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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Suppressor of Ty (SPT) genes were originally identified through a genetic screen for mutations in the yeast Saccharomyces cerevisiae that restore gene expression disrupted by the insertion of the transposon Ty. Classic members of the SPT gene family, SPT11, SPT12, and SPT15, encode for the histones H2A and H2B, and for
TATA-binding protein
(
TBP
), respectively. Over the past few years, molecular complexes and cellular functions in which other SPT gene products involve have been discovered through genetic and biochemical studies in yeast and several other organisms: Key regulators of transcription and chromatin structure, such as DSIF, SAGA, and
FACT
, all contain SPT gene products as essential subunits. In addition, accumulating evidence suggests that SPT gene products play more diverse roles, including roles in DNA replication, DNA recombination and developmental regulation. Here we review the current understanding of the functions and roles of the SPT genes, with special emphasis on the role of SPT5 in transcript elongation and in neuronal development in vertebrates.
...
PMID:SPT genes: key players in the regulation of transcription, chromatin structure and other cellular processes. 1117 17
The
FACT
complex facilitates transcription on chromatin templates in vitro, and it has been functionally linked to nucleosomes and putative RNA polymerase II (Pol II) elongation factors. In Saccharomyces cerevisiae cells,
FACT
specifically associates with active Pol II genes in a TFIIH-dependent manner and travels across the gene with elongating Pol II. Conditional inactivation of the
FACT
subunit Spt16 results in increased Pol II density, transcription, and
TATA-binding protein
(
TBP
) occupancy in the 3' portion of certain coding regions, indicating that
FACT
suppresses inappropriate initiation from cryptic promoters within coding regions. Conversely, loss of Spt16 activity reduces the association of
TBP
, TFIIB, and Pol II with normal promoters. Thus,
FACT
is required for wild-type cells to restrict initiation to normal promoters, thereby ensuring that only appropriate mRNAs are synthesized. We suggest that
FACT
contributes to the fidelity of Pol II transcription by linking the processes of initiation and elongation.
...
PMID:The FACT complex travels with elongating RNA polymerase II and is important for the fidelity of transcriptional initiation in vivo. 1458 89
The Saccharomyces cerevisiae Nhp6 protein is related to the high-mobility-group B family of architectural DNA-binding proteins that bind DNA nonspecifically but bend DNA sharply. Nhp6 is involved in transcriptional activation by both RNA polymerase II (Pol II) and Pol III. Our previous genetic studies have implicated Nhp6 in facilitating
TATA-binding protein
(
TBP
) binding to some Pol II promoters in vivo, and we have used a novel genetic screen to isolate 32 new mutations in
TBP
that are viable in wild-type cells but lethal in the absence of Nhp6. The
TBP
mutations that are lethal in the absence of Nhp6 cluster in three regions: on the upper surface of
TBP
that may have a regulatory role, near residues that contact Spt3, or near residues known to contact either TFIIA or Brf1 (in TFIIIB). The latter set of mutations suggests that Nhp6 becomes essential when a
TBP
mutant compromises its ability to interact with either TFIIA or Brf1. Importantly, the synthetic lethality for some of the
TBP
mutations is suppressed by a multicopy plasmid with SNR6 or by an spt3 mutation. It has been previously shown that nhp6ab mutants are defective in expressing SNR6, a Pol III-transcribed gene encoding the U6 splicing RNA. Chromatin immunoprecipitation experiments show that
TBP
binding to SNR6 is reduced in an nhp6ab mutant. Nhp6 interacts with Spt16/Pob3, the yeast equivalent of the
FACT
elongation complex, consistent with nhp6ab cells being extremely sensitive to 6-azauracil (6-AU). However, this 6-AU sensitivity can be suppressed by multicopy SNR6 or BRF1. Additionally, strains with SNR6 promoter mutations are sensitive to 6-AU, suggesting that decreased SNR6 RNA levels contribute to 6-AU sensitivity. These results challenge the widely held belief that 6-AU sensitivity results from a defect in transcriptional elongation.
...
PMID:TATA-binding protein mutants that are lethal in the absence of the Nhp6 high-mobility-group protein. 1522 42
A crucial step in eukaryotic transcriptional initiation is recognition of the promoter TATA by the
TATA-binding protein
(
TBP
), which then allows TFIIA and TFIIB to be recruited. However, nucleosomes block the interaction between
TBP
and DNA. We show that the yeast
FACT
complex (yFACT) promotes
TBP
binding to a TATA box in chromatin both in vivo and in vitro. The SPT16 gene encodes a subunit of yFACT, and we show that certain spt16 mutations are synthetically lethal with
TBP
mutants. Some of these genetic defects can be suppressed by TFIIA overexpression, strongly suggesting a role for yFACT in
TBP
-TFIIA complex formation in vivo. Mutations in the TOA2 subunit of TFIIA that disrupt
TBP
-TFIIA complex formation in vitro are also synthetically lethal with spt16. In some cases this spt16 toa2 lethality is suppressed by overexpression of
TBP
or the Nhp6 architectural transcription factor that is also a component of yFACT. The Spt3 protein in the SAGA complex has been shown to regulate
TBP
binding at certain promoters, and we show that some spt16 phenotypes can be suppressed by spt3 mutations. Chromatin immunoprecipitations show
TBP
binding to promoters is reduced in single spt16 and spt3 mutants but increases in the spt16 spt3 double mutant, reflecting the mutual suppression seen in the genetic assays. Finally, in vitro studies show that yFACT promotes
TBP
binding to a TATA sequence within a reconstituted nucleosome in a TFIIA-dependent manner. Thus, yFACT functions in establishing transcription initiation complexes in addition to the previously described role in elongation.
...
PMID:The yeast FACT complex has a role in transcriptional initiation. 1598 99
Transcription by RNA polymerase II is impeded by the nucleosomal organization of DNA; these negative effects are modulated at several stages of nucleosomal DNA transcription by
FACT
, a heterodimeric transcription factor. At promoters,
FACT
facilitates the binding of
TATA-binding factor
, while during transcription elongation
FACT
mediates the necessary destabilization of nucleosomes and subsequent restoration of nucleosome structure in the wake of the transcription elongation complex. Altered
FACT
activity can impair the fidelity of transcription initiation and affect transcription patterns. Using reporter genes we have identified new mutant versions of the Spt16 subunit of yeast
FACT
with dominant negative effects on the fidelity of transcription initiation. Two of these spt16 mutant alleles also affect cell integrity. Cells relying on these spt16 mutant alleles display sorbitol-remediated temperature sensitivity, altered sensitivity to detergent, and abnormal morphologies, and are further inhibited by the ssd1-d mutation. The overexpression of components of protein kinase C (Pkc1) signaling diminishes this spt16 ssd1-d temperature sensitivity, whereas gene deletions eliminating components of Pkc1 signaling further impair these spt16 mutant cells. Thus, the
FACT
subunit Spt16 and Pkc1 signaling have an overlapping essential function, with an unexpected role for
FACT
in the maintenance of cell integrity.
...
PMID:New mutant versions of yeast FACT subunit Spt16 affect cell integrity. 1972 24
