Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20226 (TATA-binding protein)
1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms of transcriptional activation directed by sequence-specific regulators is central to understanding gene regulation. Here, we report the isolation of coactivators responsible for mediating transcriptional activation by Gal4-Pro, a hybrid regulator containing the proline-rich activation domain of human CTF/NFI. Chromatographic studies indicate that endogenous human TFIID consists of a multisubunit complex containing the TATA-binding protein (TBP), coactivators, and other associated factors. A fraction containing the coactivator activity was separated from the endogenous TBP after disrupting the tightly associated complex with urea. The urea-purified TBP was active for basal level transcription but no longer could support activation by Gal4-Pro. However, when the two separated components were added together, activated levels of transcription were restored in the presence of Gal4-Pro. Immunoaffinity purification of the TFIID complex identifies several polypeptides specifically associated with the endogenous TBP, some or all of which function as coactivators when reconstituted with Gal4-Pro. The isolated coactivators also mediate activation by a chimeric glutamine-rich activator derived from Sp1 but not the Gal4-VP16 activator, suggesting distinct factor requirements for different types of transcriptional regulators.
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PMID:Coactivators for a proline-rich activator purified from the multisubunit human TFIID complex. 174 79

The general transcription factor TFIID is a multiprotein complex containing the TATA-binding protein and several associated factors (TAFs), some of which may function as coactivators that are essential for activated, but not basal, transcription. Here we describe the isolation and characterization of the first gene encoding a TAF protein. The deduced amino acid sequence of TAF110 revealed the presence of several glutamine- and serine/threonine-rich regions reminiscent of the protein-protein interaction domains of the regulatory transcription factor Sp1 that are involved in transcription activation and multimerization. In both Drosophila cells and yeast, TAF110 specifically interacts with the glutamine-rich activation domains of Sp1. Moreover, purified Sp1 selectively binds recombinant TAF110 in vitro. These findings taken together suggest that TAF110 may function as a coactivator by serving as a site of protein-protein contact between activators like Sp1 and the TFIID complex.
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PMID:Molecular cloning and functional analysis of Drosophila TAF110 reveal properties expected of coactivators. 767 80

TATA-binding protein (TBP) is a general transcription factor involved in transcriptional initiation. We have used oligonucleotide primers flanking a polymorphic stretch of 38 glutamine codons in the 5' coding region of the TBP gene to genetically map this gene. We report the location of the human TBP gene to be at 6qter.
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PMID:Mapping of the human TATA-binding protein gene (TBP) to chromosome 6qter. 769 28

Eukaryotic transcriptional activators have been classified on the basis of the characteristics of their activation domains. Acidic activation domains, such as those in the yeast GAL4 or GNC4 proteins and the herpes simplex virus activator VP16, stimulate RNA polymerase II transcription when introduced into a variety of eukaryotic cells. This species interchangeability demonstrates that the mechanism by which acidic activation domains function is highly conserved in the eukaryotic kingdom. To determine whether such a conservation of function exists for a different class of activation domain, we have tested whether the glutamine-rich activation domains of the human transcriptional activator Sp1 function in the yeast Saccharomyces cerevisiae. We report here that the glutamine-rich domains of Sp1 do not stimulate transcription in S. cerevisiae, even when accompanied by human TATA-box binding protein (TBP) or human-yeast TATA-box binding protein hybrids. Thus, in contrast to the case for acidic activation domains, the mechanism by which glutamine-rich domains stimulate transcription is not conserved between S. cerevisiae and humans.
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PMID:The glutamine-rich activation domains of human Sp1 do not stimulate transcription in Saccharomyces cerevisiae. 782 62

TFIID is a multisubunit protein complex comprised of the TATA-binding protein (TBP) and multiple TBP-associated factors (TAFs). The TAFs in TFIID are essential for activator-dependent transcription. The cloning of a complementary DNA encoding a human TFIID TAF, TAFII55, that has no known homolog in Drosophila TFIID is now described. TAFII55 is shown to interact with the largest subunit (TAFII230) of human TFIID through its central region and with multiple activators--including Sp1, YY1, USF, CTF, adenoviral E1A, and human immunodeficiency virus-type 1 Tat proteins--through a distinct amino-terminal domain. The TAFII55-interacting region of Sp1 was localized to its DNA-binding domain, which is distinct from the glutamine-rich activation domains previously shown to interact with Drosophila TAFII110. Thus, this human TFIID TAF may be a co-activator that mediates a response to multiple activators through a distinct mechanism.
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PMID:Cloning of an intrinsic human TFIID subunit that interacts with multiple transcriptional activators. 782 54

An amplification of tandem CAG trinucleotide sequences in DNA due to errors in DNA replication is involved in at least four hereditary neurodegenerative diseases. The CAG triplet repeats when translated into protein give rise to tracts of glutamine residues, which are a prominent feature of many transcription factors, including the TATA-binding protein of transcription factor TFIID. We have used a biotin-labeled, complementary peptide nucleic acid (PNA) to invade the CAG repeats in intact chromatin and then employed a method for the selective isolation of transcriptionally active chromatin restriction fragments containing the PNA.DNA hybrids. The PNA-containing chromatin fragments were captured on streptavidin-agarose magnetic beads and shown to contain all the CAG.PNA hybrids of the active chromatin fraction. DNA hybridization experiments using a DNA probe specific for unique sequences downstream of the CAG-tandem repeats confirmed that the PNA.DNA hybrids contained the transcribed gene for the TATA-binding protein. In contrast, no hybridization signal was detected with a DNA probe specific for the c-myc protooncogene, which is amplified and transcriptionally active in COLO 320DM cells but lacks CAG tandem repeats.
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PMID:Isolation of active genes containing CAG repeats by DNA strand invasion by a peptide nucleic acid. 789 96

