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)

Endonuclease G (Endo G) is widely distributed among animals and cleaves DNA at double-stranded (dG)n.(dC)n and at single-stranded (dC)n tracts. Endo G is synthesized as a propeptide with an amino-terminal presequence that targets the nuclease to mitochondria. Endo G can also be detected in extranucleolar chromatin. In addition to deoxyribonuclease activities, Endo G also has ribonuclease (RNase) and RNase H activities and specifically cleaves mouse mitochondrial RNA and DNA-RNA substrates containing the origin of heavy-strand DNA replication (OH). The cleavage sites match those found in vivo, indicating that Endo G is capable of generating the RNA primers required by DNA polymerase gamma to initiate replication of mitochondrial DNA.
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PMID:Primers for mitochondrial DNA replication generated by endonuclease G. 768 44

RNases H are traditionally thought to degrade RNA only in RNA-DNA hybrid form. We found that the wild-type Moloney murine leukemia virus (M-MuLV) reverse transcriptase (RT) was capable of degrading RNA in RNA-RNA duplexes as well as in RNA-DNA hybrids, as assayed by in situ gel techniques. Escherichia coli RNase H does not degrade the RNA-RNA duplex in this assay, while E. coli RNase III, a double-strand-specific ribonuclease, does. The apparent specific activity of M-MuLV RT on RNA-RNA duplexes is similar to that on RNA-DNA hybrids. Neither the DNA polymerase domain nor the RNase H domain of RT expressed individually exhibited this RNA-RNA activity. We have generated a series of mutations in the RNase H domain of M-MuLV RT, expressed the mutant enzymes in E. coli, and assayed these mutants for various activities. All RTs were as active as the wild type in the oligo(dT):poly(rA) DNA polymerase assay, and many retained both nuclease activities. Two enzymes with mutations at the carboxyl terminus of the RNase H domain retained RNA-DNA activity, but not RNA-RNA activity. Another mutant enzyme showed the opposite phenotype, retaining RNA-RNA, but not RNA-DNA, nuclease activity. Thus, we were able to genetically separate the two activities. These results may be helpful in defining enzyme-substrate interactions.
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PMID:Nuclease activities of Moloney murine leukemia virus reverse transcriptase. Mutants with altered substrate specificities. 769 92

A gene encoding a putative DNA polymerase (pol) of Bombyx mori nuclear polyhedrosis virus (BmSNPV) was cloned and sequenced. The gene included an open reading frame (ORF) encoding a polypeptide of 988 amino acids with a predicted molecular mass of 114.65 kDa. The deduced amino acid sequence of the BmSNPV pol ORF showed an overall identity of 96 and 45% to those of the Autographa californica NPV (AcMNPV) pol ORF and the Lymantria dispar NPV pol ORF, respectively, and contained sequences conserved in a variety of eukaryotic and viral replicative DNA polymerases. The BmSNPV pol lacked a canonical TATAA element but contained a G+C-rich sequence in the transcriptional initiation region. Analyses by Northern blot hybridization, RNase protection assay, primer extension, and 3' and 5' RACE (rapid amplification of cDNA ends) showed that at least seven different transcripts of approximately 3.1 kb that shared a common 3' end were expressed from the BmSNPV pol. The expression of these transcripts from BmSNPV pol was regulated differentially during virus infection. Transcription of five of the seven species initiated in the close vicinity of and within the motif 5'-GCGTGCT-3'. One transcript placed its initiation site within the motif 5'-AGAGCGT-3' and the remaining one within the motif 5'-GGCGGTGG-3'. The motifs 5'-GCGTGCT-3' and 5'-AGAGCGT-3' have been identified in pol and other genes of AcMNPV as conserved sequences containing transcriptional initiation sites, whereas the motif 5'-GGCGGTGG-3', which is arranged as a direct repeat in BmSNPV pol but not in AcMNPV pol, has not been defined as the sequence responsible for transcriptional initiation sites. The BmSNPV pol transcripts were detectable at 2 hr postinfection (p.i.), peaked at 10 hr p.i., and declined to a low level by 18 hr p.i. The expression of BmSNPV pol was not inhibited but delayed dramatically by the protein synthesis inhibitor cycloheximide upon treatment of infected cells, whereas aphidicolin, an inhibitor of DNA polymerase, inhibited BmSNPV pol transcription. These results suggest a complicated and unique mechanism for the regulation of BmSNPV pol expression.
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PMID:Nucleotide sequence and transcriptional analysis of the DNA polymerase gene of Bombyx mori nuclear polyhedrosis virus. 783 99

