Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 human T-cell lymphotropic virus type 1 (HTLV-1) is the etiological agent for adult T-cell leukemia and tropical spastic paraparesis/HTLV-1-associated myelopathy. The HTLV-1 Tax1 gene product has been shown to transactivate transcription of viral and cellular promoters. To examine the biochemical mechanism of Tax1 transactivation, we have developed an in vitro transactivation assay in which wild-type Tax1 is able to specifically transactivate a polymerase II promoter through upstream Tax1-responsive elements. The in vitro system utilizes the HTLV-1 21-bp repeats cloned upstream of the ovalbumin promoter and G-free cassette. Purified Tax1 specifically transactivates this template 5- to 10-fold in a concentration-dependent manner. No transactivation of the ovalbumin promoter (pLovTATA) template control was observed. Tax1 transactivation was inhibited by low concentrations of alpha-amanitin and was effectively neutralized by anti-Tax1 but not control sera. Consistent with in vivo transactivating activity, Tax1 NF-kappa B mutant M22, but not cyclic AMP-responsive element-binding protein mutant M47, transactivated the template containing the tandem 21-bp repeat. In a reconstituted in vitro transcription assay, Tax1 transactivation was dependent upon basal transcription factors TFIIB, TFIIF, Pol II, TFIID, and TFIIA. TATA-binding protein did not functionally substitute for TFIID in the transactivation assay by Tax1 but was sufficient for basal transcription. Finally, we have used anti-TFIIA antibody (p55) to ask if Tax1 transactivation required TFIIA activity. Addition of TFIIA antibody to in vitro transcription reactions, as well as depletion of TFIIA by preclearing with antibody, showed that TFIIA was required for Tax1 transactivation. Only a slight (twofold) drop of basal transcription was observed. Tax1 transactivation was restored when purified HeLa TFIIA was added back into the reconstituted system. We propose that Tax1 utilizes a transactivation pathway involving the activator regulated basal transcription factors TFIID and TFIIA.
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PMID:Transactivation of the human T-cell lymphotropic virus type 1 Tax1-responsive 21-base-pair repeats requires Holo-TFIID and TFIIA. 760 77

cAMP response element-binding protein (CREB) participates in both constitutive and cAMP-induced transcription of cAMP-responsive genes. CREB-mediated constitutive transcription requires only CREB-binding sites and a minimal promoter region (containing the TATA through start sequences), indicating that CREB interacts directly with components of the general transcription machinery. In this study, a coimmunoprecipitation assay was used to test for interaction of CREB with the general transcription factors (TF) TFIIB and TFIID and the core component of TFIID, TATA-binding protein (TBP). Human TFIIB and TBP, tagged with distinct epitopes (eTFIIB and eTBP), were expressed in and purified from Escherichia coli, and holo-eTFIID, containing eTBP, was obtained from the HeLa cell line LTR alpha 3. 35S-Labeled CREB, synthesized in vitro and incubated with eTFIIB, was coimmunoprecipitated with antibody recognizing eTFIIB, indicating that CREB specifically binds to TFIIB. 35S-CREB was coimmunoprecipitated with antibody against eTBP, but only when incubated with the holo-eTFIID complex, not with eTBP alone. TFIIB interacted with TBP, but CREB was not coprecipitated with the eTBP antibody when incubated with eTBP plus TFIIB, so CREB did not form a stable ternary complex with TFIIB and TBP. Conversely, depletion of TFIIB from the holo-TFIID preparation did not diminish the level of interaction between CREB and TFIID. Thus, CREB interacts independently with TFIIB and TFIID, but not directly with TBP. A protein kinase A phosphorylation site mutant of CREB and wild-type CREB exhibited equivalent interaction with TFIIB, indicating that this phosphorylation is not required. Consistent with the role of CREB in promoting constitutive or basal transcription, the constitutive activation domain of CREB was sufficient for interaction with both TFIIB and TFIID.
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PMID:cAMP response element-binding protein (CREB) interacts with transcription factors IIB and IID. 761 53

Although the mechanisms of transcriptional regulation by RNA polymerase II are apparently highly conserved from yeast to man, the identification of a yeast TATA-binding protein (TBP)-TBP-associated factor (TAFII) complex comparable to the metazoan TFIID component of the basal transcriptional machinery has remained elusive. Here, we report the isolation of a yeast TBP-TAFII complex which can mediate transcriptional activation by GAL4-VP16 in a highly purified yeast in vitro transcription system. We have cloned and sequenced the genes encoding four of the multiple yeast TAFII proteins comprising the TBP-TAFII multisubunit complex and find that they are similar at the amino acid level to both human and Drosophila TFIID subunits. Using epitope-tagging and immunoprecipitation experiments, we demonstrate that these genes encode bona fide TAF proteins and show that the yeast TBP-TAFII complex is minimally composed of TBP and seven distinct yTAFII proteins ranging in size from M(r) = 150,000 to M(r) = 25,000. In addition, by constructing null alleles of the cloned TAF-encoding genes, we show that normal function of the TAF-encoding genes is essential for yeast cell viability.
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PMID:Identification and characterization of a TFIID-like multiprotein complex from Saccharomyces cerevisiae. 766 72

