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为了探讨副溶血性弧菌拟核相关蛋白H-NS对Ⅲ型分泌系统(T3SS) VP1687-1686基因位点的转录调控,本研究提取副溶血弧菌hns突变株(Δhns)和野生株(WT)的总RNA,采用引物延伸实验研究靶基因的转录起始位点,并根据产物的丰度判断H-NS对靶基因的调控关系;采用实时定量RT-PCR研究靶基因mRNA在WT和Δhns中转录丰度,以判定H-NS对靶基因的转录调控关系;将靶基因启动子区域DNA序列克隆至lacZ基因上游,将重组质粒转入WT和Δhns中,得到相应的LacZ菌株,通过LacZ报告基因融合实验研究H-NS对靶基因的调控关系;用PCR扩增靶基因的启动子区DNA序列,并纯化His-H-NS蛋白,通过凝胶阻滞实验(EMSA)研究His-H-NS是否对靶基因启动子区具有直接的结合作用。研究结果显示,T3SS的VP1687-1686只含有一个转录起始位点,位于翻译起始位点上游82 bp处,且H-NS能够抑制其转录活性,但不能直接结合到VP1687-1686区的启动子区。另外,H-NS对calR的转录无调控作用,His-H-NS也不能结合到其启动子区。本研究的结果初步说明,H-NS能够间接抑制VP1687-1686的转录,该抑制机制与CalR无关联。  相似文献   

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We have worked out a system to obtain mutations that map in the promoter region of the Escherichia coli galactose operon. In order to easily detect small changes in gal promoter activity, we constructed a plasmid containing an operon fusion in which the lactose operon structural genes were controlled by the galactose operon promoter region. In cells harbouring this plasmid, even modest variations in the expression of the lac genes could be detected on MacConkey lactose indicator plates.Enrichment for mutations that map in the promoter segment of the galactose operon was achieved by mutagenesis in vitro of a small fragment of DNA covering the promoter region. After insertion of the mutagenized gal promoter fragment into the gal-lac fusion plasmid, lac?1 cells were transformed and screened for an altered Lac+ phenotype on indicator plates. Several mutants were isolated due to lesions mapping in the small fragment covering the galactose promoter. In these mutants, the level of β-galactosidase was between 15 and 50% of the wild-type level.The mutant promoters were subsequently reinserted into a plasmid containing the intact galactose operon. Cells harbouring such plasmids, reconstituted with mutant galactose promoters, contained decreased levels of galactokinase that paralleled the decreases in β-galactosidase. The biochemical properties of these mutants are reported in the accompanying paper (Busby et al., 1982).  相似文献   

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Pseudomonas chlororaphis GP72 is an important plant growth-promoting rhizobacteria (PGPR) with a wide-spectrum antibiotic activity toward several soil-borne pathogens. The adaption of this strain to different environmental oxidative stress and redox phenazine pigment by the predicted regulator OxyR were investigated. The deletion of oxyR led to a significant reduction of the viability, production of three phenazine derivatives and resistance to hydrogen peroxide and paraquat on the KB agar plates. However, the mutant ΔoxyR grew better with shorter delay. In addition, the mutant ΔoxyR showed an increased resistance to hydrogen peroxide, which occurred at the concentration varying from 1.0 mM to 5.0 mM in the KB broth, as compared with the wild type. In addition, the biofilm formation ability was obviously enhanced and influenced by the different oxidants in the mutant. Quantitative RT-PCR experiments indicated that the expression of katG, ahpC, ahpD and phzE were increased in the oxyR mutant background in response to hydrogen peroxide. katG was mainly responsible for the enhanced resistance to hydrogen peroxide. The loss of oxyR is suggested to benefit the hydrogen peroxide inducible gene expression. Thus, OxyR is an important global regulator that regulates multiple pathways to enhance the survival of P. chlororaphis GP72 exposed to different oxidative stresses.  相似文献   

