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)

The expression of p185ERBB2 in a total of 34 human gastric carcinoma tissues as well as in corresponding normal mucosa was examined by Western blotting. More than 70% of both tumor tissues and normal mucosa showed p185ERBB2 expression at various levels. Eighteen (55%) cases revealed higher levels of p185ERBB2 in the tumor than in normal mucosa, while 13 (38%) cases showed lower levels in the tumor tissues. Higher expression of p185ERBB2 was frequently observed in well differentiated adenocarcinomas, with the incidence between well differentiated type and poorly differentiated type being significantly different (P less than 0.05). Comparative immunohistochemical analysis revealed the consistent results with p185ERBB2 expression obtained by Western blotting in well differentiated adenocarcinomas. Of the 34 cases, three well differentiated adenocarcinomas had extremely high levels of p185ERBB2. ERBB2 gene was amplified in two of the three tumors, but the amplification differed by the tumor site from where the sample was obtained. Another tumor which showed an extremely high level of p185ERBB2 but no gene amplification demonstrated a high level of binding protein to the TATA box that is located in the promoter of the ERBB2 gene. A high level of TATA-binding protein was also detected in gastric carcinoma cell lines which contain a single copy of ERBB2 gene and a high expression of p185ERBB2.
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PMID:Expression of ERBB2 in human gastric carcinomas: relationship between p185ERBB2 expression and the gene amplification. 197 53

RB, the protein product of the retinoblastoma tumor-suppressor gene, regulates the activity of specific transcription factors. This regulation appears to be mediated either directly through interactions with specific transcription factors or through an alternative mechanism. Here we report that stimulation of Sp1-mediated transcription by RB is partially abrogated at the nonpermissive temperature in ts13 cells. These cells contain a temperature-sensitive mutation in the TATA-binding protein-associated factor TAFII250, first identified as the cell cycle regulatory protein CCG1. The stimulation of Sp1-mediated transcription by RB in ts13 cells at the nonpermissive temperature could be restored by the introduction of wild-type human TAFII250. Furthermore, we demonstrate that RB binds directly to hTAFII250 in vitro and in vivo. These results suggest that RB can confer transcriptional regulation and possibly cell cycle control and tumor suppression through an interaction with TFIID, in particular with TAFII250.
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PMID:The retinoblastoma-susceptibility gene product binds directly to the human TATA-binding protein-associated factor TAFII250. 772 24

The tumor suppressor gene product p53 can activate and repress transcription. Both transcriptional activation and repression are thought to involve the direct interaction of p53 with the basal transcriptional machinery. Previous work has demonstrated an in vitro interaction between p53 and the TATA-binding protein that requires amino acids 20 to 57 of p53 and amino acids 220 to 271 of the TATA-binding protein. The present results show that a 75-amino-acid segment from the carboxy terminus of p53 also can bind to the TATA-binding protein in vitro, and this interaction requires amino acids 217 to 268 of the TATA-binding protein, essentially the same domain that is required for interaction with the amino-terminal domain of p53. A carboxy-terminal segment of p53 can mediate repression when bound to DNA as a GAL4-p53 fusion protein. The amino- and carboxy-terminal p53 interactions occur within the domain on the TATA-binding protein to which the adenovirus 13S E1A oncoprotein has previously been shown to bind. The 13S E1A oncoprotein can dissociate the complex formed between the carboxy-terminal domain of p53 and the TATA-binding protein and relieve p53-mediated transcriptional repression. These results demonstrate that two independent domains of p53 can potentially interact with the TATA-binding protein, and they define a mechanism--relief of repression--by which the 13S E1A oncoprotein can activate transcription through the TATA motif.
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PMID:Two domains of p53 interact with the TATA-binding protein, and the adenovirus 13S E1A protein disrupts the association, relieving p53-mediated transcriptional repression. 779 29

Hepatitis B virus is a major risk factor in human hepatocellular carcinomas. We have used protein affinity chromatography to show that the 17-kDa hepatitis B virus gene product, HBx, binds directly to the human tumor suppressor gene product, p53. Interaction of HBx with p53 did not prevent p53 from specifically binding DNA. Instead, HBx enhanced p53's oligomerization state on a DNA oligonucleotide containing a p53 response element. Optimal binding of HBx to p53 required intact p53, but weaker binding to both the N-terminal activation domain of p53 and a protein fragment containing the C-terminal DNA-binding and oligomerization domains of p53 was observed. In transient transfection experiments with human Calu-6 cells, HBx inhibited transactivation by p53 of a reporter gene containing a p53 response element. Also, HBx inhibited p53-stimulated transcription in vitro even when added to the reaction mixture after the formation of the preinitiation complex. Interaction of HBx with p53 did not prevent the activation domain of p53 from binding two general initiation factors, the TATA-box binding protein subunit of TFIID and the p62 subunit of TFIIH. To explain these results, we propose that localization of HBx to a promoter by interaction with DNA-bound p53 enables a repression domain in HBx to directly contact the basal transcription machinery and thereby repress transcription.
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PMID:Direct interaction of the hepatitis B virus HBx protein with p53 leads to inhibition by HBx of p53 response element-directed transactivation. 785 26

