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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 involved in all nuclear transcription. We show that a common site on
TBP
is used for transcription initiation complex formation by RNA polymerases (pols) II and III.
TBP
, the
transcription factor IIB
(
TFIIB
)-related factor Brf1 and the pol III-specific factor Bdp1 constitute TFIIIB. A photochemical cross-linking approach was used to survey a collection of human
TBP
surface residue mutants for their ability to form TFIIIB-DNA complexes reliant on only the
TFIIB
-related part of Brf1. Mutations impairing complex formation and transcription were identified and mapped on the surface of
TBP
. The most severe effects were observed for mutations in the C-terminal stirrup of
TBP
, which is the principal site of interaction between
TBP
and
TFIIB
. Structural modeling of the Brf1-
TBP
complex and comparison with its
TFIIB
-
TBP
analog further rationalizes the close resemblance of the
TBP
interaction with the N-proximal part of Brf1 and
TFIIB
, and establishes the conserved usage of a
TBP
surface in pol II and pol III transcription for a conserved function in the initiation of transcription.
...
PMID:A common site on TBP for transcription by RNA polymerases II and III. 1451 49
The Giardia lamblia genome sequencing project affords us a unique opportunity to conduct comparative analyses of core cellular systems between early and late-diverging eukaryotes on a genome-wide scale. We report a survey to identify canonical transcription components in Giardia, focusing on RNA polymerase (RNAP) subunits and transcription-initiation factors. Our survey revealed that Giardia contains homologs to 21 of the 28 polypeptides comprising eukaryal RNAPI, RNAPII, and RNAPIII; six of the seven RNAP subunits without giardial homologs are polymerase specific. Components of only four of the 12 general transcription initiation factors have giardial homologs. Surprisingly, giardial
TATA-binding protein
(
TBP
) is highly divergent with respect to archaeal and higher eukaryotic TBPs, and a giardial homolog of
transcription factor IIB
was not identified. We conclude that Giardia represents a transition during the evolution of eukaryal transcription systems, exhibiting a relatively complete set of RNAP subunits and a rudimentary basal initiation apparatus for each transcription system. Most class-specific RNAP subunits and basal initiation factors appear to have evolved after the divergence of Giardia from the main eukaryotic line of descent. Consequently, Giardia is predicted to be unique in many aspects of transcription initiation with respect to paradigms derived from studies in crown eukaryotes.
...
PMID:Evolution of eukaryotic transcription: insights from the genome of Giardia lamblia. 1528 74
FOXM1c transactivates the c-myc promoter via the P1 and P2 TATA boxes using a new mechanism. Whereas the P1 TATA box TATAATGC requires its sequence context to be FOXM1c responsive, the P2 TATA box TATAAAAG alone is sufficient to confer FOXM1c responsiveness to any minimal promoter. FOXM1c transactivates by binding to the TATA box as well as directly to
TATA-binding protein
,
transcription factor IIB
and transcription factor IIA. This new transactivation mechanism is clearly distinguished from the function of FOXM1c as a conventional transcription factor. The central domain of FOXM1c functions as an essential domain for activation via the TATA box, but as an inhibitory domain (retinoblastoma protein-independent transrepression domain and retinoblastoma protein-recruiting negative regulatory domain) for transactivation via conventional FOXM1c-binding sites. Each promoter with the P2 TATA box TATAAAAG is postulated to be transactivated by FOXM1c. This was demonstrated for the promoters of c-fos, hsp70 and histone H2B/a. A database search revealed almost 300 probable FOXM1c target genes, many of which function in proliferation and tumorigenesis. Accordingly, dominant-negative FOXM1c proteins reduced cell growth approximately threefold, demonstrating a proliferation-stimulating function for wild-type FOXM1c.
...
