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)

Fragments of rat liver mitochondrial DNA were isolated. In vivo these fragments were able to form the complexes with the proteins of inner mitochondrial membrane. The fragments represent unique DNA regions with the secondary structure, their A-T content being equal to 82%. With the aid of phosphomonoesterase, polynucleotidkinase and gamma-(32P)-ATP mtDNA fragments were labeled and analyzed for oligopyrimidine composition. It was shown that they were enriched in di- and tri-oligo-pyrimidine blocks. The fragments are shown to form in vitro a complex with the membrane proteins. A single protein m. wt. 40,000) was reisolated from the complex.
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PMID:[Isolation and characteristics of DNA fragments bound to mitochondrial membrane proteins]. 61 37

An acidic polysaccharide fraction composed of glucose and N-acetylmannosaminuronic acid with a small portion of peptidoglycan was isolated by enzymic digestion and subsequent ECTEOLA-cellulose chromatography from the cell walls of Micrococcus lysodeikticus. On mild acid treatment, the fraction became Morgan-Elson positive and formed the Morgan-Elson chromogen on heating with phosphate buffer (pH 7). The product of mild acid treatment released inorganic phosphate on treatment with phosphomonoesterase. After gel-chromatography on Sephadex G-25 and DE-32, the acidic polysaccharide fraction contained less glucosamine than muramic acid. By reduction of this fraction with borohydride, a part of the glucosamine was converted into glucosaminitol. Based on these results, it is suggested that the acidic polysaccharide is linked to glucosamine by a (1-3) linkage, which is linked to the 6 position of a muramic acid residue by a phosphodiester linkage.
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PMID:The structure of the branching point between acidic polysaccharide and peptidoglycan in Micrococcus lysodeikticus cell wall. 89 49

The 5'-phosphomonoesterase activity of 5'-nucleotidase (EC 3.1.3.5) and alkaline phosphatase (EC 3.1.3.5) participates in the catabolism of purine ribonucleotides to uric acid in humans. Initial velocity studies of 5'-nucleotidase suggest a sequential mechanism of interaction between AMP nad MgCl2, with a Km of 14 and 3 muM, respectively. With product inhibition studies the apparent Ki's for adenosine, inosine, cytidine, and inorganic phosphate were 0.4, 3.0, 5.0, and 42 mM, respectively. A large number of nucleoside mono-, di-, and tri-phosphate compounds were inhibitors of the enzyme. Allopurinol ribonucleotide, ADP, or ATP were competitive inhititors when AMP was the substrate, with a Ki slope of 120 muM. The phosphomonoesterase activity of human placental microsomal alkaline phosphatase had a pH optimum of 10.0 and had only 18% of maximum activity at pH 7.4. Substrates and inhibitors included almost any phosphorylated compound. The Km for AMP was 0.4 mM and the apparent Ki for Pi was 0.6 mM. Activity was increased only 19% by 5 mM MgCl2. These observations suggest that 5'-nucleotidase and alkaline phosphatase may be inhibited by ATP and Pi, respectively, under normal intracellular conditions, and that AMP may be preferentially hydrolyzed by 5'-nucleotidase.
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PMID:Purine catabolism in man: inhibition of 5'-phosphomonesterase activities from placental microsomes. 101 16

During the primary phase of inflammation of connective tissue of the paw there was an increase in enzyme activity among the resident connective tissue cells, probably as a result of catabolic processes (lytic processes, phagocytosis). As early as two days after the start of inflammation it was possible to recognize a close relationship between regeneration of the altered tissue (anabolic processes) and the increase of phosphomonoesterase activity in resident cells of the inflamed tissue. The role of the enzyme during inflammation was discussed.
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PMID:[Histochemical studies of acid phosphomonoesterase activity in experimental inflammation of the rat's paw caused by carrageenin]. 119 Sep 72

