EC:3.5.4.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rat brains homogenized with different media (sucrose, ethylene glycol, dimethyl sulfoxide and urea) yielded different amounts of microsomal fractions. The dielectric constant, density and viscosity of the homogenization media did not correlate with the amount of microsomes separated by differential centrifugation. The homogenization media containing dimethyl sulfoxide were the most efficient for the isolation of rat brain microsomes. The increase in the yield was up to 4-fold when 50% (v/v) dimethyl sulfoxide was employed. Microsomes isolated in this manner were analogous to those obtained from isotonic sucrose solution, as was demonstrated by their chemical and enzymatic (5'-nucleotidase, adenosine deaminase, guanine deaminase, purine-nucleoside phosphorylase, lactate, malate and glutamate dehydrogenases, amine oxidase fumarate hydratase, acid and alkaline phosphatase, acetylcholinesterase, NADPH-cytochrome c reductase, catalase and thiamine-diphosphatase) characterization.
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PMID:An improved method for the preparation of rat brain microsomes. 371 74

In soluble rat brain fraction, the specific activities of purine nucleoside phosphorylase, guanine deaminase, 5'Nucleotidase and adenosine deaminase, decrease in their mentioned order. A kinetic parameter comparison between these enzymes shows that 5'Nucleotidase with AMP has the lowest KM and the greatest Vmax values, while purine nucleoside phosphorylase has its lowest KM and its greatest Vmax values with guanosine and with inosine, respectively. The enzymes activity is not modified by the metabolic intermediates differently from their own reaction products which behave as competitive inhibitors.
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PMID:[Purine catabolism in rat brain (author's transl)]. 627 65

Since inosine is an inhibitory ligand for benzodiazepine binding, and since several of the purine enzymes have a specific localization, it was hypothesized that the unique distribution of benzodiazepine receptors may be dependent on the regional concentrations and specific actions of these enzymes in increasing or decreasing the amount of inosine. To test the above theory, the binding of 3H-flunitrazepam to receptors was studied on homogenates of various regions of autopsied human brain before and after treatment with irreversible potent inhibitors of the purine enzymes guanine deaminase and adenosine deaminase. As predicted, inhibition of guanase, which metabolizes guanine and hypoxanthine to xanthine, caused a marked inhibition of binding in the cerebral cortex and midbrain, where there is an abundance of enzyme, and only slight change in binding in the medulla, cerebellum or pons, where there is little enzyme. When adenosine deaminase, which converts adenosine to inosine, was inhibited, there was increased binding, with as much as a 4-fold increase in the frontal lobe, and very little effect in the cerebellum, medulla or temporal lobe.
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PMID:Effect of inhibition of purine enzymes on benzodiazepine binding in the human brain. 630 8

Opposing changes were discovered in the liver and blood of rats aged 1-1 1/2 months with alloxan diabetes as regards the content of adenine, xanthine plus guanine, uric acid and the activity of adenine-, adenosine-, guanine deaminase and 5'-nucleotidase. The ratio of the activity of adenosine deaminase to that of 5'-nucleotidase correlating with the level of glycemia might be the most informative test in the diagnosis of the depth of the discovered metabolic disorders in alloxan diabetes.
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PMID:[Characteristics of purine and nucleotide metabolism in juvenile rats with alloxan diabetes]. 664 35

Erythrocytes of five strains of mice had ATP concentrations of ca 2.7 mumol/ml packed cells, while those of CBA mice were 23% lower, and those of BALB/C mice were 40% lower. The ratio of the concentrations of ATP and GTP were ca 3.3 in four strains but greater than 27 in three other strains. When erythrocytes from different mouse strains were incubated with radioactive precursors, appreciable strain differences were found in the apparent activities of adenine and hypoxanthine-guanine phosphoribosyltransferase, adenosine kinase, adenosine deaminase, guanine deaminase and xanthine oxidase. The activities of adenosine deaminase and guanine deaminase in sera of mice of different strains also varied.
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PMID:Variation in erythrocyte purine metabolism among mouse strains. 668 81

