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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 Rad25 protein in yeast is a DNA helicase and a subunit of the general transcription factor TFIIH. While in vitro studies have led to the hypothesis that TFIIH helicase activity plays a role in promoter melting, in vivo tests are lacking. Using potassium permanganate, which preferentially modifies single-stranded DNA, we show that a temperature-sensitive rad25(ts) mutant severely reduces the normally extensive promoter melting observed in vivo on the highly expressed genes TDH2 and PDC1 and on the induced heat shock gene HSP82. Loss of promoter melting can be observed in as little as 30 s after a shift to the nonpermissive temperature and is accompanied by a dramatic reduction in transcription. These effects on the promoter are specific, since the mutation does not affect TATA box occupancy or, in the case of HSP82, recruitment of
TATA-binding protein
to the TATA element or that of heat shock factor to heat shock elements. Additionally, using the technique of formaldehyde cross-linking coupled with restriction endonuclease cleavage and ligation-mediated PCR, we were able to map the polymerase density on the promoter of HSP82. This high-resolution mapping allowed us to determine that the polymerase II (
Pol
II) density on the promoter is also dramatically reduced after inactivation of TFIIH. These data provide strong support for the hypothesis that TFIIH functions with
Pol
II in the transcriptionally required step of promoter melting and show, surprisingly, that the extent of TFIIH-dependent promoter melting observed in vivo is several times larger than that seen in vitro.
...
PMID:Transcription factor TFIIH is required for promoter melting in vivo. 1040 54
In yeast cells, transcriptional activation occurs when the RNA polymerase II (
Pol
II) machinery is artificially recruited to a promoter by fusing individual components of this machinery to a DNA-binding domain. Here, we show that artificial recruitment of components of the TFIID complex can activate transcription in mammalian cells. Surprisingly, artificial recruitment of
TATA-binding protein
(
TBP
) activates transiently transfected and chromosomally integrated promoters with equal efficiency, whereas artificial recruitment of
TBP
-associated factors activates only chromosomal reporters. In contrast, artificial recruitment of various components of the mammalian
Pol
II holoenzyme does not confer transcriptional activation, nor does it result in synergistic activation in combination with natural activation domains. In the one case examined in more detail, the Srb7 fusion failed to activate despite being associated with the
Pol
II holoenzyme and being directly recruited to the promoter. Interestingly, some acidic activation domains are less effective when the promoter is chromosomally integrated rather than transiently transfected, whereas the Sp1 glutamine-rich activation domain is more effective on integrated reporters. Thus, yeast and mammalian cells differ with respect to transcriptional activation by artificial recruitment of the
Pol
II holoenzyme.
...
PMID:Artificial recruitment of TFIID, but not RNA polymerase II holoenzyme, activates transcription in mammalian cells. 1082 98
The tumor suppressor protein p53 is frequently inactivated in tumors. It functions as a transcriptional activator as well as a repressor for a number of viral and cellular promoters transcribed by RNA polymerase II (
Pol
II) and by RNA
Pol
III. Moreover, it appears that p53 also suppresses RNA
Pol
I transcription. In this study, we examined the molecular mechanism of
Pol
I transcriptional inhibition by p53. We show that wild-type, but not mutant, p53 can repress
Pol
I transcription from a human rRNA gene promoter in cotransfection assays. Furthermore, we show that recombinant p53 inhibits rRNA transcription in a cell-free transcription system. In agreement with these results, p53-null epithelial cells display an increased
Pol
I transcriptional activity compared to that of epithelial cells that express p53. However, both cell lines display comparable
Pol
I factor protein levels. Our biochemical analysis shows that p53 prevents the interaction between SL1 and UBF. Protein-protein interaction assays indicate that p53 binds to SL1, and this interaction is mostly mediated by direct contacts with
TATA-binding protein
and TAF(I)110. Moreover, template commitment assays show that while the formation of a UBF-SL1 complex can partially relieve the inhibition of transcription, only the assembly of a UBF-SL1-
Pol
I initiation complex on the rDNA promoter confers substantial protection against p53 inhibition. In summary, our results suggest that p53 represses RNA
Pol
I transcription by directly interfering with the assembly of a productive transcriptional machinery on the rRNA promoter.
