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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)

Nitrate reductase (NaR) linked to reduced methyl viologen from Clostridium perfringens was purified by ammonium sulfate precipitation. DEAE-cellulose chromatography, disc electrophoresis on polyacrylamide gel, and triple DEAE-Sephadex chromatography. The specific activity was increased 1,200-fold with a yield of 9%. The purified preparation was nearly homogeneous in disc electrophoresis. It was brown, and its spectrum showed a slight shoulder near 420 nm as well as a peak at 280 nm. The molecular weight was found to be 90,000 based on s020,w (5.8S) and 80,000 by Sephadex G-100 gel filtration. In SDS-polyacrylamide electrophoresis, it showed only a single band with a molecular weight of 90,000; it had no subunit structure. The isoelectric point was pH 5.5, and the optimum pH was 9. Mn2+, Fe2+, Mg2+, and Ca2+ stimulated the activity. Km for nitrate was 0.10 mM, and nitrate was stoichiometrically reduced to nitrite in the presence of 2 mM Mn2+. Ferredoxin fraction obtained from extracts of the bacterium was utilizable as an electron donor at pH 8. Cyanide and azide inhibited the enzyme. The formation of NaR was induced by nitrate and inhibited by 0.5 mM tungstate, but recovered in the presence of 0.1 mM molybdate; NaR of C. perfringens appears to be a molybdo-iron-sulfur protein.
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PMID:Studies on nitrate reductase of Clostridium perfringens. Purification, some properties, and effect of tungstate on its formation. 20 90

Evidence is presented which suggests that the NAD(P)H-cytochrome c reductase component of nitrate reductase is the main site of action of the inactivating enzyme. When tested on the nitrate reductase (NADH) from the maize root and scutella, the NADH-cytochrome c reductase was inactivated at a greater rate than was the FADH2-nitrate reductase component. With the Neurospora nitrate reductase (NADPH) only the NADPH-cytochrome c reductase was inactivated. p-Chloromercuribenzoate at 50 muM, which gave almost complete inhibition of the NADH-cytochrome c reductase fraction of the maize nitrate reductase, had no marked effect on the action of the inactivating enzyme. A reversible inactivation of the maize nitrate reductase has been shown to occur during incubation with NAD(P)H. In contrast to the action of the inactivating enzyme, it is the FADH2-nitrate reductase alone which is inactivated. No inactivation of the Neurospora nitrate reductase was produced by NAD(P)H alone and also in the presence of FAD. The lack of effect of the inactivating enzyme and NAD(P)H on the FADH2-nitrate reductase of Neurospora suggests some differences in its structure or conformation from that of the maize enzyme. A low level of cyanide (0.4 mu M) markedly enhanced the action of NAD(P)H on the maize enzyme; Cyanide at a higher level (6 mu M) did give inactivation of the Neurospora nitrate reductase in the presence of NADPH and FAD. The maize nitrate reductase, when partially inactivated by NADH and cyanide, was not altered as a substrate for the inactivating enzyme. The maize root inactivating enzyme was also shown to inactivate the nitrate reductase (NADH) in the pea leaf. It had no effect on the nitrate reductase from either Pseudomonas denitrificans or Nitrobacter agilis.
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PMID:Effects of a nitrate reductase inactivating enzyme and NAD(P)H on the nitrate reductase from higher plants and Neurospora. 23

Studies on nitrate reductase (NAD(P)H:nitrate oxidoreductases EC 1.6.6.2) of Cyanidium caldarium revealed that the enzyme is inhibited by excess of electron donor, NADPH, reduced benzylviologen and FMN. Also dithionite, used to reduce benzylviologen and FMN, inactivates nitrate reductase: however, FMN at an optimal concentration and nitrate, added before the dithionite, protect the enzyme against this inactivation. Cyanide, cyanate and carbamyl phosphate inhibit the enzyme competitively with respect to nitrate, and Ki values are reported. Organic mercurials, 0.1 mM, act preferentially on NADPH activity, whereas Ag+ and Hg-2+ at the same concentration inactivate 80--90% of the benzylviologen and FMN activities. ADP is very poor inhibitor. Urea 4 M in 2 h destroys 90% of the NADPH activity and only 30% of the benzylviologen and FMN activities. The apparent Km values for NADPH, benzylviologen, FMN and nitrate have been determined.
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PMID:Electron donors and inhibitors of nitrate reductase from Cyanidium caldarium. 23 76

Cell extract from a strain of Propionibacterium acidi-propionici with high nitrate reductase (NaR) activity catalyzed nitrate reduction with glycerol phosphate, NADH, or lactate. The reaction was inhibited partially by fumarate or oxygen. NaR linked to methyl viologen was found mostly in particulate fractions. It was solubilized by treatment with Emulgen 810 and purified 46-fold by DEAE-cellulose, Sepharose 4B, and triple DEAE-Sephadex chromatographies in the presence of the detergent. It was rather labile but was stabilized by glycerol. The molecular weight was estimated to be 230,000 by Sepharose 4B gel filtration and the isoelectric point was pH 5.0-5.5. The pH optimum was at 6.5-7.5 and Km for nitrate was 0.1 mM. As electron donors, methyl and benzyl viologen were utilized well but FAD and FMN were fairly ineffective. Chlorate was an active acceptor as well as nitrate. Azide, cyanide, and thiocyanate inhibited NaR. On adding 1 mM tungstate to the growing medium, the NaR level in grown cells was lowered; addition of 0.01 mM molybdate restored the activity partially. NaR is suggested to be a molybdo-protein, similar to this enzyme from other bacteria.
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PMID:A study on nitrate reductase from Propionibacterium acidi-propionici. 62 3

