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1.
Colicin V virulence plasmids.   总被引:15,自引:1,他引:15       下载免费PDF全文
ColV plasmids are a heterogeneous group of IncFI plasmids which encode virulence-related properties such as the aerobactin iron uptake system, increased serum survival, and resistance to phagocytosis. These plasmids have been found in invasive strains of Escherichia coli which infect vertebrate hosts including humans and livestock. Colicin V was the first colicin to be identified, in 1925, but not until the field experienced a renewed interest has the mechanism of colicin V activity been explored. As encoded by ColV plasmid pColV-K30, the aerobactin iron uptake system has been extensively investigated, but other ColV-encoded phenotypes remain largely uncharacterized. Restriction enzyme mapping of the 144-kb pColV-K30 and of the 80-kb pColV-B188 has facilitated systematic study, so that questions can be addressed by a molecular and comparative approach regarding the contributions of individual factors and plasmids to the virulence of host E. coli in model systems. The family of large ColV plasmids could be analogous to other families of large virulence plasmids, and insights gained from studying these plasmids should contribute to our understanding of cross-genetic interactions and the role of large plasmids in bacterial pathogenesis.  相似文献   

2.
Certain Salmonella serovars belonging to subspecies I carry a large, low-copy-number plasmid that contains virulence genes. Virulence plasmids are required to trigger systemic disease; their involvement in the enteric stage of the infection is unclear. Salmonella virulence plasmids are heterogeneous in size (50-90 kb), but all share a 7.8 kb region, spv, required for bacterial multiplication in the reticuloendothelial system. Other loci of the plasmid, such as the fimbrial operon pef, the conjugal transfer gene traT and the enigmatic rck and rsk loci, may play a role in other stages of the infection process. The virulence plasmid of Salmonella typhimurium LT2 is self-transmissible; virulence plasmids from other serovars, such as Salmonella enteritidis and Salmonella choleraesuis, carry incomplete tra operons. The presence of virulence plasmids in host-adapted serovars suggests that virulence plasmid acquisition may have expanded the host range of Salmonella.  相似文献   

3.
4.
Distribution of virulence plasmids within Salmonellae   总被引:10,自引:0,他引:10  
The virulence region of the Salmonella dublin 50 MDa plasmid shared homology with 678 of 1021 salmonellae tested in colony hybridization experiments. The majority of S. dublin, S. typhimurium and S. enteritidis isolates tested hybridized with the region whereas, with the exception of S. hessarek, S. pullorum and S. gallinarum, other serotypes did not. Homologous virulence regions were plasmid encoded. In S. typhimurium a common 60 MDa plasmid was present in all phage types tested but not in DT4, DT37 and DT170. Smaller plasmids showing partial homology were found in DT12, DT18, DT193 and DT204C. In S. enteritidis a distinct plasmid profile for each of eight phage types was observed. Hybridizing plasmids were found in DT3, DT4, DT8, DT9 and DT11 whereas DT7, which was plasmid free, and DT10 and DT14, which harboured plasmids, did not hybridize. The extent of homology shared between S. dublin, S. typhimurium and S. enteritidis virulence plasmids was about 10 MDa and appeared conserved. Virulence plasmids from S. typhimurium and S. enteritidis did not show homology with a region of the S. dublin 50 MDa plasmid which was not associated with virulence functions whereas plasmids of about 24 MDa and 38 MDa in some S. typhimurium phage types did. The association of conserved virulence regions upon differing plasmids within salmonellae is discussed with reference to possible mechanisms of distribution and evolution of virulence genes.  相似文献   

5.
Genetic Analysis of the Colicin V Secretion Pathway   总被引:7,自引:0,他引:7       下载免费PDF全文
Colicin V (ColV) is peptide antibiotic secreted by Escherichia coli through a dedicated exporter composed of three proteins, CvaA, CvaB, and TolC. ColV secretion is independent of the E. coli general secretory pathway (Sec) but requires an N-terminal export signal specific for the CvaAB/TolC exporter. ColV secretion was characterized using genetic and biochemical methods. When the ColV N-terminal extension is replaced with the OmpA signal sequence, the Sec system can localize ColV to the periplasm. Periplasmic ColV is lethal to cells lacking the ColV immunity protein, Cvi. Based on this result, a genetic assay was designed to monitor for the presence of periplasmic ColV during normal CvaAB/TolC mediated secretion. Results indicate that low levels of ColV may be present in the periplasm during secretion. Precursor and mature ColV were also characterized from the wild-type system and in various exporter mutant backgrounds using immunoprecipitation. ColV processing is rapid in wild-type cells, and CvaA and CvaB are critical for processing to occur. In contrast, processing occurs normally, albeit more slowly, in a TolC mutant.  相似文献   

