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)

A DNA endonuclease has been purified from eggs of Asterias forbesi by a simple four-step-purification procedure. The purified enzyme is at least 96% pure and is free of phosphatase, phosphodiesterase, and RNase. It has a pH optimum of 6.5 and does not require divalent cations. The enzyme produces 3'-phosphoryl and 5'-hydroxyl end groups. The products of exhaustive hydrolysis can be grouped in two fractions. The first fraction, 40%, contains a small amount of mononucleotides and di-, tri-, tetra-, penta-, and hexanucleo-tides. The second fraction, 60%, contains oligonucleotides larger than hexanucleotides.
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PMID:Purification and properties of a 3'-phosphoryl former endodeoxyribonuclease from eggs of Asterias forbesi. 1 46

Human urine RNase was purified about 2000-fold. The preparation is free from phosphatase, phosphodiesterase and DNase activities. On electrophoresis through polyacrylamide gel at pH 8.3, it migrates toward the anode and stains with periodic acid-Schiff reagent, suggesting that it is acidic and glycoprotein in nature. Its isoelectric point is at pH 4.1. It has a molecular weight of about 21,500. It is thermostable at pH 4.2 and thermolabile at pH 8.5. It has a pH optimum at 6.5. It exhibits highest preference for cytidine 3'-phosphate linkages. Its activity on poly (C) is endonucleolytic. It cleaves poly (C) via intramolecular transphosphorylation. It has no action on cytidine 2': 3'-cyclic phosphate or uridine 2':3'-cyclic phosphate. Its rate of hydrolysis of poly (U) is less than 2% of that of poly C). Poly (A) and poly (G) are totally inert to its action. Its action on poly (C) is inhibited by poly (G), poly (A) and poly (U). It differs from bovine pancreatic Rnase A in its physical, chemical and catalytic properties. It is, however, similar to human serum and pancreatic RNase in all its properties, suggesting that pancreas is its likely source.
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PMID:Purification and properties of a ribonuclease in human urine that hydrolyses polycytidylic acid. 2 Jun 15

By sequential acid treatment, gel filtration and KM-cellulose sorption a 18--20-fold purified preparation of ribonuclease with a yield of 50--60% was obtained from the culture liquid filtrate of Actinomyces rimosus 994. The preparation had a high specific activity of 450,000--600,000 units/mg protein, contained 85--98% protein, insignificant amounts of carbohydrates and hydroxytetracycline, and no quantities of DNase, phosphomonoesterases, phosphodiesterase or proteases. In RNA degradation (preparation of the total yeast RNA of the Sigma Co.) optimal results were obtained at 50 degrees C and pH 7.0--7.2 in phosphate buffer and 7.6--8.0 IN Tris-HCl buffer. The preparation was stable at high temperatures (80--100 degrees) in the wide pH range and during storage in the lyophilized form and in buffer solutions. RNase effect was inhibited by zinc, copper, iron and cobalt cations and activated by beta-mercaptoethanol, citrate and EDTA. Protamine sulphate and urea in low concentrations (0.01% and 1--4 M, respectively) accelerated and in high concentrations (1% and 8 M, respectively) terminated the enzyme reaction. With respect to many properties RNase from Act. rimosus 994 was similar to extracellular RNases, produced by other actinomycetes and fungi.
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PMID:[Preparation of extracellular ribonuclease form Actinomyces rimosus 994]. 3 16

An acid ribonuclease has been purified from HeLa cell lysosomes. The specific activity of the RNase in lysosomes is 8-fold higher than that in nuclei and 15-fold higher than that in the postlysosomal fraction. The purified enzyme showed no detectable DNase, phosphodiesterase, phosphatase, or alkaline RNase activity. The acid RNase binds to Con A-agarose and is inferred to be a glycoprotein. It has a low isoelectric point at pH 3.0 to 3.5, and the optimal pH for activity is between 5.0 and 5.5. The enzyme requires no divalent cation for optimal activity and is totally inhibited by 1 mM Cu2+ or Hg2+. Monovalent cations including Na+, K+, and NH4+ stimulate the activity in low ionic strength buffer. The enzyme degrades rRNA faster than tRNA, and tRNA faster than poly(U); poly(A) and poly(C) are highly resistant. The products from rRNA are mostly oligonucleotides with 3'-phosphate ends. An acid RNase is also present in the lysosomes of L-cells grown in a medium free of serum; it is probably identical to the one described here.
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PMID:Acid ribonuclease from HeLa cell lysosomes. 3 88

