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: UNIPROT:O14944 (EPR)
13,097 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Electron paramagnetic resonance spectra obtained during turnover of the Mo center of NADH:nitrate reductase at pH 8 were comprised of two Mo(V) species, signal A (g1 = 1.996, g2 = 1.969, g3 = 1.967, A1H = 1.25 mT, A2H = 1.18 mT, and A3H = 1.63 mT) and signal B (g1 = 1.996, g2 = 1.969, and g3 = 1.967), the former exhibiting superhyperfine interaction due to strong coupling with a single, exchangeable proton. Binding of halides and nitrite to the Mo center increased the proportion of signal A whereas phosphate had no effect on the EPR line shape. Halides decreased and phosphate increased the rates of enzyme activities involving the Mo center (NADH:nitrate reductase and reduced methyl viologen:nitrate reductase), but neither had any effect on activities involving FAD (NADH:ferricyanide reductase) or heme (NADH:cytochrome c reductase), indicating specific binding of halides to the Mo center. Halides were found to be weak, mixed competitive-noncompetitive inhibitors (Cl- KI = 39 mM, mu = 0.2 M, pH 8) of nitrate reductase forming a catalytically inactive ternary halide-nitrate-enzyme complex. Inhibition patterns changed from nearly noncompetitive (F-) to nearly competitive (I-). The weakening of nitrate binding due to halide binding correlated with increased halide electronegativity rather than ionic radius. In contrast, phosphate (Kd = 7.4 mM, mu = 0.2 M, pH 8) and arsenate were determined to be nonessential activators, characterized by a constant value of (Vmax/Km)app, increasing nitrate reductase activity by weakening nitrate binding without affecting the stability of the transition state. Phosphate had no effect on product inhibition by nitrite (KI = 0.33 mM) or the oxidation-reduction midpoint potentials of the Mo center.
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PMID:EPR and kinetic analysis of the interaction of halides and phosphate with nitrate reductase. 255 63

A method for the quantitation of the superoxide radical generation rate (V) in murine liver nuclei by the oxidation of 1-hydroxy-2,2,6,6-tetramethyl-4-oxo-piperidine O2-. radicals with the formation of a stable nitroxyl radical recorded by the EPR method, has been developed. It was shown that NADP- and NADPH-dependent superoxide radical generation is suppressed by superoxide dismutase (approximately by 90%). The Km values for NADH and NADPH are 1.5 x 10(-6) and 4.4 x 10(-7) M, respectively; the maximal rate (0.2 nmol.min-1.mg protein-1) is equal for both substrates. Cyanide (greater than 2 mM) causes a practically complete inhibition of the O2-. generation by both substrates. It is suggested that there exists a single readily autooxidized site of O2-. generation by both substrates for NADH- and NADPH-dependent site of the electron transport chain in nuclear membranes.
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PMID:[NADH- and NADPH-dependent formation of superoxide radicals in liver nuclei]. 255 93

A previously unidentified fraction lacking xanthine:O2 activity has been isolated during affinity chromatography of bovine milk xanthine oxidase preparations on Sepharose 4B/folate gel. Unlike active, desulfo, or demolybdo forms of xanthine oxidase, this form, which typically comprises about 5% of an unfractionated enzyme solution, passes through the affinity column without binding to it, and is thus easily separated from the other species. The absorption spectrum of this fraction is very similar to that of the active form, but has a 7% lower extinction at 450 nm. Analysis of the fraction has shown that it is a dimer of normal size, but that it does not contain molybdenum or molybdopterin (MPT). The "MPT-free" xanthine oxidase contains 90-96% of the Fe found in active xanthine oxidase, and 100% of the expected sulfide. EPR and absorption difference spectroscopy indicate that the MPT-free fraction is missing approximately half of its Fe/S I centers. The presence of a new EPR signal suggests that an altered Fe/S center may account for the nearly normal Fe and sulfide content. Microwave power saturation parameters for the Fe/S II and Fe/S I centers in the MPT-free fraction are normal, with P1/2 equal to 1000 and 60 mW, respectively. The new EPR signal shows intermediate saturation behavior with a P1/2 = 200 mW. The circular dichroism spectrum of the MPT-free fraction shows distinct differences from that of active enzyme. The NADH:methylene blue activity of the MPT-free fraction is the same as that of active xanthine oxidase which exhibits xanthine:O2 activity, but NADH:cytochrome c and NADH:DCIP activities are diminished by 54 and 37%, respectively.
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PMID:A molybdopterin-free form of xanthine oxidase. 282 75

