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)

The v-rel oncogene product from the avian reticuloendotheliosis virus strain T corresponds to a member of the Rel-related family of enhancer-binding proteins that includes both the mammalian 50- and 65-kDa subunits of the NF-kappa B transcription factor complex. However, in contrast to NF-kappa B, v-Rel has been shown to function as a dominant-negative repressor of kappa B-dependent transcription in many mature cell types. We now demonstrate that a highly conserved motif within the Rel homology domain of v-Rel containing a consensus protein kinase A phosphorylation site is required for DNA binding, transcriptional repression, and cellular transformation mediated by this oncoprotein. However, replacement of the serine phosphate acceptor within the protein kinase A site with an alanine did not alter any of these functions of v-Rel, suggesting that phosphorylation at this site is not central to the regulation of this oncogene product. Rather, the inactive mutations appear to identify a functional domain within v-Rel required for these various biological activities. It is notable that these same mutations do not impair the ability of v-Rel to heterodimerize with the 50-kDa subunit of NF-kappa B, suggesting that v-Rel-mediated transcriptional repression likely involves direct nuclear blockade of the kappa B enhancer rather than indirect alterations in the composition of preformed cytoplasmic NF-kappa B complexes. Paradoxically, when introduced into undifferentiated F9 cells, v-Rel functions as a kappa B-specific transcriptional activator rather than as a dominant-negative repressor. These stimulatory effects of v-Rel require both the conserved protein kinase A phosphorylation site and additional unique C-terminal sequences not needed for v-Rel-mediated repression in mature cells. Retinoic acid-induced differentiation of these F9 cells restores the repressor function of v-Rel. These opposing biological actions of v-Rel occurring in cells at distinct stages of differentiation may have important implications for the mechanism of v-Rel-mediated transformation occurring in avian splenocytes.
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PMID:The v-rel oncogene: insights into the mechanism of transcriptional activation, repression, and transformation. 132 Dec 84

The bZIP DNA-binding proteins are characterized by a 50-amino-acid DNA binding and dimerization motif, consisting of a highly basic DNA-binding region ('b') followed by a leucine zipper dimerization region ('ZIP'). The best characterized bZIP DNA-binding protein is GCN4, a yeast transcriptional activator. GCN4 binds to a 9-base-pair two-fold-symmetric DNA site, 5'-A-4T-3G-2A-1C0T+1C+2A+3T+4-3' (refs 7-10). A detailed model known as the 'induced helical fork' model has been proposed for the structure of the GCN4-DNA complex. Using a site-specific bromouracil-mediated photocrosslinking method, we show here that the alanine at position 238 of GCN4 contacts, or is close to, the thymine 5-methyl of A.T at position +3 of the DNA site in the GCN4-DNA complex. Our results strongly support the induced helical fork model. Our site-specific bromouracil-mediated photocrosslinking method requires no prior information regarding the structure of the protein or the structure of the protein-DNA complex and should be generalizable to DNA-binding proteins that interact with the DNA major groove.
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PMID:Identification of an amino acid-base contact in the GCN4-DNA complex by bromouracil-mediated photocrosslinking. 140 98

The bacteriophage P2 ogr gene encodes an essential 72-amino-acid protein which acts as a positive regulator of P2 late transcription. A P2 ogr deletion phage, which depends on the supply of Ogr protein in trans for lytic growth on Escherichia coli C, has previously been constructed. E. coli B and K-12 were found to support the growth of the ogr-defective P2 phage because of the presence of functional ogr genes located in cryptic P2-like prophages in these strains. The cryptic ogr genes were cloned and sequenced. Compared with the P2 wild-type ogr gene, the ogr genes in the B and K-12 strains are conserved, containing mostly silent base substitutions. One of the base substitutions in the K-12 ogr gene results in replacement of an alanine with valine at position 57 in the Ogr protein but does not seem to affect the function of Ogr as a transcriptional activator. The cryptic ogr genes are constitutively transcribed, apparently at a higher level than the wild-type ogr gene in a P2 lysogen.
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PMID:Escherichia coli K-12 and B contain functional bacteriophage P2 ogr genes. 159 24

