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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 SUD1 gene was identified during a hunt for mutants that are able to express an sta1 gene (encoding an extracellular glucoamylase) lacking an upstream activation sequence (UAS) for transcription. A null allele of sud1 alleviated the transcriptional defect of the UAS-less sta1 and also suppressed mutations in trans-acting genes (GAM1/
SNF2
and GAM3/ADR6) required for transcription of STA1. The mutation also increased expression from various core promoters (CYC1, CUP1, HIS3, PUT1, and PUT2), suggesting that the SUD1 protein is a global transcriptional regulator that plays a negative role at or near the TATA element. However, the SUD1 function was ineffective on promoters containing a UAS from either STA1 or GAL10 under derepressed conditions. The sud1 mutation suppressed the salt-sensitive cell growth phenotype caused by elevated levels of the
TATA-binding protein
(SPT15), further suggesting a transcriptional role for SUD1. sud1 cells showed additional pleiotropic phenotypes: temperature-sensitive (ts) growth, reduced efficiencies of sporulation, and sensitivity to heat shock and nitrogen starvation. The SUD1 gene is predicted to encode a 64 kDa, hydrophilic protein.
...
PMID:Isolation and characterization of the SUD1 gene, which encodes a global repressor of core promoter activity in Saccharomyces cerevisiae. 826 36
MOT1 is an essential Saccharomyces cerevisiae protein and a member of the
SNF2
/SWI2 family of ATPases. MOT1 functions by removing
TATA-binding protein
(
TBP
) from DNA, and as a consequence, MOT1 can regulate transcription both in vitro and in vivo. Here we describe the in vivo and in vitro activities of MOT1 deletion and substitution mutants. The results indicate that MOT1 is targeted to
TBP
both in vitro and in vivo via amino acids in its nonconserved N terminus. The conserved C-terminal ATPase of MOT1 appears to contribute to
TBP
-DNA complex recognition in the absence of ATP, but it appears to function primarily during the actual ATP-dependent dissociation reaction. Chimeric proteins in which homologous portions of
SNF2
/SWI2 have been substituted for the MOT1 ATPase can bind to
TBP
-DNA complexes but fail to dissociate these complexes in the presence of ATP, suggesting that the specificity of action of MOT1 is also conferred by the C-terminal ATPase. ATPase assays demonstrate that the MOT1 ATPase is activated by
TBP
. Thus, MOT1 undergoes at least two conformational changes: (i) an allosteric effect of
TBP
that mediates the activation of the MOT1 ATPase and (ii) an ATP-driven "power stroke" that causes
TBP
-DNA complex dissociation. These results provide a general framework for understanding how members of the
SNF2
/SWI2 protein family use ATP to modulate protein-DNA interactions to regulate many diverse processes in cells.
...
PMID:Molecular analysis of the SNF2/SWI2 protein family member MOT1, an ATP-driven enzyme that dissociates TATA-binding protein from DNA. 923 40
Regulation of RNA polymerase II (pol II) transcription is a highly dynamic process requiring the coordinated interaction of an array of regulatory proteins. Central to this process is the
TATA-binding protein
(
TBP
), the key component of the multiprotein complex TFIID. Interaction of
TBP
with core promoters nucleates the assembly of the preinitiation complex and subsequent recruitment of pol II. Despite recent advances in our understanding of the dynamic nature of the pol II transcription apparatus, the dynamics of
TBP
function on pol II promoters has remained largely unexplored. Human BTAF1 (TAF(II)170/TAF-172) and its yeast ortholog, Mot1p, are evolutionarily conserved members of the
SNF2
-like family of ATPase proteins. Genetic identification of Mot1p as a repressor of pol II transcription was supported by findings that Mot1p and BTAF1 could dissociate
TBP
from TATA DNA complexes using the energy of ATP hydrolysis. Recent data have revealed new aspects of BTAF1 and Mot1p as positive regulators of
TBP
function in the pol II system and have described new observations relating to their molecular mechanism of action. We review these data in the context of previous findings with particular attention paid to how human BTAF1 and Mot1p may dynamically regulate
TBP
function on pol II promoters in cells.
...
PMID:Roles for BTAF1 and Mot1p in dynamics of TATA-binding protein and regulation of RNA polymerase II transcription. 1455 59
BTAF1 (formerly named TAF(II)170/TAF-172) is an essential, evolutionarily conserved member of the
SNF2
-like family of ATPase proteins and together with
TATA-binding protein
(
TBP
) forms the B-TFIID complex. BTAF1 has been proposed to play a key role in the dynamic regulation of
TBP
function in RNA polymerase II transcription. We have determined the structure of native B-TFIID purified from human cells by electron microscopy and by image analysis of single particles at a resolution of 28 A. B-TFIID is 15 x 9 nm in size and is organized into a large domain of about 170 kDa, which can be subdivided into two domains. Extending from this domain is a long thumb, which in turn is divided into subdomains of about 25, 15, and 35 kDa, the largest of which is located at the end of the thumb. Immunolabeling experiments localize the extreme carboxyl terminus of BTAF1 within the 170-kDa domain, whereas the amino terminus and
TBP
co-localize to the end of the protruding thumb. The central portion of BTAF1 localizes to the base of the thumb. Comparison of the native B-TFIID with its recombinant form shows that both share a similar domain organization. Collectively, these data provide the first structural model of the B-TFIID complex and map its key functional domains.
...
PMID:Molecular architecture of the basal transcription factor B-TFIID. 1498 2
Gene transcription in mammalian cells is a dynamic process involving regulated assembly of transcription complexes on chromatin in which the
TATA-binding protein
(
TBP
) plays a central role. Here, we investigate the dynamic behaviour of
TBP
by a combination of fluorescence recovery after photobleaching (FRAP) and biochemical assays using human cell lines of different origin. The majority of nucleoplasmic
TBP
and other TFIID subunits associate with chromatin in a highly dynamic manner.
TBP
dynamics are regulated by the joint action of the
SNF2
-related BTAF1 protein and the NC2 complex. Strikingly, both BTAF1 and NC2 predominantly affect
TBP
dissociation rates, leaving the association rate unchanged. Chromatin immunoprecipitation shows that BTAF1 negatively regulates
TBP
and NC2 binding to active promoters. Our results support a model for a BTAF1-mediated release of
TBP
-NC2 complexes from chromatin.
...
PMID:Chromatin interaction of TATA-binding protein is dynamically regulated in human cells. 2062 52