6.
Colicin biology.     
Colicins are proteins produced by and toxic for some strains of Escherichia coli. They are produced by strains of E. coli carrying a colicinogenic plasmid that bears the genetic determinants for colicin synthesis, immunity, and release. Insights gained into each fundamental aspect of their biology are presented: their synthesis, which is under SOS regulation; their release into the extracellular medium, which involves the colicin lysis protein; and their uptake mechanisms and modes of action. Colicins are organized into three domains, each one involved in a different step of the process of killing sensitive bacteria. The structures of some colicins are known at the atomic level and are discussed. Colicins exert their lethal action by first binding to specific receptors, which are outer membrane proteins used for the entry of specific nutrients. They are then translocated through the outer membrane and transit through the periplasm by either the Tol or the TonB system. The components of each system are known, and their implication in the functioning of the system is described. Colicins then reach their lethal target and act either by forming a voltage-dependent channel into the inner membrane or by using their endonuclease activity on DNA, rRNA, or tRNA. The mechanisms of inhibition by specific and cognate immunity proteins are presented. Finally, the use of colicins as laboratory or biotechnological tools and their mode of evolution are discussed.  相似文献   

7.
Molecular analysis of spv virulence genes of the salmonella virulence plasmids   总被引:21,自引:2,他引:21  
Genes on an 8 kb region common to the virulence plasmids of several serovars of Salmonella are sufficient to replace the entire plasmid in enabling systemic infection in animal models. This virulence region encompasses five genes which previously have been designated with different names from each investigating laboratory. A common nomenclature has been devised for the five genes, i.e. spv for s almonella p lasmid v irulence. The first gene, spvR, encodes a positive activator for the following four genes, spvABCD. DNA sequence analysis of the spv genes from Salmonella typhimurium. Salmonella dublin, and Salmonella choleraesuis demonstrated extremely high conservation of the DNA and amino acid sequences. The spv genes are induced at stationary phase and in carbon-poor media, and optimal expression is dependent on the katF locus. The cirulence functions of the spv genes are not known, but these genes may increase the growth rate of salmonellae in host cells and affect the interaction of salmonellae with the host immune system.  相似文献   

8.
Plasmids with a molecular weight of 2.5 to 80 MD were shown to be present in a significant portion of different-type Legionella strains including high-virulence isolates L. pneumophila, serogroup 1, and L. bozemanii detected both in Russia and abroad in different sources. Plasmid-free derivative were obtained from the L. pneumophila strains each carrying only one different-size plasmid DNA. The variants had the same virulence as the original cultures for chicken embryos and guinea pigs, when the latter were infected in the bile sac or through intraperitoneal routes, respectively; their virulence was also similar to that of strains resistant to the normal serum of guinea pigs. Hence, the infection models used by us failed to show any action of plasmids on the virulence of Legionella.  相似文献   

9.
Colicin V is a small, proteinaceous bacterial toxin, produced by many strains of Escherichia coli and other members of the Enterobacteriaceae, that fits the definition of class II bacteriocins of Gram-positive bacteria. Export of colicin V is dependent on specific ABC (ATP-binding cassette) secretion proteins which recognize a double-glycine-type leader peptide on the immature colicin V bacteriocin. Replacement of the colicin V leader peptide by a signal peptide from the signal sequence-dependent bacteriocin divergicin A allowed expression of colicin V in lactic acid bacteria. This system may serve as a model for the heterologous expression of other small bacteriocins active against Gram-negative bacteria and other antibacterial peptides from lactic acid bacteria.  相似文献   

10.
Pinou T  Riley MA 《Plasmid》2001,46(1):1-9
DNA sequence polymorphism was determined for the microcin V gene cluster encoded on the microcin V plasmids of 12 natural isolates of Escherichia coli. These microcin V gene clusters are similar in DNA sequence, with only 10 of the 683 bp polymorphic. Further, the levels and patterns of microcin V gene cluster polymorphism differ from those of a chromosomal region, trpORF2, sequenced from each of the host isolates. These contrasting levels and patterns of polymorphism suggest that the microcin V gene cluster has experienced an evolutionary history different from that of the host.  相似文献   

11.
A M Birot  F Casse-Delbart 《Plasmid》1988,19(3):189-202
Southern-type hybridizations were carried out in order to identify sequence homologies with the pTi vir loci, on an agropine-type plasmid (pRiHRI) and a mannopine-type plasmid (pRi8196) of Agrobacterium rhizogenes. The localization of the sequences hybridizing with subcloned fragments containing vir A, B, G, C, and D from pTiAch5 indicated a similar linear organization of the pTi vir loci and their homologies on pRiHRI and pRi8196, though no homology was detected on both pRi with a 1.1-kb internal fragment of virD. No homology was detected either with the vir E locus on pRiHRI vir region, nor with the virF locus on both pRi vir regions. As on nopaline pTiC58, fragments bearing the homologies with virC and virG are closer together on both pRi than on octopine pTiAch5. A preliminary functional map of the pRiHRI vir region is deduced from this study.  相似文献   

