UNIPROT:P51532 - FACTA Search

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Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe the complete nucleotide sequence of a full length cDNA clone encoding a new mouse zinc finger protein gene, Zfp-38 and localize it on chromosome 5 by the interspecific backcross analysis. The N-terminal domain of the Zfp-38 protein (64 kDa) contains 358 amino acids and the C-terminal domain of 197 residues encodes 7 zinc fingers. We also present evidence that Zfp-38 is a strong transcriptional activator. The transactivation domain was localized in the non finger region and a fusion protein containing 112 amino acid residues from this region of the Zfp-38 and the DNA binding domain of the yeast Gal 4 protein, very efficiently transactivated the expression of a reporter CAT plasmid, harboring the Gal4 target site. By in situ hybridization and northern blotting technique, the Zfp-38 transcript can be detected at a highly elevated level during spermatogenesis. Its expression accompanies the progression from pachytene spermatocytes to round spermatids. The undifferentiated spermatogonia or the haploid elongated spermatid and the spermatozoa do not show any detectable level of the transcript. Interestingly, other tissues express low levels of a slightly shorter transcript with a different 5' end as determined by RNase protection. The presence of both a transcriptional activating domain and 7 DNA binding zinc fingers, coupled with the cell type(s) specific expression pattern, suggests that Zfp-38 has the potential to regulate transcription during spermatogenesis.
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PMID:The ubiquitous transactivator Zfp-38 is upregulated during spermatogenesis with differential transcription. 128 28

The protein predicted to be encoded by varicella-zoster virus (VZV) gene 61 exhibits limited amino acid sequence similarity to the herpes simplex virus type 1 nuclear phosphoprotein Vmw110, which functions as a transcriptional activator. The gene 61 protein was expressed in its entirety, or as an amino- or carboxy-terminal fragment in Escherichia coli and vaccinia virus recombinants, and monospecific rabbit antisera were raised against an E. coli fusion between beta-galactosidase and the majority of the gene 61 protein. Use of the antisera showed that the gene 61 protein is present in VZV-infected cell nuclei as a heterogeneous phospho-protein of Mr62K to 65K. Phosphorylation occurs in the amino- and, to a lesser extent, carboxy-terminal portions of the protein. The carboxy-terminal region directs transport of the protein to the nucleus, whereas the amino-terminal region, which contains a potential zinc-binding domain, is responsible for a punctate distribution. Preliminary mapping data indicated that gene 61 is transcribed as a 1.8 kb mRNA which initiates about 65 bp upstream from the translation initiation codon, at a position located appropriately with respect to potential regulatory elements.
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PMID:Characterization of the varicella-zoster virus gene 61 protein. 131 15

The early growth response gene 1 (Egr-1) is a member of the family of immediate early response genes. Egr-1 encodes a nuclear phosphoprotein that binds a specific nonameric DNA sequence through three zinc-finger domains and functions as a transcriptional activator. We tested whether the vasoactive agents platelet-derived growth factor (PDGF), arginine vasopressin (AVP), serotonin (5-HT), and angiotensin II (ANG II) induced Egr-1 mRNA in cultured rat mesangial cells (MCs) and investigated the role of protein kinase C (PKC) in mediating the induction process. PDGF, AVP, and 5-HT induced Egr-1 mRNA within 15 min, reaching peak levels at 45-60 min. After PDGF and 5-HT stimulation, Egr-1 mRNA levels returned to baseline within 4 h, whereas AVP induced a sustained increase for up to 8 h. There was a very close correlation between doses required for Egr-1 induction and induction of MC proliferation. ANG II was a very weak MC mitogen and induced only a small increase in Egr-1 mRNA. Comparison of control cells with cells depleted of PKC by 48 h of PMA treatment revealed that induction of Egr-1 by PDGF and 5-HT is independent of PKC. In contrast, however, the Egr-1 response to AVP was diminished in PKC-depleted cells. AVP induced Egr-1 mRNA 10.9-fold in control cells, compared with 7.8-fold in PKC-depleted cells. Egr-1 mRNA after AVP stimulation remained elevated in control cells for up to 8 h but returned to baseline after 120 min in PKC-depleted cells. Similar results were obtained using the PKC-inhibitor H-7. Using immunocytochemistry, PDGF and AVP were found to induce Egr-1 protein within 30 min localized to the nucleus. We conclude that there is a strong correlation between induction of Egr-1 after stimulation with PDGF, AVP, 5-HT, and ANG II and the proliferative response elicited by these agents in MCs. AVP induces Egr-1 by both PKC-dependent and PKC-independent pathways, whereas the effects of PDGF and 5-HT are independent of PKC.
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PMID:Effect of vasoactive agents on induction of Egr-1 in rat mesangial cells: correlation with mitogenicity. 141 34

