Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
 16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A comparative study was made of the specificity and some properties of the RNase and DNase activities of exonuclease A5. The results obtained indicate that RNA and denatured DNA are hydrolyzed in the same active center of the enzyme and, consequently, exonuclease A5 is an enzyme which is not specific for the sugar of nucleic acids. The data reported are important when exonuclease A5 is used as a specific reagent in investigations of nucleic acids.
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PMID:Ribonuclease and deoxyribonuclease activity of exonuclease A5. 1 11

The properties of intracellular RNase in disintegrated cell suspensions of Saccharomyces cerevisiae have been studied. The influence of salt addition and/or incubation of the suspension on the activity of RNase and on the degradation of endogenous RNA was determined. No significant change in the RNase activity in the disintegrated suspensions was obtained by addition of 3% NaCl or by incubation at 50 degrees C with 3% NaCl. During the incubation with NaCl the active RNase was able to degrade endogenous RNA. By incubation without salt the RNase was inactivated. Inactivation also occurred after extraction at alkaline pH. The RNase had an optima at pH 5-6 and temperatures between 50-60 degrees C. The main part of the RNase in the unincubated suspension was soluble also at pH 4.0. No serious protein degradation occurred during the short time incubation needed for RNA reduction. 70% of the protein in the suspensions was recovered in the precipitate at pH 4.0 after 20 min of incubation. The corresponding protein recovery from unincubated suspensions was 77%.
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PMID:Properties of intracellular ribonuclease utilized for RNA reduction in disintegrated cells of Saccharomyces cerevisiae. 1 72

Nuclear and cytoplasmic RNase activities at pH 5.0 and 7.6 were analyzed in regenerating mouse liver at 6, 12, 24, 48, and 72 h after partial hepatectomy. Two different nucleus-isolation methods were used, one in a EDTA-spermidine medium free from divalent cations, and one in a sucrose medium containing these ions. During regeneration, the cytoplasmic alkaline RNase activity in the sucrose medium was unchanged, but in the spermidine medium showed an increase toward the end of the period. Also the cytoplasmic acid RNase activity was unchanged in sucrose medium, whereas in the spermidine it slightly increased during regeneration. The nuclear alkaline RNase activity showed a notable peak 6 h after the operation and later decreased. Also the nuclear acid RNase activity displayed a similar marked peak 6 h after operation, then decreased, but remained high throughout the period. The nuclear RNase activities were about 1% of the corresponding cytoplasmic RNase activities. The absolute activities varied greatly according to the nucleus-isolation methods. In the controls, the absolute activity of nuclear alkaline RNase was slightly above (1.2 times) that of the corresponding acid activity after the spermidine method. After the sucrose method the nuclear alkaline activity was 2.7 times that of the acid activity. The absoluted activity of cytoplasmic alkaline RNase was slightly above (1.2 times) the acid activity after the spermidine method but after the sucrose method it was only 0.25 times that of the acid activity. In sham-operated animals, cytoplasmic acid and alkaline RNase activities generally were fairly similar to the normal value, but corresponding nuclear activities showed marked variations indicating an influence by anesthesia.
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PMID:Nuclear and cytoplasmic RNase-activity in regenerating mouse liver. 1 13

Thyroids of goitrogen-treated rats contain increased amounts of a protein inhibitor of ribonuclease activity at pH greater than 7 (alkaline ribonuclease inhibitor, ARI). We report here that thyroids from hyperthyroid patients contain more ARI than normal human thyroids. This increase parallels RNA concentration. The inhibitor is heat labile, inactivated by sulfhydryl blocking agents, and has a molecular weight near 50, 000 daltons. ARI is quantitated by its activity against bovine pancreatic RNase, but it also inhibits human thyroid RNase. Analyses of a solitary toxic nodule and its surrounding suppressed tissue confirm in tissues from a single patient our results in tissue from numbers of thyrotoxic and euthyroid individuals and decrease the likelihood that changes are induced by antithyroid medication. A possible regulatory role for ARI is suggested.
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PMID:Alkaline ribonuclease inhibitor in human thyroid. 1 8

