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 activity of DNA polymerase was determined in gradient-purified mitochondria from yeast cells grown under a variety of conditions. The specific enzyme activity was found to be dependent on the degree of aeration of the cells, and on the carbon source used for the medium. It was sensitive to glucose repression, and was enhanced about two-fold by the growth of yeast cells in the presence of ethidium bromide. Mitochondria DNA polymerase was highly purified and several properties were determined. Sucrose density gradient centrifugation, and dodecylsulfate-polyacylamide gel electrophoresis revealed the following structure: a monomer of molecular weight around 60 000 aggregated under relatively high salt concentration (0.2 M phosphate buffer) to a dimer of about 120 000 which under low salt concentration (0.2 M Tris-HCl buffer) formed higher aggregates. For optimal activity an Mg2+ ion concentration of 50 mM was found necessary, Mn ions did not promote activity at any concentration tested (0.5--50 mM). Indeed, if added to Mg2+-containing assays, Mn2+ strongly inhibited enzyme activity at low concentrations. This might be an explanation for the inducation of mitochondrial mutants in yeast cells grown in the presence of Mn2+ ions. Mitochondrial DNA polymerase activity was strongly inhibited by low concentrations of the -SH reagent p-chloromercuribenzoate, the nucleotide analogue cytosine arabinoside triphosphate also exerted an inhibitory effect. An about 50% decrease of activity was observed in the presence of 1 mM o-phenanthroline in assay mixture containing DNA at about the Km concentration. The enzyme preferred a gapped template primer, poly(dA) - (dT)10, over nicked DNA and was unable to use a polyribonucleotide template, poly(rA) - (dT)10. In the purest preparations no exonuclease activity could be detected.
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PMID:DNA-dependent DNA polymerase from yeast mitochondria. Dependence of enzyme activity on conditions of cell growth, and properties of the highly purified polymerase. 78 35

A luminescent adsorbent constituted of bacterial luciferase, FMN oxidoreductase and a protein, such as an antibody or an oligonucleotide coimmobilized on Sepharose, has been used to detect a label enzyme (Glucose 6 phosphate dehydrogenase). The label enzyme, bound to the solid phase, produces NADH and start an enzymatic chain reaction leading to light emission. The dehydrogenase, which is not bound to the solid phase, produces NADH in solution which is rapidly oxidized by a scavenger system (lactate dehydrogenase plus pyruvate) and thus does not participate in light emission. Using this solid phase, binding assays do not require separation of the excess of label, and the assay protocol is limited to the addition of sample, and luminescent reagents. The authors have used this solid phase for rapid immunoassays of haptens and proteins but also for the rapid quantitation of DNA sequences obtained by enzymatic amplification catalysed by a thermostable DNA polymerase.
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PMID:[A bioluminescent solid phase for immunoassays and the detection of nucleic probes]. 228 45

Plasmid pCJ55 with a cloned gene for the large fragment of Escherichia coli DNA polymerase I is stable in the population of a recombinant strain under the conditions of batch and continuous cultivation at different dilution rates in the presence of ampicillin. The level of Klenow fragment expression is determined by at least two factors: the stability of the recombinant strain and its specific growth rate. The maximal activity of the Klenow fragment was found after thermoinduction of the culture growing at a rate of mu = 0.6 h-1 in a synthetic medium with bactopeptone and glucose as a carbon source.
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PMID:[The effect of growth rate and culturing conditions on the stability of plasmid pCJ55 and on the level of expression of a large fragment of DNA-polymerase I, cloned in Escherichia coli]. 268 17

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

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

1. The incorporation of thymidine into DNA of regenerating rat liver was measured at various times after partial hepatectomy. A single intravenous injection of 30mumol of beryllium/kg given immediately after the operation inhibited DNA synthesis 12, 16, 20, 24 and 28h later. 2. The activity of several enzymes critical to DNA synthesis (thymidine kinase, thymidylate kinase, thymidylate synthetase, deoxycytidylate deaminase and DNA polymerase) increased in control rats 20-24h after partial hepatectomy severalfold over the activity found in resting livers. After beryllium treatment this rise in activity was much less and it seemed as if beryllium would partially block the induction of DNA-synthesizing enzymes after partial hepatectomy. 3. Enzymes whose activities do not rise during liver regeneration were not affected by beryllium (aspartate transcarbamoylase, carbamoyl phosphate synthetase, uridine kinase and glucose 6-phosphatase). 4. No evidence was found in vitro that beryllium would specifically inhibit thymidine kinase or DNA polymerase. 5. The time-effect relationship between beryllium administration and thymidine kinase activity in vivo was examined. Measured 24h after partial hepatectomy, thymidine kinase activity was only affected if beryllium was given within the first 9-12h after partial hepatectomy. Beryllium given later, even in greatly increased doses, failed to have any effect on thymidine kinase. The possibility is discussed that beryllium inhibits enzyme induction at the transcriptional level.
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PMID:Effects of beryllium on deoxyribonucleic acid-synthesizing enzymes in regenerating rat liver. 549 75

