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

The interleukin-7 (IL-7) receptor is expressed throughout T-cell differentiation and, although lacking a tyrosine kinase domain, mediates tyrosine phosphorylation in T cells. We have identified IL-7-induced activation of three cyoplasmic tyrosine kinases in T cells, Jak1, Jak3, and the src-like kinase p56lck. Many members of the cytokine receptor superfamily activate the Jak protein tyrosine kinase family, with resultant phosphorylation of the Stat transcriptional activator factors. We describe here a novel function of the Jak kinases, because Jak kinase activity is not only required for Stat activation but also for P13 kinase response to IL-7 in human T cells. We show that IL-7 receptor-mediated Jak activation can occur independently of p56lck activity. IL-7-induced P13 kinase activation, mediated by tyrosine phosphorylation of the P13 kinase p85 subunit, is essential to the IL-7 proliferative signal and also occurs in the absence of src family kinase activity. Jak3 is found associated with the p85 subunit of P13 kinase in an IL-7-responsive manner in T cells and appears to regulate IL-7-induced P13 kinase activation by mediating tyrosine phosphorylation of the p85 subunit. Specific inhibition of IL-7-induced Jak kinase activity ablates p85 tyrosine phosphorylation, subsequent P13 kinase activation, and, ultimately, proliferation. The ability to regulate P13 kinase activity indicates a more generalized role for the Jak family than activation of gene transcription via the Stat family in cytokine receptor signal transduction.
Blood 1995 Sep 15
PMID:JAK3 protein tyrosine kinase mediates interleukin-7-induced activation of phosphatidylinositol-3' kinase. 766 55

N-Acylhomoserine lactone (acyl-HSL)-mediated gene expression, also called autoinduction, is conserved among diverse gram-negative bacteria. In the paradigm Vibrio fischeri system, bioluminescence is autoinducible, and the lux operon requires the transcriptional activator LuxR and the acyl-HSL autoinducer for expression. The production of the acyl-HSL signal molecule is conferred by the luxI gene, and luxR encodes the transcriptional regulator. We show here that Erwinia stewartii, the etiological agent of Stewart's wilt of sweet corn, synthesizes an acyl-HSL. Mass spectral analysis identified the signal molecule as N-(-3-oxohexanoyl)-L-homoserine lactone, which is identical to the V. fischeri autoinducer. We have cloned and sequenced the gene that confers acyl-HSL biosynthesis, called esaI, and the linked gene, esaR, that encodes a gene regulator. The two genes are convergently transcribed and show an unusual overlap of 31 bp at their 3' ends. Sequence analysis indicates that EsaI and EsaR are homologs of LuxI and LuxR, respectively. EsaR can repress its own expression but seems not to regulate the expression of esaI. The untranslated 5' region of esaR contains an inverted repeat with similarity to the lux box-like elements located in the promoter regions of other gene systems regulated by autoinduction. However, unlike the other systems, in which the inverted repeats are located upstream of the -35 promoter elements, the esaR-associated repeat overlaps a putative -10 element. We mutagenized the esaI gene in E. stewartii by gene replacement. The mutant no longer produced detectable levels of the acyl-HSL signal, leading to a concomitant loss of extracellular polysaccharide capsule production and pathogenicity. Both phenotypes were restored by complementation with esal or by exogenous addition of the acyl-HSL.
J Bacteriol 1995 Sep
PMID:Capsular polysaccharide biosynthesis and pathogenicity in Erwinia stewartii require induction by an N-acylhomoserine lactone autoinducer. 766 77

NtrC is the transcriptional activator for nitrogen-regulated promoters and, as a response regulator, belongs to the protein family of two-component systems. The activity of all response regulators is modulated by phosphorylation of the conserved N-terminal receiver domain. Phosphorylation of the dimeric NtrC has two consequences: (i) a strong increase in the cooperative binding of NtrC to two adjacent binding sites and (ii) activation of NtrC as an ATPase. Here we show that phosphorylation of NtrC is not sufficient for activation of NtrC. At low protein concentrations (50 nM), phosphorylated NtrC was only active as an ATPase upon cooperative binding to DNA. At high protein concentrations (above 50 nM), NtrC was active in the absence of DNA, and activation occurred in parallel with the formation of high-molecular-weight aggregates. We infer that activation of NtrC involves an interaction between two NtrC-P dimers and proceeds in two steps. The first step is the phosphorylation of NtrC. The second step is the interaction between two NtrC-P dimers. This interaction induces the conformational change in NtrC-P to the active conformation.
J Bacteriol 1995 Sep
PMID:Mechanism of activation of a response regulator: interaction of NtrC-P dimers induces ATPase activity. 766 84

