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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)

We describe the polypeptide structure and some of the catalytic properties of a DNA polymerase alpha.DNA primase complex that can be prepared from KB cells by immunoaffinity purification. The procedure is based on monoclonal antibodies that were raised against a biochemically purified, catalytically active core protomer of the polymerase. In all respects tested, the basic mechanism of substrate recognition and binding by the immunoaffinity-purified polymerase is qualitatively identical to that of the core protomer. The immunoaffinity-purified KB cell polymerase alpha X DNA primase is structurally complex. On the basis of extensive immunochemical analyses with five independent monoclonal antibodies, three of which are potent neutralizers of polymerase alpha activity, peptide mapping studies, and the application of a sensitive immunoassay that permits detection of polymerase alpha antigens in crude cell lysates, we have established that the principal form of catalytically active DNA polymerase alpha in KB cells is a phosphoprotein with a molecular mass of 180 kilodaltons. This protein is stable in vivo, with an estimated half-life of greater than or equal to 15 h. In contrast, the polypeptide is extremely fragile in vitro and generates partial degradation products of p165, p140, and p125 that explain the "microheterogeneity" typically exhibited by polymerase alpha peptides in denaturing polyacrylamide gels. In addition to the catalytically active polymerase alpha polypeptide(s), the immunopurified enzyme fraction typically contains three other proteins, p77, p55, and p49, the functions of which have not yet been established. These proteins do not display polymerase alpha epitopes and have been shown by peptide mapping to be independent species that are unrelated either to the large polymerase peptides or to one another. The polypeptide p77 is also a phosphoprotein, and in both p180 and p77 the phosphorylated amino acids are exclusively serine and threonine.
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PMID:Structural and enzymological characterization of immunoaffinity-purified DNA polymerase alpha.DNA primase complex from KB cells. 242 27

The yeast DNA primase-DNA polymerase activities catalyze de novo oligoribonucleotide primed DNA synthesis on single-stranded DNA templates (Singh, H., and Dumas, L. B. (1984) J. Biol. Chem. 259, 7936-7940). In the presence of ATP substrate and poly(dT) template, the enzyme preparation synthesizes discrete-length oligoribonucleotides (apparent length 8-12) and multiples thereof. The unit length primers are the products of de novo processive synthesis and are precursors to the synthesis of the multimers. Multimeric length oligoribonucleotides are not generated by continuous processive extension of the de novo synthesis products, however, nor do they arise by ligation of unit length oligomers. Instead, dissociation and rebinding of a factor, possibly the DNA primase, results in processive extension of the RNA synthesis products by an additional modal length. Thus, catalysis by the yeast DNA primase can be viewed as repeated cycles of processive unit length RNA chain extension. Inclusion of dATP substrate results in three distinct transitions: (i) coupling of RNA priming to DNA synthesis, (ii) suppression of multimer RNA synthesis, and (iii) attenuation of primer length. The less than unit length RNA primers appear to result from premature DNA chain extension, not degradation from either end of the unit length primer. We discuss possible roles of DNA polymerase and DNA primase in RNA primer attenuation.
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PMID:Yeast DNA primase and DNA polymerase activities. An analysis of RNA priming and its coupling to DNA synthesis. 242 99

It has been shown that DNA primase activity is tightly associated with 10S DNA polymerase alpha from calf thymus (Yoshida, S. et al. (1983) Biochim. Biophys. Acta 741, 348-357). In the present study, the primase activity was separated from DNA polymerase alpha by treating purified 10S DNA polymerase alpha with 3.4 M urea followed by a fast column chromatography (Pharmacia FPLC, Mono Q column equilibrated with 2 M urea). Ten to 20 % of the primase activity was separated from 10S DNA polymerase alpha by this procedure but 80-90% remained in the complex. The separated primase activity sedimented at 5.6S through a gradient of glycerol. The separated primase was strongly inhibited by araATP (Ki = 10 microM) and was also sensitive to salts such as KCl (50% inhibition at 30 mM). The primase used poly(dT) or poly(dC) as templates efficiently, but showed little activity with poly(dA) or poly(dI). These properties agree well with those of the primase activity in the DNA polymerase alpha-primase complex (10S DNA polymerase alpha). These results indicate that the calf thymus primase may be a part of the 10S DNA polymerase alpha and its enzymological characters are preserved after separation from the complex.
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PMID:Characterization of DNA primase separated from DNA polymerase alpha-DNA primase complex of calf thymus. 242 5