bI1 RNA (excised from the first intron of the long form of the cytochrome b gene of Saccharomyces cerevisiae mitochondria) hybridizes with the two strands of a Bg/II-MboI DNA segment from this region. This fraction is resistant to digestions by DNase I and RNase T1 and disappears completely upon alkali hydrolysis. Strand-specific labeling of an intronic DNA fragment, cloned in pBR322 plasmid, was accomplished through the use of a T4 DNA polymerase. The purity of the probes was demonstrated by cloning an exon-intron fragment and labeling it by the same procedure; mRNA and pre-mRNA bands hybridized only with the transcribed DNA strand whereas bI1 RNA hybridized with the two strands under the stringent washing conditions employed (tm + 20 degrees C). Several experimental results argue against the possibility that the observation of two complementary bI1 RNA strands results from a partial self-complementarity of the RNA. A pre-mRNA intermediate from a box8 (G5046) mutant, still containing this intron, hybridizes only with the transcribed DNA strand of the pure intronic probe. The amount of the non-sense bI1 RNA strand is very low, in cells from two wild-type strains, relative to the sense RNA strand during the early stages of growth on glucose. It increases as the cells are released from glucose repression. bI1 RNA is resistant to RNase. Very little self-complementarity is seen by computer analysis of the sequence. Purified bI1 RNA is seen by electron microscopy under non-denaturing conditions as a mixture of double-stranded circular and linear molecules thus confirming the existence of the two complementary strands. The disappearance of all material following alkali hydrolysis demonstrates that these are indeed two RNA strands. Under fully denaturing conditions a mixture of single-stranded circular and linear molecules is seen as reported previously (Cell, 19, 321-329, 1980). We conclude that yeast mitochondria contain the two complementary bI1 RNA strands, one circular and the other linear. Considering a largely asymmetrical transcription of the mitochondrial genome in yeast and assuming that circularization of some intronic RNAs is part of RNA processing, we do not believe that the two strands are each a mixture of linear and circular molecules. The ratio of non-sense to sense bI1 RNA in a cytoplasmic petite mutant, A1B1, also varies according to growth conditions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Yeast mitochondria contain a linear RNA strand complementary to the circular intronic bI1 RNA of cytochrome b. 620 24

In order to determine the effect of maternal diabetes on the somatic growth of the rat fetus and to elucidate mechanisms underlying the control of fetal growth, concentrations of DNA and proteins and DNA polymerase-alpha activities in neonates were examined. The maternal status was classified as normal (no urinary glucose excretion), mildly diabetic (0.01-0.99 g/day urinary glucose), and severely diabetic (1.00 g/day or more urinary glucose). The total DNA contents in mg/neonate were 26.8 +/- 2.2 (mean +/- SEM), 31.3 +/- 2.5, and 29.4 +/- 2.7 for neonates from normal, mildly diabetic and severely diabetic mothers, respectively. The DNA polymerase activities in (cpm/g neonate) X 10(-3) for the same groups of neonates were 432 +/- 58, 1,008 +/- 74, and 888 +/- 118, respectively. These results indicate that the neonatal macrosomia disappears as the severity of maternal diabetes increases. Furthermore, DNA polymerase is one of possible biochemical sites through which macrosomia is manifested in diabetic pregnancies.
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PMID:Neonatal macrosomia in maternal diabetes. 742 59

Escherichia coli WP2 trpE65(ochre), when grown to stationary phase and plated on glucose salts medium, gave rise to slow growing tryptophan-independent mutants which formed increasing numbers of visible colonies from about day 6 onwards. These mutants were neither revertants at the ochre codon nor mutants at the tRNA suppressor loci normally found in this strain with logarithmic phase mutagenesis. The yield of mutants was not affected by the presence of the following alleles, umuC122, lexA102, polA1, recA1, recA56 or del(srlR-recA)306, except that in the three recA-defective strains, mutant colonies were initially slower to appear, possibly reflecting a lower viability in the inoculum. Stationary-phase spontaneous mutation in bacteria carrying on ochre mutation is thus a distinct and specific process that does not require the SOS system, or UvrA protein or DNA polymerase I. It may reflect the occurrence of a type of non-bulky DNA damage with altered base pairing specificity. In 3 out of 4 experiments with a strain carrying recA441 plus lexA51(Def) the rate of stationary-phase mutagenesis was elevated suggesting that there may be an additional component requiring an activated SOS system.
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PMID:Spontaneous mutation in stationary-phase Escherichia coli WP2 carrying various DNA repair alleles. 768 28

An in vitro DNA replication system from maize mitochondria has been isolated and characterized. Maize mtDNA polymerase activity was purified about 1100-fold through DEAE cellulose and Heparin-Sepharose columns. In addition to the DNA polymerase activity, this in vitro replication system also contained topoisomerase I, DNA primase and RNA polymerase activities. Optimal conditions for enzyme activity, preferred templates and inhibitors were determined in order to further characterize this in vitro replication system; this system was devoid of any detectable extramitochondrial activity as determined by: a) the mt origin of the DNA polymerase activity as evidenced by studies using different templates and inhibitors, b) absence of chloroplast or nuclear DNA, glucose -6-P-dehydrogenase (known to be present only in the cytosol and chloroplasts) and photosynthetic pigments in the mitochondrial fraction and c) the ability of maize mt topoisomerase I to relax positively supercoiled DNA.
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PMID:Isolation and characterization of an in vitro DNA replication system from maize mitochondria. 788 42

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