We report the purification and characterization of a soluble cytochrome b5 from coelomic erythrocytes of the sipunculan worm, Phascolopsis gouldii. We also report the isolation and purification of a membrane-bound NADH-cytochrome-b5 reductase from these erythrocytes. The non-heme iron protein, hemerythrin (Hr), is known to be the oxygen carrier in these erythrocytes. The aforementioned purified cytochrome b5 and reductase together catalyze the reduction of P. gouldii [Fe(III),Fe(III)]metHr to [Fe(II),Fe(II)deoxyHr by NADH. EPR spectroscopy demonstrates that a redox process involving formation of the intermediate [Fe(II),Fe(III)]semi-metHr occurs within intact sipunculan erythrocytes as well as in the system of purified components. The rhombic g-tensor of the EPR signal in both cases resembles that of (semi-met)RHr, the form obtained by one-electron reduction of metHr. These observations suggest that cytochrome b5 and NADH-cytochrome-b5 reductase in sipunculan erythrocytes function to counteract autoxidation of oxyHr. The sequence of electron flow in the system of purified components is: NADH----NADH-cytochrome-b5 reductase----cytochrome b5----metHr. At pH 7.5, the reduction of metHr in this system occurs in two phases, only the first of which is dependent on concentration of cytochrome b5. From an analysis of the kinetics and the EPR time-course, we propose that the two phases represent sequential reduction of met- to semi-metHr and reduction of semi-metHr to deoxyHr. This report represents the first demonstration of a physiological system for reduction of metHr.
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PMID:Cytochrome b5 and NADH-cytochrome-b5 reductase from sipunculan erythrocytes; a methemerythrin reduction system from Phascolopsis gouldii. 283 90

Rieske-type iron/sulfur proteins and several NADH-dependent oxygenases contain Fe/S clusters with similar spectral and magnetic properties. Purified Rieske iron/sulfur protein from Thermus thermophilus contains two apparently identical [2Fe-2S] clusters in a polypeptide having only four cysteine residues, and it has been proposed that each Fe/S cluster is coordinated to two cysteine S-atoms and to an unknown number of other non-sulfur atoms (Fee, J. A., Findling, K. L., Yoshida, T., Hille, R., Tarr, G. E., Hearshen, D. O., Dunham, W. R., Day, E. P., Kent, T. A., and Munck, E. (1984) J. Biol. Chem. 259, 124-133). We have examined the Rieske protein from Thermus and the phthalate dioxygenase from Pseudomonas cepacia with electron nuclear double resonance (ENDOR) and pulsed EPR methods and report here evidence for the direct coordination of nitrogenous ligands to the Fe/S clusters in these proteins. The electron nuclear double resonance signals arising from 14N have been interpreted in terms of a strongly coupled ligand with AN = approximately 26-28 MHz and a weakly coupled ligand with AN = approximately 9 MHz. The pulsed EPR spectrum shows a rich pattern of lines in the Fourier transformed data having peaks in the range of 0.8 to 6.7 MHz. The lower frequency resonances are tentatively associated with coupling of the unpaired spin to the remote N-atoms of coordinated imidazole rings.
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PMID:Evidence for N coordination to Fe in the [2Fe-2S] clusters of Thermus Rieske protein and phthalate dioxygenase from Pseudomonas. 298 52

Bovine heart submitochondrial particles were incubated for 2-6 h at 37 degrees C with various concentrations of tetradecanoic acid, and the effects on the activities, the total acid-labile sulphide content and EPR spectra of the electron transfer system were studied. Two distinct time-dependent processes of the slow irreversible inactivation of the electron-transfer system were found. They differ in the concentration of tetradecanoic acid required. The more specific effect, induced by 100-400 nmol tetradecanoic acid per mg protein, consists of a selective blockage of electron transfer between the Fe-S clusters of the NADH dehydrogenase and ubiquinone, without damage to any of the Fe-S clusters. Higher concentrations of tetradecanoic acid caused gradual destruction of all Fe-S clusters of NADH dehydrogenase and of the 3-Fe cluster of succinate dehydrogenase, leading to complete inactivation of both NADH and succinate oxidation.
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PMID:Two modes of irreversible inactivation of the mitochondrial electron-transfer system by tetradecanoic acid. 298 61

A signal of Cu2+ (g = 2.03) was detected by electron paramagmetic resonance spectroscopy in oxidized membrane preparations of Synechococcus 6311. The membranes were prepared and washed in the presence of EDTA (10mM, pH 8.0) and, hence, were depleted of adventitious copper; the treatment also would remove any membrane-associated soluble redox proteins and other paramagnetic metal ions. 0.1% Triton X-100 facilitated detection of the Cu2+ signal which was fully reduced by dithionite or ascorbate plus N,N,N',N',-tetramethyl-p-phenylenediamine, and partially reduced NADPH and NADH, which are known to donate electrons to the terminal oxidase of cyanobacteria via the respiratory chain. Using temperature dependence and power saturation of the EPR copper signal, we conclude that copper is a firmly bound constituent of the terminal oxidase in an environment which is very similar if not identical to other cytochrome c oxidase preparations.
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PMID:EPR signals of redox active copper in EDTA washed membranes of the cyanobacterium Synechococcus 6311. 298 42

