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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 highly selective affinity labeling procedure has been applied to map the active center of DNA primase from the yeast Saccharomyces cerevisiae. Enzyme molecules that have been modified by covalent attachment of benzaldehyde derivatives of adenine nucleotides are autocatalytically labeled by incubation with a radioactive ribonucleoside triphosphate. The affinity labeling of primase requires a template DNA, is not affected by DNase and RNase treatments, but is sensitive to proteinase K. Both the p58 and p48 subunits of yeast DNA primase appear to participate in the formation of the catalytic site of the enzyme, although UV-photocross-linking with [alpha-32P]ATP locates the ribonucleoside triphosphate binding site exclusively on the p48 polypeptide. The fixation of the radioactive product has been carried out also after the enzymatic reaction. Under this condition the RNA primers synthesized by the DNA polymerase-primase complex under uncoupled DNA synthesis conditions are linked to both DNA primase and DNA polymerase. When DNA synthesis is allowed to proceed first, the labeled RNA chains are fixed exclusively to the DNA polymerase polypeptide. These results, in accord with previous data, have been used to propose a model illustrating the interactions and the putative roles of the polypeptides of the DNA polymerase-primase complex.
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PMID:Affinity labeling of the active center and ribonucleoside triphosphate binding site of yeast DNA primase. 264 56

Yeast DNA polymerases I and III have been well characterized physically, biochemically, genetically and immunologically. DNA polymerase II is present in very small amounts, and only partially purified preparations have been available for characterization, making comparison with DNA polymerases I and III difficult. Recently, we have shown that DNA polymerases II and III are genetically distinct (Sitney et al., 1989). In this work, we show that polymerase II is also genetically distinct from polymerase I, since polymerase II can be purified in equal amounts from wild-type and mutant strains completely lacking DNA polymerase I activity. Thus, yeast contains three major nuclear DNA polymerases. The core catalytic subunit of DNA polymerase II was purified to near homogeneity using a reconstitution assay. Two factors that stimulate the core polymerase were identified and used to monitor activity during purification and analysis. The predominant species of the most highly purified preparation of polymerase II is 132,000 Da. However, polymerase activity gels suggest that the 132,000-Da form of DNA polymerase II is probably an active proteolytic fragment derived from a 170,000-Da protein. The highly purified polymerase fractions contain a 3'----5'-exonuclease activity that purifies at a constant ratio with polymerase during the final two purification steps. However, DNA polymerase II does not copurify with a DNA primase activity.
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PMID:Purification of DNA polymerase II, a distinct DNA polymerase, from Saccharomyces cerevisiae. 264 4

Chromatography of a DNA polymerase preparation from mitochondria of Saccharomyces cerevisiae on DNA-cellulose column, using Tris-HCl (pH 7.5) buffer containing 0.6 M NaCl as eluent, was found to yield a fraction exhibiting DNA primase-like activity free of DNA polymerase. This fraction could support the synthesis of 12-15 residue-long oligoribonucleotides on single-stranded natural or synthetic DNA templates. The oligoribonucleotides could be further elongated by incorporation of deoxyribonucleotides in the presence of Klenow fragment.
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PMID:Evidence for the presence of DNA primase in mitochondria of Saccharomyces cerevisiae. 265 90

The mouse DNA primase-DNA polymerase alpha complex can be resolved with buffer containing 50% ethylene glycol (Suzuki, M., Enomoto, T., Hanaoka, F., and Yamada, M. (1985) J. Biochem. (Tokyo) 98, 581-584). The dissociated primase and DNA polymerase alpha have been purified sufficiently that there was no cross-contamination with each other. By the use of thus isolated DNA primase and DNA polymerase alpha in addition to DNA primase-DNA polymerase alpha complex, we have studied primer RNA synthesis and DNA elongation separately as well as the coupled reaction of the initiation and elongation of DNA chains. In the absence of deoxyribonucleoside triphosphates, the isolated primase synthesized oligoribonucleotides of an apparent length of 7-11 nucleotides (monomeric oligomer) and multiples of a modal length of 9-10 nucleotides (multimeric oligomer) and fd phage single-stranded circular DNA. Monomeric and dimeric oligomers were synthesized processively, and trimeric and larger oligomers were produced by repeated cycles of processive synthesis. The primase complexed with DNA polymerase alpha mainly synthesized monomeric and a small amount of dimeric oligomers. In the presence of deoxyribonucleoside triphosphates at concentrations above 10 microM, the DNA primase-DNA polymerase alpha complex exclusively synthesized monomeric oligomers only, which were utilized as primers for DNA synthesis. On the other hand, the products synthesized by the isolated primase were qualitatively unchanged as compared with those synthesized in the absence of DNA precursors. When the synthesis of oligomers by the isolated primase was coupled with DNA elongation by the addition of the primase-free DNA polymerase alpha, the synthesis of dimeric oligomers was inhibited as a result of efficient DNA elongation from monomeric oligomers.
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PMID:DNA primase-DNA polymerase alpha assembly from mouse FM3A cells. Purification of constituting enzymes, reconstitution, and analysis of RNA priming as coupled to DNA synthesis. 272 61

Novel DNA primase-like activity was partially purified from human Hela cells, and the activity was clearly separated from DNA polymerase alpha by phosphocellulose column chromatography. The enzyme did not show significant activity in the absence of Ca2+, and was dramatically activated by the addition of Ca2+; so it was designated as C-primase. The C-primase showed a molecular weight of 20,000 estimated by gel filtration and a sedimentation coefficient of 3.5 S by glycerol gradient centrifugation. These results, together with the other properties of the C-primase, suggest that this primase like-enzyme is distinct from the authentic eukaryotic primase in the DNA polymerase alpha/DNA primase complex.
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PMID:A Ca2+-dependent DNA primase-like activity from HeLa cells. 275 81

