EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bis(monoacylglycero)phosphate was purified from the livers of chloroquine-treated rats and labeled with tritium by a nonreductive catalytic exchange procedure. The mechanism of its degradation by rat liver lysosomes has been examined. A substantial amount of bis(monoacylglycero)P is degraded to monoglyceride and lysophosphatidic acid by a lysosomal phosphodiesterase having an acid pH optimum. Some bis(monoacylglycero)P is degraded to lysophosphatidylglycerol by lysosomal phospholipase A. In contrast, other phosphoglycerides have been reported to be degraded by sequential deacylation in lysosomes. The initial rate of breakdown of bis(monoacylglycero)P is only 10% of the rate observed for dioleoylphosphatidylcholine. [3H]Lysophosphatidylglycerol conversion to [3H]bis(monoacylglycero)P is stimulated by unlabeled bis(monoacylglycero)P, resulting in a futile cycle which allows the resynthesis of bis(monoacylglycero)P from its breakdown product, lysophosphatidylglycerol. This futile cycle and the unusual sn-1-glycerophospho-sn-1'-glycerol stereoconfiguration of the water-soluble backbone (Joutti, A., Brotherus, J., Renkonen, O., Laine, R., and Fischer, W. (1976) Biochim. Biophys. Acta 450, 206-209) may be important factors in the marked resistance of bis(monoacylglycero)P to degradation by lysosomal acid hydrolases.
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PMID:Degradation of bis(monoacylglycero)phosphate by an acid phosphodiesterase in rat liver lysosomes. 3 89

1. A phosphodiesterase that cleaves glycerophosphoinositol into glycerophosphate and inositol has been detected in rat tissues. 2. The enzyme requires Mg2+ (Mn2+) and has a pH optimum of 7.7. 3. The richest sources of the enzyme are kidney and intestinal mucosa. In pancreas subcellular fractions it occurs largely in the microsomal fraction. 4. The enzyme is inhibited by excess substrate and by the reaction product glycerophosphate. 5. Temperature-stability studies and other observations distinguish the enzyme from other membrane-bound phosphodiesterases active at an alkaline pH e.g. glycerophosphoinositol inositophosphohydrolase, glycerophosphocholine diesterase, inositol cyclic phosphate phosphodiesterase and phosphodiesterase I.
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PMID:sn-Glycero(3)phosphoinositol glycerophosphohydrolase. A new phosphodiesterase in rat tissues. 4 May 50

A transfer factor-like activity was prepared by Sephadex G-25 chromatography of immune guinea pig leukocyte lysates. This isolated material leads to antigen-dependent migration inhibition and thymidine uptake by nonimmune lymphoid cells. Tests of the "transfer factor" from guinea pigs immunized to either ovalbumin or bovine gamma-globulin demonstrated the donor specificity of the in vitro activity. The activity is susceptible to heat (56 degrees C), alkali (0.5 M sodium hydroxide), pronase, and phosphodiesterase. The pronase susceptibility is blocked by traysylol, a protease inhibitor; the phosphodiesterase susceptibility is not bocked by traysylol. The guinea pig factor was purified further by alkaline phosphatase treatment. Sephadex G-25 chromatography, and DEAE-cellulose chromatography. The final product, active in vitro, represents about 0.03% of the cellular material absorbing 260 nm light, and contains polymerized amines and phosphate. Gel electrophoresis of the fluram-reactive components suggests a limited heterogeneity of the DEAE-cellulose-purified material. These data are consistent with the active "transfer factor" molecule including both peptide and phosphate-containing components.
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PMID:Specificity and structural analysis of a guinea pig transfer factor-like activity. 6 75

In Bacillus subtilis Marburg strain, single-point mutations in the phoP locus brought about simultaneous losses of the major activities of alkaline phosphatase (APase) and alkaline phosphodiesterase (APDase). Revertants recovered the two activities. APases with APDase activity were purified from the membrane fraction of B. subtilis 6160-BC6 and from the culture fluid of an APase-secreting B. subtilis mutant strain, RAN 1. In addition to these major APases with APDase activity, at least two kinds of phosphodiesterase (PDase) without phosphatase activity were found in the cytoplasmic supernatants of RAN 1 and an APase-less B. subtilis mutant strain, SP25. Another minor APase with a molecular weight of about 80,000, which had almost no PDase activity, was isolated from the membrane fraction of strain 6160-BC6. Enzyme distribution in subcellular fractions from various strains cultured in high- and low-phosphate media was analyzed. The PDases did not cross-react with rabbit antiserum against the RAN 1 APase with APDase activity. The main component of the PDases had a molecular weight of about 80,000 and was most active at pH 8.0. These results suggest that APase with APDase activity is different from PDases detected in cytoplasmic supernatants and that phoP is the structural gene for the phosphate-repressible APase with APDase activity.
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PMID:Alkaline phosphatase possessing alkaline phosphodiesterase activity and other phosphodiesterases in Bacillus subtilis. 7 71

