Your search keyword '"Reeves, Peter R."' showing total 56 results

1. Repeat-Unit Elongations To Produce Bacterial Complex Long Polysaccharide Chains, an O-Antigen Perspective.

Author

YAOQIN HONG, DALONG HU, VERDEROSA, ANTHONY D., JILONG QIN, TOTSIKA, MAKRINA, and REEVES, PETER R.

Published

2023

2. The low level of O antigen in Salmonella enterica Paratyphi A is due to inefficiency of the glycosyltransferase WbaV.

Author

Liu, Michael A, Kidambi, Aditi, and Reeves, Peter R

Subjects

SALMONELLA enterica, ANTIGENS, VACCINE development, GENETIC overexpression, GENE amplification, GENE clusters

Abstract

The group A O antigen is the major surface polysaccharide of Salmonella enterica serovar Paratyphi A (SPA), and the focal point for most current vaccine development efforts. The SPA O-antigen repeat (O unit) is structurally similar to the group D1 O unit of S. enterica serovar Typhi, differing only in the presence of a terminal side-branch paratose (Par) in place of tyvelose (Tyv), both of which are attached by the glycosyltransferase WbaV. The two O-antigen gene clusters are also highly similar, but with a loss-of-function mutation in the group A tyv gene and the tandem amplification of wbaV in most SPA strains. In this study, we show that SPA strains consistently produce less O antigen than their group D1 counterparts and use an artificial group A strain (D1 Δ tyv) to show this is due to inefficient Par attachment by WbaV. We also demonstrate that group A O-antigen production can be increased by overexpression of the wbaV gene in both the D1 Δ tyv strain and two multi- wbaV SPA strains. These findings should be broadly applicable in ongoing vaccine development pipelines, where efficient isolation and purification of large quantities of O antigen is of critical importance. [ABSTRACT FROM AUTHOR]

Published

2021

3. Living Trees: High-Quality Reproducible and Reusable Construction of Bacterial Phylogenetic Trees.

Author

Hu, Dalong, Liu, Bin, Wang, Lei, and Reeves, Peter R

Abstract

An ideal bacterial phylogenetic tree accurately retraces evolutionary history and accurately incorporates mutational, recombination and other events on the appropriate branches. Current strain-level bacterial phylogenetic analysis based on large numbers of genomes lacks reliability and resolution, and is hard to be replicated, confirmed and reused, because of the highly divergent nature of microbial genomes. We present SNPs and Recombination Events Tree (SaRTree), a pipeline using six "living trees" modules that addresses problems arising from the high numbers and variable quality of bacterial genome sequences. It provides for reuse of the tree and offers a major step toward global standardization of phylogenetic analysis by generating deposit files including all steps involved in phylogenetic inference. The tree itself is a "living tree" that can be extended by addition of more sequences, or the deposit can be used to vary the programs or parameters used, to assess the effect of such changes. This approach will allow phylogeny papers to meet the traditional responsibility of providing data and analysis that can be repeated and critically evaluated by others. We used the Acinetobacter baumannii global clone I to illustrate use of SaRTree to optimize tree resolution. An Escherichia coli tree was built from 351 sequences selected from 11,162 genome sequences, with the others added back onto well-defined branches, to show how this facility can greatly improve the outcomes from genome sequencing. SaRTree is designed for prokaryote strain-level analysis but could be adapted for other usage. [ABSTRACT FROM AUTHOR]

Published

2020

4. Changing Molecular Epidemiology of Vibrio cholerae Outbreaks in Shanghai, China.

Author

Dalong Hu, Zhiqiu Yin, Chao Yuan, Pan Yang, Chengqian Qian, Yi Wei, Si Zhang, Yuhui Wang, Jian Yuan, Meng Wang, Reeves, Peter R., Lihong Tu, Min Chen, Di Huang, and Bin Liua

Published

2019

5. Genetics and evolution of Yersinia pseudotuberculosis O-specific polysaccharides: a novel pattern of O-antigen diversity.

Author

Kenyon, Johanna J., Cunneen, Monica M., and Reeves, Peter R.

Subjects

ANTIGENS, POLYSACCHARIDES, LIPOPOLYSACCHARIDES, GRAM-negative bacteria, YERSINIA pseudotuberculosis

Abstract

O-antigen polysaccharide is a major immunogenic feature of the lipopolysaccharide of Gram-negative bacteria, and most species produce a large variety of forms that differ substantially from one another. There are 18 known O-antigen forms in the Yersinia pseudotuberculosis complex, which are typical in being composed of multiple copies of a short oligosaccharide called an O unit. The O-antigen gene clusters are located between the hemH and gsk genes, and are atypical as 15 of them are closely related, each having one of five downstream gene modules for alternative main-chain synthesis, and one of seven upstream modules for alternative side-branch sugar synthesis. As a result, many of the genes are in more than one gene cluster. The gene order in each module is such that, in general, the earlier a gene product functions in O-unit synthesis, the closer the gene is to the 5' end for side-branch modules or the 3' end for main-chain modules. We propose a model whereby natural selection could generate the observed pattern in gene order, a pattern that has also been observed in other species. [ABSTRACT FROM AUTHOR]

Published

2017

6. Origins of the current seventh cholera pandemic.

Author

Peng Ding, Xi Guo, Min Wang, Dalong Hu, Lu Feng, Boyang Cao, Lei Wang, Bin Liu, and Reeves, Peter R.

Subjects

VIBRIO cholerae, PANDEMICS, EVOLUTIONARY theories, COMPARATIVE genomics

Abstract

Vibrio cholerae has caused seven cholera pandemics since 1817, imposing terror on much of the world, but bacterial strains are currently only available for the sixth and seventh pandemics. The El Tor biotype seventh pandemic began in 1961 in Indonesia, but did not originate directly from the classical biotype sixth-pandemic strain. Previous studies focused mainly on the spread of the seventh pandemic after 1970. Here, we analyze in unprecedented detail the origin, evolution, and transition to pandemicity of the seventh-pandemic strain. We used high-resolution comparative genomic analysis of strains collected from 1930 to 1964, covering the evolution from the first available El Tor biotype strain to the start of the seventh pandemic. We define six stages leading to the pandemic strain and reveal all key events. The seventh pandemic originated from a nonpathogenic strain in the Middle East, first observed in 1897. It subsequently underwent explosive diversification, including the spawning of the pandemic lineage. This rapid diversification suggests that, when first observed, the strain had only recently arrived in theMiddle East, possibly from the Asian homeland of cholera. The lineage migrated toMakassar, Indonesia, where it gained the important virulence-associated elements Vibrio seventh pandemic island I (VSP-I), VSP-II, and El Tor type cholera toxin prophage by 1954, and it then became pandemic in 1961 after only 12 additional mutations. Our data indicate that specific niches in the Middle East and Makassar were important in generating the pandemic strain by providing gene sources and the driving forces for genetic events. [ABSTRACT FROM AUTHOR]

Published

2016

7. Serotype O:8 isolates in the Yersinia pseudotuberculosis complex have different O-antigen gene clusters and produce various forms of rough LPS.

Author

Kenyon, Johanna J., Duda, Katarzyna A., De Felice, Antonia, Cunneen, Monica M., Molinaro, Antonio, Laitinen, Juha, Skurnik, Mikael, Holst, Otto, Reeves, Peter R., and De Castro, Cristina

Subjects

PSEUDOTUBERCULOSIS, O antigens, LIPOPOLYSACCHARIDES, SEROTYPES, BIOSYNTHESIS, FRAMESHIFT mutation, STRUCTURAL analysis (Science)

Abstract

In Yersinia pseudotuberculosis complex, the O-antigen of LPS is used for the serological characterization of strains, and 21 serotypes have been identified to date. The O-antigen biosynthesis gene cluster and corresponding O-antigen structure have been described for 18, leaving O:8, O:13 and O:14 unresolved. In this study, two O:8 isolates were examined. The O-antigen gene cluster sequence of strain 151 was near identical to serotype O:4a, though a frame-shift mutation was found in ddhD, while No. 6 was different to 151 and carried the O:1b gene cluster. Structural analysis revealed that No. 6 produced a deeply truncated LPS, suggesting a mutation within the waaF gene. Both ddhD and waaF were cloned and expressed in 151 and No. 6 strains, respectively, and it appeared that expression of ddhD gene in strain 151 restored the O-antigen on LPS, while waaF in No. 6 resulted in an LPS truncated less severely but still without the O-antigen, suggesting that other mutations occurred in this strain. Thus, both O:8 isolates were found to be spontaneous O-antigen-negative mutants derived from other validated serotypes, and we propose to remove this serotype from the O-serotyping scheme, as the O:8 serological specificity is not based on the O-antigen. [ABSTRACT FROM AUTHOR]

Published

2016

8. Model for the Controlled Synthesis of O-Antigen Repeat Units Involving the WaaL Ligase.

Author

Yaoqin Hong and Reeves, Peter R.

