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 deoxyribonuclease, which requires nucleoside triphosphate for reaction, has been purified about 150-fold from extracts of Bacillus laterosporus. Potassium phosphate and ethylene glycol stabilize the purified enzyme. The enzyme degrades double-stranded DNA about 100 times faster than heat-denatured DNA in the presence of nucleoside triphosphate. Double-stranded DNA is not degraded to any measurable extent in the absence of ATP, but the enzyme exhibits activity toward denatured DNA in the absence of nucleoside triphosphate, and this activity seems to be an intrinsic property of this enzyme protein. The optimum pH is 8.5 and the maximum activity is obtained in the copresence of Mg2+ (8.0 X 10(-3)M) and Mn2+ (7.0 X 10(-5)M). ATP and dATP are most effective and nucleoside di- or monophosphates are ineffective. ATP is converted to ADP and inorganic phosphate during the reaction and the ratio of the amount of ATP cleaved to that of hydrolyzed phosphodiester bonds of DNA is about 3:1. An inhibitor of the enzyme was observed in bacterial extracts prepared by sonic disruption; the inhibitory substance is produced in the bacteria in the later stages of cell growth. Preliminary results show that the inhibitor emerged near the void volume of a Sephadex G-200 column, and was relatively heat-stable, RNase-resistant, and DNase-sensitive.
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PMID:A nucleoside triphosphate-dependent deoxyribonuclease from Bacillus laterosporus. Purification and characterization of the enzyme. 0 Mar 73

The binding of triiodothyronine by Rana catesbeiana tadpole tail fin, tail muscle, kidney, and liver cytosol was studied using dextran-coated charcoal to separate bound and free hormone. A metal ion dependency was suggested by the fact that EDTA decreased the binding of triiodothyronine 80 to 90% in tail fin and tail muscle cytosol. Inhibition of binding in kidney or liver was less, 40 to 50%. This inhibition could be restored by adding an excess of divalent cations with an order of potency of Mn2+ greater than Ca2+ congruent to Co2+ greater than Sr2+ greater than Ba2+ greater than Mg2+. Other chelators, e.g. o-phenanthroline, 8-hydroxyquinoline, and ethylene glycol bis(beta-aminoethylether)-N,N'-tetraacetate also decreased the binding of triiodothyronine, whereas citrate, oxalate, imidazole, and glycine had no effect. The triiodothyronine binding capacity of tail fin cytosol was reduced by EDTA treatment and dialysis against buffer. Ca2+ in the 1 to 10 mM range and Mn2+ at 1 mM could restore the binding to normal levels. Higher Mn2+ increased binding 70% above normal or to Ca2+-restored levels. The triiodothyronine cytosol binding activity was nondialyzable, heat-labile. pH-dependent, pronase-digestible, but unaffected by incubation with trypsin, RNase, and DNase, suggesting that the cytosol binding sites are acidic proteins. Scatchard analysis of triiodothyronine binding by the cytosol of different tissues, revealed Kassoc of 7.1 x 10(6) M(-1), 11.6 x 10(6) M(-1), 3.6 X 10(6) M(-1), and 68.0 x 10(6) M(-1) for tail fin, tail muscle, kidney, and liver cytosol, respectively. The corresponding maximal binding capacities in picomoles per mg of crude cytosol protein in these four tissues were 10.4, 0.86, 1.3, and 0.04, respectively.
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PMID:Metal ion dependence of the binding of triiodothyronine by cytosol proteins of bullfrog tadpole tissues. 0 Mar 82

An RNA-dependent RNA polymerase activity has been found associated with Uukuniemi virions. The enzyme activity is expressed only after disrupting the virions with the nonionic detergent Triton X-100 and is absolutely dependent on Mn2+, whereas Mg2+ is not required, a finding that distinguishes this polymerase from those of other enveloped minus-strand RNA viruses. Within the range pH 7.2 to 8.5 no distinct optimum was found. The optimum temperature was between 37 and 40 C. The reaction was not inhibited by actinomycin D, rifampin, or DNase, whereas RNase was completely inhibitory. The partially RNase-resistant product consisted of rather small-sized RNA, which contained sequences complementary to Uukuniemi virus RNA as shown by hybridization to the template L, M, and S RNA species of Uukuniemi virus.
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PMID:Uukuniemi virus contains an RNA polymerase. 0 May 17

