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Query: UNIPROT:Q02556 (
DNA-binding domain
)
6,431
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The hematopoietic transcription factor
GATA-1
is essential for development of the erythroid and megakaryocytic lineages. Using the conserved zinc finger
DNA-binding domain
of
GATA-1
in the yeast two-hybrid system, we have identified a novel, multitype zinc finger protein, Friend of GATA-1 (FOG), which binds
GATA-1
but not a functionally inactive mutant lacking the amino (N) finger. FOG is coexpressed with
GATA-1
during embryonic development and in erythroid and megakaryocytic cells. Furthermore, FOG and
GATA-1
synergistically activate transcription from a hematopoietic-specific regulatory region and cooperate during both erythroid and megakaryocytic cell differentiation. These findings indicate that FOG acts as a cofactor for
GATA-1
and provide a paradigm for the regulation of cell type-specific gene expression by GATA transcription factors.
...
PMID:FOG, a multitype zinc finger protein, acts as a cofactor for transcription factor GATA-1 in erythroid and megakaryocytic differentiation. 923 Mar 7
A change of a universally conserved leucine to valine in the
DNA-binding domain
of the GATA factor AreA results in inability to activate some AreA-dependent promoters, including that of the uapA gene encoding a specific urate-xanthine permease. Some other AreA-dependent promoters become able to function more efficiently than in the wild-type context. A methionine in the same position results in a less extreme, but opposite effect. Suppressors of the AreA(Val) mutation mapping in the uapA promoter show that the nature of the base in the first position of an HGATAR (where H stands for A, T or C) sequence determines the relative affinity of the promoter for the wild-type and mutant forms of AreA. In vitro binding studies of wild-type and mutant AreA proteins are completely consistent with the phenotypes in vivo. Molecular models of the wild-type and mutant AreA-DNA complexes derived from the atomic coordinates of the
GATA-1
-AGATAA complex account both for the phenotypes observed in vivo and the binding differences observed in vitro. Our work extends the consensus of physiologically relevant binding sites from WGATAR to HGATAR, and provides a rationale for the almost universal evolutionary conservation of leucine at the seventh position of the Zn finger of GATA factors. This work shows inter alia that the sequence CGATAGagAGATAA, comprising two almost adjacent AreA-binding sites, is sufficient to ensure activation of transcription of the uapA gene.
...
PMID:Subtle hydrophobic interactions between the seventh residue of the zinc finger loop and the first base of an HGATAR sequence determine promoter-specific recognition by the Aspergillus nidulans GATA factor AreA. 923 7
We have utilized Aspergillus nidulans as a model system for the characterization of the major vertebrate transcription factor GATA-1. This has been achieved both by analysing the function of murine
GATA-1
directly and by using direct gene replacement to introduce chimaeric areA::
GATA-1
derivatives at the areA locus, which encodes a GATA factor involved in regulating nitrogen metabolism in A. nidulans. Although
GATA-1
shows only limited function when expressed in A. nidulans, the C-terminal GATA
DNA-binding domain
can replace the native GATA domain of AREA and retain near wild-type function. Surprisingly, inclusion of the N-terminal
DNA-binding domain
of
GATA-1
has a major role in determining the function of areA::GATA constructs in vivo, leading to a general loss of activation. This negative function is partially dominant and is dependent on both the fidelity of the zinc-chelating structure and a second factor encoded by A. nidulans. The presence of two GATA domains also disrupts modulation of AREA activity. The ability of duplicate GATA domains to disrupt normal signal transduction is not dependent on the relative position of the domains or on the fidelity of the zinc-chelating structure. This demonstrates the utility of nitrogen metabolism's regulation in A. nidulans as a model system for the molecular and genetic characterization of heterologous GATA factors while also providing insights into native Aspergillus regulatory components.
...
