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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)

Porcine liver DNA polymerase gamma contains exonuclease activity capable of digesting DNA in the 3'----5' direction, releasing deoxyribonucleoside 5'-monophosphates. The exonuclease activity excises 3'-terminal bases from both matched and mismatched primer termini, with a preference for mismatched bases. Under polymerization conditions, mismatch excision by the exonuclease occurs prior to polymerization by polymerase gamma, and this excision can be inhibited by adding to the reaction a high concentration of dNTP substrates and/or nucleoside 5'-monophosphates. In an M13mp2-based reversion assay for detecting single-base substitution errors, porcine liver polymerase gamma is highly accurate; the estimated base substitution error rate is less than one error for each 500,000 bases polymerized. Lower fidelity is observed using reaction conditions that inhibit the exonuclease activity, strongly suggesting that the exonuclease proofreads errors during polymerization. However, in a forward mutation assay capable of detecting all 12 mispairs at a variety of template positions, certain base substitution errors are readily detected even using unperturbed polymerization conditions. Thus, for some errors, polymerase gamma is not highly accurate, suggesting that proofreading is not equally active against all mispairs. To examine if the polymerase and exonuclease activities are physically as well as functionally associated, both activities were monitored during purification by four procedures, each based on a different separation principle. The two activities copurify during chromatography using phosphocellulose, heparin-agarose, or double-strand DNA-cellulose, and during velocity sedimentation in a glycerol gradient containing 0.5 M KCl. These results suggest that the polymerase and exonuclease activities are physically associated. It remains to be determined if they reside in the same subunit.
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PMID:Exonucleolytic proofreading by a mammalian DNA polymerase. 271 77

Novel DNA primase-like activity was partially purified from human Hela cells, and the activity was clearly separated from DNA polymerase alpha by phosphocellulose column chromatography. The enzyme did not show significant activity in the absence of Ca2+, and was dramatically activated by the addition of Ca2+; so it was designated as C-primase. The C-primase showed a molecular weight of 20,000 estimated by gel filtration and a sedimentation coefficient of 3.5 S by glycerol gradient centrifugation. These results, together with the other properties of the C-primase, suggest that this primase like-enzyme is distinct from the authentic eukaryotic primase in the DNA polymerase alpha/DNA primase complex.
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PMID:A Ca2+-dependent DNA primase-like activity from HeLa cells. 275 81

A preparation of human placenta DNA polymerase with specific activity 6000 unit/mg was obtained. The protocol of the enzyme purification includes the crude extract preparation, the subsequent chromatographies on phosphocellulose, red sepharose, DEAE sepharose and hydroxylapatite. The isolated DNA polymerase belongs to alpha-type according to the large molecular mass (greater than 150 kDa), high sensitivity to N-ethylmaleimide, the profound inhibition of DNA polymerization activity by 200 mM KCl and the ability to catalyze DNA synthesis, using the deoxyribonucleic template and ribonucleic primer. The DNA polymerase preparations contain a few forms with Stokes radii 50-60 A and sedimentation coefficients 7.3-9.0 S as found from data of gel-filtration and ultracentrifugation in glycerol density gradient, accordingly. The existence of four various forms of DNA polymerase activity: 150, 170, 220, 480 kDa were revealed by native electrophoresis. The four steps of purification result in DNA polymerase preparation that was shown by electrophoresis to contain 15-20% of protein possessing the polymerase activity. However the preparation obtained seems to be a "chromatographically pure substance", according to following ion-exchange and affinity chromatographies. The other proteins without polymerase activity are suggested to be the components of the replicative complex of human placenta cells.
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PMID:[Purification and characterization of DNA-dependent DNA-polymerase alpha from human placenta]. 277 Jul 23

When cells are exposed to ionizing radiation, they suffer lethal damage (LD), potentially lethal damage (PLD), and sublethal damage (SLD). All three forms of damage may be caused by direct or indirect radiation action or by the interaction of indirect radiation products with direct DNA damage. In this report I examine the expression of LD and PLD caused by the indirect action of X rays in isogenic, repair-deficient Escherichia coli. The radiosensitivity of a recA mutant, deficient both in pre- and post replication recombination repair and SOS induction (inducible error-prone repair), was compared to that of a recB mutant which is recombination deficient but SOS proficient and to a previously studied DNA polymerase 1-deficient mutant (polA) which lacks the excision repair pathway. Indirect damage by water radicals (primarily OH radicals) was circumvented by the presence of 2 M glycerol during irradiation. Indirect X-ray damage by water radicals accounts for at least 85% of the PLD found in exposed repair-deficient cells. The DNA polymerase 1-deficient mutant is most sensitive to indirect damage with the order of sensitivity polA1 greater than recB greater than or equal to recA greater than wild type. For the direct effects of X rays the order of sensitivity is recA greater than recB greater than polA1 greater than wild type. The significance of the various repair pathways in mitigating PLD by direct and indirect damage is discussed.
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PMID:Free radical scavenging and the expression of potentially lethal damage in X-irradiated repair-deficient Escherichia coli. 281 36