12.
Colicin Biology   总被引:3,自引:0,他引:3       下载免费PDF全文
Colicins are proteins produced by and toxic for some strains of Escherichia coli. They are produced by strains of E. coli carrying a colicinogenic plasmid that bears the genetic determinants for colicin synthesis, immunity, and release. Insights gained into each fundamental aspect of their biology are presented: their synthesis, which is under SOS regulation; their release into the extracellular medium, which involves the colicin lysis protein; and their uptake mechanisms and modes of action. Colicins are organized into three domains, each one involved in a different step of the process of killing sensitive bacteria. The structures of some colicins are known at the atomic level and are discussed. Colicins exert their lethal action by first binding to specific receptors, which are outer membrane proteins used for the entry of specific nutrients. They are then translocated through the outer membrane and transit through the periplasm by either the Tol or the TonB system. The components of each system are known, and their implication in the functioning of the system is described. Colicins then reach their lethal target and act either by forming a voltage-dependent channel into the inner membrane or by using their endonuclease activity on DNA, rRNA, or tRNA. The mechanisms of inhibition by specific and cognate immunity proteins are presented. Finally, the use of colicins as laboratory or biotechnological tools and their mode of evolution are discussed.  相似文献   

13.
Colicin E1 is a small plasmid, containing the cea gene for colicin, the most prominent product of the plasmid. Colicin is a 56-kilodalton bacteriocin which is especially toxic to Escherichia coli cells that do not contain the plasmid. Under normal growth conditions very low levels of the plasmid are produced as a result of cea gene repression by the host LexA protein. Conditions that lower the concentration of LexA protein result in elevated levels of colicin synthesis. The LexA protein concentration can be lowered by exposing the cells to DNA-damaging reagents such as UV light or mitomycin C. This is because DNA damage signals the host SOS response; the response leads to activation of the RecA protease which degrades the LexA protein. DNA-damaging reagents result in very high levels of colicin synthesis and subsequent death of plasmid-bearing cells. Elevated levels of colicin are also produced in mutants of E. coli that are deficient in LexA protein. We found that comparably high levels of colicin can be produced in such mutants in the absence of cell death. In lexA strains carrying a defective LexA repressor, colicin synthesis shows a strong temperature dependence. Ten to twenty times more colicin is synthesized at 42 degrees C. This sharp dependence of synthesis on temperature suggests that there are factors other than the LexA protein which regulate colicin synthesis.  相似文献   

14.
Abstract Enterotoxigenic Escherichia coli (ETEC) strains which cause diarrhea in young pigs often possess the proteinaceous surface antigen, K88. The genetic determinants for production of K88 fimbriae and utilization of raffinose (Raf) are located on non-conjugative plasmids. We have examined some parameters of cointegrate formation between one of these plasmids, pPS900, and pPS030, a conjugative R factor. Cointegrate formation appears to be RecA-independent and to involve specific regions of both plasmids. Cointegrates are unstable, breaking down to form plasmid species indistinguishable from pPS030 and pPS900. Stable cointegrates have undergone a deletion which often includes all or part of the region of pPS900 encoding K88 antigen production.  相似文献   

15.
A common virulence region on plasmids from eleven serotypes of Salmonella   总被引:23,自引:0,他引:23  
Cured derivatives of Salmonella dublin and S. typhimurium showed reduced virulence following oral infection of mice (10(4)-10(5)-fold for S. dublin, 10(2)-fold for S. typhimurium). Large plasmids from S. dublin and S. typhimurium independently restored virulence to the cured S. dublin but truncated S. dublin plasmids with deletions in a previously identified virulence region did not. This common virulence region identified in plasmids from S. dublin and S. typhimurium was shown to be carried on plasmids from 11 other serotypes of Salmonella but was absent from 10 plasmid-containing serotypes. TnA and Tn10 were transduced from the virulence region of two TnA-insertion mutants of S. dublin and one Tn10-insertion mutant of S. typhimurium that showed diminished virulence to recipient wild-type strains of S. dublin, S. enteritidis and S. typhimurium. Each transductant showed a decrease in mouse virulence within the range 10(3)-10(5). It is therefore proposed that similar virulence determinants are expressed in different serotypes. It was also shown that integration that occurred during curing was Tn10 dependent.  相似文献   

