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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)

Two nitrate reductases, nitrate reductase A and nitrate reductase Z, exist in Escherichia coli. The nitrate reductase Z enzyme has been purified from the membrane fraction of a strain which is deleted for the operon encoding the nitrate reductase A enzyme and which harbours a multicopy plasmid carrying the nitrate reductase Z structural genes; it was purified 219 times with a yield of about 11%. It is an Mr-230,000 complex containing 13 atoms iron and 12 atoms labile sulfur/molecule. The presence of a molybdopterin cofactor in the nitrate reductase Z complex was demonstrated by reconstitution experiments of the molybdenum-cofactor-deficient NADPH-dependent nitrate reductase activity from a Neurospora crassa nit-1 mutant and by fluorescence emission and excitation spectra of stable derivatives of molybdoterin extracted from the purified enzyme. Both nitrate reductases share common properties such as relative molecular mass, subunit composition and electron donors and acceptors. Nevertheless, they diverge by two properties: their electrophoretic migrations are very different (RF of 0.38 for nitrate reductase Z versus 0.23 for nitrate reductase A), as are their susceptibilities to trypsin. An immunological study performed with a serum raised against nitrate reductase Z confirmed the existence of common epitopes in both complexes but unambiguously demonstrated the presence of specific determinants in nitrate reductase Z. Furthermore, it revealed a peculiar aspect of the regulation of both nitrate reductases: the nitrate reductase A enzyme is repressed by oxygen, strongly inducible by nitrate and positively controlled by the fnr gene product; on the contrary, the nitrate reductase Z enzyme is produced aerobically, barely induced by nitrate and repressed by the fnr gene product in anaerobiosis.
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PMID:Purification and further characterization of the second nitrate reductase of Escherichia coli K12. 213 7

The apo-nitrate reductase precursor in an Escherichia coli chlB mutant preparation obtained following growth in the presence of tungstate is activated by incubation with protein FA and a heat-treated preparation from an E. coli crude extract. We show that the requirement for heat-treated E. coli crude extract can be fulfilled by material obtained from either of two heat-denatured purified E. coli molybdoenzymes, namely nitrate reductase or trimethylamine N-oxide reductase. Apo-trimethylamine N-oxide reductase precursor in the tungstate-grown chlB preparation can be activated in a similar manner with material from either heat-denatured molybdoenzyme. The active component in the denatured molybdoenzyme preparations is shown to be the molybdenum cofactor by Neurospora crassa nit1 molybdenum cofactor assay, size estimation and fluorimetric analysis. The direct demonstration of the requirement for molybdenum cofactor in the E. coli tungstate-grown chlB complementation system is an important step towards the molecular definition of the activation process and an understanding of the mechanism of cofactor acquisition during molybdoenzyme biosynthesis.
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PMID:Molybdenum cofactor requirement for in vitro activation of apo-molybdoenzymes of Escherichia coli. 214 Oct 97

The electron transfer centers in dimethyl sulfoxide reductase were examined by EPR spectroscopy in membranes of the overproducing Escherichia coli strain HB101/pDMS159, and in purified enzyme. Iron-sulfur clusters of the [4Fe-4S] type and a molybdenum center were detected in the protein, which comprises three different subunits: DmsA, -B, and -C. The intensity of the reduced iron-sulfur clusters corresponded to 3.82 +/- 0.5 spins per molecule. The dithionite-reduced clusters were reoxidized by DMSO or TMAO. The enzyme, as prepared, showed a spectrum of Mo(V), which resembles the high-pH form of E. coli nitrate reductase. The Mo(V) detected by EPR was absent from a mutant which does not assemble the molybdenum cofactor. In these cases, the levels of EPR-detectable iron-sulfur clusters in the cells were increased. Extracts from HB101/pDMS159 enriched in DmsA showed more Mo(V) signals and considerably less iron-sulfur. These results are in agreement with predictions from amino acid sequence comparisons, that the molybdenum center is located in DmsA, while four iron-sulfur clusters are in DmsB. The midpoint potentials of the molybdenum and iron-sulfur clusters in the various preparations were determined by mediator titrations. The iron-sulfur signals could be best fitted by four clusters, with midpoint potentials spread between -50 and -330 mV. The midpoint potentials of the iron-sulfur clusters and Mo(V) species were pH dependent. In addition, all potentials became less negative in the presence of the detergent Triton X-100. Observation of relaxation enhancement of the Mo(V) species by the reduced [4Fe-4S] clusters indicated that the centers are in proximity within the protein.
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PMID:Electron paramagnetic resonance spectroscopic characterization of dimethyl sulfoxide reductase of Escherichia coli. 217 99

