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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)

Three major polypeptides are found in purified DNA polymerase alpha from rat liver: 160, 77 and 58 kDa. The electrophoretic analysis has identified polypeptide 160 kDa as the catalytically active subunit of DNA polymerase alpha. The other two polypeptides showed no DNA polymerase activity. Individual polypeptide p77 kDa purified by sodium dodecyl sulfate polyacrylamide gel electrophoresis was used to produce antibodies in rabbits. Immunoblot analysis indicated that the complex DNA polymerase alpha-3'-5'-exonuclease contained polypeptide p77 kDa. To elucidate the function of the p77 kDa protein we have prepared an immunoabsorbent column with antibodies against the p77 kDa polypeptide. The antibody column purified p77 kDa protein was homogeneous according to sodium dodecyl sulfate gel electrophoresis. The activity of alpha-polymerase was increased approximately 10-fold as a result of purification of DNA polymerase alpha from the p77 kDa protein. The in vitro experiments showed the identity of the p77 kDa polypeptide to endonuclease. It cleaved both single-stranded and double-stranded DNA. The function of endonuclease p77 kDA in complex with DNA polymerase alpha remains obscure.
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PMID:[Isolation and characteristics of endonuclease tightly bound to alpha-polymerase from the rat liver]. 284 24

Recent studies with crude or partially purified cell extracts have suggested that DNA polymerase alpha activity may be regulated by enzymatic phosphorylation. To further investigate these findings, we have examined the effects of protein kinases and phosphatases on highly purified DNA polymerase alpha from mouse cells. Incubation of DNA polymerase alpha with a variety of protein kinases, including protein kinase C, had no effect on polymerase activity. In addition, treatment of the polymerase with soluble calf intestinal alkaline phosphatase had no effect on DNA polymerase alpha activity, further indicating that phosphorylation does not have a direct role in modulating polymerase activity. In contrast, incubation of DNA polymerase alpha with calf intestinal alkaline phosphatase crosslinked to agarose beads resulted in a time dependent disappearance of polymerase activity. This loss of DNA polymerase activity was dependent on phosphatase activity, as the alkaline phosphatase inhibitors, potassium phosphate or levamisole, prevented the loss of polymerase activity in the presence of the beaded phosphatase. The loss of DNA polymerase alpha activity following beaded phosphatase treatment was not a general phenomena as the large fragment of Escherichia coli DNA polymerase I, T4 DNA polymerase or mouse primase were not affected by similar treatment. The decreased DNA polymerase activity following incubation with phosphatase beads correlated with the binding of the DNA polymerase polypeptides, p185 and p68, to the agarose beads and this binding could not be reversed by either 150 mM potassium chloride or sodium sulfate. The binding of the polymerase to the agarose beads was dependent on the phosphatase activity, as the polymerase could be first treated with soluble calf intestinal phosphatase and subsequently bound to added Sepharose 4B beads. Surprisingly, Sepharose CL4B, a highly desulfated agarose preparation, did not bind the phosphatase-treated polymerase suggesting that sulfated polysaccharides are required for polymerase binding. The physiological correlate of this binding is unknown, but it has been reported that sulfated polysaccharides exist in a variety of intracellular compartments. It would be interesting to speculate that phosphorylation controls the intracellular compartmentalization of DNA polymerase alpha.
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PMID:DNA polymerase alpha activity is not affected by protein kinases or alkaline phosphatase. 293 May 69

pBR322 DNA, linearized by lysis of an oxolinic acid-treated culture of Escherichia coli strain DK6recA- (pBR322) with sodium dodecyl sulfate, was purified, treated with DNA polymerase in the presence of the four deoxynucleoside triphosphates, and ligated to DNA linkers containing the XhoI recognition sequence. Most of the drug-resistant colonies resulting from transformation of E. coli with this material bore plasmids that appeared by restriction enzyme analysis to differ from pBR322 only by the introduction of an XhoI site. The XhoI sites in plasmids from 93 transformants were distributed unevenly around the pBR322 map. Maxam-Gilbert DNA sequence analysis of 36 of these plasmids, labeled at the 5' termini of the XhoI sites, revealed that 29 of them contained, in addition to the XhoI linker, a duplication of four base-pairs of the pBR322 sequence surrounding the linker. Therefore, oxolinic acid-induced linearization must have resulted in 5'-terminal extensions of four bases, the configuration known to result from oxolinic acid-induced DNA cleavage by DNA gyrase in vitro. The sequence data thus allowed the determination of the precise point at which linearization occurred, apparently by the abortion of a gyrase-DNA covalent intermediate that existed in vivo. When the 19 different sites of the 29 plasmids were compared, the following set of rules could be derived: (formula; see text) where N is any nucleotide, R is a purine, and Y is a pyrimidine. Cleavage occurred at the line between the eighth and ninth positions from the left. The parenthetical G and T were preferred secondarily to T and G, respectively, whereas T and G in the 13th position from the left were equally preferred. Several of these rules are similar to those proposed previously based on several in vitro gyrase cleavage sites. Some of our rules show dyad symmetry around the axis midway between the cleavage points in the two strands, while others are distinctly asymmetric.
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PMID:Sites of reaction of Escherichia coli DNA gyrase on pBR322 in vivo as revealed by oxolinic acid-induced plasmid linearization. 298 30

