Characterisation and distribution of a cryptic Salmonella typhi plasmid pHCM2

pHCM2 is a 106 kbp cryptic plasmid harboured by Salmonella typhi CT18, originally isolated from a typhoid patient in Vietnam. The genome of S. typhi CT18, including pHCM2, has recently been completely sequenced and annotated. Bioinformatic analysis revealed that 57% of the coding sequences (CDSs) encoded on pHCM2 display over 97% DNA sequence identity to the virulence-associated plasmid of Yersinia pestis, pFra. pHCM2 encodes no obvious virulence-associated determinants or antibiotic resistance genes but does encode a wide array of putative genes directly related to DNA metabolism and replication. PCR analysis of a series of S. typhi isolates from Vietnam detected pHCM2-related DNA sequences in some S. typhi isolated before, but not after, 1994. Similar pHCM2-related sequences were also detected in S. typhi isolated from other regions of South East Asia and Pakistan but not elsewhere in the world.     

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.     

Analysis of pYC2, a cryptic plasmid in <Emphasis Type="Italic">Lactobacillus sakei</Emphasis> BM5 isolated from kimchi

Analysis of the structural properties of pYC2, a cryptic plasmid from Lactobacillus sakei BM5 isolated from kimchi, determined its length as 1,970 bp with a G + C content of 34%. The double-strand origin (dso) and single-strand origin (sso) of rolling-circle replicating plasmids were found in the nucleotide sequence of the pYC2 plasmid. Sequence analysis of pYC2 revealed that ORF 1 and ORF 2 showed high homology with the Cop and Rep proteins encoded by the pMV158 family of plasmids replicating via the rolling-circle mechanism. pYC2 also replicates by this mechanism, as confirmed by Southern hybridization analysis.     

Multiple antimicrobial resistance in plague: an emerging public health risk

Antimicrobial resistance in Yersinia pestis is rare, yet constitutes a significant international public health and biodefense threat. In 1995, the first multidrug resistant (MDR) isolate of Y. pestis (strain IP275) was identified, and was shown to contain a self-transmissible plasmid (pIP1202) that conferred resistance to many of the antimicrobials recommended for plague treatment and prophylaxis. Comparative analysis of the DNA sequence of Y. pestis plasmid pIP1202 revealed a near identical IncA/C plasmid backbone that is shared by MDR plasmids isolated from Salmonella enterica serotype Newport SL254 and the fish pathogen Yersinia ruckeri YR71. The high degree of sequence identity and gene synteny between the plasmid backbones suggests recent acquisition of these plasmids from a common ancestor. In addition, the Y. pestis pIP1202-like plasmid backbone was detected in numerous MDR enterobacterial pathogens isolated from retail meat samples collected between 2002 and 2005 in the United States. Plasmid-positive strains were isolated from beef, chicken, turkey and pork, and were found in samples from the following states: California, Colorado, Connecticut, Georgia, Maryland, Minnesota, New Mexico, New York and Oregon. Our studies reveal that this common plasmid backbone is broadly disseminated among MDR zoonotic pathogens associated with agriculture. This reservoir of mobile resistance determinants has the potential to disseminate to Y. pestis and other human and zoonotic bacterial pathogens and therefore represents a significant public health concern.     

微量法鼠疫菌质粒DNA抽提的优化

旨在分析微量法抽提鼠疫菌质粒DNA的效果,探讨其在鼠疫菌分子生物学实验研究中的应用价值.采用微量法分别提取鼠疫菌EV76株,假结核耶尔森菌PstII株及大肠杆菌V517株质粒DNA,琼脂糖凝胶电泳对质粒DNA抽提结果进行分析.结果显示,微量法能在较短时间内获取开环较少的闭合环状鼠疫菌质粒DNA,经琼脂糖凝胶电泳图示其电泳条带清晰、亮度均一.微量法鼠疫菌质粒DNA抽提效率和纯度较好,抽提结果稳定,重复性良好.经微量法抽提的质粒DNA符合多数鼠疫菌分子生物学试验的要求,可广泛应用于鼠疫菌分子生物学试验研究中.     

Analysis of cloned DNA from Leptospira biflexa serovar patoc which complements a deletion of the Escherichia coli trpE gene.

