UNIPROT:P51532 - FACTA Search

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Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RNA polymerase II lacking the fourth and seventh largest subunits (pol II delta 4/7) was purified from Saccharomyces cerevisiae strain rpb-4, in which the gene for the fourth largest subunit is deleted. pol II delta 4/7 was indistinguishable from wild-type pol II (holoenzyme) in promoter-independent initiation/chain elongation activity (400-800 nmol of nucleotide incorporated/10 min/mg of protein at 22 degrees C), in rate of chain elongation (20-25 nucleotides/s), and in the recognition of pause sites in the DNA template. In contrast to pol II holoenzyme, pol II delta 4/7 was inactive in promoter-directed initiation of transcription in vitro. The addition of an equimolar complex of the fourth and seventh largest subunits, purified from pol II holoenzyme by ion-exchange chromatography in the presence of urea, restored promoter-directed initiation activity to pol II delta 4/7. The transcriptional activator protein Gal4-VP16 could also elicit promoter-directed initiation by pol II delta 4/7 from a promoter with a Gal4 binding site. Complementation was observed between extracts of strain rpb-4, lacking the fourth largest subunit, and strain Y260-1, with a defect in the largest subunit. These extracts were individually inactive, but a mixture would support promoter-directed initiation. The fourth and seventh largest subunits may, therefore, shuttle between polymerase molecules.
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PMID:Two dissociable subunits of yeast RNA polymerase II stimulate the initiation of transcription at a promoter in vitro. 198 24

Human T-cell leukemia virus types I (HTLV-I) and II (HTLV-II) have two nonstructural trans-acting regulatory genes, tax and rex, located in the 3' region of the viral genome. The tax gene product (HTLV-I p40tax and HTLV-II p37tax) is the transcriptional activator of the viral long terminal repeat. The rex gene encodes two protein products, p27rex/p21rex and p26rex/p24rex in HTLV-I and HTLV-II, respectively. Rex acts posttranscriptionally to facilitate accumulation of full-length gag/pol and singly spliced env mRNA in the cytoplasm of HTLV-infected cells. Previous studies showed that the first ATG of the rex gene is critical for Rex production and function. The importance of the internal ATGs to Rex function is not known. However, in vitro mutagenesis of the HTLV-I rex gene has provided indirect evidence which suggests that p21rex, and by analogy HTLV-II p24rex, results from initiation at an internal AUG of the tax/rex mRNA. By using an infectious molecular clone of HTLV-II, we investigated the importance of the internal ATGs of the rex gene on Rex protein production and function. Our results indicate that p24rex of HTLV-II is not initiated at an internal AUG and that the internal methionine codons are not crucial to the function of the rex gene and, ultimately, the transforming properties of the virus.
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PMID:The internal methionine codons of human T-cell leukemia virus type II rex gene are not required for p24rex production or virus replication and transformation. 239 33

Gene expression of human T-cell leukemia virus type 1 (HTLV-1) is regulated by two trans-acting factors encoded by the pX region, p40tax and p27tax.p40tax is a transcriptional activator and p27rex is a post-transcriptional regulator. Using full-length viral DNA, we studied the regulatory effects of rex on HTLV-1 gene expression. p27rex is required for expression of both gag and env proteins, increasing the level of their mRNAs. The effect was dependent on the dose of p27rex expression plasmid. In parallel, increased doses of p27rex suppressed the expression of fully spliced pX mRNA, which encodes the regulatory proteins. These two effects of p27rex operated at the post-transcriptional level and were independent of transcriptional regulation. Lowering the level of pX mRNA down-regulates transcription of the proviral genome. These observations demonstrate that rex is a positive post-transcriptional regulator for gag, pol and env protein expression, and acts at the same time as an indirect negative regulator of viral transcription.
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PMID:Post-transcriptional regulator (rex) of HTLV-1 initiates expression of viral structural proteins but suppresses expression of regulatory proteins. 283 30

