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Enzyme
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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The pesticin receptor (Psn) of
Yersinia
pestis confers sensitivity to the bacteriocin, pesticin, and is an integral component of an inorganic-iron-transport system that functions at 37 degrees C. Synthesis of Psn is under the control of its own promoter and is regulated by iron and probably by the presence of its cognate siderophore. We have used a psn promoter fusion with lacZ to identify cis- and trans-acting factors which affect transcription of the psn gene. As expected, expression of lacZ from this construct was iron regulated and repressed by Fur. Mutations within a putative siderophore biosynthetic gene (irp2) also decreased expression. A set of repeats adjacent to the -35 region of the psn promoter was required for maximum expression of the psn::lacZ gene. Sequence analysis of the region upstream of irp2 revealed the presence of a gene (ybtA) with homology to the AraC family of transcriptional regulators. Insertional inactivation of ybtA resulted in decreased synthesis of Psn and proteins encoded by the irp2 operon as well as decreased expression from the psn::lacZ promoter fusion, indicating that YbtA is a
transcriptional activator
for psn and the putative siderophore biosynthetic genes. YbtA also represses its own transcription.
...
PMID:YbtA, an AraC-type regulator of the Yersinia pestis pesticin/yersiniabactin receptor. 893 Sep 16
Enteropathogenic E. coli (EPEC) are a major cause of diarrhea in infants throughout the world. Although this pathogen was described 50 years ago, it is only recently that the pathogenic mechanisms employed by this organism have been elucidated. The characteristic histopathology induced by this organism, called "attaching and effacing", consists of intimate adherence of the bacterium to the epithelial cell with marked cytoskeletal changes including effacement of microvilli. A 35 kb region of chromosomal DNA, called the LEE for locus of enterocyte effacement has recently been described which contains all known genes necessary for production of this characteristic histopathology. Within this region is the eae gene encoding intimin, a 94 kDa OMP involved in intimate adherence. Also within this region are genes encoding proteins secreted extracellularly by EPEC (esp) and a type III secretion apparatus (sep) which shares homology with similar systems in
Yersinia
, Shigella, and Salmonella. Additional genes on a 60 MDa plasmid encode a type IV pilus (BFP) and a positive
transcriptional activator
(per) of multiple chromosomal and plasmid virulence genes.
...
PMID:Genetics of virulence of enteropathogenic E. coli. 919 31
The first temperature-dependent proteins (expressed at 37 degrees C, but not 26 degrees C) to be identified in
Yersinia
pestis were antigens 3 (fraction 1), 4 (pH 6 antigen), and 5 (hereafter termed KatY). Antigens 3 and 4 are now established virulence factors, whereas little is known about KatY, except that it is encoded chromosomally, produced in abundance, possesses modest catalase activity, and is shared by
Yersinia
pseudotuberculosis, but not
Yersinia
enterocolitica. We report here an improved chromatographic method (DEAE-cellulose, calcium hydroxylapatite, and Sephadex G-150) that yields enzymatically active KatY (2,423 U/mg of protein). Corresponding mouse monoclonal antibody 1B70.1 detected plasminogen activator-mediated hydrolysis of KatY, and a polyclonal rabbit antiserum raised against outer membranes of Y. pestis was enriched for anti-KatY. A sequenced approximately 16-kb Y. pestis DNA insert of a positive pLG338 clone indicated that katY encodes an 81.4-kDa protein (pI 6.98) containing a leader sequence of 2.6 kDa; the deduced molecular mass and pI of processed KatY were 78.8 kDa and 6. 43, respectively. A minor truncated variant (predicted molecular mass of 53.6 kDa) was also expressed. KatY is similar (39 to 59% identity) to vegetative bacterial catalase-peroxidases (KatG in Escherichia coli) and is closely related to plasmid-encoded KatP of enterohemorrhagic E. coli O157:H7 (75% identity). katY encoded a putative Ca2+-binding site, and its promoter contained three homologues to the consensus recognition sequence of the pCD-encoded
transcriptional activator
LcrF. rbsA was located upstream of katY, and cybB, cybC, dmsABC, and araD were mapped downstream. These genes are not linked to katG or katP in E. coli.
...
PMID:Molecular characterization of KatY (antigen 5), a thermoregulated chromosomally encoded catalase-peroxidase of Yersinia pestis. 1032 12
The comparison of common strategies used by bacterial pathogens to overcome host defenses provides us with the opportunity to analyze the biology of pathogenicity, as well as point out the unique interactions between a particular pathogen and its host. Here we compare and contrast apoptosis induced by three enteric pathogens, Salmonella, Shigella, and
Yersinia
. We point out that all three enteric pathogens induce apoptosis in macrophages in vitro, but the proposed mechanisms are quite different.
