Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.21.1 (DNase)
 7,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of a nuclear DNA polymerase in mouse sperm from adult testes has been confirmed and the properties of this enzyme further investigated. This activity was shown to be greatly enhanced by treating the spermatozoa with methanol or ethanol before incubation in the reaction medium or by their addition in small amounts to this medium. It was protected against degradation by nuclear proteases by adding soybean trypsin inhibitor and was stimulated by ATP. It was found to be Mg2+ dependent (optimum concentration: 7.5 mM), DNA dependent, and all four deoxynucleoside triphosphates were needed for optimal reaction. The radioactive acid-precipitable product of polymerization was not eliminated by organic solvents, nor by pronase, ribonuclease or by nuclease S1; however, it was converted to a large extent to acid-soluble products by pancreatic deoxyribonuclease. Since it was only partially solubilized by Triton X-100, it therefore did not appear to be preferentially associated with the nuclear membranes. The activity recovered after incubation depended also on the pH (optimum at pH 8.3) and did not work well in a medium for DNA polymerase alpha. The temperature for maximum incorporation of nucleotides was found to be 32 degrees C and, under our conditions, the reaction was linear for 30 min. The DNA polymerase activity was inhibited by low and high concentrations of KCl. It was not lowered by N-ethylmaleimide or p-hydroxymercuribenzoate; urea slightly stimulated the reaction and this stimulation was reversed by subsequent treatment with N-ethylmaleimide. Actinomycin D (40 mug/ml), ethidium bromide (25--50 muM), netropsin (5--50 mug/ml), and spermidine (0.5--2.5 mM) lowered the polymerization of DNA precursors. The nuclear enzyme could shift from the endogenous template to activated exogenous calf thymus DNA, the resulting nuclear radioactivity being reduced. The endogenous DNP template ability was not increased by deoxyribonuclease activation according to the method of Aposhian and Kornberg (J. Biol. Chem. (1962) 237, 519--525) suggesting that the amount of DNA polymerase associated with chromatin was probably limiting the reaction. The DNA polymerase activity detected in mouse sperm nuclei has numerous properties of low molecular weight DNA polymerases (DNA polymerase beta) reported in several eukaryotic organisms.
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PMID:Further characterization of a DNA polymerase activity in mouse sperm nuclei. 1 3

Amoeba discoides nuclear protein partially purified by passage through Sephadex G-200 showed 3 high-mol.-wt. DNA polymerase activities which eluted in and just following the void volume. No low-mol.-wt (45,000 daltons) DNA polymerase beta activity was detected. Nuclear protein layered on 5--20% sucrose gradients also showed an absence of low-mol.-wt DNA polymerase beta. The void volume enzyme showed deoxyribonuclease activity, but no low-mol.-wt nuclease activity was detected.
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PMID:Absence of low molecular weight DNA polymerase activity from the nuclei of Amoeba discoides. 63 29

The effects on DNA synthesis in vitro in mouse L929-cell nuclei of differential extraction of DNA polymerases alpha and beta were studied. Removal of all measurable DNA polymerase alpha and 20% of DNA polymerase beta leads to a 40% fall in the replicative DNA synthesis. Removal of 70% of DNA polymerase beta inhibits replicative synthesis by 80%. In all cases the nuclear DNA synthesis is sensitive to N-ethylmaleimide and aCTP (arabinosylcytosine triphosphate), though less so than DNA polymerase alpha. Addition of deoxyribonuclease I to the nuclear incubation leads to synthesis of high-molecular-weight DNA in a repair reaction. This occurs equally in nuclei from non-growing or S-phase cells. The former nuclei lack DNA polymerase alpha and the reaction reflects the sensitivity of DNA polymerase beta to inhibiton by N-ethylmaleimide and aCTP.
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PMID:Involvement of deoxyribonucleic acid polymerase beta in nuclear deoxyribonucleic acid synthesis. 68 72

The physical association of mammalian excision repair enzymes with DNA was examined as a function of cell proliferation. The molecular weight distribution of two nuclear base excision repair enzymes, the uracil DNA glycosylase and the hypoxanthine DNA glycosylase, were examined by sucrose step gradient analysis. The sedimentation of DNA polymerase activity as well as the distribution of parental and replicating DNA were determined simultaneously. In confluent BHK-21 fibroblasts, basal levels of both DNA glycosylases, DNA polymerase beta, and parental DNA sedimented to the 20%/40% sucrose border. In proliferating BHK-21 cells, induced levels of both DNA glycosylases, DNA polymerase alpha, and replicating DNA sedimented to the 40%/50% sucrose border. The physical association of the repair enzymes with DNA was demonstrated by detergent treatment and by DNase digestion. As defined by [35S] methionine pulse labeling analysis, newly synthesized DNA repair enzymes were localized with either parental or replicating DNA. These results suggested that the physical association of mammalian DNA repair enzymes with nuclear DNA was dependent on the proliferative state of the cell.
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PMID:Physical association of base excision repair enzymes with parental and replicating DNA in BHK-21 cells. 272 Jun 64

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

Apurinic and/or apyrimidinic (AP) sites were excised from PM2 phage DNA by two enzymes: an AP endodeoxyribonuclease isolated from rat neocortex chromatin and a rat brain exodeoxyribonuclease, DNase B III. The resulting gap was filled with DNA polymerase beta prepared from rat liver and finally ligated by Escherichia coli DNA ligase.
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PMID:Excision of apurinic and/or apyrimidinic sites from DNA by nucleolytical enzymes from rat brain. 327 4

