EC:1.7.1.4 - FACTA Search

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Query: EC:1.7.1.4 (nitrite reductase)
1,847 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitrite reductase was purified between 760- and 1300-fold from vegetable marrow (Cucurbita pepo L.) and residual hydroxylamine reductase activity was low or negligible by comparison. With ferredoxin as electron donor, nitrite loss and ammonia formation at pH7.5 were stoicheiometrically equivalent. Crude nitrite reductase preparations showed negligible activity with NADPH as electron donor maintained in the reduced state by glucose 6-phosphate, whereas by comparison, activity was high when either ferredoxin or benzyl viologen were also present and reduced by the NADPH-glucose 6-phosphate system, whereas FMNH(2) produced variable and relatively low activity under the same conditions. At pH values below 7, non-enzymic reactions occurred between reduced benzyl viologen and nitrite, and intermediate reduction products were inferred to be produced instead of ammonia. Activity with ferredoxin (0.1mm), reduced by chloroplast grana in the light, was 25 times that produced with ferredoxin (40mum) reduced with NADPH and glucose 6-phosphate. For an approximate molecular weight 61000-63000 derived by chromatography on Sephadex G-100 and G-200, and a specific activity of 46mumol of nitrite reduced/min per mg of protein with light and chloroplast grana, a minimum turnover number of 3x10(3)mol of nitrite reduced/min per mol of enzyme was found. Two hydroxylamine reductases were separated on Sephadex gels. One (HR1) was initially associated with nitrite reductase during gel filtration but disappeared during later fractionation. This HR1 fraction showed nearly comparable activity with reduced benzyl viologen, ferredoxin or FMNH(2). The other (HR2), of molecular weight approx. 35000, reacted with reduced benzyl viologen but showed negligible activity with ferredoxin or NADPH. Activity with FMNH(2) was associated with an irregular trailing boundary during gel filtration, with much diminished activity in the HR2 region. Activity with NADPH was about 30% of that with FMNH(2), reduced benzyl viologen or ferredoxin and was considered to reside in fraction HR1. Hydroxylamine yielded ammonia under all assay conditions. No activity with hyponitrite or sulphite was observed with reduced benzyl viologen as electron donor in either the nitrite reductase or the hydroxylamine reductase systems, but pyruvic oxime produced about 4% of the activity of hydroxylamine.
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PMID:Nitrite and hydroxylamine reduction in higher plants. Fractionation, electron donor and substrate specificity of leaf enzymes, principally from vegetable marrow (Cucurbita pepo L.). 439 27

Reduction of nitrite by cell-free preparations of Anabaena cylindrica in the dark has been investigated. Nitrite-reducing activity was recovered in a supernatant fraction. The nitrite reductase system was partially purified by column chromatography on Sephadex G-75. NADPH could serve as an H-donor. NADH was completely inactive. The reduction required ferredoxin which mediated the transfer of electrons from NADPH to nitrite. Ferredoxin was successfully replaced with methyl viologen, benzyl viologen and diquat. The nitrite-reducing activity was inhibited by KCN, and by 2,4-dinitrophenol and arsenate at higher concentrations. The extent of nitrite reduction by NADPH was dependent on the oxidation-reduction states of NADP and ferredoxin.
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PMID:Reduction of nitrate and nitrite by subcellular preparations of Anabaena cylindrica. I. Reduction of nitrite to ammonia. 594 26

Interactions of ferredoxin-linked nitrite reductase (NiR) from spinach with its substrate were studied by spectrophotometry and electron spin resonance (ESR) spectroscopy. Siroheme was extractable from NiR with 2.5% (W/V) trichloroacetic acid (TCA) and with acetone containing 0.01 N HCl. The addition of nitrite or sulfite to these extracts resulted in shifts of the absorption spectra of siroheme. The HCl-acetone extract showed ESR signals of symmetrical high spin heme, which disappeared on addition of nitrite. Spectral titration indicated a high affinity of extracted siroheme to nitrite and sulfite. The addition of nitrite or sulfite to protoheme dissolved in 0.01 N HCl-acetone did not cause a shift of the absorption spectrum. The extractability of siroheme with 0.01 N HCl-acetone was suppressed by the addition of nitrite to the NiR preparation. Moreover, a substrate-induced difference spectrum with peaks at about 295 and 287 nm was observed on addition of nitrite to NiR. These observations indicated an intrinsic strong affinity of siroheme to nitrite and sulfite, formation of rhombicity of siroheme by binding to the protein moiety, and also a probable conformational change of NiR on binding to the substrate. In agreement with previous reports, ESR signals of the heme-NO complex were observed with NiR in the presence of nitrite, methyl viologen (MV), and dithionite. In the present study, the same signals of similar intensity were also observed on omission of MV, under which conditions no catalytic reduction of nitrite occurred. Furthermore, the signal of the heme-NO complex was not observed when MV was replaced by spinach ferredoxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Spectrophotometric and electron spin resonance studies on the substrate interactions of ferredoxin-linked nitrite reductase from spinach. 632 82

