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)

We have localized a cis-acting sequence that promotes initiation of lytic-phase DNA replication (oriLyt) within the HindIII D fragment of the human cytomegalovirus (HCMV) AD169 genome and investigated its sequence requirements by testing the ability of plasmid constructs to mediate DNA replication in a transient transfection-plus-infection assay. Replication of plasmids containing HCMV oriLyt required at least the virus-specified DNA polymerase activity supplied by HCMV infection of transfected cells and was autonomous in that it did not result from recombination with the virus genome. Progeny molecules in the transient assay were high-molecular-weight tandem oligomers, which is consistent with predictions of a rolling-circle model. Experiments testing subclones of HindIII-D defined a core 2.4-kbp region containing elements required for oriLyt function that extended rightward from around 1.0 kbp upstream of UL57 near the middle of the long unique component of the virus genome. Sequences flanking this core also were needed for full activity. The defined region contains at least four clustered sets of repeated sequence elements identical to or candidate counterparts of elements present in the corresponding cytomegalovirus Colburn lytic-phase replication origin. These elements are novel in that they apparently do not correspond to previously characterized motifs. Also present are multiple copies of elements similar to known binding sites for the transcription factors ATF/CREB, MLTF/USF, and Sp1. Preliminary deletion analysis suggests that multiple components within the boundaries of oriLyt cooperate to enable initiation of HCMV lytic-phase DNA synthesis.
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PMID:Boundaries and structure of human cytomegalovirus oriLyt, a complex origin for lytic-phase DNA replication. 131 54

A plasmid carrying the 5'-flanking region (-1852 to +33 with respect to the transcription initiation site) of the mouse DNA polymerase beta gene fused with the chloramphenicol acetyltransferase (CAT) gene was cotransfected into mouse N18TG2 cells with adenovirus type 12 E1 genes-expressing plasmids. Expression of E1A gene products resulted in the elevation of the CAT expression by 3 to 7 folds, but that of E1B gene product was much less effective. RNase protection analysis revealed that the activation by E1A was at the transcription process. Both the 13S E1A and the 12S E1A activated the DNA polymerase beta gene promoter, indicating that the activation domain of E1A is in a common region(s) of 13S and 12S E1A products. The major target sequence of E1A was mapped within the 10 base pair-region (-30 to -20) of the DNA polymerase beta gene promoter, which overlapped with the palindromic sequence known as the ATF(CREB)/E4F-binding consensus. The results suggest that the palindromic sequence is essential for E1A-induced transcriptional activation of the mouse DNA polymerase beta gene.
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PMID:Activation of the mouse DNA polymerase beta gene promoter by adenovirus type 12 E1A proteins. 153 5

DNA polymerase beta (pol beta) is a constitutively expressed DNA repair enzyme in vertebrate cells. Yet, it had been shown previously that the pol beta mRNA level increases in Chinese hamster ovary (CHO) cells within 4 h after treatment with several monofunctional DNA damaging agents, notably, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). Herein we report that a transfected pol beta promoter fusion gene is activated by MNNG treatment of CHO cells; mRNA from the transfected gene is approximately 10-fold higher in treated cells than in untreated cells 16 h after treatment. This activation is mediated through the decanucleotide palindromic element GTGACGTCAC at positions -49 to -40 in the "TATA-less" core promoter. This element, which is similar to the ATF/CREB transcription factor-binding site in a number of mammalian genes, forms the center of a strong protein-binding site for CHO cell nuclear extract proteins. Mutated pol beta promoter fusion genes lacking the element fail to bind protein at this site and fail to respond to MNNG treatment of cells.
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PMID:The ATF/CREB transcription factor-binding site in the polymerase beta promoter mediates the positive effect of N-methyl-N'-nitro-N-nitrosoguanidine on transcription. 182 4

The gene for the mammalian DNA repair enzyme DNA polymerase beta (beta-pol) is constitutively expressed in most cells, but is regulated in a tissue-specific fashion and can be induced in response to some types of DNA damaging agents. The promoter for the human beta-pol gene has been characterized and found to be TATA-less, but it does have multiple GC boxes and one ATF/CRE-binding site located within 50 residues 5' of the major mRNA start site. The ATF/CRE-binding site has been found to be essential for activity of the cloned promoter. We report that a bovine testes DNA-binding protein with specificity for the beta-pol promoter ATF/CRE-binding site is phosphorylated in vivo and contains several phosphorylation sites. Sequence specific DNA-binding by the purified protein is reduced when the natural protein is dephosphorylated or when it is hyperphosphorylated by protein kinase A (cKA) in vitro. These results suggest the possibility that phosphorylation systems may change binding of this ATF/CRE-binding protein to the beta-pol promoter and in turn modulate the promoter. Possible correlation of the results with transient expression activity of the cloned beta-pol promoter fusion gene was obtained in 293 cells. Cotransfection with a cKA expression plasmid to elevate phosphorylation was found to strongly reduce promoter activity.
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PMID:Mammalian beta-polymerase promoter: phosphorylation of ATF/CRE-binding protein and regulation of DNA binding. 182 17

