EC:3.1.3.1 - FACTA Search

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)

90 chronic alcoholics (55 men and 35 women, aged between 20 and 60 years) were investigated to determine how alcohol withdrawal effects the pattern of enzymes in plasma and if changes in this enzyme pattern could be used as criteria for evaluation of the recovery process. Among the different enzymes tested, gamma-glutamyl-transpeptidase (GGTP) and the transamines seemed the most suitable parameters. At the beginning of the alcohol withdrawal course, 79 out of 90 patients (80%) showed elevated values of one of these enzymes in plasma. GOT was elevated in 31 (34%), GPT in 24 (23%) and GGTP in 79 (88%) of the cases. In 49 patients (54%) GGTP was the only enzyme found to be elevated. The values of GGTP were on the average higher than those of GOT and GPT. GGTP has thereforeto be regarded as the most sensitive enzyme since it was elevated in most of the patients. GGTP reacted with 6.8 times more sensitivity than GOT and 6.3 times that of GPT. After withdrawal of alcohol the three enzymes showed a decline in all 79 patients. The transaminases normalized faster than GGTP. GTP fell into the upper normal limit after only 30 days. Among the 90 alcoholics examined, 14 relapsed during the alcohol withdrawal course. After the new excess of alcohol intake, the GGTP in plasma rose immediately. Alcohol abuse was suspected in 50% of the patients due to the increase in this enzyme and was subsequently confirmed by the patients. Acute alcohol loading in normal volunteers did not lead to an increase in GGTP activity. A comparison of the histology of liver biopsy material showed that neither the transaminases nor the alkaline phosphatase and GGTP served to differentiate the various forms of alcoholic liver damage. However, GGTP represents the most sensitive enzymatic parameter for the detection of alcoholic liver disease. This enzyme is useful in evaluating the success of a course of alcohol deprivation. The decreasing values during such treatment, as well as the prompt increase after a relapse, points to the high sensitivity of this enzyme. A further argument is that in 54% of the patients elevation of GGTP only was present. Since no liver damage could be demonstrated in these patients with the aid of the other liver enzymes, the elevation of GGTP may be related to the alcohol intake through an enzyme induction mechanism such as has been demonstrated for this enzyme with certain drugs.
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PMID:[The behavior of gamma-glutamyltranspeptidase and other liver enzymes in the plasma during alcohol withdrawal treatments]. 1 56

Gamma-glutamyl transpeptidase (gamma--GTP), leucine aminopeptidase (LAP) and alkaline phosphatase (AP) excretion in rats is followed in dynamics (2, 8, 15, 30 and 90 days) upon isolated and combined treatment with ethylene glycol (EG) at dose 1/8 LD50 and temperature of the environment 35 degrees C. Under the effect of high temperature an increase in the excretion of enzymes in the early observation terms is noted. The independent application of the noxa causes a reduction in gamma--GTR and LAP excretion, and an increase in AP. The temperature factor attenuates the toxic effect of EG relative to the enzymes under study at the end of the observation period. Changes in gamma--GTP excretion are considered as the earliest and most sensitive sign of tubular lesions.
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PMID:[Changes in the urinary excretion of gamma-glutamyltranspeptidase, leucine aminopeptidas and alkaline phosphatase in the combined action of ethylene glycol and high temperature]. 2 10

The translation of rabbit globin mRNA in cell-free systems derived from either wheat germ or rabbit reticulocyte was studied in the presence of various analogues of the methylated 5' terminus (cap) as a function of ionic strength. Inhibition by these analogues was strongly enhanced by increasing concentrations of KCl, K(OAc), Na(OAc), or NH4(OAc). At appropriate concentrations of K(OAc), both cell-free systems were equally sensitive to inhibition by m7GTP. At 50 mM K(OAc), the reticulocyte system was not sensitive to m7GMP or m7GTP, but at higher concentrations up to 200 mM K(OAc), both nucleotides caused strong inhibition. The compound in m7G5'ppp5'Am was inhibitory at all concentrations of K(OAc) ranging from 50 to 200 mM, although more strongly so at the higher concentrations. Over the same range of nucleotide concentrations, the compounds GMP, GTP, and G5'ppp5'Am were not inhibitors. The mobility on sodium dodecyl sulfate-polyacrylamide electrophoresis of the translation product was that of globin at all K(OAc) concentrations in the presence of m7GTP. Globin mRNA from which the terminal m7GTP group had been removed by chemical treatment (periodate-cyclohexylamine-alkaline phosphatase) or enzymatic treatment (tobacco acid pyrophosphatase-alkaline phosphatase) was translated less efficiently than untreated globin mRNA at higher K(OAc) concentrations, but retained appreciable activity at low K(OAc) concentrations.
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PMID:Translational recognition of the 5'-terminal 7-methylguanosine of globin messenger RNA as a function of ionic strength. 20 16

