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 T7gene-4 protein has been purified to near homogeneity using a complementation assay in vitro, and it is designated T7 DNA-priming protein (DNA primase). The purified enzyme enables T7 DNA polymerase to initate DNA synthesis on various circular single-stranded DNA templates by a mechanism which involes the synthesis of a very short RNA primer. The oligoribonucleotide, which is linked to the product DNA via a 3':5'-phosphodiester bond, starts with pppA-C and terminates predominantly with AMP. When only ATP and CPT are precursors, the RNA primer is found to be primarily a tetranucleotide of the sequence pppA-C-C-A. Using oligoribonucleotides in place of ribonucleoside triphosphates as chain initators, T7 DNA-priming protein drastically increases the efficiency with which T7 DNA polymerase can utilize particular tetranucleotide primers containing A and C residues. T7 DNA-priming protein also enables T7 DNA polymerase to make use of native or nicked duplex T7 DNA as template-primer. This reaction does not require ribonucleoside triphosphates, although their addition enhances DNA synthesis 2--4 fold. The product formed in their absence is covalently attached to the template DNA and is found to contain a few long branches when examined by electron microscopy. In the presence of ribonucleoside triphosphates most of the newly made product arises from imitation of DNA chains de novo. Incubation of three proteins: T7 DNA-priming protein, T7 DNA polymerase, and T7 DNA-binding protein, with ribonucleoside and deoxyribonucleoside triphosphates, and with phiX174DNA as template leads to the generation of 'rolling circle-like' structures as visualized in the electron microscope. Single-stranded regions at the tail-circle junction indicate that initations can occur de novo on the displaced complementary strand. This is consistent with a discontinuous mode of 'lagging' strand synthesis and suggests that the same proteins may also be responsible for fork propagation in vivo.
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PMID:Bacteriophage-T7-induced DNA-priming protein. A novel enzyme involved in DNA replication. 32 3

Bacteriophage T7 DNA primase (gene-4 protein, 66,000 daltons) enables T7 DNA polymerase to initiate the synthesis of DNA chains on single-stranded templates. An initial step in the process of chain initiation is the formation of an oligoribonucleotide primer by T7 primase. The enzyme, in the presence of natural SS DNA, Mg++ (or Mn++), ATP and CTP (or a mixture of all 4 rNTPs), catalyzes the synthesis of di-, tri-, and tetraribonucleotides all starting at the 5' terminus with pppA. In a subsequent step requiring both T7 DNA polymerase and primase, the short oligoribonucleotides (predominantly pppA-C-C-AOH) are extended by covalent addition of deoxyribonucleotides. With the aid of primase, T7 DNA polymerase can also utilize efficiently a variety of synthetic tri-, tetra-, or pentanucleotides as chain initiators. T7 primase apparently plays an active role in primer extension by stabilizing the short primer segments in a duplex state on the template DNA.
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PMID:Role of bacteriophage T7 DNA primase in the initiation of DNA strand synthesis. 60 Jul 93

DNA primase-dependent synthesis of oligoribonucleotides 10-15 nucleotides long was observed in the presence of ATP, UTP, GTP, and CTP by using the purified components of the simian virus 40 (SV40) DNA replication system. The DNA primase-catalyzed reaction required the SV40 large tumor antigen (T antigen), DNA polymerase alpha (pol-alpha), the three-subunit human single-stranded DNA binding protein (HSSB), and topoisomerase I. The synthesis of small RNAs was unaffected by the addition of activator 1, proliferating cell nuclear antigen, and DNA polymerase delta, proteins that can support extensive leading-strand synthesis. The RNA primers were derived predominantly from transcription of the lagging-strand template, even after prolonged incubation, indicating that the leading strand did not serve as a template. When the four dNTPs were added after oligoribonucleotide synthesis, pol-alpha extended the RNA primers hybridized to SV40 DNA. Pulse-chase experiments revealed that the small RNA chains were elongated to Okazaki-sized products. T7 DNA polymerase was also shown to rapidly extend oligoribonucleotide primers in the presence of aphidicolin or antibodies against pol-alpha, conditions under which pol-alpha was markedly inhibited. These findings suggest that interactions between T antigen, pol-alpha-primase, and HSSB position the pol-alpha-primase complex on the lagging-strand template for RNA primer synthesis.
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PMID:Studies on the initiation of simian virus 40 replication in vitro: RNA primer synthesis and its elongation. 131 May 41

