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)

Previous studies have shown that a group of nitrogen catabolic enzymes including xanthine dehydrogenase, purine nucleoside phosphorylase, and tyrosine aminotransferase are all increased in chick liver by dietary protein as well as single amino acids (e.g. methionine) and certain antimetabolites (e.g. hydrazine). A similar enzyme response pattern can be obtained with insulin. This hormone causes an enhanced rate of XDH synthesis and gives nonadditive results with protein, hydrazine and methionine. Furthermore, a vitamin B6 dependency was observed in responses to both high protein diets and insulin, all suggesting a common regulatory mechanism. In this system dietary protein and insulin may act similarly by increasing the availability of amino acids to the liver -- in one case by supplying amino acids through the diet and in the other by increasing amino acid uptake.
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PMID:Regulation of nitrogen catabolic enzymes in chick liver: effects of insulin. 1 91

Neurospora crassa can utilize various purine bases such as xanthine or uric acid and their catabolic products as a nitrogen source. Four classes of mutants which affect the purine degradative pathway were isolated and studied. Mutants of the aln-1 class specifically lack allantoinase, while alc-1 mutants lack allantoicase. Mutants designated as xdh-1 cannot utilize hypoxanthine as a nitrogen source and are presumed to be deficient in xanthine dehydrogenase activity. A regulatory mutant, amr, was found to have only very low, uninduced levels of uricase, allantoinase, and allantoicase. None of these genes are closely linked to each other. The three initial enzymes involved in the catabolism of uric acid are controlled in a complex manner by both induction and repression. Several lines of evidence indicate that the true inducer of uricase and allantoicase is uric acid. The use of the newly isolated mutant strains made it possible to demonstrate that neither allantoin nor allantoic acid could act as inducers. Furthermore, hypoxanthine itself was shown to be ineffective as an inducer although it can be metabolized to form an inducer. A non-metabolizable analogue of uric acid, 8-azaxanthine, is a gratuitous inducer of these enzymes. Uricase and allantoicase were found to be synthesized coordinately, but they were not coordinately regulated with allantoinase. Both uricase and allantoicase are stable enzymes and do not undergo turnover; nor are they subject to feedback inhibition by ammonia. Allantoinase, however, is quite labile both in vivo and in vitro. This enzyme was found to turnover in vivo in the presence of cycloheximide with a half-life of approximately 20 minutes. The amr (for ammonia regulation) mutant cannot utilize a wide range of compounds, including purines, nitrate, and many amino acids as a nitrogen source and also displays a multiple enzyme loss. The amr gene appears to play a major role in the control of nitrogen metabolism. It is postulated that the amr locus encodes a regulatory protein which is required to activate transcription of the structural genes for a group of related enzymes involved in nitrogen metabolism.
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PMID:Genetic and metabolic control of the purine catabolic enzymes of Neurospora crasse. 12 63

A new non-functional modified form of milk xanthine oxidase is described. This contains molybdenum in a quinquivalent state, which is resistant to both oxidation and reduction. The new species is derived from the native enzyme in a two-step process. The first step is the conversion into the desulpho form, via loss of the 'persulphide' sulphur, and the second involves reaction with ethylene glycol or other reagents. The species gives a characteristic Mo(V) electron-paramagnetic-resonance signal, without proton splittings, designated Resting II. This is virtually identical with signals reported previously from resting turkey liver xanthine dehydrogenase and rabbit liver aldehyde oxidase. The possibility is discussed that species Resting II, prepared with ethylene glycol, contains a -COCH2OH residue bound to a nitrogen ligand of molybdenum.
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PMID:A new non-functional form of milk xanthine oxidase containing stable quinquivalent molybdenum. 18 Sep 83

It is well-known that in the chick, dietary protein increases the levels of several hepatic enzymes that are involved in nitrogen metabolism and excretion. However, the biochemical mechanism of this response is essentially unknown. The experiments presented in this paper show that the chick is responding to alpha-amino nitrogen and not to any specific amino acid. Furthermore, it is shown that this system responds to endogenous sources of nitrogen as well as dietary protein and that the xanthine dehydrogenase response involves regulation of enzyme synthesis without changing the rate of degradation.
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PMID:Regulation of nitrogen catabolic enzymes in chick liver -- effects of amino acids. 95 12

Pseudomonas putida, strain 40, originally isolated by enrichment on caffeine as the sole source of carbon and nitrogen, has been developed to grow on 0.5% caffeine. The organism will grow on any N-methyl derivative of xanthine containing one or more methyl groups at the 1, 3, or 7 positions. An investigation of the activities of resting cell suspensions and cell-free preparations together with the detection of metabolic intermediates suggest that caffeine is first metabolized by the action of an enzyme which is capable of hydrolytically removing all three methyl groups with the production of methanol and free xanthine. The methanol presumably is oxidized to the final product, CO2, through the sequential action of methanol, formaldehyde, and formate dehydrogenases, which are induced by growth on caffeine. Furthermore, the xanthine would seem to be channeled through conventional pathways of purine degradation through the action of xanthine dehydrogenase and uricase, both induced by growth on caffeine. However, a variety of data suggests that the metabolism of caffeine may be compartmentalized in the cell and metabolized separately from externally added xanthine. Additional studies indicated that the cell is permeable to the methylxanthines. The significance of these findings is discussed.
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PMID:Metabolism of N-methylpurines by a Pseudomonas putida strain isolated by enrichment on caffeine as the sole source of carbon and nitrogen. 115 47

