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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 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 gene (pol) encoding the Epstein-Barr virus (EBV) DNA polymerase is a member of the "early" class of viral genes which are expressed shortly after activation of latent virus infection. First, mRNA from the EBV-producing cell line, B95-8, treated with 12-O-tetradecanoylphorbol-13-acetate and sodium butyrate to induce lytic replication and expression of this gene was analyzed. Northern (RNA) analysis revealed a message of 3.7 kb found only in induced cells. 5' mapping of pol mRNA by S1 nuclease and primer extension analyses indicates that transcription initiates at tightly clustered sites within a G + C-rich region 126 bp upstream of the open reading frame. The same initiation region was identified in two other EBV-infected cell lines, P3HR1 and Raji, after induction. Second, a 1.29-kb genomic fragment containing this region, when cloned upstream of the chloramphenicol acetyltransferase reporter gene, demonstrated promoter activity in lymphoid cells cotransfected with pEBV-RZ, a genomic expression construct that includes genes for the EBV immediate-early transactivator proteins, BZLF-1 and BRLF-1. Within the upstream 1.29-kb sequence, two regions of 140 bp and 101 bp appear to be needed for promoter activity. These results demonstrate that unlike most EBV genes studied thus far, the pol gene contains multiple transcriptional start sites. The upstream regulatory region of the promoter for the pol gene does not contain canonical promoter elements such as TATA and CAAT boxes and, furthermore, is not constitutively active but requires transactivation by two or more viral proteins.
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PMID:Regulation of the Epstein-Barr virus DNA polymerase gene. 131 4

DNA polymerase I (pol I) from Escherichia coli has three well-defined activities: DNA polymerase, 3'-5' exonuclease, and 5'-3' exonuclease. We have raised monoclonal antibodies to pol I which selectively neutralize each of these three activities, thus supporting the model of separate active sites for each activity, heretofore exclusively demonstrated with proteolytic fragments of pol I. Antibodies from each class could bind pol I in the presence of antibodies of another class, indicating the existence of significant spatial separation between each of the three sites. In addition, several of the neutralizing antibodies were able to distinguish particular activities of the 5'-3' exonuclease. One of them, for example, inhibited the RNase H activity but not the DNase activity. Two other antibodies could, in addition to inhibiting the polymerase and the 3'-5' exonuclease, either stimulate or inhibit the 5'-3' exonuclease depending upon the assay conditions, particularly the ionic strength.
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PMID:Selective immunoneutralization of the multiple activities of Escherichia coli DNA polymerase I supports the model for separate active sites and indicates a complex 5' to 3' exonuclease. 132 12

5-Methylcytosine has been postulated to be an endogenous mutagen in procaryotes and eucaryotes leading to base substitution hot spots, C-->T transitions, resulting from spontaneous deamination of mC to T. The possibility remains, however, that a second mechanism involving mispairing of mC with A might also contribute to base substitution mutagenesis via G-->A transitions. Stimulation of the G-->A mutational pathway could involve preferential misincorporation of dAMP opposite template mC compared to C. To investigate this possibility, we synthesized a sequence containing mC at a defined template location. We compared the fidelity of copying mC versus C and the efficiency of extending mismatched base pairs at the mC position using three DNA polymerases, AMV reverse transcriptase, Drosophila DNA polymerase alpha, and mutant Escherichia coli Klenow fragment containing no proofreading exonuclease activity. Significant differences in misinsertion and mismatch extension efficiencies were observed only for the case of AMV reverse transcriptase. AMV reverse transcriptase was observed to incorporate dAMP 4 to 5-fold more efficiently opposite mC than C. Favored extension of a 5-MeC.A over C.A mispair was also observed with a difference of about 3-fold. In contrast to AMV reverse transcriptase, Klenow fragment showed no significant difference when copying either mC or C sites or when extending mispairs involving mC and C. Incorporation of dAMP opposite either C or mC was barely detectable using pol alpha, although pol alpha has been observed to form A.C mismatches in other sequences. While we cannot completely exclude the possibility that dAMP might be incorporated opposite mC in preference to C, our results suggest that contributions of the G-->A pathway to mC mutagenic hot spots are likely to be minor, lending additional support to the model invoking deamination of mC.
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PMID:A comparison of the fidelity of copying 5-methylcytosine and cytosine at a defined DNA template site. 138 39