Modification of the carboxylate groups of purified S1 nuclease resulted in a loss of its single-stranded DNAase, RNAase and phosphomonoesterase activities. The inactivation was due to the removal of zinc atoms from the enzyme and this in turn was dependent on the degree of modification. While the removal of one zinc atom resulted in the partial inactivation of the enzyme, removal of the remaining zinc atoms resulted in the complete inactivation of the enzyme. Similar results were obtained when the purified enzyme was incubated with various concentrations of the metal chelator, EDTA. The EDTA-(1 mM)-treated enzyme, depleted of one zinc atom, showing 40-45% residual activity, when incubated with 1 mM Zn2+ or 1 mM Co2+, regained a significant amount of its initial activity towards all the substrates. However, Woodward's-Reagent-K-modified enzyme depleted of one zinc atom and having the same level of activity (40-45%) could not regain its activity, indicating that the carboxylate groups are involved in the metal binding. Data obtained with carboxylate-group modification, EDTA-treatment, reconstitution with metal ions, zinc estimation and CD analysis of the enzyme suggests that, out of three zinc atoms present in S1 nuclease, zinc I is easily replaceable and is probably involved in the catalytic activity while zinc II and zinc III are involved in maintaining the enzyme structure.
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PMID:Characterization of S1 nuclease. Involvement of carboxylate groups in metal binding. 128 Oct 97

IL-8 is a neutrophil-specific chemoattractant and cellular activator which exists in at least three forms, 69, 72, and 77 amino acids. The predominant monocyte product has 72 amino acids, whereas endothelial cells secrete the 77-amino acid form. The 72-amino acid form has been shown to increase intracellular calcium in neutrophils, but the exact biochemical pathways involved in stimulation of these cells is unknown. N-formyl peptide chemoattractants in neutrophils stimulate the formation of phosphatidylinositol-4,5-bisphosphate (PIP2), a reservoir for second messenger molecules and regulator of actin assembly through its association with the actin-binding proteins, profilin, and gelsolin. The present study examined whether IL-8 altered the enzyme which synthesizes PIP2, phosphatidylinositol-4-phosphate (PIP) kinase. Incubation of intact neutrophils with 10 nM IL-8 caused approximately a twofold increase in the activity of the enzyme. All forms of IL-8 stimulated PIP kinase activity in concentrations ranging from 1 to 50 nM, and the dose-response curves exactly correlated with the order of potency of these cytokines for interacting with the IL-8R on the surface of neutrophils. Lineweaver-Burk analysis of the kinetics of PIP kinase assayed in the presence of 0.03 to 0.7 mM ATP showed that 10 nM IL-8 increased the Vmax of the enzyme 38 to 70.5%, with no significant change in the apparent Km for ATP or for PIP. The stimulation of PIP kinase activity could not be explained by decreased degradation of PIP2 by phospholipase C or phosphomonoesterase activity in the membranes isolated from cells treated with IL-8 or by a decrease in the degradation of ATP. The microfilament disrupter, cytochalasin b, inhibited IL-8 induced stimulation of PIP kinase. These findings demonstrate that all forms of IL-8 stimulate PIP kinase in human neutrophils. This event may provide molecular signals to these cells that are necessary to maintain or change the state of microfilament assembly during cellular activation.
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PMID:IL-8 stimulates phosphatidylinositol-4-phosphate kinase in human polymorphonuclear leukocytes. 131 31

Lymphocytes infected in vivo with HIV or lymphoblastoid cells exposed in vitro to either HIV or its envelope glycoprotein (gp120) show a defect in inositol polyphosphate-mediated signal transduction together with an associated abnormality in intracellular calcium regulation. The defect in patients reverses after treatment with the anti-retroviral agent zidovudine (AZT). We present evidence that the defect is at the level of the Ins (1,3,4,5)P4 5-phosphomonoesterase (PME) in these cells and that, though elevation of the intracellular ATP level partially down-regulates the activity of this enzyme, such changes alone are unable to account for the complete inhibition seen in HIV-infected cells.
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PMID:The defect seen in the phosphatidylinositol hydrolysis pathway in HIV-infected lymphocytes and lymphoblastoid cells is due to inhibition of the inositol 1,4,5-trisphosphate 1,3,4,5-tetrakisphosphate 5-phosphomonoesterase. 132 Oct 14

Modification of the histidine residues of purified S1 nuclease resulted in loss of its single-stranded (ss)DNAase, RNAase and phosphomonoesterase activities. Kinetics of inactivation indicated the involvement of a single histidine residue in the catalytic activity of the enzyme. Furthermore, histidine modification was accompanied by the concomitant loss of all the activities of the enzyme, indicating the presence of a common catalytic site responsible for the hydrolysis of ssDNA, RNA and 3'-AMP. Substrate protection was not observed against Methylene Blue- and diethyl pyrocarbonate (DEP)-mediated inactivation. The histidine (DEP)-modified enzyme could effectively bind 5'-AMP, a competitive inhibitor of S1 nuclease, whereas the lysine (2,4,6-trinitrobenzenesulphonic acid)-modified enzyme showed a significant decrease in its ability to bind 5'-AMP. The inability of the substrates to protect the enzyme against DEP-mediated inactivation, coupled with the ability of the modified enzyme to bind 5'-AMP effectively, suggests the involvement of histidine in catalysis.
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PMID:Active-site characterization of S1 nuclease. II. Involvement of histidine in catalysis. 146 60

