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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fractions obtained from HeLa cell extracts were used to study RNA polymerase III-catalyzed transcription from the human 7SK and mouse U6 RNA promoters in vitro. Although both genes depend on two almost identical core promoter elements (TATA box and
PSE
), different fractions were required. The 7SK promoter revealed full activity with the phosphocellulose B fraction alone. In contrast, efficient transcription from the U6 promoter depended on the additional presence of the C or D fraction. The analysis of the b1 and b2 subfractions (obtained by DEAE-Sephadex chromatography) revealed that for both promoters the b1 and the phosphocellulose D fraction were mutually interchangeable. However, while both fractions were fully equivalent for the 7SK promoter, the U6 promoter revealed an additional requirement for the C fraction in the presence of the b1 fraction. Since the b1 and the D fractions enclose two different complexes of the
TATA-binding protein
(
TBP
), B-TFIID and D-TFIID, our results indicate that functionally these two complexes are responsible for the observed differences in transcription of the 7SK and U6 genes.
...
PMID:The seemingly identical 7SK and U6 core promoters depend on different transcription factor complexes. 750 70
We have shown previously that under specific conditions, a TATA box will mediate efficient in vitro transcription by RNA polymerase (pol) III in the absence of a
PSE
or other promoter elements. The reaction requires a HeLa cell phosphocellulose protein fraction, fraction B, which must be preincubated with the template DNA. Fraction B does not contain any detectable pol II type transcription factor IID (TFIID) activity. In this report, the relationship between fraction B and TFIID was further examined. Purified human
TATA-binding protein
(
TBP
) can substitute for fraction B to mediate TATA-dependent pol III transcription. Both
TBP
and fraction B prefer a reverse TATA box for pol III transcription, yet
TBP
bound to a reverse TATA box functions poorly for pol II transcription. Like TFIID, fraction B forms a template-committed complex with TATA-containing promoters.
TBP
, however, will not template commit for pol III transcription unless premixed with phosphocellulose fraction C.
TBP
-mediated pol III transcription is also more sensitive to the detergent Sarkosyl (N-lauroylsarcosine, Sigma) than is the fraction B reaction unless it is premixed with fraction C. Together, the data suggest that
TBP
can complex with a component of fraction C, and this complex is then functionally equivalent to fraction B. We propose that fraction B contains
TBP
in a complex with some other component(s) of the pol III transcription machinery and that this B complex
TBP
may be specific for pol III transcription.
...
PMID:TATA box-mediated in vitro transcription by RNA polymerase III. Evidence for TATA-binding protein in a polymerase III type complex. 767 50
It has previously been reported that transcription in vivo of the tRNA(Sec) gene requires three promoter elements, a
PSE
and a TATA-box upstream of the coding region which are functionally interchangeable with the U6 snRNA gene counterparts and an internal B-block, resembling that of classical tRNA genes (1). We have established an in vitro transcription system from HeLa cells in which three factors, which are either essential for or stimulate transcription were identified. Apart from the
TATA-binding protein
TBP, the
PSE
-binding protein PBP was found to be essentially required for expression of the gene. Depletion of PBP from cell extracts by
PSE
-oligonucleotides abolished tRNA(Sec) transcription, which could be reconstituted by readdition of partially purified PBP. Addition of increasing amounts of recombinant human TBP to an S100 extract stimulated transcription of the tRNA(Sec), the mouse U6 snRNA and the human Y3 genes, an effect which was not observed in the case of a TATA-less tRNA gene. Purified human TFIIA strongly stimulated tRNA(Sec) transcription in a fashion depending on the concentration of TBP. Surprisingly, partially purified TFIIIC was shown to be dispensable for transcription in vitro and unable to bind the B-block of this gene in vitro, although its sequence matches the consensus for this element. Collectively, these data suggest that the mechanism by which transcription complexes are formed on the tRNA(Sec) gene is dramatically different from that observed for classical tRNA genes and much more resembles that observed for externally controlled pol III genes.
...
PMID:Transcription factors required for the expression of Xenopus laevis selenocysteine tRNA in vitro. 812 3
The human U1 and U6 genes have similar basal promoter structures. A first analysis of the factor requirements for the transcription of a human U1 gene by RNA polymerase II in vitro has been undertaken, and these requirements compared with those of human U6 gene transcription by RNA polymerase III in the same extracts. Fractions containing
PSE
-binding protein (PBP) are shown to be essential for transcription of both genes, and further evidence that PBP itself is required for U1 as well as U6 transcription is presented. On the other hand, the two genes have distinct requirements for
TATA-binding protein
(
TBP
). On the basis of chromatographic and functional properties, the
TBP
, or
TBP
complex, required for U1 transcription appears to differ from previously described complexes required for RNA polymerase I, II or III transcription. The different
TBP
requirements of the U1 and U6 promoters are reflected by specific association with either TFIIB or TFIIIB respectively, thus providing a basis for differential RNA polymerase selection.
...
PMID:Common and unique transcription factor requirements of human U1 and U6 snRNA genes. 825 82
Vertebrate U6 small nuclear RNA (snRNA) gene promoters are among the founding members of those recognized by RNA polymerase III in which all control elements for initiation are located in the 5'-flanking region. Previously, one human U6 gene (U6-1) has been studied extensively. We have identified a total of nine full-length U6 loci in the human genome. Unlike human U1 and U2 snRNA genes, most of the full-length U6 loci are dispersed throughout the genome. Of the nine full-length U6 loci, five are potentially active genes (U6-1, U6-2, U6-7, U6-8 and U6-9) since they are bound by
TATA-binding protein
and enriched in acetylated histone H4 in cultured human 293 cells. These five all contain OCT, SPH,
PSE
and TATA elements, although the sequences of these elements are variable. Furthermore, these five genes are transcribed to different extents in vitro or after transient transfection of human 293 cells. Of the nine full-length U6 loci, only U6-7 and U6-8 are closely linked and contain highly conserved 5'-flanking regions. However, due to a modest sequence difference in the proximal sequence elements for U6-7 and U6-8, these genes are transcribed at very different levels in transfected cells.
...
PMID:Multiple, dispersed human U6 small nuclear RNA genes with varied transcriptional efficiencies. 1271 79
