DNA probe for detecting Yersinia pestis and serovariant I of Yersinia pseudotuberculosis by detecting specific DNA repeating sequences]

In order to construct a DNA probe for the plague pathogen detection, we have obtained the recombinant plasmid pRD100 carrying an EcoRI-flanked 140 bp fragment from the genetically silent region of Yersinia pestis species-specific plasmid pYP1. When used as a DNA probe for hybridization of DNA from various strains of 25 bacterial species, this DNA fragment was shown to have the complementary sequences in all investigated Yersinia pestis strains (200), including the plasmid pYP1 lacking ones, and in all the studied Yersinia pseudotuberculosis serotype I strains (80). The search for the probe target in these species has led us to conclusion that it is a specific repeated DNA sequence present in more copies in Yersinia pestis than in Yersinia pseudotuberculosis serotype I. The hybridization of these sequences with the radioactive probe and 24 hours autography makes possible the detection of 1.3 x 10(5) cells of Yersinia pestis and 3 x 10(6) cells of Yersinia pseudotuberculosis serotype I immobilized on the nitrocellulose membranes. Use of the probe for analysis of the nitrocellulose membrane fixed spleen smears from animals that died of experimental plague made possible the detection of Yersinia pestis cells within 48 h.     

New plasmidovars of Yersinia pestis isolated in Mongolia]

The plasmid spectres of 122 strains of Yersinia pestis isolated in Mongolia from patients, wild mammals and arthropods were studied. The populations of three plasmidovars of Yersinia pestis were found to be circulating in the natural foci of plague in Mongolia. The first plasmidovar harbours three plasmids with mol masses 6, 47, 65 Md. The second and third plasmidovars contain the plasmids with mol masses 6, 16, 47, 65 Md and 8, 47, 75-80 Md.     

The effect of a plague pathogen plasmid on lethality and immunogenicity

On the model of Yersinia transconjugants (Yersinia pestis, Yersinia pseudotuberculosis, Yersinia enterocolitica) carrying the conjugative cointegrates containing the 47 and 65 Md plasmids from Yersinia pestis the data were obtained on the different affects of the latter plasmids on the lethality and immunogenicity conferred by the host bacterial cells. The plasmid effects were drastically different during bacterial infection in mice or guinea pigs. The possibility of appearance of the recombinant Yersinia in natural epizootic foci of plague and suggestions on their regulating role are discussed.     

Plasmids of Yersinia pseudotuberculosis

Plasmids with the sizes of 5.7; 51; 70-77; and 120-130 kb were found in six strains among the ten strains collection of Yersinia pseudotuberculosis. The restriction endonucleases analysis. Southern-blot hybridization and physical maps construction were performed for the plasmids. The 70-77 kb plasmids were found to be analogous to the Ca2(+)-dependence plasmid pYVO19 from Yersinia pestis EV76. The difference between the plasmids of this type is in the insertions or deletions located on the similar fragments of the restriction maps. The 51 kb plasmid has no common fragments with the Ca2(+)-dependence plasmids and does not code for virulence properties of the strain harbouring it. No homology is shared by the 5.7 kb plasmid and the 10 kb plasmid from Yersinia pestis EV76. Replicon of the 5.7 kb plasmid has been used to construct the pVS11 vector plasmid.     

Specific proteolysis by fibrinolysin-coagulase from Yersinia pestis of Yersinia pseudotuberculosis outer membrane proteins coded by the Ca(2+)-dependence plasmid]

The pesticinogenicity 9.5 kb plasmid from Yersinia pestis strain EV76 has been marked by the kanamycin phosphotransferase gene inserted into PstI site and designated pP3. The obtained plasmid pP3 determines the synthesis of 45 kd pesticin, alpha and beta-forms of fibrinolysin coagulase (37 and 35 kd) and the 29, 19 and 13 kd proteins in Escherichia coli mini cells. When transferred into Yersinia pseudotuberculosis strain 6933 the plasmid causes the proteolysis of outer membrane proteins. The 150 kd protein is reduced to 138 kd, the 48.5 kd protein is reduced to 45 kd. The proteins secreted into the cultural medium (51 and 38 kd) are also cleaved. The proteolysis of the 150 kd protein was found to occur at the stage of secretion via the inner membrane. The purified fibrinolysin coagulase from Escherichia coli strain JM83 harbouring the plasmid pP3 induces the proteolysis in vitro of the isolated membrane proteins from Yersinia pseudotuberculosis strain 6953 similar to the proteolysis registered in vivo.     