Expression of the Epstein-Barr virus (EBV) EBNA-1 protein within EBV-positive tumor cells and subpopulations of latently infected B lymphocytes in vivo is mediated by the promoter Qp. Previous studies have established that Qp is a TATA-less promoter whose activation requires only proximal regulatory elements and that it is negatively autoregulated through two EBNA-1 binding sites downstream of the transcription initiation sites. The objective of this study was to better define the properties of an essential positive regulatory element (QRE-2) adjacent to a major transcription start site of Qp and to evaluate the contributions of other potential regulatory elements proximal to the Qp start site. Using DNA affinity purification and UV cross-linking, we have identified the QRE-2-binding protein as a single polypeptide of approximately 40 kDa. The DNA-binding properties of this protein are clearly distinct from those of the TATA-binding protein, suggesting that in the absence of a TATA box, QRE-2 may function as an initiator element to direct assembly of TFIID near the transcription start site. Mutational analysis of potential regulatory elements, furthermore, indicated that the putative E2F binding sites within the EBNA-1 binding domain can exert a positive influence on Qp that is EBNA-1 independent, suggesting that these regulatory elements play an additional if not different role in Qp regulation than previously proposed. A model for the regulation of Qp consistent with the current and previous findings which provides for a simple but efficient mechanism of ensuring the EBNA-1 expression necessary to sustain long-term latency is presented.
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PMID:The Epstein-Barr virus EBNA-1 promoter Qp requires an initiator-like element. 898 57

The retinoblastoma tumor suppressor gene product (Rb) binds directly to the largest TFIID subunit, TATA-binding protein associated factor TAF(II)250, first identified as the cell cycle regulatory protein CCG1. Here we map the domains in Rb and TAF(II)250 important for their interaction in vitro and in vivo. Both the amino terminus and the large pocket of Rb are able to associate independently with TAF(II)250. The binding domain(s) within the large pocket are distinct from the viral oncoprotein and E2F binding region since certain pocket mutations, which abolish E1A binding, do not abolish TAF(II)250 binding. Consistent with the large pocket of Rb binding to TAF(II)250, the large pocket domains of both p107 and p130 are able to bind to TAF(II)250 in vivo. We also demonstrate that at least two regions of TAF(II)250 are able to bind to the large pocket of Rb independently whereas the amino terminus of Rb binds to a distinct domain in TAF(II)250. We further demonstrate that Rb can bind to TFIID in vitro, presumably in part through an interaction with TAF(II)250. Our results suggest a complex interaction between Rb and TAF(II)250 and imply that TAF(II)250, TFIID, and potentially other basal transcription factors are targets for regulation by Rb and Rb-related proteins.
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PMID:Rb interacts with TAF(II)250/TFIID through multiple domains. 924 74

Human T-cell leukemia virus type-I (HTLV-I), the etiologic agent of adult T-cell leukemia (ATL) transforms human T cells both in vivo and in vitro. However, the long latency period between infection and development of ATL, as well as the small fraction of the infected population that actually develops this disease, suggest that factors in addition to the virus are involved in its pathogenesis. Mutation of tumor suppressor gene p53 has been found in both HTLV-I-transformed T-cell lines and ATL cases at relatively low frequency. However, increasing evidence supports p53 functional impairment in HTLV-I-transformed T cells. Tax, the major transactivator of HTLV-I, is critical for the initial events involved in transformation. We have considered the possibility that p53 may regulate transcription of viral and cellular genes important for viral replication and transformation. Inactivation of p53 function might then permit constitutive expression of these viral and cellular genes. We have investigated the effects of wild-type and mutant p53 on Tax-mediated activation of the HTLV-I long terminal repeat (LTR) and the promoters of several cellular genes including the interleukin (IL)-1alpha, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF ), and IL-2 receptor alpha chain gene. Jurkat, HuT78, and U937 cells were cotransfected with plasmids containing a chloramphenicol acetyltransferase (CAT ) reporter gene under viral or cellular promoter control and the Tax expression vector, in addition to vectors for a wild-type or mutant p53. Wild-type p53 is a potent repressor of viral and cellular activation by Tax. Mutations within p53 severely inhibit this downregulation. We also show that wild-type p53 suppresses transcription from the HTLV-I LTR in Jurkat-Tax, a T-cell line stably expressing Tax, and MT-2, a HTLV-I-transformed T-cell line. Wild-type, but not mutant, p53 interfered with the binding of TATA-binding protein (TBP) to the TATA motif of the HTLV-I LTR. These results suggest that p53 inactivation may lead to upregulation of viral and cellular genes and may also be important for establishment of productive viral infection and development of ATL.
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PMID:Repression of transcription from the human T-cell leukemia virus type I long terminal repeat and cellular gene promoters by wild-type p53. 938 10

