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 avian retroviral pol gene-encoded DNA endonuclease (pol-endo) has been shown to selectively cleave the viral long terminal repeat sequences (LTRs) in single-stranded DNA substrates in a region known to be joined to host DNA during integration (G. Duyk, J. Leis, M. Longiaru, and A.M. Skalka, Proc. Natl. Acad. Sci. USA 80:6745-6749, 1983). The preferred sites of cleavage were mapped to the unique U5/U3 junctions found only in covalently closed circular DNA molecules containing two tandem LTRs. The cuts occurred three nucleotides 5' to the axis of symmetry of the 12-of-15-base-pair nearly perfect inverted repeat which marks the LTR junction. Experiments with double-stranded supercoiled DNA substrates revealed a similar specificity for nicking. Also, the endonuclease associated with the pol cleavage product, pp32, has the same specificity as the alpha beta form. The limits of sequence required for site-selective cleavage near the U5/U3 junction were established with single-stranded DNA substrates. A domain no larger than 44 base pairs allowed site-selective cleavage in each strand in vitro. Recognition of either strand appeared to be independent of the other, and in each case, the critical sequence was asymmetrically distributed with respect to the U5/U3 junction. The predominant contribution was from the U5 domain; this is consistent with its conservation in the LTR sequences of a number of avian sarcoma and leukosis viruses.
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PMID:Circles with two tandem long terminal repeats are specifically cleaved by pol gene-associated endonuclease from avian sarcoma and leukosis viruses: nucleotide sequences required for site-specific cleavage. 241 65

The influence of nucleosomes on the activity of two chromatin-associated apurinic/apyrimidinic (AP) DNA endonuclease activities, pIs 9.2 and 9.8, from normal and xeroderma pigmentosum, complementation group A (XPA), lymphoblastoid cells was examined. These AP endonuclease activities were studied on non-nucleosomal and nucleosomal plasmid pWT830/pBR322 DNA which had been reconstituted with core (H2A, H2B, H3, H4) or total (core plus H1) histones from normal or XPA cells. Both nucleosomal and non-nucleosomal DNA was rendered partially AP by alkylation with 12.5 mM methyl methanesulfonate, followed by heating it at 70 degrees C, to produce approximately three AP sites per DNA molecule. The activities of both normal lymphoblastoid AP endonuclease activities on nucleosomal AP DNA, reconstituted with core histones, was approximately 2.5 times greater than that on non-nucleosomal AP DNA. When histone H1 was added to the system, this increase was reduced. XPA AP endonuclease activities, on the other hand, did not show any increase in activity on nucleosomal AP DNA reconstituted with core histones. These differences between normal and XPA endonuclease activities on AP nucleosomal DNA were the same regardless of whether histones from normal or XPA cells were used in the reconstituted system.
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PMID:Enhancement of two apurinic/apyrimidinic endonuclease activities from normal but not xeroderma pigmentosum lymphoblastoid cells by nucleosome structure. 242 53

The addition of paraquat (methyl viologen) to a growing culture of Escherichia coli K-12 led within 1 hr to a 10- to 20-fold increase in the level of endonuclease IV, a DNase for apurinic/apyrimidinic sites. The induction was blocked by chloramphenicol. Increases of 3-fold or more were also seen with plumbagin, menadione, and phenazine methosulfate. H2O2 produced no more than a 2-fold increase in endonuclease IV activity. The following agents had no significant effect: streptonigrin, nitrofurantoin, tert-butyl hydroperoxide, gamma rays, 260-nm UV radiation, methyl methanesulfonate, mitomycin C, and ascorbate. Paraquat, plumbagin, menadione, and phenazine methosulfate are known to generate superoxide radical anions via redox cycling in vivo. A mutant lacking superoxide dismutase was unusually sensitive to induction by paraquat. In addition, endonuclease IV could be induced by merely growing the mutant in pure O2. The levels of endonuclease IV in uninduced or paraquat-treated cells were unaffected by mutations of oxyR, a H2O2-inducible gene that governs an oxidative-stress regulon. The results indicate that endonuclease IV is an inducible DNA-repair enzyme and that its induction can be mediated via the production of superoxide radicals.
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PMID:Endonuclease IV of Escherichia coli is induced by paraquat. 243 76