Published

2016

9. Inefficient translocation of a truncated O unit by a Salmonella Wzx affects both O-antigen production and cell growth.

Author

Liu, Michael A., Stent, Thomas L., Yaoqin Hong, and Reeves, Peter R.

Subjects

O antigens, OLIGOSACCHARIDES, CELL growth, SALMONELLA, GLYCOMICS, LIPOPOLYSACCHARIDES

Abstract

Bacterial Wzx flippases translocate (flip) short oligosaccharide repeat units (O units) across the inner membrane into the periplasm, which is a critical step in the assembly of many O antigens, capsules and other surface polysaccharides. There is enormous diversity in O antigens and capsules in particular, even within species. Wzx proteins are similarly diverse, but it has been widely accepted that they have significant specificity only for the first sugar of an O unit. In this study, we analysed the Wzx from the Salmonella enterica group C2 O antigen gene cluster, which is a unique and divergent member of a set of gene clusters that produce galactose-initiated O antigens. We demonstrate that this Wzx has a strong preference for the presence of an abequose side-branch, which manifests in a reduction of long-chain O antigen and a major growth defect. This contributes to a growing body of evidence that, contrary to earlier proposals, Wzx flippases commonly exhibit a strong preference for the structure of their native O unit. [ABSTRACT FROM AUTHOR]

Published

2015

10. III: EVOLUTION OF SELECTED PATHOGENIC SPECIES AND MECHANISMS: CHAPTER 15: EVOLUTION OF ENTERIC PATHOGENS.

Author

Lan, Ruiting and Reeves, Peter R.

Published

2006

11. Structural diversity in Salmonella O antigens and its genetic basis.

Author

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

Subjects

SALMONELLA genetics, ANTIGENS, CHEMICAL structure, SEROLOGY, ACETYL group, NUCLEOTIDE sequence, MICROBIAL virulence

Abstract

This review covers the structures and genetics of the 46 O antigens of Salmonella, a major pathogen of humans and domestic animals. The variation in structures underpins the serological specificity of the 46 recognized serogroups. The O antigen is important for the full function and virulence of many bacteria, and the considerable diversity of O antigens can confer selective advantage. Salmonella O antigens can be divided into two major groups: those which have N-acetylglucosamine ( Glc NAc) or N-acetylgalactosamine ( Gal NAc) and those which have galactose ( Gal) as the first sugar in the O unit. In recent years, we have determined 21 chemical structures and sequenced 28 gene clusters for Glc NAc-/ Gal NAc-initiated O antigens, thus completing the structure and DNA sequence data for the 46 Salmonella O antigens. The structures and gene clusters of the Glc NAc-/ Gal NAc-initiated O antigens were found to be highly diverse, and 24 of them were found to be identical or closely related to Escherichia coli O antigens. Sequence comparisons indicate that all or most of the shared gene clusters were probably present in the common ancestor, although alternative explanations are also possible. In contrast, the better-known eight Gal-initiated O antigens are closely related both in structures and gene cluster sequences. [ABSTRACT FROM AUTHOR]

Published

2014

12. The Wzy O-antigen polymerase of Yersinia pseudotuberculosis O:2a has a dependence on the Wzz chain-length determinant for efficient polymerization.

Author

Kenyon, Johanna J. and Reeves, Peter R.

Subjects

ANTIGENS, POLYMERASES, YERSINIA pseudotuberculosis, POLYMERIZATION, LIPOPOLYSACCHARIDES, IMMUNOGENETICS, ESCHERICHIA coli

Abstract

Lipopolysaccharide is a major immunogenic structure for the pathogen Yersinia pseudotuberculosis, which contains the O-specific polysaccharide ( OPS) that is presented on the cell surface. The OPS contains many repeats of the oligosaccharide O-unit and exhibits a preferred modal chain length that has been shown to be crucial for cell protection in Yersinia. It is well established that the Wzz protein determines the preferred chain length of the OPS, and in its absence, the polymerization of O units by the Wzy polymerase is uncontrolled. However, for Y. pseudotuberculosis, a wzz mutation has never been described. In this study, we examine the effect of Wzz loss in Y. pseudotuberculosis serotype O:2a and compare the lipopolysaccharide chain-length profile to that of Escherichia coli serotype O111. In the absence of Wzz, the lipopolysaccharides of the two species showed significant differences in Wzy polymerization. Yersinia pseudotuberculosis O:2a exhibited only OPS with very short chain lengths, which is atypical of wzz-mutant phenotypes that have been observed for other species. We hypothesise that the Wzy polymerase of Y. pseudotuberculosis O:2a has a unique default activity in the absence of the Wzz, revealing the requirement of Wzz to drive O-unit polymerization to greater lengths. [ABSTRACT FROM AUTHOR]

Published

2013

13. Genomic diversity and adaptation of Salmonella enterica serovar Typhimurium from analysis of six genomes of different phage types.

Author

Pang, Stanley, Octavia, Sophie, Lu Feng, Bin Liu, Reeves, Peter R., Lan, Ruiting, and Lei Wang

Subjects

SALMONELLA enterica, BACTERIOPHAGES, GENOMICS, INFECTION, PLASMIDS, PIGEONS, DOMESTIC animals

Abstract

Background Salmonella enterica serovar Typhimurium (or simply Typhimurium) is the most common serovar in both human infections and farm animals in Australia and many other countries. Typhimurium is a broad host range serovar but has also evolved into host-adapted variants (ie. isolated from a particular host such as pigeons). Six Typhimurium strains of different phage types (defined by patterns of susceptibility to lysis by a set of bacteriophages) were analysed using Illumina high-throughput genome sequencing. Results Variations between strains were mainly due to single nucleotide polymorphisms (SNPs) with an average of 611 SNPs per strain, ranging from 391 SNPs to 922 SNPs. There were seven insertions/deletions (indels) involving whole or partial gene deletions, four inactivation events due to IS200 insertion and 15 pseudogenes due to early termination. Four of these inactivated or deleted genes may be virulence related. Nine prophage or prophage remnants were identified in the six strains. Gifsy-1, Gifsy-2 and the sopE2 and sspH2 phage remnants were present in all six genomes while Fels-1, Fels-2, ST64B, ST104 and CP4-57 were variably present. Four strains carried the 90-kb plasmid pSLT which contains several known virulence genes. However, two strains were found to lack the plasmid. In addition, one strain had a novel plasmid similar to Typhi strain CT18 plasmid pHCM2. Conclusion The genome data suggest that variations between strains were mainly due to accumulation of SNPs, some of which resulted in gene inactivation. Unique genetic elements that were common between host-adapted phage types were not found. This study advanced our understanding on the evolution and adaptation of Typhimurium at genomic level. [ABSTRACT FROM AUTHOR]

Published

2013

14. Diversity in the Major Polysaccharide Antigen of Acinetobacter Baumannii Assessed by DNA Sequencing, and Development of a Molecular Serotyping Scheme.

Author

Hu, Dalong, Liu, Bin, Dijkshoorn, Lenie, Wang, Lei, and Reeves, Peter R.

