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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)

DNA-dependent RNA polymerase, DNA-Dependent DNA polymerase, and terminal riboadenylate transferase (TRT) activities have been measured after DEAE-Sephadex chromatography of whole cell extracts prepared from eggs and staged embryos of the urchin, Stronglyocentrotus franciscanus. Activity of each of these three polymerase classes is present in the egg, and the total activity per embryo is constant throughout embryogenesis to the pluteus stage (approximately 1000 cells). Thus the egg appears to contain sufficient DNA polymerase, RNA polymerase, and TRT TRT for embryogenesis. The increases in the synthesis of DNA, RNA and polyadenylated RNA tracts observed after fertilization must be due to the activation of the preexisting egg enzymes. Separation of the egg into nucleate and anucleate halves demonstrates that the RNA polymerases are not restricted to the egg nucleus. During development, the enzymes become progressively more associated with the cell nucleus. The egg extracts contain low activities (approximately 6% total) of RNA polymerase II as measured by sensitivity to alpha-amanitin. This is confirmed by resolution of the RNA polymerase forms I, II, and III by gradient sievorptive elution on DEAE-Sephadex. Later stage embryos contain more nearly equal activities of RNA polymerase, I, II, and III, although the total RNA polymerase activity per embryo is not changed. Additionally, two chromatographicallly distinct species of RNA polymerase III are detected, one of which is observed only in later stages. Thus interconversion of enzymes via addition of new subunits or coordinate synthesis and loss of enzyme species must occur.
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PMID:Nucleic acid polymerizing enzymes in developing Strongylocentrotus franciscanus embryos. 98 54

DNA alpha-polymerase has been partially purified from nuclei of cultured chic, fibroblasts and separated on phosphocellulose columns into two distinct activities designated DNA polymerases alpha(a) and alpha(b), respectively. The enzyme preparations were devoid of activities of DNA beta,gamma-polymerases terminal deoxyribonucleoside transferase, DNase, DNA-dependent RNA polymerase, and phosphatase. DNA polymerases alpha(a) and alpha(b) both having molecular weights of 160 000, constitute 35-50 and 65-50%, respectively, of the activity of alpha-polymerase in the nucleus. These enzymes differ in their requirements for maximal activity, their relative ability to copy oligo(dG)-poly(dC), their response to ribonucleoside triphosphates, and their kinetics of heat inactivation. When the properties of alpha polymerases derived from early or late passage cultures have been compared, no difference could be detected as a function of cell age in the specific activities of the polymerases in crude cell extracts, their chromatographic behavior on diethylaminoethylcellulose and phosphocellulose columns, and their relative abilities to utilize single deoxyribonucleoside triphosphates with activated DNA template. On the other hand, both enzymes become partially heat labile in aging cells. Also, the activity of DNA polymerase alpha(a) from young cells was stimulated by 2--10 mM adenosine or cytidine triphosphates, whereas the same enzyme from old cultures was inhibited by these agents. Conversely, these ribonucleoside triphosphates inhibited the activity of polymerase alpha(b) in young cells but slightly stimulated this enzyme derived from senescent fibroblasts. In addition, the relative ability of DNA polymerase alpha(a) to copy oligo(dG)-poly(dC) decreased in aged cells, whereas that of DNA polymerase alpha(b) increased. We have also observed significant differences in the effects of potassium chloride and N-ethylmaleimide on the activity of DNA polymerase alpha(a) from old cells as compared to young cells. These age-related alterations in the properties of the two avian DNA polymerases may reflect structural or conformational changes in these enzymes.
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PMID:Altered nuclear deoxyribonucleic acid alpha-polymerases in senescent cultured chick embryo fibroblasts. 98 31

The inhibitor sensitivity and functional domains of recombinant encephalomyocarditis (EMC) virus RNA-dependent RNA polymerase (3Dpol) have been extensively analyzed. The inhibitor profiles of EMC virus 3Dpol and Escherichia coli DNA-dependent RNA polymerase are distinct, and experiments with substrate analogs indicate that EMC virus 3Dpol lacks reverse transcriptase activity. Twenty amino acid substitutions were engineered in EMC virus 3Dpol based on sequence alignments of viral RNA-dependent RNA polymerases that identified conserved amino acid residues within motifs. Ten out of 17 conservative substitutions within the four most conserved motifs reduced the RNA polymerase activity of the mutants to 0-6% of the activity of the wild-type enzyme, demonstrating the importance of these amino acids in the structure and/or function of EMC virus 3Dpol. Remarkably, 5 of the 10 mutations in EMC virus 3Dpol which had the most drastic effect on its RNA polymerase activity (D240E, S293T, N302Q, G332A, and D333E) were found to correspond to active site residues in E. coli DNA-dependent DNA polymerase I (Klenow). Our results reveal that a basic structural and functional framework is conserved in the most distantly related classes of nucleic acid polymerases and demonstrate the validity of modeling the active site of an RNA-dependent RNA polymerase on the known structure of a DNA polymerase.
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PMID:Point mutations which drastically affect the polymerization activity of encephalomyocarditis virus RNA-dependent RNA polymerase correspond to the active site of Escherichia coli DNA polymerase I. 131 53

