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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Azotobacter vinelandii mutant strain UW45 contains a mutation in the nifB gene and produces an inactive dinitrogenase protein that can be activated by the addition of purified iron-molybdenum cofactor (FeMoco). This FeMoco-deficient dinitrogenase (Apo I) has now been purified 96-fold to greater than 95% purity and is FeMoco-activatable to 2200 nmol of C2H2 reduced/(min.mg of protein). The Apo I complex was found to contain two molecules of a 20-kDa protein, in addition to the alpha 2 beta 2 tetramer found for isolated holodinitrogenase (Holo I). The Apo I complex contained 15 +/- 2 mol of Fe per mole, but no Mo. While the presence of dinitrogenase reductase caused a 2-fold stimulation in the activation of the purified Apo I complex by FeMoco, this enhancement resulted from the stabilization of Apo I by dinitrogenase reductase to the denaturing effects of N-methylformamide. When the activation was performed in the absence of N-methylformamide, there was no enhancement by dinitrogenase reductase alone or by dinitrogenase reductase-Mg-ATP complex. The Apo I complex is more sensitive to O2 than Holo I, with a half-life in air of 6 min; however, the addition of dithiothreitol to Apo I during the exposure to air (or after exposure) resulted in a half-life very similar to that seen for Holo I. This suggests that sulfhydryl(s) is (are) important for the FeMoco-activation reaction.
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PMID:Apodinitrogenase: purification, association with a 20-kilodalton protein, and activation by the iron-molybdenum cofactor in the absence of dinitrogenase reductase. 216 95

A brown carbon monoxide dehydrogenase from CO-autotrophically grown cells of Acinetobacter sp. strain JC1, which is unstable outside the cells, was purified 80-fold in seven steps to better than 95% homogeneity, with a yield of 44% in the presence of the stabilizing agents iodoacetamide (1 mM) and ammonium sulfate (100 mM). The final specific activity was 474 mumol of acceptor reduced per min per mg of protein as determined by an assay based on the CO-dependent reduction of thionin. Methyl viologen, NAD(P), flavin mononucleotide, flavin adenine dinucleotide, and ferricyanide were not reduced by the enzyme, but methylene blue, thionin, and dichlorophenolindophenol were reduced. The molecular weight of the native enzyme was determined to be 380,000. Sodium dodecyl sulfate-gel electrophoresis revealed at least three nonidentical subunits of molecular weights 16,000 (alpha), 34,000 (beta), and 85,000 (gamma). The purified enzyme contained particulate hydrogenase-like activity. Selenium did not stimulate carbon monoxide dehydrogenase activity. The isoelectic point of the native enzyme was found to be 5.8; the Km of CO was 150 microM. The enzyme was rapidly inactivated by methanol. One mole of native enzyme was found to contain 2 mol of each of flavin adenine dinucleotide and molybdenum and 8 mol each of nonheme iron and labile sulfide, which indicated that the enzyme was a molybdenum-containing iron-sulfur flavoprotein. The ratio of densities of each subunit after electrophoresis (alpha:beta:gamma = 1:2:6) and the number of each cofactor in the native enzyme suggest a alpha 2 beta 2 gamma 2 structure of the enzyme. The carbon monoxide dehydrogenase of Acinetobacter sp. strain JC1 was found to have no immunological relationship with enzymes of Pseudomonas carboxydohydrogena and Pseudomonas carboxydovorans.
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PMID:Purification and some properties of carbon monoxide dehydrogenase from Acinetobacter sp. strain JC1 DSM 3803. 253 87

The effect of in vivo administration of molybdenum (as sodium molybdate) and tungsten (as sodium tungstate) was investigated in the skin of laboratory rats. It was proved that the amount of both bound molybdenum and tungsten in collagen is relatively small being 0.05 and 0.06 moles per mole respectively. Besides the fraction of firmly bound molybdenum and tungsten a much higher extractable pool of both these metals was found. It was also demonstrated that in vivo shadowing of collagen is caused by the fraction of loosely bound metals. On the other hand pronounced changes were shown in the mechanical properties of connective tissue after molybdate and tungstate administration. Surprisingly, the change in mechanical properties indicated a lower level of cross-linking after the administration of the investigated metals. It is therefore concluded that bitopical binding of molybdenum and tungsten in the collagen structure is unlikely. It also appears that the biological effect of these metals is due to the competition with copper and the interference with the physiological cross-linking reactions based on the partial blockade of lysyloxidase.
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PMID:The mechanism of action of molybdenum and tungsten upon collagen structures in vivo. 296 7

