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)

1. Myxamoebae of the cellular slime mould Dictyostelium discoideum Ax-2 were grown on different media, and were harvested either in the stationary or exponential phases of the growth cycle to yield samples of myxamoebae differing in enzymic composition. 2. Morphogenesis and cell differentiation phenomena in D. discoideum appear to be similar in myxamoebae grown and harvested under different conditions. 3. The specific activity of the enzymes beta-N-acetylglucosaminidase, acid phosphatase, alpha-mannosidase, beta-glucosidase and alkaline phosphatase have been determined during cell differentiation of myxamoebae grown and harvested under different conditions. 4. The pattern of synthesis of these enzymes, all of which have been claimed to be part of the ;developmental programme', either remains unaffected despite the origin of the myxamoebae (alkaline phosphatase) or is qualitatively similar but quantitatively affected (acid phosphatase, beta-glucosidase) or is both qualitatively and quantitatively affected by changes in the myxamoebae (alpha-mannosidase, beta-N-acetylglucosaminidase). 5. The implications of these results for the concept of a ;developmental programme' are discussed.
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PMID:Enzyme synthesis in the cellular slime mould Dictyostelium discoideum during the differentiation of myxamoebae grown axenically. 467 69

The kinetics of accumulation of alkaline phosphatase activity were determined in cells of wild-type and morphologically aberrant mutant strains of Dictyostelium discoideum induced to develop synchronously on membrane supports. The enzyme specific activity increased slowly in wild-type cells until culmination when a dramatic rise in specific activity occurred. The patterns of accumulation in the mutant strains, as well as previous electrophoretic analysis, suggest that the two phases of accumulation may result from the synthesis of distinct isozymes. The rapid accumulation of alkaline phosphatase was found to require concomitant protein synthesis. Ribonucleic acid synthesis, on the other hand, could be inhibited during the 8 hr immediately preceding culmination without affecting the amount of enzyme accumulated. When ribonucleic acid synthesis was inhibited earlier in development, the accumulation of alkaline phosphatase was reduced. Comparison of these results with work on other developmentally controlled enzymes suggests that both transcriptional and translational control occurs during development of D. discoideum. The accumulation of alkaline phosphatase was shown to require specific cellular topography during culmination, suggesting that intercellular interactions which allow synthesis of alkaline phosphatase occur at that stage.
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PMID:Developmental regulation of alkaline phosphatase in Dictyostelium discoideum. 534 4

The intracellular distribution of phosphodiesterase [EC 3.1.4.17] induced by cyclic adenosine 3',5'-monophosphate (cAMP) in Dictyostelium discoideum was studied. When cAMP-treated cells were homogenized and fractionated according to the method of de Duve et al. ((1955) Biochem, J. 60, 604), the specific activity of phosphodiesterase was highest in the light mitochondrial fraction. Peaks of specific activities of alkaline phosphatase (marker enzyme of membrane) and catalase (marker enzyme of peroxisomes) also appeared in the same fraction as phosphodiesterase. However, after centrifugation of the light mitochondrial fraction in a sucrose density gradient, the activity of phosphodiesterase was clearly separated with that of catalase (density 1.19 g/ml) and showed three peaks at lower density (1.10, 1.13, 1.17 g/ml) with good reproducibility. Some parts (1.13, 1.17 g/ml) of the activity in the gradient overlapped with alkaline phosphatase activity, but in the density fraction of 1.10 g/ml the activity of alkaline phosphatase was hardly detectable. When the light mitochondrial fraction was treated with Emulgen 108, or sonicated, phosphodiesterase was more easily solubilized than alkaline phosphatase and catalase, and was found in supernate after centrifugation at 20,000 X g for 30 min. In order to distinguish the locations of the three enzymes, the supernatant of the light mitochondrial fraction treated with Emulgen 108 was subjected to charge shift electrophoresis. The electrophoretic mobilities of phosphodiesterase and catalase were unaffected by ionic detergent. However, alkaline phosphatase shifted towards the anode in the presence of anionic detergent (sodium deoxycholate), and shifted towards the cathode in cationic detergent (cetyltrimethylammonium bromide), relative to nonionic detergent (Emulgen 108) alone. Thus, some part of the phosphodiesterase induced by cAMP may be associated with the plasma membrane, but the remainder is localized in some kind of intracellular particle of lower density. Moreover, the association with the membrane or particle is more easily dissociated than that of alkaline phosphatase, and the liberated phosphodiesterase is rather hydrophilic.
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PMID:Intracellular localization of phosphodiesterase induced by cyclic adenosine 3',5'-monophosphate in Dictyostelium discoideum. 626 72

