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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)

Retroviral reverse transcriptase possesses DNA polymerase and ribonuclease H (RNase H) activity within a single polypeptide. Chemical or proteolytic treatment of reverse transcriptase has been used in the past to produce enzyme that is missing DNA polymerase activity and retains RNase H activity. It has not been possible to obtain reverse transcriptase that lacks RNase H but retains DNA polymerase activity. We have constructed a novel deletion derivative of the cloned Moloney murine leukemia virus (M-MLV) reverse transcriptase gene, expressed the gene in E. coli, and purified the protein to near homogeneity. The purified enzyme has a fully active DNA polymerase, but has no detectable RNase H activity. These results are consistent with, but do not prove, the conclusion that the DNA polymerase and RNase H activities of M-MLV reverse transcriptase reside within separate structural domains.
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PMID:Isolation of cloned Moloney murine leukemia virus reverse transcriptase lacking ribonuclease H activity. 244 47

The reverse transcriptase of Moloney murine leukemia virus, like that of all retroviruses, exhibits a DNA polymerase activity capable of synthesis on RNA or DNA templates and an RNase H activity with specificity for RNA in the form of an RNA.DNA hybrid. We have generated a library of linker insertion mutants of the Moloney murine leukemia virus enzyme expressed in bacteria and assayed these mutants for both enzymatic activities. Those mutations affecting the DNA polymerase activity were clustered in the 5'-proximal two-thirds of the gene, and those affecting RNase H were in the remaining 3' one-third. Based on these maps, plasmids were made that expressed each one of the domains separately; assays of the proteins encoded by these plasmids showed that each domain exhibited only the expected activity.
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PMID:Domain structure of the Moloney murine leukemia virus reverse transcriptase: mutational analysis and separate expression of the DNA polymerase and RNase H activities. 245 Mar 47

From the yeast, Saccharomyces cerevisiae, three proteins exhibiting ribonuclease H activity were isolated. These proteins differ in molecular weights and enzymatic properties. The two smaller ones, RNAase H(55) and RNAase H(42) are immunologically and structurally related to each other. Neither reacts with antibodies against the largest one, RNAase H(70). Highly purified preparations of RNAase H(70) contain two polypeptides (Mr 70,000 and 160,000) and display reverse transcriptase activity. Deletion of part of the gene for the 160 kDa polypeptide results in mutants possessing about twice the amount of DNA as do wild-type cells. DNA polymerase stimulating activity resides in the 70,000 polypeptide. The processivity of yeast DNA polymerase A(I) does not change in presence of that protein. Possible functions of RNAases H are discussed.
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PMID:Three ribonucleases H and a reverse transcriptase from the yeast, Saccharomyces cerevisiae. 246 14

Poly(A)+RNA and cytoplasmic RNA of Ehrlich ascites tumor cells grown in vivo were used to study the quality and efficiency of cDNA synthesis. It was found that the rates of oligo(dT)-primed and unprimed reverse transcription were very similar in both cases. The size distributions of the cDNA strands prepared from unfractionated RNA reflected the size of cytoplasmic mRNA populations including a significant fraction of long molecules up to 6 kb. The fraction of cDNAs primed on rRNAs by oligo(dT) was found to be as low as 2-3%. Following second-strand synthesis by means of RNase H-induced nick translation by DNA polymerase I the overall yields in double-stranded cDNA were slightly higher when unfractionated cytoplasmic RNA was used as starting template. In repeated experiments we obtained an average yield of 2.2 micrograms of double-stranded cDNA when 70 micrograms of unfractionated cytoplasmic RNA was used as starting material. This amount of cDNA synthesized in one assay was sufficient to construct representative cDNA libraries in different vectors. Southern hybridizations of DNA isolated from cDNA libraries with various radiolabelled probes show that the libraries constructed from cDNA synthesized from cytoplasmic RNA not enriched in poly(A)+RNA contain a high ratio of full-length cDNA clones. The results suggest that representative cDNA libraries of high quality can be constructed without pre-isolation of poly(A)+RNA fractions.
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PMID:Construction and quality of cDNA libraries prepared from cytoplasmic RNA not enriched in poly(A)+RNA. 246 57

Reverse transcriptase from the human immunodeficiency virus type I (HIV-1) was expressed in E. coli and purified to near homogeneity. The enzyme was shown to contain reverse transcriptase, DNA polymerase and ribonuclease H activities. The DNA polymerase activity converted singly-primed phi X174 (+) DNA into the double-stranded form. Two third of the replication product is ligatable to covalently closed circular DNA (RFIV-form DNA) indicating that DNA synthesis by HIV reverse transcriptase can proceed until the enzyme matches the 5'-end of a pre-existing primer molecule. The in vitro accuracy of HIV reverse transcriptase was measured with the phi X174am16 reversion assay to be 1/7,400. Reversion rates for the individual mispairs were determined from pool bias studies to be 1/8,000 for the dGMP:T template mismatch, 1/35,000 for the dGMP:A template mismatch, 1/45,000 for the dAMP:G template mismatch, 1/73,000 for the dCMP:T template mispair, 1/140,000 for the dCMP:A template mispair, and 1/180,000 for the dGMP:G template mismatch. The dTMP:T template mispair was below the detection limit of the assay indicating a reversion rate of less than 1/300,000 for this particular mispair.
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PMID:Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural DNA. 246 38