Restriction map of pesticinogenicity plasmid pYP1 of Yersinia pestis

The restriction map of Yersinia pestis pesticinogenicity plasmid pYP1 has been constructed with the use of 18 restriction endonucleases. Plasmid dimensions (6.3 Md) have been specified, the genes for pesticin synthesis, for pesticin immunity protein, fibrinolysin and plasmocoagulase have been localized by molecular cloning of single plasmid DNA fragments in vector plasmid pBR322.     

Virulence-associated plasmids from Yersinia enterocolitica and Yersinia pestis.

A 44-megadalton plasmid associated with virulence and Ca2+ dependence from Yersinia enterocolitica 8081 was compared at the molecular level with a 47-megadalton plasmid associated with Ca2+ dependence from Yersinia pestis EV76. The plasmids were found to share 55% deoxyribonucleic acid sequence homology distributed over approximately 80% of the plasmid genomes. One region in which the plasmids differed was found to contain sequences concerned with essential plasmid functions. Forty-five mutants of Y. pestis were isolated which had spontaneously acquired the ability to grow on calcium-free medium (Ca2+ independence). Of these mutants, 21 were cured of their 47-megadalton plasmid, whereas the remaining had either suffered a major deletion of the plasmid or had a 2.2-kilobase insertion located in one of two adjacent BamHI restriction fragments encompassing approximately 9 kilobases. The inserted sequence was found at numerous sites on the Y. pestis chromosome and on all three plasmids in the strain and may represent a Y. pestis insertion sequence element.     

The response regulator PhoP negatively regulates Yersinia pseudotuberculosis and Yersinia pestis biofilms

A few Yersinia pseudotuberculosis strains form biofilms on the head of the nematode Caenorhabditis elegans , but numerous others do not. We show that a widely used Y. pseudotuberculosis strain, YPIII, is biofilm positive because of a mutation in phoP , which encodes the response regulator of a two-component system. For two wild-type Y. pseudotuberculosis that do not make biofilms on C. elegans , deletion of phoP was sufficient to produce robust biofilms. In Yersinia pestis , a phoP mutant made more extensive biofilms in vitro than did the wild type. Expression of HmsT, a diguanylate cyclase that positively regulates biofilms, is diminished in Y. pseudotuberculosis strains with functional PhoP.     

The effect of the bacterial genome on the expression and behavior of the plasmid determining the Ca2+-dependence of the plague pathogen]

The conjugative cointegrate containing the 47 Md plasmid of Yersinia pestis has been transferred into the strains of the different Yersinia (Yersinia pestis, Yersinia pseudotuberculosis, Yersinia enterocolitica) and Escherichia coli CA. There appeared in the populations of recombinant Yersinia under the conditions of Ca2+ deficit at 37 degrees C the cells coming into the stasis stage or dying. It was shown on the model of Yersinia enterocolitica that bacterial lethality might be prevented by exclusion of the sheep blood from Ca2+ deficient medium. Ca(2+)-dependence was not expressed in Escherichia coli cells in which the cointegrates were prone to deletions although the cad-genes were preserved intact. The latter conclusion is based on the positive reciprocal transfer of the Cad(+)-marker into Yersinia pestis cells.     

