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)

Recent evidence suggests that transcription initiation by all three eukaryotic RNA polymerases involves a complex of the TATA-binding protein (TBP) and multiple TBP-associated factors (TAFs). Here, we map the functional domains of the nucleolar HMG box protein hUBF, which binds to the human rRNA promoter and stimulates transcription by RNA polymerase I through cooperative interactions with a distinct TBP-TAF complex, hSL1. DNase I footprint analysis of mutant hUBF proteins and of a synthetic peptide of 84 amino acids reveals that HMG box 1 is necessary and sufficient for DNA sequence specificity, whereas other HMG boxes and the amino terminus modulate the binding efficiency. hUBF contains multiple activation domains that include the acidic carboxyl terminus and three HMG boxes. HMG boxes 3 and 4 and the acidic tail contribute significantly to an extended footprinting pattern in the presence of hSL1, suggestive of specific protein-protein interactions. Moreover, the inability of xUBF from Xenopus laevis to form an initiation complex with hSL1 can be overcome by hybrid proteins containing human HMG box 4 and the acidic carboxyl terminus. These results strongly suggest an important role of transcription activation domains of hUBF in mediating interactions with the TBP-TAF complex hSL1.
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PMID:Multiple domains of the RNA polymerase I activator hUBF interact with the TATA-binding protein complex hSL1 to mediate transcription. 139 72

The ubiquitous human POU domain protein, Oct-1, and the related B-cell protein, Oct-2, regulate transcription from a variety of eukaryotic genes by binding to a common cis-acting octamer element, 5'-ATTTGCAT-3'. The binding of Oct-1 and Oct-2 to the functionally important lipoprotein lipase (LPL) promoter octamer site was stimulated by the general transcription factor, TFIIB. Comparative analysis of the LPL, histone H2B (H2B), and herpes simplex virus ICPO gene promoter octamer sites revealed that nucleotide sequences within and flanking the octamer sequence determined the degree of TFIIB-mediated stimulation of Oct-1 DNA binding. TFIIB was found to decrease the rate of dissociation of Oct-1 from the LPL octamer site, whereas it increased the rate of association, as well as decreased the rate of dissociation, of Oct-1 from the H2B octamer site. A monoclonal antibody against TFIIB immunoprecipitated a ternary complex containing TFIIB, Oct-1, and the LPL and H2B octamer binding sites. TFIIB did not alter the DNase I footprints generated by Oct-1 on the LPL and H2B promoters. However, Oct-1 on the TATA-binding protein and TFIIB from footprinting the perfect TATA box sequence located 5' of the LPL, NF-Y binding site. In transfection experiments, transcription from the reporters containing the LPL octamer, and either the SV40 or the yeast transcription factor GAL4-dependent enhancers, initiated at a precise position within the octamer sequence. Transcription from reporters containing the H2B octamer and the SV40 enhancer initiated at several positions within and flanking the octamer site, whereas transcription initiated at a precise position within the octamer from reporters with both the H2B octamer and the GAL4-dependent enhancer. These results suggest that octamers and their flanking sequences play an important role in positioning the site of transcription initiation, and that this could be a function of the interaction of Oct-1 with TFIIB.
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PMID:Interaction of Oct-1 with TFIIB. Implications for a novel response elicited through the proximal octamer site of the lipoprotein lipase promoter. 764 49

One of the important regulatory concepts to emerge from studies of eukaryotic gene expression is that RNA polymerase II promoters and their upstream activators are composed of functional modules whose synergistic action regulates the transcriptional activity of a nearby gene. Biochemical analysis of synergy by ZEBRA, a non-acidic activator of the Epstein-Barr virus (EBV) lytic cycle, showed that the synergistic transcriptional effect of promoter sites and activation modules correlates with assembly of the TFIID:TFIIA (DA) complex in DNase I footprinting and gel shift assays. The activator-dependent DA complex differs from a basal DA complex by its ability to bind TFIIB stably in an interaction regulated by TATA-binding protein-associated factors (TAFs). TFIIB enhances the degree of synergism by increasing complex stability. Similar findings were made with the acidic activator GAL4-VP16. Our data suggest a unifying mechanism for gene activation and synergy by acidic and non-acidic activators, and indicate that synergy is manifested at the earliest stage of preinitiation complex assembly.
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PMID:A general mechanism for transcriptional synergy by eukaryotic activators. 767 13

