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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 TATA-binding protein (TBP) is a principal component of the general factor TFIID and is required for specific transcription by RNA polymerase II. We have shown that TBP is also a general factor for RNA polymerase III.
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PMID:The TATA-binding protein is a general transcription factor for RNA polymerase III. 129 45

A proximal promoter (-422/-13) of the bean seed storage protein beta-phaseolin gene contains cis-regulatory elements conferring spatial and temporal gene regulation. To correlate trans-acting elements with these cis-elements, we performed gel mobility shift and exonuclease III protection assays using bean seed nuclear proteins, and identified target sequences of four DNA-binding proteins associated with this promoter. Three CANNTG motifs, CACGTG (-248/-243), CACCTG (-163/-158), and CATATG (-100/-95), were determined as target sequences of the same DNA-binding protein designated CAN. Competition assays using oligonucleotides containing the wild-type or mutated CANNTG motif indicated that the CANNTG motif appears to be a preferred target sequence for CAN binding. Competition assays also demonstrated that DNA-binding protein AG-1 binds to AAAAAG(A/G)CAA (-356/-347, -191/-182), CA-1 binds to two CA-rich sequences (-201/-192, -175/-160), and that a TATA-box binding protein binds to either TATATAA (-43/-37) or TATAAA (-32/-27) or both. Based on these and other results, it is proposed that CACGTG motif (-248/-243) is a major cis-acting regulatory element conferring spatial and temporal control of the beta-phaseolin gene.
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PMID:Four distinct nuclear proteins recognize in vitro the proximal promoter of the bean seed storage protein beta-phaseolin gene conferring spatial and temporal control. 130 41

The role of cis-acting promoter elements associated with herpes simplex virus type 1 (HSV-1) early and late genes was evaluated during productive infection with regard to activation of gene expression by the HSV-1 transactivator ICP4 and control of temporal regulation. A set of recombinant viruses was constructed such that expression of an HSV-1 early gene, thymidine kinase (tk), was placed under the control of either the tk TATA box or the TATA box from the late gene, glycoprotein C (gC), in the presence or absence of the upstream Sp1 and CCAAT sites normally found in the tk promoter. The presence of Sp1 sites in the promoter or replacement of the tk TATA box with the gC TATA box resulted in a decreased activation of tk mRNA expression by ICP4. Substitution of the A + T-rich region from the gC TATA box in the context of the remainder of the surrounding tk sequences resulted in a promoter that bound recombinant TATA-binding protein (TBP) better at lower concentrations than the wild-type tk promoter did. These results indicate that tk promoters that are better able to utilize TBP are less responsive to ICP4 activation and suggest that activation by ICP4 involves the general transcription factors that interact with TBP or TBP itself. Additionally, all of the viruses expressed tk at early times postinfection, indicating that cis-acting promoter elements that control the level of expression of HSV-1 early and late genes do not determine temporal regulation.
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PMID:Substitution of a TATA box from a herpes simplex virus late gene in the viral thymidine kinase promoter alters ICP4 inducibility but not temporal expression. 132 6

We have discovered a protein termed Dr1 that interacts with the TATA-binding protein, TBP. The association of Dr1 with TBP results in repression of both basal and activated levels of transcription. The interaction of Dr1 with TBP precludes the formation of a transcription-competent complex by inhibiting the association of TFIIA and/or TFIIB with TBP. Dr1 activity is associated with a 19 kd protein. A cDNA clone encoding Dr1 was isolated. Dr1 is phosphorylated in vivo and phosphorylation of Dr1 affected its interaction with TBP. Our results suggest a regulatory role for Dr1 in repression of transcription mediated via phosphorylation.
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PMID:Dr1, a TATA-binding protein-associated phosphoprotein and inhibitor of class II gene transcription. 133 12

A full-length cDNA clone encoding the TATA-binding protein (TBP), the DNA-binding component of the general transcription factor TFIID was cloned from potato tubers. The DNA sequence of this cDNA indicated that the predicted potato protein was very similar to cloned TBP from other species. Genomic southern analysis showed that TBP is encoded in the potato genome as a low-copy-number sequence. The potato TBP cDNA clone was shown to encode a functional protein that interacts in a sequence-specific way with the promoter region of a class-1 potato patatin gene. Functional analysis of carboxy-terminal truncated derivatives of potato TBP showed that important components of DNA binding were located within the carboxy-terminal 54 amino acids. Kinetic and thermodynamic properties of in vitro synthesised potato TBP were investigated, and demonstrated strict salt and temperature preferences for maximum DNA binding activity. In addition on and off-rate measurements showed that both association and dissociation of TBP from DNA is slow. The specific and the non-specific equilibrium constants Ks and Kn were calculated as 5 x 10(9) M-1 and 3.65 x 10(4) M-1 respectively. These results indicate that the interaction of potato TBP with the patatin promoter is highly specific.
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PMID:DNA-binding properties of cloned TATA-binding protein from potato tubers. 137 67

Initiation of transcription by RNA polymerase II requires a TFIID factor, which can recognize the TATA element common to many promoters. Two distinct multisubunit TFIID factors can be resolved from extracts of mammalian cells, and both of them contain the well-characterized TATA-binding protein (TBP) and are capable of supporting RNA polymerase II transcription in an in vitro reaction system. The smaller complex, B-TFIID, was purified and its subunit composition was determined. B-TFIID consists of two subunits: the TBP and a TBP-associated factor (TAF) of 170 kDa. This TAF is specific for B-TFIID and appears not to be present in the D-TFIID complex. Furthermore, it was found that the highly purified B-TFIID fractions have (d)ATPase activity.
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PMID:Composition of transcription factor B-TFIID. 138 11

