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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)

A TGATG vector system was developed that allows for the construction of hybrid operons with partially overlapping genes, employing the effects of translational coupling to optimize expression of cloned cistrons in Escherichia coli. In this vector system (plasmid pPR-TGATG-1), the coding region of a foreign gene is attached to the ATG codon situated on the vector, to form the hybrid operon transcribed from the phage lambda PR promoter. The cloned gene is the distal cistron of this hybrid operon ('overlappon'). The efficiently translated cro'-cat'-'trpE hybrid cistron is proximal to the promoter. The coding region of this artificial fused cistron [the length of the corresponding open reading frame is about 120 amino acids (aa)] includes the following: the N-terminal portions of phage lambda Cro protein (20 aa), the CAT protein of E. coli (72 aa) and 3' C-terminal codons of the E. coli trpE gene product. At the 3'-end of the cro'-cat'-'trpE fused cistron there is a region for efficient translation reinitiation: a Shine-Dalgarno sequence of the E. coli trpD gene and the overlapping stop and start codons (TGATG). In this sequence, the last G is the first nucleotide of the unique SacI-recognition site (GAGCT decreases C) and so integration of the structural part of the foreign gene into the vector plasmid may be performed using blunt-end DNA linking after the treatment of pPR-TGATG-1 with SacI and E. coli DNA polymerase I or its Klenow fragment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:TGATG vector: a new expression system for cloned foreign genes in Escherichia coli cells. 218 46

We have studied spontaneous and UV mutagenesis of the glyU gene in Escherichia coli trpA461 (GAG) strains carrying the pIP11 plasmid, in which the dnaQ gene encoding the 3'-5' exonuclease subunit (epsilon) of DNA polymerase III is fused to the tac(trp-lac) promoter. We have used a pair of M13glyU phage in which the gene encoding the glycyl-tRNA is cloned in opposite orientations, consequently the phage present either GGG or CCC anticodon triplets for mutagenesis. The presence of IPTG, the inducer of the tac-dnaQ fusion, results in about 100-fold decrease in frequency of spontaneous Su+ (GAG) mutations arising in the CCC phage. The enhanced expression of tac-dnaQ reduces 10-fold the frequency of UV-induced Su+ (GAG) mutations in the CCC phage and nearly completely prevents generation by UV of Su+ (GAG) mutations in the GGG phage, in which UV-induced pyrimidine photo-products can be formed only in the vicinity of the target triplet. These results suggest that both locally and regionally targeted mutagenesis is affected by overproduction of the epsilon subunit. By delayed photoreversal mutagenesis we have shown that UV-induced chromosomal mutagenesis of the umuC36 trpA461 strain harboring pIP11 is completely abolished in the presence of IPTG. This result seems to indicate that the misinocorporation step of DNA translesion synthesis is affected by excess of the epsilon subunit. Finally, we have introduced the pIP13 plasmid carrying the dnaQ gene into the recA1207 strain, which is deficient in the recombinase activity of RecA but constitutive in the protease activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of enhanced synthesis of the epsilon subunit of DNA polymerase III on spontaneous and UV-induced mutagenesis of the Escherichia coli glyU gene. 219 32

Polymerase chain reaction (PCR) is a novel tool for the in vitro amplification of DNA segments up to several kb. Repeated cycles of DNA synthesis by heat-stable Taq DNA polymerase enables to obtain more than 10(5) copies of the target sequence. Recently its enormous attitude of amplification has been applied for the detection of tumor-specific gene alterations. Examples include the detection of point mutation of RAS oncogenes at codons 12, 13, and 61 and the detection of minimal residual neoplastic cells in patients in complete clinical remission. Among many kinds of tumor specific gene translocations, BCR-ABL gene in t(9;22)(q34;q11) and BCL-2-IgH gene in t(14:18)(q32;q21) have been successfully PCR-amplified around their fused regions. In lymphoid malignancies gene rearrangements of T cell receptor chain or immunoglobulin heavy chain can be used as clonal markers for leukemic cells. PCR technique permits the detection of leukemia DNA at dilution of 10(-4) to 10(-6). Although further investigation of patients' follow-up in large scale is needed, this technique seems to hold promise for the monitoring of residual neoplastic cells.
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PMID:[Polymerase chain reaction (PCR)--a novel tool for the molecular diagnosis of neoplasms]. 220 61

Spot 42 RNA of Escherichia coli, a 109-nucleotide RNA that influences the level of DNA polymerase I, has an AUG triplet preceded by a purine-rich potential ribosome-binding site and is followed by a short (14-triplet) potential open reading frame. Although the RNA bound to ribosomes, it did so inefficiently and nonproductively. When fused to lacZ sequences, spot RNA did not support the synthesis of beta-galactosidase. Also, the biological effects of spot 42 RNA were not altered by mutation of the tyrosine UAU codon to the chain termination UAG. We conclude that the effects of spot 42 RNA are mediated by the RNA itself and not by a spot 42 RNA-encoded peptide.
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PMID:Spot 42 RNA of Escherichia coli is not an mRNA. 244 Aug 52

