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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A novel mouse gene, Enhancer trap locus 1 (Etl-1), was identified in close proximity to a lacZ enhancer trap integration in the mouse genome showing a specific beta-galactosidase staining pattern during development. In situ analysis revealed a widespread but not ubiquitous expression of Etl-1 throughout development with particularly high levels in the central nervous system and epithelial cells. The amino acid sequence of the Etl-1 protein deduced from the cDNA shows strong similarity, over a stretch of 500 amino acids, to the Drosophila brahma protein involved in the regulation of homeotic genes and to the yeast
transcriptional activator
protein SNF2/
SWI2
as well as to the RAD54 protein and the recently described helicase-related yeast proteins STH1 and MOT1. Etl-1 is the first mammalian member of this group of proteins that are implicated in gene regulation and/or influencing chromatin structure. The homology to the regulatory proteins SNF2/
SWI2
and brahma and the expression pattern during embryogenesis suggest that Etl-1 protein might be involved in gene regulating pathways during mouse development.
...
PMID:The mouse Enhancer trap locus 1 (Etl-1): a novel mammalian gene related to Drosophila and yeast transcriptional regulator genes. 148 24
The yeast SNF-SWI complex is required for transcriptional activation of diverse genes and has been shown to alter chromatin structure. The complex has at least 10 components, including SNF2/
SWI2
, SNF5, SNF6, SWI1/ADR6, and SWI3, and has been widely conserved in eukaryotes. Here we report the characterization of a new component. We identified proteins that interact in the two-hybrid system with the N-terminal region of SNF2, preceding the ATPase domain. In addition to SWI3, we recovered a new 19-kDa protein, designated SNF11. Like other SNF/SWI proteins, SNF11 functions as a
transcriptional activator
in genetic assays. SNF11 interacts with SNF2 in vitro and copurifies with the SNF-SWI complex from yeast cells. Using a specific antibody, we showed that SNF11 coimmunoprecipitates with members of the SNF-SWI complex and that SNF11 is tightly and stoichiometrically associated with the complex. Furthermore, SNF11 was detected in purified SNF-SWI complex by staining with Coomassie blue dye; its presence previously went unrecognized because it does not stain with silver. SNF11 interacts with a 40-residue sequence of SNF2 that is highly conserved, suggesting that SNF11 homologs exist in other organisms.
...
PMID:SNF11, a new component of the yeast SNF-SWI complex that interacts with a conserved region of SNF2. 762 18
The Drosophila brahma (brm) gene encodes an activator of homeotic genes that is highly related to the yeast
transcriptional activator
SWI2
(SNF2), a potential helicase. To determine whether brm is a functional homolog of
SWI2
or merely a member of a family of
SWI2
-related genes, we searched for additional Drosophila genes related to
SWI2
and examined their function in yeast cells. In addition to brm, we identified one other Drosophila relative of
SWI2
: the closely related ISWI gene. The 1,027-residue ISWI protein contains the DNA-dependent ATPase domain characteristic of the
SWI2
protein family but lacks the three other domains common to brm and
SWI2
. In contrast, the ISWI protein is highly related (70% identical) to the human hSNF2L protein over its entire length, suggesting that they may be functional homologs. The DNA-dependent ATPase domains of brm and
SWI2
, but not ISWI, are functionally interchangeable; a chimeric
SWI2
-brm protein partially rescued the slow growth of swi2- cells and supported transcriptional activation mediated by the glucocorticoid receptor in vivo in yeast cells. These findings indicate that brm is the closest Drosophila relative of
SWI2
and suggest that brm and
SWI2
play similar roles in transcriptional activation.
...
PMID:Identification and characterization of Drosophila relatives of the yeast transcriptional activator SNF2/SWI2. 790 17
Several of the SNF and SWI genes of Saccharomyces cerevisiae code for proteins believed to assist transcriptional activators by relieving nucleosome repression. One of these proteins, SNF2/
SWI2
, has a homologue in Drosophila, a regulator of homeotic genes known as brahma or brm. In this report, we show that a counterpart of SNF2/
SWI2
also exists in mice and humans. The human protein, designated hbrm, is a 180 kDa nuclear factor that can function as a
transcriptional activator
when fused to a heterologous DNA binding domain. The mouse homologue of hbrm is expressed in all mouse organs tested while hbrm was detected in some but not all investigated human cell lines. In cells failing to express the endogenous gene, transfected hbrm cooperates with the glucocorticoid receptor (GR) in transcriptional activation. However, hbrm had no effect on the activity of several other transcription factors, including the homeoprotein HNF-1. The co-operation between hbrm and GR required the DNA binding domain of GR and two separated regions of the hbrm protein, including a domain with homology to known helicases.
...
