Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Assimilatory NADH:nitrate reductase from Chlorella is a homotetramer which contains one of each of the prosthetic groups FAD, heme, and Mo6+ per 100-kDa subunit. At low protein concentrations, this tetramer dissociates to a fully active dimer. To further elucidate the possible relationship between quaternary structure and activity, the functional size of nitrate reductase was determined by radiation inactivation analysis at high and low concentrations of enzyme where the principal physical species would be either tetrameric or dimeric, respectively. In both cases, the size obtained by this method was 100 kDa, suggesting that each subunit in the tetramer or dimer can function independently. These results confirm earlier results which indicated that the subunits are identical and that each contains a full complement of prosthetic groups. We also found that the functional sizes of the partial activities NADH:cytochrome c reductase, NADH:ferricyanide reductase, and reduced methyl viologen:nitrate reductase were fractions (approximately 58 kDa, 47 kDa, and 28 kDa, respectively) of the subunit molecular mass, suggesting that these domains are functionally independent.
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PMID:Radiation inactivation of assimilatory NADH:nitrate reductase from Chlorella. Catalytic and physical sizes of functional units. 351 Feb 7

Nitrate reductase (nitrite: (acceptor) oxidoreductase, EC 1.7.99.4) and trimethylamine N-oxide reductase (NADH : trimethylamine-N-oxide oxidoreductase, EC 1.6.6.9) activities were reconstituted by incubation of the association factor FA (the putative product of the chlB gene) with the soluble extract of the chlB mutant grown anaerobically in the presence of trimethylamine N-oxide. When soluble extracts of the chlB mutant grown on 10 mM sodium tungstate, a molybdenum competitor, were used in complementation systems, no enzymatic reactivation was observed. Heated extracts of the parental strain 541 were shown to contain a thermoresistant molybdenum cofactor by their ability to reactivate NADPH-nitrate reductase activity in the nit1 mutant of Neurospora crassa. By complementation of parental strain heated extract with association factor FA and soluble extract of the chlB mutant grown in the presence of sodium tungstate, we were able to show for the first time that the molybdenum cofactor is an activator common to the in vitro reconstitution of both nitrate reductase and trimethylamine-N-oxide reductase activities.
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PMID:Molybdenum cofactor: a compound in the in vitro activation of both nitrate reductase and trimethylamine-N-oxide reductase activities in Escherichia coli K12. 352 87

Recently we demonstrated that target sizes for the partial activities of nitrate reductase were considerably smaller than the 100-kDa subunit which corresponded to the target size of the full (physiologic) activity NADH:nitrate reductase. These results suggested that the partial activities resided on functionally independent domains and that radiation inactivation may be due to localized rather than extensive damage to protein structure. The present study extends these observations and addresses several associated questions. Monophasic plots were observed over a wide range of radiation doses, suggesting a single activity component in each case. No apparent differences were observed over a 10-fold range of concentration for each substrate, suggesting that the observed slopes were not due to marked changes in Km values. Apparent target sizes estimated for partial activities associated with native enzyme and with limited proteolysis products of native enzyme suggested that the functional size obtained by radiation inactivation analysis is independent of the size of the polypeptide chain. The presence of free radical scavengers during irradiation reduced the apparent target size of both the physiologic and partial activities by an amount ranging from 24 to 43%, suggesting that a free radical mechanism is at least partially responsible for the inactivation. Immunoblot analysis of nitrate reductase irradiated in the presence of free radical scavengers revealed formation of distinct bands at 90, 75, and 40 kDa with increasing doses of irradiation rather than complete destruction of the polypeptide chain.
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PMID:Radiation inactivation analysis of assimilatory NADH:nitrate reductase. Apparent functional sizes of partial activities associated with intact and proteolytically modified enzyme. 359

The activity of the pH 7.5 NADH-linked nitrate reductase isoform from soybean seedlings is termed inducible. Activity is present only in the leaves of seedlings which have been supplied nitrate. A cDNA clone that encoded part of the mRNA for squash nitrate reductase hybridized specifically with mRNA for this inducible nitrate reductase isoform. Nitrate induction resulted in an increase in the steady-state levels of mRNA for this isoform after 24 hours, while the addition of glutamine to the nitrate diminished steady-steady state levels of this mRNA.
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PMID:Transcriptional control of the inducible nitrate reductase isoform from soybeans. 361 22

