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)

Nuclear factor I (NFI) or its isolated DNA-binding domain (NFI-BD) enhances initiation of adenovirus DNA replication up to 50-fold at low concentrations of the precursor terminal protein-DNA polymerase (pTP-pol) complex. Both in solution and when bound to DNA, NFI-BD can form a complex with pTP-pol. To investigate the mechanism of enhancement by NFI, we determined the stability of a functional preinitiation complex formed in vitro between pTP-pol and the origin. Challenge experiments with a distinguishable template containing an identical origin revealed that in the absence of NFI, this preinitiation complex was very sensitive to competition for pTP-pol. Addition of NFI-BD increased the half-life of the complex at least 10-fold and led to the formation of a template-committed preinitiation complex. In agreement with this, binding of pTP-pol to origin DNA in band-shift assays was enhanced by NFI. By DNase I footprinting we show that the specificity of binding as well as induction of structural changes in origin DNA by pTP-pol are increased by NFI. These results indicate that NFI, by binding and positioning pTP-pol, stabilizes the complex between pTP-pol and the core origin, and thus enhances initiation of DNA replication.
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PMID:Nuclear factor I enhances adenovirus DNA replication by increasing the stability of a preinitiation complex. 153 46

A complete three-dimensional structure of the Klenow fragment of Escherichia coli DNA polymerase I (pol I) has been proposed on the basis of molecular modeling and molecular mechanics studies using available C alpha coordinates. The structure seems quite reliable because the overall surface of electrostatic potentials calculated for the molecularly modeled enzyme closely resembles that reported for the X-ray structure. The modeled structure is then used in developing a ternary complex of dTTP and (dA)25-(dT)14 poised in its active site. The orientation of both substrates in the ternary complex was primarily guided by the amino acid residues which had been known to interact with dNTP and DNA substrates from earlier studies. The proposed model (a) explains the geometrical and physicochemical relationship of the two substrates with the various critical amino acid residues involved in the binding process and (b) suggests possible roles for additional residues in the binding and/or polymerization reaction. Furthermore, the ternary complex appears to satisfy many biochemical and genetic data concerning catalytic requirements known to exist for the polymerization reaction.
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PMID:A molecular model of the complete three-dimensional structure of the Klenow fragment of Escherichia coli DNA polymerase I: binding of the dNTP substrate and template-primer. 155 Aug 14

In retroviruses, the pol gene is expressed in the form of a gag-pol fusion protein by the mechanism of ribosomal frameshifting. In studies of the possible mechanism of hepadnaviral pol protein synthesis, recent results have ruled out core-pol fusion protein synthesis by ribosomal frameshifting. In this study, an in vitro transcription and translation coupling system was used to demonstrate that the HBV core and pol proteins could be synthesized independently using the pregenome RNA template. The result has led us to design experiments to distinguish between the involvement of a termination-reinitiation, internal initiation, or leaky scanning mechanism in the pol protein synthesis. In vitro experiments were then carried out to measure the amount of pol proteins being synthesized from (i) the preC mRNA, which contained an extra AUG and seven more nucleotides at the 5'-end in comparison with the pregenome RNA; (ii) the pregenome RNA in the presence of various amounts of antisense RNA annealing to the 5'-end of the pregenome RNA; and (iii) the pregenome RNA with an additional hairpin structure located upstream of the C gene. Results indicated that the synthesis of both core and pol proteins was concomitantly reduced in these three conditions, which suggested that leaky scanning is the most probable mechanism for pol protein synthesis in vitro. To further verify the mechanism in vivo, experiments were performed to assay the activity of DNA polymerase in virions, which were obtained from hepatoma cells transfected by plasmids containing either a wild-type sequence (5'-GGCATGG-3') or an optimal initiation context (5'-ACCATGG-3') of the C gene. Transfection results showed that the plasmid-containing mutations of the C gene significantly decreased the DNA polymerase activity in virions. This observation supports our hypothesis that the leaky scanning model is involved in the synthesis of pol protein.
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PMID:Evidence for involvement of a ribosomal leaky scanning mechanism in the translation of the hepatitis B virus pol gene from the viral pregenome RNA. 156 78

