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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Sry is a transcriptional activator. 783 51
Agrobacterium tumefaciens contains about 25 vir genes localized on a 200-kb tumour-inducing (Ti) plasmid that direct a conjugation-like transfer of tumorigenic DNA from the bacterium to the nuclei of infected plant cells. These genes are strongly and coordinately induced during infection in response to three different classes of stimuli which are thought to be key chemical features of a typical wound site. These stimuli are (i) guaiacol and syringol derivatives such as acetosyringone, (ii) sugars such as glucose and glucuronic acid, and (iii) acidic pH. The sensing of these compounds is carried out by the VirA, VirG and ChvE proteins. VirA is a four-domain
histidine
protein kinase, while VirG is a
transcriptional activator
which is activated by VirA-mediated phosphorylation. ChvE is a chromosomally encoded periplasmic sugar binding protein which is required for sensing sugars but dispensable for sensing the other two stimuli. Here we will review the nature of these chemical stimuli, the structure and function of the three regulatory proteins, their similarity to sensors found in human and animal pathogens, the factors influencing their pool size, and their role in the host range of different strains of A. tumefaciens.
...
PMID:Host recognition by the VirA, VirG two-component regulatory proteins of agrobacterium tumefaciens. 785 33
The two-component system sensor/response regulator pair, FixL/FixJ, controls the expression of Rhizobium meliloti nitrogen fixation (nif and fix) genes in response to changes in oxygen concentration. A truncated version of FixL, FixL*, is an oxygen-binding hemoprotein kinase that phosphorylates and dephosphorylates the nif and fix gene
transcriptional activator
, FixJ. Phosphorylation of FixJ is required for optimal transcriptional activation, and anaerobic conditions in vitro result in a substantial increase in the level of FixJ-phosphate. In this study, site-directed mutagenesis was carried out at
histidine
residues in FixL*. Mutant FixL* derivatives were purified and analyzed in vitro for their heme/oxygen binding properties and phosphorylation/dephosphorylation activities. Mutation of
histidine
285, the putative autophosphorylation site, to glutamine results in the loss of FixL* phosphorylation activities. However, this mutant protein retains a substantial level of FixJ-phosphate dephosphorylation activity. Mutation of
histidine
194 to asparagine results in the loss of heme binding and in the failure of FixL* to regulate its phosphorylation/dephosphorylation activities in response to changes in oxygen concentration. The FixL*H194N mutant protein also exhibits an increased FixJ phosphorylation activity under aerobic conditions. This study provides further evidence for the importance of the heme binding domain of FixL* in regulating FixJ phosphorylation and dephosphorylation activities in response to oxygen.
...
PMID:The oxygen sensor protein, FixL, of Rhizobium meliloti. Role of histidine residues in heme binding, phosphorylation, and signal transduction. 789 Jun 34
SWI5 encodes a zinc-finger protein required for expression of the yeast HO gene. Using Swi5 protein that was purified from a bacterial expression system, we previously isolated a yeast factor that stimulates binding of Swi5 to the HO promoter. N-terminal amino acid sequence analysis identified the Swi5 stimulatory factor as the product of the GRF10 gene, which encodes a yeast homeodomain protein. GRF10, also known as PHO2 and BAS2, is a
transcriptional activator
of the PHO5 acid phosphatase gene and the HIS4
histidine
biosynthesis gene. Grf10 protein purified from a bacterial expression system binds DNA cooperatively with Swi5 in vitro. Analysis of disassociation rates indicates that the Grf10-Swi5-DNA complex has a longer half-life than protein-DNA complexes that contain only Swi5 or Grf10. Finally, we show that HO expression is reduced in yeast strains containing grf10 null mutations and that full expression of a heterologous promoter containing a SWI5-dependent HO upstream activation sequence element requires GRF10.
...
