EC:1.6.99.1 - FACTA Search

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Query: EC:1.6.99.1 (NADPH-diaphorase)
3,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An enzymatic cycling procedure for beta-NADP+ generated by the enzyme 3'-phosphodiesterase, 2':3'-cyclic nucleotide (EC 3.1.4.37) from its substrate 2':3'-cyclic NADP+ is described. The enzymes glucose-6-phosphate dehydrogenase (EC 1.1.1.49) and diaphorase (EC 1.8.1.4) are used to cycle the cofactor between its oxidized and reduced forms in the presence of glucose-6-phosphate and p-iodonitrotetrazolium violet (INT) with the concomitant production of colored INT-formazan, monitored at 492 nm. The amplification is about 400-fold per hour and is sensitive enough to detect 6 x 10(-13) mol of NADP(H). A simple procedure for the optimization of this cycling assay is also described. Conjugates to 3'-phosphodiesterase, 2':3'-cyclic nucleotide may be used in heterogeneous enzyme immunoassays for the detection of small quantities of haptens or proteins in biological fluids.
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PMID:An enzymatic cycling procedure for beta-NADP+ generated by 3'-phosphodiesterase, 2':3'-cyclic nucleotide. 132 Mar 51

Ferredoxin-NADP+ reductase from the cyanobacterium Anabaena sp. PCC 7119 was chemically modified by the alpha-dicarbonyl reagent phenylglyoxal. The studies of the inactivation by this compound, which is specific for arginyl residues, of both the diaphorase and NADPH-cytochrome c reductase activities, characteristic of the enzyme, are indicative of the involvement of at least one group of this kind in the binding site of NADP+ and a second one implicated in the interaction with ferredoxin. After specific cleavage of a FNR sample incubated with [7-14C]phenylglyoxal, two major labeled peptides were identified. The peptide which exhibited the higher degree of modification corresponded to residues 208-242. It contained four arginine residues but only two of them were the target of the modification: Arg224 and Arg233. Protection studies with protein substrates and sequence comparison with other reductases allow us to propose that these residues in Anabaena sp. PCC 7119 FNR must be involved in the interaction with the pyridine nucleotide. The second peptide corresponds to residues 75-103 and although it contains three arginine residues, Arg77 is the only one that exhibits the modification. This residue seems to be a key one in the interaction of this reductase with ferredoxin.
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PMID:Identification of arginyl residues involved in the binding of ferredoxin-NADP+ reductase from Anabaena sp. PCC 7119 to its substrates. 144 67

Ferredoxin-NADP+ reductase from Anabaena sp. PCC 7119 is chemically modified by pyridoxal 5'-phosphate. The incorporation of 2 +/- 0.3 mol pyridoxal 5'-phosphate/mol ferredoxin-NADP+ reductase inhibited NADPH-cytochrome c reductase activity by up to 95% while 55% of diaphorase activity still remained. Considerable protection against inactivation was afforded by ferredoxin. Chymotryptic cleavage of the modified enzyme was performed, the peptides were separated by high performance liquid chromatography, and the peptides containing pyridoxamine 5'-phosphate were identified by their fluorescence and by their absorbance at 325 nm. Three major labelled peptides were found. Their sequences were comprised of residues 46-54, 231-235 and 289-295. Lys-53 and -294 were the residues which presented the highest degree of modification and seem to be involved in the ferredoxin binding site of ferredoxin-NADP+ reductase from Anabaena sp. PCC 7119.
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PMID:Lysine residues on ferredoxin-NADP+ reductase from Anabaena sp. PCC 7119 involved in substrate binding. 154 17

Eleven independent monoclonal antibodies, all IgG's, have been raised against the ferredoxin:NADP+ oxidoreductase of spinach leaves. All 11 monoclonal antibodies were able to produce substantial inhibition of the NADPH to 2,6-dichlorophenol indophenol (DCPIP) diaphorase activity of the enzyme, but none of the antibodies produced any significant inhibition of electron flow from NADPH to ferredoxin catalyzed by the enzyme. Spectral perturbation assays were used to demonstrate that antibody interaction with NADP+ reductase did not interfere significantly with the binding of either ferredoxin or NADP+ to the enzyme. Ultrafiltration binding assays were used to confirm that the monoclonal antibodies did not interfere with complex formation between ferredoxin and the enzyme. These results have been interpreted in terms of the likely presence of one or more highly antigenic epitopes at the site where the nonphysiological electron acceptor, DCPIP, binds to the enzyme. Furthermore, the results suggest that the site where DCPIP is reduced differs from both of the two separate sites at which the two physiological substrates, ferredoxin and NADP+/NADPH, are bound.
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PMID:Monoclonal antibody studies of ferredoxin:NADP+ oxidoreductase. 165 83