Yersinia
induces apoptosis by inhibiting the translocation of the
transcriptional activator
, NF-kappaB, into the nucleus, which results in the suppression of TNFalpha production; whereas Salmonella- and Shigella-induced apoptosis depend on the activation of caspase-1 (casp-1). The result of casp-1 activation is to induce apoptosis as well as to process the proinflammatory cytokines, pro-IL-1beta and pro-IL18 into their mature bioactive forms. Thus, in contrast to
Yersinia
, Salmonella and Shigella-induced apoptosis results in a proinflammatory cascade.
...
PMID:Apoptosis as a common bacterial virulence strategy. 1104 77
A putative LysR-type
transcriptional activator
, Hre20, was identified previously in an in vivo expression technology screen designed to identify factors which are expressed early during infection by
Yersinia
enterocolitica (G. M. Young and V. L. Miller, Mol. Microbiol. 25:319-328, 1997). An insertion in hre20, now designated rscR, resulted in increased splenic dissemination of bacteria during infection in a BALB/c mouse model. A nonpolar mutation was generated in rscR, and examination of this strain in the BALB/c mouse model demonstrated that the mutation in rscR was responsible for the increased dissemination to the spleen that was seen in the original experiments. RscR is homologous to the LysR family of transcriptional regulators; thus, a screen was undertaken to identify genes regulated by RscR. A strain containing an insertion in the chromosomal rscR gene and carrying rscR on a plasmid under the control of the inducible araBAD promoter was mutagenized with an mTn5Km-2 transposon containing a promoterless lacZY. Eighteen insertions were identified which appeared to respond to levels of RscR, and these were classified into four allelic groups based on Southern blot hybridization analysis. Representative members were sequenced from three allelic groups. Sequencing revealed insertions in an ORF with no known homologues, a homologue of OmpF of Serratia marcescens, and a locus (designated rscBAC) with similarity to the hmwABC locus of Haemophilus influenzae. The hmwABC locus promotes adherence of H. influenzae to host cells (S. J. Barenkamp and J. W. St. Geme III, Infect. Immun. 62:3320-3328, 1994; J. W. St. Geme III, S. Falkow, and S. J. Barenkamp, Proc. Natl. Acad. Sci. USA 90:2875-2879, 1993). A strain containing a deletion mutant of rscA, the hmwA homologue, exhibits increased splenic dissemination of bacteria during infection in a BALB/c mouse model, similar to the rscR mutant. This suggests that the phenotype of an rscR mutant is due to the loss of RscA.
...
PMID:Identification of a locus involved in systemic dissemination of Yersinia enterocolitica. 1155 61
The adhesion protein YadA is encoded by the yadA gene located in the 70-kb virulence plasmid of
Yersinia
(pYV) that is common to the pathogenic
Yersinia
species (Y. pestis, Y. pseudotuberculosis and Y. enterocolitica). YadA is a virulence factor of Y. enterocolitica, however, YadA seems to be dispensable for the virulence of Y. pseudotuberculosis, and in wild-type Y. pestis the yadA gene has a frameshift mutation silencing the gene. Expression of the Y. pseudotuberculosis YadA in Y. pestis reduces its virulence. YadA is a homotrimer of ca. 45-kDa subunits that are anchored to the outer membrane via their C-termini, while their N-termini form a globular head on top of a stalk; the 'lollipop'-shaped YadA structure covers the entire bacterial surface giving it hydrophobic properties. The yadA gene expression is induced at 37 degrees C by the temperature-dependent
transcriptional activator
LcrF. YadA is a multifaceted protein as revealed by its different biological properties. YadA+ bacteria bind to collagens, laminin, fibronectin, intestinal submucosa, mucus, and to hydrophobic surfaces like polystyrene. YadA+ bacteria autoagglutinate in stationary culture and also specifically agglutinate guinea pig red blood cells. YadA is also a potent serum resistance factor as it inhibits the classical pathway of complement. As invasin, it mediates low rate invasion to tissue culture cells. In a rat model of reactive arthritis YadA and specifically YadA-mediated collagen binding is necessary for Y. enterocolitica to induce the disease. Despite of this wealth of information or perhaps because of it, the in vivo role of YadA during infection remains still largely unresolved.
...
PMID:YadA, the multifaceted Yersinia adhesin. 1155 61
Invasin is the primary invasive factor of
Yersinia
pseudotuberculosis that allows efficient internalization into eukaryotic cells. We investigated invasin expression and found that the inv gene is regulated in response to a variety of environmental signals, such as temperature, growth phase, nutrients, osmolarity and pH, and requires the product of rovA, a member of the SlyA/Hor
transcriptional activator
family. The rovA gene was found by a genetic complementation strategy that restores temperature regulation of an unexpressed inv-phoA fusion in Escherichia coli K-12. RovA plays a role in the invasion of Y. pseudotuberculosis into mammalian cells and mediates the regulation of invasin in response to all environmental signals analysed. Deletion analysis of the inv promoter region revealed a DNA segment extending 207 bp upstream of the transcriptional start site, which is required for maximal RovA-induced inv transcription. Gel retardation assays showed that RovA interacts preferentially with this promoter fragment and suggested two potential RovA binding sites. Studies with chromosomal gene fusions also demonstrated that rovA follows the same pattern of regulation as invasin, indicating that environmental control of inv expression is mainly mediated by the control of RovA synthesis. Furthermore, we showed that a rovA-lacZ fusion is only slightly expressed in a rovA mutant strain, indicating that a positive autoregulatory mechanism is also involved in rovA expression.