The core promoter of the human DNA polymerase beta (beta Pol)-encoding gene (POL beta) is regulated through cis-elements for the ATF/CREB protein(s), and GC box-binding and initiation-site-binding proteins. The mechanism of promoter regulation has been studied using a nuclear extract transcription system from HeLa cells [Narayan et al., J. Biol. Chem. 269 (1994) 12755-12763]. To study the homologous promoter (ppol beta) in a bovine system, we cloned and characterized the 5'-flanking region of the bovine gene (pol beta). A 15.3-kb fragment of bovine genomic DNA containing the first two exons and 11 kb of 5'-flanking region was isolated from a testis library in bacteriophage lambda EMBL3. S1 nuclease mapping and primer extension analysis of the 5'-end of the pol beta mRNA identified the major transcription start point (tsp), which is located 142-bp 5' of the translational start codon. In transient expression assays using a bovine cell line, analysis of various 5'-deletion mutants demonstrated that a fragment of only 91-bp 5' of the tsp had promoter activity similar to that of a 1.37-kb fragment, so that cis-elements for basal transcription are located within this approx. 100-bp core promoter, as in the human promoter (pPOL beta). Comparison of the core promoters from the bovine and human genes revealed striking similarity, including an almost precise match of the tsp, the ATF/CREB-binding and Sp1-binding sites, and the spacing separating them.
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PMID:The bovine DNA polymerase beta promoter: cloning, characterization and comparison with the human core promoter. 759 Mar 51

The macrolide rapamycin arrests T lymphocytes stimulated by interleukin-2 (IL-2) at G1/S. We have recently found that IL-2 induced an increase in the binding of discrete transcription factors of the ATF/cAMP-responsive element binding factor (CREB) family at G1/S, and that this effect was inhibited by rapamycin (Feuerstein, N., Huang, D., Hinrichs, S. H., Orten, D. J., Aiyar, N., and Prystowsky, M. B. (1995) J. Immunol. 154, 68-79). We now show, by using high resolution two-dimensional gel electrophoresis, that rapamycin inhibited selectively the synthesis of three discrete IL-2-induced soluble proteins (35 kDa/pI approximately 5, 68 kDa/pI approximately 4, 110 kDa/pI approximately 4.3). Analysis of nuclear proteins demonstrated that rapamycin selectively blocked the expression of proliferating cell nuclear antigen (PCNA), an obligate cofactor of DNA polymerase-delta, an important component for DNA replication. Rapamycin inhibited the IL-2-induced PCNA mRNA, and the murine PCNA promoter activity in IL-2-stimulated cells. Inducible CRE-binding proteins were shown previously to be required for PCNA promoter activity in IL-2-stimulated T lymphocytes. Using DNA binding gel mobility shift assay we demonstrated that rapamycin potently inhibited the binding of CREB/ATF transcription factors to CRE elements in the murine proximal PCNA promoter. These results suggest that PCNA is a preferred target in a rapamycin-sensitive transduction pathway, and that the mechanism by which rampamycin inhibits PCNA gene expression may involve the inhibition of the interaction of CREB/ATF transcription factors with CRE elements in the proximal PCNA promoter.
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PMID:Rapamycin selectively blocks interleukin-2-induced proliferating cell nuclear antigen gene expression in T lymphocyte. Evidence for inhibition of CREB/ATF binding activities. 772 72

Treatment of hamster cells in culture with the DNA alkylating agent N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) induces DNA polymerase beta (beta-pol) gene expression and cellular levels of the enzyme. Transcriptional activity of a cloned beta-pol promoter in transient expression assays is also stimulated. Among the requirements for these responses are methylation damage to genomic DNA, cellular cAMP-dependent protein kinase, and the ATF/CREB site of the cloned beta-pol promoter. In the present study, HeLa cell nuclear extract from MNNG-treated cells was much more active in an in vitro transcription assay than nuclear extract from normal cells. By using an oligonucleotide affinity column to deplete the nuclear extract of ATF/CREB, we showed that the difference was due to ATF/CREB activator. Purified ATF/CREB activator from MNNG-treated cells was approximately 10-fold more active than ATF/CREB purified from normal cells as a transcriptional activator for the depleted nuclear extract. ATF/CREB in the extract from normal cells is known to activate in vitro transcription by increasing the rate of promoter clearance [Narayan, S., Widen, S. G., Beard, W. A., & Wilson, S. H. (1994) J. Biol. Chem. 269, 12755-12763]. With ATF/CREB from MNNG-treated cells, the amount of preinitiation complex formed was much greater than with ATF/CREB from normal cells, and the kinetics of both the closed to open preinitiation complex isomerization and promoter clearance were altered. These results indicate that the mechanism of transcriptional activation secondary to DNA alkylation damage is recruitment of more preinitiation complex and alteration of the kinetic scheme of transcription initiation.
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PMID:DNA damage-induced transcriptional activation of a human DNA polymerase beta chimeric promoter: recruitment of preinitiation complex in vitro by ATF/CREB. 781 26

