EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The binding sites of ribosomal proteins L18 and L25 on 5S RNA from Escherichia coli were probed with ribonucleases A, T1, and T2 and a double helix specific cobra venom endonuclease. The results for the protein-RNA complexes, which were compared with those for the free RNA [Douthwaite, S., & Garrett, R. A. (1981) Biochemistry 20, 7301--7307], reveal an extensive interaction site for protein L18 and a more localized one for L25. Generally comparable results, with a few important differences, were obtained in a study of the binding sites of the two E. coli proteins on Bacillus stearothermophilus 5S RNA. Several protein-induced changes in the RNA structures were identified; some are possibly allosteric in nature. The two prokaryotic 5S RNAs were also incubated with total 50S subunit proteins from E. coli and B. stearothermophilus ribosomes. Homologous and heterologous reconstitution experiments were performed for both RNAs. The effects of the bound proteins on the ribonuclease digestion of the RNAs could generally be correlated with the results obtained with the E. coli proteins L18 and L25, although there was evidence for an additional protein-induced conformational change in the B. stearothermophilus 5S RNA, which may have been due to a third ribosomal protein L5.
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PMID:Binding site of ribosomal proteins on prokaryotic 5S ribonucleic acids: a study with ribonucleases. 617 24

A multiple mutant strain of Escherichia coli containing mutations affecting the exoribonucleases, RNase II, RNase D, and RNase BN, and also the endonuclease, RNase I, was constructed by P1-mediated transduction. Extracts of the mutant strain were lacking the aforementioned RNase activities. The multiple mutant displayed normal growth in both rich and minimal media at a variety of temperatures, recovered from starvation essentially as the wild-type parent, and could support the growth of a variety of bacteriophages. In addition, RNA synthesis was normal and no precursor RNA accumulation was observed. The properties of the mutant strain indicate that the three exoribonucleases are not essential for the viability of E. coli. The implications of these findings to our understanding of RNA processing and degradation are discussed.
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PMID:A multiple mutant of Escherichia coli lacking the exoribonucleases RNase II, RNase D, and RNase BN. 620 70

We have extensively purified from Krebs II ascites cells, although not until homogeneity, a ribonuclease which preferentially cleaves natural or synthetic double-stranded RNA substrates (RNase D); this specificity is also supported by its sensitivity to inhibition by 10(-5) M ethidium bromide. It does not degrade RNA-DNA hybrids and is, therefore, clearly distinct from previously characterized RNases H (Cathala, G., Rech, J., Huet, J., and Jeanteur, Ph. (1979) J. Biol. Chem. 254, 7354-7361). It shows no requirement for a divalent cation and is inhibited by all kinds of nucleic acids regardless of their secondary structure. It acts exclusively as an endonuclease, as shown by the analysis of degradation products, and yields 5'-phosphate termini. This enzyme is able to introduce discrete nicks into purified HeLa 45 S preribosomal RNA as well as into HeLa heterogenous nuclear RNA packaged within naturally occurring nuclear ribonucleoprotein particles. It is, therefore, an interesting candidate for an RNA-processing enzyme.
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PMID:Isolation and characterization of a ribonuclease activity specific for double-stranded RNA (RNase D) from Krebs II ascites cells. 624 30

The isolated brush border membrane of Hymenolepis diminuta contained ribonuclease (RNase) activity which was demonstrable using yeast RNA or synthetic homopolymers of adenylic, cytidylic, inosinic, or uridylic acids as substrates. Polyguanylic acid was not hydrolyzed by worm RNase. RNase activity was inhibited by EDTA and divalent cations as well as sulfhydryl blocking and reducing agents. Polyguanylic acid and DNA were also inhibitors of RNase activity; these compounds were not hydrolyzed, but inhibited the hydrolysis of other substrates, possibly by nonproductive substrate binding. Data suggested that RNase (endonuclease) was probably the major enzyme activity in the degradation of long chain polyribonucleotides at the work's surface, while phosphodiesterase (exonuclease) activity did not contribute significantly to the hydrolysis of these compounds.
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PMID:Partial characterization of ribonuclease (RNase) activity from the isolated and solubilized brush border of Hymenolepis diminuta. 626 42

The secondary structure of an adenovirus associated low molecular weight RNA (VAI-RNA) has been studied by partial digestion with T1-RNase and S1-endonuclease followed by T1-fingerprint analysis. The empirical secondary structure has been compared with two computer generated models based on minimal free energy of the structure. The results suggest that VAI-RNA in solution has a compact structure with a free energy of around -60 kcal with two stems and four bulge regions. The implication of this structure for the function of VAI-RNA is discussed.
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PMID:The conformation of adenovirus VAI-RNA in solution. 627

