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)

GCN4 encodes a transcriptional activator of amino acid biosynthetic genes in yeast that is regulated at the translational level. The 5' leader of GCN4 mRNA contains four small open-reading-frames. By constructing point mutations in the initiation codons of these sequences, we show that they are essential for translational repression of GCN4. Each upstream AUG codon can repress translation; however, the two 3' proximal AUG codons are much more inhibitory than the 5' proximal AUG codons. Unexpectedly, the first AUG codon is required for efficient GCN4 expression under starvation conditions. This positive function appears to involve antagonism of the inhibitory effect of the 3' proximal AUG codons since it is dispensable in the absence of these sequences. The interaction between the upstream AUG codons is modulated by the trans-acting factors GCN2 and GCD1 in response to amino acid availability.
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PMID:Multiple upstream AUG codons mediate translational control of GCN4. 351 11

Enzymes in diverse amino acid biosynthetic pathways in Saccharomyces cerevisiae are subject to a general amino acid control in which starvation for any amino acid leads to increased levels of the mRNAs encoding these enzymes. The short nucleotide sequence TGACTC, found nontandemly repeated upstream from the coregulated structural genes, serves as a cis-acting site for positive regulation of transcription. Multiple trans-acting repressors and activators have been identified. Most of these factors act indirectly by regulating the level of an activator encoded by the GCN4 gene. This regulation occurs at the level of GCN4 translation and is mediated by sequences in the long 5' leader of GCN4 mRNA. The GCN4 protein is the most likely candidate for the transcriptional activator that interacts with the TGACTC sequences at the structural genes.
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PMID:The general control of amino acid biosynthetic genes in the yeast Saccharomyces cerevisiae. 353 2

The DNA sequence upstream of the dhlB gene encoding the haloalkanoic acid dehalogenase of Xanthobacter autotrophicus GJ10 was determined and contained an open reading frame, designated dhlC, which encoded a protein with a significant similarity with the family of Na(+)-dependent symport proteins. The dhlC gene was subcloned under control of a T7 promoter, and found to encode a polypeptide of 45 kDa on SDS-PAGE. Upstream of dhlC, a -24/-12 promoter sequence was found. Further upstream, in the opposite direction of transcription, another open reading frame, designated dhlR, with homology with the family of sigma 54-dependent transcriptional activator proteins was detected. The dhlR gene was cloned and expressed under the control of a T7 promoter and encoded a polypeptide of 51 kDa on SDS-PAGE. The genetic organization of the dhlB region suggested that the expression of dhlC and dhlB was controlled by the product of dhlR and sigma 54 which may explain the observed overexpression of the haloalkanoic acid dehalogenase under starvation conditions.
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PMID:Sequence analysis of the upstream region of dhlB, the gene encoding haloalkanoic acid dehalogenase of Xanthobacter autotrophicus GJ10. 758

Protein kinase GCN2 is a multidomain protein that contains a region homologous to histidyl-tRNA synthetases juxtaposed to the kinase catalytic moiety. Previous studies have shown that in response to histidine starvation, GCN2 phosphorylates eukaryotic initiation factor 2 (eIF-2), to induce the translational expression of GCN4, a transcriptional activator of genes subject to the general amino acid control. It was proposed that the synthetase-related sequences of GCN2 stimulate the activity of the kinase by interacting directly with uncharged tRNA that accumulates during amino acid limitation. In addition to histidine starvation, expression of GCN4 is also regulated by a number of other amino acid limitations. Questions that we posed in this report are whether uncharged tRNA is the most direct regulator of GCN2 and whether the function of this kinase is required to recognize each of the different amino acid starvation signals. We show that GCN2 phosphorylation of eIF-2, and the resulting general amino acid control pathway, is stimulated in response to starvation for each of several different amino acids, in addition to histidine limitation. Cells containing a defective aminoacyl-tRNA synthetase also stimulated GCN2 phosphorylation of eIF-2 in the absence of amino acid starvation, indicating that uncharged tRNA levels are the most direct regulator of GCN2 kinase. Using a Northwestern blot (RNA binding) assay, we show that uncharged tRNA can bind to the synthetase-related domain of GCN2. Mutations in the motif 2 sequence conserved among class II synthetases, including histidyl-tRNA synthetases, impair the ability of this synthetase-related domain to bind tRNA and abolish GCN2 phosphorylation of eIF-2 required to stimulate the general amino acid control response. These in vivo and in vitro experiments indicate that synthetase-related sequences regulate GCN2 kinase function by monitoring the levels of multiple uncharged tRNAs that accumulate during amino acid limitations.
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PMID:The histidyl-tRNA synthetase-related sequence in the eIF-2 alpha protein kinase GCN2 interacts with tRNA and is required for activation in response to starvation for different amino acids. 762 40