Nitrite reductase has been purified almost 3000-fold, in 35% yield, to a specific activity of 77 units (mg protein)-1 from wheat leaves using a multi-step procedure with affinity chromatography on ferredoxin-Sepharose as the final step. The purified enzyme, although not homogeneous, exhibited absorption maxima at 278, 390, 568 and 687 nm. Minor contaminants were removed by gel filtration in the presence of sodium dodecyl sulphate to yield a single polypeptide of Mr 60 500 as judged by polyacrylamide gel electrophoresis. Antibodies raised against this polypeptide were shown to cross-react with native nitrite reductase and were used to study the synthesis of nitrite reductase in vivo and in vitro. The increase in nitrite reductase activity following exposure of dark-grown plants to nitrate and light was shown by immunodecoration of Western blots to be due to synthesis de novo. Poly(A)-rich RNA isolated from plants actively synthesising nitrite reductase was shown to direct the synthesis in a rabbit reticulocyte lysate of a polypeptide of Mr 64000 which was immunoprecipitated by antibodies to nitrite reductase.
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PMID:Synthesis of wheat leaf nitrite reductase de novo following induction with nitrate and light. 654 2

The assimilatory nitrite reductase (ferredoxin: nitrite oxidoreductase, EC 1.7.7.1) from barley (Hordeum vulgare L.) leaves has been purified over 1500-fold with a recovery of 30% and a specific activity of 84 mumol of nitrite reduced/min per mg of protein. The purification procedure includes (NH4)2SO4 fractionation, ion-exchange and molecular-sieve chromatographies and, finally, ferredoxin-Sepharose-4B affinity chromatography. The enzyme appears homogeneous by polyacrylamide gel electrophoresis and consists of a single polypeptide chain with an Mr of 61 000. The absorption spectrum of the pure enzyme was typical of a haem-containing protein. The enzyme showed low thermostability and was specific for ferredoxin (Km 0.4 microM), although reduced Methyl Viologen (Km 120 microM) was also effective. The same Km value for nitrite (250 microM) was obtained with both electron carriers. Cyanide acted as a powerful pure competitive inhibitor of enzyme with respect to nitrite (Ki 40 microM). Thiol-blocking agents also caused considerable inhibition, but only the ferredoxin-driven activity was significantly inhibited by sulphite and hydroxylamine.
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PMID:Purification and properties of the assimilatory nitrite reductase from barley Hordeum vulgare leaves. 708 81

Sulfite reductase (SiR) has been purified to homogeneity from spinach leaves. Two forms of the enzyme were separated by hydroxylapatite chromatography. One, with subunit Mr 69 000 appears to be proteolytically cleaved to give rise to the other, with subunit Mr 63 000, during the purification procedure. The two species have identical catalytic activities (on a per heme basis) when reduced methylviologen (MV+) or ferredoxin (Fdr) is used as electron donor for sulfite reduction, and they exhibit nearly identical optical and EPR spectra. Both enzyme forms exist in 50 mM phosphate buffer (pH 7.7) primarily as dimers at 20 degrees C. Spinach SiR contains 1 mol of siroheme and one Fe4S4 center per subunit. The heme iron is the high spin Fe3+ state in the enzyme as isolated. Near quantitative reduction of the Fe4S4 center by dithionite could be achieved if SiR was either converted to the CO complex or treated with 80% dimethyl sulfoxide. Spinach SiR and nitrite reductase (NiR) both catalyze Fdr-or MV+-de-pendent six-electron reductions of SO3(2)- and NO2-, as well as the two electron reduction of NH2OH. Vmax values are highest with the nitrogenous substrates. However, the Km of SiR for So3(2-), and of NiR for NO2-, is at least 2 orders of magnitude less than with either of the other substrates. Rates of reduction with Fdr as electron donor are greater than with MV+ as donor, No immunological cross-reaction could be detected between spinach SiR and Escherichia coli SiR or between spinach SiR and NiR.
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PMID:Spinach siroheme enzymes: Isolation and characterization of ferredoxin-sulfite reductase and comparison of properties with ferredoxin-nitrite reductase. 710 2