To analyze the cloned region of the chromosome of the spirochete Leptospira biflexa serovar patoc which complemented a defect in the trpE gene of Escherichia coli, we performed a series of experiments involving subcloning, transposon mutagenesis, and maxicells. By subcloning into pBR322 we were able to isolate the Leptospira genes on a 9.7-kilobase pair plasmid (pYC6). Transposon mutagenesis with Tn5 identified a 2.8-kilobase pair region of this plasmid as being necessary to complement a trpE deletion mutation in E. coli. Transformation of plasmid pYC6 into E. coli cells deleted for trpE and the proximal end of trpD showed that the Leptospira DNA complemented both defects. A maxicell analysis of various transposon-induced mutations of the plasmid revealed that three proteins (53.5, 23.6, and 22 kilodaltons) were encoded by the 2.8-kilobase pair region of the Leptospira genome. Two different promoters controlled the production of these three proteins.     

Total DNA synthesis and cloning in Escherichia coli of a gene coding for the human growth hormone releasing factor

A DNA containing a sequence coding for the human growth hormone releasing factor (hGRF) has been obtained by enzymatic assembly of chemically synthesized DNA fragments. The synthetic gene consists of a 140 base-pair fragment containing initiation and termination signals for translation and appropriate protruding ends for cloning into a newly constructed plasmid vector (pULB1219). Eleven oligodeoxyribonucleotides, from 14 to 31 bases in length, sharing pairwise stretches of complementary regions of at least 13 bases were prepared by phosphotriester solid-phase synthesis. The DNA sequence was designed to take into account the optimal use of E. coli codons. Oligomers were annealed in one step and assembled by ligation. The DNA fragment of the expected size (140 bp) was recovered and cloned into the pULB1219 vector. The expected sequence was confirmed by DNA sequencing.     

Plasmid diversity within the genus Chlamydia

Examination of 12 Chlamydia psittaci strains recovered from nine different host species (three avian and six mammalian) revealed the presence of a 7.5 kb plasmid in all isolates except two ovine abortion strains, the human strain IOL207 and the Cal 10 strain. Restriction mapping analysis distinguished four different plasmids that were associated with avian, feline, equine and guinea-pig C. psittaci isolates, respectively. The restriction maps of these four C. psittaci plasmid types all differed from that of the plasmid recovered from C. trachomatis L2/434. Despite this plasmid diversity, which is likely to be of taxonomic importance, all four plasmids identified within the species C. psittaci were found to share some sequence homology, which was mapped to two separate regions in the plasmid molecules. One region, which showed a high degree of homology between C. psittaci plasmids and also detectable homology with the C. trachomatis plasmid, may represent a common replication control region for plasmids of this genus.     

Structural and Functional Characterization of Escherichia coli Toxin-Antitoxin Complex DinJ-YafQ

Toxin YafQ functions as a ribonuclease in the dinJ-yafQ toxin-antitoxin system of Escherichia coli. Antitoxin DinJ neutralizes YafQ-mediated toxicity by forming a stable protein complex. Here, crystal structures of the (DinJ)₂-(YafQ)₂ complex and the isolated YafQ toxin have been determined. The structure of the heterotetrameric complex (DinJ)₂-(YafQ)₂ revealed that the N-terminal region of DinJ folds into a ribbon-helix-helix motif and dimerizes for DNA recognition, and the C-terminal portion of each DinJ exclusively wraps around a YafQ molecule. Upon incorporation into the heterotetrameric complex, a conformational change of YafQ in close proximity to the catalytic site of the typical microbial ribonuclease fold was observed and validated. Mutagenesis experiments revealed that a DinJ mutant restored YafQ RNase activity in a tetramer complex in vitro but not in vivo. An electrophoretic mobility shift assay showed that one of the palindromic sequences present in the upstream intergenic region of DinJ served as a binding sequences for both the DinJ-YafQ complex and the antitoxin DinJ alone. Based on structure-guided and site-directed mutagenesis of DinJ-YafQ, we showed that two pairs of amino acids in DinJ were important for DNA binding; the R8A and K16A substitutions and the S31A and R35A substitutions in DinJ abolished the DNA binding ability of the DinJ-YafQ complex.     

鼠疫耶尔森氏菌LcrV基因的克隆及序列分析

为了研究鼠疫耶尔森氏菌（Y.pestis）保护性抗原V蛋白,从基因库中查得Y.pestis LcrV基因DNA序列,针对序列设计合成了一对PCR扩增引物,以本所保存的Y.pestis菌种为模板进行基因扩增,结果获得长约980bp的DNA片段。将扩增产物回收纯化,克隆至pGEM-T载体,构建重组载体pGEN-T/ypV,经过PCR,酶切鉴定,并对pGEM-T/ypV中的V基因片段进行测序,分析测序结果与己知序列相同,表明获得了LcrV基因。     

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.     