Different portions of the 5'-upstream region of the mouse proliferating cell-nuclear-antigen (PCNA) gene were combined with the bacterial chloramphenicol acetyltransferase (CAT) gene of a CAT vector. A transient expression assay of CAT activity in mouse neuroblastoma N18TG2 cells transfected with these recombinant plasmids and RNase protection analysis have revealed the existence of a negative regulatory region between nucleotides -1231 and -624 (+1 denotes the transcription initiation site). The CAT expression levels were gradually increased, depending on the extent of deletion from the 5'-terminus in this region, suggesting that the negative regulatory region consists of multiple elements with rather weak repressing activities. Significant sequence similarity was found between the negative regulatory region of the PCNA gene and those of the several reported genes. A 752-bp segment containing this negative regulatory region repressed the function of the PCNA gene promoter in an orientation-independent and position-independent manner. However, the negative regulatory region showed almost no repressing effect on the functions of the heterologous gene promoters such as the simian virus 40 enhancer promoter, the enhancer promoter in the Rous sarcoma virus long-terminal repeat and the mouse DNA polymerase beta gene promoter. These results suggest that the negative regulatory region of the mouse PCNA gene functions specifically to its own promoter. This unique property is discussed in comparison with that of the negative regulatory elements of the mouse DNA polymerase beta gene.
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PMID:Nucleotide sequence and promoter-specific effect of a negative regulatory region located upstream of the mouse proliferating cell nuclear antigen gene. 790 77

A plasmid carrying the 5' flanking region of the mouse proliferating-cell-nuclear-antigen (PCNA) gene or DNA polymerase beta gene was fused with the chloramphenicol acetyltransferase (CAT) gene, then cotransfected into mouse N18TG2 cells with the expression plasmid for the p53 gene. Expression of the wild-type p53 repressed the CAT expression directed by the PCNA gene promoter, while it had little effect on the DNA polymerase beta gene promoter. RNase protection analysis revealed that the repression of the PCNA gene promoter by p53 was at the transcription step. Analysis with various deletion mutants in the PCNA gene promoter revealed that a specific sequence is not required for the repression, suggesting that p53 represses the PCNA gene promoter by interacting with some components of the basic transcription machinery. By analysis with various deletion mutants in the DNA polymerase beta gene promoter, we identified the unique 10-bp palindromic sequence (-24 to -15), in the presence of which p53 was not able to repress the promoter activity. This sequence conferred resistance to p53 repression onto the PCNA gene promoter, when it was placed 21-bp upstream from the transcription-initiation site.
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PMID:Differential effect of p53 on the promoters of mouse DNA polymerase beta gene and proliferating-cell-nuclear-antigen gene. 790 18

