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Query: UNIPROT:P20226 (TATA-binding protein)
 1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
Plant Mol Biol 1992 Jun
PMID:DNA-binding properties of cloned TATA-binding protein from potato tubers. 137 67

The adenovirus type 2 IVa2 promoter lacks a conventional TATA element yet directs transcription from two closely spaced initiation sites. To define elements required for in vitro transcription of this promoter, IVa2 templates carrying 5' deletions or linker-scanning mutations were transcribed in HeLa whole-cell extracts and the transcripts were analyzed by primer extension. Mutation of the sequence centered on position -47, which is specifically recognized by a cellular factor, reduced the efficiency of IVa2 transcription two- to threefold, whereas mutation of the sequence centered on position -30 selectively impaired utilization of the minor in vivo initiation site. Utilization of the major in vivo site was decreased no more than fivefold by deletion of all sequences upstream of position -15. By contrast, mutation of the region from +13 to +19 or of the initiation region severely impaired IVa2 transcription. The sequence spanning the initiation sites was sufficient to direct accurate initiation by RNA polymerase II from the major in vivo site. Thus, the two initiation sites of the IVa2 promoter are specified by independent elements, and a downstream element is the primary determinant of efficient transcription from both of these sites. The downstream element identified by mutational analysis altered the TATA element-like sequence TATAGAAA lying at positions +21 to +14 in the coding strand. Transcription from the wild-type IVa2 promoter was severely inhibited when endogenous TFIID was inactivated by mild heat treatment. Exogenous human TATA-binding protein (TBP) synthesized in Escherichia coli restored specific IVa2 transcription from both initiation sites when added to such heat-treated extracts. Although efficient IVa2 transcription requires both the downstream TATA sequence and active TFIID, bacterially synthesized TBP also stimulated the low level of IVa2 transcription observed when the TATA sequence was mutated to a sequence that failed to bind TBP.
Mol Cell Biol 1992 Jun
PMID:Anatomy of an unusual RNA polymerase II promoter containing a downstream TATA element. 158 75

We isolated a complementary DNA (cDNA) encoding the TATA-binding factor 'TFIID' from a wheat seedling cDNA library. The wheat TFIID transcript of 1.2 kb poly(A)+ RNA was expressed at a low level early in germination, but gradually increased as the seedlings developed. In vitro binding experiments showed that the bacterially expressed wheat TFIID protein could specifically bind to the TATA boxes of the cauliflower mosaic virus (CaMV) 35S, wheat histone H3 and adenovirus major late genes with different affinity. A comparison with Arabidopsis TFIID showed the presence of a plant-specific region consisting of 13 amino acids at the divergent amino terminus and a conserved region (182 amino acids) at the carboxy terminus longer than that observed in yeasts (180 amino acids) and animals (181 amino acids).
Plant Mol Biol 1992 Aug
PMID:Isolation and characterization of a cDNA clone encoding the TATA box-binding protein (TFIID) from wheat. 164 87

The previously described transcription factor IIA (TFIIA) protein fraction was separated into two factors that affect transcription, TFIIA and TFIIJ. TFIIA was found to have a stimulatory effect, and TFIIJ was found to be required for transcription. The requirement of TFIIJ was observed when bacterially produced purified human or yeast (Saccharomyces cerevisiae) TATA-binding protein (TBP) was used in lieu of the endogenous HeLa cell TFIID complex, suggesting that TFIIJ may be part of the TFIID complex. The stimulatory activity of TFIIA was found also to be dependent on the source of the TBP. Transcription reactions reconstituted with TFIID were stimulated by TFIIA; however, when human or yeast TBP was used instead of TFIID, TFIIA had no effect. TFIIA was found to interact with the TBP and was extensively purified by the use of affinity chromatography on columns containing immobilized recombinant yeast TBP. TFIIA is a heterotrimer composed of polypeptides of 34, 19, and 14 kDa. These three polypeptides were required to isolate, by using the gel mobility shift assay, a stable complex between TBP and the TATA box sequence.
Mol Cell Biol 1992 Jan
PMID:Factors involved in specific transcription by mammalian RNA polymerase II: purification and analysis of transcription factor IIA and identification of transcription factor IIJ. 172 13

We have analyzed the DNA sequence requirements for TATA element function by assaying the transcriptional activities of 25 promoters, including those representing each of the 18 single-point mutants of the consensus sequence TATAAA, in a reconstituted in vitro system that depends on the TATA element-binding factor TFIID. Interestingly, yeast TFIID and HeLa cell TFIID were virtually identical in terms of their relative activities on this set of promoters. Of the mutated elements, only two had undetectable activity; the rest had activities ranging from 2 to 75% of the activity of the consensus element, which was the most active. In addition, mutations of the nucleotide following the TATAAA core strongly influenced transcriptional activity, although with somewhat different effects on yeast and HeLa TFIID. The activities of all these promoters depended upon TFIID, and the level of TFIID-dependent transcription in vitro correlated strongly with their activities in yeast cells. This suggests that the in vivo activities of these elements reflect their ability to functionally interact with a single TATA-binding factor. However, some elements with similar activities in vitro supported very different levels of transcriptional activation by GAL4 protein in vivo. These results extend the degree of evolutionary conservation between yeast and mammalian TFIID and are useful for predicting the level of TATA element function from the primary sequence.
Mol Cell Biol 1990 Aug
PMID:Yeast and human TATA-binding proteins have nearly identical DNA sequence requirements for transcription in vitro. 219 37

