Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High levels of nuclease activities were identified in filtrates of Aspergillus cultures after growth in low-but not in high-phosphate media. Deoxyribonuclease activities, characterized extensively by column chromatography, showed a coincident single peak for ss- and ds-DNase which was distinct from the peak for RNase. Both ss-DNase and ds-DNase are endonucleolytic and showed the highest activity in the presence of Ca2+ and Mn2+ (at pH 8.0). They also showed identical heat sensitivities suggesting that a single, phosphate-repressible DNase was secreted. This enzyme, therefore, corresponds to the well-characterized extracellular DNase A of Neurospora. However, the Aspergillus DNase A did not cross-react with antisera to secreted Neurospora nucleases and showed different chromatographic properties, and active peptides of different sizes were visualized on DNA activity gels. The increasing derepression of Aspergillus DNase A by decreasing phosphate levels was similar to that of secreted alkaline phosphatase and these increases were both abolished by the regulatory mutant palcA.
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PMID:A single, phosphate-repressible deoxyribonuclease, DNase A, secreted in Aspergillus nidulans. 267 10

Extraction of rat kidney cytosol with 10% charcoal at 4 C inactivated specific T3 binding. The decreased T3 binding in extracted cytosol could be restored by addition of boiled kidney cytosol. Three different factors (a, b, and c) which could increase T3 binding were identified by Sephadex G-50 column chromatography of boiled cytosol. Two factors (b and c) were eluted as relatively small molecules. Factor a was present in small amounts. Factor c was neutralized by incubation with EDTA, but factor b was not. Factor b was not destroyed by trypsin, protease, DNase, or RNase, but was destroyed by alkaline phosphatase. Factor b was destroyed by incubation with nicotinamide adenine dinucleotide phosphate (NADPH)-dependent glutathione reductase in the presence of oxidized glutathione. Although T3 binding to charcoal-extracted cytosol protein was not influenced by reduced glutathione or dithiothreitol, it was markedly increased by NADPH. Maximal activation induced by 50 microM NADPH was not further increased by further addition of endogenous factor b. The elution position of NADPH in gel chromatography corresponded to the elution position of factor b. Factor b or NADPH increased maximal binding capacity without changes in affinity constant. These observations suggest that T3-binding protein in cytosol is present in inactive and active forms and that the active form is generated by NADPH, which is present as one of the activators in cytosol. The effect of these cytosolic T3-binding proteins on nuclear T3 binding in vitro was also studied. In the absence of cytosolic T3-binding protein, [125I]T3 binding to nuclear receptor was decreased by unlabeled T3 in a concentration-dependent manner. In the presence of inactive form of cytosolic T3-binding protein, nuclear [125I]T3 binding was slightly diminished. In the presence of NADPH and cytosolic T3-binding protein, however, the amount of [125I]T3 bound to nuclei markedly decreased, which was associated with an increase of cytosolic [125I]T3 binding. NADPH alone did not influence nuclear T3 binding. These results suggest that T3 binding to nuclear receptor is regulated by an active form of cytosolic T3-binding protein in vitro.
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PMID:Active and inactive forms of 3,5,3'-triiodo-L-thyronine (T3)-binding protein in rat kidney cytosol: possible role of nicotinamide adenine dinucleotide phosphate in activation of T3 binding. 301 55

After anaerobic reductive activation by either NADPH cytochrome P-450 reductase (EC 1.6.2.4) or xanthine oxidase (EC 1.2.3.2), mitomycin C readily alkylated DNA. When the mitomycin C-alkylated DNA is digested by DNase, snake venom phosphodiasterase, and alkaline phosphatase, only partial release of the monofunctionally linked mitomycin C nucleotide adduct occurs. Cross-linked adducts are not released into dinucleotides but resist nuclease digestion and remain in oligonucleotides and insoluble precipitates. Kinetic analyses show that the nuclease-resistant fraction which is indicative of DNA cross-linking by mitomycin C takes place quite readily. This nuclease-resistant fraction is particularly significant when the amount of total bound mitomycin C is less than 15 mumol/mmol of DNA. The cross-linked mitomycin C product accounts for more than half of the total alkylation under all pH conditions tested. Our data suggest that particular DNA sites are available for DNA cross-linking by mitomycin C, and these sites are probably the preferred and immediate alkylating targets. Furthermore, DNA cross-links by mitomycin C are not the secondary product of monofunctional adducts. Activity of both flavoenzymes is pH dependent, hence, mitomycin C activation and the rate of DNA alkylation are pH dependent. At elevated mitomycin C alkylation of DNA, the highest amount of cross-linking occurs at neutral pH. High pressure liquid chromatographic separation of the nuclease-digested DNA detected one major and two less prominent mitomycin C adducts. These were verified to be mononucleotide mitosene types by UV spectra showing maximum absorbance at 312 and 250 nm. The major adduct was purified and identified as O6-(2'-deoxyguanosyl)-2,7-diaminomitosene by NMR, indicating that the O6 position of guanine is a preferred site in DNA for at least monofunctional linkage formation.
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PMID:DNA alkylation by enzyme-activated mitomycin C. 308 8

