EC:1.17.1.4 - FACTA Search

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Query: EC:1.17.1.4 (xanthine dehydrogenase)
1,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activities of alanine and aspartate transaminases, glutamine synthetase, adenylate deaminase, glutamate and xanthine dehydrogenases and lactate dehydrogenase were measured in leg and breast muscles of developing chicks from day 10 in ovo to day 5 of free life, and compared with measurements for adult hens. Xanthine dehydrogenase activity was low in both muscles with adult levels attained on day 15 in ovo. Glutamine synthetase for chicks was maintained higher during development than for adults in both muscles. Minor differences were observed between both muscles in all enzymes tested up to day 18. With low embryonic values and important rises before hatching, the differences were initiated in the posthatching period. Important differences were observed between adult levels of activity. Leg muscle revealed higher enzyme values except for lactate dehydrogenase and indistinguishable levels for adenylate deaminase and xanthine dehydrogenase in both muscles. Alanine, instead of glutamine, is postulated as the main nitrogen transport between muscle and liver in the domestic fowl.
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PMID:Patterns of amino acid enzyme in domestic fowl breast and leg muscle during development. 286 43

5'-Nucleotidase which was found first in chicken liver and found to be located in cytosol was purified and characterized. This enzyme is termed cytosol 5'-nucleotidase for convenience. Some properties of this enzyme are summarized in Table 7. (Table: see text) The specific activity of cytosol 5'-nucleotidase in chicken liver cytosol is higher than that in rat liver cytosol. In response to a high protein diet the activity of cytosol 5'-nucleotidase in chicken liver increased, concurrently with those of purine nucleoside phosphorylase and xanthine dehydrogenase. Of the three enzymes, the activity of cytosol 5'-nucleotidase reached a maximum most rapidly. In rat liver, the activities of these three enzymes did not increase on administration of a high protein diet. From these results the principal physiological function of the cytosol 5'-nucleotidase is assumed to be dephosphorylation of IMP as the first step in the pathway of uric acid formation from IMP, which is important in the elimination of nitrogen of amino acids and proteins in a uricotelic animal. An allosteric property of this enzyme is considered to be important for control of adenine and guanine nucleotide pools, especially in connection with the biosynthetic activity of the purine nucleotides in uricotelic animals.
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PMID:Properties of cytosol 5'-nucleotidase and its role in purine nucleotide metabolism. 302 48

We conducted three experiments with Japanese quail to study the influence of deficient and excessive contents of lysine in the feed in relation to certain zootechnical parameters, protein value, to the active of liver xanthine dehydrogenase, content of free plasma lysine under the conditions of the maximum saturation of blood pool, and to the changes in 14C-labelled lysine degradation. The zootechnical parameters and protein value were optimum at the content of 5.22 g Lys per 16 g nitrogen in the feed, the activity of liver xanthine dehydrogenase was maximum. In a separate experiment the maximum saturation of blood pool determined with respect to a lysine supply in the feed reached the highest value at 6.88 g Lys per 16 g nitrogen and it decreased later on although the lysine supply increased. We assume the existence of a regulating mechanism that does not allow exceeding certain lysine concentrations in the blood plasma. Lysine degradation measured by the value of 14CO2 expired from 14C-labelled lysine was higher both with lysine deficient and excessive content, than with the lysine content in the feed approaching the required value.
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PMID:[The effect of dietary lysine excess and deficiency on metabolism in Japanese quail]. 310 5

Oxygen radicals derived from xanthine oxidase (XO) are important mediators of the cellular injury associated with reperfusion of ischemic intestine, stomach, liver, kidney, and pancreas. XO exists in nonischemic tissue predominantly as xanthine dehydrogenase (XDH) and converts to oxygen radical-producing XO with ischemia. Grinding intestine under liquid nitrogen and placing the powder in phosphate buffer (pH 7.0) containing thiol reductants and protease inhibitors adequately preserved total XDH + XO activity and the percentage in the oxidase form (%XO) for 24 h. Total activity in nonischemic intestine ranged from 374 nmol.min-1.g-1 in duodenum to 138 nmol.min-1.g-1 in ileum, while XO activity was approximately 19% of total activity throughout the entire small intestine. The rate of XDH conversion to XO during normothermic ischemia varied only slightly throughout the intestine, increasing 13% per hour to 34, 46, and 61% XO after 1, 2, and 3 h of ischemia, respectively. Our results contrast with previous reports where XDH conversion to XO occurred within 60 s ischemia but are consistent with physiological and morphological evidence of ischemic injury and provide further support for involvement of XO in intestinal injury associated with ischemia.
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PMID:Conversion of xanthine dehydrogenase to oxidase in ischemic rat intestine: a reevaluation. 316 36

