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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)

Human erythrocyte adenosine deaminase has been purified approximately 800,000-fold to apparent homogeneity using antibody affinity chromatography. The enzyme was shown to be a single polypeptide chain with an estimated molecular weight of approximately 38,000. The three electrophoretic forms of erythrocyte adenosine deaminase purified simultaneously by this technique were indistinguishable by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. Several properties of the highly purified adenosine deaminase including pH optimum, Km for substrate, Ki for product, Stokes radius, sedimentation coefficient, and apparent substrate specificity were identical with the properties observed with an impure preparation of the enzyme.
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PMID:Human adenosine deaminase. Purification and subunit structure. 1 62

A cyclic AMP-adenosine binding protein from mouse liver has been purified to apparent homogeneity as judged by polyacrylamide gel electrophoresis in the absence and presence of sodium dodecyl sulfate and by analytical ultracentrifugation. The binding protein had a Stokes radium of 48 A based on gel chromatography. Both the purified binding protein and the binding activity in fresh cytosol sedimented as 9 S on sucrose gradient centrifugation. The homogeneous protein had a sedimentation coefficient (S20, w) of 8.8 x 10-13 s, as calculated from sedimentation velocity experiments. By use of the Stokes radius and S20, w', the molecular weight was calculated to be 180,000. The protein was composed of polypeptides having the same molecular weight of 45,000 as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and thus appeared to consist of four subunits of equal size. The isoelectric point, pI = 5.7. The binding capacity for cyclic AMP increased by preincubating the receptor protein in the presence of Mg2+ ATP. This process, tentatively termed activation, was studied in some detail and was shown not be be be accompanied by dissociation, aggregation, or phosphorylation of the binding protein. Cyclic AMP was bound to the protein with an apparent dissociation constant (Kd) of 1.5 x 10-7 M. The binding of cyclic AMP was competitively inhibited by adenosine, AMP, ADP, and ATP whose inhibition constants were 8 x 10-7 M, 1.2X 10-6 M, 1.5 X 10-6 M, and higher than 5 x 10-6 M respectively. A hyperbolic Scatchard plot was obtained for the binding of adenosine to the activated binding protein, indicating more than one site for adenosine. The binding of adenosine to the site with the highest affinity (Kd=2 x 10-7 M) for this nucleoside was not suppressed by excess cyclic AMP and was thus different from the aforementioned cyclic AMP binding site. Cyclic GMP, GMP, guanosine, cyclic IMP, IMP, and inosine did not inhibit the binding of either cyclic AMP or adenosine. The binding protein had no cyclic AMP phosphodiesterase, adenosine deaminase, phosphofructokinase, or protein kinase activities, nor does it inhibit the catalytic subunit of the cyclic AMP-dependent protein kinase.
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PMID:An adenosine 3':5'-monophosphate-adenosine binding protein from mouse liver. 18 23

In many human tissues adenosine deaminase exists as a complex composed of two proteins; one protein has adenosine deaminase activity while the other represents a binding protein with no other known binding activity. A rapid, quantitative assay for human adenosine deaminase binding protein has been developed utilizing 125I-labeled calf adenosine deaminase. In addition this binding protein has been purified 1,690-fold from human kidney using adenosine deaminase affinity chromatography and appears to be homogenous by sedimentation equilibrium, sodium dodecyl sulfate, and native polyacrylamide gel electrophoresis. This highly purified binding protein exists as a dimer of native molecular weight 190,000, complexes with calf adenosine deaminase in a ratio of 1:2, respectively, and contains carbohydrate which reacts specifically with phytohemagglutinin and ricin lectins. A second form of this adenosine deaminase binding protein may exist, resulting from degradation of its carbohydrate moiety.
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PMID:Human adenosine deaminase binding protein. Assay, purification, and properties. 65 38

Adenosine deaminase (adenosine aminohydrolase EC 3.5.4.4) has been purified 468,000-fold from pooled human erythrocytes. The procedure developed was used to isolate the enzyme from up to 23 liters of packed erythrocytes at one time. An easily prepared affinity column bed material employing adenosine as the ligand was used as the final step in the purification. During elution from the affinity column there was approximately a 3:1 partition of adenosine deaminase between gel bed and column buffer. There was no apparent difference in the partitioning of unresolved or partially resolved preparations of the electrophoretically different forms of the enzyme on the affinity column. Gel filtration and electrophoresis on polyacrylamide gels of increasing concentration revealed no differences in the Mr of these electrophoretically different forms. The four bands resolved by electrophoresis of the different forms on polyacrylamide gels under nondenaturing conditions yielded a single band when electrophoresis was carried out in the presence of sodium dodecyl sulfate and 2-mercaptoethanol. Partially resolved preparations of the different electrophoretic forms of adenosine deaminase also gave rise to a single band of the same mobility when electrophoresed on polyacrylamide gels under these conditions. The band had the mobility of a protein of Mr of 36,000. This Mr is approximately the same as estimated for the nondenatured enzyme.
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PMID:Purification of human erythrocyte adenosine deaminase by affinity column chromatography. 93 20

