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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tumor suppressor protein p53 is a potent transcriptional activator and regulates cell growth negatively. To characterize the transcriptional activation domain (TAD) of p53, various point mutants were constructed in the context of Gal4 DNA binding domain and tested for their transactivation ability. Our results demonstrated that the positionally conserved hydrophobic residues shared with herpes simplex virus VP16 and other transactivators are essential for transactivation. Also, the negatively charged residues and proline residues are necessary for full activity, but not essential for the activity of p53 TAD. Deletion analyses showed that p53 TAD can be divided into two subdomains, amino acids 1-40 and 43-73. An in vitro
glutathione S-transferase
pull-down assay establishes a linear correlation between p53 TAD-mediated transactivation in vivo and the binding activity of p53 TAD to
TATA-binding protein
(
TBP
) in vitro. Mutations that diminish the transactivation ability of Gal4-p53 TAD also impair the binding activity to
TBP
severely. Our results suggest that at least
TBP
is a direct target for p53 TAD and that the binding strength of TAD to
TBP
(TFIID) is an important parameter controlling activity of p53 TAD. In addition, circular dichroism spectroscopy has shown that p53 TAD peptide lacks any regular secondary structure in solution and that there is no significant difference between the spectra of the wild type TAD and that of the transactivation deficient mutant type.
...
PMID:Transactivation ability of p53 transcriptional activation domain is directly related to the binding affinity to TATA-binding protein. 755 31
Simian virus 40 (SV40) large T antigen is a potent transcriptional activator of both viral and cellular promoters. Within the SV40 late promoter, a specific upstream element necessary for T-antigen transcriptional activation is the binding site for transcription-enhancing factor 1 (TEF-1). The promoter structure necessary for T-antigen-mediated transcriptional activation appears to be simple. For example, a promoter consisting of upstream TEF-1 binding sites (or other factor-binding sites) and a downstream TATA or initiator element is efficiently activated. It has been demonstrated that transcriptional activation by T antigen does not require direct binding to the DNA; thus, the most direct effect that T antigen could have on these simple promoters would be through protein-protein interactions with either upstream-bound transcription factors, the basal transcription complex, or both. To determine whether such interactions occur, full-length T antigen or segments of it was fused to the glutathione-binding site (
GST
fusions) or to the Gal4 DNA-binding domain (amino acids 1 to 147) (Gal4 fusions). With the
GST
fusions, it was found that TEF-1 and the
TATA-binding protein
(
TBP
) bound different regions of T antigen. A
GST
fusion containing amino acids 5 to 172 (region T1) efficiently bound
TBP
. TEF-1 bound neither region T1 nor a region between amino acids 168 and 373 (region T2); however, it bound efficiently to the combined region (T5) containing amino acids 5 to 383.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Transcriptional activation by simian virus 40 large T antigen: interactions with multiple components of the transcription complex. 842 15
Transcription enhancer factor-1 (TEF-1) has been implicated in transactivating a placental enhancer (CSEn) that regulates human chorionic somatomammotropin (hCS) gene activity. We demonstrated that TEF-1 represses hCS promoter activity in choriocarcinoma (BeWo) cells (Jiang, S.W., and Eberhardt, N.L. (1995) J. Biol. Chem. 270, 13609-13915), suggesting that TEF-1 interacts with basal transcription factors. Here we demonstrate that hTEF-1 overexpression inhibits minimal hCS promoters containing TATA and/or initiator elements, Rous sarcoma virus and thymidine kinase promoters in BeWo cells. Cotransfection of TEF-1 antisense oligonucleotides alleviated exogenous TEF-1-mediated repression and increased basal hCS promoter activity, indicating that endogenous TEF-1 exerts repressor activity.
GST
-TEF-1 fusion peptides fixed to glutathione-Sepharose beads retained in vitro-generated human
TATA-binding protein
, hTBP. The TEF-1 proline-rich domain was essential for TBP binding, but polypeptides also containing the zinc finger domain bound TBP with higher apparent affinity. TBP supershifted hTEF-GT-IIC DNA complexes, but TEF-1 inhibited in vitro binding of TBP to the TATA motif. Coexpression of TBP and TEF-1 in BeWo cells alleviated TEF-1-mediated transrepression, indicating that the TBP-TEF-1 interaction is functional in vivo. The data indicate that TEF-1 transrepression is mediated by direct interactions with TBP, possibly by inhibiting preinitiation complex formation.
...