The effect of vitamin A deprivation at different stages, and of dosing with different levels of the vitamin of some parameters of protein catabolism was examined in chicks. Plasma uric acid and plasma urea were increased in vitamin A deficiency. Dosing with vitamin A caused a decrease in the plasma uric acid concentration only in deficient chicks which received the higher dosing level (3000 mug retinol equivalent), whereas plasma urea concentration increased in all cases after dosing. Nitrogen retention and uric acid excretion were not changed in chicks in the first stages of vitamin A deficiency, but excretion of urea was increased in comparison to pair fed chicks. Liver xanthine dehydrogenase (XDH) and kidney arginase were both increased even in the first stages of vitamin A deficiency. The increase in XDH activity was shown to be partially due to the stress of overnight fat caused by pair feeding, whereas this factor had no part in the increase of the kidney orginase. Dosing with vitamin A had almost no effect on the plasma vitamin A of chicks fed a high dietary level of the vitamin (9000 mug/kg) while there was a clear response in control chicks (fed 900 mug/kg) or deficient ones.
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PMID:Influence of vitamin A on formation and excretion of end products of nitrogen catabolism in chicks. 121 64

Selection for chlorate resistance yields mol (formerly chl) mutants with defects in molybdenum cofactor synthesis. Complementation and genetic mapping analyses indicated that the Klebsiella pneumoniae mol genes are functionally homologous to those of Escherichia coli and occupy analogous genetic map positions. Hypoxanthine utilization in other organisms requires molybdenum cofactor as a component of xanthine dehydrogenase, and thus most chlorate-resistant mutants cannot use hypoxanthine as a sole source of nitrogen. Surprisingly, the K. pneumoniae mol mutants and the mol+ parent grew equally well with hypoxanthine as the sole nitrogen source, suggesting that K. pneumoniae has a molybdenum cofactor-independent pathway for hypoxanthine utilization.
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PMID:Molybdenum cofactor (chlorate-resistant) mutants of Klebsiella pneumoniae M5al can use hypoxanthine as the sole nitrogen source. 140 Jan 80

Selection pressure for increasing metabolic flux through a define metabolic pathway affects the enzyme levels, enzyme structure and their kinetic properties. These aspects exemplified by xanthine oxidoreductase from vertebrates of various type of nitrogen excretion are discussed. Two trends in evolutionary kinetic changes of oxypurine hydroxylating activity could be distinguished. Changes in the subunit structure and kinetic properties suggest that the domain catalysing oxypurine hydroxylation and the one cooperating with NAD+ evolved through separate pathways.
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PMID:Divergency of structure and function of vertebrate xanthine:NAD+ oxidoreductase. 208 24

Xanthine oxidase (XO) has been implicated as a source of free radicals mediating ischemia-reperfusion injury. Conversion of the non-free radical generating xanthine dehydrogenase (XD) to the free radical producing XO during ischemia has been demonstrated in several tissues. We examined the irreversible conversion of XD to XO in the dog brain after ischemia and after ischemia and reperfusion. Under pentobarbital sodium anesthesia and by use of a cerebrospinal fluid compression model of global cerebral ischemia, dogs were subjected to 30 min of ischemia (n = 8) or 30 min of ischemia and 60 min of reperfusion (n = 8). A cerebral perfusion pressure of 60 mmHg was maintained during reperfusion. Eight control dogs were not subjected to ischemia. After the dogs were killed their brains were rapidly removed and frozen in liquid nitrogen. XO and XD + XO activities were measured with a radioassay utilizing 8-[14C]hypoxanthine and separating substrate and products by thin-layer chromatography. Total XD + XO activity was significantly (P less than 0.05) decreased after ischemia and reperfusion (35.6 +/- 8.0 vs. 60.8 +/- 20.8 nmol.min-1.g protein-1 in controls, means +/- SD) but not after ischemia alone (48.2 +/- 20.4). XO/(XD + XO) was approximately 20% in all three groups. Irreversible XD to XO conversion is not an important mechanism leading to early tissue injury in global cerebral ischemia.
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PMID:No conversion of xanthine dehydrogenase to oxidase in canine cerebral ischemia. 226 Jun 92

To contribute to our understanding of nitrogen metabolism in the developing chick we have studied in liver, intestine and yolk sac membrane the ontogeny of both aspartate- and alanine transaminases, glutamate dehydrogenase, adenylate deaminase, glutamine synthetase and xanthine dehydrogenase activities. Liver enzyme activities were much higher than those of the same enzymes in intestine and yolk sac membrane, the latter having the lowest activities. In the liver, both alanine transaminase and glutamate dehydrogenase increased their activity just before hatching, xanthine dehydrogenase and glutamine synthetase develop their highest activity just after hatching, while aspartate transaminase and adenylate deaminase attained the highest levels just with adulthood. From the pattern of enzyme activity in yolk sac membrane and intestine it can be inferred that after hatching, the amino-acid metabolism in these tissues is considerably enhanced, with higher production of ammonia from amino acids, as indicated by the rise in adenylate deaminase, as well as increased potentiality in production of both alanine and glutamine. It can be concluded that hatching coincides with a deep change of pace in amino-acid metabolism in the organs studied fully comparable with that observed in Mammals at the end of lactation, with the difference that the adaptation to the new diet in the case of the chick is much more sudden than weaning is for the rat.
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PMID:Amino-acid metabolism enzyme activities in the liver, intestine and yolk sac membrane of developing domestic fowl. 243 52

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