Incubation of purified rat brain tubulin with guanosine 5'-methylene diphosphonate [GMP(CH2)P] (1 mM), a GDP analog resistant to hydrolysis, results in the polymerization of 20-30% of the total tubulin present. Analogous incubations with GDP (1 mM) do not result in tubulin polymerization. Polymerization with GMP(CH2)P occurs in the presence of alkaline phosphatase (EC 3.1.3.1) under conditions that completely hydrolyze the likely phosphate donors (GTP, GDP, and GMP) as well as the potential product [GMP(CH2)PP] of the transphosphorylase activity present in purified tubulin preparations. Tubulin polymerization in vitro thus can occur in the absence of gamma-phosphate and phosphate bond hydrolysis at the exchangeable nucleotide-binding site of tubulin. Polymerization of tubulin by GMP(CH2)P is neither prevented nor reversed by concentrations of calcium (2 mM) that prevent microtubule assembly and disrupt already formed microtubules induced by GTP. However, tubulin polymerized with GMP(CH2)P is readily depolymerized by cold (4 degrees, 30 min). The possible involvement of GTP alpha-beta bond hydrolysis must be considered seriously as playing a role in the process of microtubule depolymerization.
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PMID:Role of nucleotides in tubulin polymerization: effect of guanosine 5'-methylene diphosphonate. 27 19

We have selected for this study a well-defined group of patients with moderately advanced but compensated alcoholic cirrhosis. They were well-nourished and had no ascites, varices, azotemia, or encephalopathy. Liver biopsy showed little or no necrosis and inflammation despite wide-spread fibrosis. Serum bilirubin, transaminase, alkaline phosphatase, albumin and globulins were essentially normal. Biochemical evidence for liver disease was restricted to modest elevation of BSP retention, gamma GTP, serum bile acid concentrations, and urinary bile acid excretion. Except for changes in the interrelationships among the three biliary lipids, they were generally spared the abnormalities of sterol metabolism described in other patients with more advanced, more active liver disease. Thus, striking abnormalities in the metabolism of cholesterol and bile acids probably require severe reductions in functioning hepatocellular mass, major portal-systemic shunting, high disease activity, or all three to become manifest.
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PMID:Cholesterol and bile acid metabolism in moderately advanced, stable cirrhosis of the liver. 49 6

A material identified as guanosine 5',3'-bis-diphosphate (ppGpp) has been detected in extracts of Chlamydomonas reinhardi ac-20 cells grown under mixotrophic conditions or in arg-2 cells deprived of arginine. The material was acid and base labile, susceptible to alkaline phosphatase, resistant to periodate oxidation, had spectral characteristics of a guanine derivative and comigrated on chromatograms with ppGpp from Escherichia coli. In ac-20 ppGpp may be involved in the control of chloroplast ribosomal RNA synthesis. When ac-20 cells were shifted from mixotrophic to autotrophic conditions, the 32Pi labeling of ppGpp, relative to that of GTP, was reduced, while the specific labeling of chloroplast ribosomal RNA was enhanced. Addition of low concentrations of cycloheximide had somewhat similar effects.
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PMID:Synthesis of ppGpp and chloroplast ribosomal RNA in Chlamydomonas reinhardi. 62 52

