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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)
Varying the concentration of Triton X-100, a nonionic detergent used to promote the
DNA polymerase
activity of Rous sarcoma virus in an endogenous reaction, showed a very sharp peak at about 0.02% (vol/vol) for optimal DNA synthesis. The yield of DNA at this concentration of
Triton
exceeded yields obtained at concentrations above the optimum by a factor of 2-5 for the 90-min reaction. At optimal
Triton
concentration, about 1-7% of the DNA made in the absence of actinomycin and about 4-10% of the DNA made in the presence of actinomycin was 2.5 X 10(6) daltons or greater, as estimated by formamide polyacrylamide gel electrophoresis and by alkaline sucrose gradient sedimentation. No large DNA was obtained at higher than optimal
Triton
concentrations. The large DNA molecules were rendered totally resistant to single-strand specific nuclease S1 after hybridization to an excess of viral RNA. It was concluded that at optimal detergent concentration, the viral
DNA polymerase
can synthesize full-size DNA transcripts of viral RNA.
...
PMID:In vitro synthesis of full-length DNA transcripts of Rous sarcoma virus RNA by viral DNA polymerase. 17 81
Escherichia coli cells whose chromosome replication has been terminated in vivo, either by growth into stationary phase or by incubation of a mutant carrying a temperature-sensitive initiation mutation under restrictive conditions, are inactive in in vitro DNA synthesis as measured in toluene-treated cells. Addition of the non-ionic detergent Triton X-100 to such inactive systems results in a marked stimulation of ATP-dependent in vitro DNA synthesis. This
Triton
-stimulated DNA synthesis appears to proceed by a semi-conservative mechanism, in that DNA synthesized in vitro in the presence of a density labeled precursor bands in CsCl equilibrium centrifugation at a hybrid density. Neutral sucrose gradient centrifugation demonstrates that most of this hybrid material exhibits a molecular weight in excess of 1 X 10(7).
Triton
-stimulated synthesis requires the presence of
DNA polymerase III
, as does normal in vivo replication. We show here, however, several anomalous properties of the DNA synthesis in the
Triton
/toluene system. In particular,
Triton
-stimulated synthesis is absent in cells harboring a recB mutation which lack the ATP-dependent exonuclease V, an enzyme implicated in recombinational repair synthesis in vivo. Furthermore, the ATP requirement for
Triton
-stimulated synthesis is relatively non-sepcific, and a variety of nucleoside triphosphates can effectively substitute for ATP. Finally, despite their high molecular weight in neutral sucrose gradient centrifugation,
Triton
-stimulated DNA synthesis generates DNA molecules of low molecular weight (less than 500 000) as determined by alkaline sucrose gradient centrifugation. In contrast, DNA synthesis in the normal toluene-treated cell system is not dependent on recB activity, shows a nearly absolute requirement for ATP which cannot be replaced by other nucleoside triphosphates, and produces molecules of far greater molecular weight as measured on alkaline sucrose gradients. Taken altogether the data strongly suggest that
Triton
activates an unusual form of DNA synthesis in toluene-treated cells which shows both repair and replicative aspects. These results caution against the use of
Triton
-activated toluene-treated cells system, for studying simple replicative DNA synthesis.
...
PMID:Triton X-100 activates nucleoside triphosphate-dependent, recBC-dependent DNA synthesis in toluene-treated Escherichia coli. 31 67
The possible relationship between the nuclear and cytoplasmic DNA polymerases of regenerating rat liver was studied by sucrose gradient analysis, salt dissociation, and with specific inhibitors. After aqueous subcellular fractionation and removal of the nuclear membranes, three species of DNA-dependent DNA polymerases were characterized: 1) a
DNA polymerase
-beta in the nuclei. 2) a DNA polymerase-alpha in the cytosol which was not dissociated at high salt concentrations; and 3) an intermediate form in the cytosol and in the
Triton
wash containing the nuclear membranes. The latter form behaved like DNA polymerase-alpha et low salt concentration but was dissociated at high salt concentrations to a low molecular weight species with properties like
DNA polymerase
-beta (resistance to inhibition by N-ethylmaleimide, heparin and KCL). In vitro reassociation experiments suggest that this intermediate form corresponds to the association of
DNA polymerase
-beta with a membrane component or cytoplasmic protein(s) which appear(s) in regenerating rat liver.
