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)

DNA polymerase I has been purified to greater than 90% homogeneity from a strain of Escherichia coli K12 that bears the temperature-sensitive DNA polymerase I mutatation, polA12. The mutant enzyme has a reduced electrophoretic mobility and sedimentation rate. It is abnormally thermolabile and is rapidly inactivated at low salt concentrations. Its polymerase and 5' leads to 3' exonuclease activities are not grossly defective at 30 degrees, yet its capacity to promote the concerted 5' leads to 3' polymerization and the 5' leads to 3' exonucleolytic hydrolysis of nucleotides at a nick ("nick translation") is decreased 10-fold. These effects are probably the result of a significant alteration in the tertiary structure of the enzyme.
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PMID:Biochemical characterization of mutant forms of DNA polymerase I from Escherichia coli. I. The polA12 mutation. 0 70

DNA polymerase [EC 2.7.7.7] activities present in hypotonic extract from rat ascites hepatoma AH130 cells were eluted in three separable peaks on DEAE-cellulose column chromatography. Peak I activity had an alkaline pH optimum, and was relatively resistant to SH-blocking reagents and salt concentration. These properties of DEAE peak I are typical of low molecular weight DNA polymerase. DEAE peak II and peak III activities possessed properties corresponding to high molecular weight (6-8 S) polymerase; they showed maximal activity at neutral pH, and were sensitive to SH-blocking reagents and salt. No low molecular weight polymerase activity was released from DEAE peak II or peak III by salt treatment, though partial conversion from DEAE peak II to peak III was observed on the same treatment.
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PMID:Studies on the molecular species of DNA polymerase extracted from rat ascites hepatoma cells. 0 55

Herpes simplex virus-induced DNA polymerase purified by published methods was found to be contaminated with many others proteins, including virus structural proteins. Thus, DEAE-cellulose and phosphocellulose chromatography were used in combination with affinity chromatography to purify DNA polymerase from herpes simplex virus type 1- and type 2-infected cells. The purified enzyme retained unique features of the herpesvirus-induced DNA polymerase, including a requirement for high salt concentrations for maximal activity, a sensitivity to low phosphonoacetate concentrations, and the capacity to be neutralized by rabbit antiserum to herpesvirus-infected cells. By polyacrylamide gel electrophoresis, the purified DNA polymerase was associated with a virus-induced polypeptide of about 150,000 molecular weight.
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PMID:Nonstructural proteins of herpes simplex virus. I. Purification of the induced DNA polymerase. 2 4

A soluble DNA polymerase has been purified near to homogeneity from Bombyx mori silkglands. The following characteristics were observed: high molecular weight (about 150 000 - 220 00); optimum pH about 8; inhibition by high salt concentrations, sulfhydryl-group blocking agents and polyamines; absence of nuclease activity; preference for magnesium as required divalent cation with all the efficient template-primers tested; and clear template-primer specificity, the purified enzyme being able to copy primed - polydeoxyribonucleotide templates [activated DNA, poly(dA).oligo(dT), poly(dA).oligo(rU)] but not polyribonucleotide chains [poly(rA).oligo(dT), poly(rA).oligo(rU)] in the presence of either Mg++ or MN++. Believed to represent the bulk of silkgland DNA polymerase activity, the purified soluble enzyme most resembles vertebrate DNA polymerases alpha when it is compared to other eukaryotic DNA polymerases as yet characterized.
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PMID:Characterization of an alpha-like DNA polymerase from Bombyx mori silkglands. 3 43

A gamma-like DNA polymerase devoid of DNA polymerase-alpha and -beta activities was prepared from the nuclear fraction of blastulae of the sea urchin, Hemicentrotus pulcherrimus. The enzyme sedimented at the position of an approximate sedimentation coefficient of 3.3 S under high salt conditions by sucrose gradient centrifugation. An isoelectric point was determined to be pH 5.8. The enzyme activity was sensitive to sulfhydryl blocking reagents. Poly(rA) . oligo(dT)12--18 followed by poly(dA) . oligo(dT)12--18 was effectively utilized as a template-primer. From the above results, this polymerase seems to resemble the vertebrate DNA polymerase-gamma.
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PMID:Identification of gamma-like DNA polymerase from sea urchin embryos. 3 10

