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)

1. A soluble reduced Methyl Viologen-dependent assimilatory nitrate reductase from Azotobacter vinelandii strain UW136 grown aerobically on nitrate was purified to homogeneity by the criteria of nitrate reductase activity staining, and coincidence of a Coomassie Blue-staining protein band on polyacrylamide gels run under non-denaturing conditions. The specific activity was 3 mumol of NO2- formed/min per mg of protein. 2. Gel filtration on Superose-12 and SDS/PAGE showed that the enzyme had an M(r) of 105,000 and was monomeric. The enzyme contained 1 Mo atom, 4 Fe atoms and 4 acid-labile sulphide atoms per molecule; no evidence for the presence of cytochrome or FAD was found. 3. Mo was present in a molybdenum cofactor, which on extraction was capable of activating apo-(nit-1) nitrate reductase present in crude extracts of nit-1 mutants of Neurospora crassa. 4. As isolated, the enzyme had e.p.r. signals assigned to Mo(V) with g-values g1 = 2.023; g2 = 1.998; g3 = 1.993 and with gav. = 2.004 indicating an unusual environment of Mo in this enzyme. 5. Reduction with S2O4(2-) bleached the e.p.r. signals which, on reoxidation after the addition of NO3(2-) to initiate enzyme turnover, exhibited at short times Mo(V) signals similar to those of dissimilatory nitrate reductases, with g1 = 1.998; g2 = 1.989; g3 = 1.981 and gav. = 1.989. Prolonged incubation subsequently gave a mixture of both e.p.r. species. 6. Neither NADH nor NADPH was effective as an electron donor, but reduced Methyl Viologen (apparent Km 998 microM) and reduced Bromophenol Blue (apparent Km 158 microM) were effective. With these donors the apparent Km values for nitrate were 70 microM and 217 microM respectively.
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PMID:Purification and characterization of the assimilatory nitrate reductase of Azotobacter vinelandii. 838 Sep 91

Bromphenol blue, which was reduced with dithionite, was found to support nitrate reduction catalyzed by squash NADH:nitrate reductase at a rate about 5 times greater than NADH with freshly prepared enzyme and 10 times or more with enzyme having been frozen and thawed. Kinetic analysis of bromphenol blue as a substrate for squash nitrate reductase yielded apparent K(m) values of 60 micromolar for bromphenol blue at 10 millimolar nitrate and 500 micromolar for nitrate at 0.2 millimolar bromphenol blue. With the same preparation of enzyme the apparent K(m) values were 9 micromolar for NADH at 10 millimolar nitrate and 50 micromolar nitrate at 0.1 millimolar NADH. Bromphenol blue was found to be a noncompetitive inhibitor versus NADH with a K(i) of 0.3 millimolar. When squash NADH:nitrate reductase activity was inactivated with p-hydroxymercuribenzoate or denatured by heating at 40 degrees C, the bromphenol blue nitrate reductase activity was not lost. These results were taken to indicate that bromphenol blue and NADH donated electrons to nitrate reductase at different sites. When monoclonal antibodies prepared against corn and squash nitrate reductases were used to inhibit the nitrate reductase activities supported by NADH, bromphenol blue, and methyl viologen, differential inhibition was found which tended to indicate that the three electron donors were interacting with the enzyme at different sites. One monoclonal antibody prepared against squash nitrate reductase inhibited all three activities of both corn and squash nitrate reductase. It appears this antibody may bind to a highly conserved antigenic site in the nitrate binding region of the enzyme.
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PMID:Properties of Bromphenol Blue as an Electron Donor for Higher Plant NADH: Nitrate Reductase. 1666 1

A range of electron-transferring agents (dyes) were screened for activity with the oxido-reductase, nitrate reductase, from either Pisum sativum or Aspergillus. Reducing equivalents could be transferred efficiently to both enzymes by methyl viologen. Pisum enzyme could also be effectively reduced by reduced Patent blue (food colouring E 131), curcumin (food colouring E 100) or, at lesser rates by Azure A. Aspergillus enzyme could be reduced at only low rates by curcumin, Patent blue and Bromophenol blue.
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PMID:Electron transferring dyes in the nitrate reductase reaction: non-toxic alternatives to methyl viologen. 2441 41