Nitrogen regulation of transcription in Escherichia coli requires sensation of the intracellular nitrogen status and control of the dephosphorylation of the transcriptional activator NRI-P. This dephosphorylation is catalyzed by the bifunctional kinase/phosphatase NRII in the presence of the dissociable PII protein. The ability of PII to stimulate the phosphatase activity of NRII is regulated by a signal transducing uridylyltransferase/uridylyl-removing enzyme (UTase/UR), which converts PII to PII-UMP under conditions of nitrogen starvation; this modification prevents PII from stimulating the dephosphorylation of NRI approximately P. We used purified components to examine the binding of small molecules to PII, the effect of small molecules on the stimulation of the NRII phosphatase activity by PII, the retention of PII on immobilized NRII, and the regulation of the uridylylation of PII by the UTase/UR enzyme. Our results indicate that PII is activated upon binding ATP and either 2-ketoglutarate or glutamate, and that the liganded form of PII binds much better to immobilized NRII. We also demonstrate that the concentration of glutamine required to inhibit the uridylyltransferase activity is independent of the concentration of 2-ketoglutarate present. We hypothesize that nitrogen sensation in E. coli involves the separate measurement of glutamine by the UTase/UR protein and 2-ketoglutarate by the PII protein.
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PMID:The Escherichia coli PII signal transduction protein is activated upon binding 2-ketoglutarate and ATP. 762 80

The c-Myc protein is involved in cellular transformation and mitogenesis, but also works as a potent inducer of differentiation and programmed cell death. Max as an obligate heterodimeric partner for Myc mediates its functions as a specific transcriptional activator and a transforming protein. Mad and Mxi1 proteins both heterodimerize with Max and compete with each other for limiting amounts of Max. Transcriptional activation by Myc can be suppressed by increasing the amount of Mad or Mxi1. This report shows the expression pattern of these Myc related factors at the mRNA level in a small cell lung cancer (SCLC) cell line (GLC4) which is characterized by c-myc amplification and strong constitutive c-myc overexpression. We found these genes transcriptionally active but uninfluenced from high c-myc transcription. Max was constantly transcribed at a relatively low level during cell cycle progression. Mad and mxi1 mRNA was at a surprisingly high level in proliferating cells. Mad was further upregulated and mxi1 was downregulated to basal levels during serum starvation of the cells. We further analyzed the activity of c-fos, c-jun, c-myb and nm23 which are described to be involved in c-myc transcriptional activation, c-jun and c-fos were not constitutively activated and can be excluded as regulators. High steady state c-myc in contrast influences the serum stimulated transient activation mechanism of these two genes. We identified high copy number nm23 mRNA whose role as a putative c-myc transcriptional activator is under investigation. Our results indicate that constitutive overexpression of c-myc does not require the activity of the nuclear oncogenes tested and that the m-RNA expression pattern of functionally related proteins is not influenced.
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PMID:Coexpression pattern of c-myc associated genes in a small cell lung cancer cell line with high steady state c-myc transcription. 765 39

Phosphorylation of translation initiation factor 2 alpha is a highly conserved mechanism for down-regulating protein synthesis in response to starvation or stress. The yeast eIF-2 alpha kinase GCN2 is stimulated by deprivation for amino acids or purines. In addition to inhibiting general protein synthesis, GCN2 specifically stimulates translation of GCN4, a transcriptional activator of amino acid biosynthetic genes. HRI is an eIF-2 alpha kinase that is activated in rabbit reticulocytes by heme-deprivation and stress conditions that elicit the heat-shock response. The eIF-2 alpha kinase DAI is activated by double-stranded RNA during viral infections and is an important component of the interferon response. DAI has also been implicated as a tumor suppressor. These protein kinases provide an important means of coupling the rate of protein synthesis and cell division to environmental conditions.
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PMID:The eIF-2 alpha kinases: regulators of protein synthesis in starvation and stress. 771 Dec 90