The pH optima were determined for DNases and RNases of the loach eggs. For DNases they are 5.6 and 7.6 and for RNases - 5.2 and 7.2. It is established that Ca++ activates, and Fe++ has not effect on the activity of acid and alkaline DNases, while Mg++, Mn++ and especially Co++, Zn++, Cd++, Cu++ have an inhibitory effect on them. The activities of RNases is stimulated by Ca++ and Fe++, and inhibited by Zn++, Co++, Cd++ and Cu++. Iones Mg++ and Mn++ do not affect these activities. Localization of the above mentioned enzymes was studied by means of differential centrifugation of egg homogenates. Acid DNase is concentrated only in postmicrosomal supernatant liquid, its activity being inhibited in the presence of the nucleomitochondrial and microsomal fractions. Acid RNase is also localized predominantly in postmicrosomal supernatant fraction. Alkaline DNase is found to a great extent in nucleomitochondrial fraction, and alkaline RNase - in postmicrosomal one.
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PMID:[DNases and RNases of Misgurnus fossilis ovocytes]. 0 Aug 35

Specificity of chromatographically homogenous extracellular alkaline RNAase from Pen. crysogenum 152A on RNA, synthetic polynucleotides, dinucleosidemonophosphates and nucleoside-2',3'-cyclophosphates is studied. The enzyme is found to release from RNA guanosine-3'-monophosphate and guanosine-2',3'-cyclophosphate only. Guanylic acid is a 3'-terminal nucleotide of oligonucleotides of different length. The enzyme readily hydrolyses poly-I and practically do not splits poly-G. GpN is demonstrated to be a good substrate for the RNase, while G greater than p hydrolyses with a low rate. The RNAase catalyses the synthesis of GpC (47.7 per cent yield) and GpU (38.8 per cent yield). Thus, the RNAase from Pen. chrysogenum 152A is considered to be guanyl-RNAase.
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PMID:[Specificity of extracellular alkaline RNAase from Penicillium chrysogenum 152A]. 0 Nov 10

The nucleocapsid of the Semliki Forest virus is composed of 34% RNA and 66% protein, or one RNA and about 240 capsid protein molecules. The particle is spherical, with a diameter of 38--39 nm. If the nucleocapsid is exposed to slightly acid pH (6.4--5.6) it undergoes a structural change and is contracted to a 32 nm state. A similar contraction can be effected by RNase treatment, in this case, however, in connection with a loss of RNA. Treatment of the nucleocapsid with 0.2 mM SDS results in dissociation of capsid protein from RNA, an effect which suggests strong RNA-protein interaction. At 0.05 mM SDS the protein remains associated with the RNA, but the S-value is reduced from 150 S to 100 S. Electron micrographs of the 100 S ribonucleoprotein showed irregular and strand-like structures.
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PMID:Properties of Semliki Forest virus nucleocapsid. 0 5

The composition of ribosomal proteins isolated from normal homopoietic and leucemic cells was studied by analytic electrophoresis in polyacrylamide gel. It was found that acid-soluble proteins from polysomal complexes can be separated into 21-22 components in the acid system. There was no significant differences in protein components from normal and leucemic polysomes by their quantity and mobility in polyacrylamide gel. Five protein components possess a ribonuclease activity as it was established by using technique of direct RNase assay in electrophoregrams. All ribonuclease-active components have pH optimum at 7.6-7.8. No differences were detected in the number and activity of particular enzyme components of polysomes isolated from normal hemopoietic and leucemic tissues. It is suggested that the number and presence of RNases in polysome complexes is likely to play not a significant role in regulation of polysome activity, but influence of inhibitors makes this supposition possible.
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PMID:[Polysome ribonucleases of leukemic cells]. 0 3

