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)

We have developed a nuclear lysate system from infected, synchronized cells capable of synthesizing unit-length parvoviral DNA in vitro. It was necessary to supplement the nuclear lysates with the polyamines, spermidine and spermine, to prevent degradation of template and product DNAs. In this system RF, RI, and single-stranded progeny DNAs were synthesized. Label incorporated in viral RF DNA in vivo appeared first in RI DNA and then in single-stranded DNA during incubation in vitro. By sedimentation the product DNAs were identical to those found in infected cells. Their viral identity was confirmed by hybridization. The addition of ribonucleotides, RNase, or alpha-amanitin did not affect parvoviral DNA synthesis in this system. The results with the specific inhibitors of mammalian DNA polymerases, aphidicolin, N-ethylmaleimide, and 2',3'-dideoxythymidine 5'-triphosphate indicated that DNA polymerase alpha was required for synthesis of parvoviral DNA in the nuclear lysates. This requirement was confirmed by experiments with antibody to bovine DNA polymerase alpha.
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PMID:Replication of parvoviral DNA. I. Characterization of a nuclear lysate system. 626 Sep 87

Short-term cultures of cells from human rain tumours have been reported to synthesise RNA particles of density in the range characteristic of C type RNA retroviruses, with associated DNA polymerase activity. Fresh tumour cells obtained from 6 children with astrocytoma and 7 children with medulloblastoma, together with one sample of normal brain tissue and normal leukocytes from brain tumour patients were assayed by several characteristics for the primate retrovirus. 1 or 6 (17%) astrocytomas and 4 of 7 (57%) medulloblastomas released RNA particles which banded in sucrose gradients at a density of 1.16-1.18 g/cm3 together with a short segment of DNA, which was eliminated by prior ribonuclease treatment and two proteins of 28k and 16k daltons. These findings were compatible with the presence of a primate retrovirus. Immune coprecipitation of 125I-labelled proteins from the 1.16-1.18 g/cm3 gradient region failed to show any reactivity with antisera to p28 core antigens or the p70 reverse transcriptase antigens of simian sarcoma virus, baboon endogenous virus or Mason Pfizer virus. Assays for DNA polymerase activity in culture supernatant fluid showed only a low amount of activity with template preferences not characteristic of the retroviral reverse transcriptase enzyme.
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PMID:Children's brain tumour cells produce RNA particles with incomplete retrovirus characteristics. 628 9

The factor(s) derived from fibrosarcoma-induced suppressor T cells was sensitive to pronase and neuraminidase, but not to trypsin, beta-galactosidase, DNase, or RNase. Protein and RNA, but not DNA, synthesis were required to mediate suppression. Suppressor T cell-derived factor(s) could be precipitated by a 50% saturated ammonium sulfate (SAS) solution. The 50% SAS fraction inhibited both in vitro and in vivo spleen cell blastogenesis, whereas the 80% and unprecipitated fractions had no inhibitory activity. Using Sephadex G-200 chromatography, the 2nd protein fraction (fraction II) contained an inhibitor of both DNA polymerases (IDP) and DNA synthesis (IDS) activity, which possessed no cytotoxic activity. In vitro DNA polymerase alpha activity was suppressed by fraction II, whereas DNA polymerase beta and gamma activities remained unchanged. Molecular weight of IDP/IDS, as determined by Sephadex G-200 gel filtration chromatography, was approximately 14,500. Attempts to separate IDP/IDS activities found in fraction II by anion-exchange chromatography and slab gel electrophoresis were not successful, which suggested that the 2 activities were the same or very similar molecules.
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PMID:Suppressor cell activity in tumor-bearing mice. III. Co-purification of a factor inhibiting cellular DNA synthesis and DNA polymerase activity. 645 73