Homologous DNA sequences on the virulence plasmids of pathogenic Yersinia and Salmonella dublin Lane

Yersinia and Salmonella harbour plasmids that encode traits important for virulence, enabling both pathogenic genera to survive and grow in cells of the reticulo-endothelial organs during systemic infections. We have detected DNA homology between the Salmonella dublin virulence plasmid pSDL2 and the plasmids of the pathogenic Yersinia species pestis, pseudotuberculosis, and enterocolitica. Three regions of pSDL2 were found to share homology with the virulence plasmid pIB1 of Yersinia pseudotuberculosis. Two separate hybridizing segments mapped within the previously characterized 6.4 kb vir region of pSDL2 in the SalI B fragment. The third homologous region involved the replicon of pIB1, which hybridized to the SalI C2 fragment of pSDL2. The virulence plasmid pCD1 from Y. pestis showed similar homology with the three regions of pSDL2. Homologies to the vir and SalI C2 regions of pSDL2 were also found on plasmids from Yersinia enterocolitica serotypes 0:9, 0:3 and 0:5, 27. The discovery of separate homologous regions on the virulence plasmids of Salmonella and Yersinia suggests a distant evolutionary relationship.     

Functional recruitment of the human complement inhibitor C4BP to Yersinia pseudotuberculosis outer membrane protein Ail

Ail is a 17-kDa chromosomally encoded outer membrane protein that mediates serum resistance (complement resistance) in the pathogenic Yersiniae (Yersinia pestis, Y. enterocolitica, and Y. pseudotuberculosis). In this article, we demonstrate that Y. pseudotuberculosis Ail from strains PB1, 2812/79, and YPIII/pIB1 (serotypes O:1a, O:1b, and O:3, respectively) can bind the inhibitor of the classical and lectin pathways of complement, C4b-binding protein (C4BP). Binding was observed irrespective of serotype tested and independently of YadA, which is the primary C4BP receptor of Y. enterocolitica. Disruption of the ail gene in Y. pseudotuberculosis resulted in loss of C4BP binding. Cofactor assays revealed that bound C4BP is functional, because bound C4BP in the presence of factor I cleaved C4b. In the absence of YadA, Ail conferred serum resistance to strains PB1 and YPIII, whereas serum resistance was observed in strain 2812/79 in the absence of both YadA and Ail, suggesting additional serum resistance factors. Ail from strain YPIII/pIB1 alone can mediate serum resistance and C4BP binding, because its expression in a serum-sensitive laboratory strain of Escherichia coli conferred both of these phenotypes. Using a panel of C4BP mutants, each deficient in a single complement control protein domain, we observed that complement control protein domains 6-8 are important for binding to Ail. Binding of C4BP was unaffected by increasing heparin or salt concentrations, suggesting primarily nonionic interactions. These results indicate that Y. pseudotuberculosis Ail recruits C4BP in a functional manner, facilitating resistance to attack from complement.     

Connection of outer membrane protein composition in Yersinia pestis cells with intrinsic plasmids]

A set of isogenic derivatives of Yersinia pestis EV strain was obtained including the variants harbouring the different compositions of Yersinia own plasmids. The protein profiles of outer membranes of the set of strains were defined. The polyacrylamide gel electrophoresis has shown the small 6.1 Md plasmid to code an outer membrane protein with mol mass 29 kDa, different from pesticin I, while the heavy 60.0 Md plasmid encodes the 15-16 kDa polypeptide different from monomers of F1 and T-antigens of plague microbe.     

Analysis of the plasmid composition of Yersinia pseudotuberculosis strains and its use for typing pseudotuberculosis pathogens

Electrophoresis in agarose gel has been used to study the plasmid spectra of 854 Yersinia pseudotuberculosis strains isolated from different sources. The plasmids found in the microbial strains are represented by the elements with molecular masses 82; 57; 45; 5.5; 4.4; 3.5; 2.7; 2.4; 2.3 Md. The variable spectra of plasmids is peculiar only for serovar I of Yersinia pseudotuberculosis. Plasmids p45 and p82 are classified as the main, while other plasmids as auxiliary ones. In accord with the classification all plasmid containing strains are divided into 8 plasmid strains. Using the proposed method for intraspecific typing of Yersinia pseudotuberculosis permits one to perfect the epidemiological analysis of pseudotuberculosis infection and make concrete the direction of prophylactic and antiepidemic measures.     

