EC:3.1.30.2 - FACTA Search

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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 ATP-dependent DNase from Hemophilus influenzae digests double-stranded linear DNA molecules exonucleolytically while hydrolyzing large amounts of ATP to ADP. Various cross-linked linear duplex DNA molecules are partially resistant to the exonuclease action. Vaccinia DNA, containing natural terminal cross-links (probably in the form of terminal single-stranded loops), is much more slowly degraded than comparable "open-ended" DNA molecules, and ATP is consumed at a proportionately lower rate. It is postulated that the vaccinia DNA molecules undergo slow terminal cleavage by the single strand specific endonuclease activity of the enzyme, and are then rapidly degraded by the double strand exonuclease activity. Phage T7 DNA, containing an average of 100 4',5'8-trimethylpsoralen cross-links/molecule at random internal sites, is digested only to the extent of 2 to 3%. However, ATP hydrolysis continues at a linear rate long after DNA digestion has ceased. A stable enzyme-DNA complex is formed as demonstrated by co-sedimentation of DNA and ATPase activity in sucrose gradients. The hypothesis is advanced that the enzyme digests exonucleolytically to the first cross-link at each end of the DNA molecules where further movement is prevented. The enzyme then remains bound at the cross-links and functions continuously as an ATPase.
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PMID:Action of ATP-dependent DNase from Hemophilus influenzae on cross-linked DNA molecules. 13 99

The molecular basis for the inhibition of the Ca2+,Mg2+-dependent endonuclease resulting from the formation of poly(adenosine diphosphate ribose) (ADP-Rib) was studies in a simplified system containing purified rat liver or bull semen endonuclease, purified rat liver poly(ADP-Rib) synthetase, [3H]NAD+, and DNA. Poly-(adp-rib) synthetase activity was stimulated when Ca2+, Mg2+-dependent endonuclease was added to the reaction mixture in place of histones, suggesting that the endonuclease can act as an acceptor for ADP-Rib. Evidence was presented to show that the ADP-Rib moiety of [3H]NAD+ was incorporated in the endonuclease fraction. The [3H]ADP-Rib bound to the endonuclease was in the form of monomers and oligomers and not long chain polymers. The present results suggest that the Ca2+,Mg2+-dependent endonuclease was ADP-ribosylated when the endonuclease was incubated with poly(ADP-Rib) synthetase and NAD+.
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PMID:Evidence for adenosine diphosphate ribosylation of Ca2+, Mg2+-dependent endonuclease. 23 25

6-Nitroso-1,2-benzopyrone and 3-nitrosobenzamide, two C-nitroso compounds that inactivate the eukaryotic nuclear protein poly(ADP-ribose) polymerase [NAD+:poly(adenosine diphosphate D-ribose) ADP-D-ribosyltransferase, ADPRT, EC 2.4.2.30] at one zinc-finger site, completely suppressed the proliferation of leukemic and other malignant human cells and subsequently produced cell death. Tumoricidal concentrations of the drugs were relatively harmless to normal bone marrow progenitor cells and to superoxide formation by neutrophil granulocytes. The cellular mechanism elicited by the C-nitroso compounds consists of apoptosis due to DNA degradation by the nuclear calcium/magnesium-dependent endonuclease. This endonuclease is maintained in a latent form by poly(ADP-ribosyl)ation, but inactivation of ADPRT by C-nitroso drugs derepresses the DNA-degrading activity. ADPRT is thus identified as a critical regulatory enzyme component of a DNA-binding multiprotein system that plays a central function in defining DNA structures in the intact cell.
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PMID:Induction of endonuclease-mediated apoptosis in tumor cells by C-nitroso-substituted ligands of poly(ADP-ribose) polymerase. 150 87

