowed down by the protein synthesis inhibitor, cycloheximide. Experiments on the mixing of extracts in vitro rule out the presence of an inhibitor of nitrate reductase in free form in extracts containing inactivated nitrate reductase. Ammonia does not inhibit the uptake of nitrate by the mycelia. Inactivation of nitrate reductase in vivo by ammonia depends on the concentration of the ammonium salt and is not reversed by increasing the nitrate concentration of the medium. The nitrate-inducible NADPH-cytochrome c reductase activity and reduced benzyl viologen-nitrate reductase activity respectively of the nitrate-nonutilizing mutants nit-1 and nit-3 are not inactivated in vivo by the addition of an ammonium salt or the withdrawal of nitrate. This finding suggests that the integrity of the nitrate reductase complex is required for the in vivo inactivation of nitrate reductase and its associated activities.
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PMID:Regulation of nitrate reductase in Neurospora crassa: stability in vivo. 440 13

A number of chlorate-resistant mutants were selected, and one of these, clr68-5, was studied in detail. This mutant cannot utilize nitrate in vivo to overcome the effect of nonmetabolizable repressors of nitrogenase. The reason for this inability was that strain clr68-5 lacked nitrate reductase. Nitrate inhibited the activity of nitrogenase but did not act as a corepressor of nitrogenase in strain clr68-5 as it does in the wild type. Ammonia seemed to act as corepressor of nitrogenase in both strains.
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PMID:Regulation of nitrogen fixation in Azotobacter vinelandii OP: the role of nitrate reductase. 578 87

In L. minor grown in sterile culture, the primary enzymes of nitrate assimilation, nitrate reductase (NR), nitrite reductase (NiR) and glutamate dehydrogenase (GDH) change in response to nitrogen source. NR and NiR levels are low when grown on amino acids (hydrolyzed casein) or ammonia; both enzymes are rapidly induced on addition of nitrate, while addition of nitrite induces NiR only. Ammonia represses the nitrate induced synthesis of both NR and NiR.NADH dependent GDH activity is low when grown on amino acids and high when grown on nitrate or ammonia, but the activities of NADPH dependent GDH and Alanine dehydro-genase (AIDH) are much less affected by nitrogen source. NADH-GDH and AIDH are induced by ammonia, and it is suggested that these enzymes are involved in primary nitrogen assimilation.
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PMID:Nitrogen metabolis of Lemna minor. II. Enzymes of nitrate assimilation and some aspects of their regulation. 579 47

In an earlier paper (Cove, 1966) it was reported that the kinetics of appearance of nitrate reductase (NADPH-nitrate oxidoreductase, EC 1.6.6.3) on the addition of nitrate to a growing culture of Aspergillus nidulans were different in certain respects from those found for many Escherichia coli enzymes. When urea is used as an initial nitrogen source, a further difference is found: enzyme synthesis is no longer continuous. This interruption of synthesis does not appear to be due to synchronous cell division in the culture, nor to be due to accumulation of ammonia. Fluctuations in the intracellular concentration of nitrate, though appearing to be partly responsible for the discontinuity of enzyme syntheses, cannot account for all the observations. Two related hypotheses are put forward to explain this discontinuity of synthesis; each suggests that nitrate reductase is intimately concerned with its own synthesis. One possibility is that the enzyme when it is not in the form of a complex with nitrate is a co-repressor of its own synthesis, and the other that the enzyme is its own repressor.
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PMID:Kinetic studies of the induction of nitrate reductase and cytochrome c reductase in the fungus Aspergillus nidulans. 604 55

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