Procedures are described for identification of very infrequent in vivo 3'-ends of RNA. After purification by filter hybridization, the 3'-ends were labeled with [5'-32P] cytosine-3'-P in the RNA ligase reaction. Significantly fewer counts were incorporated in the ligase reaction than in the polynucleotide kinase reaction to label 5'-ends. The incorporation was increased by increasing the RNA concentration 5-10 fold by using only one round of filter hybridization. Non-specific RNA binding could be eliminated by RNase A treatment of the filter if a great excess of denatured heterologous DNA was immobilized along with the DNA probe. Significant amounts of DNA were released when eluting the hybrid RNA from such filters. DNA inhibited the ligase reaction, while its DNase products were even more inhibitory. Treatment of the DNase products with alkaline phosphatase completely eliminated the inhibition. We detected no spurious 5'- or 3'-ends generated in the hybrid RNA by RNase A activity used to reduce the non-specific RNA. Also, RNase T1 could be used in place of RNase A to eliminate non-specific RNA binding, but about 25 times more RNase T1 (microgram/microgram) was needed. We used partial alkali digestion to sequence 3'-ends. A major (one hit) and minor (two hit) set of products were produced which could be distinguished from each other by alkaline phosphatase treatment and homochromatography of the products.
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PMID:Isolating and sequencing the infrequent 3'-ends of a specific mRNA. 331 56

Porfiromycin was reductively metabolized by NADPH cytochrome P-450 reductase and xanthine oxidase under anaerobic conditions. The production of metabolites varied with the pH and the contents of the reaction buffer. In Tris buffer, two major metabolites were produced at pH 7.5 and above, whereas one major metabolite was produced at pH 6.5. The three major metabolites were separated and isolated by HPLC. Identification by californium-252 plasma desorption mass spectrometry showed that the two major metabolites from pH 7.5 were (trans) and (cis)-forms of 7-amino-1-hydroxyl-2-methylaminomitosene and the major metabolite from pH 6.5 was 7-amino-2-methylaminomitosene. All three major metabolites showed substitutions at the C-1 position. DNA was alkylated readily by enzyme-activated porfiromycin. Digestion of porfiromycin-alkylated DNA by DNase, snake venom phosphodiesterase, and alkaline phosphatase resulted in an insoluble nuclease-resistant fraction and a soluble fraction. The nuclease-resistant fraction reflected a high content of cross-linked adducts. Upon HPLC analysis, the solubilized fraction contained two monofunctionally linked porfiromycin adducts and a possibly cross-linked dinucleotide. The major adduct was isolated by HPLC and identified by NMR, as N2-(2'-deoxyguanosyl)-7-amino-2-methylaminomitosene. The N2 position of deoxyguanosine appeared as the major monofunctional alkylating site for DNA alkylation by porfiromycin. Thus, mitomycin C and porfiromycin (which differs from mitomycin C only by the addition of a methyl group to the aziridine nitrogen) share the same enzymatic activating mechanism that leads to the formation of the same types of metabolites and the same specificity of DNA alkylation.
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PMID:Metabolites and DNA adduct formation from flavoenzyme-activated porfiromycin. 341 25

Campylobacter pylori (C. pyloridis) is a fastidious organism found in the gastric mucosa associated with histological gastritis and peptic ulceration. A rapid identification scheme that detects the presence of preformed enzymes (Rosco Diagnostica, Taastrup, Denmark) was applied to clinical isolates of C. pylori. The isolates tested were a very homogeneous group. They all produced oxidase, catalase, urease, alkaline phosphatase, gamma-glutamyl aminopeptidase, leucine aminopeptidase, and DNase. None produced any of 44 other enzymes tested. No other campylobacter strains produced gamma-glutamyl aminopeptidase, except the six strains of Campylobacter jejuni biotype 2. Different results were obtained with similar substrates produced by other manufacturers, probably due to small substrate differences. These tests are useful for the rapid identification of C. pylori but would be unhelpful in any biotyping scheme. They can also be used to help differentiate other groups within the genus Campylobacter.
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PMID:Rapid identification of Campylobacter pylori (C. pyloridis) by preformed enzymes. 365 41

