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Target Concepts:
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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.
...
PMID:Boundaries and structure of human cytomegalovirus oriLyt, a complex origin for lytic-phase DNA replication. 131 54
The mechanisms governing the function of cellular
USF
and herpesvirus immediate-early transcription factors are subjects of considerable interest. In this regard, we identified a novel form of coordinate gene regulation involving a cooperative interplay between cellular
USF
and the varicella-zoster virus immediate-early protein 62 (IE 62). A single
USF
-binding site defines the potential level of IE 62-dependent activation of a bidirectional viral early promoter of the
DNA polymerase
and major DNA-binding protein genes. We also report a dominant negative
USF
-2 mutant lacking the DNA-binding domain that permits the delineation of the biological role of both
USF
-1 and
USF
-2 in this activation process. The symmetrical stimulation of the bidirectional viral promoter by IE 62 is achieved at concentrations of
USF
-1 (43 kDa) or
USF
-2 (44 kDa) already existing in cells. Our observations support the notion that cellular
USF
can intervene in and possibly target promoters for activation by a herpesvirus immediate-early protein.
...
PMID:The cellular transcription factor USF cooperates with varicella-zoster virus immediate-early protein 62 to symmetrically activate a bidirectional viral promoter. 793 7
Varicella-zoster virus (VZV) gene 28 encodes the viral
DNA polymerase
, while 29 encodes the major DNA-binding protein. Because of the central importance of these proteins to productive replication of VZV and because, of these, only gene 29 seems to be expressed in latency, we sought to understand how their expression is controlled. We recently reported that the divergent gene 28 and gene 29 transcripts are coordinately upregulated by IE62. Deletions in the 221-bp promoter domain shared by genes 28 and 29 comparably diminish the expression of both genes. By a variety of transient expression, competition gel shift, and super-shift assays, we now show that cellular transcription factor
USF
binds to a palindromic recognition sequence lying equidistant from transcription start sites for both genes 28 and 29. In the presence of IE62,
USF
fully activates transcription of genes 28 and 29. Site-specific mutation of three bases in the
USF
core binding hexamer abrogates activation of the gene 28 and 29 promoters by IE62.
USF
is important for expression of genes 28 and 29 in productive VZV infection.
...
PMID:Interactions between varicella-zoster virus IE62 and cellular transcription factor USF in the coordinate activation of genes 28 and 29. 854 14
The Epstein-Barr virus (EBV)
DNA polymerase
(pol) is essential for the replication of viral genomes during productive EBV infection. We have previously reported that the EBV DNA pol promoter, which is TATA-less and constitutively inactive, is activated by a genomic clone expressing both immediate-early viral transactivators, BZLF1Z and BRLF1 (R), in EBV-infected lymphoid cells. Here we demonstrate that R alone is sufficient to activate the pol promoter in EBV-negative B cells. Unlike other early promoters to which the R protein binds directly, its effect on the pol promoter does not appear to involve a direct DNA-binding mechanism. Instead, we found that two cellular transcription factors, an upstream stimulatory factor
USF
, and a member of the E2F family of proteins, bind directly to the pol promoter at positions -795 to -786 and -186 to -170, respectively, regions previously identified as important for activation of the pol promoter. These two sites contribute to or are essential for transactivation of the pol promoter by R in EBV-noninfected B cells. These data suggest that the R immediate-early protein may activate a key early EBV promoter (pol) through both
USF
and E2F.
...
PMID:Activation of the Epstein-Barr virus DNA polymerase promoter by the BRLF1 immediate-early protein is mediated through USF and E2F. 864 84
The major late promoter (MLP) of the subgroup C human adenoviruses is a preeminent model for the study of the mechanisms of basal and activated transcription, both in vivo and in vitro. However, while the structure and function of the human virus MLP has been the subject of extensive investigation, the conservation of the various promoter elements among the adenoviruses from different species has not been examined. Conservation of specific elements would strongly suggest the importance and universality of their function. To address this issue, sequences were obtained from cloned DNAs of several representative Mastadenoviridae, mouse adenovirus type 1 (MAV-1), Tupaia adenovirus type 1 (TAV-1), and two bovine adenoviruses of two distinct subgroups, BAV-3 and BAV-7. The results of the sequencing studies showed that the TATA box and an upstream inverted CAAT box are conserved in all species and that the binding site for transcription factor
USF
is present in all except MAV-1, in which a sequence similar to an Sp1-binding site is present at a similar position. The initiator element (INR) sequence is not well conserved, and only one or other of the two downstream activating elements, DE1 and DE2, is predicted to be present in the nonprimate virus MLP regions. Ribonuclease protection assays on RNA isolated from MAV-1-infected cells late in infection indicated that the predicted MLP is functional, and transcription initiation and splice donor sites were identified. The human virus MLP is embedded in the essential
DNA polymerase
sequence on the opposite DNA strand. The primary amino acid sequences of the C-terminal regions of the predicted DNA polymerases show strong conservation of sequence motifs observed in replicative polymerases ranging from prokaryotes to mammals, and additional regions of strong conservation among the adenovirus polymerases. Pairwise comparisons between the newly sequenced regions of the polymerases and previously published sequences show that BAV-7 is most dissimilar to all others, while TAV-1 has a greater similarity to the primate sequences than to the others. The sequence data from both strands were also used to construct phylogenetic trees, based on BAV-7 as the outgroup. The trees constructed from the two sets of sequences are broadly similar, showing close relationships between primate viruses, but differing in the order of divergence of TAV-1 and MAV-1 branches.
...
PMID:Conservation of DNA sequence in the predicted major late promoter regions of selected mastadenoviruses. 866 90
