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)

The Escherichia coli rho-15 mutant, which is highly defective in transcription termination, was examined to see whether its reduced DNA superhelicity could be explained by altered expression of proteins that may affect DNA structure. Levels of DNA gyrase and topoisomerase I were normal; levels of single-stranded-DNA-binding protein, DNA polymerase I, and a protein tentatively identified as Lon were significantly altered.
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PMID:Levels of DNA topoisomerases, single-stranded-DNA-binding protein, and DNA polymerase I in rho+ and rho-15 strains of Escherichia coli. 254 16

The inhibition of the semiconservative and restorative DNA synthesis caused by hyperthermia (30 to 60 min, 43 degrees C) was significantly higher in spleen cells than in thymus cells. The DNA repair synthesis of thymus cells measured at 37 degrees C was increased by about two times the initial value after a pre-incubation of 30 to 90 min and 30 to 60 min, respectively, with 37 and 43 degrees C, respectively. Under the same conditions, the 3H-thymidine incorporation into the DNA of spleen cells diminished proportionally to the pre-incubation time after a pre-incubation of 30 and 45 min, respectively, with 43 and 37 degrees C, respectively. When hyperthermia and inhibitors of DNA synthesis or DNA repair (hydroxyurea, 1-beta-D-arabinofuranosylcytosine, 3',5'-didesoxythymidine, and 3-aminobenzamide) were combined, overadditive effects--without cell specific particularities--were seen only in the case of 3-aminobenzamide. Only in thymus cells, the inhibitor of DNA topoisomerase II novobiocin caused an overadditive reinforcement of the inhibition induced by hyperthermia of the semiconservative DNA synthesis. The stimulation of DNA repair synthesis in thymus cells caused by novobiocin with the aid of DNA polymerase beta could be compensated by hyperthermia. The sedimentation of thymus and spleen cell nucleoids was increased after hyperthermia. The results suggest a special importance of DNA topology and of the DNA polymerase beta activity for the cellular effect of hyperthermia.
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PMID:[Deoxyribonucleic acid synthesis by rat thymus and spleen cells in vitro following hyperthermia]. 283 58

Soluble extracts of Escherichia coli capable of carrying out replication of the mini-RK2 derivative pCT461 have been prepared from cells carrying this plasmid or from plasmid-free bacteria. The latter are dependent upon exogenously added plasmid-encoded replication protein (TrfA) and require additional DnaA protein for optimum activity. This dependence upon DnaA was confirmed by the failure of DnaA-deficient cell extracts to support replication of pCT461 in the absence of added DnaA protein. Replication is unidirectional and begins at or near oriV, the vegetative replication origin of RK2. DNase I protection studies with purified TrfA indicate that this protein acts by binding to short (17 base-pairs) directly repeated DNA sequences present in oriV. The in vitro replication is resistant to rifampicin but can be abolished by antibodies against DnaG protein (E. coli primase) or DnaB protein (helicase) and by DNA gyrase inhibitors. Inhibition by arabinosyl-CTP suggests that DNA polymerase III is responsible for elongation of nascent DNA strands. These results are discussed in relation to the mechanism of RK2 replication and in the context of the host range of the plasmid.
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PMID:Replication of mini RK2 plasmid in extracts of Escherichia coli requires plasmid-encoded protein TrfA and host-encoded proteins DnaA, B, G DNA gyrase and DNA polymerase III. 285 Mar 70

The replication of DNA containing either the polyoma or SV40 origin has been done in vitro. Each system requires its cognate large-tumour antigen (T antigen) and extracts from cells that support its replication in vivo. The host-cell source of DNA polymerase alpha - primase complex plays an important role in discriminating between polyoma T antigen and SV40 T antigen-dependent replication of their homologous DNA. The SV40 origin- and T antigen-dependent DNA replication has been reconstituted in vitro with purified protein components isolated from HeLa cells. In addition to SV40 T antigen, HeLa DNA polymerase alpha - primase complex, eukaryotic topoisomerase I and a single-strand DNA binding protein from HeLa cells are required. The latter activity, isolated solely by its ability to support SV40 DNA replication, sediments and copurifies with two major protein species of 72 and 76 kDa. Although crude fractions yielded closed circular monomer products, the purified system does not. However, the addition of crude fractions to the purified system resulted in the formation of replicative form I (RFI) products. We have separated the replication reaction with purified components into multiple steps. In an early step, T antigen in conjunction with a eukaryotic topoisomerase (or DNA gyrase) and a DNA binding protein, catalyses the conversion of a circular duplex DNA molecule containing the SV40 origin to a highly underwound covalently closed circle. This reaction requires the action of a helicase activity and the SV40 T antigen preparation contains such an activity. The T antigen associated ability to unwind DNA copurified with other activities intrinsic to T antigen (ability to support replication of SV40 DNA containing the SV40 origin, poly dT-stimulated ATPase activity and DNA helicase).
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PMID:In vitro replication of DNA containing either the SV40 or the polyoma origin. 289 81

