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

Several isozymes have been evaluated by other investigators to help characterize both mycoplasmas and acholeplasmas. We have investigated a number of enzymes contributing to hypoxanthine production in Ureaplasma urealyticum, as part of an ongoing effort to identify a comparative profile of isozyme activities in this species. Cells from large volume cultures were collected by centrifugation and lysed by both freeze-thawing and sonication in hypotonic buffer with Triton X-100. Lysate was clarified by centrifugation. Proteins in the cell lysate were separated by polyacrylamide gel electrophoresis, incorporating Triton X-100 in the gel and electrode buffer. Gels were stained to indicate sites of hypoxanthine production from AMP, adenosine, inosine, or adenine, in either phosphate or Tris buffer. The results suggest that adenine deaminase, inosine nucleosidase, and adenosine phosphorylase activities are present in the cell lysate, while adenosine nucleosidase and adenosine deaminase activities are absent. Inosine phosphorylase, AMP nucleosidase and/or 5'-nucleotidase activities may also be present. With the formation of hypoxanthine, the possibility for a salvage pathway exists.
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PMID:Enzyme activities contributing to hypoxanthine production in Ureaplasma. 609

The wide range of values reported for activity of adenylate cyclase (AC) in human skeletal muscle prompted re-evaluation of conditions used for homogenization and assay. Adenylate cyclase activity in the same normal muscle differed with different techniques of homogenization. In pH 7.5 isotonic Tris buffer, basal and catecholamine-activated activities declined rapidly in homogenates kept at 4 degrees C. Loss of basal activity was prevented by addition of a chelator of divalent cations. Loss of response to isoproterenol was prevented by addition of guanylnucleotides. Enzyme activity was maximal at 37 degrees C and pH 7.6. Enzyme activity was lower when theophylline was used to prevent degradation of labelled 3',5' cyclic adenosine monophosphate (cyclic AMP) than when unlabelled cyclic AMP was used to this purpose. Basal activity increased with increased MgCl2 concentration up to 50 mmol/l, but isoproterenol-activated activity was maximal at 4 mmol/l MgCl2. AC was inhibited by exogenous adenosine, but addition of adenosine deaminase to the assay mixture did not increase AC activity. Based upon these observations, standardized procedures of homogenization and assay were devised and used to measure AC activity in muscles of boys with Duchenne muscular dystrophy: basal and isoproterenol-stimulated activities were abnormally low.
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PMID:Assay of adenylate cyclase in homogenates of control and Duchenne human skeletal muscle. 722 46

Here we report a functional autoradiographic study of [(35)S]GTPgammaS binding induced by alpha(2)-adrenoceptor activation in chicken brain tissue sections using both 10(-4)M UK 14304 (bromoxidine or brimonidine) and 10(-6)M epinephrine as alpha(2)-adrenoceptor agonists. Assays were performed using two different incubation buffers: glycylglycine or Tris-HCl. Changes in the [(35)S]GTPgammaS basal binding values were detected, and different [(35)S]GTPgammaS specific binding values were also obtained depending on the buffer used for each drug. The best results were obtained with epinephrine in Tris-HCl, with slightly higher stimulation values than the observed with UK 14304 in glycylglycine buffer. The effect of the addition of adenosine deaminase to the incubation buffer was also tested. This effect decreasing basal binding in chicken was very small when compared to mammals, according with differences found in adenosine 1 receptor expression levels. Structures presenting alpha(2)-adrenoceptor-mediated G(i/o) protein stimulation fitted with areas previously described as enriched in alpha(2)-adrenoceptors in chicken brain, and their homologous areas in mammals. These data confirm the specificity of the results and reinforce the implication of the alpha(2)-adrenoceptors in the function of these brain nuclei. On the other hand, the expression level of the different alpha(2)-adrenoceptor subtypes was tested with real-time PCR. Contrasting with the alpha(2)-adrenoceptor subtype distribution previously described with radioligand competition assays, where alpha(2A) was the predominant alpha(2)-adrenoceptor subtype (>/=75%); in the present work, the ratio of alpha(2A):alpha(2B/C) gene expression was lower than expected both in telencephalon, tectum opticum, and cerebellum.
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PMID:Functional autoradiography and gene expression analysis applied to the characterization of the alpha2-adrenergic system in the chicken brain. 1977 35

We demonstrate fabrication of microbiosensors utilizing a simple, rapid biomimetic silicification method catalyzed by poly-L-lysine at ambient temperature to provide a mild and efficient method for entrapment of the enzymes required for a range of analytes. To obtain a robust poly-L-lysine layer for precipitating silica onto the Pt surface, a Pt microelectrode was first functionalized with abundant carboxyl groups by electrochemical deposition of poly(pyrrole-1-propanoic acid). By means of zero length cross-linking reagents N-(3-dimethylaminopropyl)-N'-ethylcarbodiimide hydrochloride (EDC) and N-hydroxysulfosuccinimide sodium salt (NHSS), poly-L-lysine was covalently immobilized onto microelectrode surface. Under mild chemical conditions, three enzymes including adenosine deaminase (AD, EC 3.5.4.4), nucleoside phosphorylase (NP, EC 2.4.2.1) and xanthine oxidase (XO, EC 1.1.3.22) could then be simultaneously entrapped into a continuous silicate layer formed on top of Pt microelectrode from a mixture of enzymes and hydrolyzed silanes in Tris buffer (0.1M, pH 7.2) via the catalytic action of the attached poly-L-lysine. The fabricated adenosine biosensors exhibited good analytical performance with a sensitivity of 153.0+/-2.4 microA mM(-1)cm(-2) (n=4, R.S.D.=2.1%), a lower detection limit of 40 nM and a favourable response time (estimated as 10-90% response rise time) of 25+/-2s (n=4). The good selectivity of the adenosine microbiosensor against coexisting interfering substances such as ascorbic acid, urate and 5-HT was achieved through formation of a screening barrier from electrodeposited poly(diaminobenzene) following the biomimetic deposition process. We found that our methods were adaptable for other enzymes and analytes allowing fabrication of l-glutamate and lactate biosensors.
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PMID:Novel microbiosensors prepared utilizing biomimetic silicification method. 2044 20

Adenosine deaminase is an enzyme involved in purine metabolism and its inhibitors are used as anticancer and antiviral drugs. In this study, we show that fast-scan cyclic voltammetry at carbon-fiber microelectrodes can be used to study the kinetics of adenosine deaminase by electrochemically monitoring decreases in adenosine concentration. Buffer and salt concentrations were shown to affect the enzyme kinetics and the inhibition by erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and deoxycoformycin (DCF). In a Tris buffer containing salts that mimic cerebrospinal fluid, EHNA and DCF showed non-competitive inhibition with a K(i) of 1.7 +/- 0.6 nM and 1.2 +/- 0.2 nM, respectively. However, removing the divalent cations from the Tris buffer caused the inhibition to be competitive and reduced the K(i) for DCF by two orders of magnitude. In phosphate-buffered saline, the K(i) was 1.0 +/- 0.2 nM for EHNA and 3.6 +/- 0.3 pM for DCF, similar to literature values. Adenosine deaminase was also competitively inhibited by AgNO(3), showing it is susceptible to silver toxicity. Caffeine was found to increase adenosine deaminase activity. This is a fast, easy method for screening drug effects on enzyme kinetics and could be applied to other enzymatic reactions where there is a significant difference in the electroactivity of the reactant and product.
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PMID:Rapid determination of adenosine deaminase kinetics using fast-scan cyclic voltammetry. 2057 78