N6-methyladenine (6-methylaminopurine [6-MA]), a plant growth regulator and a normal constituent of nucleic acids, has been found to inhibit the growth of Trypanosoma cruzi, Leishmania braziliensis, L. donovani, L. tarentolae, L. mexicana, and Crithidia fasciculata. The extent of growth inhibition in these organisms is related to the sensitivity of guanine deaminase (guanine aminohydrolase, EC 3.5.4.3), adenine deaminase (adenine aminohydrolase, EC 3.5.4.2), and adenosine hydrolase and phosphorylase. 6-MA was not an inhibitor of the purine phosphoribosyltransferases. Of the trypanosomid flagellates tested. Trypanosoma cruzi was most susceptible to 6-MA. Neither adenine deaminase (as found in the leishmaniae and C. fasciculata) nor adenosine deaminase (as found in mammalian cells) could be demonstrated in T. cruzi. Guanine deaminase, which is strikingly inhibited by 6-MA in T. cruzi, appears to play a major role in the purine salvage pathway of this organism, as judged from growth experiments and enzyme inhibition studies. Enzyme sensitivities to 6-MA vary greatly depending upon the organism. Rabbit liver guanine deaminase was shown to be insensitive to 6-MA at the concentrations used in this study.
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PMID:Inhibition of growth and purine-metabolizing enzymes of trypanosomid flagellates by N6-methyladenine. 699 36

Polymer-bound xanthosine (4) has been prepared. Condensation of xanthosine with ethyl 4-oxovalerate and saponification of the product gave 2',3'-O-[1-(2-carboxyethyl)ethylidene] xanthosine. The latter was coupled to 6-aminohexylagarose through its carboxylic group, to yield the polymer 4. The content of bound ligand was 8 mumol/g of moist gel, a value that agrees with the number of free amino groups determined by the trinitrobenzenesulfonic acid assay before coupling. Immobilised xanthosine was used as a biospecific resin (inhibitor resin) for guanine aminohydrolase (EC 3.5.4.3), to separate the enzyme from a mixture containing adenosine deaminase (EC 3.5.4.4).
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PMID:Agarose-linked xanthosine: a biospecific resin for guanine aminohydrolase. 722 70

The mode of degradation of adenosine by extracts of Aspergillus terricola was suggested to be affected preliminary by adenosine deaminase to inosine and the resulting ribonucleoside was then degraded hydrolytically to give hypoxanthine and ribose. With regard to guanosine, the same extracts could initially catalyze the hydrolytic cleavage of guanosine to guanine and ribose. The resulting base was then deaminated to give xanthine by guanine deaminase. Addition of arsenate to the reaction mixture or dialyzing the extract did not affect the observed hydrolytic activity indicating the absence of phosphorylase activity or phosphorylase-phosphatase activities in the extracts.
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PMID:Mode and extent of degradation of adenosine and guanosine by extracts of Aspergillus terricola. 755 35

The activities of five enzymes involved in purine salvage and catabolism--hypoxanthine phosphoribosyl transferase (HPRT), adenine phosphoribosyl transferase (APRT), adenosine deaminase (ADA), purine nucleoside phosphorylase (PNP) and guanase--were measured in mouse embryo extracts, from the one-cell to the blastocyst stage. Xanthine oxidase activity was not detected. The analyses were performed using high performance liquid chromatography and the enzymes showed different patterns of activity during development. Activities of HPRT, APRT and PNP were low before morula formation, and then increased until the blastocyst stage. ADA and guanase showed high activities after fertilization; guanase activity decreased sharply after the two-cell stage and ADA activity decreased sharply after the morula stage. Blastocyst formation was accompanied by a further decline in activity of both enzymes. The methods used may be suitable for measuring these enzymes in single human embryos, or in biopsies derived from them.
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PMID:Enzymes of purine salvage and catabolism in the mouse preimplantation embryo measured by high performance liquid chromatography. 806 75

Recent studies on the tissue distribution and developmental regulation of adenosine deaminase (ADA) activity in mice show that very high ADA levels exist in the murine alimentary tract (tongue, esophagus, forestomach, proximal small intestine) and at the fetal-maternal interface. To understand the role of ADA in these tissues, we measured the levels of three other enzymes involved in purine catabolism, purine nucleoside phosphorylase (PNP), guanine deaminase (GDA), and xanthine dehydrogenase (XDH), to see how their levels correlated with ADA activity. Our results show that the highest level of PNP, GDA, and XDH is present in the proximal small intestine. Levels of these purine catabolic enzymes are much lower in the tongue, esophagus, forestomach, and fetal-maternal interface in marked contrast to ADA distribution. We also determined mRNA levels encoding PNP, XDH, and ADA in a variety of tissues. Tissue-specific differences in PNP, XDH, and ADA activity correlated with RNA abundance, indicating that the regulation of gene expression is at the level of mRNA production. Thus, ADA is part of a purine catabolic pathway leading to the production of uric acid that is present at the highest known level in the proximal small intestine. ADA may have additional roles in other tissues.
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PMID:The highest levels of purine catabolic enzymes in mice are present in the proximal small intestine. 822 98

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