Dictyostelium myosin is composed of two heavy chains and two pairs of light chains in a 1:1:1 stoichiometry. Myosin purified from amoebae grown in medium containing [32P]phosphate had two of the subunits labeled (0.2-0.3 mol of phosphate per mol of 210,000-dalton heavy chains and approximately 0.1 mol of phosphate per mol of 18,000-dalton light chain). Kinase activities specific for the 210,000-dalton and for the 18,000-dalton subunits have been identified in extracts of Dictyostelium amoebae, and the heavy chain kinase has been purified 50-fold. This kinase phosphorylated Dictyostelium myosin to a maximum of 0.5-1.0 mol of phosphate per mol of heavy chain. Heavy chain phosphate, but not light chain phosphate, can be removed with bacterial alkaline phosphatase. Actin-activated myosin ATPase increased 80% when phosphorylated myosin was dephosphorylated to a level of approximately 0.06 mol of phosphate per mol of heavy chain. This effect could be reversed by rephosphorylating the myosin. The ability of myosin to self-assemble into thick filaments was inhibited by heavy chain phosphorylation. For example, in 80-100 mM KCl, only 10-20% of the myosin was assembled into thick filaments when the heavy chains were fully phosphorylated. Removal of the heavy chain phosphate resulted in 70-90% thick filament formation. This effect on self-assembly could be reversed by rephosphorylating the dephosphorylated myosin. These findings suggest that heavy chain phosphorylation may regulate cell contractile events by altering the state of myosin assembly.
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PMID:Regulation of myosin self-assembly: phosphorylation of Dictyostelium heavy chain inhibits formation of thick filaments. 645 32

Treatment of 6-h differentiated Dictyostelium discoideum cells with the nonionic detergent Triton X-100 dissolves away membranes and soluble components, as judged by marker enzyme distributions, leaving intact a cytoskeletal residue that contains approximately 10% of the cell protein and 50% of the actin. Nitrobenzooxadiazo-phallacidin staining for F-actin and electron microscopy of detergent-extracted whole-mounts indicate that the cytoskeletons retain the size and shape of intact cells and contain F-actin in cortical meshworks. The cytoskeletons contain little if any remaining membrane material by morphological criteria, and the plasma membrane enzymes cyclic nucleotide phosphodiesterase and alkaline phosphatase are absent from the insoluble residue, which retains only 15% of the membrane concanavalin A-binding glycoproteins. This detergent-insoluble residue retains a specific [3H]cAMP-binding site with the nucleotide specificity, rapid kinetics and approximate affinity of the cAMP receptor on intact cells. Upon detergent extraction of cells, the number of cAMP-binding sites increases 20-70%. The binding site is attached to the insoluble residue whether or not the cAMP receptor is occupied at the time of detergent addition. The pH dependence for recovery of the insoluble cAMP-binding site is much sharper than that on intact cells or membranes with an optimum at pH 6.1. Conditions of pH and ionic composition that lead to disruption of the cytoskeleton upon detergent treatment also result in the loss of cAMP binding. During differentiation, the detergent-insoluble cAMP binding increases in parallel with cell surface cAMP receptors and chemotaxis to cAMP.
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PMID:Association of the cyclic AMP chemotaxis receptor with the detergent-insoluble cytoskeleton of Dictyostelium discoideum. 669 97

When cells of the slime mould Dictyostelium discoideum are allowed to starve in the presence of alpha-chymotrypsin, they are blocked in development at the stage where tight aggregates form tips. Analysis of developmentally regulated enzymes has shown that alpha-mannosidase, beta-N-acetylglucosaminidase, threonine deaminase, tyrosine aminotransferase, beta-glucosidase and the carbohydrate-binding protein discoidin are unaffected, but enzymes that show an increase in specific activity during post-aggregative development, namely glycogen phosphorylase, UDP-glucose pyrophosphorylase, UDP-galactose 4-epimerase, UDP-galactose polysaccharide transferase and alkaline phosphatase, did not show the characteristic increase when development was blocked by alpha-chymotrypsin. Recovery of cells from the effects of alpha-chymotrypsin was accompanied by the formation of fruiting bodies and a concomitant increase in the specific activity of UDP-glucose pyrophosphorylase. Uptake or efflux of 45Ca2+ was not altered in the presence of alpha-chymotrypsin. Cells allowed to develop in alpha-chymotrypsin, or treated with the enzyme for 15 min, had a markedly reduced ability to bind cyclic AMP with low affinity; high-affinity binding was unaffected. Pronase had a similar effect on cyclic AMP binding, but trypsin, which does not alter developmental processes, has no effect on cyclic AMP binding to D. discoideum cells.
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PMID:Developmentally regulated enzymes and cyclic AMP-binding sites in Dictyostelium discoideum cells blocked during development by alpha-chymotrypsin. 715 Feb 39