The properties of DNA polymerases induced by two human herpesviruses, herpes simplex virus type-1 (HSV-1) and Epstein-Barr virus (EBV), have been compared. The HSV-1 and EBV polymerases can be distinguished from one another by differences in the elution profiles in phosphocellulose and single-stranded DNA cellulose columns. Although both enzymes require monovalent cations for optimum activity, the HSV-1 enzyme requires ammonium sulfate whereas the EBV enzyme activity is inhibited by it; on the other hand, the EBV polymerase requires KCl. Other reaction requirements are also different for the two viral enzymes. Thus, when the EBV DNA polymerase was assayed under conditions optimum for the HSV-1 DNA polymerase, only 15% of its activity was expressed. Differences were also noted in sensitivities of the two viral enzymes to the 5'-triphosphates of nucleoside analogs with antiherpesvirus activity such as BVdU, IVdU, ACV, FIAC and IdUrd. The HSV-1 polymerase was more sensitive than the EBV DNA polymerase to inhibition by phosphonoacetate, phosphonoformate, aphidicolin and N-ethylmaleimide. However, the EBV DNA polymerase was more sensitive than HSV-1 DNA polymerase to heat treatment at 42 degrees C. Thus, the marked differences between the two viral enzymes can be useful in identifying enzyme activities in cells producing the virus and also in studying the biochemical mechanism of action of some of the antiviral agents.
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PMID:Distinctive properties of DNA polymerases induced by herpes simplex virus type-1 and Epstein-Barr virus. 298 87

Human cytomegalovirus-induced DNA polymerase and cellular DNA polymerase alpha were purified by successive chromatography on DEAE-cellulose, phosphocellulose, heparin agarose, and single-stranded DNA agarose columns. The purified virus-induced DNA polymerase was resolved to consist of two polypeptides corresponding to molecular weights of 140,000 and 58,000, as analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Virus-induced DNA polymerase and cellular alpha polymerase were examined for their sensitivities to the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil (FMAUTP), -5-iodocytosine (FIACTP), and -5-methylcytosine (FMACTP). The inhibitive effects of these triphosphates on the DNA polymerases were competitive with regard to the natural substrates; thus FMAUTP competes with dTTP, and FIACTP and FMACTP compete with dCTP. The inhibition constants (Ki) for FMAUTP, FIACTP, and FMACTP of virus-induced DNA polymerase are 0.06, 0.30, and 0.47 microM, respectively. Cellular DNA polymerase alpha is much less sensitive to these inhibitors, and its Ki values for FMAUTP, FIACTP, and FMACTP are 0.45, 3.10, and 2.90 microM, respectively. In addition, human cytomegalovirus-induced DNA polymerase, but not cellular DNA polymerase alpha, can utilize these analog triphosphates as alternate substrates for their corresponding natural deoxyribonucleoside triphosphates in in vitro DNA synthesis.
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PMID:Human cytomegalovirus-induced DNA polymerase and its interaction with the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil, -5-iodocytosine, and -5-methylcytosine. 299 40

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

Two forms of DNA-dependent ATPase activity were previously purified from the yeast Saccharomyces cerevisiae and characterized (Plevani, P., Badaracco, G., and Chang, L. M. S. (1980) J. Biol. Chem. 255, 4957-4963). Here, an additional DNA-dependent ATPase (ATPase III) has been purified from S. cerevisiae to near homogeneity. This ATPase differs from those described previously in its chromatographic properties, molecular weight, reaction properties and immunological relatedness. Its molecular weight is about 63,000 in the presence of sodium dodecyl sulfate. It hydrolyzes ATP to ADP and orthophosphate in the presence of DNA as an effector. In addition, yeast DNA polymerase I, which is a true DNA replicase of yeast, is stimulated severalfold by this ATPase. Neither yeast DNA polymerase II nor prokaryotic DNA polymerases are stimulated. This stimulation is intrinsic to the ATPase activity, since both activities copurified in the last four steps of purification, showed the same heat stability and showed dependence on and hydrolysis of ATP. The ATPase III preparation also contains a DNA-unwinding (DNA helicase) activity, which unwinds double-stranded DNA in the presence of ATP. In the S. cerevisiae radiation-sensitive mutant rad3, no significant ATPase III activity could be detected, suggesting that the RAD3 gene, which codes for a different polypeptide, regulates the expression of ATPase III activity.
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PMID:A new DNA-dependent ATPase which stimulates yeast DNA polymerase I and has DNA-unwinding activity. 301 45

