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)

Reduced nicotinamide adenine dinucleotide phosphate (NADPH)-nitrate reductase from Neurospora crassa was purified and found to be stimulated by certain amino acids, citrate, and ethylenediaminetetraacetic acid (EDTA). Stimulation by citrate and the amino acids was dependent upon the prior removal of EDTA from the enzyme preparations, since low quantities of EDTA resulted in maximal stimulation. Removal of EDTA from enzyme preparations by dialysis against Chelex-containing buffer resulted in a loss of nitrate reductase activity. Addition of alanine, arginine, glycine, glutamine, glutamate, histidine, tryptophan, and citrate restored and stimulated nitrate reductase activity from 29- to 46-fold. The amino acids tested altered the Km of NADPH-nitrate reductase for NADPH but did not significantly change that for nitrate. The Km of nitrate reductase for NADPH increased with increasing concentrations of histidine but decreased with increasing concentrations of glutamine. Amino acid modulation of NADPH-nitrate reductase activity is discussed in relation to the conservation of energy (NADPH) by Neurospora when nitrate is the nitrogen source.
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PMID:Regulation of the Neurospora crassa assimilatory nitrate reductase. 1 23

The effect of different nitrogen compounds on the induction of reduced nicotinamide adenine dinucleotide phosphate-nitrate reductase was examined in Neurospora crassa. Whereas in the wild-type strain several amino acids and ammonia inhibit the formation of nitrate reductase, only glutamine, cysteine, and histidine are shown to inhibit the synthesis of nitrate reductase in a glutamine-requiring auxotroph. None of the amino acids inhibited nitrate reductase activity in vitro. The effects of cysteine and histidine are nonspecific, these amino acids being inhibitory of the growth of the organism. The effect of glutamine on the induction of nitrate reductase is not due to an inhibition of the uptake of the inducer nitrate. By the use of histidine-, pyrimidine-, and arginine-requiring auxotrophs, it was shown that glutamine appears to act per se and does not seem to be converted to another product in order to be effective in repression. The repression of nitrate reductase by ammonia appears, from the results described herein, to be indirect; ammonia has to be converted first to glutamine in order to be effective in repression.
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PMID:Nitrogen metabolite repression of nitrate reductase in Neurospora crassa. 15 87

In response to nitrate availability, Escherichia coli regulates the synthesis of a number of enzymes involved in anaerobic respiration and fermentation. When nitrate is present, nitrate reductase (narGHJI) gene expression is induced, while expression of the DMSO/TMAO reductase (dmsABC), fumarate reductase (frdABCD) and fermentation related genes are repressed. The narL and narX gene products are required for this nitrate-dependent control, and apparently function as members of a two-component regulatory system. NarX is a presumed sensor-transmitter for nitrate and possibly molybdenum detection. The presumed response-regulator, NarL, when activated by NarX then binds at the regulatory DNA sites of genes to modulate their expression. In this study a third nitrate regulatory gene, narQ, was identified that also participates in nitrate-dependent gene regulation. Strains defective in either narQ or narX alone exhibited no nitrate-dependent phenotype whereas mutants defective in both narQ and narX were fully inactive for nitrate-dependent repression or activation. In all conditions tested, this regulation required a functional narL gene product. These findings suggest that the narX and narQ products have complementary sensor-transmitter functions for nitrate detection, and can work independently to activate NarL, for eliciting nitrate-dependent regulation of anaerobic electron transport and fermentation functions. The narQ gene was cloned, sequenced, and compared with the narX gene. Both gene products are similar in size, hydrophobicity, and sequence, and contain a highly conserved histidine residue common to sensor-transmitter proteins.
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PMID:Identification and characterization of narQ, a second nitrate sensor for nitrate-dependent gene regulation in Escherichia coli. 150 40

We have analyzed four Nicotiana plumbaginifolia null mutants presumably affected in the heme domain of nitrate reductase. The DNA sequence of this domain has been determined for each mutant and for the wild type. Two mutations were identified as single base changes leading to, respectively, the substitution of a histidine residue by an asparagine (mutant E56) and to the appearance of an ochre stop codon (mutant E64). Based on the amino acid sequence homology between the nitrate reductase heme domain and mammalian cytochrome b5, we have predicted the three-dimensional structure of this domain. This showed that the nitrate reductase heme domain is structurally very similar to cytochrome b5 and it also confirmed that the residue involved in E56 mutation is one of the two heme-binding histidines. The two other mutations (mutants A1 and K21) were found to be, respectively, -1 and +1 frameshift mutations resulting in the appearance of an opal stop codon. These sequence data confirmed previous genetic and biochemical hypotheses on nitrate reductase-deficient mutants. Northern blot analysis of these mutants indicated that mutant E56 overexpressed the nitrate reductase mRNA, whereas the nonsense mutations present in the other mutants led to reduced levels of nitrate reductase mRNA.
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PMID:Mutational and structural analysis of the nitrate reductase heme domain of Nicotiana plumbaginifolia. 171 67