We and others have described methods to label specific nucleic acid sequences in fixed cells by reverse in situ transcription (IST). They are simple alternatives to the tedious steps of in situ hybridization with labeled probes. We have favored use of thermostable DNA polymerases after heat denaturation of template secondary structure, accompanied by synthesis of cDNA from an annealed primer, but the approach has been limited by the low reverse transcriptase (RT) activity of Taq polymerase and delayed detection methods. We have improved the technique by the use of recombinant Thermus thermophilus (rTth) DNA polymerase and fluorescein-12-dUTP (FIST). Jurkat T lymphocytes were stimulated with ionomycin + phorbol myristate acetate to produce interleukin-2 (IL-2) mRNA in vitro overnight. They were cytospun onto slides and fixed in 70% ethanol + 30% DEPC-treated water, acetone, and air-dried. The slides were placed on a temperature-controlled heating block, and the cell spot was covered with a plastic coverslip. The temperature was raised to 95 degrees C, and 5-10 microliters of modified Perkin-Elmer/Cetus rTth RT reaction mix was injected under the edge of the coverslip. Each 10 microliters of mix in DEPC-water contained 10 mM Tris-HCl, pH 8.3, 90 mM KCl, 1 mM MnCl2, 1 mM dithiothreitol, 10 U placental ribonuclease inhibitor, 0.125 mM dA,C,GTPs, 0.1 mM fluorescein-12-dUTP, 2 U rTth DNA polymerase, and 4 pM 22-mer oligonucleotide primer, which spanned the second intron of IL-2. After 3 min at 95 degrees C, 1 min at 50 degrees C and 10 min at 72 degrees C, the slides were washed in 0.5 x phosphate-buffered saline, pH 7.0, at 42 degrees C, in 70% ethanol, 100% ethanol, and air-dried. The cells were mounted in antifade solution (2% n-propyl gallate in 70% glycerol), and could be viewed immediately by fluorescence microscopy. Image analysis showed that stimulated Jurkat cells were brighter than uninduced controls or those treated with RNase or without polymerase or primer. FIST appears to be useful for the detection of specific mRNAs in single cells.
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PMID:In situ transcription with Tth DNA polymerase and fluorescent nucleotides. 798 81

We have identified and purified a multiprotein form of DNA polymerase from the murine mammary carcinoma cell line (FM3A) using a series of centrifugation, polyethylene glycol precipitation, and ion-exchange chromatography steps. Proteins and enzymatic activities associated with this mouse cell multiprotein form of DNA polymerase include the DNA polymerases alpha and delta, DNA primase, proliferating cell nuclear antigen (PCNA), DNA ligase I, DNA helicase, and DNA topoisomerases I and II. The sedimentation coefficient of the multiprotein form of DNA polymerase is 17S, as determined by sucrose density gradient analysis. The integrity of the murine cell multiprotein form of DNA polymerase is maintained after treatment with detergents, salt, RNase, DNase, and after chromatography on DE52-cellulose, suggesting that the association of the proteins with one another is independent of nonspecific interaction with other cellular macromolecular components. Most importantly, we have demonstrated that this complex of proteins is fully competent to replicate polyomavirus DNA in vitro. This result implies that all of the cellular activities required for large T-antigen dependent in vitro polyomavirus DNA synthesis are present within the isolated 17S multiprotein form of the mouse cell DNA replication activities. A model is proposed to represent the mammalian Multiprotein DNA Replication Complex (MRC) based on the fractionation and chromatographic profiles of the individual proteins found to co-purify with the complex.
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PMID:A 17S multiprotein form of murine cell DNA polymerase mediates polyomavirus DNA replication in vitro. 812 85

We examined whether the allegedly aberrant expression of the lymphoid lineage associated DNA polymerase, terminal deoxynucleotidyl transferase (TdT), in acute myeloid leukaemia (AML) is associated with alterations of the enzyme at the cellular, biochemical or transcriptional level when compared to lymphoid leukaemia (ALL), either lacking or expressing myeloid antigens. By flowcytometric analysis, the intensity of TdT staining with monoclonal anti-TdT antibody was considerably weaker in TdT+ AML and myeloid+ ALL (M+ ALL) than in myeloid- ALL (M- ALL). TdT enzyme activity in TdT+ AML was on an average 10%, and in M+ ALL 25% of that measured in M- ALL. Anti-TdT antibodies precipitated a major specific protein of identical relative molecular mass (58 kD) from metabolically labelled TdT+ myeloblasts and lymphoblasts. By Northern blot analysis and ribonuclease protection assay, TdT transcript levels were significantly lower in TdT+ myeloblasts and M+ lymphoblasts than in M- ALL (P < 0.0001). The level of TdT transcription in AML was independent of the simultaneous expression of lymphoid-specific antigens, such as CD2 and CD19. Our data demonstrate that TdT expression is downregulated in association with myeloid features, not only in AML but also in ALL. This observation may provide the molecular basis for the differential therapeutic responsiveness, particularly to glucocorticoids, in these various leukaemia subtypes.
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PMID:Differential expression of terminal transferase (TdT) in acute lymphocytic leukaemia expressing myeloid antigens and TdT positive acute myeloid leukaemia as compared to myeloid antigen negative acute lymphocytic leukaemia. 821 92