Characterization of outer membrane proteins of Yersinia pestis and Yersinia pseudotuberculosis strains isolated from India

The majority of virulence factors including the 12 Yersinia outer membrane proteins (Yops), 29 Yop secretion proteins (Ysc) and few specific Yop chaperone (Syc) are contributed by the 70 kb LCR middle plasmid of Yersinia pestis. Yersinia pestis isolates recovered during 1994 plague outbreak and rodent surveillance samples of Southern states of India were studied for the presence of important Yops by the conventional procedure of partially purifying outer membrane proteins (Omps) after cultivation in calcium deficient media. Prominent bands numbering 4-5 between 34-42 kDa region corresponding to important Yops were seen in all the isolates as well as in other Yersinia and non-Yersinia species by SDS-PAGE. Western blotting with the polyclonal antisera raised against these Omp preparations revealed few immuno-reactive bands that appeared to be shared among Y. pestis, Y. pseudotruberculosis, Y. enterocolitica, Y. fredrocksenii, Y. intermedia, Y. kristensenii and E. coli. Three recombinant Yop proteins namely, YopM, YopB and LcrV were produced and antisera to these proteins could reveal presence of these Yops in the Y. pestis Omp preparations. In order to further characterize the important Yops among Omps, attempts were made to generate monoclonal antibodies against Omp preparation. Three of the 4 stable reactive clones that were obtained, when tested, had extensive cross-reactions among pathogenic Yersinia species, Y. pestis and Y. pseudotuberculosis isolates, other Yersinia species and the members of Enterobacteriaceae in dot-ELISA and Western blotting. One of the monoclonal antibodies, YP1, exhibited reaction to all the pathogenic Yersinia species and the isolates, with restricted cross-reactivity to Y. intermedia, Y. kristensenii, K. pneumoniae. None of the 4 monoclonal antibodies had reactions with the 3 recombinant Yop proteins. It appears that under low calcium response, the Y. pestis not only activates secretion of Yops but also a large number of other proteins, which as per the present observations are cross-reactive within the family Enterobacteriaceae.     

Detection of Yersinia pestis DNA in two early medieval skeletal finds from Aschheim (Upper Bavaria, 6th century A.D.)

In the course of a molecular genetic investigation of a double inhumation, presumably a mother/child burial from Aschheim (Upper Bavaria, 6th century A.D.), which included analysis of mitochondrial DNA, molecular sexing, and polymorphic nuclear DNA, Yersinia pestis-specific DNA was detected. Molecular analyses were performed on DNA extracts obtained from two teeth of one skeleton and four teeth of the other. The use of the primer pair YP12D/YP11R (Raoult et al. [2000] Proc. Natl. Acad. Sci. 97:12800-12803), able to amplify part of the Y. pestis plasmid pPCP1 pla sequence, resulted in amplification products of the expected fragment size. Using BLASTN 2.2.2, the sequences of these amplification products shared 100% identity with that of the modern Y. pestis pla sequence in GenBank, with the exception of one amplification product which revealed a single base substitution. The application of a "suicide PCR" with the independent primer pair YP11D/YP10R (Raoult et al. [2000] Proc. Natl. Acad. Sci. 97:12800-12803) resulted in amplification products which shared a 96-98% homology with that of the modern Y. pestis pla sequence in GenBank. The observed deviations were presumably due to miscoding lesions in the template DNA. No modern Y. pestis DNA was introduced into the institute, and thus no positive controls were carried along. All extraction and PCR controls remained negative. The identification of Y. pestis-specific DNA sequences in these two skeletons, buried in the second half of the 6th century A.D., constitutes molecularly supported evidence for the presence of Y. pestis, the causative agent of plague, during the first pandemic recorded.     

The ubiquitous plasmid pXap41 in the invasive phytopathogen Xanthomonas arboricola pv. pruni: complete sequence and comparative genomic analysis

The complete DNA sequence of the 41 102-bp plasmid pXap41 from the invasive plant pathogen Xanthomonas arboricola pv. pruni CFBP 5530 was determined and its 44 coding regions were annotated. Comparative analysis with 15 Xanthomonas plasmids and 19 complete genomes revealed that nearly one-fourth of this plasmid has high sequence identity to plasmid pXAC64 and an 8.8-kb chromosomal region of Xanthomonas axonopodis pv. citri strain 306 carrying genes that encode type III effectors and helper proteins. The presence of pXap41 in all X. arboricola pv. pruni genotypes was confirmed for eight strains by plasmid profiling and for 35 X. arboricola pv. pruni isolates with a new plasmid multiplex PCR assay. This plasmid was not detected in any other X. arboricola pathovars (n=12), indicating the potential for the application of the pXap41 PCR method as a pathovar-level detection and identification tool.     