p53 is a nuclear protein that acts like a tumor suppressor and is involved in regulation of cellular growth. In Xenopus, the p53 protein is highly expressed during oogenesis and is strictly cytoplasmic in the oocyte. We have analysed its participation in DNA replication and transcription during early development, using the egg and oocyte as model-systems. The injection of sperm nuclei into Xenopus eggs is followed by DNA replication and mitotic events. We show that the endogenous p53 enters the nuclei and moves through a series of discrete sub-nuclear loci whose distribution is S-phase specific. A specific peripheral nuclear localization of p53 is observed before entry into S-phase, followed by an internal localization which is strictly dependent on ongoing DNA synthesis. At no stage in the cell cycle, however, did we observe any co-localization with RPA or PCNA, which were used as initiation or elongation markers for DNA replication. We also show that injection into the nucleus of the oocyte of small amounts of either Xenopus or human p53 - less than 10% of the cytoplasmic storage - is sufficient to block RNA polymerase II-dependent transcription from a coinjected TATA-box-containing reporter plasmid. Transcription is rescued by microinjection of the TATA-box binding protein (TBP), suggesting that nuclear exclusion of p53 during oogenesis may be necessary for transcription of maternal genes. These characteristics are discussed in relation to the regulation of nuclear activities during early embryogenesis.
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PMID:A functional analysis of p53 during early development of Xenopus laevis. 939 77

The retinoblastoma tumor suppressor protein, Rb, interacts directly with the largest TATA-binding protein-associated factor, TAFII250, through multiple regions in each protein. To define the potential role(s) of this interaction, we examined whether Rb could regulate the intrinsic, bipartite kinase activity of TAFII250. Here, we report that Rb is able to inhibit the kinase activity of immunopurified and gel-purified recombinant TAFII250. Rb inhibits the autophosphorylation of TAFII250 as well as its phosphorylation of the RAP74 subunit of TFIIF in a dose-responsive manner. Inhibition of TAFII250 kinase activity involves the Rb pocket (amino acids 379 to 928) but not its amino terminus. In addition, Rb appears to specifically inhibit the amino-terminal kinase domain of TAFII250 through a direct protein-protein interaction. We further demonstrate that two different tumor-derived Rb pocket mutants, C706F and Deltaex22, are functionally defective for kinase inhibition, even though they are able to bind the amino terminus of TAFII250. Our results suggest a novel mechanism of transcriptional regulation by Rb, involving direct interaction with TAFII250 and inhibition of its ability to phosphorylate itself, RAP74, and possibly other targets.
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PMID:Rb inhibits the intrinsic kinase activity of TATA-binding protein-associated factor TAFII250. 985 7

Simian virus 40 (SV40) large tumor (T) antigen is the major regulatory protein that directs the course of viral infection, primarily by interacting with host cell proteins and modulating their functions. Initiation of viral DNA replication requires specific interactions of T antigen bound to the viral origin of DNA replication with cellular replication proteins. Transcription factors are thought to stimulate initiation of viral DNA replication, but the mechanism of stimulation is poorly understood. Since the transcription factor TATA-binding protein (TBP) binds to sequences within the origin of replication and interacts specifically with T antigen, we examined whether TBP complexes stimulate SV40 DNA replication in vitro. On the contrary, we found that depletion of TBP complexes from human cell extracts increased their ability to support viral DNA replication, and readdition of TBP complexes to the depleted extracts diminished their activity. We have mapped the sites of interaction between the proteins to residues 181 to 205 of T antigen and 184 to 220 of TBP. Titration of fusion proteins containing either of these peptides into undepleted cell extracts stimulated their replication activity, suggesting that they prevented the T antigen-TBP interaction that interfered with replication activity. TBP complexes also interfered with origin DNA unwinding by purified T antigen, and addition of either the T antigen or the TBP fusion peptide relieved the inhibition. These results suggest that TBP complexes associate with a T-antigen surface that is also required for origin DNA unwinding and viral DNA replication. We speculate that competition among cellular proteins for T antigen may play a role in regulating the course of viral infection.
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PMID:Interaction of the transcription factor TFIID with simian virus 40 (SV40) large T antigen interferes with replication of SV40 DNA in vitro. 988 11

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