In Neurospora crassa limitation for single amino acids normally results in increased formation of enzymes required for amino acid synthesis via 'general amino acid control'. Glutamine limitation, however, led to comparatively low and delayed derepression of enzyme synthesis. Nitrate reductase activity increased steeply under these conditions confirming that de novo protein synthesis could occur. Derepression levels were unaffected by addition of glutamine-derived metabolites. Only small and delayed increases in mRNA levels occurred for the anabolic enzyme genes arg-12, his-3 and trp-1 under conditions of glutamine limitation in contrast to the immediate and far larger increase found on histidine limitation. The trans-acting regulatory gene of general amino acid control in Neurospora, cpc-1, responded with a significant increase in mRNA level to histidine and to glutamine limitation. The restricted response of the amino acid synthesis genes could imply a post-transcriptional block to the positive regulatory function of cpc-1 under condition of glutamine limitation. The results suggest that the expression of general amino acid control is restricted under conditions of inadequate nitrogen supply.
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PMID:Restricted activation of general amino acid control under conditions of glutamine limitation in Neurospora crassa. 214 7

The purification of formate dehydrogenase (FDH) from Pseudomonas aeruginosa after anaerobic growth on nitrate-containing medium was carried out. The separation of the FDH enzyme from nitrate reductase (NiR), which are found together in a particle fraction and constitute the short respiratory chain of this bacterium, has been followed by optical, magnetic c.d. (m.c.d.) and e.p.r. spectroscopy. These techniques have allowed the haem, iron-sulphur clusters and molybdenum components to be detected and, in part, their nature to be determined. Attempts to extract FDH anaerobically in the absence of sodium dithionite led to loss of activity. Addition of sodium dithionite maintained the activity of the enzyme, even after subsequent exposure to air, in an assay involving formate reduction with Nitro Blue Tetrazolium as reductant. Three preparations of FDH have been examined spectroscopically. The preparations vary in the amount of contaminating nitrate reductase, the amount of cytochrome c present and the concentration of oxidized [3Fe-4S] cluster. Optical spectra and low-temperature m.c.d. spectroscopy show the loss of a cytochrome-containing protohaem IX co-ordinated by methionine and histidine as NiR is separated from the preparation. In its purest state FDH contains one molecule of cytochrome co-ordinated by two histidine ligands in the oxidized state. This cytochrome has an e.p.r. spectrum with gz = 3.77, the band having the unusual ramp shape characteristic of highly anisotropic low-spin ferric haem. It also shows a charge-transfer band of high intensity in the m.c.d. spectrum at 1545 nm. It has recently been shown [Gadsby & Thomson (1986) FEBS Lett. 197, 253-257] that these spectroscopic properties are diagnostic of a bishistidine co-ordinated haem with steric constraint of the axial ligands. The e.p.r. and m.c.d. spectra of the reduced state of FDH reveal the presence of an iron-sulphur cluster of the [4Fe-4S]+ type. The g-values are 2.044, 1.943 and 1.903. An iron-sulphur cluster of the class [3Fe-4S], detected by e.p.r. spectroscopy in the oxidized state and by low-temperature m.c.d. spectroscopy in the reduced state, is purified away with the NiR. Finally, an e.p.r. signal at g = 2.0 with a narrow bandwidth which persists to 80 K is observed in the purest preparation of FDH. This may arise from an organic radical species.
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PMID:Purification and properties of formate dehydrogenase from Pseudomonas aeruginosa. Characterization of haem and iron-sulphur centres by magnetic-circular-dichroism and electron-paramagnetic-resonance spectroscopy. 303 81

The role of the cnxH+ gene specified polypeptide in the formation and function of the NADPH-nitrate reductase in Aspergillus nidulans was examined with the use of two complementing mutant strains which were grown as forced heterocaryons in the presence of nitrate. The niaD-421 structural gene mutant and the cnxH-318 co-factor gene mutant produce two components of the NADPH-cytochrome c reductase co-activity which can be distinguished by their enzymatic and physical behavior. This combination enabled us to isolate the de novo synthesis of niaD+ gene specified protomers from the constitutively formed co-factor at two stages of development. The proportion of induced and constitutively formed protomers in the isolated holoenzyme was measured after pulsing with [3H]-histidine or [14C]-histidine prior to induction with nitrate. The newly formed nitrate reductase was resolved by agarose gel electrofocusing and activity staining. In vivo assembly of a 7.8s enzyme in the heterocaryotic mycelium of the above strains is apparently achieved by the convener action of the cnxH+ gene directed polypeptide from the niaD- strain on the niaD+ gene directed protomers of the cnxH- partner. This occurs with or without Mo as a co-factor.
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PMID:A convener role for the cnxH gene specified component in the NADPH-nitrate reductase fron Aspergillus nidulans. 642 61