Nitrate reductase was investigated in extracts from cells of a chlorate-resistant mutant strain of E. coli which grew anaerobically on nitrate as the sole source of nitrogen. The nitrate reductase was of particulate nature and reduced chlorate like the nitrate reductase from the wild strain, but in contrast was inhibited only weakly by azide or cyanide. Nitrate reductase activity was found in extracts from the mutant cells grown on nitrate as the sole source of nitrogen, but not in extracts from cells grown in complex nutrient medium. Addition of ammonia also caused a decrease in activity. Accordingly, the nitrate reductase in the chlorate-resistant mutant is of the assimilatory type.
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PMID:Assimilatory nitrate reductase in a chlorate-resistant mutant of Escherichia coli. 79 Jul 86

The membrane-bound formate dehydrogenase of Escherichia coli grown anaerobically in the presence of nitrate was solubilized with deoxycholate and purified to near homogeneity. The purification procedure included ammonium sulfate fractionation and chromatography on Bio-Gel A-1.5m and DEAE Bio-Gel A in the presence of the nonionic detergent, Triton X-100. This detergent caused a significant decrease in the molecular weight of the soluble formate dehydrogenase complex and allowed the enzyme then to be resolved from other membrane components. Anaerobic conditions were required throughout due to the sensitivity of the enzyme to oxygen inactivation. Formate dehydrogenase was judged to be at least 93 to 99% pure by the following procedures: polyacrylamide gel electrophoresis in the presence of Triton X-100 and sodium dodecyl sulfate, gel filtration, and sedimentation velocity studies. The purified enzyme exists as a detergent-protein complex (0.20 +/- 0.03 g of Triton X-100/g of protein) which has an S20,w of 18.1 S and a Stokes radius of 76 A. This corresponds to a molecular weight of 590,000 +/- 59,000. The enzyme had an absorbance spectrum of a b-type cytochrome which could be completely reduced by formate. The heme content corresponds to an equivalent weight of 154,000 which suggests a tetrameric structure for the enzyme. Formate dehydrogenase was found to contain (in relative molar amounts): 1.0 heme, 0.95 molybdenum, 0.96 selenium, 14 non-heme iron, and 13 acid-labile sulfide. Neither FAD nor FMN could be detected. The enzyme contains three polypeptides, designated alpha, beta, and gamma, whose molecular weights were estimated by gel electrophoresis in the presence of sodium dodecyl sulfate to be 110,000, 32,000, and 20,000, respectively. After separation of the polypeptides by gel filtration in the presence of sodium dodecyl sulfate alpha, beta, and gamma were found in 1:1.2:0.55 molar ratios. A study of the enzyme obtained from cells grown with [75Se]selenite showed that only the alpha polypeptide contained significant amounts of selenium. The enzyme will catalyze the formate-dependent reduction of phenazine methosulfate, dichlorophenolindophenol, methylene blue, nitroblue tetrazolium, benzyl viologen, methyl viologen, ferricyanide, and coenzyme Q6. Cyanide, azide, p-hydroxymercuribenzoate, iodoacetamide, and oxygen inhibit the enzyme. The procedure which was designed for the purification of formate dehydrogenase also yields a highly purified preparation of nitrate reductase. This nitrate reductase has been shown to contain significant amounts of heme (Enoch, H. G., and Lester, R. L. (1974) Biochem. Biophys. Res Commun. 61,1234-1241). The enzyme contains three polypeptides with molecular weights of 155,000, 63,000, and 19,000. When measured in the presence of Trition X-100 the Stokes radius of nitrate reductase is 75 A and the S20,w is 16 S which corresponds to a molecular weight of 498,000.
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PMID:The purification and properties of formate dehydrogenase and nitrate reductase from Escherichia coli. 109 93

Respiratory nitrate reductase with lactate as a hydrogen donor has been studied in cells and spheroplast preparations of wild type and heme-deficienct mutants of Staphylococcus aureus. The activity is rapidly induced when suspensions of aerobically grown cells are incubated without aeration in a complete medium with nitrate. In ruptured spheroplast preparations, the activity with lactate as the donor is located in the membrane fraction, whereas at least 50% of the activity assayed with reduced benzyl viologen is in the cytoplasm. The reductase is inhibited by azide and cyanide, and the lactate-linked system is also sensitive to oxamate, 2-heptyl-4-hydroxyquinoline-N-oxide, dicoumarol, and p-chloromercuribenzoate. An inactive form of the reductase is apparently made during induction with tungstate; this can be activated by subsequent incubation with molybdate in the presence of chloramphenicol. Nitrate reductase activity with reduced benzyl viologen as the donor is induced in suspensions of heme-deficient mutants in the presence or absence of heme. The proportion of cytoplasmic activity is increased in the absence of heme. The staphylococcal nitrate reductase has many of the characteristics commonly associated with the respiratory enzyme in other organisms, but the apparent predominance of cytoplasmic activity is unusual.
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PMID:Nitrate reductase system in Staphylococcus aureus wild type and mutants. 114 Nov 99