PMID:FOXM1c transactivates the human c-myc promoter directly via the two TATA boxes P1 and P2. 1696 35
2-Chlorodeoxyadenosine (CldAdo, Cladribine), a nucleoside analog used in the treatment of hairy cell leukemia, is phosphorylated and incorporated into DNA, but is not an absolute chain terminator. We hypothesized that the presence of a chlorine molecule projecting into the DNA minor groove would affect DNA:protein-binding interactions. Here, we investigated recognition of and binding to double-stranded CldAMP-substituted TATA promoter sequences by human
TATA-binding protein
(
TBP
) using mobility shift assays. Depending on the site, CldAMP in place of dAMP within a TATA sequence decreased in vitro
TBP
binding by approximately 30% to 55% compared to control sites. When bound to a CldAMP-substituted TATA box, however, the
TBP
complex was more resistant to polyanions, suggesting enhanced stability. Limited exposure of the
TBP
:DNA complex to proteases indicated that
TBP
conformation was altered on CldAMP-substituted DNA compared to control. Further, binding of
transcription factor IIB
to
TBP
was diminished on analog-containing TATA sequences. These results suggest normal
TBP
-binding interactions--specifically recognition, stability, and conformation-are disrupted by CldAMP insertion into eukaryotic promoter sequences.
...
PMID:Presence of the anti-leukemic nucleotide analog, 2-chloro-2'-deoxyadenosine-5'-monophosphate, in a promoter sequence alters DNA binding of TATA-binding protein (TBP). 1732 40
Expansion of the polyglutamine (polyQ) tract in human
TATA-box binding protein
(
TBP
) causes the neurodegenerative disease spinocerebellar ataxia 17 (SCA17). It remains unclear how the polyQ tract regulates normal protein function and induces selective neuropathology in SCA17. We generated transgenic mice expressing polyQ-expanded
TBP
. These mice showed weight loss, progressive neurological symptoms and neurodegeneration before early death. Expanded polyQ tracts reduced
TBP
dimerization but enhanced the interaction of
TBP
with the general transcription factor IIB (
TFIIB
). In SCA17 transgenic mice, the small heat shock protein HSPB1, a potent neuroprotective factor, was downregulated, and
TFIIB
occupancy of the Hspb1 promoter was decreased. Overexpression of HSPB1 or
TFIIB
alleviated mutant
TBP
-induced neuritic defects. These findings implicate the polyQ domain of
TBP
in transcriptional regulation and provide insight into the molecular pathogenesis of SCA17.
...
PMID:Polyglutamine domain modulates the TBP-TFIIB interaction: implications for its normal function and neurodegeneration. 1799 14
To better understand the mechanism of steps in early transcription by RNA polymerase II (pol II), we investigated the molecular determinants of transcript slipping within complexes assembled on promoters containing a pre-melted transcription bubble from -9 to +3. Transcript slippage occurs when an RNA transcript contains a repetitive sequence that allows the transcript to slip back and pair with the template strand of the DNA at a new register before transcription continues. We established the contributions of individual transcription factors, DNA elements, and RNA length to slipping on a heteroduplex template using a highly purified human pol II transcription system. We found that transcripts slip at a very defined point in the transcription reaction, after pol II completes phosphodiester bond synthesis at register +5. This point is set by the position of the polymerase active site on the DNA template, as opposed to the length of the transcript, as well as by a repetitive CUCU sequence that must occur from +2 to +5. Interestingly, slipping at this juncture is induced by
TATA-binding protein
and
transcription factor IIB
and requires a TATA box but not a
transcription factor IIB
recognition sequence. We propose a model in which transcribing complexes, upon completing phosphodiester bond synthesis at register +5, enter one of two branches in which they either complete productive synthesis of the transcript or undergo multiple rounds of transcript slipping.
...