A plasmid construct expressing the p66 version of the human immunodeficiency virus reverse transcriptase as a bacterial fusion protein was subjected to in vitro mutagenesis, and the resulting variant proteins were assayed to define the locations of the two major enzymatic activities. The DNA polymerase activity was localized to the N-terminal portion of the protein; mutations altering or eliminating the C-terminal portion had little or no effect on that activity. The results suggest that, in contrast with previous reports, the p51 subunit found in virions should exhibit DNA polymerase activity. Mutations in many parts of the protein eliminated RNase H activity, suggesting that several areas are needed for proper folding and generation of that activity.
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PMID:Linker insertion mutagenesis of the human immunodeficiency virus reverse transcriptase expressed in bacteria: definition of the minimal polymerase domain. 247 90

Mechanisms that could operate to initiate pBR322 DNA replication in the absence of RNase H and DNA polymerase I are described. Two different pathways leading to extensive unwinding of pBR322 DNA have been observed under DNA replication reaction conditions in vitro. In the presence of RNA polymerase and DNA gyrase, specifically initiated RNA II (the leading-strand primer precursor) can form an RNA-DNA hybrid with the template that starts just upstream of the origin of DNA replication and continues for about 3 kilobases. Subsequent digestion of the RNA in this RNA-pBR322 DNA hybrid results in the formation of a highly unwound DNA termed form I. If DNA gyrase is absent during the RNA polymerase-catalyzed elongation of RNA II, a stable RNA-pBR322 DNA hybrid can still form that is localized to the origin region of the genome. Formation of this hybrid activates the primosome assembly site present on the lagging-strand DNA template, by displacing it to a single-stranded conformation, thereby allowing preprimosome assembly. Once assembled, the DNA helicase activity of the preprimosome, in the presence of the single-stranded DNA binding protein and DNA gyrase but in the absence of any further transcription, can also result in extensive unwinding of pBR322 DNA. The product of this reaction, form I DNA, is more unwound than form I DNA. The formation of both form I and form I DNA is inhibited by the presence of excess RNA I, as well as by RNase H at concentrations sufficient to catalyze the normal processing of RNA II required for initiation of leading-strand DNA synthesis. These results suggest that RNA II-pBR322 DNA hybrid formation is essential to permit preprimosome assembly during pBR322 DNA replication under conditions where both RNase H and DNA polymerase I are absent.
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PMID:Transcriptional activation of pBR322 DNA can lead to duplex DNA unwinding catalyzed by the Escherichia coli preprimosome. 247 95

We have developed a modified primer extension procedure for specific detection of mRNA. Alkali-fragmented total cellular RNA or some RNA fraction is hybridized to single-stranded or double-stranded M13 DNA containing the insert of interest which is immobilized on nylon membranes. Hybridized RNA is then detected by incubation of membranes with Escherichia coli RNase H and DNA polymerase I. RNase H is used for nicking the RNA in the hybrids. The resulting 3'-OH groups can subsequently be used by DNA polymerase I to synthesize a labeled complementary strand. The method described is both relatively fast and sensitive and particularly useful for screening large numbers of DNA clones for their representation in RNA populations. Using total cellular RNA as hybridization probe and single-stranded M13 DNA as template as low as 0.25 ng of a specific mRNA was detected (2.5-fold background) when adding 1 microCi [3H]dCTP or 2.5 microCi [32P]d-CTP alternatively as radioactive precursor for the labeling reaction. The detection limit increased to 1 ng (2-fold background) with denatured replicative form double-stranded M13 DNA as template.
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PMID:A modified primer extension procedure for specific detection of DNA-RNA hybrids on nylon membranes. 247 44

In Escherichia coli the dnaQ+ gene, which encodes epsilon, a fidelity subunit of DNA polymerase III, and the rnh+ gene, which encodes RNase H, share a promoter region but are transcribed in opposite directions. The presence of this divergent transcriptional unit on a multicopy plasmid inhibited by as much as 10-fold mutations induced by the SOS-dependent mutagens methyl methanesulfonate and UV light. Mutations in either gene eliminated the effect, suggesting that both genes contribute either directly or indirectly to the antimutagenic phenotype. Neither survival to mutagen exposure nor induction of the SOS response was comparably affected by the presence of the genes. Although the antimutagenic phenotype was partially suppressed by excess UmuDC proteins, which are required for SOS mutagenesis, the presence of the dnaQ+-rnh+ clone also reduced the induction of mutations by N-methyl-N'-nitro-N-nitrosoguanidine in cells deficient for SOS mutagenic processing. The results suggest that the presence of the dnaQ+-rnh+ divergent transcriptional unit interferes with an underlying mutagenic mechanism that is normally facilitated by the proteins induced as part of the SOS response.
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PMID:Presence of the dnaQ-rnh divergent transcriptional unit on a multicopy plasmid inhibits induced mutagenesis in Escherichia coli. 254 18

The herpes simplex virus-1 DNA polymerase is a heterodimer of Mr 190,000 which consists of the products of the UL30 (Pol) and UL42 genes. The 136-kilodalton Pol gene product contains an intrinsic ribonuclease H activity that specifically degrades RNA.DNA heteroduplexes or duplex DNA substrates in the 5'----3' direction. It can therefore catalyze the excision of the RNA primers that initiate the synthesis of Okazaki fragments at a replication fork during herpes DNA replication.
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PMID:Herpes simplex-1 DNA polymerase. Identification of an intrinsic 5'----3' exonuclease with ribonuclease H activity. 255 35

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