PMID:A human homologue of Saccharomyces cerevisiae SNF2/SWI2 and Drosophila brm genes potentiates transcriptional activation by the glucocorticoid receptor. 822 38
The generation of an accessible heat shock promoter in chromatin in vitro requires the concerted action of the GAGA transcription factor and NURF, an ATP-dependent nucleosome remodeling factor. NURF is composed of four subunits and is biochemically distinct from the
SWI2
/SNF2 multiprotein complex, a
transcriptional activator
that also appears to alter nucleosome structure. We have obtained protein microsequence and immunological evidence identifying the 140 kDa subunit of NURF as ISWI, previously of unknown function but highly related to
SWI2
/SNF2 only in the ATPase domain. The ISWI protein is localized to the cell nucleus and is expressed throughout Drosophila development at levels as high as 100,000 molecules/cell. The convergence of biochemical and genetic studies on ISWI and
SWI2
/SNF2 underscores these ATPases and their close relatives as key components of independent systems for chromatin remodeling.
...
PMID:ISWI, a member of the SWI2/SNF2 ATPase family, encodes the 140 kDa subunit of the nucleosome remodeling factor. 852 2
We isolated a new mouse gene that is highly expressed in thymocytes, testis, and brain. This gene, SRG3, showed a significant sequence homology to SWI3, a yeast
transcriptional activator
, and its human homolog BAF155. SRG3 encodes 1,100 amino acids and has 33-47% identity with SWI3 protein over three regions. The SRG3 protein contains an acidic NH2 terminus, a myb-like DNA binding domain, a leucine-zipper motif, and a proline- and glutamine-rich region at its COOH terminus. Rabbit antiserum raised against a COOH-terminal polypeptide of the SRG3 recognized a protein with an apparent molecular mass of 155 kD. The serum also detected a 170-kD protein that seems to be a mouse homologue of human BAF170. Immunoprecipitation of cell extract with the antiserum against the mouse SRG3 also brought down a 195-kD protein that could be recognized by an antiserum raised against human
SWI2
protein. The results suggest that the SRG3 protein associates with a mouse
SWI2
. The SRG3 protein is expressed about three times higher in thymocytes than in peripheral lymphocytes. The expression of anti-sense RNA to SRG3 mRNA in a thymoma cell line, S49.1, reduced the expression level of the SRG3 protein, and decreased the apoptotic cell death induced by glucocorticoids. These results suggest that the SRG3 protein is involved in the glucocorticoid-induced apoptosis in the thymoma cell line. This implicates that the SRG3 may play an important regulatory role during T cell development in thymus.
...
PMID:A new mouse gene, SRG3, related to the SWI3 of Saccharomyces cerevisiae, is required for apoptosis induced by glucocorticoids in a thymoma cell line. 915 8
HEAT repeats correspond to tandemly arranged curlicue-like structures that appear to serve as flexible scaffolding on which other components can assemble. Using sensitive sequence analysis techniques we detected HEAT repeats in various chromosome-associated proteins, including four families of proteins associated with condensins and cohesins, which are nuclear complexes that contain structural maintenance of chromosome (SMC) proteins. Among the proteins detected were the XCAP-D2 and XCAP-G subunits of the Xenopus laevis 13S condensin complex, the Aspergillus BimD and Sordaria macrospora Spo76p proteins, the budding yeast Scc2p protein, and the related Drosophila
transcriptional activator
Nipped-B. Clathrin adaptor and COP-I coatomer subunits, which function in vesicle coat assembly and were previously noted to share weak sequence similarity to condensin subunits, also contain HEAT repeats. HEAT repeats were also found in the TBP-associated TIP120 protein, a global enhancer of transcription, and in the budding yeast Mot1p protein, which is a member of the
SWI2
/SNF2 family.
SWI2
/SNF2 proteins, some of which are helicases, perform diverse roles in transcription control, DNA repair, and chromosome segregation and form chromatin-remodeling complexes. HEAT repeats also were found in dis1-TOG family and cofactor D family microtubule-associated proteins, which, owing to their roles in microtubule dynamics, perform functions related to mitotic progression and chromosome segregation. Hence, our analysis predicts structural features of these proteins and suggests that HEAT repeats may play important roles in chromosome dynamics.
...
PMID:HEAT repeats associated with condensins, cohesins, and other complexes involved in chromosome-related functions. 1104 44
We report that RapA, an Escherichia coli RNA polymerase (RNAP)-associated homolog of
SWI2
/SNF2, is capable of dramatic activation of RNA synthesis. The RapA-mediated transcriptional activation in vitro depends on supercoiled DNA and high salt concentrations, a condition that is likely to render the DNA superhelix tightly compacted. Moreover, RapA activates transcription by stimulating RNAP recycling. Mutational analyses indicate that the ATPase activity of RapA is essential for its function as a
transcriptional activator
, and a rapA null mutant exhibits a growth defect on nutrient plates containing high salt concentrations in vivo. Thus, RapA acts as a general transcription factor and an integral component of the transcription machinery. The mode of action of RapA in remodeling posttranscription or posttermination complexes is discussed.
...
PMID:RapA, a bacterial homolog of SWI2/SNF2, stimulates RNA polymerase recycling in transcription. 1175 38