PMID:TATA-binding protein and transcription factor IIB induce transcript slipping during early transcription by RNA polymerase II. 1919 35
The "B-finger" of
transcription factor IIB
(
TFIIB
) is highly conserved and believed to play a role in the initiation process. We performed alanine substitutions across the B-finger of human
TFIIB
, made change-of-charge mutations in selected residues, and substituted the B-finger sequence from other organisms. Mutant proteins were examined in two minimal promoter systems (containing only RNA polymerase II,
TATA-binding protein
, and
TFIIB
) and in a complex system, using
TFIIB
-immunodepleted HeLa cell nuclear extract (NE). Mutations in conserved residues located on the sides of the B-finger had the greatest effect on activity in both minimal promoter systems, with mutations in residues Glu-51 and Arg-66 eliminating activity. The double change-of-charge mutant (E51R:R66E) did not show activity in either minimal promoter system. Mutations in the nonconserved residues at the tip of the B-finger did not significantly affect activity. However, all of the mutations in the B-finger showed at least 25% activity in the HeLa cell NE. Chimeric proteins, containing B-finger sequences from species with conserved residues on the side of the B-finger, showed wild-type activity in a minimal promoter system and in the HeLa cell NE. However, chimeric proteins whose sequence showed divergence on the sides of the B-finger had reduced activity. Transcription factor IIF (TFIIF) partially restored activity of the inactive mutants in the minimal promoter system, suggesting that TFIIF in HeLa cell NE helps to rescue the inactive mutations by interacting with either the B-finger or another component of the initiation complex that is influenced by the B-finger.
...
PMID:Minimal promoter systems reveal the importance of conserved residues in the B-finger of human transcription factor IIB. 1959 95
Gene looping, defined as the interaction of the promoter and the terminator regions of a gene during transcription, requires
transcription factor IIB
(
TFIIB
). We have earlier demonstrated association of
TFIIB
with the distal ends of a gene in an activator-dependent manner (El Kaderi, B., Medler, S., Raghunayakula, S., and Ansari, A. (2009) J. Biol. Chem. 284, 25015-25025). The presence of
TFIIB
at the 3' end of a gene required its interaction with cleavage factor 1 (CF1) 3' end processing complex subunit Rna15. Here, employing affinity chromatography and glycerol gradient centrifugation, we show that
TFIIB
associates with poly(A) polymerase and the entire CF1 complex in yeast cells. The factors required for general transcription such as
TATA-binding protein
, RNA polymerase II, and TFIIH are not a component of the
TFIIB
complex. This holo-
TFIIB
complex was resistant to MNase digestion. The complex was observed only in the looping-competent strains, but not in the looping-defective sua7-1 strain. The requirement of Rna15 in gene looping has been demonstrated earlier. Here we provide evidence that poly(A) polymerase (Pap1) as well as CF1 subunits Rna14 and Pcf11 are also required for loop formation of MET16 and INO1 genes. Accordingly, cross-linking of
TFIIB
to the 3' end of genes was abolished in the mutants of Pap1, Rna14, and Pcf11. We further show that in sua7-1 cells, where holo-
TFIIB
complex is not formed, the kinetics of activated transcription is altered. These results suggest that a complex of
TFIIB
, CF1 subunits, and Pap1 exists in yeast cells. Furthermore,
TFIIB
interaction with the CF1 complex and Pap1 is crucial for gene looping and transcriptional regulation.
...
PMID:Evidence for a complex of transcription factor IIB with poly(A) polymerase and cleavage factor 1 subunits required for gene looping. 2183 17
Mediator complex functions at the recruitment as well as the post-recruitment steps of transcription. Here we provide evidence for a novel role of Mediator in termination of transcription. Mediator subunit Srb5/Med18 cross-links to the 5' and 3' ends of INO1 and CHA1. In srb5(-) cells, recruitment of
TATA-binding protein
(
TBP
) and
transcription factor IIB
(
TFIIB
) onto the promoter of these genes remained unaffected, but cross-linking of the cleavage-polyadenylation factors Rna15 and Pta1 toward the 3' end of genes was compromised. In these cells, RNA polymerase II accumulated near the 3' end of genes and beyond. Transcription run-on analysis confirmed a transcription readthrough phenotype in the absence of Srb5/Med18. These results strongly suggest that Mediator subunit Srb5/Med18 is required for proper termination of transcription of a subset of genes in budding yeast.
...
PMID:Novel role for mediator complex subunit Srb5/Med18 in termination of transcription. 2212 76
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