A chromatin-associated apurinic/apyrimidinic (AP) DNA endonuclease activity, pI 9.8, from both normal human and xeroderma pigmentosum, complementation group A (XPA), lymphoblastoid cells was examined for its ability to bind AP DNA using a filter binding assay. The endonuclease activity from normal cells produced significantly greater binding to AP DNA than to untreated DNA, but this increase in binding was not observed when the XPA endonuclease was incubated with AP DNA versus untreated DNA. These results indicate that the XPA AP endonuclease activity is deficient in its ability to bind to AP DNA.
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PMID:Deficient DNA binding of an apurinic/apyrimidinic DNA endonuclease activity from xeroderma pigmentosum cells. 245 50

The DNA endonuclease (Aendo) and DNA topoisomerase (Atopo) activities in liver nucleus extracts of normal rats, in DENA-induced hepatomas and in liver tissues around tumours were investigated. The profile of nuclear endonucleases measured in the presence of 2 mM CaCl2 + 5 mM MgCl2, or 5 mM MnCl2, or 5 mM MgCl2, or 2 mM CaCl2 (pH 7.4), or I mM EDTA (pH 5.0) was different in normal and tumour tissues. Mn2+-dependent endonuclease was the main endonuclease in the tumour tissue, whereas Ca2+, Mg2+-dependent endonuclease was the main one in the normal liver and in the tissue around the tumour. An increase in the Mn2+-dependent endonuclease activity correlated with a decrease in the hepatoma differentiation level. Atopo of types I and II increased in the tissue around the tumour. Aendo and Atopo of cellular nuclei decreased in animals given DENA without the liver tumour.
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PMID:[The activity of nuclear endonucleases and topoisomerases in the liver of rats and in diethylnitrosamine-induced tumors]. 254 92

Neurospora crassa endo-exonuclease, an enzyme implicated in recombinational DNA repair, was found previously to have a distributive endonuclease activity with a high specificity for single strand DNA and a highly processive exonuclease activity. The activities of endo-exonuclease on double strand DNA substrates have been further explored. Endo-exonuclease was shown to have a low bona fide endonuclease activity with completely relaxed covalently closed circular DNA and made site-specific breaks in linear double strand DNA at a low frequency while simultaneously generating a relatively high level of single strand breaks (nicks) in the DNA. Sequencing at nicks induced by endo-exonuclease in pBR322 restriction fragments showed that the highest frequency of nicking occurred at the mid-points of two sites with the common sequence, p-AGCACT-OH. In addition, sequencing revealed less frequent nicking at identical or homologous hexanucleotide sequences in all other 54 cases examined where these sequences either straddled the break site itself or were within a few nucleotides on either side of the break site. The exonucleolytic action of endo-exonuclease on linear DNA showed about 100-fold preference for acting in the 5' to 3' direction. Removal of the 5'-terminal phosphates substantially reduced this activity, internal nicking, and the ability of endo-exonuclease to generate site-specific double strand breaks. On the other hand, nicking of the dephosphorylated double strand DNA with pancreatic DNase I stimulated the exonuclease activity by almost 5-fold, but no stimulation was observed when the DNA was nicked by Micrococcal nuclease. Thus, 5'-p termini either at double strand ends or at nicks in double strand DNA are entry points to the duplex from which endo-exonuclease diffuses linearly or "tracks" in the 5' to 3' direction to initiate its major endo- and exonucleolytic actions. The results are interpreted to show how it is possible for endo-exonuclease to generate single strand DNA for switching into a homologous duplex either at a nick or while remaining bound at a double strand break in the DNA. Such mechanisms are consistent with current models for recombinational double strand break repair in eukaryotes.
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PMID:The actions of Neurospora endo-exonuclease on double strand DNAs. 254 47

The system of DNA recombination in vitro was constructed. It comprises two plasmids, the derivatives of pBR322 deleted in the genes for tetracycline resistance, and the recombinogenic extract of the thymus lymphocytes nuclei of mice. The system permits to study the effect of proteins and factors on the efficiency of recombination resulting in reconstruction of the tetracycline resistance gene. Double-strand cuts in one of the deleted plasmids were necessary for recombination. Double-strand cuts by Ca/Mg-dependent endonuclease of the human spleen lymphocytes nuclei were more efficient as compared with the ones of DNAase I, restriction endonucleases PaeI and SalI in the initiation of recombination. The possible role of Ca/Mg-dependent endonuclease in recombination in vivo is discussed.
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PMID:[DNA recombination in vitro initiated by Ca/Mg-dependent endonuclease from cell nuclei of human splenocytes]. 274 99