PMID:Genetic and molecular characterization of murine GATA-1 in Aspergillus defines a critical role for the N-terminal finger. 968 Mar 27
The
GATA-1
transcription factor is capable of suppressing the myeloid gene expression program when ectopically expressed in myeloid cells. We examined the ability of
GATA-1
to repress the expression and function of the PU.1 transcription factor, a central regulator of myeloid differentiation. We found that
GATA-1
is capable of suppressing the myeloid phenotype without interfering with PU.1 gene expression, but instead was capable of inhibiting the activity of the PU.1 protein in a dose-dependent manner. This inhibition was independent of the ability of
GATA-1
to bind DNA, suggesting that it is mediated by protein-protein interaction. We examined the ability of PU.1 to interact with
GATA-1
and found a direct interaction between the PU.1 ETS domain and the C-terminal finger region of
GATA-1
. Replacing the PU.1 ETS domain with the GAL4
DNA-binding domain
removed the ability of
GATA-1
to inhibit PU.1 activity, indicating that the PU.1
DNA-binding domain
, rather than the transactivation domain, is the target for
GATA-1
-mediated repression. We therefore propose that
GATA-1
represses myeloid gene expression, at least in part, through its ability to directly interact with the PU.1 ETS domain and thereby interfere with PU.1 function. (Blood. 2000;95:2543-2551)
...
PMID:GATA-1 interacts with the myeloid PU.1 transcription factor and represses PU.1-dependent transcription. 1075 33
E4bp4, a member of the basic region/leucine zipper transcription factor superfamily, is up-regulated by the interleukin-3 (IL-3) signaling pathway and plays an important role in the anti-apoptotic response of IL-3. In this study, we demonstrated that E4bp4 is regulated by IL-3 mainly at the transcriptional level. Promoter analysis revealed that a GATA motif downstream of a major transcription initiation site is essential for E4bp4 expression in the IL-3-dependent Ba/F3 cell line. Gel shift assays demonstrated that both
GATA-1
and GATA-2 proteins bind to the E4bp4 GATA site in vitro, and the chromatin immunoprecipitation assay further confirmed the in vivo binding of
GATA-1
to the E4bp4 promoter. Overexpression of
GATA-1
alone transactivates the E4bp4 reporter, whereas transactivation of the E4bp4 reporter by GATA-2 is dependent on the stimulation of IL-3. Last, we demonstrated that alteration of
GATA-1
binding to the GATA site by stably overexpressing
GATA-1
or a
GATA-1
mutant containing only the
DNA-binding domain
not only modulates the expression of the E4bp4 gene but also influences apoptosis induced by IL-3 removal. Taken together, our results suggest that the GATA factors play an important role in transducing the survival signal of IL-3, and one of their cellular targets is E4bp4.
...
PMID:GATA factors are essential for transcription of the survival gene E4bp4 and the viability response of interleukin-3 in Ba/F3 hematopoietic cells. 1202 74
Vertebrate hematopoiesis is regulated by distinct cell-specific transcription factors such as
GATA-1
and SCL. Mammalian p45-NFE2 was characterized for its ability to bind the hypersensitive sites of the globin locus control region. NFE2 is a member of a cap'n'collar (CNC) and basic zipper (BZIP) superfamily that regulates gene transcription. It has been implicated in diverse processes such as globin gene expression, oxidative stress, and platelet lineage differentiation. Here, we have isolated the zebrafish ortholog of NFE2. The gene is highly homologous, particularly in the
DNA-binding domain
. Mapping the zebrafish NFE2 to linkage group 23 establishes a region of chromosomal synteny with human chromosome 12, further suggesting evolutionary conservation. During embryogenesis, the zebrafish gene is expressed specifically in erythroid cells and also in the developing ear. NFE2 expression is lacking in zebrafish mutants that have no hematopoietic cells. An analysis of the sauternes mutant, which carries a mutation in the ALAS-2 gene and thus has defective heme synthesis, demonstrates higher levels of NFE2 expression than normal. This further establishes the block to erythroid differentiation in the sauternes mutant. Our studies demonstrate conservation of the vertebrate genetic program for the erythroid lineage.
...