We report on the discovery and isolation of DNA- and RNA-containing macromolecular nuclear complexes whose purified major DNA possessed electrophoretic mobilities of approximately 90 and approximately 25 kbp. The deoxyribonucleoprotein-ribonucleoprotein complexes contain RNA and DNA polymerase and primase activities and were isolated from nuclei of murine RAW117 large-cell lymphoma cells by restriction digestion with Msp-I, gentle extraction with solutions containing MgCl2, but without chelating agents, and low ionic strength gel electrophoresis. Two-dimensional (isoelectric focusing/M(r)) gel electrophoresis and silver staining of the proteins of the complexes after treatment with DNase I indicated the presence of approximately 30 protein components. In vitro DNA and RNA polymerase/primase assays showed that the DNP/RNP complexes had very high enzyme specific activities. Using the DNP/RNP complexes a discrete DNA polymerase alpha product of approximately 85 kbp was synthesized that was not synthesized in the presence of the DNA polymerase alpha inhibitor aphidicolin. RNA polymerase assays in the presence of excess alpha-amanitin indicated that the complexes possessed significant RNA polymerase I activity. Preparing the complexes at various times after the release of cells from a double thymidine block showed the complexes as well as the complex-associated enzyme activities to be cell-cycle dependent. The DNA and RNA polymerase-related activities were highest in late S phase, 7 and 9 h, respectively, after release from the double thymidine block. The complexes synthesized a specific in vitro DNA polymerase product using endogenous substrate and nucleotide precursors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nucleoprotein complexes released from lymphoma nuclei that contain the abl oncogene and RNA and DNA polymerase and RNA primase activities. 142 73

The DNA-dependent RNA polymerase of vaccinia virus contains 8 to 10 virus-encoded polypeptides. We have mapped the gene encoding an 18-kilodalton RNA polymerase subunit to D7R, the seventh open reading frame of the HindIII D genomic subfragment. Localization of this gene was achieved by using antibody to the purified RNA polymerase for immunoprecipitation of the in vitro translation products of in vivo-synthesized early mRNA selected by hybridization to cloned DNA fragments. The identification was confirmed by translation of D7R transcripts made in vitro with bacteriophage T7 RNA polymerase. The phenotypes of two previously isolated conditionally lethal temperature-sensitive mutants that map to D7R (J. Seto, L. M. Celenza, R. C. Condit, and E. G. Niles, Virology 160:110-119, 1987) are consistent with an essential role of this subunit in late transcription. This polymerase gene, designated rpo18, predicts a polypeptide of 161 amino acids with a molecular mass of 17,892. The rpo18 gene is transcribed early in infection, even though the 5'-TAAATG-3' motif, which is conserved among many genes of the late class, is present near the RNA start site. Characterization of the 5' end of the early transcript by several different methods, including cDNA cloning, revealed a poly(A) leader with up to 14 adenylate residues, whereas only 3 are present in the corresponding location of the DNA template. Similar but somewhat longer poly(A) leaders have previously been observed in mRNAs of late genes. We noted a TAAATG motif near the initiation site of several other early genes, including the viral DNA polymerase, and carried out additional experiments to demonstrate that their early transcripts also have 5' poly(A) leaders. Thus, formation of the poly(A) leader is not exclusively a late function but apparently depends on sequences around the transcription initiation site.
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PMID:Identification of the vaccinia virus gene encoding an 18-kilodalton subunit of RNA polymerase and demonstration of a 5' poly(A) leader on its early transcript. 233 25

The effects of sodium selenite and sodium selenate on DNA and RNA synthesis have been examined using intact HeLa cells, isolated nuclei and extracted polymerases. Selenate had no effect on any of the systems examined. Selenite inhibited DNA synthesis in intact cells and in isolated nuclei, and to a limited extent also inhibited DNA polymerase alpha. Selenite also inhibited RNA synthesis in intact cells and alpha-amanitin resistant RNA synthesis in isolated nuclei (i.e., synthesis catalyzed by RNA polymerase I and III). It had no effect on alpha-amanitin sensitive synthesis (catalyzed by RNA polymerase II) at concentrations up to 500 microM. However, transcription of exogenous DNA by extracted RNA polymerase II (as well as by polymerase I and III) was inhibited by selenite.
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PMID:Effects of sodium selenite and selenate on DNA and RNA synthesis in vitro. 240 58