The oxidation-reduction midpoint potential for the heme prosthetic group present in assimilatory nitrate reductase from Chlorella vulgaris has been determined by optical potentiometric titrations in the presence of dye mediators. At pH 7, the midpoint potential was determined to be -160 mV and corresponds to a reversible n = 1 redox process. The midpoint potential was unaltered by the use of NADH as reductant, unaffected by the presence of NAD+, cytochrome c, phosphate, cyanide, or alkaline pH. In addition, the redox potential of the heme was independent of modifications to the enzyme such as substitution of the molybdenum center with tungsten, or cleavage and separation of the enzyme into its flavin and heme/molybdenum domains. In contrast, the midpoint potential increased on decreasing the pH yielding a pH dependence of approximately 20 mV/pH unit within the range 5.5 to 7, suggesting the presence of a single, redox-associated, ionizable functional group on the protein with pKox = 5.8 and pKred = 6.1. At pH 7 and within the range 12 to 38 degrees C, the midpoint potential of the heme decreased by approximately 1 mV/degree. Values for delta S0 and delta H0 were calculated to be -25.6 e.u. and -4.0 kcal/mol.
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PMID:Thermodynamic properties of the heme prosthetic group in assimilatory nitrate reductase. 370 Mar 73

The respiratory nitrate reductase from Paracoccus denitrificans has been purified in the non-ionic detergent Nonidet P-40. The enzyme comprises three polypeptides, alpha, beta and gamma with estimated relative molecular masses of 127 000, 61 000 and 21 000. Duroquinol or reduced-viologen compounds acted as the reducing substrates. The nitrate reductase contained a b-type cytochrome that was reduced by duroquinol and oxidised by nitrate. A preparation of the enzyme that lacked both detectable b-type cytochrome and the gamma subunit was obtained from a trailing peak of nitrate reductase activity collected from a gel filtration column. Absence of the gamma subunit correlated with failure to use duroquinol as reductant; activity with reduced viologens was retained. It is concluded that in the plasma membrane of P. denitrificans the gamma subunit catalyses electron transfer to the alpha and beta subunits of nitrate reductase from ubiquinol which acts as a branch point in the respiratory chain. A new assay was introduced for both nitrate and quinol-nitrate oxidoreductase activity. Diaphorase was used to couple the oxidation of NADH to the production of duroquinol which acted as electron donor to nitrate reductase. Under anaerobic conditions absorbance changes at 340 nm were sensitive to nitrate concentrations in the low micromolar range. This coupled assay was used to determine that the purified enzyme had Km(NO-3) of 13 microM and a Km of 470 microM for ClO-3, an alternative substrate. With viologen substrates Km(NO-3) of 283 microM and Km(ClO-3) of 470 microM were determined; the enzymes possessed a considerably higher Vmax with either NO-3 or ClO-3 than was found when duroquinol was substrate. Azide was a competitive inhibitor of nitrate reduction in either assay system (Ki = 0.55 microM) but 2-n-heptyl-4-hydroxyquinoline N-oxide was effective only with the complete three-subunit enzyme and duroquinol as substrate, consistent with a site of action for this inhibitor on the b-type cytochrome. The low Km for nitrate observed in the duriquinol assay is comparable with the apparent Km(NO-3) recently reported for intact cells of P. denitrificans [Parsonage, D., Greenfield, A. J. & Ferguson, S. J. (1985) Biochim. Biophys. Acta 807, 81-95]. This similarity is discussed in terms of a possible requirement for a nitrate transport system. The nitrate reductase system from P. denitrificans is compared with that from Escherichia coli.
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PMID:The respiratory nitrate reductase from Paracoccus denitrificans. Molecular characterisation and kinetic properties. 373 77