The influence of DNA polymerase (pol) alpha and DNA primase on SV40 DNA replication was examined in both the monopolymerase and dipolymerase systems. The synthesis of oligoribonucleotides in the monopolymerase and dipolymerase systems, followed by pulse labeling with deoxynucleoside triphosphates, yielded short Okazaki fragments approximately 35 nucleotides in length that were chased into full-length Okazaki fragments with time. In the presence of activator 1 and proliferating cell nuclear antigen (PCNA), but no pol delta, these short fragments hardly increased in size with time. DNA fragments of similar size (approximately 35 nucleotides) were previously observed in SV40 replication reactions carried out with crude extracts of HeLa cells in the presence of antibodies directed against PCNA (Bullock, P. A., Seo, Y.S., and Hurwitz, J. (1991) Mol. Cell. Biol. 11, 2350-2361). Thus, the pol alpha-primase complex appears to act processively for only a short distance. At high levels of pol alpha and primase, both short and long DNA products were formed in both systems. In the presence of limiting amounts of pol alpha and excess primase, the monopolymerase system inefficiently yielded longer length Okazaki fragments than those formed with excess pol alpha and primase, whereas the dipolymerase system yielded both short and long DNA fragments. In the presence of limiting amounts of primase and excess pol alpha, long products were formed in both systems, and virtually no short products accumulated. Thus, the ratio between the polymerase and primer ends available controls the size of the nascent product DNA strands. We examined whether PCNA, the T4 phage-encoded gene product 45 (T4 gp45), and the Escherichia coli beta subunit of DNA polymerase III (dnaN gene product) supported SV40 DNA replication and the elongation of single-stranded DNA-binding protein-coated singly primed DNA in reactions catalyzed by pol delta, T4 DNA pol, and E. coli DNA pol III*, respectively. In the presence of T4 gp44/62 and T4 gp32 (but not human single-stranded DNA-binding protein isolated from HeLa cells), T4 DNA pol was weakly activated by PCNA and the beta subunit in lieu of T4 gp45 in the elongation of singly primed phi X174 DNA. However, the other systems were specific for their analogous auxiliary factors. This specificity indicates the importance of protein-protein interactions.
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PMID:The replication of DNA containing the simian virus 40 origin by the monopolymerase and dipolymerase systems. 134 4

Genetic and biochemical evidence suggests there are at least three DNA polymerases required for replication in eukaryotic cells. However, Drosophila embryonic cells have a very short duration S phase which is regulated differently. To address the question of whether embryos utilize different DNA polymerases, we employed Mono Q anion exchange chromatography to resolve the DNA polymerase activities. Two types of DNA polymerase, DNA polymerase delta and DNA polymerase alpha, were distinguished by: 1. copurification of DNA primase or 3'-5'exonuclease activities; 2. immunoblot analysis with alpha-specific polyclonal antisera; 3. sensitivity to aphidicolin and BuPdGTP; and 4. processivity measurements with and without Proliferating Cell Nuclear Antigen. These observations suggest that Drosophila embryos, similar to nonembryonic cells, have both alpha- and delta-type DNA polymerases.
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PMID:Delta-type DNA polymerase characterized from Drosophila melanogaster embryos. 136 Jun 47

FABdCTP was found to be a substrate of DNA polymerization catalyzed by a DNA polymerase alpha-DNA primase complex on the 5'-GTGAGTAAGTGGAGTTTGGCACGAT-3' template and 3'-CTCAAACCGT-5' primer. After complete primer extension in the presence of FABdCTP under UV-irradiation of the reaction mixture, 70% of the template was covalently linked to the primer. Labeling of the 165 kDa subunit of the DNA polymerase alpha, 59 kDa and 49 kDa subunits of the DNA primase and an unknown protein with apparent molecular weight of 31 kDa was observed. By another way of protein labeling FABdCTP was covalently bound to the subunits of the enzyme under UV irradiation and then this moiety was introduced into the 3'-end of the 5'-[32P]primer by the catalytic activity of DNA polymerase or DNA primase. In this case covalent labeling of the 165 kDa, 49 kDa and 31 kDa subunits was observed.
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PMID:Photoaffinity labeling of DNA polymerase alpha DNA primase complex based on the catalytic competence of a dNTP reactive analog. 142 65

Inhibition of DNA primase and polymerase alpha from calf thymus was examined. DNA primase requires a 3'-hydroxyl on the incoming NTP in order to polymerize it, while the 2'-hydroxyl is advantageous, but not essential. Amazingly, primase prefers to polymerize araATP rather than ATP by 4-fold (kcat/KM). However, after incorporation of an araNMP into the growing primer, further synthesis is abolished. The 2'- and 3'-hydroxyls of the incoming nucleotide appear relatively unimportant for nucleotide binding to primase. Polymerization of nucleoside triphosphates by DNA polymerase alpha onto a DNA primer was similarly analyzed. Removing the 3'-hydroxyl of the incoming triphosphate decreases the polymerization rate greater than 1000-fold (kcat/KM), while a 2'-hydroxyl in the ribo configuration abolishes polymerization. If the 2'-hydroxyl is in the ara configuration, there is almost no effect on polymerization. An araCMP or ddCMP at the 3'-terminus of a DNA primer slightly decreased DNA binding as well as binding of the next correct 2'-dNTP. Changing the primer from DNA to RNA dramatically and unpredictably altered the interactions of pol alpha with araNTPs and ddNTPs. Compared to the identical DNA primer, pol alpha discriminated 4-fold better against araCTP polymerization when the primer was RNA, but 85-fold worse against ddCTP polymerization. Additionally, pol alpha elongated RNA primers containing 3'-terminal araNMPs more efficiently than the identical DNA substrate.
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PMID:Inhibition of DNA primase and polymerase alpha by arabinofuranosylnucleoside triphosphates and related compounds. 158 21