A factor, termed neutrophil alkaline phosphatase-inducing factor (NAP-IF), that has the capacity to increase the NAP activity of granulocytes was characterized by using two samples: cystic fluid (CF) and conditioned medium of a tumor cell line (T3M5). The molecular weight of NAP-IF was shown to be between 13,000 and 45,000, and its isoelectric point was between 5.5 and 6.2. It was sensitive to heat and proteolytic enzymes, but was resistant to DNase and RNase, suggesting that NAP-IF is an acidic protein or glycoprotein. These characteristics of NAP-IF seem to be similar to those of granulocyte-macrophage colony-stimulating factor (GM-CSF) that is also present in the CF. NAP-IF rich fractions obtained by isoelectric focusing from CF were also found to be rich in a subclass of GM-CSF: granulocyte-CSF (G-CSF). Furthermore, a high correlation was noted between the activities of G-CSF and NAP-IF (gamma = 0.798, P less than 0.005). These results suggest that the two activities, i.e., G-CSF and NAP-IF, may be attributable to an identical macromolecule.
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PMID:Characterization of neutrophil alkaline phosphatase-inducing factor (NAP-IF). 387 40

The enzymatic profiles of 109 clinical isolates of Acinetobacter calcoaceticus subsp. anitratus and lwoffi were determined with conventional plate tests and the rapid API ZYM system (Analytab Products, Plainview, N.Y.). The majority of strains tested lacked DNase, hemolysin, protease, elastase and gelatinase. Strong enzymatic activities of butyrate esterase (C4), caprylate esterase (C8) and leucine arylamidase were detected in all isolates. No trypsin, chymotrypsin, alkaline phosphatase or glucosidase activities were present. This profile was characteristic of all isolates examined by the API ZYM system and could serve as a useful diagnostic feature of Acinetobacter calcoaceticus subsp. anitratus and subsp. lwoffi.
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PMID:Enzymatic profile of clinical isolates of Acinetobacter calcoaceticus. 400 64

E-5-(2-Bromovinyl)-2'-deoxyuridine (BrvdUrd) and E-5-(2-iodovinyl)-2'-deoxyuridine (IvdUrd) are among the most potent and selective inhibitors of herpes simplex virus type 1 (HSV-1) replication. To elucidate the site of inhibition, we examined whether the halovinyl analogs are incorporated into DNA using two approaches. (i) In assays with purified DNA polymerases omitting dTTP from the reaction system, addition of either BrvdUTP or IvdUTP increased the polymerization reaction, indicating that these two analog triphosphates can be alternate substrates. (ii) When HSV-1-infected Vero cells were grown in the presence of either BrvdUrd or IvdUrd, there was an increase in the density of both the viral and cellular DNA. The viral DNA had 40% of its thymidine moiety substituted by IvdUrd when the concentration of [125I]IvdUrd was 24 microM (in the absence of added thymidine). At 30 microM BrvdUrd and 1 microM [2-14C]thymidine, the viral DNA had only 11% of its thymidine moiety substituted by BrvdUrd, presumably because of the presence of added thymidine. Following digestion of [125I]IvdUrd-substituted DNA with DNase 1, venom phosphodiesterase, and alkaline phosphatase, the radioactivity co-migrated with nonradioactive IvdUrd in thin layer chromatography. Under similar conditions, no detectable incorporation of either [125I]IvdUrd or BrvdUrd into mock-infected Vero cell DNA was observed. Thus, IvdUrd and BrvdUrd are incorporated into DNA of HSV-1 infected cells but not into DNA of uninfected cells.
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PMID:Incorporation of E-5-(2-halovinyl)-2'-deoxyuridines into deoxyribonucleic acids of herpes simplex virus type 1-infected cells. 627 55

The effects of growing of Sertoli cells isolated from rat seminiferous epithelium by a modified procedure, and responses of these cells to dBcAMP or FSH stimulation was estimated using morphological methods. The modified isolation procedure included repeated mechanical rinsing of tubule pieces with a modified EDTA containing Hanks medium. Moreover, streptornase instead DNase was added to the trypsine containing medium and this resulted in a better dispersion of tubule components. The culture conditions remained unmodified. A high degree homogeneity of the cultured cell population and an evident reactivity of these cells to dBcAMP and FSH was achieved. Furthermore, an observation of giant cells, visible in monolayer among the typical Sertoli cells, is discussed in this paper. Contrary to small number of myoid cells, being survived in the culture, these giant cells did not show positive reaction to alkaline phosphatase.
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PMID:Culture of rat Sertoli cells isolated with a modified procedure. Morphological identification of cell population and cell reactivity. 627 74


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