Synthesis of (p)ppRNA-DNA chains by purified HeLa cell DNA primase-DNA polymerase alpha (pol alpha-primase) was compared with those synthesized by a multiprotein form of DNA polymerase alpha (pol alpha 2) using unique single-stranded DNA templates containing the origin of replication for simian virus 40 (SV40) DNA. The nucleotide locations of 33 initiation sites were identified by mapping G*pppN-RNA-DNA chains and identifying their 5'-terminal ribonucleotide. Pol alpha 2 strongly preferred initiation sites that began with ATP rather than GTP, thus frequently preferring different initiation sites than pol alpha-primase, depending on the template examined. The initiation sites selected in vitro, however, did not correspond to the sites used during SV40 DNA replication in vivo. Pol alpha 2 had the greatest effect on RNA primer size, typically synthesizing primers 1-5 nucleotides long, while pol alpha-primase synthesized primers 6-8 nucleotides long. These differences were observed even at individual initiation sites. Thus, the multiprotein form of DNA primase-DNA polymerase alpha affects selection of initiation sites, the frequency at which the sites are chosen, and length of RNA primers.
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PMID:Selection of template initiation sites and the lengths of RNA primers synthesized by DNA primase are strongly affected by its organization in a multiprotein DNA polymerase alpha complex. 242 60

Recent findings in purified systems demonstrate the universality of DNA polymerase-primase complexes which may function in the priming and continuation of eucaryotic DNA replication. In this report we characterize an in vitro, nuclear matrix-associated, priming and continuation system that can utilize either endogenous matrix-bound DNA or exogenous single-stranded DNA as template. 30-40% of total nuclear DNA primase activity was recovered in association with the isolated nuclear matrix fraction from regenerating rat liver. Matrix-bound primase catalyzed the alpha-amanitin, actinomycin D-resistant synthesis of oligonucleotide chains of 8-50 nucleotides on the endogenous template. At least a portion of the RNA primers were continued by DNA polymerase alpha with deoxynucleoside triphosphate incorporation up to 300-600 nucleotides. Nearest neighbor analysis revealed ribodeoxynucleotide covalent linkages in these RNA-DNA chains. The matrix-bound primase preferred single-stranded fd DNA as exogenous template over synthetic homopolymers and was strictly dependent on the presence of ribonucleoside triphosphates. Appropriate subfractionation revealed that the matrix-bound primase activity is exclusively localized in the nuclear matrix interior. The ability of primase and DNA polymerase to synthesize covalently linked RNA-DNA products demonstrates the potentially useful role of the nuclear matrix in vitro system for elucidating the organizational and functional properties of the eucaryotic replication apparatus in the cell nucleus.
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PMID:Nuclear matrix-bound DNA primase. Elucidation of an RNA priming system in nuclear matrix isolated from regenerating rat liver. 243 23

The inhibitory effects of hexasodium sym-bis(m-aminobenzoyl-m-amino-p-methylbenzoyl-1-naphthylamino-4,6, 8-trisulfonate)carbamide (trivial name: suramin) on the activities of various deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) polymerases from mammalian cells, bacteria and retrovirus were examined and compared with each other. Among the various DNA and RNA polymerases tested, the activities of DNA primase, DNA polymerase alpha, reverse transcriptase and Escherichia coli RNA polymerase were strongly inhibited by suramin, while the activities of other enzymes including DNA polymerases beta and gamma, terminal deoxynucleotidyl-transferase and DNA polymerase I were relatively resistant to inhibition by this drug. The inhibition by suramin of DNA polymerase alpha from KB cells and Rauscher murine leukemia virus (RLV) reverse transcriptase was due to competition with the respective template primer (activated DNA for alpha polymerase and (rA)n.(dT)12-18 for reverse transcriptase) for the template.primer-binding site of the enzyme, while the inhibition of DNA primase and E.coli RNA polymerase was due to competition with the ribonucleoside triphosphate substrate. The inhibition constants (Ki) of suramin were determined to be 2.6 microM, 0.35 microM, 0.54 microM and 0.70 microM for DNA primase, DNA polymerase alpha, RLV reverse transcriptase and E. coli RNA polymerase respectively. The observed inhibitions of these polynucleotide-synthesizing enzymes by suramin seem to explain, at least in part, an as yet unknown mechanism of trypanocidal action of this drug.
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PMID:Differential inhibition of various deoxyribonucleic and ribonucleic acid polymerases by suramin. 245 Jul 43

It is generally accepted that an aphidicolin-sensitive DNA polymerase elongates the eucaryotic RNA primer (iRNA) into a mature Okazaki piece reaching ca. 200 nucleotides. Yet, as shown here, nascent DNA chains below 40 nucleotides accumulated in simian virus 40 (SV40) DNA replicating in isolated nuclei in the presence of aphidicolin. These products resembled precursors of longer Okazaki pieces synthesized in the absence of aphidicolin (termed here DNA primers) in size distribution, lagging-replication-fork polarity, and content of iRNA. Within the isolated SV40 replicative intermediate, DNA primers could be extended in a reaction catalyzed by the Escherichia coli DNA polymerase I large fragment. This increased their length by an average of 21 deoxyribonucleotide residues, indicating that single-stranded gaps of corresponding length existed 3' to the DNA primers. Incubation with T4 DNA ligase converted most of the extended DNA primers into products resembling long Okazaki pieces. These data led us to propose that the synthesis of an SV40 Okazaki piece could be itself discontinuous and could comprise the following steps: (i) iRNA synthesis by DNA primase, (ii) iRNA extension into a DNA primer by an aphidicolin-resistant activity associated with DNA primase-DNA polymerase alpha, (iii) removal of iRNA moieties between adjacent DNA primers, (iv) "gap filling" between DNA primers by the aphidicolin-sensitive DNA polymerase alpha, and (v) ligation of DNA primer units onto a growing Okazaki piece. Eventually, a mature Okazaki piece is ligated onto a longer nascent DNA chain.
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PMID:An Okazaki piece of simian virus 40 may be synthesized by ligation of shorter precursor chains. 245 22

