UNIPROT:P20226 - FACTA Search

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Query: UNIPROT:P20226 (TATA-binding protein)
1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the requirement for TBP (TATA-binding protein) in transcription mediated by RNA polymerase III (pol III) in fractionated HeLa cell extracts. Two activities, TFIIIB and TFIIIC, found in phosphocellulose fractions PC B and PC C respectively, have been defined as necessary and sufficient, with pol III, for in vitro transcription of tRNA genes. Depletion of TBP from PC B, using antibodies raised against human TBP, is shown to inhibit the pol III transcriptional activity of the fraction. Furthermore, TBP is present in fractions with human TFIIIB activity, and a proportion of TBP cofractionates with TFIIIB over four chromatographic purification steps. TFIIIB fractions are capable of supplying TBP in the form necessary for pol III transcription, and cannot be substituted by fractions containing other TBP complexes or TBP alone. The use of a 5S RNA gene and two tRNA templates supports the general relevance of our findings for pol III gene transcription. Purified TFIIIB activity can also support pol II-mediated transcription, and is found in a complex of approximately 230kD, suggesting that TFIIIB may be the same as the previously characterized B-TFIID complex (1,2). We suggest that transcription by the three RNA polymerases is mediated by distinct TBP-TAF complexes: SL1 and D-TFIID for pol I and pol II respectively, and TFIIIB for pol III.
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PMID:Cofractionation of the TATA-binding protein with the RNA polymerase III transcription factor TFIIIB. 146 21

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

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

The multisubunit transcription factor TFIID is an essential component of the RNA polymerase II initiation apparatus. Recent studies suggest that TFIID subunits, or TAFs associated with the TATA-binding protein (TBP), play a critical role in modulating transcriptional activation by sequence-specific DNA-binding factors. Thus far, six of the largest TAFs associated with Drosophila TFIID have been cloned and partially characterized. Here, we report the molecular cloning, expression, and subunit interaction specificities of two small molecular mass TAFs. Both dTAFII30 alpha and dTAFII30 beta are associated with TFIID via interactions with other TAFs, including dTAFII250, dTAFII150, and dTAFII110. In addition, dTAFII30 alpha also contacts dTBP. The carboxy-terminal half of dTAFII110 was found to contact a short 67-amino-acid region of dTAFII30 alpha, which is predicted to form two potential alpha-helices, one of which is amphipathic. Interestingly, dTAFII30 alpha also appears to multimerize through its carboxy-terminal region. Although neither dTAFII30 alpha nor dTAFII30 beta have been found to interact with specific activators thus far, it is intriguing that both bind other TAFs such as dTAFII110 and dTAFII150, which are the targets of activation domains. Our studies suggest that both of the small subunits of TFIID play a role in the assembly of the complex and may contribute to the stability of multiple TAF-TAF interactions.
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PMID:Molecular cloning and characterization of dTAFII30 alpha and dTAFII30 beta: two small subunits of Drosophila TFIID. 827 41

Here we show that the TATA-binding protein (TBP) is localized in the nucleoplasm and in the nucleolus of mammalian cells, consistent with its known involvement in transcription by RNA polymerase I, II, and III. In the nucleolus of actively growing cells, TBP colocalizes with upstream binding factor (UBF) and RNA polymerase I at the sites of rRNA transcription. During mitosis, when rRNA synthesis is down-regulated, TBP colocalizes with TBP-associated factors for RNA polymerase I (TAF(I)s), UBF, and RNA polymerase I on the chromosomal regions containing the rRNA genes. Treatment of cells with a low concentration of actinomycin D inhibits rRNA synthesis and causes a redistribution of the rRNA genes that become concentrated in clusters at the periphery of the nucleolus. A similar redistribution was observed for the major components of the rRNA transcription machinery (i.e., TBP, TAF(I)s, UBF, and RNA polymerase I), which still colocalized with each other. Furthermore, anti-TBP antibodies are shown to coimmunoprecipitate TBP and TAF(I)63 in extracts prepared from untreated and actinomycin D-treated cells. Collectively, the data indicate that in vivo TBP/promoter selectivity factor, UBF, and RNA polymerase I remain associated with both active and inactive rRNA genes.
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PMID:In vivo evidence that TATA-binding protein/SL1 colocalizes with UBF and RNA polymerase I when rRNA synthesis is either active or inactive. 860 57