The napEDABC locus coding for the periplasmic nitrate reductase of Thiosphaera pantotropha has been cloned and sequenced. The large and small subunits of the enzyme are coded by napA and napB. The sequence of NapA indicates that this protein binds the GMP-conjugated form of the molybdopterin cofactor. Cysteine-181 is proposed to ligate the molybdenum atom. It is inferred that the active site of the periplasmic nitrate reductase is structurally related to those of the molybdenum-dependent formate dehydrogenases and bacterial assimilatory nitrate reductases, but is distinct from that of the membrane-bound respiratory nitrate reductases. A four-cysteine motif at the N-terminus of NapA binds a [4Fe-4S] cluster. The DNA- and protein-derived primary sequence of NapB confirm that this protein is a dihaem c-type cytochrome and, together with spectroscopic data, indicate that both NapB haems have bis-histidine ligation. napC is predicted to code for a membrane-anchored tetrahaem c-type cytochrome that shows sequence similarity to the NirT cytochrome c family. NapC may be the direct electron donor to the NapAB complex. napD is predicted to encode a soluble cytoplasmic protein and napE a monotopic integral membrane protein, napDABC genes can be discerned at the aeg-46.5 locus of Escherichia coli K-12, suggesting that this operon encodes a periplasmic nitrate reductase system, while napD and napC are identified adjacent to the napAB genes of Alcaligenes eutrophus H16.
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PMID:The napEDABC gene cluster encoding the periplasmic nitrate reductase system of Thiosphaera pantotropha. 763 19

Three genes, narH, narJ and narI, of the membrane-bound nitrate reductase operon of the denitrifying bacterium Thiosphaera pantotropha have been identified and sequenced. The derived gene products show high sequence similarity to the equivalent (beta, putative delta and gamma) subunits of the two membrane-bound nitrate reductases of the enteric bacterium Escherichia coli. All iron-sulphur cluster ligands proposed for the E. coli beta subunits are conserved in T. pantotropha NarH. Secondary structure analysis of NarJ suggests that this protein has a predominantly alpha-helical structure. Comparison of T. pantotropha NarI with the b-haem-binding integral membrane subunits of the E. coli enzymes allows assignment of His-53, His-63, His-186 and His-204 (T. pantotropha NarI numbering) as b-haem axial ligands and the construction of a three-dimensional model of this subunit. This model, in which the two b-haems are in different halves of the membrane bilayer, is consistent with a mechanism of energy conservation whereby electrons are moved from the periplasmic to the cytoplasmic side of the membrane via the haems. Similar movement of electrons is required in the membrane-bound uptake hydrogenases and membrane-bound formate dehydrogenases. We have identified two pairs of conserved histidine residues in the integral membrane subunits of these enzymes that are appropriately positioned to bind one haem towards each side of the membrane bilayer. One subunit of a hydrogenase complex involved in transfer of electrons across the cytoplasmic membrane of sulphate-reducing bacteria has structural resemblance to NarI.
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PMID:Sequence analysis of subunits of the membrane-bound nitrate reductase from a denitrifying bacterium: the integral membrane subunit provides a prototype for the dihaem electron-carrying arm of a redox loop. 774 53

Nitrate reductase is a multiredox enzyme possessing three functional domains associated with the prosthetic groups FAD, heme iron, and molybdopterin. In Aspergillus nidulans, it is encoded by the niaD gene. A homologous transformation system has been used whereby a major deletion at the niiAniaD locus of the host was repaired by gene replacement. Employing site-directed mutagenesis and this transformation system, nine niaD mutants were generated carrying specific amino acid substitutions. Mutants in which alanine replaced cysteine 150, which is thought to bind the molybdenum atom of the molybdenum-pterin, and in which alanine replaced histidine 547, which putatively binds heme iron, had no detectable nitrate reductase (NAR) activity. This clearly establishes an essential catalytic role for these residues. Of the remaining mutants, all altered in the NADPH/FAD domain, two were temperature-sensitive for NAR activity, two had reduced NAR activity levels, and three had normal levels. Since some of these mutants change residues conserved between homologous nitrate reductases from a wide range of species, it is clear that such amino acid identities do not necessarily signify essential roles for the activity of the enzyme. These findings are considered in the light of predicted structural/functional roles for the altered amino acids.
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PMID:Site-directed mutagenesis of nitrate reductase from Aspergillus nidulans. Identification of some essential and some nonessential amino acids among conserved residues. 789 4

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