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A novel OxyR (DR0615) with one conserved cysteine that senses hydrogen peroxide in Deinococcus radiodurans had been identified in our previous work. Comparative genomics revealed that D. radiodurans possesses another OxyR homolog, OxyR2 (DRA0336). In this study, we constructed the deletion mutant of oxyR 2 and the double mutant of both the OxyR homologs to investigate the role of OxyR in response to oxidative stress in D. Radiodurans. Deletion of oxyR 2 resulted in an obviously increased sensitivity to hydrogen peroxide, and the double mutant for oxyR and oxyR 2 was significantly more sensitive than any of the two single mutants. The total catalase activity of the double mutant was lower than that of any of the single mutants, and reactive oxygen species (ROS) accumulated to a greater extent. DNA microarray analysis further suggested that oxyR 2 was involved in antioxidation mechanisms. Site-direct mutagenesis and complementation analysis revealed that C228 in OxyR2 was essential. This is the first report of the presence of two OxyR in one organism. These results suggest that D. radiodurans OxyR and OxyR2 function together to protect the cell against oxidative stress.  相似文献   

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An important virulence strategy evolved by bacterial pathogens to overcome host defenses is the modulation of host cell death. Previous observations have indicated that Yersinia pestis, the causative agent of plague disease, exhibits restricted capacity to induce cell death in macrophages due to ineffective translocation of the type III secretion effector YopJ, as opposed to the readily translocated YopP, the YopJ homologue of the enteropathogen Yersinia enterocolitica O∶8. This led us to suggest that reduced cytotoxic potency may allow pathogen propagation within a shielded niche, leading to increased virulence. To test the relationship between cytotoxic potential and virulence, we replaced Y. pestis YopJ with YopP. The YopP-expressing Y. pestis strain exhibited high cytotoxic activity against macrophages in vitro. Following subcutaneous infection, this strain had reduced ability to colonize internal organs, was unable to induce septicemia and exhibited at least a 107-fold reduction in virulence. Yet, upon intravenous or intranasal infection, it was still as virulent as the wild-type strain. The subcutaneous administration of the cytotoxic Y. pestis strain appears to activate a rapid and potent systemic, CTL-independent, immunoprotective response, allowing the organism to overcome simultaneous coinfection with 10,000 LD50 of virulent Y. pestis. Moreover, three days after subcutaneous administration of this strain, animals were also protected against septicemic or primary pneumonic plague. Our findings indicate that an inverse relationship exists between the cytotoxic potential of Y. pestis and its virulence following subcutaneous infection. This appears to be associated with the ability of the engineered cytotoxic Y. pestis strain to induce very rapid, effective and long-lasting protection against bubonic and pneumonic plague. These observations have novel implications for the development of vaccines/therapies against Y. pestis and shed new light on the virulence strategies of Y. pestis in nature.  相似文献   

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Klebsiella pneumoniae (Kp) is an important cause of healthcare-associated infections, which increases patient morbidity, mortality, and hospitalization costs. Gut colonization by Kp is consistently associated with subsequent Kp disease, and patients are predominantly infected with their colonizing strain. Our previous comparative genomics study, between disease-causing and asymptomatically colonizing Kp isolates, identified a plasmid-encoded tellurite (TeO3-2)-resistance (ter) operon as strongly associated with infection. However, TeO3-2 is extremely rare and toxic to humans. Thus, we used a multidisciplinary approach to determine the biological link between ter and Kp infection. First, we used a genomic and bioinformatic approach to extensively characterize Kp plasmids encoding the ter locus. These plasmids displayed substantial variation in plasmid incompatibility type and gene content. Moreover, the ter operon was genetically independent of other plasmid-encoded virulence and antibiotic resistance loci, both in our original patient cohort and in a large set (n = 88) of publicly available ter operon-encoding Kp plasmids, indicating that the ter operon is likely playing a direct, but yet undescribed role in Kp disease. Next, we employed multiple mouse models of infection and colonization to show that 1) the ter operon is dispensable during bacteremia, 2) the ter operon enhances fitness in the gut, 3) this phenotype is dependent on the colony of origin of mice, and 4) antibiotic disruption of the gut microbiota eliminates the requirement for ter. Furthermore, using 16S rRNA gene sequencing, we show that the ter operon enhances Kp fitness in the gut in the presence of specific indigenous microbiota, including those predicted to produce short chain fatty acids. Finally, administration of exogenous short-chain fatty acids in our mouse model of colonization was sufficient to reduce fitness of a ter mutant. These findings indicate that the ter operon, strongly associated with human infection, encodes factors that resist stress induced by the indigenous gut microbiota during colonization. This work represents a substantial advancement in our molecular understanding of Kp pathogenesis and gut colonization, directly relevant to Kp disease in healthcare settings.  相似文献   