PMID:TEF-1 transrepression in BeWo cells is mediated through interactions with the TATA-binding protein, TBP. 862 23
A new gene, RRN11, has been defined by certain rrn mutants of Saccharomyces cerevisiae which are defective specifically in the transcription of 35 S rRNA gene by RNA polymerase I (pol I). We have cloned the gene and found that it encodes a protein of 507 amino acids. We have used a strain with the chromosomal RRN11 deleted and carrying HA1 epitope-tagged RRN11 on a plasmid to isolate a protein complex containing the protein encoded by RRN11. This protein complex complemented rrn6 mutant extracts, which were previously shown to be deficient in the essential pol I transcription factor called Rrn6/7 complex or core factor (CF). The CF complex was previously shown to consist of three proteins, the 102- and 60-kDa subunits encoded by RRN6 and RRN7, respectively, and the 66-kDa subunit. The results of the above complementation experiments combined with mobility of Rrn11p in SDS-polyacrylamide gel electrophoresis analysis relative to Rrn6p and Rrn7p led to the conclusion that RRN11 encodes the 66-kDa subunit of CF. Glutathione S-transferase-Rrn11p fusion protein was found to bind strongly to 35S-labeled Rrn6p and Rrn7p but only weakly to 35S-labeled
TATA-binding protein
. Similarly,
glutathione S-transferase
-Rrn7p fusion protein bound strongly to 35S-labeled Rrn6p and Rrn11p but only weakly to 35S-labeled
TATA-binding protein
. These results are consistent with the fact that one can purify CF consisting of Rrn6p, Rrn7p, and Rrn11p from yeast cell extracts, but the purified complex does not contain
TATA-binding protein
. RRN11 was shown to be an essential gene, and [3H]uridine pulse experiments demonstrated directly that RRN11 is essential for rDNA transcription by pol I in vivo. Thus all three subunits of CF are essential for rDNA transcription. Because of the resemblance of CF to mammalian essential pol I transcription factor SL1, the amino acid sequences of Rrn11p and the other two subunits of CF were compared with those of the three
TATA-binding protein
-associated factors (TAFs) in the human SL1, TAFI48, TAFI63, and TAFI110. No significant similarity was detected between two sets of the proteins. Similarity as well as differences between CF and SL1 are discussed.
...
PMID:RRN11 encodes the third subunit of the complex containing Rrn6p and Rrn7p that is essential for the initiation of rDNA transcription by yeast RNA polymerase I. 870 72
We previously showed that nuclear factor 1-A (NF1-A) binds to the silencer elements in the
glutathione transferase
P (
GST
-P) gene, and the carboxy terminal region of NF1-A represses the transcription activity of human metallothionein IIA (hMTIIA) promoter. In this study, we identified a repression region which is divided into two 100 amino acid domains (RD1 and RD2). RD1 increased the repression activity of RD2 to the hMTIIA promoter activity. The NF1-A repression domain inhibited the promoter activities of not only the hMTIIA gene but also those of the
GST
-P and CCAAT/enhancer binding protein delta genes. RD1 and RD2 had abundant serine and glycine residues, and proline and serine residues, respectively. Whereas some repression domains identified previously are enriched with alanine, proline, or serine, and are associated with the general transcription factors, the NF1-A repression domains did not interact with transcription factor IIB,
TATA-binding protein
(
TBP
), or
TBP
-associated factors in vitro.
...
PMID:Identification of the transcriptional repression domain of nuclear factor 1-A. 932 60
Phorbol ester treatment of U937 leukemic cells results in the activation of numerous protein kinase pathways, followed by cell cycle arrest and differentiation into macrophage-like cells. Because major changes in gene transcription are associated with this process, the role of general transcription factors in the cell response to phorbol esters was examined. Experiments demonstrate that phorbol ester treatment of U937 cells stimulates the phosphorylation of the
TATA-binding protein
(
TBP
); this phosphorylation occurs within 30 min and is still apparent, although greatly reduced, at 4 h. The following results demonstrate that
TBP
phosphorylation occurs as a result of activation of an extracellular signal-regulated kinase (ERK) protein kinase: (a) overexpression of mitogen-activated protein kinase phosphatase-1 blocks phorbol 12-myristate 13-acetate (PMA)-induced phosphorylation of
TBP
both in vitro and in vivo; (b) pretreatment with the ERK kinase kinase inhibitor PD098059 also blocks PMA-induced phosphorylation of
TBP
both in vitro and in vivo; and (c) phosphorylation of
TBP
is observed when serum-starved NIH 3T3 cells are stimulated with fresh serum, another activator of the ERK pathway.
TBP
can be phosphorylated in vitro by extracts of U937 cells or by bacterially expressed activated ERK2; the phosphorylation sites were mapped to ERK kinase consensus sites in the
TBP
amino-terminal domain. Using
glutathione S-transferase
-
TBP
fusion proteins, cellular proteins that bind specifically to the
TBP
amino terminus have been identified. These observations suggest that ERK-mediated phosphorylation of
TBP
occurs during the PMA-induced differentiation of U937 cells and the stimulation of the G0-G1 transition in fibroblasts and could play a role in the regulation of TBP protein interactions and thus regulate gene transcription during these two processes.
...