We report that Gcn4, a yeast transcriptional activator of the bZIP family involved in the regulation of the biosynthesis of amino acids and purines, is rapidly turned over. This degradation is inhibited under conditions of starvation for amino acids. Degradation is also inhibited by single amino acid alterations in a region adjacent to the Gcn4 activation domain. Furthermore, we show that degradation of Gcn4 proceeds through the ubiquitin pathway, a major proteolytic system for cytoplasmic proteins, and is dependent on two specific ubiquitin conjugating enzymes, Cdc34 (Ubc3) and Rad6 (Ubc2). As a first step towards reconstituting the Gcn4 degradation pathway in vitro, we show that purified Cdc34 and Rad6 proteins are able to direct the specific ubiquitination of Gcn4.
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PMID:Regulated degradation of the transcription factor Gcn4. 781 40

The phoE promoter region in Escherichia coli contains a -10 region, typical of sigma 70-dependent promoters and, instead of a normal -35 region, a so-called pho box, to which the transcriptional activator phospho-PhoB binds under low phosphate conditions. A second pho box is present upstream of the first one and is required for full expression of phoE during phosphate starvation. To determine whether the lack of expression under high phosphate conditions is due solely to the absence of a genuine -35 box, the -10 region was further optimized towards the consensus -10 sequence and promoter activity was measured using alkaline phosphatase as a reporter. The mutations resulted in a drastic increment in the basal level of expression under high phosphate conditions, indicating that the deviations from consensus in the -10 region also play a role in determining the poor expression of the wild-type promoter under these conditions. The expression under high phosphate conditions was partly dependent on the presence of the phoB gene, showing that a small amount of active PhoB must be present under these circumstances. During phosphate starvation, the activity of the mutant promoters was further induced. The upstream pho box was not required for full expression from the mutant promoters under these conditions. Apparently, the wild-type phoE promoter is carefully balanced by deviations from the optimal Pribnow box sequence that reduce expression under high phosphate conditions and by the presence of several copies of the pho box, which enhance expression under phosphate starvation.
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PMID:Effect of mutations in the -10 region of the phoE promoter in Escherichia coli on regulation of gene expression. 781 30

The expression of nif genes in Rhodobacter capsulatus depends on the two regulatory genes, rpoN and nifA, encoding a nif-specific alternative sigma factor of RNA polymerase and a nif-specific transcriptional activator, respectively. The expression of the rpoN gene itself is also RPON/NIFA dependent. In order to better characterize the regulation of nif gene induction, chromosomal nifH-, rpoN-, nifA1- and nifA2- lacZ fusions were constructed and the expression of these different nif-lacZ fusions was determined under photoheterotrophic conditions at different starting ammonium concentrations. The two nifA genes were found to be induced first, followed by nifH and finally by rpoN upon weak, medium and strong nitrogen starvation, respectively. This induction profile and the correlation between the expression of the different nif genes suggested that nifA1 expression is the limiting factor for nif gene induction. This hypothesis was tested by construction of different nifA1 overexpressing mutants. Contrary to the current model of nif gene expression in R. capsulatus, which predicted constitutive nif gene expression in such mutants, a strong repression of nifH and rpoN was found at high ammonium concentration. The low nifH expression under these conditions is unaffected by nifA2 and is not increased in a ntrC mutant, ruling out any role of NTRC as a mediator of this repression. This finding implies an additional, so far unidentified, regulation by fixed nitrogen in R. capsulatus. Changing the expression level of rpoN indicated that low levels of RPON are already sufficient for full nifH induction. The nifA1 and rpoN expression mutants were also tested for diazotrophic growth. Similar generation times were determined for the mutants and for the wild type, but diazotrophic growth of the nifA1 over-expressing ntrC mutant RCM14 did not start until after a prolonged lag phase of two to three days.
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PMID:nif gene expression studies in Rhodobacter capsulatus: ntrC-independent repression by high ammonium concentrations. 796 8


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