Sequence Analysis of Segment 8 of Five Chinese Isolates of Rice Gall Dwarf Virus and Expression of a Main Outer Capsid Protein in Escherichia coli

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8(S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%-98.8% and 97.3%-99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%-95.6% and 95.0%-96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta(DE3)Ⅱcells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression.     

Molecular characterization of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> isolates from cholera outbreaks in north India

Vibrio cholerae isolates recovered from cholera outbreaks in Bhind district of Madhya Pradesh and Delhi, Northern India were characterized. The O1 serogroup isolates from Bhind outbreak were of Inaba serotype whereas both Ogawa and Inaba serotypes were recovered from Delhi. PCR analysis revealed that only O1 serogroup V. cholerae isolates carried the virulence-associated genes like ctxA, tcpA, ace, and zot. Molecular typing by repetitive sequence based ERIC, VCR1, and VC1 PCR’s revealed similar DNA profile for both Inaba and Ogawa serotypes. A discrete VC1-PCR band identified among the El Tor strains had greater similarity (>97%) to the V. cholerae genome sequence and therefore has the potential to be used as a marker for the identification of the V. cholerae strains. Non-O1 strains recovered from Bhind region differed among themselves as well as from that of the O1 isolates. All the O1 serogroup isolates possessed SXT element and were uniformly resistant to the antibiotics nalidixic acid, polymyxin-B, furazolidone, cloxacilin, trimethoprim-sulfamethaxazole, and vibriostatic agent 0129. Inaba strains from both Delhi and Bhind differed from Ogawa strains by their resistance to streptomycin despite sharing similar DNA patterns in all the three rep-PCRs. Though Delhi and Bhind are separate geographical regions in Northern India, Inaba strains from both these places appear to be closely related owing to their similarity in antibiogram and genetic profile.     

Constructing a test system for the identification of plague microbe based on genetic probes]

DNA probes for detection of the plague agent Yersinia pestis were made on a basis of its three typical extrachromosomal replicons. The recombinant plasmid pBS2 including pBR327 vector and SalGI-BspRI fragment of the plasmid pFra was constructed. The above fragment is connected with synthesis of Y. pestis capsular antigen and it is a 400 bp species-specific DNA probe called F1 which is suitable for identification of Y. pestis species that bears the 60 mdal plasmid. The DNA probes called P1 was made on a basis of the plasmid pPst; it is the 460 BglII-BamHI fragment of the fibrinolysin-coagulase gene suitable for species-specific detection of Y. pestis species that bears the 60 mdal plasmid. The P1 fragment was cloned into the pAT153 vector and the constructed recombinant plasmid was called pEK7. The recombinant plasmid pCL1, including the pBR325 vector and the 6th BamHI fragment of Y. pestis EV plasmid pCad was constructed. The above fragment includes the replication origin of the pCad and it is hybridized to the pCad-bearing strains of Y. pestis and Y. tuberculosis only. Thus, it may be a basis for a bi-species-specific DNA probe making. These three recombinant plasmids are considered as a test-system for detection of both typical and atypical strains of Y. pestis.     

Plasmid RFLP profiling and DNA homology inThermus isolated from hot springs of different geographical areas

Thirty-four strains belonging to various species of the genus Thermus (T. aquaticus, "T. thermophilus," "T. brockianus," T. scotoductus, and genomic species 2) isolated from hot springs of different geographical areas were examined for plasmid content and restriction fragment length polymorphism (RFLP) of plasmid DNAs. The four strains of the numerical taxonomy cluster E of genomic species 2 did not harbor plasmid DNA. Overall examination of the HindIII-RFLP profiling of plasmid DNA showed considerable variability between and within genomic species, with the exception of presumed clonal isolates. In spite of this heterogeneity, HindIII plasmid digests within a numerical taxonomic cluster gave a subset of restriction fragments of similar or identical length. Strains belonging to genomic species 2 or unclassified isolates from S. Pedro do Sul that harbored plasmid DNA (7 of the 14 strains studied) exhibited strong DNA homology between plasmid regions. No homologous sequences to these plasmid regions were found in chromosomal DNA from strains isolated from S. Pedro do Sul in which no plasmids were detected. The strains belonging to T. scotoductus formed two plasmid DNA homology groups, as estimated by probing with a plasmid fragment that coincided with the two numerical taxonomy clusters proposed previously. Among the other species, homology of plasmid regions was also found between some strains. Strong homology was also found between plasmid regions from some strains of different taxonomic groups, isolated from the same and from different sources, suggesting that these sequences are highly conserved in plasmids present in Thermus. For plasmid-containing strains, results of plasmid RFLP profiling/DNA homology appear promising for the typing of Thermus at the level of biotypes or of individual strains, namely, for monitoring the diversity and frequency of isolates from a particular hot spring. Received: 24 October 1994 / Accepted: 6 March 1995     