PMID:The Swi5 zinc-finger and Grf10 homeodomain proteins bind DNA cooperatively at the yeast HO promoter. 790 83
We have identified pobR, a gene encoding a
transcriptional activator
that regulates expression of pobA, the structural gene for p-hydroxybenzoate hydroxylase (PobA) in Acinetobacter calcoaceticus ADP1. Inducible expression of cloned pobA in Escherichia coli depended upon the presence of a functional pobR gene, and mutations within pobR prevented pobA expression in A. calcoaceticus. A pobA-lacZ operon fusion was used to demonstrate that pobA expression in A. calcoaceticus is enhanced up to 400-fold by the inducer p-hydroxybenzoate. Inducer concentrations as low as 10(-7) M were sufficient to elicit partial induction. Some structurally related analogs of p-hydroxybenzoate, unable to cause induction by themselves, were effective anti-inducers. The nucleotide sequence of pobR was determined, and the activator gene was shown to be transcribed divergently from pobA; the genes are separated by 134 DNA base pairs. The deduced amino acid sequence yielded a polypeptide of M(r) = 30,764. Analysis of this sequence revealed at the NH2 terminus a stretch of residues with high potential for forming a helix-turn-helix structure that could serve as a DNA-binding domain. A conservative amino acid substitution (Arg-61-->
His
-61) in this region inactivated PobR. The primary structure of PobR appears to be evolutionarily distinct from the four major families of NH2-terminal helix-turn-helix containing bacterial regulatory proteins that have been identified thus far.
...
PMID:Identification of the transcriptional activator pobR and characterization of its role in the expression of pobA, the structural gene for p-hydroxybenzoate hydroxylase in Acinetobacter calcoaceticus. 833 Oct 77
The
transcriptional activator
protein GCN4 is responsible for increased transcription of more than 30 different amino acid biosynthetic genes in response to starvation for a single amino acid. This induction depends on increased expression of GCN4 at the translational level. We show that starvation for purines also stimulates GCN4 translation by the same mechanism that operates in amino acid-starved cells, being dependent on short upstream open reading frames in the GCN4 mRNA leader, the phosphorylation site in the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2 alpha), the protein kinase GCN2, and translational activators of GCN4 encoded by GCN1 and GCN3. Biochemical experiments show that eIF-2 alpha is phosphorylated in response to purine starvation and that this reaction is completely dependent on GCN2. As expected, derepression of GCN4 in purine-starved cells leads to a substantial increase in HIS4 expression, one of the targets of GCN4 transcriptional activation. gcn mutants that are defective for derepression of amino acid biosynthetic enzymes also exhibit sensitivity to inhibitors of purine biosynthesis, suggesting that derepression of GCN4 is required for maximal expression of one or more purine biosynthetic genes under conditions of purine limitation. Analysis of mRNAs produced from the ADE4, ADE5,7, ADE8, and ADE1 genes indicates that GCN4 stimulates the expression of these genes under conditions of
histidine
starvation, and it appeared that ADE8 mRNA was also derepressed by GCN4 in purine-starved cells. Our results indicate that the general control response is more global than was previously imagined in terms of the type of nutrient starvation that elicits derepression of GCN4 as well as the range of target genes that depend on GCN4 for transcriptional activation.
...
PMID:Translation of the yeast transcriptional activator GCN4 is stimulated by purine limitation: implications for activation of the protein kinase GCN2. 833 37
Taz1 is a hybrid receptor in the Escherichia coli cytoplasmic membrane, consisting of the N-terminal ligand binding domain of Tar (a chemoreceptor for aspartate) and the C-terminal signaling domain of EnvZ (an osmosensor). The binding of aspartate to an extra cytoplasmic domain induces the transmembrane signal to the cytoplasmic signaling domain. The signaling domain functioning as a protein kinase evokes a response by transferring a phosphate from an intracellular
histidine
to OmpR. This domain also encodes an OmpR-specific phosphatase whose action is crucial in completing the OmpR phosphorylation cycle. Phosphorylated OmpR acts as a
transcriptional activator
for the ompC gene. A number of mutations were introduced into the signaling domain in conserved sequences of the prokaryotic histidine kinase family. All Taz1 mutants lost the ability to both autophosphorylate the
histidine
residue and transfer the phosphate to OmpR. These mutated receptors were unable to activate ompC-lacZ expression. However, ompC-lacZ was able to be activated by complementation of Taz1 mutants. In some combinations, two different defective Taz1 mutants could restore both OmpR kinase and phosphatase activities when co-expressed. In other combinations only kinase activity was restored. Aspartate-inducible ompC-lacZ expression was restored only in the former cases, while in the latter cases ompC-lacZ expression became constitutive. These results indicate that the kinase activity is essential to activate ompC expression while the phosphatase activity is required to regulate ompC gene expression in a ligand-dependent manner.
...