The alpha beta DNA polymerase of avian myeloblastosis virus was treated with dimethyl sulfoxide to dissociate the enzyme subunits. The dimethyl sulfoxide treated enzymes were passed over phosphocellulose to purify and characterize the dissociated subunits as well as to remove the dimethyl sulfoxide. RNA-directed DNA polymerase, RNase H, and nucleic acid-binding activity were monitored, as well as the subunit structure (on sodium dodecyl sulfate-polyacrylamide gels) of the various enzyme species obtained. With 30% dimethyl sulfoxide, the majority of DNA polymerase and RNase H activities as well as the alpha subunit were displaced from the alpha beta DNA polymerase position on phosphocellulose (0.23 M potassium phosphate) to the alpha DNA polymerase position (0.1 M). The association of DNA polymerase and RNase H activities with the alpha subunit suggests that alpha is the enzymatically active subunit in alpha beta. In addition to alpha DNA polymerase, a minor polymerase species eluted from phosphocellulose at 0.4 M potassium phosphate. The dissociated beta subunit eluted from phosphocellulose at a wide range of salt concentrations (0.28 to 0.5 M potassium phosphate). The dissociated beta subunit bound 3H-labeled murine leukemia virus RNA and [3H]poly(dT)-poly(dA) approximately 20-fold more avidly than alpha DNA polymerase alone. In contrast to the results with the alpha subunit, there was no correlation between DNA polymerase and RNase H activity profiles and the elution profile of the beta subunit from phosphocellulose. These observations suggest the beta subunit is either enzymatically inactive or possesses limited DNA polymerase and RNase H activity when compared with the alpha subunit.
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PMID:Dissociation of alpha beta DNA polymerase of avian myeloblastosis virus by dimethyl sulfoxide. 5 61

We have compared the relative merits of several procedures for the isolation of RNA-directed DNA polymerase (EC 2.7.7.7.) from cells using a reconsituted model system consisting of a mixture of woolly monkey (simian) sarcoma virus and a cultured human lymphoblastoid cell line, NC-37. When the cell-virus mixture was gently disrupted and fractionated by differential centrifugation, most of the added polymerase was recovered associated with a particulate fraction obtained from the post-mitochondrial supernatant. Purification of the polymerase was best achieved starting from this fraction. The particulate fraction itself can be purified by gel filtration through a Sepharose 2 B column. This procedure did not significantly alter the composition of viral and cellular DNA polymerases. Whereas as little as 7.5 - 10(5) viral particles were sufficient for the detection of RNA-directed DNA polymerase activity, a minimum of about 10(11) particles were necessary for the isolation and unequivocal characterization of the enzyme from the cell-virus mixture by subcellular fractionation and chromatographic separation from cellular DNA polymerases. Purified RNA-directed DNA polymerase had the same primer-template characteristics, sedimentation properties, and immunological cross reactivity as the enzyme purified from density gradient-banded virions of simian sarcoma virus. Methods involving total extraction of the cell-virus mixture either by repeated freezing and thawing followed by detergent treatment or by Dounce homogenization and treatment with high salt and detergent failed to provide RNA-directed DNA polymerase free of cellular DNA polymerases. Because of this, low levels of cellular RNA-directed DNA polymerase may be missed when these approaches are used.
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PMID:A comparative evaluation of methods for isolation of RNA-directed DNA polymerase from cells in a reconstituted system. 5 69