The paper describes a method for isolating alkaline ribonuclease from the culture liquid Bacillus subtilis KP 349 which involved: submerged cultivation of the producer on complex and synthetic nutrient media with optimized RNase activity, acid treatment of the total culture liquid, and filtration through perlite. Further treatment may include either spray drying of the culture liquid filtrate or its concentration in a vacuum evaporator, dialysis of the concentrate against distilled water, and dialyzate lyophilization. As a result, commercial RNase preparations with activities of 30--60 thous. and 160--300 thous. units/g, respectively, were obtained. The enzyme purification was carried out by chromatography and rechromatography on phosphocellulose columns. The resultant RNase of Bac. subtilis had a specific activity of 41--44 thous. units/mg protein, contained no nonspecific phosphodiesterase, DNase, acid or alkaline phosphomonoesterases.
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PMID:[Preparation of extracellular ribonuclease from Bacillus subtilis]. 10 17

We have perfused isolated rat livers with hypocalcemic (4.4 mg 100 ml) Krebs-Ringer bicarbonate albumin buffer. After 15 min of perfusion, a substance appeared in the perfusate which decreased rat renal adenylate cyclase activation by parathyroid hormone (PTH). The material in the perfusate was purified greater than 50,000-fold by Bio-Gel P-10 chromatography. The purified antagonist decreased the activation of rat renal cortical adenylate cyclase by PTH, glucagon, and epinephrine 75 to 100%. Concentration response curves for each of the hormones indicated a noncompetitive interaction of the inhibitor with the hormone. The inhibition was not species-specific, as the activation of the parathyroid hormone-responsive adenylate cyclase in cat renal cortex was also abolished by the inhibitor from the perfused rat liver. The inhibitor is a peptide, Mr equal to similar to 1000, which is heat-stable, acid-stable, alkai-labile, and is destroyed by trypsin, leucine aminopeptidase, and elastase. It is not destroyed by phosphodiesterase, 5'-nucleotidase, alkaline phosphatase, neuraminidase, RNase, or phospholipase A. The inhibitor is not produced by isolated rat livers perfused with normocalcemic perfusion media. It is unclear whether the peptide is synthesized by the liver or whether it is a breakdown product of a larger peptide or protein in the liver. This is the first reported peptide inhibitor of adenylate cyclase.
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PMID:Isolation of a unique peptide inhibitor of hormone-responsive adenylate cyclase. 16 24

Partially degenerate oligonucleotides based on peptide sequence were used to isolate cDNA to a 63-kDa bovine brain calmodulin-stimulated phosphodiesterase (CaM-PDE) isozyme. A 412-base pair polymerase chain reaction fragment was obtained and used along with the oligonucleotides to isolate several cDNAs each encoding sequence identical to known peptide sequences from the 63-kDa CaM-PDE. The largest cDNA contained a full-length open reading frame (ORF) encoding a 534 amino acid, 61,005-dalton protein. It had 59% amino acid identity to the 61-kDa bovine brain CaM-PDE and included a carboxyl-terminal conserved domain containing the PDE catalytic domain consensus sequences. The NH2-terminal region fits the criteria for a calmodulin-binding domain. When its expression was driven by a cytomegalovirus promoter on a pCDM8 vector in COS-7 cells, the cDNA encoded a catalytically active, calmodulin-stimulated PDE. Northern analysis of RNA from several tissues with a probe containing much of the conserved PDE catalytic domain showed only a single band of 4.0 kilobases. Hybridization was seen in mRNA from several regions of the central nervous system with the greatest signal in basal ganglia. Strong signals also were seen in other tissues including kidney papilla and adrenal medulla. Antisense RNA probes were used in RNase-protection assays to look for evidence of multiple 63-kDa CaM-PDE transcripts. A catalytic domain probe was fully protected by RNA from cerebral cortex, basal ganglia, cerebellum, hippocampus, adrenal medulla, and kidney papilla. However, a probe to the NH2-terminal region was fully protected only by brain and adrenal medullary RNA indicating the likelihood of one or more isozyme(s) divergent in this region in the kidney papilla.
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PMID:Molecular cloning of cDNA encoding a "63"-kDa calmodulin-stimulated phosphodiesterase from bovine brain. 132 31