We have investigated the species-specific replication of polyomavirus DNA in the cell-free system that was established previously (Y. Murakami, T. Eki, M. Yamada, C. Prives, and J. Hurwitz, Proc. Natl. Acad. Sci. USA 83:6347-6351, 1986). Extracts from various species of cells supported polyomavirus DNA replication in a species-specific manner that was consistent with the host range specificity of polyomavirus; extracts prepared from mouse and hamster cells were active, whereas extracts prepared from human, monkey, and insect cells were inactive. The addition of DNA polymerase alpha-primase purified from mouse cells induced the replication of polyomavirus DNA in a cell-free system containing polyomavirus large tumor antigen and nonpermissive cell extracts, such as human and insect cell extracts. Isolated mouse DNA primase alone also induced polyomavirus DNA replication in human cell extracts but not in insect cell extracts, indicating that mouse DNA primase plays the principal role in determining permissiveness for polyomavirus DNA replication.
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PMID:Mouse DNA primase plays the principal role in determination of permissiveness for polyomavirus DNA replication. 165 10

Studies in eucaryotic cells (mainly animals and yeast) indicate that at least two DNA polymerases are involved in DNA replication at the level of the replication fork: DNA polymerase alpha, which is associated with DNA primase, is involved in the replication of the lagging strand; DNA polymerase delta, associated with an exonuclease activity, synthesizes the forward continuous DNA strand. Much less information exists concerning plant systems. Previous work from this laboratory provided preliminary evidence of an association between DNA polymerase B from wheat embryo and an exonucleolytic activity. In this paper, we present additional data on the biochemical properties of DNA polymerase B. An improved purification procedure described in this article has been developed. During all the purification steps the nuclease activity was associated with DNA polymerase activity. A biochemical study of this enzyme activity shows that it is an exonuclease which hydrolyses DNA in the 3' to 5' direction. Moreover, this exonuclease confers a proofreading function to DNA polymerase B. Comparison of DNA polymerase B properties (template specificity, sensitivity to DNA replication inhibitors like aphidicolin and butyl-phenyl dGTP, copurification of DNA polymerase and exonuclease activities) with those of animal DNA polymerase delta indicates that these enzymes share many common features. To our knowledge, this is the first report of DNA polymerase delta in higher plants.
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PMID:DNA polymerase B from wheat embryos: a plant delta-like DNA polymerase. 165

Porcine liver DNA polymerase gamma was shown previously to copurify with an associated 3' to 5' exonuclease activity (Kunkel, T. A., and Mosbaugh, D. W. (1989) Biochemistry 28, 988-995). The 3' to 5' exonuclease has now been characterized, and like the DNA polymerase activity, it has an absolute requirement for a divalent metal cation (Mg2+ or Mn2+), a relatively high NaCl and KCl optimum (150-200 mM), and an alkaline pH optimum between 7 and 10. The exonuclease has a 7.5-fold preference for single-stranded over double-stranded DNA, but it cannot excise 3'-terminal dideoxy-NMP residues from either substrate. Excision of 3'-terminally mismatched nucleotides was preferred approximately 5-fold over matched 3' termini, and the hydrolysis product from both was a deoxyribonucleoside 5'-monophosphate. The kinetics of 3'-terminal excision were measured at a single site on M13mp2 DNA for each of the 16 possible matched and mismatched primer.template combinations. As defined by the substrate specificity constant (Vmax/Km), each of the 12 mismatched substrates was preferred over the four matched substrates (A.T, T.A, C.G, G.C). Furthermore, the exonuclease could efficiently excise internally mismatched nucleotides up to 4 residues from the 3' end. DNA polymerase gamma was not found to possess detectable DNA primase, endonuclease, 5' to 3' exonuclease, RNase, or RNase H activities. The DNA polymerase and exonuclease activities exhibited dissimilar rates of heat inactivation and sensitivity to N-ethylmaleimide. After nondenaturing activity gel electrophoresis, the DNA polymerase and 3' to 5' exonuclease activities were partially resolved and detected in situ as separate species. A similar analysis on a denaturing activity gel identified catalytic polypeptides with molecular weights of 127,000, 60,000, and 32,000 which possessed only DNA polymerase gamma activity. Collectively, these results suggest that the polymerase and exonuclease activities reside in separate polypeptides, which could be derived from separate gene products or from proteolysis of a single gene product.
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PMID:Properties of the 3' to 5' exonuclease associated with porcine liver DNA polymerase gamma. Substrate specificity, product analysis, inhibition, and kinetics of terminal excision. 166 14

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