Incubation of the complex metalloflavoprotein, assimilatory nitrate reductase with N-ethylmaleimide, or a spin-labeled analog, 4-maleimido-2,2,6,6-tetramethylpiperidinooxyl, resulted in a time-dependent inactivation of NADH:nitrate reductase and NADH: cytochrome-c reductase activity with no effect on reduced methyl viologen:nitrate reductase activity. Inactivation of the enzyme, which could be prevented by incubation in the presence of NADH, was achieved following modification of a single sulfhydryl group determined from [3H]N-ethylmaleimide incorporation and quantitation of the EPR spectrum of the spin-labeled enzyme. Sulfhydryl group modification precluded reduction of the enzyme by NADH and NAD+ binding. The EPR spectrum of the spin-labeled enzyme revealed the presence of a single species with the nitroxide retaining substantial motional freedom. Cleavage of the spin-labeled enzyme using corn-inactivating protease and separation into its flavin and molybdenum/heme domains followed by EPR spectroscopy revealed the modified sulfhydryl group to be associated with the latter fragment suggesting a close interaction of these domains in the region of the nucleotide-binding site.
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PMID:The role of the essential sulfhydryl group in assimilatory NADH: nitrate reductase of Chlorella. 300 65

Reduced pyridine nucleotide dependent glutamate synthase [L-glutamate: NADP+ oxidoreductase (transaminating); EC 1.4.1.13] was purified to homogeneity from Bacillus subtilis PCI 219. The molecular weight of the enzyme was 210,000, and the enzyme was composed of two nonidentical subunits with molecular weights of 160,000 and 56,000. The absorption and CD spectra of the enzyme indicated that the enzyme is an iron-sulfur flavoprotein. The enzyme was found to contain 1:1:7.4:8.7 mol of FMN, FAD, iron atoms, and acid-labile sulfur atoms per mol (MW 210,000). EPR measurements of the NADPH-reduced enzyme at 77K revealed the formation of a stable flavin semiquinone intermediate; however, none of the signals originating from the iron-sulfur cluster was observed. Still at 4.2K the EPR signals in the region of g = 2, which may originate from the paramagnetic iron-sulfur cluster, were clearly observed for both the isolated and dithionite-reduced states of the enzyme. The enzyme exhibited a wide coenzyme specificity, and either NADPH or NADH could be used as electron donor, although the latter was less effective. The enzyme activity was also expressed when ammonium chloride was substituted for L-glutamine. The optimum pHs for NADPH-Gln-, NADH-Gln-, and NADPH-NH3-dependent reactions were 7.8, 6.9, and 9.4, respectively. The apoenzyme exhibited substantial inactivation of the Gln-dependent activities but still retained the NH3-dependent activities. Enzyme reduction-oxidation experiments, initial velocity experiments, and product inhibition patterns revealed that both the NADPH-Gln- and NADH-Gln-dependent reactions coincided with the two-site ping-pong uni-uni bi-bi kinetic mechanism, while the NADPH-NH3-dependent reaction deviated from Michaelis-Menten kinetics. The Gln-dependent activities were inhibited by several TCA cycle members, especially L-malate and fumarate, as well as L-methionine-SR-sulfoximine, pyridoxal-5'-phosphate, and pCMB. The regulation of the glutamate synthase, glutamine synthetase [EC 6.3.1.2], and glutamate dehydrogenase [EC 1.4.1.3] activities was examined with cultures of cells grown with various nitrogen and carbon sources.
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PMID:Glutamate synthase from Bacillus subtilis PCI 219. 301 66

Two different fractions were present in crystalline bovine liver catalase, and could be resolved using dye-ligand affinity chromatography with Red-A Matrex gel containing Procion HE 3B. The major part (alpha) was not adsorbed on this gel. The second fraction (beta) was firmly adsorbed to the gel, and could be eluted either by high salt or by NADPH in the micromolar range. Elution of catalase beta was also obtained with NADH, NADP+, and ADP at higher concentration. Fractions alpha and beta displayed no detectable difference in specific activity, stability to heat, and light absorption data. It is suggested that the difference in behavior between alpha and beta is related to the binding of NADPH to the mammalian catalase [H. N. Kirkman and G. F. Gaetani (1984) Proc. Natl. Acad. Sci. USA 81, 4343-4347], and that the beta fraction corresponds to the enzyme molecules that have at least one free site for NADPH binding. Modifications of catalase molecules in the presence of dithioerythritol (DTE) were examined using light absorption and EPR data. Thiol induced changes that corresponded to the formation of catalase complex II. They were partially reversed by NADPH at very low level, and the dinucleotide appeared to be oxidized in this process. DTE-treated bovine catalase was totally adsorbed on the Red-A Matrex columns, and could be eluted as fraction beta. Similar spectral changes in the presence of DTE and NADPH were displayed by a bacterial catalase from Proteus mirabilis. This enzyme was also able to oxidize NADPH, but was not adsorbed by Red-A Matrex. This work suggests that dye-affinity chromatography provides a very convenient tool for isolating dinucleotide-depleted catalase from bovine liver, facilitating further study of the physiological function of this cofactor within the enzyme.
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PMID:Interaction between pyridine adenine dinucleotides and bovine liver catalase: a chromatographic and spectral study. 301 30


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