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

The construction of a recombinant bacteriophage lambda library containing overlapping clones covering 155 kbp of the 161-kbp genome of the Ugandan U1102 isolate of human herpesvirus 6 (HHV-6) is described. The use of degenerate-primer polymerase chain reaction allowed the isolation of a DNA probe for the DNA polymerase gene of HHV-6, which was subsequently used to isolate and position the pol gene on the physical map of the viral genome. A 4.4-kbp EcoRI DNA restriction fragment containing the pol gene was isolated and sequenced. The open reading frames flanking the pol gene code for the HHV-6 glycoprotein B gene and the human cytomegalovirus UL53 homolog. This arrangement is different from that seen in the alpha and gamma herpesvirus families, lending further support to the notion that HHV-6 is a member of the beta herpesvirus group.
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PMID:Characterization of the DNA polymerase gene of human herpesvirus 6. 165 3

Replication factors A and C (RF-A and RF-C) and the proliferating cell nuclear antigen (PCNA) differentially augment the activities of DNA polymerases alpha and delta. The mechanism of stimulation by these replication factors was investigated using a limiting concentration of primed, single-stranded template DNA. RF-A stimulated polymerase alpha activity in a concentration-dependent manner, but also suppressed nonspecific initiation of DNA synthesis by both polymerases alpha and delta. The primer recognition complex, RF-C.PCNA.ATP, stimulated pol delta activity in cooperation with RF-A, but also functioned to prevent abnormal initiation of DNA synthesis by polymerase alpha. Reconstitution of DNA replication with purified factors and a plasmid containing the SV40 origin sequences directly demonstrated DNA polymerase alpha dependent synthesis of lagging strands and DNA polymerase delta/PCNA/RF-C dependent synthesis of leading strands. RF-A and the primer recognition complex both affected the relative levels of leading and lagging strands. These results, in addition to results in an accompanying paper (Tsurimoto, T., and Stillman, B. (1991) J. Biol. Chem. 266, 1950-1960), suggest that an exchange of DNA polymerase complexes occurs during initiation of bidirectional DNA replication at the SV40 origin.
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PMID:Replication factors required for SV40 DNA replication in vitro. II. Switching of DNA polymerase alpha and delta during initiation of leading and lagging strand synthesis. 167 Oct 46

The influence of poly(ADP-ribose) polymerase (PARP) on the replication of DNA containing the SV40 origin of replication has been examined. Extensive replication of SV40 DNA can be carried out in the presence of T antigen, topoisomerase I, the multimeric human single strand DNA-binding protein (HSSB), and DNA polymerase alpha-DNA primase (pol alpha-primase) complex (the monopolymerase system). In the monopolymerase system, both small products (Okazaki fragments), arising from lagging strand synthesis, and long products, arising from leading strand synthesis, are formed. The synthesis of long products requires the presence of relatively high levels of pol alpha-primase complex. In the presence of PARP, the synthesis of long products was blocked and only small Okazaki fragments accumulated, arising from the replication of the lagging strand template. The inhibition of leading strand synthesis by PARP can be effectively reversed by supplementing the monopolymerase system with the multimeric activator 1 protein (A1), the proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta (the dipolymerase system). The inhibition of leading strand synthesis in the monopolymerase system was caused by the binding of PARP to the ends of DNA chains, which blocked their further extension by pol alpha. The selective accumulation of Okazaki fragments was shown to be due to the coupled synthesis of primers by DNA primase and their immediate extension by pol alpha complexed to primase. PARP had little effect on this coupled reaction, but did inhibit the subsequent elongation of products, presumably after pol alpha dissociated from the 3'-end of the DNA fragments. PARP inhibited several other enzymatic reactions which required free ends of DNA chains. PARP inhibited exonuclease III, DNA ligase, the 5' to 3' exonuclease, and the elongation of primed DNA templates by pol alpha. In contrast, PARP only partly competed with the elongation of primed DNA templates by the pol delta elongation system which required SSB, A1, and PCNA. These results suggest that the binding of PARP at the ends of nascent DNA chains can be displaced by the binding of A1 and PCNA to primer ends. HSSB can be poly(ADP-ribosylated) in vivo as well as in vitro. However, the selective effect of PARP in blocking leading strand synthesis in the monopolymerase system was shown to depend primarily on its DNA binding property rather than on its ability to synthesize poly(ADP-ribose).
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PMID:Influence of poly(ADP-ribose) polymerase on the enzymatic synthesis of SV40 DNA. 167 70