Specific beta-adrenergic receptors present in membrane preparations of frog erythrocytes were identified by binding of (-)-[3H]dihydroalprenolol, a potent competitive beta-adrenergic antagonist. The (-)-[3H]dihydroalprenolol binding sites could be solubilized by treatment of a purified erythrocyte membrane fraction with the plant glycoside digitonin but not by treatment with a wide variety of other detergents. The binding sites appeared to be soluble by several independent experimental criteria including (a) failure to sediment of 105,000 X g for 2 hours; (b) passage through 0.22-mu Millipore filters; (c) chromatography on Sepharose 6B gels; and (d) electron microscopy. The soluble receptor sites retained all of the essential characteristics of the membrane-bound sites, namely rapid and reversible binding of beta-adrenergic agonists and antagonists; strict stereospecificity toward both beta-adrenergic agonists and antagonists; appropriate structure-activity relationships; saturability of the sites at low concentrations of ligand; no affinity for alpha-adrenergic drugs, nonphysiologically active catechol compounds, and catecholamine metabolites. Based on gel chromatography in the presence of detergent, the molecular weight of the soluble receptor is estimated to be no greater than 130,000 to 150,000. Equilibrium binding studies indicated a KD for the soluble receptor of 2 nM. Hill coefficients (nH) of 0.77 and curved Scatchard plots suggested the presence of negatively cooperative interactions among the solubilized receptors in agreement with previous findings with the membrane-bound sites. Kinetic studies indicated an association rate constant K1 = 3.8 X 10(6) M-1 min-1 and a reverse rate constant k2 = 2.3 X 10(-3) min-1 at 4 degrees. The kinetically derived KD (k2/k1) of 0.6 nM is in reasonable agreement with that determined by equilibrium studies. The soluble receptors were labile at temperature greater than 4 degrees but could be stabilized with high concentrations of EDTA. Guanidine hydrochloride and urea produced concentration-dependent losses of binding activity which were partially reversible upon dialysis. Trypsin and phospholipase A both degraded the soluble receptors but a variety of other proteases and phospholipases as well as DNase and RNase were without effect. Experiments with group-specific reagents indicated that free lysine, tryptophan, serine, and sulfhydryl groups may be important for receptor binding. These studies suggest that the receptor is probably a protein which requires lipids for functional integrity. Data obtained with the solubilized binding sites are consistent with the contention that these sites represent the physiologically relevant beta-adrenergic receptors which have been extracted from the membranes with full retention of their properties.
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PMID:Solubilization and characterization of the beta-adrenergic receptor binding sites of frog erythrocytes. 0 47

Two RNases in bound forms associated with the microsomal membrane and with the ribosomes or unknown particles in pea root tissue were solubilized by subjecting the membrane to sonic oscillation in the presence of EDTA and KC1 and by treating the particles with EDTA, respectively. The RNases were than purified by DEAE-cellulose and Sephadex G-75 column chromatographies. The elution profiles of RNases from the columns were very similar. No significant differences were observed in their electrophoretic mobilities in polyacrylamide gels, in molecular weight, in activation by inorganic ions, urea or phospholipid micelles or in the dependence of their activities upon pH. The purified RNASES were not different from the bound enzymes as regards activation by inorganic ions and urea and the dependence of the activity upon pH. Triton X-100 stimulated the activity only if RNase was in a bound form associated with the microsomal membrane. We propose that the two RNases may be the same molecular species and differ only in the form of association with intracellular structures.
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PMID:Purification and properties of two ribonucleases in different intracellular compartments in pea root tissue. 0 8

Optimal assay conditions are described for 8 hydrolases of Euglena gracilis var. bacillaris, SM-L1 (streptomycin-bleached) strain, 7 of which have an acid pH-optimum. Acid-phosphatase, beta-galactosidase, beta-glucosidase, b-fucosidase, cathepsin D, RNase, DNase, and an esterase are active in cell homogenates. Amylase has very low activity, and beta-glucuronidase, arylsulfatase, beta, N-acetyl-glucosaminidase, alpha-fucosidase, and alpha- and beta-mannosidase are inactive.
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PMID:Hydrolytic enzymes of Euglena gracilis: characterization and activity as a function of culture age and carbon deprivation. 0 4


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