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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have utilized a number of well-defined, simple, synthetic promoters (upstream factor binding sites and TATA elements) to analyze the activation mechanisms of the human cytomegalovirus immediate-early (IE) proteins. We found that the 86-kDa IE protein (known as IEP86, IE2(559aa), or ppUL122a) can recognize and activate a variety of simple promoters, in agreement with the observation that it is a promiscuous activator. However, in the comparison of otherwise identical promoters IEP86 does have preferences for specific TATA elements (hsp70 > adenovirus E2 > simian virus 40 early) and specific upstream transcription factor binding sites (CAAT > SP1 approximately Tef-1 > ATF; no activation with
AP1
or OCT). In contrast, the 72-kDa IE protein (known as IEP72, IE1(491aa), or ppUL123) alone did not significantly activate the simple promoters under our experimental conditions. However, each promoter activated by IEP86 was synergistically affected by the addition of IEP72. In addition, the 55-kDa IE protein (IEP55, a splice variant form of IE2, IE2(425aa), or ppUL122b) repeatedly had a negative effect, downregulating the activation of promoters caused by IEP86 and the synergy of IEP86 and IEP72. We show that the ability of IEP86 to activate many simple promoters correlates not only with its previously described ability to interact with the
TATA-binding protein
(
TBP
) (B. A. Furnari, E. Poma, T. F. Kowalik, S.-M. Huong, and E.-S. Huang, J. Virol. 67:4981-4991, 1993; C. Hagemeier, S. Walker, R. Caswell, T. Kouzarides, and J. Sinclair, J. Virol. 66:4452-4456, 1992; R. Jupp, S. Hoffman, R. M. Stenberg, J. A. Nelson, and P. Ghazal, J. Virol. 67:7539-7546, 1993) but also with its ability to interact with the transcription factors which bind to the upstream element of promoters it activated (e.g., SP1 and Tef-1 but not Oct-1). This ability to have multiple interactions with the promoter complex may be crucial for transcriptional activation, since the IE proteins cannot activate promoters having only a TATA element or only an upstream transcription factor binding site. In addition, we show that proteins which bind IEP86 also bind to IEP55. Thus, the negative effect on transcription noted with IEP55 may be the result of competition with IEP86 for interaction with the promoter complex. The synergy caused by IEP72 appears to be mediated by a more indirect mechanism. This is suggested by our observation that IEP72 could not bind to any of the proteins tested (
TBP
, Tef-1, or Oct-1) or to IEP86.
...
PMID:Transcriptional activation by the human cytomegalovirus immediate-early proteins: requirements for simple promoter structures and interactions with multiple components of the transcription complex. 803 17
The simian virus 40 large T antigen is a promiscuous transcriptional activator of many viral and cellular promoters. We show that the promoter structure necessary for T antigen-mediated transcriptional activation is very simple. A TATA or initiator element is required, in addition to an upstream factor-binding site, which can be quite variable. We found that promoters containing an SP1-, ATF-,
AP1
-, or TEF-I-binding site, in conjunction with a TATA element, can all be activated in the presence of T antigen. In addition, preference for specific TATA elements was indicated. Promoters containing the HSP70 TATA element functioned better than those with the adenovirus E2 TATA element, while promoters containing the simian virus 40 (SV40) early TATA element failed to be activated. In addition, simple promoters containing the initiator element from the terminal deoxynucleotidyltransferase gene could be activated by T antigen. The SV40 late promoter, a primary target for T antigen transcriptional activation, conforms to this simple promoter structure. The region from which most late transcripts initiate contains a cluster of initiator-like elements (SV40 nucleotides [nt] 250 to 335) forming an initiator region (IR). This lies downstream of the previously described octamer-TEF element (SV40 nt 199 to 218) which contains the TEF-I-binding sites shown to be necessary for T antigen-mediated transcriptional activation of the late promoter. We show that a simple late promoter made up of IR sequences and octamer-TEF element-containing sequences is transcriptionally activated by T antigen. These experiments also showed that specific sequences in the IR, SV40 nt 272 to 294, are particularly important for late promoter activation. Previous findings (M. C. Gruda, J. M. Zablotny, J. H. Xiao, I. Davidson, and J. C. Alwine, Mol. Cell. Biol. 13:961-969, 1993) suggested that T antigen could mediate transcriptional activation through interaction with the
TATA-binding protein
, as well as upstream bound transcription factors. Our present data are predicted by this model and suggest that at least one mechanism by which the T antigen manifests promiscuous transcriptional activation is its ability to interact with numerous transcription factors in a simple promoter context.
...
PMID:Transcriptional activation by simian virus 40 large T antigen: requirements for simple promoter structures containing either TATA or initiator elements with variable upstream factor binding sites. 841 70
We have previously demonstrated that transformation by Fos is critically dependent on an intact DNA-binding domain (bZip) and a functional N-terminal transactivation motif (N-TM). We now show that a novel motif (C-terminal transactivation motif [C-TM]) near the C terminus also plays an important role in both transformation and the activation of
AP1
-dependent transcription and that the hydrophobic amino acids in the C-TM are functionally essential. The C-TM is the most crucial element in the C-terminal transactivation domain in Fos, as indicated by its relative strength and context-independent function. The C-TM is clearly different from the previously identified HOB2 domain, located N terminally to the C-TM, and the C-terminally positioned
TATA-binding protein
-binding domain. We also show that the C-terminal transactivation domain strongly synergizes with the HOB1-like N-TM, even when both domains are present on different proteins within a dimeric complex, and that the C-TM plays a crucial role in this cooperation. These observations can be corroborated in a model in which multiple contacts with the basal machinery are established either to stabilize the transcription complex or to facilitate its sequential assembly.
...
PMID:A novel, transformation-relevant activation domain in Fos proteins. 900 Dec 6
We report the characterization of lambda and P1 phage clones containing the entire human mitochondrial 3-hydroxy-3-methylglutaryl CoA synthase (mHS) gene. The human mHS locus (HMGCS2) on chromosome 1p12-13 spans 25 kb and contains 10 exons. Exon 1 contains most of the mitochondrial leader, consistent with a recent hypothesis of the evolution of the ketogenic pathway. By primer extension and cDNA amplification (RACE-PCR) we localized the transcription start point (tsp) to 60 bp upstream of the initiation codon. Nine blocks of conserved sequence were identified by comparing the 5' flanking regions of the mHS genes of human and rat. The 5' flanking region contains potential binding sites for
TATA-binding protein
, Sp1, nuclear factor 1 (NF1), CAAT-box binding protein (C/EBP), hepatocyte nuclear factors 1 and 5 (HNF1, HNF5) and activator proteins 1 and 2 (
AP1
, AP2).
...
PMID:Cloning and characterization of the human mitochondrial 3-hydroxy-3-methylglutaryl CoA synthase gene. 930 55