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The Yersinia pestis adhesin Ail mediates host cell binding and facilitates delivery of cytotoxic Yop proteins. Ail from Y. pestis and Y. pseudotuberculosis is identical except for one or two amino acids at positions 43 and 126 depending on the Y. pseudotuberculosis strain. Ail from Y. pseudotuberculosis strain YPIII has been reported to lack host cell binding ability, thus we sought to determine which amino acid difference(s) are responsible for the difference in cell adhesion. Y. pseudotuberculosis YPIII Ail expressed in Escherichia coli bound host cells, albeit at ∼50% the capacity of Y. pestis Ail. Y. pestis Ail single mutants, Ail-E43D and Ail-F126V, both have decreased adhesion and invasion in E. coli when compared to wild-type Y. pestis Ail. Y. pseudotuberculosis YPIII Ail also had decreased binding to the Ail substrate fibronectin, relative to Y. pestis Ail in E. coli. When expressed in Y. pestis, there was a 30–50% decrease in adhesion and invasion depending on the substitution. Ail-mediated Yop delivery by both Y. pestis Ail and Y. pseudotuberculosis Ail were similar when expressed in Y. pestis, with only Ail-F126V giving a statistically significant reduction in Yop delivery of 25%. In contrast to results in E. coli and Y. pestis, expression of Ail in Y. pseudotuberculosis led to no measurable adhesion or invasion, suggesting the longer LPS of Y. pseudotuberculosis interferes with Ail cell-binding activity. Thus, host context affects the binding activities of Ail and both Y. pestis and Y. pseudotuberculosis Ail can mediate cell binding, cell invasion and facilitate Yop delivery.  相似文献   

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One operon fusion to the promoter of either theproA orproB genes of the proline biosynthetic pathway was obtained by the use of the Mud(Ap,lac) bacteriophage. This operon fusion was further stabilized by transformation with the plasmid pGW600 containing the wild type Mu repressor gene. The level of β-galactosidase in this strain was not affected by the presence of high concentrations of NaCl in the growth medium. Mutations affecting the regulation of thispro-lac genetic fusion were generated by the insertion of Tn5; β-galactosidase levels in these mutants were higher than in the parental strain when proline was present at a high level. In some of these mutants we observed either repression or maintenance of β-galactosidase levels whenpro-lac (F′proAB +) merodiploids were constructed.  相似文献   

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Several pathogenicity islands have recently been identified in different bacterial species, including a high-pathogenicity island (HPI) in Yersinia enterocolitica 1B. In Y. pestis, a 102-kb chromosomal fragment (pgm locus) that carries genes involved in iron acquisition and colony pigmentation can be deleted en bloc. In this study, characterization and mapping of the 102-kb region of Y. pestis 6/69 were performed to determine if this unstable region is a pathogenicity island. We found that the 102-kb region of Y. pestis is composed of two clearly distinct regions: an ≈35-kb iron acquisition segment, which is an HPI per se, linked to an ≈68-kb pigmentation segment. This linkage was preserved in all of the Y. pestis strains studied. However, several nonpigmented Y. pestis strains harboring an irp2 gene have been previously identified, suggesting that the pigmentation segment is independently mobile. Comparison of the physical map of the 102-kb region of these strains with that of strain 6/69 and complementation experiments were carried out to determine the genetic basis of this phenomenon. We demonstrate that several different mechanisms involving mutations and various-size deletions are responsible for the nonpigmented phenotype in the nine strains studied. However, no deletion corresponded exactly to the pigmentation segment. The 102-kb region of Y. pestis is an evolutionarily stable linkage of an HPI with a pigmentation segment in a region of the chromosome prone to rearrangement in vitro.  相似文献   