PMID:Activation of the mitogen-activated protein kinase pathway in U937 leukemic cells induces phosphorylation of the amino terminus of the TATA-binding protein. 971 83
The Ets gene family has a complex evolutionary history with many family members known to regulate genetic programs essential for differentiation and development, and some known for their involvement in human tumorigenesis. To understand the biological properties associated with a recently described epithelium-restricted Ets factor ESX, an 11 kb fragment from the 1q32.2 genomically localized human gene was cloned and analysed. Upstream of the ESX promoter region in this genomic fragment lies the terminal exon of a newly identified gene that encodes a ubiquitin-conjugating enzyme variant, UEV-1. Tissues expressing ESX produce a primary 2.2 kb transcript along with a 4.1 kb secondary transcript arising by alternate poly(A) site selection and uniquely recognized by a genomic probe from the 3' terminal region of the 11 kb clone. Endogenous expression of ESX results in a 42 kDa nuclear protein having fivefold greater affinity for the chromatin-nuclear matrix compartment as compared to other endogenous transcription factors like AP-2 and the homologous Ets factor, ELF-1. Exon mapping of the modular structure inferred from ESX cDNA and construction of GAL4(DBD)-ESX expression constructs were used to identify a transactivating domain encoded by exon 4 having comparable potency to the acidic transactivation domain of the viral transcription factor, VP16. This exon 4-encoded 31 amino acid domain in ESX was shown by mutation and deletion analysis to possess a 13 residue acidic transactivation core which, based on modeling and circular dichroism analysis, is predicted to form an amphipathic alpha-helical secondary structure. Using recombinant
GST
-ESX (exon 4) fusion proteins in an in vitro pull-down assay, this ESX transactivation domain was shown to bind specifically to one component of the general transcription machinery,
TATA-binding protein
(
TBP
). Transient transfection experiments confirmed the ability of this
TBP
-binding transactivation domain in ESX to squelch heterologous promoters independent of any promoter binding as efficiently as the transactivation domain from VP16.
...
PMID:Exon 4-encoded acidic domain in the epithelium-restricted Ets factor, ESX, confers potent transactivating capacity and binds to TATA-binding protein (TBP). 1039 76
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
General
transcription initiation factor IID
(
TFIID
) plays a central and critical role in transcription initiation from both naked and chromatin templates. Although interaction between several DNA-binding proteins and
TFIID
were identified and well characterized, functional linkage between
TFIID
and chromatin factors has remained to be elucidated. Here we show the identification and characterization of human CIA/hASF1 (identified previously as a histone chaperone) as an interactor of two tandem bromodomain modules of human (h)TAF(II)250/CCG1, the largest subunit of
TFIID
. Although yeast (y)TAF(II)145, a homologue of hTAF(II)250/CCG1 in Saccharomyces cerevisiae, lacks bromodomains,
glutathione S-transferase
pull-down and immunoprecipitation assays revealed that Asf1p (antisilencing function 1), the counterpart of CIA in S. cerevisiae, interacts with Bdf1p (bromodomain factor 1), which is reported to serve as the missing bromodomain in yTAF(II)145. Furthermore, yeast strain lacking the BDF1 gene shows the Spt phenotype that is shown also by the ASF1 gene disruptant, and a double-knockout strain of both genes shows synthetic lethality, indicating that ASF1 genetically interacts with bromodomains associated with yTFIID. We also found that Asf1p coprecipitates with yTFIID subunits from yeast whole-cell extract, and overexpression of yTFIID subunits suppress the Spt phenotype caused by gene disruption of the ASF1. This study describes the functional linkage between
TFIID
and a histone chaperone.
...
PMID:Identification and characterization of CIA/ASF1 as an interactor of bromodomains associated with TFIID. 1209 19
During exertion in the heat, heat-intolerant (HI) subjects have a physiological disability in metabolic heat dissipation. The HI state is either permanent or temporary, depending on whether it stems from transient predisposing factors or inherent thermoregulatory dysfunction. In this investigation, we studied protein levels of heat shock protein (HSP) 70 and HSP72, HSP90, bcl-2xL,
glutathione S-transferase
-p, heat shock factor-1,
TATA-binding protein
-associated factor, and NF-kappaB transcripts using Western blot and quantitative RT-PCR, respectively, in lymphocytes of HI and tolerant (T) male volunteers of similar anthropometric features. Measurements were made from blood drawn before, during the heat tolerance test (3.5 mph, 40 degrees C, 40% relative humidity, 2 h), and 1 h after recovery at 24 degrees C. Rectal and skin temperatures, as well as heart rate, were continuously recorded. Of 58 subjects, 7 were identified as HI, with a significantly higher physiological strain index than in the T group (6.3 +/- 0.9 vs. 3.8 +/- 0.6, P < 0.001). The responsiveness of the vasculature to thermal stimuli was decreased in the HI group, as indicated by rectal temperature minus skin temperature. The HSP72 level in the HI group dropped during the recovery session (P < 0.01), whereas that of the T group continued to rise. A significantly increased expression of the transcription factors in the T subjects and significantly decreased expression in the HI group (P < 0.009, 0.013, and 0.005 for heat shock factor-1, NF-kappaB, and
TATA-binding protein
-associated factor, respectively) points to impaired transcriptional processes in the HI group. Our data suggest that transcriptional malfunction and sluggishness of the vasculature to thermal stimuli are predisposing factors in the HI group.
...
PMID:Heat intolerance: does gene transcription contribute? 1635 68
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