Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Incubation of DDT1 MF-2 hamster vas deferens cells with beta-adrenergic agonists results in a time- and concentration-dependent decreases in both beta-adrenergic receptor (beta AR) responsiveness and receptor number. Receptor mRNA levels were quantified by DNA-excess solution hybridization by using a 170-nucleotide single-stranded probe derived from the hamster beta 2AR cDNA. RNA blot analysis of poly(A)+-selected RNA with the solution probe revealed a 2.2-kilobase species. Digestion of the RNA/solution probe mixture with S1 endonuclease revealed a single species of RNA (170 bases) that was protected by the solution probe. DDT1 MF-2 cells were found to contain 0.38 pg of beta AR mRNA per microgram of total cellular RNA. Incubation (16 hr) with isoproterenol decreased beta AR mRNA levels in cells by 40%. This agonist-induced decrease in receptor mRNA levels was found to be dependent on the time of incubation and the dose of agonist. The decrease in beta AR mRNA was half-maximal at 0.1-0.5 microM isoproterenol. The beta-adrenergic antagonists CGP 20712A (beta 1-selective) and ICI 118,551 (beta 2-selective) blocked in a dose-dependent fashion the ability of isoproterenol to effect receptor mRNA levels. The beta 2-adrenergic antagonist displayed a potency 25-fold greater than that of the beta 1-adrenergic antagonist, in agreement with the subtype of receptor (beta 2) expressed by these cells. For down-regulated cells in which receptor mRNA levels declined in response to agonist, the addition of the antagonist ligand (-)-propranolol (1 microM) was able to restore receptor mRNA levels to 90% of the control value within 12 hr. Full recovery of steady-state beta AR mRNA was achieved within 60 hr. These studies provide a molecular explanation for the down-regulation of GTP-binding regulatory protein (G protein)-linked cell-surface receptors that accompanies desensitization.
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PMID:Down-regulation of beta-adrenergic receptors: agonist-induced reduction in receptor mRNA levels. 289 21

The Mn2+-dependent endonuclease activity associated with the avian myeloblastosis virus RNA-directed DNA polymerase has been shown to be activated by ATP in the presence of Mg2+. In the presence of Mn2+ the endonucleolytic activity was stimulated about 3-fold by the addition of ATP. The earlier identified Mr = 40,000 Friend murine leukemia virus (F-MuLV)-associated endonuclease which functions in the presence of both Mg2+ and Mn2+ has also been shown to be similarly stimulated by ATP. For both endonuclease activities stimulation was only observed at ATP concentrations above 0.5 mM, and it did not increase upon elevating the ATP concentration above 2.5 mM. ADP and dATP also stimulated both activities, although not to the same extent as ATP. GTP had no apparent effect and AMP seemed to inhibit both activities. The effect ATP analogs had on the F-MuLV associated endonuclease activity could suggest that the endonuclease reaction in the presence of ATP might involve the cleavage of beta-gamma phosphate bonds in ATP. Neither adenyl-5'-yl imidodiphosphate nor (beta, gamma-methylene)adenosine 5'-triphosphate stimulated the activity, whereas significant stimulation was observed in the presence of (alpha, beta-methylene)adenosine 5'-triphosphate. Although no ATPase activity could be detected in the purified F-MuLV endonuclease preparation, the data do not exclude the possibility that ATP may be cleaved in amounts which are equivalent to the number of nicks introduced into DNA by the virus-associated endonuclease. In the presence of ATP and Mg2+ the F-MuLV-associated endonuclease nicked both supercoiled and linear DNA duplexes extensively, although the former was nicked more readily than the latter. Single-stranded DNA functioned poorly as a substrate. The nicks introduced by the enzyme contained a 5'-phosphoryl terminus and a 3'-hydroxyl group.
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PMID:Effect of ATP on the Friend Murine leukemia virus-associated endonuclease activity and the endonuclease activity of the avian myeloblastosis virus RNA-directed DNA polymerase. 616 71