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Background

Plague is still a public health problem in the world and is re-emerging, but no efficient vaccine is available. We previously reported that oral inoculation of a live attenuated Yersinia pseudotuberculosis, the recent ancestor of Yersinia pestis, provided protection against bubonic plague. However, the strain poorly protected against pneumonic plague, the most deadly and contagious form of the disease, and was not genetically defined.

Methodology and Principal Findings

The sequenced Y. pseudotuberculosis IP32953 has been irreversibly attenuated by deletion of genes encoding three essential virulence factors. An encapsulated Y. pseudotuberculosis was generated by cloning the Y. pestis F1-encoding caf operon and expressing it in the attenuated strain. The new V674pF1 strain produced the F1 capsule in vitro and in vivo. Oral inoculation of V674pF1 allowed the colonization of the gut without lesions to Peyer''s patches and the spleen. Vaccination induced both humoral and cellular components of immunity, at the systemic (IgG and Th1 cells) and the mucosal levels (IgA and Th17 cells). A single oral dose conferred 100% protection against a lethal pneumonic plague challenge (33×LD50 of the fully virulent Y. pestis CO92 strain) and 94% against a high challenge dose (3,300×LD50). Both F1 and other Yersinia antigens were recognized and V674pF1 efficiently protected against a F1-negative Y. pestis.

Conclusions and Significance

The encapsulated Y. pseudotuberculosis V674pF1 is an efficient live oral vaccine against pneumonic plague, and could be developed for mass vaccination in tropical endemic areas to control pneumonic plague transmission and mortality.  相似文献   

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In Escherichia coli hosts, hydrogen peroxide is one of the factors that may cause induction of λ prophage. Here, we demonstrate that H2O2-mediated λ prophage induction is significantly enhanced in the oxyR mutant host. The mRNA levels for cI gene expression were increased in a λ lysogen in the presence of H2O2. On the other hand, stimulation of the p M promoter by cI857 overproduced from a multicopy plasmid was decreased in the ΔoxyR mutant in the presence of H2O2 but not under normal growth conditions. The purified OxyR protein did bind specifically to the p M promoter region. This binding impaired efficiency of interaction of the cI protein with the OR3 site, while stimulating such a binding to OR2 and OR1 sites, in the regulatory region of the p M promoter. We propose that changes in cI gene expression, perhaps in combination with moderately induced SOS response, may be responsible for enhanced λ prophage induction by hydrogen peroxide in the oxyR mutant. Therefore, OxyR seems to be a factor stimulating λ prophage maintenance under conditions of oxidative stress. This proposal is discussed in the light of efficiency of induction of lambdoid prophages bearing genes coding for Shiga toxins.  相似文献   

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We constructed and characterized a Xanthomonas campestris pv. phaseoli oxyR mutant. The mutant was hypersensitive to H2O2 and menadione killing and had reduced aerobic plating efficiency. The oxidants’ induction of the catalase and ahpC genes was also abolished in the mutant. Analysis of the adaptive responses showed that hydrogen peroxide-induced protection against hydrogen peroxide was lost, while menadione-induced protection against hydrogen peroxide was retained in the oxyR mutant. These results show that X. campestris pv. phaseoli oxyR is essential to peroxide adaptation and revealed the existence of a novel superoxide-inducible peroxide protection system that is independent of OxyR.  相似文献   

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