The high fidelity of chick embryo DNA polymerase-gamma (pol-gamma) observed during in vitro DNA synthesis (Kunkel, T. A. (1985) J. Biol. Chem. 260, 12866-12874) has led us to examine this DNA polymerase for the presence of an exonuclease activity capable of proofreading errors. Highly purified chick embryo pol-gamma preparations do contain exonuclease activity capable of digesting radiolabeled DNA in a 3'----5' direction, releasing deoxynucleoside 5'-monophosphates. The polymerase and exonuclease activities cosediment during centrifugation in a glycerol gradient containing 0.5 M KCl. In the absence of dNTP substrates, this exonuclease excises both matched and mismatched primer termini, with a preference for mismatched bases. Excision is inhibited by the addition of nucleoside 5'-monophosphates to the digestion reaction. In the presence of dNTP substrates to permit competition between excision and polymerization from the mismatched primer, the exonuclease excises mismatched bases from preformed terminal mispairs with greater than 98% efficiency. The preference for excision over polymerization can be diminished by addition of either high concentrations of dNTP substrates or nucleoside 5'-monophosphates to the exonuclease/polymerase reaction. To determine if this exonuclease is capable of proofreading misinsertions produced during a normal polymerization reaction, a sensitive base substitution fidelity assay was developed based on reversion of an M13mp2 lacZ alpha nonsense codon. In this assay using reaction conditions that permit highly active exonucleolytic proofreading, pol-gamma exhibits a fidelity of less than one error for every 260,000 bases polymerized. As for terminal mismatch excision, fidelity is reduced by the addition to the synthesis reaction of high concentrations of dNTP substrates or nucleoside 5'-monophosphates, both hallmarks of exonucleolytic proofreading by prokaryotic enzymes. Taken together, these observations suggest that the 3'----5' exonuclease present in highly purified chick embryo pol-gamma preparations proofreads base substitution errors during DNA synthesis. It remains to be determined if the polymerase and exonuclease activities reside in the same or different polypeptides.
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PMID:Exonucleolytic proofreading enhances the fidelity of DNA synthesis by chick embryo DNA polymerase-gamma. 283 Dec 31

Using a combination of conventional column chromatography and velocity sedimentation, we have purified the 65-kilodalton DNA-binding protein (65KDBP) encoded by herpes simplex virus (HSV) greater than 625-fold. The HSV type 1 (HSV-1)-encoded DNA polymerase (pol) cofractionated with 65KDBP through DEAE-Sephacel, Blue Sepharose, and Mono Q columns and was only separated from 65KDBP by sedimentation through a glycerol gradient. Immunoaffinity columns containing monoclonal antibody (MAb) 6898 immunoglobulin effectively bound most of the HSV-1 pol activity which coeluted with 65KDBP. The pattern of reactivities of HSV-1/HSV-2 recombinants with MAbs specific for HSV-1 65KDBP or the HSV-2-infected cell-specific protein ICSP34,35 strongly suggests that these two species are serotype equivalents of the same protein. Taken together, all these data indicate that 65KDBP is a pol-associated protein and the HSV-1 counterpart of HSV-2 ICSP34,35 previously reported to have similar properties (P. J. Vaughan, D. J. M. Purifoy, and K. L. Powell, J. Virol. 53:501-508, 1985). Purified preparations of 65KDBP were capable of binding to double-stranded DNA, as determined by filter retention and mobility shift assays. The protein-DNA complex formed with 65KDBP was distinct from that produced by pol and could be further shifted by the addition of immunoglobulin specific for 65KDBP. These results demonstrate that 65KDBP has been purified substantially free from pol and indicate that DNA binding is an inherent property of the protein.
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PMID:Purification of the herpes simplex virus type 1 65-kilodalton DNA-binding protein: properties of the protein and evidence of its association with the virus-encoded DNA polymerase. 283 6