...
PMID:Regenerating rat liver DNA polymerases: disimilitude or relationship between nuclear and cytoplasmic enzymes? 96 78
Plasmid DNA released from bacteria by boiling in the presence of lysozyme and
Triton
x-100 and without further purification can be sequenced by the dideoxy method using T7
DNA polymerase
, when conditions during alkali denaturation and subsequent ethanol precipitation are adjusted to remove contaminants. The samples remain in the same microcentrifuge tubes from the harvesting of the bacteria until the splitting of the sample into four aliquots for the termination reactions. Less background label is observed with end-labelled primers (radioactivity or fluorescence), but even when radioactive nucleotides are incorporated during the sequencing reactions, 250 bases or more can be read from template prepared from 1.5 ml bacterial culture. The DNA can also be cut by restriction enzymes; the purification procedure described thus provides the rapid preparation of plasmids for a variety of purposes.
...
PMID:Rapid and simple preparation of plasmids suitable for dideoxy DNA sequencing and other purposes. 180 39
Pulse-chase experiments have revealed that cyclin, the auxiliary protein of
DNA polymerase
-delta, is stable during the transition from growth to quiescence in 3T3 cells. Immunoblotting together with immunofluorescence analysis has shown that the amount of cyclin after 24 h of quiescence is 30-40% of that of growing cells and that it presents a nucleoplasmic staining. Immunofluorescence studies show the existence of two populations of cyclin during the S phase, one that is nucleoplasmic as in quiescent cells and is easily extracted by detergent, and another that is associated to specific nuclear structures. By using antibromodeoxyuridine immunofluorescence to detect the sites of DNA synthesis, it was shown that the staining patterns of the replicon clusters and their order of appearance throughout the S phase are identical to those observed for cyclin. Two-dimensional gel analysis of
Triton
-extracted cells show that 20-30% of cyclin remains associated with the replicon clusters. This population of cyclin could not be released from the nucleus using high-salt extractions. This demonstrates that cyclin is tightly associated to the sites of DNA replication and that it must have a fundamental role in DNA synthesis in eukaryotic cells.
...
PMID:Existence of two populations of cyclin/proliferating cell nuclear antigen during the cell cycle: association with DNA replication sites. 288 39
Effects of various phospholipids on the in vitro reactions of eukaryotic DNA polymerases alpha, beta and gamma were tested systematically. When phospholipids were added directly to the reaction mixture, neither stimulation nor inhibition was produced. However, when phospholipids were preincubated with enzymes in the absence of template-primer, some of them showed strong inhibition. Cardiolipin strongly inhibited the reactions of all three DNA polymerases and also of terminal deoxynucleotidyl transferase. Phosphatidylinositol selectively inhibited the reaction of
DNA polymerase gamma
. Phosphatidic acid moderately inhibited
DNA polymerase alpha
and strongly inhibited
DNA polymerase gamma
. The inhibition of
DNA polymerase gamma
by cardiolipin was nearly competitive with template-primer. Since the inhibition was reversed by the addition of 0.05%
Triton
-X 100 during preincubation, the phospholipid might interact with enzyme protein at the hydrophobic region in competition with template-primer. These results suggest a possible involvement of phospholipids in DNA replication in mitochondria and in nucleus through interaction with
DNA polymerase
.
...