In both Salmonella typhimurium and Escherichia coli, CysB is a LysR family transcriptional activator, which regulates genes of the cysteine regulon. Transcription activation of cys genes also requires an inducer, N-acetyl-L-serine, and cysB mutants that do not require inducer are termed constitutive, i.e. cysBc. After finding that two independently isolated cysBc mutants are substituted at amino acid residue threonine-149 (T149), we isolated the other 17 single-amino-acid substitutions by site-directed mutagenesis. Of the 19 mutant alleles, 11 supported normal growth on sulphate, and nine of these were cysBc. Four other mutants were 'leaky' cysB+, and four were cysB-. Insertions of up to 14 amino acids were also tolerated at T149, and two of three such mutants were cysBc. An allele containing a TAG translation terminator at codon 149 had no detectable function in a delta cysB strain, but gave a constitutive phenotype when introduced into either wild-type S. typhimurium or the E. coli strain NK1, which contains a cysB- mutation in a predicted helix-turn-helix region that interferes with specific binding of CysB to DNA and with autoregulation of cysB. The peptide encoded by the T149ter allele is proposed to interact with the wild-type CysB peptide or with the NK1 mutant peptide to form hetero-oligomers that do not require N-acetyl-L-serine for cys gene activation.
Mol Microbiol 1994 Sep
PMID:Residue threonine-149 of the Salmonella typhimurium CysB transcription activator: mutations causing constitutive expression of positively regulated genes of the cysteine regulon. 781 39

Escherichia coli strains partially induced for the stringent response are resistant to mecillinam, a beta-lactam antibiotic which specifically inactivates penicillin-binding protein 2, the key enzyme determining cell shape. We present evidence that mecillinam resistance occurs whenever the intracellular concentration of the nucleotide ppGpp (guanosine 3'-diphosphate 5'-diphosphate), the effector of the stringent response, exceeds a threshold level. First, the ppGpp concentration was higher in a mecillinam-resistant mutant than in closely related sensitive strains. Second, the ppGpp pool was controlled by means of a plasmid carrying a ptac-relA' gene coding for a hyperactive (p)ppGpp synthetase, RelA'; increasing the ppGpp pool by varying the concentration of lac operon inducer IPTG resulted in a sharp threshold ppGpp concentration, above which cells were mecillinam resistant. Third, the ppGpp pool was increased by using poor media; again, at the lowest growth rate studied, the cells were mecillinam resistant. In all experiments, cells with a ppGpp concentration above 140 pmoles/A600 were mecillinam resistant whereas those with lower concentrations were sensitive. We discuss a possible role for ppGpp as transcriptional activator of cell division genes whose products seem to become limiting in the presence of mecillinam, when cells form large spheres. We confirmed the well-known inverse correlation between growth rate and ppGpp concentration but, surprisingly, for a given growth rate, the ppGpp concentration was lower in poor medium than in richer medium in which RelA' is induced. We conclude that, for E. coli growing in poor media, the concentration of the nucleotide ppGpp is not the major growth rate determinant.
Mol Microbiol 1994 Sep
PMID:ppGpp concentration, growth without PBP2 activity, and growth-rate control in Escherichia coli. 781 48

A 33 membered polypeptide corresponding to the leucine zipper region of the yeast transcriptional activator GCN4 was synthesized by solid phase chemical synthesis and characterized. Asparagine in the hydrophobic core of the molecule is replaced by valine in the synthetic variant. The correctness of amino acid sequence of the preparation is corroborated by direct sequencing. High-speed equilibrium ultracentrifugation, ultraviolet circular dichroism spectroscopy and scanning microcalorimetry have been employed to demonstrate that in solution the peptide forms a highly stable triple-stranded alpha-helical coiled coil. The stability of the mutant form is 40 degrees C higher than the dimeric form of natural peptide under similar conditions. It was proposed that location of some polar groups in the 'a' and 'd' positions of natural two-stranded coiled coils may be regarded as protection against alternative triple- and multistranded conformations.
Protein Eng 1994 Sep
PMID:Synthesis and properties of the peptide corresponding to the mutant form of the leucine zipper of the transcriptional activator GCN4 from yeast. 783 Dec 80