The role of selenium and molybdenum in the metabolism of Escherichia coli was explored by growing cells in a simple salts medium and examining the metabolic consequences of altering the concentration of molybdenum and selenium compounds in the medium. The addition of tungstate increased the molybdate deficiency of this medium, as reflected by lowered levels of enzyme systems previously recognized to require compounds of molybdenum and selenium for their formation [formate-dependent oxygen reduction, formate dehydrogenase (FDH) (EC 1.2.2.1), and nitrate reductase (EC 1.9.6.1)]. The requirement for selenium and molybdenum appears to be unique to the enzymes of formate and nitrate metabolism since molybdate- and selenite-deficient medium had no effect on the level of several dehydrogenase and oxidase systems, for which the electron donors were reduced nicotinamide adenine dinucleotide, succinate, d- or l-lactate, and glycerol. In addition, no effect was observed on the growth rate or cell yield with any carbon source tested (glucose, glycerol, dl-lactate, acetate, succinate, and l-malate) when the medium was deficient in molybdenum and selenium. dl-Selenocystine was about as effective as selenite in stimulating the formation of formate dehydrogenase, whereas dl-selenomethionine was only 1% as effective. In aerobic cells, an amount of FDH was formed such that 3,200 or 3,800 moles of formate were oxidized per min per mole of added selenium (added as dl-selenocystine or selenite, respectively).
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PMID:Effects of molybdate, tungstate, and selenium compounds on formate dehydrogenase and other enzyme systems in Escherichia coli. 455 2

In addition to the phosphate residues contained in the acid-dissociable FAD and the molybdenum cofactor moieties, milk xanthine oxidase contains one mole of covalently bound phosphorus per active-center molybdenum. Acid hydrolysis of the apoprotein moiety and subsequent analysis by high-voltage thin-layer electrophoresis has identified the phosphorylated amino acid residue to be phosphoserine. 31P NMR data show the phosphopeptide to be monosubstituted, in agreement with the chemical analysis. A pH-dependent chemical shift of the phosphorus residue in the molybdenum cofactor moiety is also observed which provides unequivocal support for suggestions in the literature that this cofactor contains a monosubstituted phosphate. 31P NMR studies on the intact enzyme show phosphorus resonances at about -3 ppm, +1 ppm, +8.8 ppm and at +13.5 ppm. The resonances at +8.8 ppm and at +13.5 ppm are assigned to those of the pyrophosphate linkage of the FAD moiety by analogy with chemical shift data of the FAD on glucose oxidase [James, T.L., Edmondson, D.E., and Husain, M. (1981) Biochemistry 20, 617] and from the absence of any resonances in this region upon examination of preparations of deflavo xanthine oxidase. The intensity and resolution of the resonance at about -3 ppm is dependent on the degree of functionality of the enzyme. This resonance has a small amplitude relative to the FAD resonances in 50-60% functional enzyme, but increases dramatically in intensity in the desulpho enzyme. This resonance is the only one exposed to solvent as it is the only one susceptible to paramagnetic line-broadening on the addition of Mn(II) to the enzyme solution. Treatment of the enzyme with allopurinol leads to alteration of the approximately equal to -3-ppm resonance, but does not significantly affect the other resonances. Formation of the stable Mo(V) 'inhibited' form of the enzyme with ethylene glycol results in extensive line-broadening of the resonances at -3 ppm and +1 ppm, but has no observable affect on the FAD resonances. These data suggest that in addition to the phosphate on the molybdenum cofactor, the phosphoserine residue in xanthine oxidase is also in close proximity to the activesite molybdenum center of this enzyme. These results are discussed with respect to possible implications on the catalytic mechanism of the enzyme.
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PMID:31P nuclear magnetic resonance and chemical studies of the phosphorus residues in bovine milk xanthine oxidase. 654 6

Chemical analysis of dimethyl sulfoxide reductase from Rhodobacter sphaeroides f. sp. denitrificans has shown that its molybdenum center contains two molybdopterin guanine dinucleotide molecules and a single atom of molybdenum. The enzyme, which exists as a monomer of 86 kDa, was shown to contain 1 mol of molybdenum, 4 mol of organic phosphate, and 2 mol of guanine per mole of protein. In addition, the relative yield of Form A, a fluorescent derivative of molybdopterin, was twice that obtained from sulfite oxidase, a protein which contains a single molybdopterin per molybdenum. These findings correlate with the recent report of the presence of two molybdopterin ligands in the tungsten cofactor of aldehyde ferredoxin oxidoreductase from Pyrococcus furiosus, providing the first example of a bis(pterin)molybdenum cofactor and extending this structural motif to the molybdopterin dinucleotide enzymes.
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PMID:Identification of the molybdenum cofactor of dimethyl sulfoxide reductase from Rhodobacter sphaeroides f. sp. denitrificans as bis(molybdopterin guanine dinucleotide)molybdenum. 855 38