Four urinary alkaline ribonucleases (RNase, EC 3.1.4.22) were purified from patients with nephrotic syndrome using phosphocellulose, DEAE-cellulose and Sephadex G-75 chromatographiy. These enzymes were designated as RNases 1--4, respectively, in order of elution on phosphocellulose chromatography. The respective purification of each fraction was 41-, 23-, 34- and 27-fold with a total recovery of 25%. The pH optima of these RNases were around 8.5 with Tris/HCl buffer and the reaction was activated by mono- and divalent cations, such as Na+, K+, Mg2+ and Ca2+, but inhibited by Fe2+, Cu2+ and Zn2+. EDTA had little effect on the velocity of reaction. The molecular weights of RNases 1--4 were estimated by gel filtration as 45 000, 32 000, 20 000, and 13 000, respectively. Each enzyme hydrolyzed pyrimidine nucleotides preferentially with higher affinity for poly(C) than poly (U) as determined with synthetic polymers and was free from other nucleolytic enzymes. The patients with renal disorders excreted one to four RNases in urine and the number of enzymes increased as the concentration of urinary protein increased. On the other hand, normal subjects excreted a single fraction essentially identical to RNase 1.
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PMID:Purification and properties of urinary alkaline ribonucleases from patients with nephrotic syndrome. 1 98

In order to obtain information on the nature of the amino acid residues involved in the activity of ribonuclease U1 [EC 3.1.4.8], various chemical modifications of the enzyme were carried out. RNase U1 was inactivated by reaction with iodoacetate at pH 5.5 with concomitant incorporation of 1 carboxymethyl group per molecule of the enzyme. The residue specifically modified by iodoacetate was identified as one of the glutamic acid residues, as in the case of RNase T1. The enzyme was also inactivated extensively by reaction with iodoacetamide at pH 8.0 with the loss of about one residue each of histidine and lysine. When RNase U1 was treated with a large excess of phenylglyoxal, the enzymatic activity and binding ability toward 3'-GMP were lost, with simultaneous modification of about 1 residue of arginine. The reaction of citraconic anhydride with RNase U1 led to the loss of enzymatic activity and modification of about 1 residue of lysine. The inactivated enzyme, however, retained binding ability toward 3'-GMP. These results indicate that there are marked similarities in the active sites of RNases T1 and U1.
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PMID:Chemical modifications of ribonuclease U1. 1 50

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

The specific activity of alkaline RNase II was l00 to 1800 times higher in mouse pancreas than in mouse liver, serum, ascites fluid, and Ehrlich ascites cell grown intraperitoneally. Ehrlich ascites cells grown in cell culture medium had a much lower alkaline RNase II activity than cells grown intraperitoneally. Chromatography on CM-52 cellulose of acid- and heat-treated preparations showned a considerable heterogeneity of the mouse enzymes. Depending on the source of the extract, two to six forms fo alkaline RNase were eluted. Pancreatic extract contained two RNase forms. These also seemed to be present as minor components in preparations from other sources except Ehrlich ascites cells grown in vitro. Ehrlich ascites cells grown in vivo contained forms of the RNase which were not present in other extracts. Possible reasons for this heterogeneity were investigated. In addition to their stability to acid and heat the different RNase forms were similar in that they were much more active at alkaline pH than at acidic pH, they did not require divalent metal ions for activity, and they degraded RNA 'endonucleolytically.' Also, native DNA, denatured DNA, and poly A were poor substrates compared with RNA. Some differences seemed to exist, however, with respect to their abilities to degrade poly U and poly C and their sensitivities to the endogenous RNase inhibitor.
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PMID:Heterogeneity of alkaline ribonuclease in the mouse and Ehrlich ascites cells. 2 28

Four temperature bacteriophages (designated as PF1, PF2, PF3 and PF4) were isolated from lysogenic strains of Clostridium perfringens type A. On the basis of plaque morphology, pH stability, DNase and RNase resistance, buoyant density, one-step growth parameters and electron microscope phage dimensions, it seems that these phages are different and unrelated. Calcium was required for better phage replication. Bacterial strain S107 appears to be the only UV-inducible strain as compared with the other three lysogenic strains. PF2 has a unique pattern of pH stability showing two optima values: one at pH 5 and the second at pH 8-9. Generally, all four phages have a better resistance in acid than in alkaline pH values. The CsC1 equilibrium centrifugation patterns reveal low figures for phage PF1, PF2 and PF3 and show off the fact that PF4 lysates contain two viral particules different with respect to their densities, a property which other determinations failed to demonstrate. Each phage, except PF4, is well characterized by the parameters of the one-step growth cycle.
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PMID:Properties of four temperate bacteriophages active on Clostridium perfringens type A. 2 5


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