Transcription of metallothionein genes is activated by heavy metals such as zinc and cadmium, and a DNA element called metal responsive element (MRE) is essential for this process. By mobility-shift assay, we identified a HeLa-cell nuclear protein which specifically binds to MREa of human metallothionein-IIA gene. This protein, named ZRF (zinc-regulatory factor), is present in the cells untreated with heavy metals. Zinc is essential for, and increases in a dose-dependent manner, the binding of ZRF to MREa. Other heavy metals which can also induce metallothioneins, including cadmium, copper and mercury, do not activate ZRF. A MREa-containing oligonucleotide that can bind ZRF confers heavy metal-inducibility to a heterologous promoter, suggesting that ZRF is a zinc-dependent transcriptional activator. In addition to the MRE core sequence, the surrounding sequences are also important for both ZRF binding in vitro, and zinc-dependent transcriptional activation in vivo. MREa by itself responds not only to zinc but also to other metallothionein-inducing heavy metals, indicating that the ZRF protein, not the MREa sequence, is responsible for the zinc specificity.
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PMID:Zinc-specific activation of a HeLa cell nuclear protein which interacts with a metal responsive element of the human metallothionein-IIA gene. 145 36

The yeast transcriptional activator GAL4 binds co-operatively to four related 17-base-pair sequences within an upstream activating sequence (UASG) to activate transcription of the GAL1 and GAL10 genes. It belongs to a class of gene regulatory proteins which all contain a highly conserved cysteine-rich region within their DNA-binding domains. This region binds zinc and it has been proposed that the cysteine residues coordinate the zinc, creating a structure analogous to one of the 'zinc fingers' of the transcription factor TFIIIA (ref. 8). Using 1H-113Cd two-dimensional nuclear magnetic resonance spectra of the cadmium form of the domain, we previously showed that the protein contains a Cd2Cys6 cluster where cysteines 11 and 28 act as bridging ligands. A similar study of a fragment of GAL4 has recently been published. We report here the solution structure of the DNA binding domain of GAL4; two helix-turn-strand motifs pack around a Zn2Cys6 cluster in a novel pseudo-symmetrical arrangement. The results show that the GAL4 zinc-binding domain differs significantly from both the TFIIIA-type zinc finger and the steroid hormone receptor DNA-binding domains.
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PMID:Structure of the DNA-binding domain of zinc GAL4. 155 14

The ALCR protein is the transcriptional activator of the ethanol utilization pathway in the filamentous fungus Aspergillus nidulans. This activator belongs to a family of fungal proteins having a conserved DNA-binding domain containing six cysteines (C6 class) with some striking features. At variance with other motifs of this class, the binding domain of ALCR is strongly asymmetrical in relation to the central cysteines and moreover was predicted to adopt a helix-turn-helix structure. This domain of ALCR was synthesized in Escherichia coli and purified as a glutathione-S-transferase fusion protein. Our results show that the transcriptional activator ALCR is a DNA-binding protein. The DNA-binding motif contains zinc that is necessary for the specific DNA binding. The ALCR peptide binds upstream of the coding region of alcR to two specific targets with different affinities that are characterized by a conserved 5-nucleotide core, 5'-CCGCA-3' (or its reverse). One site, the lower-affinity binding site, is a direct repeat, and the other, the higher-affinity binding site, is a palindromic sequence with dyad symmetry. Therefore, the ALCR binding protein is able to recognize one DNA sequence in two different configurations. An alcR mutant obtained by deletion of the two specific targets in the cis-acting region of the alcR gene is unable to grow on ethanol and does not express any alcohol dehydrogenase activity. These results demonstrate that the binding sites are in vivo functional targets (UASalc) for the ALCR protein in A. nidulans. They corroborate prior evidence that alcR is autoregulated.
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PMID:Identification of the promoter region involved in the autoregulation of the transcriptional activator ALCR in Aspergillus nidulans. 156 30