Enzymes such as pancreatic deoxyribonuclease (DNase I) nick the single strands of double-stranded DNA. Two nicks sufficiently close on opposite strands will lead to breakage of the DNA molecule. This paper gives a mathematical model for the breakage of circular, supercoiled DNA under the action of an enzyme which nicks at random sites (or at preferred sites, these being in abundance and randomly positioned around the circle). After the first nick the DNA loses its supercoiled structure; after many nicks it breaks to become topologically linear; further nicks lead to fragmentation of this linear form. Formulae are given for the proportions of DNA molecules in each of the four classes: supercoiled; nicked but still circular; linear; fragmented. Formulae are also presented for the case when there is, in addition to nicking, simultaneous action of an endonuclease which produces direct double-stranded breaks in the DNA. Finally, a general theory is given for the case where a third type of enzyme, topoisomerase I, is operative, with all three DNA modifications taking place simultaneously.
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PMID:Breakage of double-stranded DNA due to single-stranded nicking. 282 26

Streptomyces antibioticus produces a strong endo-DNase which is located between the cytoplasmic membrane and the cell wall. All DNA substrates assayed, including the chromosomal DNA of this species and several bacteriophage DNAs, were completely degraded in vitro by the enzyme. The rate of synthesis of the nuclease depended on the growth medium. In NBG medium, in which the enzyme is not produced, the size of lytic plaques of several actinophages was larger than that in GYM or GAE medium, in which synthesis of the nuclease takes place late in growth. In addition, one of the phages assayed, phi A6, showed a diminution of its efficiency of plating in GYM medium with respect to that in NBG medium; another phage, phi A9, grew in NBG medium but not in the other two media. It is postulated that the presence of the host nuclease, together with the capability of the particular phage to absorb on S. antibioticus of different growth phases, determines the efficiency of growth and the plaque size of the phages on productive media. This hypothesis was confirmed when the growth of phi A6 and phi A9 in a mutant of S. antibioticus lacking the endonuclease activity was analyzed. It is concluded that the enzyme can assume, under some circumstances, a role in in vivo restriction.
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PMID:An exocytoplasmic endonuclease with restriction function in Streptomyces antibioticus. 283 Feb 37

PM2 duplex DNA substrates containing small gaps were utilized to study DNA repair reactions of extensively purified HeLa DNase V (a bidirectional double strand DNA exonuclease) and DNA polymerases beta, gamma (mitochondrial and extramitochondrial), and alpha holoenzyme, and delta as a function of ionic strength. At 50 mM NaCl, DNase V carried out extensive exonucleolytic degradation, and beta-polymerase exhibited strand displacement synthesis. However, at 150 mM NaCl, the DNase appeared only to remove damaged nucleotides from DNA termini while beta-polymerase catalyzed only gap-filling synthesis. When present in equimolar amounts, beta-polymerase and DNase V (which can be isolated as a 1:1 complex) catalyzed more degradation than synthesis at 50 mM NaCl; however, at 150 mM NaCl a coupled very limited nick translation reaction ensued. At physiological ionic strength DNA polymerase alpha holoenzyme was not active upon these substrates. In 15 mM KCl it could fill small gaps and carry out limited nick translation with undamaged DNA, but it could not create a ligatable substrate from UV-irradiated DNA incised with T4 UV endonuclease. Mitochondrial DNA polymerase gamma was more active at 150 mM NaCl than at lower ionic strengths. It readily filled small gaps but was only marginally capable of strand-displacement synthesis. The extramitochondrial form of gamma-polymerase, conversely, was less sensitive to ionic strength; it too easily filled small gaps but was not effective in catalyzing strand displacement synthesis. Finally, DNA polymerase delta was able to fill gaps of several to 20 nucleotides in 0.05 M NaCl, but at higher NaCl concentrations there was little activity. DNA polymerases delta did not demonstrate strand displacement synthesis. Therefore, at physiological ionic strength, it appears that either DNA polymerase beta or extramitochondrial DNA polymerase gamma might aid in short patch DNA repair of nuclear (or transfecting) DNAs, whereas mitochondrial gamma-polymerase might fill small gaps in mitochondrial DNA.
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PMID:DNA-repair reactions by purified HeLa DNA polymerases and exonucleases. 284 25

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