Transcriptional activation of target genes by the human progesterone receptor is thought to involve direct or indirect protein-protein interactions between the progesterone receptor and general transcription factors. A key role in transcription plays the general factors. A key role in transcription plays the general transcription factor TFIID, a multiprotein complex consisting of the TATA-binding protein and several tightly associated factors (TAFs). TAFs have been shown to be required for activated transcription and are, thus, potential targets of activator proteins. Using in vitro interaction assays, we could identify specific interactions between the progesterone receptor and the TATA-binding protein-associated factor dTAFII110. The dTAFII110 domain responsible for the interaction is distinct from that reported to suffice for binding to Sp1. Somewhat surprisingly, deletion analysis indicated that the previously identified activation functions 1 and 2 of the progesterone receptor are not required for this interaction but pointed to an important role of the DNA binding domain. In cotransfection experiments and an in vitro transcription assay, the DNA binding domain of the progesterone receptor displayed significant activation potential. These findings, taken together, suggest that an interaction between the progesterone receptor and TAFII110 may represent an important step in the mechanism of activation.
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PMID:Identification of a transactivation function in the progesterone receptor that interacts with the TAFII110 subunit of the TFIID complex. 767 70

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

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

Basal transcription by human RNA polymerase II requires the coordinate action of several ancillary factors (TFIIA-J) and can be regulated by various promoter-specific DNA binding proteins. An additional class of factors, called coactivators, are dispensable for basal transcription but are indispensable for regulation by transcriptional activators. Biochemical studies established that some coactivators are associated with the TATA-binding protein (TBP) to form the TFIID complex. We therefore set out to define the relationship between TBP and these TBP-associated factors (TAFs). Here we describe the cloning, expression and properties of the first human TAF, hTAFII250. The hTAFII250 gene is identical to a gene, CCG1, (ref 7,8), implicated in cell-cycle progression. Recombinant hTAFII250 binds directly to TBP both in vitro and in yeast, and participates in the formation of the TFIID complex. This largest TAF may therefore play a central role in TFIID assembly by interacting with both TBP and other TAFs, as well as serving to link the control of transcription to the cell cycle.
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PMID:Cloning and expression of human TAFII250: a TBP-associated factor implicated in cell-cycle regulation. 768 Jul 71

Two multisubunit complexes containing the TATA-binding protein (TBP) were isolated from HeLa cells constitutively expressing the FLAG epitope-tagged TBP using antibody affinity and peptide elution methods. One of the complexes (f:TFIID), isolated from the P11 0.85 M KCl fraction, contains at least 13 specific TBP-associated factors (TAFs) and can mediate activator-dependent transcription by RNA polymerase II. Importantly, activator function through the highly purified f:TFIID complex still requires a general cofactor fraction containing upstream factor stimulatory activity (USA). As previously observed with partially purified activator-competent natural TFIID, f:TFIID generates extended TATA-dependent footprints on the intrinsically strong adenovirus major late promoter (MLP) but only restricted footprints on the weak adenovirus E1b and E4 and HIV (core) promoters. Along with previous demonstrations of activator-induced downstream TFIID interactions on the E4 promoter, these results argue for a relationship between downstream interactions and overall promoter strength. Initiator-like sequences appear not to be essential for downstream interactions since they have no effect on downstream MLP interactions when mutated, do not effect downstream interactions on the HIV promoter and are not present on the inducible E4 promoter. The other multisubunit complex (f:TFIIIB), isolated from the P11 0.30 M KCl fraction, contains four specific TAFs and can substitute for one of the fractions (TFIIIB) required for RNA polymerase III (pol III) transcription. Neither f:TFIID nor TBP could substitute for this pol III TBP-containing fraction. This plus the fact that f:TFIIIB failed to generate a footprint on the MLP underscores the importance of TAFs in determining promoter specificity by different RNA polymerases.
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PMID:Unique TATA-binding protein-containing complexes and cofactors involved in transcription by RNA polymerases II and III. 768 40

Expression of human immunodeficiency virus type 1 (HIV-1) genes is regulated by the trans activator Tat. Tat exerts its effects by increasing the rate of transcription, but the mechanism by which it does so is still unknown. To study the cellular factors required for Tat trans activation, we have expressed functional Gst-Tat fusion protein and used it to construct affinity columns. Our findings are as follows. (i) A Gst-Tat affinity matrix depleted HeLa nuclear extracts of a factor(s) required for Tat function. A Tat mutant bearing the missense mutation lysine to alanine at position 41 was incapable of this depletion. (ii) Tat trans activation was recovered by addition of unfractionated nuclear extract, the 0.5 M KCl elution fraction from the Tat affinity column, or sedimentation gradient fractions of HeLa extracts. The activity from the gradients sedimented with an apparent molecular mass of 200 kDa. (iii) Tat trans activation could not be recovered by use of recombinant human TATA-binding protein or partially purified TFIID. (iv) trans activation by Tat was blocked by heating of the nuclear extract under conditions in which basal transcription was not decreased. Our data demonstrate for the first time the existence of unique Tat coactivators distinct from factors required for general basal transcription.
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PMID:Transcriptional trans activation by human immunodeficiency virus type 1 Tat requires specific coactivators that are not basal factors. 770 38

Eukaryotic transcriptional activators may stimulate RNA polymerase II activity by promoting assembly of preinitiation complexes on promoters through their interactions with one or more components of the basal machinery. On the basis of its central role in initiating transcription-complex formation upon binding to the TATA box, the general transcription factor TFIID, which includes the TATA-binding protein (TBP) and several TBP-associated factors, has been implicated as a target for activators. Consistent with this idea, an increasing number of activators have been reported to bind directly to TBP. To assess the functional importance of these in vitro interactions for transcriptional regulation in vivo, we made use of a novel strategy in yeast to show that a physical interaction with TBP is sufficient for a sequence-specific DNA-binding protein to increase initiation of transcription by RNA polymerase II. These results imply that binding of TFIID to promoter elements is a limiting step in transcription complex assembly in vivo.
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PMID:Stimulation of RNA polymerase II transcription initiation by recruitment of TBP in vivo. 772 29


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