Fli-1, an ets related gene, was found to be rearranged in 75% of erythroleukemias induced by Friend murine leukemia virus. We have shown previously that the Fli-1 gene codes for a sequence specific transcriptional activator which contains two autonomous transcriptional activation domains, one at the amino terminal region and the other at the carboxy terminal region. Recently human Fli-1 gene was shown to be involved in Ewing's sarcoma and related subtypes of primitive neuroectodermal tumors which share t(11;22) (q24;q12) chromosome translocation. In these tumors the carboxyl terminal region of Fli-1 was found to be fused with the amino terminal region of a putative RNA binding protein, EWS. Because part of the amino terminal transcriptional activation domain of Fli-1 was replaced with the amino terminal domain of the EWS (NTD-EWS) which shares homology with RNA polymerase II, it was speculated that NTD-EWS may interfere with RNA pol II function. Alternatively, NTD-EWS could also contribute to the transcriptional activation function of EWS/Fli-1 chimeric protein by providing either a modulatory/regulatory domain or a novel transcriptional activation domain. Here we show that EWS/Fli-1 chimeric protein functions as a transcriptional activator. Deletion analysis reveals that the EWS domain functions as a modulatory/regulatory domain for the transcriptional activation properties of the carboxy terminal transcriptional activation domain of EWS/Fli-1. We therefore propose that replacement of the amino terminal transcriptional activation domain of the Fli-1 protein with the regulatory domain of NTD-EWS results in the activation of the carboxy terminal transcriptional activation domain of Fli-1 which may be the molecular mechanism involved in these human tumors.
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PMID:EWS/Fli-1 chimeric protein is a transcriptional activator. 750 13

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

The core promoter of the human DNA beta-polymerase (beta-pol) gene is regulated by proteins binding at 3 GC boxes and the single activating transcription factor/cAMP response element (ATF/CRE) centered at -45; the central 8 residues of this ATF/CRE match the ATF/CRE consensus sequence, TGACGTCA. Previously, we purified a beta-pol promoter ATF/CRE-binding protein (named palindrome-binding protein or PBP) from bovine testes and found that this protein is a beta-pol promoter transcriptional activator in vitro using a HeLa nuclear extract transcription system (Widen, S. G., and Wilson, S. H. (1991) Biochemistry 30, 6296-6305). In this study, we determined the mechanism of in vitro transcriptional activation by this purified PBP. We used a PBP-depleted HeLa nuclear extract transcription system with an artificial promoter containing a solitary activator element corresponding to the entire 22-nucleotide beta-pol promoter ATF/CRE-binding site. Kinetic analyses of the 180-nucleotide run-off product formation indicated that stimulation of transcriptional activity by PBP was due entirely to an increase in the rate constant for promoter clearance. Thus, under our conditions, the purified PBP had no effect on the rate of closed preinitiation complex formation or for the closed complex to open complex transition. Instead, the rate of productive initiation leading to the 180-nucleotide transcript was stimulated by PBP. We found that the rate of closed preinitiation complex formation was not in rapid equilibrium with promoter and RNA polymerase II, in contrast to the model with prokaryotic RNA polymerase transcription. The results also indicated that PBP binding to the ATF/CRE is required for the stimulation of promoter clearance. These studies define the kinetic mechanism of a purified ATF/CRE-binding protein in stimulation of the in vitro transcription of a designed mammalian promoter.
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PMID:RNA polymerase II transcription. Rate of promoter clearance is enhanced by a purified activating transcription factor/cAMP response element-binding protein. 817 88

Tax protein of the human T-cell lymphotropic virus type 1 (HTLV-I) is critical for viral replication and is a potent transcriptional activator of viral and cellular polymerase II (pol II) genes. We report here that Tax is able to transactivate a classical pol III promoter, VA-I. In cotransfection experiments, Tax is shown to increase transcription of the VA-I promoter approximately 25-fold. Moreover, Tax is able to activate VA-I transcription when added exogenously to an in vitro transcription reaction. Using Tax affinity column chromatography, we demonstrate that Tax is able to deplete a HeLa cell extract for components required for transcription of VA-I. The transcriptional activity of the Tax-depleted extract can be restored by the 0.6 phosphocellulose fraction. Interestingly, a consensus binding site for cAMP-responsive element binding protein (CREB) is located upstream of the VA-I promoter, and deletion of this element results in the loss of Tax responsiveness. When this CREB binding site is replaced by a Gal-4 binding site, the VA-I promoter can be transactivated by a Gal4-Tax fusion protein. Taken together, these results suggest that Tax may activate pol III and pol II promoter through a similar mechanism involving the CREB activation pathway. It is also possible that Tax affects pol III transcription by direct interaction with a component of the pol III transcriptional machinery.
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PMID:Human T-cell leukemia virus type I Tax protein transactivates RNA polymerase III promoter in vitro and in vivo. 870 91