Activation domains of mammalian transcription factors can be subdivided into at least two functional classes. One, exemplified by the glutamine-rich activation domains of Oct and Sp1 factors, mediates transcriptional activation only from a proximal promoter position, and in response to an enhancer. The other, exemplified by the 'acidic' domain of the viral activator VP16, has the ability to activate from remote enhancer as well as from proximal promoter positions. Here we report that two proteins of the basal transcription apparatus also contain activation domains whose stimulatory effect can be detected in fusion proteins containing the GAL4 DNA binding domain. The human TATA-binding protein (TBP) contains at its N-terminus a domain with typical 'promoter' activity. We propose that the TBP N-terminal region acts as an auxiliary activation domain which reinforces the activity of other promoter-bound factors. The largest subunit of RNA polymerase II contains at its C-terminus a conserved heptad repeat structure (CTD). Both natural and synthetic CTD consensus repeats fused to GAL4 can activate transcription from remote positions like a typical enhancer-active domain. Accordingly we propose that the RNA polymerase II large subunit contains a 'portable' domain for transcriptional activation which may synergize with the activation domains of enhancer-bound transcription factors.
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PMID:C-terminal domain (CTD) of RNA-polymerase II and N-terminal segment of the human TATA binding protein (TBP) can mediate remote and proximal transcriptional activation, respectively. 828 5

Host cell RNA polymerase II (Pol II)-mediated transcription is inhibited by poliovirus infection. This inhibition is correlated to a specific decrease in the activity of a chromatographic fraction which contains the transcription factor TFIID. To investigate the mechanism by which poliovirus infection results in a decrease of TFIID activity, we have analyzed a component of TFIID, the TATA-binding protein (TBP). Using Western immunoblot analysis, we show that TBP is cleaved in poliovirus-infected cells at the same time postinfection as when Pol II transcription is inhibited. Further, we show that one of the cleaved forms of TBP can be reproduced in vitro by incubating TBP with cloned, purified poliovirus encoded protease 3C. Protease 3C is a poliovirus-encoded protease that specifically cleaves glutamine-glycine bonds in the viral polyprotein. The cleavage of TBP by protease 3C occurs directly. Finally, incubation of an uninfected cell-derived TBP-containing fraction (TFIID) with protease 3C results in significant inhibition of Pol II-mediated transcription in vitro. These results demonstrate that a cellular transcription factor can be directly cleaved both in vitro and in vivo by a viral protease and suggest a role of the poliovirus proteinase 3C in host cell Pol II-mediated transcription shutoff.
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PMID:Direct cleavage of human TATA-binding protein by poliovirus protease 3C in vivo and in vitro. 838 Aug 94

Host cell RNA polymerase II-mediated transcription is inhibited by poliovirus infection. We have shown previously that the human TATA-binding protein (TBP), a general transcription factor required for transcription of all RNA polymerase II genes, is directly cleaved both in vitro and in vivo by the virus-coded protease 3CPro. 3CPro specifically cleaves glutamine-glycine bonds in the viral polyprotein. Cellular transcription factor TBP contains three glutamine-glycine sites, at amino acids 12, 18, and 108. By using site-directed mutagenesis, we determined that the glutamine-glycine bond at amino acid 18, but not that at amino acid 12 or 108, is cleaved by the viral protease. Both the glutamine and the glycine appear to be important for the cleavage. Further mutations around the glutamine-glycine site at position 18 suggest that determinants other than the glutamine-glycine bond in TBP are also required for 3CPro-induced cleavage. An alanine at position P4 and a proline at position P2, proximal to the scissile glutamine-glycine pair, appear to be important for 3CPro-mediated cleavage of TBP. Our results suggest that the cleavage specificity of 3CPro for a cellular transcription factor is very similar to its mode of cleavage of viral polyproteins.
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PMID:Identification of the cleavage site and determinants required for poliovirus 3CPro-catalyzed cleavage of human TATA-binding transcription factor TBP. 838 2

The expression of Epstein-Barr virus (EBV) nuclear antigen 3C (EBNA3C) is essential for the activation and immortalization of human B lymphocytes by EBV. EBNA3C consists of 992 amino acids and includes a potential bZIP motif and regions rich in acidic, proline, and glutamine residues. Thus, EBNA3C resembles several trans regulators of gene expression. It has recently been shown that a fragment of EBNA3C can activate reporter gene expression when fused to the DNA-binding domain of GAL4 (D. Marshall and C. Sample, J. Virol. 69:3624-3630,1995). Although EBNA3C binds DNA, a specific site for EBNA3C binding has not been identified; to test the ability of full-length EBNA3C to regulate transcription, EBNA3C (amino acids 11 to 992) was fused to the DNA-binding domain of GAL4. We show that this fusion protein does not transactivate but rather is a potent repressor of reporter gene expression. Repression is dependent on the dose of GAL4-EBNA3C and on the presence of GAL4-binding sites within reporter plasmids. Repression is not restricted to B cells nor is it species or promoter specific. Repression is independent of the location of the GAL4-binding sites relative to the transcription start site. A fragment of EBNA3C (amino acids 280 to 525) which represses expression in a manner which is nearly identical to that of the full-length protein has been identified; this fragment is rich in acidic and proline residues. A second, less potent repressor region located C terminal to amino acids 280 to 525 has also been identified; this domain is rich in proline and glutamine residues. We also show binding of EBNA3C, in vitro, to the TATA-binding protein component of TFIID, and this suggests a mechanism by which EBNA3C may communicate with the basal transcription complex.
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PMID:Epstein-Barr virus nuclear antigen 3C is a powerful repressor of transcription when tethered to DNA. 864 76


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