Initial velocity studies of Chlorella nitrate reductase showed that increased ionic strength stimulated NADH:nitrate reductase activity by increasing both Vmax and Km for nitrate. Examination of the effect of ionic strength on the various partial activities of nitrate reductase revealed that while NADH:ferricyanide and reduced methyl viologen:nitrate reductase activities were unaffected by ionic strength, NADH:cytochrome c and reduced flavin:nitrate reductase activities were inhibited and stimulated by increased ionic strength, respectively. Comparison of the rates for the partial activities indicated electron transfer from heme to molybdenum to be the rate-limiting step in enzyme turnover. The pH optimum for NADH:nitrate reductase activity was found to be 7.9 while values for the partial activities ranged from 5.5 to 8.1. Phosphate was found to stimulate both NADH:nitrate and reduced methyl viologen:nitrate reductase activities indicating the molybdenum center as the site of interaction.
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PMID:Assimilatory nitrate reductase from Chlorella. Effect of ionic strength and pH on catalytic activity. 377 27

The addition of nitrate, EDTA and dithiothreitol to the enzyme extraction buffer resulted in improved stability of the assimilatory nitrate reductase activity from the food yeast Candida utilis at both 4 degrees C and -10 degrees C. By incorporating this critical step in the following sequence the yeast NAD(P)H: nitrate oxidoreductase (EC 1.6.6.2) was purified approximately 68-fold by protamine sulphate precipitation, calcium gel adsorption, ion exchange chromatography and gel filtration. Both NADPH-nitrate reductase and NADH-nitrate reductase activities remained in constant association and ratio (2:3) during the entire course of purification. The enzyme showed an absolute requirement of NADPH or NADH for its activity. Maximal enzyme activity was obtained with 10-120 micrograms protein in a 10 min assay at 30 degrees C at pH 6.5, with an apparent Michaelis constant of 0.69 mM for nitrate as substrate. The enzyme is a molybdoflavo-protein involving sulphydryl groups, and is highly sensitive to free reducing agents, heavy metal ions and electron-transfer inhibitors. The results also suggested possible involvement of a second metal ion, perhaps iron, which was hypothesized to participate in the electron transfer scheme catalysed by this enzyme.
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PMID:Partial purification and properties of the assimilatory nitrate reductase of the food yeast Candida utilis. 378 22

NADH:nitrate reductase (EC 1.6.6.1) was isolated from squash cotyledons (Cucurbita maxima L.) by a combination of Blue Sepharose and zinc-chelate affinity chromatographies followed by gel filtration on Bio-Gel A-1.5m. These preparations gave a single protein staining band (Mr = 115,000) on sodium dodecyl sulfate gel electrophoresis, indicating that the enzyme is homogeneous. The native Mr of nitrate reductase was found to be 230,000, with a minor form of Mr = 420,000 also occurring. These results indicate that the native nitrate reductase is a homodimer of Mr = 115,000 subunits. Acidic amino acids predominate over basic amino acids, as shown both by the amino acid composition of the enzyme and an isoelectric point for nitrate reductase of 5.7. The homogeneous nitrate reductase had a UV/visible spectrum typical of a b-type cytochrome. The enzyme was found to contain one each of flavin (as FAD), heme iron, molybdenum, and Mo-pterin/Mr = 115,000 subunit. A model is proposed for squash nitrate reductase in which two Mr = 115,000 subunits are joined to made the native enzyme. Each subunit contains 1 eq of FAD, cytochrome b, and molybdenum/Mo-pterin.
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PMID:Quaternary structure and composition of squash NADH:nitrate reductase. 403 8

Nitrate reductase (EC 1.6.6.1) from Chlorella vulgaris, a flavin-cytochrome-molybdenum enzyme, catalyses two types of partial reactions: reduction of exogenous cytochrome c by NADH and reduction of nitrate to nitrite by reduced methyl viologen (reduced 1,1'-dimethyl-4,4'-dipyridine dichloride). Ferrate, an analogue of orthophosphate acting on the phosphate-binding region of the enzymes, abolishes the NADH-nitrate reductase as well as the NADH-cytochrome c activities. In addition, the ability of NADH to reduce the endogenous cytochrome b component of the enzyme is also impaired. The reduction of nitrate by reduced methyl viologen is only partially affected. The results indicate that the ferrate primarily disrupts the NADH site.
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PMID:Inactivation of the NADH-dependent activities of nitrate reductase by ferrate. 409 Aug 56


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