Squirrel monkey retrovirus (SMRV) was isolated by cocultivation of squirrel monkey lung cells with canine cells. 3H-labeled 60-70S SMRV RNA, isolated from virus grown in canine cells, hybridized to the same extent and to the same Cot1/2 value to the DNA of all tissues of all squirrel monkeys tested; Cot1/2 values show that SMRV proviral sequences are present in the low repetitive range. No SMRV proviral sequences were detected in tissues from a variety of other New World monkeys, Old World monkeys, or apes. Murine, feline, bovine, and canine cells also contain no detectable SMRV proviral sequences. Competitive molecular hybridization studies revealed no detectable sequence homology between the 60-70S RNAs of SMRV and Mason-Pfizer virus (MPV). The virion-associated DNA polymerase of SMRV is similar to that of MPV in that it has a molecular weight of approximately 80,000 and prefers magnesium as a divalent cation using oligo(dG)-poly(rC) as primer-template. The virion-associated DNA polymerase of SMRV can be clearly distinguished from those of MPV and the mouse mammary tumor viruses, however, by its preference for manganese as a divalent cation in the presence of high salt.
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PMID:Squirrel monkey retrovirus: an endogenous virus of a new world primate. 6 24

Sequential reverse transcriptase, DNA polymerase, and S1 nuclease reactions can be employed to synthesize double-stranded DNA representing messenger RNA. Using reverse transcriptase products made from partially purified lysozyme, ovomucoid, and ovalbumin messengers from hen oviduct, we have characterized the Escherichia coli DNA polymerase I reaction. We have optimized for a high yield of full length second strands under conditions which require only a small amount of mRNA. The effects of several parameters (time, enzyme levels, salt concentration, monovalent cation, and temperature) on the length of products synthesized by DNA polymerase I have been investigated. Each has a significant influence on the proportion of products which are full length. Under our conditions the three reactions are efficient in synthesizing full length duplex DNA from partially purified mRNA fractions or from total poly(A)-containing RNA.
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PMID:Synthesis of double-stranded DNA complementary to lysozyme, ovomucoid, and ovalbumin mRNAs. Optimization for full length second strand synthesis by Escherichia coli DNA polymerase I. 7 87

The microsomal supernatant fraction obtained from a murine cell line chronically infected with and producing Rauscher leukemia virus (JLSV-10) was found to contain two forms of RNA-directed DNA polymerase (reverse transcriptase). The two enzyme forms, neither of which is detectable in uninfected cells (JLSV-9), were initially partially purified by poly(C)-agarose chromatography, and their separation was achieved by phosphocellulose chromatography. The enzyme form eluting first from phosphocellulose (0.3 M KCl), designated PC I, was found to be identical in all parameters tested to that form isolated directly from purified virions. The second enzyme peak, designated PC II, eluted from phosphocellulose at 0.5 M KCl and was not detectable in purified virions. The PC II enzyme has a molecular weight, determined by velocity sedimentation, of approximately 109,000, as compared with 70,000 for the PC I enzyme, and could not be further dissociated by exposure to high salt or nonionic detergent. Mixing purified virion or PC I DNA polymerase with uninfected cells followed by fractionation did not produce the PC II form, suggesting that it is neither an artifact of purification nor the result of fortuitous complexing of reverse transcriptase with normal cellular component(s). Both PC I and PC II enzyme forms appeared antigenically similar to virion DNA polymerase, demonstrated identical divalent cation requirements for various template-primers, and were capable of copying heteropolymeric regions of rabbit globin mRNA. However, kinetic studies of heat inactivation revealed that the PC II enzyme was far more heat labile than the PC I form, which appeared identical to the virion enzyme in this respect. Furthermore, whereas the PC I and virion-derived reverse transcriptase copied poly(C).(dG)12-18 most efficiently at a template-to-primer molar nucleotide ratio of 25:1, the PC II enzyme preferred a ratio of 5:1 for optimal rates of poly(dG) synthesis. Therefore, by these criteria, there appear to exist two intracellular forms of reverse transcriptase in the JLSV-10 Rauscher leukemia virus-producing murine cell line.
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PMID:Resolution and characterization of intracytoplasmic forms of reverse transcriptase from Rauscher leukemia virus-producing cells. 7 32

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