Subjects

POLYSACCHARIDES, ANTIGENS, ACINETOBACTER baumannii, NUCLEOTIDE sequence, DEVELOPMENTAL biology, MOLECULAR biology, BIOTECHNOLOGY research

Abstract

We have sequenced the gene clusters for type strains of the Acinetobacter baumannii serotyping scheme developed in the 1990s, and used the sequences to better understand diversity in surface polysaccharides of the genus. We obtained genome sequences for 27 available serovar type strains, and identified 25 polysaccharide gene cluster sequences. There are structures for 12 of these polysaccharides, and in general the genes present are appropriate to the structure where known. This greatly facilitates interpretation. We also find 53 different glycosyltransferase genes, and for 7 strains can provisionally allocate specific genes to all linkages. We identified primers that will distinguish the 25 sequence forms by PCR or microarray, or alternatively the genes can be used to determine serotype by “molecular serology”. We applied the latter to 190 Acinetobacter genome-derived gene-clusters, and found 76 that have one of the 25 gene-cluster forms. We also found novel gene clusters and added 52 new gene-cluster sequence forms with different wzy genes and different gene contents. Altogether, the strains that have one of the original 25 sequence forms include 98 A. baumannii (24 from our strains) and 5 A. nosocomialis (3 from our strains), whereas 32 genomes from 12 species other than A. baumannii or A. nosocomialis, all have new sequence forms. One of the 25 serovar type sequences is found to be in European clone I (EC I), 2 are in EC II but none in EC III. The public genome strains add an additional 52 new sequence forms, and also bring the number found in EC I to 5, in EC II to 9 and in EC III to 2. [ABSTRACT FROM AUTHOR]

Published

2013

15. Population Structure and Evolution of Non-O1/Non-O139 Vibrio cholerae by Multilocus Sequence Typing.

Author

Octavia, Sophie, Salim, Anna, Kurniawan, Jacob, Lam, Connie, Leung, Queenie, Ahsan, Sunjukta, Reeves, Peter R., Nair, G. Balakrish, and Lan, Ruiting

Subjects

VIBRIO cholerae, ENTEROTOXINS, EPIDEMICS, POLYMERASE chain reaction, GENETIC recombination, POPULATION biology, COMMUNICABLE diseases

Abstract

Pathogenic non-O1/non-O139 Vibrio cholerae strains can cause sporadic outbreaks of cholera worldwide. In this study, multilocus sequence typing (MLST) of seven housekeeping genes was applied to 55 non-O1/non-O139 isolates from clinical and environmental sources. Data from five published O1 isolates and 17 genomes were also included, giving a total of 77 isolates available for analysis. There were 66 sequence types (STs), with the majority being unique, and only three clonal complexes. The V. cholerae strains can be divided into four subpopulations with evidence of recombination among the subpopulations. Subpopulations I and III contained predominantly clinical strains. PCR screening for virulence factors including Vibrio pathogenicity island (VPI), cholera toxin prophage (CTXΦ), type III secretion system (T3SS), and enterotoxin genes (rtxA and sto/stn) showed that combinations of these factors were present in the clinical isolates with 85.7% having rtxA, 51.4% T3SS, 31.4% VPI, 31.4% sto/stn (NAG-ST) and 11.4% CTXΦ. These factors were also present in environmental isolates but at a lower frequency. Five strains previously mis-identified as V. cholerae serogroups O114 to O117 were also analysed and formed a separate population with V. mimicus. The MLST scheme developed in this study provides a framework to identify sporadic cholera isolates by genetic identity. [ABSTRACT FROM AUTHOR]

Published

2013

16. The O-specific polysaccharide structure and gene cluster of serotype O:12 of the Yersinia pseudotuberculosis complex, and the identification of a novel l-quinovose biosynthesis gene.

Author

De Castro, Cristina, Kenyon, Johanna J, Cunneen, Monica M, Molinaro, Antonio, Holst, Otto, Skurnik, Mikael, and Reeves, Peter R

Subjects

POLYSACCHARIDES, GLYCAN structure, SEROTYPES, BACTERIAL genes, YERSINIA pseudotuberculosis, DEOXY sugars, BIOSYNTHESIS, MICROBIAL virulence, ENDOTOXINS, BIOLOGICAL evolution, GENETICS

Abstract

A major virulence factor for Yersinia pseudotuberculosis is lipopolysaccharide, including O-polysaccharide (OPS). Currently, the OPS based serotyping scheme for Y. pseudotuberculosis includes 21 known O-serotypes, with genetic and structural data available for 17 of them. The completion of the OPS structures and genetics of this species will enable the visualization of relationships between O-serotypes and allow for analysis of the evolutionary processes within the species that give rise to new serotypes. Here we present the OPS structure and gene cluster of serotype O:12, thus adding one more to the set of completed serotypes, and show that this serotype is present in both Y. pseudotuberculosis and the newly identified Y. similis species. The O:12 structure is shown to include two rare sugars: 4-C[(R)-1-hydroxyethyl]-3,6-dideoxy-d-xylo-hexose (d-yersiniose) and 6-deoxy-l-glucopyranose (l-quinovose). We have identified a novel putative guanine diphosphate (GDP)-l-fucose 4-epimerase gene and propose a pathway for the synthesis of GDP-l-quinovose, which extends the known GDP-l-fucose pathway. [ABSTRACT FROM PUBLISHER]

Published

2013

17. Characterization of the CDP-d-mannitol biosynthetic pathway in Streptococcus pneumoniae 35A.

Author

Wang, Quan, Xu, Yanli, Perepelov, Andrei V, Knirel, Yuriy A, Reeves, Peter R, Shashkov, Alexander S, Ding, Peng, Guo, Xi, and Feng, Lu

Subjects

MANNITOL, BIOSYNTHESIS, STREPTOCOCCUS pneumoniae, POLYSACCHARIDES, PATHOGENIC microorganisms, MICROBIAL virulence

Abstract

Streptococcus pneumoniae is a major human pathogen associated with diseases worldwide. The capsular polysaccharides (CPSs) are considered a major virulence factor and are targets for a vaccine. d-Mannitol was found to be present in the CPS of several S. pneumoniae serotypes. Two genes, mnp1 and mnp2, which are located in the CPS gene cluster, were proposed to be responsible for the synthesis of NDP-d-mannitol (the nucleotide activated form of d-mannitol). However, the pathway has never been identified by experimental methods and we aimed to characterize it in the present study. To achieve this, the two genes, mnp1 and mnp2, were cloned and the gene products were overexpressed, purified, and analyzed in vitro for their respective enzymatic activities. Products of reactions catalyzed by Mnp1 and Mnp2 were detected by capillary electrophoresis and validated using electrospray ionization mass spectrometry and nuclear magnetic resonance spectroscopy. We show that Mnp1 is responsible for the transfer of CMP from CTP to d-fructose-6-phosphate (Fru-6-P) to form CDP-d-fructose, whereas Mnp2 catalyzed the conversion of CDP-d-fructose to CDP-d-mannitol. Therefore, Mnp1 (renamed as mnpA) was identified as Fru-6-P cytidylyltransferase-encoding gene, and mnp2 (renamed as mnpB) as a CDP-d-fructose reductase-encoding gene. The kinetics of Mnp1 for the substrate (Fru-6-P and CTP) and of Mnp2 for the substrate (CDP-d-fructose) and the cofactor NADH or NADPH fitted the Michaelis–Menten model. The effects of temperature, pH and cations on the two enzymes were analyzed. This is the first time that the biosynthetic pathway of CDP-d-mannitol has been identified biochemically. [ABSTRACT FROM PUBLISHER]

Published

2012

18. The multiplicity of divergence mechanisms in a single evolving population.

Author

Maharjan, Ram P., Ferenci, Thomas, Reeves, Peter R., Yang Li, Bin Liu, and Lei Wang

Published

2012

19. The Wzx translocases for Salmonella enterica O-antigen processing have unexpected serotype specificity.

Author

Hong, Yaoqin, Cunneen, Monica M., and Reeves, Peter R.

