Filamentous Phage Associated with Recent Pandemic Strains of<i>Vibrio parahaemolyticus</i>

Iida, Tetsuya; Hattori, Akiko; Tagomori, Kenichi; Nasu, Hatsumi; Naim, Rochman; Honda, Takeshi

doi:10.3201/eid0703.010325

Cited by 42 publications

(53 citation statements)

References 8 publications

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“…Hence, one or more of these vibriophages are also likely to package possible other DNA elements carrying the appropriate signals, and thus we speculate that the range of DNA transfer mediated by filamentous phages may be considerably more than currently appreciated. In this regard, it is also remarkable that a gene (orf8) associated with a filamentous vibriophage has been linked exclusively to strains associated with the "pandemic" O3:K6 clone of Vibrio parahaemolyticus (22,32).…”

Section: Vol 187 2005mentioning

confidence: 99%

Genomic Sequence and Receptor for the Vibrio cholerae Phage KSF-1Φ: Evolutionary Divergence among Filamentous Vibriophages Mediating Lateral Gene Transfer

et al. 2005

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KSF-1⌽, a novel filamentous phage of Vibrio cholerae, supports morphogenesis of the RS1 satellite phage by heterologous DNA packaging and facilitates horizontal gene transfer. We analyzed the genomic sequence, morphology, and receptor for KSF-1⌽ infection, as well as its phylogenetic relationships with other filamentous vibriophages. While strains carrying the mshA gene encoding mannose-sensitive hemagglutinin (MSHA) type IV pilus were susceptible to KSF-1⌽ infection, naturally occurring MSHA-negative strains and an mshA deletion mutant were resistant. Furthermore, D-mannose as well as a monoclonal antibody against MSHA inhibited infection of MSHA-positive strains by the phage, suggesting that MSHA is the receptor for KSF-1⌽. The phage genome comprises 7,107 nucleotides, containing 14 open reading frames, 4 of which have predicted protein products homologous to those of other filamentous phages. Although the overall genetic organization of filamentous phages appears to be preserved in KSF-1⌽, the genomic sequence of the phage does not have a high level of identity with that of other filamentous phages and reveals a highly mosaic structure. Separate phylogenetic analysis of genomic sequences encoding putative replication proteins, receptor-binding proteins, and Zot-like proteins of 10 different filamentous vibriophages showed different results, suggesting that the evolution of these phages involved extensive horizontal exchange of genetic material. Filamentous phages which use type IV pili as receptors were found to belong to different branches. While one of these branches is represented by CTX⌽, which uses the toxin-coregulated pilus as its receptor, at least four evolutionarily diverged phages share a common receptor MSHA, and most of these phages mediate horizontal gene transfer. Since MSHA is present in a wide variety of V. cholerae strains and is presumed to express in the environment, diverse filamentous phages using this receptor are likely to contribute significantly to V. cholerae evolution.Vibrio cholerae is the host for a variety of bacteriophages (vibriophages), which include virulent phages as well as temperate phages represented by the kappa-type phages produced by most strains of the El Tor biotype (18, 36). Another group of vibriophages includes the filamentous phages, which have a single-stranded DNA (ssDNA) genome (1,8,23,25,40). Several of the V. cholerae-specific filamentous phages have been implicated in virulence gene transfer among V. cholerae strains (2,7,40). Filamentous phages of V. cholerae have also been found to be distinct from the well-characterized filamentous coliphages in that some of these phages can form lysogens (1,25,40). The most remarkable of these phages is CTX⌽ (40), which exists as a prophage in toxigenic V. cholerae and encodes cholera toxin (CT).Mechanisms associated with the induction and propagation of CTX⌽ and related phages have been a major area of interest in vibriophage biology (5,6,(9)(10)(11)(12). In toxigenic El Tor and O139 strains of V. cholerae, CTX propha...

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Section: Vol 187 2005mentioning

confidence: 99%

Genomic Sequence and Receptor for the Vibrio cholerae Phage KSF-1Φ: Evolutionary Divergence among Filamentous Vibriophages Mediating Lateral Gene Transfer

et al. 2005

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“…The results suggest that ORF8 rather than toxRS/new is a more reliable genetic marker for identification of the pandemic strains. However, Iida et al (4) pointed out that one of the O3:K6 strains belonging to the pandemic PFGE type was negative for ORF 8. More recently, Bhuiyan et al (2) reported that eight of the O3:K6 clinical strains isolated between 1998 and 2000 were negative for ORF8, claiming that ORF8 was a poor genetic marker for the pandemic genotype.…”

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confidence: 99%

“…Matsumoto et al (5) reported that the pandemic strains exhibit a unique sequence within the toxRS operon, which encodes transmembrane proteins in the regulation of virulence-associated genes conserved in the genus Vibrio. On the other hand, Nasu et al (6) isolated filamentous phage possessing a unique open reading frame, ORF8, from one of the pandemic strains, and Iida et al (4) claimed that ORF8 was a useful genetic marker for identifying strains. It was thus necessary to evaluate the use of the toxRS sequence or ORF8 as a reliable genetic marker for the identification.…”

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Genotyping of Pandemic Vibrio parahaemolyticus O3:K6Still Open to Question

et al. 2002

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“…This clonality was also supported by the fact that most of these strains belong to a single "new" serotype O3:K6 (Okuda et al, 1997). Additionally, several PCR analyses identified nucleotide sequences unique to these pandemic strains (Matsumoto et al, 2000;Nasu et al, 2000;Iida et al, 2001;Williams et al, 2004;Okura et al, 2004Okura et al, , 2005. However, where and how these pandemic strains have emerged and how the infection by these strains have spread throughout the world are not known to date.…”

Section: Introductionmentioning

confidence: 99%

On the origin and function of an insertion element VPaI-1 specific to post-1995 pandemic Vibrio parahaemolyticus strains

et al. 2008

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Since 1995, new virulent strains of Vibrio parahaemolyticus have emerged and spread throughout the world. These "pandemic" strains have four strain specific genomic islands (GIs), which are considered to be potential factors of the pandemicity. We investigated the origin and function of 24 genes in the so-called VPaI-1, one of the four GIs, by searching homologs in various species in Bacteria and Archaea. Of these 24 genes, two are found only in Vibrio vulnificus CMCP6 and Shewanella sp. MR-7. The genomic segment (~8 kb) encompassing the two genes shows the synteny among the three species. Since many of the Shewanella species can grow at 4°C, these two genes may be candidates of adaptation to temperature stress. Further, we found a candidate for a swarming gene, which is reported as the V. cholerae virulence gene. Based on these findings, we hypothesized the emergence of pandemicity and discuss the mechanism for how these strains spread throughout the world.

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Filamentous Phage Associated with Recent Pandemic Strains ofVibrio parahaemolyticus

Cited by 42 publications

References 8 publications

Genomic Sequence and Receptor for the Vibrio cholerae Phage KSF-1Φ: Evolutionary Divergence among Filamentous Vibriophages Mediating Lateral Gene Transfer

Genomic Sequence and Receptor for the Vibrio cholerae Phage KSF-1Φ: Evolutionary Divergence among Filamentous Vibriophages Mediating Lateral Gene Transfer

Genotyping of Pandemic Vibrio parahaemolyticus O3:K6Still Open to Question

On the origin and function of an insertion element VPaI-1 specific to post-1995 pandemic Vibrio parahaemolyticus strains

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