Structure and genetics of<i>Shigella</i>O antigens

Liu, Bin; Knirel, Yuriy A.; Feng, Lu; Perepelov, Andrei V.; Senchenkova, Sof’ya N.; Wang, Quan; Reeves, Peter R.; Wang, Lei

doi:10.1111/j.1574-6976.2008.00114.x

Cited by 276 publications

(288 citation statements)

References 159 publications

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“…The comparison analysis in this study showed that Ͼ98% of the kmer ID results were concordant with the results derived by traditional methods. The isolates of S. flexneri belonging to ST1753, misidentified by TB&S as S. boydii due to a dysfunctional wzx [1][2][3][4][5] gene, highlight one of the problems with using serology to identify Shigella to the species level (15). Historically, S. boydii and S. dysenteriae were differentiated biochemically by the mannitol test, and the relationship between these two species within CC145 and CC288 demonstrates that separating species based on one test can be misleading with respect to their true phylogenetic relationship.…”

Section: Resultsmentioning

confidence: 99%

“…With the exception of serotype 6 strains, all S. flexneri strains share a polysaccharide backbone composed of a linear tetrasaccharide, and the different serotypes arise as a result of glucosylation and/or O-acetylation of this polysaccharide backbone at various positions (8). S. boydii and S. dysenteriae share the same O antigen structure as that of E. coli, and the majority of isolates have a well-defined and limited set of O antigens (2). Using the traditional set of sugars, S. dysenteriae is generally the least reactive species of Shigella and is characterized by the inability to ferment mannitol (1).…”

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confidence: 99%

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Identification of Escherichia coli and Shigella Species from Whole-Genome Sequences

et al. 2017

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Escherichia coli and Shigella species are closely related and genetically constitute the same species. Differentiating between these two pathogens and accurately identifying the four species of Shigella are therefore challenging. The organism-specific bioinformatics whole-genome sequencing (WGS) typing pipelines at Public Health England are dependent on the initial identification of the bacterial species by use of a kmer-based approach. Of the 1,982 Escherichia coli and Shigella sp. isolates analyzed in this study, 1,957 (98.4%) had concordant results by both traditional biochemistry and serology (TB&S) and the kmer identification (ID) derived from the WGS data. Of the 25 mismatches identified, 10 were enteroinvasive E. coli isolates that were misidentified as Shigella flexneri or S. boydii by the kmer ID, and 8 were S. flexneri isolates misidentified by TB&S as S. boydii due to nonfunctional S. flexneri O antigen biosynthesis genes. Analysis of the population structure based on multilocus sequence typing (MLST) data derived from the WGS data showed that the remaining discrepant results belonged to clonal complex 288 (CC288), comprising both S. boydii and S. dysenteriae strains. Mismatches between the TB&S and kmer ID results were explained by the close phylogenetic relationship between the two species and were resolved with reference to the MLST data. Shigella can be differentiated from E. coli and accurately identified to the species level by use of kmer comparisons and MLST. Analysis of the WGS data provided explanations for the discordant results between TB&S and WGS data, revealed the true phylogenetic relationships between different species of Shigella, and identified emerging pathoadapted lineages.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Identification of Escherichia coli and Shigella Species from Whole-Genome Sequences

et al. 2017

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“…2A). A BLAST search demonstrated that each of these genomes contains the S. flexneri 6 O antigen (9), while all S. flexneri isolates from clade S5 contain the O13 antigen. The phylogeny demonstrates that genomes with the S. flexneri 6 O antigen are not closely related to sequenced S. flexneri genomes with the O13 antigen as determined on the basis of genomic content.…”

Section: Pan-genome Comparisons Betweenmentioning

confidence: 99%

“…Additionally, clinical symptoms often cannot differentiate Shigella infection from Escherichia coli infection or distinguish between Shigella species (8). Further confounding accurate identification, some O antigens present in Shigella are identical to those found in E. coli (9). Serotyping is the current gold standard method for Shigella species determination, but cross-reactivity among Shigella isolates, and E. coli isolates, may confound results (10).…”

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Defining the Phylogenomics of Shigella Species: a Pathway to Diagnostics

et al. 2015

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g Shigellae cause significant diarrheal disease and mortality in humans, as there are approximately 163 million episodes of shigellosis and 1.1 million deaths annually. While significant strides have been made in the understanding of the pathogenesis, few studies on the genomic content of the Shigella species have been completed. The goal of this study was to characterize the genomic diversity of Shigella species through sequencing of 55 isolates representing members of each of the four Shigella species: S. flexneri, S. sonnei, S. boydii, and S. dysenteriae. Phylogeny inferred from 336 available Shigella and Escherichia coli genomes defined exclusive clades of Shigella; conserved genomic markers that can identify each clade were then identified. PCR assays were developed for each clade-specific marker, which was combined with an amplicon for the conserved Shigella invasion antigen, IpaH3, into a multiplex PCR assay. This assay demonstrated high specificity, correctly identifying 218 of 221 presumptive Shigella isolates, and sensitivity, by not identifying any of 151 diverse E. coli isolates incorrectly as Shigella. This new phylogenomics-based PCR assay represents a valuable tool for rapid typing of uncharacterized Shigella isolates and provides a framework that can be utilized for the identification of novel genomic markers from genomic data.