The activity of ferredoxin: NADP+ reductase (FNR) was found to decline to approximately 20% maximal levels with little or no loss in enzyme levels when cultures of the cyanobacterium Anabaena variabilis were maintained in the stationary phase of growth. Re-activation of enzyme activity occurred when cells were diluted into either fresh or re-utilized media and illuminated. This reversible de-activation/re-activation process was found, in vivo, to be dependent on the intensity of light illuminating the cells. The de-activated form of FNR was purified to homogeneity and exhibited the same molecular mass, isoelectric-focusing pattern and N-terminal amino acid sequence as the native form. Both de-activated and native FNR preparations each exhibited three reactive thiol groups on denaturation in urea; however, the rate of reaction with Ellman's reagent was much faster with the de-activated form than with the native form. Both preparations contain a single disulphide bond. Upon reduction of the disulphide bond in either form of the enzyme, the five reactive thiol groups exhibited identical reactivities in the presence of urea. Steady-state kinetic analysis of the de-activated form showed a marked increase in Km values for NADPH in diaphorase assays and an increase in Km for ferredoxin in the ferredoxin-mediated reduction of cytochrome c. No significant difference in kcat. was observed in comparison of the de-activated with the native form in any of the above assays; however, the de-activated form did exhibit a lower kcat. value in the transhydrogenase assay. The de-activated form of FNR bound ferredoxin with a 16-fold lower affinity than the native enzyme. These data suggest that the de-activation of FNR in vivo in response to low light intensity involves an alteration in protein structure, possibly via an intramolecular thiol disulphide interchange, which influences the interaction of the enzyme with its substrates.
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PMID:Light-dependent de-activation/re-activation of Anabaena variabilis ferredoxin: NADP+ reductase. 190 89

Pyruvate:NADP+ oxidoreductase from Euglena gracilis, a homodimeric protein with a molecular weight of 309 kDa, is an iron-sulfur flavoenzyme that contains thiamin pyrophosphate (TPP). The functional structure of the enzyme was studied by a limited proteolysis experiment using trypsin. The evidence obtained shows that the enzyme consists of two functional domains, one of which contains an iron-sulfur cluster, which can be isolated as a homodimeric fragment of approximately 220 kDa by proteolysis. The other domain that contains FAD is released as a monomeric fragment of approximately 55 kDa. The pyruvate dehydrogenase reaction is still catalyzed by the large fragment when NADP+ is substituted by methyl viologen, while the small fragment retains a diaphorase-like electron-transfer activity from NADPH to MV. It is thus shown that pyruvate is oxidized in a CoA-dependent reaction to form CO2 and acetyl-CoA in the iron-sulfur domain, and that the two electrons formed are transferred to the FAD domain in which NADP+ is reduced. TPP is considered to be associated in the iron-sulfur domain. The NH2-terminal sequences of the enzyme and its proteolytic fragments reveal that the iron-sulfur domain occurs in the NH2-terminal side of the enzyme. For elucidation of the O2 instability of the enzyme, limited proteolysis was attempted in air. The tryptic fragment derived from the iron-sulfur domain, similar to the native enzyme, appears to be inactivated by direct contact with O2. In contrast, the FAD domain, when separated from the other domain, is quite stable in air, although the diaphorase activity decays when the native enzyme is exposed to O2.
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PMID:Pyruvate:NADP+ oxidoreductase from Euglena gracilis: limited proteolysis of the enzyme with trypsin. 191 Feb 87

A flavoprotein with properties similar to those of ferredoxin:NADP+ oxidoreductases found in the leaves of higher plants has been purified to apparent homogeneity from bean sprouts, a nonphotosynthetic plant tissue. The absorbance and circular dichroism spectra of the bean sprout protein are similar to those of spinach leaf ferredoxin:NADP+ oxidoreductase and an antibody raised against the spinach enzyme recognized the bean sprout enzyme. The bean sprout enzyme catalyzed ferredoxin-dependent electron transfer from NADPH to equine cytochrome c at a high rate but, unlike the spinach enzyme, exhibited little NADPH to 2,6-dichlorophenol indophenol diaphorase activity. The bean sprout enzyme forms a 1:1 electrostatically stabilized complex with ferredoxins isolated from either bean sprouts or spinach leaves.
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PMID:Characterization of a ferredoxin:NADP+ oxidoreductase from a nonphotosynthetic plant tissue. 210 79