Subjects

GRAM-negative bacteria, SALMONELLA enterica, SEROTYPES, ENZYME specificity, OLIGOSACCHARIDES, CELL membranes

Abstract

Most Gram-negative bacteria have an O antigen, a polysaccharide with many repeats of a short oligosaccharide that is a part of the lipopolysaccharide, the major lipid in the outer leaflet of the outer membrane. Lipopolysaccharide is variable with 46 forms in Salmonella enterica that underpin the serotyping scheme. Repeat units are assembled on a lipid carrier that is embedded in the cell membrane, and are then translocated by the Wzx translocase from the cytoplasmic face to the outer face of the cell membrane, followed by polymerization. The O antigen is then incorporated into lipopolysaccharide and exported to the outer membrane. The Wzx translocase is widely thought to be specific only for the first sugar of the repeat unit, despite extensive variation in both O antigens and Wzx translocases. However, we found for S. enterica groups B, D2 and E that Wzx translocation exhibits significant specificity for the repeat-unit structure, as variants with single sugar differences are translocated with lower efficiency and little long-chain O antigen is produced. It appears that Wzx translocases are specific for their O antigen for normal levels of translocation. [ABSTRACT FROM AUTHOR]

Published

2012

20. Multi-locus variable number tandem repeat analysis of 7th pandemic Vibrio cholerae.

Author

Lam, Connie, Octavia, Sophie, Reeves, Peter R., and Lan, Ruiting

Subjects

PANDEMICS, VIBRIO cholerae, SINGLE nucleotide polymorphisms, EPIDEMIOLOGY, PUBLIC health, HEALTH & welfare funds

Abstract

Background: Seven pandemics of cholera have been recorded since 1817, with the current and ongoing pandemic affecting almost every continent. Cholera remains endemic in developing countries and is still a significant public health issue. In this study we use multilocus variable number of tandem repeats (VNTRs) analysis (MLVA) to discriminate between isolates of the 7th pandemic clone of Vibrio cholerae. Results: MLVA of six VNTRs selected from previously published data distinguished 66 V. cholerae isolates collected between 1961-1999 into 60 unique MLVA profiles. Only 4 MLVA profiles consisted of more than 2 isolates. The discriminatory power was 0.995. Phylogenetic analysis showed that, except for the closely related profiles, the relationships derived from MLVA profiles were in conflict with that inferred from Single Nucleotide Polymorphism (SNP) typing. The six SNP groups share consensus VNTR patterns and two SNP groups contained isolates which differed by only one VNTR locus. Conclusions: MLVA is highly discriminatory in differentiating 7th pandemic V. cholerae isolates and MLVA data was most useful in resolving the genetic relationships among isolates within groups previously defined by SNPs. Thus MLVA is best used in conjunction with SNP typing in order to best determine the evolutionary relationships among the 7th pandemic V. cholerae isolates and for longer term epidemiological typing. [ABSTRACT FROM AUTHOR]

Published

2012

21. Rates of Mutation and Host Transmission for an Escherichia coli Clone over 3 Years.

Author

Reeves, Peter R., Bin Liu, Zhemin Zhou, Dan Li, Dan Guo, Yan Ren, Clabots, Connie, Ruiting Lan, Johnson, James R., and Lei Wang

Subjects

ESCHERICHIA coli, GENOMES, ENTEROBACTERIACEAE, FOODBORNE diseases, COMMUNICABLE diseases, URINARY organ diseases, URINARY tract infections

Abstract

Although over 50 complete Escherichia coli/Shigella genome sequences are available, it is only for closely related strains, for example the O55:H7 and O157:H7 clones of E. coli, that we can assign differences to individual evolutionary events along specific lineages. Here we sequence the genomes of 14 isolates of a uropathogenic E. coli clone that persisted for 3 years within a household, including a dog, causing a urinary tract infection (UTI) in the dog after 2 years. The 20 mutations observed fit a single tree that allows us to estimate the mutation rate to be about 1.1 per genome per year, with minimal evidence for adaptive change, including in relation to the UTI episode. The host data also imply at least 6 host transfer events over the 3 years, with 2 lineages present over much of that period. To our knowledge, these are the first direct measurements for a clone in a well-defined host community that includes rates of mutation and host transmission. There is a concentration of non-synonymous mutations associated with 2 transfers to the dog, suggesting some selection pressure from the change of host. However, there are no changes to which we can attribute the UTI event in the dog, which suggests that this occurrence after 2 years of the clone being in the household may have been due to chance, or some unknown change in the host or environment. The ability of a UTI strain to persist for 2 years and also to transfer readily within a household has implications for epidemiology, diagnosis, and clinical intervention. [ABSTRACT FROM AUTHOR]

Published

2011

22. Genetic analysis of the O-antigen gene clusters of Yersinia pseudotuberculosis O:6 and O:7.

Author

Cunneen, Monica M, Pacinelli, Elvia, Song, Wen Chao, and Reeves, Peter R

Subjects

YERSINIA pseudotuberculosis, MICROCLUSTERS, ANTIGENS, GLYCOSYLTRANSFERASES, NUCLEOTIDE sequence, LOCUS (Genetics), SEROTYPES, GENETICS

Abstract

Among the 21 O-polysaccharide (OPS) O-antigen-based serotypes described for Yersinia pseudotuberculosis, those of O:6 and O:7 are unusual in that both contain colitose (4-keto-3,6-dideoxy-d-mannose or 4-keto-3,6-dideoxy-l-xylo-hexose), which has not otherwise been reported for this species, and the O:6 OPS also contains yersiniose A (4-C[(R)-1-hydroxyethyl]-3,6-dideoxy-d-xylo-hexose), another unusual dideoxyhexose sugar. In Y. pseudotuberculosis, the genes for OPS synthesis generally cluster together between the hemH and gsk loci. Here, we present the sequences of the OPS gene clusters of Y. pseudotuberculosis O:6 and O:7, and the location of the genes required for synthesis of these OPSs, except that there is still ambiguity regarding allocation of some of the glycosyltransferase functions. The O:6 and O:7 gene clusters have much in common with each other, but differ substantially from the group of 13 gene clusters already sequenced, which share several features and sequence similarities. We also present a possible sequence of events for the derivation of the O:6 and O:7 gene clusters from the most closely related set of 13 sequenced previously. [ABSTRACT FROM PUBLISHER]

Published

2011

23. The genetics and structure of the O-specific polysaccharide of Yersinia pseudotuberculosis serotype O:10 and its relationship with Escherichia coli O111 and Salmonella enterica O35.

Author

Kenyon, Johanna J, De Castro, Cristina, Cunneen, Monica M, Reeves, Peter R, Molinaro, Antonio, Holst, Otto, and Skurnik, Mikael

Subjects

POLYSACCHARIDES, YERSINIA pseudotuberculosis, ESCHERICHIA coli, SALMONELLA, GRAM-negative bacteria, MICROCLUSTERS, NUCLEOTIDE sequence

Abstract

The O-specific polysaccharide (OPS) is a variable constituent of the lipopolysaccharide of Gram-negative bacteria. The polymorphic nature of OPSs within a species is usually first defined serologically, and the current serotyping scheme for Yersinia pseudotuberculosis consists of 21 O serotypes of which 15 have been characterized genetically and structurally. Here, we present the structure and DNA sequence of Y. pseudotuberculosis O:10 OPS. The O unit consists of one residue each of d-galactopyranose, N-acetyl-d-galactosamine (2-amino-2-deoxy-d-galactopyranose) and d-glucopyranose in the backbone, with two colitose (3,6-dideoxy-l-xylo-hexopyranose) side-branch residues. This structure is very similar to that shared by Escherichia coli O111 and Salmonella enterica O35. The gene cluster sequences of these serotypes, however, have only low levels of similarity to that of Y. pseudotuberculosis O:10, although there is significant conservation of gene order. Within Y. pseudotuberculosis, the O10 structure is most closely related to the O:6 and O:7 structures. [ABSTRACT FROM PUBLISHER]

Published

2011

24. Genetic characterisation and structural analysis of the O-specific polysaccharide of Yersinia pseudotuberculosis serotype O:1c.

Author

De Castro, Cristina, Kenyon, Johanna J., Cunneen, Monica M., Reeves, Peter R., Molinaro, Antonio, Holst, Otto, and Skurnik, Mikael

Subjects

POLYSACCHARIDES, YERSINIA pseudotuberculosis, CHEMICAL structure, BIOSYNTHESIS, ANTIGENS, SEROTYPES, GENETIC transformation

Abstract

Many, but not all, of the current 21 serotypes of Yersinia pseudotuberculosis have been investigated with regard to the chemical structures of their O-specific polysaccharide (OPS) and the genetic basis of their biosynthesis. Completion of the genetics and structures of the remaining serotypes will enhance our understanding of the emerging relationship between genetics and structures within this species. Here, we present a structural and genetic analysis of the Y. pseudotuberculosis serotype O:1c OPS. Our results showed that this OPS has the same backbone as Y. pseudotuberculosis O:2b, but with a 3,6-dideoxy-D-ribo-hexofuranose (paratofuranose, Parf) side-branch instead of a 3,6-dideoxy-D-xylo-hexopyranose (abequopyranose, Abep). The 3'-end of the gene cluster is the same as for O:2b and has the genes for synthesis of the backbone and for processing the completed repeat unit. The 5'-end of the cluster consists of the same genes as O:1b for synthesis of Parf and a related gene for its transfer to the repeating unit backbone. [ABSTRACT FROM AUTHOR]

Published

2011

25. Insight into Evolution of Bordetella pertussis from Comparative Genomic Analysis: Evidence of Vaccine-Driven Selection.