We propose a mechanism for the priming of influenza viral RNA transcription by capped RNAs in which specific 5'-terminal fragments are cleaved from the capped RNAs by a virion-associated endonuclease. These fragments would serve as the actual primers for the initiation of transcription by the initial incorporation by the initial incorporation of a G residue at their 3' end. We show that virions and purified viral cores contain a unique endonuclease that cleaves RNAs containing a 5' methylated cap structure (m7GpppXm) preferentially at purine residues 10 to 14 nucleotides from the cap, generating fragments with 3'-terminal hydroxyl groups. RNAs containing the 5'-terminal structure GpppG could not be cleaved to produce these specific fragments. Consistent with our proposed mechanism, those capped fragments that function as primers could be linked to a G residue in transcriptase reactions containing alpha-32P-GTP as the only ribonucleoside triphosphate. The pattern of G and C incorporation onto these primer fragments suggests that this incorporation is directed by the second and third bases at the 3' end of the virion RNA template, which has the sequence 3' UCG. Primer fragments with a 3'-terminal A residue were used more efficiently than those with a 3'-terminal G residue, indicating a preference for generating an AGC sequence in the viral mRNA complementary to the 3' end of the virion RNA. Cleavage of the RNA primer and initiation of transcription are not necessarily coupled, because a 5' fragment isolated from one reaction could be used as a primer when added to a second reaction. Uncapped ribopolymer inhibitors of viral RNA transcription inhibited the cleavage of capped RNAs.
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PMID:A unique cap(m7GpppXm)-dependent influenza virion endonuclease cleaves capped RNAs to generate the primers that initiate viral RNA transcription. 626 60

An endonuclease activity associated with purified proteinase K-treated intracisternal A-particles was identified and characterized. The activity required divalent cations, preferring Mn2+ to Mg2+. Salt concentrations above 50 mM inhibited the activity. The endonuclease was greatly stimulated by ATP, ADP, and dATP, whereas AMP appeared to produce a slight inhibition. GTP had no apparent effect on the activity. The enzyme introduced single-stranded nicks into DNA and nicked preferentially supercoiled DNA duplexes in the presence of ATP, although linear duplexes also functioned as substrates. Single-stranded DNA was not nicked to any great extent. The molecular weight of the enzyme was estimated to be about 40,000. The characteristics of this enzyme are very similar to those of the endonuclease found associated with Friend murine leukemia virus.
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PMID:Properties of an intracisternal A-particle-associated endonuclease activity which is stimulated by ATP. 627 25

Purified influenza viral cores catalyze the entire process of viral RNA transcription, which includes the endonucleolytic cleavage of heterologous RNAs containing cap 1 (m(7)GpppNm) structures to generate capped primers 10-13 nucleotides long, the initiation of transcription via the incorporation of a guanosine residue onto the primers, and elongation of the viral mRNAs [Plotch, S. J., Bouloy, M., Ulmanen, L & Krug, R. M. (1980) Cell 23, 847-858]. To identify which viral core protein (nucleocapsid protein, P1, P2, or P3) recognizes the cap 1 structure on the RNA primer, we irradiated (UV) endonuclease reactions carried out by viral cores in the absence of ribonucleoside triphosphates, with a primer RNA labeled in its cap 1 structure with (32)P. The labeled cap was crosslinked to a protein that had a mobility similar to that of the P3 protein, the smaller of the two basic P proteins, in both one- and two-dimensional gel electrophoresis. This strongly suggests that this crosslinked protein is the viral P3 protein. Competition experiments with unlabeled RNAs containing or lacking a cap 1 structure established that this protein recognizes the cap 1 structure on RNAs. This protein remained associated with the cap throughout the transcription reaction, even after the viral mRNA molecules were elongated. To identify the viral core protein that catalyzes the initiation of transcription via the incorporation of a guanosine residue onto primer fragments, we irradiated transcription reactions carried out by viral cores in the presence of [alpha-(32)P]GTP as the only ribonucleoside triphosphate with an unlabeled primer RNA. A labeled guanosine residue was crosslinked to a protein that had a mobility similar to that of the P1 protein, the larger of the two basic P proteins, in both one-and two-dimensional gel electrophoresis. The transcription reaction conditions required to bring this protein in close association with a labeled guanosine residue so that crosslinking could occur indicated that this association most likely occurred coincident with the guanosine residue's being incorporated onto the primer. These results suggest that the viral P1 protein catalyzes this incorporation and hence initiates transcription.
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PMID:Role of two of the influenza virus core P proteins in recognizing cap 1 structures (m7GpppNm) on RNAs and in initiating viral RNA transcription. 695 Mar 80