Chemical modification of ferredoxin--NADP+ reductase from the cyanobacteria Anabaena has been performed using the alpha-dicarbonyl reagent phenylglyoxal. Inactivation of both the diaphorase and cytochrome-c reductase activities, characteristic of the enzyme, indicates the involvement of one or more arginyl residues in the catalytic process of the enzyme. The determination of the rate constants for the inactivation process under different conditions, including those in which substrates, NADP+ and ferredoxin, as well as other NADP+ analogs were present, indicates the involvement of two different groups in the inactivation process, one that reacts very rapidly with the reagent (kobs = 8.3 M-1 min-1) and is responsible for the binding of NADP+, and a second less reactive group (kobs = 0.9 M-1 min-1), that is involved in the binding of ferredoxin. Radioactive labeling of the enzyme with [14C]phenylglyoxal confirms that two groups are modified while amino acid analysis of the modified protein indicates that the modified groups are arginine residues. The identification of the amino acid residues involved in binding and catalysis of the substrates of ferredoxin--NADP+ reductase will help to elucidate the mechanism of the reaction catalyzed by this important enzyme.
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PMID:Arginyl groups involved in the binding of Anabaena ferredoxin--NADP+ reductase to NADP+ and to ferredoxin. 210 14

A NADPH cytochrome c oxidoreductase purified from membranes of rabbit peritoneal neutrophil was shown to behave as the NADPH dehydrogenase component of the O2- generating oxidase complex. A photoactivable derivative of NADP+, azido nitrophenyl-gamma-aminobutyryl NADP+ (NAP4-NADP+), was synthesized in its labeled [3H] form and used to photolabel the NADPH cytochrome c reductase at different stages of the purification procedure. Control assays performed in dim light indicated that the reduced form of NADP4-NADP+ generated by reduction with glucose-6-phosphate and glucose-6-phosphate dehydrogenase was oxidized at virtually the same rate as NADPH. Upon photoirradiation of the purified reductase in the presence of [3H]NAP4-NADP+ and subsequent separation of the photolabeled species by sodium dodecyl sulfate polyacrylamide gel electrophoresis, radioactivity was found to be present predominantly in a protein band with a molecular mass of 77-kDa and accessorily in bands of 67-kDa and 57-kDa. Evidence is provided that the 67-kDa and 57-kDa proteins arose from the 77-kDa protein by proteolysis. Despite removal of part of the sequence, the proteolyzed proteins were still active in catalyzing electron transport from NADPH to cytochrome c and in binding the photoactivable derivative of NADP+.
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PMID:Characterization of multiple active forms of the NADPH dehydrogenase component of the oxidase complex from rabbit peritoneal neutrophils by photolabeling with an arylazido derivative of NADP+. 210 11

A cDNA clone for the preprotein of spinach ferredoxin:NADP+ reductase has been modified to allow the expression in Escherichia coli of the mature flavoprotein form the lacks the transit peptide. An expression vector, pFNR1, was constructed by subcloning the fragment into the plasmid pDS12/RBSII, SphI. In the crude extracts of transformed cells after induction, two active holoproteins of 35 kDa and 32 kDa, respectively, were found. The 32-kDa protein, purified by immunoaffinity chromatography, was found to lack the first 28 residues of the spinach protein sequence and to have a methionine as the N-terminal residue instead of Val29. A new expression plasmid, pFNR2, was obtained by in vitro mutagenesis of the codon GTG for Val29 to the synonymous GTT; in this case, only the 35-kDa protein was expressed by transformed cells. Both the 35-kDa and 32-kDa enzymes were purified and characterized. All the properties analyzed of the cloned 35-kDa enzyme were very similar to those of the spinach flavoprotein. The 32-kDa form showed the same catalytic efficiency of the spinach enzyme as a diaphorase but its interaction with oxidized ferredoxin was partially impaired.
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PMID:Expression in Escherichia coli of ferredoxin:NADP+ reductase from spinach. Bacterial synthesis of the holoflavoprotein and of an active enzyme form lacking the first 28 amino acid residues of the sequence. 220 97

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