A membrane-bound nitrate reductase (nitrite:(acceptor) oxidoreductase, EC 1.7.99.4) from the extremely halophilic bacterium Haloferax denitrificans was solubilized by incubating membranes in buffer lacking NaCl and purified by DEAE, hydroxylapatite, and Sepharose 6B gel filtration chromatography. The purified nitrate reductase reduced chlorate and was inhibited by azide and cyanide. Preincubating the enzyme with cyanide increased the extent of inhibition which in turn was intensified when dithionite was present. Although cyanide was a noncompetitive inhibitor with respect to nitrate, nitrate protected against inhibition. The enzyme, as isolated, was composed of two subunits (Mr 116,000 and 60,000) and behaved as a dimer during gel filtration (Mr 380,000). Unlike other halobacterial enzymes, this nitrate reductase was most active, as well as stable, in the absence of salt.
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PMID:Purification and properties of a dissimilatory nitrate reductase from Haloferax denitrificans. 165 31

Pseudomonas aeruginosa is an obligate respirer which can utilize nitrate as a terminal electron acceptor under anaerobic conditions (denitrification). Immediate, transient regulation of nitrate respiration is mediated by oxygen through the inhibition of nitrate uptake. In order to gain an understanding of the bioenergetics of nitrate transport and its regulation by oxygen, the effects of various metabolic inhibitors on the uptake process and on oxygen regulation were investigated. Nitrate uptake was stimulated by the protonophores carbonyl cyanide m-chlorophenylhydrazone and 2,4-dinitrophenol, indicating that nitrate uptake is not strictly energized by, but may be affected by the proton motive force. Oxygen regulation of nitrate uptake might in part be through redox-sensitive thiol groups since N-ethylmaleimide at high concentrations decreased the rate of nitrate transport. Cells grown with tungstate (deficient in nitrate reductase activity) and azide-treated cells transported nitrate at significantly lower rates than untreated cells, indicating that physiological rates of nitrate transport are dependent on nitrate reduction. Furthermore, tungstate grown cells transported nitrate only in the presence of nitrite, lending support to the nitrate/nitrite antiport model for transport. Oxygen regulation of nitrate transport was relieved (10% that of typical anaerobic rates) by the cytochrome oxygen reductase inhibitors carbon monoxide and cyanide.
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PMID:Nitrate transport and its regulation by O2 in Pseudomonas aeruginosa. 191 Feb 83

The involvement of cytochromes in the electron-transport pathway to the periplasmic NO3- reductase of Rhodobacter capsulatus was studied in cells grown photoheterotrophically in the presence of nitrate with butyrate as carbon source. The specific rate of NO3- reduction by such cells was five times higher than when malate was carbon source. Reduced minus NO3(-)-oxidized spectra of cells had peaks in the alpha-band region for cytochromes at 552 nm and 559 nm, indicating the involvement of c- and b-type cytochromes in the electron-transport pathway to NO3-. The total ferricyanide-oxidizable cytochrome that was also oxidized in the steady state by NO3- was greater in cells grown with butyrate rather than malate. Low concentrations of cyanide inhibited NO3- reduction. Neither CN-, nor a previously characterized inhibitor of NO3- reduction, 2-n-heptyl-4-hydroxyquinoline N-oxide, prevented the oxidation of the cytochromes by NO3-. This suggested a site of action for these inhibitors on the reducing side of the b- and c-type cytochromes involved in electron transport to the NO3- reductase. The predominant cytochrome in a periplasmic fraction prepared from cells of R. capsulatus grown on butyrate medium was cytochrome c2 but a c-type cytochrome with an alpha-band reduced absorbance maximum at 552 nm could also be identified. The reduced form of this latter cytochrome, but not that of cytochrome c2, was oxidized upon addition of NO3- to a periplasmic fraction. The NO3(-)-oxidizable cytochrome co-purified with the periplasmic NO3- reductase through fractionation procedures that included ammonium sulphate precipitation, gel filtration at low and high salt concentrations, and ion-exchange chromatography. A NO3(-)-reductase-cytochrome-c552 redox complex that comprised two types of polypeptide, a nitrate reductase subunit and a c-type cytochrome subunit, was purified. The polypeptides were separated when the complex was chromatographed on a phenyl-Sepharose hydrophobic chromatography column.
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PMID:The identification of cytochromes involved in the transfer of electrons to the periplasmic NO3- reductase of Rhodobacter capsulatus and resolution of a soluble NO3(-)-reductase--cytochrome-c552 redox complex. 217 75


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