In Escherichia coli, the recBC enzyme is required for several cellular functions including recombination proficiency, UV resistance, and DNA breakdown following radiation damage to the chromosome, all of which appear to be also under the control of the recA gene. We have studied the influence of purified recA protein on the various nucleolytic activities of the recBC enzyme. Conditions were chosen (with GTP as nucleoside triphosphate) under which recA protein binds to single-stranded DNA without catalyzing D-loop formation and which are favorable for the DNase activities of the recBC enzyme. We found that the degradation of linear duplex DNA was unaffected, but that the endonuclease and exonuclease activities for single-stranded DNA were inhibited by about 50% and 35%, respectively. In contrast, no protection of circular duplex DNA containing single-stranded regions was observed. The results suggest that the recA protein by itself may not act as a potent inhibitor of recBC enzyme-dependent DNA degradation in vivo.
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PMID:Effect of recA protein on the DNAse activities of the recBC enzyme. 702 59

A DNA ligase has been purified from a subnuclear soluble replication complex isolated from adenovirus type 2-infected human KB cells. DNA ligase activity could not be demonstrated using an exogenous template until the complex was dissociated, suggesting that the ligase activity may be a component of the complex. The purified enzyme was free of endonuclease, exonuclease, 5'-nucleotidase, and phosphatase activities, and had a molecular weight of 105 000, as estimated by sedimentation in a glycerol gradient. The ligase requires ATP and a divalent cation for activity. The optimum of the reaction is at pH 7.8 in 50--100 mM Tris-HCl buffer and 10--20 mM MgCl2. Monovalent salts greatly stimulate ligase activity and the optimum was found at 150 mM. The reaction is very sensitive to high temperature; maximum activity was observed at 25--30 degrees C. ATP is the sole required cofactor and NAD, dATP and GTP could not replace the requirement for ATP. The Km for ATP is 60 microM. The Km for DNA is 250 microgram/ml or 1.6 nmol of terminal phosphate/ml and thus the enzyme shows relatively weak affinity for exogenous DNA. The maximum conversion of 32P into a phosphatase-resistant form is approximately 1.3% of the total, whereas T4 ligase, under the same conditions, can convert more than 25% of phosphate into a resistant form.
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PMID:Purification and properties of a DNA ligase from a soluble DNA replication complex. 735 2