...
PMID:Repression of RNA polymerase I transcription by the tumor suppressor p53. 1091 76
Metazoans possess two
TATA-binding protein
homologs, the general transcription factor TBP and a related factor called TLF. Four models have been proposed for the role of TLF in RNA polymerase II (
Pol
II) transcription: (1) TLF and TBP function redundantly, (2) TLF antagonizes TBP, (3) TLF is a tissue-specific TBP, or (4) TLF and TBP have distinct activities. Here we report that CeTLF is required to express a subset of
Pol
II genes and associates with at least one of these genes in vivo. CeTLF is also necessary to establish bulk transcription during early embryogenesis. Since CeTLF and CeTBP are expressed at comparable levels in the same cells, these findings suggest CeTLF performs a unique function in activating
Pol
II transcription distinct from that of CeTBP.
...
PMID:The TBP-like factor CeTLF is required to activate RNA polymerase II transcription during C. elegans embryogenesis. 1103 Mar 49
Preinitiation complex assembly is nucleated by the binding of TFIID to the promoters of protein coding genes transcribed by RNA polymerase II. TFIID is comprised of the
TATA-binding protein
(
TBP
) and
TBP
-associated factors (TAF(II)s). We investigated the transcription properties of
TBP
and TFIID on chromatin templates. On naked templates both
TBP
and purified TFIID are able to initiate basal transcription. However, on chromatin templates only
TBP
mediates transcription initiation in a heat-treated extract, whereas TFIID does not. Moreover,
TBP
-mediated chromatin transcription is blocked in a nontreated extract. These observations suggest that a chromatin-targeted repressor is present in crude extracts and that chromatin per se is not refractory to transcription mediated by
TBP
. As
TBP
can function through TAF(II)-independent and TAF(II)-dependent pathways, the repression of
TBP
-mediated basal transcription may be an additional level to the control of
Pol
II transcription initiation on chromatin.
...
PMID:Chromatin is permissive to TATA-binding protein (TBP)-mediated transcription initiation. 1127 78
RNA polymerase III (
Pol
III) synthesizes various small RNA species, including the tRNAs and the 5 S ribosomal RNA, which are involved in protein synthesis. Here, we describe the regulation of human
Pol
III transcription in response to sustained cell cycle arrest. The experimental system used is a cell line in which cell cycle arrest is induced by the regulated expression of the tumor suppressor protein p53. We show that the capacity of cells to carry out
Pol
III transcription from various promoter types, when tested in vitro, is severely reduced in response to sustained p53-mediated cell cycle arrest. Furthermore, this effect does not appear to be due to direct inhibition by p53. By using complementation assays, we demonstrate that a subcomponent of the
Pol
III transcription factor IIIB, which contains the proteins
TATA-binding protein
and TAF3B2, is the target of repression. Moreover, we reveal that TAF3B2 levels are markedly reduced in extracts from cell cycle-arrested cells because of a decrease in TAF3B2 protein stability. These findings provide a novel mechanism of
Pol
III regulation and yield insights into how cellular biosynthetic capacity and growth status can be coordinated.
...
PMID:A role for TAF3B2 in the repression of human RNA polymerase III transcription in nonproliferating cells. 1128 26
NC2 (Dr1-Drap1 or Bur6-Ydr1) has been characterized in vitro as a general negative regulator of RNA polymerase II (
Pol
II) transcription that interacts with
TATA-binding protein
(
TBP
) and inhibits its function. Here, we show that NC2 associates with promoters in vivo in a manner that correlates with transcriptional activity and with occupancy by basal transcription factors. NC2 rapidly associates with promoters in response to transcriptional activation, and it remains associated under conditions in which transcription is blocked after assembly of the
Pol
II preinitiation complex. NC2 positively and negatively affects approximately 17% of Saccharomyces cerevisiae genes in a pattern that resembles the response to general environmental stress. Relative to
TBP
, NC2 occupancy is high at promoters where NC2 is positively required for normal levels of transcription. Thus, NC2 is associated with the
Pol
II preinitiation complex, and it can play a direct and positive role at certain promoters in vivo.
...
