EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endonucleases from Micrococcus luteus that induce single-strand breaks in gamma-irradiated DNA have been separated chromatographycally into two groups. The first group involves two different enzymes: AP-endonuclease II (mol. weight 30 000) and AP, UV-endonuclease I (mol. weight 15 000) that recognize alkali-labile lesions in gamma-irradiated DNA and apurinic sites in DNA heated at 70 degrees C, pH 6.08 AP-endonuclease II in cooperation with DNA polymerase from M. luteus and T4 phage-induced polynucleotide ligase is capable of carrying out in vitro complete excision repair of alkali-labile lesins in gamma-irradiated DNA. The second group involves gamma-endonucleases X and Y that act on alkalistable gamma-ray lesions. gamma-endonucleases X and Y can be separated by chromatography on DEAE-cellulose but possess similar properties. Activity of gamma-endonucleases toward gamma-irradiated DNA is inhibited by only heavily UV-irradiated DNA (15 000 ergs/mm2). The data are consistent with the hypothesis that gamma-endonucleases are specific for thymine glycols (t' and tUV) in UV- and gamma-irradiated DNA.
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PMID:[Analysis of the activity of Micrococcus luteus endonucleases with respect to gamma-irradiated DNA]. 2 Jan 61

Highly purified preparations of RNA-directed DNA polymerase from avian myeloblastosis virus (AMV) contain a Mn2+-activated endonuclease activity capable of nicking supercoiled DNA. This endonuclease activity co-sediments in glycerol gradients with the alphabeta form of AMV DNA polymerase, and co-chromatographs with DNA polymerase activity on DEAE-cellulose, phosphocellulose, and heparin-Sepharose. It is also present in AMV alphabeta-DNA polymerase purified by electrophoresis through nondenaturing polyacrylamide gels and subsequently chromatographed on poly(C)-agarose. alphabeta-associated endonuclease is co-immunoprecipitated with DNA polymerase activity by antiserum directed against alphabeta holoenzyme. The alpha form of AMV DNA polymerase lacks this activity. In its enzymatic properties, alphabeta-associated endonuclease resembles the endodeoxyribonuclease activity associated with the AMV p32 protein, which has been shown to be structurally related to the beta (but not the alpha) subunit of AMV DNA polymerase.
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PMID:Endonuclease activity of purified RNA-directed DNA polymerase from avian myeloblastosis virus. 8 98

The main endonuclease for apurinic sites of Escherichia coli (endonuclease VI) has no action on normal strands, either in double-stranded or single-stranded DNA, or on alkylated sites. The enzyme has an optimum pH at 8.5, is inhibited by EDTA and needs Mg2+ for its activity; it has a half-life of 7 min at 40 degrees C. A purified preparation of endonuclease VI, free of endonuclease II activity, contained exonuclease III; the two activities (endonuclease VI and exonuclease III) copurified and were inactivated with the same half-lives at 40 degrees C. Endonuclease VI cuts the DNA strands on the 5' side of the apurinic sites giving a 3'-OH and a 5'-phosphate, and exonuclease III, working afterwards, leaves the apurinic site in the DNA molecule; this apurinic site can subsequently be removed by DNA polymerase I. The details of the excision of apurinic sites in vitro from DNA by endonuclease VI/exonuclease III, DNA polymerase I and ligase, are described; it is suggested that exonuclease III works as an antiligase to facilitate the DNA repair.
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PMID:Properties of the main endonuclease specific for apurinic sites of Escherichia coli (endonuclease VI). Mechanism of apurinic site excision from DNA. 34 34

We have purified the DNA polymerase from Mycoplasma orale to homogeneity. The protein structure of the enzyme was declined by sodium dodecyl sulfate gel electrophoresis, which revealed a single band of 116 000 daltons that was coincident with the polymerase activity profile in the final step of DNA--cellulose chromatography, and by two-dimensional gel analysis, which demonstrated a single protein species at pI = 6.8 that was congruent with enzyme activity and contained the same 116 000 polypeptide. although severe enzyme aggregation occurs during nondenaturing gel electrophoresis, a monomer species can be resolved with a Mr of 140 000 by the Ferguson plot analysis. Gel filtration and velocity gradient centrifugation yield a Stokes radius of 4.8 nm and a sedimentation coefficient of 5.6 S, respectively, from which Mr values of 106 000--128 000 can be computed. The different size values suggest that the polymerase molecule is asymmetric. The purified enzyme has a specific activity of approximately 6 x 10(5) units/mg of protein and in completely devoid of exodeoxyribonuclease and endodeoxyribonuclease activities, at exclusion limits of 10(-4)--10(-6%) of the polymerase activity. The mechanism of polymerization is moderately processive, with an average of 14 +/- 4 nucleotides incorporated per binding event, and the "effective template length" on activated DNA is approximately 40 nucleotides.
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PMID:Structural and enzymological characterization of the homogeneous deoxyribonucleic acid polymerase from Mycoplasma orale. 49 65