The SRY gene functions as a genetic switch in gonadal ridge initiating testis determination. The mouse Sry and human SRY open reading frames (ORFs) share a conserved DNA-binding domain (the HMG-box) yet exhibit no additional homology outside this region. As judged by the accumulation of lacZ-SRY hybrid proteins in the nucleus, both the human and mouse SRY ORFs contain a nuclear localization signal. The mouse Sry HMG-box domain selectively binds the sequence NACAAT in vitro when challenged with a random pool of oligonucleotides and binds AACAAT with the highest affinity. When put under the control of a heterologous promotor, the mouse Sry gene activated transcription of a reporter gene containing multiple copies of the AACAAT binding site. Activation was likewise observed for a GAL4-responsive reporter gene, when the mouse Sry gene was linked to the DNA-binding domain of GAL4. Using this system, the activation function was mapped to a glutamine/histidine-rich domain. In addition, LexA-mouse Sry fusion genes activated a LexA-responsive reporter gene in yeast. In contrast, a GAL4-human SRY fusion gene did not cause transcriptional activation. These studies suggest that both the human and the mouse SRY ORFs encode nuclear, DNA-binding proteins and that the mouse Sry ORF can function as a transcriptional activator with separable DNA-binding and activator domains.
Mol Endocrinol 1994 Sep
PMID:Sry is a transcriptional activator. 783 51

Plant sequences that act as transcriptional activation domains in yeast as well as in plants have been isolated by genetic selection in yeast. The selection was based on the reconstitution of a functional GAL4 transcriptional activator. Since the peptides show no homology with reported activation domains, they represent a new class of activating sequences. The sequence P1, which is 10 amino acids long, is the shortest functional activation domain reported. A cDNA that encodes the P14 class (peptides P14-P18) activating sequence have been cloned. The protein exhibits strong homology (higher than 50% amino acid identity) with the BBC1-related sequences, a highly conserved family of basic proteins containing nuclear localization signals. The P14 and P15 peptides are the most effective plant activating sequences. The P14 and P15 peptides are highly hydrophilic, positively charged and mostly unstructured. These properties are at odds with the ones usually found in known activation domains.
Nucleic Acids Res 1994 Sep 25
PMID:Plant activating sequences: positively charged peptides are functional as transcriptional activation domains. 793 21

The Tat protein encoded by human immunodeficiency virus type 1 is a strong transcriptional activator of gene expression from the viral long terminal repeat and is essential for virus replication. We have investigated the molecular mechanism of Tat trans-activation by using a cell-free transcription system. We find that the trans-activation domain of Tat, amino acid residues 1-48 [Tat-(1-48)], can inhibit specifically--i.e., "squelch," transcriptional activation by full-length Tat [Tat-(1-86)]. Squelching depends upon the functional integrity of the Tat trans-activation domain because the mutant [Ala41]Tat-(1-48), which is defective in Tat trans-activation in vivo and in vitro, does not squelch in vitro Tat trans-activation. Inhibition is selective because Tat-activated transcription, but not Tat-independent transcription, is squelched. Preincubation experiments with Tat or Tat-(1-48) and nuclear extracts show that the trans-activation region of Tat can interact with cellular coactivator(s) required for Tat trans-activation and that this interaction can occur in the absence of the human immunodeficiency virus long terminal repeat promoter. Furthermore, the putative coactivator(s) mediating trans-activation by Tat differ from those mediating trans-activation by the acidic activator VP16, as shown by reciprocal squelching experiments in vitro. Our results suggest that specific cellular coactivator(s) are required for mediating activated transcription by human immunodeficiency virus type 1 Tat.
Proc Natl Acad Sci U S A 1994 Sep 27
PMID:Transcriptional activation in vitro by the human immunodeficiency virus type 1 Tat protein: evidence for specific interaction with a coactivator(s). 793 69

The rat neu protooncogene encodes a 185 kD transmembrane protein (p185neu), which is a member of the epidermal growth factor receptor (EGFr) family. In searching for the signaling transducer of p185neu by using a two-hybrid selection system, we found, surprisingly, that the cytoplasmic domain of p185neu, when fused to the DNA-binding domain of GAL4 (amino acids 1-147), functioned as a transcriptional activator. We subsequently observed nuclear localization of p185neu. Interestingly, nuclear p185neu has a much higher extent of tyrosine phosphorylation than its nonnuclear counterpart. Our results suggest that a transmembrane receptor tyrosine kinase may enter the nucleus and be involved in transcriptional activation. This novel finding unveils a clue in the understanding of the mechanism of receptor tyrosine kinase-mediated signal transduction.
Biochem Biophys Res Commun 1994 Sep 30
PMID:Nuclear localization of p185neu tyrosine kinase and its association with transcriptional transactivation. 794 9


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