Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The FNR protein of E. coli is a transcriptional activator required for the expression of genes involved in anaerobic respiratory pathways. Site-directed mutagenesis was used to alter three amino acids in the recognition helix of the putative DNA-binding domain of FNR, with the aim of changing its specificity to that of the cyclic AMP receptor protein (CRP). In the presence of the mutant protein (FNR-215) expression of the lac operon was activated during anaerobiosis and unaffected by glucose. FNR-215 did not have a uniform effect on the expression of other cAMP-CRP-dependent genes, but the results demonstrate the fundamental similarity between FNR- and CRP-mediated transcriptional activation.
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PMID:Activation of the lac operon of Escherichia coli by a mutant FNR protein. 283 28

Expression of the gene cpc-1 is required for cross-pathway-mediated regulation of amino acid-biosynthetic genes in Neurospora crassa. We have cloned cpc-1 and present an analysis of its structure and regulation. The cpc-1-encoded transcript contains three open reading frames, two of which are located in the 720-nucleotide leader segment preceding the cpc-1 coding region. The two leader open reading frames, if translated, would produce peptides 20 and 41 residues in length. The deduced amino acid sequence of the cpc-1 polypeptide, CPC1, contains segments similar to the DNA-binding and transcriptional activation domains of GCN4, the major cross-pathway regulatory protein of yeast. The structural and functional similarities of CPC1 and GCN4 proteins suggest that cpc-1 encodes the analogous transcriptional activator of N. crassa. Messenger RNA measurements indicate that cpc-1 is transcriptionally regulated in response to amino acid starvation. The segment of CPC1 similar to the DNA-binding domain of GCN4 also is similar to the DNA-binding domains of the avian sarcoma virus oncogene-encoded v-JUN protein and human c-JUN protein.
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PMID:The cross-pathway control gene of Neurospora crassa, cpc-1, encodes a protein similar to GCN4 of yeast and the DNA-binding domain of the oncogene v-jun-encoded protein. 296 96

Nerve growth factor (NGF) is required for the development and survival of sympathetic and neural crest-derived sensory neurons. The mechanism of action of NGF has been extensively studied in the NGF-responsive rat pheochromocytoma cell line, PC12. When treated with NGF, PC12 cells initiate neurite outgrowth and differentiate into cells with a neuronal phenotype. This process is prevented by RNA synthesis inhibitors. NGFI-B is a gene, identified by differential hybridization, that is rapidly, but transiently induced in PC12 cells by NGF. The nucleotide sequence of the NGFI-B gene was determined, and it encodes a 61 kd protein with strong homologies to members of the glucocorticoid receptor gene family. The two regions of homology between NGFI-B and this family of ligand-dependent transcriptional activators are the region corresponding to the DNA-binding domain and the region comprising the ligand-binding domain near the COOH-terminus. NGFI-B, as a possible ligand-dependent transcriptional activator induced by NGF, may play a role in initiating NGF-induced differentiation.
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PMID:Nerve growth factor induces a gene homologous to the glucocorticoid receptor gene. 327 67

Proto-oncogenes encode proteins with three main sites of action: the cell-surface membrane, the cytoplasm and the nucleus. Although the exact biochemical function of most proto-oncogene products is not understood, several of them are known to be involved in signal transduction. A role in gene regulation through DNA binding has been suggested for a recently isolated member of the group of oncogenes acting at the nucleus, v-jun. The C-terminus of the putative v-jun-encoded protein is similar in sequence to the C-terminus of the yeast transcriptional activator GCN4 (refs 8, 9), which forms its minimal DNA-binding domain. GCN4 binds to specific sites whose consensus sequence is highly similar to the recognition sequence of the mammalian transcriptional activator AP-1 (refs 12, 13). Like GCN4, AP-1 binds to promoter elements of specific genes and activates their transcription. Because of the similarity between the recognition sites for GCN4 and AP-1, we examined the possibility that AP-1 could be the product of the c-jun proto-oncogene. The experimental results reported here indicate that the JUN oncoprotein is a sequence-specific transcriptional activator similar to AP-1.
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PMID:Oncogene jun encodes a sequence-specific trans-activator similar to AP-1. 334 53

The yeast transcriptional activator GAL4 binds specific sites on DNA to activate transcription of adjacent genes. The distinct activating regions of GAL4 are rich in acidic residues and it has been suggested that these regions interact with another protein component of the transcriptional machinery (such as the TATA-binding protein or RNA polymerase II) while the DNA-binding region serves to position the activating region near the gene. Here we show that various GAL4 derivatives, when expressed at high levels in yeast, inhibit transcription of certain genes lacking GAL4 binding sites, that more efficient activators inhibit more strongly and that inhibition does not depend on the DNA-binding domain. We suggest that this inhibition, which we call squelching, reflects titration of a transcription factor by the activating region of GAL4.
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PMID:Negative effect of the transcriptional activator GAL4. 341 49

The product of the recently described oncogene jun shows significant amino acid sequence homology with the GCN4 yeast transcriptional activator protein. The similarity is restricted to the 66 carboxyl-terminal amino acids, thought to be the DNA-binding domain of the GCN4 protein. In these alpha-helix-permissive regions of the jun and GCN4 products there is also a lesser but still significant amino acid resemblance to the fos protein and a marginal degree of similarity to myc proteins. The amino acid sequence homology between GCN4 and jun gene products suggests that the jun protein may bind to DNA in a sequence-specific way and exert a regulatory function.
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PMID:Homology between the DNA-binding domain of the GCN4 regulatory protein of yeast and the carboxyl-terminal region of a protein coded for by the oncogene jun. 355 36

