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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Artificial recruitment of
TATA-binding protein
(
TBP
) to many eukaryotic promoters bypasses DNA-bound activator function. The human immunodeficiency virus type 1 (HIV-1) Tat is an unconventional activator that up-regulates transcription from the HIV-1 long terminal repeat (LTR) through binding to a nascent RNA sequence, TAR. Because this LTR and its cognate activator have atypical features compared to a standard RNA polymerase II (RNAP II) transcriptional unit, the precise limiting steps for HIV-1 transcription and how Tat resolves these limitations remain incompletely understood. We thus constructed human
TBP
fused
to the DNA-binding domain of GAL4 to determine whether recruitment of
TBP
is one rate-limiting step in HIV-1 LTR transcription and whether Tat functions to recruit
TBP
. As a control, we compared the activity of the adenovirus E1b promoter. Our findings indicate that
TBP
tethering to the E1b promoter fully effected transcription to the same degree achievable with the potent GAL4-VP16 activator. By contrast,
TBP
recruitment to the HIV-1 LTR, although necessary for conferring Tat responsiveness, did not bypass a physical need for Tat in achieving activated transcription. These results document that the HIV-1 and the E1b promoters are transcriptionally limited at different steps; the major rate-limiting step for E1b is recruitment of
TBP
, while activation of the HIV-1 LTR requires steps in addition to
TBP
recruitment. We suggest that Tat acts to accelerate rate-limiting steps after
TBP
recruitment.
...
PMID:Promoter activity of Tat at steps subsequent to TATA-binding protein recruitment. 937 21
Induction of gene expression by the papillomavirus E2 protein requires its approximately 220-amino-acid amino-terminal transactivation domain (TAD) to interact with cellular factors that lead to formation of an activated RNA polymerase complex. These interaction partners have yet to be identified and characterized. The E2 protein localizes the transcription complex to the target promoter through its carboxy-terminal sequence-specific DNA binding domain. This domain has been reported to bind the basal transcription factors
TATA-binding protein
and TFIIB. We present evidence establishing a direct interaction between amino acids 74 to 134 of the E2 TAD and TFIIB. Within this region, the E2 point mutant N127Y was partially defective and W99C was completely defective for TFIIB binding in vitro, and these mutants displayed reduced or no transcriptional activity, respectively, upon transfection into C33A cells. Overexpression of TFIIB specifically restored transactivation by N127Y to close to wild-type levels, while W99C remained inactive. To further demonstrate the functional interaction of TFIIB with the wild-type E2 TAD, this region was
fused
to a bacterial DNA binding domain (LexA:E2:1-216). Upon transfection with increasing amounts of LexA:E2:1-216, there was reduction of its transcriptional activity, a phenomenon thought to result from titration of limiting factors, or squelching. Squelching of LexA:E2:1-216, or the wild-type E2 activator, was partially relieved by overexpression of TFIIB. We conclude that a specific region of the E2 TAD functionally interacts with TFIIB.
...
PMID:Functional interaction of the bovine papillomavirus E2 transactivation domain with TFIIB. 944 94
Eukaryotic transcriptional activators may function, at least in part, to facilitate the assembly of the RNA polymerase II (pol II) preinitiation complex at the core promoter region through their interaction with a subset of components of the basal transcription machinery. Previous studies have shown that artificial tethering of
TATA-binding protein
(
TBP
) to the promoter region is sufficient to stimulate pol II transcription in yeast. To test whether this phenomenon is a general one in eukaryotic pol II transcription, the DNA-binding domain of yeast GAL4 was
fused
to either Xenopus laevis
TBP
or TFIIB in order to enable these factors to be efficiently positioned near the transcription start site in a GAL4-binding site-dependent manner. We found that GAL4-xTBP as well as GAL4-xTFIIB directed an increased level of transcription without involvement of the transcriptional activator, suggesting that incorporation of these basal factors into a preinitiation complex (PIC) is a major rate-limiting step accelerated by activator proteins in metazoans. These results show that transcription activation by artificial recruitment of basal transcription machinery can be observed in general among eukaryotic transcription both in vivo and in vitro. Furthermore, failure of recovery of transcription by adding GAL4-xTFIIB after depletion of endogenous
TBP
with TATA oligo competitor suggests that recruitment of
TBP
cannot be bypassed for Pol II transcription.
...