Author

Octavia, Sophie, Maharjan, Ram P., Sintchenko, Vitali, Stevenson, Gordon, Reeves, Peter R., Gilbert, Gwendolyn L., and Lan, Ruiting

Abstract

Despite high vaccine coverage, pertussis incidence has increased substantially in recent years in many countries. A significant factor that may be contributing to this increase is adaptation to the vaccine by Bordetella pertussis, the causative agent of pertussis. In this study, we first assessed the genetic diversity of B. pertussis by microarray-based comparative genome sequencing of 10 isolates representing diverse genotypes and different years of isolation. We discovered 171 single nucleotide polymorphisms (SNPs) in a total of 1.4 Mb genome analyzed. The frequency of base changes was estimated as one per 32 kb per isolate, confirming that B. pertussis is one of the least variable bacterial pathogens. We then analyzed an international collection of 316 B. pertussis isolates using a subset of 65 of the SNPs and identified 42 distinct SNP profiles (SPs). Phylogenetic analysis grouped the SPs into six clusters. The majority of recent isolates belonged to clusters I–IV and were descendants of a single prevaccine lineage. Cluster I appeared to be a major clone with a worldwide distribution. Typing of genes encoding acellular vaccine (ACV) antigens, ptxA, prn, fhaB, fim2, and fim3 revealed the emergence and increasing incidence of non-ACV alleles occurring in clusters I and IV, which may have been driven by ACV immune selection. Our findings suggest that B. pertussis, despite its high population homogeneity, is evolving in response to vaccination pressure with recent expansion of clones carrying variants of genes encoding ACV antigens. [ABSTRACT FROM PUBLISHER]

Published

2011

26. Bordetella pertussis clones identified by multilocus variable-number tandem-repeat analysis.

Author

Kurniawan J, Maharjan RP, Chan WF, Reeves PR, Sintchenko V, Gilbert GL, Mooi FR, Lan R, Kurniawan, Jacob, Maharjan, Ram P, Chan, Wai Fong, Reeves, Peter R, Sintchenko, Vitali, Gilbert, Gwendolyn L, Mooi, Frits R, and Lan, Ruiting

Abstract

Multilocus variable-number tandem-repeat analysis (MLVA) of 316 Bordetella pertussis isolates collected over 40 years from Australia and 3 other continents identified 66 MLVA types (MTs), including 6 predominant MTs. Typing of genes encoding acellular vaccine antigens showed changes that may be vaccine driven in 2 MTs prevalent in Australia. [ABSTRACT FROM AUTHOR]

Published

2010

27. Bordetella pertussis Clones Identified by Multilocus Variable-Number Tandem-Repeat Analysis.

Author

Kurniawan, Jacob, Maharjan, Ram P., Wai-Fong Chan, Reeves, Peter R., Sintchenko, Vitali, Á, Gwendolyn L., Mooi, Frits R., and Lan, Ruiting

Subjects

BORDETELLA pertussis, WHOOPING cough vaccines, ANTIGENS, VACCINES, PREVENTIVE medicine

Abstract

Multilocus variable-number tandem-repeat analysis (MLVA) of 316 Bordetella pertussis isolates collected over 40 years from Australia and 3 other continents identified 66 MLVA types (MTs), including 6 predominant MTs, Typing of genes encoding acellular vaccine antigens showed changes that may be vaccine driven in 2 MTs prevalent in Australia. [ABSTRACT FROM AUTHOR]

Published

2010

28. Derivation of Escherichia coli O157:H7 from Its O55:H7 Precursor.

Author

Zhemin Zhou, Xiaomin Li, Bin Liu, Beutin, Lothar, Jianguo Xu, Yan Ren, Lu Feng, Ruiting Lan, Reeves, Peter R., and Lei Wang

Subjects

ESCHERICHIA coli O157:H7, SPECIES diversity, GENOMES, PROTEOMICS, GENETIC transformation, CHROMOSOMES, VIBRIO cholerae, GENETIC mutation, CLONING

Abstract

There are 29 E. coli genome sequences available, mostly related to studies of species diversity or mode of pathogenicity, including two genomes of the well-known O157:H7 clone. However, there have been no genome studies of closely related clones aimed at exposing the details of evolutionary change. Here we sequenced the genome of an O55:H7 strain, closely related to the major pathogenic O157:H7 clone, with published genome sequences, and undertook comparative genomic and proteomic analysis. We were able to allocate most differences between the genomes to individual mutations, recombination events, or lateral gene transfer events, in specific lineages. Major differences include a type II secretion system present only in the O55:H7 chromosome, fewer type III secretion system effectors in O55:H7, and 19 phage genomes or phagelike elements in O55:H7 compared to 23 in O157:H7, with only three common to both. Many other changes were found in both O55:H7 and O157:H7 lineages, but in general there has been more change in the O157:H7 lineages. For example, we found 50% more synonymous mutational substitutions in O157:H7 compared to O55:H7. The two strains also diverged at the proteomic level. Mutational synonymous SNPs were used to estimate a divergence time of 400 years using a new clock rate, in contrast to 14,000 to 70,000 years using the traditional clock rates. The same approaches were applied to three closely related extraintestinal pathogenic E. coli genomes, and similar levels of mutation and recombination were found. This study revealed for the first time the full range of events involved in the evolution of the O157:H7 clone from its O55:H7 ancestor, and suggested that O157:H7 arose quite recently. Our findings also suggest that E. coli has a much lower frequency of recombination relative to mutation than was observed in a comparable study of a Vibrio cholerae lineage. [ABSTRACT FROM AUTHOR]

Published

2010

29. Importation of the major pilin TcpA gene and frequent recombination drive the divergence of the Vibrio pathogenicity island in Vibrio cholerae.

Author

Chin Yen Tay, Reeves, Peter R., and Ruiting Lan

Subjects

GENETIC recombination, BACTERIAL genetics, GENES, VIBRIO cholerae, PATHOGENIC bacteria, MICROBIAL virulence, PATHOGENIC microorganisms, CHOLERA, VIBRIO infections

Abstract

The Vibrio pathogenicity island (VPI) encodes the toxin-coregulated pilus and other virulence factors for Vibrio cholerae to colonize the human intestine to cause cholera. We assessed the level of genetic variation of VPI in nine nonpandemic isolates, and compared them with the sixth and seventh pandemic strains by sequencing c. 5 kb each from the start, middle and end regions of the VPI. Variation is similar among the three regions at around 2%, except for the tcpA gene, which has a much higher level of variation (23%). Numerous recombination segments were identified with sizes up to 2177 bp. Nearly all VPI genes sequenced have a ratio of synonymous to nonsynonymous substitutions considerably lower than that for housekeeping genes, suggesting that VPI genes are under positive selection pressure for change. The tagA gene was deleted or damaged in six isolates, which is likely to affect the efficiency of colonization of the human intestine. Two genes, orf2 and acfD, previously found to be translated differently in the sixth and seventh pandemic strains, were determined to be mutant in the seventh and sixth pandemic strains, respectively. These findings enhance our understanding of variation in the VPI, and of the pathogenic potential of VPI-positive environmental isolates. [ABSTRACT FROM AUTHOR]

Published

2008

30. A Recalibrated Molecular Clock and Independent Origins for the Cholera Pandemic Clones.

Author

Lu Feng, Reeves, Peter R., Ruiting Lan, Yi Ren, Chunxu Gao, Zhemin Zhou, Yan Ren, Jiansong Cheng, Wei Wang, Jianmei Wang, Wubin Qian, Dan Li, and Lei Wang

Subjects

MOLECULAR clock, MOLECULAR biology techniques, MOLECULAR evolution, BIOLOGICAL models, CHOLERA, PANDEMICS, EPIDEMIOLOGY, COMMUNICABLE diseases, GENOMES, INFECTIOUS disease transmission

Abstract

Cholera, caused by Vibrio cholerae, erupted globally from South Asia in 7 pandemics, but there were also local outbreaks between the 6th (1899-1923) and 7th (1961-present) pandemics. All the above are serotype O1, whereas environmental or invertebrate isolates are antigenically diverse. The pre 7th pandemic isolates mentioned above, and other minor pathogenic clones, are related to the 7th pandemic clone, while the 6th pandemic clone is in the same lineage but more distantly related, and non-pathogenic isolates show no clonal structure. To understand the origins and relationships of the pandemic clones, we sequenced the genomes of a 1937 prepandemic strain and a 6th pandemic isolate, and compared them with the published 7th pandemic genome. We distinguished mutational and recombinational events, and allocated these and other events, to specific branches in the evolutionary tree. There were more mutational than recombinational events, but more genes, and 44 times more base pairs, changed by recombination. We used the mutational single-nucleotide polymorphisms and known isolation dates of the prepandemic and 7th pandemic isolates to estimate the mutation rate, and found it to be 100 fold higher than usually assumed. We then used this to estimate the divergence date of the 6th and 7th pandemic clones to be about 1880. While there is a large margin of error, this is far more realistic than the 10,000-50,000 years ago estimated using the usual assumptions. We conclude that the 2 pandemic clones gained pandemic potential independently, and overall there were 29 insertions or deletions of one or more genes. There were also substantial changes in the major integron, attributed to gain of individual cassettes including copying from within, or loss of blocks of cassettes. The approaches used open up new avenues for analysing the origin and history of other important pathogens. [ABSTRACT FROM AUTHOR]

Published

2008

31. Membrane topology of the Salmonella enterica serovar Typhimurium Group B O-antigen translocase Wzx.

Author

Cunneen, Monica M. and Reeves, Peter R.