The GATA motif (WGATAR) is found in the promoter regions of numerous Caenorhabditis elegans genes, including two intestine-specific genes, vit-2 and ges-1, in which it has been shown to be required for promoter function. The protein ELT-1, encoded by a single-copy gene homologous to the GATA family of vertebrate transcription factors, is potentially capable of interacting with this element. In order to determine whether ELT-1 is a transcriptional activator that recognizes this sequence, we have expressed it under the control of the GAL1 promoter in yeast. lacZ driven by the CYC1 promoter lacking an upstream activation sequence (UAS) but containing GATA sequences was used as a reporter. beta-Galactosidase was expressed upon induction only when GATA sequences were present, and expression was increased dramatically by additional binding sites. Deletion analysis demonstrated that the C terminus, containing only one of the two zinc fingers, is sufficient for activation. In addition, the DNA-binding domain and two transactivation regions were identified by fusing these isolated domains to previously defined domains of heterologous transcription factors. While most single base alterations in the GATA core sequence eliminated activity, an A to C change in position four, creating a GATC core, was found to increase activity significantly. The deleted ELT-1 protein containing only the C-terminal Zn finger was sufficient for activation in response to GATA, but both fingers were required for activation at GATC. A variety of sites with non-optimal sequences surrounding the GATA core also were found to be excluded better by the protein containing both Zn fingers. Furthermore, a fusion protein containing the entire ELT-1 DNA binding domain fused to the VP16 activation domain was found to have an even greater preference for the GATC core, as well as the optimal flanking bases. We conclude that, although ELT-1 having only its C-terminal finger is capable of activation in response to the WGATAR site, the presence of the upstream finger supplies additional base specificity.
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PMID:Activity of a C. elegans GATA transcription factor, ELT-1, expressed in yeast. 747 42

Androgen receptor (AR) brings about a ligand-dependent inhibition of low-affinity neurotrophin receptor (p75) promoter constructs in cultured cells, with the greatest inhibition being achieved with a reporter gene containing 1050 nucleotides (nt) of the promoter. The receptor domain critical for trans-repression localizes to the same region (amino acids 147-296) as that mandatory for transactivation. In contrast to trans-activation, AR does not interact directly with specific DNA elements to elicit trans-repression of p75 promoter constructs, although an intact DNA-binding domain of the receptor is required for both actions. In a search for interacting partners, both extensively purified full-length AR and AR-DNA binding domain were found to inhibit c-Jun/AP-1 site interaction without themselves binding to the AP-1 element. Prior binding of c-Jun to the AP-1 element protected the complex from the receptor's interference. Repression was not mutual, as c-Jun did not inhibit AR-androgen response element interaction or trans-activation through an androgen response element-containing promoter. The 1050-nt-long p75 promoter sequence does not contain an AP-1 element; an AP-1-like site in the vector backbone mediates the trans-repression by the AR in recipient cells. Intriguingly, an AR form with a large N-terminal deletion (the delta 46-408 mutant) behaved as a transcriptional activator of the p75 promoter through a mechanism that was also independent of specific DNA binding. Collectively, these data indicate that, in a proper context, AR is able to elicit both transrepression and trans-activation without interacting directly with specific DNA elements. Sequences responsible for the down-regulation of p75 mRNA by androgens in vivo are, however, not located in the proximal 1050 nt of the p75 promoter.
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PMID:Androgen receptor-mediated transcriptional regulation in the absence of direct interaction with a specific DNA element. 747 76

Mutations in Vp1 and ABl3 genes of maize and Arabidopsis lead to drastic reductions in the synthesis of a subset of maturation-specific products including seed storage proteins. Gene Phaseolus vulgaris ABl3-like factor (PvAlf), whose protein product is similar to the ABl3 and Vp1 proteins, has been cloned. Here, it is shown that PvAlf positively regulates phaseolin and phytohemagglutinin (PHA-L) promoters in particle bombardment assays. PvAlf mRNA expression is embryo-specific and temporally complex. PvAlf mRNA abundance is highest during two periods (9-14 and 22-35 days after flowering) that precede the onsets of seed maturation and seed abscission, respectively. Protein fusions with the DNA-binding domain of the yeast transcriptional activator GAL4 demonstrated that the N-terminal 243 amino acids of PvAlf function as a strong transcriptional activation domain in yeast (Saccharomyces cerevisiae) and plant cells. This domain consists of a central cluster rich in serine, threonine and proline (STP cluster) flanked by two negatively charged regions containing bulky hydrophobic residues similar to acidic activation domains of Vp1, the herpes simplex virus virion protein VP16 and transcription factors GCN4 and HAP4 from yeast. Together with the Vp1 proteins of maize and rice and ABl3, PvAlf constitutes a class (Vp1/ABl3-like factors or VAlfs) of regulatory factors that are pivotal for the promotion of seed maturation and dormancy in angiosperms.
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PMID:PvAlf, an embryo-specific acidic transcriptional activator enhances gene expression from phaseolin and phytohemagglutinin promoters. 755 Mar 72

The Zn2Cys6 DNA-binding domain has been identified by sequence homology in approximately forty fungal proteins, including the K. lactis LAC9 transcriptional activator. Using 1H NMR spectroscopy, we have determined the solution structure of a cadmium-substituted form of the LAC9 DNA-binding domain. We have complemented this approach by applying a series of 113Cd-1H NMR experiments, including several novel heteroTOCSY-based techniques. The DNA-binding domain forms a core of two alpha-helix/extended strand segments around the Cd2 binuclear cluster, with a network of amide proton-cysteinyl S gamma hydrogen bonds stabilizing the cluster. Comparison with other Zn2Cys6 domain structures provides insight into the common structural elements used in metal coordination and DNA binding.
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PMID:Solution structure of the Kluyveromyces lactis LAC9 Cd2 Cys6 DNA-binding domain. 755 15


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