A core promoter element called an initiator (Inr) overlaps the transcription start site of numerous mammalian protein-coding genes. In promoters that lack a TATA box, the Inr is functionally analogous to TATA, in that it is capable of directing basal transcription by RNA polymerase II and of determining the precise site of transcription initiation. In promoters that contain a TATA box, the Inr can greatly enhance promoter strength. Mammalian Inr consensus sequences have been defined through functional studies and sequence comparisons of the start site regions of protein-coding genes. Here, we show that, in a DNase I footprinting assay with synthetic promoters, the purified TATA-binding protein complex TFIID specifically contacted the Inr. The TFIID-Inr interaction relies on the precise nucleotides needed for Inr function. Detection of the interaction was dependent either on a TATA box or on Sp1 bound to upstream sites. Furthermore, recombinant TFIIB appeared to influence the TFIID-Inr interaction, whereas TFIIA stabilized the TFIID-TATA interaction. These results demonstrate that distinct components of TFIID interact with the TATA boxes and Inr elements of core promoters for RNA polymerase II.
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PMID:Direct recognition of initiator elements by a component of the transcription factor IID complex. 792 70

TATA-binding protein (TBP)-associated factors (TAFs) in TFIID are required for activator proteins to stimulate transcription, but the mechanism by which TAFs function is poorly understood. To study how TAFs participate in transcriptional activation by the Epstein-Barr virus activator Zta, we used agarose gel electrophoresis and DNase I footprinting to compare transcription complex assembly in reactions with either TFIID or TBP in the presence and absence of wild-type Zta or a deletion of Zta lacking its activation domain. A stable complex of promoter DNA with Zta, TFIIA, and TFIID rapidly formed on a template with Zta-binding sites. Zta stimulation of stable complex formation required TAFs as well as the Zta activation domain and TFIIA. The Zta activation domain also induced a TAF-dependent DNA-protein interaction near and downstream of the transcription star site. Stable complexes formed within 1 min supported activated transcription when RNA polymerase II and the remaining general transcription factors were subsequently added. This rapid assembly of a stable Zta-TFIIA-TFIID-promoter complex is probably a significant component of the mechanism by which TAFs and the Zta activation domain cooperate to stimulate transcription.
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PMID:A mechanism for TAFs in transcriptional activation: activation domain enhancement of TFIID-TFIIA--promoter DNA complex formation. 792 93

Transcriptional activator proteins stimulate the formation of a preinitiation complex that may be distinct from a basal-level transcription complex in its composition and stability. Components of the general transcription factors that form activator-dependent stable intermediates were determined by the use of Sarkosyl and oligonucleotide challenge experiments. High-level transcriptional activation by the Epstein-Barr virus-encoded Zta protein required an activity in the TFIID fraction that is distinct from the TATA-binding protein (TBP) and the TBP-associated factors. This additional activity copurifies with and is likely to be identical to the previously defined coactivator, USA (M. Meisterernst, A. L. Roy, H. M. Lieu, and R. G. Roeder, Cell 66:981-994, 1991). The formation of a stable preinitiation complex intermediate resistant to Sarkosyl required the preincubation of the promoter DNA with Zta, holo-TFIID (TBP and TBP-associated factors), TFIIB, TFIIA, and the coactivator USA. The formation of a Zta response element-resistant preinitiation complex required the preincubation of promoter DNA with Zta, holo-TFIID, TFIIB, and TFIIA. Agarose gel electrophoretic mobility shift showed that a preformed Zta-holo-TFIID-TFIIA complex was resistant to Sarkosyl and to Zta response element oligonucleotide challenge. DNase I footprinting suggests that only Zta, holo-TFIID, and TFIIA make significant contacts with the promoter DNA. These results provide functional and physical evidence that the Zta transcriptional activator influences at least two distinct steps in preinitiation complex assembly, the formation of the stable holo-TFIID-TFIIA-promoter complex and the subsequent binding of TFIIB and a USA-like coactivator.
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PMID:Identification of functional targets of the Zta transcriptional activator by formation of stable preinitiation complex intermediates. 796 71