Replication with Escherichia coli DNA polymerase I (Pol I) and transcription with DNA-dependent RNA polymerase from Escherichia coli or calf thymus, using as templates synthesized ribo- or deoxyribopolynucleotides containing 1,N6-ethenoadenine (epsilon A) or 3,N4-ethenocytosine (epsilon C), showed that only epsilon C could direct significant misincorporation. The hydrated intermediate of epsilon C caused errors only upon transcription, but not upon replication. epsilon A was a very poor mutagen as assessed by replication with Pol I. Transcription of polynucleotides containing epsilon A under error-prone conditions caused frequent A misincorporation which could not be detected in replication assays. It is concluded that epsilon C may lead to point mutations, specifically directing the misincorporation of thymine. The analogous derivative, epsilon A, is bulky and is likely to be bypassed rather than read. This mechanism could cause frameshift mutation, as generally found for other bulky adducts.
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PMID:Replication and transcription of polynucleotides containing ethenocytosine, ethenoadenine and their hydrated intermediates. 243 6

During transcription in E. coli, the DNA-dependent RNA polymerase locates specific promoter sequences in the DNA template, melts a small region containing the transcription start site, initiates RNA synthesis, processively elongates the transcript, and finally terminates and releases the RNA product. Each step is regulated by interactions between the polymerase, the DNA, the nascent RNA, and a variety of regulatory proteins and ligands. The E. coli enzyme contains a catalytic core of two alpha-subunits, one beta- and one beta'-subunit, with relative molecular masses (Mr) of 36,512, 150,619 and 155,162, respectively. The holoenzyme has an additional regulatory subunit, normally sigma, of Mr 70,236. Preparations may also contain the omega-subunit (Mr approximately 10,000), which can be removed without affecting any known properties of the enzyme. Because the amino-acid sequences of the beta- and beta'-subunits are homologous to those of the largest subunits of the yeast, Drosophila and murine RNA polymerases, it seems likely that essential features of the three-dimensional structure and catalytic mechanism of RNA polymerase are also conserved across species. Crystals of RNA polymerase suitable for X-ray analysis have not yet been obtained, but two-dimensional crystals of E. coli RNA polymerase holoenzyme can be grown on positively charged lipid layers. Electron microscopy of these crystals in negative stain shows the enzyme in projection as an irregularly shaped complex approximately 100 x 100 x 160 A in size. We have now determined the three-dimensional structure by electron microscopy of negatively stained, two-dimensional crystals tilted at various angles to the incident electron beam. We find a structure in RNA polymerase similar to the active-site cleft of DNA polymerase I. In the light of functional similarities between these two enzymes, together with other evidence, this probably identifies the active-site region of RNA polymerase.
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PMID:Three-dimensional structure of Escherichia coli RNA polymerase holoenzyme determined by electron crystallography. 267 51

Lipids, which enter the composition of actively transcribed and repressed chromatin fractions are found to undergo a peroxidation. This process decreased with aging and more pronounced in actively transcribed chromatin fraction. A decreased activity of DNA polymerase beta and increased activity of RNA polymerase I in this chromatin fraction with aging were observed. It is assumed that observed changes of genome function of old animals may be caused by decreased peroxidation of chromatin lipids.
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PMID:[Lipid peroxidation and the polymerase activities of liver chromatin fractions in rats during aging]. 279 Jan 64

Escherichia coli strains containing mutations in various deoxyribonucleic acid synthesis cistrons have been tested for their ability to support bacteriophage N4 growth and, specifically, N4 DNA synthesis. N4 DNA synthesis is independent of the activity of the products of the E. coli dnaA, dnaB, dnaC, dnaE, dnaG, and rep genes. In contrast, N4 DNA replication requires the products of the dnaF, (ribonucleotide reductase) and lig (DNA ligase) genes of E. coli. N4 DNA replication, specifically processing of short DNA fragments requires the 5'-3' exonuclease activity of the polA gene product. However, its DNA polymerizing activity is not required. In addition, the sensitivity of N4 DNA synthesis to inhibitors or temperature-sensitive mutants of E. coli DNA gyrase suggests that this activity is required for N4 DNA synthesis. To date, we have found five N4 gene products required for N4 DNA replication: dbp (a single-stranded DNA binding protein), dnp (a DNA polymerase), dns (unknown function), vRNAp (the N4 virion-associated, DNA-dependent RNA polymerase) and exo (a 5'-3' exonuclease).
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PMID:Host and phage-coded functions required for coliphage N4 DNA replication. 300 44

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