The ability of DNA repair enzymes to carry out excision repair of pyrimidine dimers in SV40 minichromosomes irradiated with 16 to 64 J/m2 of UV light was examined. Half of the dimers were substrate for the DNA glycosylase activity of phage T4 UV endonuclease immediately after irradiation, but this limit decreased to 27% after 2 h at 0 degrees C. Moreover, the apyrimidinic (AP) endonuclease activity of the enzyme did not incise all of the AP sites created by glycosylase activity, although all AP sites were substrate for HeLa AP endonuclease II. The initial rate of the glycosylase was 40% that upon DNA. After incision by the T4 enzyme, excision was mediated by HeLa DNase V (acting with an exonuclease present in the chromatin preparation). Under physiological salt conditions, excision did not proceed appreciably beyond the damaged nucleotides in DNA or chromatin. With chromatin, about 70% of the accessible dimers were removed, but at a rate slower than for DNA. Finally, HeLa DNA polymerase beta was able to fill the short gaps created after dimer excision, and these patches were sealed by T4 DNA ligase. Overall, roughly 30% of the sites incised by the endonuclease were ultimately sealed by the ligase. The resistance of some sites was due to interference with the ligase by the chromatin structure, as only 30-40% of the nicks created in chromatin by pancreatic DNase could be sealed by T4 or HeLa DNA ligases. The overall excision repair process did not detectably disrupt the chromatin structure, since the repair label was recovered in Form I DNA present in 75 S condensed minichromosomes. Although other factors might stimulate the rate of this repair process, it appears that the enzymes utilized could carry out excision repair of chromatin to a limit near that observed at the initial rate in mammalian cells in vivo.
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PMID:Excision repair of pyrimidine dimers from simian virus 40 minichromosomes in vitro. 608 90

Immunofluorescent methods using a monoclonal antibody against chick DNA polymerase alpha and a rabbit antibody against chick DNA polymerase beta demonstrated that both DNA polymerases alpha and beta are present mainly in nuclei of cultured chick embryo cells. Fluorescence produced by anti-DNA polymerase alpha was more intense in the small granules than in other parts of the nucleus but, fluorescence produced by anti-DNA polymerase beta was distributed evenly in the nucleus. Cells first were treated with Nonidet P-40, followed by treatment with 50 micrograms/ml pancreatic DNase and 2 M NaCl in order to prepare the nuclear matrix. Fluorescence produced by anti-DNA polymerase alpha was still detectable in the granules after these treatments, but most of the fluorescence produced by anti-DNA polymerase beta disappeared. Our results indicate that a part of DNA polymerase alpha is tightly bound to a special structure present in the nuclear matrix which presumably is the DNA replication machinery.
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PMID:Tight association of DNA polymerase alpha with granular structures in the nuclear matrix of chick embryo cell: immunocytochemical detection with monoclonal antibody against DNA polymerase alpha. 623 15

Covalently closed circular Col E1 DNA was ultraviolet-irradiated with a dose of 60 J/m2, thus introducing about 3.2 pyrimidine dimers per DNA molecule. Treatment of irradiated Col E1 DNA with Micrococcus luteus correndonuclease resulted, in the vicinity of pyrimidine dimers, in an average of 3.3 incisions per DNA molecule, and converted DNA to the open circular form. Incised Col E1 DNA stimulated no reaction with calf thymus DNA polymerase alpha but was recognized as a template by DNA polymerase beta. The latter enzyme incorporated about 1.6 molecules of dTMP (corresponding to 6 molecules od dNMP) per one correndonuclease incision. The length of the DNA polymerase beta product was comparable to the anticipated length of the DNA region within which the hydrogen bonds were disrupted owing to dimer formation. The enzyme required Mg(2)=nd four dNTPs for reaction and was resistant to N-ethylmaleimide or p-mercuribenzoate. The average numbers of deoxynucleotides incorporated per one DNAase I incision or per one nonspecific break, measured in control samples, were equal, amounting to 0.3 dTMP molecule. This value corresponded to 1.2 dNMP molecule; in our opinion, this reflects contaminating nuclease activity of the system used. The present results testify to the ability of DNA polymerase beta to repair synthesis by the "patch and cut' mechanism.
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PMID:The DNA polymerase beta reaction with ultraviolet-irradiated DNA incised by correndonuclease. 625 Jun 19

Avian retrovirus pp32, a DNA endonuclease which is structurally related to the avian retrovirus DNA polymerase beta polypeptide, has been demonstrated to be partially phosphorylated in vivo. Unlabeled or [35S]methionine-labeled pp32 from avian sarcoma virus or avian myeloblastosis virus migrated as an electrophoretic doublet on discontinuous sodium dodecyl sulfate-polyacrylamide slab gels. However, pp32 immunoprecipitated from avian sarcoma virus labeled in vivo with [32P]orthophosphoric acid migrated as a single band, which co-electrophoresed with the slower-moving band of the doublet represented by unlabeled or 35S-labeled pp32. The presence of a slower-migrating phosphorylated band in pp32 suggests that the observed electrophoretic heterogeneity of purified pp32 is due to partial phosphorylation. Tryptic peptide analysis of 32P-labeled avian sarcoma virus beta and pp32 demonstrated that all the three labeled peptides in the beta polypeptide were also present in pp32. However, pp32 had one tryptic peptide which was preferentially labeled in comparison to the comigrating peptide found in beta digests, suggesting that phosphorylation may play a role in the processing of pp32 from beta or in the regulation of its associated DNA endonuclease activity.
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PMID:Partial phosphorylation in vivo of the avian retrovirus pp32 DNA endonuclease. 625 33


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