EC:3.1.27.5 - FACTA Search

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

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

Oligonucleotides produced by complete pancreatic and T1 RNase digestion of 5S ribosomal RNA from a mouse hepatoma, MH 134, have been separated with two-dimensional electrophoresis and their nucleotide sequences determined. Except for the presence of a 5'-terminal diphosphate, these nucleotide sequences were identical with those of KB cells, confirming the identity of the primary structure of 5S RNA between these animals. Both oligonucleotide patterns produced with these enzymes from 5S RNA of the liver were also identical with those of the hepatoma. All these agree with the strong conservation of 5S RNA genes in animal species. However, when 5S ribosomal RNA was extracted from ribosomes which were prepared from microsomal pellet, pancreatic RNase digest contained two trinucleotides (A-G-Cp and G-A-Cp) that were not found in 5S RNA prepared with a one-step procedure. It was concluded that different isolation procedure might indeed cause artifactual fragments on enzymatic digestion due to internal nicks produced during isolation. The significance of 5'-terminal diphosphate in relation to the biosynthesis of 5S ribosomal RNA is also discussed.
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PMID:Oligonucleotide sequences of pancreatic and T1 ribonuclease digests of 5S ribosomal RNA from mouse cells. 16 96

Rhinovirus type 14 RNA-dependent RNA polymerase complexes were isolated from microsomal and soluble fraction of infected KB cells. Maximum activities were measured at at 6 and 7 hours post inoculation (p.i.) for microsomal and soluble polymerases, respectively. Both polymerase activities are considerably reduced by 8 to 9 hours, p.i., and interval in which the in vivo rate of synthesis of viral RNA is maximal. In vitro RNA products of RNA polymerases in both fractions consist of ribonuclease-sensitive and ribonuclease-resistant RNA of heterogeneous sizes. Detergent treatment of the microsomal RNA polymerase(s) did not affect the total amount of RNA synthesized, the proportion of ribonuclease-sensitive RNA synthesized or the size of the RNA products. The data suggest that RV14RNA polymerase complexes are intially associated with membranes but are then irreversibly released into the soluble phase of the cytoplasm; possible explanations for this phenomena are discussed.
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PMID:Rhinovirus type 14 RNA polymerase complexes. 16 77

Plasma membranes from 6 spontaneously metastasizing and 4 non-metastasizing rat mammary carcinomata were isolated by discontinuous sucrose density gradient centrifugation of microsomal pellets. The starting microsomal fraction contained 40-50% plasma membranes as determined by the levels of 5'-nucleotidase activity, with a negligible amount of nuclear (1%), mitochondrial (5%) and lysomal (7%) contamination. Five distinct fractions (F1-F5) were banded at densities 1 X 09, 1 X 13, 1 X 15, 1 X 17 and 1 X 21 at 25 degrees C, in addition to a pellet (F6) obtained by centrifuging at 76,000 g for 17 h. The fractions F1 through F5, all contained various concentrations of membranous structures, while the pellet (F6) contained only amorphous materials as evidenced by electron microscopy. The F3 fraction at the gradient 1 X 15 had the highest specific as well as total activity of the plasma membrane marker enzyme, with aggregates of the least contaminated plasma membranes in vesicular forms. This fraction also had the lowest specific activity for glucose-6-phosphatase (smooth ER marker) and for beta-D-glucuronidase (lysomal marker), and therefore was considered to be the "cleanest" plasma membrane fraction. When the activity of 4 additional plasma membrane marker enzymes, i.e., alkaline phosphatase, phosphodiesterase I, nucleotide pyrophosphatase and alkaline ribonuclease was determined in the same F3 fraction, their levels were significantly lower in every metastasizing tumour than in the non-metastasizing ones, with the enzyme activity decreasing in direct proportion to the metastasizing capacity. On the other hand, the marker enzymes were high in all non-metastasizing tumours, with the activity seemingly increasing with the immunogenicity of tumour cells. There was no significant difference between the 2 groups of mammary tumours in the levels of sialic acid, hexosamine, phospholipid or cholesterol in the plasma membranes. Thus, the level of plasma membrane marker enzymes is considered an accurate indicator for metastasizing capacity in the rat mammary tumour system.
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PMID:Plasma membrane associated enzymes of mammary tumours as the biochemical indicators of metastasizing capacity. Analyses of enriched plasma membrane preparations. 17 19

Biochemical data provide good evidence of a lack of acid and alkaline RNase activities in ascites tumour cells. Analyses of whole solid tumours appear of doubtful value, but fractionation studies reveal RNase deficiencies in mitochondrial fractions whereas inconsistent results are reported for microsomal fractions. Nuclei, nucleoli, and ribosomes isolated from tumours show relatively weak activities. Large variations are noted in determinations on purified lysosomes. Histochemical analyses by two different approaches demonstrate a multifocal loss of RNase activities in preneoplastic tissues, a lack of activities in cancer cells, and the presence of appreciable activities in stromal tissue and necrotic areas of tumours. These results suggest that RNase activities found in homogenates and cellular fractions of heterogeneous tumours may derive mainly from stromal cells, phagocytes, and extracellular fluids of necrotic areas. A close correlation seems to exist between activation of RNases and tumour regression. A large variety of therapeutic agents induce increases in tumour RNase activities whereas ineffective agents do not. The activation of RNases precedes obvious regression and apparently represents de novo synthesis of RNases in cancer cells. It emerges from these studies that loss of RNase activities could represent a critical event in carcinogenesis, that RNase deficiencies would persist in cancer cells, and that RNase activation would be closely associated with tumour regression. Losses of RNase activities in preneoplastic tissues are followed by changes in the properties of cytoplasmic RNA probably due to alterations in ribosomes in areas of neoplastic transformation. Deficiencies in the RNase system could be the source of abnormalities in cellular RNA or RNA-containing particles that would lead to neoplasia.
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PMID:Ribonucleases and neoplasia. 18 16