Two classes of extremely toxic proteins kill eukaryotic cells by covalently modifying unique structural features of components that are essential for protein synthesis. Intoxication by these proteins results from the entry of a catalytic fragment into the cytoplasm. One class is typified by diphtheria toxin and Pseudomonas exotoxin A. The catalytic component of these toxins ADP-ribosylates and inactivates elongation factor 2 which is an essential participant in protein synthesis. This modification occurs at a unique post-translational histidine derivative, diphthamide, that is present in the ribosomal binding site of the elongation factor. The two toxins differ in their molecular organization but appear to possess identical reaction mechanisms and very similar active sites. The other class contains two types of toxins typified, respectively, by alpha-sarcin, a member of a family of fungal toxins, and ricin, a member of a group of closely related plant proteins collectively termed ribosome-inactivating proteins. The catalytic components of the two types of toxins in this second class inactivate the large ribosomal subunit through two different hydrolytic alterations of 23-28S RNA. alpha-Sarcin and its congeners act as a specific endonuclease whereas ricin and its congeners act as a specific N-glycosidase. These hydrolytic cleavages occur at a pair of adjacent nucleotides within a highly conserved sequence near the 3' terminus of 23-28S RNA. The covalent integrity of this region of RNA is essential to elongation factor-dependent ribosomal functions and is located within the ribosomal binding domain of these factors. Both of these classes of toxins are being employed as 'magic bullets' to eliminate pathological cells. By combining the catalytic component of these toxins with various cell targeting components, useful and specific anticancer and immunomodulatory agents have been created.
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PMID:Protein toxin inhibitors of protein synthesis. 159 11

Efficient homologous pairing de novo of linear duplex DNA with a circular single strand (plus strand) coated with RecA protein requires saturation and extension of the single strand by the protein. However, strand exchange, the transfer of a strand from duplex DNA to the nucleoprotein filament, which follows homologous pairing, does not require the stable binding of RecA protein to single-stranded DNA. When RecA protein was added back to isolated protein-free DNA intermediates in the presence of sufficient ADP to inhibit strongly the binding of RecA protein to single-stranded DNA, strand exchange nonetheless resumed at the original rate and went to completion. Characterization of the protein-free DNA intermediate suggested that it has a special site or region to which RecA protein binds. Part of the nascent displaced plus strand of the deproteinized intermediate was unavailable as a cofactor for the ATPase activity of RecA protein, and about 30% resisted digestion by P1 endonuclease, which acts preferentially on single-stranded DNA. At the completion of strand exchange, when the distal 5' end of the linear minus strand had been fully incorporated into heteroduplex DNA, a nucleoprotein complex remained that contained all three strands of DNA from which the nascent displaced strand dissociated only over the next 50 to 60 minutes. Deproteinization of this intermediate yielded a complex that also contained three strands of DNA in which the nascent displaced strand was partially resistant to both Escherichia coli exonuclease I and P1 endonuclease. The deproteinized complex showed a broad melting transition between 37 degrees C and temperatures high enough to melt duplex DNA. These results show that strand exchange can be subdivided into two stages: (1) the exchange of base-pairs, which creates a new heteroduplex pair in place of a parental pair; and (2) strand separation, which is the physical displacement of the unpaired strand from the nucleoprotein filament. Between the creation of new heteroduplex DNA and the eventual separation of a third strand, there exists an unusual DNA intermediate that may contain three-stranded regions of natural DNA that are several thousand bases in length.
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PMID:RecA protein reinitiates strand exchange on isolated protein-free DNA intermediates. An ADP-resistant process. 214 51

Agents that induce DNA strand breaks evoke a drop in the NAD content in mouse thymocytes. A decrease in the endogenous NAD content that occurs immediately after gamma-irradiation of thymocytes is entirely attributed to the activation of poly(ADP-ribosylation). The addition of 5 mM benzamide before irradiation prevents the postirradiation drop of the NAD level but has no effect on chromatin degradation and cell death. In contrast to liver nuclei, pre-incubation of mouse thymic nuclei with NAD had no effect on the subsequent chromatin endonucleolysis by Ca2+/Mg2+-dependent endonuclease. It is suggested that the NAD-poly(ADP-ribose) polymerase system is probably not the trigger in the radiation-induced programmed death of mouse thymocytes, but may merely be indicative of the radiation response of these cells.
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PMID:Is the NAD-poly (ADP-ribose) polymerase system the trigger in radiation-induced death of mouse thymocytes? 257 Aug 13