NGFI-A is a mammalian transcription factor that contains zinc fingers similar to those observed in several other proteins, including NGFI-C and Krox-20. To define precisely the DNA binding domain of NGFI-A, we selected mutants using a chimeric transcriptional activator that contains the NGFI-A zinc finger domain sandwiched between the lexA DNA binding domain and the GAL4 transcriptional activating domain. Expression of this lexA-NGFI-A-GAL4 (LAG) trimeric protein in yeast significantly retarded their growth, unlike an activator containing only the lexA and GAL4 components. This suggested that LAG inappropriately regulates genes in yeast that contain NGFI-A binding sites. Yeast that contained LAG reverted to wild-type growth at high frequency by inactivation of LAG. The mutations recovered from these revertants were specifically limited to the 83-residue NGFI-A zinc finger domain by requiring that the lexA and GAL4 portions of the LAG chimera remain functional. Nearly all of the 93 mutants obtained contained single missense mutations that mapped within the zinc fingers to residues thought to be important for zinc finger function. Deletion analysis of native NGFI-A verified that residues distant from the zinc fingers do not influence DNA binding, thus establishing the minimal functional DNA binding domain. Interestingly, many zinc finger residues ascribed specific functions by x-ray crystallography were never mutated in yeast, implying that the identity of these residues is not critical. Surprisingly, not all of the mutations tested significantly impaired NGFI-A-specific DNA binding, suggesting that the function of these zinc fingers is more diverse than previously recognized.
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PMID:In vivo mutational analysis of the NGFI-A zinc fingers. 174 Apr 23

Copper, zinc superoxide dismutase (SOD1 gene product) (superoxide:superoxide oxidoreductase, EC 1.15.1.1) is a copper-containing enzyme that functions to prevent oxygen toxicity. In the yeast Saccharomyces cerevisiae, copper levels exert some control over the level of SOD1 expression. We show that the ACE1 transcriptional activator protein, which is responsible for the induction of yeast metallothionein (CUP1) in response to copper, also controls the SOD1 response to copper. A single binding site for ACE1 is present in the SOD1 promoter region, as demonstrated by DNase I protection and methylation interference experiments, and is highly homologous to a high-affinity ACE1 binding site in the CUP1 promoter. The functional importance of this DNA-protein interaction is demonstrated by the facts that (i) copper induction of SOD1 mRNA does not occur in a strain lacking ACE1 and (ii) it does not occur in a strain containing a genetically engineered SOD1 promoter that lacks a functional ACE1 binding site.
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PMID:ACE1, a copper-dependent transcription factor, activates expression of the yeast copper, zinc superoxide dismutase gene. 192 15

The transcriptional activator LEU3 of Saccharomyces cerevisiae belongs to a family of lower eukaryotic DNA binding proteins with a well-conserved DNA binding motif known as the Zn(II)2Cys6 binuclear cluster. We have constructed mutations in LEU3 that affect either one of the conserved cysteines (Cys47) or one of several amino acids located within a variable subregion of the DNA binding motif. LEU3 proteins with a mutation at Cys47 were very poor activators which could not be rescued by supplying Zn(II) to the growth medium. Mutations within the variable subregion were generally well-tolerated. Only two of seven mutations in this region generated poor activators, and both could be reactivated by Zn(II) supplements. Three of the other five mutations gave rise to activators that were better than wild type. One of these, His50Cys, exhibited a 1.5 fold increase in in vivo target gene activation and a notable increase in the affinity for target DNA. The properties of the His50Cys mutant are discussed in terms of a variant structure of the DNA binding motif. During the course of this work, evidence was obtained suggesting that only one of the two LEU3 protein-DNA complexes routinely seen actually activates transcription. The other (which may contain an additional protein factor) does not.
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PMID:Manipulation of the 'zinc cluster' region of transcriptional activator LEU3 by site-directed mutagenesis. 194 83

alcR is the pathway-specific transcriptional activator of the ethanol regulon in the filamentous fungus, Aspergillus nidulans. The deduced amino acid sequence of a cDNA clone, including the 5' part of the alcR-mRNA, shows that a putative Zn-binding domain of the all-cysteine class, exemplified by GAL4 is present. This structure presents some striking features. At variance with other structures of this class, the binding domain is strongly asymmetrical. Model building indicates that the zinc-binding motif of alcR could adopt an helix-turn-helix structure. We propose that the DNA-binding motif of alcR could participate in two types of DNA-binding structures: the zinc-cluster and the helix-turn-helix.
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PMID:Correct intron splicing generates a new type of a putative zinc-binding domain in a transcriptional activator of Aspergillus nidulans. 205 73

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