In general mammalian cells recover from DNA synthesis inhibition by ultraviolet light (u.v.) before most of the pyrimidine dimers have been removed from the genome. This is a complex phenomenon whose biological significance has not been fully assessed. In Chinese hamster V79 cells this recovery seems to be directly coupled to an enhanced rate of double-stranded DNA elongation. The presence of the DNA polymerase alpha inhibitor, aphidicolin, after u.v. irradiation produces two different responses. At low concentration, sufficient to inhibit 95% of DNA replication but having no effect on excision repair, the drug has no effect on the recovery. This shows that ongoing replicative DNA synthesis is not required for recovery. At higher concentrations of aphidicolin, sufficient to block excision repair, the recovery phenomenon was prevented. The recovery was also prevented by actinomycin D at a concentration that inhibits 60% of RNA synthesis. In quantitative autoradiography experiments in which previously irradiated cells were fused with unirradiated cells the nuclei of the latter exhibited a higher resistance to inhibition by u.v. than nuclei from non-fused cells. These results indicate that: (1) even the low repair rate exhibited by V79 cells (relative to human cells) is important for recovery; although most of the dimers remain in the V79 genome after recovery of DNA synthesis, either the removal of lesions from some important region of chromatin or the activity of the repair process itself is important for the recovery; (2) the recovery mechanism is induced and depends on RNA synthesis and the production of specific factors. Finally, we have observed that cells previously treated with fluorodeoxyuridine become more resistant to inhibition by u.v. After irradiation these cells replicate DNA faster than untreated cells. Since it has been shown that this drug activates unused origins of replication in Chinese hamster cells, reducing the average replicon size, we assume that the acquired resistance has to do with the operation of a larger number of smaller replicons. This may also be the mechanism whereby recovery from inhibition occurs after u.v. irradiation.
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PMID:Recovery of DNA synthesis from inhibition by ultraviolet light in mammalian cells. 244 19

Restriction endonuclease (RE) mapping studies and molecular hybridization analyses were conducted to determine the molecular structure of the genome of equine cytomegalovirus (ECMV). The ECMV genome is a linear, double-stranded DNA with a molecular size of 126 +/- 0.6 MDa (189 kbp). A library of cloned BamHI, EcoRI, and HindIII fragments of the viral genome was used to construct RE maps. Individual 32P-labeled cloned DNA fragments were hybridized to Southern blots of viral genomic DNA digested to completion with BamHI, EcoRI, HindIII, or SalI. These analyses revealed that the ECMV genome consists of a 97-MDa unique long region which is bracketed by repeated sequences. At one terminus of the genome, a 21.3-MDa segment of repeated sequences with no apparent unique sequences was identified. At the other terminus, a 6-MDa unique region bracketed by 2.4-MDa repeat segments was identified. No submolar RE fragments were identified upon digestion of the ECMV genome with BamHI, EcoRI, HindIII, SalI, or other REs, including BclI, BglII, NruI, and XbaI. The genome possesses only two termini as judged by lambda exonuclease digestion and by T4 DNA polymerase end-labeling of the intact DNA followed by digestion with BamHI, EcoRI, HindIII, SalI, BclI, BglII, NruI, or XbaI. In addition, Southern blot analysis of DNA extracted from ECMV-infected rabbit kidney cells revealed that only one viral DNA fragment within the intracellular viral DNA pool contains fused genomic termini. Taken together, these observations indicate that the ECMV genome does not isomerize and suggest that the genome of ECMV may be unique among those of the herpesviruses and especially those of the betaherpesviruses (cytomegaloviruses) since it contains regions of extensive internal homology yet does not undergo isomerization. Lastly, the relatively small size of the viral genome indicates an evolutionary diversification among the cytomegaloviruses.
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PMID:Physical structure and molecular cloning of equine cytomegalovirus DNA. 255 43