PMID:Requirement of both kinase and phosphatase activities of an Escherichia coli receptor (Taz1) for ligand-dependent signal transduction. 838 84
TnphoA mutagenesis of Agrobacterium tumefaciens identified new extracytoplasmic protein-encoding virulence loci. Mutations in these loci conferred increased sensitivity to detergents and several antibiotics. Clones carrying these loci were isolated from an A. tumefaciens cosmid library by complementation of the detergent sensitivities of the mutants. The locus on one complementing clone was delineated by Tn5 and TnphoA mutagenesis. DNA sequence analysis of the delineated region revealed that this locus is made up of two transcriptional units, chvG and chvI, which were predicted, on the basis of amino acid sequence homology, to encode the members of a two-component sensory transduction system. The membrane-spanning sensor, a
histidine
protein kinase, was designated ChvG, and the response regulator, presumably a
transcriptional activator
, was designated ChvI. Surprisingly, ChvG was also predicted to contain a Walker type A consensus nucleotide binding site, which is unusual for sensor
histidine
protein kinases. Site-specific insertion mutations in either chvG or chvI abolished tumor formation ability, as well as the ability to grow on complex media. Neither the genes which are regulated nor the inducing signal is known yet for this system.
...
PMID:A chromosomally encoded two-component sensory transduction system is required for virulence of Agrobacterium tumefaciens. 840 39
A DNA fragment encoding the yeast GAL4
transcriptional activator
DNA-binding domain (amino acids 1-93) was cloned into an Escherichia coli expression vector such that the overproduced protein is tagged with six
histidine
residues and a factor Xa protease cleavage site. The vector also contains unique restriction sites at the 3' end of the gene to allow the construction of fusion proteins. These fusion proteins can easily be purified to homogeneity and their activity tested in vitro.
...
PMID:Overproduction and single-step purification of GAL4 fusion proteins from Escherichia coli. 847 50
Accumulating evidence supports the hypothesis that tumor-suppressor p53 can act as a
transcriptional activator
. Insertion of high-affinity p53 DNA binding sites upstream of a promoter yields a p53-responsive vector. Chimeric proteins fusing p53 and the GAL4 DNA-binding domain demonstrate the presence of a transcriptional activating domain in the N-terminus of p53. GAL4-p53 chimeras constructed using naturally occurring p53 mutations at either codon 141 (Tyr-141) or 175 (
His
-175) of p53 had little ability to activate the reporter gene; in contrast, mutations at either codon 248 (Trp-248) or 273 (
His
-273) produced greater transcriptional activities than did wild-type p53. GAL4 chimeras can be used to analyse interactions between different domains of p53 and between different p53 alleles; a DNA binding site is defined, and a simple measurement can be made of function. We had expected that coexpression of GAL4 chimeras and p53 alleles would squelch transcriptional activation downstream of GAL binding sites. Surprisingly, coexpression of either p53 (Trp-248) or (
His
-273) with the GALA-p53 (wild-type,
His
-273, Trp-248,
His
-175, Tyr-141) effectors conferred an increase in transcriptional activation as compared with the effector alone. Oligomerization of p53 alleles with GAL4-p53 chimeras could underlie this effect, leading to an increase in transcription-activating motifs near the promoter. To test this possibility, we constructed a GAL4-p53 C-terminal chimera with p53 residues 160-393, lacking the transcriptional activating domain but retaining regions believed to be important in p53 oligomerization. Neither GAL4-p53 (C-terminus) nor p53 expression vectors were able to transactivate G5E1B-CAT alone. Both p53 (
His
-273) and (Trp-248) co-expressed with GAL4-p53 (C-terminus) were able to transactivate the G5E1B-CAT reporter gene; in contrast, p53 (Tyr-141) was not able to activate transcription. p53 (Tyr-141/
His
-273) behaved as a dominant negative mutant and inhibited the ability of the combination of p53 (
His
-273) and GAL4-p53 (C-terminus) to stimulate the reporter gene. Double immunoprecipitation by sequentially using GAL4 and p53 antibodies showed that p53 (
His
-273) and (Tyr-141/
His
-273), but not p53 (Tyr-141), can efficiently oligomerize in vivo to the C-terminal region of p53. Transcriptional activating function of p53 may be modulated by oligomerization; some mutations, such as
His
-273 and Trp-248, participate in these functions.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Mutant p53 proteins have diverse intracellular abilities to oligomerize and activate transcription. 851 Sep 27
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