Subjects

TOPOLOGY, SALMONELLA, ANTIGENS, CYTOPLASM, ENDOTOXINS, CELL membranes, POLYSACCHARIDES, GENE fusion, PROTEINS, BACTERIAL cell walls

Abstract

The O-antigen translocase, Wzx, is involved in translocation of bacterial polysaccharide repeat units across the cytoplasmic membrane, and is an unusually diverse, highly hydrophobic protein, with high numbers of predicted α-helical transmembrane segments (TMS). The Salmonella enterica serovar Typhimurium Group B O-antigen Wzx was an ideal candidate for topological study as the O-antigen gene cluster is one of only a few that have been well characterized. The topology profile prediction for this protein was determined using five programs, with different recognition parameters, which consistently predict that 12 TMS are present. A membrane topology model was constructed by analysis of lacZ and phoA gene fusions at randomly selected and targeted fusion sites within wzx. Enzyme activity of these, and full-length C-terminal fusion proteins, confirmed the 12-TMS topology for this Wzx, and also indicated that the C-terminus was located within the cytoplasm, which is consistent with the predicted topology. [ABSTRACT FROM AUTHOR]

Published

2008

32. Structure and genetics of Shigella O antigens.

Author

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

Subjects

SHIGELLA, ANTIGENS, GENETICS, SHIGELLA flexneri, NUCLEOTIDE sequence, ESCHERICHIA coli, SHIGELLA sonnei, GENES, BACTERIA

Abstract

This review covers the O antigens of the 46 serotypes of Shigella, but those of most Shigella flexneri are variants of one basic structure, leaving 34 Shigella distinct O antigens to review, together with their gene clusters. Several of the structures and gene clusters are reported for the first time and this is the first such group for which structures and DNA sequences have been determined for all O antigens. Shigella strains are in effect Escherichia coli with a specific mode of pathogenicity, and 18 of the 34 O antigens are also found in traditional E. coli. Three are very similar to E. coli O antigens and 13 are unique to Shigella strains. The O antigen of Shigella sonnei is quite atypical for E. coli and is thought to have transferred from Plesiomonas. The other 12 O antigens unique to Shigella strains have structures that are typical of E. coli, but there are considerably more anomalies in their gene clusters, probably reflecting recent modification of the structures. Having the complete set of structures and genes opens the way for experimental studies on the role of this diversity in pathogenicity. [ABSTRACT FROM AUTHOR]

Published

2008

33. The Yersinia kristensenii O11 O-Antigen Gene Cluster was Acquired by Lateral ene Transfer and Incorporated at a Novel Chromosomal Locus.

Author

Cunneen, Monica M. and Reeves, Peter R.

Published

2007

34. Sex and virulence in Escherichia coli: an evolutionary perspective.

Author

Wirth, Thierry, Falush, Daniel, Lan, Ruiting, Colles, Frances, Mensa, Patience, Wieler, Lothar H., Karch, Helge, Reeves, Peter R., Maiden, Martin C. J., Ochman, Howard, and Achtman, Mark

Subjects

PATHOGENIC microorganisms, ESCHERICHIA coli, DYSENTERY, GENOMES, MICROBIAL virulence, IMMUNE response

Abstract

Pathogenic Escherichia coli cause over 160 million cases of dysentery and one million deaths per year, whereas non-pathogenic E. coli constitute part of the normal intestinal flora of healthy mammals and birds. The evolutionary pathways underlying this dichotomy in bacterial lifestyle were investigated by multilocus sequence typing of a global collection of isolates. Specific pathogen types [enterohaemorrhagic E. coli, enteropathogenic E. coli, enteroinvasive E. coli, K1 and Shigella] have arisen independently and repeatedly in several lineages, whereas other lineages contain only few pathogens. Rates of evolution have accelerated in pathogenic lineages, culminating in highly virulent organisms whose genomic contents are altered frequently by increased rates of homologous recombination; thus, the evolution of virulence is linked to bacterial sex. This long-term pattern of evolution was observed in genes distributed throughout the genome, and thereby is the likely result of episodic selection for strains that can escape the host immune response. [ABSTRACT FROM AUTHOR]

Published

2006

35. Genetic Analysis of the Capsular Biosynthetic Locus from All 90 Pneumococcal Serotypes.

Author

Bentley, Stephen D., Aanensen, David M., Mavroidi, Angeliki, Saunders, David, Rabbinowitsch, Ester, Collins, Matthew, Donohoe, Kathy, Harris, David, Murphy, Lee, Quail, Michael A., Samuel, Gabby, Skovsted, Ian C., Kaltoft, Margit Staum, Barrell, Bart, Reeves, Peter R., Parkhill, Julian, and Spratt, Brian G.

Subjects

PNEUMOCOCCAL vaccines, IMMUNOCHEMISTRY, POLYSACCHARIDE synthesis, STREPTOCOCCUS pneumoniae, BIOSYNTHESIS, CHROMOSOME inversions, DNA replication, INFECTIOUS disease transmission

Abstract

Several major invasive bacterial pathogens are encapsulated. Expression of a polysaccharide capsule is essential for survival in the blood, and thus for virulence, but also is a target for host antibodies and the basis for effective vaccines. Encapsulated species typically exhibit antigenic variation and express one of a number of immunochemically distinct capsular polysaccharides that define serotypes. We provide the sequences of the capsular biosynthetic genes of all 90 serotypes of Streptococcus pneumoniae and relate these to the known polysaccharide structures and patterns of immunological reactivity of typing sera, thereby providing the most complete understanding of the genetics and origins of bacterial polysaccharide diversity, laying the foundations for molecular serotyping. This is the first time, to our knowledge, that a complete repertoire of capsular biosynthetic genes has been available, enabling a holistic analysis of a bacterial polysaccharide biosynthesis system. Remarkably, the total size of alternative coding DNA at this one locus exceeds 1.8 Mbp, almost equivalent to the entire S. pneumoniae chromosomal complement. [ABSTRACT FROM AUTHOR]

Published

2006

36. Evolutionary origins and sequence of the Escherichia coli O4 O-antigen gene cluster

Author

D’Souza, Jocelyne M., Samuel, Gabrielle N., and Reeves, Peter R.

Subjects

ESCHERICHIA coli, CELL membranes, BIOCHEMISTRY, GENES

Abstract

Abstract: Escherichia coli express many types of O antigen, present in the outer membrane of the Gram-negative bacterial cell wall. O-Antigen biosynthesis genes are clustered together and differences seen in O-antigen types are due to genetic variation within this gene cluster. Sequencing of the E. coli O4 O-antigen gene cluster revealed a similar gene order and high levels of similarity to that of E. coli O26; indicating a common ancestor. These lateral transfer events observed within O-antigen gene clusters may occur as part of the evolution of the pathogenic clones. [Copyright &y& Elsevier]

Published

2005

37. Deletion of the Escherichia coli O14:K7 O antigen gene cluster.

Author

Jensen, Slade O. and Reeves, Peter R.

Subjects

BACTERIAL genetics, ESCHERICHIA coli, MANNOSE, ANTIGENS, ENTEROBACTERIAL vaccines, ENDOTOXINS, GENES

Abstract

Copyright of Canadian Journal of Microbiology is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2004

38. Population genetics of Escherichia coli in a natural population of native Australian rats.

Author

Pupo, Gulietta M., Lan, Ruiting, Reeves, Peter R., and Baverstock, Peter R.