We describe the cloning and analysis of TAF25, a previously uncharacterized yeast gene that encodes a yeast TATA-binding protein-associated factor or yTAF of Mr = 25,000. The gene encoding yTAF25 is a single copy essential gene, and the protein sequence deduced from TAF25 exhibits sequence similarity to a metazoan hTAFII. The results from immunological studies confirm that yTAF25 is a subunit of a large multiprotein TATA-binding protein-yeast TATA-binding protein-associated factor complex that contains a subset of the total number of the yTAFs present in yeast cell extracts. Both genetic and biochemical analyses demonstrate that yTAF25 can interact directly with itself. Transcriptional data show that the activity of the multiprotein complex containing yTAF25 is RNA polymerase II-specific, thus indicating that TAF25 encodes a bona fide yeast RNA polymerase II TAF. Hence the protein encoded by TAF25 has been termed yTAFII25.
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PMID:Isolation and characterization of TAF25, an essential yeast gene that encodes an RNA polymerase II-specific TATA-binding protein-associated factor. 866 25

An unusual property of ribosomal gene transcription is its marked species specificity. This results from distinct promoter-recognition properties of the RNA polymerase I transcription apparatus. The purification and functional characterization of TIF-IB/SL1, a promoter-recognition factor containing the TATA-binding protein, as well as the recent cloning of cDNAs encoding the three subunits (TAF(I)s) of the respective human and mouse factor, will facilitate the molecular analysis of the mechanisms underlying species-specific rDNA transcription and reveal how the basal transcriptional machinery has evolved.
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PMID:Species specificity of transcription by RNA polymerase I. 866 54

The control of gene expression during development, differentiation and maintenance of cellular function is governed by a complex array of transcription factors. We have undertaken a molecular dissection of the regulatory factors that direct transcription of protein coding genes by RNA polymerase II. Our early studies identified sequence-specific transcriptional activators that bind to enhancer and promoter sequences to modulate the transcriptional initiation event. However, the mechanism by which activators enhance transcription and mediate promoter selectivity remained unknown. Combining biochemical purification and in vitro assays, we have recently identified an essential class of transcription factors called TAFs that are tightly associated with the basal factor TBP (TATA-binding protein). We have found that TAFs are responsible for at least two regulatory functions. Some TAFs serve as coactivators capable of binding activators and mediating enhancing function. Other TAFs have been shown to confer template selectivity by binding directly to core DNA elements of the promoter. Thus different subunits of TBP/TAF complexes perform a variety of functions critical for transcriptional regulation in animal cells.
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PMID:The biochemistry of transcription in eukaryotes: a paradigm for multisubunit regulatory complexes. 873 71

The RNA polymerase II general transcription factor TFIID is a multisubunit complex comprising TATA-box binding protein and associated factors (TAFIIs). In vitro experiments have suggested that TAFIIs are essential coactivators required for RNA polymerase II-directed transcription activation. Here, for the first time, we analyze systematically the in vivo function of a specific TAFII, yeast TAFII90 (yTAFII90). We show that functional inactivation of yTAFII90 by temperature-sensitive mutations or depletion leads to arrest at the G2/M phase of the cell cycle. Unexpectedly, in the absence of functional yTAFII90, a variety of endogenous yeast genes were all transcribed normally, including those driven by well-characterized activators. Taken together, our results indicate that yTAFII90 is not required for transcription activation in general, and reveal linkages between TAF function and cell-cycle progression.
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PMID:Yeast TAF(II)90 is required for cell-cycle progression through G2/M but not for general transcription activation. 882 95

TFIID is the main sequence-specific DNA-binding component of the RNA polymerase II (Pol II) transcriptional machinery. It is a multiprotein complex composed of the TATA-binding protein (TBP) and TBP-associated factors (TAF(II)s). Here we report the cloning and characterization of a novel human TBP-associated factor, hTAF(II)68. It contains a consensus RNA-binding domain (RNP-CS) and binds not only RNA, but also single stranded (ss) DNA. hTAF(II)68 shares extensive sequence similarity with TLS/FUS and EWS, two human nuclear RNA-binding pro-oncoproteins which are products of genes commonly translocated in human sarcomas. Like hTAF(II)68, TLS/FUS is also associated with a sub-population of TFIID complexes chromatographically separable from those containing hTAF(II)68. Therefore, these RNA and/or ssDNA-binding proteins may play specific roles during transcription initiation at distinct promoters. Moreover, we demonstrate that hTAF(II)68 co-purifies also with the human RNA polymerase II and can enter the preinitiation complex together with Pol II.
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PMID:hTAF(II)68, a novel RNA/ssDNA-binding protein with homology to the pro-oncoproteins TLS/FUS and EWS is associated with both TFIID and RNA polymerase II. 889 Jan 75

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