The inhibitory effects of two anionic compounds, Evans blue and aurintricarboxylic acid (ATA), on various kinds of polynucleotide-synthesizing enzymes were examined. Under the assay conditions, optimized for each enzyme species, both these compounds strongly inhibited the activities of the purified human DNA polymerases alpha, beta, gamma, and DNA primase as well as those of DNA polymerase I and RNA polymerase from Escherichia coli and Rauscher leukemia virus reverse transcriptase. ATA was particularly effective in inhibiting retroviral reverse transcriptase and cellular DNA polymerase alpha. Evans blue, which is a structural analogue of suramin, exerted its inhibitory action largely by competing with the template.primer for the same binding site of the enzyme. On the other hand, ATA inhibited most, if not all, of these enzyme activities noncompetitively with respect to either the template.primers or nucleoside 5'-triphosphate substrates. The inhibition constants for ATA were, in general, smaller than those for Evans blue.
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PMID:Differential inhibition of various deoxyribonucleic acid polymerases by Evans blue and aurintricarboxylic acid. 246 Mar 49

We have utilized immunoaffinity chromatography as a means of efficiently isolating a stable yeast DNA primase from the DNA primase-DNA polymerase complex, allowing identification of the polypeptides associated with this DNA primase activity and comparison of its enzymatic properties with those of the larger protein complex. A mouse monoclonal antibody specifically recognizing the DNA polymerase subunit was used to purify the complex. Stable DNA primase was subsequently separated from the complex in high yield. The highly purified protein fraction which bound to the DNA polymerase antibody column consisted of polypeptides with apparent molecular masses of 180, 86, 70, 58, 49, and 47 kDa. DNA primase activity eluted with a fraction containing only the 58-, 49-, and 47-kDa polypeptides. Partial chemical cleavage analysis of these three proteins demonstrated that the 49- and 47-kDa polypeptides are structurally related while the 58-kDa protein is unrelated to the other two. A DNA primase inhibitory monoclonal antibody was able to inhibit the activity of the purified DNA primase as well as the activity of the enzyme in the larger complex. In immunoprecipitation experiments, all three polypeptides were found in the immune complex. Thus, these three polypeptides are sufficient for DNA primase activity. In reactions using ribonucleotide substrates and natural as well as synthetic DNA templates, the purified DNA primase exhibited the same precise synthesis of unit length oligomers as did the larger protein complex and was able to extend these RNA oligomers by one additional unit length. An examination of the effects of deoxynucleotides on these DNA primase-catalyzed reactions revealed that the yeast DNA primase is an RNA-polymerizing enzyme and lacks significant DNA-polymerizing activity under the conditions tested.
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PMID:DNA primase isolated from the yeast DNA primase-DNA polymerase complex. Immunoaffinity purification and analysis of RNA primer synthesis. 246

The most abundant single-stranded DNA binding protein (SSB) found in ovaries of the frog, Xenopus laevis, was purified to electrophoretic homogeneity. Under physiological conditions, the purified SSB lowered the Tm of poly[d(A-T)] and stimulated DNA synthesis by the homologous DNA polymerase DNA primase alpha complex on single-stranded DNA templates. These properties are characteristic of a bona fide single-stranded DNA binding protein. The Stokes radius of native SSB was calculated to be 45 A, corresponding to a molecular mass of about 140 kDa. On SDS polyacrylamide gels, the SSB migrated as a single band with a molecular mass of 36 kDa. We assumed, therefore, that the SSB was a tetramer of 36 kDa subunits. We subsequently discovered that the SSB was LDH, D-lactate dehydrogenase, EC 1.1.1.28. Purified SSB has high LDH specific activity. Following electrophoresis on SDS polyacrylamide gels, the 36 kDa subunits were renatured and exhibited LDH activity. The amino-acid composition of X. laevis SSB/LDH was similar to that of LDH from other species and to other reported single-stranded DNA binding proteins. Mammalian SSB/LDH also preferentially bound single-stranded DNA. Mammalian SSB/LDH bound to RNA as demonstrated by affinity chromatography on poly(A)-agarose and by its effect on translation of mRNA in vitro.
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PMID:A major single-stranded DNA binding protein from ovaries of the frog, Xenopus laevis, is lactate dehydrogenase. 247 Apr 7

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