The effects of various agents on the newly identified cyclic CMP phosphodiesterase (C-PDE) in crude extracts of a number of rat tissues and on the enzyme partially purified from the rat liver were examined. Papaverine and 1-methyl-3-isobutylxanthine were without effects on C-PDE at concentrations that inhibited up to 90% of cyclic AMP phosphodiesterase (A-PDE) and cyclic GMP phosphodiesterase (G-PDE) activities. When assayed using 1 micron substrates, theophylline inhibited C-PDE to a lesser extent than A-PDE and G-PDE. 2'-Deoxy cyclic AMP (specific A-PDE inhibitor) and 2'-deoxy cyclic GMP (specific G-PDE inhibitor) were relatively poor and non-specific inhibitors for C-PDE. Imidazole, while augmenting the high Km A-PDE and G-PDE from the liver but not from the heart, was without effect on the liver C-PDE but stimulated the heart C-PDE. Potassium phosphate was more specific in inhibiting C-PDE than A-PDE and G-PDE. The present findings suggest that C-PDE represents a potential site of specific pharmacological regulations, and that C-PDE may be a separate enzyme distinguishable from the purine cyclic nucleotide class of phosphodiesterases.
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PMID:Effects of phosphodiesterase inhibitors, imidazole and phosphate on cyclic CMP phosphodiesterase are different from those on cyclic AMP and cyclic GMP phosphodiesterases. 8 41

The DNA polymerase induced by Bacillus subtilis bacteriophage PBS2 has a Stokes radius of 7.2 in buffers of high ioninc strength, suggesting a molecular weight in the range 145,000 to 195,000. The polypeptide bands observed on gel electrophoresis in dodecyl sulfate have apparent molecular weights of 78,000 and 69,000 (and possibly another 27,000) in equimolar amounts. In buffers of low ionic strength, the enzyme appears to form large aggregates and even precipitates, with about 90% loss of activity. A nuclease activity co-purifies with the PBS2 DNA polymerase and shows similar responses to changes in pH, MgCl2, N-ethylmaleimide, temperature, and dextran sulfate levels. The nuclease produces deoxyribonucleoside 5'monophosphates from denatured DNA containing thymine or uracil. No endonuclease activity is detectable on supercoiled DNA. The inhibition of nuclease activity by added deoxyribonucleoside triphosphates, the DNA-dependent turnover of triphosphates, to free monophosphates during DNA polymerization, the inhibition of nuclease activity by 3'-phosphates on the DNA template-primer, and the pattern of digestion of 5'-[32P]phosphate-labeled DNA all indicate that the PBS2 DNA polymerase-associated hydrolytic activity is a 3' leads to 5'-exonuclease.
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PMID:Characterization of the Bacillus subtilis bacteriophage PBS2-induced DNA polymerase and its associated exonuclease activity. 10 39

A substance has been purified from isolated nuclei of Physarum polycephalum by equilibrium and velocity gradient centrifugations, ion exchange chromatography and gel filtration which has a high molecular weight, can be labeled in vivo with 32P, is heat stable and resistant to amylases, proteases, nucleases and phosphodiesterase but is sensitive to phosphatases or hydrolysis. This material consists of phosphate and glycerol. It selectively inhibits in vitro transcription of RNA polymerases, predominantly the homologous enzyme A by binding to the enzyme. In the presence of this inhibitor of transcription a stable RNA polymerase-template complex cannot be formed. Binding to and inactivation of RNA polymerase is reversible at high ionic strength.
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PMID:Characterization of an endogenous transcription inhibitor from Physarum polycephalum. 15 53