We have cloned a 4.2-kilobase pair (kb) cDNA that encodes the cyclic GMP-stimulated phosphodiesterase (cGS PDE) from a bovine adrenal cortex library. The 921-residue polypeptide deduced from the cDNA nucleotide sequence is nearly identical with the complete amino acid sequence of the cGS PDE purified from a soluble bovine heart extract. Moreover, PPD-S49 cells transfected with the cGS PDE cDNA express a soluble cAMP hydrolytic activity that is enhanced by cGMP. Total RNA isolated from several bovine tissues were screened for cGS PDE transcript by Northern blot analysis. The cGS PDE cDNA appears to hybridize to a single 4.5-4.6-kb mRNA species. Although the cGS PDE mRNA is most abundant in the adrenal cortex, it is also concentrated in the adrenal medulla and heart and in anatomically distinct regions of the brain and kidney. A mRNA species encoding a putative variant cGS PDE isoform was detected by RNase protection. Total RNA isolated from adrenal cortex, adrenal medulla, liver, kidney, trachea, lung, spleen, and T-lymphocytes completely protected a 452-base riboprobe encoding 100 residues of the adrenal cortex cGS PDE amino terminus. In contrast, RNAs isolated from brain (cerebral cortex, hippocampus, and basal ganglia) protected only 268 bases of this riboprobe. The RNase protection pattern of this same probe using heart RNA showed major bands at both 268 and 452 bases, suggesting that two different cGS PDE mRNA species are expressed. These results indicate that the cGS PDE is widely expressed in a variety of tissues. Moreover, these studies suggest that at least one different cGS PDE isoform having a structurally distinct amino-terminal domain is expressed in brain and heart.
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PMID:Molecular cloning of a cyclic GMP-stimulated cyclic nucleotide phosphodiesterase cDNA. Identification and distribution of isozyme variants. 165 33

Phosphodiesterase I [EC 3.1.4.1] was purified from normal human urine in a highly purified state free from phosphodiesterase II, RNase, DNase I, DNase II, and phosphatase by column chromatographies of DEAE-Toyopearl, butyl-Toyopearl, Affi-Gel blue, and Sephadex G-150. The molecular weight of the enzyme was 1.9 x 10(5) and the pH optimum around 9.0 with p-nitrophenyl deoxythymidine 5'-phosphate as the substrate. The enzyme hydrolyzed the 3'-5' linkage of various dinucleoside monophosphates at approximately the same rate and the phosphodiester bonds of cyclic 3',5'-mononucleotides to produce mononucleoside 5'-phosphate. The enzyme also hydrolyzed ADP to 5'-AMP and Pi, ATP to 5'-AMP and PPi, and NAD+ to 5'-AMP and NMN. The enzyme activity was abolished by removal of metal ions with EDTA, and the metal-free enzyme was reactivated on the addition of Zn2+. The enzyme activity was also abolished by some reducing agents and the inhibition was reversed by Zn2+. The metal-free enzyme was less stable than the native enzyme, and Zn2+ and Co2+ restored the stability of the metal-free enzyme to the level of the native enzyme. The enzyme degraded oligonucleotides and high molecular nucleotides stepwise from the 3'-termini to give 5'-mononucleotides. The enzyme hydrolyzed single-stranded DNA more preferentially than double-stranded DNA. The enzyme also nicked superhelical covalently closed circular phi X174 DNA to yield first open circular DNA and then linear DNA.
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PMID:Phosphodiesterase I in human urine: purification and characterization of the enzyme. 282 85

Poly ADP-ribosylation of two mouse lymphoma cell lines, L5178Y (LS) and the radiation and alkylating agent resistant derivative AII, was investigated by uptake of [3H]NAD by permeabilised cells into acid-precipitable material that was sensitive to phosphodiesterase but insensitive to DNase and RNase. Basal activities in both lymphoma lines were 3-4-fold greater than in mouse L1210 leukaemia cells. However, total endogenous poly (ADP-R) polymerase activity in both L5178Y cell lines, stimulated by a large excess of DNase in the presence of Triton X-100, was less than half the activity in L1210 cells. Doses of N-methyl-N-nitrosourea (MNU) that produced 20-50% survival of colony-forming units increased poly (ADP-R) in both lymphoma lines by only 25% compared with 377% in L1210 cells when synthesis was measured immediately after a 30-min exposure of MNU. During the first 24 h after MNU AII cells produced a peak of activity that was not seen with LS cells. A second peak was seen in both cell lines between 24 and 48 h following MNU. Concentrations of 3-aminobenzamide (3AB) above 2.5 mM inhibited colony-forming ability of lymphoma cells and equally inhibited uptake of [14C]formate into protein, RNA and DNA indicating that 3AB behaves as a general metabolic poison. Concentrations of 3AB in the toxic range of 3-10 mM inhibited poly (ADP-R) synthesis but no degradation of the polymer was observed. Non-toxic concentrations of 3AB potentiated cell killing by MNU to a similar degree in both lymphoma cell lines. In conclusion, we have found little evidence to support the hypothesis that the differential sensitivity of LS and AII is related to poly ADP-ribosylation. Compared with other mouse cells, L5178Y cells appear deficient in poly (ADP-R) polymerase and poly (ADP-R) glycohydrolase activities.
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PMID:Poly (ADP-ribose) metabolism in alkylated mouse L5178Y cells. 299 Jul 53

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