Changes in the expression pattern of the DNA polymerase beta gene during inhibition of spermatogenesis by busulphan and by temperature (artificial cryptorchidism) have been studied. Transient arrest of spermatogenesis in two-month-old rats after injection of a single dose of busulphan (10 mg/kg) resulted in parallel but transient decrease in the 1.4 kb of beta-pol mRNA level to an undetectable value, followed by its reappearance after resumption of spermatogenesis. An artificial cryptorchidism also caused a drastic decrease of beta-pol mRNA level. Both results as well as morphological examination of testis after busulphan injection and artificial cryptorchidism revealed that spermatocytes and spermatids represent the testicular cell fraction containing the elevated amount of beta-pol mRNA. Involvement of DNA polymerase beta in meiotic recombination is discussed.
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PMID:Effect of busulphan treatment and elevated temperature on the expression of the beta-pol gene in rat testis. 167 54

S-Antigen (S-Ag) is a well characterized 45,000 m.w. photoreceptor cell protein. When injected into susceptible animal species, including primates, it induces an experimental autoimmune uveitis, a predominantly T cell-mediated autoimmune disease of the retina and uveal tract of the eye, and of the pineal gland. In this study we found an amino acid sequence homology between a uveitopathogenic site of S-Ag, several viral proteins and one additional nonviral protein. An experimental autoimmune uveitis and pinealitis was induced in Lewis rats with these different synthetic peptides, corresponding to the amino sequence of hepatitis B virus DNA polymerase, gag-pol polyprotein of Baboon endogenous virus and gag-pol polyprotein of AKV murine leukemia virus and potato proteinase inhibitor IIa, which contain three or more consecutive amino acids identical to peptide M in S-Ag. Lymph node cells from rats immunized with either peptide M or the different synthetic peptides showed a significant degree of cross-reaction. Mononuclear cells from monkeys (Macaca fascicularis) immunized with peptide M also showed significant proliferation when incubated with either peptide M or synthetic peptides as measured by in vitro lymphocyte mitogenesis assay using [3H]TdR. Based on our findings we conclude that a viral infection may sensitize the mononuclear cells that can cross-react with self proteins by a mechanism termed molecular mimicry. Tissue injury from the resultant autoantigenic event can take place in the absence of the infectious virus that initiated the immune response.
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PMID:Molecular mimicry between a uveitopathogenic site of S-antigen and viral peptides. Induction of experimental autoimmune uveitis in Lewis rats. 168 49

DNA polymerase beta (beta-pol) and its mRNA are maintained at constitutive levels during the cell cycle and during stages of cell growth in culture. To study biological consequences of variations in the level of this DNA repair enzyme and/or its mRNA, we prepared expression vectors in which cDNA for human beta-pol is inserted under the control of a metallothionein promoter (pMT) in the sense and antisense orientation, respectively, and these vectors then were used for stable transformation of mouse 3T3 cells. Vectors also contained the mouse DHFR gene, such that culture of transformants in medium with increasing concentrations of methotrexate resulted in amplification of inserted DNA. The levels of sense and antisense transcripts are strongly increased by culture of transformants in medium with 65 microM Zn2+, although some expression is detected even without Zn2+ induction. After five days of induction, the beta-pol level was about threefold higher in sense cells and about 10-fold lower in antisense cells than in parallel cultures without induction. The antisense line has a threefold increased cell doubling time in the presence of 65 microM Zn2+ compared with the absence of Zn2+. Zn2+ (65 microM) induction for the sense line results in normal growth for the first three days and, thereafter, a complete cessation of growth. Yet, these blocked cells remain fully viable. The results indicate that sudden deregulation of beta-pol expression alters cell growth in mouse 3T3 cells.
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PMID:Deregulation of DNA polymerase beta by sense and antisense RNA expression in mouse 3T3 cells alters cell growth. 169 88

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