Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The function of a TATA element in RNA polymerase (EC 2.7.7.6) III transcription of a naturally TATA-containing U6 snRNA gene and a naturally TATA-less tRNA gene was probed by transcription and Ty3 transposition analyses. Deletion of the TATA box from a U6 minigene did not abolish transcription and Ty3 integration but changed the positions of initiation and insertion. Insertion of the U6 TATA box at three positions upstream of the TATA-less SUP2 tRNA(
Tyr
) gene resulted in novel transcription initiation and Ty3 integration patterns that depended upon position of the insertion. Nevertheless, the predominant tRNA gene initiation sites were not affected by insertion of the TATA sequence and remained at a fixed distance from the internal box A promoter element. Insertions of the TATA box upstream of a SUP2 box A mutant affected the level of transcription and restricted the use of upstream start sites, but they neither enhanced the use of TATA-dependent initiation sites nor restored expression to the level of the wild-type gene. We conclude that (i) the U6 TATA box is essential in vivo for correct initiation but not for transcription, (ii) a TATA box does not compensate for a weak box A sequence and so cannot perform equivalently, and (iii) the
TATA-binding protein
, and probably components of transcription factor IIIB, are present on the target at the time of Ty3 integration.
...
PMID:Sites of RNA polymerase III transcription initiation and Ty3 integration at the U6 gene are positioned by the TATA box. 838 58
Transient expression of the poliovirus-encoded protease 2APro in eukaryotic cells results in inhibition of both cellular transcription and translation. The inhibition of transcription observed in cells expressing 2APro could be due to a primary effect or secondary effect caused by inhibition of translation. Because transcriptional activity of the
TATA-binding protein
(
TBP
) is drastically reduced in poliovirus-infected cells, we determined if 2APro is able to cleave
TBP
in vitro. We demonstrate here that 2APro directly cleaves the single
tyrosine
-glycine bond at position 34 of
TBP
. This cleavage is also seen in poliovirus-infected HeLa cells. Surprisingly, despite
TBP
cleavage 2APro was unable to inhibit RNA polymerase II transcription in vitro. Under similar conditions, however, 2APro inhibited translation of a capped cellular mRNA in vitro. Thus, cleavage of
TBP
at position 34 does not alter its transcriptional activity in vitro. These results suggest that inhibition of host cell RNA polymerase II transcription seen in cells transiently transfected with 2APro is due to host cell translational shutoff.
...
PMID:Poliovirus-encoded protease 2APro cleaves the TATA-binding protein but does not inhibit host cell RNA polymerase II transcription in vitro. 926 14
We previously isolated RBP56 cDNA by PCR using mixed primers designed from the conserved sequences of the RNA binding domain of FUS/TLS and EWS proteins. RBP56 protein turned out to be hTAFII68 which was isolated as a
TATA-binding protein
associated factor (TAF) from a sub-population of TFIID complexes (Bertolotti A., Lutz, Y., Heard, D.J., Chambon, P., Tora, L., 1996. hTAFII68, a novel RNA/ssDNA-binding protein with homology to the proto-oncoproteins TLS/FUS and EWS is associated with both TFIID and RNA polymerase II. EMBO J. 15, 5022-5031). The RBP56/hTAFII68, FUS/TLS and EWS proteins comprise a sub-family of RNA binding proteins, which consist of an N-terminal Ser, Gly, Gln and
Tyr
-rich region, an RNA binding domain, a Cys2/Cys2 zinc finger motif and a C-terminal RGG-containing region. Rearrangement of the FUS/TLS gene and the EWS gene has been found in several types of malignant tumors, and the resultant fusion proteins play an important role in the pathogenesis of these tumors. In the present study, we determined the genomic structure of the RBP56/hTAFII68 gene. The RBP56/hTAFII68 gene spans about 37kb and consists of 16 exons from 33bp to 562bp. The longest exon, exon 15, encodes the C-terminal region containing 19 repeats of a degenerate DR(S)GG(G)YGG sequence. While the structure of the FUS/TLS gene has been reported previously, we determined the total DNA sequence of the FUS/TLS gene, consisting of 12kb. The RBP56/hTAFII68, FUS/TLS and EWS genes consist of similar numbers of exons. Comparison of the structures of these three genes showed that the organization of exons in the central part encoding a homologous RNA binding domain and a cysteine finger motif is highly conserved, and other exon boundaries are also located at similar sites, indicating that these three genes most likely originate from the same ancestor gene.
...