Bradyrhizobium japonicum strain 110spc4 was capable of chemolithoautotrophic growth with carbon monoxide (CO) as a sole energy and carbon source under aerobic conditions. The enzyme carbon monoxide dehydrogenase (CODH; EC 1.2.99.2) has been purified 21-fold, with a yield of 16% and a specific activity of 58 nmol of CO oxidized/min/mg of protein, by a procedure that involved differential ultracentrifugation, anion-exchange chromatography, hydrophobic interaction chromatography, and gel filtration. The purified enzyme gave a single protein and activity band on nondenaturing polyacrylamide gel electrophoresis and had a molecular mass of 230,000 Da. The 230-kDa enzyme was composed of large (L; 75-kDa), medium (M; 28.4-kDa), and small (S; 17.2-kDa) subunits occurring in heterohexameric (LMS)(2) subunit composition. The 75-kDa polypeptide exhibited immunological cross-reactivity with the large subunit of the CODH of Oligotropha carboxidovorans. The B. japonicum enzyme contained, per mole, 2.29 atoms of Mo, 7.96 atoms of Fe, 7.60 atoms of labile S, and 1.99 mol of flavin. Treatment of the enzyme with iodoacetamide yielded di(carboxamidomethyl)molybdopterin cytosine dinucleotide, identifying molybdopterin cytosine dinucleotide as the organic portion of the B. japonicum CODH molybdenum cofactor. The absorption spectrum of the purified enzyme was characteristic of a molybdenum-containing iron-sulfur flavoprotein.
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PMID:Carbon monoxide dehydrogenase activity in Bradyrhizobium japonicum. 1078 53

Thermococcus celer cells contain a single hydrogenase located in the cytoplasm, which has been purified to apparent homogeneity using three chromatographic steps: Q-Sepharose, DEAE-Fast Flow, and Sephacryl S-200. In vitro assays demonstrated that this enzyme was able to catalyze the oxidation as well as the evolution of H2. T. celer hydrogenase had an apparent MW of 155,000+/-30,000 by gel filtration. When analyzed by SDS polyacrylamide gel electrophoresis a single band of 41,000+/-2,000 was detected. Hydrogenase activity was also detected in situ in a SDS polyacrylamide gel followed by an activity staining procedure revealing a single band corresponding to a protein of apparent Mr 84,000+/-3,000. Measurements of iron and acid-labile sulfide in different preparations of T. celer hydrogenase gave values ranging from 24 to 30 g-atoms Fe/mole of protein and 24 to 36 g-atoms of acid-labile sulfide per mole of protein. Nickel is present in 1.9-2.3 atoms per mole of protein. Copper, tungsten, and molybdenum were detected in amounts lower than 0.5 g-atoms per mole of protein. T. celer hydrogenase was inactive at ambient temperature, exhibited a dramatic increase in activity above 70 degrees C, and had an optimal activity above 90 degrees C. This enzyme showed no loss of activity after incubation at 80 degrees C for 28 h, but lost 50% of its initial activity after incubation at 96 degrees C for 20 h. Hydrogenase exhibited a half-life of approximately 25 min in air. However, after treating the air-exposed sample with sodium dithionite, more than 95% of the original activity was recovered. Copper sulfate, magnesium chloride and nitrite were also inactivators of this enzyme.
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PMID:Purification and characterization of an iron-nickel hydrogenase from Thermococcus celer. 1147 15

Molybdenum profiles in dated sediment cores provide useful historical information about anoxia in anthropogenically impacted natural waters but would be of greater service if Mo fixation mechanisms were better understood. Here, we explore Mo scavenging by precipitated FeS in a model system consisting of an FeIII-bearing kaolinite (KGa-1B) dispersed in NaHS solutions. Test solutions contain 18 microM thiomolybdates (mainly MoOS3(2-)). Optically measuring dissolved polysulfides monitors the rate of FeS production from FeIII minerals. Even though the exposed clay surface area is large (450 m2/L), the clay itself sorbs little Mo at pH 8.6. As FeS forms, Mo is taken up in initial Mo/Fe mole ratios of 0.04-0.06, irrespective of HS- concentration (4-40 mM range). After about a day, Mo expulsion from the solids begins, accompanied by net polysulfide consumption. These changes reflect recrystallization of amorphous FeS to more ordered products such as greigite. FeS captures some MoO4(2-) but captures thiomolybdates more effectively. Kaolinite accelerates conversion of MoOS3(2-) to MoS4(2-), as predicted previously, and thiomolybdates facilitate reduction of FeIII minerals in the clay compared to Mo-free solutions. FeS is a potentially effective, transient scavenging agent for Mo in sulfidic environments, although FeS2 and organic matter appear to be the ultimate sedimentary hosts.
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PMID:Molybdenum scavenging by iron monosulfide. 1538 51

A method for determining up to 0.15% of vanadium in high-purity niobium and tantalum metals, cast iron, steel, non-ferrous alloys and silicates is described. The proposed method is based on the extraction of a red vanadium(V)-N-benzoyl-N-phenylhydroxylamine complex into chloroform from a sulphuric-hydrofluoric acid medium containing excess of ammonium persulphate as oxidant. The molar absorptivity of the complex is 428 l.mole(-1).mm(-5) at 475 nm, the wavelength of maximum absorption. Interference from chromium(VI) and cerium(IV) is eliminated by reduction with iron(II). Common ions, including large amounts of titanium, zirconium, molybdenum and tungsten, do not interfere.
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PMID:Determination of vanadium in refractory metals, steel, cast iron, alloys and silicates by extraction of an NBPHA complex from a sulphuric-hydrofluoric acid medium. 1896 Jul 75

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