We have measured cyclic GMP accumulation in co-cultures of bovine aortic endothelial cells and rat smooth muscle cells as an index of endothelium-derived relaxing factor (EDRF) production. Adenosine deaminase (EC 3.5.4.4, Sigma type VI) produced a 5- to 10-fold increase in the basal and bradykinin-stimulated cyclic GMP content of co-cultures but had no effect on smooth muscle cells alone. Cyclic GMP accumulation in response to adenosine deaminase was not blocked by adenosine deaminase inhibitors or affected by adenosine, the products of adenosine deamination (inosine and ammonia), or adenosine receptor antagonists. Since superoxide anion is known to destroy EDRF and nitric oxide (NO) (which is similar or identical to EDRF in composition), we tested for superoxide dismutase (SOD, EC 1.15.1.1) in single lots of eight commercial sources of adenosine deaminase by measuring inhibition of the superoxide-mediated reduction of cytochrome c. SOD activity was found in all sources of adenosine deaminase, but varied widely. One lot of Sigma type VI enzyme contained 0.08 units SOD/unit adenosine deaminase. The EC50 values of purified SOD (0.23 units/mL) and Sigma type VI adenosine deaminase (2.1 units/mL) needed to increase the cyclic GMP content of co-cultures differed by a similar factor, 0.11. Thus, the SOD activity in adenosine deaminase is sufficient to account for its effect on cyclic GMP accumulation. One lot of Boehringer Mannheim adenosine deaminase contained much less SOD contamination (0.006 units SOD/unit adenosine deaminase) and produced much less accumulation of cyclic GMP in co-cultures. Cyclic GMP accumulations in response to adenosine deaminase and SOD were both abolished by the NO synthetase inhibitor NG-monomethyl-L-arginine (0.1 mM), consistent with the idea that these enzymes act by stabilizing EDRF. Adenosine deaminase and the SOD activity contaminating it were found to have similar molecular masses of 33-34 kD as assessed by gel permeation chromatography. When run under reducing conditions to dissociate homodimeric SOD into monomers, a 16.6 kD peptide which co-migrates with purified cupro-zinc SOD was visible in silver-stained sodium dodecyl sulfate-polyacrylamide gels of the Sigma type VI but not the Boehringer Mannheim adenosine deaminase. We conclude that commercial sources of adenosine deaminase are variably contaminated by SOD. Since EDRF is synthesized by many tissues, the use of adenosine deaminase contaminated with SOD may produce numerous effects not attributable to the deamination of adenosine.
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PMID:Contamination of adenosine deaminase by superoxide dismutase. Stabilization of endothelium-derived relaxing factor. 184 47

The polycation protamine sulfate was compared to polybrene, the usual agent employed, for its ability to increase the efficiency of retroviral infection. The murine retroviral vector SAX, which contains the neoR gene and the human adenosine deaminase (ADA) cDNA, was used as a marker of cell infection. SAX viral supernate was titered on NIH 3T3 cells in varying concentrations of polycation. The highest infection efficiency for protamine was seen at 5 micrograms/ml and was 7-fold greater than infections performed in the absence of polycation. Infection efficiency using protamine averaged 92% +/- 11 (SEM) of the highest efficiency obtained with polybrene. Total ADA activity attained when human-ADA deficient T cells were exposed to SAX supernate in the presence of protamine was 83% of that attained with polybrene. The infection rate of mouse bone marrow early progenitor cells (CFU-S) was similar with each polycation. In summary, for supernate infections, concentrations of 5-10 micrograms/ml of protamine provided essentially the same infection efficiency as polybrene with low toxicity on a range of cell types. Since protamine is approved for human use by the U.S. Food and Drug Administration it provides an effective alternative to polybrene when developing human gene therapy protocols.
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PMID:Protamine sulfate as an effective alternative to polybrene in retroviral-mediated gene-transfer: implications for human gene therapy. 278

Adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4) from Bacillus cereus NCIB 8122 has been purified to electrophoretic homogeneity by ammonium sulfate precipitation, gel filtration through Sephadex G-100, DEAE-Sephadex A-50 chromatography and ion-exchange HPLC on DEAE-Polyol. The enzyme activity is stabilized (at temperatures from 0 degrees C to 40 degrees C) by 50 mM NH4+ or K+, while it is irreversibly lost in the absence of these or a few other monovalent cations. Glycerol (24% by volume) helps the cation in stabilizing the enzyme activity above 40 degrees C, but also exerts per se a noticeable protecting effect at room temperature. B. cereus adenosine deaminase displays the following properties: Mr on Sephadex G-200, 68,000; Mr in SDS-polyacrylamide gel electrophoresis, 53,700; optimal pH-stability (in the presence of 50 mM KCl) over the range 8-11 at 4 degrees C, and maximal catalytic activity at 30 degrees C between pH 7 and 10; Km for adenosine around 50 microM over the same pH range and Km for 2'-deoxyadenosine around 400 microM.
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PMID:Purification, stability and kinetic properties of highly purified adenosine deaminase from Bacillus cereus NCIB 8122. 309 80