PMID:Recruitment of TBP or TFIIB to a promoter proximal position leads to stimulation of RNA polymerase II transcription without activator proteins both in vivo and in vitro. 1006 20
TATA-binding protein
(
TBP
) forms complexes with various nuclear proteins and plays roles in all eukaryotic transcription. We previously identified TBP-interacting protein 120 (TIP120) from rat liver. TIP120 stimulates in vitro transcription generally. Homologs of TIP120 exist in various higher eukaryotes including D. melanogaster, C. elegans, and A. thaliana. Here, we isolated cDNA of a novel rat TIP120-like protein, named TIP120B. Rat TIP120B was composed of 1,235 amino acids and was 60% identical to the original TIP120 (re-named TIP120A). However, TIP120B gene was expressed specifically in the muscle tissues, which was contrary to the ubiquitous expression of TIP120A. Moreover, TIP120B protein was observed exclusively in the muscle tissues. TIP120B is therefore suggested to be a muscle-specific protein. Northern blot analysis of the mouse embryo revealed that the expression of TIP120B was temporarily increased during the embryogenesis, whereas TIP120A maintained a constant expression level. Pull-down assay using GST-
fused
TBP
demonstrated that
TBP
specifically associated with TIP120B in the nuclear extract. These results indicate that TIP120B is a muscle-specific TIP120 family protein and can also interact with
TBP
. TIP120B is supposed to have a specific role in muscle tissues, which may be diffrerent from that of TIP120A.
...
PMID:TIP120B: a novel TIP120-family protein that is expressed specifically in muscle tissues. 1044 24
Tissue-specific expression of the alpha-subunit gene of glycoprotein hormones involves an enhancer element designated the pituitary glycoprotein basal element, which interacts with the LIM homeodomain transcription factor, Lhx2. In the present studies we have explored the function of the LIM domain of Lhx2 in stimulating alpha-subunit transcription. When
fused
to the GAL4 DNA-binding domain, the LIM domain of Lhx2 was shown to contain a transcriptional activation domain. Furthermore, in the context of an alpha-subunit reporter gene in which a GAL4-binding site replaced the pituitary glycoprotein basal element, the LIM domain enhanced both basal and Ras-mediated transcription. In addition, a synergistic response to Ras activation was observed when the Lhx2 LIM domain and the transactivation domain of Elk1 are directed to a minimal reporter gene. A yeast two-hybrid screen identified the recently described melanocyte-specific gene-related gene 1 (MRG1) as an Lhx2 LIM-interacting protein. MRG1 was shown to bind Lhx2 in vitro, and a co-immunoprecipitation assay provided evidence that endogenous MRG1 forms a complex with Lhx2 in alphaT3-1 cells. Expression of MRG1 in alphaT3-1 cells enhanced alpha-subunit reporter gene activity. MRG1 was also shown to bind in vitro to the
TATA-binding protein
and the transcriptional coactivator, p300. These data suggest a model in which the Lhx2 LIM domain activates transcription through interaction with MRG1 leading to recruitment of p300/CBP and the
TATA-binding protein
.
...
PMID:MRG1 binds to the LIM domain of Lhx2 and may function as a coactivator to stimulate glycoprotein hormone alpha-subunit gene expression. 1059
In the present study we present a new method that allows for the selection of protein interactions in mammalian cells. We have used this system to verify two interactions previously characterized in vitro. (1) The interaction between human
TATA-binding protein
1 and nuclear factor kappaB and (2) the association of Homo sapiens nuclear autoantigen SP100B with human heterochromatin protein 1alpha, a protein implicated in chromatin remodelling. We observe for the first time that these interactions also occur in vivo. One protein was
fused
to the N-terminal half of ubiquitin, while the interacting partner was
fused
to the C-terminal half of ubiquitin, that was itself linked to guanine phosphoryltransferase 2 (gpt2) modified to begin with an arginine residue. Upon interaction of both proteins, ubiquitin is reconstituted, and its association with the Rgpt2 reporter is subsequently cleaved off by ubiquitin-processing enzymes. The presence of arginine in the Rgpt2 gene product leads to the degradation of the product by the N-end rule pathway. In the human fibroblast cell line HT1080HPRT(-) (that is deficient in the enzyme for hypoxanthine-guanine phosphoribosyltransferase) cells in which interaction between both proteins of interest occurs can then be selected for by hypoxanthine/aminopterin/thymine medium and counterselected against by 6-thioguanine medium. This method provides a suitable alternative to the yeast two-hybrid system and is generally applicable.
...