In vitro assembly or complementation of a hybrid assimilatory nitrate reductase was attained by mixing a preparation of nitrate-induced N. crassa mutant nit-1 specifically with acid-treated (pH 2.5) bovine milk or intestinal xanthine oxidase, rabbit liver aldehyde oxidase, or chicken liver xanthine dehydrogenase. The complementation reaction specifically required induced nit-1, the only nitrate reductase mutant of Neurospora that lacked xanthine dehydrogenase and was unable to use hypoxathine or nitrate as a sole nitrogen source. The complementing activities of the above acid-treated enzymes correspond to their xanthine or aldehyde oxidizing activity profiles on sucrose density gradients. The resulting soluble, reduced nicotinamide adenine dinucleotide phosphate (NADPH)-nitrate reductases are the same as the Neurospora wild type enzyme in sucrose density gradient profile, molecular weight, substrate affinities, and sensitivity to inhibitors and temperature. By analogy to a similar in vitro complementation of nitrate reductase in mixtures of induced nit-1 and individual nonalleic Neurospora mutants, or uninduced wild type, the complemented nitrate apparently consists of an inducible protein subunit (possessing inducible NADPH-cytochrome c reductase) furnished by nit-1 and a subunit from the acid-treated xanthine or aldehyde oxidizing system which can substitute for the constitutive component furnished by the other mutants or uninduced wild type. The data suggest that Neurospora nitrate reductase and the xanthine oxidizing system and aldehyde oxidase of animals, all of which are molybdenum-containing enzymes catalyzing the reduction of nitrate to nitrite, share a highly similar protein subunit.
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PMID:In vitro assembly of Neurospora assimilatory nitrate reductase from protein subunits of a Neurospora mutant and the xanthine oxidizing or aldehyde oxidase systems of higher animals. 439 66

Mutants of Aspergillus nidulans resistant to methylammonium toxicity are simultaneously derepressed in the presence of ammonium for apparently all ammonium-repressible activities. Enzyme assays directly demonstrate derepression of nitrate, nitrite, and hydroxylamine reductases, xanthine dehydrogenase, urate oxidase, and allantoinase, whereas in vivo tests show that ammonium and methylammonium repression or inhibition (or both) is relieved in these mutants in pathways of nitrate assimilation, purine transport and degradation, and amino acid, amine, and amide catabolism. Ammonium and methylammonium uptake is apparently not defective in these mutants, for they grow normally on limiting levels of these ions as sole nitrogen source. There is no evidence that more than one gene can mutate to produce the methylammonium resistance (mea(R)) phenotype. Such mutations are semidominant in both heterocaryons and diploids. The ability of mea(R) mutations to effect derepression of activities specified by genes within another nucleus in a heterocaryon shows that the action of the mea product is not restricted to the nucleus. Three types of hypotheses might explain this generalized derepression. First, ammonium and methylammonium might not themselves be co-repressors but might require a metabolic conversion, blocked in these mutants, to become co-repressors. Secondly, the mea locus might specify an activity expressed in mea(R) but not wild-type (mea(S)) strains, which diminishes the concentration of ammonium and methylammonium participating in co-repression. Finally, ammonium repression might involve a macromolecular control element specified by the mea(R) locus and common to many or all ammonium-repressible systems. The existence of "regulation reversal mutations" at the mea(R) locus and the lack of uniformity and coordination with which different enzymatic activities respond to mutational derepression is most compatible with the last type of hypothesis.
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PMID:Methylammonium resistance in Aspergillus nidulans. 578 5