The activities of some enzymes increase during the development of the cellular slime mould, Dictyostelium discoideum. Because optimal specific activity is attained by eachenzyme at a specific developmental stage, development can be followed as a function of enzyme activity. The activity of one of these enzymes, alkaline phosphatase, increases markedly during the late stages of development, making it a potentially useful marker for terminal differentiation. It has been suggested that this increase in activity is due to de novo enzyme synthesis because the increase in activity does not occur in the presence of inhibitors of RNA and protein synthesis. However, we present evidence here of reversible heat activation of membrane-bound alkaline phosphatase which suggests that the increase in alkaline phosphatase activity may be due to an unmasking of pre-existing enzyme by a novel membrane regulatory mechanism.
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PMID:Reversible heat activation of alkaline phosphatase of dictyostelium discoideum and its developmental implication. 743 14

When Dictyostelium discoideum cells are drawn into a fine glass capillary, they rapidly begin the first steps toward the formation of prestalk and prespore zones. Some of the events occur within a minute or two, whereas others follow later. The cells in the front segment are actively motile and those in the hind segment are passive. The volumes of the segments are proportional for different-sized cell masses, and those proportions are the same as those found in normal slugs. When the cells are stained with the vital dye neutral red, the anterior zone becomes darker simultaneously with the formation of the division line. Green fluorescent protein expressed from a stalk-specific promoter is synthesized mostly in the anterior end. Later, this capillary prestalk zone shows a sharp increase in alkaline phosphatase activity, which is known to be characteristic of prestalk cells.
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PMID:Development in one dimension: the rapid differentiation of Dictyostelium discoideum in glass capillaries. 754 98

The effects of benzene hexachloride (BHC), an organochlorine pesticide, on cell growth and phosphatase activities were studied in the growing and developing stages of cells of the cellular slime mould Dictyostelium discoideum exposed to BHC (containing alpha-, beta-, delta- and gamma-isomers) at concentrations of > or = 60 micrograms ml-1. A significant increase in acid and alkaline phosphatase activities was recorded in both growing and differentiating Dictyostelium cells treated with different doses (> or = 60 micrograms/ml) of BHC. The cytotoxicity of BHC has been correlated with the stimulation of acid and alkaline phosphatase activities of this organism.
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PMID:Phosphatase activities in pesticide-treated growing and developing cells of Dictyostelium discoideum. 769 Jul 88

The contractile vacuole complex serves to excrete excess cytosolic water from protists. In the amoeba, Dictyostelium discoideum, the organelle had a bipartite morphology: a large main vacuole (bladder) marked by lumenal alkaline phosphatase was surrounded by numerous satellite vacuoles (spongiomes). Bladders and spongiomes have now been purified for the first time. The spongiome membranes had a high density of surface projections identified as catalytically-active vacuolar proton pumps (V-H(+)-ATPase). Spongiomes were resolved from the pump-poor bladders by immunogold buoyant density shift with antibodies to the V-H(+)-ATPase; they contained little protein other than this pump. It appears that, following homogenization, most of the spongiome dissociated from bladders and populated the proton pump-rich membrane fraction called acidosomes. Isolated bladders were enriched > 40-fold in alkaline phosphatase and phosphodiesterase, the activities of which were > 85% latent. Bladders depleted of spongiomes bore several distinctive polypeptides; they also had an excess of the basepieces of the proton pump over the catalytic heads. Bladder membranes were also lipid-rich and had a distinctive lipid composition. We conclude that the contractile vacuole system in Dictyostelium is a complex of discrete, separable bladder and spongiome membranes. The V-H(+)-ATPase in the spongiome may catalyze the primary energy transduction step for pumping water out of the cytoplasm.
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PMID:Isolation and initial characterization of the bipartite contractile vacuole complex from Dictyostelium discoideum. 829 79


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