PMID:Interaction of DNA polymerases with phospholipids. 290 43
Two
DNA polymerase
activities, polymerases A and B, were separated from the
Triton
-treated cell homogenate of exponentially growing Tetrahymena pyriformis by phosphocellulose column chromatography. Their properties were as follows. Polymerase A: The molecular weight was about 140,000, the sedimentation value was about 6.2S, the optimum Mg2+ concentration was 15 mM, the optimum K+ (or Na+) concentration was 20 mM, and the optimum pH was 7.4. The enzyme activity was inhibited by cytosine-beta-D-arabinofuranoside-5'-triphosphate (araCTP) or aphidicolin, but not by 2'-3'-dideoxythymidine-5'-triphosphate (ddTTP). Polymerase B: The molecular weight was about 70,000, the sedimentation value was 4.3S, the optimum Mg2+ concentration was 15 mM, the optimum K+ (or Na+) concentration was 150 mM, and the optimum pH was 8.4. The enzyme activity was inhibited by ddTTP, but not by araCTP or aphidicolin. Polymerases A and B were both found to be N-ethylmaleimide-sensitive. These results indicate that at least two N-ethylmaleimide-sensitive DNA polymerases, A and B, are present in exponentially growing Tetrahymena cells. Polymerase A bears many similarities to
DNA polymerase alpha
of higher eukaryotes and polymerase B also bears similarities to
DNA polymerase beta
except as regards N-ethylmaleimide sensitivity. Based on the properties of polymerases A and B, the relation of Tetrahymena DNA polymerases reported by several investigators is discussed.
...
PMID:DNA polymerases of Tetrahymena pyriformis. I. Characterization of two N-ethylmaleimide-sensitive DNA polymerases from exponentially growing cells. 680 56
One mechanism for the origin of UV-induced -1 deletion mutations involves the bypass of a nonadjacent cis-syn cyclobutane pyrimidine dimer containing a single intervening nucleotide. To begin to investigate this mechanism, we required a method for obtaining a single, site-specific, nonadjacent dimer. One approach to the preparation of a nonadjacent dimer is to irradiate a DNA duplex containing a centrally located
TNT
sequence in which the two T's are paired to an AA sequence in an otherwise fully complementary strand. Triplet-sensitized irradiation of the duplex formed between the 13-mer d(GAGTATCTATGAG) and the 12-mer d(CTCATAATACTC) on ice gave a major product that could be reverted to the parent 13-mer by 254 nm irradiation. Proton NMR experiments established the major product to be the nonadjacent cis-syn cyclobutane dimer formed between the two T's of the TCT sequence. Melting temperature studies show that the nonadjacent dimer is more destabilizing to DNA duplex structure than a normal cis-syn dimer and is as stable as the parental bulged DNA duplex. The nonadjacent dimer-containing 13-mer was ligated into a 51-mer and used as a template for primer-extension studies by DNA polymerases. The nonadjacent dimer could not be bypassed by Sequenase Version 2.0 and terminated synthesis primarily prior to and opposite the 3'-T of the dimer. In contrast, approximately 30% of the dimer was bypassed by an exonuclease-deficient (exo-)
Klenow fragment
, and termination occurred primarily opposite the 3'- and 5'-T's of the dimer. Bypass of the nonadjacent dimer by exo(-)
Klenow fragment
led primarily to a single-nucleotide deletion mutation as well as small amounts of a full-length product and a four-nucleotide deletion that could be explained by a primer misalignment mechanism.
...
PMID:Preparation and characterization of DNA containing a site-specific nonadjacent cyclobutane thymine dimer of the type implicated in UV-induced -1 frameshift mutagenesis. 1052 Dec 79
When pea etioplast preparations were treated with Triton X-100, the membranes disappeared, the pigments were solubilized, and the organelles appeared to disintegrate. Low speed centrifugation (2000g) of the preparations following treatment with Triton X-100 resulted in a pellet which contained considerable quantities of plastid material. This included RNA polymerase and
DNA polymerase
activity, much of the DNA, about 30% of the RNA, and 50% of the protein of the washed plastid. The amount of RNA polymerase and
DNA polymerase
activity associated with the low speed pellet was dependent on the pH during
Triton
treatment. Significant quantities of the RNA polymerase activity of chloroplasts from spinach, peas, and tobacco were also recovered in the pellet after
Triton
treatment.
...
PMID:Some effects of triton x-100 on pea etioplasts. 1665 82