16.
The conversion of a bacterium from a non-pathogenic to a pathogenic existence is usually associated with the acquisition of virulence factors, the genes of which gain entry through bacteriophage infection, transposable elements or plasmid transfer. Pathogenesis research is mostly focused on how these factors enable the bacterium to infect the host or evade the repertoire of host defenses. Less effort is expended on understanding how the invading genes are affected by the complex regulatory circuits of the bacterium and how virulence is the result of converting these regulatory circuits to make them complicit with pathogenesis. An example of such a conversion is seen in Bacillus anthracis, and how acquired plasmid regulatory functions affect the activity of the regulatory processes of the bacterium, and vice versa, is now being revealed.  相似文献   

17.
Many plasmids affect the host cells. Their effects cannot be explained only by the expression of the well-known genes coding for antibioticresistance, bacteriocinogeny and hemolysis or the analogous genes (side-effects). The side effects are not characteristic of all plasmids operating under similar conditions. Forecasting of the side-effects inducikility by any definite plasmid is impossible now. Sometimes the same functions exert the contrary effects on the bacterial cell. The connection between the presence of plasmids, especially R-plasmids and the complex cellular property, virulence, is of great interest. Often, bacteria become less virulent obtaining the plasmids. Two possible reasons causing such an effect are discussed. The first one is a direct effect of plasmids on cellular physiology. The second reason is connected with population shifts caused by the fact that the cells with initial low virulence possess the recipient ability predominantly. The decreased virulence of bacteria harbouring R-plasmids, in authors opinion, is quite a natural phenomenon based on plasmid host cells adaptation to the existence in "the realm of antimicrobial agents".  相似文献   

18.
A prominent hypothesis proposes that pathogen virulence evolves in large part due to a trade‐off between infectiousness and damage to hosts. Other explanations emphasize how virulence evolves in response to competition among pathogens within hosts. Given the proliferation of theoretical possibilities, what best predicts how virulence evolves in real biological systems? Here, I show that virulence evolution in experimental populations of bacteria and self‐transmissible plasmids is best explained by within‐host competition. Plasmids evolved to severely reduce the fitness of their hosts even in the absence of uninfected cells. This result is inconsistent with the trade‐off hypothesis, which predicts that under these conditions vertically transmitted pathogens would evolve to be less virulent. Plasmid virulence was strongly correlated with the ability to superinfect cells containing competing plasmid genotypes, suggesting a key role for within‐host competition. When virulent genotypes became common, hosts evolved resistance to plasmid infection. These results show that the trade‐off hypothesis can incorrectly predict virulence evolution when within‐host interactions are neglected. They also show that symbioses between bacteria and plasmids can evolve to be surprisingly antagonistic.  相似文献   

19.
The antibiotic resistance and virulence profiles of Salmonella spp. isolated from healthy (group 1) and ill (group 2) swine were compared. Parameters studied included colicin and siderophore production; mannose-sensitive hemagglutination of erythrocytes; resistance to the lethal effect of serum complement; resistance to antibiotics; and the transmissibility of these characteristics to recipient organisms. Group 1 (19 isolates) had 14 serotypes, and group 2 (20 isolates) had 2 serotypes. Isolates from group 2 were resistant to more antibiotics and had a greater ability to hemagglutinate erythrocytes and transfer R plasmids to recipient organisms, but a lesser ability to produce siderophore than group 1. All 39 isolates resisted the lethal effects of serum complement. Colicin was produced by 1 of 19 from group 1 and 0 of 20 from group 2. A donor Escherichia coli isolated from a pig with enteritis transferred R plasmids to 62% of group 1 and 0% of group 2 Salmonella spp. when they were used as recipient organisms. A transconjugant from the mating of donor E. coli to a group 1 Salmonella spp. was further able to pass an R plasmid to recipient E. coli and salmonellae. Plasmid isolation from group 1 yielded 1 of 19 strains with a 56-megadalton plasmid, while 20 of 20 strains from group 2 contained three to five plasmids from 2.4 to 60 megadaltons in size.  相似文献   

20.
It was confirmed by polyacrylamide gel electrophoresis that isolated 16S rRNA was cleaved by the active component (protein A) or the active fragment (T2A) of colicin E3. However, the degradation was random, in contrast with the specific cleavage observed in the interaction of colicin E3 with ribosomes. Furthermore, the active component and the active fragment had low activities, and far greater amounts of these materials were required for degradation of the isolated rRNA than for ribosome inactivation. The degradation of rRNA cannot be due to contaminating ribonuclease(s), but is due to colicin E3 itself, because of the following facts. (1) Protein B of colicin E3, which specifically inhibits the ribosome-inactivating activity of colicin E3, inhibited the degradation of rRNA. (2) Protein B of colicin E2, which inhibits the action of colicin E2 but not of colicin E3, failed to inhibit the degradation of rRNA. (3) The activity appeared in the peak of protein A or fragment T2A, respectively, when they were rechromatographed on Sephadex G-75.  相似文献   

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