Optimal conditions for prolonged in vitro synthesis of RNA in isolated chicken liver nuclei have been described. It is shown by incorporation of gamma32P-GTP into RNA, analysis of the product on sucrose density gradient, and digestion with alkaline phosphatase and ribonuclease A that there is reinitiation of RNA synthesis. Polynucleotide kinase activity has been ruled out as explanation for the incorporation of gamma32P-GTP. alpha-Amanitin inhibits RNA synthesis by about 50%. Nuclei prepared from estradiol-treated chicks have twice the RNA synthesis activity as the controls. RNA is synthesized in the presence of Hg-UTP and the mercurated product separated by affinity chromatography on sulfhydryl-Sepharose column under stringent conditions. Vitellogenin mRNA sequences are measured by hybridization with DNA complementary to vitellogenin mRNA. Estradiol treatment leads to a 10-fold increase in vitellogenin mRNA sequences.
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PMID:In vitro RNA synthesis and expression of vitellogenin gene in isolated chicken liver nuclei. 65 25

The cytosolic fraction from rat liver enhanced the basal and glucagon-sensitive adenylate cyclase (EC 4.6.1.1) of hepatic plasma membranes and revealed its (R)-(-)-epinephrine sensitivity. Such phenomena were usually obtained by the addition of low concentrations of GTP to the medium employed for the cyclase assay. Comparative studies of the behavior of the cytosolic factor and GTP in response to various treatments were performed. We present evidence that the stimulatory activity of the soluble factor was reduced after treatment by alkaline phosphatase, by the nucleotide phosphohydrolases present in the plasma membranes, and by trypsin. These results strongly suggest that the soluble activator is a nucleotide-protein complex and further demonstrate that GTP may be of physiological significance in the regulation of the adenylate cyclase system.
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PMID:Activation of epinephrine-sensitive adenylate cyclase in rat liver by cytosolic protein-nucleotide complex. 85 3

A subcellular system is described which is capable of in vitro synthesis of large nuclear RNA and the formation of both cap I [m7G(5')pppXmpYp] and capII [m7G(5')-pppXmpYmpZp] structures. This system, which consists of partially purified intact nuclei and residual cytoplasmic tags, carries out both guanosine addition, utilizing GTP, and the appropriate methylation reactions, utilizing S-adenosylmethionine as the methyl donor. The general structure of the caps was verified by analyses of methylated derivatives recovered after RNase T2 hydrolysis and after digestion with P1 nuclease, bacterial alkaline phosphatase,and nucleotide pyrophosphatase. Cap formation in large nuclear RNA species was found to be closely associated with transcription, as indicated by alpha-manitin sensitivity and a requirement for the presence of all four nucleoside triphosphates. Recovery of a class of cap II structures, in which only the methyl group at position Y is labeled, as well as capII structures in which all methylated constituents are labeled, indicates the presence of at least two independent methylation events in the in vitro system.
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PMID:Synthesis methylation, and capping of nuclear RNA by a subcellular system. 99 Feb 62

We studied the effect of bromolevamisole (BL) and other imidazo [2,1-b] thiazole derivatives--bromodexamisole (BD) and levamisole (LV)--on adenylate cyclase (AC) activity. BL and BD both inhibited forskolin-activated human thyroid AC, while LV had no effect. This inhibition was non-stereospecific and the IC50 values, as measured with 1 mM ATP and 40 microM forskolin, were 0.95 and 0.80 mM for BL and BD, respectively. In contrast, human thyroid alkaline phosphatase (ALP) inhibition was stereospecific, with IC50 values of 0.0012 mM for BL and 0.9 mM for BD. LV was a 10-fold weaker inhibitor of ALP than BL. These results show that ALP inhibition is not correlated with forskolin-activated AC inhibition. Furthermore, in the presence of a competitive inhibitor of GTP (0.1 mM guanosine 5'-O-(2-thiodiphosphate), BL retained its antagonizing effect on forskolin-activated AC which suggests a direct action on the catalytic subunit. The inhibition was of the mixed type, indicating a complex interaction between BL and AC. Glucagon-activated AC activity in rat liver membranes was also inhibited by BL, although to a slightly lesser degree than thyroid stimulating hormone (TSH)-activated AC from human thyroid for a given BL concentration. In cultured human thyroid cells, BL (0.25 mM) induced a potent decrease in cAMP accumulation after 2 hr of stimulation by TSH. Taken together, these results show that BL inhibits AC and that this inhibition is not organ-specific.
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PMID:Effect of bromolevamisole and other imidazo [2,1-b] thiazole derivatives on adenylate cyclase activity. 131 3

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