Human liver tissues obtained at autopsy from two patients chronically infected with hepatitis B virus (HBV) were found to contain several distinct species of HBV DNA. Southern blot analysis using a nick-translated HBV [32P]DNA probe identified specific DNA bands migrating at the positions expected for linear double-stranded DNA of 3.6 and 2.0 kb. These DNA bands were shown to represent relaxed circular and closed circular (supercoiled) HBV DNA, respectively. In addition to these distinct bands several minor bands as well as a heterogeneous population of HBV DNA molecules were present. When infected cell nuclei were isolated, and the nuclear and cytoplasmic nucleic acid separately analyzed, the nuclear fraction contained the 2.0-kb DNA species. This species was shown to be supercoiled 3.2-kb HBV DNA by electron microscopy, restriction endonuclease digestion, and thermal denaturation. The cytoplasmic fraction contained DNA forms similar to those found in virions isolated from plasma (i.e., migration in the position of linear double-stranded molecules of 3.6 and 3.2 kb) and no supercoiled DNA was detected. Particles isolated from the cytoplasmic fraction were able to incorporate dNTPs into viral DNA sequences. Southern blot analysis of the nucleic acid isolated from the particles revealed the presence of HBV DNA forms migrating in positions expected for 3.6- and 3.2-kb linear double-stranded molecules as well as a heterogeneous population of HBV molecules. The 3.6- and 3.2-kb species were identified as relaxed circular and double-stranded linear genome-length HBV DNA. Digestion of the viral nucleic acid with pancreatic ribonuclease increased the electrophoretic mobility of a portion of the heterogeneous HBV molecules and resulted in the appearance of a distinct 1.9-kb DNA band suggesting the same viral DNA was complexed with RNA. Experiments to be reported elsewhere showed this DNA species to be genome-length minus-strand HBV DNA which was released from DNA-RNA hybrid molecules by RNase digestion. Thus, supercoiled HBV DNA exists free in the nucleus of infected liver cells and cytoplasmic particles contain relaxed circular and linear HBV DNA as well as a heterogeneous population of HBV DNA and DNA-RNA hybrid molecules, and a DNA polymerase reaction in the particles results in incorporation of dNTP into DNA strands of these molecules.
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PMID:Hepatitis B virus DNA forms in nuclear and cytoplasmic fractions of infected human liver. 648 54

Hepatitis B virions in plasma (Dane particles) are known to contain small circular DNA molecules. The experiments described here indicate that virions in plasma, as well as particles from hepatitis B virus-infected human liver, also contain viral DNA-RNA hybrid molecules, and deoxynucleotides can be incorporated into the DNA of these hybrids by DNA polymerase activities in the virions. Thus, two viral DNA synthetic reactions appear to take place in virions: repair of the single-stranded region of circular DNA molecules and synthesis or elongation of the DNA strand of DNA-RNA hybrid molecules. Centrifugation of virion nucleic acid to equilibrium in Cs2SO4 density gradients revealed the presence of viral DNA-RNA hybrid molecules over a density range of 1.45 to 1.60 g/cm3. Distinct species of hybrid molecules were found with an average density of 1.57 g/cm3 in Dane particles and 1.52 and 1.57 g/cm3 in particles from liver. Fractionation of nucleic acid from Cs2SO4 density gradients by gel electrophoresis demonstrated that the majority of hybrid molecules migrated faster than molecules with the density of pure DNA (1.42 g/cm3). One notable exception was the finding of DNA-RNA hybrid molecules migrating slower than open circular viral DNA. Characterization of viral DNA-RNA hybrids by heat denaturation Cs2SO4 density gradient fractionation, and recombinant M13-HBV single-stranded probe hybridization revealed that the hybrid molecules consisted of viral plus-strand RNA hydrogen bonded to viral minus-strand DNA sequences. Data obtained by pancreatic ribonuclease digestion revealed that the hybrid molecules at density 1.45 to 1.52 g/cm3 contained HBV RNA strands base paired over only part of their length in contrast to the hybrid species at density 1.57 g/cm3 which contained RNA strands apparently base paired over most of their length. Further characterization showed that the hybrid at 1.57 g/cm3 contained genome-length minus-strand viral DNA. The experiments rule out the possibility that the hybrid molecules are transcriptional complexes. Data presented in a companion manuscript indicate that the hybrid molecules may represent intermediates in the synthesis of viral DNA in the endogenous DNA polymerase reaction.
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PMID:Hepatitis B virus particles of plasma and liver contain viral DNA-RNA hybrid molecules. 649 59

A diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) binding subunit has been resolved from a high molecular weight (640,000) multiprotein form of DNA polymerase alpha [deoxynucleoside triphosphate:DNA nucleotidyltransferase (DNA-directed), EC 2.7.7.7] from HeLa cells [DNA polymerase alpha 2 of Lamothe, P., Baril, B., Chi, A., Lee, L. & Baril, E. (1981) Proc. Natl. Acad. Sci. USA 78, 4723-4727]. The Ap4A binding activity copurifies with the DNA polymerizing activity during the course of purification. Hydrophobic chromatography on butylagarose resolves the Ap4A binding activity from the DNA polymerase. The Ap4A binding activity is protein in nature since the binding of Ap4A is abolished by treatment of the isolated binding activity with proteinase K but is insensitive to treatment with DNase or RNase. The molecular weight of the Ap4A binding protein, as determined by polyacrylamide gel electrophoresis under nondenaturing conditions or by NaDodSO4/polyacrylamide gel electrophoresis after photoaffinity labeling of the protein with [32P]Ap4A is 92,000 or 47,000. The binding activity of this protein is highly specific for Ap4A.
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PMID:Resolution of the diadenosine 5',5"'-P1,P4-tetraphosphate binding subunit from a multiprotein form of HeLa cell DNA polymerase alpha. 657 66

Adenovirus DNA replication was studied in a partially reconstituted system consisting of purified viral proteins (DNA-binding protein, precursor terminal protein and Ad DNA polymerase) and a nuclear extract from uninfected HeLa cells. Optimal DNA replication required the presence of a heat-stable, ribonuclease-sensitive fraction from the cytosol of uninfected cells. This fraction stimulated the initiation about 3-fold and the replication of origin fragments 5-10-fold. Sedimentation analysis indicated the presence of a fast-sedimenting and a slow-sedimenting component which complemented each other. At least part of the stimulation was caused by low-molecular-mass RNA.
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PMID:Adenovirus DNA replication in vitro is stimulated by RNA from uninfected HeLa cells. 672 75

Replicating DNA of human adenovirus type 2, identified as partly single-stranded viral DNA in which [3H]thymidine is readily incorporated, was found to be separated into two fractions by chromatography on hydroxyapatite. Whereas one of the these fractions was eluted with 180 mM phosphate, the other one was eluted at the same concentration, 240 mM, as fully double-stranded DNA. The physical properties of the 180 and 240 mM fractions, in particular their buoyant densities in solutions of CsCl and Cs2SO4, were compared both before and after treatment by various enzymes such as Neurospora crassa nuclease, pancreatic ribonuclease, ribonuclease H and the Klenow fragment of DNA polymerase I of Escherichia coli, used alone or in various combinations. Unlike the 240 mM fraction, the 180 mM fraction was found to include a substantial amount of single-stranded DNA, some of it being hydrogen-bonded to RNA. Both of these features confer to the 180 mM fraction the high buoyant density in cesium salt solution which was described, for several adenoviruses, as one of the characteristic properties of replicating DNA.
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PMID:Two classes of replicating molecules of adenovirus type 2 DNA. 724 95

Activity gel analysis of cell extracts from slow- and fast-growing mycobacteria confirmed the presence of several RNase H activities in both classes of organism. The rnhA gene from Mycobacterium smegmatis (Ms) was subsequently cloned using an internal gene segment probe [Mizrahi et al., Gene 136 (1993) 287-290]. The gene encodes a polypeptide of 159 amino acids that shares 50% identity with the RNase HI from Escherichia coli (Ec). However, unlike its counterparts from Gram- bacteria, Ms rnhA does not form an overlapping divergent transcriptional unit with dnaQ (encoding the epsilon (proofreading) subunit of DNA polymerase III). Ms RNase HI was overproduced in Ec as an enzymatically active maltose-binding protein (MBP) fusion protein which cleaved the RNA strand of an RNA.DNA hybrid with a similar site selectivity to that of its Ec homologue.
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PMID:Cloning, sequence analysis, overproduction in Escherichia coli and enzymatic characterization of the RNase HI from Mycobacterium smegmatis. 748 19

Using purified proteins from calf and a synthetic substrate, we have reconstituted the enzymatic reactions required for mammalian Okazaki fragment processing in vitro. The required reactions are removal of initiator RNA, synthesis from an upstream fragment to generate a nick, and then ligation. With our substrate, RNase H type I (RNase HI) makes a single cut in the initiator RNA, one nucleotide 5' of the RNA-DNA junction. The double strand specific 5' to 3' exonuclease removes the remaining monoribonucleotide. After dissociation of cleaved RNA, synthesis by DNA polymerase generates a nick, which is then sealed by DNA ligase I. The unique specificities of the two nucleases for primers with initiator RNA strongly suggest that they perform the same reactions in vivo.
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PMID:Enzymatic completion of mammalian lagging-strand DNA replication. 752 89

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