OmpR is a transcriptional activator for the ompF and ompC genes of Escherichia coli. Its phosphorylation is mediated by a transmembrane sensory-receptor protein, EnvZ, and is essential for transcriptional activation. In a previous study, when the aspartic acid residue at position 55, the putative phosphorylation site, was replaced with glutamine (D55Q), ompF and ompC expression were completely lost. In this study two pseudorevertants of the D55Q mutation were isolated and identified to be the replacement of threonine at position 83 with alanine (T83A) and glycine at position 94 with serine (G94S). The revertant OmpRs no longer responded to EnvZ function when ompF and ompC expression were examined. The purified D55Q-T83A OmpR was unable to be phosphorylated by EnvZ in vitro. The role of EnvZ as an osmosensor for the environmentally regulated expression of OmpF and OmpC has been indicated in previous studies. The isolation of seemingly EnvZ-independent OmpR revertants in this study, however, made it possible to examine the osmolarity-regulated expression of OmpF and OmpC in the absence of effects exerted by EnvZ. We found that the expression of OmpF and OmpC supported by these revertant OmpRs was clearly regulated in accordance with the change in osmolarity of the growth media. These results indicate that another EnvZ-independent mechanism(s) may also contribute to the regulated expression of the ompF and ompC genes.
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PMID:Intramolecular second-site revertants to the phosphorylation site mutation in OmpR, a kinase-dependent transcriptional activator in Escherichia coli. 164 88

We show that phosphorylation of the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2) by the protein kinase GCN2 mediates translational control of the yeast transcriptional activator GCN4. In vitro, GCN2 specifically phosphorylates the alpha subunit of rabbit or yeast eIF-2. In vivo, phosphorylation of eIF-2 alpha increases in response to amino acid starvation, which is dependent on GCN2. Substitution of Ser-51 with alanine eliminates phosphorylation of eIF-2 alpha by GCN2 in vivo and in vitro and abolishes increased expression of GCN4 and amino acid biosynthetic genes under its control in amino acid-starved cells. The Asp-51 substitution mimics the phosphorylated state and derepresses GCN4 in the absence of GCN2. Thus, an established mechanism for regulating total protein synthesis in mammalian cells mediates gene-specific translational control in yeast.
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PMID:Phosphorylation of initiation factor 2 alpha by protein kinase GCN2 mediates gene-specific translational control of GCN4 in yeast. 173 68

The nucleotide sequence of nirA, mediating nitrate induction in Aspergillus nidulans, has been determined. Alignment of the cDNA and the genomic DNA sequence indicates that the gene contains four introns and encodes a protein of 892 amino acids. The deduced NIRA protein displays all characteristics of a transcriptional activator. A putative double-stranded DNA-binding domain in the amino-terminal part comprises six cysteine residues, characteristic for the GAL4 family of zinc finger proteins. An amino-terminal highly acidic region and two proline-rich regions are also present. The nucleotide sequences of two mutations were determined after they were mapped by transformation with overlapping DNA fragments, amplified by the polymerase chain reaction. nirA87, a mutation conferring noninducibility by nitrate and nitrite, has a -1 frameshift at triplet 340, which eliminates 549 C-terminal amino acids from the polypeptide. Under the assumption that the truncated polypeptide is stable, it comprises the zinc finger domain and the acidic region, which seem not sufficient for transcriptional activation. nirAd-106, an allele conferring nitrogen metabolite derepression of nitrate and nitrite reductase activity, includes two transitions, changing a glutamic acid to a lysine and a valine to an alanine, situated between a basic and a proline-rich region of the protein. Northern (RNA) analysis of the wild type and of constitutive (nirAc) and derepressed (nirAd) mutants show that the nirA transcript does not vary between these strains, being in all cases constitutively expressed. On the other hand, transcript levels of structural genes (niaD and niiA) do vary, being highly inducible in the wild type but constitutively expressed in the nirAc mutant. The nirAd mutant appears phenotypically derepressed, because the niaD and niiA transcript levels are overinduced in the presence of nitrate but are still partially repressed in the presence of ammonium.
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PMID:nirA, the pathway-specific regulatory gene of nitrate assimilation in Aspergillus nidulans, encodes a putative GAL4-type zinc finger protein and contains four introns in highly conserved regions. 192 75