We have developed an experimental model to study in vivo inositol lipid metabolism in frog retinal pigment epithelial (RPE) cells, including the effect of light on phospholipase C-mediated hydrolysis of phosphatidylinositol 4,5-bisphosphate. RPE cells were rapidly isolated after either brief light or dark periods. Light and electron microscopy showed complete detachment of the retina from the RPE cells, and that the RPE cell suspensions were devoid of photoreceptor cell outer segments. Frog tissues were labeled in vivo for 20 hr by intravitreal injection of [3H]inositol (4 microCi, 4 microliters per eye) within a 24-hr constant illumination period. Following 1 hr of darkness (priming period), frogs were intravitreally injected with LiCl (0.5 M, 4 microliters per eye) 15 min before the onset of either 30-min light stimulation or an additional 30 min of darkness (controls). In order to preserve endogenous inositol phosphate pools present after dark and light exposure, the RPE cells were harvested in the shortest time possible, at low temperatures (18-20 degrees C), and in the presence of 10 mM LiCl. Total [3H]inositol-labeled water-soluble products (inositol plus inositol phosphates) were increased by 86% after 30 min of light. Inositol trisphosphate (IP3) showed the highest accumulation (a 5.5-fold increase), followed by inositol bisphosphate (1.9-fold increase) and inositol monophosphate (1.4-fold increase). Free [3H]inositol also accumulated (2.8-fold increase), reflecting only a partial inhibition of phosphomonoesterase by LiCl. These changes were paralleled by a 12% decrease in 3H-labeled phosphatidylinositol with no significant difference in the labeling of polyphosphoinositides.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Light stimulates in vivo inositol lipid turnover in frog retinal pigment epithelial cells at the onset of shedding and phagocytosis of photoreceptor membranes. 147 81

Pneumococcal lipoteichoic acid was extracted and purified by a novel, quick and effective procedure. Structural analysis included methylation, periodate oxidation, Smith degradation, oxidation with CrO3, and fast-atom-bombardment mass spectrometry. Hydrolysis with 48% (by mass) HF and subsequent phase partition yielded the lipid anchor (I), the dephosphorylated repeating unit of the chain (II) and a cleavage product of the latter (III). The proposed structures are: (I) Glc(beta 1----3)AATGal(beta 1----3)Glc(alpha 1----3)acyl2Gro, (II) Glc(beta 1----3)AATGal(alpha 1----4)GalNAc(alpha 1----3)GalNAc(beta 1----1)ribitol and (III) Glc(beta 1----3)AATGal(alpha 1----4)GalNAc(alpha 1----3)GalNAc, where AATGal is 2-acetamido-4-amino-2,4,6-trideoxygalactose, and all sugars are in the pyranose form and belong to the D-series. Alkaline phosphodiester cleavage of lipoteichoic acid, followed by treatment with phosphomonoesterase, resulted in the formation of II and IV, with IV as the prevailing species: [sequence: see text] The linkage between the repeating units was established as phosphodiester bond between ribitol 5-phosphate and position 6 of the glucosyl residue of adjacent units. The chain was shown to be linked to the lipid anchor by a phosphodiester between its ribitol 5-phosphate terminus and position 6 of the non-reducing glucosyl terminus of I. The lipoteichoic acid is polydisperse: the chain length may vary between 2 and 8 repeating units and variations were also observed for the fatty acid composition of the diacylglycerol moiety. Preliminary results suggest that repeating units II and IV are enriched in separate molecular species. All species were associated with Forssman antigenicity, albeit to a various extent when related to the non-phosphocholine phosphorus. Owing to its unique structure, the described macroamphiphile may be classified as atypical lipoteichoic acid.
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PMID:The structure of pneumococcal lipoteichoic acid. Improved preparation, chemical and mass spectrometric studies. 149 52


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