Rat brain adenosine deaminase (E.C. 3.5.4.4.) was purified 667-fold from the supernatant fraction by the following techniques: heat treatment (60 degrees C), fractionation with ammonium sulfate, column chromatography on DEAE-Sepharose, and preparative gel electrophoresis. The purified enzyme was homogeneous by the criterion of polyacrylamide disc gel electrophoresis and isoelectric focusing. Amino acid composition is given. The isoelectric point of the enzyme (5.2) was determined by isoelectric focusing on agarose. The apparent molecular weight was estimated to be 39,000 (Stokes Radius [Rs] = 27.3 A) using a calibrated Sephacryl S-300 column. The study of the influence of the temperature on the initial reaction rates allowed calculation of Ea (8.9 Kcal/mole) and delta H (5.0 Kcal/mole) values. The variation of V and Km with pH suggests the existence of a sulfhydryl group and an imidazole group in the enzyme-substrate complex. The enzyme had a Km (adenosine) of 4.5 X 10(-5) M and was inhibited by inosine, guanosine, adenine, and hypoxanthine but not by other intermediates of purine metabolism. None of the inhibitors were active as substrates. The enzyme was also inhibited by dimethyl sulfoxide and ethanol. Inhibition by ethanol can account partially for the CNS depressant effects of levels 3 and 4 of alcohol intoxication. A number of drugs having therapeutic uses such as sedative, anxiolytic, analgesic, and relaxant are modulators of the enzyme. Among these, lidoflazine, phenylbutazone, and chlordiazepoxide are the most potent as inhibitors (Ki 30, 54, and 83 microM, respectively), whereas medazepam is the most potent as activator (Ka 0.32 mM). Thus, it is concluded that some drugs that inhibit adenosine uptake also modulate adenosine deaminase activity. Besides, since the enzyme is located extracellularly [Franco et al, 1986], these drugs can modulate the physiological effects exerted by extracellular adenosine.
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PMID:Purification and partial characterization of brain adenosine deaminase: inhibition by purine compounds and by drugs. 336 98

Two transcription factors, COUP and S300-II, were isolated and partially purified from HeLa cell nuclear extracts. Both factors are required for the efficient transcription in vitro of the ovalbumin gene but not the simian virus 40 early genes. COUP factor binds to the chicken ovalbumin upstream promoter (COUP) sequence which lies between -70 to -90 base pairs upstream from the cap site. A series of competition experiments with a band-shifting assay was carried out to determine the relative affinity of COUP box transcription factor for various promoters. We found that a promoter DNA fragment isolated from the ovalbumin gene competes better than those isolated from the ovomucoid, Y, and alpha-genes. In contrast, the the simian virus 40 early genes, the beta-globin gene, and the adenosine deaminase gene promoters do not compete well in this assay. The molecular weight of the COUP factor was estimated by S-300 column chromatography, glycerol gradient centrifugation to be 90,000. However, two bands were observed in sodium dodecyl sulfate gel electrophoresis of cross-linked COUP factor to a 32P-labeled oligonucleotide containing the COUP sequence. The protein moieties of the major and minor bands were estimated to be 85,000 to 90,000 and 40,000 to 45,000, respectively. The S300-II factor with an apparent molecular weight of 45,000 in an S-300 column is required for function in an in vitro reconstituted transcription system. In contrast to the COUP factor, the S300-II factor does not have apparent specificity for binding to the ovalbumin gene promoter. The S300-II factor may function by interacting with RNA polymerase or other DNA-binding transcription factors.
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PMID:Identification of two factors required for transcription of the ovalbumin gene. 379 2

Mammalian adenosine deaminase has been shown by genetic and biochemical evidence to be essential for the development of the immune system. For the purpose of studying the function and structure of this enzyme, we have isolated by genetic selection a mouse cell line, B-1/50, in which adenosine deaminase levels were increased 4,300-fold over the parent cell line. The enzyme was purified from these cells in large quantity and high yield by a simple two-step purification scheme. The enzyme derived from the B-1/50 cells was indistinguishable from that of the parental cells as judged by several biochemical criteria. The Km (30 microM) and Ki (4 nM) values using adenosine as substrate and 2'-deoxycoformycin as inhibitor, respectively, were identical for the enzyme derived from the parental cells as well as the adenosine deaminase gene amplification mutants. The enzyme from both cell types exhibited multiple isoelectric focusing forms which co-purified using our purification protocol. Electrophoretic analysis using sodium dodecyl sulfate-polyacrylamide gels showed that adenosine deaminase migrated with an apparent molecular weight of 41,000 or 36,000 depending on whether the enzyme was reduced or oxidized, respectively. This shift was reversible, indicating that proteolysis was not responsible for the faster migrating form. Monospecific antibodies raised against purified adenosine deaminase cross-reacted with the enzyme derived from the parental cells and precipitated 37% of the total soluble protein in the B-1/50 cells. Continued genetic selection resulted in the isolation of cells in which adenosine deaminase was overproduced by 11,400-fold and accounted for over 75% of the soluble protein.
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PMID:Purification and characterization of adenosine deaminase from a genetically enriched mouse cell line. 390 13


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