5'-Exonuclease-2 has been purified 17,000-fold from whole cell extracts of Saccharomyces cerevisiae. A 116-kDa polypeptide parallels the enzyme activity when the purified protein is examined by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. Amino-terminal sequencing of the 116-kDa protein shows that the sequence agrees with that encoded by the HKE1 gene, previously reported to encode exonuclease-2. A 45-kDa polypeptide also parallels the enzyme activity upon purification, and Sephacryl S-200 molecular sieve chromatography of the purified enzyme shows a parallel elution of most of the 116- and 45-kDa polypeptides, suggesting a close association of the two. Enzyme instability has precluded a more detailed analysis of their associative properties. The enzyme hydrolyzes RNA substrates to 5'-mononucleotides in a processive manner. Measurements of its substrate specificity and mode of action are compared with 5'-exonuclease-1. Restriction cut single-stranded T7 DNA is hydrolyzed at approximately 5-7% of the rate of 18 S rRNA of yeast by both enzymes. That 5'-exonuclease-2 hydrolyzes in a processive manner and lacks endonuclease activity is shown by the finding that [5'-32P]GMP is the only product of its hydrolysis of [alpha-32P]GTP-labeled synthetic RNAs. That 5'-exonuclease-2 hydrolyzes by a 5'-->3' mode is shown by: 1) its poor hydrolysis of both 5'-capped and triphosphate-ended RNA substrates; 2) the products of its hydrolysis of [5'-32P,3H](pA)4; and 3) the accumulation of 3'-stall fragments when a strong artificial RNA secondary structure is present in synthetic RNAs. 5'-Exonuclease-1 hydrolyzes the synthetic RNAs and (pA)4 in an identical manner.
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PMID:5'-exonuclease-2 of Saccharomyces cerevisiae. Purification and features of ribonuclease activity with comparison to 5'-exonuclease-1. 760 67

We examined the 5' ends of Hantaan virus (HTN) genomes and mRNAs to gain insight into the manner in which these chains were initiated. Like those of all members of the family Bunyaviridae described so far, the HTN mRNAs contained 5' terminal extensions that were heterogeneous in both length and sequence, presumably because HTN also "cap snatches" host mRNAs to initiate the viral mRNAs. Unexpectedly, however, almost all of the mRNAs contained a G residue at position -1, and a large fraction also lacked precisely one of the three UAG repeats at the termini. The genomes, on the other hand, commenced with a U residue at position +1, but only 5' monophosphates were found here, indicating that these chains may not have initiated with UTP at this position. Taken together, these unusual findings suggest a prime-and-realign mechanism of chain initiation in which mRNAs are initiated with a G-terminated host cell primer and genomes with GTP, not at the 3' end of the genome template but internally (opposite the template C at position +3), and after extension by one or a few nucleotides, the nascent chain realigns backwards by virtue of the terminal sequence repeats, before processive elongation takes place. For genome initiation, an endonuclease, perhaps that involved in cap snatching, is postulated to remove the 5' terminal extension of the genome, leaving the 5' pU at position +1.
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PMID:The 5' ends of Hantaan virus (Bunyaviridae) RNAs suggest a prime-and-realign mechanism for the initiation of RNA synthesis. 763 20

Restriction of DNA by the Escherichia coli K-12 McrBC restriction endonuclease, which consists of the two subunits McrB and McrC, depends on the presence of modified cytosine residues in a special constellation. From previous work by others it was known that restriction of 5-methylcytosine-containing DNA requires two methylated 5'-PuC sites separated by approximately 40-80 non-defined base pairs. Here we show that binding of the McrBC nuclease is mediated exclusively by the McrB subunit. McrB has a low affinity for non-methylated DNA, with which it forms low molecular weight complexes. The affinity for DNA is significantly increased, with variations depending on the sequence context, by hemi- or fully methylated 5'-PuC sites. Binding to such substrates yields high molecular weight complexes, presumably involving several McrB molecules. Methylation at unique 5'-PuC sites can be sufficient to stimulate DNA binding by McrB. As such substrates are not cleaved by the nuclease, restriction apparently requires the coordinated interaction of molecules bound to neighbouring 5'-PumC sites. The binding properties of McrB exhibit some similarities to recently identified eukaryotic proteins interacting in a non-sequence-specific manner with DNA containing methylated 5'-CpG sequences and might point to a common molecular origin of these proteins. In addition to DNA, McrB also binds GTP, an essential cofactor in DNA restriction by McrBC. McrC neither binds to DNA nor modulates the DNA binding potential of McrB. As McrC is essential for restriction it appears to predominantly function in catalysis.
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PMID:McrB: a prokaryotic protein specifically recognizing DNA containing modified cytosine residues. 778 18


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