During the development of a procedure for the isolation of total genomic DNA from filamentous fungi (Rodriguez, R. J., and Yoder, O.C., Exp. Mycol. 15, 232-242, 1991) a cell fraction was isolated which inhibited the digestion of DNA by restriction enzymes. After elimination of DNA, RNA, proteins, and lipids, the active compound was purified by gel filtration to yield a single fraction capable of complete inhibition of restriction enzyme activity. The inhibitor did not absorb uv light above 220 nm, and was resistant to alkali and acid at 25 degrees C and to temperatures as high as 100 degrees C. More extensive analyses demonstrated that the inhibitor was also capable of inhibiting T4 DNA ligase and TaqI DNA polymerase, but not DNase or RNase. Chemical analyses indicated that the inhibitor was devoid of carbohydrates, proteins, lipids, and nucleic acids but rich in phosphorus. A combination of nuclear magnetic resonance, metachromatic shift of toluidine blue, and gel filtration indicated that the inhibitor was a polyphosphate (polyP) containing approximately 60 phosphate molecules. The mechanism of inhibition appeared to involve complexing of polyP to the enzymatic proteins. All species of Colletotrichum analyzed produced polyP equivalent in chain length and concentration. A modification to the original DNA extraction procedure is described which eliminates polyP and reduces the time necessary to obtain DNA of sufficient purity for restriction enzyme digestion and TaqI polymerase amplification.
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PMID:Polyphosphate present in DNA preparations from filamentous fungal species of Colletotrichum inhibits restriction endonucleases and other enzymes. 838 89

rnhA224 and rnhA339::cat mutants which lack RNase HI activity were found to constitutively express the sfiA::lacZ operon fusion in a recA+ lexA(+)-dependent manner. The sfiA::lacZ expression (indicating SOS induction) in rnhA mutants was increased to higher levels by the introduction of the recD1903 or recB21 mutation. The SOS induction in these cells was further enhanced by nutritional shift up from casamino acid medium to Luria broth. Although the extent by which the recD and recB mutations increased the sfiA expression in rnhA mutants was similar, the rnhA224 recB21 double mutant had plating efficiencies that were 25-fold lower on casamino acid plates and 5 x 10(5)-fold lower on Luria broth plates than the respective plating efficiencies of either rnhA224 recD or rnhA::cat recD double mutants. Whereas the recD mutation inactivates the exonuclease activity of the RecBCD (Exo V) enzyme without reducing the recombination proficiency of the mutant, the recB21 mutation abolishes both the exonuclease activity and recombination capability. Therefore, in the absence of both RNase HI and Exo V activities, homologous recombination functions become crucial for viability, particularly in Luria broth. Introduction of mutations in recA, recJ and recN exacerbated the phenotypes. It is proposed that R-loops which persist due to the lack of RNase HI activity can be removed by two alternative routes of DNA repair: one involving Exo V, Exo I and DNA polymerase I, and the other involving both the RecBCD and RecF pathways of homologous recombination activities. The isolation of RNA polymerase mutants that constitutively express the SOS response at high levels and exhibit remarkable broth-sensitivity lend strong support to the contention that increased amounts of the persisting R-loop in rnhA mutants growing in Luria broth give rise to a stronger SOS response.
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PMID:Requirement of homologous recombination functions for viability of the Escherichia coli cell that lacks RNase HI and exonuclease V activities. 838 13

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