Mouse lymphoma cell line W7M320b, a mutant WEH17 line, requires higher than normal concentrations of glucocorticoid to elicit the hormone responses that are characteristic of this lineage. Complementary DNA clones representing the glucocorticoid receptor (GR) mRNA were derived from the mutant cells, and the sequences coding for the hormone-binding domain were substituted for the analogous wild-type sequences in a GR cDNA expression vector. The function of the resulting GR proteins was tested by transient expression in COS-7 cells along with a glucocorticoid-inducible reporter gene in the presence of varying concentrations of glucocorticoid. From these assays and DNA sequence analyses, two independent functionally significant point mutations in the GR hormone-binding domain were identified. A mutant GR protein containing the single amino acid substitution, Pro547 to Ala, was still functional as a transcriptional activator, but only at hormone concentrations 100 times higher than those required by the wild-type receptor. A second mutant GR protein with a Cys742 to Gly substitution was unstable and almost completely nonfunctional.
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PMID:Two point mutations in the hormone-binding domain of the mouse glucocorticoid receptor that dramatically reduce its function. 192 94

The Drosophila melanogaster E74 gene is induced directly by the steroid hormone ecdysone and is a member of a small set of "early" genes that appear to trigger the onset of metamorphosis. The gene consists of three overlapping transcription units encoding two proteins, E74A and E74B, which possess a common C terminus. According to the Ashburner model for ecdysone's action, an E74 protein product potentially functions as a transcriptional activator of "late" genes as well as a repressor of early genes. We have taken an evolutionary approach to understand the function and regulation of E74 by isolating the homologous genes from Drosophila pseudoobscura and Drosophila virilis and comparing them to D. melanogaster E74 sequences. Conserved characteristics of the E74 genes include ecdysone inducibility, localization to ecdysone-induced polytene chromosome puffs, and gene size. Amino acid sequence comparisons of the E74A protein reveal a highly conserved C-terminal region that is rich in basic amino acid residues and which has been proposed to possess sequence-specific DNA binding activity. The moderately conserved N-terminal region has maintained its overall acidic character and is a potential transcriptional activator domain. The central region contains conserved glutamine and alanine homopolymeric repeats of variable lengths. Nucleotide sequence comparisons of the E74A promoter region fail to reveal ecdysone-response elements but do identify conserved sequences that may function in E74A regulation.
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PMID:Interspecific comparisons of the structure and regulation of the Drosophila ecdysone-inducible gene E74. 201 53

The LEU3 protein of yeast activates a number of genes in the branched chained amino acid pathways. Native LEU3 is modulated by alpha-isopropylmalate, an intermediate in leucine biosynthesis. alpha-Isopropylmalate is needed for transcriptional activation, but not for DNA binding. We show here that the transcriptional activation function of LEU3 resides within the C-terminal 32 amino acids. An adjacent stretch of 81 residues is dispensable and apparently forms a connecting link between the activation domain and a large central region previously identified as important for modulation. The newly defined activation domain contains a cluster of three tryptophan residues, each of which was changed to alanine by site-directed mutagenesis. Surprisingly, all three Trp----Ala mutations affect modulation. One of them, Trp-864----Ala, creates a LEU3 molecule that is largely unmodulated and also is a better transcriptional activator than is wild type LEU3 ("hyperactivator"). The other two mutations (Trp-861----Ala and Trp-870----Ala) change the modulation ratio but have no effect on the maximal activation efficiency of the activator. We propose that the activation domain of LEU3 is kept silent by association with the central region of the protein and that an alpha-isopropylmalate-induced conformational change in the central region releases and thus activates the activation domain.
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PMID:Transcriptional activator LEU3 of yeast. Mapping of the transcriptional activation function and significance of activation domain tryptophans. 221 32

We report the complete DNA sequence of the short repeat region in the genome of herpes simplex virus type 1, as 6633 base pairs of composition 79.5% G+C. This contains immediate early gene 3, encoding the IE175 protein, an important transcriptional activator of later virus genes. The IE175 coding region was identified as a 3894 base sequence of 81.5% G+C DNA. The base composition of this gene is thus the most extreme yet determined, and the IE175 predicted amino acid composition is correspondingly biased, most notably with an alanine content of 20.9%. Functionally important regions of the IE175 polypeptide were tentatively identified by comparison with the sequence of the homologous protein from varicella-zoster virus and from locations of ts mutations, and were correlated with properties of the amino acid sequence. Aspects of the evolution of such an extreme composition DNA sequence were discussed.
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PMID:Complete DNA sequence of the short repeat region in the genome of herpes simplex virus type 1. 300 80

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