PMID:A new method for the selection of protein interactions in mammalian cells. 1083 90
We attempted to devise a transcription system in which a particular DNA sequence of interest could be inducibly expressed under the control of a modified polymerase III (pol III) promoter. Its activation requires a mutated transcription factor not contained endogenously in human cells. We constructed such a promoter by fusing elements of the beta-lactamase gene of Escherichia coli, containing a modified TATA-box and a pol III terminator, to the initiation region of the human U6 gene. This construct functionally resembles a 5'-regulated pol III gene and its transcribed segment can be exchanged for an arbitrary sequence. Its transcription in vitro by pol III requires the same factors as the U6 gene with the major exception that the modified TATA-box of this construct only interacts with a
TATA-binding protein
(
TBP
) mutant (TBP-DR2) but not with
TBP
wild-type (TBPwt). Its transcription therefore requires
TBP
-DR2 exclusively instead of TBPWT: In order to render the system inducible, we
fused
the gene coding for
TBP
-DR2 to a tetracycline control element and stably transfected this new construct into HeLa cells. Induction of such a stable and viable clone with tetracycline resulted in the expression of functional
TBP
-DR2. This system may conceptually be used in the future to inducibly express an arbitrary DNA sequence in vivo under the control of the above mentioned promoter.
...
PMID:Development of an inducible pol III transcription system essentially requiring a mutated form of the TATA-binding protein. 1129 39
A typical eukaryotic promoter consists of a minimal promoter and other upstream cis elements. The minimal promoter is essentially a TATA box region where RNA polymerase II,
TATA-binding protein
(
TBP
), and
TBP
-associated factors (TAFs) bind to initiate transcription, but minimal promoters alone have no transcriptional activity. The cis elements, to which tissue-specific or development-specific transcription factors bind, individually or in combination, determine the spatio-temporal expression pattern of a promoter at the transcriptional level. The arrangement of upstream cis elements followed by a minimal promoter sets the polarity of the promoter. Promoters in plants that have been cloned and widely used for both basic research and biotechnological application are generally unidirectional, directing only one gene that has been
fused
at its 3' end (downstream). It is often necessary to introduce multiple genes into plants for metabolic engineering and trait stacking. It is also desirable to minimize or avoid repeated use of a single promoter that may cause transcriptional gene silencing. Here we describe a strategy to make polar promoters bidirectional so that one promoter can direct the expression of two genes, one on each end of the promoter.
...
PMID:Bidirectionalization of polar promoters in plants. 1143 82
We isolated a novel gene encoding a zinc finger protein from Xenopus laevis, designated NZFP that interacts with the
TATA-binding protein
(
TBP
). NZFP contains a highly conserved sequence designated finger associated box (FAX) and SUMO-1 consensus-binding motifs at the N-terminal half and 10 C2H2 type zinc finger motifs at the C-terminal half, respectively. Deletion mutants of NZFP
fused
with the Gal4 DNA binding domain were used to determine the function of NZFP during gene transcription by transfecting them into a Xenopus kidney cell line. Both full-length NZFP and the FAX domain repressed transcription activity by 3-5-fold. Moreover, an in vitro pull-down assay showed that the C-terminal core domain of
TBP
makes direct contact with the N-terminal portion of NZFP. We also found through chromatin immunoprecipitation experiments that the interaction between NZFP and
TBP
inhibits binding of TFIIA and TFIIB. These data strongly suggest that the repression by NZFP occurs through its binding to both DNA and
TBP
and the resulting NZFP-
TBP
-promoter complex inhibits preinitiation complex assembly by preventing binding of TFIIA and TFIIB.
...
PMID:A novel TBP-interacting zinc finger protein represses transcription by inhibiting the recruitment of TFIIA and TFIIB. 1278 93
As a critical step of the preinitiation complex assembly in transcription, the general transcription factor TFIIB forms a complex with the
TATA-box binding protein
(
TBP
) bound to a promoter element. Transcriptional activators such as the herpes simplex virus VP16 facilitate this complex formation through conformational activation of TFIIB, a focal molecule of transcriptional initiation and activation. Here, we used fluorescence resonance energy transfer to investigate conformational states of human TFIIB
fused
to enhanced cyan fluorescent protein and enhanced yellow fluorescent protein at its N- and C-terminus, respectively. A significant reduction in fluorescence resonance energy transfer ratio was observed when this fusion protein, hereafter named CYIIB, was mixed with promoter-loaded
TBP
. The rate for the TFIIB-
TBP
-DNA complex formation is accelerated drastically by GAL4-VP16 and is also dependent on the type of promoter sequences. These results provide compelling evidence for a 'closed-to-open' conformational change of TFIIB upon binding to the
TBP
-DNA complex, which probably involves alternation of the spatial orientation between the N-terminal zinc ribbon domain and the C-terminal conserved core domain responsible for direct interactions with
TBP
and a DNA element.
...
PMID:FRET evidence for a conformational change in TFIIB upon TBP-DNA binding. 1476 96
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