Purified protein p2 of phage phi 29, characterized as a specific DNA polymerase involved in the initiation and elongation of phi 29 DNA replication, contains a 3'----5' exonuclease active on single-stranded DNA, but not on double-stranded DNA. No 5'----3' exonuclease activity was found. The 3'----5' exonuclease activity was shown to be associated with the DNA polymerase since 1) the two activities were heat-inactivated with identical kinetics and 2) both activities, present in purified protein p2, cosedimented in a glycerol gradient.
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PMID:Characterization of a 3'----5' exonuclease activity in the phage phi 29-encoded DNA polymerase. 298 19

Racemic 9-[(2,3-dihydroxy-1-propoxy)methyl]guanine [(+/-)-iNDG], a new analogue of acyclovir (ACV) and a structural analogue of 2'-nor-2'-deoxyguanosine (2'NDG), was synthesized and found to inhibit the replication of herpes simplex virus types 1 (HSV-1) and 2 (HSV-2). Subsequently, its optical isomers, (R)- and (S)-iNDG, were prepared from chiral intermediates. The chloromethyl ethers of 1,2-di-O-benzyl-D- and -L-glycerol were made and reacted with tris(trimethylsilyl)guanine to give the 9-alkylated guanines, which were deprotected by catalytic hydrogenolysis. Against HSV-1 and HSV-2 in cell culture, (S)-iNDG was approximately 10- to 25-fold more active than the R enantiomer and had an ED50 comparable to those for ACV and 2'NDG. The inferior activity of (R)-iNDG paralleled the poor inhibition of viral DNA polymerase by its phosphorylation products. In mice infected intraperitoneally or orofacially with HSV-1 or intravaginally with HSV-2, (S)-9-[(2,3-dihydroxy-1-propoxy)methyl]guanine [(S)-iNDG] was less efficacious than 2'NDG but comparable to or more active than ACV.
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PMID:Synthesis and antiherpetic activity of (S)-, (R)-, and (+/-)-9-[(2,3-dihydroxy-1-propoxy)methyl]guanine, linear isomers of 2'-nor-2'-deoxyguanosine. 298 23

The radiosensitivity of an Escherichia coli mutant deficient in DNA polymerase I was measured in the presence of OH radical scavengers. The extreme X-ray sensitivity of the mutant could be abolished by OH radical scavengers if a sufficiently high level of radioprotector was present. There was a direct correlation between the OH radical scavenging activity of the chemicals tested (NO2-, n-butanol, glycerol, t-amyl alcohol, and t-butanol) and their protective ability. I interpret the data as showing that the indirect actions of X rays (primarily OH radicals) result in major damage to the bacterial DNA which in large part consists of potentially lethal lesions. This potentially lethal damage is repaired through an enzymatic pathway requiring DNA polymerase I. In the mutant lacking DNA polymerase I, these potentially lethal lesions are expressed as cell lethality.
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PMID:DNA polymerase I is crucial for the repair of potentially lethal damage caused by the indirect effects of X irradiation in Escherichia coli. 299 64

The DNase that is associated with a multiprotein form of HeLa cell DNA polymerase alpha (polymerase alpha 2) has two distinct exonuclease activities: the major activity initiates hydrolysis from the 3' terminus and the other from the 5' terminus of single-stranded DNA. The two exonuclease activities show identical rates of thermal inactivation and coincidental migration during chromatofocusing, glycerol gradient centrifugation, and nondenaturing polyacrylamide gel electrophoresis of the DNase. Moreover, the purified DNase shows a single protein band of Mr 69,000 following nondenaturing polyacrylamide and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The 3'----5' exonuclease activity hydrolyzes only single-stranded DNA substrates and the products are 5' mononucleotides. This activity recognizes and excizes mismatched bases at the 3' terminus of double-stranded DNA substrates. The 3'----5' exonuclease does not hydrolyze 3' phosphoryl terminated single-stranded DNA substrates. The 5'----3' exonuclease activity also only hydrolyzes single-stranded DNA substrates. The rate of hydrolysis, however is only about 1/25th the rate of the 3'----5' exonuclease. This exonuclease activity requires a 5' single-stranded terminus in order to initiate hydrolysis and does not proceed into double-stranded regions. The products of hydrolysis by 5'----3' exonuclease are also 5' nucleoside monophosphates.
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PMID:Exonuclease activity associated with a multiprotein form of HeLa cell DNA polymerase alpha. Purification and properties of the exonuclease. 300 66

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