A mixed bacterial population that has been isolated by enrichment culture is capable of growth on Fyrquel 220, a commercial triaryl phosphate lubricant, as sole carbon source. The mixture was dominated by a yellow, Gram-negative rod which made up greater than 60% of the mixture. However, all attempts to grow this organism in pure culture on triaryl phosphate were unsuccessful. The mixed population was also capable of growth on tri-o-cresyl phosphate, trixylenyl phosphate, and triphenyl phosphate as sole carbon sources. Viable cell numbers increased 20- to 30-fold, reaching a maximum after 72-96 h growth. Only a small portion of the triaryl phosphate was used for growth; the major part was emulsified and remained in the culture medium. No evidence of extracellular enzymes capable of triaryl phosphate degradation could be found in concentrates of the culture supernatant after growth, though traces of what may have been triaryl phosphate breakdown products were observed. Cell-free extracts of the mixed culture catalyzed the release of inorganic phosphate when incubated with Fyrquel 220, tri-o-cresyl phosphate, trixylenyl phosphate, or triphenyl phosphate, indicating the presence of a phosphotriesterase or of a phosphodiesterase of wide specificity.
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PMID:Utilization of triaryl phosphates by a mixed bacterial population. 16 28

A number of 2-substituted cyclic nucleotide derivatives were synthesized and investigated as activators of cAMP-dependent protein kinase and as substrates for and inhibitors of cAMP phosphodiesterase. Ring closure of 5-amino-1-beta-D-ribofuranosylimidazol-4-carboxamide cyclic 3',5'-phosphate (1) with various aldehydes according to a new procedure (Meyer, R. B., Jr., Shuman, D.A., and Robins, R. K. (1974), J. Am. Chem. Soc. 96, 4962) gave new derivatives of adenosine cyclic 3',5'-phosphate with the following 2-substituents: n-propyl, n-hexl, n-octyl, n-decyl, styryl, o-methoxyphenyl, and 2-thienyl. Alkylation of 2-mercaptoadenosine cyclic 3',5'-phosphate (20, Meyer et al., 1974) gave new cAMP derivatives with the following 2-substituent: ethylthio, n-propylthio, isopropylthio, allylthio, n-decylthio, and benzylthio. Deamination of 2-methyl-,2-n-butyl-, and 2-ethylthioadenosine cyclic 3',5'-phosphate. Using multiple regression analysis, a striking relationship was found between the relative potency of the compounds as activators of bovine brain cAMP-dependent protein kinase and parameters describing the hydrophobic, steric, and electronic character of the substituents on these compounds. All compounds were substrates for a cyclic nucleotide phosphodiesterase preparation from rabbit kidney. Additionally, the compounds were as a group, good inhibitors of the hydrolysis of cAMP by phosphodiesterase preparations from rabbit lung, beef heart, and dog heart.
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PMID:2-substituted derivatives of adenosine and inosine cyclic 3',5'-phosphate. Synthesis, enzymic activity, and analysis of the structural requirements of the binding locale of the 2-substituent on bovine brain protein kinase. 16 24

A phosphohydrolase from Enterobacter aerogenes which hydrolyzes phosphate mono- and diesters has been purified approximately 50-fold to apparent homoeneity and crystallized. The enzyme is produced when the bacteria utilize phosphate diesters as sole phosphorus source. From sedimentation equilibrium experiments the molecular weight of the native enzyme is 173,000; from sodium dodecyl sulfate polyacrylamide gel electrophoresis the subunit molecular weight is 29,000, indicating that the enzyme is hexameric. The hydrolytic activity of the enzyme using both mono- and diesters is maximal at pH 5; THE Km of the enzyme for bis-p-nitrophenyl phosphate is constant from pH 5 to 8.5 whereas that for p-nitrophenyl phosphate increases about 40-fold as the pH increases over the same range. The phosphodiesterase activity is not inhibited by chelating agents but is inhibited by several divalent metal ions. 31-P NMR spectroscopy was used to identify the hydrolysis products of glycoside cyclic phosphates. The enzyme-catalyzed hydrolysis of methyl beta-D-ribofuranoside cyclic 3:5-phosphate yields exclusively the 5-phosphate whereas that of adenosine 3:5-monophosphate yields a 4:1 mixture of 3- and 5- AMP.
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PMID:Purification and properties of a phosphohydrolase from Enterobacter aerogenes. 16 97

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