In Salmonella typhimurium, dnaQ null mutants (encoding the epsilon editing subunit of DNA polymerase III [Pol III]) exhibit a severe growth defect when the genetic background is otherwise wild type. Suppression of the growth defect requires both a mutation affecting the alpha (polymerase) subunit of DNA polymerase III and adequate levels of DNA polymerase I. In the present paper, we report on studies that clarify the nature of the physiological defect imposed by the loss of epsilon and the mechanism of its suppression. Unsuppressed dnaQ mutants exhibited chronic SOS induction, indicating exposure of single-stranded DNA in vivo, most likely as gaps in double-stranded DNA. Suppression of the growth defect was associated with suppression of SOS induction. Thus, Pol I and the mutant Pol III combined to reduce the formation of single-stranded DNA or accelerate its maturation to double-stranded DNA. Studies with mutants in major DNA repair pathways supported the view that the defect in DNA metabolism in dnaQ mutants was at the level of DNA replication rather than of repair. The requirement for Pol I was satisfied by alleles of the gene for Pol I encoding polymerase activity or by rat DNA polymerase beta (which exhibits polymerase activity only). Consequently, normal growth is restored to dnaQ mutants when sufficient polymerase activity is provided and this compensatory polymerase activity can function independently of Pol III. The high level of Pol I polymerase activity may be required to satisfy the increased demand for residual DNA synthesis at regions of single-stranded DNA generated by epsilon-minus pol III. The emphasis on adequate polymerase activity in dnaQ mutants is also observed in the purified alpha subunit containing the suppressor mutation, which exhibits a modestly elevated intrinsic polymerase activity relative to that of wild-type alpha.
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PMID:DNA replication defect in Salmonella typhimurium mutants lacking the editing (epsilon) subunit of DNA polymerase III. 140 Feb 46

The incorporation of cytosine arabinoside monophosphate (araCMP) into DNA at internucleotide linkages by DNA polymerase alpha (DNA pol alpha) has been investigated by using oligonucleotide primed DNA templates. The products of reactions catalyzed by DNA pol alpha in vitro were analyzed on polyacrylamide gels to measure insertion of araCMP, extension from an araCMP 3' terminus, and binding of the enzyme to an araCMP 3' terminus. The results show that insertion of araCMP opposite dGMP in the DNA template is about 3-fold less efficient than insertion of dCMP. Extension from an araCMP 3' terminus by addition of the next complementary nucleotide is approximately 2000-fold less efficient than extension from a correctly base-paired 3' terminus. In the absence of the second substrate, dNTP, DNA pol alpha binds with approximately equal affinities to DNA templates that contain oligonucleotide primers with araCMP or dCMP positioned at the 3' terminus. In the presence of dNTP, the enzyme extends the araCMP 3' terminus or dissociates, but it is not trapped at the araCMP 3' terminus in a nonproductive ternary complex as is observed at the ddCMP 3' terminus. To determine if slow phosphodiester bond formation contributes to the observed extension rate from the araCMP 3' terminus by DNA pol alpha, oligonucleotide primers with araCMP positioned at the 3' terminus were elongated by addition of the alpha-phosphorothioate analogue of the next complementary nucleotide. The rate of extension from araCMP by addition of 2'-deoxyadenosine 5'-O-phosphorothioate (dAMP alpha S) was 6-fold slower than by addition of dAMP, indicating that bond formation is partially rate limiting in the extension reaction. Thus, inefficient extension from the araCMP 3' terminus is the major determinant contributing to the low incorporation frequency of araCMP into DNA by DNA pol alpha, and this inefficiency can be attributed, in part, to slower phosphodiester bond formation at the araCMP 3' terminus.
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PMID:Incorporation of cytosine arabinoside monophosphate into DNA at internucleotide linkages by human DNA polymerase alpha. 142 52

The introduction of a replication-inhibiting lesion into the DNA of Escherichia coli generates the induced, multigene SOS response. One component of the SOS response is a marked increase in mutation rate, dependent on RecA protein and the induced mutagenesis proteins UmuC and UmuD. A variety of previous indirect approaches have indicated that SOS mutagenesis results from replicative bypass of the DNA lesion by DNA polymerase III (pol III) holoenzyme in a reaction mediated by RecA, UmuC, and a processed form of UmuD termed UmuD'. To study the biochemistry of SOS mutagenesis, we have reconstituted replicative bypass with a defined in vitro system containing purified protein and a DNA substrate with a single abasic DNA lesion. The replicative bypass reaction requires pol III, UmuC, UmuD', and RecA. The nonprocessed UmuD protein does not replace UmuD' but inhibits the bypass activity of UmuD', perhaps by sequestering UmuD' in a heterodimer. Our experiments demonstrate directly that the UmuC-UmuD' complex and RecA act to rescue an otherwise stalled pol III holoenzyme at a replication-blocking DNA lesion.
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PMID:Activity of the purified mutagenesis proteins UmuC, UmuD', and RecA in replicative bypass of an abasic DNA lesion by DNA polymerase III. 143 75