The general transcription factors (TF) IIB and TFIIA are the first factors to associate with the TATA-binding protein (TBP) during formation of a transcription initiation complex on RNA polymerase II promoters. DNase I footprint titration was used to measure the effects of TFIIB and TFIIA on binding of TBP to a consensus TATA box. Under reaction conditions optimized for TBP-DNA complex formation, the presence of TFIIB increased affinity of TBP for the TATA box by 2.5-fold, while TFIIA had no effect. When TBP binding conditions were sub-optimal, both TFIIB and TFIIA independently increased TBP affinity by approximately 10-fold. Therefore both TFIIB and TFIIA have the intrinsic ability to directly increase the affinity of TBP for the TATA box. We suggest that this property of TFIIA and TFIIB may increase the range of conditions under which high affinity TBP-DNA interactions can occur and may therefore favor the formation of the preinitiation complex.
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PMID:Transcription factor (TF) IIB and TFIIA can independently increase the affinity of the TATA-binding protein for DNA. 813 51

The human cytomegalovirus major immediate-early gene encodes several protein isoforms which autoregulate the major immediate-early promoter (MIEP). One of these isoforms, the IE86 protein, represses the MIEP through a DNA sequence located between the TATA box and the transcription initiation site, designated the cis repression signal (crs). Through mutational analysis, amino acid domains within IE86 responsible for binding the crs element were located at the C terminus. Mutation of the putative zinc finger domain, which precluded IE86 from binding DNA, converted the protein from a repressor of MIEP transcription into an activator. DNase I protection analysis demonstrated that the IE86 footprint overlapped the sequence protected by the TATA-binding protein (TBP). Investigation of whether IE86 was able to displace TBP from DNA revealed that both proteins could bind DNA simultaneously. However, higher concentrations of IE86 were required to obtain protection of the crs element in the presence of prebound TBP. Similarly, higher concentrations of TBP were required to obtain protection in the presence of prebound IE86. These observations indicate that steric hinderance impairs but does not prevent both proteins from binding DNA synchronously.
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PMID:Direct interaction of the human cytomegalovirus IE86 protein with the cis repression signal does not preclude TBP from binding to the TATA box. 839 62

An activity that modulated the relative levels of transcription from the adenovirus major late promoter (MLP), and the immunoglobulin heavy chain mu promoter (mu) was purified as a 90-kDa factor. This factor is suggested to be a heterotetramer of two subunits: a 20-kDa polypeptide identical to the previously described Dr1/p19 and a novel 30-kDa polypeptide. The Dr1/p19 protein has been characterized as a repressor of transcription, and the 30-kDa protein is related to a recently identified yeast gene proposed to encode a repressor of transcription. The 90-kDa factor forms a complex with TATA-binding protein on DNA and at high concentrations of both factors protects over a 150-base pair region around the promoter from DNase I cleavage. The conformation of this complex as assayed by footprinting analysis is altered by the transcription factor TFIIA on the MLP but not on the mu promoter. Similarly, TFIIA reverses the repression of transcription by the 90-kDa factor on the MLP but not on the mu promoter. Thus, the interactions of TATA-binding protein, TFIIA, and the 90-kDa factor are promoter-specific.
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PMID:A negative cofactor containing Dr1/p19 modulates transcription with TFIIA in a promoter-specific fashion. 870 84

We reported previously that cell-free transcription in the Archaea Methanococcus and Pyrococcus depends upon two archaeal transcription factors, archaeal transcription factor A (aTFA) and archaeal transcription factor B (aTFB). In the genome of Pyrococcus genes encoding putative homologues of eucaryal transcription factors TATA-binding protein (TBP) and TFIIB have been detected. Here, we report that Escherichia coli synthesized Pyrococcus homologues of TBP and TFIIB are able to replace endogenous aTFB and aTFA in cell-free transcription reactions. Antibodies raised against archaeal TBP and TFIIB bind to polypeptides of identical molecular mass in the aTFB and aTFA fraction. These data identify aTFB as archaeal TBP and aTFA as the archaeal homologue of TFIIB. At the Pyrococcus glutamate dehydrogenase (gdh) promoter these two bacterially produced transcription factors and endogenous RNA polymerase are sufficient to direct accurate and active initiation of transcription. DNase I protection experiments revealed Pyrococcus-TBP producing a characteristic footprint between position -20 and -34 centered around the TATA box of gdh promoter. Pyrococcus-TFIIB did not bind to the TATA box but bound cooperatively with Pyrococcus-TBP generating an extended DNase I footprinting pattern ranging from position -19 to -42. These data suggest that the Pyrococcus homologue of TFIIB associates with the TBP-promoter binary complex as its eucaryal counterpart, but in contrast to eucaryal TFIIB, it causes an extension of the protection to the region upstream of the TATA box.
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PMID:Two transcription factors related with the eucaryal transcription factors TATA-binding protein and transcription factor IIB direct promoter recognition by an archaeal RNA polymerase. 893 64


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