...
PMID:Environmental control of invasin expression in Yersinia pseudotuberculosis is mediated by regulation of RovA, a transcriptional activator of the SlyA/Hor family. 1158 Aug 32
The Hrp type III protein secretion system is essential for pathogenicity of the Gram-negative plant pathogen Xanthomonas campestris pv. vesicatoria. Expression of the hrp gene cluster is controlled by HrpG, a two-component response regulator, and HrpX, an AraC-type
transcriptional activator
. Using the cDNA-AFLP technique, 30 hrpG-induced (hgi) and five hrpG-repressed (hgr) cDNA fragments were identified, defining a large hrpG-regulon in X. campestris pv. vesicatoria. Expression of most genes in the hrpG-regulon was dependent on hrpX. Seven cDNA fragments map to the known hrp gene cluster and flanking regions. All other genes appear to be scattered over the chromosome and endogenous plasmids. Sequence analysis identified genes encoding putative extracellular proteases, a putative transcriptional regulator and XopJ and XopB (Xanthomonas outer proteins), homologues of YopJ from
Yersinia
spp. and the avirulence protein AvrPphD of Pseudomonas syringae respectively. XopB is secreted by the Hrp type III secretion system. Analysis of deletion mutants in several hgi genes revealed a new virulence locus. This study demonstrates that cDNA-AFLP is a powerful tool to study prokaryotic transcriptomes and to identify genes contributing to Xanthomonas virulence and putative effector proteins.
...
PMID:cDNA-AFLP analysis unravels a genome-wide hrpG-regulon in the plant pathogen Xanthomonas campestris pv. vesicatoria. 1158 Aug 33
The Yop virulon enables extracellularly located
Yersinia
, in close contact with a eukaryotic target cell, to inject bacterial toxic proteins directly into the cytosol of this cell. Several Ysc proteins, forming the Yop secretion apparatus, display homology with proteins of the flagellar basal body. To determine whether this relationship could extend to the regulatory pathways, we analyzed the influence of flhDC, the master regulatory operon of the flagellum, on the yop regulon. In an flhDC mutant, the yop regulon was up-regulated. The transcription of virF and the steady-state level of the
transcriptional activator
VirF were enhanced. yop transcription was increased at 37 degrees C and could also be detected at a low temperature. Yop secretion was increased at 37 degrees C and occurred even at a low temperature. The Ysc secretion machinery was thus functional at room temperature in the absence of flagella, implying that in wild-type bacteria, FlhD and/or FlhC, or the product of a gene downstream of flhDC, represses the yop regulon. In agreement with this notion, increased expression of flhDC in wild-type bacteria resulted in the oversecretion of flagellins at room temperature and in decreased Yop secretion at 37 degrees C.
...
PMID:Up-regulation of the Yersinia enterocolitica yop regulon by deletion of the flagellum master operon flhDC. 1202 37
The
transcriptional activator
RovA of
Yersinia
pseudotuberculosis, a member of the SlyA/Hor family, activates its own expression and that of the virulence factor invasin in response to moderate growth temperature, but not at 37 degrees C. In this work, we analysed the mechanism of RovA-dependent transcription of the rovA and inv genes. We found that rovA is transcribed by two different promoters. Sequences located upstream and downstream of the promoters were involved in rovA autoregulation and interacted specifically with the RovA protein. To define the nucleotides recognized by the RovA protein, we determined the RovA binding sites in the rovA and the inv regulatory region and revealed related AT-rich sequence motifs at diverse positions relative to the transcriptional start sites. We also showed that rovA and the RovA-dependent inv gene were both subject to silencing by the nucleoid-associated H-NS protein of Y. pseudotuberculosis. The binding sites of the H-NS and RovA proteins in the rovA and inv regulatory sequences were superimposed, and the presence of the RovA protein alleviated H-NS-mediated repression of the rovA and inv promoter. Moreover, loss of H-NS function led to a significant increase in rovA and inv transcription nearly independently of RovA, indicating that RovA acts mainly as an antirepressor. We therefore hypothesize that the transcription level of RovA-dependent genes reflects the outcome of the RovA/H-NS competition and the rovA autoregulatory mechanism.
...
PMID:RovA is autoregulated and antagonizes H-NS-mediated silencing of invasin and rovA expression in Yersinia pseudotuberculosis. 1525 99
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