A suppressor gene was identified, which in high copy number rescues a temperature-sensitive mutation in yeast TATA-binding protein (TBP). Suppression was allele specific because the suppressor did not rescue the temperature-sensitive phenotype of another TBP mutant. This suppressor gene encodes a 596-amino-acid protein of which the amino-terminal half is homologous to the Pol II-specific factor TFIIB. Disruption of this gene, termed BRF1, showed it to be essential for growth of yeast. Deletion of sequences at either the amino or carboxyl terminus of BRF1 gave both temperature- and cold-sensitive phenotypes. These temperature- and cold-sensitive strains were used to prepare extracts deficient in BRF1 activity and were tested for transcriptional activity by RNA polymerases I, II, and III in vitro. BRF1-deficient extracts are defective in Pol III transcription and can be reconstituted for Pol III transcription by the addition of recombinant BRF1. Western analysis shows that BRF1 is present in TFIIIB but not the TFIIIC fraction, suggesting that it is a component of TFIIIB. We propose that BRF1 plays a role in Pol III initiation analogous to the role played by TFIIB for Pol II in its interaction with TBP and polymerase. The identification of a Pol III-specific TFIIB-like factor extends the previously noted similarity of transcriptional initiation by the three nuclear polymerases.
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PMID:A yeast TFIIB-related factor involved in RNA polymerase III transcription. 139 71

Recent evidence suggests that transcription initiation by all three eukaryotic RNA polymerases involves a complex of the TATA-binding protein (TBP) and multiple TBP-associated factors (TAFs). Here, we map the functional domains of the nucleolar HMG box protein hUBF, which binds to the human rRNA promoter and stimulates transcription by RNA polymerase I through cooperative interactions with a distinct TBP-TAF complex, hSL1. DNase I footprint analysis of mutant hUBF proteins and of a synthetic peptide of 84 amino acids reveals that HMG box 1 is necessary and sufficient for DNA sequence specificity, whereas other HMG boxes and the amino terminus modulate the binding efficiency. hUBF contains multiple activation domains that include the acidic carboxyl terminus and three HMG boxes. HMG boxes 3 and 4 and the acidic tail contribute significantly to an extended footprinting pattern in the presence of hSL1, suggestive of specific protein-protein interactions. Moreover, the inability of xUBF from Xenopus laevis to form an initiation complex with hSL1 can be overcome by hybrid proteins containing human HMG box 4 and the acidic carboxyl terminus. These results strongly suggest an important role of transcription activation domains of hUBF in mediating interactions with the TBP-TAF complex hSL1.
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PMID:Multiple domains of the RNA polymerase I activator hUBF interact with the TATA-binding protein complex hSL1 to mediate transcription. 139 72

In the gal-his3 hybrid promoter, his3-GG1, GCN4 stimulates transcription at the position normally occupied by a TATA element. This expression requires two elements within gal1-10 sequences, a REB1-binding site and a second element, Z, which resides 20 base pairs upstream of the GCN4-binding site. No obvious TATA element is present in this promoter. To characterize the function of Z, we replaced it with short random oligonucleotides and selected for expression in vivo. Fourteen elements were identified and classified into groups based upon sequence and phenotypic similarities. Group 1 elements contained functional TATA sequences that were essential for activity. TATA elements can thus function when positioned upstream of a GCN4-binding site. The Group 2 elements activated transcription poorly when used as conventional TATA elements; however, mutational analyses demonstrated that their activity required TATA-like sequences. These TATA-like sequences bound the yeast TATA-binding protein (TBP) poorly in vitro but function in vivo as TBP interaction sites based upon two criteria. First mutations that improved their TATA character correspondingly improved function and second their activity could be enhanced in the presence of an altered binding specificity mutant of TBP. Furthermore, the Group 2 elements enabled the identification of mutations outside of the TATA-like core that contribute to transcriptional activation without adversely affecting TBP binding. The finding that low affinity TBP-binding sites can be used at unconventional positions suggests that many "TATA-less" promoters contain a cryptic interaction site for TBP.
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PMID:TATA-binding protein activates transcription when upstream of a GCN4-binding site in a novel yeast promoter. 140 Apr 10

A critical regulatory element in many promoters transcribed by RNA polymerase II is the "TATA" box, which is located 25-30 nucleotides upstream of the transcription initiation site. TFIID is a biochemically defined HeLa cell nuclear fraction containing a transcription factor activity that binds specifically to the TATA box and is critical in determining both basal and regulated promoter activity. Recently, the gene for a TATA-binding protein was cloned and found to bind to various TATA elements and to substitute for TFIID in stimulating basal gene expression in in vitro transcription systems. However, it is possible that additional cellular factors can bind to the TATA element and influence the level of gene expression. By using lambda gt11 expression cloning with oligonucleotides corresponding to the human immunodeficiency virus 1 TATA element, we report the identification of a cellular protein with a calculated molecular mass of 123 kDa that we designate TATA element modulatory factor (TMF). TMF binds to the human immunodeficiency virus 1 TATA element in gel-retardation assays and inhibits activation of the viral long terminal repeat by the TATA-binding protein in in vitro transcription assays. TMF contains leucine-zipper amino acid motifs and exhibits homology in its DNA binding domain with the phage-encoded DNA binding protein Ner. Chromosomal mapping localizes the TMF gene to human chromosome 3p12-p21, which is a site of frequent rearrangements in lung and renal carcinomas. Thus, TMF is a transcription factor that likely regulates the expression of both viral and cellular genes.
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PMID:Cloning and chromosomal mapping of a human immunodeficiency virus 1 "TATA" element modulatory factor. 140 43

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