A non-enzymic protein factor that increases the in vitro rate of synthesis by HeLa DNA polymerase alpha 15- to 30-fold with denatured DNA as template has been partially purified from the cytoplasmic fraction of HeLa cells. The stimulatory effect is highly specific for HeLa DNA polymerase alpha and for DNA templates that contain extensive regions of single-strandedness. Synthesis with denatured DNA as template presumably proceeds from 3'-hydroxyl termini formed at loop-back regions since the synthesized DNA product and template are covalently linked. The stimulatory protein factor chromatographs as a basic protein, has an approximate molecular weight of 30,000 daltons and binds with moderate affinity to denatured DNA cellulose, being eluted by o.4M NaCl. The purified factor lacks detectable DNA polymerase, exo- and endodeoxyribonuclease and RNA polymerase activities. It also does not promote helix-coil transitions with poly[d(A-T)] and Clostridium perfringens DNA.
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PMID:HeLa DNA polymerase alpha activity in vitro: specific stimulation by a non-enzymic protein factor. 64 10

A cellular factor which makes T7 DNA irradiated with gamma-rays a better primer for Micrococcus DNA polymerase was partially purified by DEAE and phosphocellulose column chromatography and named "primer activating enzyme". Sucrose density gradient sedimentation analysis was carried out to examine actions of one major active fraction that appeared by phosphocellulose chromatography. It was shown that this factor introduced new nicks in T7 DNA in addition to those introduced directly by gamma-ray irradiation. This enzyme fraction also had an endonucleolytic activity towards DNA containing apurinic sites induced by heat treatment and had capacity to enhance the priming activity of heat- or methyl methansulfonate-treated DNA but affected very little that of ultraviolet-irradiated DNA. This enzyme had no effect on T7 DNA when it was not treated with the DNA-damaging agents. From these results we concluded that this enzyme may be analogous to the endonuclease II or apurinic site-specific enconuclease of Escherichia coli.
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PMID:Studies on DNA repair in Bacillus subtilis. II. Partial purification and mode of action of an enzyme enhancing the priming activity of gamma-irradiated DNA. 80 55

An enconuclease activity that reacts with x-irradiated DNA is present in extracts of E. coli. By using centrifugal methods to monitor the conversion of the supercoiled, circular double-stranded DNA for phage phi-x-174 (replicative form) or PM2 to the relaxed circular form it was possible to quantitate the rate of radiation induced endonuclease-sensitive sites in the DNA. For every single-strand break induced by x-rays under aerobic irradiation conditions, there is approximately one induced site sensitive to this endonuclease activity. Under irradiation conditions (addition OF Potassium iodide) that dramatically reduce rates of single-strand breaks and "alkalilabile" lesions, the number of endonuclease-sensitive sites relative to single-strand breaks increase approximatley 4-fold. This nuclease is present in several strains of E. coli B and K12, including mutants deficient in DNA polymerase I, recombination gene products (rec mutants), ultraviolet light incision enzyme (uvr A mutant), and endonuclease II. It is suggested that this endonuclease may be involved in an excision repair process for damages incurred in DNA by ionizing radiation.
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PMID:Endonucleolytic incision of x-irradiated deoxyribonucleic acid by extracts of Escherichia coli. 109 50

The size of the repair patch produced by E. coli DNA polymerase (Pol I) following the removal of a pyrimidine dimer from DNA in response to the nicking activity of T4 endonuclease (T4 endo V) was determined. A 48-bp DNA containing a pyrimidine dimer at a defined location was labelled in the damaged strand and incubated with T4 endo V and E. coli endonuclease IV. Subsequently, DNA synthesis by DNA Pol I was carried out in the presence of four dNTPs, ATP and DNA ligase. Analysis of the reaction products on a sequencing gel revealed a ladder of only 4-oligonucleotides, 1-4 nucleotides greater in length than the fragment generated by the combined nicking activities of T4 endo V and E. coli endonuclease IV. Thus we conclude that the in vitro repair patch size of T4 endo V is 4 nucleotides and that in some cases the repaired DNA is not ligated.
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PMID:In vitro characterization of repair synthesis initiated by T4 endonuclease V on a synthetic DNA substrate. 151 8