We have studied homologous recombination in a derivative of phage lambda containing two 1.4-kb repeats in inverted orientation. Inversion of the intervening 2.5-kb segment occurred efficiently by the Escherichia coli RecBC pathway but markedly less efficiently by the lambda Red pathway or the E. coli RecE or RecF pathways. Inversion by the RecBCD pathway was stimulated by Chi sites located to the right of the invertible segment; this stimulation decreased exponentially by a factor of about 2 for each 2.2 kb between the invertible segment and the Chi site. In addition to RecA protein and RecBCD enzyme, inversion by the RecBC pathway required single-stranded DNA binding protein, DNA gyrase, DNA polymerase I and DNA ligase. Inversion appeared to occur either intra- or intermolecularly. These results are discussed in the framework of a current molecular model for the RecBC pathway of homologous recombination.
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PMID:Genetic functions promoting homologous recombination in Escherichia coli: a study of inversions in phage lambda. 295 Dec 95

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 replication of plasmid pBR322 DNA has been reconstituted with purified proteins from Escherichia coli. Initiation of the leading-strand requires RNA polymerase holoenzyme, DNA polymerase I, RNase H, and DNA gyrase. Initiation of the lagging-strand requires the primosomal proteins (the dnaB, dnaC, and dnaG proteins, replication factor Y (protein n') and proteins i, n, and n") and the single-stranded DNA binding protein. DNA polymerase III holoenzyme is required for extensive elongation of the nascent DNA chains. The products of this replication reaction are primarily nonsegregated daughter molecules. However, the addition of small amounts of soluble extract from E. coli results in the completion and segregation of these molecules to give mature form I DNA, suggesting that additional factors are required for this process. Topoisomerase I is necessary to make the replication system specific for pBR322 DNA as a template, indicating that the linking number of the DNA, determined by an equilibrium between the opposing activities of topoisomerase I and DNA gyrase, plays a crucial role in determining the reactivity of the DNA molecule toward initiating DNA replication. The function of the proteins involved in the replication of this closed-circular, double-stranded, superhelical DNA is discussed.
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PMID:Replication of pBR322 DNA in vitro with purified proteins. Requirement for topoisomerase I in the maintenance of template specificity. 299 Dec 40

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

The mechanism of inhibition of the replication of herpes simplex virus type 1 (HSV-1) by coumermycin A1 (CA1), an inhibitor of bacterial DNA gyrase, has been investigated. Concentrations of antibiotic slightly higher than those needed for 50% inhibition of viral growth were able to inhibit viral DNA synthesis in infected cells. This effect was accompanied by a depressed synthesis of viral polypeptides. Protein synthesis was also inhibited in uninfected cells, especially after long exposure to the drug, but not in a cell-free system. In vitro assays of highly purified HSV-1 DNA polymerase in the presence of the drug, provided evidence that the enzyme was a target of CA1. The viral polymerase was in fact inhibited by the antibiotic to an extent comparable to that of viral DNA synthesis in intact cells. In contrast, DNA polymerase alpha, the enzyme involved in chromosomal DNA replication, was relatively insensitive to CA1. The drug was also shown to bind to protein and to viral and cellular DNA.
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PMID:On the complex nature of the antiviral activity of coumermycin A1: its interference with the replication of herpes simplex virus type 1. 300 43

Coliphage N4 replication is independent of most host DNA replication functions except for the 5'----3' exonuclease activity of polA, DNA ligase, DNA gyrase, and ribonucleotide reductase (Guinta, D., Stambouly, J., Falco, S. C., Rist, J. K., and Rothman-Denes, L. B. (1986) Virology 150, 33-44). It is therefore expected that N4 codes for most of the functions required for replication of its genome. In this paper we report the purification of the N4-coded DNA polymerase from N4-infected cell extracts by following its activity on a gapped template and in an in vitro complementation system for N4 DNA replication (Rist, J. K., Pearle, M., Sugino, A., and Rothman-Denes, L. B. (1986) J. Biol. Chem. 261, 10506-10510). The enzyme is composed of one polypeptide, Mr 87,000. It is most active on templates containing short gaps synthesizing DNA with high fidelity in a quasi-processive manner. A strong 3'----5' exonuclease activity is associated with the DNA polymerase polypeptide. No 5'----3' exonuclease or strand-displacing activities were detected.
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PMID:Purification and characterization of bacteriophage N4-induced DNA polymerase. 340 28

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