A standardized bioassay for transfer of Fv-1 gene-specific resistance to N-tropic and B-tropic murine retroviruses was developed using X plaque reduction in SC-1 (Fv-1-) cells inoculated with virus. Testing of subcellular fractions of restrictive cells showed that the resistance transfer activity was present in the cytoplasmic (microsomal and cytosol) fractions. The activity of the cytoplasmic extract was destroyed by treatment with ribonuclease, but not with deoxyribonuclease or proteases. RNA prepared by phenol-chloroform extraction of mouse tissues, including embryos and livers of weanling mice, transferred Fv-1 locus-specific resistance into DEAE-dextran-treated SC-1 cells. The activity of isolated RNA preparations against virus of the appropriate host-range type has been demonstrated to correspond to the Fv-1 genotypes of the cell sources. The specific transfer of resistance with cellular RNA was effective within a 5- to 6-h period from 2 h before to 4 to 5 after virus infection. Sucrose gradient centrifugation of the RNA showed that the activity sedimented as a broad peak, with an apparent maximum in the 22S region. Affinity chromatography of whole-cell RNA on polyuridylic acid-Sepharose tended to separate more activity into the polyadenylic acid RNA fraction than the non-polyadenylic acid RNA fraction. Except for the reciprocal inhibitory activity for the two host-range virus types, the RNAs of Fv-1n and Fv-1b specificities showed similar properties in all aspects studied.
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PMID:Transfer of Fv-1 locus-specific resistance to murine N-tropic and B-tropic retroviruses by cytoplasmic RNA. 21 Dec 61

Six types of nuclease activities were found to be concentrated in the large granule fraction isolated from rat liver homogenastes by differential centrifugation. Analysis by density equilibration shows that three nucleases are associated with mitochondria: an alkaline ribonulcease (pH optimum 8.8), an alkaline deoxyribonuclease (pH optimum 7.6) and an enzyme acting on polyriboadenylate (pH optimum 7.5). When the outer mitochondrial membrane is ruptured in hypotonic medium, the three mitochondrial nucleases are partially solubilized. Solubilization is however obtained by addition of KCL to the suspension medium. It is concluded that mitochondrial nucleases are localized in the intermembrane space but that an adsorption to the outer face of the inner mitochondrial membrane occurs in sucrose 0.25 M. The mitochondrial localization of alkaline ribonuclease, alkaline deoxyribonuclease and polyadenylate accounts for at least 80% of the activity of liver homogenate; nevertheless, an excess of these enzymes is present in the microsomal fraction. Although no definite conculusion can be reached for the significance of this observation, it is shown by density equilibration analysis that these nuclease are not associated either with ribosomes or with the membranes which are the major component of the microsomal fraction.
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PMID:Hepatic nuclease. 2. Association of polyadenylase, alkaline ribonuclease and deoxyribonuclease with rat-liver mitochondria. 24 Jul 19

Suspensions of rat pancreatic microsomal fraction release alpha-amylase and ribonuclease on incubation at 37 degrees C, but not at 2 degrees C. The release is abolished by proteolytic enzymes. Ribonuclease associated with the microsomal fraction is protected from subtilisin BPN' attack, but is sensitive after release.
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PMID:Proteinase-sensitive release of enzymes from pancreatic microsomal fraction. 31 Nov 98

Experiments presented in this paper suggest that sinusoidal rat liver cells recognize basic groups on proteins and that this recognition results in endocytosis of the proteins. Evidence for involvement of basic groups was obtained in two ways. Firstly, we changed the positively charged amino groups of the cross-linked ribonuclease molecules to neutral or negative by acetylation or succinylation, respectively. The modified proteins did not contain easily reducible disulfide bonds and they were not very sensitive to endoproteases, suggesting that they were not denatured by the acetylation procedures. Acetylation and succinylation reduced uptake of the injected cross-linked ribonuclease derivatives by liver and spleen and abolished their rapid clearance from plasma. In nephrectomized rats about 75% of the polymer, 36% of the acetylated polymer and 32% of the succinylated polymer were endocytosed by liver after 6 h. For the dimer fractions these values were 59%, 23% and 27%, respectively. Autoradiography and subcellular fractionation of liver 30 min post-injection localized the acetylated polymer in the lysosomal/microsomal fraction of sinusoidal liver cells, probably endothelial cells. Secondly, a positive correlation was found between binding of a number of ribonuclease derivatives to the cation exchanger SP-Sephadex G-25 and the rate of endocytosis by sinusoidal liver cells.
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PMID:Endocytosis and breakdown of ribonuclease oligomers by sinusoidal rat liver cells in vivo. II. Effect of charge. 48 53

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