Subjects

ESCHERICHIA coli, MICROORGANISM populations, RATS

Abstract

Escherichia coli, a normal inhabitant of the intestinal tract of mammals and birds, is a diverse species. Most studies on E. coli populations involve organisms from humans or human-associated animals. In this study, we undertook a survey of E. coli from native Australian mammals, predominantly Rattus tunneyi, living in a relatively pristine environment in the Bundjalung National Park. The genetic diversity was assessed and compared by multilocus enzyme electrophoresis (MLEE), sequence analysis of the mdh (malate dehydrogenase) gene and biotyping using seven sugars. Ninety-nine electrophoretic types were identified from the 242 isolates analysed by MLEE and 15 sequences from the mdh genes sequenced from 21 representative strains. The Bundjalung isolates extend the diversity represented by the E. coli reference (ECOR) set, with new MLEE alleles found in six out of 10 loci. Many of the Bundjalung isolates fell into a discrete group in MLEE. Other Bundjalung strains fell into the recognized E. coli ECOR set groups, but tended to be at the base of both the MLEE and mdh gene trees, implying that these strains are derived independently from ancestral forms of the ECOR groups and that ECOR strains represent only a subset of E. coli adapted to humans and human-associated animals. Linkage disequilibrium analysis showed that the Bundjalung population has an ‘epidemic’ population structure. The Bundjalung isolates were able to utilize more sugars than the ECOR strains, suggesting that diet plays a prominent role in adaptation of E. coli. [ABSTRACT FROM AUTHOR]

Published

2000

39. Structure and genetics of Escherichia coli O antigens.

Author

Liu, Bin, Furevi, Axel, Perepelov, Andrei V, Guo, Xi, Cao, Hengchun, Wang, Quan, Reeves, Peter R, Knirel, Yuriy A, Wang, Lei, and Widmalm, Göran

Subjects

ESCHERICHIA coli, ANTIGENS, ATP-binding cassette transporters, GENETICS, GENE clusters

Abstract

Escherichia coli includes clonal groups of both commensal and pathogenic strains, with some of the latter causing serious infectious diseases. O antigen variation is current standard in defining strains for taxonomy and epidemiology, providing the basis for many serotyping schemes for Gram-negative bacteria. This review covers the diversity in E. coli O antigen structures and gene clusters, and the genetic basis for the structural diversity. Of the 187 formally defined O antigens, six (O31, O47, O67, O72, O94 and O122) have since been removed and three (O34, O89 and O144) strains do not produce any O antigen. Therefore, structures are presented for 176 of the 181 E. coli O antigens, some of which include subgroups. Most (93%) of these O antigens are synthesized via the Wzx/Wzy pathway, 11 via the ABC transporter pathway, with O20, O57 and O60 still uncharacterized due to failure to find their O antigen gene clusters. Biosynthetic pathways are given for 38 of the 49 sugars found in E. coli O antigens, and several pairs or groups of the E. coli antigens that have related structures show close relationships of the O antigen gene clusters within clades, thereby highlighting the genetic basis of the evolution of diversity. [ABSTRACT FROM AUTHOR]

Published

2020

40. Single-gene long-read sequencing illuminates Escherichia coli strain dynamics in the human intestinal microbiome.

Author

Hu, Dalong, Fuller, Nicholas R., Caterson, Ian D., Holmes, Andrew J., and Reeves, Peter R.

Abstract

Gut microbiome is of major interest due to its close relationship to health and disease. Bacteria usually vary in gene content, leading to functional variations within species, so resolution higher than species-level methods is needed for ecological and clinical relevance. We design a protocol to identify strains in selected species with high discrimination and in high numbers by amplicon sequencing of the flagellin gene. We apply the protocol to fecal samples from a human diet trial, targeting Escherichia coli. Across the 119 samples from 16 individuals, there are 1,532 amplicon sequence variants (ASVs), but only 32 ASVs are dominant in one or more fecal samples, despite frequent dominant strain turnover. Major strains in an intestine are found to be commonly accompanied by a large number of satellite cells, and many are identified as potential extraintestinal pathogens. The protocol could be used to track epidemics or investigate the intra- or inter-host diversity of pathogens. [Display omitted] • Flagellin gene is a good marker to profile strain-level composition of microbiomes • E. coli have a dynamic and complex population structure in human gut • Dominant E. coli strain is accompanied by many satellite strains in human gut • Flagellin-gene-based method can be used for potential pathogen detection and tracing Using the highly diverse bacterial flagellin gene as the marker in long-read sequencing, Hu et al. develop a protocol for profiling strain composition in microbiomes at a high resolution and illuminate detailed population structure and major E. coli strain turnover in human gut. [ABSTRACT FROM AUTHOR]

Published

2022

41. <em>In vitro</em> synthesis of CDP-D-abequose using <em>Salmonella</em> enzymes of cloned <em>rfb</em> genes.

Author

Lindqvist, Lennart, Schweda, K. H., Reeves, Peter R., and Lindberg, Alf A.

Subjects

ENZYMES, GENES, SALMONELLA, ESCHERICHIA coli, PATHOLOGY, DIAGNOSTIC bacteriology, MICROBIOLOGY

Abstract

In vitro enzymic synthesis of CDP-D-abequose, CDP-D-[U-14C]abequose, CDP-6-deoxy-D-xylo-4-hexulose and CDP-3,6-dideoxy-o-x3,/o-4-hexulose was achieved using enzymes from cell extracts of cultures of Escherichia coli strains harbouring and expressing genes of the rfb gene cluster of Salmonella enterica LT2. From an initial synthesis step, CDP-6-deoxy-D-xylo-4-hexulose was isolated after 30 rain reaction, using CDP-D-glucose. NAD and CDP-glucose 4,6-dehydratase, followed by protein precipitation and desalting by gel chromatography (yield 90.6%). From that intermediate, CDP-3,6-dideoxy-D-xylo-4-hexulose was produced in a reaction using NADH and a crude extract containing the required enzymes. CDP-D-abequose synthesis was performed either in the presence of excess NADH and NADPH or using an enzymic system which regenerates low concentrations of the coenzymes. In a two-step reaction, CDP-D-glucose was first converted to CDP-6-deoxy-D- xylo-4-hexulose, then, following addition of the required coenzymes and enzymes. CDP-D-abequose was formed from this intermediary product in a I-h incubation. Starting from 250 mg CDP-D- glucose, the molar yield of CDP-D-abequose after protein precipitation and HPLC was 82%. corre- sponding to more than 200 mg. CDP-D-[U-14C]abequose was synthesised from α-D-[U14C]glucose 1-phosphate and CTP using purified glucose-l-phosphate cytidylyltransferase in a reaction preceding the later steps. GC-MS and NMR revealed that the hexose part of the end product was 3.6- dideoxy-D-galactose (abequose) and that the corresponding intermediates were 4-keto-6-deoxy-D- xylo-hexose and 4-keto-3,6-dideoxy-D-xylo-hexose, respectively. The synthesized CDP-6-deoxy-D-xylo-4-hexulose exhibited the characteristic ultraviolet light absorption at 318 nm but no corresponding absorption was found for CDP-3,6-dideoxy-D-xylo-4-hexulose. A HPLC technique, where the four CDP-sugars were baseline separated, was developed and used for enzyme assays and for the analysis of synthesized products. [ABSTRACT FROM AUTHOR]

Published

1994

42. Purification characterization and HPLC assay of Salmonella glucose-1-phosphate thymidylytransferase from the cloned rfbA gene.

Author

Lindquist, Lennart, Kaiser, Rudolf, Reeves, Peter R., and Lindberg, Alf A.