Two species of apurinic/apyrimidinic (AP) endonuclease have been purified approximately 400-fold from extracts of Drosophila embryos. AP endonuclease I, which flows through phosphocellulose columns, has an apparent subunit molecular weight of 66,000 as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, whereas AP endonuclease II, which is retained by phosphocellulose, has a subunit molecular weight of 63,000. The molecular weight determinations were made possible in part by the finding that both Drosophila enzymes, along with Escherichia coli endonuclease IV, cross-react with an antibody prepared toward a human AP endonuclease (Kane, C. M., and Linn, S. (1981) J. Biol. Chem. 256, 3405-3414). The nature of phosphodiester bond breaks produced by the two partially purified AP endonucleases from Drosophila have been investigated. Nicks introduced into partially depurinated PM2 DNA by Drosophila AP endonuclease I did not support DNA synthesis by E. coli DNA polymerase I, whereas nicks created by AP endonuclease II were able to support DNA synthesis, but at a rate far less than that observed for nicks introduced by E. coli endonuclease IV. The priming activity of DNA incised by either of the Drosophila enzymes can be enhanced, however, by an additional incubation with E. coli endonuclease IV, which is known to cleave depurinated DNA on the 5'-side of an apurinic site. These results suggest that the Drosophila enzymes cleave depurinated DNA on the 3'-side of the apurinic site. This suggestion was strengthened by the observation that the combined action of AP endonuclease II and E. coli endonuclease IV resulted in the removal of [32P]dAMP from partially depyrimidinated [dAMP-5'-32P,uracil-3H]poly(dA-dT). Taken together, these results propose that Drosophila AP endonuclease II produces 3'-deoxyribose and 5'-phosphomonoester nucleotide termini. Conversely, the absolute inability to detect priming activity for DNA cleaved by AP endonuclease I alone suggested a different mechanism, possibly the formation of a deoxyribose-3'-phosphate terminus. When apurinic DNA cleaved by AP endonuclease I was subsequently treated with bacterial alkaline phosphatase, DNA synthesis was now detected at levels similar to that observed for AP endonuclease II alone. Additionally, DNA nicked by AP endonuclease I was susceptible to 5'-end labeling by polynucleotide T4 kinase without prior phosphomonoesterase treatment. These results suggest that AP endonuclease I forms deoxyribose 3'-phosphate and 5'-OH termini upon cleaving depurinated DNA.
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PMID:Drosophila apurinic/apyrimidinic DNA endonucleases. Characterization of mechanism of action and demonstration of a novel type of enzyme activity. 241 27

Escherichia coli endonuclease IV hydrolyses the C(3')-O-P bond 5' to a 3'-terminal base-free deoxyribose. It also hydrolyses the C(3')-O-P bond 5' to a 3'-terminal base-free 2',3'-unsaturated sugar produced by nicking 3' to an AP (apurinic or apyrimidinic) site by beta-elimination; this explains why the unproductive end produced by beta-elimination is converted by the enzyme into a 3'-OH end able to prime DNA synthesis. The action of E. coli endonuclease IV on an internal AP site is more complex: in a first step the C(3')-O-P bond 5' to the AP site is hydrolysed, but in a second step the 5'-terminal base-free deoxyribose 5'-phosphate is lost. This loss is due to a spontaneous beta-elimination reaction in which the enzyme plays no role. The extreme lability of the C(3')-O-P bond 3' to a 5'-terminal AP site contrasts with the relative stability of the same bond 3' to an internal AP site; in the absence of beta-elimination catalysts, at 37 degrees C the half-life of the former is about 2 h and that of the latter 200 h. The extreme lability of a 5'-terminal AP site means that, after nicking 5' to an AP site with an AP endonuclease, in principle no 5'----3' exonuclease is needed to excise the AP site: it falls off spontaneously. We have repaired DNA containing AP sites with an AP endonuclease (E. coli endonuclease IV or the chromatin AP endonuclease from rat liver), a DNA polymerase devoid of 5'----3' exonuclease activity (Klenow polymerase or rat liver DNA polymerase beta) and a DNA ligase. Catalysts of beta-elimination, such as spermine, can drastically shorten the already brief half-life of a 5'-terminal AP site; it is what very probably happens in the chromatin of eukaryotic cells. E. coli endonuclease IV also probably participates in the repair of strand breaks produced by ionizing radiations: as E. coli endonuclease VI/exonuclease III, it is a 3'-phosphoglycollatase and also a 3'-phosphatase. The 3'-phosphatase activity of E. coli endonuclease VI/exonuclease III and E. coli endonuclease IV can also be useful when the AP site has been excised by a beta delta-elimination reaction.
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PMID:The multiple activities of Escherichia coli endonuclease IV and the extreme lability of 5'-terminal base-free deoxyribose 5-phosphates. 247 13

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