Human cytomegalovirus (HCMV) immediate-early (IE) proteins are known potent transregulators of viral and cellular gene expression upon HCMV infection. HCMV is known to activate a number of cellular genes intimately associated with the cell cycle and DNA replication by mechanisms involving the viral major IE 86-kDa protein (IE2). We have recently shown that IE2 mediates this activation in a TATA-dependent manner and interacts directly with the TATA-binding protein. However, a number of TATA-less cellular promoters, e.g., DNA polymerase alpha and dihydrofolate reductase, are also activated by HCMV infection. Consequently, we have asked how HCMV mediates this activation. We show that, consistent with its known TATA dependency, IE2 does not activate the DNA polymerase alpha promoter. In contrast, this promoter is strongly activated by the major IE 72-kDa protein (IE1). Whilst deletion of ATF or E2F sites within the DNA polymerase alpha promoter had little effect on IE1-mediated activation, removal of the CCAAT box appeared to abolish high levels of activation by IE1. Consistent with this observation, we also find that IE1 interacts directly with the CCAAT box binding factor CTF1 in vitro and massively augments CTF1-mediated activation of the DNA polymerase alpha promoter in transient transfection assays.
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PMID:CCAAT box-dependent activation of the TATA-less human DNA polymerase alpha promoter by the human cytomegalovirus 72-kilodalton major immediate-early protein. 798 9

Human herpesvirus 6 (HHV-6) is a recently described T-cell pathogen whose medical relevance and molecular biology are just beginning to be addressed. As a first look at the regulation of viral genes, control of the HHV-6 DNA polymerase promoter was examined. Polymerase gene transcription in HHV-6-infected cells was found to initiate from a single site located 115 bases upstream of the translation start codon. A polymerase promoter-chloramphenicol acetyltransferase reporter gene construct failed to be expressed in uninfected T cells but was highly active in HHV-6-infected cells. Mutational data indicated that the polymerase promoter is TATA-less. Mutational analysis also revealed that the major upstream promoter regulatory element required for transcriptional activity in HHV-6-infected cells is a palindromic ATF/CREB transcription factor binding site. The significance of this site for promoter induction was further demonstrated by the fact that the polymerase ATF/CREB element, when appended to a heterologous basal promoter, is highly responsive to HHV-6 infection. Two protein complexes were found to bind in a specific manner to the ATF/CREB motif in both uninfected and HHV-6-infected T-cell nuclear extracts. Site-specific mutation of the ATF/CREB site resulted in loss of protein binding as well as loss of promoter activity in HHV-6-infected cells.
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PMID:An ATF/CREB site is the major regulatory element in the human herpesvirus 6 DNA polymerase promoter. 815 67

Previous analysis of the human cytomegalovirus (HCMV) DNA polymerase (UL54) early gene promoter demonstrated that transcriptional activation of this gene is dependent upon the interaction of cellular transcription factors with viral transactivators (J. A. Kerry, M. A. Priddy, T. Y. Jervey, C. P. Kohler, T. L. Staley, C. D. Vanson, T. R. Jones, A. C. Iskenderian, D. G. Anders, and R. M. Stenberg, J. Virol. 70:373-382, 1996). A sequence element, IR1, was shown to be the primary regulatory element of this promoter in transient assays. However, assessment of this element in the context of the viral genome revealed IR1-independent activation at late times after infection. To extend these studies, we aim to identify additional sequence elements involved in the activation of the UL54 promoter. Our present studies demonstrate that the level of binding of proteins to the ATF site in the UL54 promoter is enhanced by viral infection. Furthermore this increase is sensitive to treatment with phosphonoacetic acid (PAA), a DNA synthesis inhibitor. These data suggest that the increase in the level of ATF binding activity is regulated, either directly or indirectly, by HCMV late gene expression. By using specific antibodies, we determined that ATF-1 was a major component of the proteins binding to the UL54 ATF site at late times. In addition, we have demonstrated direct binding of recombinant ATF-1 to the UL54 ATF site. To assess the biological significance of these events, a recombinant virus construct was generated that contained the UL54 promoter with a mutation in the ATF site regulating expression of the chloramphenicol acetyltransferase (CAT) reporter gene inserted between open reading frames US9 and US10. Analysis of this virus (RVATFmCAT) revealed that mutation of the ATF site does not alter the kinetics of UL54 promoter activation. However, levels of CAT mRNA and activity were reduced by 5- to 10-fold compared to those of the wild-type promoter at all stages of infection. These findings indicate that ATF-1 can regulate the levels of UL54 promoter activity at both early and late times. Furthermore, these results imply that HCMV can regulate the activity of cellular factors involved in early gene regulation.
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PMID:The role of ATF in regulating the human cytomegalovirus DNA polymerase (UL54) promoter during viral infection. 903 45

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