Sequence analysis of segment 8 of five Chinese isolates of Rice gall dwarf virus and expression of a main outer capsid protein in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The rice gall dwarf disease, caused by the Rice gall dwarf virus (RGDV) is a serious disease occurring in rice in many regions of Guangdong province. As a basis to control the disease we have studied the genomic diversity of a variety of isolates from different locations. Genome segment 8 (S8), encoding a main outer capsid protein (Pns8) of RGDV five isolates (BL, CH, DQ, GZ, XY) from Guangdong province was cloned and sequenced. The results revealed that all the S8 segments of the five isolates consisted of 1 578 nucleotides and had a single open reading frame (ORF) extending for 1 301 nucleotides from nucleotide 21 which encoded a polypeptide of 426 amino acids with an estimated molecular weight of 47.4 kDa. The S8 full-length sequence and the ORF sequence shared 97.3%–98.8% and 97.3%–99.1% nucleotide sequence identities within the five Chinese isolates, and shared 94.8%–95.6% and 95.0%–96.0% identities with those of the Thailand isolate respectively. The deduced amino acid sequence of Pns8 in GZ isolate was identical to that in the Thailand isolate, while the amino acid sequence variability of Pns8 within five Chinese isolates ranged from 0.5% to 2.1%. These results indicate that the S8 segment of RGDV is highly conserved in different isolates from different locations. The S8 cDNA from the XY isolate was cloned into the plasmid vector pET-28b(+) and a fused expression protein with an apparent molecular mass of 51kDa was specifically detected in an analysis of Escherichia coli Rossetta (DE3) II cells. To our knowledge, this is the first report on analysis of the RGDV segment 8 sequence and genetic comparison of different RGDV isolates and their protein expression. Foundation item: National natural science foundation of China (30370929) and Guangdong province natural science foundation (C036845)     

Evidence for two evolutionary lineages of highly pathogenic Yersinia species.

Sensitivity to Yersinia pestis bacteriocin pesticin correlates with the existence of two groups of human pathogenic yersiniae, mouse lethal and mouse nonlethal. The presence of the outer membrane pesticin receptor (FyuA) in mouse-lethal yersiniae is a prerequisite for pesticin sensitivity. Genes that code for FyuA (fyuA) were identified and sequenced from pesticin-sensitive bacteria, including Y. enterocolitica biotype 1B (serotypes O8; O13, O20, and O21), Y. pseudotuberculosis serotype O1, Y. pestis, two known pesticin-sensitive Escherichia coli isolates (E. coli Phi and E. coli CA42), and two newly discovered pesticin-sensitive isolates, E. coli K49 and K235. A 2,318-bp fyuA sequence was shown to be highly conserved in all pesticin-sensitive bacteria, including E. coli strains (DNA sequence homology was 98.5 to 99.9%). The same degree of DNA homology (97.8 to 100%) was established for the sequenced 276-bp fragment of the irp2 gene that encodes high-molecular-weight protein 2, which is also thought to be involved in the expression of virulence by Yersinia species. Highly conserved irp2 was also found in all pesticin-sensitive E. coli strains. On the basis of the fyuA and irp2 sequence homologies, two evolutionary groups of highly pathogenic Yersinia species can be established. One group includes Y. enterocolitica biotype 1B strains, while the second includes Y. pestis, Y. pseudotuberculosis serotype O1, and irp2-positive Y. pseudotuberculosis serotype O3 strains. E. coli Phi, CA42, K49, and K235 belong to the second group. The possible proximity of these two iron-regulated genes (fyuA and irp2), as well as their high levels of sequence conservation and similar G+C contents (56.2 and 59.8 mol%), leads to the assumption that these two genes may represent part of an unstable pathogenicity island that has been acquired by pesticin-sensitive bacteria as a result of a horizontal transfer.