In the gal-his3 hybrid promoter his3-GG1, the yeast upstream activator protein GCN4 stimulates transcription when bound at the position normally occupied by the TATA element. This TATA-independent activation by GCN4 requires two additional elements in the gal enhancer region that are distinct from those involved in normal galactose induction. Both additional elements appear to be functionally distinct from a classical TATA element because they cannot be replaced by the TFIID-binding sequence TATAAA. One of these elements, termed Q, is essential for GCN4-activated transcription and contains the sequence GTCAC CCG, which overlaps (but is distinct from) a GAL4 binding site. Surprisingly, relatively small increases in the distance between Q and the GCN4 binding site significantly reduce the level of transcription. The Q element specifically interacts with a yeast protein (Q-binding protein [QBP]) that may be equivalent to Y, a protein that binds at a sequence that forms a constraint to nucleosome positioning. Analysis of various deletion mutants indicates that the sequence requirements for binding by QBP in vitro are indistinguishable from those necessary for Q activity in vivo, strongly suggesting that QBP is required for the function of this TATA-independent promoter. These results support the view that transcriptional activation can occur by an alternative mechanism in which the TATA-binding factor TFIID either is not required or is not directly bound to DNA. In addition, they suggest a potential role of nucleosome positioning for the activity of a promoter.
Mol Cell Biol 1990 Aug
PMID:A nucleosome-positioning sequence is required for GCN4 to activate transcription in the absence of a TATA element. 219 50

Human transcription factor TFIID, the TATA-binding protein, was partially purified to a form capable of associating stably with the TATA motif of the adenovirus major late promoter. Binding of the human and yeast TFIID to the TATA motif was stimulated by TFIIA. TFIIA is an integral part of a complex capable of binding other transcription factors. A complex formed with human TFIID and TFIIA (DA complex) was specifically recognized by TFIIB. We found that TFIIB activity was contained in a single polypeptide of 32 kDa and that this polypeptide participated in transcription and was capable of binding to the DA complex to form the DAB complex. Formation of the DAB complex required TFIIA, TFIID, and sequences downstream of the transcriptional start site; however, the DA complex could be formed on an oligonucleotide containing only the adenovirus major late promoter TATA motif. Using anti-TFIIB antibodies and reagents that affect the stability of a transcription-competent complex, we found that yeast and human TFIID yielded DAB complexes with different stabilities.
Mol Cell Biol 1990 Dec
PMID:Factors involved in specific transcription by mammalian RNA polymerase II: role of transcription factors IIA, IID, and IIB during formation of a transcription-competent complex. 224 58

Although the yeast his3 promoter region contains two functional TATA elements, TR and TC, the GCN4 and GAL4 upstream activator proteins stimulate transcription only through TR. In combination with GAL4, an oligonucleotide containing the sequence TATAAA is fully sufficient for TR function, whereas almost all single-base-pair substitutions of this sequence abolish the ability of this element to activate transcription. Further analysis of these and other mutations of the TR element led to the following conclusions. First, sequences downstream of the TATAAA sequence are important for TR function. Second, a double mutant, TATTTA, can serve as a TR element even though the corresponding single mutation, TATTAA, is unable to do so. Third, three mutations have the novel property of being able to activate transcription in combination with GCN4 but not with GAL4; this finding suggests that activation by GCN4 and by GAL4 may not occur by identical mechanisms. From these observations, we address the question of whether there is a single TATA-binding factor required for the transcription of all genes.
Mol Cell Biol 1989 Dec
PMID:Functional distinctions between yeast TATA elements. 268 58

Within the human T-cell leukemia virus type I promoter, there are three copies of a 21-base-pair repeat (hereafter called the tax-responsive element [TRE]) that both contributes to basal promoter activity and mediates induction by the viral activator TAX. We have identified and separated three nuclear proteins that interact with the TRE. The TRE-binding protein designated TREB-3 bound more avidly to a multimerized TRE than to a single-copy TRE, while the other two TRE-binding proteins, TREB-1 and TREB-2, bound equally well to either TRE. TREB-1 has been purified to near homogeneity, and binding activity was localized to a protein of 35 to 43 kilodaltons. The affinity-purified TREB-1 activated transcription from the human T-cell leukemia virus type I promoter in vitro. The purified TREB-1 fraction contained activating transcription factor binding activity and showed a cooperative interaction with the TATA-binding factor (TFIID) on the adenovirus E4 promoter.
Mol Cell Biol 1989 Apr
PMID:Purification and characterization of multiple nuclear factors that bind to the TAX-inducible enhancer within the human T-cell leukemia virus type 1 long terminal repeat. 278 41

We have converted the TACAAA sequence present at position -29 of the adenovirus EIIa late promoter into a canonical TATA box by oligonucleotide-directed mutagenesis. When linear templates were analyzed in nuclear extracts, transcription of the mutant promoter showed a 10-fold higher level of activity than that of the wild-type promoter. This increase was correlated with an increased affinity of the mutant promoter for transcription initiation factor IID. Further analyses demonstrated that the activating functions of three EIIa late upstream promoter elements (Huang, D.-H., and Roeder, R.G. (1988) Mol. Cell. Biol. 8, 1906-1914) were maintained in the mutant promoter background. These observations indicated, first, that the upstream elements did not act merely to overcome a rate-limiting initiation step imposed by an inefficient TATA element and, second, that the strength of the interaction between transcription initiation factor IID and the TATA box was directly related to promoter activity.
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PMID:Activation of the adenovirus EIIa late promoter by a single-point mutation which enhances binding of transcription factor IID. 341 Aug 53


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