Subjects

TRANSFERASES, SALMONELLA, GENES, AMINO acids, BIOSYNTHESIS

Abstract

We here report on the purification and characterization of glucose-1-phosphate thymidyly-transferase, the first of four enzymes commited to biosynthesis of dTDP-L-rhamnose from Salmonella enterica strain LT2. The purification was greatly facilitated by the cloning of the rfbA gene encoding this enzyme. Pure enzyme was obtained by 109-fold enrichment in three chromatography steps. The glucose-1-phosphate thymidylyltransferase catalyzes a reversible bimolecular group transfer reaction and kinetic measurements indicate that it acts by a “ping-pong” mechanism. The K[sub m] values for dTTP and α-D-glucose 1-phosphate in the forward reaction are 0.020 mM and 0.11 mM, respectively. In the reverse reaction the K[sub m] values for dTDP-D-glucose and diphosphate are 0.083 mM and 0.15 mM. respectively. The enzyme also accepts UTP and UDP-D-glucose and α-D-glucosamine 1-phosphate is accepted equally as well as α-D-glucose 1-phosphate. The NH[sub 2]-terminal sequence of glucose-1-phosphate thymidylyltransferase agrees with the sequence predicted from the nucleotide sequence of the orf6.1 gene of the rfb gene cluster. The SDS/PAGE estimated subunit mass of 31 kDa agrees well with that calculated from the amino acid composition deduced from the nucleotide sequence of the orf6.1 gene (32453 Da}. [ABSTRACT FROM AUTHOR]

Published

1993

43. Enzymatic synthesis and isolation of thymidine diphosphate-6-deoxy-D-<em>xylo</em>-4-hexulose and thymidine diphosphate-L-rhamnose.

Author

Marumo, Kenji, Lindqvist, Lennart, Verma, Naresh, Weintraub, Andrej, Reeves, Peter R., and Lindberg, Alf A.

Subjects

BIOSYNTHESIS, ENZYMES, THYMIDINE, ESCHERICHIA coli, HIGH performance liquid chromatography, BIOCHEMISTRY

Abstract

A two-step enzymatic synthesis of dTDP-L-rhamnose is developed using enzymes from sonicated extracts of cultures of Escherichia coli K12 strains harboring plasmids containing different parts of the rib gene cluster of Salmonella enterica LT2. The intermediate dTDP-6-deoxy-D-xylo-4-hexulose was isolated after a 1-h reaction, using only dTDP-D-glucose and dTDP-D-glucose 4,6-dehydratase, followed by protein precipitation and desalting by gel chromatography (yield 89%). In a two-step reaction using dTDP-D-glucose and dTDP-D-glucose 4,6-dehydratase in the first step, and with NADPH, dTDP-6-deoxy-D-xylo-4-hexulose 3,5-epimerase and NADPH:dTDP-6-deoxy-L-lyxo-4-hexulose-4-reductase in the second hour of incubation, the dTDP-D-glucose was fully converted to dTDP-L-rhamnose. The hexoses of both products were identified by mass spectroscopy. The molar yield of dTDP-L-rhamnose, after protein precipitation, anion-exchange chromatography and desalting by gel chromatography, was 62%, corresponding to more than 150 mg, starting from 250 mg of dTDP-D-glucose. When stored lyophilysed under nitrogen, these products were found to be stable for several months. Both dTDP-6-deoxy-D-xylo-4-hexulose and dTDP-L-rhamnose have light absorption maxima at 267 nm, with molar absorption coefficients close to that of dTMP. However, the absorption coefficient of dTDP-6-deoxy-D-xylo-4-hexulose at the absorption maximum of 320 nm (specific for sugars containing keto groups) was found to be approximately 20% higher than values presented earlier. Furthermore, an HPLC technique is presented for determining the net activity of dTDP-6-deoxyD-xylo-4-hexulose 3,5-epimerase and NADPH:dTDP-6-deoxy-L-lyxo-4-hexulose-4-reductase, based on separation of dTDP-6-deoxy-D-xylo-4-hexulose and dTDP-L-rhamnose. The HPLC technique is also suitable for determination of all the nucleotide components involved in the synthesis. [ABSTRACT FROM AUTHOR]

Published

1992

44. Repeat unit polysaccharides of bacteria: a model for polymerization resembling that of ribosomes and fatty acid synthetase, with a novel mechanism for determining chain length.

Author

Bastin, David A., Stevenson, Gordon, Brown, Peter K., Haase, Antje, and Reeves, Peter R.

Subjects

ESCHERICHIA coli, SALMONELLA, POLYSACCHARIDES, ANTIGENS, GENES

Abstract

We report the identification and sequence from Escherichia coli and Salmonelia enterica strains of the cid gene, encoding the chain-length determinant (CLO) which confers a modal distribution of chain length on the O-antigen component of lipopolysaccharide (LPS). The distribution of chain lengths in the absence of this gene fits a model in which as the chain is extended there is a constant probability of 0.165 of transfer of growing chain to LPS core, with termination of chain extension. The data for E. coli O111 fit a model in which the CLD reduces this probability for short chains and increases it to 0.4 for longer chains, leading to a reduced number of short chain molecules but an increase in numbers of longer molecules and transfer of essentially all molecules by chain length 21. We put forward a model for O-antigen polymerase which resembles the ribosome and fatty acid synthetase in having two sites, with the growing chain being transferred from a D site onto the new unit at the R site to extend the chain and then back to the D site to repeat the process. It is proposed that the CLD protein and polymerase form a complex which has two states: 'E' facilitating extension and 'T' facilitating transfer to core. The complex is postulated to enter the E state as O-antigen polymerization starts, and to shift to the T state after a predetermined time, the CLD acting as a molecular clock. The CLD is not O-antigen or species-specific but the modal value does depend on the source of the cid gene. [ABSTRACT FROM AUTHOR]

Published

1993

45. Cholera in the 1990s.

Author

Reeves, Peter R and Lan, Ruiting

Published

1998

46. A Vibrio cholerae pathogenicity island associated with epidemic and pandemic strains.

Author

Karaolis, David K.R., Johnson, Judith A., Bailey, Camella C., Boedeker, Edgar C., Kaper, James B., and Reeves, Peter R.

Subjects

SCIENCE

Abstract

Presents a study which investigated the relationship between pathogenic and nonpathogenic strains. Identification of a chromosomal pathogenicity island (PAI) which is present in epidemic and pandemic strains; Details on the number of bacterial strains which were present; Indications of the results of the study; Information on the expression of cholera toxin (CT) and toxin-coregulated pilus (TCP).

Published

1998

47. Vibrio cholerae Pathogenic Clones.

Author

Salim, Anna, Lan, Ruiting, and Reeves, Peter R.

Subjects

VIBRIO cholerae, VIBRIO, GENES, CHOLERA, VIBRIO infections

Abstract

We resolved the relationships between 2 pandemic clones of Vibrio cholerae. Using 26 housekeeping genes, we showed that the US Gulf clone, the Australian clone, and 3 El Tor strains isolated before the seventh pandemic were related to the seventh pandemic clone. The sixth pandemic clone was well separated from them. [ABSTRACT FROM AUTHOR]

Published

2005

48. Two extremely divergent sequence forms of the genes that define Escherichia coli group 3 capsules suggest a very long history since their common ancestor.

Author

Hong, Yaoqin, Cunneen, Monica M, and Reeves, Peter R

Subjects

ESCHERICHIA coli, PHARMACEUTICAL encapsulation, POLYSACCHARIDES

Abstract

Capsules are a critical virulence factor in many pathogenic Escherichia coli, of which groups 2 and 3 capsules are synthesised by the ABC transporter pathway. The well-studied forms are in group 2 and much of our knowledge of group 3 is inferred from our understanding of group 2. We analyse six group 3 gene clusters including representatives of K10, K11 and K96, and find unexpected diversity. Groups 2 and 3 both have gene clusters with terminal regions 1 and 3 containing mostly genes shared by all members of both groups, plus a central region 2, that in group 2 has the genes for synthesising the serotype-specific repeat unit. We find that in all but one case group 3 gene clusters include, in addition to serotype-specific genes, a previously unrecognised set of shared genes in region 2 that probably codes for an additional structural element. Also, the six shared genes in regions 1 and 3 of group 3 exist in two very different sequence forms. It appears that the E. coli ABC transporter capsules have a very long history, with more fundamental diversity present in group 3, but greater diversity in the exposed strongly antigenic serotype-specific component encoded by region 2. [ABSTRACT FROM AUTHOR]

Published

2019

49. Wzx flippases exhibiting complex O‐unit preferences require a new model for Wzx–substrate interactions.

Author

Liu, Michael A., Morris, Paraskevi, and Reeves, Peter R.

Published

2019

50. MicroCorrespondence.

Author

Hobbs, Matthew and Reeves, Peter R.

Subjects

LETTERS to the editor, POLYSACCHARIDES

Abstract

Presents a letter to the editor about the conserved 39 bp sequence located in the non-coding region upstream of several bacterial gene clusters involved in the production of various polysaccharides.

Published

1994