Reserpine, a Rauwolfia alkaloid, was shown to increase activity of the hepatic nitrogen metabolizing enzymes xanthine dehydrogenase, purine nucleoside phosphorylase, and tyrosine aminotransferase, when administered orally to young chicks. Using immunochemical techniques, this increase in xanthine dehydrogenase was shown to result from an enhanced de novo enzyme synthesis. The response pattern of the three enzymes to reserpine follows the same pattern to induction by high dietary protein suggesting that a common mode of action may be involved in the regulation of these enzymes. Alpha-Adrenergic blockers, phentolamine and phenoxybenzamine, effectively prevented the increased enzyme activities caused by administration of reserpine.
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PMID:The influence of reserpine on nitrogen metabolizing enzymes in chick liver. 612 71

A new yeast species, Trichosporon adeninovorans, was isolated from soil by the enrichment culture method. Apart from adenine, the strain utilized uric acid, guanine, xanthine, hypoxanthine, 6,8-dihydroxypurine, putrescine, propylamine, butylamine, pentylamine, hexylamine and octylamine as sole source of carbon, nitrogen and energy. The structure of the cell wall of Tr. adeninovorans was ascomycetous. On the subcellular level growth on adenine or uric acid was accompanied with the development of microbodies in the cell. These cell organelles probably were the site of urate oxidase, an enzyme that, after growth on purine substrates, together with allantoinase was present at high activities. Low activities of adenine amidohydrolase and xanthine dehydrogenase were also demonstrated.
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PMID:Trichosporon adeninovorans sp. nov., a yeast species utilizing adenine, xanthine, uric acid, putrescine and primary n-alkylamines as the sole source of carbon, nitrogen and energy. 654 10

The enzyme hydroxylating oxypurines in the liver of grass snake (Natrix natrix, Colubridae) was found to be a stable xanthine:NAD+ oxidoreductase (EC 1.2.1.37). The Michaelis constants for NAD+ and xanthine amounted to 14.4 and 12.3 microM, respectively. The enzyme affinity to hypoxanthine is lower than that to xanthine, but the former substrate is hydroxylated faster than the latter. The enzyme is only slowly and slightly (up to 22%) inhibited by NADH accumulating during xanthine hydroxylation. The above data and the time-course of hypoxanthine----xanthine----uric acid hydroxylation indicated that the kinetic properties of the snake liver enzyme provide in this uricotelic animal fast elimination of superfluous nitrogen derived from protein catabolism.
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PMID:Xanthine:NAD+ oxidoreductase in the liver of grass snake Natrix natrix. 654 89

Fractionation of cell organelles of nitrogen-fixing nodules of cowpea (Vigna unguiculata L. Walp) by discontinuous and continuous sucrose density centrifugation indicated that starch-containing plastids possessed the complete pathway for purine nucleotide synthesis together with significant activities of some other enzymes associated with the provision of substrates in purine synthesis; triosephosphate isomerase (EC 5.3.1.1), NADH-glutamate synthase (EC 2.6.1.53), aspartate aminotransferase (EC 2.6.1.1), phosphoglycerate oxidoreductase (EC 1.1.1.95), and methylene tetrahydrofolate oxidoreductase (EC 1.5.1.5). Enzymes of purine oxidation, xanthine oxidoreductase (EC 1.2.3.2), and urate oxidase (EC 1.7.3.3) were recovered in the soluble fraction; glutamine synthetase (EC 6.3.1.2) occurred in bacteroids and in the cytosol. Intact, infected (bacteroid-containing) and uninfected cells were prepared by enzymatic maceration of the central zone of the nodule and partially separated by centrifugation on discontinuous sucrose gradients. Glutamine synthetase was largely restricted to infected cells whereas plastid enzymes, de novo purine synthesis, and urate oxidase were present in both cell types. Although the levels of all enzymes assayed were higher in infected cells, both cell types possessed the necessary enzyme complement for ureide formation. A model for the cellular and subcellular organization of nitrogen metabolism and the transport of nitrogenous solutes in cowpea nodules is proposed.
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PMID:Cellular and subcellular organization of pathways of ammonia assimilation and ureide synthesis in nodules of cowpea (Vigna unguiculata L. Walp.). 687 Feb 68

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