Macrophages derived from human peripheral blood and cultured for 1 week were permissive for the replication of herpes simplex virus (HSV) types 1 and 2. Low titers of interferon (IFN) were produced after virus infection. The yield of infectious virions was reduced by pretreatment of cells with natural and recombinant IFN-alpha and natural IFN-beta. Recombinant and natural IFN-gamma exhibited very low antiviral activity. Treatment of cells with IFN-gamma mixed with IFN-alpha or with IFN-beta did not result in a synergistic inhibition of virus yield. We studied the synthesis of HSV type 1- and HSV type 2-coded proteins in macrophages treated with IFN-beta. Induction of the HSV beta-protein DNA polymerase was strongly inhibited in IFN-treated cells in a dose-dependent manner. As shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, other beta- and gamma-proteins of HSV were inhibited as well. Immunofluorescence studies revealed a strong inhibition of the expression of immediate early alpha-protein ICP4. The results indicate that IFN acts early during the viral replication cycle to inhibit the synthesis of HSV alpha- and beta-proteins.
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PMID:Effect of interferon on replication of herpes simplex virus types 1 and 2 in human macrophages. 301 99

A tumor-derived factor that inhibits cellular DNA synthesis was identified. The factor was extractable from a small-cell lung carcinoma cell line grown in either chemically defined medium or nu/nu mice and inhibited tritiated thymidine ([3H]dThd) incorporation by tumor cell lines of autologous, allogeneic, and xenogeneic origins. The viability of nonproliferating cells from normal tissue was not affected. Tumor extract inhibitory activity was trypsin labile but was resistant to other proteases, neuraminidase, lipase, DNase, RNase, glucosidase, extremes of pH-temperature, and reducing conditions. Inhibitory activity was reversibly bound to helix pomatia lectin but not to lentil, wheat germ, or concanavalin A lectins. Purification by size-exclusion high-performance liquid chromatography yielded a bioactive unimodal 12-kilodalton (kd) peak. The bioactive 12-kd moiety could be eluted from sodium dodecyl sulfate-polyacrylamide gels. Redosing of populations of the T-lymphoblastoid cell line CEM achieved an early (24 hr) sustained depression of pulse [3H]dThd incorporation and ultimately led to decreased population density of factor-treated populations. DNA histogram analysis demonstrated no change in cell cycle phase distribution after factor treatment. 5-Bromo-2'-deoxyuridine (BrdUrd) vs. propidium iodide with the two-parameter Fluorescence-Activated Cell Sorter analysis showed relative inhibition of non-S-phase BrdUrd uptake at 24 hours. A cell-free DNA polymerase assay demonstrated significant inhibition of non-alpha-polymerase-associated DNA synthesis in factor-treated cells. These studies suggest that this tumor-derived inhibitor of DNA synthesis represents a class of cellular products involved in the autoregulation of growth by regulation of DNA synthetic activity.
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PMID:Inhibition of DNA synthesis by a small-cell lung carcinoma-derived protein. 302 Mar 1

A procedure was developed for cloning and characterizing genes that encode proteins with nuclease activity in the Streptococcus pneumoniae [pLS1] host/vector system. Clones are screened for nuclease activity by a DNase colony assay and the nucleases that they produce are characterized by detection of enzyme activity after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The method was used to clone the gene encoding a DNA polymerase (Pol)-exonuclease of S. pneumoniae. The activity of this enzyme, the predominant DNA Pol of S. pneumoniae, is tenfold greater in cells carrying the multicopy recombinant plasmid than in cells without the plasmid. The enzyme corresponds to a 100-kDa polypeptide, and its properties are similar to PolI of Escherichia coli. A restriction map of the pSM22 plasmid containing the pneumococcal polA gene was obtained. The gene was transferred into Bacillus subtilis and E. coli, and it was expressed in both species. Its direction of transcription was determined by placement of the gene in both orientations in an E. coli hyperexpression plasmid. In one of the orientations the pneumococcal PolI enzyme was produced at a level 50-fold greater than normally found in S. pneumoniae, and it comprised 5% of the total protein.
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PMID:Cloning of a gene encoding a DNA polymerase-exonuclease of Streptococcus pneumoniae. 302 92

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