We studied recognition and binding of synthetic template-primers by Drosophila DNA polymerase alpha (pol alpha) holoenzyme. The template-primers used contained either mismatched base pairs at various positions in the primer region or exocyclic propanodeoxyguanosine (PdG) adducts at various positions in both template and primer.pol alpha requires primer-terminal complementarity of greater than or equal to 4 base pairs for efficient binding and incorporation. When a mismatched base pair is at the -4 position relative to the 3'-primer terminus, minimal but detectable binding occurs. This is consistent with the ability of pol alpha to incorporate a single nucleotide on a template-primer containing a mismatch at this position, but at a rate of only 7% relative to incorporation on a perfectly matched template-primer. No binding or incorporation (less than 1% of incorporation on a perfectly matched template-primer) was evident when a mismatched base pair was at the -3 position or closer, relative to the 3'-primer terminus. Similar results were obtained when PdG was placed at various positions in the primer region. When a PdG residue was located in the template region (+ 3 position relative to the 3'-primer terminus), single-nucleotide incorporation was stimulated 3-4-fold. These observations suggest that there are intrinsic aspects to the mechanism of nucleotide incorporation by pol alpha which ensure the fidelity of DNA synthesis by this enzyme and may provide novel insights into the fundamental mechanism of polymerase translocation along templates.
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PMID:Interaction of Drosophila DNA polymerase alpha holoenzyme with synthetic template-primers containing mismatched primer bases or propanodeoxyguanosine adducts at various positions in template and primer regions. 152 88

An interesting property of the Escherichia coli DNA polymerase II is the stimulation in DNA synthesis mediated by the DNA polymerase III accessory proteins beta,gamma complex. In this paper we have studied the basis for the stimulation in pol II activity and have concluded that these accessory proteins stimulate pol II activity by increasing the processivity of the enzyme between 150- and 600-fold. As is the case with pol III, processive synthesis by pol II requires both beta,gamma complex and SSB protein. Whereas the intrinsic velocity of synthesis by pol II is 20-30 nucleotides per s with or without the accessory proteins, the processivity of pol II is increased from approximately five nucleotides to greater than 1600 nucleotides incorporated per template binding event. The effect of the accessory proteins on the rate of replication is far greater on pol III than on pol II; pol III holoenzyme is able to complete replication of circular single-stranded M13 DNA in less than 20 s, whereas pol II in the presence of the gamma complex and beta requires approximately 5 min. We have investigated the effect of beta,gamma complex proteins on bypass of a site-specific abasic lesion by E. coli DNA polymerases I, II, and III. All three polymerases are extremely inefficient at bypass of the abasic lesion. We find limited bypass by pol I with no change upon addition of accessory proteins. pol II also shows limited bypass of the abasic site, dependent on the presence of beta,gamma complex and SSB. pol III shows no significant bypass of the abasic site with or without beta,gamma complex.
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PMID:Processive DNA synthesis by DNA polymerase II mediated by DNA polymerase III accessory proteins. 153 62

We have examined the steady-state mRNA levels in spermatogenic cells of two nuclear enzymes that appear to be involved in DNA repair, DNA polymerase-beta (pol-beta) and poly(ADP)ribose polymerase (PADPRP). Two pol-beta mRNAs of 1.3 kb and 1.4 kb were detected in extracts from mouse testes. In leptotene/zygotene spermatocytes a low level of the 1.4-kb mRNA was observed. Both pol-beta mRNAs were found in meiotic pachytene spermatocytes, with the 1.3-kb form being more abundant. In contrast, the 1.4-kb form was more abundant in haploid round spermatids. Polysome gradient analyses indicated that the two pol-beta mRNAs were predominantly present in the nonpolysomal fractions of spermatocytes. In round spermatids, a larger fraction of the 1.4-kb pol-beta mRNA was associated with polysomes, correlating well with the higher levels of pol-beta enzyme detected during spermiogenesis. The pattern of PADPRP mRNA expression differed from the expression of pol-beta mRNA. The two PADPRP mRNAs of 3.7 and 3.8 kb were present in type A and type B spermatogonia, reached their highest levels in pachytene spermatocytes, and were greatly reduced in haploid round and elongating spermatids. Most of the pachytene spermatocyte PADPRP and mRNAs were present in polysomes, whereas a greater percentage of PADPRP mRNAs in round spermatids were detected in the nonpolysomal fractions. This finding correlates with the immunocytochemical nuclear localization of this enzyme in pachytene spermatocytes. These data demonstrate that different developmental patterns of mRNA expression and translational regulation exist for the pol-beta and PADPRP mRNAs during differentiation of male germinal cells.
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PMID:DNA polymerase-beta and poly(ADP)ribose polymerase mRNAs are differentially expressed during the development of male germinal cells. 153 96

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