Cloning and detailed mapping of the fra-ymt region of the Yersinia pestis pFra plasmid]

The genetical libraries of the pFra plasmid of Yersinia pestis genes were obtained by insertion into the PstI, SalGI, EcoRI, XhoI restriction sites of the cosmid vector pHC79. The immunochemical analysis of the recombinant clones has revealed the clones synthesizing the antigen Fl (fraction I) and mouse toxin (Ymt--Yersinia pestis murine toxin). The restriction analysis of the plasmids from antigen synthesizing clones has permitted to construct the detailed physical map of the fra-ymt region of the pFra plasmid the size of 22 kb. The recombinant F1 positive clones of Escherichia coli are able to form at 37 degrees C the capsule-like structure peculiar for Yersinia pestis. The antigen F1 and the mouse toxin were isolated, purified and characterized. The antigen F1 is an 1-2 Md polymer containing a 16 kDa protein subunit. The mouse toxin a 240 kDa protein consisting of 61 kDa subunits. The nucleotide sequence of ymt gene has been defined.     

Virulence plasmid-associated autoagglutination in Yersinia spp.

The autoagglutination of Yersinia enterocolitica was dependent on the presence of the virulence plasmid and on the active growth of bacteria in tissue culture media at 37 degrees C. Cultures with a high initial concentration of bacteria failed to autoagglutinate , indicating that synthesis of new virulence plasmid-associated surface factors was essential for autoagglutination. The synthesis of a plasmid-encoded polypeptide (molecular weight, 240,000), designated P1, that could be dissociated under strongly reducing conditions into subunits of 52,500 daltons was found to be correlated with autoagglutination. Further, a strain of Yersinia pseudotuberculosis [ YPIII ( PIB102 )], which has Tn5 inserted within the structural gene of P1 that prevents the synthesis of P1, failed to autoagglutinate , in contrast to the wild-type strain, strongly indicating that P1 is involved in this phenomenon. It was also found by immunoblotting that in addition to the common response to temperature, the P1 proteins of Y. enterocolitica and Y. pseudotuberculosis were immunologically related.     

The pYV plasmid of Yersinia encodes a lipoprotein, YlpA, related to TraT

A series of lipoproteins was detected in the membrane fraction of Yersinia enterocolitica W227, a typical strain from serotype O:9. At least two of them, YlpA and YlpB, are encoded by the pYV plasmid. The sequence of ylpA reveals the presence of a typical lipoprotein signal peptide. The mature YlpA protein would be 223 residues long with a calculated molecular weight of 23798 for the proteic moiety of the molecule. YlpA shares 88% identical residues with the TraT protein encoded by plasmid pED208, 80% identity with TraT proteins encoded by plasmids R100 and F, and 77% identity with the TraT protein encoded by the virulence plasmid of Salmonella typhimurium. The ylpA gene hybridized with the pYV plasmid of Yersinia pseudotuberculosis, suggesting that this gene is conserved among Yersinia spp. The production of YlpA is controlled by virF and only occurs at 37 degrees C in the absence of Ca2+ ions. This co-regulation with the yop genes suggests that ylpA is a virulence determinant. However, mutations in ylpA clearly affect neither the resistance to human serum nor the virulence for intravenously inoculated mice.     

Alternative localization of the determinant of pathogenicity coded by the Yersinia pseudotuberculosis pVM82 plasmid]

The chromosomal DNA regions in Yersinia pseudotuberculosis strains occur that are homologous to 25 Md DNA segment of the plasmid pVM82 encoding the bacterial capability of immunosuppression. The character of the chromosomal DNA regions dispersion reacting with the 25 Md segment probes is different in epidemiologically hazardous and nonvirulent strains of Yersinia pseudotuberculosis. The specific DNA regions occur as well as identical ones. The suppression of antibody formation to a number of main Yersinia pseudotuberculosis antigens by epidemiologically hazardous strain is demonstrated. The suppression is analogous to the one previously described for Yersinia pseudotuberculosis strains harbouring the plasmid pVM82.     