A protein factor that stimulates DNA primase activity associated with DNA polymerase alpha has been identified in mouse germ cell populations enriched in spermatogonia and preleptotene spermatocytes. The partially purified factor enhances DNA primase activity from homologous cell types as well as DNA primase activity from Xenopus laevis oocytes in a poly dT or M 13 directed reaction. The factor does not stimulate DNA polymerase alpha activity in a gapped salmon sperm or poly dT-rA directed reaction. The DNA primase stimulating factor is identified in a male mouse germ cell population enriched in premeiotic cells; it is not detectable in middle-late pachytene spermatocytes, spermatids, Sertoli cells or fibroblasts.
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PMID:Replicating premeiotic germ cells of the mouse contain a novel DNA primase stimulatory factor. 276 46

A novel DNA primase activity has been identified in HeLa cells infected with herpes simplex virus type 1 (HSV-1). Such an activity has not been detected in mock-infected cells. The primase activity coeluted with a portion of HSV-1 DNA polymerase from single-stranded DNA agarose columns loaded with high-salt extracts derived from infected cells. This DNA primase activity could be distinguished from host HeLa cell DNA primase by several criteria. First, the pH optimum of the HSV primase was relatively broad and peaked at 8.2 to 8.7 pH units. In contrast, the pH optimum of the HeLa DNA primase was very sharp and fell between pH 7.9 and 8.2. Second, freshly isolated HSV DNA primase was less salt sensitive than the HeLa primase and was eluted from single-stranded DNA agarose at higher salt concentrations than the host primase. Third, antibodies raised against individual peptides of the calf thymus DNA polymerase:primase complex cross-reacted with the HeLa primase but did not react with the HSV DNA primase. Fourth, freshly prepared HSV DNA primase appeared to be associated with the HSV polymerase, but after storage at 4 degrees C for several weeks, the DNA primase separated from the viral DNA polymerase. Separation or decoupling could also be achieved by gel filtration of the HSV polymerase:primase. This free DNA primase had an apparent molecular size of approximately 40 kilodaltons, whereas free HeLa DNA primase had an apparent molecular size of approximately 110 kilodaltons. On the basis of these data, we believe that the novel DNA primase activity in HSV-infected cells may be virus coded and that this enzyme represents a new and important function involved in the replication of HSV DNA.
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PMID:Identification and characterization of a DNA primase activity present in herpes simplex virus type 1-infected HeLa cells. 282 52

The 330 residue-long N-terminal domains (NTDs) of beta and beta' subunits of the Escherichia coli RNA polymerase (RPase) core enzyme were found to be significantly homologous to the entire length of its alpha subunit. The C-terminal domains (CTDs) of the RPase beta subunit and DNA primase (dnaG protein) were not only strongly homologous to each other but also considerably homologous to the RPase alpha, suggesting that an alpha subunit-like enzyme must have been commonly ancestral to core enzyme subunits and primase. The N-terminal region (NTR) of RPase alpha was also found to show significant homologies with NTRs of the E. coli EF-Tu and F1-ATPase alpha subunit, and a possible weak homology with ribosomal protein L3. A most important finding was that the C-terminal regions (CTRs) of DNA polymerase (DPase) I, T7 phage DPase and MS2 phage RNA replicase beta subunit are closely homologous with one another. These CTRs showed considerable homologies to RPase alpha NTD and RPase beta CTD. These conclusions are based on statistical evaluations of homologies in base and/or amino acid sequence alignments.
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PMID:Amino acid and nucleotide sequence homologies among E. coli RNA polymerase core enzyme subunits, DNA primase, elongation factor Tu, F1-ATPase alpha, ribosomal protein L3, DNA polymerase I, T7 phage DNA polymerase, and MS2 phage RNA replicase beta subunit. 286 46

The replication of simian virus 40 has been studied by using cell-free extracts derived from human 293 cells. Fractionation of this extract has led to the identification of three fractions that are required for efficient DNA synthesis. Initial fractionation of the crude extract by phosphocellulose chromatography has produced two fractions, I and II, neither of which is able to support replication separately, but when they are combined, efficient synthesis is restored. Both fractions are required, with SV40 T antigen, for the formation of a presynthesis complex at the SV40 origin. The major replication enzymes, DNA polymerase, DNA primase and the topoisomerases I and II all reside in fraction II. Fraction I has been subdivided into two subfractions (A and B) by DEAE-cellulose chromatography. Fraction A is essential for replication and is required for presynthesis complex formation. Fraction B stimulates DNA replication and is only required at the elongation stage. This multicomponent system has provided the foundation for identification of individual components that are required for DNA replication in vitro.
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PMID:Identification of multiple cellular factors required for SV40 replication in vitro. 289 84

Highly purified DNA polymerase alpha-DNA primase from normal human tissue (human placenta) has been prepared by immunoaffinity purification on immobilized anti-human DNA polymerase alpha monoclonal antibody SJK 287-38. According to data from SDS electrophoresis this preparation consists of subunits of 180, 160, 145, 140 kDa (a cluster of DNA-polymerizing subunits), 73 kDa (function unknown) and 59, 52 kDa (corresponding to primase). Three active enzyme forms of 270, 460 and 575 kDa have been revealed using native electrophoresis followed by detection of DNA polymerase activity.
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PMID:DNA polymerase alpha-DNA primase from human placenta. Immunoaffinity purification and preliminary characterization. 292 16


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