Escherichia coli can respire anaerobically by reducing nitrate, trimethylamine-N-oxide, dimethyl sulfoxide, or fumarate. When nitrate is present, expression of the genes for fumarate (frdABCD), trimethylamine-N-oxide, and dimethyl sulfoxide (dmsABC) is repressed while expression of the nitrate reductase (narGHJI) gene is induced. This regulation requires molybdate and is mediated by the narX and narL gene products, which together form a two-component regulatory system. We provide evidence that NarX is a nitrate and molybdenum sensor which activates NarL when nitrate is available to cells. Mutants generated by hydroxylamine mutagenesis were repressed for frdA-lacZ expression even when cells were grown in the absence of nitrate. The mutations responsible for three of these nitrate independence (NarX*) phenotypes were localized to narX and further characterized in vivo for their ability to repress frdA-lacZ expression. Two of the mutants (the narX64 and narX71 mutants) had a greatly reduced requirement for molybdenum to function but still responded to nitrate. In contrast, a third mutant (the narX32 mutant) required molybdenum but did not exhibit full repression of frdA-lacZ expression even when nitrate was present. These narX* alleles also caused the induction of nitrate reductase gene expression and the repression of a dmsA-lacZ fusion in the absence of nitrate. Each narX* mutation was determined to lie in an 11-amino-acid region of the NarX polypeptide that follows a proposed transmembrane domain. We suggest that the conformation of the narX* gene products is altered such that even in the absence of nitrate each of these gene products more closely resembles the wild-type NarX protein when nitrate is present. These data establish a clear role for the narX gene product in gene regulation and strongly suggest its role in sensing nitrate and molybdenum.
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PMID:Nitrate- and molybdenum-independent signal transduction mutations in narX that alter regulation of anaerobic respiratory genes in Escherichia coli. 225 74

We report the development of a homologous transformation system for Cephalosporium acremonium using the niaD gene of the nitrate assimilation (NA) pathway. Mutants in the NA pathway were selected on the basis of chlorate resistance by conventional means. Screening procedures were developed to differentiate between nitrate reductase apoprotein structural gene mutants (niaD) and molybdenum cofactor gene mutants (cnx) as wt C. acremonium, unlike most filamentous fungi, fails to grow on minimal medium with hypoxanthine as a sole source of nitrogen. Phage clones carrying the niaD gene were isolated from a C. acremonium library constructed in lambda EMBL3 using the A. nidulans niaD gene as a heterologous probe. An 8.6-kb EcoRI fragment was subcloned into pUC18, and designated pSTA700. pSTA700 was able to transform stable niaD mutants to NA at a frequency of up to 40 transformants per microgram DNA. Transformants were easily visible since the background growth was low and no abortives were observed. Gene replacements, single copy homologous integration and complex multiple integrations were observed. The niaD system was used to introduce unselected markers for hygromycin B resistance and benomyl resistance into C. acremonium by cotransformation.
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PMID:Homologous transformation of Cephalosporium acremonium with the nitrate reductase-encoding gene (niaD). 240

The nitrate reductase (NADPH) (EC 1.6.6.3) from Aspergillus nidulans is influenced directly by mutations in the structural gene (niaD) for the major subunit of the enzyme and indirectly by mutation in any of several molybdenum cofactor loci (cnx). The cnxE-14 and the cnxH-3 mutants have been noted to contain the enzyme in two distinct forms following induction with nitrate. With the cnxH-3 as a prototype cnxH mutant, 10 other cnxH were found to be devoid of the assembled (dimeric) form of the enzyme. Two monoclonal antibodies specific for the native enzyme of the wild type (biA-1) recognized an epitope on the enzyme from the cnxE-14 and cnxH-3 mutants that was common to both and another that was unique to the cnxH gene specified protomer. Another monoclonal antibody recognized an epitope that occurs only in the assembled dimerio form of the enzyme from the wild type or the cnxE-14 mutant. The experiments further substantiate the cnxH phenotype as one involving unassembled protomers of the nitrate reductase in Aspergillus.
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PMID:Distinction of cnxH cofactor gene-specified protomers with monoclonal antibodies to Aspergillus nitrate reductase. 245 52

Previous e.p.r. work [George, Bray, Morpeth & Boxer (1985) Biochem. J. 227, 925-931] has provided evidence for a pH- and anion-dependent transition in the structure of the Mo(V) centre of Escherichia coli nitrate reductase, with the low-pH form bearing both an anion and probably a hydroxy-group ligand. Initial e.x.a.f.s. measurements [Cramer, Solomonson, Adams & Mortenson (1984) J. Am. Chem. Soc. 106, 1467-1471] demonstrated the presence of sulphur (or chloride) ligands in the Mo(IV) and Mo(VI) oxidation states, as well as a variable number of terminal oxo (Mo = O) groups. To synthesize the e.p.r. and e.x.a.f.s. results better, we have conducted new e.p.r. experiments and complementary e.x.a.f.s. measurements under redox and buffer conditions designed to give homogeneous molybdenum species. In contrast with results on other molybdoenzymes, attempts to substitute the enzyme with 17O by dissolving in isotopically enriched water revealed only very weak hyperfine coupling to 17O. The significance of this finding is discussed. Experiments with different buffers indicated that buffer ions (e.g. Hepes) could replace the Cl- ligand in the low-pH Mo(V) enzyme form, with only a small change in e.p.r. parameters. E.x.a.f.s. studies of the oxidized and the fully reduced enzyme were consistent with the e.p.r. work in indicating a pH- and anion-dependent change in structure. However, in certain cases non-stoichiometric numbers of Mo = O interactions were determined, complicating the interpretation of the e.x.a.f.s. Uniquely for a molybdenum cofactor enzyme, a substantial proportion of the molecules in a number of enzyme samples appeared to contain no oxo groups. No evidence was found in our samples for the distant 'heavy' ligand atom reported in the previous e.x.a.f.s. study. The nature of the high-pH-low-pH transition is briefly discussed.
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PMID:X-ray-absorption and electron-paramagnetic-resonance spectroscopic studies of the environment of molybdenum in high-pH and low-pH forms of Escherichia coli nitrate reductase. 254 68