PMID:Isolation and characterization of zebrafish NFE2. 1238 99
The rapid increase in the number of novel proteins identified in genome projects necessitates simple and rapid methods for assigning function. We describe a strategy for determining whether novel proteins possess typical sequence-specific DNA-binding activity. Many proteins bind recognition sequences of 5 bp or less. Given that there are 4(5) possible 5 bp sites, one might expect the length of sequence required to cover all possibilities would be 4(5) x 5 or 5120 nt. But by allowing overlaps, utilising both strands and using a computer algorithm to generate the minimum sequence, we find the length required is only 516 base pairs. We generated this sequence as six overlapping double-stranded oligonucleotides, termed pentaprobe, and used it in gel retardation experiments to assess DNA binding by both known and putative DNA-binding proteins from several protein families. We have confirmed binding by the zinc finger proteins BKLF, Eos and Pegasus, the Ets domain protein PU.1 and the treble clef N- and C-terminal fingers of
GATA-1
. We also showed that the N-terminal zinc finger domain of FOG-1 does not behave as a typical
DNA-binding domain
. Our results suggest that pentaprobe, and related sequences such as hexaprobe, represent useful tools for probing protein function.
...
PMID:Pentaprobe: a comprehensive sequence for the one-step detection of DNA-binding activities. 1453 Apr 57
In addition to orchestrating the expression of all erythroid-specific genes,
GATA-1
controls the growth, differentiation, and survival of the erythroid lineage through the regulation of genes that manipulate the cell cycle and apoptosis. The stages of mammalian erythropoiesis include global gene inactivation, nuclear condensation, and enucleation to yield circulating erythrocytes, and some of the genes whose expression are altered by
GATA-1
during this process are members of the p53 pathway. In this study, we demonstrate a specific in vitro interaction between the transactivation domain of p53 (p53TAD) and a segment of the
GATA-1
DNA-binding domain
that includes the carboxyl-terminal zinc-finger domain. We also show by immunoprecipitation that the native
GATA-1
and p53 interact in erythroid cells and that activation of p53-responsive promoters in an erythroid cell line can be inhibited by the overexpression of
GATA-1
. Mutational analysis reveals that
GATA-1
inhibition of p53 minimally requires the segment of the
GATA-1
DNA-binding domain
that interacts with p53TAD. This inhibition is reciprocal, as the activation of a
GATA-1
-responsive promoter can be inhibited by p53. Based on these findings, we conclude that inhibition of the p53 pathway by
GATA-1
may be essential for erythroid cell development and survival.
...
PMID:GATA-1 associates with and inhibits p53. 1941 34
Signal transducer and activator of transcription (STAT) family members are key signaling molecules that transduce cellular responses from the cell membrane to the nucleus upon Janus kinase (JAK) activation. Although seven STAT members have been reported in mammals, very limited information on STAT genes in molluscans is available. In this study, we identified and characterized a STAT paralog that is homologous to STAT5 from the disk abalone, Haliotis discus discus, and designated as AbSTAT5. Comparison of the deduced amino acid sequence for AbSTAT5 (790 amino acids) with other counterparts revealed conserved residues important for functions and typical domain regions, including the N-terminal domain, coiled-coil domain,
DNA-binding domain
, linker domain, and Src homology 2 (SH2) domains as mammalian counterparts. Analysis of STAT phylogeny revealed that AbSTAT5 was clustered with the molluscan subgroup in STAT5 clade with distinct evolution. According to the genomic structure of AbSTAT5, the coding sequence was distributed into 20 exons with 19 introns. Immunologically essential transcription factor-binding sites, such as
GATA-1
, HNF, SP1, C/EBP, Oct-1, AP1, c-Jun, and Sox-2, were predicted at the 5'-proximal region of AbSTAT5. Expression of AbSTAT5 mRNA was detected in different stages of embryonic development and observed at considerably higher levels in the morula and late veliger stages. Tissue-specific expressional studies revealed that the highest level of AbSTAT5 transcripts was detected in hemocytes, followed by gill tissues. Temporal expressions of AbSTAT5 were analyzed upon live bacterial (Vibrio parahemolyticus and Listeria monocytogenes), viral (viral hemorrhagic septicemia virus), and pathogen-associated molecular pattern (lipopolysaccharides and Poly I:C) stimulations, and significant elevations indicated immune modulation. These results suggest that AbSTAT5 may be involved in maintaining innate immune responses from developmental to adult stages in the disk abalone. Further, this study provides a basis for structural and functional exploration of STAT members in the invertebrate JAK/STAT signaling pathway.
...
PMID:An invertebrate signal transducer and activator of transcription 5 (STAT5) ortholog from the disk abalone, Haliotis discus discus: Genomic structure, early developmental expression, and immune responses to bacterial and viral stresses. 2661 64
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