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“…Recently, Iguchi (2015) reported antigenic relationships between E. coli O38 and S. dysenteriae 8; E. coli O169 and O183 with S. boydii 6 and 10. Although 21 shared O antigens were recognized between E. coli and Shigella (Iguchi, 2015), in the case of S. boydii 18 no antigenic cross-reaction was observed with any other E. coli or Shigella somatic antigen (Liu, 2008). Previously, our laboratory reported E. coli strains isolated from three geographic zones with antigens from S. boydii 16 showing characteristics of ETEC (Navarro, 2010).…”

Section: Discussion:-mentioning

confidence: 99%

Escherichiacoli DERIVED FROM DIFFERENT SOURCES SHARE ANTIGENIC CHARACTERISTICS WITH Shigellaboydii 18AND VIRULENCE FACTORS WITH ENTEROTOXIGENIC E. coli

Navarro¹,

Eslava-Campos²,

Meléndez-Herrada³

et al. 2016

IJAR

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Genotypic studies have shown that enteroinvasive Escherichia coli (EIEC) and Shigella form a single pathotype sharing a common composition of carbohydrates in the lipopolysaccharide (LPS).In this study 23 E. coli strains isolated from different sources, were characterized. Serotyping was performed with 187 O and 53 H E. coli and 46Shigella sera samples. PCR assays to lacY, lacZ, uidA,cyd, ipaH, wzx,wzy,ltA,stp, cfaI,sc3 and phylogenetic groups were performed. A serum against the E. coli 44037 strain was obtained. Serotyping of 23 strains only showed reaction against S. boydii 18 and 44037antisera and were positive for lacY, lacZ, uidA and cyd, but negative for ipaH. The same gene analysis ofS. boydii 18 strain showed positive reaction for ipaH, uid andcyd but negative for lacZ and lacY. Both E. coli and S. boydii 18 strains amplified wzx and wzy genes. The genes ltA,stp, cfaI and sc3 were detected in 14 (61%), 6 (26%), 21 (91%) and 13 (57%) of E. coli strains. The phylogenetic analysis included the E. coli strains in: clade I (35%), and A (22%), B1 (22%), B2 (13%) and D (4 %) groups. The 23 E. coli strains isolated from children with diarrhea and dairy cattle reacted against S. boydii 18 but that amplified ETEC genes, constitute a new serogroup (44037) with the serotypes 44037:NM, H2 and H16 in children and 44037:H3, H9 and H48 from dairy cattle.Copy Right, IJAR, 2016,. All rights reserved. …………………………………………………………………………………………………….... Introduction:-Diarrheal diseases are an important public health problem around the world with more than 2 million related deaths being reported each year with children under 5 years of age in developing countries being particularly affected (Kosek, 2003). Escherichia coli is one of the most common etiological agents responsible for childhood diarrhea and is one of the most important public health problems in developing countries (Davidson, 2002). The traditional Shigella genus consists of four species: S. dysenteriae; S. flexneri,S. boydii and S. sonnei, or Shigellasubgroups A, B, C and D(Ewing, 1986). However, recent genotyping studies have shown that the four INTERNATIONAL JOURNAL OF ADVANCED RESEARCH (IJAR)Corresponding Author:-Armando Navarro Address:-Department of Public Health, Faculty of Medicine, Universidad Nacional Autónoma de México ISSN: 2320-5407 Int. J. Adv. Res. 4(10), 629-638 630 species are closely related to enteroinvasive E. coli (EIEC), which suggests that distinct ancestral lineages of E. coli gave rise to EIEC and Shigella through a process of convergent evolution by acquiring of similar pathogenic characteristics (Pupo, 2000;Peng, 2006;Yang, 2007;Peng, 2009). According to a study based on analyzing housekeeping genes, both genera constitute one single pathotype of E. coli (Lan, 2004).The identification of somatic (O) surface antigens and flagellar (H) antigens using specific antibodies has been used for many years to characterize enterobacteria antigenically (Orskov, 1984). Shigella and E. coli present a wide diversity in terms of the combination of O and...

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Structure and genetics ofShigellaO antigens

Cited by 276 publications

References 159 publications

Identification of Escherichia coli and Shigella Species from Whole-Genome Sequences

Identification of Escherichia coli and Shigella Species from Whole-Genome Sequences

Defining the Phylogenomics of Shigella Species: a Pathway to Diagnostics

Escherichiacoli DERIVED FROM DIFFERENT SOURCES SHARE ANTIGENIC CHARACTERISTICS WITH Shigellaboydii 18AND VIRULENCE FACTORS WITH ENTEROTOXIGENIC E. coli

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