1. After dimethylnitrosamine (DMNA) administration to mice, the content of poly(A)-containing RNA decreases rapidly in the postmicrosomal fraction of the liver. We report here that the loss of free mRNA is not a result of increased nucleolytic activity. On the contrary, a decreased activity of microsomal endonuclease, assayed by its effect on polyribosomal mRNA, was demonstrated already 15 min after the administration of DMNA at 37.5 mg/kg body wt. The loss of activity was more pronounced in the rough than in the smooth membranes. Total detergent-released microsomal nucleases, as assayed by use of labelled poly(U) as substrate, showed a less rapid decline. No corresponding increase in enzyme activities was observed in the postmicrosomal fraction. 2. The dimethylnitrosamine effect on the microsomal endonuclease was not accounted for by altered lysosomal contamination of the microsomal fraction. 3. No early effect of dimethylnitrosamine administration was found on the cytoplasmic ribonuclease inhibitor.
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PMID:Non-involvement of nucleolytic activities in the early effect of dimethylnitrosamine on the content of free mRNA in mouse liver. 627 31

An endonuclease, which was originally identified for its RNA polymerase inhibitory activity, was isolated from rat liver endoplasmic reticulum. The enzyme yields on gel chromatography four active fractions of different molecular weights (Mr 5.3 X 10(4), 9 X 10(4), 1.55 X 10(5) and Sephacryl S-200 fraction at V0). Each fraction contains polypeptide chains which give a single band on sodium dodecylsulphate electrophoresis (Mr 5.4 X 10(4). This indicates that the enzyme is an oligomeric protein and each of its subunits exhibits the same or very similar molecular weights. Deoxyribonucleoside and ribonucleoside triphosphates can bind to the endoplasmic reticulum nuclease. Binding is enhanced in the presence of divalent cations particularly Mg2+. The enzyme exhibits mainly RNase activity but can also degrade denatured DNA and DNA . RNA hybrids which contain breaks in one of the two strands. Poly(A) and mainly poly(U) are most susceptible to its nucleolytic activity whereas poly(C) is completely resistant.
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PMID:Endoplasmic reticulum nuclease. Purification and specificity. 627 70

A gene for ribonuclease S protein, has been chemically synthesized and cloned. The gene is designed to have 25 specific restriction endonuclease sites spaced at short intervals, permitting its structure to be rapidly modified. This flexibility facilitates tests of hypotheses relating the primary structure of the enzyme to its physical and catalytic behavior.
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PMID:Total synthesis and cloning of a gene coding for the ribonuclease S protein. 632

Employing the recombinant runaway replication plasmid pDPK13 [sbcB+], an exonuclease I-overproducing derivative of Escherichia coli K12 has been constructed. The strain SK4258 has exonuclease I activity 140-400-fold higher than wild type control levels. A new purification procedure has been developed such that the protein can be purified to near homogeneity and is free of endonuclease and RNase activities. The specific activity of the purified enzyme is 10-fold higher than reported previously (Ray, R.K., Reuben, R., Molineux, I., and Gefter, M. (1974) J. Biol. Chem. 249, 5379-5381). Native exonuclease I is a single polypeptide having Mr = 55,000 with a Stokes radius of 3.12 nm.
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PMID:Amplification and purification of exonuclease I from Escherichia coli K12. 634 75

Human liver tissues obtained at autopsy from two patients chronically infected with hepatitis B virus (HBV) were found to contain several distinct species of HBV DNA. Southern blot analysis using a nick-translated HBV [32P]DNA probe identified specific DNA bands migrating at the positions expected for linear double-stranded DNA of 3.6 and 2.0 kb. These DNA bands were shown to represent relaxed circular and closed circular (supercoiled) HBV DNA, respectively. In addition to these distinct bands several minor bands as well as a heterogeneous population of HBV DNA molecules were present. When infected cell nuclei were isolated, and the nuclear and cytoplasmic nucleic acid separately analyzed, the nuclear fraction contained the 2.0-kb DNA species. This species was shown to be supercoiled 3.2-kb HBV DNA by electron microscopy, restriction endonuclease digestion, and thermal denaturation. The cytoplasmic fraction contained DNA forms similar to those found in virions isolated from plasma (i.e., migration in the position of linear double-stranded molecules of 3.6 and 3.2 kb) and no supercoiled DNA was detected. Particles isolated from the cytoplasmic fraction were able to incorporate dNTPs into viral DNA sequences. Southern blot analysis of the nucleic acid isolated from the particles revealed the presence of HBV DNA forms migrating in positions expected for 3.6- and 3.2-kb linear double-stranded molecules as well as a heterogeneous population of HBV molecules. The 3.6- and 3.2-kb species were identified as relaxed circular and double-stranded linear genome-length HBV DNA. Digestion of the viral nucleic acid with pancreatic ribonuclease increased the electrophoretic mobility of a portion of the heterogeneous HBV molecules and resulted in the appearance of a distinct 1.9-kb DNA band suggesting the same viral DNA was complexed with RNA. Experiments to be reported elsewhere showed this DNA species to be genome-length minus-strand HBV DNA which was released from DNA-RNA hybrid molecules by RNase digestion. Thus, supercoiled HBV DNA exists free in the nucleus of infected liver cells and cytoplasmic particles contain relaxed circular and linear HBV DNA as well as a heterogeneous population of HBV DNA and DNA-RNA hybrid molecules, and a DNA polymerase reaction in the particles results in incorporation of dNTP into DNA strands of these molecules.
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PMID:Hepatitis B virus DNA forms in nuclear and cytoplasmic fractions of infected human liver. 648 54

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