The amino acid sequence of the molybdenum-containing domain of chicken hepatic sulfite oxidase has been determined by Edman degradation of the purified protein. Combining these data with those previously published for the heme-containing domain (Guiard, B., and Lederer, F. (1979) Eur. J. Biochem. 100, 441-453) indicates that each subunit of the homodimer comprises a single polypeptide chain containing 460 amino acid residues (Mr = 50,545). Comparison of the sequence with the cDNA-deduced sequence of assimilatory nitrate reductase from Arabidopsis thaliana shows a substantial degree of sequence conservation in the regions of the proteins that have been identified as comprising the Mo-pterin- and cytochrome b557-binding domains. These results suggest that the sequences forming the molybdenum-binding domains of the molybdenum hydroxylases may have evolved from a common ancestral gene.
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PMID:Conserved domains in molybdenum hydroxylases. The amino acid sequence of chicken hepatic sulfite oxidase. 268 65

The molybdenum iron-sulphur protein originally isolated from Desulfovibrio gigas by Moura, Xavier, Bruschi, Le Gall, Hall & Cammack [(1976) Biochem. Biophys. Res. Commun. 72, 782-789] has been further investigated by e.p.r. spectroscopy of molybdenum(V). The signal obtained on extended reduction of the protein with sodium dithionite has been shown, by studies at 9 and 35 HGz in 1H2O and 2H2O and computer simulations, to have parameters corresponding to those of the Slow signal from the inactive desulpho form of various molybdenum-containing hydroxylases. Another signal obtained on brief reduction of the protein with small amounts of dithionite was shown by e.p.r. difference techniques to be a Rapid type 2 signal, like that from the active form of such enzymes. In confirmation that the protein is a molybdenum-containing hydroxylase, activity measurements revealed that it had aldehyde:2,6-dichlorophenol-indophenol oxidoreductase activity. No such activity towards xanthine or purine was observed. Salicylaldehyde was a particularly good substrate, and treatment of the protein with it also gave rise to the Rapid signal. Molybdenum cofactor liberated from the protein was active in the nit-1 Neurospora crassa nitrate reductase assay. It is concluded that the protein is a form of an aldehyde oxidase or dehydrogenase. From the intensity of the e.p.r. signals and from enzyme activity measurements, 10-30% of the protein in the sample examined appeared to be in the functional form. The evolutionary significance of the protein, which may represent a primitive form of the enzyme rather than a degradation product, is discussed briefly.
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PMID:The molybdenum iron-sulphur protein from Desulfovibrio gigas as a form of aldehyde oxidase. 282 90

Oxidation-reduction midpoint potentials for flavin, heme, and molybdenum-pterin prosthetic groups of assimilatory nitrate reductase (NR) from Chlorella vulgaris were measured at room temperature by using CD and EPR potentiometry. The CD changes accompanying reduction of each prosthetic group were determined by using enzyme fragments containing either FAD or heme and molybdenum prosthetic groups, obtained by limited proteolysis, and by poising the enzyme at various redox potentials in the presence of dye mediators. Limited proteolysis did not appear to alter the environment of the prosthetic groups, as judged by their CD spectra. Also, CD potentiometric titration of FAD in intact NR (Em' = -272 mV, n = 2) gave a similar value (Em' = -286 mV) to the FAD of the flavin-containing proteolytic domain, determined by visible spectroscopy. Less than 1% of the flavin semiquinone was detected by EPR spectroscopy, indicating that Em' (FAD/FAD.-) may be more than 200 mV lower than Em' (FAD.-/FADH-). Reduction of heme resulted in splitting of both Soret and alpha CD bands into couplets. The heme Em' was -162 mV (n = 1) determined by both CD and visible spectroscopy. Reduction of Mo-pterin was followed by CD at 333 nm, and Mo(V) was monitored by room temperature EPR spectroscopy. Most of the change in the Mo-pterin CD spectrum was due to the Mo(VI)/Mo(V) transition. The Em' values determined for Mo(VI)/Mo(V) were +26 mV by CD and +16 mV by EPR, whereas Mo(V)/Mo(IV) values were -40 mV by CD and -26 mV by EPR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Circular dichroism and potentiometry of FAD, heme and Mo-pterin prosthetic groups of assimilatory nitrate reductase. 284 86


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