Incubation of isolated rat liver nuclei with ATP, NAD+, and submicromolar Ca2+ concentrations resulted in extensive DNA hydrolysis. Half-maximal activity occurred with 200 nM Ca2+, and saturation of the process was observed with 1 microM Ca2+. ATP stimulated a calmodulin-dependent nuclear Ca2+ uptake system which apparently mediated endonuclease activation. Ca2+-activated DNA fragmentation was inhibited by the inhibitor of poly(ADP-ribose) synthetase, 3-aminobenzamide, and was associated with poly(ADP-ribosyl)ation of nuclear protein. The characteristics of this endonuclease activity indicate that it may be responsible for the Ca2+-dependent fragmentation of DNA involved in programmed cell death (apoptosis) and in certain forms of chemically induced cell killing.
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PMID:Calcium-activated DNA fragmentation in rat liver nuclei. 270 97

The hamster elongation factor 2 gene was isolated from genomic libraries of diphtheria toxin- and Pseudomonas aeruginosa exotoxin A-resistant cells containing non-ADP-ribosylatable elongation factor 2, and its structure was determined by a combination of restriction endonuclease mapping and DNA sequence analysis. The entire gene is about 6 kilobases long and has 13 exons. Almost all the introns are about 90-200 bases long, except the first and third, which are about 1 kilobase and 400 bases long, respectively. The first exon is processed just after the initiation codon for translation. The promoter of this gene was also characterized. As this gene contains the mutation conferring resistance to diphtheria toxin and P. aeruginosa exotoxin A, introduction of this gene into mammalian cells results in expression of toxin resistance. Using this characteristic, gene expression by deletion mutants of the 5'-flanking region were examined, and results showed that about 60 base pairs upstream of the TATA sequence were most efficient for expression of the elongation factor 2 gene.
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PMID:Complete nucleotide sequence and characterization of the 5'-flanking region of mammalian elongation factor 2 gene. 283 76

The protein components required for generation of cohesive ends in vitro from circular bacteriophage P2 DNA have been purified to near homogeneity. In the presence of ATP, the purified products of P2 genes M and P together with empty phage capsids (comprised primarily of the N protein) mediate site-specific cleavage of circular P2 DNA at the cohesive end site (cos). This terminase or ter system also utilizes circular DNAs of bacteriophages P4 and 186, introducing site-specific scissions at cos sites within these molecules. The ter reaction exhibits a peculiar requirement for a circular DNA substrate. Substrate activity is greatly reduced when circular P2, P4, or 186 DNAs are linearized by restriction endonuclease hydrolysis. Furthermore, multimeric P4 DNA molecule sites are also essentially inactive in the linear form but are active in the circular state. The dependence of ter action on a circular substrate is not due to inhibition of the system by linear DNA, nor does it appear to reflect a requirement for substrate superhelicity since circular P4 DNA containing single strand scissions is subject to terminase action. The terminase reaction is supported by ATP, dATP, or beta, gamma-imido ATP, but not by other ribonucleoside triphosphates ADP, alpha, beta-methylene ATP, or beta, gamma-methylene ATP. A DNA-dependent ATPase, which hydrolyzes ATP to AMP, copurifies with the P2 P protein and is inactivated with the same kinetics as P activity upon treatment with N-ethylmaleimide. The ATPase does not display specificity for P2 DNA in vitro.
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PMID:In vitro maturation of circular bacteriophage P2 DNA. Purification of ter components and characterization of the reaction. 298 39

Bacteriophage beta 45 of Corynebacterium diphtheriae was harvested. The extracted DNA of the bacteriophage was digested by the restriction endonuclease BamHI and inserted into the BamHI cleavage site of pUC19 vector plasmid. Plasmid pNVY5 containing a mutant gene crm45 of diphtheriae toxin in a 3.9 bpn fragment was isolated from the hybrid plasmids obtained. Cell free extracts of E. coli strain TG1 (pVNY5) contain the nontoxic protein crm45 possessing the specific enzymatic activity of diphtheriae toxin (ADP ribosylation on wheat elongation factor two). According to orientation of BamHI fragment in pNVY5 plasmid it is concluded that the crm45 gene is expressed using its own promoter.
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PMID:[Cloning in Escherichia coli of the mutant gene coding the diphtheria toxin]. 302 74

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