The herpes simplex virus type 1 (HSV-1) (strain 17) DNA polymerase gene has been cloned into an Escherichia coli-yeast shuttle vector fused to the galactokinase gene (GAL-1) promoter. Genes controlled by the GAL-1 promoter are induced by galactose, uninduced by raffinose, and repressed by glucose. Cell extracts from a strain of Saccharomyces cerevisiae harboring this vector (Y-MH202, expresser cells) grown in the presence of galactose and assayed in high salt (100 mM ammonium sulfate) contained a novel DNA polymerase activity. No significant high-salt DNA polymerase activity was detected in extracts from expresser cells grown in the presence of raffinose or in extracts from control cells containing the E. coli-yeast shuttle vector without the HSV-1 DNA polymerase gene grown in the presence of raffinose of galactose. Immunoblot analysis of the cell extracts by using a polyclonal rabbit antiserum prepared against a highly purified HSV-1 DNA polymerase preparation revealed the specific induction of the HSV-1 approximately 140-kilodalton DNA polymerase polypeptide in expresser cells grown in galactose. Extracts from the same cells grown in raffinose or control cells grown in either raffinose or galactose did not contain this immunoreactive polypeptide. The high-salt DNA polymerase activity in the extracts from expresser cells grown in galactose was inhibited greater than 90% by either acyclovir triphosphate or aphidicolin, as expected for HSV-1 DNA polymerase. In addition, the high-salt polymerase enzyme activity could be depleted from extracts by immunoprecipitation by using purified immunoglobulin G from this same polyclonal rabbit antiserum. These results demonstrate the successful expression of functional HSV-1 DNA polymerase enzyme in S. cerevisiae.
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PMID:Expression of herpes simplex virus type 1 DNA polymerase in Saccharomyces cerevisiae and detection of virus-specific enzyme activity in cell-free lysates. 284 66

The dnaZX gene of Escherichia coli directs the synthesis of two proteins, DnaZ and DnaX. These products are confirmed as the gamma and tau subunits of DNA polymerase III because antibody to a synthetic peptide present in both the DnaZ and DnaX proteins reacts also with the gamma and tau subunits of holoenzyme. To characterize biochemically the tau subunit, for which there has been no activity assay, the dnaZX gene was fused to the beta-galactosidase gene to encode a fusion product in which the 20 C-terminal amino acids of the DnaX protein (tau) were replaced by beta-galactosidase lacking only 7 N-terminal amino acids. The 185-kDa fusion protein, which retained beta-galactosidase activity, was overproduced to the level of about 5% of the soluble cellular protein by placing the gene fusion under control of the tac promoter and Shine-Dalgarno sequence. The fusion protein was isolated in one step by affinity chromatography on p-aminobenzyl 1-thio-beta-D-galactopyranoside-agarose. The purified fusion protein also had ATPase (and dATPase) activity that was dependent on single-stranded DNA. This activity copurified with the beta-galactosidase activity not only through the affinity column but also through a subsequent gel filtration. We conclude that the DnaX protein function involves binding to single-stranded DNA and hydrolysis of ATP or dATP, in addition to binding to other DNA polymerase III holoenzyme components, increasing the processivity of the core enzyme, and serving as a substrate for the production of the gamma subunit.
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PMID:Escherichia coli DnaX product, the tau subunit of DNA polymerase III, is a multifunctional protein with single-stranded DNA-dependent ATPase activity. 303 60

It has been found that the mutator phenotype of the recA441 and recA730 strains that express the SOS response constitutively is suppressed by pIP1, a high-copy plasmid carrying the dnaQ gene encoding the 3'----5' exonuclease subunit (epsilon) of DNA polymerase III. We have constructed plasmid pIP11, in which the dnaQ gene is fused to the strong tac (trp-lac) promoter. Enhanced synthesis of the epsilon subunit stimulated by isopropyl beta-D-thiogalactopyranoside, the inducer of tac, prevents expression of the mutator phenotype of recA441 and markedly decreases the frequency of UV-induced mutations. These results strongly suggest that a loss of editing capacity by the epsilon subunit of DNA polymerase III holoenzyme plays a crucial role in generation of mutations during the SOS response.
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PMID:Overproduction of the epsilon subunit of DNA polymerase III counteracts the SOS mutagenic response of Escherichia coli. 305

Two enzymes, the secreted Staphylococcus aureus nuclease A and the Klenow fragment of the cytoplasmic Escherichia coli DNA polymerase I, were fused, at the genetic level, to MalE, the periplasmic maltose-binding protein of E. coli, or to a signal-sequence mutant. The hybrid proteins were synthesized in large amounts by E. coli under control of promoter malEp. The synthesis was repressed with glucose and could be totally switched off in a malT mutant strain. The hybrid between MalE and the nuclease was exported into the periplasmic space. Several criteria demonstrated that a fraction of the hybrid chains with the Klenow polymerase was exported to the periplasm in a signal-sequence-specific manner and ruled out the possibility of a membrane leakage. The hybrid with the Klenow polymerase was not exported and remained in the cytoplasm when carrying a tight signal-sequence mutation in its MalE portion. The hybrid proteins were purified in one step by affinity chromatography on cross-linked amylose. Most of the hybrid chains in the periplasm but only a fraction of those in the other cell compartments had their MalE portion correctly folded. The nuclease and the Klenow polymerase had their full specific activities in the purified hybrids. The potential of MalE as a vector for the production, export and purification of desirable proteins in E. coli is discussed.
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PMID:Production in Escherichia coli and one-step purification of bifunctional hybrid proteins which bind maltose. Export of the Klenow polymerase into the periplasmic space. 327

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