PMID:Genomic structure of the human RBP56/hTAFII68 and FUS/TLS genes. 979 13
beta-Catenin plays a dual role as a key effector in the regulation of adherens junctions and as a transcriptional coactivator. Phosphorylation of
Tyr
-654, a residue placed in the last armadillo repeat of beta-catenin, decreases its binding to E-cadherin. We show here that phosphorylation of
Tyr
-654 also stimulates the association of beta-catenin to the basal transcription factor
TATA-binding protein
. The structural bases of these different affinities were investigated. Our results indicate that the beta-catenin C-terminal tail interacts with the armadillo repeat domain, hindering the association of the armadillo region to the
TATA-binding protein
or to E-cadherin. Phosphorylation of beta-catenin
Tyr
-654 decreases armadillo-C-terminal tail association, uncovering the last armadillo repeats. In a C-terminal-depleted beta-catenin, the presence of a negative charge at
Tyr
-654 does not affect the interaction of the
TATA-binding protein
to the armadillo domain. However, in the case of E-cadherin, the establishment of ion pairs dominates its association with beta-catenin, and its binding is greatly dependent on the absence of a negative charge at
Tyr
-654. Thus, phosphorylation of
Tyr
-654 blocks the Ecadherin-beta-catenin interaction, even though the steric hindrance of the C-tail is no longer present. These results explain how phosphorylation of beta-catenin in
Tyr
-654 modifies the tertiary structure of this protein and the interaction with its different partners.
...
PMID:Regulation of beta-catenin structure and activity by tyrosine phosphorylation. 2722 43
Numerous studies have demonstrated that the hepatitis B virus HBx protein stimulates signal transduction pathways and may bind to certain transcription factors, particularly the cyclic AMP response element binding protein, CREB. HBx has also been shown to promote early cell cycle progression, possibly by functionally replacing the
TATA-binding protein
-associated factor 250 (TAF(II)250), a transcriptional coactivator, and/or by stimulating cytoplasmic signal transduction pathways. To understand the basis for early cell cycle progression mediated by HBx, we characterized the molecular mechanism by which HBx promotes deregulation of the G0 and G1 cell cycle checkpoints in growth-arrested cells. We demonstrate that TAF(II)250 is absolutely required for HBx activation of the cyclin A promoter and for promotion of early cell cycle transit from G0 through G1. Thus, HBx does not functionally replace TAF(II)250 for transcriptional activity or for cell cycle progression, in contrast to a previous report. Instead, HBx is shown to activate the cyclin A promoter, induce cyclin A-cyclin-dependent kinase 2 complexes, and promote cycling of growth-arrested cells into G1 through a pathway involving activation of Src
tyrosine
kinases. HBx stimulation of Src kinases and cyclin gene expression was found to force growth-arrested cells to transit through G1 but to stall at the junction with S phase, which may be important for viral replication.
...
PMID:Hepatitis B virus HBx protein activation of cyclin A-cyclin-dependent kinase 2 complexes and G1 transit via a Src kinase pathway. 1128 74
Type I interferon (IFN) stimulates transcription through a heteromeric transcription factor that contains
tyrosine
-phosphorylated STAT2. We show that STAT2 recruits histone acetyltransferases (HAT) through its transactivation domain, resulting in localized transient acetylation of histones. GCN5, but not p300/CBP or PCAF, is required for STAT2 function. However, GCN5 function is impaired by the transcriptional antagonist, adenovirus E1A oncoprotein. The TFIID component TAF(II)130 potentiates STAT2 function, but TAF(II)28 or the HAT activity of TAF(II)250 do not, and transcriptional induction can proceed independently of the
TATA-binding protein
, TBP. Moreover, IFN-stimulated transcription was resistant to poliovirus-targeted degradation by TBP, and continued despite host-cell transcriptional shutoff during poliovirus infection. We conclude that a non-classical transcriptional mechanism combats an anticellular action of poliovirus, through a TBP-free TAF-containing complex and GCN5.
...
PMID:IFN-Stimulated transcription through a TBP-free acetyltransferase complex escapes viral shutoff. 1180 63
Mammalian cells infected with poliovirus, the prototype member of the picornaviridae family, undergo rapid macromolecular and metabolic changes resulting in efficient replication and release of virus from infected cells. Although this virus is predominantly cytoplasmic, it does shut-off transcription of all three cellular transcription systems. Both biochemical and genetic studies have shown that a virally encoded protease, 3C(pro), is responsible for host cell transcription shut-off. The 3C protease cleaves a number of RNA polymerase II transcription factors including the
TATA-binding protein
(
TBP
), the cyclic AMP-responsive element binding protein (CREB), the Octamer binding protein (Oct-1), p53, and RNA polymerase III transcription factor IIICalpha, and Polymerase I factor SL-1. Most of these cleavages occur at glutamine-glycine bonds. Additionally, a second viral protease, 2A(pro), also cleaves
TBP
at a
tyrosine
-glycine bond. The latter cleavage could be responsible for shut-off of small nuclear RNA transcription. Recent studies indicate that the viral protease-polymerase precursor 3CD can enter nucleus in poliovirus-infected cells. The nuclear localization signal (NLS) present within the 3D sequence appears to play a role in the nuclear entry of 3CD. Thus, 3C may be delivered to the infected cell nucleus in the form the precursor 3CD or other 3C-containing precursors. Auto-proteolytic cleavage of these precursors could then generate 3C. Thus, for a small RNA virus that strictly replicates in the cytoplasm, a portion of its life cycle does include interaction with the host cell nucleus.
...
PMID:The interaction of cytoplasmic RNA viruses with the nucleus. 1292 97