A human RNA polymerase II (pol II) complex was isolated from a HeLa-derived cell line that conditionally expresses an epitope-tagged RPB9 subunit of human pol II. The isolated FLAG-tagged pol II complex (f:pol II) contains a subset of general transcription factors but is devoid of TFIID and TFIIA. In conjunction with TATA-binding protein (TBP) or TFIID, f:pol II is able to mediate both basal and activated transcription by Gal4-VP16 when a transcriptional coactivator PC4 is also provided. Interestingly, PC4, in the absence of a transcriptional activator, actually functions as a repressor to inhibit basal transcription. Remarkably, TBP is able to mediate activator function in this transcription system. The presence of TBP-associated factors, however, helps overcome PC4 repression and further enhance the level of activation mediated by TBP. Alleviation of PC4 repression can also be achieved by preincubation of the transcriptional components with the DNA template. Sarkosyl disruption of preinitiation complex formation further illustrates that PC4 can only inhibit transcription prior to the assembly of a functional preinitiation complex. These results suggest that PC4 represses basal transcription by preventing the assembly of a functional preinitiation complex, but it has no effect on the later steps of the transcriptional process.
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PMID:Properties of PC4 and an RNA polymerase II complex in directing activated and basal transcription in vitro. 957 7

Eukaryotic transcriptional activators may function, at least in part, to facilitate the assembly of the RNA polymerase II (pol II) preinitiation complex at the core promoter region through their interaction with a subset of components of the basal transcription machinery. Previous studies have shown that artificial tethering of TATA-binding protein (TBP) to the promoter region is sufficient to stimulate pol II transcription in yeast. To test whether this phenomenon is a general one in eukaryotic pol II transcription, the DNA-binding domain of yeast GAL4 was fused to either Xenopus laevis TBP or TFIIB in order to enable these factors to be efficiently positioned near the transcription start site in a GAL4-binding site-dependent manner. We found that GAL4-xTBP as well as GAL4-xTFIIB directed an increased level of transcription without involvement of the transcriptional activator, suggesting that incorporation of these basal factors into a preinitiation complex (PIC) is a major rate-limiting step accelerated by activator proteins in metazoans. These results show that transcription activation by artificial recruitment of basal transcription machinery can be observed in general among eukaryotic transcription both in vivo and in vitro. Furthermore, failure of recovery of transcription by adding GAL4-xTFIIB after depletion of endogenous TBP with TATA oligo competitor suggests that recruitment of TBP cannot be bypassed for Pol II transcription.
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PMID:Recruitment of TBP or TFIIB to a promoter proximal position leads to stimulation of RNA polymerase II transcription without activator proteins both in vivo and in vitro. 1006 20

Werner syndrome (WS) is a human progeroid syndrome characterized by the early onset of a large number of clinical features associated with the normal aging process. The complex molecular and cellular phenotypes of WS involve characteristic features of genomic instability and accelerated replicative senescence. The gene involved (WRN) was recently cloned, and its gene product (WRNp) was biochemically characterized as a helicase. Helicases play important roles in a variety of DNA transactions, including DNA replication, transcription, repair, and recombination. We have assessed the role of the WRN gene in transcription by analyzing the efficiency of basal transcription in WS lymphoblastoid cell lines that carry homozygous WRN mutations. Transcription was measured in permeabilized cells by [3H]UTP incorporation and in vitro by using a plasmid template containing the RNA polymerase II (RNA pol II)-dependent adenovirus major late promoter. With both of these approaches, we find that the transcription efficiency in different WS cell lines is reduced to 40-60% of the transcription in cells from normal individuals. This defect can be complemented by the addition of normal cell extracts to the chromatin of WS cells. Addition of purified wild-type WRNp but not mutated WRNp to the in vitro transcription assay markedly stimulates RNA pol II-dependent transcription carried out by nuclear extracts. A nonhelicase domain (a direct repeat of 27 amino acids) also appears to have a role in transcription enhancement, as revealed by a yeast hybrid-protein reporter assay. This is further supported by the lack of stimulation of transcription when mutant WRNp lacking this domain was added to the in vitro assay. We have thus used several approaches to show a role for WRNp in RNA pol II transcription, possibly as a transcriptional activator. A deficit in either global or regional transcription in WS cells may be a primary molecular defect responsible for the WS clinical phenotype.
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PMID:The Werner syndrome protein is involved in RNA polymerase II transcription. 1043 20

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