PMID:Yeast NC2 associates with the RNA polymerase II preinitiation complex and selectively affects transcription in vivo. 1128 53
Following transcription and processing, eukaryotic mRNAs are exported from the nucleus to the cytoplasm for translation. Here we present evidence that mRNAs are targeted for nuclear export cotranscriptionally. Combined mutations in the Saccharomyces cerevisiae hnRNP Npl3 and
TATA-binding protein
(
TBP
) block mRNA export, implying that cotranscriptional recruitment of Npl3 is required for efficient export of mRNA. Furthermore, Npl3 can be found in a complex with RNA
Pol
II, indicating that Npl3 associates with the transcription machinery. Finally, Npl3 is recruited to genes in a transcription dependent manner as determined by chromatin immunoprecipitation. Another mRNA export factor, Yra1, also associates with chromatin cotranscriptionally but appears to be recruited at a later step. Taken together, our results suggest that export factors are recruited to the sites of transcription to promote efficient mRNA export.
...
PMID:Messenger RNAs are recruited for nuclear export during transcription. 1145 27
In addition to directing transcription initiation, core promoters integrate input from distal regulatory elements. Except for rare exceptions, it has been generally found that eukaryotic tRNA and rRNA genes do not contain TATA promoter elements and instead use protein-protein interactions to bring the
TATA-binding protein
(
TBP
), to the core promoter. Genomewide analysis revealed TATA elements in the core promoters of tRNA and 5S rRNA (
Pol
III), U1 to U5 snRNA (
Pol
II), and 37S rRNA (
Pol
I) genes in Schizosaccharomyces pombe. Using tRNA-dependent suppression and other in vivo assays, as well as in vitro transcription, we demonstrated an obligatory requirement for upstream TATA elements for tRNA and 5S rRNA expression in S. pombe. The
Pol
III initiation factor Brf is found in complexes with TFIIIC and
Pol
III in S. pombe, while
TBP
is not, consistent with independent recruitment of
TBP
by TATA. Template commitment assays are consistent with this and confirm that the mechanisms of transcription complex assembly and initiation by
Pol
III in S. pombe differ substantially from those in other model organisms. The results were extended to large-rRNA synthesis, as mutation of the TATA element in the
Pol
I promoter also abolishes rRNA expression in fission yeast. A survey of other organisms' genomes reveals that a substantial number of eukaryotes may use widespread TATAs for transcription. These results indicate the presence of TATA-unified transcription systems in contemporary eukaryotes and provide insight into the residual need for
TBP
by all three Pols in other eukaryotes despite a lack of TATA elements in their promoters.
...
PMID:Widespread use of TATA elements in the core promoters for RNA polymerases III, II, and I in fission yeast. 1156 71
The Saccharomyces cerevisiae Paf1-RNA polymerase II (
Pol
II) complex is biochemically and functionally distinct from the Srb-mediator form of
Pol
II holoenzyme and is required for full expression of a subset of genes. In this work we have used tandem affinity purification tags to isolate the Paf1 complex and mass spectrometry to identify additional components. We have established that Ctr9, Rtf1, and Leo1 are factors that associate with Paf1, Cdc73, and
Pol
II, but not with the Srb-mediator. Deletion of either PAF1 or CTR9 leads to similar severe pleiotropic phenotypes, which are unaltered when the two mutations are combined. In contrast, we found that deletion of LEO1 or RTF1 leads to few obvious phenotypes, although mutation of RTF1 suppresses mutations in
TATA-binding protein
, alters transcriptional start sites, and affects elongation. Remarkably, deletion of LEO1 or RTF1 suppresses many paf1Delta phenotypes. In particular, an rtf1Delta paf1Delta double mutant grew faster, was less temperature sensitive, and was more resistant to caffeine and hydroxyurea than a paf1Delta single mutant. In addition, expression of the G(1) cyclin CLN1, reduced nearly threefold in paf1Delta, is restored to wild-type levels in the rtf1Delta paf1Delta double mutant. We suggest that lack of Paf1 results in a defective complex and a block in transcription, which is relieved by removal of Leo1 or Rtf1.
...
PMID:Ctr9, Rtf1, and Leo1 are components of the Paf1/RNA polymerase II complex. 1188 86
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