Some factors that influence the activity of nitrite reductase (EC 1.7.7.1) were investigated, the enzyme from Curcurbita pepo (vegetable marrow) being used. The activity with ferredoxin or Methyl Viologen as electron donor was inhibited by certain salts, including NaCl. The steady-state kinetic parameters measured in a commonly used open-tube (aerobic) system were compared with a closed-cell (anaerobic) system in which the redox potential, and thus the concentrations of oxidized and reduced donor, could be controlled. This showed that in the open-tube system the apparent Km values determined were overestimated (by a factor of 10 for reduced Methyl Viologen), owing to incomplete mediator reduction and competitive inhibition by the oxidized form of the mediator.
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PMID:Kinetics of leaf nitrite reductase with Methyl Viologen and ferredoxin under controlled redox conditions. 712 79

The gene (nirA) for nitrite reductase was cloned from the nonheterocystous, filamentous cyanobacterium Plectonema boryanum. The predicted protein consists of 654 amino acids and has a calculated molecular weight of 72,135. The deduced amino acid sequence from positions 1 to 511 is strongly similar to the entire sequence of the ferredoxin-dependent nitrite reductases from other phototrophs, while the remainder of the protein is unique to the Plectonema nitrite reductase. The C-terminal portion of the protein (amino acids 584 to 654) is 30 to 35% identical to [2Fe-2S] ferredoxins from higher plants and cyanobacteria, with all of the four Cys residues involved in binding of the [2Fe-2S] cluster in the ferredoxins being conserved. Immunoblotting analysis of the extracts of P. boryanum cells showed that the NirA polypeptide has an apparent molecular mass of 75 kDa. An insertional mutant of nirA lacked the 75-kDa polypeptide, had no nitrite reductase activity, and failed to grow on nitrate and nitrite, indicating that the novel nirA is the sole nitrite reductase gene in P. boryanum and that the NirA polypeptide with the ferredoxin-like domain is the apoprotein of the functional nitrite reductase. As in Synechococcus sp. strain PCC7942, nirA is the first gene of a large transcription unit (> 7 kb in size) and is repressed by ammonium and derepressed simply by deprivation of ammonium from the medium. The development of nitrite reductase activity was, however, found to require the presence of nitrate in the medium.
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PMID:A novel nitrite reductase gene from the cyanobacterium Plectonema boryanum. 759 78

The nitrite reductase (NiR) gene (nirA) has been isolated and sequenced from the filamentous, thermophilic non-N2-fixing cyanobacterium Phormidium laminosum. Putative promoter-like and Shine-Dalgarno sequences appear at the 5' end of the 1533 bp long nir-coding region. The deduced amino acid sequence of NiR from P. laminosum corresponds to a 56 kDa polypeptide, a size identical to the molecular mass previously determined for the pure enzyme, and shows a high identity with amino acid sequences from ferredoxin-dependent NiR. This cyanobacterial NiR gene has been efficiently expressed in Escherichia coli DH5 alpha from the E. coli lac promoter and probably from the P. laminosum NiR promoter.
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PMID:Isolation, sequence and expression in Escherichia coli of the nitrite reductase gene from the filamentous, thermophilic cyanobacterium Phormidium laminosum. 776 73

The oxidation-reduction midpoint potentials for the two prosthetic groups of the chloroplast-located, ferredoxin-dependent nitrite reductase of spinach leaves have been determined by spectroelectrochemical titrations and cyclic voltammetry. The average of the results obtained by the two techniques are Em = -290 mV for the siroheme group and Em = -365 mV for the [4Fe-4S] cluster. The value obtained for the [4Fe-4S] cluster is substantially more positive than values obtained previously in experiments which utilized electron paramagnetic resonance spectroscopy at cryogenic temperatures to monitor the reduction state of the cluster. Laser flash photolysis experiments have been used to monitor electron transfer from reduced ferredoxin to nitrite reductase and have provided the first evidence for electron transfer between the two prosthetic groups of the enzyme. The effect of ionic strength on the observed kinetics has provided support for the proposal that electrostatic interactions between ferredoxin and nitrite reductase play an important role in the reaction mechanism.
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PMID:Transient kinetic and oxidation-reduction studies of spinach ferredoxin:nitrite oxidoreductase. 818 Feb 38

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