The complete genome sequence of Yersinia pseudotuberculosis IP31758, the causative agent of Far East scarlet-like fever

The first reported Far East scarlet-like fever (FESLF) epidemic swept the Pacific coastal region of Russia in the late 1950s. Symptoms of the severe infection included erythematous skin rash and desquamation, exanthema, hyperhemic tongue, and a toxic shock syndrome. The term FESLF was coined for the infection because it shares clinical presentations with scarlet fever caused by group A streptococci. The causative agent was later identified as Yersinia pseudotuberculosis, although the range of morbidities was vastly different from classical pseudotuberculosis symptoms. To understand the origin and emergence of the peculiar clinical features of FESLF, we have sequenced the genome of the FESLF-causing strain Y. pseudotuberculosis IP31758 and compared it with that of another Y. pseudotuberculosis strain, IP32953, which causes classical gastrointestinal symptoms. The unique gene pool of Y pseudotuberculosis IP31758 accounts for more than 260 strain-specific genes and introduces individual physiological capabilities and virulence determinants, with a significant proportion horizontally acquired that likely originated from Enterobacteriaceae and other soil-dwelling bacteria that persist in the same ecological niche. The mobile genome pool includes two novel plasmids phylogenetically unrelated to all currently reported Yersinia plasmids. An icm/dot type IVB secretion system, shared only with the intracellular persisting pathogens of the order Legionellales, was found on the larger plasmid and could contribute to scarlatinoid fever symptoms in patients due to the introduction of immunomodulatory and immunosuppressive capabilities. We determined the common and unique traits resulting from genome evolution and speciation within the genus Yersinia and drew a more accurate species border between Y. pseudotuberculosis and Y. pestis. In contrast to the lack of genetic diversity observed in the evolutionary young descending Y. pestis lineage, the population genetics of Y. pseudotuberculosis is more heterogenous. Both Y. pseudotuberculosis strains IP31758 and the previously sequenced Y. pseudotuberculosis strain IP32953 have evolved by the acquisition of specific plasmids and by the horizontal acquisition and incorporation of different genetic information into the chromosome, which all together or independently seems to potentially impact the phenotypic adaptation of these two strains.     

Cloning of Yersinia pseudotuberculosis calcium-dependence plasmid pYV6953 BamHI fragments and their analysis in Escherichia coli mini-cells

Calcium dependence plasmid pYV6953 (70.4 kb) in Yersinia pseudotuberculosis cells codes for the major quantities synthesis of 150; 48.5; 19.4 Kd outer membrane proteins and the 51, 38, 27 Kd proteins secreted into the culturing medium. These outer membrane and secreted proteins are synthesized in considerable amounts in Yersinia pseudotuberculosis strains 6953 and 9547 at 37 degrees C and in the absence of calcium ions in the culturing medium. BamHI fragments of the plasmid pYV6953 as components of the recombinant plasmids code for the synthesis of 150; 66.6; 51; 48.5; 47; 38 and 21.5 Kd proteins in Escherichia coli mini cells. The synthesis of 150 and 48.5 Kd proteins is determined by the BamHI fragment 9 of the plasmid pYV6953 (3.3 kb). Addition of up to 8% of ethanol inhibiting the protein synthesis eliminates the 150 Kd protein but not the 48.5 Kd synthesis. The 48.5 Kd protein is concluded to be a subunit of the 150 Kd protein. The plasmid pYV6953 is different from the known plasmids pIB1 and pCD1 plasmids as far as the outer membrane and secreted proteins coded by the plasmids are concerned.     

Characterization of IS1541-like elements in Yersinia enterocolitica and Yersinia pseudotuberculosis

We characterized Yersinia enterocolitica and Yersinia pseudotuberculosis insertion sequences related to insertion sequence 1541, recently identified in Yersinia pestis. For each of the two species, two insertion sequence copies were cloned and sequenced. Genetic elements from Y. pseudotuberculosis were almost identical to insertion sequence 1541, whereas these from Y. enterocolitica were less related. Phylogenetic analysis of the putative transposases encoded by insertion sequences from the three pathogenic members of the genus Yersinia showed that they clustered with those encoded by Escherichia coli and Salmonella enterica elements belonging to the insertion sequence 200/insertion sequence 605 group. Insertion sequences originating from Y. pestis and Y. pseudotuberculosis constitute a monophyletic lineage distinct from that of Y. enterocolitica.